diff --git a/.gitignore b/.gitignore
index 8d98f9d..7fd74c9 100644
--- a/.gitignore
+++ b/.gitignore
@@ -1 +1,23 @@
-.*
+.nfs*
+*.swp
+*.swo
+*~
+*.so
+*.egg
+*.bak
+*.pyc
+*Log.out
+*.log
+*.DS_Store
+
+.mypy_cache
+install/PriceSource*
+install/cdhit
+*.egg-info
+*__pycache__*
+
+
+databases/test/
+databases/human-bowtie
+databases/star-index-dir/
+docs/_build
diff --git a/.mypy.ini b/.mypy.ini
new file mode 100644
index 0000000..cf864de
--- /dev/null
+++ b/.mypy.ini
@@ -0,0 +1,22 @@
+
+# Global options:
+
+[mypy]
+warn_return_any = True
+warn_unused_configs = True
+strict_equality = True
+no_implicit_optional = True
+disallow_untyped_calls = True
+disallow_untyped_defs = True
+disallow_any_expr = True
+mypy_path = ./stubs/
+# Per-module options:
+
+# [mypy-mycode.foo.*]
+# disallow_untyped_defs = True
+# 
+# [mypy-mycode.bar]
+# warn_return_any = False
+# 
+# [mypy-somelibrary]
+# ignore_missing_imports = True
diff --git a/Dockerfile b/Dockerfile
index 4a53fc7..78b1d24 100644
--- a/Dockerfile
+++ b/Dockerfile
@@ -1,15 +1,14 @@
 FROM centos:centos7
 MAINTAINER Michael Panciera
 
-ARG GIT_USER
-ARG GIT_TOKEN
+ENV PYTHON_VERSION 3.6
 
 RUN yum -y update \
     && yum -y install curl bzip2 git wget make gcc-c++ \
-    && curl -sSL https://repo.continuum.io/miniconda/Miniconda2-latest-Linux-x86_64.sh -o /tmp/miniconda.sh \
+    && curl -sSL https://repo.anaconda.com/miniconda/Miniconda3-latest-Linux-x86_64.sh -o /tmp/miniconda.sh \ 
     && bash /tmp/miniconda.sh -bfp /usr/local/ \
     && rm -rf /tmp/miniconda.sh \
-    && conda install -y python=2 \
+    && conda install -y python=$PYTHON_VERSION \
     && conda update conda \
     && conda clean --all --yes \
     && rpm -e --nodeps curl bzip2 \
@@ -17,10 +16,14 @@ RUN yum -y update \
 
 ENV PATH "/usr/local/bin/:$PATH"
 
-RUN mkdir /HERE && cd /HERE && git clone https://${GIT_USER}:${GIT_TOKEN}@github.com/averagehat/pathos.git \
-    && cd pathos/install \
-    && sh assume-conda-install.sh /usr/local/bin/ \ 
+ENV RUNTYPE "TEST"
+ADD . /app
+WORKDIR /app
+
+RUN    cd install \
+    && bash assume-conda-install.sh /usr/local/bin/ \ 
     && cd .. \
     && sh mk_yaml.sh > test.yaml \
     && cd databases \
-    && make krona 
+    && sh test-setup.sh \
+    && pip install -r ../install/test-requirements.txt 
diff --git a/Dockerfile.local b/Dockerfile.local
new file mode 100644
index 0000000..4d632c9
--- /dev/null
+++ b/Dockerfile.local
@@ -0,0 +1,35 @@
+FROM centos:centos7
+MAINTAINER Michael Panciera
+
+ARG GIT_USER
+ARG GIT_TOKEN
+ENV PYTHON_VERSION 3.7.1
+
+RUN yum -y update \
+    && yum -y install curl bzip2 git wget make gcc-c++ \
+    && curl -sSL https://repo.anaconda.com/miniconda/Miniconda3-latest-Linux-x86_64.sh -o /tmp/miniconda.sh \ 
+    && bash /tmp/miniconda.sh -bfp /usr/local/ \
+    && rm -rf /tmp/miniconda.sh \
+    && conda install -y python=$PYTHON_VERSION \
+    && conda update conda \
+    && conda clean --all --yes \
+    && rpm -e --nodeps curl bzip2 \
+    && yum clean all
+
+ENV PATH "/usr/local/bin/:$PATH"
+
+ENV RUNTYPE "TEST"
+
+ADD . /pathos/
+
+WORKDIR /pathos/
+
+RUN    cd install \
+    && sh assume-conda-install.sh /usr/local/bin/ \ 
+    && cd .. \
+    && sh mk_yaml.sh > test.yaml \
+    && sh test-setup.sh \
+    && pip install -r ../install/test-requirements.txt 
+#    && cd databases \
+#    && make krona 
+
diff --git a/databases/cut_10k.fa b/databases/cut_10k.fa
new file mode 100644
index 0000000..89ae99e
--- /dev/null
+++ b/databases/cut_10k.fa
@@ -0,0 +1,9992 @@
+>ref|ref|X17276.1|| Giant Panda satellite 1 DNA
+GATCCTCCCCAGGCCCCTACACCCAATGTGGAACCGGGGTCCCGAATGAAAATGCTGCTGTTCCCTGGAGGTGTTTTCCT
+GGACGCTCTGCTTTGTTACCAATGAGAAGGGCGCTGAATCCTCGAAAATCCTGACCCTTTTAATTCATGCTCCCTTACTC
+ACGAGAGATGATGATCGTTGATATTTCCCTGGACTGTGTGGGGTCTCAGAGACCACTATGGGGCACTCTCGTCAGGCTTC
+CGCGACCACGTTCCCTCATGTTTCCCTATTAACGAAGGGTGATGATAGTGCTAAGACGGTCCCTGTACGGTGTTGTTTCT
+GACAGACGTGTTTTGGGCCTTTTCGTTCCATTGCCGCCAGCAGTTTTGACAGGATTTCCCCAGGGAGCAAACTTTTCGAT
+GGAAACGGGTTTTGGCCGAATTGTCTTTCTCAGTGCTGTGTTCGTCGTGTTTCACTCACGGTACCAAAACACCTTGATTA
+TTGTTCCACCCTCCATAAGGCCGTCGTGACTTCAAGGGCTTTCCCCTCAAACTTTGTTTCTTGGTTCTACGGGCTG
+>ref|ref|X51700.1|| Bos taurus mRNA for bone Gla protein
+GTCCACGCAGCCGCTGACAGACACACCATGAGAACCCCCATGCTGCTCGCCCTGCTGGCCCTGGCCACACTCTGCCTCGC
+TGGCCGGGCAGATGCAAAGCCTGGTGATGCAGAGTCGGGCAAAGGCGCAGCCTTCGTGTCCAAGCAGGAGGGCAGCGAGG
+TGGTGAAGAGACTCAGGCGCTACCTGGACCACTGGCTGGGAGCCCCAGCCCCCTACCCAGATCCGCTGGAGCCCAAGAGG
+GAGGTGTGTGAGCTCAACCCTGACTGTGACGAGCTAGCTGACCACATCGGCTTCCAGGAAGCCTATCGGCGCTTCTACGG
+CCCAGTCTAGAGCTTGCAGCCCTGCCCACCTGGCTGGCAGCCCCCAGCTCTGGCTTCTCTCCAGGACCCCTCCCCTCCCC
+GTCATCCCCGCTGCTCTAGAATAAACTCCAGAAGAGG
+>ref|ref|X68321.1|| B.taurus mRNA for cyclin A
+GAATTCCAGGAGGACCAGGAGAACGTCAATCCCGAGAAGGCGGCGCCCGCCCAGCAGCCCCGGACCCGGGCTGGACTGGC
+GGTACTGAGGGCCGGAAACTCGCGGGGTCCAGCTCCCCAGAGGCCTAAGACGCGACGGGTTGCACCTCTTAAGGATCTTC
+CTATAAATGATGAGTATGTCCCTGTTCCTCCCTGGAAAGCAAACAATAAACAGCCTGCATTTACCATACATGTGGATGAA
+GCAGAAGAAATTCAAAAGAGGCCAACTGAATCTAAAAAATCAGAAAGTGAAGATGTCTTGGCCTTTAATTCAGCTGTTAC
+TTTACCAGGACCAAGAAAGCCACTGGCACCTCTTGATTACCCAATGGATGGTAGTTTTGAGTCTCCACATACTATGGAAA
+TGTCAGTTGTATTGGAAGATGAAAAGCCAGTGAGTGTTAATGAAGTACCAGACTACCATGAGGACATTCACACGTACCTT
+AGGGAAATGGAGGTTAAATGTAAGCCTAAAGTGGGTTACATGAAGAAACAGCCAGACATTACTAACAGTATGAGGGCTAT
+CCTCGTGGACTGGTTAGTTGAAGTAGGAGAAGAATATAAACTGCAGAACGAGACCCTGCATTTGGCTGTGAACTACATTG
+ATAGGTTTCTTTCATCCATGTCTGTGTTGAGAGGAAAACTTCAACTTGTGGGCACTGCTGCTATGCTTTTAGCCTCAAAG
+TTTGAAGAGATATACCCGCCAGAAGTAGCAGAGTTTGTATACATTACAGATGACACTTATACCAAGAAACAAGTTCTAAG
+GATGGAGCACCTAGTCTTGAAAGTCCTGGCTTTTGACTTAGCTGCACCAACAATAAATCAGTTTCTTACCCAGTACTTTT
+TGCATCAGCAGCCTGCAAACTGCAAAGTTGAAAGTTTAGCAATGTTTTTGGGAGAGTTAAGTTTGATAGATGCTGACCCA
+TATCTAAAGTATTTGCCGTCAGTTATCGCTGCAGCAGCCTTTCATTTAGCACTCTACACAGTCACAGGACAAAGCTGGCC
+TGAATCATTAGTACAGAAGACTGGATATACTCTGGAAACTCTAAAGCCTTGTCTCCTGGACCTTCACCAGACCTACCTCA
+GAGCACCACAGCACGCACAACAGTCAATAAGAGAGAAGTACAAAAATTCAAAGTATCATGGTGTTTCTCTCCTCAACCCA
+CCAGAGACACTAAATGTGTAACAGTGAAAAGACTGCCTTTGTTTTCTAAGACTGTAAATCACATGCAATGTATATGGTGT
+ACAGATTTTATCTTAGGTTTTAATTTTACAACATTTCTGAATAAGAAGAGTTATGGTCCAGTACAAATTATGGTATCTAT
+TACTTTTTAAATGGTTTTAATTTGTATATCTTTTGTAAATGTAACTATCTTAGATATTTGGCTAATTTTAAGTGGTTTCT
+GTTAAAGTATTAATGATGTCAGCTGTCAGGATAATAATTAATAAATTGATTTGGAAAAAAAAAAAAAAAAAA
+>ref|ref|X55027.1|| Bovine mRNA for chromogranin B
+TCACACCGCGGGGACCAGGATACAAGGTTGTTTTCCCACAGCATCTTCATCTCGCCTTCCGTCCCCTTCTCATTCACCCT
+TCCGACTGATATCCTCTTCTCCGCGCAGATTTGGACGAGCGAGGCCATGCAGCCGGCCGCCCTTCTCGGCCTTCTGGGAG
+CCACGGTGGTTGCAGCCGTCAGCTCTATGCCAGTGGACATCAGGAACCACAATGAAGAAGTGGTGACTCACTGCATCATC
+GAGGTCCTCTCAAATGCCCTATTGAAGTCCAGCGCTCCACCCATCACCCCCGAGTGCCGACAAGTCCTGAAGAAGAGTGG
+AAAAGAGCTCAAAAATGAAGAGAAAAGTGAAAATGAAAACACAAGGTTTGAAGTGAGATTGTTGAGAGACCCAGCTGACA
+CCTCAGAAGCCCCCGGGCTCTCCAGTAGGGAGGACTCAGGGGAGGGGGATGCCCAAGTCCCAACAGTAGCAGACACGGAG
+AGCGGTGGGCATAGCCGAGAGCGGGCAGGTGAGCCCCCGGGAAGTCAAGTGGCCAAAGAAGCAAAGACACGCTATTCTAA
+GAGCGAGGGACAGAACAGGGAGGAAGAAATGGTGAAATACCAGAAAAGGGAACGTGGGGAAGTTGGCAGTGAGGAGAGAC
+TGTCTGAAGGGCCGGGAAAGGCACAAACGGCTTTTCTCAACCAAAGAAACCAGACTCCGGCTAAGAAAGAGGAGTTAGTG
+TCCAGATATGATACACAGTCTGCCAGGGGCCTTGAGAAGTCGCACAGCCGGGAAAGGAGCAGCCAGGAGAGTGGAGAGGA
+GACCAAGAGCCAGGAGAACTGGCCCCAAGAGCTGCAACGTCATCCGGAGGGCCAGGAAGCACCCGGAGAAAGCGAAGAGG
+ATGCCAGCCCCGAGGTGGACAAACGGCACTCGAGGCCAAGACACCACCACGGGAGGAGCAGGCCCGACAGGTCCTCTCAG
+GAGGGGAATCCTCCCCTCGAGGAGGAGTCACACGTGGGCACGGGCAACTCAGACGAAGAGAAAGCCCGCCATCCAGCCCA
+CTTTAGGGCTTTGGAGGAGGGAGCCGAATATGGGGAGGAAGTGAGGAGACACTCAGCTGCCCAGGCTCCTGGAGACTTGC
+AGGGGGCACGATTCGGGGGCAGAGGACGTGGAGAGCACCAGGCTCTAAGGCGTCCCAGCGAGGAGAGCCTAGAGCAGGAA
+AACAAGAGACATGGCCTCAGCCCGGATCTAAACATGGCGCAGGGATACAGCGAGGAAAGCGAGGAAGAGAGGGGTCCGGC
+CCCGGGACCCAGCTACAGAGCCCGGGGAGGGGAGGCGGCGGCCTACTCCACACTAGGCCAAACAGATGAGAAACGGTTCT
+TGGGTGAAACGCACCACCGTGTTCAGGAAAGCCAGAGGGACAAGGCGAGGCGCCGCCTACCAGGCGAGCTGAGAAATTAC
+CTCGACTATGGTGAGGAAAAGGGTGAGGAAGCAGCCAGAGGGAAGTGGCAGCCGCAGGGAGACCCGCGAGACGCTGACGA
+GAACAGGGAAGAGGCTAGGCTTCGAGGCAAACAGTATGCTCCCCATCACATCACTGAAAAGAGATTAGGGGAGCTACTCA
+ATCCATTTTACGACCCTTCCCAGTGGAAGAGCAGCCGTTTTGAGAGAAAAGACCCCATGGATGACAGTTTTCTTGAGGGT
+GAAGAGGAAAACGGGCTGACCTTGAATGAGAAAAATTTCTTCCCAGAATACAACTATGACTGGTGGGAGAAAAAGCCCTT
+TGAAGAGGATGTAAACTGGGGGTATGAGAAGAGAAACCCGGTCCCCAAACTGGATCTAAAAAGGCAGTATGACCGAGTGG
+CCGAACTGGACCAGCTCCTTCACTACAGGAAGAAGTCAGCTGAGTTCCCAGACTTCTATGACTCCGAGGAGCAGATGAGC
+CCACAACACACAGCAGAAAATGAAGAGGAGAAGGCTGGCCAAGGAGTTCTGACGGAGGAAGAGGAAAAAGAACTTGAAAA
+CTTGGCTGCGATGGATTTGGAACTACAGAAAATAGCTGAGAAGTTCAGTGGTACCCGAAGGGGCTAATGGTCATTAGAGT
+AAAGGGCAGATTTTAAGACAGCCTTCACATGATCTGTTATCCACCACTTCACTGAAAGACCCCATTTATTTATCCAAAGG
+CAGAAAGTAGAATTTACTCATCCAATGTTTGACACAATTGGAAATGTCTTTGATTTTTGCCAGAGTGCTATTGGAAATAT
+AAATAGCATGACTTGTAGTATACTCTTTATAAAAAAGTAGATATATTAACATGCTTGTGACAATGACTGTGCTACTGTCC
+TTGAAAAAATGTCTTAGTTTGAAGTAATAAAAGATTCACCTGAGGCC
+>ref|ref|Z12029.1|| B.indicus gene for alpha-lactalbumin
+TTCTACTCCTGACCACTCAACAAGGAACCAAGATATCAAGGGACACTTCTTTTGTTTCATGCCTGGGTTGAGTGGACCAT
+GACATATGATGATGTACAGTCCTTTCCCATATTCTGTATGTCTCTAAGGGGAAGGAGGAGTTGGCCGTGGACCCTTTGTG
+CATTTTCTGATTGCTTCACTTGTATTACCCCTGAGGCCCCCTTTGTTCCTGAAATAGGTTGGGCACATCTTGCTTCCTAG
+AACCAACACTACCAGAAACAGCATAAATAAAGCCAAATGGGAAACAGGATCATGTTTGTAACACTCTTTGGGCAGGTAAC
+AATACCTAGTATGGACTAGAGATTCTGGGGAGGAAAGGAAAAGTGGGGTGAAATTACTGAAGGAAGCTCAATGTTTCTTT
+GTTGGTTTTACTGGCCTCTCTGGTCATCCTCTTCCTGGATGTAAGGCTTGATGCCAGGGCCCCTGAGGCTTTTTCCACAA
+ATAAAAGGAGGTGAGCAGTGTGGTGACCCCATTTCAGAATCTTGGGGAGTAACCAAAATG
+>ref|ref|X52700.1|| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTGGATGAGACATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGACCAAACGC
+AGACCCTTTAAAGTAATACTGCGTGGTACCCATCTCATGGTTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATTGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTCGCCATTCCAGCCACTTTACTAGCAATCTCCCTACTTGGAGCATGAGCACCTTTAACCTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAATGGGAAGACGGGGAAACAATGAGAGACTAGCTCTTGGTGTTGGGACAGCA
+CAGGTCACTCTATTTTCCCATCAGGAAGAAGAATTAACCACAGGCTCATCCTGCCCCCCGGCACCAGAACAGGGCCTGAA
+TCCATCCTGCGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAAATGGAGCTTCAGGGCACTGCAATTCACAAACCT
+GCAGAGTTATAAATGATAACTCTCGTCCACAAATATATTGAGGGAAGGCAAAGAAGAGGATTTGAAATCAAGGCAGAACT
+GCAGGAAACAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCAGCAAAATGTTGACAATGATGCCC
+TTGTCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCAA
+CCTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCAGTCAAAAGGGCCATGCTGAAAAAAGTGTCAAAAC
+CAGAAATGCAGGCCAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGCGGGATGTAAATTGCCAACAGCCACTCT
+GGAGAAGTGTACGGTGTGTCCTGAAACATCTAAAACACACAGCTTAGAGAGCATAGGGCACTTCCACTCATGGGGGTATA
+AATTGGGAAAATTAAAAATCAGCAAGACACAAGCACCTCAAAATTTAGGGCTGCTTTGTTGACAAGGACCTCCACTTCAT
+TCCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTTCCTATGTACAATGGAATAACACTCAGCCA
+TGAAATCAATGTCATAAGGCTAGTAGCAGCATGATGAGTGGATTTAGGTAGGACGATTCTAAGTGAAATAAGTCACACAG
+AAAAGGACACTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAACCCGTTACACTTGAACTGAATTACAAAATAGAAC
+AGAGTCACAGATGCAGAAAACACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCA
+AATTAGCTCAGATACCGTTCCATAAACCCAATATATAATAGACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACAC
+CCCCTCTTCAACGCCCAAGAATATATCTGACTAGTAATAATCTAAAAACCTATGCATTGATATCTCTCTGTTAGTGTGTC
+AAGTGGGTGTAAAGGGGCATAAACACAGCAGTGAAAAGCAGCTAAATCCCATTATTAAAATAAATTACTTTTAAAAACCC
+ATGAAACAAAGACAGTGAATGAGAGAGAAATTCTTTCACAATTCGTTCAGGGGCTCTGATGCAAGCTGGATTGACCATA
+>ref|ref|X52701.1|| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTAGATGAGACATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGAGCAAACGC
+AGACCCTTTAAAGTAATACTGCGTGGTACCCATCCCATGGGTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATCGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTTGCCATTCCACCCACTTTACTAGCAATCTCCTTAGTTGGAGCATCAGCACCTTTAACCTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAACGGGAAGATGGGGAACCAATGAGAGACAAGCTCTTGGTGTTGGGACAAGC
+ACAGGTCACTCTATTTTCCCATCAGGAAGAAGAATTAACCACAGGCTCAGCCTGCCCCCCGGAACCAGAACAGGGCCTGA
+AGCCATCCTGTGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAATTGGAGGTTCAGGGCACTGCAATTCACAAACC
+TGCAGAGTTATAAATGATAACTCTCGCCCACAAATATTTTGAGGGTAGGCAAAGAAGAGGATTTCAAATCAAGGCAGAAT
+TGCAGGAAACAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCGGCAAAACAGTGACAATGATGCC
+CGGCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCAAC
+CTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCGGTCAAAAGGGCCATGCTGAAAAACGTGTCAAAACC
+AGAAATGCAGGACAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGCGGGATGTAAATTGCCAACAGCCACTCTG
+GAGAAGTGTACGGTGTGTCCTGAAACATCTAAAAAACACACCTTAGAGAACATAGGGCACTTCCACTCATGGGGGTATAA
+ATTGGGAAAATTAAAAATCAGCAAGACACAAGCACCCCAAAGTTTAGGGCAGCTCTGTTGCCAAGGATCTCCACTTCATT
+CCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTCCTTAAGTACAATGGAATATCACTCAGCCAT
+GAAATCAATGTCATGAGTCTAGTAGCAGCATGATGAGTGGATTTAGGTACGACGATTCTAAGTGAAATAAGTAACACAGA
+AAAGGACATTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAAACCGTTACACTGGAACTGAATAACAAAACAGAATA
+CAGTCACACATGCAGAAAACACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCAA
+ATTAGCTCAGATACCGTTCCATAAACCCAATATGTAATAGACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACACG
+CCCTATTCACCGCACAAGATTATATCTGACTAGTAATAATCTTAAAACATATGTATTGATATCTCTCTGTTAGTGTGTCA
+AGTGGGTGTAAAGCGGCATAAGCACAGCAGTGAAAAGCAGCTAAACCCCATTATAAAAATAAATTACTTTTAAAAACCCA
+TGAAACAAAGACAGTGAAAGAGAGAGAAATTCTTACACAATTCGTTCAGGGGCTGTGATGCACCCTGGATTAACCATA
+>ref|ref|X52702.1|| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTGGATGAGATATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGAGCAAACGC
+AGACCCTTTAAAGTAATACTGTGTGGTACCCATCCCATGGGTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATCGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTCGCCATTCCACCCACTTTACTAGCAATCTCCTTACTTGGAGCATCAGCACCTTTAACTTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAACGGGAAGACGGGGAACCAATGAGAGACTAGCTCTTGGTGTTGGGACAGGC
+ACAGGCCACTCTATCTTCCCATCAGGAAGAAGAATTAACGACAGGCTCTGCCTGCCCCCCGGAACCAGAACAGGGCCTGA
+AGCCATCCTGTGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAAATGGATCTTCAGGGCACTGCAATTCACAAACC
+TGCAGAGTTATAAATGATAACTCTCGCCCACAAATATATTGCGGGAAGGCAAAGAAGAGGATTTCAAATCAAGGCAGAAT
+TGCAGGAATCAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCGGCAAAACGTTGACAATGATGCC
+CTTGTCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCA
+ACCTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCGGTCAAAAGGGCCATGCTGAAAAAAGTTTCAAAA
+GGAGAAATGCAGGAAAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGTGGGATGTAAATTGCCAACAGCCACTC
+TGGAGAAGTGTACGGTGTGTCCTGAAACATCTAAAAAACACACCTTAGAGAGCATAGGGCACTTCCACTCAGGGGGTATA
+AATTGGGAAAACTAAAAATCAGCATGACACAAGCACCCTAAAGTTTAGGGCTGCTCTGTTGCCAAGGATCTCCACTTCAT
+TCCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTCCTTAAGTACAATGGAATATCACTCAGCCA
+TGAAATCAATGTCATGAGGCTAGTAGCAGCATGATGAGTGGATTTAGGTACGACGATTCTAAGTGAAATAAGTAACACAG
+AAAAGGACATTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAAACCGTTACACTGGAACTGAATAACAAAACAGAAT
+ACAGTCACACATGCAGCAATCACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCA
+AATTAGCTCAGATACCGTTTCATAAACCCAATATGTAATACACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACAC
+GCCCTATTCACCGCACAAGAATATATCTGACTAGTAATAATCTTAAAACCTATGTATTGATATCTCTCTGTTAGTGTGTC
+AAGTGGGTGTAAAGCGGCATAACCACAGCAGTGAAAAGCACCTAAACCCCATTATAAAAATAAATTATTTTAATAACCCA
+TGAAACAAAGACAGTGAAAGAGAGAGAAATTCTTACACAATTCCTTCAGGGGCTGTGATGCAACCTGGATTGACCATA
+>ref|ref|X52706.1|| B.musculus heavy satellite DNA
+TAGATATTAAACCTATCCCGCTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGATCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTTCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGTTTAGGATTAGGGTACGTGTTAGGTTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|ref|X52703.1|| Blue Whale heavy satellite DNA
+TTGTTATTAAACCTATCCCACTCTCTAGATACCCCGTAGCACGTAAAGGAATATTATTTGGGGGTCCAGTCATGGAGAAG
+AGTTTAGACACTAGGATAAGATTAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATGTATTGGAGGCAGAAGCACTCAAGGGTAGCCTAAGGTTATGGTTAGGCTTAGGGTTAG
+CTGTAGGGTACGGCTTAAGGTACGGGTTTGGGGAGGGGTTCGGGTACGGCGTAGCGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTTAGGGTACGCGTT
+AGGGTTAGGG
+>ref|ref|X52704.1|| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTGTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTCGGGTTAGGT
+>ref|ref|X52705.1|| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATTCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTAATTGGGGGTGCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTATGGTGTTTCTT
+AAAACACTAGTGCTCAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGTGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGATTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|ref|X53811.1|| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCACTAGATACCCCTTAGCACATAAAGGAGTATTATTTGGGGGTCCAGCCATGGAGAAG
+AATTTAGACACTAGGATAAGATAAGGAACACACCCATCCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCACAGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTACGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTACGGTACGTGTAAGGGTTAGGGTTGGGGTTAGGGTT
+AGGGTACGCGCTAGGGTTAGGG
+>ref|ref|X53812.1|| Blue Whale heavy satellite DNA
+TAGTTATTCAACCTATCCCACTCTCTAGATACCCCTTAGCACGGAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTACG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGCTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTCAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|ref|X53813.1|| Blue Whale heavy satellite DNA
+TAGTTATTCAACCTATCCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAT
+AGTTTAGACACTAGGATGAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGAGTCTTAGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GGTTAGGGTACGGCTTAGGGTACTGTTTCGGGGAGGGGTTCAGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGCTTAGGGTT
+AGGGTACGTGTTAGGGTTAGGG
+>ref|ref|X53814.1|| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCTCTAGATACACCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGACATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACTCTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTATGGTTAG
+GGCTAGGGTACGGCTTAGGGTACGGATTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGCGTTAGTG
+TTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTTAGGGTA
+CGCGTTAGGGTTAGGG
+>ref|ref|Z18633.1|| B.physalus gene for large subunit rRNA
U13103.1 Balaenoptera physalus mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGCACTGCCTGCCCGGTGACTAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAATTAGGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA
+CCTCTCCGTGAAGAGGCGGAGATAACAAAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAAAAACCATA
+ACCTTAAACCACCAAGGGATAACAAAACCTTATATGGGCTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCCACTAGCCAAAGTACAATATCACTTATTGATCCAATCCTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCTGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18632.1|| B.physalus gene for small subunit rRNA
U13080.1 Balaenoptera physalus mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACCCCAATAGTCACAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCG
+GTGCCTCATACCCATCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAGGGAGCAAAAGTAAGCATAACCATCCTACATAAAAACGTTAGGTCAAGGT
+GTAACCCATGGGTTGGGAAGTAATGGGCTACATTTTCTAAGCTAAGAACATCCCCTATACTCACACGAAAGTTTTTATGA
+AACTTAAAAACTAAAGGAGGATTTAGTAGTAAATCAAGAGCAGAGTGCTTGATTGAATAAGGCCA
+>ref|ref|X60495.1|| B.taurus exon 1 for bovine seminal vesicle secretory protein SVSP109 signal peptide
+TCTTTGCTGCTCCTCTTCACTAAAGCAGACACCCACACCCTTTCTCTCTGGTTGTGTGTCTCTGCCTTGCTTCTATCTTA
+ACTAAACTGTTTTTCCGTGTGCTCTCCCACTTGTTGTGCTGTGTCTCTAACAATAAACTTTGTATTGCATTCAAAGTTTT
+TGCCTCCATGACAAATGCATTTTTCACTGGGAGCAAAGATCCAGGGAAAAATTGCTTCTAGAGTCTACCCTTTGCTGGCA
+GATGGCTAGGATTCCTGGTTCTCATCCAGGCTCCCCAGGTTCAAGTCCTGGGCAGAGAATTAAGACCTCGCTTCCTGCTA
+TCGCTCACTGCTGCCTCGTTAAATTCATAACCACTGGACCTAGGTCTCCTTTTAAATGCCTTTCAAACCACTGAGGCTTG
+GAGACATTAAACTGCCAGCCAATGTCCTGTAGTTTCCATCTGAGAGATAAACTTGAACTTCATGCTCTCAGGCTGGGGAA
+TGATCAAGCATCATCCAGGTGAGCTTGATTCTTATCAGGTTGAAGGATGTTGAGGTCACCGGTTACAAAAGGAGCAGATG
+GATGCTGGTCAGTCTCAGGAGAGCAAGCTACCATGGCACTGCAGTTGGGGCTCTTTCTGATTTGGGCTGGCGTGTCTGTG
+TTTCTACAACTGGACCCTGTGAATGGAGGTGAGAGAAGGGAGATGAGGCTAGAATTGGTGAGAGAGAGCCTGTCCCCAGA
+CGTGGATTGTGTGTAAAAGTTATGATAATAATAATAGTGGTTACAAATATGTCTCGCATTTCTTGAGTATATCCCAAGGG
+CAAGACGCTATGAAGAGTTTCACATTTTATTAATTTTCCACCAACTCCGTGACACTGAAACCCAGGTGAGTTTCGCAGTA
+AAGCCAAAGCCTTTTT
+>ref|ref|X60496.1|| B.taurus exon 2 for bovine seminal vesicle secretory protein SVSP109
+ATCCCCACTGGCTATCTATTTTACACACGGTGGTGTATATATGTCCACGCTACTCTCTCAATTTGTCCCACCAAACCCTG
+ACCCTGCTTTGTTCCTGCTCCTCCTCCAGCAGTCTCCTTTTCTCCTGCTTTTCTTCCAGATCAGGACGAAGGTGTTTCTA
+CTGAACCTACCCAAGACGGTCCTGCTGAATTACCTGAAGGTAGTGTTCCTCGGGCAGATACCCAAGACAATCAACAAGGG
+GAGAGAATGACAACAAAAGGACAGTCCAGTGCAACAAGCTAACGTGTGTGGCAGGGGAACCGTGACGGGGATTCTCCAAA
+GATACACTACAAGCAGGAGCTAACGCTACCCTCAGTCGCACACATACTCCC
+>ref|ref|X60497.1|| B.taurus exon 3 for bovine seminal vesicle secretory protein SVSP109
+AGAGGGCTCTGTACACAGCAGGTTTGGGGCTGATGGGCAGGCTTGGATGGAGATTTGCCAGAGTTACCACAGACGTCATG
+AAGCCCTAAGTGCGAAAGAAGGGAACGATGCCTTTCTTCTTTCAGACGAAGAATGCGTTTTCCCATTCGTCTATAGAAAC
+AGAAAGCATTTTGACTGCACAGTGCATGGTTCCTTATTCCCGTGGTGTTCCCTCGATGCAGACTATGTAGGAAGATGGAA
+ATACTGTGCTCAGAGAGGTAAGTGTGCAGCCTGTCCTCGGGTGAGAAGCACCTGGCTTCCCAGATGAAGGGGGAAAGTCC
+AAATTGCCTCCTAGAGGGAAGCCTTGGACACCAGTATGAGCAAGCTCTGGGAGTTGGTGATGAACAGGGAAGCCTGGCAT
+GTGGCAGTCCAAGGGGTCGCAAAGAGTCAAACACGACTGAGTGACTGAACTGAACTGAACTGAACTGAGAGGGTAGTCTC
+AGGTGTCTCCTGAT
+>ref|ref|X60498.1|| B.taurus exon 4 for bovine seminal vesicle secretory protein SVSP109
+TCTTTCAGACCAGGGTTTGAACCCATGTCCTTTGCGTTGCAAGGCATTCTCTACCATGCACCACCAGGGAAGCCCCCTTT
+TCTCTTGATATGATTAAAAATAACCCTCCCGCAATTAATGTTTCACCCATTCCTTCTGTTTTTCAGACTATGCTAAATGT
+GTCTTCCCCTTTATCTATGGAGGCAAGAAATATGAGACTTGCACAAAAATTGGGAGTATGTGGATGTCTTGGTGCTCACT
+CTCTCCAAACTACGACAAGGACAGAGCTTGGAAGTATTGCTAGCCATAAAAAGAGGTAAGAGTATCTGGGGAGGGTGGGA
+AGAGACAGGGGTGAGCAGGGAAGAGACAGAGCTGGATAAAGAGGTGGAGTCAGATGCCCATTGAGGAGAGAGGAGGCAGG
+TGGAGGGAGGGGATGAGGGAGAAAAACGCAGGAGGAAGAGTGAGGAGCAGAGTTTCACGAGGAGAAGCTTGCAGAGAGGA
+TGAAGAGGAGAAAGGGGACAAAAGATGGAAACAGAGGGAGAGACAAAGGCAAACTGCAAACAATGGAGAGA
+>ref|ref|Z11996.1|| B.taurus 5'-region of gene for beta-lactoglobulin
+TAGAGGATCCTTGCCCCCTCCGCCGCCGCCTCCAGCTCCTGGTGCCGCACCCTTGGGCCCGATCTCGTAGACGCCTCAGT
+CCAGTCTCTGCCTCCGTGTGCACTGGCATTCTCCCCATGTCCCCCTGTGTCCCCGTTTTCTCTCCCAAGGACACCGGACA
+TCCGATTCGCCCCCGTTCCAGCACCCCGAACAGTCAGGAGCCGACCCGCTAGGCCCCGCTATCAGGAGACACCCCAACCT
+TGCTCCTGTTCCCCTACCCCAGTACGCCCACCCCGACCCCTGAGATGAGTGGTTTACTTGCTTAGAATGTCAATTGAAGG
+ACTTTTGTACCCCCTTTGCCAGTGGCACAGGGCACCCACAGCCCGCTGGGTACTGATGCCCATGTGAACTCAGCTAGGAG
+GACTGTCCTGCGCCCTCCCTGCCCGGGTCAGGGCACTGAACACCTGAACACCTGAACACCCAGAGCTTGAACACCTTGGC
+AGCAGAGCTTGAACACTTGGCAGCCACGTTGAACCCAGAGCTTGAACACCTTGGCAGCCACGTTGAACCCAGAGCTCTTC
+CTGCTTGGCCTCGAATGCGGACATCCGATTCGCCACTCAGTTGAACCCAGAGCTTGTTGAACCCAGAGCTTGAACACAGA
+GCTTGAACACCTGCCAGTGGCACAGGGCACCCGCCTAACAGAGCCACCCCTGAACTCAGTTTGAACCCAGAGCTTGAACA
+GCCACCCCTGAACTCAGCAGAGCTTGAACACCTGCCAGTGGCACAGGGCACCCCTGAGATGAGTGGTTTACTTGCTTCAC
+CCCCTGCGCCACCCCTGAACTCAGTTGAACCCAGAGCTTGAACAGACCCCTGAGATGGTACGCCCACCCCTGAACTCAGC
+TAGGGACCCCTGAGATGAGTAAAAGTGTTCTTGGCGCTTGGCAGCCACGTTGAACCCAGAGCTTGAACACCCCCTGCGCC
+CCCACTTCTGGGGCGTACTAGGAACCGTCTTAGGCCCAGAGGGGGCCTTCCTGCTTGGCCTCGAATGGAAGAAGGCCTCC
+TATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGCTCGGCCAGGGGGGATTCGGGGAACCGCGTGGCTGGGGGCCC
+GGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTGTCTCAGCACTCCACTCCCTGCAGAGCTC
+AGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCCTGCCCTGGCCCTCACCTGTGGCGCCCAGGCCATCATCGT
+CACCCAGACCATGAAAGGCCTGGACATCCAGAAGGTTCGAGGGTGCCCGGGTGGGTGGTGAGTTGCAGGGCGGGCAGGGG
+AGCTGGGCCTCAGAGACCAAGGGAGGTGTGACGTCTGGGATTCCCATCAGTCAGCTAGAGCCGCCTGACAAATGCCCCGC
+CAGGGCAGCTTCAAGGAGGCGTTTAGTGTCTTGCATTGTGGAGGCTGGAAGCCTGCAATCCGGGCATCGGCCCAGCTGGC
+TTCTCCTGCGGCCACTCTCCGGGGAGCAGACAGCCTTCTTCTCCCTGCGTCCTTTGCGTGCCCTTGGTTTCCTCTTCCTG
+TTGAGGTCACCAGGCCTGCTGGATCCCCGGGCG
+>ref|ref|X57170.1|| B.taurus 5S rRNA gene
4W1Z_7 Chain 7, Structure Of The Mammalian 60s Ribosomal Subunit (this Entry Contains The Large Ribosomal Subunit Rna)
4W21_7 Chain 7, Structure Of The 80s Mammalian Ribosome Bound To Eef2 (this Entry Contains The Large Ribosomal Subunit Rna)
4W24_7 Chain 7, Structure Of The Idle Mammalian Ribosome-sec61 Complex (this Entry Contains The Large Ribosomal Subunit Rna)
4W26_7 Chain 7, Structure Of The Translating Mammalian Ribosome-sec61 Complex (this Entry Contains The Large Ribosomal Subunit Rna)
+GTCTACGGCCATACCACCCTGAACGCGCCCGATCTCGTCTGATCTCGGAAGCTAAGCAGGGTCGGGCCTGGTTAGTACTT
+GGATGGGAGACCGCCTGGGAATACCGGGTGCTGTAGGCTT
+>ref|ref|X60960.1|| B.taurus exon 5 for bovine seminal vesicle secretory protein SVSP109
+CAACATAATCTTGGAGCAGGCATGAGACAGCAGGAATCGAGATAGAAAGAGGCAGAGAGGCAAAGGAGACATAGACCTTT
+GCCCTCCGTGGGACTGACTGAGAAACAAAACTGACTCGTTAACCTTGACCCCAAAGCTATGTTCAGTCACTGTCCAGTGC
+ATCCACCCTTGGCCATGGATGCAATCCAGCCTTTGAAACCTCAGTGAAGAAAATCAAGAACTCTCAAGCATGAAGATGAT
+GCTCTGAAAGCCAGAGGTGAAATCCTTTCCCTACATCTCCACCATGTTCCCCCTATGCGTGGATCCAATCAATAAACCAC
+TTTCTCAGCAGGGGTGGTCTTTCTTTTTTTTTCGTCCACAAAGAAACCTGATTGGGAGGGTCTCAACGTGCTCAGGTTAA
+CCAGGCAGGATCTTCTTGTTTTCCTTTCCGTTCCTTGGGGTCCCAGTGGAAAATCAATACACATCACAATTGTCCTTCCT
+GGG
+>ref|ref|NM_174233.2|| Bos taurus angiotensin II receptor type 1 (AGTR1), mRNA
X62294.1 B.taurus mRNA for adrenal angiotensin II type-1 receptor
+GGAGGAGAGAGTGCAAAACACAGCCTCGCCCCTGGAACCCTCGAAGAAGCAACGTCCCTCGCTATAAATTTGGAGCTGCC
+TCAGAGAGGACGATTCCAGCGCCAGTCAGCCAAGGGCCTGAGGCGACTGAGCGCCCGGGCAGACGCGCGACTAGCAGCTC
+TGCCTACCCGAGACGGCGATCCACGAGGAGGAACCCAAGCGGACCCCAGGAGTGAGGGCGCACCCTGAGCCGGCGCCGCC
+AGCTCGGCCCGACGCCGGCGCAGCGTCCCGAGTGAGAGCGGACTGATGTATGATAAGCTGATCTAAAATGACAGGTTTTA
+TCTGACTAAGTCATTGAAGCCATTCCAGAAGGTCTGCATCCAGGTGCATTTGGCATAGTGTCTGAGACTGACTAACCCAA
+GAGATCAAAATGATCCTCAACTCTTCCACTGAAGATGGTATTAAAAGAATCCAAGATGATTGTCCCAAAGCTGGAAGGCA
+CAATTACATATTTATCATGATCCCTACTTTATACAGTATTATCTTTGTGGTGGGGATATTTGGAAACAGCTTGGTGGTGA
+TTGTCATTTACTTTTACATGAAACTGAAGACTGTGGCCAGTGTTTTTCTTTTGAATTTAGCTCTGGCTGACTTATGCTTT
+TTACTGACTTTGCCACTGTGGGCTGTCTACACTGCTATGGAATACCGCTGGCCCTTCGGCAATTACCTATGTAAGATCGC
+TTCAGCCAGTGTCAGTTTCAACCTCTATGCCAGCGTGTTTCTACTTACATGTCTAAGCATTGACCGCTACCTGGCTATTG
+TTCACCCAATGAAGTCCCGCCTCCGGCGCACAATGCTTGTGGCCAAAGTCACCTGCATCATTATTTGGCTGCTGGCAGGT
+TTGGCCAGTTTGCCAACTATAATCCACCGCAACGTATTTTTCATCGAGAATACCAATATCACCGTTTGCGCTTTCCATTA
+CGAATCCCAAAATTCTACCCTCCCGGTAGGGCTGGGCCTCACCAAGAATATATTGGGATTCTTGTTTCCTTTTCTGATCA
+TTCTTACAAGCTACACTCTTATTTGGAAGACCCTCAAGAAGGCTTATGAAATTCAGAAGAACAAACCAAGAAAAGATGAT
+ATTTTCAAGATAATTTTGGCAATCGTGCTTTTCTTTTTCTTTTCCTGGGTTCCCCACCAGATATTCACTTTTATGGATGT
+GTTAATTCAGTTGGGCCTCATCCGTGACTGTAAAATTGAAGATATTGTTGACACTGCCATGCCCATCACTATTTGCTTGG
+CTTATTTTAACAATTGCCTGAATCCTCTCTTTTATGGCTTTCTAGGAAAAAAATTTAAAAAATATTTTCTACAGCTTCTG
+AAATACATTCCCCCAAAGGCCAAATCCCACTCAAACCTGTCGACAAAAATGAGCACACTCTCCTACCGCCCCTCAGAAAA
+TGGAAACTCCTCTACCAAGAAGCCTGCCCCATGCATTGAGGTTGAGTAACACACTTGAAACCTGTCTGTGAAGTCACCTT
+AAAGAAGGAGAAGAAAAACATTCTTGTACAACACCTCACTACCAAATGAGCATGGGCTGCATTTCAGAATTAAAGGAGAA
+AATAGATTATGTGGACTGAACTGACTTGTCTACAGCTCTGAACAAAAGCTCTTTCCCTTTGCAACTCAACAAAGCAAAGC
+CACATTCTCCATGTTTTGCATTAGGTAGATGATGCCCACTCAAAGAACTGATGTCAGAAACTGGATGAAAGTGTTGATTT
+GGAAAATTTTACTGGGAAAAATGTCCTCTCCCTAGTCTGCTCTTGTTCTGTTATTTTTGATTTCCACATGAAAGTACTTC
+AGTTCAGTTCAGTCACTCAGTCGTGTCCAACTCTTTGCGACCCCATGAATCGCAGCATGCCAGGCTTCCTGTCCATCACC
+AACTCCCGGAGTTTACCCAAACTCATGTGCTCTGAGTCGGTGATGCCATCCAGCCATCTCATCCTCTGTCGTCCCCTTCT
+CCTCCTGCCCCCAATCCCTCTCAGCATCAGGGTCTTTTCCAATGAGTCAACTCTTCGCATGAGGTGGCCAAAGTATTGGA
+GTTTCAGCTTCAGCATCAGTCCTTCCAATGAACACCCAGGACTGATCTCCTTTAGGATGGACTGGTTGGATCTCCTTGCA
+GTCCAAGGGATGCTCAAGTCTTCTCCAACACCACAGTTCAAAAGCATCAATTCTTTGGCACTCAGCTTTCTTCACAGTCC
+AACTCTCACATCCATACATGACCACAGGAAAAACCATAGCCTTGACTAGATGGACCTTTGTTGGCAAAGTAATGTCTCTG
+CTTTTGAATATTCTATCTAGGCTGGTTATAACTTTCCTTCCAAGGAGTAAGCGTCTTTTAATTTCATGGCTGCAGTCACC
+ATCTGCAGTGATTTTGGAGCGCAAAAAAAATAAAATCTGACACTGTTTCCATGTTTCCCCATCTATTTCCCATGAGGTAC
+TTAGAATATATTAAACCTCAAGAGGAGCAACAGGAGAGAAGAGCTTAAGACTGCCATGCCCAATTTCCAAAGGGCAGCAA
+AGCTTTCGTGCCTATTTAGCTATTAGCAACTGCGGCCCACTTGTACCTGCTACTGCGCATTTCATACAAAGACTCGCTAA
+GCAGTAGTTGTCAGGTTCCAGAAGCTGTTGTGAAACCCAACCCGTGTCTTATAGATTCACACTGCCGAAATATGCCAGCT
+GAGTGGCCTATTTGTATAATGATGTCTCTGTAGTCATGTATAAAAATTATATTACTTGTAAAGGTGTTATTCCAGTCCCA
+GGTAGTCATGTTACTTTTATTTCAGATCTGAGAAGTATATATATTTTGTGGTGAAAGATTATATATCATAAAATATTCCT
+TACTGTTTTAAAAAGTATATATTCAACCTGTGCATGTATCTCTCTAAACTGCTATCTTATTAAAATTTGGCAAAGTTATA
+TTCACATTAAATAATGTTATTGCAATGTATTTAATCTTCATTACTTAAAATAAATGTTGGTTTATTTTT
+>ref|ref|X67213.1|| B.taurus mRNA for adrenergic receptor beta 2
+GCGGACGGGTCTAGGACAACGCAGGACCTCCAAGTTCTACTTGAAGGAACACAAAGCCCCCAAGACTTTAGGCATTATCA
+TGGGCACTTTCACCCTGTGCTGGCTGCCCTTCTTCATTGTCAACATTGTGCACGTGATCAAGGATAACCTCATCCGTAAG
+GAAATATACATCCTTCTAAACTGGTTGGGCTACATCAACTCCGCTTTCAATCCCCTTATCTACTGCCGGAGCCCAGATTT
+CAGGATTGCCTTCCAGGAGCTTCTCTGCCTGCGCAGGTCTTCATTGAAGGCCTATGGGAATGGCTGCTCCAGCAACAGCA
+ATGACAGGACTGACTACACAGGGGAACAGAGTGGATATCACCTGGGGGAGGAGAAA
+>ref|ref|X67214.1|| B.taurus gene for adrenergic receptor beta 3
+TGGCCTCACGAGAACAGCTCTCTGACCCCGTGGCCAGATATCCCCACCCTGGCACCCAATACTGCCAACGCGAGTGGGCT
+GCCAGGGGTGCCCTGGGCGGTGGCGCTGGCGGGGGCGCTGTTGGCGCTAGCGGTGCTGGCCACCGTGGGAGGCAACCTGC
+TGGTAATCGTGGCCATCGCCCGGACGCCGAGACTCCAGACCATGACCAACGTGTTCGTGACTTCGCTGGCCACAGCCGAC
+CTGGTGGTGGGGCTCCTGGTCGTGCCCCCGGGGGCCACGTTGGCGCTGACTGGCCACTGGCCGTTGGG
+>ref|ref|X13736.1|| Bovine mRNA for adrenodoxin reductase C-term. (EC 1.18.1.2)
+GGCCCGGGCCTTTGTGGGCTGGTACAATGGGCTTCCTGAGAACCGGGAGCTGGCCCCGGACCTGAGCTGTGACACAGCCG
+TGATTCTGGGGCAGGGGAATGTGGCTCTGGACGTGGCCCGGATCCTGCTGACCCCCCCCGACCACCTGGAGAAAACGGAC
+ATCACTGAGGCCGCCCTGGGAGCCCTGAGACAGAGTCGGGTGAAGACGGTGTGGATCGTGGGCCGACGTGGACCCCTACA
+AGTGGCCTTCACCATAAAGGAGCTTCGGGAGATGATTCAGTTACCAGGAACTCGGCCCATGTTGGATCCTGCGGATTTCT
+TGGGTCTCCAGGACAGAATCAAGGAGGCCGCTCGCCCGAGGAAGCGGCTGATGGAACTGCTGCTTCGAACAGCCACGGAG
+AAGCCAGGGGTGGAGGAGGCTGCCCGCCGGGCATCAGCCTCCCGTGCCTGGGGCCTCCGCTTCTTCCGAAGCCCGCAGCA
+GGTCCTGCCCTCGCCAGATGGGCGGCGGGCGGCAGGCATCCGCCTGGCAGTCACCAGACTGGAGGGCATTGGAGAGGCCA
+CCCGGGCAGTGCCCACTGGGGATGTGGAGGACCTCCCCTGTGGGCTGGTGCTGAGCAGCATTGGGTATAAGAGCCGCCCC
+ATCGACCCCAGTGTGCCCTTTGACCCCAAGCTCGGGGTTGTCCCCAATATGGAGGGCCGGGTTGTGGATGTGCCAGGCCT
+CTACTGCAGCGGCTGGGTGAAGCGGGGACCCACAGGTGTCATCACCACCACCATGACCGACAGCTTCCTCACCGGCCAGA
+TTCTGCTACAGGACCTGAAGGCCGGGCACCTGCCGTCTGGCCCCAGGCCGGGCTCTGCATTCATCAAGGCCCTGCTGGAC
+AGCCGAGGGGTCTGGCCCGTGTCTTTCTCGGACTGGGAGAAACTGGATGCTGAGGAGGTGTCCCGGGGCCAGGCCTCGGG
+GAAGCCCAGAGAGAAGCTGCTGGATCCTCAGGAGATGCTGCGGCTGCTGGGGCACTGAGCCTAGATCCCAGCCCCGCTGG
+GTGCAGAGAGAAGAGGAGGGTGAGCCCAGATCCCAGCCCAGCTCAGAGAAGAGAGGAGGCGCGCTGGACAGCGGAGAGGC
+GTCGGGGTCAGCCTGAGCGGGACTCTGCACCCCAGCTGCGTCGTCTGCCCGTCCTGGCATACAGCCCTGGCTGCCTCTTC
+TCCAGGGGCGTGGGAGCACTTTCTGGAGCTAGGTCACTGCTGCCAGTGTGGGTACCTTTCAGCAAGGAGATAACCTTAGT
+TAGGGATGGAGGCAGGTACAGGCTGACCTCCGTCCCTCCTGTCTCTCTCCTGCTGGACTGTGGAGGGTCCCCAGGTCAGG
+AATATGCTGGAAATAAAGCACCGGCCACCTAG
+>ref|ref|X05087.1|| Cow Alu-type art2 sequence 7kb 5' of fetal globin gene
+TTAAGTTCAGTTCAGTCACTCAGTCATGTCCGACTCTTTGCGACCCCATGAATCACAGCACGCCAGGCCTCCCTGTCCAT
+CTCCTCCCGGAGTTCACCCAACGTCACGTCCATCGAGTCGGTGATGCCATCCAGCCATCTCATCCTCTGTCGTCCCCTTT
+TCCTCCTGCCCCCAATCCCTCCCAGCATCAGGGTCTTTTCCAGTGAGTCAACTCTTCACATGAGGTGGCCAAAGTACTGG
+AGTTTCAGTTTTAGCATCATTCCTTCCAAACAACACCCCAGGGCTTATCTCCTTTAGAATGGACTGGTTGGATCTCCCTG
+CAGTCCAAGGGGCTCGCAAGAATCTTCTCCAACACCACAGTTCAAAAGCATCAATTCTTCGGCACTCAGCTTTCTTCACA
+GTCCAACTCTCACATCCGTACATGACCACTGGAAAAACCATAGCCTTGACTAGACGGACCTTTGTTGGAACGTAATGTCT
+CTGCTTTTCAATATGCTATCTAGGTTGGTCATAGCTTTCCTTCCAAGGAGTAAGCA
+>ref|ref|X05090.1|| Cow alu-like art2 repetitive sequence 1kb 3' to fetal globin gene
+TTCTGTTCAGTCCAGTGGCTCAGTTGTGTACAATTCTTTGCAACCCCATGGACTGCAGCATGCCAGGCTTCCCTGTCCAT
+CACCAACTCCTGGAGCTTGCTCAAATTCATGCCCATTGAGTTGGTGATGCCATTCAACCATCTCATCCTCTGTTATCCCC
+TTCTCTTGCCTTCAATCTTTCCCAGCATCAGGGTCTTTTCCAATGAGTCAGTTCTTCACATCACGTGTCCAAAGTATTGA
+AGCTTCACGTTCGGTATCAGTCCTTCCAATGAATATTCAGGACTAATATCCTTCAGGTTTGATTGGTTTGATCTCCTTGC
+AGTCCAAGGGACTCTCAGGAGTCTTCTCCAACATCACAGTTCAAAAGCATCAATTCTTCAGCGGTCACCTTTCTTCATTG
+TCCAACTCTCACATCCACACATGACTACTGGAAAAACCATAGCCTTGACTAGATGGACATTTGTTGATAAAGTAGTGTCT
+CTGCTTTTTAATATGCTGTCTAGATTTGTGATAGCTTTTCTTCCAAGAAGCAAGCATC
+>ref|ref|X63475.1|| B.taurus Alu-like repeat DNA
+CATGGACAGAGGAGCCTGGCAGGCTACAGTCCTTGGGGTCACAAAGAGTTGGACACAACTGAGTGACTCCATGGTGCATT
+CTCCTGCGTCCCATTGATCCAGACAATCAGGAGAGGCTTCACAGAAATCGGGTGGTGGCATGAGAGGTATCTGAATT
+>ref|ref|X63474.1|| B.taurus Alu-like repeat DNA
+GAATTCTGCATAGAGACTGGTTGATCCTGCTGGAGATCCCTGAGAGGAAGCTACCATATCAGTATTCTGGCTGAGATCAT
+GTTAACCAGTCATCCTGGCACTTACTGTCACTTTAGAGCTGGTCTTGGGTCACTATGTAGGTGTATTTGTCTTTTCCTAT
+CATTCTTCTTGTCATGAGTACAGGTTAGTTAAAATGAAGTTTGCAGATGGCCTGGGCTTCCCTTGTGGTTCAGCTGGTAA
+AGAATATGCCTGCAATGAGGGAGACCTGGGTTTGATCCCTGGCTTGGGAAGATCCCCTGGAGAAGGGAAAGGCTACCCAC
+TCCAGTATTCTGGCCTGGAG
+>ref|ref|X03454.1|| Bovine retinal mRNA for S-antigen C-terminus
+AAGAAGAGCTCCGTGCGTTTGCTGATCCGGAAGGTACAGCACGCGCCACGCGATATGGGTCCCCAGCCCCGAGCCGAGGC
+CTCCTGGCAGTTCTTCATGTCGGACAAGCCCCTGCGCCTCGCCGTCTCGCTCAGCAAAGAGATCTATTACCACGGGGAAC
+CCATTCCTGTGACCGTGGCCGTGACCAACAGCACAGAGAAGACAGTGAAGAAGATTAAAGTGCTAGTGGAGCAAGTGACC
+AACGTGGTTCTCTACTCGAGTGATTATTACATCAAGACGGTGGCTGCCGAGGAAGCACAGGAAAAAGTGCCGCCAAACAG
+CTCGCTGACCAAGACGCTGACGCTGGTGCCCTTGCTGGCCAACAACCGTGAGAGAAGGGGCATCGCCCTGGATGGGAAAA
+TCAAGCACGAGGACACGAACCTGGCCTCCAGCACCATCATAAAGGAGGGAATAGACAAGACCGTCATGGGGATCCTGGTG
+TCTTACCAGATCAAGGTGAAGCTCACGGTGTCAGGCCTTCTGGGAGAGCTCACATCCAGTGAAGTGGCCACTGAGGTGCC
+GTTCCGCCTCATGCATCCCCAGCCAGAGGACCCAGATACCGCCAAGGAAAGTTTTCAGGATGAAAATTTTGTTTTTGAGG
+AGTTTGCTCGCCAAAATCTGAAAGATGCAGGAGAATATAAGGAAGAGAAGACAGACCAGGAGGCGGCTATGGATGAGTGA
+AGAGGCGACTCAGGA
+>ref|ref|X56933.1|| B.taurus mRNA, alternative polyadenylation signals
+GGCGGAGGGGCAGGTCCTGGTGCTCGATGGCCGAGGCCATCTCCTGGGCCGCCTGGCGGCCATTGTGGCCAAGCAGGTGC
+TTCTGGGCCGCAAGGTTGTGGTCGTGCGCTGTGAGGGCATCAACATTTCTGGCAATTTCTACAGAAATAAGTTGAAATAC
+CTGGCCTTTCTCCGCAAGCGGATGAACACCAACCCCTCCCGTGGCCCCTACCACTTCCGAGCCCCCAGCCGCATCTTCTG
+GCGGACAGTGCGAGGCATGCTGCCCCACAAGACCAAGCGGGGCCAGGCTGCTCTGGAGCGCCTCAAGGTGTTTGATGGGA
+TCCCACCACCCTATGACAAGAAAAAGCGAATGGTGGTTCCTGCTGCCCTCAAGGTTGTGCGTCTGAAGCCTACTCGCAAG
+TTTGCCTACCTAGGGCGCCTGGCTCATGAGGTTGGCTGGAAGTACCAGGCAGTAACGGCCACCCTGGAGGAGAAGAGAAA
+GGAGAAGGCCAAGATCCACTATCGGAAAAAGAAGCAGCTCATGAGGCTACGGAAGCAGGCCGAAAAGAACATCGAGAAGA
+AAATTGGCAAATTCACAGAGGTCCTCAAGACTCATGGATTCCTAGTCTGAGCCAAATAAAATTGACTGTTTATTCTTCAT
+GCTTGGCCTGGCCTGCCCTTCCTCGATCGCCACCCTAGGATGTGGGGGGGCCCAGGGGCTGCCGTGCATGTGCCACAGGC
+AGACGGGTATAGCCGAGGGGCATTAGTCAGTGTAGGCGGGTCCAGGGGCTGTGCAGGCATCGTTGGTCTGCAGCCTGTTT
+GTTCGTGAGACCTTTAAGACATGAACAGTTGGAACAACCAGTCCAGTTGCAGTATTGGCAGACGTGAGCTGGAAGACTAT
+TGGAAGGGATTGGCATGACTTAAAGGGAGTCTGTTCATGCTTCCCACGTGGTCGGATACTATACTCTGCAGCTGTTAGGA
+TGTGAGAGAATGCCCAAAAAGTATCTCTGGAAGAGAAGTTCCAGCCAAGGGATCACAGGCTTCGCCCTCGTGTCTTCCCT
+ATATTTTGTGATCCAAAACCAATAAATTATTTTGTTAAAGAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|X63592.1|| B.taurus mRNA for adenosine A1 receptor
+TGCTGATGTGCCCAGCCTGTGCCCACCATGCCGCCCTCCATCTCGGCCTTCCAGGCCGCATATATTGGCATCGAGGTGCT
+CATCGCCCTGGTCTCTGTGCCTGGGAACGTGCTGGTGATCTGGGCGGTGAAGGTGAATCAGGCCTTGCGGGATGCCACCT
+TCTGCTTCATCGTGTCACTGGCAGTGGCTGATGTGGCGGTGGGCGCTCTGGTCATCCCGCTCGCCATCCTCATCAACATT
+GGGCCACGGACCTACTTCCACACCTGCCTCAAGGTCGCCTGCCCTGTCCTCATCCTCACTCAGAGCTCCATCCTGGCCCT
+GCTGGCAATTGCTGTTGACCGCTACCTCCGTGTCAAGATCCCACTCAGGTACAAGACAGTGGTGACTCCTCGAAGGGCTG
+TGGTGGCCATCACTGGCTGCTGGATTCTCTCCTTCGTGGTGGGCCTGACGCCCATGTTCGGCTGGAACAACCTGAGCGCG
+GTGGAGCGGGACTGGCTGGCCAATGGCAGCGTGGGCGAGCCTGTGATTGAATGCCAGTTCGAGAAGGTCATCAGCATGGA
+GTACATGGTCTACTTCAACTTCTTCGTGTGGGTGCTGCCCCCGCTGCTGCTCATGGTCCTCATCTACATGGAGGTCTTCT
+ATCTGATCCGCAAGCAGCTCAGCAAGAAGGTGTCGGCCTCCTCCGGAGACCCGCAGAAGTACTATGGGAAGGAGCTGAAG
+ATCGCCAAGTCGCTGGCCCTCATCCTCTTCCTCTTCGCCCTCAGCTGGCTGCCCTTGCACATCCTCAACTGTATCACCCT
+CTTCTGCCCTTCCTGCCACATGCCCAGGATCCTCATATACATCGCCATCTTCCTCTCACACGGCAACTCGGCCATGAACC
+CCATCGTCTACGCCTTCCGCATCCAGAAGTTCCGAGTGACCTTCCTTAAGATCTGGAATGACCACTTCCGCTGCCAGCCT
+GCGCCCCCCATTGATGAGGATGCCCCAGCAGAGAGACCCGATGACTAGACTCCGCCCGCCACGCCCCCTTG
+>ref|ref|X15802.1|| Bovine derived synthetic gene bpr for pancreatic ribonuclease A (EC 3.1.27.5)
+GAATTCATCGATGAAAGAGACAGCAGCCGCAAAGTTTGAGCGTCAGCATATGGATAGTAGCACCAGTGCTGCCAGTTCTT
+CCAACTACTGTAACCAGATGATGAAGTCTAGAAACTTGACCAAGGACAGATGTAAGCCAGTTAACACATTTGTCCACGAG
+AGTTTGGCTGATGTCCAAGCCGTCTGCAGTCAGAAAAACGTTGCATGCAAGAACGGTCAAACGAACTGTTACCAGAGTTA
+CAGCACCATGTCCATCACTGACTGTCGTGAGACAGGCTCGAGCAAGTATCCTAATTGTGCTTACAAGACCACACAGGCGA
+ACAAACACATCATTGTTGCTTGTGAAGGTAACCCTTACGTTCCTGTCCACTTTGACGCCAGTGTTTAACTAGATAAGCTT
+>ref|ref|X05218.1|| B.taurus mRNA for mit-ATP synthase proteolipid P1 subunit precursor
+CCAATGGATTTTTTTTTCCCCCCCTCTGCAGACTGAAAAAAATGCAGACCACCGGGGCACTACTCATTTCTCCTGCTCTG
+ATCCGTTCTTGTACCAGGGGTCTGATCAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAGAGATCCAATCTGTACAGCC
+TTCCTACAGCAGTGGCCCACTGCAGGTGGCCCGGCGGGAATTCCAGACCAGTGTTGTCTCCCGGGACATTGACACAGCGG
+CCAAGTTTATTGGCGCTGGGGCTGCCACAGTTGGTGTGGCGGGTTCAGGGGCTGGTATTGGAACAGTGTTTGGCAGCTTG
+ATCATTGGCTATGCCAGGAACCCGTCTCTGAAGCAGCAGCTCTTCTCCTATGCCATTCTGGGCTTTGCCCTGTCTGAGGC
+TATGGGGCTCTTCTGTTTGATGGTCGCCTTCCTCATCCTCTTCGCCATGTGAGGCTCCGTGGAAGTCACCTACCCACCCC
+TGCTGCTTCGACTCCAGGCCATGCCCGGTGCTGGAGTGTGCTAACCTTTACCATTAAACACAATGTTTCTCTAAAAAA
+>ref|ref|NM_176613.2|| Bos taurus ATP synthase membrane subunit c locus 2 (ATP5MC2), mRNA
X05219.1 B.taurus mRNA for mit-ATP synthase proteolipid P2 subunit precursor
+TGCCGTAGCCCTTCATCCCCTGAAAATGTACACTTGCGCCAAGTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTA
+CAGTATTGAGCCGATCACTGTCTGCAGTGGTGGTAAGACGACCGGAAACACTGACGGATGAGAGCCACAGCAGCTTGGCA
+GTAGTTCCCCGTCCCCTGACCACCTCACTTACTCCTAGCCGCAGCTTCCAAACCAGTGCCATTTCAAGGGACATTGACAC
+AGCAGCCAAGTTCATTGGAGCTGGGGCTGCCACAGTAGGGGTGGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGA
+GTCTCATCATTGGTTATGCCAGGAACCCTTCTCTGAAGCAGCAGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCG
+GAGGCCATGGGGCTCTTTTGCCTGATGGTGGCCTTTCTCATCCTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATA
+GTTCTTCTCCCGTGTCTCATCTGCCCTGTATGTTTCTTTTCCTGTACCTCCCCAGGCAACCTGGGGAAAGTAGTTGGCTC
+AGGGCTTGACAGAAGGAAGACAAATAAATACTGTATTAATAAGAAAAAAACAAAA
+>ref|ref|X05605.1|| Bovine mRNA fragment for ATP synthetase beta-subunit
+GAATTCGTGGAGATGAGTGTTGAACAAGAAATTCTGGTTACTGGTATTAAGGTTGTAGATCTGCTGGCTCCAATTGCCAA
+GGGTGGCAAAATTGGGCTTTTTGGTGGTGCTGGAGTCGGCAAGACAGTACTGATCATGGAGTTAATCAACAATGTTGCCA
+AAGCCCATGGTGGTTACTCTGTGTTTGCTGGTGTTGGTGAAAGGACCCGTGAGGGCAATGACTTATACCATGAAATGATT
+GAGTCTGGTGTTATCAACTTAAAAGATGCTACCTCTAAGGTAGCGCTGGTGTACGGTCAAATGAATGAACCACCTGGTGC
+TCGGGCCCGGGTTGCTCTGACTGGGCTGACTGTAGCTGAGTACTTCAGAGACCAAGAAGGTCAAGATGTGTTGCTGTTTA
+TTGATAACATCTTTCGCTTCACCCAGGCTGGCTCAGAGGTGTCTGCTTTGTTGGGCAGAATCCCTTCTGCTGTGGGTTAT
+CAGCCTACCCTGGCCACTGACATGGGTACCATGCAGGAAAGAATCACCACCACCAAAAAGGGATCTATCACCTCTGTACA
+GGCTATCTATGTGCCTGCTGATGACTTGACGGATCCTGCCCCGGCCACTACCTTTGCCCATTTGGATGCTACCACTGTGT
+TGTCCCGTGCTATTGCTGAGCTGGGCATCTATCCAGCTGTGGATCCTTTGGACTCCACGTCTCGCATCATGGATCCCAAC
+ATTGTTGGCAGTGAGCATTATGATGTTGCCCGTGGGGTGCAAAAGATTCTGCAGGACTACAAATCCCTCCAGGACATCAT
+TGCTATCCTGGGTATGGATGAACTTTCTGAAGAAGATAAGTTAACTGTGTCTCGTGCACGGAAAATCCAGCGTTTCTTGT
+CTCAGCCATTCCAGGTGGCTGAGGTCTTTACTGGTCATTTGGGGAAGCTGGTACCCCTCAAGGAGACCATCAAAGGATTC
+CAGCAGATTTTGGCAGGTGAATATGACCATCTCCCAGAACAGGCCTTCTATATGGTGGGACCCATTGAAGAAGCTGTGGC
+AAAAGCTGATAAGTTGGCTGAAGAGCACTCATGAGGGGGTCCTTTTGGCAAATTAAGCACTCATCCTCCATGGTGTCCCT
+CTCCTCGCCCCTAATCCGGAAGTCGCAGTTTCTCTGTAGCCACGTGAGGGCCTTGATTGAAGACATTGTGTTCTGACTTT
+TAGAGTTTATTAAATAAAAAAACTGTCGATTTGAACAGGAGGAGAAAAGGAGGTTATTTTAAAAAAATAACACCCACAGG
+AAAAGAGCACAAAAGGCATCTACTAGTGTGTGTTACA
+>ref|ref|X16978.1|| B.taurus mRNA for mitochondrial ATP synthetase epsilon-subunit (EC 3.6.1.34)
+GGCGCGACGCGCCCCCTCTCGCGACATCATGGTGGCGTACTGGCGACAGGCTGGACTCAGCTACATCCGATACTCCCAGA
+TCTGTGCAAAAGCAGTCAGAGATGCACTGAAGACTGAATTCAAAGCAAACGCCATGAAGACTTCTGGCAGCACCATAAAA
+ATTGTGAAAGTGAAAAAGGAATAATCTACCCTGAGTACAGCCTGAATGCTGCATGTTCAAGGTGAAGCTGTGGGCACATA
+TTATAGCAGATTGGAAACCATCTCCCTTCATGGAAAAAAAAACAAAATAATACCTGTCTTGTTCATAGATTGACAATGCC
+AGTGAATTAAAGTACAGTTCACTCT
+>ref|ref|NM_176670.2|| Bos taurus ATP synthase F1 subunit delta (ATP5F1D), mRNA
X17019.1 B.taurus mRNA for delta subunit of ATP synthase
+GGAGTGAGCTCGCCTCTGCGTCGCCTTCCGCTGTCCGCCAGCCGTCATGCTCCCCTCCGCGTTGCTCCGCCGTCCGGGTT
+TGGGCCGCCTCGTTCGCCAGGTCCGCCTCTACGCCGAGGCTGCCGCTGCTCAGGCCCCTGCCGCGGGTCCGGGACAGATG
+TCCTTCACCTTCGCCTCACCCACGCAGGTGTTCTTCAACAGCGCCAACGTCCGCCAGGTGGACGTGCCCACGCAGACCGG
+CGCCTTTGGCATCCTTGCAGCCCATGTGCCCACTTTGCAGGTCCTGCGGCCAGGCCTAGTTGTGGTCCACGCTGAGGATG
+GCACCACCTCCAAATACTTCGTGAGTAGCGGCTCTGTCACAGTGAATGCTGACTCCTCCGTGCAGTTACTGGCTGAGGAA
+GCTGTCACCTTGGACATGCTGGATCTGGGGGCAGCCAAAGCGAACCTGGAGAAGGCACAGTCGGAGCTGTTGGGGGCAGC
+AGACGAGGCCACTCGGGCTGAGATCCAAATCCGCATCGAGGCCAACGAGGCCTTGGTGAAGGCTCTGGAGTAGGCGGTGC
+CTGCCTCACACTGGTCCAGCTGGGAGACCTGGCCGGAGCTGGGCAAGGGTGGCCTGGCATGAAGACCCAGCTCCCCATGG
+GTGCAGGCTGACAGGGAGCGGGCCTGCGGGAAGCTGTCCTGTTAATAAGCCACTAGGGGGCAGCACAGTGCCAGTTTCTG
+CCCAGAGCGCCCCTTGGGGCCCTGCCCCTTTACGCTAAATAAACCCAGGTAAACAAGCCAGCTCTGGCAGGTTGGGTGGC
+TGGGGGCAAGCTGGGACACTTGCCCTGCCCGCGAGGAATGCTGTCCCCCTGGGGGGGTCTCCTGCCATCTGCACCACTGC
+TCTGCCCCTGCAGTGTCTGCTGCAGAGACCGCTGCTCCTAGCCACCGCCAGCGGCCTGCCCCCTGCCCAGCCCATATTAA
+AGACCTAGGATCC
+>ref|ref|NM_175822.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit B4 (NDUFB4), mRNA
X64898.1 B.taurus mRNA for B15 subunit of NADH: ubiquinone oxidoreductase complex
+AAGCGCGGTTTTGCGCCGGGTCGTCAAGATGTCGTTCCCCAAGTACGAGGCATCGCGCTTGTCCAGCCTACCTACTACCC
+TCGACCCAGCTGAATACGACATATCTTCTGAAACCCGGAAAGCACAAGCCGAGCGGTTGGCCATAAGATCCCGGCTTAAA
+CGGGAATACCAGCTTCAGTACTACGACCCTAGTCGCCGAGGGGTTATCGAAGATCCTGCCTTGGTTCGTTGGACCTACGC
+AAGATCAGCAAATATCTATCCCAATTTCAGACCCAATACCAAGACCTCCCTCTTAGGGGCTCTGTTTGGAATTGGGCCCC
+TCGTCTTCTGGTATTATGTTTTCAAAACTGACAGAGATAGGAAAGAAAAACTTATCCAGGAAGGAAAATTGGATCGAACA
+TTTAACATCTCCTATTAAGTCTGACAGTGATGTCTGTATGTCCTATTGTTTAAATAAATCAATTAATCATTAAAAAAAAA
+AAAAAAAAAAAA
+>ref|ref|X69084.1|| B.taurus mRNA for beta 2-microglobulin
+CGCTGCAAGGATGGCTCGCTTCGTGGCCTTGGTCCTTCTCGGGCTGCTGTCGCTGTCTGGACTGGACGCCATCCAGCGTC
+CTCCAAAGATTCAAGTGTACTCAAGACACCCACCAGAAGATGGAAAGCCAAATTACCTGAACTGCTATGTGTATGGGTTC
+CATCCACCCCAGATTGAAATCGATTTGCTGAAGAATGGGGAGAAGATTAAATCGGAGCAGTCAGACCTGTCTTTCAGCAA
+GGACTGGTCTTTCTACCTGCTGTCCCACGCTGAGTTCACTCCCAACAGCAAGGATCAGTACAGCTGCCGAGTGAAACACG
+TTACTTTGGAACAACCCCGGATAGTTAAGTGGGATCGAGACCTGTAAGCAGCACCATCGAGATTTGAACATTCTTCATTT
+GGTATAATATCTGGAAAATTCTGTTTCCCTGCTCTTTAATACTGATATGCTTTTATGCTTTATGCACATAATCAGAAGTC
+ATATTCATGTTACCATAAATACCTTCTTTATA
+>ref|ref|X56685.1|| Bovine BAP 1 mRNA
+GTTAAGGAGGAGGCATACGGGGCCGCAGCAGGTCAGCTAAAGGGCAGCGCGATCAAAATACTGCTTCAGTGGGCGAAGTG
+GAACTGGTGCAGAAGGGCATACATTACAGTGATGCCGAAACGTGGGAAAAAGGGAGCGGTGGTCGAAGACGCGGAAGAGC
+CCAAGACTGAGCCAGAGGCGAAGAAGAGTAAGGCAGGAGCGAAAAAGAACGAAAAAGAGGCAGTAGGAGAGGGCGCAGTT
+CTGTATGAAGACCCCCCAGATCAGAAAACCTCACCCAGTGGCAAATCAGCCACACTCAAGATCTGCTCGTGGAATGTGGA
+TGGGCTTCGAGCCTGGATTAAGAAGAAAGGTTTAGATTGGGTAAAGGAAGAAGCCCCAGACATCCTGTGCCTCCAAGAGA
+CGAAATGTTCAGAGAACAAACTACCAGTTGAACTTCAAGAACTGTCTGGATTGTCCCATCAGTACTGGTCAGCTCCTTCA
+GACAAGGAAGGGTACAGTGGTGTGGGCCTCCTCTCCCGCCAGTGCCCACTCAAAGTCTCTTATGGCATTGGTGAGGAAGA
+ACATGATCAGGAAGGCCGAGTGATTGTGGCTGAATATGACGCATTTGTGCTGGTGACAGCCTATGTGCCTAATGCAGGCC
+GAGGTCTGGTGCGCCTGGAGTATCGCCAGCGCTGGGATGAAGCTTTTCGCAAATTCCTGAAGGGTTTGGCATCCCGCAAG
+CCCCTTGTGCTATGTGGGGACCTCAATGTGGCTCATGAAGAAATTGACCTTCGCAACCCGAAGGGAAATAAAAAGAATGC
+TGGCTTCACTCCACAAGAGCGGCAGGGCTTCGGGGAATTGCTGCAGGCTGTGCCACTCACTGACAGTTTCCGGCATCTCT
+ACCCCAACACCGCCTATGCCTACACCTTCTGGACCTATATGATGAATGCGCGATCCAAAAACGTTGGTTGGCGCCTTGAT
+TATTTTTTGTTATCTCAGTCTGTGTTGCCTGCATTGTGTGACAGTAAAATCCGTTCCAAGGCTCTGGGCAGTGACCACTG
+TCCCATTACCCTATACCTAGCTCTGTGACAACCTCTTCCAAATCACATTGAGCCTGGGAAATAAGCCCACCAAGCTAGCT
+TTAAAATTCTTACCCCCAAACTTCTTTAATAATTGCTATCTAGAGACATCTGCATTGTATTTCCCTTCTAAACTATGAAT
+CCTTAACCAGGTTTCTAATAACAGATGTAAGTTCTCAAGAAGGGTGTTTGTGTAGGGGTAGTGCTTTTTTCTTTTTCTTT
+TTTTTACATTAATCAAAAGCTACTGATACTTCCTTTGAACTGTCCCTGTGAAAATAAAGAGCCATAGTTTCAAAAAAAAA
+AAAAAAA
+>ref|ref|X56119.1|| B.Taurus BC1.2 Y-specific DNA
+GATCAAGCAGCCGATAAACACTCCTTGGAGCACATCTCGGTCCCTGCACTGATC
+>ref|ref|X14711.1|| Bovine beta-casein gene
M55158.1 Bovine beta-casein gene, complete cds
+TCGAATCCATCTCTATCAATTAATGTAATTCAAAATTGGTGAGAGACAGTCATTAGGAAATTCTCTGTTTATTGCACAAT
+ATGTAAAGCATCTTCCTGAGAAAAGGGAAATGTTGAATGGGAAGGACATGCTTTCTTTTGTATTCCTTTTCTCAGAAATC
+ACACTTTTTTGCCTGTGGCCTTGGCAACCAAAAGCTAACACATAAAGAAAGGCATATGAAGTAGCCAAGGCCTTTTCTAG
+TTATATCTATGACACTGAGTTCATTTCATCATTTATTTTCCTGACTTCCTCCTGGGCCATATGAGCAGTCTTAGAATGAA
+TATTAGCTGAATAATCCAAATGCATAGTAGATGTTGATTTGGGTTTTCTAAGCAATACAAGACTTCTATGACAGTGAGAT
+GTATTACCATCCAACACACATCTCAGCATGATATAAATGTAAGGTATATTGTGAAGAAAAATTATCAATTATGTCAAAGT
+GCTTACTTTAGAAGATCATCTATCTGTCCCAAAGCTGTGAATATATATATTGAACATAATTAATAGACGAAACAAACCTT
+GTAAAAATGAGTAGTGTAAAATACAACTACATTTATGAACATCTATCACTAAAGAGGCAAAGAAAGTTGAGGACTGCTTT
+TGTAAATGGGCTCTTATTAATGAAAAGTACTTTTGAGGTCTGGCTTAGACTCTATTGTAGTACTTATGGTAAGACCCTCC
+TCTTGTCTGGGCTTTCATTTTCTTTCTTCCTTCCCTCATTTGCCCTTCCATGAATACTAGCTGATAAACATTGACTCACT
+ATAAAAGATATGAGGCCAAACTTGAGCTGTCCATTTTAATAAATCTGTATAAATAATATTTGTTCTACAGAAGTATCTCT
+AAATAAATGTACTTTCTCTCTTAAAATCCCTCAACAAATCCCCACTATCTAGAGAATAAGATTGACATTCCCTGGAGTCA
+CAGCATGCTTTGTCTGCCATTATCTGACCCCTTTCTCTTTCTCTCTTCTCACCTCCATCTACTCCTTTTTCCTTGCAATA
+CATGACCCAGATTCACTGTTTGATTTGGCTTGCATGTGTGTGTGCTGAGTTGTGTCTCACTCTTGTCAACCCCATGAATG
+ACAGTCCACCAGGCTCCACTATTTCCAGTTAAGAATACTGGAGTGGATTGTGTTTCCTACTTCATTTGATTAATTTAGTG
+ACTTTTTAAATTTTTTTCCATATTCAGGAGGCTATTCTTTCCTTTTAGTCTATACTGTCTTCGCTCTTCAGGTCTAAGCT
+ATCATCATGTGCTTGTTAGCTTGTTTCTTTCTCCATTATAGCATAAACACTAACAACTATTCAGGTTAGCATGAGATTGT
+GTTCTTTGTGTGGCCTGTGTATTTCTGGTGTGTATTAGAATTTACCCCAAGATCTCAAAGACCCACCGAATACTAAAGAG
+ACCTCATTGTAGTTACAATAATTTGGGGACTGGGCCAAAACTTCCGTGTGTCCCAGCCAAGGTCTGTAGCTACTGGACAA
+TTTAATTTCCTTTATCAGATTGTGAATTATTCCCTTTAAAATGCTCCCCAGAATTTTTGGGGACAGAAAAATAGGAAGAA
+TTCATTTTCTAATCATGCAGATTTCTAGGAATTCAAATCCACTATTGGTTTTATTTCAAACCACAAAATTAGCATGCCAT
+TAAATACTATATATAAACAACCACAAAATCAGATCATTATCCATTCAGCTCCTCCTTCACTTCTTGTCCTCTACTTTGGA
+AAAAAGGTAAGAATCTCAGATATAATTTCATTGTATCTGCTACTCATCTTTATTTCAGACTAGGTTAAAATGTAGAAAGA
+ACATAATTGCTTAAAATAGATCTTAAAAATAAGGATGTTTAAGATAAAGTTTACAGTATTTTCAGCAAATTTGTTAAAAA
+ATAGAAGCAACTATAAAGATTTGTAACAGTGGTTGCTATTTTCTTTACCACGAGACTAGTTAACAGGCTGTATTAAAAGA
+TCTTTTCTTGAATTAAATATTTTCAATTTGATTAAACATACCTCAGCCATAAAGGCAAGCACATTTAATTTATACTATGG
+GAATTTGAATAATTGTTACTGAAGAAGCTCTACCAACAAAAAGTTTATAGAGCTAGCATATTTAGTCAAGAGATAAAGAG
+GGTTGTTAGGATACATGTGCTATTTGAAAGGTATTTATAAAAGAAGAGTATATTTATTAAAATTGCTCAGAACATCCAAA
+TTTCAAGTTTATCATTTATCTTACAATATTTCAAAAATATTAAAATAGATACATGAAATACAGAAGTAAATTAAAGAGAA
+AGTATTTTATTTTGTAAAAAAAAATTCTAGGTTGGACAGGGAGTACCAGGAAACAAAAAACAATGAAAAATGTGATCTGA
+CAGAAATTATAGCTCAAAGTATAGTAGTCAGTAATGAAATGGCTTAAAAATTGGCATATAAAATGCTAATTATAAAATAA
+ACAAAATGTAATAATACCCTCCCTACATGTAATGAACTCTGAGTATTATACTCTTTTTTGAAGTCTTGACAATGAAAATT
+TATTTAGACTTTTATAGACATCTTGGATAAAGTAAAACAAATTACGAATTAGCATCCATGAGAAAAATATAGAAAAATTT
+CTTAATGTAGTTTGCAAATCTGGGGATTGAAGATGTGTGTCAAGAGATTGTGATGGCAGACATTTTTTTTCAGACTATAA
+AATGCACAAACAACCATTTAATACATTTTGGTCAAAAATAGTATGTATTTTATTTTATGCTACAGGAGAGTAGTCTAAAG
+TAGGACTGGGCAGAGATCTGACACCCTGGTAATCACCGAGAGATAGTACACAGTCTCTGTAGAGAAAATAAGCATAGTGT
+ATGATCTCTAAAATTATGTGGACAAAGGGGAGATAACATTAGGCATGTGGGGATGAAGACTGAGTACAGAAGAACAATCT
+AGTCAGTCCAAGAAAACATGTGGATCAATGGAACAAATAGAAGAAATGCTAAAATGAAACAGAAGTCTTACTGGAAATAA
+AAGATATGAGGAAGACAAACATTCATGAAAATCACTTAGTTTAGTAGAGAAAAGATAAAAATAAAGTATTACCTTCTTCT
+TCATATACATTGTTTGATCAGATGCCCCTCAATAAAACTGAGTCTCCAACAGAACTGAAACTTTAATATTTTGTTCACTG
+CTCTAATCCCAGAATCTAAGACATATCTGGCAATAAAAATTAATAAATAAATATTTTTAATAAGTAAATCAATCACTTAA
+TTTTTCTGTAAGTATCTGTAACTTCTCTTCTGTCTTTCCAAAAAACACTCATAAGTACTGTGAATAAGATGAAAAGAGTG
+AAATAAGATATAGGCTGTTAGCTGAAAACATCTGGATGGCTGGCAGTGAAACATTAACTTGAAATGTAAGATTAATGAGT
+AATAGTAAATTTTAACCTTGGCCGTATGATAAAATGTCTATTAATATTTTTCTAAAATACAGGGCTTTTTGTTTTTGCCA
+TGAGGTTTGCAGGATCTTGGTTCCCTGATGAGGGATCAAACCTGGGCTCCCCTGGAAGCACGGAGTCTTAGATATTTGTA
+TTATACACTATCTTTGGTTTCTTTTAAAGGGAAGTAATTCTACTTAAATAAGAAAATAGATTGACAAGTAATACACTATT
+TCCTCATCTTCCCATTCCCAGGAATTGAGAGCCATGAAGGTCCTCATCCTTGCCTGCCTGGTGGCTCTGGCCCTTGCAAG
+AGAGGTAAATACAGAAAAAATGTTGAAATAAATAAGACTAGTACTATCTGCTATGTGTAGAAAATTCATTACCAACATTG
+TAAATGTATAAATAATGCACAATCTCAGATTTTTTTTGAATGCTAAGAAAGTCATTTACGTTCATCCACTATCTCAGTAG
+TATCCTATGGGACCACAAGTCTGAGTCTAGTGCTTTCTATAGTATTGTACCATCTGTACCATCAATCCCTAAAGAAAAAA
+GAAAATAAACCAATAAGCAACAGACTAACAAGAAGGAACACAGATAAGAACAAAAAGTGAGTAATATTGCATAAATACAA
+TTGCATGCATATACAATCTAGATAAATATATCTTATTCCAGTGATGAAATATTTGTATCCCTTACTGTAGAGTGCTAGGT
+TTAGCTGTGTCTATTCAACACAGGATGATACTCCAGAGGATGGTATATCAGACAACAATAATAAATATGTTCATAATTAT
+AATAAAAAGTGTTCAGTAAAAATTAAAATAACTCCTTTTCTGTTACCCATAAAAACTCTTCATTAAAGTAAAACAAAAAT
+ATACTAATGAAAGTTACTAAATTTAAAAGACTCTCAAAAGACATATAACATTTTTATTTTTCAGATTTGTGAAATAGATA
+GCTCTGAATAAAGCAAGTAAAAATTAGGTAGGAAAATATTTAATAATGAGTTGACTGTGGGAACTAAAGTGTTTTTTTTT
+CTCTTTAGCTGGAAGAACTCAATGTACCTGGTGAGGTAAGATATTTTTATACAAAGAAAAAAATTAATTTAACTGTAAAA
+TAGTAACAGTCTCTAATGATCTGGCAGAAGACTCAGCTAATTGTCAATTTTTATTTTTCCTTTATAGATTGTGGAAAGCC
+TTTCAAGCAGTGAGGTAAGATAGTGTTCATTCAGAGGCAATTTCCCAAATTTAGAGCAATAAAATGCTGTATTATCTTTT
+TGTGTTACATTAATGGCAACCCACTCCAGTATTCTTGCCTGGAAAATCCCATAGAGGAGGAGCCTGGTAGGCTGCAGTCC
+ACGGGGTCGCTAAGAGTCGGACAGGACTGAGCGACTTCCCTTTCACTTTTCACTTTCATGCCTTGGAGAAGGAAATGGCA
+ACCCACTCCAGTTTTCTTGCCGGGAGAATCCCAGGGACGGGGGAGCCTGGTGGGCTGCCGTCTATGGGGGTCGCACAGAG
+TTGGACACGACTGAAGCGACTTAGCAGTAGCAGCAGCAGGACAGTTAAGGTTTCTCTAATAGCTCAGTTGGTAAAGAATC
+TGCCTGCAGTGCAGGAGGACCCTGGGTTCGATTCCTCAAGATCTGCAGGAGAAGGGATAGGCTACCCATTCCAGTGTTCT
+TTAAGCCAATGTGGCTATGTACTGACGGGTAACTATTGTCAATTTCCACTCTGTATATTTAAAGGAATAAATGTGTAGAA
+GGTTTAATATTCTAGTAATTTCTAAATGGGTTTGTTATTTGAAATTGTGTCATTGTGCCCTGCTTTTTTTCCTTAATGAA
+CTGTACAGTCCTCTTTTCTGTCTTGAACTTTCTATGTTAACCTCCTTCCATGCTTTGGCATTTATTGAGCACTTTCTGTT
+TCAGACTTTGACTAGGAACTGCAGTACAAACTAGAAAGAGGGATGCCCTTTGTAAAGTGTGAGCAGACATGCAAATGGAC
+ATATTTTATTATTATACAAGCAATCCAGTACACAAGAGGCAGTGAGAATGAGTGTAGTCCTAAATCTGCCTGGTGGAATG
+AGGTAGATAATAACCCTATGCCACTCTTTTTGGCTCTGTCATCAGCTGTTGGTTAAATAGTGCATCAATATACTTTGTCT
+CTTCACAAAGGTCAAAAGATGCTGCTGCTGCTGCTAAGTCGCTTCAGTCATGTCCGACTCTGTGCGACCTCATAGATGGC
+AGCCTGCCAGGCTCCCCCATCCCTGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCCATTTCCTATTCCAATGCATA
+AAAGTGAAAAGTGAAAGTGAAGTCGCTCAGTCGTGTCCGACTCCTAGTGACCCCGTGGACTGCAGCCTACCAGGCTCCTC
+CATCCATGGGATTTTCCAGGCAAGAGTACTGGAGTGGGTTGCCATTGCCATCTCCAAAGATCCTTATAGGAGGGTATGTA
+TTTCTTATAATTCATTAGAAGCCTAAACATAACCAGGGAACTAAGAATGATTAACAAGTTCATGCGTGGTTATTATTATA
+TATTTTCAATGACTATTATTCTTTTAGAACCAGATGAAAATATTAGAGATCATTTGTTGTCCTAAGGAGAGAACAGGATG
+ATTGAGAGACATGTATGCATGCAAAGTTACTTCAGCCCTTTCCAACTCTGTATGACCCTATGGACTGTAACCTGCCAGGT
+TCCTCTGTCTATGGGATTCTCCAGGCAAGAATACAGGAGTGGGTTGTCATCTCCTCCAGGGCCTAGGAATTGACCTGCAT
+CTCTTACGTCTCCTGCATTGGCAGGCAGGTTCTTTACCACTAGCACCACCTGGAAGCCCGATTAGTATCTGTTAAATGCC
+TCTTTGAGTACTATGCTCTCTAATCCTCTTTTTCTTGATTGCATCATCTTTCTTTTTATACAACAGCCTTATTCAGAAGA
+GTGGAACATAAACTTTCAGCCATAAAATAATGATATTATCAAATGAGCTGTCCATATTAATCTATTAAATTTCTTCATTT
+TCTGATTTATGTTGACAAATAAGAATTTTTTTTAAAGCTAGACCTGATTTTATTTTTATTTTTCCAAAGGAATCTATTAC
+ACGCATCAATAAGGTAAAACCCCTCATATTTAAATGTACATTTTTTTAAATTTCATGTTTGATTTTTATAAACAGCATTT
+CTTTATGTATTTTTTTTTTAACCAGAAAATTGAGAAGTTTCAGAGTGAGGAACAGCAGCAAACAGAGGTAATTTGTTCAC
+TATGAGTATATTTTGAGAAGTATTATGAAACATAACACATAAAAAGATTTATAATAATTATGTTCAGTCTAAGAATGGTA
+ATATAAATGTCAGTGCAAGAAATAAAAACTTTGACAAAATGAAAATATTTTAAAAATATAAACGCATTTTAAAACACATA
+ATCAAATTTCACAGTATAGAATAAATAGCTAAGAATAATTATTGATGTATTCATTTTACTAATGGTATACCTGGTTTTAA
+TAACTGCATATTAGTAGGAACATTTCCAGACTAGGGACTGTGATCCCCTTATTCTAATGATGGATATGCTGATGAAAGAC
+AGTAGGGTGACAGTGTGGCACTAATCCTCATCTGATCATTTATCAGCTGTATAACCTTGGCTCCATGTTTCTCTGTACAT
+CATTTTCTTCACCTGTAAATTGAGAATATTCATAATTACCCAGAGTTGATGAACTGACACACAATGAATATTCAGTGGTT
+TTATATTATATTTGATAGCTTTTATACTCACATTTATGGATGTGTGGAGTTCTAAAAAGTATTTCCATTGCCCAGATGAG
+AGAAGTGAGGTACAGGACAATTGAGTATGCAAATGTGTGACCATACCACATAGTTATTAAATAGCAGAACTTGCTTAAAA
+ACAAGGATTTGCGGACAATGTAAAATTCTTTCATTATATTACTCTTGTGGTAACATATTTATCTAATTATGATATTTAAG
+CTTTCCTCTTTTATAATTGAAGTTTGATTGTTTGGCACTTAGGCCAAATTCTAAATCAAAATGAATTTACAACTTGATGC
+CTTTGAAGACTCAAGATTACCACCTTCTACCAAGAGAAGTAGTGCTAGAAGTTGGCCATTGTTAAGGAACTCCTTGAATT
+AAAAAAACACATATTAAGACTTAGTTTTCATTAAAACAAACAAAAATAAACCTCAGAGTAACTTTTAAAGTCTTTTTAAA
+ATGGATCTTTCTTTGTTATATGAAACCAGTTTGGACTATTATCCAAAGTATGTAGCTACCACTCTGCAGGAACTCAGGAA
+GAGGTGGAATAAGTGTTGAAATCTCCAAACCCTGATTTCACTTGACTCTCTGATTTCACCTGTGAAGAAAGTGGGTTAAT
+GAGAAATCCTTCAGTGAGCATTTTACTCATTAGTCTTCATATGACCCCAATTTCTTAACCAAACCAAATGGAAGATTTTC
+TTTCTCTCTCTTCACTGAATTATGTTTTAAAAAGAGGAGGATAATTCATCATGAATAACAATTATAACTGGATTATGGAC
+TCAAAGATTTGTTTTCCTTCTTTCCAGGATGAACTCCAGGATAAAATCCACCCCTTTGCCCAGACACAGTCTCTAGTCTA
+TCCCTTCCCTGGACCCATCCATAACAGCCTCCCACAAAACATCCCTCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTT
+TCCTTCAGCCTGAAGTAATGGGAGTCTCCAAAGTGAAGGAGGCTATGGCTCCTAAGCACAAAGAAATGCCCTTCCCTAAA
+TATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTGACTCTCACTGATGTTGAAAATCTGCACCTTCCTCTGCCTCTGCT
+CCAGTCTTGGATGCACCAGCCTCACCAGCCTCTTCCTCCAACTGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTC
+AGTCCAAAGTCCTGCCTGTTCCCCAGAAAGCAGTGCCCTATCCCCAGAGAGATATGCCCATTCAGGCCTTTCTGCTGTAC
+CAGGAGCCTGTACTCGGTCCTGTCCGGGGACCCTTCCCTATTATTGTAAGTCTAAATTTACTAACTGTGCCTGTTTAACT
+TCTGATGTTTGTATGATATTCGAGTAATTAAGAGTCCTATAAAAAAATGAATAATGAATGGTTCCAAAATAAGCATAGCT
+GAGATTAATGATTGTCAGCATTAGTTATAAATAGAATAAGCTGGAGAACCTTCACCTCCCCTCCACCACCAGATCTCAAT
+GTCTAGGCTTACCCGTGGAGATTCTGATGTAATTGTTCTTTCTATGTAGAAGAAACTTATTGGGAAGAAATAATATAATG
+GACTATGATTTAATTGGTCTGTTGAGAACCAATTAAATTAGATGAAAGCGATTAAGTACAATAAAGCCAAAATTGAATTT
+GATAATCTCATTTGGCTAAGAATAACAAACCTAAGAAGGTTTGCTATTTTCTACAATTTTGAAGTTCTCCTTATGCACAA
+TTATTTCACCACATGACTCATTTCACATCGTGTTTTTGATATATGAGCATATGAGGGAAAAATACTGAGATGCTTATTTC
+AATACTCAGGGAAAATTTATTGCCAAAAGGCAAGAAATGTATAATTCATTCACTTATTTTATTTTATTATTTTTTTTATT
+TTTAAGGTCTAAGAGGATTTCAAAGTGAATGCCCCCTCCTCACTTTTGGTAAGCTTTAGGATATTGGAGGCAGACTGATC
+ATTTTTATAGTTAATATCTTTTACATTTCATTTTCCTGGATAAGCCCCAATAGTAGCAATTTCCATCAGTGTACCAGCTT
+AAAGATTAATTATAAATTTATTTTCAATGATTGACTGTTATTTACTGGCCTGAAATTATGTATCTGTTATATTTCAAATA
+ATGCAAAACTGTATATATATGGTGTTTACAGATTTGATTGGTTTTCTTTCAATAGCCTATATCCTTATTATTGATTGTCA
+TCATTTATAGAAAAAACTGAAAATAATTTCTTATACTTTTATGTAAACCTGTTAGAGCTTATTTTAAAGATCAACTGCAT
+TCACATTTCTAATCTAGTCATTATGAGCTTCAATAGTTTTATCTCACTTAAAATATATATATTGTCTTTTAATTCATGAG
+TCAAAATACAATCTCACAGTCCAGATATGGGACTTAAAAGGGGGATAGAATATAGTTTTGATATTCTTAACAATACACAT
+CCTTTTGTGATCATGATTCAGCAGACATTTAATAAAATGATTCCAAGTAAGCCGATGTTTGGTCCTAGAGGAATTTTTAT
+AACCTTTAAGAGAAGGCATAGCATGGTGTTTTTGTAATAAGATTTCTTTTATGAAAAAGTCACACCAAAATTGCAAATGG
+GGGTGAGATGAAGAGTTATAACATATAACTAAATCTATGTTTGTTCTCTATTCCACAGAATTGACTGCGACTGGAAATAT
+GGCAACTTTTCAATCCTTGCATCATGTTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATT
+CCTTTATTTATTTTATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACTATATATTTCAAAATTTTAATTCAACATT
+AGCATAAAAGTTCAATTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATT
+ATTATTTCTTTAAGAATCTATTTCCTAACCAGTCATTTCAATAAATTAATCCTTAGGCATATTTAAGTTTTCTTGTCTTT
+ATTATATTTTTTTTAATGAAATTGGTCTCTTTATTGTTAACTTAAATTTATCTTTGATGTTAAAAAGAGCTGTGGAAAAT
+TAAAATTGGATAGAATTC
+>ref|ref|X57765.1|| Bovine mRNA for endothelin receptor
+GAATTCGGCACGAGCTCGCCGCCCCAGAGTGGAGTAGATCTGGGAGCTTTGGGAGGAGAAGGGGAGCACAGACGCGAGGC
+GCGTTCCTTCGGAGTTTTCTTTTTCTTGAGAACCCTCGCGCGCGCGCACAGCCAGCCCTTTGGTCTGGAGATTGCGGACC
+AGAGGTGGAGAAGCTCCATCCCCCCTCGGTGGCTGAAGCCTGGCGGCTCGGGGAGGACCTCCCCAGAGAAGCCGTGCCTA
+GGAAGTTTTCCGAAGCGGAGGCAACGGTGCCACCCGGGCCGCCGCCGCGCCGGATCCCGGGACATTCGCCATTCACCTTC
+GCCGGCTCGGCTTCAACTTGCCCGGGCGCCGCACACAGACCGGGCAGCCGTCTGAGCCCGCGGAGCTCCACGGTGGAGAA
+AGAAAAAAAAAAAAAAGAGGGTGTCAAATCAACAGATTAAGTGACATTTCCTGAAATTTGCATCGAGATGGAAACCTTTT
+GGCTCAGGTTGTCCTTCTGGGTGGCTCTGGTTGGAGGTGTCATCAGTGATAACCCTGAAAGCTACAGCACAAACCTAAGC
+ATCCATGTGGACAGTGTCGCCACTTTCCATGGGACAGAACTCAGCTTCGTGGTCACCACACATCAACCCACGAATTTGGC
+CCTCCCCAGCAATGGCTCAATGCACAACTATTGCCCACAACAGACTAAGATTACTTCAGCTTTCAAATACATTAACACTG
+TGATATCATGTACTATTTTCATCGTGGGAATGGTGGGGAATGCAACCCTGCTCAGGATCATTTACCAGAACAAGTGCATG
+AGGAATGGCCCCAACGCGCTGATAGCCAGCCTTGCCCTGGGAGACCTTATCTATGTGGTCATTGATCTCCCTATCAATGT
+ATTTAAGCTGCTGGCTGGGCGCTGGCCTTTTGAACAAAATGACTTTGGCGTTTTCCTCTGCAAGTTGTTCCCCTTTTTGC
+AGAAGTCCTCAGTGGGGATCACCGTCCTTAATCTCTGCGCCCTAAGCGTTGACAGGTACAGAGCAGTTGCCTCCTGGAGT
+CGTGTTCAGGGAATTGGGATTCCCTTGGTCACAGCCATTGAGATTGTCTCCATCTGGATCCTTTCTTTTATCCTGGCCAT
+CCCTGAAGCCATCGGCTTTGTCATGGTACCTTTTGAATACAAGGGTGCACAGCACAGAACCTGTATGCTCAATGCCACGT
+CGAAATTCATGGAGTTCTATCAGGATGTTAAGGACTGGTGGCTGTTCGGGTTCTACTTCTGCATGCCCCTGGTGTGCACT
+GCGATCTTTTACACCCTCATGACTTGTGAGATGTTAAACCGAAGGAACGGCAGCCTGAGAATTGCCCTCAGTGAGCATCT
+GAAACAGCGTCGAGAAGTGGCAAAAACAGTTTTCTGCTTGGTTGTAATTTTTGCTCTGTGCTGGTTCCCTCTTCATTTAA
+GCCGCATTTTGAAGAAAACCGTGTATGATGAAATGGACACGAACCGATGTGAATTACTTAGTTTCTTGCTGCTCATGGAT
+TACATCGGTATTAACTTGGCAACCATGAATTCATGTATCAACCCAATAGCTCTATATTTTGTGAGCAAGAAATTTAAAAA
+TTGTTTCCAGTCTTGCCTCTGCTGCTGCTGTTACCAGTCCAAGAGCCTGATGACTTCGGTGCCCATGAATGGCACCAGCA
+TCCAGTGGAAGAACCATGAACAAAACAACCATAACACAGAGAGGAGCAGCCACAAGGACAGTATCAACTAAACTGAAGGA
+ACAGTTATCAGTGTGCTTCAAGCCCGACTGGAGGAAAAAATCAACACAGCACTGTTTCCCCAGGAATCTGTTCCATCCTT
+CTCTCACGACTCAGCCCCACCCCCTGGAAAAATGCTTTCCAAAACGTTGAAGGGTTGACTGGTTTATACCCACAAATTCA
+ACGAATCTTACGTCTTTGATTTATCTGATTTACCTATTCTGCATGTTATATTCAGCCCTAAAAAATGGTGGGAGTTGGCA
+GGGGGAAAGGAGATTGTTCAGTTAAACCAGAAGGATATTTACCACCTTTCCGTGAAAATAGATTTTTTCGAGTACATGGC
+AAACTTTCATGGTGGTTCTGTAGAATGTTCAATAAGACCAGTCACCGTGAAAAAGTTATAGAGACTGTAACAAGATTTTT
+TTTTTTTTTAAGTAATTTTGGTTTTTTGGCCAAACACAGTATGAGCTGAAGTCTCCTTTATTTGAAATATAATTCAGTGC
+CAGTATTTTTTAACTGCACAGTAGCCTACAGATGATTTGAGCTCATTTACACATATTTTTGCCCCCCAAAACAAATAAAA
+CGGAATTCAGGTGAGAAGTTAGGTTAGTGTTTCTCATGTCACTGGCTTATTTTTTAAAACATAAATTCTCAAGCTTCAGG
+AGCTTACAGGACTTTAAAGCACAGACTGATATCCATATATGGCAGTTTAATAGCTGCTATGCAAACTTTTTGGGAACCTA
+TATTTTCTTTTTTAATGGGGTTTCATATTAGGAGATCTTGTGCCTATTCTGTTAAATTGAAAAATAATGCTTGACTCCAA
+CAGTTCTGTTTTTCACAAGCCTAGTTTTTTAATGGAAGCATTTTATGTAAAATCAAAATACCATTTACTAAAATTTAAAT
+GTTTGTATCGTTTAACTATGTCCAAGACTTTTGGTGAAATGCATAGAAGTCCAGAACAAACCAAGAAAGAAAGGATTGCG
+TATTTTCAGAGGATTTGGAAATTCTCATTGAGGTTTATTTTTGGTAATAGTAACGTGTATATGTGTGTGTGCAGATATAC
+ACATATGTATCGTGTACATATATACATGCATATACATATATACATGTATGTATATATTCCTTTGCTTCCTTTTAAAATGT
+TAACTGGCAGTGAGACTTTTTTGGTCATTCCTTTTCCACGGAGGAATATGGAAAACATAATTTCAAAGTGGCCAGCTGAG
+TTTATTGTGTCAATGAAATATAATTACTCCCAGATGCCGCCATGAACTTAAGGTTCTTCATGTCCCTGGGTTTTCAGTAT
+GAACCTAAATGCCTTCCCTACCCACACTCCTCACATGGTCACCATTTCAAAAGGCCCGCAGTGACTTCTGCTGGGCGTTT
+TCCACGATGTTTACAAACTGTGATTGCAGCAGCAAATCTTTTACTGTGTGTATATAAATATATGTATATATAAACAACTG
+TAAATTTCTTTTAGCC
+>ref|ref|X63139.1|| B.taurus beta-lactoglobulin gene 5'-region and partial exon 1
+AGCAACACACCCAGCACCAGCATTCCCACCGCTCCTGAGGTCTGAAGGCAGCTCGCTGTGGTCTGAGCGGTGCGGAGGGA
+AGTGCCCTGGGAGATTTAAAATGTGAGAGGTGGGAGGTGGGAGGTTGGGTCCTCTAGGCCTTCCCATCCCACGTGCCTGC
+ATGGAGCCCTAGTGCTACTCAGTCATGCCCCCGCCGCAGGGGTCAGGTCACTTTCCCATCCTGGGGGTTATTATGACTGT
+TGTCATTGTTGTTGCCATTTTTGCTACCCTAACTGGGCAGCGGGTGCTTGCAGAGCCCTCGATACTGACCAGGTTCCCCC
+CTCGGAGCTCGACGTGAACCCCATGTCACCCTCGCCCCAGGCTGCAGAGGGTGGGGTGACTGCAGAGATCCCTTTACCCA
+AGGCCACAGTCACATGGTTTGGAGGAGACGGTGCCCAAGGCAGAAGCCACCCTCCAGGACACACCTGCCCCCAGTGCTGG
+CTCTGACCTGTCCTTGTCTAAGAGGCTGACCCCAGAAGTGTTCCTGGCGCTGGCAGCCAGCCTGGACCCAGAGCCTGGAC
+ACCCCCTGCGCCCCTACTTCTGGGGCCTACCAGGAACCGTCCAGGCCCAGAGGGGGCCTTCCTGCTTGGCCTCGAATGGA
+AGAAGGCCTCCTATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATACGCCAGGGGGGATTCGGGGAACCGCGTG
+GCTGGGGGCCCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTGTCTCAGCCCTCCACTCC
+CTGCAGAGCTCAGAAGCGTGATCCCGGCTGCAGCCATGAAGTGCCTCCTGCTTG
+>ref|ref|X52582.1|| Bovine 3' DNA for beta-lactoglobulin
+ATAAACCTGTGCTCTCCCTTCTGAAGTCTTTCCTGGATGATGGGCCGGGGGTGGAGAAGGCCCGGGACAGGGTGGGGAGT
+GGTCTGGCTCAGAAGGAATGAATGGTAGGGCTGGGATCCAGGGCGTCTGCATTACAGTCTTGTGACATCTGGGGCCCACA
+CACATCACTACGCTCTT
+>ref|ref|X52581.1|| Bovine 5' DNA for beta-lactoglobulin
+GCTTGGCCTCGAATGGAAGAAGGCCTCCTATTGTCCTTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATAGGCCAGGGGG
+GATTCGGGGAACCGCGTGGCTGGGGCGCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTG
+TCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGGCCC
+TCACCTGTGGCGCCCAGGCCCTCATCGTCACC
+>ref|ref|X14710.1|| B.taurus beta-lactoglobulin gene
+GCGCTTGGAAAAGATTGTCCAGCCTCCCTCCCATAGTGGTCAGTGCCAGCTGCCCCAGGCCAGAGGTGCTTTATTTCCGT
+CTCTCTCTCTGGATGGTATTCTCTGGAAGCTGAAGGTTCCTGGAAGTTATGAATAGCTTTGCCATGAAGGGCATGGTTTG
+TGGTCATGGTTCACAGGAACTTGGGAGACCCTGCAGCTCGGACGTTCCTGAGGTTGGTGGCACCCTGATTTCCTAAGCTC
+GCTGGGGAACGGGGTGCTACTTCTCCCTGGCTGACCTCCCTCTGCTCTCGATCACCCAGTTCTGAGAGCAGAGTGGTGCT
+GGGGGCACAGCCTCTCGCATCTGACACTTGTGTTCAAACCACCCATGCTGGTGTTCGGGGGGCCACCTATGGGGAAGGCT
+CCTCACTGCAGGGGTGCCCCTGTCCCCTGAGAGATCAGAAGTCCCAGTCTGGATGTCGAATGGCCGAGCTCCCTCCAGAG
+GCTCCAGGGAGGGATCCTTGCCCCCTCCGCCGCCGCCTCCAGCTCCTGGTGCCGCACCCTTGGGCCCGATCTCGTAGACG
+CCTCAGTCCAGTCTCTGCCTCCGTGTTCACTGGCATTCTCCCCATGTCCCCTCTGTGTCCCCGTTTTCTCTCACAAGGAC
+ACCGGACATAAGATTAGCCCCCGTTCCAGCATCACCTGAACAGCTCACATCTGTAAAGACCTAGATTCCAAACAAGATTC
+CATCCTGAAGTTCCTGGTGGACGTGAGTTCTGGAGCGACGCCCTTCAACCCCATCACAGCTTGCGGTTCATCGCAAAACA
+CGGAACCTGGGATTTATCGTAAAACCCAGGTTCTTCGTGAAACACTGAGCTTCGAGGCTTGTTGCAAGAATTAAAGGTGC
+TAATACAGATCAGGGCAAGGACCGAAGCTGGCCAAGCCTCCTCTTTCCATCACAGGAAAGGGAGGTCTGGGGGCGGCCGG
+GGGTCTGCTCCCGTGGGTGGGCTCTTTCTGGTACAGTCACCAACAGTCTCTCCGGGAAGGAAACCAGAGGCCAGAGAGCA
+AGCCAGAGCTAGTCTAGGAGATCCCTGAGCCTCCACCCAAGATGCCGACCAGCCAGCGGGCCCCCTGGAAAGACCCTACA
+GTCTAGGGGGGGAACAGGAGCCGACCCGCCAGGCCCCCGCTATCAGGAGACACCCCAACCTTGCTCCTGTTCCCCTACCC
+CAGTACGCCCACCCGACCCCTGAGATGAGTGGTTTACTTGCTTAGAATGTCAATTGAAGGCTTTTGTACCCCCTTTGCCA
+GTGGCACAGGGCACCCACAGCCCGCTGGGTACTGATGCCCATGTGGACTCAGCCAGGAGGACTGTCCTGCGCCCTCCCTG
+CTCGGGCCCCCTCCATACTCAGCGACACACCCAGCACCAGCATTCCCACCACTCCTGAGGTCTGAAGGCAGCTCGCTGTG
+GTCTGAGCGGTGCGGAGGGAAGTGCCCTGGGAGATTTAAAATGTGAGAGGTGGGAGGTGGGAGGTTGGGTCCTGTAGGCC
+TTCCCATCCCACGTGCCTGCACGGAGCCCTAGTGCTACTCAGTCATGCCCCCGCAGCACCCCTCAGGTCACTTTCCCATC
+CTGGGGGTTATTATGACTGTTGTCATTGTTGTTGCCTTTTTGCTACCCTAACTGGGCAGCGGGTGCTTGCAGAGCCCTCG
+ATACTGACCAGGTTCCCCCCTCGGAGCTCGACCTGAACCCCATGTCACCCTCGCCCCAGCCTGCAGAGGGTGAGGTGACT
+GCAGAGATACCCTTTACCCAAGGCCACAGTCACATGGTTTGGAGGAGATGGTGCCCAAGGCAGAAGCCACCCTCCAGGAC
+ACACCTGCCCCCAGTGCTGGCTCTGACCTGTCCTTGTCTAAGAGGCTGACCCCAGAAGTGTTCCTGGCGCTGGCAGCCAG
+CCTGGACCCAGAGCCTGGACACCCCCTGCGCCCCCACTTCTGGGGCGTACCAGGAACCGTCCAGGCCCAGAGGGGGCCTT
+CCTGCTTGGCCTCGAATGGAAGAAGGCCTCCTATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATAGGCCAGGG
+GGGATTCGGGGAACCGCGTGGCTGGGGGCCCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCG
+CTGTCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGG
+CCCTCACTTGTGGCGCCCAGGCCCTCATTGTCACCCAGACCATGAAGGGCCTGGATATCCAGAAGGTTCGAGGGTGCCCG
+GGTGGGTGGTGAGTTCGAGGGCTGGCTGGGGAGCTGGGCCTCAGAGACCAAGGGAGGCTGTGACGTCTGGGATTCCCATC
+AGTCAGCTAGAGCCGCCTGACAAATCGCCCGCCACAGGCTTCAACCAGGCCTTTAGTGTCTTGCATTCTGGAGGCTGGAA
+GCTGCAATCCGGGCATCGGCCCAGCTGGCTTCTCCTGCGGCCACTCTCCGGGGAGCAGACAGCCATCTTCTCCCTGTGTC
+CTTTGCGTGCCCTGGTTTCCTCTTCCTGTGAGGTCACCAGGCCTGCTGGATCCACGCCCGCCCACACAGCCTCACGTAAC
+CTTTGTCATCTCTTTAAAGGCCGTGTCTCCAGTCCTGTGTTGAGGTTCTGGGGGTTAATGGGACACAGTTCAGCCCCTAA
+AAGAGTCCGCTCTGCCCCTCAAATTTTCCCCACCTCCAGCTATGGTCTCCCCAAGATCCAAATGTTGCCACGTGTGCGGG
+GGCTCATCTGGGTCCCTCTTTGGGCTCAGAGTGAGTCTGGGGAGAGCATTCCTCAGGGTGCCGAGTTGGGGGGAGGCATC
+TCAGGGCTGCCCAGGCCAGGGTGGGACAGAGAGCCCACTGTGGGGCTGGGGGCCCCTTCCCGCCCCTGGAGTGCAGCTCA
+AGGTCCCTCCCCAGGTGGCGGGGACTTGGTACTCCTTGGCCATGGCGGCCAGCGACATCTCCCTGCTGGACGCCCAGAGT
+GCCCCCCTGAGAGTGTATGTGGAGGAGCTGAAGCCCACCCCTGAGGGCGACCTGGAGATCCTGCTGCAGAAATGGTGGGC
+GTCCCCCCCAAAAAAAGCATGGAACCCCCACTCCCCAGGGATATGGACCCCCCGGGGTGGGGTGCAGGAGGGACCAGGGC
+CCCAGGGCTGGGGAACGGGGCTTGGAGTTTCCTGGTACCCCTGGAGGTCCACCCAAGGCTGCTTATCCAGGGCTTTCTCT
+TTCTTTTTTTCCCCCAACTTTTATTAATTTGATGCTTCAGAACATCATCAAACAAATGAACACAAAACATCATTTTCGTT
+AACTTGGAAGGGGAGATAAAATCCACTGAAGTGGAAATGCATAGGAAAGATACATACAGTAAGGCAGGTATTCTGAATTC
+GCTGTTAGTTTGAGGATTACAAATGCACTTGAGCAACAGAGAGACGTTTTCATTATTTCTCGGTCTGAACAGCTCAGTAT
+CTAAAATGAACAAGATGTCATGGAGACAAAGCCGGCGGGGGAGAGGCCCGTGTGAAGGCCGCTGGGCGTGCAGACCTGGG
+TCCTCGGGGCCCAGGCAGTTCCCACTACCAGCCCTGTCCACCCTCAGACGGGGGTCAGAGTGCAGGAGAGAGCTGGGTGG
+GTGTGGGGCAGAGATGGGGACCTGAACCCCAGGACTGCCTTTTGGGGTGCCTGTGGTCAAGGCTCTCCCCAACCTTTTCT
+CCCTGGCTCCATCTGACTTCTCCTGGCCCATCCACCCGGTCACCTGTGGCCCCAGAGGTGACAGTGAGTGCAGCCAAGGC
+CGGTTGGCCAGCCGGCCCCCTATGCCCACGCCACCCGCCTCCAGCCCCTCCTGGGGCCGCCTTCTGCCCCTGGCCCTCAG
+TTCATCCTGATGAAAATGGTCCATGCCCGTGGCTCAGAAAGCAGCTGTCTTTCAGGGAGAACGGTGAGTGTGCTCAGAAG
+AAGATCATTGCAGAAAAAACCAAGATCCCTGCGGTGTTCAAGATCGATGGTGAGTGCTGGGTCCCCAGGGGACGCCCACC
+ACCCCCCAGGGACTGTGGGCAGGTGCAGGGGGCTGGCGTCAGGCCCCGAGATGCTAAGGGGCTGGTGGTGATGAAGACAC
+TGCCGTGCCACCTGCTTCCCTGGCCTCCCTGCCACCTGCCCGGGGCCTTGGGCCGGTGGCCGTGGGCAGGTCCCGGCTGG
+GCAGGTCTGACACCCCAGGGTGACACCCGAGCTCTCTTTGCTGAGGGTGGGGTGGTGCTCGGGGCCCTCAGGCTGAGCTC
+AGGAGGTCCCTGTGCCCACCCAGGGGTAACCGAGAGCCGCTGCCCGCTCCAGGGGTCCAGGTGCCCCACGATCCCAGCCC
+ACCCCACGGCTCCTTCATCTCCTGAAGACGAACTCTGTCCGCCCTCGCTCATTCACTTGTTTGTCCTAAATCCAAGATGA
+GAAAGCTTCGAGGTGGGGTTGGGGTTCCATCAGGGCCTGCCCTTCCGCCGGGCAGCCTGGGCCACATCTGCCCTTGGCCT
+CTTCAGGACTCACTCTGACTGGAGGCCCTGCACTGACTGATGCCAGGGTGCCCAGCCCAGGGTCTCCTGTGCCATCCGGC
+TGCACGGGGTTTGGATGCTGGTCCTGCCCCCAAGCTGCCCAGACACTGCAGGGCAGCTGGGGCCACCCGCAGGCCTCGGT
+CAGGGAGAGCCCCAGCTGCCCCCGCTCAGCGCTGCCCCCCAACAATTCCCCAGTCCTCAGGACGCATCCCTCTTCCCTTG
+CTGGGCAGTGTTCAGCCCCACCCGAGATCGGGGAAGCCCTATTTCTTGACCACTCCGGTCCCTGGGGAGGGCGGCCTCAG
+ACTCAGTGGTGAGTGTTCCCAAGTCCAGGAGGTGGTGGAGGGTCCCTGGCGGATCCAGAGTTGGGCTTCCAGAGTGAGGG
+CTTCCTGGGCCCCATGTGCCTGGCAGTGGCAGCAGGGAAGGGGCCACACCATTTTGGGGCTGGGGGATGCCAGAGGGCGC
+TCCCCACCCCGTCCTCACCAAGTGGTGACCCCGGGGGAGCCCCGCTGGTTGTGGGGGGTGCTGGGGGCTGACCAGAAACC
+CCCCTCCTGCTGGAACTCACTTTCCTCCCGTCTTGATCTCTTCCAGCCTTGAATGAGAACAAAGTCCTTGTGCTGGACAC
+CGACTACAAAAAGTACCTGCTCTTCTGCATGGAGAACAGTGCTGAGCCCGAGCAAAGCCTGGCCTGCCAGTGCCTGGGTG
+GGTGCCAACCCTGGCTGCCCAGGGAGACCAGCTGTGTGGTCCTCGCTGCAACGGGGCCGGGGGGGACGGTGGGAGCAGGG
+AGCTTGATTCCCAGGAGGAGGAGGGATGGGGGGTCCCCGAGTCCCGCCAGGAGAGGGTGGTCATATACCGGGAGCCGGTG
+TCCTGGGGGCCTGTGGGTGACTGGGGACGGGGGCCAGACACACAGGCTGGGAGACGGGGGGCTGCAGCGCTCTGGTGTGA
+CCATCACGATGGAGCCGGCGGTCACTATGAATCTAACAGCCTTTGTTACCGGGGAGTTTCAATTATTTCATCAAATAAGA
+ACTCAGGCACAAAGCTGTCTTTCAACTGTCACGTCCTGAAAACAAATGGCAGGTGACATTTTCCATGCCATAGCAGTGCC
+ACTGGGCATTTTCAGGGCCCATGTGCCAGGAGGGCGTGGGCATCGGCGAGTGGAGGCTCCTGGCCGTGTCAGCTGGCCCA
+GGGGGAGGAGGGGACCCAGACAGCCAGAGGTGGGGAGCAGGCTTTCCCCCTGTGACGCTGCAGACCCACCGCACTGCCCT
+GGGAGGAAGGGGAGGGAACTGGGCCAAGGGGGAAGGGCAGGTGTGCTGGAGGCCAAGGCAGACCTGCACACCACCCTGGA
+GAGCAGGGGTTGACCCCGTCCCGGCCCCACAGTCAGGACCCCGGAGGTGGACGACGAGGCCCTGGAGAAATTCGACAAAG
+CCCTCAAGGCCCTGCCCATGCACATCCGGCTGTCCTTCAACCCAACCCAGCTGGAGGGTGAGCACCCAGGCCCCACCCTG
+CTCCTGGGGCAGGAAGCCACCCGGCCCAGGACCACCTCCTCCCATGGTGACCCCCAGCTCCCCAGGCCTCCCGGGAGGAT
+GGAGACGGGGTGCAGGGCCCCGAGGTGGCCCCCTCCCCACCCCCTCCCCAGCTCCCTCTGTCCTGGGGTGTCCAGTCCCA
+TCCTGACGCTCCCCCGCCACGGCTCTCCCTCCCCCACAGAGCAGTGCCACATCTAGGTGAGCCCCTGCCGGCGCCTCTGG
+GGTAAGCTGCCTGCCCTGCCCCACGTCCTGGGCACACACATGGGGTAGGGGTTCTTGGTTGGGCCCGGGAGCCCCCATTA
+GGCCCTGGGGTCCCCCGTAGGAATGGCTGGAAGCTGGGGTCCTTCCTGGAGACTACAGAGCCGGCTGGCCACATGCTCGC
+TCTTGTGGGGTGACCTGTGTCCTGGCCTCACTCACACGCTGATCTCCTCCACCTCCTTCCTGGCAGACCTAAGGGCCAAG
+GTGGAGGGCTCAGGAAGTGACACCTAAGGGGGAGGCTAGGGGGGTCCTTCTCCCAAAGGAGGGGCCGTCCTGAATCCCCA
+GCCACGGACAGGCTGGCAAGGGTCTGGCAGGTACCCCAGGAATCACAGGGGAGCCCCATGTCCATTTCAGAGCCCGGGAG
+CCTTGGCCCCTCTGGGGACAGACGATGTCATCCCCGCCTGCCCCATCAGGGGACCAGGAGGAACCGGGACCACATTCACC
+CCTCCTGGGACCCAGGCCCCTCCAGGCCCCTCCTGGGGCCTCCTGCTTGGGGCCGCTCCTCCTTCAGCAATAAAGGCATA
+AACCTGTGCTCTCCCTTCTGAGTCTTTCCTGGATGATGGGCCGGGGGTGGAGAAGGCCCGGGACAGGGTGGGGAGTGGTC
+TGGCTCAGAGGATGATGGTAGGGCTGGGATCCAGGGCGTCTGCATTACAGTCTTGTGACATCTGGGGGCCCACACACATC
+TACGGCTCTTTGAAACTTTCAGGAACCAGGTAGGGAGTCGGCAGAGACATCTGCCAGTTAACTTGGAGTGTTCAGTCAAC
+ACCCAAACTCGACAAAGGACAGGAAGTGGAAAATGGCTGCTCTTAGTCTAATAAATATTGATATGAAAACTCAAGTTGCT
+CATGGATCAAATTATGCCTTTTTATGAATCCAGCCACTACAGTCGGTATCAAACTTCATGTACTCAAAACGCACTGATCT
+TTTCTGTGCTAAAATGAAATAAAGAGATTTCCCCAAGATACAGGAGCTGGGCAAAAGAGGTCACGGTTGGAAGGGGACTT
+GTTCTGCACACACAGCAAGGAGATCCAGCCAGTCCATCCTAAAGGAGATCAGTCCTGGGTGTTCATTGGAGGGACTGATG
+TTGAAGCTGAAACTCCAATACTTTGGCCACATGATGCGGAGAGCTGACTCATTTGAAAAGACCCTGATACTGGGAAAGAT
+TGAGGGCAGGAGGAGAAGGGGATGACAGAGGATGAGATGGTTGGATGGCATCACCGACAAAATGGACATGGGTTTGGGTG
+GACTCCAGGAGTTGGTGATGGACAGAAAGGCCTGGCATGCTGCGGTCCATGGGGTCACAAAGAGTCGGACACGACTGAGC
+GACTGAACTGAACTGAACTGAATGGAAAAGAGGTATACAGCAACGTGGGGATTTTTTAGATAATAAGAATAATTTACGCA
+TAACATAGTGTATACTCATATTTATATATATACGTGAATGCTCAGTCACACTCAGTCATATCTGACTCTGTGACCCATGG
+ACTGTAGCCCTCCAGGCTCCTTCTGTCCACAGAATTC
+>ref|ref|X64126.1|| B.taurus DNA for SINE sequence Bov-1D
AF327250.1 Bos taurus clone BOVA2 SINE Bov-A2 repeat sequence
+GGAGAAGGCAATGGCACCCCACTCCAGTACTCTTGCCTGGAAAATCCCATGGACGGAGGAGCCTGGTAGGCTGCAGTCCA
+TGGGGTCGCTAAGAGTCGGACACGACTGAGCGACTTCACTTTCACTTTTCACTTTCATGCATTGGAGAAGGAAATGGCAA
+CCCACTCCAGTGTTCTTGCCTGGAGAATCCCAGGGACGGGGGAGCCTGGTGGGCTGCCGTCTATGGGGTCGCACAGAGTC
+GGACACGACTGAAGCGACTT
+>ref|ref|X64125.1|| B.taurus DNA for SINE sequence Bov-2
+CTGCAGCCATGAAATTAAAAGACGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTAAAAAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCATCTAGTCAAGGCTATGGTTTTTCCAGTAGTCATGTATGGATGTGAGAGTTGGACT
+ATAAAGAAAGCTGAGCGCTGAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCCTTGGACTGC
+AAGGAGATCCAACCAGTCAATCCTAAAGGAGATCAGTCCTGGGTATTCATTGGAAGGACTGATGCTGAAGCTGAAACTCC
+AGTACTTTGGCCACCTGATGTGAAGAGCTGACTCATTGGAAAAGACCCTGATGCTGGGAAAGATTGAGGGCAGGAGGAGA
+AGGGGACGACAGAGGATGAGATGGTTGGATGGCATCACCGACTCAATGGACATGAGTTTGAGTAAACTCCAGGAGTTGGT
+GATGGACAGGGAGGCCTGGCGTGCTGCAGTCCATGGGGTCGAAAGAGTCGGACATGACTGAGCGACTGAACTGAACTGAA
+>ref|ref|X05274.1|| B.taurus mRNA for pancreatic trypsin inhibitor (BpTI)
+CTCCGTAGCCCTTCTGGTCCTCCTGGGCACCCTGGCGGCCAGCACTCCAGGGTGTGACACCAGCAACCAGGCCAAAGCCC
+AGCGGCCTGACTTCTGCCTAGAGCCTCCATATACGGGTCCCTGCAAGGCCAGAATTATCAGATACTTCTACAACGCCAAG
+GCTGGGCTCTGCCAGACCTTTGTATATGGCGGCTGCAGAGCTAAAAGAAACAATTTCAAGAGCGCAGAGGACTGCATGAG
+GACCTGTGGTGGTGCTATTGGGCCCTGGGAGAACCTGTGAACTGTGCTCCCCTGAGATGCTGAAGTATGAGGAGGACCCA
+CCCAAGGCTGGCCTCTATCTGCTTCTGAAAAATTTCAGCCTCCTTTTATTTCTTCTCAACCCTCCCCTCCTCAGCAGAAA
+TCTGTCTCTTTCCTTCCTCCACAGGTCCACTTACTTTAGCCCTATCTCATCCAGTTTGCTCTAAGCACCATGAAAGCAAA
+TCTTCCCTTTGTCCCTCACACTTCCCACAATTTCTGGCACAAAGGAGAAGGTCCAGAAATATTGGAGGAAGGAAGGAATG
+AAGTTCCCCATGACTGGAGCATCTGTAGAGTCTGAGATTTAAATCTGGATTCTTGTCCTAATCTTCCTCCTCACGGCATC
+CTTACCTTCATCCTCCACCCCACCATCACTGCTCTCCCTCTACTGGCGAAAGTAGAATTTCCATCATCGAGTTTTCAGCT
+CAGTGGTGGGAGAGGTCTTTTCATGAACGAAACCTCCTCCTCACATTGATTTGAAGGTCTGTGGCTTCAAAGAGTCTGGC
+CTTATCTTTAAATAAATTCATATTTTAATTAAA
+>ref|ref|NM_174292.2|| Bos taurus crystallin gamma S (CRYGS), mRNA
X03006.1 Bovine mRNA for lens beta-s-crystallin
+TGCACCAAACATGTCTAAAGCTGGAACCAAAATTACTTTCTTTGAAGACAAAAACTTTCAAGGCCGCCACTATGACAGCG
+ATTGCGACTGTGCAGATTTCCACATGTACCTGAGCCGCTGCAACTCCATCAGAGTGGAAGGAGGCACCTGGGCTGTGTAT
+GAAAGGCCCAATTTTGCTGGGTACATGTACATCCTACCCCGGGGCGAGTATCCTGAGTACCAGCACTGGATGGGCCTCAA
+CGACCGCCTCAGCTCCTGCAGGGCTGTTCACCTGTCTAGTGGAGGCCAGTATAAGCTTCAGATCTTTGAGAAAGGGGATT
+TTAATGGTCAGATGCATGAGACCACGGAAGACTGCCCTTCCATCATGGAGCAGTTCCACATGCGGGAGGTCCACTCCTGT
+AAGGTGCTGGAGGGCGCCTGGATCTTCTATGAGCTGCCCAACTACCGAGGCAGGCAGTACCTGCTGGACAAGAAGGAGTA
+CCGGAAGCCCGTCGACTGGGGTGCAGCTTCCCCAGCTGTCCAGTCTTTCCGCCGCATTGTGGAGTGATGATACAGATGCG
+GCCAAACGCTGGCTGGCCTTGTCATCCAAATAAGCATTATAAATAAAACAATTGGCATGC
+>ref|ref|X63681.1|| B.taurus BTDS1 mRNA for T cell receptor delta chain
+CGCCGCTGAAATCCATGCCTCATGCTGCTGTCCAGTCTGCTCTGGGTGTTCATGGCCATCGCCTTCTCTCGTAGGGATGC
+TTCCAAACACGAGTGCGAGTGTTCAGGGTGAAAGGATCTGGTGTGGCCCAGAAAGTTACTCAAGACCAGTTAGATGTATC
+CAGCCAACTGGGGCAGTCAGTCACCCTGAAGTGTCGGTATGAAACAAGTTTGAATACTTACTACCTTTACTGGTACAAGC
+AACTTCCCAGTGGACAGATGACTTACGTTATTCGTCAGGGTTCAGAAGTGACAAATGCAAAGGAAGACCGCTACTCTGTA
+AACTTTAAGAAAGCAGATAAATCCATCAGCCTCATCATTTCAGCCTTACAACTGGAAGACTCTGCAAAGTACTTCTGTGC
+TCTCCGTGACTCTGGCCGGCTGGGGGCGTACAGCTGCGGATTTACTCCACTAATATTTGGCAAAGGAACCTATCTGAACG
+TGGAACCAGAAAGTCAACCTGCTGCCAGCCCATCTGTTTTTGTCATGAAAAATGGGACAAACGTCGCTTGTTTGGTGAAG
+GAGTTCTACCCCAAAGATGTAACTATAAGTCTGCAATCATCCAAGAAAATAATAGAATATGACCCGGCTATTGCCATCTC
+ACCTGGGGGGAAGTACAGTGCTGTCAAGCTTGGTCAATATGGAGACCCCGATTCAGTGACATGTTCGGTTGAACACAACA
+AGCAAACCTGGCACTCTACTGACTTTGAACCAAAGAAAACTATTCCAGAAACAACTCCAAAACCGATGGCATATGAAAAC
+AGCACAAAAGCTGAAGCTCCAGTGACCTGCCAAGAGCCCCAAGTGGAACCCGGGAAGGTGAACATGATGTCCCTCTCGGT
+GCTGGGGCTCCGAATGCTGTTTGCCAAGAGTGTCGCCGTCAATTTTCTCTTGACTGCCAAGTTATTTTTCTTTTAA
+>ref|ref|X63683.1|| B.taurus BTGC8 mRNA for T cell receptor gamma chain
+GAATTCAGATCAAACTGCCAGGATGAAGTTTTTTGACTTCTAGTCACTTTATAAAGGTAGAAAAAGGCTGGATTATTGTA
+GGAGCTTTTACCATTGTGACAGCTCAGGCTGGAGGAAGATATTTGGAGAAGGAGCTAACATCATAGTAACTCCTCCTGAG
+AGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTTTCTTCCTTCAATTGCTGAAATCAACCATGATAATGCTGG
+AACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTATTACAGTTTCTTGGAGAGCAAAAAATGACAAAAGAGCTC
+TGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACCTACATGAAGTTCAGCTGGCTGACCATGACCGAAAACTCT
+ATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAATATAGGAGGAATTGATCAAGAGATTATTTTTCCTTCAAT
+AAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTCCTACTACTAAGCCTCCTACTACTGAGCCTCCTACTACTG
+AGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACAGGTACTGGTTCTAAAAAAGCTTGTCTGAAAGATGGAAGT
+GATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAGTACCCTGCAGCTGCAGCTCATGAACACCTCTGCAGCCTA
+TTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACTTTGTTGTCATCATTTCCTGTGTGTTTAGAAGAACAGGCG
+TCTGCTGAGACGGGAAGATCTCGTAA
+>ref|ref|X63680.1|| B.taurus BTGT1 mRNA for T cell receptor gamma chain
+TTGGGCTCAGGCAGGACTGGGTGGATCTGCCATGGACATGGGAATCTCAGGGCCTGTCCTGTATGGATTCTGGCAGCCGG
+ACAGTTCATCTGTGCTCAGAGAAGCACTCAGTTGCTTCTGGATATTTCTTTTTCTCCTGATCTAAGATAGAAACCTTGCT
+ACAGACATTTCACCCAAGCCCACTATTTTTCTTCCTTCAATTGCTGAAATCAATCACAGTAAGACTGGAACATACCTTTG
+TCTTCTGGAGAAATTTTTCCCTGATATTATTAAGGTTTATTGGAAAGAAAAGGATGGCAACAAAGCTCTGCCATCCCAGC
+AGGGAAATACCATGAAGACTACTGACACATACATGAAGCTCAGCTGGCTGACCGTGACTGAAAACTCCATGGACAAAGAA
+CATATCTGTGTCGTACAACACGAGAGAAATATAGGAGGAATTAATCAAGAGATTCTTTTTCCTTCAATAAATGAAGTTGT
+CAGCTCAATTGTCCCTACCACTGAGTCTCCCAGTGACTGTTTAAACCATGACAGCAAAGTTACCGGTACTGGTTCTAAAA
+AAGCTTGTCTGAAAGATGAAAGTGAAGTCACTGCTGATAATAATTCTACAAAAGTGTGTCTGAAAGATGAAAGCAATACC
+CTGCAGCTGCAGCTCATGAACACCTCTGCCTATTACACCTACCTCCTTCTCCTCCTCAAGAGTGTGGTCTACTGTATCAT
+CATCACCTCCTGTGTGTTTCGGAGAACAGGCATCTGCTGTGACGGGAAGAACTTGTGATAGAGCGTCCCCGAAGGAGTCA
+GCTTTCCTTAATCATCTGTTGATACTGAAATTCTCTGCTTGCTTTTTGGATTTGGGTTATCTCAGTGTATATGTGTTTTT
+TCCCCTATTATGTCATTATTGTGTAACAATTTTTCAAACACTGGGCAAACAGACAGTTCTACCCTGAAACAAGGAATTCT
+GTTATTACTCAGGGAGCAAGGCCCAGGGCGGGTCCAGGGGAGCCTCTCCCACCACTGTCCCCACCGCATCAGCTCCTTCC
+ACCCCAAGTCCCCGTGCCTCCAGGGTGCACTAAGTGGGCAGCTCCCCATCTCCTCCGTCAGCATCTTCCCCAAGACCATG
+GTCTTGAACCTCCCTGTTACACATCCTGGGGCAGCCAGCTTTGCTACTTGAACTCTGTACTTTCTTTTTCATAATAGGCA
+CAATAAGTAAAAAAATAAATAAAAAGTCCA
+>ref|ref|X63684.1|| B.taurus BTGT2 mRNA for T cell receptor gamma chain
+AAGATTCCCTGGAGAAGGAAATGGCAACCCACTCCAGTATTCTTCCCTGGGAAATCCCATGGCAGGCTACAGTCCAAGGG
+GTTGCAAAGGAGTCAAACACATCCTAGTGACTGAATAATAACAACTAATCTGAGGAAAACTTATAAAACATTGGATGCTG
+TGAAACCTATATCCAAGGACTTCCAAAAGAATTCAGATCAAACCGCCAGTATGAAGTTTTTTGACTTCTAGTCACTTTAT
+AAAGGTAGAAAAAGGCTGGGTTATTGTAGGAGCTTTTACCATTGTGACAGCTCAGGCTGGAGGAAGATATTTGGAGAAGG
+AGCTAACATCATAGTAACTCCTCCTGAGAGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTTTCTTCCTTCAA
+TTGCTGAAATCAACCATGATAATGCTGGAACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTATTACAGTTTCT
+TGGAGAGCAAAAAATGACAAAAGAGCTCTGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACCTACATGAAGTT
+CAGCTGGCTGACCATGACCGAAAACTCTATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAATATAGGAGGAA
+TTGATCAAGAGATTATTTTTCCTTCAATAAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTCCTACTACTAAG
+CCTCCTACTACTGAGCCTCCTACTACTGAGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACAGGTACTGGTTC
+TAAAAAAGCTTGTCTGAAAGATGGAAGTGATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAGTACCCTGCAGC
+TGCAGCTCATGAACACCTCTGCAGCCTATTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACTTTGTTGTCATC
+ATTTCCTGTGTGTTTAGAAGAACAGGCGTCTGCTGAGACGGGAAGATCTCGTAA
+>ref|ref|X63682.1|| B.taurus BTGT4 mRNA for T cell receptor gamma chain
+GCCGCTCACAGAGCTTGTTAGGAGCGAAATGAACCAGGACCAGAAGCCTAGTGTCTTGAATTCCAAGTCATCATAGTTCT
+ACTAGAATTTGAAGAAATCAGAGAAGCTAATTAGTCTAAAGTTTTTGATATGACTTGAATCACTGTGGAATAATTACATA
+AAAAACTTCAATGTTGGAGCAAAACTCATTGTCACAGAGAGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTT
+TCTTCCTTCAATTGCTGAAATCAACCATGATAATGCTGGAACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTA
+TTACAGTTTCTTGGAGAGCAAAAAATGACAAAAGAGCTCTGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACC
+TACATGAAGTTCAGCTGGCTGACCATGACCGAAAACTCTATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAA
+TATAGGAGGAATTGATCAAGAGATTATTTTTCCTTCAATAAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTC
+CTACTACTAAGCCTCCTACTACTGAGCCTCCTACTACTGAGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACA
+GGTACTGGTTCTAAAAAAGCTTGTCTGAAAGATGGAAGTGATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAG
+TACCCTGCAGCTGCAGCTCATGAACACCTCTGCAGCCTATTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACT
+TTGTTGTCATCATTTCCTGTGTGTTTAGAAGAACAGGCGTCTGCTGAGACGGGAAGATCTCGTAA
+>ref|ref|X67333.1|| B.taurus mRNA for calpastatin
+GTTTCCCAAACCCCAGCTCCAACCACCCAGGCAGCCGGTCCACCCCCCAGCACTGCGCACGGTGACAACAAAGAACTTGA
+CGATGCCCTGGATCAACTTTCTGACAGTCTCGGGCAAAGACAGCCTGATCCAGATGAGAATAAACCTGTAGAGGATAAAG
+TCAAGGAAAAAGCCAAAGCTGAACACAGAGACAAGCTGGGAGAAAGAGATGACACCATCCCACCTAAATACCAACATCTT
+TTGGATGACAACAAGGAGGGCACACCCGGGAAGCCAAAGGCATCAGAGAAGCCCAAGGCATCAGAGAAACCTGCAGGTGC
+CCAGGACCCCATTGATGCCCTCTCAGGGGACTTTGACAGCTGTCCCTCGACTACAGAAACCTCGACAGACACACCAAAGG
+ACAAAGACAAGAAGCCTGCTTCCAGTGCCGAAGCACCTAGGAATGGCGGG
+>ref|ref|X03590.1|| Bovine gene for alpha-S1-casein 5'-flanking region and exon 1
+CTGCAGTCCATGGGGGTCACAAAGAACTGGACACGACTTAGAAACTAAACAACAACAATTTATATCAGAATGAATGAACT
+AGTTACCACAACTAGTACACCCAAAATGAACAAAAAATAGCTTGGTGGTATAATTAAAATGCCACCAAAATTTATACAAT
+AATTATATTTTCTTTTTGCAGGAAAAAGATTAGACCACATATAATGTAACTTATTTCACAAGGTAAATAATTATAATAAA
+TAATATGGATTAACTGAGTTTTAAAAGGTGAAATAAATAATGAATTCTTCTCATGGTCTTGTATGTTAATAAAAATTGAA
+AAATTTTGAAGACCCCATTTTGTCCCAAGAATTTCATTTACAGGTATTGAATTTTTCAAAGGTTACAAAGGAAATTTTAT
+TGATATAATAAATGCATGTTCTCATAATAACCATAAATCTAGGGTTTTGTTGGGGTTTTTTTTGTTTGTTAATTTAGAAC
+AATGCCATTCCATTTCCTGTATAATGAGTCACTTCTTTGTTGTAAACTCTCCTTAGAATTTCTTGGGAGAGGAACTGAAC
+AGAACATTGATTTCCTATGTGAGAGAATTCTTAGAATTTAAATAAACCTGGTTGGTTAAACTGAAACCACAAAATTAGCA
+TTTTACTAATCAGTAGGTTTAAATAGCTTGGAAGCAAAAGTCTGCCATCACCTTGATCATCAACCCAGCTTGCTGCTTCT
+TCCCAGTCTTGGGTTCAAGGTATTATGTATACATATAACAAAATTTCTATGATTTTCCTCTGTCTCATCTTTCATTCTTC
+ACTAATACGCAGTTGTAACTTTTCTATGTGATTGCAAGTATTGGTACTTTCCTATGATATACTGTTAGCTTAAAAATATA
+TTTGCAAATGTTGATACTATCTATCTCAGAGCTATAGGTGAAAAATTAAATACTTTTATAAAGACCAAATTGATCATTTT
+TTAAACGAAAATTTCTTATATACTGAAAATGTAGATACATAACT
+>ref|ref|X00565.1|| Bos taurus mRNA for pre-kappa-casein A
+TTCACTTACAGTGGAAAGGCCAACTGAACCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTGCAATGATGAAGA
+GTTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAAGAACAACCAATA
+CGCTGTGAGAAAGATGAAAGATTCTTCAGTGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGCAGGTATCC
+TAGTTATGGACTCAATTACTACCAACAGAAACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAA
+AGCCAGCTGCAGTTAGGTCACCTGCCCAAATTCTTCAATGGCAAGTTTTGTCAAATACTGTGCCTGCCAAGTCCTGCCAA
+GCCCAGCCAACTACCATGGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAAATCAGGATAA
+AACAGAAATCCCTACCATCAATACCATTGCTAGTGGCGAGCCTACAAGTACACCTACCACCGAAGCAGTAGAGAGCACTG
+TAGCTACTCTAGAAGATTCTCCAGAAGTTATTGAGAGCCCACCTGAGATCAACACAGTCCAAGTTACTTCAACTGCAGTC
+TAAAAACTCTAAGGAGACATCAAAGAAGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCC
+AGTTGTCTGCCTTCGGTGAACAGAGAATATGATTTTCACAGATCTGGCTCCTTCCTCGTCTCCTCTTACATTTTACTTTT
+ATGCCAGATTTAATTTTTTGATTCCTGCATAATAAAGCCAATCAAATGCA
+>ref|ref|X06359.1|| Bovine mRNA for beta-casein
+ATCCATTCAGCTCCTCCTTCACTTCTTGTCCTCTACTTTGGAAAAAAGGAGTTGAGAGCCATGAAGGTCCTCATCCTTGC
+CTGCCTGGTGGCTCTGGCCCTTGCAAGAGAGCTGGAAGAACTCAATGTACCTGGTGAGATTGTGGAAAGCCTTTCAAGCA
+GTGAGGAATCTATTACACGCATCAATAAGAAAATTGAGAAGTTTCAGAGTGAGGAACAGCAGCAAACAGAGGATGAACTC
+CAGGATAAAATCCACCCCTTTGCCCAGACACAGTCTCTAGTCTATCCCTTCCCTGGGCCCATCCATAACAGCCTCCCACA
+AAACATCCCTCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTTTCCTTCAGCCTGAAGTAATGGGAGTCTCCAAAGTGA
+AGGAGGCTATGGCTCCTAAGCACAAAGAAATGCCCTTCCCTAAATATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTG
+ACTCTCACTGATGTTGAAAATCTGCACCTTCCTCTGCCTCTGCTCCAGTCTTGGATGCACCAGCCTCACCAGCCTCTTCC
+TCCAACTGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTCAGTCCAAAGTCCTGCCTGTTCCCCAGAAAGCAGTGC
+CCTATCCCCAGAGAGATATGCCCATTCAGGCCTTTCTGCTGTACCAGGAGCCTGTACTCGGTCCTGTCCGGGGACCCTTC
+CCTATTATTGTCTAAGAGGATTTCAAAGTGAATGCCCCCTCCTCACTTTTGAATTGACTGCGACTGGAAATATGGCAACT
+TTTCAATCCTTGCATCATGTTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATTCCTTTAT
+TTATTTTATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACTATATATTTCAAAATTTTAATTCAACATTAGCATAA
+AAGTTCAATTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATTATTATTT
+CTTTAAGAATCTATTTCCTAACCAGTCATTTCAATAAATTAATCCTTAGGCATA
+>ref|ref|NM_181029.2|| Bos taurus casein alpha s1 (CSN1S1), mRNA
X00564.1 Bovine mRNA for pre-alpha S1-casein B
+AGTAGGTTTAAATAGCTTGGAAGCAAAAGTCTGCCATCACCTTGATCATCAACCCAGCTTGCTGCTTCTTCCCAGTCTTG
+GGTTCAAGATCTTGACAACCATGAAACTTCTCATCCTTACCTGTCTTGTGGCTGTTGCTCTTGCTAGGCCTAAACATCCT
+ATCAAGCACCAAGGACTCCCTCAAGAAGTCCTCAATGAAAATTTACTCAGGTTTTTTGTGGCACCTTTTCCAGAAGTGTT
+TGGAAAGGAGAAGGTCAATGAACTGAGCAAGGATATTGGGAGTGAATCAACTGAGGATCAAGCCATGGAAGATATTAAGC
+AAATGGAAGCTGAAAGCATTTCGTCAAGTGAGGAAATTGTTCCCAATAGTGTTGAGCAGAAGCACATTCAAAAGGAAGAT
+GTGCCCTCTGAGCGTTACCTGGGTTATCTGGAACAGCTTCTCAGACTGAAAAAATACAAAGTACCCCAGCTGGAAATTGT
+TCCCAATAGTGCTGAGGAACGACTTCACAGTATGAAAGAGGGAATCCATGCCCAACAGAAAGAACCTATGATAGGAGTGA
+ATCAGGAACTGGCCTACTTCTACCCTGAGCTTTTCAGACAATTCTACCAGCTGGATGCCTATCCATCTGGTGCCTGGTAT
+TACGTTCCACTAGGCACACAATACACTGATGCCCCATCATTCTCTGACATCCCTAATCCTATTGGCTCTGAGAACAGTGA
+AAAGACTACTATGCCACTGTGGTGAGGAGTCAAGTGAATTCTGAGGGACTCCACAGTTATGGTCTTTGATGGTTCTGAAA
+ATTCCATGCTCTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCCAAAGGCTTCAACTGCTGTTTTAGAATAGGG
+CAATCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCTACTGTATTTTAGATAGTGTAACATCCTTAAGTGAAATTGT
+CCTAACAGCTTGTTACCTAAATTCCAGTAGTATCATGCTGGTATAAAGGCCACTGAGTCAAAGGGATTAAAGTCTTCATT
+AAATTTCTGTATGGAAAATGTTTTAAAAGCCTTTGAATCACTTCTCCTGTAAGTGCCATCATATCAAATAATTGTGTGCA
+TTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGCACT
+>ref|ref|X14906.1|| Bovine gene for kappa-casein exon 1 (and joined mRNA)
+GGATCCCTACTTTATATTGATTAATATTTCATATTTTGATTTAACATAAATTATTCTTGGGCATATAAAAGATGGTCAGT
+TTTCTAATTGGTTAAATACTGATGGCTGTAATTCTAGAAAGAGGATGATCAACCACAGCCCATAATATATGTAGAATTAC
+TTCATACTCAGGTTCTTGAAATAATAAGAAACATTTGAAATGTAAAAGTGCTATGGCTAGATACTTTTCATTTAATAATA
+GCTTTAAATTCAAATAGGTGGAATTAGTTGATTAAAATGCAATTAATATTCTTAAAAATCCTCTATATCTTTTCATAAAC
+ATAAAAGTTCAGTCTTACAAAAGTGTGAATAATCTGTTTTCAAATCTTATGAATGACAACTCTATTTCCTCCTCTGCATT
+CCATTAACCGAGACTGATGTAAAGATGGCCCTGCTATCGTCAGATCTTTCCTTTCTGTCATCTTCCTATTGGTGCAATGT
+AAAAGGAAGATAAATCTCATGACGCAAGACACTAACACCCTTTAATTAGTCTCTGGTTAATTACCTTGGGTGTTCCTTAA
+CAGTGGAAAGGCCAACTGAACCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTAATCACATTAAAACATTCAAA
+GAGAATAATTCTTATTCACAGCAGACTGTAATTATTACACCACCAAAGTTATTTTAGAAGAACATTTTCTTCCTTTTGGC
+TTTTATTGTTAAGCTTGGATATCCTTTGTCATGATTATGATATTAGTTTCTAATCTAAATCTTAGATTCTGTATAATGTT
+ATGATAAAATTTATTTTTAACTTCACTTTCGGGTTAAAGTCAAGATTTGATACTTGCTAAAGTACTGAAGACAATGTAGA
+TCCTTAAAAAAAAAA
+>ref|ref|X14907.1|| Bovine kappa-casein gene exon 2 (and joined CDS)
+CTAATTGTTTAATTTAATTTAGGTGCAATGATGAAGAGTTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATT
+TTTGGTGAGTTAATTTCATCTAATCAGTTTTGTATCAAATTTTTTTTTTTTAATTTATTGAAGGGCTTTAATTGTGTAAA
+TTTCTAATACAGTTATATTTATAGAACAAAGTAGCTGCATAAGTAATTTATTTTTACATTTATTTTTCTTATTAAAGTCA
+TATTCTTCTGGATATTCTTCTGGTTTCTAGGAATAAAGAAATCACACTTTATCATCTAAAGAAAACCTTTAAAATTCTTA
+TATGATAGAGAAAATACATTTGGGGGGAAAAATCCTGAAAATATTTTTAAATTATAATATGCACTTAAAATAATTCACAA
+AAAATAAATATATAAACCATAGAGGGAAGATCAGAAATGTTTTTAGTTAAATTCCTATTTCATGCAAACTCCAATTTGTT
+TCGAAACTAAATCCTTAAAATATTAGGAACTTGTTTAAGCTTTTTTACCAATTTCAAATAACTTGACATGTACTTTTAAT
+ATTTAAGTGTATTGTAACTTTTGTTATAATATTTCCATTGTGTCAACTCCCTCTCAGGGATTATATCCATAAACACCTCT
+TTGATTTTTAGGCAAACATCTGAAACTATCATATGTTTTATTTCCTGTTCTTACTGTTAACAAATAAGTGCCTCATCCCC
+>ref|ref|X14908.1|| Bovine gene for kappa-casein exons 3-5
+AGATCTGACATGACTGAGCGACTGAACTGAATTGATGACCTCCTCTTAAACTGTAAAATTTGGAACAGCACTAGTCCTTG
+TTTCATAATTCATTTATTATTAAATTTAGTTTTGCTTTCAAGTTAATATCTCTTAAATAATTCTATTTGGTAAATTTTTA
+GAATCTTTTTAAAAATTTGAATTACTATGACCTTCATATTTCTTCCTTTCTTCTTTGAAATTTGATTTTATTGTGGTCAC
+CTGCATATTTAGAACTTGGGCTTTCTCTTGAGGGATAGAGGTTAAAGTTTAAATCAGAAAGTGATTCACAACTGCTTGAC
+CTCTGAAAACATCTTCTTGAACTATTTAAGCCAGTGCTATCCCCAAACTCTCCTTCCTGTCTTCACAAAGCTACAAGCCC
+CATGGATATAAACAAATAATTCAAAAGAAGAATGAAAATTTATATAATTTTTACCATCCAATCTTATACAATCTTACTTA
+CCCAATCAAAATCATACAACTTAATACAGCAATCGGAGAAGGCAATGGCACCCCACTCCAGTACTCTTGCCTGAAAGATC
+CCATGGACTGAGGAGCCTGGTAGACTGCAGTCCATGGGGTCACTAAGAGCTCAGACACGACTGTGTAACTTTCAAGTAGA
+CATCCTGAGCGACTTCACTTTCACTTTTCACTTTCATGCATTGGAGAAGGAAATGGCAAGCCACTCCAGTGTTCTTGCCT
+GGAGAATCCCAGGGACGGGGAAGCCTGGTGCGGCTGCCCGTCTCTGGGGTCACACAGAGTCAGACACGACTGAAGTGACT
+TAGCAGCAGCAGCAGCAATACAGCAATGTTGTAGCATCTTTTATGTGCTAAATGTATTCCTTCTCTCCAAAATATAAATA
+ACTAAGATAACACTTATTACTAGCAATTACAAGATGAACTGCACACTCTTATAGTCTACTGATGACATTATAAATTGGTA
+TATCTTTACTGTACAGAAGTTTAATAATTTCTGTATTTTCCCCCCAAAATCATATTTTTGATGGACTGTTTTAAGAAATC
+ACTGAAAACTATTTAAAAGGCCATTGACATCTGGGCTTCCCTGGTGTCTCAGAAAGTAAAGAATCTGCCTGCATGCAGGA
+GACCTAGTTTTCATCCTTGGATTGGGAAGATTTCCCCGGAGAAGGGAATGGCTACCCACTCAAGTATCTTACCTGGAGAA
+TTCATGGACAGGGGAGCCTCATGGGCTACAGTTCATAGGTCATTTTAAAAGTCCGTTGATATCTATCCAGATGTTATCCA
+TGCCTGTATTTATAATAAAAACATTTTTTGATAAACCTTTAAAAGTTAACAGTAAAGAACAAACATTTCATGACATAACC
+ATTGATTGTTTTTCAACTTTGAATATGCAAGTATGAAAACTGAGGTGATGGAAAAAATGATATGAGATCATATGCCTTTA
+AAAAATTTAAGATACAAGATACTAAAATGAACATATACCAGGAATACATAATGCATGTAGACTGATATTATATAAAATCT
+ATATCTAAATTTTCAGGATTTTTTAGTGTAGGCAAACTTTCAATATTAATATAACTTTTTAAATTTTAAACTAATGACTT
+AATAAATTTAGAGGTAAATAAGTCCCTGTCTTAACACACCCTGTATTTTATTATTTTTTTTAAAATCTCTGATATCCTAT
+ACCAACAACTTCCTAAAGGTTTATAGGATCTTTTATATCCCAGGGGATATGTGTGAAAGTCTTAAACTAAAACTGTCATC
+TTAAAACTATTTACCATTATGAACTCACCTTTTGTAAGTTTTAAAGCTTCATATAGATATGCCTGGAAACTACTTTCTCA
+CTCCTGATTTCCTATGCATGTTACAATCCAGAACTAAGAAAAGTACTATAAATACATGATAATTTTTTAAATGCTATTAT
+TTATATAACATTTATATACCAGTGTTATGCTAGAGGCAATTTTTTAATCAAGCACTGGATGGATGGATTTTTAATCAACC
+AGATGGATGATCCGGGGAGGGAGGAGGGAGAGGGATTCAGGATGGGGAACATGTGTACACCTGTAGTGGATTCATGTTGA
+TGTATGGCAAAACCAATACAATATTGTAAAGTAATTAGCCTCCAATTAAAATTAAAAAATTATATTAAAAAAAAGAAAAC
+CTCATAAATCATCTTAGAGCAGAAACAGAAAAATATGCTAAATTCTCCTCTTATTTTTAGCAATATATATTCAATACAAA
+TTGAATATAGGTTGTTCATGTTCTTCATTTAAGCAATATCATATATAGTTGTTGGTACAGAGATCAAATGATCATATTCT
+TTTCAATCTTAAATTTTTCTCCCTAAATAGTGATTTTTAAGAACAACTTAACCATGGGGCTCATTATTGCTATTTAAGTT
+AGCATGTATCTGTCATTTCTTGAGGGTTTCACAGACTATCTGCTAAGTCACTTCAGTCGTGTCCAGCTCTGTGCGACCCC
+ATAGACGGCAGCCCACCAGGCTCTCCCGTCTCTGGGATTCTCCAGGCAAGAACACTGGAGTGGGTTGCCATTTCCTTCTC
+CAATGCATGAAAGTGAAAAGTGAAAGTGAAGTCACTCAGTCATGTTCGACACTTAGTGATCCCATGGACTGCAGCCCACC
+AGGCTCCTCCATGCATGGGATTTTCCAGGCAAGAGTACTGGAGTGGGGTGCCATTGCCTTCTCTGTCACAGACTATAGAT
+AACCTAGAAAAGTGCTTTATAATATTTTACAATACTAAAATAAAAGCAACAAAAACATGTTTTATCTTTTTTATAAAAGA
+TATTTTTAAATCACAAAAACTAGACTCTATCATGCTTTTTTTCTTCTAACTTCTTCTTTCTGATTCTTTCTCTGAATCTC
+AACAGGGTGCCCAGGAGCAAAACCAAGAACAACCAATAGTAAGTTTGTTTCCAGTAGAGATATGAATCCAAAGAATAAAA
+TTCTGCAAAGTTTAATGATATTAAAATGCCTTCTATCAAAAGACTAAGTAAATATTTAAACTACATAAAATAGTTGAATA
+ATCTTTGTAAAAATAATCATTTCAGCAACCACTCATATGAATCCACATCAATGTTTATCTAAAATCTTGGTATCACTTTA
+CAGGCCAAGTCGTGTTGATTTTCATGAGTATTTAGCAACATGAGAAAACCTTCTCAGAATTTAATACTGGGAAAACAATG
+AAAACAAAAGCAAAGCTTAATATTTCTTCTGTCTACTTTTTAAGAAATGGGGAATGATCCCTCTCTGAAACATCTTCAGA
+TGCTTCTCATACAATTGTATTCATTCCCCCAGTTTGTTTGAATGAATACCTTTAAATATGTCTCCTTTCATGAGGAAGCC
+TTGCTTTGAGGTATAATTTCATTAATTTGTTTCTATTCATAAGGAAAGATCTAATGATTTTGTATTTTATAACTGCACCT
+AATTAATATTAATTAATAGAACTAATCAATTATTATAATTAGTTAATTATAATATAATATTATATATATCACATGATGTG
+ATGTGATGTGGAATATATATATTTATCATATAATGTGATATTATGTGATATATATCACATTATATCACAATATATCACAT
+GATGTGATGTGGAATATATATTATTATATAGTTTTATATAATATATATTAATAATTGATTAGTTCTATTACTTTGGCCAC
+CTGATGTGAAGAGCTGACTCATTTGAAAAGACCCTGATGCTAGGAAAGATTGAGGGCAGGAGGAGAAGGGGACGACAGAG
+GATGAGATGGTTGGATGGCATCATGGACTCAATGGACATGGGTCTGGGTGGACTCCAGGAATTGGTGATGGACAGGGTGG
+CCTAGTGTGCTGCAGTTCATGGGGTCAGAAAGAGTTGGACATGACTGAGCGACTGAACTGAACTGAACTGAATATATAAT
+ATATAAATATTATAATATTATATATAATATATATTATAAAATTTTATAAATTATATAAAAAATATATAAACCCAAGAATC
+CATATCACATCACATCATTACATATAATATATAATATAATGTATAATATAATTTATAATATTAGATGATTATATAATATA
+CAGTATTAATATATTAGTATATAATATAATTGTATATAGTTAACTGCACCTAATTAATGTATTTTATGACTGCACCTAAT
+TGATAGAACTGTGGCAAATAAAGATGGAAAATTTCCGTAACTGATTTTTAACGGATAAAACTAAGCAGAAAAAAAACCCC
+AACATATAAACCCAGGAATCCACATCACATTATTTTTACTATTTTGCTTGAATTAGTTTAGATAAAATGCACCCTTAACC
+TAATCCCTAGATAAATAAAATAAAAAACAGTTACAAACATGTGGTGAGAATAAACATATATATATATATATATATACACA
+CACACACATATACACACTCATATATATGGAAAGAGATATACAGTTTTTTTTCTTTGTGTGTAGTATGCTTGTGTATTGTA
+TGTCAAAGCTCTCTATGAAACTGGTCTAGCTGTGGTGCTTATAAAGTGCAACATTTACTGAGGCACTTTTTATATATGCC
+AAGCTCTGGGCAAAGTGGTTTACATTATGAGCTATCTCATCTAATTTTTTTTGAAACTAATGTTATTTTTAATATTTGCT
+GAAAATCAAGAAGTGGAAGGAAAATGTACAAATCCATATTTTATAAAATAATATGGTTTCTGGGTTCACTATTCCCAATG
+TTGTACTTTCTTAACATCAAATACTGTAACAATTTGTTTCAAAAAATTCTGATTTAAGATATCTCTTCACTCTGCTTCTG
+CTGCTGCTAAGTCGCTTCAGTCCTGGCTGACTCTTGCGACCCCATAGATGGCAGCCCACTAGGCTCCCCAGTCCCTGGGA
+TTCTCCAGGCAAGAAATAATACCATTCTGCATAATTTATTTTTTTACAGCGCTGTGAGAAAGATGAAAGATTCTTCAGTG
+ACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCTAGTTATGGACTCAATTACTACCAACAGAAA
+CCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAAAGCCAGCTGCAGTTAGGTCACCTGCCCAAAT
+TCTTCAATGGCAAGTTTTGTCAAATACTGTGCCTGCCAAGTCCTGCCAAGCCCAGCCAACTACCATGGCACGTCACCCAC
+ACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAAATCAGGATAAAACAGAAATCCCTACCATCAATACCATTGCT
+AGTGGTGAGCCTACAAGTACACCTACCACCGAAGCAGTAGAGAGCACTGTAGCTACTCTAGAAGATTCTCCAGAAGTTAT
+TGAGAGCCCACCTGAGATCAACACAGTCCAAGTTACTTCAACTGCAGTCTAAAAACTCTAAGGAGACATCAAAGAAGACA
+ACGCAGGTAAATAAGGCAAAATGAATAACAGCCAAGATTCATGGACTTATTAATAAAATCGTAACATCTAAACTAGCGTA
+GATGGATAAATTAAATCTGTTACAGAGAAGGCGAAATGGGCTAATTATAACTTACATTTGCTGGTTCTTTATCATGTATA
+TACTAGATTCTTTCCCAACAAGAAAGTTTTAAAATATTTTACAAAATGAGTAAAAATTGCAGATTTTATTATTAAACCTT
+TTTCAACAATTGGTATACTCCTTGAATCTATTAGTTTTATTTTACTTCTGTTCACACACAAAAACAGTAAAGTACAGTGT
+CAACTCATGATTTTTCTTATCTCAAAAATATGTTTTCTTAGAAAAAAATCATATAGGATATGAGTTTAAATATATTTTAA
+TTGTATACCAGTGTTGTTGCACTCTACTTTTGGTAAGAATAGAATGAAAGGAAACAATGTTTCACTCATAGCATTTTATC
+TCAGGCATCACTTCCGAAAGGCTGTATAAGGTTAGGCACCCAAATTTCTCCCTATTGTAAGGTAATCCCACAGAAAAAAT
+TCTAATTTTTTAACTTGAAAAGCACCTACTTATTAAGAGGAAACTTTCAGAACTTTAAATATAATGTAAAATATGTCTAT
+TTATTATTTGAATCAATGGATAATGGCAGAGTCCAAAATAATTTAAAACACATGAAGAGGTTAAACAGAAAGATCAATAA
+GATAGAAAATAACTAAAGATTGTGAAATAATTTAGGAAGAAAGTGCAACATTTTGAGATTCTAGGCAACAAATACTTTCA
+TCACACTGTCTACATGAGTTTTTGGTCTAAAATGAACTCAGCAATGATATAATGGTAATAGCAATAGATCAGAGAAGCCT
+GGTTCTTCTGTTGTGTGACTTTAAGCAATTCATTACTCTCTCTAAAGAGTCATCACTCTCATTTTCTCATAATTTTAAGG
+TTGCTATGAGATTCAAGTGAGAAAGCATATTGTGAATGAGGTGTAAAAAGCAATCAATCTGTGAAATATAATGCTCTAGA
+AAAGAAGTATAATTAGTAAATATTAAAATTTACTTTCAACTAAAATATCAAGTCCTTACTAAATTATCAAAACTACATAA
+CAATCTCAGTTTAATCCTGTAGCAGCCGTATGGAATGGATTATATTACCATCTTAAATCCACAAATGAAAGCTATGGATC
+GGAAATTGCTACAGGCTGGAAAGTTCAAAACTGGAAACCAAATCAAACTTGCTTGATTTCAGATAGTAAGGCTTAATTAG
+TACGTCTGCTATTTCCATATGGGCTATTTGTTAAAAAAAAATAAAAATAAAAACAGAAAACATACTCTAATTTTCCAAGA
+TCAGCATATGTGTAAATTTTATTACTGAGATTGTGTTTAATAGGACATCTGGTAAGAAAGAGAAGACAATAAGCTGATAA
+ATCTTTGACTCATTAAAATTTCAAAAAGTAAAATGAAAACAAGTAATTGAGTTTGCAACTATCTATTTTATTGATATGAA
+ATACATTATATTTACATGATTGTTTTTAATAAATAATCATTATCTCATAGTCACATTTGTTCAAAACTCAAGAACCTAGA
+TTCCTAAGTTAAAACCACACACTACTTATAAAAAAAGAATGTATAGGACTGTGTCTTTCTGTGAATATTAGATGAAGACA
+ATTGTATAAGATCATCAGTTCACTATGTGGTGAATTTAAATATTTAAATTTATATATTTAGTTAGATAAACTACTTGGAT
+ACAGACATGAAGCAAATCACAGAAGCTAAATAAAATACATATCATGAGAACTGTTAGCACATTGTGAACTAAATCTCTAA
+ACTGTCATTTTTATAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCCAGTTGTCTGCTTCGGTGAACA
+GAGAATATGATTTTCACAGATCTGGCTCCTTCCTCGTCTCCTCTTACATTTTACTTTTATGCCAGATTTAATTTTTTGAT
+TCCTGCATAATAAAGCCAATCAAATGCAATGGATCTCTTTTCTTTTTTAATTTATTTATTTTAATTGGAGGCTAATTACT
+TTACAATATTGTATTGGTTCTACCACACATCAACGTGAATCTGCCACGGGATACACGTGTTCCCCATCCTGAACC
+>ref|ref|NM_173899.2|| Bos taurus CD5 molecule (CD5), mRNA
X53061.1 Bovine mRNA for CD5 antigen
+GAGCTTGCGGAGGCTGAGGCGGGAGGAGGCCGCGCCCATGGGGTCTCAGCATCTGCCACTGGCCGCCCTGTACCTTCTGG
+AGCTGCTGGTCACTTCCTGCCTCGGAGGGCTCAAGGTGGAGGTGCAAGGGCTCACCATGAGACTGAGCGGCTCCGGCTCA
+CGGTGTCAGGGCCGTCTGGAGGTCAGCAACGGGACAGAGTGGTACGCGGTGCACAGCCAGAGCTGGGGCCAGCTTTCGCT
+CTACCAGGTGGCTCCCAGGCAGTTCTTGAAGCTGTGCCAGGAGCTGCAGTGCCGGGACCCTTTGTTACTCTCTTCCTCGC
+GTTACTTCAAAGAGGTGCAATTCCAGAAATTGATAATCTGCCATGGACAGCTGGGATCCTTCTCCAACTGCAGCCTCAAC
+AGGGGACGCCAGGTGGACTCTCTGGCCCTGATCTGCTTAGAGCCACCGAGGACAACAGCTCCTCCCACGACCTCACCGCC
+CACAACCACTCCGGAGCCCACAGCACCTCCCAGGTTTCAGCTGGTGGCAGAGCCCGGGGGCCTGCGGTGTGCTGGCGTGG
+TGGAGTTCTACAGTGGTGGCCTGGGCGGCACCATCGGCATCGAGCCCCAGAATGATATCAAGGACCTGGGGCAACTCATC
+TGTGCAGCCCTCCAGTGTGGCTCCTTCCTGAAGCCCCTGCCAGAGACCGAGGAAGCCCAGACACAAAAGCCAGAAGGCCA
+AAGGCCTTTGCCAATCCGCTGGGAGATCCAGAACCCAAAATGCACCTCCCTGGAGCAGTGCTTCCGAAAAGTGCAGCCCT
+GGGTGGGTGGCCAAGCTCTTGGCCTCATCTGTTCTGATTTCCAGCCCAAGGTGCAGAGCCGCCTGGTTGGGGGCAGCGAC
+GTGTGCGAAGGCTCCGTGGAAGTGCGCAGTGGGAAGGGCCAGAAGTGGGACACGCTATGTGACGATTCCTGGGCCAAGGG
+CACGGCACGGCGGGTGGAGGTGTGCCGGGAGCAGCAGTGCGGCAACGTCAGCTCCTACCGGGGGCTGGACCCCAGCGAGA
+AGACCTTGGGGGGCTTCTACTGTCCCCCGGGGATACTGTCCCGGTGCCACAAGCTTGAGGAGAAAAAGTCGCACTGCAAG
+AGGGTGTTTGTCACATGCCAGAACTCCAGCCGAGCGGGCCTGGGCGCGGGGCCGGTGATGAGCATTATTTTGGCCCTCTT
+GCTTCTGGCGGTGCTGCTGGTCGTGTGTGGCCCCCTGGCCTACAAGAAGGTGGTGAAGAAATTCCGCCAGAAGAAGCAGC
+GCCAGTGGATTGGCCCAACGGGAATGAACCAGAACATGTCTTTCCATCGCAACCACACGGTGACTGTCCGGTCCCAGGTT
+GAGAACGCCACGGCCTCCCACGTGGAGAACGAATACAGTCAGCCTCCCAGGAACTCCCAGATCTCAGCTTATCCAGCTCT
+GGAAGGGGCCCTGCACCGCATCTCCACCCAGCCTGATAACTCCTCCGACAGTGACTATGAGCTACACGGGGCTCAGAGGC
+TGTAAGAGATCTGTGACCCGGGAACAAATATTAAGAGCCAGACTTTTTATCCCGAGAATCCTCTGCAGTCACCACTTGGA
+TGCCACGTCCCACTTCCTGCCCGGCAGACCACGGATGGGACTTCCCAACACATCCCACTGCCCTGCAGAGGCAGGTCCAC
+TCCGACATCTCCTCACATCCTCACCAGCCCAGGGAAGACCCCAGCATGGCTCAGCTGGCCCCTCCATGGGTGGAAGCTGT
+GAAAGGGCAGAGGCAAGCAGCCCCCTCCCTTGTCTGTGGACATCGGCTCTCTCTTCAGACTCTGACCCCCAGAAGGGCCC
+CACAGGAAAGCCTGCACCTGGAGCGGGGCGGTGGGAGGGAGGGCTGATTTCTCTCATGTATTTTTAATATTTTTTTTGTA
+AATAATGCTTTTTTCTGCTTCCTGGAAAAAAAA
+>ref|ref|X00673.1|| Bovine mRNA for blood coagulation factor X
+AGCCTGGGCGAGCGGACCTTGCCCTGGAGGCCTGTTGCGGCAGGGACTCACGGCTGTCCTCGGAAGGGCCCCACCATGGC
+GGGCCTGCTGCATCTCGTTCTGCTCAGCACCGCCCTGGGCGGCCTCCTGCGGCCGGCGGGGAGCGTGTTCCTGCCCCGGG
+ACCAGGCCCACCGTGTCCTGCAGAGAGCCCGCAGGGCCAACTCATTCTTGGAGGAGGTGAAGCAGGGAAACCTGGAGCGA
+GAGTGCCTGGAGGAGGCCTGCTCACTAGAGGAGGCCCGCGAGGTCTTCGAGGACGCAGAGCAGACGGATGAATTCTGGAG
+TAAATACAAAGATGGAGACCAGTGTGAAGGCCACCCGTGCCTGAATCAGGGCCACTGTAAAGACGGCATCGGAGACTACA
+CCTGCACCTGTGCGGAAGGGTTTGAAGGCAAAAACTGCGAGTTCTCCACGCGTGAGATCTGCAGCCTGGACAATGGAGGC
+TGCGACCAGTTCTGCAGGGAGGAGCGCAGCGAGGTGCGGTGCTCCTGCGCGCACGGCTACGTGCTGGGCGACGACAGCAA
+GTCCTGCGTGTCCACAGAGCGCTTCCCCTGTGGGAAGTTCACGCAGGGACGCAGCCGGCGGTGGGCCATCCACACCAGCG
+AGGACGCGCTTGACGCCAGCGAGCTGGAGCACTACGACCCTGCAGACCTGAGCCCCACAGAGAGCTCCTTGGACCTGCTG
+GGCCTCAACAGGACCGAGCCCAGCGCCGGGGAGGACGGCAGCCAGGTGGTCCGGATAGTGGGCGGCAGGGACTGCGCGGA
+GGGCGAGTGCCCATGGCAGGCTCTGCTGGTCAACGAAGAGAACGAGGGATTCTGCGGGGGCACCATCCTGAACGAGTTCT
+ACGTCCTCACGGCTGCCCACTGCCTGCACCAGGCCAAGAGGTTCACGGTGAGGGTCGGCGACCGGAACACAGAGCAGGAG
+GAGGGCAACGAGATGGCACACGAGGTGGAGATGACTGTGAAGCACAGCCGCTTTGTCAAGGAGACCTACGACTTCGACAT
+CGCGGTGCTGAGGCTCAAGACGCCCATCCGGTTCCGCCGGAACGTGGCGCCCGCCTGCCTGCCCGAGAAGGACTGGGCGG
+AGGCCACGCTGATGACCCAGAAGACGGGCATCGTCAGCGGCTTCGGGCGCACGCACGAGAAGGGCCGCCTGTCGTCCACG
+CTCAAGATGCTGGAGGTGCCCTACGTGGACCGCAGCACCTGTAAGCTGTCCAGCAGCTTCACCATTACGCCCAACATGTT
+CTGCGCCGGCTACGACACCCAGCCCGAGGACGCCTGCCAGGGCGACAGTGGCGGCCCCCACGTCACCCGCTTCAAGGACA
+CCTACTTCGTCACAGGCATCGTCAGCTGGGGAGAAGGGTGCGCGCGCAAGGGCAAGTTCGGCGTCTACACCAAGGTCTCC
+AACTTCCTCAAGTGGATCGACAAGATCATGAAGGCCAGGGCAGGGGCCGCGGGCAGCCGCGGCCACAGTGAAGCCCCTGC
+CACCTGGACGGTCCCGC
+>ref|ref|X04012.1|| B.taurus mRNA for chromogranin A
+CCGAGCTCAGTGCGGAGGGCGGATCGACAGACAGACGCACACGGAGACCTTGCACCACCAAACCCCATCCCCGCGCTGGT
+GTCGCCGCAGCTTGCCTGGAGCGAGCAGTCCAGCCGCCCCTCGCCCGAGCGCGCGCCGTGGCCCGCCCCAGACCACCAGC
+TGCTCGGCGCCCCGGCTTCGCCATGCGCTCCGCCGCGGTCCTGGCGCTTCTGCTCTGCGCGGGGCAAGTCATTGCCCTGC
+CTGTGAACAGCCCCATGAATAAAGGGGACACTGAGGTGATGAAGTGTATCGTCGAGGTCATCTCTGACACACTCTCCAAG
+CCCAGCCCCATGCCAGTCAGCAAGGAGTGTTTTGAGACACTCCGAGGAGATGAACGGATCCTCTCAATCCTGCGACATCA
+GAATTTGCTGAAAGAGCTCCAAGACCTCGCTCTCCAAGGAGCCAAGGAGCGGACACATCAGCAGAAGAAGCACAGCAGTT
+ACGAGGATGAACTCTCAGAGGTGCTTGAGAAGCCGAACGACCAGGCCGAGCCAAAAGAGGTGACAGAAGAGGTGTCCTCC
+AAGGATGCTGCAGAAAAAAGAGACGATTCTAAAGAGGTGGAGAAGAGTGATGAAGACTCGGACGGAGACAGGCCTCAGGC
+CTCCCCAGGGCTTGGGCCGGGGCCCAAGGTTGAGGAGGACAACCAGGCCCCTGGGGAGGAGGAGGAGGCCCCCTCCAACG
+CCCACCCCCTAGCCAGCCTCCCCAGCCCGAAATACCCAGGCCCACAGGCCAAGGAGGACAGCGAGGGTCCCTCCCAGGGT
+CCAGCCAGCAGGGAGAAGGGCCTGAGTGCAGAGCAAGGGAGGCAGACAGAGAGAGAAGAGGAGGAGGAGAAGTGGGAGGA
+GGCGGAGGCTAGAGAGAAGGCCGTCCCGGAGGAAGAAAGCCCGCCCACCGCAGCGTTTAAACCCCCACCGAGCCTCGGCA
+ACAAGGAGACGCAGAGGGCTGCTCCAGGTTGGCCCGAGGATGGAGCCGGGAAGATGGGGGCTGAGGAGGCCAAGCCCCCC
+GAGGGGAAGGGGGAGTGGGCACACTCCCGGCAGGAGGAAGAGGAGATGGCAAGGGCCCCTCAAGTCCTCTTCCATGGTGG
+GAAGAGCGGGGAGCCCAAGCAGGAGGAGCAGCTCTCCAAGGAGTGGGAGGACGCCAAGCGATGGAGCAAGATGGACCAGC
+TGGCCAAGGAGCTGACGGCCGAGAAGCGGCTGGAGGGGGAGGAGGAGGAAGAGGAGGACCCGGACCGCTCCATGAGGCTC
+TCCTTCCGGGCCCGGGGCTACGGCTTCAGGGGTCCCGGGCTGCAGCTGCGGCGAGGCTGGAGGCCGAACTCCCAGGAGGA
+CAGCGTGGAGGCCGGCCTGCCCCTCCAGGTGCGCGGCTACCCGGAAGAGAAGAAGGAGGAGGAGGGCAGCGCCAACCGCA
+GACCAGAGGACCAGGAGCTGGAGAGCTTGTCGGCCATCGAGGCAGAGCTGGAGAAGGTGGCCCACCAGCTGGAGGAGCTG
+CGGCGGGGCTGAGGCGCCGACTGACCCCACCAGCCAGGGCCCCGAGACACCTCGTGGTCCCGGCTCTGTTGCCCCCCCTG
+CAGGCCTGGCCAGACAAGCCCCGGGCACTGCTTCCGGGAGGGAGGCCGCCCCCAGCCGGCCCAAGCCCAGCCCACCCCAT
+TGCCCCCCTGCAGGGCAGACCCCTTGCCTTTCAACGATTATCCTGTCTCTGAACACAGGCAGCCTTCTCAAAGTTTCCCT
+TCCACCATTAGAGCCACTGGGCCTAACTGCAATAAGTACTGACCTTTAGGTGAAAGCTGAGGACTCCTGACTATATTGTG
+TATGAAGATTTATCTAACGGAAAATAAATCTGCTCTGGGCA
+>ref|ref|X55489.1|| B.taurus mRNA for chromogranin B
+CAGGATACAAGGTTGTTTTCCCACAGCATCTTCATCTCGCCTTCCGTCCCCTTCTCATTCACCCTTCCGACTGATATCCT
+CTTCTCCGCGCAGATTTGGACGAGCGAGGCCATGCAGCCGGCCGCCCTTCTCGGCCTTCTGGGAGCCACGGTGGTTGCAG
+CCGTCAGCTCTATGCCAGTGGACATCAGGAACCACAATGAAGAAGTGGTGACTCACTGCATCATCGAGGTCCTCTCAAAT
+GCCCTATTGAAGTCCAGCGCTCCACCCATCACCCCCGAGTGCCGACAAGTCCTGAAGAAGAATGGAAAAGAGCTCAAAAA
+TGAAGAGAAAAGTGAAAATGAAAACACAAGGTTTGAAGTGAGATTGTTGAGAGACCCAGCTGACACCTTCAGAAGCCCCC
+GGGCTTCTTCCAGTAGGGAGGACTCAGGGGAGGGGGATGCCCAAGTCCCAACAGTAGCAGACACGGAGAGCGGTGGGCAT
+AGCCGAGAGCGGGCAGGTGAGCCCCCGGGAAGTCAAGTGGCCAAAGAAGCAAAGACACGCTATTCTAAGAGCGAGGGACA
+GAACAGGGAGGAAGAAATGGTGAAATACCAGAAAAGGGAACGTGGGGAAGTTGGCAGTGAGGAGAGACTGTCTGAAGGGC
+CGGGAAAGGCACAAACGGCTTTTCTCAACCAAAGAAACCAGACTCCGGCTAAGAAAGAGGAGTTAGTGTCCAGATATGAT
+ACACAGTCTGCCAGGGGCCTTGAGAAGTCGCACAGCCGGGAAAGGAGCAGCCAGGAGAGTGGAGAGGAGACCAAGAGCCA
+GGAGAACTGGCCCCAAGAGCTGCAACGTCATCCGGAGGGCCAGGAAGCACCCGGAGAAAGCGAAGAGGATGCCAGCCCCG
+AGGTGGACAAACGGCACTCGAGGCCAAGACACCACCACGGGAGGAGCAGGCCCGACAGGTCCTCTCAGGAGGGGAATCCT
+CCCCTCGAGGAGGAGTCACACGTGGGCACGGGCAACTCAGACGAAGAGAAAGCCCGCCATCCAGCCCACTTTAGGGCTTT
+GGAGGAGGGAGCCGAATATGGGGAGGAAGTGAGGAGACACTCAGCTGCCCAGGCTCCTGGAGACTTGCAGGGGGCACGAT
+TCGGGGGCAGAGGACGTGGAGAGCACCAGGCTCTAAGGCGTCCCAGCGAGGAGAGCCTAGAGCAGGAAAACAAGAGACAT
+GGCCTCAGCCCGGATCTAAACATGGCGCAGGGATACAGCGAGGAAAGCGAGGAAGAGAGGGGTCCGGCCCCGGGACCCAG
+CTACAGAGCCCGGGGAGGGGAGGCGGCGGCCTACTCCACACTAGGCCAAACAGATGAGAAACGGTTCTTGGGTGAAACGC
+ACCACCGTGTTCAGGAAAGCCAGAGGGACAAGGCGAGGCGCCGCCTACCAGGCGAGCTGAGAAATTACCTCGACTATGGT
+GAGGAAAAGGGTGAGGAAGCAGCCAGAGGGAAGTGGCAGCCGCAGGGAGACCCGCGAGACGCTGACGAGAACAGGGAAGA
+GGCTAGGCTTCGAGGCAAACAGTATGCTCCCCATCTCATCACTGAAAAGAGATTAGGGGAGCTACTCAATCCATTTTACG
+ACCCTTCCCAGTGGAAGAGCAGCCGTTTTGAGAGAAAAGACCCCATGGATGACAGTTTTCTTGAGGGTGAAGAGGAAAAC
+GGGCTGACCTTGAATGAGAAAAATTTCTTCCCAGAATACAACTATGACTGGTGGGAGAAAAAGCCCTTTGAAGAGGATGT
+AAACTGGGGGTATGAGAAGAGAAACCCGGTCCCCAAACTGGATCTAAAAAGGCAGTATGACCGAGTGGCCGAACTGGACC
+AGCTCCTTCACTACAGGAAGAAGTCAGCTGAGTTCCCAGACTTCTATGACTCCGAGGAGCAGATGAGCCCACAACACACA
+GCAGAAAATGAAGAGGAGAAGGCTGGCCAAGGAGTTCTGACGGAGGAAGAGGAAAAAGAACTTGAAAACTTGGCTGCGAT
+GGATTTGGAACTACAGAAAATAGCTGAGAAGTTCAGTGGTACCCGAAGGGGCTAATGGTCATTAGAGTAAAGGGCAGATT
+TTAAGACAGCCTTCACATGATCTGTTATCCACCACTTCACTGAAAGACCCCATTTATTTATCCAAAGGCAGAAAGTAGAA
+TTTACTCATCCAATGTTTGACACAATTGGAAATGTCTTTGATTTTTGCCAGAGTGCTATTGGAAATATAAATAGCATGAC
+TTGTAGTATACTCTTTATAAAAAAGTAGATATATTAACATGCTTGTGACAATGACTGTGCTACTGTCCTTCGAAAAAATG
+TCTTAGTTTGAAGTAATAAAAGATTCACCTGAGGCAAAAAA
+>ref|ref|X04823.1|| Bovine retina mRNA for cyclic GMP phosphodiesterase gamma-subunit
+GCGTGAGGGAGTCCAGAAGCTGAAGGTCACTGCGGGATCTCTGCCAACCTGGCCATGAACCTGGAGCCACCCAAGGCCGA
+GATCCGGTCGGCCACCAGGGTGATGGGGGGACCCGTCACTCCCAGGAAAGGGCCCCCGAAATTTAAGCAGCGGCAAACCA
+GGCAGTTCAAGAGCAAGCCCCCCAAGAAAGGTGTCCAAGGGTTTGGTGATGACATCCCTGGAATGGAAGGCCTGGGAACA
+GACATCACCGTCATCTGCCCGTGGGAGGCCTTCAACCACCTGGAGCTGCACGAGCTGGCCCAGTACGGCATCATCTAGCC
+CTGGACCCCCGCCCTCAGCCCCTCTACTCCGCTGCCCACCCTGACCCCCTGCTCAAGATTCCTGTGAGCAGAGCTGTGCC
+CCGGGAGGTCCAGAGTGTCTGGATTGTGTCTGGAGACCCTCACAGGGCGGCAGCCTGGAGCCTCCTGAATGCTAGTTACC
+AGGAGCCCACCAGTTCCCTTCAGGACACCCTCTCGGGGCAGCCAGGCTCTGCTTAACTTCCAGAAACACTGGTCCACAGA
+CCCTCTCCTCCCCAGGCTGGAAAGCTAGGGCAGGCCTCCCAGTGGTGTCTGCCACACCCCGCCTCCTGGCCTGACTGTCT
+GGGGGTGAGAACGGGCTCCCCTCACTAGCCTTTCCCAGTTGAAGCCGTTGGGCCAGCAGGTGGATGCCAGGAGTCCTGCA
+GGCGTCAGACAATGAGAACCCCCTGGACCAGTCACACCAGTAGGAAGCTTGTCCTTTCCAACGTGGCCCATGCTCGCTGT
+CCTGTTTCAAATAAAGTTAGCCGTGCTCCCCAA
+>ref|ref|NM_174421.2|| Bos taurus phosphodiesterase 6G (PDE6G), mRNA
X04270.1 Bovine retina mRNA for cyclic GMP phosphodiesterase gamma subunit
+GCGTGAGGGAGTCCAGAAGCTGAAGGTCACTGCGGGATCTCTGCCAACCTGGCCATGAACCTGGAGCCACCCAAGGCCGA
+GATCCGGTCGGCCACCAGGGTGATGGGGGGACCCGTCACTCCCAGGAAAGGGCCCCCGAAATTTAAGCAGCGGCAAACCA
+GGCAGTTCAAGAGCAAGCCCCCCAAGAAAGGTGTCCAAGGGTTTGGTGATGACATCCCTGGAATGGAAGGCCTGGGAACA
+GACATCACCGTCATCTGCCCGTGGGAGGCCTTCAACCACCTGGAGCTGCACGAGCTGGCCCAGTACGGCATCATCTAGCC
+CTGGACCCCCGCCCTCAGCCCCTCTACTCCGCTGCCCACCCTGACCCCCTGCTCAAGATTCCTGTGAGGAGAGCTGTGCC
+CCGGGAGGTCCAGAGTGTCTGGATTGTGTCTGGAGACCCTCACAGGGCGGCAGCCTGGAGCCTCCTGAATGCTAGTTACC
+AGGAGCCCACCAGTTCCCTTCAGGACACCCTCTCGGGGCAGCCAGGCTCTGCTTAACTTCCAGAAACACTGGTCCACAGA
+CCCTCTCCTCCCCAGGCTGGAAAGCTAGGGCAGGCCTCCCAGTGGTGTCTGCCACACCCCGCCTCCTGGCCTGACTGTCT
+GGGGGTGAGAACGGGCTCCCCTCACTAGCCTTTCCCAGTTGAAGCCGTTGGGCCAGCAGGTGGATGCCAGGAGTCCTGCA
+GGCGTCAGACAATGAGAACCCCCTGGACCAGTCACACCAGTAGGAAGCTTGTCCTTTCCAACGTGGCCCATGCTCGCTGT
+CCTGTTTCAAATAAAGTTAGCCGTGCTCCCCAA
+>ref|ref|NM_001001440.2|| Bos taurus annexin A4 (ANXA4), mRNA
X13627.1 Bovine mRNA for endonexin (chromobindin 4)
M22248.1 Bovine endonexin (chromobindin 4) mRNA, complete cds
+CGGGGCGCCGTCCCATCTCGGCCTCTGGGGAACTTCTGCTTGACTGACCGACCGTGACCCTGACATAGCGTCATAGTCAT
+GGCAGCCAAGGGAGGCACTGTCAAAGCCGCTTCAGGCTTCAACGCTGCCGAAGATGCCCAGACCCTGAGGAAGGCCATGA
+AAGGGCTTGGCACAGATGAAGATGCCATCATCAACGTCCTGGCCTATCGCAGCACGGCCCAGCGCCAGGAAATCCGGACA
+GCCTACAAGACCACCATCGGCAGGGACCTGATGGACGACTTGAAGTCAGAACTGAGTGGCAACTTCGAGCAGGTGATCCT
+GGGGATGATGACACCCACGGTGCTGTACGATGTGCAGGAGCTGCGAAAGGCCATGAAGGGAGCTGGCACAGATGAAGGCT
+GCTTGATTGAGATCCTGGCCTCCCGGACACCCGAGGAGATCCGGCGCATAAACCAGACCTACCAGCTGCAATATGGGCGG
+AGCCTTGAAGATGATATTCGCTCTGACACGTCATTCATGTTCCAGCGCGTGCTGGTGTCTCTGTCCGCTGGAGGCAGGGA
+TGAAAGCAATTATCTGGATGATGCTCTCATGAGACAGGATGCCCAGGACCTGTATGAGGCTGGAGAGAAGAAATGGGGGA
+CAGATGAGGTGAAATTTCTAACTGTTCTCTGTTCTCGCAATCGAAATCATCTGTTGCATGTGTTTGATGAATACAAAAGG
+ATAGCACAAAAGGATATTGAACAGAGTATTAAATCTGAAACATCTGGCAGCTTTGAAGATGCTCTGCTGGCCATAGTAAA
+GTGCATGAGGAACAAATCTGCATATTTTGCTGAAAGGCTTTATAAATCCATGAAGGGCTTGGGCACCGATGACGACACCC
+TTATCAGAGTGATGGTTTCTCGAGCGGAGATTGACATGTTGGACATCCGGGCAAACTTCAAGAGACTCTATGGAAAGTCT
+CTATACTCCTTCATCAAGGGTGACACATCCGGAGACTACAGGAAGGTGCTGCTCATTCTCTGTGGAGGAGATGATTAAAA
+TCCAGAAAGCCCAGGAAGATTCCCTACACTTTGAATTCCTTTTTTAACTTAATTTTCTACACTGCTATTAGCATTATCTC
+AGAATGCTTATTTCCAATTAAAACGCCTACAGATGCCTCCTAGGATATAGCCTGTATTATTATTCATCTATAATTACCCA
+CTATGATGCTTTAAAGCTGTACTTGCATTTCAAAGCTCATAAAACCTAAAAGGAGATTTCAGATTAGAAATAAGAATGTG
+CTCCATGTTTTCAACAGATCTCTTCCTGTTTGTGTTTCACAGAAATTGGGATATATTACATTATTTCATATTTTCTTTTT
+GGAGAAAACTATTGAAGTGGGAGACTGTTCTAAAATCTCTTTTATTCCCTCATTCTATTATTAAGAGTGGCTAGTAATTT
+CTTGATTTGAAATTGTCATCGTCTAGTTAGTAAGAATAGCTAACCAGTTTGATATTTTACATAATCATTGTTTGAAAGCG
+TCTACACATCTGCTTTTGCTTGTTTAGGTTTTCATATAAAGTGCTAGTTGATTTAGTACTAAGTTCAGCATTGGAGACTC
+CCTCCATCACATCTTACATTAAGGTCAGGTAGACTCTCCAGGTTGAAGTATAACAAATTTACTGACTTGTCTGAACAAAT
+TCAACTCTGTGGTTATACAGATCATATATGTCTGACTACCAAACATAAATGCTGAACATTCCACAATATCAGGGTTAATA
+TAATAATAATAATGGTCTTAAGCCAGCTTGAAGATGAATGTGAAAAAATTAAATGTCAAACTACATATTCTGGTGATGGT
+GTAGTGCTCTGAATTTACATTTTTGTGCTAAAAATAATTTTTTAAATCATTTTTAATTGTGTTGATTTGAATACTTGCAT
+TTGTTGATTTACACTTGCACTGTGGCTTTCAACTCTAGAATTATTGTAAAGGTGTACTTGGATTTAATTTAAAAGTTCAG
+TTTGCATACAACACAGAAAAATAATTCCAATAAAAATATGGTGTCTTTCAAATCG
+>ref|ref|X04298.1|| Bovine mRNA for chromogranin A
+ACGGAGACCTTGCACCACCAAACCCCATCCCCGCGCTGGTGTCGCCGCAGCTTGCCTGGAGCGAGCAGTCCAGCCGCCCC
+TCGCCCGAGCGCGCGCCGTGGCCCGCCCCAGACCACCAGCTGCTCGGCGCCCCGGCTTCGCCATGCGCTCCGCCGCGGTC
+CTGGCGCTTCTGCTCTGCGCGGGGCAAGTCATTGCCCTGCCTGTGAACAGCCCCATGAATAAAGGGGACACTGAGGTGAT
+GAAGTGTATCGTCGAGGTCATCTCTGACACACTCTCCAAGCCCAGCCCCATGCCAGTCAGCAAGGAGTGTTTTGAGACAC
+TCCGAGGAGATGAACGGATCCTCTCAATCCTGCGACATCAGAATTTGCTGAAAGAGCTCCAAGACCTCGCTCTCCAAGGA
+GCCAAGGAGCGGACACATCAGCAGAAGAAGCACAGCAGTTACGAGGATGAACTCTCAGAGGTGCTTGAGAAGCCGAACGA
+CCAGGCCGAGCCGAAAGAGGTGACAGAAGAGGTGTCCTCCAAGGATGCTGCAGAAAAAAGAGACGATTTTAAAGAGGTGG
+AGAAGAGTGATGAAGACTCGGACGGAGACAGGCCTCAGGCTCCCCAGGGCTTGGGCCGGGGCCCCAAGGTTGAGGAGGAC
+AACCAGGCCCCTGGGGAGGAGGAGGAGGCCCCCTCCAACGCCCACCCCCTAGCCAGCCTCCCCAGCCCGAAATACCCAGG
+CCCACAGGCCAAGGAGGACAGCGAGGGTCCCTCCCAGGGTCCAGCCAGCAGGGAGAAGGGCCTGAGTGCAGAGCAAGGGA
+GGCAGACAGAGAGAGAAGAGGAGGAGGAGAAGTGGGAGGAGGCGGAGGCTAGAGAGAAGGCCGTCCCGGAGGAAGAAAGC
+CCGCCCACCGCAGCGTTTAAACCCCCACCGAGCCTCGGCAACAAGGAGACGCAGAGGGCTGCTCCAGGTTGGCCCGAGGA
+TGGAGCCGGGAAGATGGGGGCTGAGGAGGCCAAGCCCCCTGAGGGGAAGGGGGAGTGGGCACACTCCCGGCAGGAGGAAG
+AGGAGATGGCAAGGGCCCCTCAAGTCCTCTTCCGTGGTGGGAAGAGCGGGGAGCCCGAGCAGGAGGAGCAGCTCTCCAAG
+GAGTGGGAGGACGCCAAGCGATGGAGCAAGATGGACCAGCTGGCCAAGGAGCTGACGGCCGAGAAGCGGCTGGAGGGGGA
+GGAGGAGGAAGAGGAGGACCCCGACCGCTCCATGAGGCTCTCCTTCCGGGCCCGGGGCTACGGCTTCAGGGGTCCCGGGC
+TGCAGCTGCGGCGAGGCTGGAGGCCGAACTCCCGGGAGGACAGCGTGGAGGCCGGCCTGCCCCTCCAGGTGCGCGGCTAC
+CCGGAAGAGAAGAAGGAGGAGGAGGGCAGCGCCAACCGCAGACCAGAGGACCAGGAGCTGGAGAGCTTGTCAGCCATCGA
+GGCAGAGCTGGAGAAGGTGGCCCACCAGCTGGAGGAGCTTCGGCGGGGCTGAGGCACTGACTGGCCCCACCAGCCAGGGC
+CCCGAGACACCTCGTGGTCCCGGCTCTGTTGCCCCCTCTGCAGGTCCTGGCCAGACGGCCCCAGGCACTGCTTCCGGGAG
+GGAGGCCGCCCCCAGCCTGCCCAAGCCCAGCCCACCCCATTGCCCCACGCTCTTTTCCTCCTGCTCCTGACCCCTGCCCA
+GTGCGCCCCCCTGCAGGGCAGACCCCTTGCCTTTCAACGATTATCTTGTCTCTGAACACAGGCAGCCTTCTCAAAGTTTC
+CCTTCCACCATTAGAGCCACTGGGCCTAACTGCAATAAGTACTGACCTTTAGGTGAAAGCTGAGGACTCCTGACTATATT
+GTGTATGAAGTTTATCTAAGGAAAATAAATCTGCTCTGGGCTC
+>ref|ref|NM_175830.1|| Bos taurus NADH:ubiquinone oxidoreductase subunit V3 (NDUFV3), mRNA
X59048.1 Bovine mRNA for a 10kD subunit of heart mitochondrial NADH-ubiquinone oxidoreductase
+GGGTCGTCCTGTCTGCGCCCGAGTCACAGCCATGGCGGCCTCGCTTCTGCTGCGGCAAGGACGAGCCGGGGCGCTGAAGA
+CTGTGCTTCTGGAAGCAGGCGTGTTTCGAGGAGTTGCTCCTGCAGTTTCTCTCTCTGCAGAATCAGGAAAGAATGAAAAG
+GGATTACCACCGAACCCCAAGAAGCAGAGCCCACCAAAGAAGCCTGTGTCGGCTGCTCCCACAGAGCCGTTTGACAACAC
+CACCTACAAGAACCTTCAGCATCATGACTACAGCACATACACCTTCTTAGACCTAAACCTGGACCTCTCCAAGTTCAGGA
+TGCCCCAGCCCTCTTCAGGACGGGAGTCCCCCCGCCACTGAGAGCCCAGTTTAAAGATTACCCTTGCTGTGTCTGTCTGC
+ATTCTTGCCTGCAGTCCTCTCGGCGGTCACAAGACCCAGCGTGTAGAATCCTAGCGAGTAGTGAATTAGCAGCACCCCTC
+TGATGGTTCAGTCTCCATGTGTTTAGAGACATCTGCTGCGGGGATTTCTCTCTAACGATAGAGTATGGCTCAGTGGACAG
+ATCCATGCAATTAGAGAATCGGAGGTGCCTTCCGTCTGTGTGGTTCCACTGTGCTGAGCCCCGGTCAGCTTGGTGTTCTC
+TGGTTCACCAGTGTGGAGTCGATGAGTGTAGTGGGCCTTCTGATAAGACCTAGTTCTTGATGAATCAGATATAGGAGTTG
+TCTACATTGTAACTAACTACTGCACTGCAGAGAAATTATAATAAATTATGGCATTTTATGATCAAAAAAAAAAAAAA
+>ref|ref|NM_175810.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit S6 (NDUFS6), mRNA
X63221.1 B.taurus CI-13 (IP) mRNA for ubiquinone oxidoreductase complex
+AAGCCAGCCCGCAAGATGGCGGCGGTCCTGACCTTCCTCAGGTTCCTGGGCCGGGGCGGCGCGGTGACGCGCGGCCTGCC
+CGGGGGCGCCAGGTGCTTTGGGGTGCGGACCTCGCCGACCGGGGAGAAGGTCACGCACACCGGCCAGGTTTATGACGATG
+GAGACTACAGGAAAGTTCGATTTGTAGGTCGTCAGAAAGAGGTGAACGAGAACTTTGCCATCGATCTGATAGCGGAGCAG
+CCCGTGAGCCAAGTTGGGAGTCGGGTGATATCGTGCGACGGCGGCGGGGGGGCCCTGGGCCACCCCCGAGTGTACATAAA
+CCTGGACAAGGAAACGAAGACGGGGACGTGCGGCTACTGCGGCCTGCAGTTCCGGCAGCAGCACCACTAGGGCGGCCGCG
+TGGCCGGGGCCCAGTGCAGGGCGAGCTGGAGGACCCGGGTGTGCAGAGCGCGTCTCTCAGTCACTGAGGCCCGGCCCTCC
+AGGGCCCGGCCGCCTGCTCCTTCCTCCCGGGGGAGCGTGGTGGGCGCGGGAGAAGTGGCGGGGCCATCCGGCCGGCTCAG
+CTCAGCTCCGCTCCGCCCGGCACTCTGCCCCTCCCGCTCCTCAGCCGCCTGGTCTGAAATCCCACAAAGTTAAGTACTGT
+TTGAAGGTGTTAACAGTCACATGTGGACTGATTTAAATACTCTGTGTGTATTTAAGAGAGTAATGGCTATGATGTATTGT
+TCCACGAAAATAAATTCAGGAGGGGAGAAAAAAAAAAAAA
+>ref|ref|NM_176652.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit S5 (NDUFS5), mRNA
X63220.1 B.taurus CI-15 (IP) mRNA for ubiquinone oxidoreductase complex
+GGCGGCCAGCGAGGAGAAAAGGACACAGCGGCCGGACGCCATGCCTTTCTTTGATGTGCAGAAAAGGCTGGGTGTTGACC
+TAGATCGCTGGATGACAATCCAGAGTGCTGAGCAGCCTCACAAGATCCCATCCCGATGCCATGCTTTTGAGAAGGAATGG
+ATAGAGTGTGCACATGGAATCGGCAGTATCCGAGCAGAGAAGGAGTGCAAAATAGAATTTGAGGATTTCAGAGAGTGTCT
+GCTTCGACAGAAAACGATGAAACGTCTGCATGCCATCAGGAGACAGCGGGAAAAGCTAATCAAGGAAGGGAAGTACACAC
+CCCCACCTCACCACTCAGGCCAGGAGGAACCTCGGTCCTGAGCGGAGCAGCTGCCAGTGGCTGGAGGCTGATTCTCACGT
+TCTCTCTTCTCCGCTGGAAACTCTACGTACTAAAAACCCCTTTGTGAGAGTGTCTAAAAATAAAGGATTGCTCCATCCTA
+AAAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_175800.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit S4 (NDUFS4), mRNA
X63215.1 B.taurus CI-18(IP) mRNA for ubiquinone oxidoreductase complex
+AGTGTCTGCCTGTAGCAAGATGGCGGCGGTCTCAATGTCAGTGGCGCTGAGGCAAGCGTTGTGGGGGAGAAGGGTAGCGA
+CTGTAGCTGCCGTTTCCGTTTCCAAGGTTTCGACCAGGTCGTTGAGCACTTCCACATGGAGGCTGGCACAGGACCAAACT
+CGAGACACGCAACTCATAACAGTTGATGAAAAATTGGATATTACTACTATAACTGGTGTTCCAGAAGAGCATATCAAAAC
+TAGAAAAGCCAGGATCTTTGTTCCTGCTCGCAATAACATGCAGTCTGGAGTAAACAACACAAAGAAATGGAAGATGGAGT
+TTGATACCAGAGAGAGATGGGAAAATCCTTTGATGGGTTGGGCGTCAACGGCTGATCCCTTATCCAACCTGGTTCTGACT
+TTTAGTACTAAAGAAGATGCAGTTGCCTTTGCAGAAAAAAATGGATGGAGCTATGATGTTGAGGAGAGAAAGGTTCCAAA
+GCCTAAGTCCAAGTCTTATGGCGCAAACTTTTCTTGGAATAAAAGAACAAGAGTATCCACAAAATAGGTTGGCACGGACT
+GTATCTCTATGCTTGACTGTGAATAAAGTCAGCTGTGCAGTATTTATAGTCTGTGTATAATACACCTCTTAATCTCCTAA
+TAAATTTGACCTTTAAACTACAGAAAAAAAAAAAAAAA
+>ref|ref|NM_205817.1|| Bos taurus NADH:ubiquinone oxidoreductase subunit A9 (NDUFA9), mRNA
X59418.1 B.taurus mRNA for heart mitochondrial NADH dehydrogenase (ubiquinone) 39 kDa subunit
+GATTCTGGGAGAATATGGCGGCCGCCGTTCACCCCCGAGTTGTCCGGGTCCTGCCAATGTCACGTTCTTCTGTTCCTGCC
+CTAGCCGCCTCTGTGTTTCACAGCCCACCCCAGCGCCAGCTTCATCATGCAGTCATACCACATGGGAAAGGTGGGCGTTC
+CTCCGTCAGTGGAATTGTGGCCACTGTGTTTGGAGCAACGGGATTCCTGGGCCGCTATGTCGTCAACCACCTTGGTCGCA
+TGGGGTCACAGGTGATTGTCCCCCACCGCTGCGAGCCATATGACACCATGCACCTTCGTCCCATGGGTGACCTGGGCCAG
+ATCATCTTTATGGACTGGAACGGGAGAGACAAGGACTCAATCCGAAGAGCTGTGGAGCACAGCAGCGTGGTCATCAATCT
+GGTCGGGCGAGAGTGGGAGACCCAAAACTTTGACTTTGAGGATGTTTTTGTCAAGATTCCCCAAGCCATTGCTCAAGTGT
+CCAAAGAAGCTGGAGTTGAAAAATTTATTCACATTTCACATCTGAATGCTGATATTAAGAGCTCTTCTAAGTATCTGAGA
+AGCAAGGCTGTTGGAGAGAAGGAAGTGAGAGAGACGTTTCCAGAAGCCACCATCATAAAGCCGGCTGAAATCTTTGGCAG
+AGAGGACAGATTCCTCAATTATTTTGCAAATATCCGCTGGTTTGGTGGCGTCCCTCTTATTTCCCTGGGCAAGAAGACTG
+TGAAACAACCAGTATATATTGTGGATGTCACCAAAGGAATTATTAATGCAATTAAAGACCCGGATGCCAGAGGGAAAACT
+TTTGCCTTTGTTGGGCCCAGTCGGTACCTGCTGTTCGACCTCGTGCAGTACGTCTTTGCTGTGGCTCACAGGCCCTTCCT
+GCCGTACCCTCTGCCACACTTTGCCTATCGATGGATCGGTCGGCTCTTTGAAATTAGTCCATTTGAACCCTGGACCACGA
+GGGATAAAGTGGAGCGGATTCACACCACAGACAAGATCCTGCCTCACCTGCCAGGCTTGGAAGACCTGGGCGTTGAGGCC
+ACGCCCCTGGAACTCAAGGCCATCGAGGTGCTGCGGCGTCACCGCACCTACCGCTGGCTGTCTTCTGAGATCGAGGACGT
+GCAGCCGGCCAAGACGATTCCCACTAGTGGCCCCTGAGCTGCCCGCGGCTTTTGGTGGTGTTTGGGTTGCTACCAACCAG
+GCCACCTTTGGCGGAGAATCCTGTATATAGTGAATGAGAGCCTCTATTAAAACCTGAGATGACAAAAAAA
+>ref|ref|NM_176655.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit A10 (NDUFA10), mRNA
X59419.1 B.taurus mRNA for heart mitochondrial NADH dehydrogenase (ubiquinone) 42 kDa subunit
+GGTCCTTGAGCCGGTGCAGACAGCGGAGCCATGGCCTTGAGGCTGCTGAGACTTGTCCCACCGCGCGTGGGAGGAATTCA
+TACAAGTGTCCAGTTCAAGCTGCAGTATGGCCCGTTGGCGTACATACTTGGTGAAAAAGCAACCAAAAAGATGACAGAAA
+AGAGCAAACTGATAACTGTAGATGGCAATATATGTTCTGGAAAAAGCAAGCTTGCGAAAGAAATAGCAGAGAAACTAGGC
+CTGAAGCACTTTCCCGAGGCGGGAATCCACTATGTGGACAGCACCACAGGGGACGGGAAGCCCCTGCCTGTGCAGTTCAG
+TGGCAACTGCAGTTTGGAGAAGTTTTACGACGACCCGAAAAGCAACGATGGCAACAGCTACCGCCTGCAGGCCTGGCTGT
+ACGCCAGCCGCCTGCTGCAGTACGCGGATGCCCTGGAGCACCTGCTGAGCACAGGACAGGGTGTGGTGTTGGAGCGCTCC
+ATCTACAGTGACTTTGTCTTCCTGGAGGCAATGTACCGACAAGGCTTCATCCGGAAGCAATGTGTGGACCACTACAACCA
+GGTGAAGAAGGTCACCATCTGTGAGTACCTGCCCCCCCACGTGGTCGTCTACGTGGACGTGCCGGTCCCCGAGGTCCAGA
+GCCGGATCCAGAAGAAGGGAAACCCACACGAGATGAAGATCACCTCCGCCTACCTTCAGGACATCGAGAATGCCTATAAG
+GGGACCTTCCTGCCTGAGATGAGTGAGAAATGTGAGGTTCTACAGTACAGTGCATGGGAAGCTCAGGATGCAGAAAAGGT
+GGTCGAGGATATTGAGTACCTGAAGTACGACAAAGGGCCGTGGCTGGATCAGAACGACCGCAATTTGCACAAACTGAGGA
+TGCTGGTTCAGGATAAGTTGGAGGTGCTGAATTACACATCCATCCCTGTCTTCCTCCCAGAGGTCACCGTTGGTGCCCAC
+CAGAGTGACCAGGTCTTCCAGGAGTTCACAGAGCTGCCAGGCCGCAAGTACCGCGCCGGGTACAACGAGGACGTGGGGGA
+CAAGTGGATCTGGCTGAAGTGACGCCTCCCGGAGGCCGCCTTGCAGGGACGAAGACACGCCCAGGCCCCCAGCTCCTGCA
+CTCCGCTAGCCTCACGCTGGGGGGCAGGGGTGCAGACAGAAGCCCCCCAGTTAGGGGGCCCAGCTTCCTTCTACAGCGCT
+TGTCCCTGGGCAAGCAGCATCCGATGTGAGAGAGCAGGCACCGCCTGGAGCGTCTCCTTCCCCACAGCCCGGCTGTGTCG
+GGCCCAGTCTGCGCCTGTGTCTTCAGACTTCGAGAAATAAAACTGTTTCTGTGGCAAAAAAAAAA
+>ref|ref|NM_175828.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit B2 (NDUFB2), mRNA
X63216.1 B.taurus CI-AGGG mRNA for ubiquinone oxidoreductase complex
+AGCGGCGGTGCGGTCTGGGTAACGGCCGGGCTAACGATGGCTGGCATGTCGGCTCTGAAGCGACTGGCGCCGTTCGCTCA
+CGTTGGAGGCCACCTCTTCAGAGGCCGCTGCGCGAGGGCGGCTGGAGCCCGTGGCGTCCGTCGGGCTGGCGGAGGTGCGC
+ACATTGAGCCCCGGTACAGACAGTTCCCGCAGCTGACCAGATCCCAGGTGATCCAGGCCGAGTTCTTCAGTGCGACCATG
+TGGTTCTGGATTCTCTGGCGCTTCTGGCACGACTCAGATGCTGTGCTGGGTCACTTTCCTTATCCCGACCCTTCCCAGTG
+GACAGATGAGGAATTGGGTATCCCTCCGGATGATGAAGACTGAAAACAGAGGCTCAGCTCTTGCCAAATGGGTGCACCCC
+ATGTTTCTTGTTATGTTTATTTGTCTGTAAACATGTTTTGACTTTGCACCTATGGTGATTCTGAAGAAACAGTGCATTTT
+ATAACAGTATAAAGAATAATTAACACAAAAAAAAAAAAAAAA
+>ref|ref|X63209.1|| B.taurus CI-ASHI mRNA for ubiquinone oxidoreductase complex
+GGCATGTGCGGGGTGAAACTGAAAGAAGGTGAAGATGGCGGCGGCCAGGGCGGGGGTCCTGGGAGTCCGATGGCTGCAAA
+AGGCAGCCCGAAACGTGGTGCCGCTGGGTGCACGGACAGCCTCCCACATTACCAAGGACATGCTCCCGGGACCCTATCCC
+AAGACCCCAGAAGAACGGGCTGCCGCCGCCAAGAAGTATAATATGCGGGTGGAAGACTACGAGCCGTACCCAGATGATGG
+CACGGGGTATGGTGACTATCCGAAACTGCCTGACCGCTCACAGCAGGAGAGGGATCCATGGTATGACTGGGACCACCCAG
+ACCTGCGGTTGAACTGGGGTGAACCGATGCACTGGGACYTGGACATGTATATCAGGAACCGTGTGGACACGTCCCCGACT
+CCTGTTAATTGGAACCTCATGTGTAAGCACCTCTTCGGCTTCGTCGCCTTCATGCTGTTCATGTTTTGGGTAGGGGAAAC
+TTACCCCGCCTACCAGCCTGTGGGGCCAAAGCAGTATCCTTACAATAATCTGTACCTGGAACGAGGCGGCGATCCCAACA
+AAGAACCTGAGCCAGTGGTTCACTATGAGATCTGAGGAGGCTTCATGAGCTTTGTGYTCCCTAACTGACTCCTTCAATCC
+TAGAAATTTAACTTTAATGAAATCCCCAATAAAACTTAGTGCTGTGGTAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_176667.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit B3 (NDUFB3), mRNA
X63213.1 B.taurus CI-B12 mRNA for ubiquinone oxidoreductase complex
+AGGGGTGAATCTTGAGTGTCCTGAGAGGTCAGATTGCTGTCAGACATGGCCCACGGACATGGACATGAACATGGTCCTAG
+TAAAATGGAACTTCCAGATTATAAACAATGGAAGATAGAAGGGACACCATTAGAAACTGTCCAAGAGAAACTGGCCGCAC
+GAGGACTAAGGGATCCATGGGGCCGCAATGAAGCTTGGAGATACATGGGTGGCTTTGCAAATAATGTTTCCTTTGTTGGA
+GCATTATTAAAAGGATTCAAGTGGGGATTTGCTGCATTTGTGGTAGCTATAGGGGCTGAATATTACCTGGAGTCCCAGAA
+AAAAGATAAGAAACATCACTGAAGATAATACCTGGAAATATCTTTTAATGTCTTAACTTTCTTATAAAAAGATTTCTTCA
+CTGTAGCCTACTCACCTGTGTGTTTATTCCTTAAGGAATACTAGTAAGATTTAATAAAATAAGAAAACATGTAAAAAAAA
+AAAAAAA
+>ref|ref|NM_175829.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit A5 (NDUFA5), mRNA
X63218.1 B.taurus CI-B13 mRNA for ubiquinone oxidoreductase complex
+GTCATGGCGGGCTTGCTGAAGAAGACCACTGGCCTGGTGGGATTGGCTGTTTGTGAAACTCCACATGAGAGGCTAAAAAT
+ATTGTATACAAAAATTCTTGATGTTCTTGGACACATCCCTAAAAATGCAGCATATAGAAAGTATACAGAACAGATTACAA
+ATGAGAAGCTGAGTATGGTTAAAGCGGAACCTGATGTTAAAAAACTAGAAGAGCGACTGCAGGGTGGCCAAATAGAAGAG
+GTTATTCTTCAGGCTGAAAACGAACTAAGTCTGGCAAGAAAAATGATCCAGTGGAAACCATGGGAGCCTTTAGTGGAAGA
+GCCTCCAGCCAGCCAATGGAAATGGCCAATATAAACAGCATTAACTAACTTATCTGTTGATAGGAGACTGATGTAATTAA
+ATATTCTGTTATATGTTAAAAAATGTTTCCTTATTATCTTATCATCAAGATAACTGATACAAAACACATTTAAGCGACTT
+GTTAAAGTTGATGATGGTAATTTGTGAATTCAGTTTTTGATTTGTAGAGCATTCAAGTTATTTCAAAGGTAAAAAAAAAA
+AAAAAAAA
+>ref|ref|NM_175791.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit A6 (NDUFA6), mRNA
X63211.1 B.taurus CI-B14 mRNA for ubiquinone oxidoreductase complex
+GCAAGATGGCGGCGAGCGGACTCCGCCAGGCTGCCGTTGCGGCCAGCACCTCGGTGAAGCCCATTTTCAGTCGGGACATG
+AACGAGGCCAAGCGGAGGGTGCGCGAACTCTACCGCGCCTGGTATCGGGAGGTGCCGAACACTGTGCATTTATTCCAGCT
+AGACATCTCTGTGAAACAGGGACGGGATAAAGTCCGGGAAATGTTTAAGAAGAATGCGCACATCACAGACCCCAGGGTGG
+TTGATCTTCTGGTAATTAAGGGAAAGATGGAACTGGAAGAAACAATTAAAGTGTGGAAGCAGCGGACACATGTTATGCGG
+TTTTTCCATGAAACAGAAGCACCGAGGCCAAAGGATTTCCTCTCCAAGTTCTATGTTGGGCACGACCCGTGAAATCACTC
+AGTGGAAAAGGTGCATGTTGATATTTAAATATTTTAAAGCAAAAATAAACTCAATATATGTCGGTCAAAAAAAAAAAAAA
+>ref|ref|NM_175787.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit B6 (NDUFB6), mRNA
X63212.1 B.taurus CI-B17 mRNA for ubiquinone oxidoreductase complex
+AGGTCGCTTTGCAGAGCGGGAGCGCGCGTAAGTGACAAGACCCTGGTTCGGGTGCGCGCCGTCTCTTGCTGCCTTGGTAT
+CAGCAGCGACATGTCGGGGTATACGCCCGAGGAGAAACTGCGGCTGCAGCAGCTTCGAGAGCTAAGAAGGCGATGGCTGA
+AAGATCAGGAGCTGAGCCCCCGGGAACCCGTGCTGCCTCCGCAGAGGGTGTCGCCTGTGGAGCGATTCTGGAATAAATTT
+TTGCAAGACGGAGCTCTCTGGAAGAACGTGATCTATAAGACATATCGACACAGTATCTTTGCTTTTACTCATGTACTTAT
+TCCTGTCTGGATTATTCATTATTATCTCAAGTATCACGTGACTACAAAACCATATACCATCGTTGAAAAGAAGCCCAGAA
+TATTTCCAGGTGATACAATTCTGGAGACTGGAGAAGTAATCCCACCCATGAAAGAATTTCCCGATCAACATCATTGAAGA
+TTACTTTAAAATTTCAAAGGTGTATGGGCCTAAGTTTGTTGCTACATTACCAACTTATTTAAAGTATTTTCTGGAAAAGT
+AATAAAGTTTACTCACATAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_176660.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit B7 (NDUFB7), mRNA
X63210.1 B.taurus CI-B18 mRNA for ubiquinone oxidoreductase complex
+GAACCTGCGGTGACAGCAGCCATGGGGGCTCACCTGGCCCGGAGATACCTGGGCGATGCATCGGTGGAGCCCGATCCCCT
+GCGGATGCCCACTTTCCCGCCCGACTACGGCTTCCCCGAGCGCAAGGAACGCGAGATGGTGGCCACTCAGCAGGAGATGA
+ACGACGCCCAGCTGGTGCTCCAGCAACGCGACTACTGCGCCCACTACCTCATCCGGTTTCTCAAGTGCAAGCGCGACAGC
+TTCCCCAACTTCCTGGCCTGCAAGCACGAGCGGCACGACTGGGACTACTGCGAGCACCTCGACTATGTGAAGCGCATGAA
+GGAGTTTGAGCGCGAGCGGCGGCTGCTCCAGCGGAAGAAGAGACGGGAGCAGAGGGAGGCGGACATGGCCAAAGGCCTGG
+GGCCCGGCGAGGTGGCCCCCGAGGTGGCCCTGTAGCGAACCTGCCCACCACTCTGTGGACCAGTCAAGAAATAAAAGCCT
+CCAGGCCCCTCGGCCCAAAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_175815.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit A2 (NDUFA2), mRNA
X63219.1 B.taurus CI-B8 mRNA for ubiquinone oxidoreductase complex
+AGGTCTAGGGCGGATGATTGAGTACTAGCCGAGATGGCGGCGGCTGCAGCGATTCGTGGGGTCCGAGGCAAATTGGGTCT
+TCGTGAAATTCGTATCCATTTGTGCCAGCGCTCGCCCGGCAGCCAGGGCGTCAGGGACTTCATTGAGAAACGCTATGTGG
+AGCTGAAGAAAGCGAATCCCGACCTGCCCATCCTAATCCGCGAGTGCTCGGATGTGCAGCCCAAGCTCTGGGCCCGCTAC
+GCATTTGGCCAAGAGAAGAATGTCTCTCTGAACAATTTCAGTGCTGATCAGGTAACTAGAGCCCTGGAGAACGTGCTAAG
+TAGCAAAGCCTGAAGTCTCCACTGAGGATTAAAAACAACAGCCCCAGAGTCTGGGCTCTGCTGGACTGAGAACAATGTGG
+AGAAATGTATTTTGTTCTGTATAAAGATTGTGCTGAAAATGCTGTCTAAAAATGATCTGATTCGCATCCCACCAACTACC
+CATTATTGTGCAACCATCTGAGGGAAAGCAGTTGAATATAAAAATAAAACTTATTTTATTCTGCCCATCAAAAAAAAAAA
+AAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_176659.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit A3 (NDUFA3), mRNA
X63217.1 B.taurus CI-B9 mRNA for ubiquinone oxidoreductase complex
+GCCGAGACCAAGATGGCTGAGAGAGTCGCAGCCTTCCTCAAGAATGTCTGGGCCAAGGAACCGGTGCTAGTGGCATCCTT
+CGCCATTGCGGGCCTCGCTGTAATCCTGCCCACACTCAGCCCCTACACCAAGTACTCGCTCATGATCAACCGGGCCACAC
+CCTACAACTACCCAGTGCCCCTCCGAGACGACGGGAACATGCCCGACGTGCCCAGCCACCCCCAGGACCCCCAGGGCCCA
+AGCCTGGAGTGGCTGAAGAGACTGTGAACGCCTCTGTTAACAGGGAGCAGCCCCCGCCCCAATGGCCCCAATAAATGCGT
+GAAAACCAAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_174564.2|| Bos taurus NADH:ubiquinone oxidoreductase subunit C1 (NDUFC1), mRNA
X63214.1 B.taurus CI-KFYI mRNA for ubiquinone oxidoreductase complex
+CCCAGGAAGCCAGGCAAGATGGCGCCGTCCGCGTTGTTGCGGCCATTCTGGAAGCTGCTGGCCCCGGCTAGGTTCCCGAG
+TGTCTCTTCATCTCGGTCAAAGTTCTACATTCAGGAACCGCCACATGGCAGTCCCAACTGGCTGAAAGTTGGCTTGACCT
+TGGGCACCTCCGTTTTTTTGTGGATCTATCTCATCAAACAACATAACGAAGATGTTTTAGAGTATAAAAGAAGAAATGGG
+TTGGAATAAACTTTTGAAATACTAAAACAGTGTGTTCCGTAAAGTGATTATAGCAGTTCCTCTGGATTCACGAATCTGTT
+GAGTTGTAAACGTGAGAGAAAGAATTACGTGTGAATATATGTCAAGTCAGCATTTGTGTTTTACATGATTAAATTAAAAA
+TACTTCTGTATTCTTCAAAAAAAAAAA
+>ref|ref|X63223.1|| B.taurus CI-MNLL mRNA for ubiquinone oxidoreductase complex
+CGTGTTGGCTCCGAGGCCGCAGCATTCATGATGAACTTACTTCAGGTTGTGCGTGACCACTGGGTACATGTACTTGTCCC
+TATGGGATTTGTCTTTGGATATTATCTGGACAGAAAGAATGATGAAAAGCTAACTGCCTTCCGGAACAAGAGTCTGTTAT
+ATAAAAGGGAATTGAAACCTAATGAAGAAGTCACCTGGAAGTAATGGCTACAGCTGAATTACAGAATGTTCACTTTTTTA
+AAATTATAATAGAAATAAAAACACTCATTATTTAATTTGAGAAAAAAAAAAAAA
+>ref|ref|X63224.1|| B.taurus CI-PDSW mRNA for ubiquinone oxidoreductase complex
+GCAGCCATGCCGGACAGCTGGGACAAGGACGTGTACCCCGAGCCCCCGCGCCGCACGCCGGCGCCCTCGCCGCAGACCTC
+GCTGCCCAACCCTATCACCTACCTTACGAAAGCCTTTGACCTCCTCGTGGACCGGCCGGTGACCCTCGTGAGAGAGTTTA
+TCGAGCGGCAGCATGCCAAGAACAAGTATTACTACTACCACCGTGAGTTCCGCCGCGTGCCAGACATCACAGAGTGCCAG
+GAGAAGGACGTCTTGTGCATGTTTGAAGCAGAAATGCAGTGGAGAAGAGATTACAAAGTTGATCAAGAAATCGTCAACAT
+TATCCAGGAAAGGCTCAAGGCCTGTCAGCAGAGGGAAGGTGAGAGCCACAGGCAGAACTGTGCCAAGGAGCTGGAGCAGT
+TCACCCAGGTGGTCAAGGCCTACCAGGACCGCTATCACGACCTGGGAGCCCATTATTCTGCCAGGAAGTGCCTGGCAAAG
+CAGAAGCAGAGGATGCTGGCAGAGAGAAAAGCCGCCAAAGAGGCTGCTGCTGCCTGAGGCAGCAGTGTCAGCTTTGTCAC
+TGTTGCTAAAATAAAGAGTAATGGAGCCTGAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|X63208.1|| B.taurus CI-SGDH mRNA for ubiquinone oxidoreductase complex
+ACCCGTAGTAGCCATGGCGGCCATGAGTCTTTTGCATCGGGCTTCGGTTTCTGCAGTGGCCGCTCTGTCCGGCCGCCGTC
+TTGGCACCCGACTTGGATTCGGAGGCTTCCTCACCCGTGACTTTCCGAAGACTGTCGCTCCTGTGCGACACAGTGGAGAC
+CATGGGAAAAGACTGTTTATTATCAAGCCTTCCGGATTCTATGACAAACGTTTTTTGAAATTACTGAGATTCTACATTTT
+ATTGACTGGGATTCCAGTAGCAATTGGCATAACTTTGATAAATGTATTCATTGGTGAAGCTGAGTTAGCAGAAATTCCAG
+AAGGCTACGTCCCAGAACACTGGGAATATTTCAAGCATCCTATATCAAGATGGATTGCCCGAACTTTCTTTGATGGTCCT
+GAAAAGAATTATGAAAGAACAATGGCTATCCTTCAAATTGAAGCTGAAAAGGCTGAATTACGATTAAAGGAGCTGGAAGT
+ACGAAGATTAATGAGAGCAAGAGGTGATGGCCCCTGGTTTCACTATCCAACCATCGATAAGGAACTTATTGATCATTCTC
+CAAAAGCAACCCCTGACAACTAATCTTTTGTTTCTCTAAGTACAAAGTATATTGTCTTTAGGTGAAAATAAATTACTAAA
+TATATTCTGTAAAAAAAAAAAAAA
+>ref|ref|X02420.1|| Bovine mRNA 3' fragment for type II collagen pro-alpha 1 chain
+ACCCTGGATGCCATGAAGGTTTTCTGCAACATGGAGACTGGCGAGACCTGCGTCTACCCCAACCCGGCCAGCGTCCCCAA
+GAAGAACTGGTGGAGCAGCAAGAGCAAGGACAAGAAACACATCTGGTTTGGAGAAACCATCAACGGTGGCTTCCACTTCA
+GCTATGGAGATGACAACCTGGCTCCCAACACCGCCGACGTCCAGATGACCTTCCTGCGCCTGCTGTCCACCGAGGGCTCT
+CAGAACATCACCTACCACTGCAAGAACAGCATTGCCTACCTGGACGAAGCTGCTGGCAACCTCAAGAAGGCTCTGCTCAT
+CCAGGGCTCCAACGACGTGGAGATCCGGGCTGAGGGCAACAGCAGGTTCACATATACCGTTCTGAAGGATGGCTGCACGA
+AACACACCGGTAAGTGGGGCAAGACTATGATCGAGTACCGGTCACAGAAGACCTCCCGTCTGCCCATCATTGACATTGCA
+CCCATGGACATAGGAGGGCCCGAGCAGGAATTCGGTGTGGACATAGGGCCTGTCTGCTTCTTGTAAAAACCCGAACCCAG
+AACCAACACAATCCATTGCAAACCCAAAGGACCCAAGAACTTTCCAATCCCAGTCACTCTAGGACTCTGCACTGAATGGC
+TGACCTGACCTGACGCCCATTCATCCCACCCTCTCACAGTTCGGACTTTGCTCCCCTCTCTAAGAGACCTGAACTGGGCA
+GACTGCAAAATCAAATCTCGGTGTTCTATTTATTTATTGTCTTCCTGTAGGACCTTTGGGTCAAGGCAGAGACAGGAAAC
+TAACTGGAGTGAGTCAAACGCCCCCTGAGTAACTACCCCCCGGCCCAAGCAAGGGGCCCCTGCAGGTGCCGGGCGCAGGG
+ACTGCGCGCGTCCTACACAACGGCGCTATTCTGTGTCAAACACCTCTGTATTTTTTAAAACGTCAATTGATATTAAAAAC
+AAAAAAATTATTGGAAAGT
+>ref|ref|X15112.1|| Bovine mRNA for cytochrome c oxidase subunit VIb (AED)
+TCAGCACTATGGCAGAAGACATCCAGGCCAAAATCAAGAACTACCAGACTGCTCCTTTTGACAGCCGCTTCCCCAACCAG
+AACCAGACCAGGAACTGCTGGCAGAACTACCTGGACTTCCACCGCTGTGAGAAGGCAATGACCGCTAAAGGAGGTGATGT
+CTCCGTGTGTGAATGGTACCGGCGTGTGTACAAGTCCCTCTGCCCCATATCCTGGGTCTCAACTTGGGACGATCGCCGGG
+CAGAAGGCACGTTTCCTGGGAAGATCTGAACTGGCTCCATCCCACCTCTTCTGTCCTCCGTCCTTCTCCCCAGGGTGGTT
+AAGGGGGACCGGGGTACATGGTTGATCTCCCACCCTAGG
+>ref|ref|X56857.1|| Bovine COX6A mRNA for cytochrome c oxidase subunit VIa
+CCCAGCTTCTGCCATACATGGCTTTGCCTCTGAAGTCCTTGAGTCGGGGCTTGGCCAGTGCGGCCAAGGGAGACCATGGT
+GGGACAGGAGCCCGCACCTGGCGCTTCCTGACTTTCGGGCTGGCGCTCCCGAGCGTGGCCCTCTGCACCCTCAACTCCTG
+GCTCCACTCGGGCCACCGCGAGCGCCCGGCATTCATCCCTTACCATCACCTCCGGATCCGCACCAAGCCCTTCTCATGGG
+GAGACGGCAACCACACTTTTTTCCACAATCCCCGGGTCAACCCTCTGCCCACGGGCTACGAAAAGCCTTGAGGCTTGGCT
+GATGCCCCCCAGACACAATAAAAT
+>ref|ref|NM_176674.2|| Bos taurus cytochrome c oxidase subunit 7A1 (COX7A1), mRNA
X56739.1 B.taurus COX7a mRNA for cytochrome oxidase c subunit VIIa (heart isoform)
+GAATTCGGGCAGAGAGAGGTAGTGGGGGAGAGCCCGGCCGAAGACGAGGACACAGGATGAGGGCCCTGCGGGTCTCCCAA
+GCGCTGGTCCGCTCCTTTAGCTCAACCGCCCGGAACCGCTTCGAGAACCGAGTAGCTGAGAAACAGAAACTCTTCCAGGA
+GGACAATGGCCTCCCGGTGCACTTGAAGGGCGGTGCAACAGACAACATCCTGTATCGAGTGACGATGACTCTGTGTCTGG
+GGGGCACTCTCTACAGCCTGTACTGCCTTGGCTGGGCCTCCTTCCCTCACAAGAAGTGAAACCAAGAAGTCTGCAGGACC
+CGAACAGGCATCAATAAATGTGCTGGTTTCCTGGGGAACACAGCCCAGCTCCATGCTCCCTAAAAAAAAAAAAAAAAAAA
+AAAAAAAAAAAGGAATTC
+>ref|ref|X15235.1|| B.taurus mRNA for cytochrome c oxidase subunit VIIa (EC 1.9.3.1)
+GAATTCCGATAAGAGGTTGGTGGGTAGTAACTGAGCCAAGATGCTACGGAATCTTCTGGCTCTCCGTCAGATTGCTAAGA
+GGACCATAAGTACTTCTTCACGCAGGCAGTTTGAAAATAAGGTTCCAGAGAAACAAAAGCTGTTTCAGGAGGATAATGGA
+ATTCCAGTGCATCTGAAGGGTGGGATAGCTGATGCCCGCCTGTATAGAGCCACCCTGATTCTTACAGTTGGTGGAACGGC
+ATATGCCATGTATGAACTGGCTGTGGCTTCATTTCCCAAGAAGCAGGATTGACTTGAGTTTATCCTCCCAGCAATCAGTT
+GGGTCAATTCCATTCAGCTCTCTGTGGACCAGTAATCTGATACGTAACTGAGTTCTTTGGGGATCAATATTTATTGACTT
+GTATTAGCTGCCCGGAATTC
+>ref|ref|X15725.1|| Bovine COX7cl mRNA for cytochrome c oxidase subunit VIIc (EC 1.9.3.1)
+GAATTCCCGCCATTTCTTCCGCCTCCGGTCTCTGGATCTTTCGTAGAGCGTCCAACAGCGCTATGTTGGGACAGAGCATC
+CGGAGGTTCACAACCTCAGTGGTTCGTCGGAGCCACTATGAGGAGGGTCCAGGGAAGAATATACCATTTTCAGTGGAAAA
+CAAGTGGAGATTACTAGCTATGATGACTTTGTTCTTTGGGTCTGGATTTGCTGCACCTTTCTTTATAGTAAGACACCAAC
+TGCTTAAAAAGTAATCCATGAGACAGATAGGAAGAGGAGCATATTAAGAGGTGCAGTCTCTTAAAAGGATCAATCCCTTG
+AATTC
+>ref|ref|X58823.1|| Bovine COX7cP1 retroposed pseudogene for cytochrome c oxidase subunit VIIc
+GATCTTTTGTAGAGTGTCCAACAGCGCTATGCTGGGACAGAGCATCCGGAGGTTCACAACCTCAGTGGTTCGTCGGAGCC
+ACTATGAGGAGGGTCCAGGGAAGAATATACCATTTTCAGTAGAAAACAAGTGGAGATTACTAGCTATGATGACTTTGTTC
+TTTGGGTCTGGATTTGCTGCACCTTTCTTTATAGTAAGACACCAACTGCTTAAAAAGTAATCCATAAGACAGATAGAAAG
+AGGAGCATATTAAGAGGTGCAGTCTCTTAAAAGGATCAATCCCTTGAACTCAGCATCCTAGATATGTTTGTAAATAAACT
+TATAGCGTAAATCCTTAATGCCTCTTCTCTGAAATATGGAACATGATAATTGAACATGTGCTTACATTTTGTTTGGGTAA
+TATTGCATTATTAGTTTCTTAATTAAATATGTATTTGATTTAGCTTGTTTAAAAAAAAAAAAGCTGAGACACACAATGGG
+CATTCTTCATGTTTAGAATCCTACACACTCATTACAACAGAAACTACAAGTATACCCCCATCCTCCACTGTTCAGGACCA
+AGCTGTGGCCAGGGCCTGCCAGATC
+>ref|ref|X07436.1|| Bos taurus mRNA for cellular retinoic-acid-binding protein (CRABP gene)
+GGGGCTTGGAGTGTGCCCGCTGTGCCGCAGCTGTCCGTGCCTGCCGCCGCCTTCCCGCCGCCGCCACCGCTGCCACCATG
+CCCAACTTCGCTGGCACCTGGAAGATGCGCAGCAGCGAGAATTTCGACGAGCTGCTCAAGGCGCTGGGTGTGAACGCCAT
+GCTGAGGAAAGTGGCCGTGGCGGCTGCGTCCAAGCCGCACGTGGAGATCCGCCAGGACGGGGACCAGTTCTACATCAAGA
+CGTCCACCACGGTGCGCACGACCGAGATCAACTTCAAGGTCGGAGAAGGCTTTGAGGAGGAGACCGTGGACGGACGCAAG
+TGCAGGAGCTTACCCACTTGGGAGAATGAGAACAAGATCCACTGCACACAAACTCTTCTGGAGGGGGACGGCCCCAAAAC
+CTACTGGACCCGCGAGCTGGCCAACGACGAACTCATCCTGACGTTCGGCGCCGATGACGTGGTCTGCACGAGGATTTATG
+TTCGGGAATGAAGGCGGCCAGCTTGCTCCAGCTTTGGGGGTGGGATGCATGTTCCCCCAAGGAATGTCATAGCTCTGAGC
+CGCCAGTGGACCTCCTCTTCCCCGGTATTAACGTTAGGTGATCCCGATGTCCCCCCAGTAATGCTGTAGTGTTTTCCCCA
+AGGCTTTGTGCCTCTGTCTCCCTGGCGCTCCATAGTCTGGCATCTGTATGGTTTCATCAGTCATTAAACTGGGTGTACAC
+ACCTC
+>ref|ref|X01036.1|| Calf lens mRNA for gamma-crystallin
+CACCACCTCCTGCTGCCTTTCGCCAACATGGGGAAGATCACTTTTTACGAGGACCGGGGCTTCCAGGGCCACTGCTACGA
+GTGCAGCAGCGACTGCCCCAACCTGCAACCCTATTTCAGCCGCTGTAACTCCATCCGCGTGGACAGCGGCTGCTGGATGC
+TGTATGAGCGCCCCAACTACCAGGGCCACCAGTACTTCCTGCGGCGCGGCGACTACCCCGATTACCAGCAGTGGATGGGC
+TTCAACGACTCCATCCGCTCCTGCCGCCTCATCCCGCAACACACCGGCACTTTCAGAATGAGAATCTACGAGAGAGATGA
+CTTCAGAGGACAGATGTCAGAGATCACAGATGATTGTCCCTCACTTCAAGACCGCTTCCACCTCAGTGAGGTTCACTCCC
+TCAACGTGCTGGAGGGTTCCTGGGTCCTCTATGAGATGCCAAGCTACAGGGGAAGGCAGTACCTGCTGAGGCCAGGGGAG
+TACAGGAGATATCTTGACTGGGGGGCAATGAATGCCAAAGTTGGTTCTTTAAGACGGGTGATGGATTTTTATTGAAGTTT
+TAAATTCCCCACTTTTCTCCTTTAGAATCTAATAAAAGATTTAGCTTGTGTTTCTGGCA
+>ref|ref|NM_174837.2|| Bos taurus cytochrome b561 (CYB561), mRNA
X12783.1 Bovine cytochrome b561 mRNA
+TCTCTGTATTTCACCCATGAACCCGACCTGAGAAAACCCAGGGCCTCGTGAAACAAAGCACTGCCGTGGGGCCCTCCTGC
+TCTCCTCAGAATGTGGAGGACCTTGACTTGCACCCTCACTGCAGGTGGAAGTGCAGCCAGTAGCCGCCTCAGCATGGAGG
+GCCCTGCCAGCCCAGCACGTGCCCCCGGGGCGCTGCCCTACTACGTGGCCTTCTCCCAGCTGCTGGGCCTGATCGTGGTG
+GCCATGACTGGCGCCTGGCTTGGTATGTACCGAGGCGGCATTGCCTGGGAGAGTGCCCTGCAGTTCAACGTGCACCCCCT
+CTGCATGATCATAGGCCTGGTCTTCCTGCAGGGAGATGCCCTGCTGGTTTACCGCGTCTTCAGGAATGAGGCCAAACGCA
+CCACCAAAGTCCTGCACGGGCTGCTGCACGTCTTCGCCTTCGTCATCGCCTTGGTGGGCCTGGTGGCGGTGTTCGAGCAC
+CACAGGAAGAAGGGCTACGCCGACCTGTACAGCCTGCACAGCTGGTGCGGCATCCTGGTCTTCGCGCTCTTCTTTGCGCA
+GTGGCTCGTGGGCTTTAGCTTCTTCCTGTTCCCGGGCGCCTCGTTTTCTCTGCGGAGCCGCTACCGCCCGCAGCACGTCT
+TCTTCGGCGCCGCCATCTTCCTGCTCTCGGTGGCCACCGCCCTGCTGGGCCTGAAGGAGGCGCTGCTGTTCGAGCTCGGG
+ACCAAGTACAGCATGTTCGAGCCCGAGGGCGTCCTGGCCAACGTGCTGGGCCTGCTGCTGGCCACCTTTGCCACGGTCAT
+ACTCTACATCCTGACCCGCGCCGACTGGAAGCGGCCCCTCCAGGCGGAAGAGCAAGCGCTCTCCATGGACTTCAAGACGC
+TGACGGAGGGCGACAGCCCCAGCTCCCAGTGACGGGCGCCCCATCCTGGCCCCTCCTGTTCCGGGGGCCCAGGCAGGTGT
+CCGTCCCGCAACCGGCAACCGCCGCTGAGGGTCCGGGCAGGGCTGGGCACAGCGGAGGTAGGGGGGAAGTCCTCTCTGAG
+CGCAGATTTTTGGGATTCAGGCCCCCTCCGCTTCCCGCTCCTCGCTGCTGCTGCTGTCGGTTGTTAGTCCTGAGCACGCG
+TTCCGGCCCCCCCGCCCCTGTTGCCACCCGACTTCCTCCCCAAGATGGAGCAGCTTTGGGAAAGGCTCTGGGCCTAAATG
+GGTACGAGAGTTGGGGGCGCTCCCTTCTCGAGGCCGCAGCGAACGTGAGACTTGCTTTGTGTGACCCCGAACTCCTGCCA
+GGAGTCTTGCGGCCCGAAGGACCGGCTCTCTGAAAGGGCCCAGCCTTTGGCAGCGGAGCTAGTGACATTATATGTGAAAT
+ATGCTGGTGTCAGGGCCAGGTTCCCCAGGAGAGGGGAGGGACTCCCTGGGACTCTCTGGACCCAGGCTTTGGCACAGCTG
+CGTTCTGGAGCCTTCCCTTTCTTTAACCCTTTAGCCCCGAGGCGGCTTTGCCTTGGGGGCCGTAGACTTGGGACAGACTT
+GCCGTGAGCCGCTTCAGAGGGCAGCCCAGAGAAGAGGCTGGAGGTGGGCCTGGGTGGGCGCTGGGCCACCTGCAGGGGCT
+TCTGTCCCCACTGGGCCAGGCCTCCGCTCCTGACCCTCAGAGCTCACGGGAGGCTGCTCTGACAAGAGGGCACAGGCCTT
+TTCTCATTAAACAAAAGGCTGCCACTAGAAAAGGATAAGGTGCCCCCTTTCGATTTCCATGAGGAGGGTTCGGGAGGACA
+GTCTCCTCTCCTACCTGCGGCCGGTCTTTGCAGGAAATTGGGACCAAGACGGAATCAGATTAATCCCCCCACAACCCTGT
+GAGTGTGTAACGCTGTTAGCTGAGTGCTGTTTGCTTCGGTCTAGAGATAACGTGATTAGAGCATTGATCTGCGCTTCTTG
+GACTTGGCAAATGCTCTCTCCTTGTTTTCCTCATTTTCCGGGCTTTGAGGAACATGACGCAGTTTCAGACAAGACAGAGT
+CGACTTAAGACATTAATAAAATTTCCAGTTCTGACTACCGTTTTTCAGCAGCTGCCTCTCCCAGCTAAATGCTGCCTTCG
+AGAAAAGGGGCTCATCTCCTCTAATACTCGGATTCCTACAACTCGGCCTTTGCCGTGGGTCCCGCCTCAGGCGATGCTGC
+TCCTCAGGGCAGGTGGCGGAGGTGGGCGCCCTCCCCAGCAAGGCTGCCTGCTCCCCATCCCACCCCGTGGCCGCTCTGAG
+CTCTGCTGCGGCTGGCCACCCCCGCACACCACCGCAAGCCGTTTACACTGTTCTTTGATCGCCTGGTATAGTTGATGTTT
+ACACGTGGGAAACTCCACCTTAGACAAACGACCAGAGTAGGATTGTGTATCTCTCTTGCCAGAAGGGCACAGAGAGAAAC
+AGAACCTTGGATTTGCAAAGAAAAAAAAAAAAAGTCTGAACACTGGCCTGTTTGCCAAATCATATGCTGGATAACTAATA
+AGCCAAAAAGGCACCCCCCTCCCCACCTGCCCCAGCCAAGCTGATCCGTGGTGGCTTGTTTTGCCTGTGGCCAATCTTCG
+ATGAAGTCCAGTGTAGTGCTGGTACAACAGATGATTCAATAAAT
+>ref|ref|X13617.1|| Bovine mRNA for cytochrome b5
+CGGCGAGCCTAAGGCCCTAAAGGCAGCAGGAGAGCTGAGTTAAGAAATGGCCGAGGAGTCCAGCAAAGCCGTTAAGTACT
+ACACCCTGGAAGAGATCCAGAAGCACAACAACAGCAAGAGCACCTGGCTGATCCTGCACTACAAAGTGTACGATTTGACC
+AAATTTTTGGAGGAGCATCCTGGTGGGGAGGAAGTCTTAAGGGAACAAGCTGGAGGTGATGCCACTGAAAACTTTGAGGA
+TGTTGGACACTCTACAGATGCTCGAGAATTGTCCAAAACGTTCATCATTGGGGAGCTGCACCCGGATGACAGATCAAAGA
+TAACCAAGCCTTCGGAAAGTATTATTACTACCATTGATTCAAATCCCAGCTGGTGGACCAACTGGCTGATCCCAGCTATC
+TCAGCGCTGTTTGTAGCCCTGATATATCACCTCTACACTTCGGAGAACTAAACACATTCTCAGAAGCCAATGGAAGAAAA
+GACTGCTTTGGTCCAGGGAGAAAGAAGCCACCACTCTTAACTTCAACGGACAAACCCTTCACCTGAAAATAATCTGAATA
+CACCTATTTTCCTTTCCTCCTACATTAGACACAAAACAAACCATAACTGTTCCATTCTTTGGACTATTGAACTTCTAAAG
+TGTGCCTTCTTATTCACCAACTTTGTTTTGCTGTTCCATCACTACATCATTTGCTTATGGTGGTATGTTTTAAAA
+>ref|ref|X59693.1|| B.taurus mRNA for ubiquinol-cytrochrome-c reductase (subunit II)
+GCACGAGGCCGCTGTCTGCCACCATCTTGCTTTCCTCTAAGGCGGCAGTGACCGAGGTTCAGAACAATCTTGAGCAATGA
+AGCTGTTAACCAGAGCCGGGTCCCTCTCGAGATTTTATTCCCTCAAAGTTGCTCCTAAAGTTAAAGCCACAGAAGCCCCT
+GCAGGAGTGCCTCCACATCCTCAGGACCTTGAGTTTACCAGGTTACCAAATGGTTTAGTGATTGCTTCTCTCGAAAACTA
+TGCTCCTGCATCAAGAATTGGTTTGTTCATTAAAGCAGGCAGCAGATATGAGAACTCCAACAATTTAGGAACTTCTCATT
+TGCTTCGTCTTGCATCCAGTTTGACTACAAAAGGAGCTTCATCTTTCAAGATAACCCGTGGAATTGAAGCAGTTGGTGGT
+AAATTAAGCGTGACGTCAACAAGGGAAAACATGGCCTATACTGTGGAATGCCTGCGGGATGATGTTGATATTCTAATGGA
+GTTCCTGCTCAATGTCACCACAGCACCAGAATTTCGACGCTGGGAGGTAGCTGCCCTTCAGCCTCAGCTAAGGATTGACA
+AAGCTGTGGCTCTTCAGAATCCACAGGCTCACGTCATTGAAAATTTGCATGCTGCCGCTTACAGAAATGCCTTGGCTAAT
+TCCTTATATTGTCCTGATTATAGGATTGGAAAAGTGACACCAGTTGAGTTACATGACTATGTACAAAATCATTTTACAAG
+TGCAAGAATGGCTTTGATTGGACTTGGTGTGAGTCATCCTGTCCTAAAGCAAGTTGCTGAACAGTTTCTTAACATAAGGG
+GTGGCCTTGGTTTATCTGGTGCAAAAGCCAAGTACCATGGAGGTGAAATTCGAGAACAGAATGGAGACAGTCTCGTCCAT
+GCCGCTCTTGTAGCAGAGAGTGCAGCCATAGGAAGTGCAGAAGCAAACGCGTTCAGTGTTCTCCAGCACGTCCTTGGTGC
+TGGACCACACGTTAAGAGGGGCAGCAATGCCACCAGCTCTCTGTACCAGGCTGTTGCCAAGGGAGTTCACCAACCATTTG
+ATGTTTCTGCTTTTAATGCCAGTTACTCAGACTCTGGACTCTTTGGGTTCTACACTATCTCACAAGCTGCATCTGCTGGA
+GACGTTATCAAGGCTGCTTATAACCAAGTAAAAACAATTGCTCAAGGAAACCTTTCTAATCCAGATGTCCAAGCTGCCAA
+GAACAAGCTGAAAGCTGGGTACCTGATGTCAGTGGAGTCTTCTGAGGGTTTCCTGGATGAAGTTGGGTCCCAGGCTCTAG
+CTGCTGGTTCATACACGCCGCCATCCACAGTCCTTCAGCAGATTGATGCAGTAGCTGACGCTGATGTCATAAATGCTGCA
+AAGAAGTTTGTTTCTGGCCGGAAGTCAATGGCAGCAAGTGGAAATTTGGGGCATACACCTTTCATTGATGAGTTGTAATA
+CTGAATCCCATATTGCAGGAAAGAACTGAACGTTTTGTGAACCCAGAGCAGCAAATAACATGAAAGTGAAAAGTCCTAAT
+GTAACATTTATCTTTTCTTCCAGTGAGAGGAAATATAAAGCATAAATATAGGTAATTGTTCCCAACTGACCTAAAGTCAA
+TAAAGCATTCTATTTAAATGTT
+>ref|ref|X14478.1|| B.taurus cytokeratin IV gene upstream region
+AAGCTTGTTCTTATGCTGTAAAAACTCATCTCCTTTGTCCCTCTTGCCTTTCAAAGGAGTGTCATGTCCCCAGAGTAGCC
+CCCAATTCCCAGGCCAGGCCACCAGGAAGGCAGTCAGGAGATCCAGAAGGACATGTTCAAACATGGCCCAAAACCACCGC
+AAGCCACTTTCTTGCTCAGACCACAGGCAAATGCCTATTAACCCTCAGAGACGTTCAACCTGAATGGGAAGGGTGGTGTG
+AGTGGAGAAGAAAACTTGTGTGGGAAGGGGGCAAGAGAAGAGTGTCTGAGTAAGCAGAAGGAGGGGACAATTATCACAGA
+TCAGCTCCTTGTCTCCTTTGTTTGAGAGCATGACTAACCCATGACTTCAGTGAATTTACATCCAGTGGTATTGTGTTGGG
+ATCAAGTCAAGGCTAGAAGCCAGAAGAATTTCTCCATGACTAAAGGAAACCAAAGAAGCAATATTCATACTTCATACCTT
+TCTAGAGGCAGGGGGTGATCTCACTATTTGTAAAGCCCAGCCCTTTCTAATCTGCAGGCTCACCTTCCAGGACTGAGCCC
+GGCCCATTTTTTCCATATATAAGCTGCTGCCGGGCCGCCCTCTATAGATCTGTTCTTTAGCTCTGCTTTCCACCTCTCAC
+ACCCTTCTCAACCTATTCTTCTTCAGGAACCATGTCTTACAAATCCACTGTGAAGACCCA
+>ref|ref|NM_174043.2|| Bos taurus dopamine receptor D2 (DRD2), mRNA
X51657.1 B.taurus dopamine D2 receptor mRNA
+CCCATGGATCCGCTGAACCTGTCCTGGTATGATGATGATCCAGAGAGCCGGAACTGGAGCCGGCCCTTCAATGGGTCCGA
+AGGGAAGGCTGACAGGCCCCCCTACAACTACTATGCCATGCTGCTCACCCTGCTCATCTTCGTCATCGTCTTTGGCAACG
+TGCTGGTGTGCATGGCTGTGTCCCGCGAGAAGGCGCTGCAGACCACCACCAACTACCTGATCGTCAGCCTCGCTGTGGCT
+GACCTCCTGGTGGCCACGCTGGTCATGCCCTGGGTGGTCTACCTGGAGGTGGTGGGCGAGTGGAAATTCAGCAGGATTCA
+CTGTGACATCTTTGTCACCCTGGATGTCATGATGTGCACAGCCAGCATCCTGAACCTGTGTGCCATCAGCATTGACAGGT
+ACACAGCCGTGGCCATGCCCATGCTCTACAACACACGTTACAGCTCCAAGCGCCGGGTCACGGTCATGATCGCCATCGTC
+TGGGTCCTGTCCTTCACCATCTCCTGCCCGATGCTCTTCGGACTCAACAACACAGACCAGAACGAGTGCATCATCGCCAA
+CCCCGCCTTCGTGGTCTACTCCTCCATCGTCTCCTTCTACGTGCCCTTCATCGTCACCCTGCTGGTCTACATCAAGATCT
+ACATCGTCCTCCGCAGGCGGCGCAAGCGCGTCAACACCAAGCGCAGCAGCCGGGCTTTCCGGGCCAACCTGAAGGCCCCG
+CTCAAGGGCAACTGTACTCACCCCGAGGACATGAAACTCTGCACCGTTATCATGAAGTCTAATGGGAGTTTCCCAGTGAA
+CAGGCGGAGAGTGGAGGCCGCCCGCCGAGCCCAGGAGCTAGAGATGGAGATGCTCTCCAGCACCAGCCCGCCTGAGAGGA
+CCCGATACAGCCCCATCCCTCCCAGCCACCACCAGCTGACCCTCCCCGACCCATCCCACCACGGCCTGCATAGCACACCC
+GACAGTCCCGCCAAACCAGAGAAGAACGGGCATGCCAAGACCGTCAATCCCAAGATTGCCAAGATCTTTGAGATCCAGTC
+CATGCCCAATGGCAAAACCCGGACCTCTCTCAAGACCATGAGCCGCAGAAAGCTCTCCCAGCAGAAGGAGAAGAAGGCCA
+CCCAGATGCTCGCCATTGTTCTCGGCGTGTTCATCATCTGCTGGCTGCCCTTCTTCATCACCCACATCCTGAACATACAC
+TGTGACTGCAACATCCCGCCCGTGCTGTACAGCGCCTTCACGTGGCTGGGCTACGTCAACAGCGCCGTGAACCCCATCAT
+CTACACCACCTTCAACATCGAGTTCCGCAAGGCCTTCCTGAAGATCCTACACTGCTGACCCTGCTGCCTACCTGCACAGC
+AGCCCGCCTCTCCCTCCCCTGCCCCGCGGCCCCGCCTGGGCCCGGGAGCCGCGGGCAAGGGGGGCGCAGGGCAGCCTGGG
+CCATGTCCATCAGCCCAGAGGGCCCTGCAGTGTTAGCTTGGCTCCTGCCCGCACCATCCGCGCACCTTGGAGCAGCGGGG
+GCAGCGCTGGAGAGCAGGCGCCACGGGCACCCCCGGGCTCAGGGGCAGCTCAAGGGGGCCCCCGCCACTCCCAGACCCTC
+TCTCTTTGGCACCAAAGACGCAGCTGCCTTCTCCGACCTTTCTCTGGGGCTTTGGGGCTCTGCGGCTGCGGGGCCAGTAT
+CGAGGCTCGGAGGCTGGTTTTCACAGGCATGCGAGCTGGTGGTGGGGAGGAGTGGACAGTCACAGCCACCCAGGGCCCAC
+ACCTGAGAAGCCAGAGCTCTGGCCACGACCCCAGGCAGTGTTCAAGCCTGGGAGACCCGGGTACACCCCAGGTCTGGATG
+GACCCCAGAGAAGCAGAAGCCCAAACTCCTCACCCCTTCTCCCACCTGGCCTGGCAGGAGCTGCTCAGTTATCACAGCAG
+TGGTCCTGATCCACCCGCTCACCAGGAGGTTTCCATGCCCCTGAGATGGAGGATCCTGGGTCTCCAAGGACCTGGGGCAG
+GGGTGGAGGTGGGGGTCCTGTGTGACAGACTCCCCCATCCCAAGCCCACTTTGCTGACGACATGGTACAGCCCTTTTCTT
+AGCAAATGCTGGGCTAGTGGGGGCTCTGGCAGAGAAGGTGGGCTCGTCACATGTCTGGGGCCGGGGTTGGAGGTGTCTGG
+GTCCTTGCAGGGGACCTGCCACCCTCTGCCGCAAACCACTGTCCTTTTCTCTTCCTCTCGCCTTTTCGCAGTCCTGTCCC
+CTTTCTCTGTTGCCTCTGCCTTAGAGGAGCCCACGGCTGAGCAGCTGCTGAGGGGAGAGGGGAAGCCTCTCCTCAGGCCC
+CACACTCTGTAACATCACTACACATGCTCCACACTAATAAAACTTTGACAAGAGAAAAA
+>ref|ref|Z18244.1|| Bos taurus displacement-loop region
+CGGCTAAGAGGGCCACCAGTTACTATCTCTGAGTGACCTTGAGCAACTGACAACCTCTTCACTGGGTTGTTGAAGGACTA
+AATGTAATGGTTACTATTTAAAATTAACCAAGGGCCCTTCACATCTATTACCTCGCGGGATGCTTTAACTAACCCCATCA
+TGTTGGAAGTCAGGGAACTCCTGTCTTCATTTTACAAAATGACGGGAAAACGTGTCTTGTTCTTGGTACCTGGGTGTGCC
+GGCGGTCGGGGCTGCGGCGGTCTCCGAGCACCTCGGGCAGCGCAGACACAAGTAGCAGCCCCAGCGTACCCGCAAGCGAC
+ACCACGCTCGCCATAGCAGGCCAACACGGGAGACCGCGGGAGACGCCGGCGTTGTCGGACGCACCGGTGCACGCGCACGC
+AGGCGCGTCCCCCAGCCCCAGCTATTCCCACCCCGGGCCTCCCAGGGAGGTCACGCCCACCTAGCGTGTGGGCGGGGCCA
+GGCCTTATTTGCATAGGACTAGGGCTTAGCTTAGTTCATTTGTGAAACTAGTTCATTTCTTATCTCTATATAGGTGTTCT
+GTTAGCCAGAATGCCTCCAGAAGACTACATTCTTAGAACGTTATACAGGGAAGTGGTTTTTAATATGCCACACCACCAAT
+CTCCTCACCCTAACTTAAAATAAATGTCCTCCTCGAGCTATAAAGGGCTTGAATGCCCCGGTAAAAGGGAAGTTCGTGCT
+GAAGGCCTGTTTCCTAGGCTACATACGGAGGACTAGTTCCTTGTTTGCGCCTAGGGGAAAGTCCCCGGACCGTGGGCAGA
+GAGTGCCACGTGCCCGTGCACGTAGACTTCCCCTGCTTCTCACGACTAAACCCGCCAAGAAGCGATCCTACCCTGGGGGT
+GGGGAAGCCGAGCGGCGTGTTGCGGGGTGTCATCCGTCAGCTTCTAATAGTTACGCAGGCAGTGCCTCCATGCGCACCAA
+CCTCACGGGGCTCATTCTCAGCACGTCTCATTTTAACTTGAGCGACTATATAGCCAGACTGTCTATTAGCTGTCTCCGGG
+ACGTTTCGAAGTCACTCTGTTTCTGCACAGCTAACATCCATATACAACTTTCAGATCTCACTTTCCTCCTGTATGTGCGT
+GTTCCCTTCATAAGTGGAAGTGAAAGTCGTTCAGTCGTGT
+>ref|ref|V00108.1|| Bovine messenger RNA for preproenkephalin
+GCTTGCACTCTGGAATGTGAGGGGAAACTACCTTCTCTCAAGACCTGGGAAACCTGCAAGGAGCTTCTGCAGCTGACCAA
+ACTAGAACTTCCTCCAGATGCCACCAGTGCCCTCAGCAAACAGGAGGAGAGCCACCTGCTTGCTAAGAAGTACGGGGGCT
+TCATGAAGCGGTATGGGGGCTTCATGAAGAAAATGGATGAGCTGTACCCCCTGGAAGTGGAAGAAGAGGCAAATGGAGGT
+GAGGTCCTTGGCAAGAGATATGGGGGCTTCATGAAGAAGGATGCAGAGGAAGATGACGGCCTGGGCAACTCCTCCAACCT
+GCTCAAGGAGCTGCTGGGAGCCGGGGACCAGCGAGAGGGGAGCCTCCACCAGGAGGGCAGTGATGCTGAAGACGTGAGCA
+AGAGATACGGGGGCTTCATGAGAGGCTTAAAGAGAAGCCCCCACCTAGAAGATGAAACCAAAGAGCTGCAGAAGCGATAC
+GGGGGTTTCATGAGAAGAGTGGGTCGTCCAGAGTGGTGGATGGACTACCAGAAAAGGTACGGTGGCTTCCTCAAGCGCTT
+CGCCGAGCCCCTACCCTCCGAGGAAGAAGGCGAAAGTTACTCCAAGGAAGTTCCTGAAATGGAGAAAAGATATGGAGGAT
+TTATGAGATTTTAATCCCCTTTCCCATCAGTGACCTGAAGCCCCAGCAAGCCTTCCTCTGCCCCCAGTGAAAGACTGCTG
+CGCTGGTGTGTTGTATTGTCCCGAGTCGCTTGCATTATATAGTTGACTTGAGAGTCCAGATAATTAACTATACAACCTGA
+AAGCTGTGATCCCAGGTTCTGTGTTCTGAGAATCTTTAAGCTTTTAAATATTGGTCTGTTGCAGCTGTCTTGTTTCCATG
+CTCAGTTTTTTGTTATCACTTTGTCCTTTATTTTTGACATAATGCCAATAAATGCCTACTTGTGTGTAGATATAACT
+>ref|ref|V00109.1|| Bovine messenger RNA for preproenkephalin
+AGGACCGCGAGAGTGAGGCCCGCCCGCTTTCCTGGCTCTCCCCTCGCCGAGAGTCGCCCCGGACCGGGTTTCCACGACCG
+ACCTGCGTGCCCCGAACAGCGGCAACCCCATGGCGCGGTTCCTGGGACTCTGCACTTGGCTGCTGGCGCTCGGCCCCGGG
+CTCCTGGCGACCGTCAGGGCAGAATGCAGCCAGGACTGCGCCACGTGCAGCTACCGCCTGGCGCGCCCGACTGACCTCAA
+CCCGCTGGCTTGCACTCTGGAATGTGAGGGGAAACTACCTTCTCTCAAGACCTGGGAAACCTGCAAGGAGCTTCTGCAGC
+TGACCAAACTAGAACTTCCTCCAGATGCCACCAGTGCCCTCAGCAAACAGGAGGAAAGCCACCTGCTTGCTAAGAAGTAC
+GGGGGCTTCATGAAGCGGTATGGGGGCTTCATGAAGAAAATGGATGAGCTGTACCCCCTGGAAGTGGAAGAAGAGGCAAA
+TGGAGGTGAGGTCCTTGGCAAGAGATATGGGGGCTTCATGAAGAAGGATGCAGAGGAAGATGACGGCCTGGGCAACTCCT
+CCAACCTGCTCAAGGAGCTGCTGGGAGCCGGGGACCAGCGAGAGGGGAGCCTCCACCAGGAGGGCAGTGATGCTGAAGAC
+GTGAGCAAGAGATACGGGGGCTTCATGAGAGGCTTAAAGAGAAGCCCCCACCTAGAAGATGAAACCAAAGAGCTGCAGAA
+GCGATACGGGGGTTTCATGAGAAGAGTGGGTCGTCCAGAGTGGTGGATGGACTACCAGAAAAGGTACGGTGGCTTCCTCA
+AGCGCTTCGCCGAGCCCCTACCCTCCGAGGAAGAAGGCGAAAGTTACTCCAAGGAAGTTCCTGAAATGGAGAAAAGATAT
+GGAGGATTTATGAGATTTTAATCCCCTTTCCCATCAGTGACCTGAAGCCCCAGCAAGCCTTCCTCTGCCCCCAGTGAAAG
+ACTGCTGCGCTGGTGTGTTGTATTGTCCCGTGTCGCTTGCATTATATAGTTGACTTGAGAGTCCAGATAATTAACTATAC
+AACCTGAAAGCTGTGATCCCAGGTTCTGTGTTCTGAGAATCTTTAAGCTTTTAAATATTGGTCTGTTGCAGCTGTCTTGT
+TTCCATGCTCAGTTTTTGTTATCACTTTGTCCTTTATTTTTGACACAATGCCAATAAATGCCTACTTGTGTGTAGATATA
+ATAAACCCATTACCCCAACTGC
+>ref|ref|NM_174313.2|| Bos taurus fatty acid binding protein 3 (FABP3), mRNA
X12710.1 Bovine mRNA for fatty-acid-binding protein (H-FABP)
+TTGTACGCGTTCTCTGTCGTCTTTCCCAACCTAGCCCAGCTTCACCATGGTGGACGCCTTCGTGGGTACCTGGAAGTTAG
+TGGACAGCAAGAATTTCGATGACTACATGAAGTCACTCGGTGTCGGTTTTGCTACCAGGCAGGTGGGCAATATGACCAAG
+CCTACCACAATCATCGAAGTGAATGGGGACACAGTCATCATAAAAACACAAAGCACCTTCAAGAACACAGAGATCAGCTT
+CAAGCTGGGAGTCGAGTTCGATGAGACCACAGCAGATGACAGGAAAGTCAAGTCCATCGTGACGCTGGATGGCGGCAAAC
+TTGTCCACGTGCAGAAGTGGAATGGACAAGAGACATCACTTGTGCGGGAGATGGTTGACGGGAAACTCATTCTGACACTC
+ACCCATGGCACTGCAGTTTGCACTCGTACTTACGAGAAACAGGCATGACCTGCCCTCTCCTTCCACTGACTGCTCTTCTG
+TCAGTGGGCTACTCCTGGACTCGGCACCAGATTGCCTCATTTTTCTCCTCTGGCATTTTGTATAAATCCACCTTGACTGG
+GGAAATTCTCCTGGGGTCAGGTGGCACCAGCCTGGATCCAGTTCCGTTCTCATTGTGTCTGTTTGTTTTTTTAACTGCAT
+CCAAAGGGTGCTCTGAGGTCAATAAAGCAGAGCCAAGGCCACCC
+>ref|ref|X16577.1|| B.taurus mRNA for fetuin
+GTGAAGCCACCATGAAATCCTTCGTTCTGCTCTTTTGCCTGGCTCAGCTCTGGGGCTGCCACTCGATCCCGCTTGACCCG
+GTTGCAGGTTATAAGGAACCGGCCTGTGATGACCCAGACACAGAGCAAGCAGCCTTGGCTGCCGTGGACTACATCAACAA
+GCACCTTCCTCGGGGCTACAAGCACACCTTGAACCAGATTGACAGTGTGAAGGTGTGGCCGAGGCGGCCCACGGGAGAGG
+TGTATGACATTGAAATAGATACCCTGGAAACCACCTGCCACGTACTGGACCCCACGCCCCTGGCGAACTGCAGCGTGAGG
+CAGCAGACGCAGCACGCGGTGGAAGGAGACTGCGATATCCACGTGCTGAAACAAGATGGCCAGTTTTCCGTGCTGTTTAC
+AAAATGTGATTCCAGTCCAGATTCCGCCGAGGACGTGCGCAAGTTGTGCCCAGACTGCCCCCTGCTGGCGCCACTCAACG
+ACAGCCGGGTGGTGCACGCAGTGGAGGTCGCGCTGGCTACCTTCAATGCCGAGAGCAACGGCTCCTACTTACAGCTGGTG
+GAAATTTCTCGGGCTCAATTTGTGCCTCTTCCAGTTTCTGTCTCTGTGGAGTTTGCAGTGGCTGCTACTGACTGTATTGC
+TAAAGAAGTCGTAGATCCAACCAAGTGCAACCTACTGGCAGAAAAGCAATATGGCTTCTGTAAGGGGTCAGTCATTCAGA
+AAGCTCTTGGTGGGGAGGACGTCAGAGTGACTTGCACGTTGTTCCAAACGCAGCCTGTGATTCCGCAGCCCCAGCCCGAC
+GGCGCCGAGGCTGAGGCCCCAAGCGCTGTGCCGGACGCAGCTGGGCCTACGCCTTCTGCAGCTGGCCCGCCCGTGGCCTC
+CGTGGTGGTGGGGCCAAGCGTGGTAGCAGTTCCCCTGCCGCTGCACCGAGCACACTACGACTTGCGCCACACTTTCTCCG
+GGGTGGCCTCAGTGGAGTCATCCTCGGGAGAAGCGTTCCACGTGGGCAAAACACCCATAGTGGGGCAGCCTAGCATTCCT
+GGAGGTCCAGTCCGCCTTTGCCCAGGGAGAATCAGATACTTCAAGATCTAGAAGATGGTCGGAGATGAGATGGTTTGGCA
+CAGAGAATACAGCTATCATTTTGTCCAAGTCATGGGTATGGGTAGGGGCTTTGTCTGCTCTGGAAGCAAGTGCTGCCTAT
+GGTCTAGATTAATGTCAGGTCTTGAGTCCCAACTTCTCATCCTTCCAAGGACAGGAGCAGAGGAGGTGCTAGTGATGTTT
+GATGGAACATAAAGTCAGCAGCTTGATTGTCATGGCTTTGATGTAAGCCACCACCACTGTGTTCTCTACCTTCTCTTGAC
+CTCACAAAAGTAATTGGAACTGTGACTTTGAAAGGTGCTCTTGCCAAGTTTATATCTACTTGTCATTAAAAATGCTCTAA
+TAAAGAAGGTTCTAAGCTG
+>ref|ref|NM_173911.2|| Bos taurus fibrinogen gamma chain (FGG), mRNA
X15556.1 B.taurus mRNA for fibrinogen gamma'-chain (gamma B)
+GGCCCCGGGCCCGCCGACACCATGAGTTGGTCCTCGCACCCTCCGAGTGTAATCTTCTACATTCTTTCATTGCTTTCTTC
+AGCATGCCTGGCATATGTTGCTACCCGAGACAACTGCTGCATCTTAGATGAAAGATTTGGTAGTTATTGCCCAACTACCT
+GTGGAATTGCAGATTTCCTGAATAATTACCAAACCAGTGTAGACAAAGATCTACGAACTTTGGAAGGCATCTTATATCAG
+GTTGAGAACAAAACATCAGAAGCCAGAGAGCTGGTCAAAGCAATCCAAATCAGCTATAACCCTGATCAACCATCAAAGCC
+AAATAACATAGAGAGTGCTACCAAGAATTCCAAGAGTATGATGGAAGAAATTATGAAATATGAAACACTGATATCAACAC
+ATGAATCAACAATTCGATTTTTGCAAGAGGTATATAACTCAAATAGTCAAAAAATCGTTAACCTAAGAGATAAAGTGGTC
+CAGCTTGAAGCAAACTGTCAAGAGCCTTGTCAAGATACAGTGAAAATACATGATGTAACTGGGAGAGATTGCCAAGATGT
+TGCCAATAAGGGGGCCAAAGAGAGTGGACTTTACTTTATCAGACCTCTGAAAGCTAAGCAGTTCTTAGTCTACTGTGAAA
+TTGATGGGTCTGGAAATGGATGGACTGTGTTTCAGAAGAGGCTTGATGGCAGTCTGGATTTCAAGAAAAACTGGATTCAA
+TATAAAGAAGGGTTTGGACATCTGTCTCCTACTGGTACTGGAAACACAGAATTTTGGCTGGGAAATGAGAAGATTCATTT
+GATAAGCACACAGTCATCCATCCCTTATGTATTAAGAATACAGTTGGAGGACTGGAATGGCAGAACCAGCACTGCAGATT
+ATGCTTCATTCAAGGTGACAGGTGAAAATGACAAATACCGCCTGACATATGCTTACTTCATTGGTGGAGATGCTGGAGAT
+GCATTTGATGGCTACGATTTTGGCGATGATTCTAGTGACAAGTTTTTCACATCCCATAATGGCATGCAGTTCAGTACTTG
+GGACAGTGACAATGATAAGTATGATGGCAACTGTGCTGAACAGGTAGGTATCGGTTGGTGGATGAACAAATGTCACGCTG
+GCCACCTCAATGGAGTTTATTATCAAGGTGGCACTTACTCAAAAACATCTACTCCTAATGGTTATGATAATGGCATTATT
+TGGGCCACATGGAAATCCCGGTGGTATTCCATGAAGAAAACCACCATGAAGATAATCCCACTTAACAGACTTGCCATCGG
+AGAAGGACAGCAGCACCAACTGGGGGGAGCCAAACAGGTCGGAGTAGAACATCACGTTGAAATAGAATATGACTAAGTCA
+TTTTGCCCTGAGCTGTTCATTCTGTTAACACACAAACTTTCCTGAAATTTTCTTCTCGTTTTCTCTTACCGTATTTATTA
+ATTTTAAGTCTTTCTTTAAGGATATTTAGCTCTGAATGGCAATTAAAACTCACTTTGGACTGTATTCCCAAGTTACTAAA
+CACAGAGTTATTATAAATTTGTCTATTTGATGAGATAATATTTTAGCTTATTTCCTAAATATATAATAAATTGTGATATT
+TAAAAA
+>ref|ref|V00110.1|| Bovine messenger RNA for the beta-chain of fibrinogen
+TCAGCGGAGGTGGCTATCGGGCTCGTCCCGCCACAGCAACTGTGGGCCAGAAGAAAGTGGAGAGAAAGCCCCCTGACGCT
+GATGGCTGCCTGCACGCGGACCCGGATCTGGGTGTGTTGTGTCCTACAGGATGTAAGTTGCAAGATACTTTGGTAAGACA
+GGAGAGACCAATCCGAAAGAGTATAGAAGATTTACGTAATACTGTGGACTCTGTTTCCCGGACCTCTTCTTCCACCTTTC
+AATATATAACTCTGCTAAAAAACATGTGGAAAGGAAGGCAGAATCAAGTGCAAGATAATGAAAATGTAGTAAACGAGTAC
+TCCTCACATCTGGAAAAGCACCAGTTATATATAGATGAGACTGTGAAGAATAATATCCCAACTAAGCTTCGTGTGCTCCG
+TTCAATTCTGGAGAATTTGAGAAGCAAAATACAAAAATTAGAATCGGATGTCTCAACTCAGATGGAATACTGCCGCACCC
+CGTGTACTGTTACTTGCAATATTCCTGTGGTGTCTGGCAAAGAATGTGAGAAAATCATCAGGAATGAAGGTGAAACATCT
+GAAATGTACCTCATTCAGCCTGAGGATTCTAGCAAACCATATAGAGTATACTGTGATATGAAAACGGAAAAAGGAGGATG
+GACAGTAATTCAGAACCGTCAAGATGGTAGTGTTGACTTTGGCAGGAAATGGGATCCATATAAACAAGGATTTGGAAATA
+TTGCAACCAATGCAGAAGGGAAGAAATACTGTGGTGTACCAGGTGAGTATTGGCTTGGAAATGACAGAATTAGCCAGCTT
+ACCAATATGGGACCCACAAAGCTTTTGATTGAAATGGAGGACTGGAAAGGCGATAAGGTGACGGCACTCTATGAAGGATT
+TACTGTACAGAATGAGGCCAACAAATATCAACTGTCAGTGAGCAAATACAAAGGAACAGCTGGCAATGCCCTCATAGAAG
+GGGCTTCTCAACTGGTGGGAGAAAACCGGACCATGACCATCCACAACAGCATGTTCTTCAGCACGTACGACAGAGACAAC
+GACGGCTGGAAAACTACAGATCCCAGAAAGCAGTGTTCTAAAGAAGATGGTGGTGGATGGTGGTATAACCGATGCCATGC
+AGCCAATCCCAATGGCAGATACTACTGGGGTGGAGCGTACACCTGGGACATGGCAAAGCACGGCACAGACGATGGAGTGG
+TGTGGATGAACTGGCAGGGCTCCTGGTACTCAATGAAGAAGATGTCCATGAAGATCAGGCCTTACTTCCCAGAGCAATAG
+TACCCCCCACACAGAGTATTATTCTTCCACATGTAATAACATTTTTATA
+>ref|ref|NM_173914.2|| Bos taurus galanin and GMAP prepropeptide (GAL), mRNA
X12582.1 Bovine preprogalanin mRNA
+CTTCCGCGTCCCCGAGGCCGCGCCATGCGGTGAGCGTCCCCGGCCCTGCCCCGACCCGACTCGACGGACGCGCGGCCCCG
+CCGACACAGGACCTGCAGACACCCCAGGACCCGCAGACATCCCCCGACCCTCCGGGCCCCGCTCAAGATGCCCAGAGGCT
+CCGTCCTGCTGCTCGCCTCCCTGCTCCTCGCAGCGGCCCTTTCAGCCACCCTGGGCCTCGGGTCACCGGTGAAGGAGAAG
+AGAGGCTGGACCCTGAACAGCGCTGGGTACCTTCTCGGACCACATGCGCTCGACAGCCACAGGTCATTTCAAGACAAGCA
+TGGCCTCGCCGGCAAGCGGGAACTCGAGCCTGAAGACGAAGCCCGGCCAGGAAGCTTTGACAGACCACTGGCGGAGAACA
+ACGTCGTGCGCACGATAATCGAGTTTCTGACTTTCCTGCATCTCAAAGACGCCGGCGCCCTGGAGCGCCTGCCCAGTCTC
+CCCACAGCAGAGTCCGCAGAAGACGCCGAGAGGTCCTGAGCGGGCTCCCGCGCGTCGGTCTCCCTGTGTCACGCGCAGTC
+GTGCTCCCAGGAGGATGCCCATCGCATGGCAACCGCCCCATCCCCGCTGCCCTGATGCTGTGTCCGTACCATTTCAGGTT
+TTTCCCCTTTGGTCATAAGTTTCAGTGGCAAAATT
+>ref|ref|NM_177512.2|| Bos taurus beta-1,4-galactosyltransferase 1 (B4GALT1), mRNA
X14558.1 Bovine GalT mRNA for beta-1,4-galactosyltransferase (EC 2.4.1.38)
+CGGGCTGCTGAGCCGGCCAGAGTCGCCGAGATCCGCCGCCTCCCCGCCGGTGCCGCTCCTTCGCCCCCCCCCGCCTCCCG
+TCCCTCCCCCGTTGCTGCGGTCTGGCAGTGCCTGGCTGGCGGCCCGCGGGCGGGCCGCCTTCCTCGCGGTAGCCCACCCC
+CCTCTTAAAGCGGCGGCGGGAAGATGAAGTTTCGGGAGCCGCTCCTGGGCGGCAGTGCCGCGATGCCGGGCGCGTCCCTG
+CAGCGGGCCTGCCGCCTCCTCGTGGCTGTCTGCGCCCTGCATCTTGGCGTCACCCTCGTCTATTACCTGGCCGGCCGAGA
+CCTAAGACGCCTGCCTCAGCTGGTCGGAGTCCACCCACCGCTTCAGGGAAGCTCTCACGGCGCCGCCGCTATCGGGCAGC
+CCTCCGGGGAGCTCCGGCTGCGAGGGGTCGCACCGCCGCCGCCTTTGCAGAACTCTTCCAAGCCGCGCTCGCGGGCCCCC
+TCCAACCTAGACGCGTACTCTCACCCCGGCCCTGGCCCGGGCCCGGGGAGCAACTTGACTTCGGCCCCAGTGCCCTCCAC
+CACAACACGCTCGCTGACCGCATGCCCTGAGGAGTCCCCGCTGCTCGTCGGCCCCATGCTGATTGAGTTTAACATACCTG
+TGGACCTGAAGCTTATCGAGCAGCAGAACCCGAAGGTGAAGTTGGGTGGTCGCTACACCCCCATGGACTGCATCTCTCCT
+CACAAGGTGGCCATCATCATTCTATTCCGCAACCGGCAGGAACACCTCAAGTACTGGCTGTATTACTTGCACCCAATGGT
+ACAGCGTCAGCAGTTAGACTATGGCATCTATGTTATCAACCAGGCTGGAGAGTCCATGTTCAACCGCGCAAAGCTCCTCA
+ATGTTGGCTTTAAAGAGGCCTTGAAGGACTATGACTACAACTGCTTTGTGTTTAGCGATGTGGACCTCATCCCAATGAAC
+GACCATAACACCTACAGGTGCTTTTCACAGCCACGGCACATTTCTGTAGCAATGGATAAGTTTGGATTTAGCCTACCTTA
+CGTGCAGTATTTTGGAGGTGTCTCTGCTCTAAGTAAACAACAGTTTCTCAGCATCAATGGATTTCCTAATAACTACTGGG
+GCTGGGGAGGTGAAGATGATGACATTTATAACAGATTAGCTTTTAGAGGCATGTCTGTGTCTCGCCCAAATGCTGTGATC
+GGGAAGTGTCGGATGATCCGCCACTCGAGAGACAAGAAAAATGAACCTAATCCTCAGAGGTTTGACCGAATTGCACATAC
+AAAGGAGACAATGCTCTCTGATGGTTTGAACTCACTCACCTACATGGTGTTAGAGGTCCAGAGGTACCCGTTGTATACCA
+AAATCACAGTGGACATCGGGACGCCGAGCTAGCATTTTGGTGCACTGATCAGAGACCTGAAAATGGCCAGGGACCTCTGC
+TGTGTCTCTGCCTGTGTGCTGGGCTGGTCCCTCTCATTCTCACAATCAGTGATAGGCCCTCTCTGCTCATCATTCAGACG
+CCTTTCCGGACGACCAGGACAAGTGGGATATATTGCCCCCAACTTGGCTCAGCATGTGACTTGTCAGCCCCACGAGGTGT
+ATGTAAGCATAGAAACCATCAGCCTTTGGAGGCTCTCGGCATGTTCATGGTTCACCCCAAAGAATCAAAGCTGTGCACAG
+CTCCAAATCTGGTGACTGTGGGACTCATCCCCAGCAAAAAAAAAAAAA
+>ref|ref|NM_174324.2|| Bos taurus G protein subunit alpha i1 (GNAI1), mRNA
X03642.1 Bovine mRNA for alpha-subunit of G(i) protein (Gi=adenylate cyclase-inhibiting G-protein)
+TGGCCGGCGTCAGGAGGAATTCGAACGCCTGCATCCAGAAAGAAAGAATTCACCTGTGTTTCGAGGCAGCGCGCCGGACT
+TCGAGGGAGCGGCAGCCAGCTTTCGCTCCTGGCACAATGGGCTGTACGCTGAGCGCCGAGGACAAGGCGGCGGTGGAGCG
+GAGTAAGATGATCGACCGGAACCTCCGCGAGGATGGCGAGAAGGCGGCGCGCGAGGTCAAGCTGCTGCTGCTCGGTGCTG
+GTGAATCTGGGAAAAGTACAATTGTGAAGCAAATGAAAATTATCCATGAAGCTGGTTATTCAGAAGAGGAATGTAAGCAG
+TACAAAGCTGTGGTCTACAGTAACACCATCCAGTCAATTATCGCTATCATTAGGGCCATGGGGAGATTGAAGATTGACTT
+CGGTGACTCAGCCCGGGCGGATGATGCCCGCCAACTCTTTGTGCTTGCTGGCGCTGCAGAGGAAGGTTTTATGACTGCAG
+AACTTGCTGGAGTTATAAAGAGACTTTGGAAAGACAGTGGTGTACAAGCCTGCTTCAACAGATCCCGAGAGTACCAGCTT
+AATGATTCTGCAGCATACTATTTGAATGATTTGGACAGAATTGCACAACCAAATTATATTCCAACTCAACAAGATGTTCT
+CAGAACTCGAGTGAAAACCACAGGAATTGTTGAGACCCATTTTACTTTCAAAGATCTTCATTTTAAAATGTTTGATGTGG
+GAGGACAGAGATCTGAGCGGAAGAAATGGATTCATTGCTTCGAAGGAGTGACCGCCATCATCTTCTGTGTGGCGCTGAGT
+GACTATGACCTGGTTCTAGCTGAAGATGAAGAAATGAACCGAATGCATGAAAGCATGAAGTTATTCGACAGCATATGTAA
+CAACAAATGGTTTACAGATACATCTATTATACTTTTTCTGAACAAGAAGGATCTCTTTGAAGAAAAAATCAAGAAGAGCC
+CTCTCACTATATGCTATCCAGAATATGCAGGCTCAAACACATATGAAGAGGCAGCTGCGTACATTCAGTGTCAGTTTGAA
+GACCTCAATAAGAGAAAGGACACAAAGGAAATATACACCCACTTCACGTGCGCCACGGACACCAAGAACGTGCAGTTCGT
+CTTTGATGCCGTAACAGACGTCATCATAAAAAATAACCTAAAAGACTGTGGTCTCTTCTGAGTGTTGGCGGCAAATGGTA
+AAATGCATTTTCAAACCAAATGAGTACTTACATGTGGATCTCTCTAGACTAGAGTCTTGCAGCAACACAGAATGTAGTAT
+ATGGCGAGTGCATCTGGGACCTGACCAAAGCTGTTCTATTTGTTTTTTTTTTAACTGAAAGTAATGGAAGGACCTTTCGT
+AAGTGTGAGAGGTGGTCCTGCAGTGTGAAACTAAGGGCAGTGTTAAAGCTGGGCTCTAGTGTACGGATGACTTCTACATA
+CATGTAAATATGCAAATGTATGTATACATGTATTTATGACTTTAGTTTTCCACATTACTTTTAGACATTCAGTAAGCGGC
+AACTTATAATTTTAGCGTGGTGGCTTTGGAAATAACAGAAATATTAAGTACTTTGTACTGAATGACAGACTATTGTCATG
+TTTGCCAGTTCTAAACAGCTTTATTTATGTTTCTGTCCTGTAAATTTTTAAGTACAATGATTAATATTGGGACACATTGC
+AGCTCTTGTCTTGATTATATGTAGTATACTTGTAATCATAAATGTTATTTGTACAAACATTGCACAGACTATTTTAATAA
+CATGATTTGTTCTTTAAATTTATGTGTTTTATTGAAATGTTCTTGAAGAAGATGACTATACCTGCCTTTGGATCAGTTAA
+ACACTGTATGCATTTCAGTTTTTCTTTTAAGGGTGCATGCTAATCTGATTCTACATTAGATTTGGTTTAAAAACTGTAAA
+ATGCAGGTTTCTGAGGATATACATATAGACTTATAAACACTTAATTTTTATTCAGTTGGTTTGTTTTCACTTTGAATTTT
+AATATTTGGATGGTATTCATGCATTGCCTTAAAGGTGATGCCAAGTTAATTTTTATACACTTCAAATAACTACATTTTTA
+TTTATAAGTAAGTTTAGGTGGGTGCAAGAGCATTTTTGTGGGTAAAAAATAAGTTAGCATAATGAATTTTGAGACATTCA
+TTTGTGTATTTCCTTTGGGAAATCCCTTGTACGTACCATACATGACAGCTCTTTGTTCGGAAGGTAACAGGAAAGACCTC
+GAAGATTCTGCTACCGATAAAATGCAGCCTTTAAATTCACATATGTAAGTAACTAGTTTCAAATTTAATTATCACACTAT
+ATTAAAATTACTTTTTTCCCTGAGATTATTCAAATTTCCTCCACTTGCTTGAGTTTGTATTATTTCTTTAAACTGTGCTA
+TTATCTCTGAGAATGAAATGGGCAATTACACTTAGGAAAATGAGTAATCGTATTTAATTAAGTTAGCAATTGTATGTATT
+CTCAAGTAAGTATTACATTTTTGCTAGATATTAAAATTTTGATAGTCACTTTTGTTTTAATTATTCACAGTATCTCTCTA
+TGACCTTGTTTTCAGCAAAGTGAACAGCATTCCATACCTTACTTCTCTTTTTTTACTCATCTTAAAAACATTATGTAGTG
+TTTCAATAAACTTTGTGGGTAAGTAGTTTCTAAATTTAGTTGTGTGTTATCATTTTGTTGAGGTCTATTTGTTGCAGTGT
+GTGTGTGTTTGTGTGTGTGTATGTAACCAGAAACTACATTTACATCTGTTTCATTTGGGGGATTTTTCCTTTTTGTAATG
+TAAAGAAGTTCAAAGTTATCAGAATTCTTTAAATAAATGTGTTAGTTTAGATTCTTTATGTGCCTTTCATGAAAGAAATG
+TTTTCATTAATTTTATGGATAGAAGACCTGTTGTATTCATCTTATGAAGCTATGTATGAAATTCAACTGTCCTGTGAATC
+GATTTGAATCATGAGAAATAACAGCTTAAAAAGCCACAAAGAAGCACATATTGGTGACCACCATTGATGAATTCCTGAAC
+TTTACTCTGTGTAATTGTGTTACTAATAAAATCTAATAAATTCGGATTTTTAAAATTTT
+>ref|ref|X00376.1|| Bovine adult beta-globin gene
+TTTAATAGCAATTTGTATTGCTGGAATGACTGTGATCTAGAGATGCCCAGAAAGAGGGCTGATGGTCTAAAGTCAGTGCC
+AGGAAGACCAAGGAGAGCTATGACTATCATCGTTCAAGCCTCACCCTGTGGAACCACAACTTGGCATGAGCAATCTGCTC
+ACAGAAGCAGGGAGGGCAGGAGGCAGGGCTGGGCATAAAAGGAAGAGCTGGGCCAGCTGCTGCTTACACTTGCTTCTGAC
+ACAACCGTGTTCACTAGCAACTACACAAACAGACACCATGCTGACTGCTGAGGAGAAGGCTGCCGTCACCGCCTTTTGGG
+GCAAGGTGAAAGTGGATGAAGTTGGTGGTGAGGCCCTGGGCAGGTAGGTATCCCACTTACAAGGCAGGTTTAAGGAGAGT
+GAAATGCACCTGGGCGTGTGAGGACAGAGCCGTCCCTGAGATTCAGAGAGCTGCTGGCTTCCTCTGACCTTGTGCTGTTT
+TCTCCCCCTAGGCTGCTGGTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGGACTTGTCCACTGCTGATGC
+TGTTATGAACAACCCTAAGGTGAAGGCCCATGGCAAGAAGGTGCTAGATTCCTTTAGTAATGGCATGAAGCATCTCGATG
+ACCTCAAGGGCACCTTTGCTGCGCTGAGTGAGCTGCACTGTGATAAGCTGCATGTGGATCCTGAGAACTTCAAGGTGAGT
+TTGTGGAATCCTCAGTGTTCTCCTTCTTCTTTTTATGGTCAAGCTCATGTCATGAGGAGAAAGCTGAATGGCAGGACACA
+GTTTAGAATGGAGAAGAGGTATTCTGGTTAGATTACTAAGGACTCCTCAGAACCGTTTAGACTCTTTTAACCTCTTTGTT
+CACAACCAGTATTTCCTCTGATTCATTCTTGTTCTCTGTTGTCTGCAATGTCCTCTTTTTAATTATATTTTTTATTTTGA
+GGGTTTAATTTGAAAAAAAAATTATATATCAACTTTAAAAATTGTATCTAATATTTCCCCCTTATCTGTTCCTTTCAAGG
+AATAAGATGTTCTATTGCTTTTTGAAATGATTCAAAATAATAAAAATAATAACAAGTTCTGGATTAAGTTAGAAAGAGAG
+AAACATTTCTAAATATATATTCGGGAAGATATAGGTAGATTCACATCAGTAGTAACAACTTCACTTCAGTCATCTTTGTG
+CTTATATCTACGGTCACAGCTTGGGATAAGACTGAAATACCCTGAATCTAACCTTGGATTTCCCTCATAGCTCAGTTGGT
+TAAGCATCTGCCTGCAATGCAAGAGATCCCAGTTCGATTCCTGGGTCGGGAAGGATGGCTGGAGAAGGGATAGGCACCCA
+CTCCAGTATTCTTGGGTTTCCCTTGTGGCTCAGCTGGTAAAGAATCTGCCTGCAATGTGGGAGACCCAGCTTCTATCCCT
+GAGTTTGGAAGATCCCCTGGAGAAGGGAAAGGCTACCCACTCCAGTATTCTGGCCTGGAGAAATCTATGGACTGTAGAGT
+CATGGGGTTGCAAAGAATCAGACACGATTGAGAGACTCTCACTTCACTCACCTGCACTAACCCTGCCCTTGCTTAATGTC
+TTTTCCACACAGCTCCTGGGCAACGTGCTAGTGGTTGTGCTGGCTCGCAATTTTGGCAAGGAATTCACCCCGGTGCTGCA
+GGCTGACTTTCAGAAGGTGGTGGCTGGTGTGGCCAATGCCCTGGCCCACAGATATCATTAAGCTCCCTTTCCTGCTTTCC
+AGGAAAGGTTTTTTCATCCTCAGAGCCCAAAGATTGAATATGGAAAAATTATGAAGTGTTTTGAGCATCTGGCCTCTGCC
+TAATAAAGACATTTATTTTCATTGCACTGGTGTATTTAAATTATTTCACTGTCTCTTACTCAGATGGGCACATGGGAGGG
+CAAAACACTGAAGACATAAAGAAATGAAGGGCTAGTCGAGACCTTGAGAAAATATATCAGTATCTTGGACCCCATGACAG
+CAGTGGTTGTAAATAGCTGATGTTATGGAAAACAGGCTTTGCTCCTTAGCCTTACTCTCCCTTAAAGAATTC
+>ref|ref|X70059.1|| B.taurus mRNA for gamma subunit of sodium potassium ATPase
+ATGGTGGCTGTGCAGGGGACCGAGGACCCATTCTACTATGACTACGAGACCGTCCGTAATGGGGGCCTGATCTTCGCCGC
+CCTGGCCTTCATCGTGGGGCTCGTCATCATCCTCAGCAAAAGATTCCGCTGCGGGGCCAAGAGGCAGCACCGGCAAATTC
+CTGAAGATGGGCTCTAAGGAGAGAGCCAGCAGTGCC
+>ref|ref|X13684.1|| Bovine gpx1 mRNA for glutathione peroxidase
+GCGCTCTGCTCTGGATTCGGAAACGGATACCATGTGCGCCGCTCAGCGCTCGGCGGCCGCCCTGGCGGCGGCAGCCCCGC
+GCACAGTGTACGCCTTCTCCGCGCGCCCTCTGGCCGGCGGGGAGCCCTTCAACCTGTCCTCCCTGCGGGGCAAGGTGCTG
+CTCATTGAGAACGTAGCATCGCTCTGAGGCACAACGGTGCGGGACTACACCCAGATGAATGACCTGCAGCGGCGCCTTGG
+ACCCCGGGGCCTGGTCGTGCTCGGCTTCCCCTGCAACCAGTTTGGGCATCAGGAAAACGCCAAGAACGAGGAGATCCTGA
+ATTGCCTGAAGTACGTCCGACCAGGCGGCGGGTTCGAGCCCAACTTTATGCTCTTCGAAAAGTGCGAGGTGAATGGCGAG
+AAGGCGCATCCGCTCTTCGCCTTCCTTCGGGAGGTTCTGCCCACGCCAAGTGACGACGCCACTGCTCTCATGACCGACCC
+TAAGTTCATCACCTGGTCCCCGGTGTGCCGCAACGACGTCTCCTGGAACTTCGAGAAGTTCCTGGTGGGCCCAGACGGTG
+TGCCCGTGCGCAGGTACAGCCGCCGCTTTCTGACCATCGACATCGAGCCTGACATTGAAACCCTGCTGTCCCAGGGGGCC
+TCTGCCTAGGGTGCCCCTCCCACCCTTGCTGCTTGGCGGTCAGCGCTGCTCTCCAGGGATTTTGCCCATGAAGGTGTTCC
+CTCTAAACCTACGTGGAGGAATGCCTGATGTCCAGGAAAATCCCCTGAGGTGGGCGCTGGTCCTATCCATCCCAGCCTCC
+CCTTTCCCAGACCACAGCTCCTCATGAC
+>ref|ref|V00111.1|| Bovine mRNA for growth hormone
+ACGGCTCAGGGTCCGTGACAGCTCACCAGCTATGATGGCTGCAGGCCCCCGGACCTCCCTGCTCCTGGCTTTCGCCCTGC
+TCTGCCTGCCCTGGACTCAGGTGGTGGGCGCCTTCCCAGCCATGTCCTTGTCCGGCCTGTTTGCCAACGCTGTGCTCCGG
+GCTCAGCACCTGCACCAGCTGGCTGCTGACACCTTCAAAGAGTTTGAGCGTACCTACATCCCGGAGGGACAGAGATACTC
+CATCCAGAACACCCAGGTTGCCTTCTGCTTCTCCGAAACCATCCCGGCCCCCACGGGCAAGAATGAGGCCCAGCAGAAAT
+CAGACTTGGAGCTGCTTCGCATCTCACTGCTCCTCATCCAGTCGTGGCTTGGGCCCCTGCAGTTTCTCAGCAGAGTCTTC
+ACCAACAGCTTGGTGTTTGGCACCTCGGACCGTGTCTATGAGAAGCTGAAGGACCTGGAGGAAGGCATCTTGGCCCTGAT
+GCGGGAGCTGGAAGATGGCACCCCCCGGGCTGGGCAGATCCTCAAGCAGACCTATGACAAATTTGACACAAACATGCGCA
+GTGACGACGCGCTGCTCAAGAACTACGGTCTGCTCTCCTGCTTCCGGAAGGACCTGCATAAGACGGAGACGTACCTGAGG
+GTCATGAAGTGCCGCCGCTTCGGGGAGGCCAGCTGTGCCTTCTAGTTGCCAGCCATCTGTTGTTTGCCCCTCCCCCGTGC
+CTTCCTTGACCCTGGAAGGTGCCACTCCCACTGTCCTTTCCTAATAAAATGAGGAAATTGCATCGC
+>ref|ref|X03404.1|| Bovine mRNA for adenylate cyclase-stimulation G-protein alpha subunit
+TCTCGGCCCGCGTGAGGCCGCCCGCGCCGGCCCCGCCGCCGCCGCCGCCGCCATGGGCTGTCTCGGAAACAGCAAGACCG
+AGGACCAGCGCAACGAGGAGAAGGCGCAGCGCGAGGCCAACAAGAAGATCGAGAAGCAGCTGCAGAAGGACAAGCAGGTC
+TACCGGGCCACGCACCGTCTGCTGCTGCTGGGTGCTGGAGAATCTGGTAAAAGCACCATTGTGAAGCAAATGAGGATCCT
+GCATGTTAATGGGTTTAATGGAGAGGGCGGCGAAGAGGACCCGCAGGCTGCAAGGAGCAACAGCGATGGTGAGAAGGCCA
+CCAAAGTGCAGGACATCAAAAACAACCTGAAAGAGGCCATTGAAACCATCGTGGCCGCCATGAGCAACCTGGTGCCCCCT
+GTGGAGCTGGCCAACCCAGAGAACCAGTTCAGAGTGGATTACATTCTGAGCGTGATGAACGTGCCGGACTTTGATTTCCC
+TCCCGAATTCTACGAGCATGCCAAGGCTCTCTGGGAGGATGAAGGGGTGCGTGCCTGCTATGAGCGCTCCAACGAGTACC
+AGCTGATTGACTGCGCCCAGTACTTCCTGGACAAGATTGATGTCATCAAGCAGGATGACTACGTGCCCAGCGACCAGGAT
+CTGCTCCGCTGCCGTGTCCTGACTTCTGGAATCTTTGAGACCAAGTTCCAGGTGGACAAAGTCAACTTCCACATGTTTGA
+CGTGGGCGGCCAGCGCGATGAACGCCGCAAATGGATCCAATGCTTCAATGATGTGACTGCCATCATCTTCGTGGTTGCCA
+GCAGCAGCTACAACATGGTCATTCGGGAGGACAACCAGACCAACCGCCTGCAGGAGGCTCTGAACCTCTTCAAGAGCATC
+TGGAATAACAGATGGCTGCGCACCATCTCTGTGATTCTGTTCCTCAACAAGCAAGATCTGCTGGCTGAGAAAGTCCTTGC
+TGGAAAATCGAAGATTGAGGACTACTTTCCAGAATTTGCTCGCTACACTACTCCTGAGGATGCGACTCCCGAGCCCGGAG
+AGGACCCACGCGTGACCCGGGCCAAGTACTTCATTCGAGATGAATTTCTGAGAATCAGCACTGCTAGTGGAGACGGGCGC
+CACTACTGCTACCCTCACTTCACCTGCGCTGTGGACACCGAGAACATCCGCCGTGTGTTCAACGACTGCCGTGACATCAT
+CCAGCGCATGCACCTCCGTCAGTATGAGCTGCTCTAAGAAGGGAACCTCCAGATTTAATTAAGGCCTTAAGCGCAATTAA
+TTAAAAGTAAGATATAATTGTACACGCAGTTGATCACCCACCATAGGGCATGATTAACAAAGCAACCTTTCCTTTCCCTC
+AAGTGATTTTGCGAAACCCCCTTCACCTTACAGCTTGCTTAAATATTCCAAATTTAGAAAGCTTAAGGCAGCCTATAGAT
+TAAGATTAAGAAAAAAAGGCCACAAATGTTCCCTTCTCTCTTTAAGTAACTACAATAATAGCAGCAAACAGAAATAAATA
+AATGAAATAAATGAAGCAAATGAAATAAATATCGTGTTGTGCAGCATTAAAAAAATCAAAATAAAAATTAAATGTGAGC
+>ref|ref|NM_177516.1|| Bos taurus glutathione S-transferase pi 1 (GSTP1), mRNA
X61233.1 Bovine GST mRNA for gluthathione S-transferase, class-pi
+CGGCTCAGGCCGCCGCCGAGCGCGCTGGAACTTTGCTGCCGCCGCCACCTTTACCGACTTCCCCGACTCCAGGATGCCTC
+CCTACACCATCGTCTACTTCCCGGTTCAAGGGCGCTGCGAGGCCATGCGCATGCTGCTGGCCGACCAGGGCCAGAGCTGG
+AAGGAGGAGGTCGTAGCCATGCAGAGCTGGCTGCAGGGCCCACTCAAGGCCTCCTGCCTGTACGGGCAGCTCCCCAAGTT
+CCAGGACGGAGACCTCACGCTGTACCAGTCCAATGCCATCCTGCGGCACCTGGGCCGCACCCTCGGGCTGTATGGGAAGG
+ACCAGCAGGAGGCGGCCCTGGTGGACATGGTGAATGACGGTGTAGAGGACCTTCGCTGCAAATACGTCTCCCTCATTTAC
+ACCAACTACGAGGCGGGCAAGGAGGACTATGTGAAGGCGCTGCCCCAGCACCTGAAGCCTTTCGAGACCCTGCTGTCCCA
+GAACAAGGGTGGCCAGGCCTTCATCGTGGGCGACCAGATCTCCTTTGCGGACTACAACCTGCTGGACCTGCTTCGGATTC
+ACCAGGTCCTGGCCCCCAGCTGTCTGGACTCCTTCCCCCTGCTCTCAGCCTACGTGGCCCGTCTCAACTCCCGGCCCAAG
+CTCAAGGCCTTCCTGGCCTCCCCCGAGCACATGAACCGGCCCATCAACGGCAATGGGAAACAGTGAGGGCTTGCAGCACT
+CTCTGCTCGAGGCAGGGGGCTGCCTGCTCTTCCCTTTCCCCAGGACCAATAAAACTTCCAAGAGAGAAAAAAAAAAAAAA
+AAAAAAAAA
+>ref|ref|NM_175778.2|| Bos taurus guanylate cyclase 1 soluble subunit alpha 1 (GUCY1A1), mRNA
X54014.1 Bovine mRNA for large subunit of guanylate cyclase (EC 4.6.1.2)
+AGCTGTAAGGGATCCTTGGGGCGGGGGGAGAGAGAGAGAGAGAAAGAGATGGAGACGCTGGGAGAGACCCAGGCTGGAGC
+TGGCTGAGCGTGGGCGCAGCGCGGGAACCGGGTCTGCAGCGCTTTGCGCCTGCCCCGCCTGTTGAGCAGGAGCCGAGAAT
+ACAGAGTCACTCCTCTTTCTCCTCTGACCTTCTGCAGCCCCTGGACTCCCTGGTCATCAGCATCTCTGGTCCGCTAGTGG
+CTTCTGTGTGTCCATCCTGGTAAGAAGAACCAAGCCCAGGAGCAATCACCATGTTTTGCGCGAAGCTGAAGGACCTGCAG
+ATCACGGGGGACTGCCCTTTCTCCCTGCTGGCCCCGGGGCAGGTCCCCAGAGAGCCCTTGGGGGAAGCCACAGGGAGTGG
+GCCAGCATCGACCCCAGGGCAGCCAGGCGTCTGTCCAGGTGTCCCCGACAAGAACCCTCCCGGAAGGCTTCCCCGGAGGA
+AGACCAGCCGCAGCCGGGTCTATCTTCACACTTTGGCAGAGAGTATTTGCAAACTGATTTTCCCAGAGTTTGAGCGTCTG
+AACCTTGCCCTTCAGAGAACATTGGCAAAACACAAAATAAAGGAAAACAGGAAATCTTTGGAAAGAGAAGACTTTGAAAA
+AATAGTTGTGGACCAAGCAATTGCAGCAGGAGTTCCAGTGGAGATCATCAAAGAATCTCTTGGTGAGGAGCTTTTTAAAA
+TATGTTATGAAGAAGATGAATACATCCTAGGTGTGGTTGGAGGAACCCTGAAAGATTTTTTAAATAGCTTCAGCACCCTC
+CTGAAACAGAGCAGCCACTGTCAAGAAGCAGAAAAGAAGGGCAGGTTTGAGGACGCATCCATCCTATGCCTGGATAAAGA
+TCCCGATGTCTTATATGTTTACTATTTCTTCCCCAAGAGGATCACTTCCCTGATTCTCCCCGGCATCATTAAGGCAGCTG
+CTCGCATACTGTATGAGACGGAAGTGGAGGTTTCTTCGACGCCTTCTCGCTTCCACCAGGACTGCCGTGAGTTCGTGGAC
+CAGCCCTGCGAGCTCTACTCCGTCCACATCAGGAGCGCCCGGCCGCACCCGCCCCCTGGGAAACCCGTGTCCTCGCTGGT
+CATCCCCGCCTCGCTCTTCTGCAAGACCTTCCCTTTCCACTTCATGCTTGACAGAGATATGAGCATCCTGCAGCTCGGCC
+ACGGCATCAGGCGGCTGATGAGCAGGAGAGACGTGCAAGGGAAGCCTCATTTTGATGAGTACTTTGAGATCCTGACCCCC
+AAAATCAGCCAGACGTTCAGCGGCATTATGACCATGCTGAACATGCAGTTCCTGGTGCGAGTGAGGAGGTGGGACAACTC
+CATGAAGAAATCTTCCAGGGTGATGGACCTCAAAGGCCAGATGATCTACATGGTGGAGTCCAGCTCCATCCTGTTCCTGG
+GCTCACCCTGCGTGGACAGACTGGAAGACTTCACAGGCCGAGGGCTGTACCTCTCCGACATCCCCATCCACAACGCGCTG
+CGGGATGTGGTGCTGATTGGGGAGCAGGCCAGGGCCCAGGATGGCCTGAAGAAGAGGCTGGGCAAGCTGAAGGCCACGCT
+GGAGCAGGCCCACCAGGCCCTGGAGGAGGAGAAGCGGAAGACGGTGGACCTGCTGTGTTCCATCTTCCCCAGTGAGGTGG
+CGCGGCAGCTGTGGCAGGGCCACGCTGTGCAGGCCAAGCGCTTCGGCAATGTCACCATGCTCTTCTCGGACATCGTGGGG
+TTCACGGCCATCTGTTCCCAGTGCTCCCCGCTGCAGGTCATCACCATGCTCAACGCACTCTACACCCGCTTTGACCGGCA
+GTGTGGAGAGCTGGATGTCTACAAGGTGGAGACGATTGGCGATGCGTACTGTGTGGCTGGGGGCTTACATAAAGAGAGTG
+ACACCCACGCTGTTCAGATCGCGCTGATGGCCCTCAAGATGATGGAACTCTCTCATGAAGTCGTGTCTCCCCACGGAGAA
+CCCATCAAGATGCGCATTGGGCTGCATTCTGGGTCAGTTTTTGCTGGAGTTGTTGGAGTTAAAATGCCTCGTTACTGCCT
+TTTTGGAAACAATGTCACCCTGGCTAACAAATTTGAATCGTGCAGTGTTCCCCGGAAAATCAACGTCAGCCCAACCACTT
+ACAGATTACTCAAGGACTGTCCTGGTTTTGTGTTTACACCTCGATCAAGGGAAGAACTTCCACCAAACTTTCCTAGTGAC
+ATTCCTGGGATCTGTCATTTTCTGGAAGCATATCAACAAGGAACAACTTCAAAGCCATGGTTCCAGAAAAAAGATGTTGA
+GGAAGCCAATGCCAATTTTTTAGGCAAAGCATCAGGAATAGATTAACCAAACACACACCTGATTGTTAGCCTTTGGGGTT
+TGACTCCTTGGAACGTGAGTGGACCCTCTGAGAGCACACTGGCATGGTGGTGAGCTGAGGAGCAGTATTAACATTTCAGG
+AGCCAAGTCACCATCTACTTGTCCTTCCACTTAACATGACAAAAATGTATTCACTTCAATATTCAATTTTTCAGTGAAAA
+ACAAAGAAACCTCAAAAAGTGACTTTGAGGGGATGTAATATACTTATTACCTGTGCTCAAAACTCAGCACCTTGTATATA
+CATCAGGTAATGTAGTGACCTGTACCACCTGGTGAGCTGTCTGCGTGTCCTGCCCTGGCCGAATGCCCTGGTTATCAAAG
+TGCTTGTGGTAGTGTTGGTTGCCTTAAAGATGCTTGTTGAATAGAAACAATAGTCTTGATACCATAAGCTCTTTGAACCT
+TTCAACTGGTACATTTTGTTACATTTCCTCATTTAACAGTTAGCATATATAATAAGATAGACTGAGTTTTTTTTTTCCTG
+TTGCACTTTTTTCTTTTTCCTTTTCTTAAAGAAAATAAGCCATTATGGGTTAGATGCAATATGAATCTAAAGTAGTTCTC
+CTGTAAATATCAAGATGATTTTATAAAAATATTCTCTACAACATAATATGTCATAAAAATAAGTATTTCCTTTTTTGACA
+TTTGTAAAAGTCTATACATGGTAAAGGCTATTTTAATTCATAATAGCAATTTCATTTCTATTAATTCATTTTTATGTCAT
+CTTCAGGGTAAAAGAGGGTTATGGCCTATATTAAAATGCAATAATATCATTATGATTTACTTTAATTGAAGCAACATGGA
+GTAAAGGCAGCATTCAGGGAGCGAGCCATAAAGTCAGAAGCAAAGTACTTACACACACCGA
+>ref|ref|X52318.1|| Bovine mRNA for histone H2A.Z
+ATGGCTGGCGGTAAGGCTGGGAAGGACTCCGGAAAGGCCAAGACAAAGGCGGTTTCCCGCTCGCAGAGAGCCGGTTTGCA
+GTTCCCGGTGGGCCGTATTCATCGACACCTGAAATCTAGGACGACTAGCCATGGACGTGTGGGCGCGACTGCCGCTGTGT
+ACAGCGCAGCCATCCTGGAGTACCTCACCGCAGAGGTACTTGAATTGGCAGGAAATGCATCGAAAGACTTGAAGGTAAAG
+CGTATTACCCCTCGTCACTTGCAACTTGCTATTCGTGGAGATGAAGAATTGGACTCTCTCATCAAGGCTACAATTGCTGG
+TGGTGGTGTCATTCCACACATCCACAAATCTCTGATTGGAAAGAAAGGACAACAGAAGACTGTCTAAAGGATGCCTGGAT
+TCCTTATTATCTCAGGACTCTAAATACTCTAACAGCTGTCCAGTGTTGGTGATTCCAGTGGACTGTATCTCTGTGAAAAA
+CACAATTTTGCCTTTTTGTAATTCTATTTAAGAAAGTTGGAAGTTTAATTAGCTTTCCAACCAACCAAATTTCTGCATTT
+GAGTCTTAACCATATTTAAGTGTTACTGTGGCTTCAAAGAAGCTATTGATGCTGAAGTAGTGGGTTTTGATTGAGTTGAC
+TGTTTTTAAAAAACTGTTTGGATTTTAATTGTGATGCAGAAGTTATAGTAACAAACATTTGGTTTTGTACAGACATTATT
+TCCACTCTGGTGGATAAGCTCAATAAAGGTCATATCCCAAACTAGTTGTGTATAAAATTTGCTTGATTATAGTAGGAACA
+GCTTTGTTGAATAGGTATCTTACCTAGCAATAACTTAAGCACATTTCTTCCCTTTAAATTACTGTTAATTCTGTCTGTAG
+ATCAACAAAGTTAAAAGGCCCAAGTG
+>ref|ref|X00502.1|| Bovine prepro-oxytocin-neurophysin I gene
+AAGCAGCACTCGCTATCATCTCCCGGACCATTAGCCATTAGCCGACATAACCTTGACCCGGCACAGCCTCTGCAAATGAG
+GGGGCGCGCCGGGGGCGCAGGGCCTGACCCGCAGCGGCGCGCTGTGACCAGTCATGCGGCTGCCCTCTTAGACACCGTTC
+CGCCCACGCGGCCGCCGGGCTTAAAAGGCCAGACCCGAGAGACGGCCGCAGTCCCCGGCCCGGAGACCAGCGCGTCTGCA
+CCATGGCAGGTTCCAGCCTCGCCTGCTGCCTGCTCGGCCTCCTGGCGTTGACCTCCGCCTGCTACATTCAGAACTGCCCC
+CTGGGCGGCAAACGCGCGGTGCTGGACCTCGACGTGCGCACGGTGAGAGCCCCGCCCTCGACCCGTGGCTCTCCGGGCTG
+CCCGGCCCGCTGCCACAGGGTCGCCCCCGCCGCCCCCTTTCCCGCGCTGACCGCGTACCGGCCCCACCTAGCCTGGGAAT
+CGAGGGAGCGGAGGAGCTTTTGACTGCCCTCCTTCGACCGCTTTTGAGCCCAAAGAGAGAGCCAGGGAGACCCGCCACCT
+CCCGCGCTCCTCCGGCCGCCCTCGCCCGCCCGGCTCAGCCCCCCGCCCCACAGGGTCTCCCTCCCCGGCCGCTCCCCTCC
+CGCCCCCGGCTCATCCCTTCCCTCCCACCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCA
+TCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCG
+CCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAGCCCGGGTGAGTC
+GGGCAGGGGTCGAGACGGGACCGGGGCTCCAGGACCAGGCGGGCTGGGCCAGGGCGGCCCTGACTCGGCGTCTCTCTGTG
+CAGACGGCTGCCACGAGGACCCCGCCTGCGACCCTGAGGCCGCCTTCTCCCAGCACTGAGACCGGCCGGCCCCCGATACC
+GTCGGAGCGCAGCCCTCACTCCCTCTGTAATCATCCCCAGGAATTATGACAATGAAATAAAGCCGGTTTTTTCCCCCTCC
+AACAAGCCTCGCATCTGAGTGTCAGAACGGGGAGGGGAGGGCTTTAG
+>ref|ref|X00503.1|| Bovine prepro arginine vasopressin-neurophysin II gene
+GGAGACAGTTTCCAGGTGACCCCCCCTCATTCCCCGTCTGTCCACCTCCCCAAGTCTAGAGAGCCGCAATCATAGCCGCA
+GCAGCTCCTGTCACACCGCAGCCACACCGCTGCCTATGACAGCCTGGAGGCCAGCATCCCTCCCCCACCGTCCCCTGCAC
+AGGTCCACGTGCGTCCCCAGATGCCTGAATCACTGCTGACGCCTGGGGACCTGGAGGCCACGGGCTCCTGGGGAGCCACT
+GGGGAGGGGGTGGCGGCCACGTCACTTCAGAGGGAACACCTGCAGACATAAATAGGCAGCCAGCGAAGACATCGCAGCAC
+AGTCCACAGAGCAGCACTGCGCACTGTGCCCACCCGTGCCAGGATGCCCGACGCCACACTGCCCGCCTGCTTCCTCAGCC
+TGCTGGCCTTCACCTCTGCTTGCTACTTCCAGAACTGCCCAAGGGGCGGCAAGAGGGCCATGTCCGACCTGGAGCTGAGA
+CAGGTATGACCATGACCGCTCTCAGAGCTGCAGGGAAGGGGCAGAGGCCCAGGGACGGCACCACCGTGCAGGGGCTAGCA
+AGGGAAGTCGTGGGAGAGGCAGGCTTTAGGGGAAGTGCCCAGCAGAAGAAGGGAGGCTTGGCATGGCCAAAGGGGACCAG
+GCTGTCAGGCAGGCTAGGACAGGTTGCAGGACTTCCGGAACATTGTCCCTACCAGAGAAGGGATGCTGGCAAGAGGTTTC
+CCTAGTTCCTGGGCTTGGAGCTGCAGCAGGGAGAATGGGCAAGGCCTTCTCTGTGCCCATGGGGCCTCTCCTCTAGGACC
+AGCTGGAGCTTCAGAGGCTCTGTCCTCCCAGCACTCTAAGCCTTCCCCGATCAGCGTCCAGCTTCTCCTAGCCATGGGCC
+CCAGCATTCACCCCGGCCCCGAAGCCTGGCCATTGCCCTGAGCTTGCCCGAGTGACAGGTGCCACTCAAGCATCCTGTAA
+AGAAGTTCTTCTGGGTACCTAGCCCAATTCTTTCATGCTGCATGTCCAATGAGTCCCTCTTAATCCATCTTCAGCAGCAC
+TAAAGGAAACCCAATCACCGTGCTCAATTCTGCCATGGTCAAAAGTGGCCAGTTTTGAGCTGCTGAACAAACTTTTGGGA
+AGGTGGGCAGCCCCCACTGACGGCCCTTCCTCTGCTCGGCAGCTTTGGAAGCTGGAGTCACCTAGGTGCCTCATACCCTC
+CTCTAGGGCTCAGATCCTTGCCACTCAGGGTCAGTCCTTAGACGGACTAGCAGAAGTCAAGGTCCCAGTGAGACCCACTG
+GCTTGAGGGGCAGGGCAAGGGCAGAGAGGGGACAGAACAGGATAAGGAGGGGCGGGGGAGGGAGGGCAGAAGGAAGGTCT
+GCTTCAAGGGGAGGGTAGTGGGCAGCTGAGAGAAGGGTGGACACCAGGAGGCCCCAGAGCTGAGGGGGAAATTCTCCCCC
+AAATAGCGCATGAGGGTTCCCTTTGACAAAGCGGGAGGACGCTGAAGGGTGTGACTGACAGCTGTTCCTCAAACATCTGA
+AAACCGAGGGAGCGGAGAAGCTTTTTTTTGACTGCTCTCCTTCGACCAATTTTGGGCCCAAAGAGAGCCAGGGAGACCCG
+CCACCTCCCGCGCTCCTCCGGCCGCCCTCGCCCGCCCGGCTCAGCCCCCCGCCCCACAGGGTCTCCCTCCCCGGCCGCTC
+CCCTCCCGCCCCCGGCTCATCCCTTCCCTCCCACCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGC
+CCAGCATCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTG
+CCGTCGCCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAACGATGG
+TGCGCGGCCCGGGCGGTGGGGCGGGGGCGGGGAGGGGGGCGAGGAGGGGGCGGGGCCGGGGCCGGGGCGGGGCGGGGGCC
+GGGTTGATCTGGGTCCGGGTCTGGAGGGGGTGGGAAGCGGGGCCCGGTCCCCGAGACGCGCCCGCCAGCTGCGCGCTCAG
+CCCGTGCTCCCCGCAGAGAGCTGCGTGACCGAGCCCGAGTGCCGGGAAGGTGTCGGCTTCCCCCGCCGCGTTCGCGCCAA
+CGACCGGAGCAACGCGACCCTGCTGGACGGGCCGAGCGGGGCCTTGTTGCTGCGGCTGGTGCAGCTGGCGGGGGCGCCGG
+AGCCCGCGGAGCCCGCCCAGCCCGGCGTCTACTGAGGCGCGCCCCCCCCTCCCCACCCCTGCCCTCGCAGCACGAAAAAT
+AAACGTTTTAAAGGCACTGCTAGTGTGCGTCTCTGCCTCTGGGGGTGGAGAGGGGAGACGAAGGGAGGGCGGGGGATCAG
+TTCCTGACCCGAAGCCGCGCGCAGATC
+>ref|ref|X53827.1|| Bovine mRNA for 7O KDa heat shock cognate protein
+CTCTTTCAGCAGCCGGGCCTACGCTTTTGCAACCATGTCTAAAGGACCTGCAGTTGGCATTGATCTTGGCACCACCTATT
+CTTGTGTGGGTGTCTTCCAGCACGGAAAGGTGGAAATAATTGCCAATGATCAGGGGAACCGAACCACCCCAAGCTATGTC
+GCCTTTACTGATACCGAACGGTTAATCGGTGATGCAGCAAAGAACCAAGTCGCAATGAATCCCACCAACACGGTTTTTGA
+TGCCAAACGACTTATTGGACGTAGATTTGATGATGCTGTTGTCCAGTCTGATATGAAACATTGGCCCTTCATGGTGGTGA
+ATGATGCTGGCAGGCCTAAGGTTCAAGTAGAATACAAGGGAGAGACAAAGAGTTTTTACCCAGAGGAGGTGTCATCCATG
+GTCCTGACAAAGATGAAGGAAATCGCAGAAGCCTACCTTGGGAAGACGGTTACCAACGCTGTCGTCACAGTACCTGCCTA
+TTTTAATGACTCTCAGCGTCAGGCTACCAAAGATGCTGGAACTATTGCTGGTCTCAACGTACTTCGAATCATCAATGAGC
+CAACTGCTGCTGCTATTGCCTATGGCTTAGACAAAAAGGTTGGAGCAGAAAGAAACGTGCTGATCTTTGATTTAGGGGGT
+GGCACTTTTGATGTGTCAATCCTCACTATTGAGGATGGAATCTTTGAGGTCAAATCTACAGCTGGAGATACTCACTTGGG
+TGGAGAAGACTTTGACAACCGCATGGTTAACCATTTTATTGCGGAGTTCAAGCGTAAACACAAGAAGGATATCAGTGAAA
+ACAAGAGGGCTGTCCGTCGTCTCCGTACTGCTTGTGAGCGTGCTAAGCGCACTCTCTCTTCCAGCACCCAGGCCAGTATT
+GAGATTGATTCCCTCTATGAAGGAATCGACTTCTATACCTCTATTACCCGTGCCCGATTTGAAGAATTGAATGCTGACTT
+GTTCCGTGGCACCCTGGACCCTGTGGAGAAGGCCCTTAGGGATGCCAAACTGGACAAGTCTCAGATTCATGATATTGTCT
+TGGTTGGTGGCTCAACCCGTATCCCCAAGATTCAGAAACTTCTCCAGGACTTCTTCAACGGGAAAGAACTGAATAAGAGC
+ATCAACCCTGATGAGGCTGTTGCATATGGTGCAGCTGTCCAGGCAGCCATTTTGTCTGGAGACAAATCTGAAAATGTTCA
+AGACTTGCTGCTGTTGGATGTCACTCCTCTTTCCCTTGGAATTGAAACTGCTGGTGGAGTCATGACTGTCCTCATCAAGC
+GCAATACTACCATTCCTACCAAGCAGACGCAGACTTTCACCACCTACTCTGACAACCAGCCTGGTGTGCTCATTCAGGTT
+TATGAAGGTGAGCGTGCCATGACCAAGGATAACAACCTGCTTGGCAAGTTTGAACTCACGGGCATTCCTCCTGCCCCCCG
+TGGTGTTCCTCAGATTGAAGTCACTTTTGATATTGATGCCAATGGCATCCTCAATGTTTCTGCTGTGGATAAGAGCACAG
+GAAAAGAGAACAAGATTACCATCACTAATGACAAGGGCCGCTTGAGCAAAGAAGACATTGAACGCATGGTTCAAGAAGCA
+GAGAAGTACAAAGCTGAAGATGAGAAGCAGCGGGACAAGGTGTCTTCAAAGAATTCGCTTAAATCCTACGCCTTCAACAT
+GAAAGCTACTGTTGAGGATGAGAAACTTCAGGGCAAGATTAATGATGAAGACAAACAGAAGATTCTTGACAAGTGTAATG
+AAATAATCAACTGGCTGGATAAGAACCAGACTGCAGAGAAGGAAGAATTTGAACATCAGCAGAAGGAGCTGGAAAAAGTC
+TGCAACCCCATCATTACCAAGCTGTACCAGAGTGCAGGAGGCATGCCTGGGGGAATGCCAGGAGGAATGCCTGGGGGCTT
+CCCTGGTGGTGGAGCTCCTCCATCAGGTGGTGCCTCCTCTGGGCCCACCATTGAAGAGGTTGATTAAGCCAGCCTAGCAT
+AGATTGAGCATTGTTCCACACAAAAACATGGAAGGACCCAAATTGT
+>ref|ref|X68443.1|| B.taurus IFNAR mRNA for interferon receptor type I
+AGCGGCGCTGGCCTTGGCGGGACGGCCTGGGTGCCTCAGTCTCCGTCGCGCCGCCGCGCGGTGCCTGCCGCGGTAGTGGG
+TGGCCGAAAGATGTGACTGGAGGGCTACCGGCGGCCCGCGGACGATGCTCGCTCTCCTGGGCGCGACGACCCTGATGCTG
+GTCGCTGGGAGATGGGTGCTGCCCGCCGCCTCAGGGGAAGCAAATCTGAAGCCTGAAAATGTCGAGATCCACATCATTGA
+TGACAATTTTTTCCTGAAGTGGAACAGCAGCAGTGAGTCTGTCAAGAATGTGACTTTTTCAGCAGATTATCAAATACTAG
+GAACGGATAACTGGAAGAAATTGTCTGGATGTCAACATATTACTAGTACCAAATGCAACTTTTCTTCAGTCGAGCTTGAA
+AATGTTTTTGAAAAAATTGAATTGCGCATAAGAGCAGAAGAAGGAAACAACACTTCCACATGGTATGAGGTTGAGCCATT
+TGTACCATTTCTAGAAGCTCAGATTGGTCCCCCAGATGTGCATTTAGAAGCTGAAGATAAGGCAATAATACTGAGTATCT
+CTCCCCCTGGAACAAAAGATAGTATCATGTGGGCTATGGATCGTTCAAGCTTTAGGTATAGCGTCGTTATCTGGAAAAAC
+TCTTCAAGTCTAGAAGAAAGAACGGAAACTGTTTATCCCGAAGATAAAATTTATAAACTGTCACCAGAGATTACTTATTG
+TTTAAAAGTTAAAGCAGAACTGCGTTTACAAAGTAGAGTTGGTTGCTATAGTCCAGTGTATTGTATAAATACCACAGAGA
+GACATAAAGTACCTTCACCAGAAAATATACAAATCAATGCTGACAACCAGATCTATGTTCTTAAGTGGGATTACCCATAT
+GAAAACGCAACTTTTCAAGCTCAGTGGCTCCGTGCCTTTTTTAAAAAGATTCCTGGGAATCATTCAGACAAATGGAAACA
+AATACCGAACTGTGAAAATGTCACAAGTACCCACTGTGTCTTTCCTCGAGAGGTTTCCTCAAGGGGAATTTACTATGTCC
+GTGTACGAGCATCTAATGGAAATGGTACCTCTTTTTGGTCTGAAGAGAAGGAATTTAATACTGAAATGAAAACTATCATA
+TTTCCTCCAGTCATCAGCGTGAAATCCGTTACTGATGATTCACTGCATGTCAGTGTTGGTGCTTCAGAAGAGTCTGAAAA
+CATGTCTGTGAATCAGCTCTACCCGCTAATTTATGAAGTAATTTTTTGGGAAAACACTTCAAATGCTGAGAGAAAAGTTC
+TAGAGAAAAGAACCAATTTTATCTTTCCTGACTTGAAACCGCTGACTGTGTATTGTGTCAAAGCCAGAGCACTCATTGAA
+AATGACAGGCGGAATAAAGGGAGCAGTTTTAGTGATACTGTGTGTGAGAAAACAAAACCAGGAAATACTTCCAAAACCTG
+GCTTATAGTTGGAACTTGCACTGCATTGTTTTCTATTCCTGTGGTCATTTATGTTGTGAGCGTCTTCTTGAGATGTGTCA
+AGTATGTGTTCTTTCCATCAAGTAAACCTCCTTCCTCTGTTGACGAGTATTTCTCCGATCAGCCACTAAGGAATCTACTC
+CTTTCCACTTCTGAGGAACAAACGGAAAGATGTTTTATAATTGAAAATGCAAGCATTATTACTGAAATAGAAGAGACTGA
+TGAAATTGATGAAGTTCACAAAAAGTACAGTTCCCAAACTAGTCAAGATTCAGGAAACTATTCAAACGAAGATGAAAACA
+GTGGAAGCAAAATAAGCGAAGAGTTTCCGCAACAGGACAGTGTGTGACCAGGAATGACCCTGAAACATTAGGGAGTCTTG
+CAAGAGTCAGAGTGGGAGCCTGGGCTTTTTGCTCTTCTCAGTAACTGTCAAAAGAAGATTGTCCGTGTCGGGGAAGAAAA
+AGCGTCTTCAGATCGCAGGTCCAAAAAATACAGGCAAGCACTTCACTATTTAAAATGAATTTCAAGAAGTTTTCTGCGTC
+CTTTGCCACGTGTCAAGTCTTGAAAGGCCTGTCATTGGACCTGCCTTGGATGAGAGGCGTTAAGTCCAGAAGATACCCTC
+TGTCTCCCTCACGCTACTGTAAGCAGCCCTGTGCTGGCGTGGGGTTTGGGGGTGCTTGTGTTCCCATCAGCTGGTGCTGT
+CGCTGTGTAACGCTGCGCTGCTCCCTCTCCCCCACAGCATTATAGTTCACTATTTTTCAGGAGATATTCAGAACATTTGG
+TCTTCTTCAAAGAAGAACCTGAATACCACCATCACTTGATTTTCTGAAAAAGTAGCTTACTCTGGAAAACAGCTGCAGAT
+GCCAGAAACGAGGTTCTTATAGATTTTTCAGGGGGATTCTCTCTGTTTATACCAATCACATTTATACCAGTTGCAAGAAA
+TGTGGGTTCAGTCCTTGGGTCGGGAAGATCCTCTAGAGGAGGGCATGGCAACTCACTCCAGTATTCATGCCTGGAAAATC
+CCATAGGCGGAGAAGCCTGGCGGGCTACAGTCCACGAGGTCACAGAGAGTCGGACACTGAAGCGACTGAACGTGCATACA
+CGCGTACCAATTACATTGGCCTTTGCATCACAGTTACCCATCCCTTCTACAGTTTAGAATTAAAACCATGTCATCTTTTA
+CTATATGTACATTAAGGCTTCCTGTTTCAGAACATTAGGACACTAGCTTCTGATTAGAAGGCATAATCCCTAAAATTACA
+GAGAAATGGGGAACAGGCTGAGTAGAGAAGTTACTGTTATCTCTTAGGATATGGGAGTGTGGAACGTTAGTGGCAGTGTA
+TGTAAAGTCTTGGGATCAGAAAATGCTACTGAGAAACAGTAAGTAGTGTGAGTCAGTGGGAAAGAAGCAGGTAGCTTTAG
+TGAAAAATAAGAATAATGTGCATCGTCAGCTTCTGATTACTAACATCCTGAGGGGTGGCATTTGTTTTCACGGCTCATCT
+GTGTCACTTCTTAACATAAGCTGGCCGGCTTCTGTCCACTGTGGGGCAATATTCACAGGCATGCAGGTATCGCTTCCGCT
+CAGCCTGCATGCACTCAAGGAAATGCAAGTTATTTATCATCAGAGTGTGGGAGGAAATGAACTAGGAAGGAAACCTGAGT
+TTTTAAAATTATGTAAAACCTCTCAAAGGCATCTATAATTTATGTTTAAATGATTTTGCTGTTTGGGCTTATTCATGGAG
+TTCCTGCAGAGAAAGGAAGTGTAGGAATTC
+>ref|ref|X16701.1|| Bovine Ig germline heavy chain gamma-1-chain gene C-region, 3' end
+AAGCTGTGTCCAGACACCCCAACTGCAGTACAGTACAGAGAGCCGGGTGGCCACCATGCCGGCCGGTCATCAGACCCTGG
+AAGCAGGTGGTGGCTGGGCTCAGAGGTGCCCCAGGCCTGGCTCCTGAGGTCCTGCTGGACCCACATTCACCCAGCCTCCT
+CTCTCACAGCCTCCACCACAGCCCCGAAAGTCTACCCTCTGAGTTCTTGCTGCGGGGACAAGTCCAGCTCCACCGTGACC
+CTGGGCTGCCTGGTCTCCAGCTACATGCCCGAGCCGGTGACCGTGACCTGGAACTCGGGTGCCCTGAAGAGCGGCGTGCA
+CACCTTCCCGGCCGTCCTTCAGTCCTCCGGGCTGTACTCTCTCAGCAGCATGGTGACCGTGCCCGGCAGCACCTCAGGAC
+AGACCTTCACCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGGTGGACAAGGCTGTTGGTGAGAAGATGGTCCCCGGG
+GAGGTGTCCACTCCAGGAGACCAGGGTCAGCCCCACTGCCTGCAGGGGCCCCACCCCCGGGGTGCTGTGAACCAGGCCCA
+GTGTGTCAGGGGAGGCCCTGTCTGTCTCTCTCCTACAGTCTTGCAGGCTTGGGGAGGGGGTTGTCTGGAGTTTCCGCCAG
+GTCCACGGTGGGCAGGCAGGGTCAACGTCCACACAGCCTGGACCCACAGAGACGGGCCCTGGGCTCAGACCTGCTAAAAC
+CCGTCCCTGCCCTAAGCCCAGCCCATGGCTTCCTGCCCCTGGTAACCCCCAGTCTGCTCTCTCTGCAGATCCCACATGCA
+AACCATCACCCTGTGACTGTTGCCCACGTAAGTCACCCAGTCTCCCCATCACACCCCAGATGTGGACAGGGCCCAGGAGG
+GCCACAGGTGAGGCTGTGGGGGCCCAAGAGTGAGTCTGCCCAGGGGCTGACAACTGTTATGTCTTCCCCAAAGCCCCTGA
+GCTCCCCGGAGGACCCTCTGTCTTCATCTTCCCACCGAAACCCAAGGACACCCTCACAATCTCGGGAACGCCCGAGGTCA
+CGTGTGTGGTGGTGGACGTGGGCCACGATGACCCCGAGGTGAAGTTCTCCTGGTTCGTGGACGACGTGGAGGTAAACACA
+GCCACGACGAAGCCGAGAGAGGAGCAGTTCAACAGCACCTACCGCGTGGTCAGCGCCCTGCGCATCCAGCACCAGGACTG
+GACTGGAGGAAAGGAGTTCAAGTGCAAGGTCCACAACGAAGGCCTCCCGGCCCCCATCGTGAGGACCATCTCCAGGACCA
+AAGGTGGGCCAGGTGGACGGGACCGGGAGGCCCATGGGCCAATCAGAGTGACCGCTGTGCTAACAGCCTTCCTGTCCCCA
+CAGGGCCGGCCCGGGAGCCGCAGGTGTATGTCCTGGCCCCACCCCAGGAAGAGCTCAGCAAAAGCACGGTCAGCCTCACC
+TGCATGGTCACCAGCTTCTACCCAGACTACATCGCCGTGGAGTGGCAGAGAAACGGGCAGCCTGAGTCGGAGGACAAGTA
+CGGCACGACCCCGCCCCAGCTGGACGCCGACAGCTCCTACTTCCTGTACAGCAAGCTCAGGGTGGACAGGAACAGCTGGC
+AGGAAGGAGACACCTACACGTGTGTGGTGATGCACGAGGCCCTGCACAATCACTACACGCAGAAGTCCACCTCTAAGTCT
+GCGGGTAAATGAGCCTCACGTCCCTGCACCAGCAAGCCCTCACCCAGCCCACCCTCCCCGGGCTCCAGGTCCAGCCAGGA
+CGCCCTAGCCCCTCCCTGTGTGCATTCCTCCTGGGCCGCCGTGAATAAAGCACCCAGGCCGCCCTGGACC
+>ref|ref|X16702.1|| Bovine Ig germline heavy chain gamma-2-chain gene C-region, 3' end
+CCACCATGCCGGCCGGTCATCAGACCCTGGAAGCAGGTGGTGGCTGGGCTCGGAGGTGCCCCAGGCCTGGGCACCTGAGG
+TCCTGCTGGACCCCGCATTCACCCAGCCTCCTCTCTCACAGCCTCCACCACAGCCCCGAAAGTCTACCCTCTGAGTTCTT
+GCTGCGGGGACAAGTCCAGCTCGGGGGTGACCCTGGGCTGCCTGGTCTCCAGCTACATGCCCGAGCCGGTGACCGTGACC
+TGGAACTCGGGTGCCCTGAAGAGCGGCGTGCACACCTTCCCGGCCGTCCTTCAGTCCTCCGGGCTCTACTCTCTCAGCAG
+CATGGTGACCGTGCCCGCCAGCAGCTCAGGAACCCAGACCTTCACCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGG
+TGGACAAGGCTGTTGGTGAGAAGATGGTCCCCGGGGAGGTGTCCACTCCAGGAGACCAGGGTCAGCCCCACTGCCTGCAG
+GGGCCCCACCCCCGGGGTGCTGTGAACCAGGCCCAGTGTGTCAGGGGAGGCCCTGTCTGTCTCTCTCCTGACAGTCTTGC
+AGGCTTGGGGAGGGGGTTGTCTGGAGTTTCCGCCAGGTCCAGGGTGGCCGCAAGTGGGTCGATGTCCACACGCCTGGACC
+CACAGAGACGGGCCCTGGGCTCAGACCTGCTAAAACCCGTCCCTGCCCTAAGCCCAGCCCATGCTTCCTGCCCCTGGTAA
+CCCCCAGTCTGCTCTCTCTGCAGGGGTCTCCAGTGACTGCTCCAAGCCTAATAACCAGCATTGTAAGTCGGGAAACCTTT
+TCTCCATCCAGCGGATGTGAACAGCACCAGGAGGACTCAGGGTGTGCGGGTGGAGGGGGATGGCTGCCTTGGATGAGTGA
+GACCCCGATACTAATCTCCTGCCATGTCTCTGCCATTAGGCGTGAGGGAACCATCTGTCTTCATCTTCCCACCGAAACCC
+AAAGACACCCTGATGATCACAGGAACGCCCGAGGTCACGTGTGTGGTGGTGAACGTGGGCCACGATAACCCCGAGGTGCA
+GTTCTCCTGGTTCGTGGACGACGTGGAGGTGCACACGGCCAGGACGAAGCCGAGAGAGGAGCAGTTCAACAGCACGTACC
+GCGTGGTCAGCGCCCTGCCCATCCAGCACCAGGACTGGACTGGAGGAAAGGAGTTCAAGTGCAAGGTCAACATCAAAGGC
+CTCTCGGCCTCCATCGTGAGGATCATCTCCAGGAGCAAAGGTGGGCCAGGTGGACGGGACCGGGAGGCCATGGGCCAATC
+AGAGTGACCGCTGTGCTAACAGCCTTCCTGTCCCCACAGGGCCGGCCCGGGAGCCGCAGGTGTATGTCCTGGACCCACCC
+AAGGAAGAGCTCAGCAAAAGCACGGTCAGCCTCACCTGCATGGTCATCGGCTTCTACCCAGAAGATGTAGACGTGGAGTG
+GCAGAGAGACCGGCAGACTGAGTCGGAGGACAAGTACCGCACGACCCCGCCCCAGCTGGACGCCGACCGCTCCTACTTCC
+TGTACAGCAAGCTCAGGGTGGACAGGAACAGCTGGCAGAGAGGAGACACCTACACGTGTGTGGTGATGCACGAGGCCCTG
+CACAATCACTACATGCAGAAGTCCACCTCTAAGTCTGCGGGTAAATGAGCCTCACGTCCCTGCACCAGCAAGCCCTCACC
+CAGCCCACCCTCCCCGGGCTCCAGGTCCAGCCAGGACGCCCTAGCCCCTCCCTGTGTGCATTCCTCCTGGGCCCGCCGTG
+AATAAAGCACCAGGCCGCCCTGGACCCTGCAACGCTGTGCTGGTTCTTTCCGAGGTAGAGCCCTGGTGCCGCCAGGCTGC
+GGGGGTGGGCTGAGCCGACTCTGGGCCACTTTGTTCAGCATCTGTGGGGGAGCTGACCCCACTCCGGGCCAGACACACAG
+TGAGTGGGTCCAGCAGGCCACCTGGGGGCTGCCCAAGGCCACAGAGGGGCTTGGGGGCG
+>ref|ref|NM_174827.2|| Bos taurus cathelicidin 4 (CATHL4), mRNA
X67340.1 Bos taurus mRNA for cathelicidin (CATHL4 gene)
+AGACTGGGGACCATGCAGACCCAGAGGGCCAGCCTCTCACTGGGGCGGTGGTCGCTGTGGCTACTGCTGCTGGGACTAGT
+GGTGCCCTCGGCCAGCGCCCAAGCCCTCAGCTACAGGGAGGCCGTGCTTCGTGCTGTGGATCAGCTCAATGAGCTGTCCT
+CAGAAGCTAATCTCTACCGCCTCCTGGAGCTAGACCCACCTCCCAAGGATAATGAAGATCTGGGCACTCGAAAGCCTGTG
+AGCTTCACGGTGAAGGAGACTGTGTGCCCCAGGACGATTCAGCAGCCCGCGGAGCAGTGTGACTTCAAGGAGAAAGGGCG
+GGTGAAACAGTGTGTGGGGACAGTCACCCTGGACCCATCCAATGACCAGTTTGACCTAAACTGTAATGAGCTCCAGAGTG
+TCATCCTACCCTGGAAATGGCCATGGTGGCCTTGGCGCAGAGGTTGATGGAGAAGAGCTGTCAGATCCTGAGCCTCGGGA
+AGAGTCTTAAGTGTCTGATTTGTTCAGATTCGGGCTTCTGGACAGTGAAAATAAATTCTTGTGAAAACGG
+>ref|ref|Z11749.1|| B.taurus DNA for interleukin 6 gene 5' flank (promoter)
+AGATCTTCTGCATGAAACCAAGGACCCTCTTGCAAAAGATATTGTAAGAACCGAGGAAGCCTCTACTAGCTCAACCCAAC
+ATGGAAGCCTGAGGCATTGGAGGGGAAGTGTGATTCCAAACCCAGAGTCCTGTTCTATCAGTAGATTTCTTCTCAGTTGC
+CTCTGGATTCAAATCAAGTCATACAGCTATGAACACAAGCTCCAGAAAATGCCACAAGATCCTCCTCTGACATACTACCA
+AAGAGGTGAGTGGTATTCTCCCTACTTCTACCCTGAACCCAGTGGGTGTCAGTAAATTGAGGACACCAGCAGACCCAGAC
+CCAGGGTCCTCCCAGTGGGAGCAGGATCACCCTATAGCCAGTGGTAGGGATAGCACCAGCATCACAAGACAACCTCCTTG
+GACAGAGATCAGGGTCTTCACGGGGAACATCCCCAAAAGGCCACTAGGGAATGAGCAGGGCTGTGACGGATCTGGCCCAA
+GTGAGCAGGCGCAGGTGAGGAGGAAGCTGGCAGATGCCTCGTGGCGGCATTTATGTGTGAACCCCCACTGCACCTGGAGA
+CTCCTAGAGAACGTCCACAAGATGTGGGGGGAGTCAGGAGGTTCTGCAACAGCTGGCCACAGTGAGAGCCAGGAAATAAC
+AGTACTGCTGAGGGCTCACAGTATCCTTTTTGAGGGAGTGGAGGGATGGAGAGGCTCATAGTATATTATTTGTAATCCCA
+GGCCAGCAGGCTGTGGAGTGGTCTGAGGAAACTGAGGTCAGAACATCTTAGGTTTTTTACAAATACAAATAAACTGGAAT
+ACTAAAGCCTAACCAGTGGTAATTAAAGTATTTTTAAAATCAGTCAGCCTTAGCTTCTCCCCACCCGCTACCCCTCTAAA
+ACTCTGTGCATGATTTCAGCTTTACTTTTTCTCAAGACATGCTAATGTGCTGAGTCACTAAAAAAAAAAAGTAAAGAAAG
+AGTGATCCAGCTTCTGAGGACTAGCTTTAGTAATGATCTAAGCTTCTACGCGGCACTTTTTGCCCTGGTTTGATTCCTGT
+GATGCTAAAGGACGTCACATTGAGCAATCTTAATAAGGTTTCCAATCAGCCCCACCCGCTCTGGCCCCACCCCCACCCTC
+CAACAAAGATTTATCAAATGTGGGATTTTCCCATGAGTCTCAATATTAGAGTCTCAACCCCCAATAAATATGAGACCGGG
+GATGTCTGAGACTCAGTCTGCCCTCGGGCCCACCAGGAACGAAAGAGAGCTC
+>ref|ref|X04152.1|| B.taursu cytokeratin 19 gene 5'-flank and exon 1 (and joined CDS)
+CCATGGTCAGTATGAGCCCCTTCCTGGCAATCCATCTATTCATCCGGGTACTAGGACAGGACAAACAGACTCAAGAGGAT
+TCGGCCTTTGACACCCTGCTTGGAGATGCTCACAAGGACAGAGGGATTCTATCCTGTCTCTGGGCAGCAGGTGCTAAAAG
+TCTCCTGAGTGAGTTGCTTGACTAGCTTAGGCTCAGAATGTATGCCTTTGGAGTTGGAGGTAGAGGGTTGTCCTGGTAGA
+GGGGTGAGTAGGAGGAGGAGGCGCGAACAGGGGTCAGCCCTCAGGTTGGGGGTCCAGGGTAATTGTGCTTTAACGAATCC
+AGTTGCAGATACCCTCCCAACAGCTGAAGGCCCGGGAGCCTCTTGTCACCCTGGGGCCCTGTCCAGCCATAATAGGGTGG
+GGTGGCTTTGTCTCAGGAGGCCTGGGAGGTTGCAGCTCAGAGTACCTCCATCTGGGGTACTTGAGGGGGGGCCAAGGCAT
+GGGCGAGCCCAAGGGTCAGCTTCAGAGAGGTGGTAATTCCCAGGGGGATGTAGGAATCAGGAGAATGTACTTTTGGGGGG
+GGTTAATTTTGCTTATAAGTAAGGGGGTCGGAGTATGATGGGGAAGGGGACTCTGAGTGAGTGATCTGTACTCTCAGAAG
+GACTGTAATTCCTGGGGGGTGTCAAACTCAGGGTGATCTTAATGGGGGGCAGCATGTGAACTGCGGGGGTGTCTAAGTGT
+GAGTGTGCTAGCGGGACTGGGGCTCGGAATGGGCTAAGGCAGCTGTCGGGAGGGCAGGAGCCTCTGGCCCCTGGGAGGGG
+AGAGGAGGAAGCTGAGCCGCCAAGAACTGACCAATGGGGAGAGCGCCCTTATTTGCAATCAGGAGCCTGCAAATTCCAGG
+GCGCTCAGATAGTCCGTCCTGACACCGTCCCCCCTCCCCCTCCCCCGCCCGCCCAGGGCATAAAAGGCGCCAGGTGAGGG
+CCTCTCGCCACTCCTCCTGCGGACGGACCGCAGCCACTCCGACCGGTGCCGCCTCGTCCTGCTTCGCCATGACTTCCTAC
+AGCTATCGCCAGTCGTCGTCCACCTCGTCCTTCGGGGGTATGGGCGGCGGCTCCATGCGCTTCGGGGCTGGAGGCGCCTT
+CCGCGCGCCCAGCATCCATGGGGGCTCAGGTGGCCGCGGCGTGTCGGTGTCCTCCGCCCGCTTCGTGTCCTCGTCCTCCG
+GGGGCTACGGCGGCGGCTATGGGGGCGCCCTGGCCACCTCCGACGGGCTGCTGGCGGGCAACGAGAAGCTCACCATGCAG
+AACCTCAACGACCGCCTGGCCTCCTACCTGGAGAAGGTGCGCGCCCTGGAGGAGGCCAACGGCGACTTGGAGGTGAAGAT
+CCGCGACTGGTACCAGAAGCAGGGGCCCGGGCCCGCCCGCGACTACAGCCACTACTTCAAGACCATAGAGGACCTGCGGG
+ACCAGGTGGGCGGTGGTCCGGCTTGGGGAAGTGCACCTGCCGCGGAAACCCAGCCCCGCGGGCGGGCGAGGCCGGGCGGG
+GGCGGCGGGTGCCCGAGCCACCTTCCGGCGGGGCGGGAGCGAGCCCGTTAGGATGTGGGAGGCCCACAGGGTGGGGCTGA
+ACGAAGCCGGCAGGTGAGGAGGGGCAGGGCGGTGGGCCTAGGAAGTGAGGCTTGGAGGGCGGGG
+>ref|ref|X04198.1|| B.taurus cytokeratin 19 gene exons 2-6 and 3'-flank
+TTCTCCTGTTCCAGCTCTCAGGCCTGGACTGATTTTAAGGCTGCCCAGAGAGAGCAGGCAGCCTGGGGTTGCTGGAGCTT
+TGGTCTCCAGGGGCCCGGGGACACACACACTCCTTTGCTTCTCTGGGAAGAAAGTGGGTGGGCATTGCCCATATGCTGAG
+CTGGTGCCAACCTCTTGCATTCTGCCTCCCAGATTCTCGGTGCCACCATTGAGAACTCCAAGATAGTCCTGCAGATCGAC
+AATGCCCGTCTGGCTGCAGATGACTTCCGCACCAAGTGAGTGTCTCTACTTTGGGGGCTGCAGAAGCCAGAGCAGGGGAG
+GGGAGGCAGTCCCTTCGGGGGCTCAGAGCCATGGAGGGAAATGGATGCCTCCCTCACCAACCCTAGCTGGTCTAAAGCAC
+TCTCCATCCCCCATGGGACCTTGAGCCCTGGGGAGGTGGGGAGATCTTCAGAGGTGCAGAGGAAATGCTGGCATGACTAT
+GACTATTTTCTCTGAAAGGTTTGAGACGGAGCAAGCTTTGCGCATGAGTGTGGAGGCTGACATCAATGGCCTGCGCCGGG
+TGCTGGATGAGCTGACCCTGGCCAGGACTGACCTGGAGATGCAGATTGAAGGCCTGAAGGAGGAGCTGGCCTACCTGAAG
+AAGAACCACGAGGAGGTGGGTTTCATGCTGGGCATCCCATCCACCCTAGCCCAGTTCCCCAGATAAGGACATTTTTAGCC
+TGTACCCTCTGACTGCGGCCACATTTGTGGCCCTCTTGACCTGACCCTGAGTGTGGATTGTGGCTCTCAAGAGTTCTAAC
+AGCAGATGGTGGTGACTCCGTCTGTCCCCCGGTGCTGGGTCCTAGGTCTGCACCTGAAAACCGGCCTCTCCCGCCATGGC
+CTGGGGTACTGAGGAGTGACCTGGCTCAGGGCCAGCAGGCTCTGGGCCCTGACATGCCCATCTCTGCTGTATCTTTCCAG
+GAAATGAGTGTGCTGAAGGGCCAGGTGGGTGGCCAGGTCAGTGTGGAGGTGGATTCTGCTCCGGGCATCGACCTAGCCAA
+GATCCTGAGTGACATGAGAAGCCAATATGAGGTCATTGCTGAGAAGAACCGGAAGGATGCTGAGGCCTGGTTCATCAGCC
+AGGTATGGAGGGGGAGGCAGGTGCTCCCTGGAGGGGTGGCAAGGAGAGGAGGCTTAATGCTCCCGGGCAAGGGTCTGATT
+CAGTGCTATTCCCTTTGCCTCCTTTCATTGCAGACCGAGGAGCTGAACAGGGAGGTCGCTGGCCACACGGAGCAGCTGCA
+GATCAGCAAGACGGAGGTCACCGACCTGCGGCGCACCCTCCAGGGTCTGGAGATCGAGCTGCAGTCTCAGCTCAGCATGG
+TAGGTGCCCTCTGCCCTGTGGGATTCACACTTATGTCCTTGTAGCCTTGGGCAGCCTGGGCGGTGGCTCTGCCTGGACCC
+TTTCTGGGCACCAGGCTCTGCTGAGCCTTCTTCCCTCTCTCTGCGTTCAGAAAGCCGCCCTGGAAGGCACACTGGCGGAA
+ACGGAGGCTCGCTTCGGAGCCCAGCTGGCGCAGATCCAGGCGCTGATCAGTGGTATCGAAGCCCAGCTGAGTGACGTGCG
+AGCTGACACCGAGCGGCAGAACCAGGAGTACCAACACCTCATGGACATCAAGACCCGGCTGGAGCAGGAGATTGCCACCT
+ACCGAAACCTGCTGGAGGGCCAGGATGCCTACTTCAACGACCTGTCACTCGCGAAGGCCCTCTGAGTCTGGCGGCCTCCT
+GGCTTTCCCGCTCTGCTGCAGAAGGAATTCTCCTGGGTAGAGGCATGGGAGGGGAGGGACCCTTACCCTTGCCTCTCCCC
+CTGACCTGCCAATAAAACTTTATGGCCCAAAGGAAGATGGATGTTGGGTTTTTTATTTCAGTCCATGGAGGTGGGCCCGG
+CTTTGGCACTGTTTAGATTTTATTGTCTTGGTTTCATTTGAACCAGAATCCACCGTGTCCCAGGAAAGGGAAGGGAGGGC
+TATCACAAAGTGTAGCTATTACCATAATTTCACTTTCCAGAGGTCTTCACTTATCTCACCGTACCCTAAAACAAGCTT
+>ref|ref|X05048.1|| Bovine gene (5' region) for epidermal cytokeratin IV
+TCACAGATCAGCTCCTTGTCTCCTTTGTTTGAGAGCATGACTAACCCATGACTTCAGTGAATTTACATCCAGTGGTATTG
+TGTTGGGATCAAGTCAAGGCTAGAAGCCAGAAGAATTTCTCCATGACTAAAGGAAACCAAAGAAGCAATATTCATACTTC
+ATACCTTTCTAGAGGCAGGGGGTGATCTCACTATTTGTAAAGCCCAGCCCTTTCTAATCTGCAGGCTCACCTTCCAGGAC
+TGAGCCCGGCCCATTTTTTCCATATATAAGCTGCTGCCGGGCCGCCCTCTATAGATCTGTTCTTTAGCTCTGCTTTCCAC
+CTCTCACACCCTTCTCAACCTATTCTTCTTCAGGAACCATG
+>ref|ref|X05131.1|| Bovine gene (5' region) for epidermal cytokeratin Ib
+CACTTTCACCATTTCAGATTATTTTTAAGGTGTGTTTAGTAGCCCAAAACTAACATTGCCTGGAAGGCAAACCCAACCCA
+TGACTACTTGAGATTAATTATCTCTCCTTCGTTTGAGCCCAGCAGCCTCCTAGATGTATATAAAGGGATTTATCCTGCAC
+AGGTCTTCAGTTTGCTTCTCTCTTCCTCTGGCTCTGAGTGGCCCTGCTTAACTCTTGCACTTTCCCTTCACCGACTTCAC
+TCACCATG
+>ref|ref|X05127.1|| Bovine gene (5' region) for epidermal cytokeratin
+CAATTTGGAAATTTGGAGTGATTACCAAGGTGTGTTTTGAGTTTCGGACTTGACCTCTTTCTGCCAGGCAAACCAAAAGC
+TGATAATACCTCAATTAGTTGGTTGGCACCGCCAGCCAGCCAAGCTCCCAGCCCTATATAAGCGCCACCTCTGGCCCAGA
+GCTTCAGAAGGTCTCCGCGTTTCCGCCAACCTCCCGGTCCGCTCTCCTTTTGAATAACTTGCCGTCCACCATG
+>ref|ref|X01460.1|| Bovine mRNA 3' region for epidermal keratin VIb
+GGTGATGTGAATGTGGAAATGAATGCTGCCCCAGGTGTTGATCTCACTGAACTTCTGAATAACATGAGAAGCCAATATGA
+ACAACTTGCCGAGAAAAATCGCAGAGACGCCGAAGCCTGGTTCAATGAAAAGAGCAAGGAACTCACTACGGAAATCAACA
+GTAACCTTGAACAAGTATCGAGCCATAAATCTGAGATTACTGAGTTGAGACGCACTATTCAAGGCCTGGAGATTGAGCTA
+CAGTCCCAACTAGCCCTAAAACAATCCCTGGAAGCCTCCTTGGCAGAGACAGAAGGTCGCTATTGTGTGCAGCTCTCTCA
+GATTCAGTCCCAGATCTCCTCTCTGGAAGAACAACTGCAACAGATTCGAGCTGAGACTGAGTGCCAGAATGCCGAGTACC
+AACAACTCCTGGATATTAAGATACGACTGGAGAATGAAATTCAAACCTACCGCAGCCTGCTAGAAGGAGAGGGAAGTTCC
+GGCGGCGGCTCCTACGGCGGCGGGCGCGGCTATGGCGGAAGTTCCGGCGGCGGCGGCGGCGGCTACGGCGGCGGAAGTCC
+AGCGGCGGCTACGGCGGCGGAAGTCCAGCGGTGGCGGCCACGGCGGTAGTTCCGGCGGCAGTACGGCGGCGGAAGTCCAG
+TGGCGGTGGCCAGGCGGCGGAAGTCCAGCGGAGGCCACAAATCCACCACTACAGGGTCCGTTGGAGAGTCCTCATCTAAG
+GGACCAAGATACTAACAAAACCAGAGTGATCAAGACAATTATTGAGGAGTTGGCACCTGATGGTAGAGTCCTTTCATCTA
+TGGTTGAATCGGAAACCAAGAAACACTACTATTAAGCCGCATTAAGAGGAAAGAGTCTCCCCTCACACAGGCCATTATGC
+ATAGATGCATGAAAAAAAATCTCCAAGAAAACACTTCAGTCTTAATGGCCTATGGAAATAGGTCCACTCCTTGATCATAA
+GGTGTCTAAACGGTGTTTTGTGGTTTCTGTATTTCTCCTTTTCACTTTACCAAAAAGTATTCTTTACTTTTTGGAAAAAA
+AGAAAAAACTTTCTATTCTCATTTACTAATGAATTTCAATAAACTTTCTTACTGATGCACT
+>ref|ref|X01461.1|| Bovine mRNA 3'-region for epidermal keratin VII
+AGCGTGGAAGAGCAGCTCGCCCAGCTGCGCTGCGAGATGGAGCAGCAGAACCAGGAGTACAAGATCCTGCTGGACGTGAA
+GACCCGGCTGGAGCAGGAGATCGCCACCTACCGCCGCCTGCTGGAGGGCGAGGACGCCCACCTCTCCTCTTCCCAGTTCT
+CCTCTGGCTCTCAGTCATCCAGAGATGTATCCTCCAGTCGCCAGGTTCGCACCAAAGTCGTGGATGTACACGATGGCAAG
+GTGGTGTTCACACACGAGCAGATCGTTCGCACCAAGAACTAAGGCTTCTCCTGCTCATGCCTAGAAAGCACCCCCCAAGT
+GGACACAGATTTCCCTAGGGCATCCCTTCTCCTGTCCCCGCCTCCCCCAAGCACTTGACTCGTGAGCCCTGTTTCACCCT
+TGCCCCTTCCAGCAATCAATAAAGCTTCATTAGCTGAGTTGCCCA
+>ref|ref|V00426.1|| Bovine mRNA for low molecular weight kininogen I precursor
+AGAGGAGACAGAGGCTGAAGCTAGTTAACATCAGTGTCTTGGCTCCCAACTGGCTCCCAATTCCTGGTGAAACTCCTAAA
+GGGAGACTGTTAAATCATGAAATTAATCACCATCCTTTTCCTTTGTTCCAGGCTGCTACCAAGTTTAACCCAAGAGTCCT
+CTCAAGAAATCGACTGCAATGACCAGGATGTATTTAAAGCTGTGGACGCTGCTCTGACAAAATACAACAGTGAAAACAAG
+AGTGGCAACCAGTTTGTATTGTACCGCATAACCGAGGTCGCCAGAATGGATAATCCTGACACATTTTATTCCTTGAAGTA
+CCAAATCAAGGAGGGCGACTGTCCTTTTCAAAGTAACAAAACTTGGCAGGACTGTGACTACAAGGACTCTGCACAAGCTG
+CCACAGGAGAGTGCACAGCGACCGTGGCCAAGAGAGGGAATATGAAGTTCTCCGTGGCTATCCAGACCTGCCTGATCACT
+CCAGCCGAGGGCCCCGTGGTGACAGCCCAGTATGAGTGCCTTGGCTGTGTGCATCCCATATCTACCAAGAGCCCCGACTT
+GGAGCCTGTTCTGAGATATGCCATCCAATATTTTAACAACAACACCAGTCATTCCCACCTCTTTGATCTGAAAGAAGTAA
+AAAGAGCCCAAAGACAGGTGGTGTCTGGATGGAACTATGAAGTTAATTACTCAATTGCACAAACTAATTGTTCCAAGGAG
+GAATTTTCATTCTTAACTCCAGACTGCAAGTCCCTTTCAAGTGGTGATACTGGTGAATGTACAGATAAAGCACATGTAGA
+TGTCAAGCTAAGAATTTCTTCCTTCTCGCAGAAATGTGACCTTTATCCAGTGAAGGATTTTGTACAACCACCCACCAGGC
+TTTGTGCCGGCTGCCCCAAACCTATACCTGTTGACAGCCCAGACCTGGAGGAGCCTCTGAGCCATTCCATCGCAAAGCTT
+AATGCAGAGCATGATGGAACCTTCTATTTCAAGATTGACACTGTGAAAAAAGCAACAGTACAGGTGGTAGCTGGATTGAA
+GTATTCTATTGTGTTCATAGCAAGGGAAACCACATGTTCTAAGGGAAGTAATGAAGAGCTGACCAAGAGTTGTGAGATCA
+ATATACATGGTCAAATTCTACACTGTGATGCTAATGTCTATGTGGTGCCTTGGGAGGAAAAAGTTTACCCTACTGTCAAC
+TGTCAACCACTTGGACAGACCTCACTCATGAAAAGGCCTCCGGGTTTTTCACCTTTCCGATCAGTTCAAGTGATGAAAAC
+TGAAGGAAGCACAACTACGCACGTAAAGTCCTGCGAGTACAAGGGCCGACCTCAAGAGGCAGGGGCAGAGCCAGCACCTC
+AGGGTGAGGTCAGTTTACCGGCAGAATCTCCACAGTTGGCACGATAGACCCAATAACCTCTGTCAGCAGCCCTGCGTGGA
+AGGACGAGAAGATGGGGTAGAATTTAAATAGAGAAGAATGCTGTTTTATCCCTCTGTGACTGACTGAAATAAAGTTCTGT
+CTTTATGTTC
+>ref|ref|X06366.1|| Bovine gene for alpha-lactalbumin
+AAGCTTATATATTTATGAACACATTTATTGCAAGTTGTTAGTTTTAGATTTACAATGTGGTATCTGGCTATTTAGTGGTA
+TTGGTGGTTGGGGATGGGGAGGCTGATAGCATCTCAGAGGGCAGCTAGATACTGTCATACACACTTTTCAAGTTCTCCAT
+TTTTGTGAAATAGAAAGTCTCTGGATCTAAGTTATATGTGATTCTCAGTCTCTGTGGTCATATTCTATTTCTACTCCTGA
+CCACTCAACAAGGAACCAAGATATCAAGGGACACTTGTTTTGTTTCATGCCTGGGTTGAGTGGGCCATGACATATGATGA
+TGTACAGTCCTTTTCCATATTCTGTATGTCTCTAAGAGGAAGGAGGAGTTGGCCGTGGACCCTTTGTGCATTTTCTGATT
+GCTTCACTTGTATTACCCCTGAGGCCCCCTTTGTTCCTGAAATAGGTTGGGCACATCTTGCTTCCTAGAACCAACACTAC
+CAGAAACAACATAAATAAAGCCAAATGGGAAACAGGATCATGTTTGTAACACTCTTTGGGCAGGTAACAATACCTAGTAT
+GGACTAGAGATTCTGGGGAGGAAAGGAAAAGTGGGGTGAAATTACTGAAGGAAGCTCAATGTTTCTTTGTTGGTTTTACT
+GGCCTCTCTTGTCATCCTCTTCCTGGATGTAAGGCTTGATGCCAGGGCCCCTAAGGCTTTTTCCACAAATAAAAGGAGGT
+GAGCAGTGTGGTGACCCCATTTCAGAATCTTGGGGGGTCACCAAAATGATGTCCTTTGTCTCTCTGCTCCTAGTAGGCAT
+CCTATTCCATGCCACCCAGGCTGAACAGTTAACAAAATGTGAGGTGTTCCGGGAGCTGAAAGACTTGAAGGGCTACGGAG
+GTGTCAGTTTGCCTGAATGTGAGTTCCCTGCTATTTTGCTTTGTCCCATAATTCATCCTCTTCACTCTTTCCCTCCATTC
+TCTTCATCCTCTTTTCCCCCTCTACTTTTAATTATCAAACAATTCTCTTATTTGTTTACTCTTTTATTACATTTATTTAT
+CTGCCTCTCCTTTTTCCCATTGTCTGATCCTTTGGAACTCTTTTCACCTTAACAAGATACTCTGTGGTCTGCCATATTTG
+GAGATTGGTTGGAGAGCCTTTTTCGGTCTGGGAATACAGGTCCTCATTTATGCTATACATGAACATCCTTGTGAAATCTC
+TTTTTCGTCTTTCTTTCAGGGGTCTGTACCGCGTTTCATACCAGTGGTTATGACACACAAGCCATAGTACAAAACAATGA
+CAGCACAGAATATGGACTCTTCCAGATAAATAATAAAATTTGGTGCAAAGACGACCAGAACCCTCACTCAAGCAACATCT
+GTAACATCTCCTGTGACAGTGAGTAACTTCTTTTTACTCTGTTCCTGTGTTTTTCTGAAACCTACTCCTGGGATAACCTC
+CTTTTTTTTGGTGTGAAGCACACCTCTGGCTTCACTGCCTTGGACTCCAAATTAACTGTGGGACTTGATAATACCGAGTA
+AGAGGCTCTTAGAATTTTTCATTAACACTAAATCCCCAGACAGTTTCTTAAAGTTCCTGGGTAGGTGACCTGAGCTGTTT
+GGGGATCTTGATGTATAATACCCTGTATTTTCAGACTAAGTTGGTTGATGAAGTTGATAATTCCTAAGGAGCTGCCCCAG
+AGAAGAGAAGGGAGTCCTTACCTAGGGATAGGCATTACTGTATTAAATTTCTCACCCAGAAGGCAACAGGCATAAGCCTC
+TAGTTCAGAGAAAACCAGAGAAGAGGGAAATTCATTATCCTTCTGGGTAATACTTAGCTCTCTCATTTTTTCCACCAGAG
+GCTCCTGCCAGAGTTCCTGGATGATGATCTTACTGATGACATTATGTGTGTCAAGAAGATTCTGGATAAAGTAGGAATTA
+ACTACTGGTGAGTCACCTCTCTATTTTTCACTTAATCTTTCCTCTCTTTCTTCTCAGTCCTTTCGTCCCAGCACTATACT
+CCTTTCTCTCTATTTCTTGGTCTTTTAAGCTAGAATGTAATCTTAAAAACAAAAATCATCAAGCAGACTCCGGTTTCCAA
+TTTTGAAGCTTCACTTACTTCACTCCCGTTAGCAATTTTCCTACCTAAGGGTCCCTAATAGAGGGCTGAGATCCAGGATT
+TCCTTCACCAGGACTTGAACATCTAATTCTACTTGTTCAGTCCTACATCCTAAGGCACGCCCTTTGACCACTGCCCCGCA
+ATTTTCTTGGAGTTTTAAAAAATGGACCTTACTCCACTAAGTGGCTCAGTGTCTCTAGCCATGTGGCTAGGAAAGTCTGT
+CTGTAATTTTAACCCACAGTCTTCCACCTCAGCCTTCCTGGGGATAAAGCTAGATGTAAATCTAACCAAGATCCTGTCAG
+TAATTTGCCTTGTCTCCTTCTTCATGATCAGGTTGGCCCATAAAGCACTCTGTTCTGAGAAGCTGGATCAGTGGCTCTGT
+GAGAAGTTGTGAACACCTGCTGTCTTTGCTGCTTCTGTCCTCTTTCTGTTCCTGGAACTCCTCTGCCCCGTGGCTACCTC
+GTTTTGCTTCTTTGTACCCCCTTGAAGCTAACTCGTCTCTGAGCCCTGGGCCCTGTAGTGACAATGGACATGTAAGGACT
+AATCTCCAGGTGTGCATGAATGGCGCTCTGGACTTTTGACCCTTGCTCGATGTCCCTGATGGCGCTTTTAATGCAACAGT
+ACATATTCCACTTTTGTCCCGAATAAAAAGCCTGATTTTGAGTGGCTGGCTGTATTTTCTTCCTGGTGGGAGAGGGAGGA
+AATAGGGTGAGTAGGTAGACCTGGCCATGGGTCACAGACCCCTTCATCTCTACTAAAGAGGATAGAGAGGCTGAACTTAT
+AACAACTCAAAGATGGAGATTACTTTCTGTATTAATTCAATTCAACAGAGTTTTATTGATCACCTAGCATAATTTAAAGA
+GCTATGGAGGGGATCTAAAGTTGACTAAAAGCATCTCTTACCTAAACTGCTGCTAAGTCACTTCAGTTGTGTCCGACTCT
+GTGTGACCCCATAGACGGTAGCCCACAAGGCTCCCATGTCCCTGGAATTC
+>ref|ref|X57084.1|| Bovine mRNA for lactotransferrin
+CTTCGTTCCGGAGTCGCCCCAGGACGCCAGCCATGAAGCTCTTCGTCCCCGCCCTGCTGTCCCTTGGAGCCCTTGGACTG
+TGTCTGGCTGCCCCGAGGAAAAACGTTCGATGGTGTACCATCTCCCAACCCGAGTGGTTCAAATGCCGCCGATGGCAGTG
+GAGGATGAAGAAGCTGGGTGCTCCCTCTATCACCTGTGTGAGGAGGGCCTTTGCCTTGGAATGTATCCGGGCCATCGCGG
+AGAAAAAGGCGGATGCTGTGACCCTGGATGGTGGCATGGTGTTTGAGGCGGGCCGGGACCCCTACAAACTGCGGCCAGTA
+GCAGCAGAGATCTATGGGACGAAAGAGTCTCCCCAAACCCACTATTATGCTGTGGCCGTCGTGAAGAAGGGCAGCAACTT
+TCAGCTGGACCAGCTGCAAGGCCGGAAGTCCTGCCATACGGGCCTTGGCAGGTCCGCTGGGTGGGTCATCCCTATGGGAA
+TCCTTCGCCCGTACTTGAGCTGGACAGAGTCACTCGAGCCCCCTCCAGGAGCTGTGGCTAAATTCTTCTCTGCCAGCTGT
+GTTCCCTGCATTGATAGACAAGCATACCCCAACCTGTGTCAACTGTGCAAGGGGGAGGGGGAGAACCAGTGTGCCTGCTC
+CTCCCGGGAACCATACTTCGGTTATTCTGGTGCCTTCAAGTGTCTGCAGGACGGGGCTGGAGACGTGGCTTTTGTTAAAG
+AGACGACAGTGTTTGAGAACTTGCCAGAGAAGGCTGACAGGGACCAGTATGAGCTTCTCTGCCTGAACAACAGTCGGGCG
+CCAGTGGATGCGTTCAAGGAGTGCCACCTGGCCCAGGTCCCTTCTCATGCTGTCGTGGCCCGAAGTGTGGATGGCAAGGA
+AGACTTGATCTGGAAGCTTCTCAGCAAGGCGCAGGAGAAATTTGGAAAAAACAAGTCTCGGAGCTTCCAGCTCTTTGGCT
+CTCCACCCGGCCAGAGGGACCTGCTGTTCAAAGACTCTGCTCTTGGGTTTTTGAGGATCCCCTCGAAGGTAGATTCGGCG
+CTGTACCTTGCGTCCCGCTACTTGACCACCTTGAAGAACCTCAGGGAAACTGCGGAGGAGGTGAAGGCGCGGTACACCAG
+GGTCGTGTGGTGTGCCGTGGGACCCGAGGAGCAGAAGAAGTGCCAGCAGTGGAGCCAGCAGAGCGGCCAGAACGTGACCT
+GTGCCACGGCGTCCACCACCGACGACTGCATCGTCCTGGTGCTGAAAGGGGAAGCAGATGCCCTGAACTTGGATGGAGGA
+TATATCTACACTGCGGGCAAGTGTGGCCTGGTGCCTGTCCTGGCAGAGAACCGGAAATCCTCCAAATACAGTAGCCTAGA
+TTGTGTGCTGAGACCAACAGAAGGGTACCTTGCCGTGGCAGTTGTCAAGAAAGCAAATGAGGGGCTCACATGGAATTCTC
+TGAAAGACAAGAAGTCGTGCCACACCGCCGTGGACAGGACTGCAGGCTGGAACATCCCCATGGGCCTGATCGTCAACCAG
+ACAGGCTCCTGCGCATTTGATGAATTCTTTAGTCAGAGCTGTGCCCCTGGGCGTGACCCGAAATCCAGACTCTGTGCCTT
+GTGTGCTGGCGATGACCAGGGCCTGGACAAGTGTGTGCCCAACTCTAAGGAGAAGTACTATGGCTATACCGGGGCTTTCA
+GGTGCCTGGCTGAGGACGTTGGGGACGTTGCCTTTGTGAAAAACGACACAGTCTGGGAGAACACGAATGGAGAGAGCACT
+GCAGACTGGGCTAAGAACTTGAATCGTGAGGACTTCAGGTTGCTCTGCCTCGATGGCACCAGGAAGCCTGTGACGGAGGC
+TCAGAGCTGCCACCTGGCGGTCGCCCCGAATCACGCTGTGGTGTCTCGGAGCGATAGGGCAGCACACGTGAAACAGGTGC
+TGCTCCACCAGCAGGCTCTGTTTGGGAAAAATGGAAAAAACTGCCCGGACAAGTTTTGTTTGTTCAAATCTGAAACCAAA
+AACCTTCTGTTCAATGACAACACTGAGTGTCTGGCCAAACTTGGAGGCAGACCAACGTATGAAGAATATTTGGGGACAGA
+GTATGTCACGGCCATTGCCAACCTGAAAAAATGCTCAACCTCCCCGCTTCTGGAAGCCTGCGCCTTCCTGACGAGGTAAA
+GCCTGCAAAGAAGCTAGCCTGCCTCCCTGGGCCTCAGCTCCTCCCTGCTCTCAGCCCCAATCTCCAGGCGCGAGGGACCT
+TCCTCTCCCTTCCTGAAGTCGGATTTTTGCCAAGCTCATCAGTATTTACAATTCCCTGCTGTCATTTTAGCAAGAAATAA
+AATTAGAAATGCTGTTGATTTTCATTCCCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+AAAAA
+>ref|ref|NM_175782.1|| Bos taurus galectin 1 (LGALS1), mRNA
X14330.1 Bovine mRNA for galactose-binding lectin
+AGCTGGTGCCGAAGTTTCAGGAACATCCTCCTCTCTCCAATCATGGCTTGTGGTCTGGTCGCCAGCAACCTGAATCTCAA
+ACCTGGGGAGTGCCTCAGAGTGCGGGGCGAGGTGGCCGCAGACGCCAAGAGCTTCTTGCTGAACCTGGGCAAAGACGACA
+ACAACCTGTGCCTCCACTTCAACCCTCGTTTCAACGCGCATGGGGACGTCAACACCATCGTGTGTAACAGCAAGGACGCT
+GGGGCCTGGGGGGCCGAGCAGAGGGAATCTGCCTTCCCCTTCCAGCCTGGAAGTGTCGTGGAGGTATGCATCTCCTTCAA
+CCAGACGGACCTAACCATCAAGCTGCCTGATGGATACGAATTCAAGTTCCCCAACCGCCTCAACCTGGAGGCCATCAACT
+ACCTGTCTGCAGGTGGTGACTTCAAGATCAAGTGTGTGGCCTTTGAGTGACATATGGGCCAGCCAGCCCATGGCCCCAAT
+AAAGGCAGCTGCCTGTGCTCCCCCTG
+>ref|ref|X14712.1|| Bovine mRNA for beta-lactoglobulin
+ACTCCACTCCCTGCAGAGCTCAGAAGCGTGATCCCGGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGGCCCTCACCTG
+TGGCGCCCAGGCCCTCATCGTCACCCAGACCATGAAGGGCCTGGATATCCAGAAGGTGGCGGGGACTTGGTACTCCTTGG
+CCATGGCGGCCAGCGACATCTCCCTGCTGGACGCCCAGAGTGCCCCCCTGAGAGTGTATGTGGAGGAGCTGAAGCCCACC
+CCTGAGGGCGACCTGGAGATCCTGCTGCAGAAATGGGAGAATGATGAGTGTGCTCAGAAGAAGATCATTGCAGAAAAAAC
+CAAGATCCCTGCGGTGTTCAAGATCGATGCCTTGAACGAGAACAAAGTCCTTGTGCTGGACACCGACTACAAAAAGTACC
+TGCTCGTCTGCATGGAGAACAGTGCTGAGCCCGAGCAAAGCCTGGTCTGCCAGTGCCTGGTCAGGACCCCGGAGGTGGAC
+GACGAGGCCCTGGAGAAATTCGACAAAGCCCTCAAGGCCCTGCCCATGCACATCCGGCTGTCCTTCAACCCAACCCAGCT
+GGAGGAGCAGTGCCACATCTAGGTGAGCCCCTGCCGGCGCCTCTGGGAGCCCGGGAGCCTTGGCCCCTCTGGGGACAGAC
+GATGTCATCCCCGCCTGCCCCATCAGGGGACCAGGAGGAACCGGGACCACATTCACCCCTCCTGGGACCCAGGCCCCTCC
+AGGCCCCTCCTGGGGCCTCCTGCTTGGGGCCGCTCCTCCTTCAGCAATAAAGGCATAAACCTGTGCTCTC
+>ref|ref|X51933.1|| Bovine mRNA for mammary derived growth inhibitor
+TTCTCTGTCGTCTTTCCCAACCTAGCCCAGCTTCACCATGGTGGACGCCTTCGTGGGTACCTGGAAGTTAGTGGACAGCA
+AGAATTTCGATGACTACATGAAGTCACTCGGTGTCGGTTTTGCTACCAGGCAGGTGGGCAATATGACCAAGCCTACCACA
+ATCATCGAAGTGAATGGGGACACAGTCATCATAAAAACACAAAGCACCTTCAAGAACACAGAGATCAGCTTCAAGCTGGG
+AGTCGAGTTCGATGAGACCACAGCAGATGACAGGAAAGTCAAGTCCATCGTGACGCTGGATGGCGGCAAACTTGTCCACG
+TGCAGAAGTGGAATGGACAAGAGACATCACTTGTGCGGGAAATGGTTGACGGGAAACTCATTCTGACACTCACCCATGGC
+ACTGCAGTTTGCACTCGTACTTACGAGAAACAGGCATGACCTGCCCTCTCCTTCCACTGACTGCTCTTCTGCCAGTGGGC
+TACTCCTGGACTCGGCACCAGATTGCCTCATTTTTCTCCTCTGGCATTTTGTATAAATCCACCTTGACTGGGGAAATTCT
+CCTGGGGTCAGGTGGCACCAGCCTGGATCCAGTTCCGTTCTCATTGTGTCTGTTTGTTTTTTTAACTGCATCCAAAGGGT
+GCTCTGAGGTCAATAAAGCAGAGCCAAGGCC
+>ref|ref|X07363.1|| Bovine mRNA for matrix Gla protein (MGP)
+ACACCATGAAGAGCCTGCTCCTTCTCTCCATCCTGGCTGCCTTGGCCGTGGCAGCTCTGTGTTATGAATCTCACGAAAGC
+CTGGAATCCTATGAAATCAATCCCTTCATTAACAGGAGAAACGCTAACAGCTTTATATCACCACAACAGAGATGGAGAGC
+AAAAGCCCAAGAGAGAATCCGAGAACTCAACAAGCCTCAATACGAGCTCAACCGGGAAGCTTGTGATGACTTCAAACTTT
+GCGAACGCTATGCCATGGTGTATGGATACAATGCTGCCTACGACCGTTATTTCCGGCAGCGCCGAGGGGCCAAATGAGAC
+TGGACAAAAGTCTCTTTCCAGAGCCTGGTGCCTGGTTTTGTATTCCCTTGCAGTAGCATTACTGAACTATATAGAAACAT
+ATGAATCGCTTAATTGTTCCTTAAACGTTCTTGTCTGGCTGCATCCCTCTTTCCTGCCCACAGGTTGAAAAGTAATGAAT
+ATGAAACGAAGTGAAGGTC
+>ref|ref|X67825.1|| B.taurus microsatellite DNA (295 bp)
+TAGAATTCTTTTGACAGAGAATTCTTGTGTGTGTGTGTGTGTGTGTGTATACATTTGGTCTCTCAGTCGAGACCAACTCT
+TTGCGACCTCATAGACTGTAGCCCGCCATTCTCCTCTGCCCATGGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCC
+ATGCCCTCCTCCAGGGGAATCTTCCCAACTCAGGGATTAAACATAGGTCTCTGGCATTGAAGGTGGATTCTTTACCATCT
+GAGTCACCAGGGAAGCCCATGAATACTGGAGTGGGTAGGCTATCCTTTTGCAAGG
+>ref|ref|X67824.1|| B.taurus microsatellite DNA (247 bp)
+TGTCGACTTGTCTCTTTCCACTTGGAGAAGGTTTCCTGTATGAACCCAGGAGAAACAGGAAGCTGGTGATTATCAGGATA
+GTATCTGTCTCCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCAGTCACGTCCAGCTCTTTGCAACCCTATGGACC
+GTAGCCCACCAGGCTCCTCTGTCCATGAATTTCCAGGCAAGCAATACTGGAGCTGGTTGCCATTTCCTACTCCATCTCTC
+TCCCTTT
+>ref|ref|X67823.1|| B.taurus microsatellite DNA (549 bp)
+GATCTGTAGAGCATCTCCATGAAGAATTCAGCAGAAGAGTGACCATTCACAGCATCAACATTGGCAACTCACGAGACAGT
+TTTTCTTCCCTGGAAAACTGTATTCTCTAATAGCTACTACTAGAAGATTTAGAAAACTTGCCTTTTCCATCACACATACA
+CACACACGCACATGACGCACGTGACACACACACACACACATACACACACACACACACACACACACACACTCTTTCCTAGT
+ATACTATAATTTACAAAGGAATGGAGATATGTCTTGCTATTTTTTGAGCAGCCAATGGTTCCTACTGTTTGTACAGAGTA
+TATGCCAAATAAATGCATTCCTGGAGTTGAATAGTAACATTCTATTAATATACCACTTGGTTTATATATATTCCCAGTCT
+CTGGTGTTTAGTATTTAATTTACTGTATGCAGTGACTTCCTTCTTGCACAGAAAGGTGTCATTATTAGTTATTTGTTTCT
+TTCTGAGATGATACTAATGATACAAACTAATACAGCATATCAAATATTGTATCAAAAGCAAATCTGATC
+>ref|ref|X67822.1|| B.taurus microsatellite DNA (271 bp)
+AAAACCAGGTGATTAATGCAAATCTGCTACATCACCTATACAGAAAAGAGTCACATTTGTAGGGGTGTGTGTGTGTGTGT
+GTGTGTGTGTACACGCATGTGTGCATGCTGAAATAGCTGACTAACTGAAATGCCAGAGACGAACTAAAATCCAGGAGATC
+TGGATGTGAGAGTTGGGCCATAAAGAAAGCTGAGCACAGAATTGATGCTTTTGAACTGTGGTGTTAGAGAAGACTCCTGA
+GAGTCCCTCAGACTGCAAGGAGATCCTCTAG
+>ref|ref|X68049.1|| B.taurus microsatellite DNA
+GATCCTTTGCAGCCTCCACATTGTCTTCTCAGGCTGATTTCTGATGCATAATGAATGTGTGTGTGTGTGTGTGTGTGTGT
+GTGTGTGAGTTCCCGGATAGTGTCATAAAGCACAAGCGCAACTCTGTTCTAGTCTTGGAGATGTCAACTT
+>ref|ref|X67826.1|| B.taurus microsatellite DNA (292 bp)
+CTCTGCACAGATGCCTATAAGTGTTTCAATCAGGGTTCAGTCAGAAAAGAAGATTCTGAGTTAAGCATTCCAAAATATTT
+GAGAGACAATTTTAAATTTGTTTTATATATATGTATGAACATACAAATATTTATTTGTGATTACATATATAATATATAAT
+TCATATAATTATAAATGTGTATTTGTATGTATGTATATAGGCATGTATGTGTGTGTGTGTGTGTGTGTGTGTAGAGAGTC
+AGCCGCCTGCCCCTTCTCCCATCAGTGAACCACCCACAATTATCAGTGGATC
+>ref|ref|X67828.1|| B.taurus microsatellite DNA (408 bp)
+TGTCCACGGGGCGGAGGGTGAGCCCTCCTCTAGGTTGCAGACTTCTTTCTCATGTGTCCTCATGTGATAGAGGGAAGAGC
+TCGAGAGACAGGTCTCTTTAATAAGGGCTCCAATCACCTCCCAAATATCCCACCTCCTAATGCCGTCAACCTTGGGCACT
+AGGTTTTCAACATAGGGATTTGGGGGTAGGGACAGAAACACGCAGACCTTAGCATAGGAGAACTACAAAGGTGATTCACC
+TCCAGGATGACTTTCCACTCTTTCAACACTCGTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATTAGTTGCTC
+CGTTGTGTCCAACTCATTGCGACCCTGTGGACTGTACTGCCAGGCTCCTCCTATTCATAGAATTCTCCAGGCAAGAATAC
+TGGAGTGG
+>ref|ref|X60511.1|| B.taurus KTN minisatellite DNA
+CTGCAGTTATTCGTCTTTAGCCTCATCTCTTCGGCACCATGTTTTTGCAGCTTGAGAGGCTTCTTCTTTGAATTTTGGTC
+CCATGTGTTTCAAGCATTTGCTCAACCGCTGCGTGACGCCTGGTCTGCCCTGCGGTCTGTCCTGAGTGTCCCTGGTCTGC
+CCTACAGTCTCTCCTGAGTGTCCCTGGTCTGCCCTTGGGTCTGTCCTGAGTGTCCCTGGTCTGCCCTGGGGTCTGTCCTG
+AGTGTCCCTGGTCTGCCCTGGGGTCTGTGCTGGGTGTTCCTGGTCTGTCCTGGGTCTGTGCTGGGTGTC
+>ref|ref|X67827.1|| B.taurus microsatellite DNA (313 bp)
+CCTGGCTCTTCGGGTTTAGTTTCACAACAAGAAAAATGGATTTGCAGAGTATTTCGTAAAAACCGATGAAAATTGTGGTA
+ATAACATACATTAAATACTAAAAAGAAAAGTGGCTCAGAGAAAAAGACTTTATTTCTAATAGTATCATTAAGGTGATTCA
+TTATATAGTAAATGAGATGCAGTTTCACACCCTGTCAACTTAGGTTTAAGATATGGCGTGTGTGTGTGTGTGTGTGTGTG
+AGAGAGAGAGAGAGAGAGAGAGAGACTTTACTACAAGAAAATGGGGTAATTTTAAACCATAAAAAAGTCTTGG
+>ref|ref|X67830.1|| B.taurus microsatellite DNA (362 bp)
+TTACAAATCTAACTGATATAGTGTACCTCCTCTAATCCCTAAACTTGGCAAATGACTAGTAAACACCAACATACAATGGG
+TGCAGAGTAGAGCTACAAGATAAACTTCCAGAAAGAAAATGCCAATGAGACCAGAAAGACTTGATGGTAAATGAATTTAC
+ACACACACACACACACACACACACACACACACACACACACATACAGGAAGTACCAGTCAGAAGGGAAATTAGAAACTGAA
+GCAGAAGGAAGGGGAATTAGCCAGGTAAAAGCAACAGAGTTCATCTAACACCCTGTAGTTATTGGGAGGAACAAATTCGT
+CGTCAGGTGAAGCCCAATTATTGAGACGAGTATGGCAGGATC
+>ref|ref|X65202.1|| B.taurus microsatellite DNA (499bp)
+GCACCGTAAGGGGAACTCATGACAGTGAGATTTGTTTCTTTNTTTTGTTTGCTTTTTGTTACCAGAAGCATAACTAAGGG
+AATGTCTTGCAAGATCTTCTCTGTTCTGTGGTCCAGGGCATGAGCTCATCTTCAGGGTCTAGGTGATCCTGCCAGAAGCC
+CAACAGTAACCAGTATAGTGCCTAGGNTTCCCAGGTGGTGCTAGTGGTAAAGAGCCACCTGCCAATGCAGGAGACTTAAG
+AGACNCAGGTTTGATCCCTGGGTTGAGAAGATCCCTGGAGAAGGAAACGGCAACCCATTCCAGTATTCTTGCCTGGAGAA
+TCCCATGGACAGCGGGGCCTGGCAGGCTACAGTCCATGGGATTGAAAGAGTTGGACACGACAGAAGCAACTTAGCGCACA
+CACACACACACACACACACACACACACACCAAGTCCTTGTTAAATAGCTGTTGAATAAAAGAATGAATGACTGAGAAGCA
+AATTATTTAACAGACCTAA
+>ref|ref|X65203.1|| B.taurus microsatellite DNA (375bp)
+CCAAGTGGTAGAGTAGTAAAGAATCCACCTGCCAATGCAGGAGACACATGAGACGTGGGTTTGATCCCTGGGTTGGGAAG
+ATCCCGTGGAGCAGGAAACGGCTACCTGCTCCAATATTCTTGCCTGGAAAATTCCATGGACAGAGGAGCCCTGGTAGGCT
+ATATAGTCCATGGGGTCGCAAAGAGTTGGACATGACTGAGTGCGTGCACACACACACACACATACACACACACAGGAATA
+CAACAAAGCAAAGTGCAATAAAATGAGGTATGCCTATATATAAATACCTGCAAACAGCAGCAGCTGCACCCACTAAGTTA
+CACATATTTTGTTCTCAATGGGAAAAAATAAAATTGAATAACCATATACAAAGGT
+>ref|ref|X65204.1|| B.taurus microsatellite DNA (608bp)
+ACCTGCAGTGCAGGAGACCTGGGTTCGATTCCTGGGTTGGGAAGGTCCTTGAAGGAGAGGATGGCATCCCACTCCAGGCT
+GTATTCTTGCCTGGAGAATCCCCATGGGCAGAGGAGCCTAACAGACTACACAGTCCATGGGGTTGCAAAGAGTCGGACAT
+GACAGAGACTAGGCGCAACGCAACATGTATCTGGATATTATCCTAAGGTAATGGTTTTCAGACGTTAGTGTACATTAACA
+TTCCTCAAGCAGACATTAAAATTCAGTAAGTCTAGTGTGAAGTCTCATAATCTGAGCTTTAACAGGCATGCCCTACACAC
+ACACACACACACACACACACACACACACACACACACACAATCCCTAACAAGTGATCCTGCTACTGTTAGTCCAAGGAACG
+NNAAAGTTTAAAAAATGGTTCTACTTCATCCACACAAAACATGTTAAATGCTTACTATGTGTAAGGAAAGATATCCAGAG
+ACTACTATATATGTAAGGTAAGTTTCTTTCTTCCCCTTTTATCTAAGGAAACGAACTCAAAACAGGATGTGGTAATCCAT
+CGTCAATGGCATTTGAAAACTAGAAAACCCATCTCAGGAGATTTGAAA
+>ref|ref|X65205.1|| B.taurus microsatellite DNA (359bp)
+GAGCTGAGTTACCTAACTCCAGAGGAGATGGGAACATGGGCGTGACAGCAATGGGGTTTTTGATTCAGGGGTTGGCAGAG
+AACACCGAAGTCCTGGAACAGACTGACTCTTCGTTCTTTCTGTGGGGACATCCTCCACGTCAGAAATGGGGACTGCCAAG
+TGTTGGGCCAGGAAGCTCCCCTGGAGAACGAAATGGCAACCTACTCTAGTATTCACGCAGGGAAAACCTCATGGACAGAG
+GAGCCTGGCAGGCTGTAGTCCATGGGGTCGCAAAGAGTCAGACATGACTGAAGTGACTGACACACACACACACAAGCATA
+TTGTATTGCAGCCTCTACCCTGGGGTGCACACAGTAGCT
+>ref|ref|X65206.1|| B.taurus microsatellite DNA (497bp)
+TGATCTAGAGACCCTGGAGAAGGGAATGGTTATCCACTCCAGTATTNNNNNGCCTAGAGAATCACATAAACAGAAGAGCC
+TAGTGGGCTGTAATTCCATGGGGTCTCAAAGAGTCGGACACGACTGAGCAAGTAACACTTTCAATTTTTGTTTAACTTAA
+ATACTCAGGTAACCAACAATTCATCTAGTTGGAGATTTACAATTTGTTTTTTTTTTGGCTGGTTGGTTTGTCTGCTTATT
+GGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTAAGAGGCNGAAAGAATTATTTTTATTACCA
+GTATTTTTACATATGGGCTTCCCAGGGGATGCTAGTGGTAATGTATCTGCCTGCCAAAGCAGGAGACACAAGAGACACGG
+GTGCAATCTCTGAGTTGGAAGGTCCCTGGGAAGAGGAAATGGCAATCCACTCCAGTACTCTTGCCTGGAGAATCCATGGA
+CAGAGGAGCCTGGTGGG
+>ref|ref|X65207.1|| B.taurus microsatellite DNA (502bp)
+TTTTCCCATGTAATATTATCTTACTTGGAAAAAGAATCTTTGCAGATGCAATTAAGTTAAGGACTTGAGATAAGGAGGTT
+GTCTTGAATCATCTCNNTNAGCTCTGAATGCTAGCAAGTGTTCTTGTAAGAGAGAAACAAAGGGGCATTAGAGAGAGACA
+CACACACATACACACACACACACACACACACACACACACACACACAGGGAGGAAGCAAAGAGGAGGGAATAAGATGTTAA
+GATGGAGGTAGATGGTGCAGTGATTCAGCTACGGGATTCAAGCCACTGATTGCCAGAAGCCCCCCGAAAGCTGTAAGAGG
+CAAGGAACAGCTCCTCACATGGAGCCCTGAAACAATTAACCTGGGATTCCTGGCCTCCAGAACTGTGTGAGAACAAATTT
+TTGCTGTTTTAAACCATTCAGTCTGTGGCCATTTGTTTCAGCAGCCACGGGAAACAAATACGCTGGCAAACGGTTTCCGT
+GGTGATGACAGCTTCTCCCCCC
+>ref|ref|X65208.1|| B.taurus microsatellite DNA (467bp)
+GGACAGAGAAGTCTGGTGGGCTATATNTTGTGGGGTCTCAAAGAGTCGGACACGACTGAATGACCAACACACACACACAC
+ACACACACACACTCCCTGAGCCTTCAGGGATGCTTAATCTAGACAACTGAACACACACACACACTCTCTGAGCCTTTAGG
+GGTGCTGAATCAAGACACCTGAACACACACACACACACACACACACACAGGNNNATCTCTCTCTGGTAAACCACATCTTG
+GGTTTATAAGACCAAGGTTTAACACTGGCAGGTGTCAATTTTATTNACCCTCCAACTCACCAATAACCCCCAGGTGCCTC
+TCATACAGGATACATGCTCCATATTTCAACTTTTAATTCCATCTAATTTATATAAAAAAGGCACACATTTGCTGACCAAC
+AATGTAAGATTTGAACAGCCTCTTTGGCGATCTTGGGTTCTCTCCAAACCAGTTCAATTGCTACCCC
+>ref|ref|X65209.1|| B.taurus microsatellite DNA (532bp)
+CCATCACTTTTTTCTTTGATNATCTTTTGTTGATCGATTGATTTGCTATGTGGCACATGGGATCTTAATTCCCCAACCAG
+GGTTTGAACTGACACCCCTTGCACTGGAAGCACAGTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTTGAGGATAGCTAATTTAACAATATTGTGAACAGTTTCAGGAGGACAGTGAAAGGACTCAGCCATACATATGCACATG
+TCCACTCTCCCCNAAACTCCCTTCCNATCAATACTGCCACATAACACATAACCAAAATAATTAAGAGTGATAATTAAAGG
+AGNCAAATAGATAATGCTCAGTAACCATATGGTAATCTGCATGTGCAAAATCAGACACCCTCAAGTGATCAAGGGCTTAC
+AAGATTATCTGCTGCTGTCCTTCTATGTAGAAAGCAAATATTTTATTATTTGGACTNAAAATATTTTTTTTCAATTTATT
+TTTTGGCTGTGCTGGGTCTTAGTTGTGACACTCAGGACCTTTCCTGCCATGT
+>ref|ref|X65210.1|| B.taurus microsatellite DNA (516bp)
+ATGTTACTGCAAGTGACATTATTTTATTCTTTTTATGACTGAGTAGTATTTCATTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTATGCTGTGCTTAGTCTCTCAGTCATATCTAATTCTTTGTGACCCCATGGACTGTAGC
+ATATATATATATATATATATATATATATATATATATGTATGTATAAATATATATATATATATAAGCTTCCCTGGTAAAGA
+AAGGTAAAGGATAAGAATTCAGCTGGTAAAGAATCTGCCTGCAATGCAGNATACCCNATTCAATTCCTGAGTTGGGCAGA
+TCACCTAGAGAAGGTTTAGGCCACCCATTCCAATATTCTTGGTCTTCCCTGGTGGCTCAGATGGTAAAGAATTTGCCTGC
+AATGCAGGAGACCTGGGTTCGATCCCTGGGTTGGGAAGATCGCCTGGAGGAGGGCATGGCAACCCACTCCTGTATCCTTG
+CCTGGAGAATCCCCATGGACAGAGGAGACTAGTGAG
+>ref|ref|X65211.1|| B.taurus microsatellite DNA (508bp)
+TACATTCTGAAAGGTAGCCAACTTTCCCAGTATGCCTCAAAACATTTCTCCATGGACTATGTGGAGCTGCATATAAAAGT
+GAGACTGTGTGTCAGGATGGGAGTGAGAGCAGGAGATCACATGCCCTGTCAATCTGATGGGGACAGCTGAAATCACCTCC
+AATCAAATTTTAACTATTGCTTACTTTTCAAAGATCCTGGATATTTGGGTTGTNNNAACATGGAAACATGTAGACAAGCA
+TACACACACACTGTGTGTCACCTTCACAGTCAAACACACCACTGAGTCGTCCAATTTGGGCCTTATGTCATGCATTAGGT
+TCTCCAGAGAAATGGAACCAATTGTGACTGTGTAAATAAAATGATAATAACATATATTATACATATATAATATACATATA
+TATATATATATATAGAGAGAGAGAGAGAGAGAGAGAGCACTTTATGATATGGAGTCTGACAAGTCTGAAATATACAGAGC
+TTCTGTCTCATGAAAAGATCAGTAGGCC
+>ref|ref|X65212.1|| B.taurus microsatellite DNA (392bp)
+CCAGCTCACGTGTAACACGCCAGTGAATGTATCACTCACTATAGGCTATTCGAGCGTCGGTACCCGGGTCTCTAGNACCT
+GCAGGTCACTCTAGAGGATCCTTAATTGGCCAACATCATCACGGCCATTTAAAAATTATTATCATCATTCCCTGAGGTCC
+ATCTCTAAGCCTCCATTAGGATCAGGCACAAATATCTGCCTGAAGCCAGTCACCTCTGGAAATGTGGGATGTGTGTGTGT
+GTGTGTGTGTGTGTTGGGAGAGGGAGGGAGGAGGCCTCATGCAGGTGCAGGAAACCCCACTGAGGAGAATCACAAATGCC
+TTTTGTTTAAAAAGGCAGGGCAGATGCCCAAAGAGCATGCCGGCCATTCATTTTCAAGAGACAAGGTTATTT
+>ref|ref|X65213.1|| B.taurus microsatellite DNA (430bp)
+GGATGCATTGCNAGCCATATAGTATNCTCTGTNATGTAACTGTTTTATAAGCTCCAGCCCAGGTTGAATCATGCCTTNCT
+CAGAAAGCCTTTTTCTCCCCATCCCTGGCTCCACACATACCTACCCTTCAAACTCATTCTAGTTTACATTAGTCAGGTTG
+ACTACTTAATCATTTTTAACAGCTTTTTCATTCTTTGTATATTTGCAAGAAGGGTTGGCTGGCATCTCTCTCTCTCTCTC
+TCTCTCTCTCGCTCTCAGATGCTTGCCCACTTGAAGTCCCCNAAGACCTAGGNAAGGGCTTTCCAGGTGGCATGAATGAT
+GAAGAACCTGCTGCAATGCAGGAGACATAAGAGATGCAAGTTCAATCCCTAGGTTGCGAAGANNCCCCGGAGGAGGGCAT
+GGCAACTNACNCCAGNATTCTTGCCTGGAG
+>ref|ref|X65214.1|| B.taurus microsatellite DNA (482bp)
+TCTAGAGTCGACCTGCAGCTGGTGTGACCCAGGATTTGTAGGCCCACAATGTGGAGGAATTCAGGAGTTGTGTCTGTGCC
+TCAGTTCTGCTCTGATGCAGTAAGGAGGATATGTCACCTTTCGTGGCCCATTCAGTCTTCAGAGGTGTGTGCAGAGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGCACATGCATGCATTTGTTAAGTCGTGTGCTGT
+AGTGTGCTCCAAGGCCAGGTGCCCTGTGCCCCGTGGTGGTGAGAACATGGATGTGGCTCATGCCTTTGCCACCACGACTG
+GGTGCCCTACTGAATAATCTGGGGTCGGGGAGTTGGGTTCTCAGACATGCTCAGTGTTTCCAGCGATCTGCTTGTCTCTG
+TGACTGTGACTGTCCGGGTGAAGGCTGGGCTAGACAGCAGGCTGGGTGATCCCCTGGCAGTGCCAATAGTCCCTGTGTCT
+CT
+>ref|ref|X65215.1|| B.taurus microsatellite DNA (624bp)
+ACCTCCACTAGCTTTGTTTGTAGTGATGCTCTGTAGCACCACTGGGAAGCCCTTTAATGAATGTGCCTTTCCGCAAATCA
+CACACACACAAATACACTTATAGAAACAAGGTGATTTTCTTGAAATAATAAAACAAAATTTGGAAGAAGATTTTTACTGT
+CTTAGGAAAAGTAAGGCATTGGAAGGTGGCTAGGTATGACATATGAAGTTGCATTTTAAAACTGGAATTGGACAACTGAT
+ATTCAGTGATATTTATGCTACTACCTTCTAGAATCGAGAGCATGCACCCCACTCTGTACTCTTGCCTGGAGAATCCATGA
+TGAGAGCCTGGTAGGCTGCAGTCCATGGGGTCACACAGAGTCGGACATGACTGAGCGACTTCACTTTCACTTTTCAATTT
+CATGCATTGGAGCCGGAAATGGCAACCCACTCCAGTGTTCTTGCCTGGAGAATCCCAGGGATGGGGAAGCCTGGTGGGCT
+GCTGTCTATGGGGTCGCAGAGAGTCAGACACGACTGAAGTGACTTAGCAGCAACCTTCTGGAATAAACGCCTCAGGCTTT
+AAACTCTGGCTTGACCATTCACTAGCCATGGGATCCACTAGAGTCGACCTGCAGGCATGCAAGC
+>ref|ref|X65216.1|| B.taurus microsatellite DNA (310bp)
+AGAGTTAGACCAGGTAGTCTTGNNTTAGGCAAGGTGTCCTTTGTCTTATAACAAATCAGATACTTTATTTTGAAGAACAG
+CAGCTTTGTGGAAGGCTAAGATGGNAAGNNCAAAAATGGAAATGGAAGNGTTCAAGNTTTTTTCCTGGGTATTAAGGAGA
+GAGAGATATATATATATATACACACACACATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTTC
+CTTTTTTTTTGGTTGCACCATACATCATGTGGGATATTAGCTTCTCAAACAGGGAAAAAACCCATACCCT
+>ref|ref|X65217.1|| B.taurus microsatellite DNA (489bp)
+TGCATTCCTGCACCTCGACTCTAGAGGATCCAGACAAGCCCCTGGAGAAGGAAATNCCAACTCACTCCAGTATTCTTGCC
+TGGAGAATCCCATGCACAGAAAAGCCTGGTGGGCTACAATCCATGGGCCGCAGAGTCTGACACAACTGAGCGACCAACAC
+ACACACACACACAGGCACATGTTTCATATTATTGTTAGAGACCAGAGTCTCACAGCCCTGCTGCCTCATGTTTGGGTGCT
+AAGTGCTGTATTTGAAGGCACAGAAGAGAGGGGGTGAAAATGAAGGGCTAGCCACTGTCCATGGAGGTCACCATGGTTAT
+CAGTTTCCTAGGGCTCCCACAGCACATGAACCCACATGGGGTGGCTTAAAACCGGTGTATTCTCTGACAGTCCTGGGGGC
+TGGAAATCAAGGTGCTGGCAGNGCCATAATTCCTCCAAAGGCTCTAAAGGGNTTGTCTATCTCTTTTAGTGTCTGGTGAC
+TCCTGGGCC
+>ref|ref|X67832.1|| B.taurus microsatellite DNA (268 bp)
+ACTCTAGAGGACATAGGAAAGAGTAGGAAGAACTAGTCCCAGAAACAACTAGTTCCAATGAGACACGAACACACACACAC
+ACACACACACACACACACACACACACACACAAATGGGTTGCCCATGCTTCTGTTTTACCTCCGTGCTCCTAATACTTTAT
+TTATTTATTTATTTGGCTGTGTCTGTTCTTAGTTACAGCACAGGGCTCTTTAGTTGTAGAGCATGGGCTCAGTTGCTCTG
+AGGCATGTAGGTGCTTATCTCCCCAGCT
+>ref|ref|X64897.1|| B.taurus mRNA for MLRQ subunit of NADH: ubiquinone oxidoreductase complex
+GGTGAGTGCTTAACCTCCGGTCTTGCGGCTTAGCTTTTCTCTCGGTTTGGACTCGAGGCCTCTGTTGCAACCATGCTCCG
+CCAGATCATCGGTCAGGCCAAGAGGCATCCTAGCTTGATCCCCCTCTTCATATTTATTGGAGCAGGAGGGACTGGAGCAG
+CACTGTATGTCACGCGCCTGGCATTGTTCAATCCCGATGTCAGTTGGGACAGAAAGAATAACCCAGAACCCTGGAACAAA
+CTAGGTCCTAATGATCAGTACAAGTTCTACTCTGTGAATGTAGATTACAGCAAACTGAAGAAAGAAGGTCCAGACTTCTA
+AATGAAATATTTCACTGTAAAGCTGATTTGAATGAAGGTCTTCCAGAAGCCATCCGCACAATTTTCCACTTAACCAGGAA
+ATATTTCCCCTCTAAATGCACGAAATCACGTTGGTGTATTGTGGTGGGGTTTACACTGATGAATAAATAGTCTGAAACTT
+GAAAAAAAAAAAAAAAAA
+>ref|ref|X66277.1|| B.taurus mRNA for retinal pigment epithelial membrane receptor p63
+GAGAAAATGTCCAGCCAAGTTGAACATCCAGCTGGTGGTTACAAGAAACTGTTTGAAACTGTGGAGGAACTATCCTCACC
+GCTCACAGCCCATGTTACAGGCAGGATCCCCCTCTGGCTAACCGGCAGTCTCCTTCGATGTGGGCCAGGACTCTTTGAGG
+TTGGATCGGAACCATTTTACCACCTGTTTGATGGGCAAGCCCTCCTACACAAGTTTGACTTTAAAGAAGGACATGTCACA
+TACCACAGAAGGTTCATCCGCACTGATGCTTACGTACGGGCAATGACTGAGAAAAGGATCGTCATAACAGAATTTGGCAC
+CTGTGCTTTCCCAGATCCCTGCAAGAATATATTTTCCAGGTTTTTTTCTTACTTCCGAGGAGTGGAGGTTACTGACAATG
+CCCTTGTTAATATCTACCCAGTGGGGGAAGATTACTATGCCTGCACAGAGACCAACTTCATTACAAAGGTTAATCCTGAG
+ACCTTGGAAACAATTAAGCAGGTTGACCTTTGCAACTATGTCTCAGTCAATGGAGCCACTGCTCACCCCCACATTGAAAA
+TGATGGGACTGTTTACAACATTGGTAATTGCTTTGGGAAAAATTTTTCAATTGCCTACAATATTGTAAAGATCCCACCAC
+TACAAGCAGACAAGGAAGATCCAATAAGCAAGTCAGAGATCGTTGTACAATTCCCCTGCAGTGACCGATTCAAGCCATCT
+TACGTCCATAGTTTTGGTTTGACTCCCAACTATATTGTTTTTGTGGAGACACCAGTCAAAATTAATCTGTTCAAGTTTCT
+TTCTTCATGGAGTCTTTGGGGAGCCAATTACATGGATTGTTTTGAATCCAATGAAACCATGGGGGTTTGGCTTCATATTG
+CTGACAAAAAAAGAAAAAAGTATATCAATAATAAATACAGGACCTCTCCTTTTAACCTCTTTCATCACATCAATACCTAT
+GAAGACCATGAGTTTCTGATTGTGGATCTCTGTTGCTGGAAAGGATTTGAATTTGTTTATAATTATTTATATTTAGCCAA
+TTTACGTGAGAACTGGGAAGAGGTGAAAAAAAATGCCAGAAAGGCTCCTCAGCCTGAAGTTAGGAGATACGTACTTCCTT
+TGAATATTGACAAGGCTGACACAGGCAAGAATTTAGTCACACTCCCCAACACAACTGCCACTGCAATTCTGTGCAGTGAC
+GAGACCATCTGGCTGGAACCTGAGGTTCTCTTTTCAGGGCCTCGCCAAGCATTTGAGTTTCCTCAAATCAATTACCAGAA
+GTATGGTGGGAAACCTTACACATATGCATATGGACTTGGCTTGAATCACTTTGTTCCAGACAGGCTCTGTAAGCTGAACG
+TCAAAACTAAAGAAACCTGGGTATGGCAAGAGCCTGATTCATACCCCTCAGAACCTATCTTTGTTTCTCACCCAGATGCC
+TTGGAGGAAGATGACGGTGTAGTTCTGAGTGTGGTGGTGAGCCCTGGGGCAGGACAAAAGCCTGCTTATCTTCTGATTCT
+GAATGCCAAGGACTTGAGTGAAGTTGCCAGGGCTGAAGTGGAGATTAACATCCCCGTCACCTTTCATGGACTGTTCAAAA
+AATCCTGAGCACATTCTAGCATGACATGTTTCTGGTGACAAAACACAGAGAAACGTAGTTAGGTCTGCAATCAAATTCTG
+TTTAGCTTTAGCCTGCTGTCTATAAGGGTTTTAACTTGCAGATGCACACCGTTTTGCAGTATTTTACAGAAAGCACAGAG
+TTGAGTAAGGAATTCCTTTTAAAAAAGTGCTTATTTAGATAATCGTACTTCGTGAGACAGGCACATCATAACTAAAAACT
+CTTTATATATTTACAATCAAATAGAAAATGAATGTGAATTTATTAAACTGTTTTTCATTCCTATTATAAAAGTGTATTTT
+AGGCACCCATCTACTCCTATTACTTTTTAACATTTAAAAGCCAAAGTCCTCTACAGCTGATATGTATATAGCTTTGCTGT
+GTCAAGGCAGCATCTTGGAAAAAGGCTTAGTTACTAAATGTCAAATCAAACTTCTTCTCAAACCAGGGACTTTGATCTAA
+GACAATCATTGTAATTGTATGCACATATGTATTATTATTCAAAGATTCTCATGGTTTAAACTTTAATATTTCCATTTAAT
+ATAGGCAATTATTACTATTTCTGATTTCACAGTAAGGAAGCCTGTTTCTAAGTCACTGAGGGCTGTCAACCAAATACCTT
+CTCAGAGATTACATTATCTATTAGAAACTTATATAACATAAAAGCAATTACATATAGTAGTGACTATTTTTTTTAAATAG
+CATAAAATACTTACAAACATAATTGCTGTTTAAAATCAGATTATGGGGATAATAATGTGTATGGGGGGGGTTATACTTTG
+TTGCCTCTTCTGCTTAATTACATTTAAGCACTGTGCACCTGACTGAAGAGAAAATGAGAAAATAGAAAATACTGTCATTA
+ATGTTCAGATATGAATATAGTTTAAGCACTTTTGTTTTTAAAATTATTCTTTTCTGAGATACATGTTGCAAAAAAAATGA
+AGATTGACAAAAATTTTTATTCTATATCTTAATCCTGTTTGACTAAGTAAAAACA
+>ref|ref|Z14036.1|| B.taurus microsatellite (ETH1112)
+GATCCTGCATGTTATGCCGCACAGCCAAAAAAAAAGTATATGTGTATATATATATATATATATATATATCACACACACAC
+ACACACACACACACACACACACACCTTATTTTTTTTTGGCTCAAAATCACTGCAGATGGTGACTGCAGCCATGAAATTAA
+AAGATGCTTGCTCCTTGGAAGAAAAGCTATGACCAACCTAGACAGCATATTAAAAAGCAGAGACATTACTTTGCCCACAA
+AGGTCCGTCTGGTTAAAGCTATGGTTTTTCCAGTAGTCATGTATGGATGTGAGAGTTGGACTATAAAGAAAGCTGAGAGC
+CAAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCC
+>ref|ref|Z14037.1|| B.taurus microsatellite (ETH121)
+GATCTTGGGGCTTCTTAGTTTCTATAATGTAAACCAACTCCTTACAGGAAATGTCTACATACACACACAAGCACACACAT
+ACATGGATGCATACATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCATCTACATACCTAAATA
+TGTTCCTATTGAATCTGTTTCCCTGGAAGACCCTGATGGGTATCCCCACCCACCTCCACTTACCAGCCAGCTCTAAATTA
+GCCAGCTAAAAGGCACAGTGCTTGCAATTTAAATGCAGCTTCAAAAGTCCTTCTGCACAAAATTTCTGGAGTTGTCACTG
+GTCACAAGGACTGTGTTAATTAGTGTACAACAGTATCATGGACTTGAGAATACTTTATATTCCTTAAATAAAGATTCCCC
+GGGCTGCAGGAATTCGATATCAAGCTTATCGAT
+>ref|ref|Z14038.1|| B.taurus microsatellite (ETH123)
+GATCACTTGGAGAAGAGAATGGCAACCCACTCCAGTATTCTGGCTGGGGAAATCCCATGGACAGAGGAGCCTGGTGTACT
+ACAGTCCATGGGGCCACAAAGAGTCAGACATGACTGAGTGACTCACACTCACACACACACACACACACACACACAGGGGT
+TATGGGGTTATAATTTTCACTGTCCAGTCCAGTGCCCTTCCTCCTATACCTCTATAGCAGGTATACCCTTGGAGGGGCAA
+TGGATTTAAGGTAGTCTTGCTTTATATAGAGCTTTGAAAATGCCATTGAAAAGCTTCAAGTTGTGATC
+>ref|ref|Z14039.1|| B.taurus microsatellite (ETH131)
+CCTGGAGGAGGACATGACAACCCACTCCAGTATTCTTGCCTGAAAAACCTCATGGACAAAGGAGCCCGGTGGACTATAGA
+CCATAAGGTCACAAAGAGTCAGACACAAATGAAACGACTTAGCGCGCGCGCGCCACACACACACACACACACACACACAC
+ACACACACACAGAATGAGAATGAGGGGTGGGTAGAATTTGGATGAGTCATTCGTAGACCATCACAGCGTGCTTGGCAAAC
+AGACAGCACTGACCATCACTGGTTGAAATGTAAAAAGAAGTTAGGTT
+>ref|ref|Z14040.1|| B.taurus microsatellite (ETH152)
+GATCTTGTACTCGTAGGGCAGGCTGCCTGCAGAGCCAACACACACACACACACACACACACACACACACACAGGGGGCAC
+TGCTGTTGGCTTCCGGAGGCCACAGGGCAGTTGGGGGAAGGGGGGCAGGCAAGAGCCCCTGGGAGCCCTGGCAGAGGTGA
+CCCTCCCTCCAGACAGGTGCCCTCTGATC
+>ref|ref|Z14041.1|| B.taurus microsatellite (ETH153)
+ATTCTTGCGTGGAGAATTCCATGGACAGAGGAGCCCAGAGCGGTATAGTCCATGGGGTTGCAGAGAGTAGGAGATGACTG
+AGCAACTGAGCATACACACACACACACACACACACACTAGGAGTATAGAGAGAATATATCAGCCTCAGGGGTAAAGGTTA
+GAATATTTTAAGAGCAAACTTATCACTTTGACTCTGCGTTATCATTCTCAGA
+>ref|ref|Z14042.1|| B.taurus microsatellite (ETH185)
+GGCTGGAAAATTGCATGGACAGAGCAGCCTGGCGGGCTACAGTCCATGGGGGTTGCAAAGAGTCGGACATGACTGAACAC
+ACACACACACACACACACACACACACACACACACACACACAAAGAGTGCTGCAAATATGTTTTAATTAGTGATACAGCTA
+TTTTTTTTTAATATTTATTTGGCTGTATCAGGTCTTAGTTGCCAAGTGGAATATTGTTGCTTCCTCTGGGAGCTTTCGTT
+GGGGTGC
+>ref|ref|Z14043.1|| B.taurus microsatellite (ETH225)
+GATCACCTTGCCACTATTTCCTCCAACATATGTGTGTGCGTGCACACACACACACACACACACACACACACACACACATG
+ATAGCCACTCCTTTCTCTAATGCCACAGAATTACACAGTCAACTCTCTAGTAGCAGCTGGCTGTCATGTGTCATTTGGCA
+ATATCCATATCTTCCCCCCTTGCTGTAAA
+>ref|ref|X67829.1|| B.taurus microsatellite DNA (287 bp)
+AGACCTTACCTTTTAGCTAAAGGTGGTCTCACGACTTACTCGACCACAACAACCCGAAATCCGAGTAAAAAGAACATCGT
+TGTGATTTTGTAAAGTCAAGTCGATCTCACGAAGTCCAGAGGGGTGATCCTTGAGACATAGATGTGTGTGTTTATGTAGT
+CGACGAGTAGGACCGACAGGGACACTCTCCTCTACACACACACACACACACACACACACACTACTACACACCTCTCACTC
+ATACTCACACACACACAATCACCCCTCCCTACGTCACTCTAGGAGAT
+>ref|ref|X67831.1|| B.taurus microsatellite DNA (448 bp)
+ATTAACTGTATATAATATTAACTTAAATAGAGGAAATTTCAGGAAATCAGGGCATTTTGTCTATTATATTCAATGTTGTG
+TCTCCAGTAGTACTAATCAGTAATGGTATCTAACAGACACTGAGATATAGAAATACGAATACAAAATATACATGTATAAT
+AAATAAGTGGATGAAAAATAATAGACTATAAATAAGGAATTCCAATATAAAGAATTGGGATACCCCCATACACACACACA
+CACACACACACACACACATATATGTTGTGTGCGTGGAATGGCACCAGGATGCACCTACTCCAGTATCTATAGAGCAGAAA
+TTCATGGACAGAGGAGCCAAATGGGCTACAGTCTACGGGGTCATAAAAAATCAGATATGACTGTGCACACACATACACAC
+ACACACACCCACAAATTCAAGAGTGAACGAACGAGGACTAGTAAGATC
+>ref|ref|V00113.1|| Bos taurus mRNA of vasopressin neurophysin II precursor
+GCACAGTCTACAGAGCAGCACTGCGCACGTGTGCCCACGCGTGCCAGGATGCCCGACGCCACACTGCCCGCCTGCTTCCT
+CAGCCTGCTGGCCTTCACCTCTGCTTGCTACTTCCAGAACTGCCCAAGGGGCGGCAAGAGGGCCATGTCCGACCTGGAGC
+TGAGACAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGGACGAGCTGGGC
+TGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCCGGCCAGAAGCC
+CTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAACGATGAGAGCTGCGTGACCGAGCCCGAGTGCCGGG
+AAGGTGTCGGCTTCCCCCGCCGCGTTCGCGCCAACGACCGGAGCAACGCGACCCTGCTGGACGGGCCGAGCGGGGCCTTG
+TTGCTGCGGCTGGTGCAGCTGGCGGGGGCGCCGGAGCCCGCGGAGCCCGCCCAGCCCGGCGTCTACTGAGGCGCGCCCCC
+CCCCTCCCCACCCCTGCCCTCGCAGCACGAAAAATAAACGTTTTAAAGGC
+>ref|ref|X15600.1|| Bovine processed pseudogene P1
+CCTGCAATGCAGGGTAAAGAATCTGCTTGTGCTTAAAGCTAAAGCCGGGACGTGAGTCAGTCATCTTAGCTGGGTGAGTG
+CTATGGTCTGAGCAGGGGCAGCAGGACAGTGGGAATAGACTGAAAAAAATGTAGACCTCCGGAGCACTACTCAGTCCTCC
+CGCTCTGATGTGCTCTTGTACCAGGGGTCTGATCAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAAAGAGCCCATCTG
+AACAGCCTTCCTACAGCAGTGTCTCACTCCGGGTGGCTTGACGGAAATTCCAGACCAGTGTTGTCTCCTGGCACACTGAC
+ACAGTGGCCAAGTTTACTGGCGCTGGGGCTGCCACAGTTGGGATGGCTGGTTCAGGGGCTGGCATTGGAACAGTGTTTGG
+CAGCTTGGTCCTTGGCTATGCAAGGAACCCATCTCTGAAGCAGCAGCTCTTCTCCAGCACCATTCTGGGCTTTGTCCTGT
+CTGAGGGGCTTTTCTGTTTATGGCCACCCTCCTCATCCTCTTCACCACATGAGGCTCCATGGAGGTCACCTACCCGCCGC
+TGCTGCTTTGACTCCAGGCCATGCTCAGTGCTGGAGCGTGCTAACTTCTACCATTAAACACAATGTTTCTCTTTAAAAAA
+AAAAAAAAAAATTGACTTGCAATGCAGAAG
+>ref|ref|X52907.1|| Bovine PAI-1 mRNA for plasminogen activtor inhibitor (3' end)
+TGTTTTGTTTTGTTTTTCTTTTTTCTTGATGCACTGGACAGTGACAGCCACACTCAGTACCCCCACGTGTGGGGTCCATG
+GCTCTTGAAATTGCTTTTTCACTTTTGATATAGAAGCAAGTAAAAAAAAATGTTTTTTAAAAATTAATAATAAATAAATA
+AAAAGAATATTCCAAAATAAAAAAAAAAAAAAA
+>ref|ref|NM_176647.2|| Bos taurus poly(A) polymerase alpha (PAPOLA), mRNA
X61585.1 B.taurus mRNA for poly(A)polymerase
+GCGGTTGCGGGGGGGAAGTGACTGGGCGGTGCGGCGCAGGAGACGATGCCGTTTCCAGTTACAACACAGGGATCACAGCA
+AACACAGCCGCCACAGAAGCACTATGGCATTACTTCTCCCATCAGCTTAGCAGCCCCCAAGGAGACTGACTGCCTGCTCA
+CACAGAAGCTGGTGGAGACTCTGAAGCCCTTCGGGGTTTTTGAAGAGGAAGAGGAACTGCAGCGCAGGATTTTAATTTTG
+GGAAAATTAAATAACCTGGTAAAAGAGTGGATACGAGAAATCAGTGAAAGCAAGAATCTTCCACAATCTGTAATTGAAAA
+TGTTGGTGGGAAAATTTTTACATTTGGATCTTATAGATTAGGAGTACATACAAAAGGTGCTGATATTGATGCATTGTGTG
+TTGCACCAAGACATGTTGATCGAAGTGATTTTTTCACCTCATTCTATGATAAGTTGAAATTACAGGAAGAAGTAAAAGAT
+TTAAGAGCTGTTGAAGAGGCATTTGTACCAGTTATCAAACTGTGTTTTGATGGGATAGAGATTGATATTTTGTTTGCAAG
+ATTAGCACTGCAGACTATTCCAGAAGACTTGGACTTAAGAGATGACAGTCTGCTTAAAAATTTAGATATAAGATGTATAA
+GAAGTCTTAACGGTTGCAGGGTAACCGATGAAATTTTACATCTAGTACCAAACATTGACAACTTCAGGTTAACCCTGAGA
+GCTATCAAACTGTGGGCCAAACGCCACAACATCTATTCCAATATATTAGGTTTCCTCGGTGGTGTTTCCTGGGCTATGCT
+AGTAGCAAGAACTTGCCAGCTTTATCCAAATGCAATAGCATCAACTCTTGTACATAAATTTTTCTTGGTATTTTCTAAAT
+GGGAATGGCCAAATCCAGTCCTATTGAAACAGCCTGAAGAATGCAATCTTAATTTGCCTGTATGGGACCCAAGGGTAAAC
+CCCAGTGATAGGTACCATCTTATGCCTATAATTACACCAGCATACCCACAACAGAACTCCACGTACAATGTGTCCGTTTC
+AACACGGATGGTCATGGTTGAGGAGTTTAAACAAGGTCTTGCTATCACAGATGAAATTTTGCTGAGTAAGGCAGAGTGGT
+CCAAACTTTTTGAAGCTCCAAACTTCTTTCAAAAGTACAAGCATTATATTGTACTTCTAGCAAGTGCACCAACTGAAAAA
+CAACGCCTAGAATGGGTGGGCTTGGTGGAATCAAAAATCCGAATCCTGGTTGGAAGTTTGGAGAAGAATGAGTTTATTAC
+ACTGGCTCATGTGAATCCCCAGTCATTTCCAGCACCCAAAGAAAATCCCGACAAGGAAGAATTTCGCACTATGTGGGTGA
+TTGGGTTAGTGTTTAAAAAAACAGAAAACTCTGAAAATCTCAGTGTTGATCTCACCTATGATATTCAGTCTTTCACAGAT
+ACAGTTTATAGGCAAGCAATAAACAGCAAGATGTTTGAGGTGGACATGAAAATTGCTGCGATGCATGTAAAAAGAAAGCA
+ACTCCATCAACTACTGCCTAGTCATGTGCTTCAGAAAAAGAAAAAGCATTCAACAGAAGGCGTCAAGTTGACACCTCTGA
+ATGATAGCAGCCTCGACTTGTCTATGGACAGTGACAACAGCATGTCTGTGCCTTCACCTACTAGTGCTATGAAGACCAGT
+CCGTTGAACAGTTCTGGCAGCTCTCAGGGCAGAAACAGTCCTGCTCCAGCTGTAACAGCAGCATCTGTGACCAACATACA
+GGCTACTGAAGTTTCTCTGCCACAAATAAATTCCAGTGAAAGCTCAGGGGGTACATCGAGTGAAAGCATTCCTCAAACTG
+CCACACAACCAGCCATTTCATCACCGCCAAAGCCTACGGTCTCCAGAGTTGTTTCCTCAACACGTTTGGTAAACCCACCA
+CCAAGACCTTCAGGAAATGCAGCAGCAAAGATACCTAATCCTATAGTAGGAGTCAAGAGGACATCCTCACCTCATAAAGA
+AGAGAGCCCCAAGAAAACCAAAACAGAAGAGGATGAAACAAGTGAAGATGCTAACTGTCTTGCTTTGAGTGGACATGATA
+AAACAGAAACAAAGGAACAACTTGATACAGAGACAAGTACAACTCAATCAGAAACCATTCAGACAGCGACTTCTCTGTTG
+GCCTCTCAGAAAACATCCAGTACAGACCTTTCTGATATCCCTGCTCTCCCTGCAAACCCTATTCCTGTTATCAAGAATTC
+AATAAAACTGAGATTGAATCGGTAAAAACAACCTCAGGGGTCCAGAAACAGTGTCTGCCAACTCAACCTGTTGTCTTCAA
+ATGCTAAAAAAGGAGAACGGAGGGTGCAAGACTAGACGTGACTGAAAGTGGATTGAGGGTTTTTTTGTGACCTCCCTTAC
+TGGGCTAATCAGCACTTGATCGGAAGTCCAGGTTAGTATGTGAAGCCAGGAGTACTATTATTATTGTGTTAGCAACAGTT
+GCA
+>ref|ref|X54962.1|| B.taurus pCK1 mRNA for casein kinase II alpha subunit
+GCCGTGTGTCTCCTCCTCCGCCGCCGCCATATTGTCTGTGTGAGGAGAGGGGAGAGCGGCCGCCGCCGTGCCGTTCCACC
+CCTGTTTTGAAGAAAATAGGTCTGAAACAAGGTCTTACTCCCCAGCTGCCTCTCAACATAGTGACTACCATCTCTCCAGA
+TACCAAGTCCAGCTTTGTCCGCCAACCTGTCTGACATGTCGGGACCCGTGCCAAGCAGAGCCAGAGTTTACACAGATGTT
+AATACACACAGACCCCGAGAGTACTGGGATTACGAGTCACATGTGGTGGAATGGGGAAATCAAGATGACTACCAGCTGGT
+TAGAAAATTAGGTCGGGGTAAATACAGTGAAGTATTTGAAGCCATCAACATCACAAATAATGAAAAAGTTGTTGTTAAAA
+TTCTCAAGCCAGTAAAGAAGAAGAAAATCAAGCGTGAAATAAAGATTTTGGAGAATTTGCGAGGCGGTCCCAACATCATC
+ACACTGGCAGACATTGTAAAAGACCCTGTGTCACGAACTCCCGCCTTGGTTTTTGAACACGTAAACAACACAGACTTCAA
+GCAATTGTACCAGACGTTAACAGACTATGATATTCGATTTTACATGTATGAGATTCTAAAGGCCCTTGATTACTGCCATA
+GCATGGGGATTATGCACAGAGATGTCAAGCCCCATAATGTCATGATTGATCATGAGCACAGAAAGCTACGGCTAATAGAC
+TGGGGTTTGGCTGAGTTTTACCATCCTGGCCAAGAATATAATGTCCGAGTTGCTTCCCGATATTTCAAAGGTCCTGAGCT
+ACTTGTAGACTATCAGATGTACGATTATAGTTTGGATATGTGGAGCTTGGGTTGTATGCTGGCAAGTATGATCTTCCGGA
+AGGAGCCATTTTTCCACGGACATGACAATTATGATCAGTTGGTGAGGATAGCCAAGGTTCTGGGGACAGAAGATTTATAT
+GACTATATTGACAAATACAACATTGAATTAGATCCACGTTTCAATGATATCTTGGGCAGACATTCCCGTAAGCGATGGGA
+ACGCTTTGTCCACAGTGAAAACCAGCACCTTGTCAGTCCTGAGGCCTTGGATTTCCTGGACAAGCTGCTGCGATACGACC
+ACCAATCACGGCTCACTGCAAGAGAGGCCATGGAGCACCCTTATTTCTACACTGTTGTGAAGGACCAGGCTCGAATGGGC
+TCATCTAGCATGCCAGGGGGCAGTACGCCAGTCAGCAGCGCCAATATGATGTCAGGGATTTCTTCAGTGCCAACCCCTTC
+ACCCCTTGGACCTCTGGCGGGCTCACCAGTGATTGCTGCTGCCAACCCCCTTGGGATGCCTGTTCCAGCTGCCGCCGGCG
+CTCAGCAGTAATGGCCCCTTCTGTCTCCTGATGCCTGAGCAGAGGTTGGGGAGTCCACTCTCTCCCTTGATGCAGCTTGC
+GCCTGGTGGGGAGGGGTGAAATACTTCAGAAGCACCGTGTCTGAACCGTTGCTTGTGGATTTATAGTAGTTCAGTCATAA
+AAAAAAAAATTATAATAGGAAAAAA
+>ref|ref|NM_174657.2|| Bos taurus solute carrier family 25 member 3 (SLC25A3), mRNA
X05340.1 Bovine mRNA for mitochondrial phosphate carrier protein precursor
+GGCCTCTGTGAGCTGCAGCCTTTCTGAGAGACCGGTTGTGTGTTCGCCATCTTAGGGAGAAGATGTACTCGTCCGTGGTG
+CACCTAGCGCGGGCGAACCCCTTCAACGCGCCTCACCTGCAGTTGGTGCACGATGGTCTCGCGGGGCCCCGCAGCGACCC
+CGCCGGGCCCCCGGGCCCACCCCGCCGCTCTCGCAACCTGGCAGCCGCCGCTGTAGAAGAGCAGTATAGCTGTGACTATG
+GATCTGGCAGATTCTTTATCCTTTGTGGACTTGGAGGAATTATTAGCTGTGGCACAACACATACAGCATTGGTTCCTCTA
+GATCTGGTTAAATGCAGGATGCAGGTGGACCCACAAAAGTACAAGAGCATATTTAATGGATTTTCAGTTACACTCAAAGA
+GGATGGTTTTCGTGGTTTGGCCAAAGGATGGGCTCCGACTTTCATTGGCTACTCCCTGCAGGGACTCTGCAAGTTTGGCT
+TTTATGAAGTCTTCAAAGTTTTGTACAGCAACATGCTTGGAGAGGAGAATGCCTATCTGTGGCGCACATCACTGTATTTG
+GCTGCCTCTGCCAGTGCTGAATTCTTTGCTGACATTGCTCTGGCTCCTATGGAAGCTGCTAAGGTTCGAATTCAAACCCA
+GCCAGGTTATGCTAACACTCTGAGGGATGCAGCTCCCAAAATGTATAAGGAAGAAGGCTTAAAGGCGTTCTACAAGGGGG
+TTGCCCCTCTCTGGATGAGGCAGATACCATACACCATGATGAAGTTTGCCTGCTTTGAACGTACTGTTGAAGCATTGTAC
+AAGTTTGTGGTTCCCAAGCCCCGAAGTGAATGTTCAAAGCCAGAGCAGCTGGTTGTCACATTTGTGGCAGGTTACATAGC
+TGGAGTCTTCTGTGCCATTGTTTCTCACCCTGCTGATTCCGTGGTGTCTGTGTTGAATAAAGAGAAGGGTAGCAGTGCCT
+CTGAGGTCCTGAAGAGGCTTGGATTTAGAGGTGTATGGAAGGGACTCTTTGCCCGTATCATCATGATCGGCACTCTGACT
+GCACTACAGTGGTTTATCTATGACTCTGTGAAGGTCTACTTCAGGCTCCCTCGCCCTCCTCCACCTGAGATGCCAGAATC
+TCTGAAGAAAAAGCTTGGGTACACTCAATAGATAAATGAAAGCAAATATGGACTGAATCTGCGTGTTGATCAGTGTTTGA
+GGAAAATGCAGAAGGAACTTTTATATATTTGACAGTGTAGGAAGTTGTCTATTCCTAATATAATTACTGTAGTACTCTTG
+TCAAAAGCAAGAGTTTCAAACTTAATGTGGAAATAAACCCAACTGTACATGA
+>ref|ref|X00002.1|| B.taurus gene encoding pituitary glycoprotein hormone alpha subunit, exon 1
+AGATCTTGTTTATAGGAAAGTGTCAACTTTCAGGATGTTGTGTATAAATCTTGAAAAAATTATGTAGAAAATAACAGAGT
+TCTCTTGTCTCATAGGCTGACCTTGCAGTCAACACCATCTGAAAATGGCTCAAAACAAAAAATAATCTAAGGGCTGAAAC
+AAGATAAGATAAAATTGATGTCATGGTAATTATGTGAAGTACCATTCAATCATTGGGTGGAATTTACTGTTGATCCCTGG
+ACTTAGATGTAGGTGGGAACATGCAGCTTTTATGACTCTGCTGGTATATAAGACAGGTGAGGACTTTATTAAAAGCAGTT
+GCTGAGAAATCACAAGACAAAACTAAAATTCTTCTTCAGATCCACAGTCAACTGCCCTGACTACATTCTGCAAAAATCCA
+GAGGACGGTAAAATGAATGAAATAATTTGGGGGATTTTAATTGAGGGGTAAAATATTTGAGGATACAAGGGAGCTGGTTG
+TGCATAAACCCTAGTAAGAAGAGAGACAGGCATTTATGCATTCTCCTTTCAGCACTCATGATTGAATTGGGAGGAAGTCT
+GCAAAACTGTGGTCTGTGATC
+>ref|ref|X00003.1|| B.taurus gene encoding pituitary glycoprotein hormone alpha subunit, exon 2, and joined CDS
+AGCAATGTTAAAACTACTGGTTGTTGTTATGCCTGTTAAGCCAATTTTATAGTAACTTTTTTTCCCTATGTCTGTTTTGC
+AGAAGAGCCATGGATTACTACAGAAAATATGCAGCTGTCATTCTGGCCATTTTGTCTCTGTTTCTGCAAATTCTCCATTC
+CTTTCCTGATGGAGAGTTTACAATGCAGGGTATGTGCCCAACTTGGGTCTGCAG
+>ref|ref|X00004.1|| .taurus gene encoding pituitary glycoprotein hormone alpha subunit, exons 3 & 4
+CTGTAGTCAGGACAAACAGATATTGTGTGTGAAGATGAACATACAACCAAAAAGTATTTATTTATTTTAACTGCCAATAG
+AAAAAAAGAATATTTGTTGTCCAATAATAAGGAATCATTCACAGTTTTTTTTTAAAAAATTCTTTTTGGATTATTTTACT
+CTTTGCCTTTTTCTTTCTTTCTTTTTCTTTCTCTCTCTTTTTTAAATTTGTTTTTTTTTTTTGGTGATAGGCTGTCCTGA
+ATGCAAGCTAAAAGAAAACAAATACTTCTCCAAGCCAGATGCTCCAATCTATCAGTGCATGGGGTGCTGCTTCTCCAGGG
+CATACCCCACTCCAGCGAGGTCTAAGAAGACAATGTTGGTCCCCAAGAACATCACCTCGGAAGCTACATGCTGTGTGGCC
+AAAGCATTTACCAAGGTGAGGACCTAAAGGGCCCCAGAAACTTTCTAACAGTTCAACCAGAGAAATGTCCTCACAGCACA
+TCCATGGCTTCACGCCAGAGGTAGCTAATGACCAGTCTTTCAATGGGCATTTGTAGAGCAAAGGGCTGAGCTTGTCTGCT
+TTAACCAAGACAGTCAGCCACCTTGTGGGCAGAGGCTGGATCTATCCAGAATGAAGACAGTGGACAGAGGTGATAAGGGG
+CAGGTTGGGAGAAAACATAGAATACTTATACAGTGCAAATCTAAGCTTTAGGAATGAAAATATCAGCTGAAAAGGAGACT
+ATGTGAATACAACCAGCATCTGTTTTTTAAAGTACTTATGTATTTGTTTGGCTGCACAGGGTCTTAGTTGTAGCACTCAG
+TATGTGGGATCTTTAGTTGTGGCAGGCGGGATCTAGTTCTCTGACCAGGGATGGAACCTGGGTCCCCTGCACTGAGAGCT
+AGAGACCTAGCCACTGGACCAGCACAGAAGTCCCATATAGCAAGCATTTATTCAGTTCAGCTGGCTACAGACTATTTTAC
+TGAACAGTTTTCAATTTTGCTAGCCTGCCTATCTATCCATCTGCCTCTGTCTATCATCTATCTTTCTTCCCTTCCGTTTA
+GGCCACAGTGATGGGAAATGTCAGAGTGGAGAACCACACCGAGTGCCACTGCAGCACTTGTTATTATCACAAATCCTAAT
+AGTTTGCAGTGGGCCTTGCTGATGATGGCTGACTTGCTCAAAAGGAAAATTAATTTGTCCAGTGTCTATGGCTTTGTGAG
+ATAAAACCCTCCTTTTCCTTGCCATACCATTTTTAACCTGCTTTGAGAATATACTGCAGCTTTATTGCTTTTCTCCTTAT
+CCTACAATATAATCAGTAGTCTTGATCTTTTCATTTGGAATGAAATATGGCATTTAGCATGACCATAAAAAGCTGATTCC
+ACTGGAAATAAAGTCTTTTAAATCATCACTCTATCACTGAATTC
+>ref|ref|X03098.1|| Bovine mRNA fragment for lipophilin (aa 129-276) (myelin proteolipid protein)
+CATCAAGCTCATTCTTTGGAGCGGGTGTGTCATTGTTTGGGAAAATGGCTAGGACATCCCGACAAGTTTGTGGGCATCAC
+CTATGCCCTGACCGTTGTGTGGCTCCTNGTGTTTGCCTGCTCTGCTGTGCCTGTATACATTTATTTCAACACCTGGACCA
+CCTGCCAGTCTATTGCTGCCCCCAGCAAGACCTCTGCAAGTATAGGCACTCTCTGTGCTGATGCCAGAATGTATGGTGTT
+CTCCCATGGAATGCTTTCCCTGGCAAGGTGTGTGGCTCCAACCTTCTGTCCATCTGCAAAACAGCTGAGTTCCAAATGAC
+CTTCCATCTGTTTATTGCTGCGTTTGTGGGGGCTGCAGCCACACTGGTGTCCCTGCTCACCTTCATGATTGCTGCCACTT
+ACAACTTTGCCGTCCTGAAACTCATGGGCCGAGGCACCAAGTTCTGATCTCCTGTAGAAATTTCCCTTTCTCTAATAGCG
+AGGCTCTAACCACACAGTCCACAGTGCTGCGTCTCCCATGTTAACTCTTTGCCTTTGCTACTGACTGGCCCTCTTCTTAC
+TTGACGAGTGTAACAAGAAAGGAGAGTCTCACGGTGATTAATGTCTCTGCGGACTCTCCCCTCTTACGTACCTCTTTTAG
+TCATTTTGCTTCATAGCTGGTTCCTGCTAGAAATGGGAAATGCTTAAAGATGGTGACTCCCCAACTGCAAGTCACAAAGA
+AGTGGAGGCTCTCATTCAATTTTCAAGCATCTCCCGAGGACNAGGAAGTGTTTTCTTCTCAAAGGGCACTTCCACTGATG
+AAAACAAAGTGGAAAGAAAGATGTTCAGGTAGAGAGAAGGGAGGCACCTGTCCCTGTTGCCATCTTGGGAGCCAAATATA
+TTCTCTTTGGTGTACAAAACCGAGAACTCACTCCAGTCTCCCTAGTACC
+>ref|ref|X63436.1|| B.taurus mRNA for poly(A) polymerase
+GGGGAAGCGCTTAAAGCGGCGGGACGGGTGCGGAGTGGGGTAGGACCCAGGGCTAAGGCAGGCCCCCGCCCCCCTCCCTC
+CCGCCTCAGTGGATCATGCCCAGGGCGGCAGTGGCGGCGGTTGCAGGGGGGAAGTGACTGGGCGGTGCGGCACAGGAGAC
+GATGCCGTTTCCAGTTACAACACAGGGATCACAGCAAACACAGCCGCCACAGAAGCACTATGGCATTACTTCTCCCATCA
+GCTTAGCAGCCCCCAAGGAGACTGACTGCCTGCTCACACAGAAGCTGGTGGAGACTCTGAAGCCCTTCGGGGTTTTTGAA
+GAGGAAGAGGAACTGCAGCGCAGGATTTTAATTTTGGGAAAATTAAATAACCTGGTAAAAGAGTGGATACGAGAAATCAG
+AGAAAGCAAGAATCTTCCACAATCTGTAATTGAAAATGTTGGTGGGAAAATTTTTACATTTGGATCTTATAGATTAGGAG
+TACATACAAAAGGTGCTGATATTGATGCATTGTGTGTTGCACCAAGACATGTTGATCGAAGTGATTTTTTCACCTCATTC
+TATGATAAGTTGAAATTACAGGAAGAAGTAAAAGATTTAAGAGCTGTTGAAGAGGCATTTGTACCAGTTATCAAACTGTG
+TTTTGATGGGATAGAGATTGATATTTTGTTTGCAAGATTAGCACTGCAGACTATTCCAGAAGACTTGGACTTAAGAGATG
+ACAGTCTGCTTAAAAATTTAGATATAAGATGTATAAGAAGTCTTAACGGTTGCAGGGTAACCGATGAAATTTTACATCTA
+GTACCAAACATTGACAACTTCAGGTTAACCCTGAGAGCTATCAAACTGTGGGCCAAACGCCACAACATCTATTCCAATAT
+ATTAGGTTTCCTCGGTGGTGTTTCCTGGGCTATGCTAGTAGCAAGAACTTGCCAGCTTTATCCAAATGCAATAGCATCAA
+CTCTTGTACATAAATTTTTCTTGGTATTTTCTAAATGGGAATGGCCAAATCCAGTCCTATTGAAACAGCCTGAAGAATGC
+AATCTTAATTTGCCTGTATGGGACCCAAGGGTAAACCCCAGTGATAGGTACCATCTTATGCCTATAATTACACCAGCATA
+CCCACAACAGAACTCCACGTACAATGTGTCCGTTTCAACACGGATGGTCATGGTTGAGGAGTTTAAACAAGGTCTTGCTA
+TCACAGATGAAATTTTGCTGAGTAAGGCAGAGTGGTCCAAACTTTTTGAAGCTCCAAACTTCTTTCAAAAGTACAAGCAT
+TATATTGTACTTCTAGCAAGTGCACCAACTGAAAAACAACGCCTAGAATGGGTGGGCTTGGTGGAATCAAAAATCCGAAT
+CCTGGTTGGAAGTTTGGAGAAGAATGAGTTTATTACACTGGCTCATGTGAATCCCCAGTCATTTCCAGCACCCAAAGAAA
+ATCCCGACAAGGAAGAATTTCGCACGATGTGGGTGATTGGGTTAGTGTTTAAAAAAACAGAAAACTCTGAAAATCTCAGT
+GTTGATCTCACCTATGATATTCAGTCTTTCACAGATACAGTTTATAGGCAAGCAATAAACAGCAAGATGTTTGAGGTGGA
+CATGAAAATTGCTGCGATGCATGTAAAAAGAAAGCAACTCCATCAACTACTGCCTAGTCATGTGCTTCAGAAAAAGAAAA
+AGCATTCAACAGAAGGCGTCAAGTTGACACCTCTGAATGATAGCAGCCTCGACTTGTCTATGGACAGTGACAACAGCATG
+TCTGTGCCTTCACCTACTAGTGCTATGAAGACCAGTCCGTTGAACAGTTCTGGCAGCTCTCAGGGCAGAAACAGTCCTGC
+TCCAGCTGTAACAGCAGCATCTGTGACCAACATACAGGCTACTGAAGTTTCTCTGCCACAAATAAATTCCAGTGAAAGCT
+CAGGGGGTACATCGAGTGAAAGCATTCCTCAAACTGCCACACAACCAGCCATTTCATCACCACCAAAGCCTACGGTCTCC
+AGAGTTGTTTCCTCAACACGTTTGGTAAACCCACCACCAAGACCTTCAGGAAATGCAGCAGCAAAGATACCTAATCCTAT
+AGTAGGAGTCAAGAGGACATCCTCACCTCATAAAGAAGAGAGCCCCAAGAAAACCAAAACAGAAGAGGAACAACTTGATA
+CAGAGACAAGTACAACTCAATCAGAAACCATTCAGACAGCGACTTCTCTGTTGGCCTCTCAGATCATTTAAATCCTCACT
+GCACAATATGCCGTCTTCACCTGGAGGTTTTGTTATAAGTCAGAGAGTGAACTTTAAATTAGAACTTAAAATCCTTCTTC
+ATGGATTGCTTTTCAAATGTTTTATTTTCAAAATGTGTTTCTGCTTCACTTTTCACCTCTGCTTTTCAGTTATTTATTTA
+GTGTAATGCATAGTTCTTTAAAGCTATTTTTTCATTTGTCCTAGAAATTCTGCTGTGACAGTACCTTGTGTACAGTAGAC
+ACTTGGACTCTTTTCATTAATTTGTGAACCTTCATTTTGTTTGTGAAATAATTGTTTTCTTCTCGAATCCTTTTAAACTG
+AATATACTCCAAAGCTAAGTCAGGCTCTGACATAAAGTAAATACTTCCTTTAAGTAGACATTAAACTGGTTAACTTCCAC
+AAAGCTACTGCCAGTGACGCTGCTTTACTGACGAGACAGTGGAACTACGCTGCTTTGTGGCTCAGAGTTATTTTAATGTG
+ATAATTTTAAGATGAGTTTTTGCTGGCTGTTAACCTTCATAGTTCCTCTTGATATATAAATGCTATGATTACTTTCTGAA
+ATGTTTTATTTTCATAGCCTTTAGCTAATAAAAATTTTGTGGGGTGGCGTGGAGTAATTCCAACAACATTAGGAAGTGTT
+GTACTTGATACTGATACACAGACAAACTTATTTATCAAAATTCAGTTCTGTGATTGTGACTGCATGCATTTAGGCCAGCC
+ACATTAATCTCTAGGGAACTGTTTTCATAGTTTGTTTTGTTGACTTCATTCCTCTAGTGATTCATACCCTTGGGTGTTTG
+CCTTTTAGATATTTTTATAAGGAATTAGAATTTTCTTTGTAATGAAAAGATCCCTAGAACCGTTGAGAGAAAAATCACCA
+GGTTATATATATAATATAAAAAGTTATGTCGATTAAAAAAATTTTTTTTAATCTCTTTATTTGGTGATAGAAGGGAGGTA
+TTAATGTTGTGACTGTGTCTAACAATGAATCTTTGAGATAAACTTGAAATATTTACAGAAGAAATGATAGGCTCTCTGGG
+ATTTGCTTCAGAATAATCTGGGAGTAAAGGTGGGAGAACAGTGGATTGGCTTTGACGAAGTCGGTAATGAATACACGAGC
+CATTCATTATATAAGGCTCTACTTCTGTGTATGTTGGAATTTTCCATAATAAAACAATTAAAAATGCCCCC
+>ref|ref|NM_174133.2|| Bos taurus ubiquitin B (UBB), mRNA
Z18245.1 Bos taurus gene for polyubiquitin
+CTGGCATTGTTGGGTTCCTGTGTCGTCTTGGAGGTGACTCGGCGTGATTGAATTTGCGGCATCTTCGCATTCATTCACAG
+GTCAAAATGCAGATCTTCGTGAAAACCCTGACCGGCAAGACCATCACCCTGGAGGTGGAGCCCAGTGACACCATCGAGAA
+CGTGAAGGCCAAGATCCAGGATAAGGAAGGCATTCCCCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAG
+ATGGCCGCACTCTTTCTGATTACAACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAG
+ATTTTCGTGAAGACCCTGACCGGCAAGACCATCACCCTGGAAGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAA
+GATCCAGGATAAGGAGGGCATTCCCCCCGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTC
+TTTTTGATTACAACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAGATCTTCGTGAAG
+ACCCTGACCGGCAAGACCATCACCCTGGAGGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAAGATCCAGGATAA
+GGAAGGCATTCCCCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTCTTTCTGATTACA
+ACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAGATCTTCGTGAAGACCCTGACCGGC
+AAGACCATCACCCTGGAAGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAAGATCCAGGATAAGGAAGGCATTCC
+CCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTCTTTCTGATTACAACATCCAGAAAG
+AGTCGACCCTGCACCTGGTCCTTCGTCTGAGGGGTGGCTGTTAATTCTTCAGTCTTCTATTCATAATGTTCAATGATGAC
+ATCCTTCTGCACTCTAGCCATTTACCCCAATTTAAGTTTAGAAATTACCAGTTTCAGTAATAGCTGAACCTGTTCAAAAT
+ATTAATAAAAGTTTTGTTGCATGC
+>ref|ref|NM_173915.2|| Bos taurus gastrin (GAST), mRNA
X16581.1 Bovine mRNA for preprogastrin
+CAGGCTCCAGGCCAACAGCAGCGTCACCCACCTCCCAGCTTCACAGACAAGATGCAGCGACTGTGTGCACATGTGCTGAT
+CTTGGTGCTGGCTCTGGCCGCCTTCTGCGAAGCTTCTTGGAAGCCCCACTCCCACCTGCAAGACGCGCCCGTCGCTCCAG
+GGGCCAATAGGGGCCAGGAGCCGCTCAGGATGAACCGGCTGGGCCCAGCCTCGAACCCCCGGAGGCAGCTGGGGCTTCAG
+GATCCGCCACACATGGTCGCAGACCTGTCCAAGAAGCAGGGGCCATGGGTGGAGGAAGAGGAAGCAGCATATGGATGGAT
+GGACTTCGGCCGCCGCAGTGCTGAGGAAGGGGACCAACATCCCTGAGAACAAGCTTTGGAGCCCAGTCACCTCCCAGCCC
+AGCCCAGCCCCATGAAACACACATCAAAATAAACTAGCTTCCAATGG
+>ref|ref|X01395.1|| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 1
+GAGTCGCTTTGCTTTGATGAGTAATCTTAGGTGTCATGGAACCTCGTTCCGAAGAAAGAGGGGAGGGGGCGTCAGATATG
+CCTACGGAAGAAGACAGGCCGCTGGGTTATTGGATGGCGAGAACTCGATATTCCTATAATTGCGTCATTTCGAACCCAAT
+TGGGTCCAGATGTTATGCGCACCGACGGATTACCGTCTCGGAAACTCTCAATCAGACGCAAGCGAAAGGAGAGGAGGCGG
+TTAATTAAATATTGAGCAGAAAGTCGCGTGGGGAGCGCGTCACGTGGGTCCCGAGACTCGGCGAGCCTGGGATAAATACC
+GCGCGGCAGCCAGCAGGCAAAAGAGCGCGCTGCTGACCTCCTCCATCCTTGCTGCGACCGAGAGAGTGCGCAGCGCCCCG
+CGAGTGCTCAGACCAGCAGAGGAACCTCCCGGGCGGGTCAGCTGCGGTAAGTGCCCGCGCGCTGTAGTGCGCGCTTTCCG
+CACCGCGCACCGCTCG
+>ref|ref|X02351.1|| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 2 (and joined CDS)
+TCAAAAATTCTTTTTTTTCCCCCTCTGCCTTTTCTCCCTACTCTTCCCAGAAATCCAACATGAAAATCCTCGTGGCCGTG
+GCAGTGATTTTTTTCATCTCCACTCAACTGTCTGCAGAAGAAATCGGAGCCAACGATGATTTCAATTATTGGTCCGACTG
+GTCCGACAGCGACCAGATCAAGGTGAGACCCGTTCCCTAGATGGCCTGCGCCCTTCTTCACGGGTTTAGGAGCTGTCACT
+TA
+>ref|ref|X01396.1|| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 3
+CCTCGAACTGGTTGCCTTCAGGCCCGATAATCCGTGTGTTTGTCCTCTAGGAGGAAATGCCCGAGCCCTTTGAGCATCTT
+CTGCAGAGAATCGCTCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTGATGGGCAAACGGGATGCTGGTGAGATGGGCAG
+TCGTCCCTCCCTGTCTCTCTGGGCAACCCACACACAT
+>ref|ref|X01397.1|| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 4
+ATCACACCATCAGTGGAATGTGTGGTTAACGTCAATTTGTCTCTTGTCAGATTCCTCAATTGAAAAGCAAGTGGCCCTGT
+TAAAGGCCCTTTATGGTAAACATTTCTATAAATCTTTATTTTACTATTGTGAATGCACATGTGTG
+>ref|ref|X01398.1|| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 5
+CTCCTTTTAAACAAATCTATTGTTTGCTAATTTTATCTTTCTTTCTATAGGACATGGCCAGCTTTCTCACAAAAGTAAGT
+TCCAAATTATTTTGACATTTATCAAATGCAAATATAAATTATAT
+>ref|ref|X01399.1|| B.taurus gene fragment for beta preprotachykinin (PPT) exon 6
+ATTTCCTCAGATATATACATATTAAAATACCCCTAAATGTATTTTTCCAGGGCATAAAACAGATTCCTTTGTTGGACTAA
+TGGGCAAAAGAGCTTTAAATTCTGGTATGTATAAAACCATGACTGGACATAAACAGTATCTTAAATCTACTCTA
+>ref|ref|X01400.1|| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 7 part 1
+CTGTGTCAGTGATCCTCTTAACAAACCCTTTACCTTCTCTTTGTTCTCAGTGGCTTATGAAAGGAGTGTGATGCAGGATT
+ATGAAAGAAGACGTAAATAGACTACCTAACATATTTATTGAGCTTCATTTGTGTCAGTGGTCAAGGAAAGGTAAAATGAG
+ACATGCACTATGAGGAATAATTATTTATTTAATAATTGTTGTTTTGAGTTT
+>ref|ref|X01401.1|| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 7 part 2
+CCTGCAGCATGTTTCATGTTTTGTGACTATATAGAGACATTTAAAAAGTTTTACTGTGATTCTAAGGTATTTTATTGTAC
+AATGTGTTGTAATAGTTAACATTTTAAATAAAAGAAAAAGTATCTTAAATTGGGCCTTATTCTTTCATTAACCTTTACAT
+CTAATGGCAACCTTTCTTTTAGAGGATATGTTCCAACCTGTTTTGGATGTAAAATAATGAAACATAAAGCTACTAAATTT
+CTTTTTCTTAAGGAAAATGATTAAATGTAATCAGAGTTTCTCTTTCCCACACACGTGCGCCTGTTGTTCAGTCATTGGCA
+TGGGATCC
+>ref|ref|X07283.1|| Bovine DNA for pancreatic ribonuclease (EC 3.1.27.5.)
+TCCAGGCCAGAATACTGGAGTGGATAGCCTTTCCCTTCTCCAGGGATCTTCCCATCCCAGGTCTCCCACATTGCAGGCAG
+ATTCTTTACCAGCTGAGCCGCAAGGAAGCCCAAGAATACTGGAGTGGGTAGCCTATCACTTCTCCAGAGGATCTTCCTGA
+TCTAGGAATTGAACCGGGGTCTCCTGCACTGTAGGCGGATTCTTTACCAACTGAGCTATCAGGGTCACAAAGAGTCAGAT
+ACAACTGAAGCCACTTAGCACACATGCCTGGGCTATTTAGTATGGAACATGGATTTGGTTGGAGTTTGAGCATCAATACT
+ATAGTGGCTTTCTCTGCTGCTTTATAGAGAGAAAAGTTCTTATCAGCAAAGGCTCACTATCCCCAGCAGTCCCCCCAAAA
+GGGTGTGCGTGTATGCTCAATTGTGTCTGGACTGTGCCTGCCAGGCTTCTCTGTCCATGGAATTTCCTAGGCAAGATCTG
+GAGTGGGTTGGTATTTCCTTCTCCAAAGGATCTTCCCACCCCAGGGACAGAACCGGAGTCTGATGAATAGGCAGGCATAC
+TACCAGGCCAGGTGTCCTGGGCAATTCCCCAACCTTTCCTCGCTTGACCTTGTTTTCCTGTGGACTGAGACCAAGATGCC
+CCTCCCACCCTTCTTGGAAGCCAAGCCCCCTTTCACCAGTATAAGGTCCACACCTCTGGAAGAGAATGATTGCAGAAACT
+GCCTTCTCTCTCTCAGACATCAAACTAGAGACCCAGGTAAGCAGCCCAAGAAGTGGTCTCAGGAGCTGCTTCTGCTTGAG
+GGTTTGAGAGGGAGGATCCTAGGTGAGTGAGACTAGCCTGAGAATTGGGCTGGGCAGACAGGGGCAGGGAGCAGAGCTGG
+GGTCAGGAATGGAGCACACAGGCTGCAGAGAGCCCACAGGGTTGGAGAAGGAGAAGCCTCCAGGTTGGGGGAGGCTTGAA
+TCTCTCATAGGAATACAATGGTGTCCTTTATGGTATGGGGTCAGACACAGGACAGGGACTGAGTTTCCCTTGTGCTGGAG
+GACAACAGGGCTCTGTCAACTGTGATCCGGATGAATACTGGTGGTTATTTTGGGGGTACAACTTAGCTTATTCAAAATCT
+GACTTTTTTATTTAGTGGTTTATTCAAAAGGATCCCCTAATGAGCTGCATGAGTGCTGGGTACAAAAGTATTTTATTTTC
+CAAATGTATTTCATATCAAAAGACTTTCTGTATTCAAAGACAGGACTGCTAGGATTTTAGATCATTTTGGGGGTCACCAC
+CCAAAGGGGAGGACGACACCTCTGTAGGGAGTGGGAGTCAAATGTTTGTGGGAAGAGTATATGTGTCTCCTTACCTAGGA
+AAGCTCTTAGGAACAGGGACATCTTTCTGGTTGACCGGCAGGGAGACTGTAAGCCAGGGAGGCTACAGGTGGGAGCTGGG
+GTTCTTTTCGAAGGCGATGCTTTTCCTCTTCTCCCCCTTTTCTCATTCAGGTTTCTCCAGGGGAGTGCGGTCATCATGGC
+TCTGAAGTCCCTGGTCCTGTTGTCGCTGTTGGTCCTGGTGCTGCTGCTGGTGCGGGTCCAGCCTTCCCTGGGCAAGGAAA
+CTGCAGCAGCCAAGTTTGAGCGGCAGCACATGGACTCCAGCACTTCCGCTGCCAGCAGCTCCAACTACTGTAACCAGATG
+ATGAAGAGCCGGAACCTGACCAAAGATCGATGCAAGCCAGTGAACACCTTTGTGCACGAGTCCCTGGCTGATGTCCAGGC
+CGTGTGCTCCCAGAAAAATGTTGCCTGCAAGAATGGGCAGACCAATTGCTACCAGAGCTACTCCACCATGAGCATCACCG
+ACTGCCGTGAGACCGGCAGCTCCAAGTACCCCAACTGTGCCTACAAGACCACCCAGGCGAATAAACACATCATTGTGGCT
+TGTGAGGGAAACCCGTACGTGCCAGTCCACTTTGATGCTTCAGTGTAGGTCTCTACCTAAGGCCAGAGCAGCAAGATGCA
+CCACTTCATCACAAAGGCACCTGCCTCTCCCCTCATGTTTCCTTGTCCTGGGGGCAATAGCTCAAGTTAGTTAGGGCTCT
+TATCTCTGCGCACCTTACCAGAAACACACACACAGGATTCCCTGGCATGAAAGCAATAACTCAAGCTAGTTAAGTCTTCT
+ATCCAACCCACACTTGCTCCCCTGGCCTGAGTCTTGCCCCTGGTGGTTTGGGGGGTGAGGAGTGGGTTGTGAGGTGGGAC
+CTGTGTTAACCAAATCACTGCTTCTTTCAATAAACATACTTGCAACCACCTGAATTCCTGATGCTGTCCTCACCTGGGTA
+TTGTTCATGTGATTGCTCTCTTGCCAGGGGTGAGAAGCGTGAATCAGGTTATCTGTGGTAAGAAGGGAATGCAATCCTTA
+AATGCCACCTCTTCTGACTTTTGGTTTTCAGTGCCCTAAGATAATTCCTCTCTTTGTAGGTTCCTTGACACCCAGTATAA
+ATGTGTGGGTGATTTTAAGATCTATAGTCTGGGACACTGTCATGCTGGGTGAGCTGACAGAGGGTGAAGCTCACATACAA
+AAATCTCTGGCACAGAAGAAAAGATCATGTGATCCAGGAGAGACCCTGTTTGGCCTCAGGAGCAGAAGAAGACTATGAAA
+TTATGACCTAAGATTTCCATTTTCCTTTTTTTGAGGGAGCTATTACTAAATCAGAAAGATGGTCC
+>ref|ref|X16641.1|| Bovine DNA for prolactin 5'flanking regulatory region
+GATCTGGGTCGACCTGCAGGTCAACGGATCTGCAAAAGAGCACATACAAAAATTAAGGTAGATAGGCAGTGACATATGAG
+AAAGACAGATAAGACAGTTATGACATTTTATATAAAATAAGCCTTTTACATTATTTCAACCCACTCCAGGTCTCTTGCCT
+GGAAAATCCCATGGATGGAGGAGACTGGTAGGCTGCAGTCCATGGGGTCACTAGGAGTCAGACGTGACTGAGCGACTTCA
+CTTTCCCTTTTCAGTTTCATGCATTGGAGAAGGAAATGGCAACCCACTCCAGTATTCTTGCCTGGAGAAACCCAGGGATG
+GGAGAGCCTGGAGGGCTGCCGTCTATGGGGTCGCCCAGAGTCAGATACGACTGAAGCGACTTAGCAGCAGCAGCAGTTTG
+CATTATTTAGCTATGGCAGTATCCTTTTAACAGGAAATATAGGGCTGTGAATCAGCAAGAAAGCACACAAGAAATTTTAC
+AGAGAAACATGGACCTCTTCGGAATCAAATAGATCAGTTGGCCTCCATTGAATAAACAACTTAGGCTTTTTAAATTACTT
+TTTTCCTCGCTATCTACAAAAGGTAAAGCACCTTTAAATTTTAAGATTAAGTTGTCAATTCTTAGGGCAGATTTTCCTAT
+TATTAAGTTTCAGGAAAGGAGGGGAAATTGGGGCAGCATTAATTTCTTTACAAATGGCACTGTTCTCAACAACTCAGACT
+TTCACTGTCCAGGGAAAAACAGATACCAAGCATGGCATTTTGACCCAGCTTTAAGTTGACGGAGTCTATGTAGCATCATA
+CTTGATTCATTTGATGCAAAATCAGTATTGATTAAGCTAAGGCAGTTAGGAGGATAGTTTTTAAGTGGCGTTAGTCTTTG
+TTATGATTTCTAAGTCCCCATAAGCACACTTGGATAATTGCTAAAGCAAAATACAGCAGGAGAAACTATAGAAAATATGA
+ATGCAATAAAAAGAGATTATTTTCTTAATGCAGCTCACTTGTCAATTTACTCTGAGAGACATATGGTAAAATTGAAACTA
+AAGGTCACAGGCTGCTTGAGATGCATGAACTTAAAAATTAAAGAAAGTCATCAGCAACTTGGTCTATATTCATTACCATC
+ATCTCATTCAGGAAATCTCTAAAAGGCAAGTGGAACTTTAGAGCCCATGAAAGATGAATTTTTGTCACCTTGGCCCTAGA
+GTGGCTTGAGGTCAGAGAATTAAAGCTATCATAAGTTAATAACAGTTTGTGTAACCTTACCCTTAAGGAAAGTGAACATG
+ACTGTCTAGAATTTTGTTTTACTGCATTTACCAGAGTTTGTGTGTGTGTGTATGTGTGTGTGTGCCCTTGAAAACCACTG
+TCACTTCCCCAGTATGAACTCCCTAAAGTTAGGGGTGAGTTTTGTGTTCATTGTAGAAGAGAGGGCAACGTATGTTGGAG
+GATTCATTTTCCAGCCCTCTTCACATCCCTCCTGATTTCTCTTGAAGTGATAAACATTTCGGTATCTAACTTGACTAATT
+CTATATCCTTGACATTTAAACTCCCCATCCCACTGTTTCTCAATCTGGGGACGAAAGATATAACTTTACATACATGTTAA
+AATCAAAAGACTTATGTGAAAATGCACATTTTACCACAGAGATATATCCTTTTAGAAAGGACAAAACAGAATGTGTAAAA
+ATCAAGAAAAAAAAAATGAGGAAAATGTATTGAGAGTATAACAGGAACTGAAAATCTTACTTACTCATCCTTATTCTATA
+TTTCTTAGTATTTAGTGTGTAAATTTTGAAATCTTGACTTCAGCCAGCAATTTTGAATGAGAATAAAATACTCTTTGATA
+ATACATGAGACACCTAAGTGAAAGATAATGCTATATTCAAGAAACTGCAGAGAAATAAAGGCAAATGTTACAAGAAATGA
+CTGCTATAATTTTATAGTTCCTCTAACTCAAACTAGTCTCCAGATCTCACCATCATTATCTCTCTCATTTCCTTTCAGTC
+TAATTAATCAAAATCCTTCCTAGATGTTCATTTCTGGTCAGTATGTCTTCCTGAATATGAATAAGAAATAGAATACCATT
+CAATGTTTGAAATTATGGGGGTAATCTCAATGACGGAAATAGATGACTGGCAAAAGGGAAGGGAATGCCTGATTAAATAT
+ATTCATGAAGATGTCAAAGCCTTATAAAGCCAACATCTGGGGAAGAGAA
+>ref|ref|X16559.1|| Bull mRNA for protamine 2
+AGGTCGACGAATTCAATTCCGTTAACAGCAAGAGCAGGGGGCAGGCCTCAGCCTCCTCCCCGCCCCCCCAAGGCCAGCTG
+CCGTCTCAGCCCGAGTCGCCCACCCGTGACCCCTCCATCACGATGGTCCGATGCCACGTGAAGAGTCCAACTGAAAGTCC
+ACCCGGGCAGCAGGGCTCCGGGCAGCAGGGCGAGACGGAGCACCCGGATCAGGCACGGGAGCTGAGGCCGGAAGACATCC
+CGGTCTACGGGAGGACTCACAGAGGCCGCTACCACTACAGACACAGGAGCCACACGCGCGCCTACCGGAGGCGCCGGAGA
+AGGGCCTGCAGGCACAGGAGCCGCAGAGGTGCGGCGGGCCCCCCCTGCGCTCCCATCCCAGGCACCCCCCAGGCCTCCAG
+GCAGGGCTCAGGCTGCCGAAGGATGAGGAGGAGGAGGAGGAGATGCGGAAGGCAGCTCTAAGTTCCCTGGGCCACCAGAA
+AGAGTCACCTGCCAGGAAGCCCTCGAAGACCATACCACATCCCCCTTGGAGCCCACGAGATCTTGAGTAAATGAGAAAGT
+ATCTGTCAATAAGTTGAGATAAGAAACTGAAAA
+>ref|ref|X12516.1|| Bovine parathyroid hormone gene downstream DNA fragment
+ATACTCCCTTTTCTTCTTATTACCTCAACCCCATTCACATATCAGGCTTAGATTTCTTAGAGAAGTATCATGCTGGAATT
+TCTTTTTTCCAGAAGGATAAAGGATAAATAATTCTAGAACTTGACAGTTGTCATTAAAGTAACAACCAGGTGAATTAAAT
+AACCCCTTGATAGCTCAGTTGGTATAGAATCACCTTCAATGCAGGAGACCCTGGTTCAATTCCTGGGTTGGGACGATCCA
+CTGGATAAGGGATAGGCTACCCACTCCAGTATTCTTGGACTTTCCTTGTGTCTCAG
+>ref|ref|X17364.1|| Bovine Harvey-ras 2 put. pseudogene, exons 1-3
+CCCGGGCAGCCTGGCCCAGGAGCTCAGTGGGCGTGCGAGTGGGGTCAGTGGGACAGGAAACCACAGTAGTGCCTGGTGTT
+GGGGTCCTTGAGGAGTGATGACGGAGGATAAGCTCGTGGTGGTGGGCGCCATGGTATGGAGGAAGAGTGCCCTGACCATC
+CAGCTCATCGAGAAGCACCCCGTGGAGGACAACTCCACCATGGAGGTGAGCCGACTCTGGTCCACAGCCTGGCTCCTGAC
+AGGGGCTTGTCCTCCACCTGCTCTGCAGAGGGGTCCTATTGTCCTAGGTCCTGGGGGCACAAGAGGAGCGAGGGAGGGTC
+CCCTCCCAGGAAGGTTGGCTGTCTCTAAGTTCCTACTGGAAGCAAGTGGTCACTGATGGGGAGACCTACCTACTGGACAC
+AGCAGGCCAGGAGAGTCAGCGTCATGGAGACCAGTACATGAGCACCAGCGAGGGCTTTCCTCTGGGTGTTTGCATCAACA
+ATACCGAGTCCTTCAAGGGCATCCACCAGCCCTGGTGAGCTGACCACTGACCTCAGGGCTCCTGTCCTCTCTCTGTGACG
+CCAAGTGCAGGCCCAGCCCGCAGCCTGCCCACTGGATCACGACTTCCCCTTGTAGGGAGCAGATCAAGTGGGTGAAGGAC
+TCAGATGGCATACCTGTGGTGCTGGTGGGAACGAGTGTGACCTGGTCATGGTACCGTCGAGTCTCAGCAGGCCAGAACCT
+CACCCAAAACTGCAGCGTCCCCTGCAGTGATGTGTTGGCCCAGATGCACCAGGTGGAAGCCCCCCTCCCTGCCCCCCATC
+CAGCCAGGGCCCTGTGCACCCCCACTGCCTGGGAGCAGCACTCACTGCCCCTTCTCCCTCCATCCAGGGCAGCTGCTCGA
+CCTCTGGCTTCAGCTAAGGGACCCCCTGGAACCCACTTCGATTCCCCTGACCCAGCAGCCCCTCAAGCTGTGAGTCTCCC
+CGGG
+>ref|ref|X17365.1|| Bovine Harvey-ras 2 put. pseudogene, exons 4
+TTTGAGTATGCCAAGCCTCCTTCCTCATGACCTTTGCCACAGGCGGAACTCGCTCCTGGCAGGAAGGGTCTGGGATTCTG
+CTCGAGCAGAGGCAGTGTTCCCCTTGAGCCGGTGCCCTCTTCCTTCCACTGGTGCGTGAGATCCGGCAGCACGCCCACCC
+AAGGAGGGGCCCCTAGGCTGCCTGAGCTCAGGTGCTGCTCCCCTGACAGGTGTGGAGGGGCACGGAGGTGTCCAGTGTGA
+TGTGGGAAAGGGTGTGCGAGATGGGTGTGGGGAGGAGGAGGCAGGGAAGAAAGGAAGTGCCACTGGAGCCTGGCCAGCCC
+AGGTTGGTGGACAGAGTGACTGAACTGATGCTCCCTGCCCGCCAGCTGTTGCTCTCCTGGAGCCCAGTCCTGGCCCACCG
+GACACAGGCTGAGTCACAGTCATCCGATGGTCTTGATCCTGGGGTTTGGTTGAAGCTCGGAGTCTGTAGTGCCTGTGGCT
+CCCACGAGGCAGATGGGAACCTCAGTTTTGTCCAGCTGGTGCTCCCTTTGCCTCTGGGGGCCCTGAGGGCATCCTTCGGA
+GATGTCTAGGTGCTACAAGAACCAGCCAGTCTAGCACTTAAAGCGGGAAAATGTATTAACCTTTAACCAGCAAGGGGGGA
+AACTGAAACCAAAGTCTGTCCATCCCTGGAGGGAGACCTTCATAGGGAATGGTGGGGGGCAGGGTACCGCAGTTGGGTCC
+CGGG
+>ref|ref|V00115.1|| Bos taurus 1.711a satellite DNA with insert INS-1.711A. (extends from base 501 to 1151)
+GATCACGTGACTCTGCAGGCACTGATCACGTGGCTGATCAAGTCCAGATCACGTGACTGAGCATGCACTGATCACGTGGC
+TATCATGCACTGATGACGTGACTGCGCATGCACTGATGACGTGGCTGATCGGGCACTGATCACATGGCTCATCATGCACT
+GATCACGTGTTTATCAGGCAATGATCAGTGACTGACAGGCGCTGATCATGGGACTGTGCACGCACTGATCACGTGGCTCT
+CATGCACTGATCACGTGACTGCGCATGCACTGATGACGTGGCTGTTCGGGCACTGATCACGTGTTTATCAGGCAGTGATC
+AGTGACTGACTGGCGCTGATCAGGGGACTGTGCACGCGCTGATCAGGTGGCTGATCAGGAACTGAACACCTGACCGCGCA
+TGCAGTGATCACGTGGCTGGTCGTTCACTGATCACGTGTTTATCATACGGTGATCACGTGACTGAGAGGCGCTGATCACG
+TGACTGTGCCGTCAGTGATCACGTGGCTGAGCAGGCACTGATATCGTGACTGAGCATGCACTGATCATGTGCCGGGAGCC
+GGGGAGGCATTCCACTCTGGACAAAGGTCATGAGGAAGGAGGCTCGGCATACGCAAATGCGGGATCGAGCCTCAGGAGTC
+CACCCGGATATTCTCGAGCATCTCCCCCCCAAAAAAACCGGAGTCCGCCTACTGTATTGCTTTGTGCTCTCACCTGTGAT
+TTCACTGGGGGCTGTCCCCCACCACCATCTCGCTCTCTCTGTCAAAGATGTAACTTACAGCTCCAATTCATAAAGTTCCT
+TGTCATTCTTCCCTTTAACTTCCAGCTGAGTCTCCATCTGGAGCGCGGAACCCACCACGCTTACTAATTATGCCTGGGCT
+GCTAAGACCCACTCGAGAAGGTGTCTAGGGTGAGGCACCTTTCGCTATTCGAGAGGGCGCCTGCGGCCTACGTAAGTGGT
+GCAAACTTCTTGTCTTGAAGTTTGATTGGTCTTCCGCGTAAACCAAGCTACTCAGTCTCTTTTCTCCACCGAATTTTCCT
+ACTGAGCTCTCCTCATACTATTATTCTTGACATCTCTGATTAGCATATAAATAGTCGCCTAGGCCATCTCTCCTTCGAAT
+ACCCTGGATCAGTTGGGGCTGGTCCCCGGCAGGTGGCGACCGAACAGGGACCTCAGGAGGCAATACTCAAAGAGCTGAGC
+AGACACGAACCACGCAATCAGCAGGCAATAAGCATGGAGCTCAGCAGTGACGAATCATGCTGCTCAACTGGCAATAATCA
+AGCACGTGACCAGGCAGGAATCACGCAGCTCAGCTGGCAATTGTCAAGCAGATGAGCCGACAGGAATCACGCAGCTCAGC
+TGGCAATTGTCATGCAGATGAGCCGGCAGGAATCACACAGCTCAGCAGGCCCT
+>ref|ref|V00116.1|| Bos taurus repetitive sequence element (insertion sequence like). Designation is INS-1.711 B, isolated from satellite DNA of density 1.711 g/ml
+TGCGTGAGCCGGCATATTGCATATTGAGTGCATATTGCATATTGCATATTGAGTGCAGCACTTTCCACAGCATCATCTTT
+CAGGATCTGGAATAGCTCCACTGGAATTCTATCACTGCTGGGAGCCAGTGAGGAACTCCGCCTATGATAAAGGTTATGAG
+GAAGGAGGCTCGGCATACGCAAAGGCGGGATCGAGCTTCAGGAGTCCCCCTGGAAATTCTCGAGCATATACCCCCAAAAC
+CAGAGTCTGCCTACTTTCTGCTTGTGCTTTCACCTAAACCTCTGACTTTACGGGGGGCTCTCCCCCACTACCTCTCTCTG
+AAAAAAGAGTTAGCTTACAGTTCCAGTTAATAATTCCTGGGTGTGACAGTGTTTAACCTACAAACTCCTTTGGAAATCCT
+CTAGCCTGCCTGAATAGGTTTTTTCGGCCACATGGGATTGTTCAGAGCCTCCCAACTGTGAGAGGCAGGAGATGTTCTAA
+ACTGTCTAAACACAGATTCTTTTGAGTAGTTACAAGATTGATTAGAAATTGTATTGGTGAATGGTTTTTCACTTGTTGGG
+CCATTGTTTGCTGCTAAGTTTCCATATCCCTTACCTGCTGTGTCCCTGGCAGTGTATTGATTAATATAATTGGTGTAAGT
+AGTAGCTTTAATGTTTGTAACCTGGGACCCTTGAGTTAATTCTTTTTCTTGTTATAGCCCACCACACCTTTGCTCTGTAG
+GAATGCAACTTTATCTAATGCTTTTTTGGAGGGTGGCTCCTGACCAACCACCTTTAGAGAAAAATAAGTTTTCTGAAGAA
+AAGGTCTTAAAATGTTAACAGGCCTCCGGGCCAGAAGATGATGCAAATCACCTAAGCTTTTGCATATGATAAGTTTGCAG
+GAAGAAAGCCTGGTTTGCTGCAAGACTCGACCCCTTCCCCCATTATCCTCTATGCATAACTTAAGGTATAAAAACTACTT
+TGAAAAATAAAGTGCGGGCCTTGTTCACCGAAACTTGGTCTCACCATGTCGTTCTTTCTCTTACCTTCTGGCTGAATTAT
+TCAGCCTCTTTTCTCCACTGAATTTCCTCACTGAGCTATCCTCATTCTATTACTCTTTATATCCTTAATTAACATTTAAT
+TAAGCAGTGGTTTCCTGATCTTCGCCTACGCCGTCTCTCCTTCGAATACCCTGGATCAGCCGGGGCTGGTCCCCGGCA
+>ref|ref|V00118.1|| Bovine satellite DNA fragment
+GATCATGCACTGTTCACGTGACT
+>ref|ref|V00119.1|| Bovine satellite DNA fragment
+CAGGCCCGGATCACGTGACTGAGCATGCACTGTTCACGTGGCT
+>ref|ref|V00123.1|| Bovine satellite DNA fragment
+GATCATGTGCCTCTCGAGGCAATGAACATAGAGCTGAGTAGGCAGGAATCAGTCAGCAGGCTATAATCATGGAACTCACC
+TCTGAGAAATCATGCTGCTCAGCTGGCAATAATCAAGTAGATGAGCAGGCAGGAATTACGCAGCACAGGTGGCAATTGTC
+AAGGAGATGACAGGCAGGAATCGTGCAGCTAAGCTGGAAATTGTCAAGCAGATGAGCAGACAGTAATCACGCAGCTCAGC
+AGGCCCA
+>ref|ref|V00124.1|| Primary structure of bovine 1.715 satellite DNA
+AGGCTGCCTCTTGTGTTGGCCCAGGCAAGTCCAATCTTCCATTCGAGTTGCGAAGGAAAGCTGGGGATTGCTCTCGAGTG
+ACTGCAGGGCCAATAGACCTCATCTAGGCTTGTGTCCAGAAGCCAGTGTTCCTCTCCAGGGGCGACAGGGATCTCGGGGT
+TGCATTCCAGACGCACCCGGGGAGACAGGCATTCATCTCGAGTGGAAGCAAAGAACGTCCGCTCTGCTCTCGAATCGCGA
+CGGGTATCTCTTGGAGCTCACTGGGTGGACTCAAGGGAGTCAAGCCTCCTGAGGCGTTTGGAGAGAGGTCGCGAGATTGG
+TCTCTAGGCCACGCAGGAGACGAAGGCCCTCATCTCTCGATGACGGGGGAATCTCGGGGTTGTTCTCGAGCGGCGGCCCC
+AGTGTGCGGTTTCTCACGAGGTACGACGGCGAGGTCAGTGAGCCTCTCGTGGGGCGCCAGGGAAGTCGGGTCTCCATGCG
+AGTGGCGAGGGGGAGCGCGTCATTGCTCCCGAGCCATGGTAGGGGAATGTGGCCTCGAGACGTGTTGAAGAAGGTCTCTC
+GAGGTCTTTCTCGGGTTGAGGCAGGAAACCCTGGGTTCCCTCGACTTGTGCAGGTGACCTCAGGGGGCTTCTCATGGTGG
+CTCTGAGAAGCCAGGGAAACTGGAGGTGGGAGGGGCCTCTCGGGACTCCACTGGGCTTGGTGCATTGGAAGAGGGCCTCA
+TCTCCAGTTGAGGCAGGAACCGCAGGGTACCTCTGATTTCAGACTCCGATCGCAGGGTCCCTGCAGACTGGGGACAGGAG
+AGTCAGGCCTCGTCTTGGGTTGAGGCATGGAACTCCGCTTGCCTCTCGAGATGTCCCCGGGGAGAGAGGCCGCTTGTCGA
+GCTGTATTTGGAACCTGGGGTTTTTTCCGAACGATGCACGGAAAAACTGCCCCTTCGTGTTGACTTCATTCACAGGCTGG
+AGTTCGGAGAGGTGTCCGGGCATCGGGTTCTTATCAAGAGGGGACCGGGAAATCGGGGTCCTACGGAATGTGGAACCACC
+CACGAGGCCACGTCTGGAATGTCTTCGTGAGACCGGCCTCATCCTGAGGTGCGACCGGAAGGATCGGGAACCCCTTCCAG
+ACAAAGCAGGGGAGTCGACCCTCCTGTCCAGATCAGGAGGGGAGAAAGGGCTCAGAGGAGGGGGTGCCGGAAAACCTCAG
+TGTTCCTCTCGAGGGAGACCGGGATTTCGGGGAACTTTGTGGGTCGCATCAAGGGTGCCAAGGGCCCTTTCGACCTCCAA
+TTCCTAACGTGGGACTTCTCCTGAGGCGCAGTAGCGGGAAAGGGCTTCATCTTGCGATGACGGGGGAGCCACGTGGTTTT
+TCTCGAGTTACGGCGGGATTCTCGAGTTACGACGGGGAATTC
+>ref|ref|V00125.1|| The 1399 bp repeated unit of bovine 1.715 satellite DNA (consensus sequence)
+AATTCAGGCTGCCTCTTGTGTTGGCCCAGGCAAGTCCAATCTTCCATTCGAGTTGCGAAGGAAAGCTGGGGATTGCTCTC
+GAGTGACTGCAGGGCCAATAGACCTCATCTAGGCTTGTGTCCAGAAGCCAATGTTCCTCTCCAGGGGCGACAGGGATCTC
+GGGGTTGCATTCCAGACGCACCCGGGGAGACAGGCATTCATCTCGAGTGGAAGCAAAGAACCCCGCTCTGCTCTCGAATT
+GTGACGGGTATCTCTTGGAGCTCACTGGGTGGACTCAAGGGAGTCAAGCCTCCTGAGGCGTTTGGAGAGAGGTCGCGAGA
+TTGGTCTCTAGGCCATGCAGGAGACGAAGGCCCTCATCTCTCGATGACGGCCCAATCTCGGGGTTGTTCTCGAGCGGCGG
+CCCCAGTGTGCGGTTTCTCACGAGGTACAACGGCGAGGTCAGTGAGCCTCTCGTGGGGCGCCAGGGAAGTCGGGTCTCCA
+TGCGAGTGGCGAGGGGGAGCGCGTCATTGCTCCCGAGCCATGGTAGGGGAATCTGGCCTCGAGACGTGTTGAAGAAGGTC
+TCTCGAGGGCTTTCCCGGGTTGAGGCAGGAAACCCTGGGTTCCCTCGACTTGTGCAGGTGACCTCAGGGGGCTTCTCACG
+GTGGCTCTGAGAAGCCAGGGAAACTGGAGGTGGGAGGGGCCTCTTGGGACTCCACTGGGCTTGGTGCATTGGAAGAGGGC
+CTCATCTCCAGTGGAGGCAGGAACCGCAGGTACCTCTGATTTCAGACTCCGATCGCAGGGTCCCTGCAGACTGGGGACAG
+GAGAGTCAGGCCTCGTCTTGGGTTGAGGCATGGAACTCCGCTTGCCTCTCGAGATGTCCCCGGGGAGAGAGGCCGCTTGT
+CGAGCTGTATTTGGAACCTGGGGTTTTTTCCGAACGATGCACGGAAAAACTGCCCCCTCGTGTTGACTTCATTCACAGGC
+TGGAGTTCGGAGAGGTGTCCGGGCATCGGGTTCTTATCAAGAGGGGACCGGGAAATCGGGGTCCTACGGAATGTGGAACC
+ACCCACGAGGCCACGTCTGGAATGTCTTCGTGAGACCGGCCTCATCCTGAGGTGCGACCGGAAGGTCGGGAACCCCTTCC
+AGACAAAGCAGGGGAGTCGACCCTCCTGTCCAGATCAGGAGGGGAGAAAGGGCTCAGAGGAGGGGGTGCCGGAAAACCTC
+AGTGTTCCTCTCGAGGGAGACCGGGATTTCGGGGAACTTTGTGGGTCGCATCAAGGGTGCCAAGTGCCCTTTCGACCTCC
+AATTCCTAACGTGGGACTTCTCCTGAGGCGCTGTAGCCCCAAAGGGCTTCATCTTGCGATGACGGGGGAGCCACGTGGTT
+TTTCTCGAGTTACGGCGGGATTCTCAAGTTGCGACGGGG
+>ref|ref|X03116.1|| Bovine satellite II DNA repeat unit
+CTCCGTTTGTGCCCAGAAACCGCCTGCCAGACCGGGCCTTCCCTGGAGCTGTCCTCCCGCCTAGAGGCAGGTGGATGTGC
+TGTGCGGGCTTCCCCTGGGCGTTTGGGCTCCCTAGCAGAGCCGCAGCGCAGGGGAACCAGCCCATGATCAGTGAGCTCCG
+GGCAGTTACTTTGGTCCCAGGTTGGGAGCCCAAAGCCCGGAACGCGGGAGAGAAGAGGCTGGCTGCCGGCGGGTGCTTGC
+CACGCCTGTACTGGGAGGACCGAGTGAGCTTCCACACCGGCGGAGCTCCAGCTCTGCGCCCAGGCGCGATAGCACAGAGC
+CCCGGCCGAGAGGCTGCTCTGGCCGGGGCGAGCCTCCCCACGCCCTGCCCAGCTTCTAGCGTTCGCGCCCGGGAAGGAGC
+AGGCTGCGGGAGTGTGGGAGCTGTGAGTGGTGCCTGACTGCTGCCTCAGCTCAGCTCTCGCCTTCCCTTCGGACCTAGGA
+GCCAGGCGTCCTTGCAGAGGGCTTAGGGGCTGGGGGTGTGCACACTGCCAAAGCCTCCCGCGGGGAGAGCTCTTTCCGAG
+GGAAAGGAAGCGCCCCAGGCTGCATTCCCAAGCTGGTGCTTCCCCGCCCAGACTAAGCGCCGCACGGAGGGAATCAGGGT
+CCCGGTGCCCCTGGCTTGGGGAGGCAGCTCCACAGCCAGAGTGTTG
+>ref|ref|V00126.1|| Bovine satellite DNA fragment
+GATCATACACTGCTCACGTAACTGATGATGCACTGACTACGTGGCTATCATGCACT
+>ref|ref|V00127.1|| Bovine satellite DNA fragment
+GATCATTCACTGATCACGTGACTGACCATGCACGGATCACGTGACT
+>ref|ref|V00128.1|| Bovine satellite DNA fragment
+GATCCTGCACTGATCACATGGCTCATCACGCACTGATCACGTGAGTAATCATGCACTCTTCACGTGCATGATCATGCACT
+GATCACGTGGCTATCATGCACTGCTCACGTGGCT
+>ref|ref|V00129.1|| Bovine satellite DNA fragment
+GATCACGTGACTTAATGGCGCTGATCACGTGGCTATCATGCACTGATCACGTGGATATCATGCACT
+>ref|ref|V00130.1|| Bovine satellite DNA fragment
+GATCATGCACTGATACCGTGACTGAGCATGGACGGATCACGTGGCTATCCTGCACT
+>ref|ref|V00131.1|| Bovine satellite DNA fragment
+GATCACGTCTATATCATGCACTGATCACATGACTGCCCATGCACTGATCACGTGAT
+>ref|ref|V00132.1|| Bovine satellite DNA fragment
+GATCATGCACTGATCACGTGGCTATCATGCACTGCTCACGTGGCTGATCATGCAATGATCACGTAGCTACCATGCACTGG
+TCACGTGACTGATCGTGCACTGCTCAGGTAATTGATCATGCACTGATCACGTGACT
+>ref|ref|V00133.1|| Bovine satellite DNA fragment
+CAGGCCCTGATCACGTGACTGAGCATGCACTGATCACGTGGATGATCACACACCTATCACGTGACTGATCATGCACTGAT
+CATGTGACTGATCATGCACTGATGACGTGGCTATTAATGCACTGATCACTTGGCTGGACATACACT
+>ref|ref|X15543.1|| B.taurus mRNA for RF-36-DNA-binding protein
+CGACCCCGACTTCGTAGTGGTGGATGGCGTGCTGTCATGCTCCCGTCCTATGATGAGGCTGTGAGCGGCGGCTTCAGTGC
+CTTAGGCCCCGGGTACCTGGCCTCTGTGGGCCAGGCTGCCCCTTACCTGTGGACGACCAGAGCCCCCCAGCATACCCTGG
+CTCAGGGGACACAGACACGGGCCCGGGGGAGTCAGAGACCTGTGACAGTGTCTCAGGCTCTTCGGAGTTGCTCCAGAGTC
+TATATTCACCTCCCACATGCCAAGGGGGCACCACCCCGCGTTCCAACAACCCTGACACAGCTCCCAGCACGGTGGGGGAG
+GTTGGCATCCACCAGCCCAGGCATCGACATTGCAGATGAGATCCCTCTAATGGAAGAAGATCCATAATTGGAAAAAGTCC
+TGATGATTCTGCTACCCCTTTGGGAATGGGAACCGCTGTACTTTGGAGTGAGGCTCTGGAGGACAGAGCTTGGGGGGATG
+GAGCAAGTTTTCTAATCTATCAACAACACGGGACAGTGACTCATATTGTGCATCTCGGATTCAAGAGTGAGGCTGATAAA
+CGGCAGCGGCAGTGCTTTAAAAGGAGACTTGAGAATTTGCCAAGACCAGTGAGGAACAGAAGGATAAGGGGGAACCCTGA
+GCAGTCCTGGATGAAGGTATTAAGGGCATCTCGTGCTGCCGAACATGGGACAGACGGTTCCACGCATATATCCACCAAAT
+ATCACCGCCCACCGACTTACGAGTACTACCCGCCTCCTCTGAAAGCATGGAATT
+>ref|ref|X52689.1|| Bovine rho GDI mRNA for GDP dissociation inhibitor for the rho protein
+GAATTCCCGATCCTCCGGTGTCTCACATCCAGCTAGAGGTGAGTATGGCTGAGCAGGAGCCCACAGCTGAGCAGTTGGCA
+CAGATTGCGGCAGAGAACGAGGAGGACGAGCACTCAGTCAACTATAAGCCCCCGGCCCAGAAGAGCATTCAGGAGATCCA
+GGAGCTGGACAAGGACGACGAGAGTCTGCGCAAGTACAAGGAGGCCCTTCTGGGCCGTGTGGCTGTGTCTGCTGACCCCA
+ATGTCCCCAATGTTGTGGTGACCCGACTAACCCTGGTGTGTAGTACTGCCCCGGGCCCCCTGGAGCTGGACCTGACAGGT
+GATCTGGAGAGCTTCAAGAAGCAGTCCTTTGTGCTGAAGGAGGGTGTGGAATATCGGATAAAAATCTCCTTCCGGGTGAA
+CCGAGAGATTGTGTCTGGCATGAAGTACATCCAGCACACGTACAGGAAAGGCGTGAAGATTGACAAGACCGACTACATGG
+TGGGGAGCTATGGGCCCCGGGCGGAGGAGTATGAGTTCCTGACCCCCATGGAGGAGGCGCCCAAGGGCATGCTGGCTCGA
+GGCAGCTACAACATCAAGTCCCGCTTCACAGACGACGACAGGACCGACCACCTGTCCTGGGAGTGGAATCTCACCATCAA
+GAAGGAGTGGAAGGACTGAGCCTCCTGCCGGGAGCGGGGCAGGGCAGGCGGACGGAAGGACGGACGCGCCCCACCCCACC
+ACCCCAACCCCCTGACCCCAAACCAAAGTGCTGACAGGGCCCCGCCACGTGCCACCACTA
+>ref|ref|V00134.1|| Bos taurus arginine specific tRNA (from liver)
+GACCCAGTGGCCTAATGGATAAGGCATCAGCCTCCGGAGCTGGGGATTGTGGGTTCGAGTCCCATCTGGGTCGCCA
+>ref|ref|X00950.1|| Bovine mRNA for oxytocin precursor and neurophysin I
+CGTTGACCTCCGCCTGCTACATTCAGAACTGCCCCCTGGGCGGCAAACGCGCGGTGCTGGACCTCGACGTGCGCACGTGT
+CTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGG
+CACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCG
+GGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAGCCCGGACGGCTGCCACGAGGACCCCGCCTGCGACCCTGAGGCCGCC
+TTCTCCCAGCACTGAGACCGGCCGGCCCCCGATACCGTCGGAGCGCAGCCCTCACTCCCTCTGTAATCATCCCTAGGAAT
+TATGACAATGAAATAAAGCCGGTTTTTTCCCCCTCC
+>ref|ref|X61612.1|| B.taurus mRNA for vacuolar H+ATPase Mr 70000 subunit
+CGGGATCGGTACGGTTTCTGCACCTCGCGCCCCGGCAGGTAAATTAACATGATGGATTTCTCCAAGCTCCCCAAAATACG
+TGATGAAGATAAAGAAAGCACGTTTGGTTATGTGCATGGGGTCTCAGGACCTGTGGTTACCGCCTGTGACATGGCAGGCG
+CAGCCATGTACGAGCTGGTGAGAGTGGGCCACAGCGAGTTGGTTGGAGAGATTATCCGATTAGAGGGCGACATGGCTACT
+ATCCAGGTGTATGAAGAAACTTCTGGTGTGTCTGTTGGAGACCCTGTACTTCGCACTGGTAAACCCCTCTCAGTTGAGCT
+TGGTCCAGGCATTATGGGAGCCATTTTTGATGGTATTCAAAGACCTTTGTCGGATATCAGCAGTCAGACTCAAAGTATTT
+ACATTCCCAGAGGAGTAAATGTGTCTGCTCTTAGCAGAGATGTCAAATGGGATTTCACACCTTGCAAAAACCTACGGGTT
+GGTAGTCACATCACTGGTGGAGATATTTACGGAATTGTCAATGAGAACTCTCTCATCAAACACAAAATCATGTTGCCTCC
+ACGAAACAGAGGAACTGTCACCTACATCGCTCCACCTGGAAATTACGATACCTCTGATGTCGTGTTGGAGCTTGAATTTG
+AAGGTATAAAGGAGAAGTTCAGCATGGTCCAAGTATGGCCTGTACGTCAGGTTCGGCCTGTCACTGAGAAGTTGCCAGCT
+AATCATCCTCTGTTGACTGGCCAGAGAGTCCTTGATGCCCTTTTTCCATGTGTACAGGGAGGAACTACTGCAATCCCTGG
+GGCCTTTGGCTGTGGGAAGACAGTGATATCACAGTCTCTATCCAAGTATTCCAACAGTGATGTGATCATCTACGTAGGAT
+GTGGTGAGAGAGGAAACGAGATGTCTGAAGTCCTCCGGGACTTCCCAGAGCTCACGATGGAAGTCGATGGTAAGGTAGAG
+TCAATTATGAAGAGAACAGCATTGGTAGCCAATACATCCAATATGCCTGTGGCTGCTAGAGAAGCCTCTATTTATACTGG
+AATTACACTGTCAGAATATTTCCGTGACATGGGCTATCATGTCAGTATGATGGCTGACTCCACCTCTCGATGGGCTGAGG
+CTCTTAGAGAAATCTCTGGTCGTTTGGCTGAAATGCCTGCAGATAGTGGATATCCTGCATATCTTGGTGCCCGTTTGGCC
+TCTTTCTATGAGCGAGCCGGCAGAGTGAAGTGTCTTGGAAATCCTGAGAGGGAAGGGAGTGTCAGCATTGTAGGAGCAGT
+TTCTCCACCTGGTGGTGACTTTTCTGATCCAGTTACATCTGCTACTCTTGGTATTGTTCAGGTGTTCTGGGGCTTAGATA
+AGAAACTAGCTCAACGTAAGCATTTCCCTTCTGTCAATTGGCTGATCAGCTACAGCAAGTACATGCGTGCCTTGGATGAG
+TACTACGACAAACACTTCACAGAGTTCGTCCCTCTGAGGACCAAAGCTAAGGAGATTCTGCAGGAAGAAGAAGACTTGGC
+AGAAATCGTACAGCTGGTGGGAAAGGCTTCTCTAGCAGAAACAGATAAAATCACTCTGGAGGTAGCAAAACTTATCAAAG
+ATGATTTCCTTCAACAAAATGGATATACTCCTTATGACAGGTTCTGCCCATTCTACAAGACAGTGGGGATGCTGTCCAAC
+ATGATTGCATTTTATGATATGGCCCGCAGAGCTGTTGAAACCACTGCCCAGAGTGACAATAAAATCACATGGTCCATTAT
+CCGTGAGCACATGGGGGAGATCCTCTATAAGCTTTCCTCCATGAAATTCAAGGATCCAGTGAAAGATGGTGAGGCGAAGA
+TCAAGGCCGACTATGCACAACTTCTTGAAGATATGCAGAATGCATTCCGTAGCCTTGAAGATTAGAACTGTGATCTCTCT
+CCTCCTTTTCCTCAGCAAGCTCTCATACGTGTATATTTTCCTAAATTTCTCATCTTGGACCCTTTGCTTCTTTACTGTGC
+AGGTTTGAGACTAGTGCCTCTGTGTGTAATCATTTGTTTCCCCATTTATTTGATAGGTCTTATATAAAACAAACATTCCT
+TTGTTCCAGTGTTTGAAGGGCCCCCCCTGAACATTTCTCCGAAGTGGTGAATGTAGTAAATTTGATACACGATGGCTACA
+CTACTGTAAACGTGTATGTGACGTCTCTCCTCGTCCTAGGTTTACCCTTTCCTCATCACTATTAAATTGTAAACAGGACT
+GCTGCATGTTACTCTCTTTGCAGTGGATTTGGAATGGAAGGCCAGACTTCTATACATTTTGACAGGACTTGTGAATGACT
+TTACTTGCAGCTTAGCATTTTGCTAAGTAACTGCTTACAGGAAATAATTGCTTTTTTTAAAACATGAATGATTAATGTTT
+TGATTATGTGTTGCTTCCCCCAGTATAAATCAAGAACATTTATGGGAAACTGTTGAAAACTATACTGTTTTTAAAGCAGA
+CATCTGTGGGACTCAGGACAATAGATGAAATCAGTGCCCTCTAAAAAGGTAAAAAGGAGCCAGATGGTCAAACTTAGGTT
+AACATCACCTTGTTAAAGCCTATTTTATTTCACTGGGAAAAATTCAATATCAAGTACTGTTCTACTACATTACTAGACAA
+TTCTTTTTAAATTACATTTAAAACAATCACGAGCACTTGATTCACATCACACCTTTTTTTTCCTCAAACATCTTAGAAGG
+CTAAGCTTCTGAGAATCATGTGGCAGAGTGATGGGGAGAAAAATGCCACAGATAATATGTTTTGTAGTGCTTAAAGGCTG
+TTTGCACCTCTAAGGACCAGTTGGGCTTTGGTGATTCTTGGGGCCAGAGTGGCATTATGTTTTTACAAGATAATAACATG
+TGTCACATGTTTGCATGTTTGCTTTTGAACAACCAGGTTCCTGATTGTAGAAAACACTGTTCTTTCATGTGATTTATGAT
+TCACTGGCTCGAAAGATTTCCCAGAATATCTGTAGCTGTAGCAGCATAACAGTTCCAATTCTCTTTCATAGGAATGAAGT
+TAATTCTAAAATCAGCAGGTGCAAGATAATAGAATTTGGGTTATGTGAAAA
+>ref|ref|NM_174249.2|| Bos taurus bone gamma-carboxyglutamate protein (BGLAP), mRNA
X53699.1 Bovine bone mRNA for Gla protein (BGP, osteocalcin)
+GTCCACGCAGCCGCTGACAGACACACCATGAGAACCCCCATGCTGCTCGCCCTGCTGGCCCTGGCCACACTCTGCCTCGC
+TGGCCGGGCAGATGCAAAGCCTGGTGATGCAGAGTCGGGCAAAGGCGCAGCCTTCGTGTCCAAGCAGGAGGGCAGCGAGG
+TGGTGAAGAGACTCAGGCGCTACCTGGACCACTGGCTGGGAGCCCCAGCCCCCTACCCAGATCCGCTGGAGCCCAAGAGG
+GAGGTGTGTGAGCTCAACCCTGACTGTGACGAGCTAGCTGACCACATCGGCTTCCAGGAAGCCTATCGGCGCTTCTACGG
+CCCAGTCTAGAGCTTGCAGCCCTGCCCACCTGGCTGGCAGCCCCCAGCTCTGGCTTCTCTCCAGGACCCCTCCCCTCCCC
+GTCATCCCCGCTGCTCTAGAATAAACTCCAGAAGAGGAAAAAAAAAAAAAAAAAAA
+>ref|ref|X13767.1|| Bovine tRNA-Ser(UGA) gene
+CTGCGGAGGGCTCCTGTCTTTCCGCACTCCTCTCTGTCTTTCCGCACTCCTCTCTGTCTTTCCACAAAAAGAGGAGCGCT
+CAACACAATCACCGCGGTCAAAGAGTCCAAGATGCAGAACTTTTCCAGGACGCGGGCCCGCAACACTGAAGGAGAGAGTT
+ATTTGTTTCAGCTCTCTCTCTGTGGACCTAATGAGGAAGCGGGAGGGCAAACAGCCGGCTCGAGACCAGAAGCTAAGCTA
+AGTAGGGTGGCGATTTTCGATTTTCCAAGCGCATGGAAGGGAAGGATTTCTAAGATACTTCCTTAAAGGCGTTTACTTAA
+ACTACTTAAGGGAGATTTTATTATTCCTCGCGTTAACAGGTAGCTCCTGCAACTTGAGCAGTAAGCCCCGGCCGCCTCCC
+ACAGCAGACCTCCGGAAGATTATAGGCCCCGCCCACTAGGGTGTGTGGTGCGCATGTGCTCAGTTTTAACACTAAAGTGT
+CTCCGCCTTCCTTTTCTCTACGTGGCAGCGATGGCCGAGTGGTTAAGGCGTTGGACTTGAAATCCAATGGGGTCTCCCCG
+CGCAGGTTCGAACCCTGCTCGCTGCGGAAGCGGTTGGCTTCACTCTTTTTTTACCGATTTCTAATAAATACCCTCAATTG
+ATAATCCGCATTCTTCAG
+>ref|ref|X06737.1|| Bovine Pst family repetitive sequence 1
+CTGCAGATGGTGACTGGAGTCATGAAATTAAAAGACATTTGCTCCTTGGAGAAAAGCCATGACCACCCTAGACAGCAAAT
+TAAAAAGCAGAGACATTGCTTTGCCAACAAAATCCATCTAGTCAAAGCTATGGTTTTTCCAATAGTCATGTATGGATATG
+AGAGTTGGACCATAAAGAAACCTGGGCACTAAAGAATTGATGCTTTTGAACTTTTTTTGGAGAAGACTCTTGAGTCCCTT
+GGACTGCAAGGAATTCAAACCAGTCAATCCTAAAGGAAATCAACCTTGAATATTCATTGGAAGGACTGATGCTGAGGCTG
+AAGCTCCAATGCTTTGGCCACATGATACGAAGAACTGACTCATTAGAAAGGACCCTGATGCTGGGAAAGATTGAAAGCAG
+GAGGAGAAGGGGATGACAGAGGATGAGATGGTTGATGGCATCACCAACTCAATGGACATGAATTTGAGGAAGCTCTGGGT
+GTTGGTGATGGACAGGGAACCCTTGTGTGCTGCAG
+>ref|ref|X06738.1|| Bovine Pst family repetitive sequence 2
+CTGCAGCCATGAAATTAAAAGATGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTAAAAAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCATCTAGTCAAAACTGTGTTTTTTTCCAGTAGTCATGTATGGATATGAGAGTTGGAC
+TATAAAGAAAGCTGAGCACTGAAGAATTGATGCTTTTGAGCTGTGGTATTGGAGAATTCGCTTGAGAGTCCCTTGGACTG
+CAAGGAGATCCAAGGAGTCCATCCTAAAGAGATCAGTCCTGAGTGTTCATTGGAAGGACTGATGTTGAACCTGAAACTCC
+AATACTTTGGCCACCTGATGCGAAGAGCTGACTCATTTGAAAAGTCCCTCATGATGGGAAAGATTGAAGGTGGGAGGAGA
+AAGGAACAACAGGATGAGATGGTTGGATGGCATCACCCACTCAATGGACATGAGTTTGGGTAAACTCAGGAGTTGGTGAT
+GGACAGGGAGACCTGGCATGCTGCAG
+>ref|ref|X06739.1|| Bovine Pst family repetitive sequence
+CTGCAGCCATGAAATTAAAAGACGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATCGCATATTAAATAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCGTCTAGTCAAGGCTATGGTTTTTCCAGTGGTCATGTATGGATGTGAGAGTTGGACT
+ATAAAGAAAGCTGAGCTCCAAAGAACTGATGCTTTTGAACTGTGGTTGGAGAAGACTCTTGCAAGTCCCTTGGACTGCAA
+GGAGATCCAACCAGTCCATCCTAAAGGAGATCAGTTCTGGGTGTTCATTGGTGGAACTGATGCTGAAGCTGAAACTCCAG
+TACTTTGGCCACCTGATATGAAGAGCTGACTCCTTGGAAAAGACCCTGATGCAGGGAAAGATTGAGGGCAGGAGAAAGGG
+ACAGCAGCAGAGGACGAGATGGTTGGATGGCGTCACCAACTCAATGGATATGGGTTTGGGTGGACTCAGGAGTTGGTGAT
+AGACAGGGAGGCCTGGCGTCCTGCAG
+>ref|ref|X06740.1|| Bovine Pst amily repetitive sequence
+CTGCAGCCATGAAATTAAAAGACACTTACTCCTTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTGAAAAGCAGA
+GACATTACTTTGCCAACAAGGTCAAGGCTATGGTTTTTCCAGTTGTGTGTACGGATGTGAGAGTTGGACTATGAAGAAAG
+CTGAGTGCCGAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCCTTGGACTGCAAGGAGATCC
+AACCAGTCCATTCTAAAGGAGATCAGTCCTGGGTGTTCATTGGAAGGACTGATGCTGAAGCTGAAACTCCAGTACTTTAG
+CCACCTCATGCGAAAAGTTGACTCCTTGGAAAAGACTCTGATGCTGGGAGGGATTGGGGGCAGGAGGAGAAGGGGACGAT
+AGAGGATGAGATGGCTGGATGGCATCACTGACTCGATGGACATGAGTTTGGGTGAACTCTGGGAGTTGGTGATGGACAGG
+CGCCTGGCATGCTGTGA
+>ref|ref|X00979.1|| Bovine genomic fragment for 1.709 satellite DNA
+AAGCTTGTGACAGATAGAACGATATAGCAATTTTTACCTTAGAACAAACCGAGGCACTATGAACATTTTGTGCTTCATGT
+TGATGACTCTTAGACATGTCTACAGTAGAGGAGCAAAAACAAAACTACTAGATATTTCATATTGACTAGTTCCCAGTTCA
+CGGGACTCTGACATTCCCTGAGGTCCAAGTTTTCTTGTATTGGAAGCAGTTGGGGTTGCAAGGGCTGCCTTGTCTTGAGA
+CCATTGAAATAAGAACTCAGAACTTGAGCACTATTATCAAAAATCACAAGGCTCACACTGACACAGACATCAATCCAGAC
+AGACAAGACAAGACATCTTCCAGTTTTCCGCCTGAGATGGAAAAGATTTCTTTGAGCCGTTTTTTCTGGGGAGTGGGGGG
+TGGGGCTGGCGGCCAGGCAGGCTTTGGGAAGGAGCTCAGGGTTTGGAATTGCATATGAAAAGAACCAGCTTTCCGGGTTC
+CAAGGAATCAAGTTTCCTTGGAAACCAACTTTGTCCGGTTCTGTAGAATATCATGGCCCTCCCAGGTCAGGTCATCTTTC
+CTTTCCGTAGCCCTCGTTTGATCCCTGAATTCTAGACAGCTTGGATTGCCTCTGTGGGCTGGATGGATTGTCCTCCCGTT
+TCACCGGGCGGCGGGAGCGAGGTCCCAGAGGCTCTCCTGGAACCGGGCGTGGGGGCGGGGCTCACCGGGAGCCCGTGGTG
+AAGGTGGGCAGCGCACCGGGAGCGCGCCCGGGGCGGGCGAAGCCGGGCGGCGCGGGTCGGGAATCGGGTCGTGGCGGGGA
+TGGGGGGCGGTCCCGATTGTGCTCCGGGGATCCCCACTGCGGCTGGGAAGGCACCGGGAGCATGGCAGGGGCGGGGCGGC
+GCGGGGCAGGGGGCGCTCCTGGCGGGGGTAGGGGAGGGGTTCCCCGTTGTCCTCTCGGGGGTCGCCGTGGCGGCTTGGAA
+CGCCCATTGCGTGCGCTCCTGTGTCCCCAAGGGTCGGCATCCAGTGGGCGCGGCGGAGGGGTGCGGACCACAGGTCAGGG
+AACTGGGACTGCGTGGAGCAGGGAACCACGTAGTCCGCCCTCTGTTGGCACAACCTGGCGGTCGCAGAAAGGCCTCGCCT
+TTGGGCTCAAGGCCTTGACCGCTCCACCCCTTTGCTGAAAGGTCAGAGCCGCGCGGTTTTCCCAAGCAGCCGAGTGTCCG
+CTGCAAGTCCAAGGGCCAGAACCCTGAACTCTGGCCGGCTGGCCAGCCCTGCTTCTGGCACTTTGGAGGCCAGCGGGCCT
+TGACCACCTGCTGGGATGGGAAAGGGAAGGGTCCACGAATTGCACCCTAGAAACTTAGTAGGGTGCATGGGTTTCAAAAC
+CCGGTGGCCGCCCAGGCAGCAAACAAGGGAGGAGGGCACCCTGCTGCCCTTTCATGGCAGCATCTGTGGCTGTCCTGCTG
+AGGGGGCCTTTCCATGGGGACCGTGTGCGGTACAAGTTTTGGGTGTTTTGGAACCGAATAATTAGAACGTGTAAAACTTT
+TAAATGATGTGGTGGTTTGATTCAAACAAAACAAAACCAAACAAAACAAAAAACCAAGCTCAAGTTTTTTGCAAATTTAG
+GTCTTAATATTGAAGGCCTGTGTTCCTTCCACTGTGGCATTGTACGAAGAAATGTGCGGGTTTATTTTTTTTTTTTAATT
+TGCTTTTTGTTTTTCTTTTTTTTTAGAAAAGATTCCGAAAAATGAGGGAAACAGGAAGCCCAGAGGTGCCCCTGTAGTTT
+GGCGAAGGCCTTAGGAGGCCACTTGGAAATGCTGCTGGCTGTGAGGGGGGGAGGGTGCAGATGTGCACAGAGCTGTGCAG
+GCTTGTCCTTTGCATTGATGTTCTTTGTAGAAATCCACCTCGGAGCCATCTCCTGATGTGTAAGCATTTCCCAGACAAAC
+CTTGAGCTAAGCAATGCGTTTTTTCCTTAGGAAATGTTGGTCTTCAGCGATGTTCAAAGCCTGTGTATTTCGGCTAGACT
+CTGGCTTCAGGTCGGTTCCCCCAAAAGGCTCAGAAGCGACCTGAACCAAACAGTAAGTTTTCCTCCTACCTTGTTCTCCT
+CATCTACGTTAAGAGTATACTTTAAGAGTATCCTGGCACATACATGTACTGCCTCACCCCTAGCCTCAGTCATGTGTTCC
+AAGAACTTCTGTCCGTTTATTTATTTGTTTTTGGTAACATTGAATTCGTTTTGACTATGCTGGGTCTTTGCCGCTCGCTG
+GAAGTTGCTAGGACCTCTGGACTGCAGTCTCCCATCTCTTGCTGACCTCAGGTTGACCTCTGCAGAATCCTGGTTGGTGG
+GAGCTTTTTAGTTCCTTGTTCCTTACCCGGACCTCCTGTGGTAAGTGTTTTCTCTCCTCTGGGGCCTGCTAAGGGTGGGT
+GGGCATTGGCATGCCAAAGGTGGCTAGAAGTCAATGATTTAGGCAGGCTTGTGAATAGATATGGGAGGAGGCAATGGCAC
+CCCACTCCAGTACTCTTGCCTGGAAAATCTCATGGACGGAAGAGCCTGGTAGGCTGCAGTCCATGGGGTCGCTCAGAGTC
+GGGCACGACTGAGCGACTTCACTTTCACATTTCACTTTCATGCATTGGAGGAGGACATGGCAACCCACTCCAGTGTTCTT
+GCCTGGAGAACCCCAGGGACTGCGGGGCCTGGTGGGCTGCCGTCCATGGGGTCACACAGACTCGGAAACGACTGAAACGA
+CTTCGCAGCAGCAGCAGCAGCAGCAGCAGCAGTGCATAAATATCAAAAGGGTTTAGAACAGTCAGGTAGGATCACACAAG
+TCACCGTGAAGCAATACTTCTCCACTTAGTCAAAGCTAACAAAAGATTTCTCTTCTAGGTCAACCTAGAAGAGATCACGG
+AAGAGGTAAAGAAACTTAAAATCCATTAGCAAAGGCAGTTCAACCTCTCAAGAAACCTTGTGCTAGGCACAACACTCTTT
+TCTGGGGGTCCACGTTCCCTACAACCTCCTGATCCCATTCTGTACCCATTCCTTTGCTTCTCCCATCCTGAAACTGCCAC
+CTGGAAGAAAGAACGACGTCGTTTTCCTTCAGAAAATGCGATTTCATGCCACATACCTTCTTTTAATACCAAGTCATACA
+TTTCACTTCAGCAACCAAGAACTGACTTTTATATTGGCATTCGACAGATTGGTGAACATACCTATCAGTGATAGTAGCGC
+CCCTCCCCTCCCCCGCACGCACGCACACACACACACACACACACACACACACACACCCAAGATCAGAACCAAACAAAACA
+AAAAAAAATTGCTTTCTTACGTTTCACATGTCAGGATGGTGCCAGACACTCTTATTGGATAGTCAAAAATCTCTTTTGTT
+TCTGTGTAAAAGGGAGGTCCTTTCAAGGCGTGAATGTTTCAGAACTTGAATTTATTTGGAAATGACCCAGCTCTTCAGTA
+CACTGTCGTCACTTAGTTTAGCACAGGATAGAAACTCGGGTAACCAAAACACCTGGAGAAACGATTGTATGTTCAGTTCA
+GTTCAGTGGCTCAGTCGTGTCTGACTCTTTGGGACCCCGTGGCCTGCAGGACGCTGGGCTTCCGTGTCCATCACCAACTC
+CAGGGGCTTGCTCAAACTCATGTCCATCGAATCAGTGATGCCATCCAACCATCTTAGCCTCTGTCGTCCCCTTCTCCTCT
+GCCTTCAATCAAGACTCTCATAGGCAGATATTTTCGAGTGTAATTAGTGTTCATAGTTTATCTAAAAGCTCATATCACAT
+TTAATTTTTCGTTTTGTTCCTGTTCTTTCGAGGTACTTTCTTGTTGAC
+>ref|ref|X03160.1|| Bovine satellite DNA I repeat (B)
+CGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTGCATGGGCCAACACAAGAGGCCGCCTGAAT
+TCCCCGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAAACACGTGGCTCCCCCGTCATCGCAAGATGAAGCCCTTT
+CCGGCTACAGCGCCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAAGGGCCCTTGGCACCCTTGATGCGACCCAC
+AAAGTTCCCCGAAATCCCGGTCTCCCTCGAGAGGAACACTGAGGTTTTCCGCCACCCCCTCCTCTGAGCCCTTTCTCCCC
+TCCTGA
+>ref|ref|X03161.1|| Bovine satellite DNA I repeat (C)
+CACTCGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCCCTGGGCCAACACAAGAGGCACCCT
+GAATTCCCCGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAACCCACGTGGTTCCCCCGTCATCGCAAGATGAAGCC
+CTTTCCTGCTAGAGCGTCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCC
+CGACAAAGTTCCCCGGCATCCCGGTCTCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCACTTCCTCTGAGCCCCTTCG
+ACCCTCCTGA
+>ref|ref|X03162.1|| Bovine satellite DNA I repeat (D)
+CGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTGCATGGGCCAACACAAGAGGCATCCTGAAT
+TCCCCGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAAACACGTGGCTCCCCCGTCATCGCAAGATGAAGCCCTTT
+CCCACTACAGCATCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGACCCAC
+AAAGTTCCCCGAAATCCCGGTCTCCCTCGAGAGGAACACTGAGGTTTTCCGCCACCCCCTCCTCTG
+>ref|ref|X03163.1|| Bovine satellite DNA I repeat (E)
+AGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCCCTGGGCCAACACAAGAGGCATCCCGAATTCCC
+TGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAAACCACGTGGTTCCCCCGTCATCGCAAGATGAAGCCCTTTCCCG
+CTACAGCGTCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCCCCCACAAA
+GTTCCCCGGAATCCCGGTATCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCACTTCCTCTGAGCCCTTATACCCCTCC
+TGA
+>ref|ref|X03164.1|| Bovine satellite DNA I repeat (F)
+CACTCGAGAGCAATGCCCAGCTTTCCTTCGCAACTCGAGTGGAAGATTGCAATTGCCTGGGCCAACACAAGAGGCATCCT
+GAATTCCCCGTCGTAACTCGAGAACCCCGCCGTAACTCGAGAAAAACCACGTGGCTCCCCCGTCATCGCAAGATGAAGCC
+CTTTCCCGCTACAGCGCCTCAGGAGAAGACCCACGTTAGGAATTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGAC
+CCGCAAAGTTCCCCGAAATCCCGGTATCCCTCGAGAGGAACGCTGAGGTTTTCCGCCACC
+>ref|ref|X03165.1|| Bovine satellite DNA I repeat (G)
+AGCAATCCCCAACTTTCCTTCGCAACTCGACTGGAAGATTGCACTTGCCTGGGCCAACACAAGAGGCAGCCTGAATTCCC
+CGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAACCACGTGGCTCCCCCGGCATCGCAAGATGAAGCCCTTTCCCG
+CTACAGCGCCTCAGGAGAAGTCCCACGTTAGGAACTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGACCCACAAAG
+TTCCCCGAAATCCCGGTATCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCCCCTCCTCTGAGCCCTTTCTCCCCTCCT
+GA
+>ref|ref|X03166.1|| Bovine satellite DNA I repeat (H)
+AGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCGCTTGGGCCAACACAAGAGGCATCCCGAATT
+CCCCGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAAACCACGTGGTTCCCCCGTCATCGCAAGATGAAGCCCTTTC
+CCGCTACAGCGTCTCAGGAGAAGTGCCACGTGAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCCCCCAC
+AAAGTTCCCCGGAATCCCGGTCTCCC
+>ref|ref|X54551.1|| Bovine gene for transfer-RNA(Ser)(Sec) (selenocysteine inserting tRNA)
+GAATTCAGATTTTTCAGGAAAGAAGCTTCTGAATCCCGAATTATGAATCTTTTTTGTTTTAAAAAAATTAATGGACTTCT
+CTCTTGGATAAAAGGGGCTTCAGTCTCTTTAACAGCTAGACACGAGGGGGCCACGTCCTGTACCACCGTTTCCCAGAATG
+CGCGGCGCTATGCAAATGAGACAGTTTCCAAAGAGACGTGATTCAATTCATAGGAGGCAAACGCAGCATTTTGGGAGGAT
+GTCTGTCGTAATAATATTGGTAGAGTTTATAGATGTTGAAATCGACAGTTTCACAGTCTCGCAAACTATATCACCATAAC
+TGTAAAAAAGTAGAAATTTCTGGCTTTTATATAGCTGTACGGGTAAGTTTTTATGTTGCCCGGATGATCCTCAGTGGTCT
+GGGGTGCAGGCTTCAAACCTGTAGCTGTCTAGCGACAGAGTGGTTCAATTCCACCTTTCGGGCGAGGTGGTTTCTCTTTT
+TCTTCTTCCAAACTGGACATTAGAATGCGAGTTGGCCCAGAGGACCTCGGACCCGCGTCTGGAGATATCGCTGCAG
+>ref|ref|NM_174469.2|| Bos taurus tachykinin receptor 2 (TACR2), mRNA
X06295.1 Bovine mRNA for substance-K receptor (SKR)
+CTGATCCCTAATGTCTCCTGAACCACATTAGGAGGGACCTGGGTTTGAGTTTATCACCAACTTACTACATGACCTGGGCT
+GGTCCCCACTTGGAATGTTTTTCCATTTCTGCAGTGAAGATGCAGGCTGATGATTTAGAAGGATGCCTCTTACTCTGAGA
+CCACGTCTTGGATTCTAGATATCCACGTGACGTTGGAGAAGGCTGGCCAGGACATGGGAATCTGAAGTGCCTAGGGCTCT
+GGACCCGGCTGTCTGCTCAGCCTAACTCATCTCTGTTTGAGACTTGGGAGTGACCCCCCAGCTCCCTGGACGCGCCTGGC
+TCGGCACCTACTCCTCCTGCTCCCCGCACTCAGAGAGGATTTGTGTGCTCCCACAGGGCACCAGGGCCTGGAGGGAGCCA
+AGGAGCCTTACCTCTTGTGCCAGACTCAGAGGCGGCCATGGGGGCCTGTGTCGTGATGACCGATATCAACATCTCGTCTG
+GCCTTGACAGCAATGCCACGGGCATCACAGCCTTCTCCATGCCCGGCTGGCAGCTGGCACTGTGGACCGCAGCCTACCTG
+GCCCTGGTGCTGGTGGCTGTGATGGGCAATGCCACAGTCATCTGGATCATTCTGGCCCATCAGAGGATGCGCACGGTGAC
+CAACTACTTCATCGTCAACCTGGCCCTGGCCGACCTCTGCATGGCTGCCTTCAACGCTGCCTTCAACTTCGTCTACGCCA
+GCCACAACATCTGGTACTTTGGCCGTGCCTTCTGCTACTTCCAAAACCTCTTCCCCATCACAGCCATGTTCGTCAGTATC
+TACTCCATGACTGCCATTGCTGCTGACAGGTACATGGCCATCGTCCACCCCTTCCAGCCCCGGCTCTCAGCTCCTGGCAC
+CAGAGCGGTCATTGCTGGCATCTGGCTGGTGGCCCTGGCCCTCGCCTTCCCCCAATGCTTCTATTCCACCATCACCACGG
+ATGAGGGTGCCACCAAGTGCGTGGTGGCCTGGCCTGAAGACAGCGGTGGCAAGATGCTCCTTTTGTACCACCTCATAGTG
+ATCGCCCTCATTTACTTCCTGCCTCTCGTGGTGATGTTCGTCGCCTACAGTGTCATCGGACTCACGCTCTGGAGACGCTC
+TGTCCCGGGGCACCAGGCTCATGGTGCCAACTTGCGCCACCTGCAGGCCAAGAAGAAGTTCGTGAAGACCATGGTGCTGG
+TGGTGGTGACGTTTGCCATCTGCTGGCTGCCCTACCACCTCTACTTCATCCTGGGCACCTTCCAGGAGGACATCTACTGC
+CACAAGTTCATCCAGCAGGTCTACCTGGCGCTCTTCTGGCTGGCCATGAGCTCCACCATGTACAATCCCATCATTTACTG
+CTGCCTCAACCACAGGTTTCGCTCTGGATTCCGGCTTGCTTTCCGTTGCTGTCCATGGGTCACACCAACCGAGGAGGACA
+AGATGGAGCTGACCTACACTCCATCCCTCTCCACGAGGGTCAACAGGTGTCACACTAAAGAGATTTTTTTCATGTCTGGG
+GATGTGGCCCCCTCTGAGGCTGTCAACGGGCAGGCTGAAAGCCCCCAGGCTGGAGTGTCTACTGAACCCTAAAGCCTAGT
+GCCTGGCTGCAGGGAGAGGCGTCCGCACCCTTGAGAAGTAGCCAGTCGAAAGGACCACCTCTGAAAGTTTGGCCCGTGCC
+TCACCCTTCAGTACATCAATGGAAAGATGAGATGGGGCCAGGAACTCTGCAGTGGGTCCTGCCTCTCCCAGCCAGCCCCT
+CAGACAGTGCTTCAGGGGATCCAATAATTCAAAGAAGACAGGGTGAGCTAACACTTATCTAATCCAGGAGTTGCAAGGTC
+GAATGCCTTCCTGGGGCATACAACATAGAGTAAATTGAACCCGGTATGAAAGAAAAATTGTAGATATATTGATAAAAGAT
+AACTGACTTCAGTGTCGGGCCAATAGGGAATGGTGGGGACTGGCAAACTGGAGGGCATAGGAATCCAAAGGGGAGAGTAG
+CTGATCAGCTCTGGGCAAATGCTGCCATGTGACTGATCCTCTACATCTTTCAAGAGAAGCCAGAAATCCAAATTTGTGAA
+ACTTCCAGAATTGTTAAATTTGGCTCACATTGTTATAAATGTTGTGCGAACCAAACAAAACACACCAGTGGGCAGTACTC
+AACCATGACACTGATTTATTATCAGGATAAAGACTCAAGGAAAGAAGCTGCTTAATTCTGCAAAGCCCCTAACCTGTGAG
+CCAATCCAGGGCTTCTCTGCTTTAGCATCTAAGAACCCAGGTCCACCCCAGGGGAGATGGTGGTTAAGGGTCAAAAGAAG
+CCTCAGCTGGGTGGTCTCAAGACAATGACCTTCACATTGCCTTCCTCTTTCAGTTGCAAAACTACTTTGCAGGGAGGCTG
+AGGATGATGGGAGAGATGCCTATAAATTAGCAAGTCCAATACATGTTAAGTGCTTCAT
+>ref|ref|X51337.1|| Bovine mRNA for seminal ribonuclease
+TCCTCCAGTGGAGTGAGGTCATCATGGCTCTGAAGTCTCTAGTCGTGTTGCCACTGCTGGTCCTGGTGCTGCTGCTGGTG
+CGGGTCCAGCCTTCCCTGGGCAAGGAATCTGCAGCTGCCAAGTTCGAGCGGCAGCACATGGACTCTGGCAACTCCCCCAG
+CAGCAGCTCCAACTACTGCAACCTGATGATGTGCTGCCGGAAGATGACCCAGGGGAAATGCAAGCCAGTGAACACCTTTG
+TGCATGAGTCCCTGGCCGATGTTAAGGCCGTGTGCTCCCAGAAGAAAGTCACTTGCAAGAATGGGCAGACCAACTGCTAC
+CAGAGCAAATCCACCATGCGCATCACAGACTGCCGCGAGACTGGCAGCTCCAAGTACCCCAACTGCGCCTACAAGACCAC
+CCAGGTGGAGAAACACATCATAGTGGCTTGTGGCGGTAAACCGTCCGTGCCAGTCCACTTCGATGCTTCAGTGTAGATCT
+CCACCTGAGGCCAGAACAGTGAGATGCACCGCTTCATCACAAAGGCATCTGCCTCTCCCTCTTGTTTCCTTACCCTGAGG
+GCAATAACTCAAGTTAGTTAAGGTTTTTATCCCTGCAACCCCCACCACACACACCCACCCCCACACACACACCCATGTTT
+CCCTGGCATGAGGGCAATAACTCAAGCTAGTTAGGGCTCTTATCCAACATACACATGCTCCCCTGGCCTGAGGCTTGCCC
+CTGTGTAGTTTGGGAATTGAGAAGTGGGTTGTAATATGGGACCCATGTTAACCTAATCACTGCTACTTTCAATAAAACAC
+ACTTGCAA
+>ref|ref|X03029.1|| Bovine mRNA fragment for seminal ribonuclease
+GTGCATGAGTCCCTGGCCGATGTTAAGGCCGTGTGCTCCCAGAAGAAAGTCACTTGCAAGAATGGGCAGACCAACTGCTA
+CCAGAGCAAATCCACCATGCGCATCACAGACTGCCGCGAGACTGGCAGCTCCAAGTACCCCAACTGCGCCTACAAGACCA
+CCCAGGTGGAGAAACACATCATAGTGGCTTGTGGCGGTAAACCGTCCGTGCCAGTCCACTTCGATGCTTCAGTGTAGATC
+TCCACCTGAGGCCAGAACAGTGAGATGCACCGCTTCATCACAAAGGCATCTGCCTCTCCCTCTTGTTTCCTTACCCTGAG
+GGCAATAACTCAAGTTAGTTAAGGTTTTTATCCCTGCAACCCCCACCACACACACCCACCCACACACACACACCCATGTT
+TCCCTGGTATGAGGGCAATAACTCAAGCTAGTTAGGGCTCTTATCCAACATACACATGCTCCCCTGGCCTGAGGCTTGCC
+CCTGTGTAGTTTGGGAATTGAGAAGTGGGTTGTAATATGGGACCCATGTTAACCTAATCACTGCTACTTTCAATAAAACA
+CACTTGCAA
+>ref|ref|X54799.1|| Bovine mRNA for Cu-Zn superoxide dismutase (EC 1.15.1.1)
+GCGACGAAGGCCGTCTGCGTGCTGAAGGGCGACGGCCCGGTGCAAGGCACCATCCACTTCGAGGCAAAGGGAGATACAGT
+CGTGGTAACTGGATCCATTACAGGATTGACTGAAGGTGATCATGGATTCCACGTCCATCAGTTTGGAGACAATACACAAG
+GCTGTACCAGTGCAGGTCCTCACTTTAATCCTCTGTCCAAAAAACACGGTGGGCCAAAAGATGAAGAGAGGCATGTTGGA
+GACCTGGGCAATGTGACAGCTGACAAAAACGGTGTTGCCATCGTGGATATTGTAGATCCTCTGATTTCACTCTCAGGAGA
+ATATTCCATCATTGGCCGCACGATGGTGGTCCATGAAAAACCAGATGACTTGGGCAGAGGTGGAAATGAAGAAAGTACAA
+AGACTGGAAACGCTGGAAGTCGTTTGGCCTGTGGTGTAATTGGAATTGCCAAG
+>ref|ref|XM_019959549.1|| PREDICTED: Bos indicus tachykinin precursor 1 (TAC1), transcript variant X3, mRNA
X00076.1 Bovine mRNA coding for the substance P precursor alpha-preprotachykinin including a single substance P sequence
+AAAAGAGCGCGCTGCTGACCTCCTCCATCCTTGCTGCGACCGAGAGAGTGCGCAGCGCCCCGCGAGTGCTCAGACCAGCA
+GAGGAACCTCCCGGGCGGGTCAGCTGCGAAATCCAACATGAAAATCCTCGTGGCCGTGGCAGTGATTTTTTTCATCTCCA
+CTCAACTGTCTGCAGAAGAAATCGGAGCCAACGATGATTTCAATTATTGGTCCGACTGGTCCGACAGCGACCAGATCAAG
+GAGGAAATGCCCGAGCCCTTTGAGCATCTTCTGCAGAGAATCGCTCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTGAT
+GGGCAAACGGGATGCTGATTCCTCAATTGAAAAGCAAGTGGCCCTGTTAAAGGCCCTTTATGGACATGGCCAGCTTTCTC
+ACAAAATGGCTTATGAAAGGAGTGTGATGCAGGATTATGAAAGAAGACGTAAATAGACTACCTAACATATTTATTGAGCT
+TCATTTGTGTCAGTGGTCAAGGAAAGGTAAAATGAGACATGCACTATGAGGAATAATTATTTATTTAATAATTGTTGTTT
+TGAGTTTAAAACTCAAGAAGTATTTATTTTTCATATTGTGGCAATATATGTTGTAAAAAAAATGTGTTGTAATTCTAATC
+TGACAACTCAGTCAGAAGTAGAAATCAGTGGTAATTTCTCCCCAAAGCACAGTGTTCAATGAAGTTGTAAAAACCTATCG
+AAGATATATTCTCCAAACAAAGGAATCATTTCTGTTTCTTGGAAGCAGTCACATCAGCTACTACTAAGGAAAAGAAATTC
+ACATATAGGCTGTGCTTCTCCATTTGTTTTCATGGTGAAAATGTGCTGAGAGTTGGTATCAAACTGTGTTTGTATCCCTG
+CAGCATGTTTCATGTTTTGTGACTATATAGAGACATTTAAAAAGTTTTACTGTGATTCTAAGGTATTTTATTGTACAATG
+TGTTGTAATAGTTAACATTTTAAATAAAAGAAAAAGTATCTT
+>ref|ref|V00135.1|| Messenger RNA for bovine prothrombin
+AATCGCCCTGCTGAAGCTCAAGAGGCCCATCGAGTTATCCGACTACATCCACCCCGTGTGCCTGCCCGACAAGCAGACAG
+CAGCCAAGCTGCTCCACGCTGGGTTCAAAGGGCGGGTGACGGGCTGGGGCAACCGGAGGGAGACGTGGACCACCAGCGTG
+GCCGAGGTGCAGCCCAGCGTCCTCCAGGTGGTCAACCTGCCTCTCGTGGAGCGGCCCGTGTGCAAGGCCTCCACCCGGAT
+CCGCATCACCGACAACATGTTCTGTGCCGGTTACAAGCCTGGTGAAGGCAAACGAGGGGACGCTTGTGAGGGCGACAGCG
+GAGGACCCTTCGTCATGAAGAGCCCCTATAACAACCGCTGGTATCAAATGGGCATCGTCTCATGGGGTGAAGGCTGTGAC
+AGGAATGGAAAATATGGCTTCTACACACACGTCTTCCGCCTGAAGAAGTGGATACAGAAGGTCATTGATCGGTTAGGAAG
+TTAGGGAGCCACCCACATTCCAAGGCTCCTCACTGCAAAATCTCAGAGGCCAATCCAGTGAATGAATTATTTTTGTGGTT
+TGTTCCTAAAACTATCTTTCTCAATAAAGTGACTCTATCAACG
+>ref|ref|X06071.1|| Bovine thyroglobulin gene exon 12 (and joined CDS)
+TCTGAAGGAGGAACAGTGATTCCTTCAAACTTGGCTGACATTTTTTACTTCTTTGGTTGCATAATGTTGCTTGTGGGATC
+TTAGTTCCCTGACCAGGGATCAAACCTGTGCCCCCTGCAGTGGAAGCGTGGCAGTCCCAACCCCTGGACTGCCAGGGACT
+TCCCATCAGCCGGCATTTTAATTTTTTTCATTTTAATTTTAAAGGGCAATCTGGTGAGGGCCTACCTGCTCCTCGATGAG
+CCTCTGTCTTGTTTTGGGGTGGAAATGTTTGTTACAGAAATCGAAAGGCCGCCTATGTTGGGAAAGGACGAGGTGGCTGT
+TCTCAGGACAGAGTCCGCTTGGCCTGGGCTTTGAGAGTCCAGGGCTCACCTCTCTCTTCCTCTCTCCCGACTCCAGCCTT
+TGACTTCTACCAGAGACGCCTGGTGACCCTGGCCGAATCCCCACGAGCACCCAGCCCTGTGTGGTCCAGCGCGTACCTGC
+CACAGTGTGATGCCTTCGGAGGCTGGGAGCCTGTGCAGTGCCATGCCGCGACGGGTGAGGCGGGCAGGCACCCTGGGGAG
+GCTGAGGGACACCCCTCCTTTTCATGTGCAGAAAAGAGCCCTAAAAAGAGAGAAAGGAAAGAGCCCTGCACTATTAGGGC
+AAAGCAACGTGA
+>ref|ref|X06072.1|| Bovine thyroglobulin gene exon 13
+ACAACAAAGTGAGTAGATTATACCTAAACCCACTCTTTTTCAGATTCTTTTCCCATATAGGCCACTACGGAGTATTAAGT
+AGAGTTTCCTGTGCTATACAGCAAGTCCTTATTTGTTATCTCTTTTATGTATGGTAGTGTGTATTGCAGGACCCTCAGCA
+GGGCCCTTGGGCACTTCCTGAACTTCTGGCCGGGGCTTTTTTCCAGGGCACTGCTGGTGTGTGGACGGGAAGGGAGAGTA
+CGTCCCCACTTCGCTGACCGCCCGCTCCCGGCAGATCCCGCAGTGTAAGTGGGGCCGCTGGACCAGCCGGCGGGCCTTCT
+AGCGGGCGCCCTGCCTGGGGAGGCTCCGTGGGCCAGCGCTTCAGACCAACTCCCAAGAGCAGGCAGACCACATACCCCCA
+AGTCCCCAGGCCTGGAAGAGTTCCCTGACCTTGGTTGT
+>ref|ref|X06073.1|| Bovine thyroglobulin gene exon 14
+AAGCGCTCACTTTATGTCTCAGAGGTGAAATGTCCCACGTGGGTCTTTGTCCCTGACCCTCAGCCTGCTTCTCTGGGGTC
+CCAGCTCTCTGCATAAGGGCACCTCCACCCACCCAGATGCATGGCTCCAACACTCGGGGCCAGCCTGGGCTCCCCACCTG
+CCCTCAGCGCCCACGGCCAGCCTGTTGAGAGCTCCCCTCTCTCCCCACCCAGGCCCCACCAGCTGCGAGAGATTGCGAGC
+CAGTGGGCTGCTTTCCAGCTGGAAACAGGCTGGTGTCCAAGCAGAACCATCTCCTAAAGACCTGTTCATCCCAACCTGCT
+TAGAGGTAAGTCTCTGAAGGCCCAAGAAGGTTCCAGAAGCCAGAACTTTCTGGATGGCGAATTTTCTAGTTTTCAATAAA
+CTTGTTTTAATTGAAAACTCACAAG
+>ref|ref|X06074.1|| Bovine thyroglobulin gene exon 15
+CCTGATGTCTGGCTCCCGACTTATCAGTTTACAGAAGCATCTTCGCTGGGTGACACCACCTCGGTTTTGTCTCAGACAGG
+AGAGTTTGCCAGGCTGCAGGCGTCGGAGGCTGGCACCTGGTGTGTGGATCCGGCCTCAGGAGAGGGCGTGCCCCCTGGCA
+CAAACAGCAGTGCCCAGTGTGAGTACTGGCCCTTCCCCATCATCTCAGCCCCCACCCCGTGAGATGAGGTAGGAGCC
+>ref|ref|X06075.1|| Bovine thyroglobulin gene exon 16
+ATTTTTTTTTTTTTTTTTTCACGTGCATGGAGTGGAGAGGGGAATACAAAGCCAGTGTCTGAGTGCAACACCCTAGTAGG
+GAGGCCACCCCAGACCCCAGGGGCCCTGTAGGCAGGTGGCAGTGGGTGGTGGGTGGTGACAAGGGCTGTGACAGCCACGC
+AGGCAGAGAACACATGTGGCTTGTCTTTGCGTCAAGGCCCGAGCCTCTGTGAAGTGCTCCAGAGTGGAGTCCCCTCCAGG
+AGAACCAGCCCTGGCTACAGCCCGGCCTGCAGGGCAGAGGATGGAGGCTTCTCCCCAGTGCAGTGCGACCCGGCCCAGGG
+CAGCTGCTGGTGCGTCCTGGGCAGTGGAGAGGAGGTACCCGGGACCCGCGTGGCCGGGAGGCAGCCGGCCTGTGAGAGTA
+AGTGGTGATGCCCCAGAGTGGCCCCGGGCTGGTGGGGGTCCTGTCATCCCTTGCCTTGGCCCTGGCTGGG
+>ref|ref|X14324.1|| Bovine thyroglobulin gene 5'end
+TGCTCCCCTACAGCCTCCACAAGATTTTCACCCCACACTGGCCACATGAGTGTCCTCCAGGGGAACAGACGCAGGTGGAG
+GACCTCCTTGTGACCAGCAGAGAAAACAGGGTGGGCACTGCTTCCCTGAGTGCCTGTGGGTGGGGGCTAAGTACCCACAG
+CAGTGCTATAAAGGCTCCTTGGCCAGAGCCCTAAGGTGGGCAGCAGCTTCTAACCCTTCTCCCTGGAAGGCTCCCAAGAT
+GGCCCTGGCCCTATGGGTCTTCGGTCTGCTGGACTTAATCTGCTTGGCATCCGCCAACAT
+>ref|ref|X05381.1|| Bovine thyroglobulin gene exon 2 and flanks
+GATCAGGAGAGTGATGTCAAACTGTGAGTAGCTGCAAAAGCTGCGAGTTGAAATATACTTGCCGATGGTGGTAGAAATAA
+AACCCGGAAGAGCGTCTGTGTCTTCAGCGAGCCCGTCTCCGTTACTGGAATCCAGGCAGCAGATTCTCTCTCATGAGCGG
+CATCACTTCCTTTGTGCAGAGTACCAGGTGGATGCCCAGCCTCTCCGCCCATGTGAGCTGCAGAGGGAGAGGGCTTTTCT
+GAAGCGAGAAGACTACGTCCCCCAGTGCGCCGAGGATGGCAGCTTCCAGTAAGGCCTCCTCCAGCCATGCGACCCAGGGG
+CCTCCTTAAAACCCATCTTCTTCCTGTCCCCGCCCCCCTCCTTGAAACTGACCCTGTGACCATGTATCGGAGCATCCCAG
+ACCCGTAACACGAGTCATCTGACCTCTGTTGCCCCAATCCATCGTTCCTTCCAGCCAGAACCAAAGAGTTCCCTTCCTTT
+CCTGCCAAAATTTTTTACTGTAATTGTTTTAACAAGGGTGAATGGGGTGGTTGGCCGGCCGGCCAGTATTTACCTTTCCA
+ATGATC
+>ref|ref|X14325.1|| Bovine thyroglobulin gene upstream region
+GGATCCAGGAGGGAGAGGTGAGAGGGCCAGAGGTGAGGAGCCTGCAGAGAGGATGGAGACCCAAGCCAGGAGCGGGCTCA
+CGGAGGCCAGACCAAGGAGTTGGTGCTGAGTTTCCGTAGAGCATCCTCCTGGCTCACGAGGCATCAGATGATGGTAGGAG
+CTGAGTCATCGTAGAAAGAGTTTTCACGGTTGAGGCAGCGCCTGGCATGGCTCTCTCCAAGCTCATCGCTTCATTGCTGG
+ATGGAGAGAAGCACCTCTCCTTCCAGGTACACTGTTTTGACTCAGAAGGAAGCCCGGGCGGCTCTCACCCTCACTGACTC
+TGCTGTGCCTCTTCCCAGGGGCCAGGCCAGGGAGAATGACTCAGCACACAAGCTGGCCTGTGCAAGACCCTGCCTGCATG
+CATGGGTGGGGGAAGCATGAGGAGTGGGCTTTCTGGTAGG
+>ref|ref|X56400.1|| B.taurus tnp2 gene for transition protein 2
+CTGCAGGCTGGCCCAAGGAAGGGGTAGGTGTGCTATGCCCCGTTCTACAAAAGCAGGGAAACTGGGACTAGAGAGGCGGA
+TGCCGGGGGGAAGAGATCAGAAGGAAAAGCAGCAGCAGGCCCAGGTGTGGGCCAGCTCCACCCGACCTGAGGGGCTGCTC
+TCAACCCACAGACACGCCCTTTGAAAGCTGCCCCACCCTGCGTGTTAGGATGAGGGCAGAGGGCTTTGTTCCCGTTGGGC
+CACATCTGTTACATACCCCCCTGTGGCCAGTGCCATCACAATCGGGCCCAACTATATAACCAGGGGCTGCCAGGGCCTCT
+GTGAAGCTGGGTCTGCCAGAAGAGGAGGAGGAGGCGGCGGCCCCTGCCCCTCTAAGCGAGGCCGCCCCCCACCCATGGAC
+ACCAAGACACAGAGCCTTCCCAACACCCACGCCCAGCCCCACAGCAACTCTCGGCCCCAAAGCCACGCCTGCCACCACTG
+CAGCTGCAGCCAGCACTGCCAGAGCCGCAGCCGCAGCCGCAGCTGCCGCAGCCGCAGCTCCAGCCGGCGCCCGAGGAGCC
+ACCGCAGCCCCACTGGCCACCAGGGCAGAGCCAGGCCCCAGCCCTCCTCTGAGGCGCCACAGACACACCATGCACTCCCA
+CCAGTGTCCTCGCGGCCCGTCACCCACTCTTGCAGCCACTCCAAGAACAGAAAGAACTTGGAGGGAAAGGTGATCAAGAG
+GAAGCAGGTCAAGAGGAGCAAGCAGGTGTACAAAAGAAAGAGGCAGAGCTCAGGTACCTGTCAAGCTGGTGGCCTTTCAC
+AGGACTCCCCCAGAGAAGGGCGCGCCCCAGCAGGGCTGTAGAGGCGGTGAGGTGAAGGCTGCCTCCGCCAAGTCAGAGGC
+ACAGAGGACCCACAGGCAAGGGTTTAAGAGGGAGAGGGAACTATGACAGTTGTATATACATGATGCATTGATGGAATAGC
+TCTTTAATTGGATGGGTTGATTGGAAGGATGGACGAACGGCAGATTAGCTAGGTGGAAGCATGGAGAGGTGAATAAGGCT
+GGGTAGATGAATAATTAGGAGGCCTGTTAGATAGGGAATGGGGAGAAGAGTTAGATGGTTGCTTGAGTGGATGGGTAAGA
+AGGATGAGGGGAAGGAATGAATCCATTAAGTGACTGAGAATCAGAAGGGATGTGATTAGATTTCTAGATTGGGCTGATGC
+ATTGGGAGGGTGAATGAATTGGTTGGCTGGGCAGATGGCTGAGTAGATAAGGGTTTGAACACAATTGGATATCTGGAGGC
+ATGACTATTGAGAGGATATGAATTGGTTAAATAATGGTGGTCTAGGTGGGTGGAGGATCAGGTTGGTGGATGGATAAATG
+AACTGATAGATGAACTGACTGGATGGCAAGCTGGCTGAATGGACTAACTGGACCAATGAACGAAAGACAGACAGTGGGAT
+TGGTGGACTGGATGTGTAGCCTGACGTGGTTTAAAGAATGAAATGATGTTGGACTGGGTTGAATTCACGGGTGCATGATA
+AATGGATGGATTCCCAAGTCAAAAGGACCCTGATGATTGTGTCAGTTCTAGCCATGCCCCATATCTGATTACACACGAGC
+ATCCAAAAACCCAAAGGAGAGGGTTAAGTGACCTTAGGAAGCACTCAGTTATTAAAGGCTCCCTTTCCCATTTCTATCCC
+TTAGGACGGAAGTACAACTGAGATGACACCCCACGGTTTGTTCCTGTGTCTGTTTCATCCAGATAAGAAACGCCATCACA
+CGTTGAATGCTAGAAGGAAGAAGTAAACTTTGCAGGAACATGTTACTACAGTGATTTCTATGCAACATTGATTAAAGCTT
+GTACACTGG
+>ref|ref|X56401.1|| B.taurus tnp2 mRNA for transition protein 2
+CCCTCTAAGCGAGGCCGCCCCCCACCCATGGACACCAAGACACAGAGCCTTCCCAACACCCACGCCCAGCCCCACAGCAA
+CTCTCGGCCCCAAAGCCACGCCTGCCACCACTGCAGCTGCAGCCAGCACTGCCAGAGCCGCAGCCGCAGCCGCAGCTGCC
+GCAGCCGCAGCTCCAGCCGGCGCCCGAGGAGCCACCGCAGCCCCACTGGCCACCAGGGCAGAGCCAGGCCCCAGCCCTCC
+TCTGAGGCGCCACAGACACACCATGCACTCCCACCAGTGTCCTCGCGGCCCGTCACCCACTCTTGCAGCCACTCCAAGAA
+CAGAAAGAACTTGGAGGGAAAGGTGATCAAGAGGAAGCAGGTCAAGAGGAGCAAGCAGGTGTACAAAAGAAAGAGGCAGA
+GCTCAGGACGGAAGTACAACTGAGATGACACCCCACGGTTTGTTCCTGTGTCTGTTTCATCCAGATAAGAAACGCCATCA
+CACGTTGAATGCTAGAAGGAAGAAGTAAACTTTGCAGGAACATGTTACTACAGTGATTTCTATGCAACATTGATTAAAGC
+TTGTACACTGGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_174199.2|| Bos taurus transition protein 1 (TNP1), mRNA
X16171.1 B.taurus mRNA for transition protein 1 (TP1)
+CGTTAATGTCGACCAGCCGCAAATTAAAGAGTCAGGGCATGAGGAGGGGCAAGAACAGAACTCCTCACAAGGGAGTCAAA
+AGAAGTGGCAGCAAAAGAAAATATCGGAAGAGCAGCCTGAAGAGTAGAAAACGCTGTGACGATGCCAATCGCAATTTGCG
+CTCCCACTTGTGACTCCAGCAGCGGCTCCTGCCTGGTGGACTTTGAACGACACCAGGCAGCAACCGAACAGAAGGGGACT
+GCCAAGGAGACCTGAAGTTAGACCAAAGCCAGAGAAGAACTTATCATGTGGATAAAATGCCAATCATGACAAAATGAGGC
+ATGTATATGTTGGCTGTTTCTCCCTAACATCTCAATAAAAATTTTGAAAGCTG
+>ref|ref|X65041.1|| B.taurus TNP1 gene for transition protein 1
+AGCAGGAGGATGGAAGACTTCCATCGCCCAGCAACAAGCCCGGCCAATGAAAAGGGCCTCAGCTTAGCCAATGAGAAGAC
+TTCATCACCTGAACTTTCACTTTCCTCCAATGAACCCTCATTATTGCCTTACTGATGACTTCCTTTCCTTGTCCACCTCC
+CCCTACTATAAAAGCCTTCCACGTGGTGTAGCCCTTGGAGCATCTCTCTGTCCACCAGGTGAGATGGCTGCCTGATTCAT
+GAATCATTTAACAAAGCTAATTAGATCTTCAAATTTACTCAGTGAAATTTTGTTTTTTTAGCAATGATAGTCCCACGTAT
+TTAGCCAACAGTGTCAGCAGTGCTTGGGTTGAGAAAATTTGATTTAGATGAAGAGAAGAATATTATGTTTAGTCATATGA
+TGATTGCTAGAGTCAGTCTTATAGACATTGTCAATTCCCAATGCCATAAGAGAGACTTAAATATGATGCATATACACACC
+AACTATTAAATTCCCTACAGGCAGGAGATAGCTTTTTTGATGCCTCTTGTACTCTCCAGGTGCCCAACATAGGATTGGAA
+TTTAGGTACTCAGTAACACCTATCTGGAAAACCTCATTTATCATTAAAAAAAAAAAAAAAGACTACAACATTGAGGGTAG
+CCTTGAGCTGCATTGGAGGGATCACCTAATTTCATATATATTACCCAACTGTAACAAAGCCTAGTGACATCACAATGGAG
+CCCTGCCCATCTGCTAAGCCCCGCCCTCTTCACAGTCATAATGGCTAAGGCCTTAAATAGCCAGACTCTGGCCCCTGGGT
+CCTGCAAAGCCCCTCATCTTGGCAGAAAGTACAATGTCGACCAGCCGCAAATTAAAGAGTCAGGGCATGAGGAGGGGCAA
+GAACAGAACTCCTCACAAGGGAGTCAAAAGAAGTGGCAGCAAAAGAAAATATCGGAAGAGCAGCCTGAAGAGTAGAAAAC
+GCTGTGACGATGGTGAGTTAGGGATGAGTGGGAGAGGAGTTAAACAGGGACCTTGTTGTCCTGAGGGCCTTTCTTCTTGA
+AGTTAGCTCTCATAGGACCCTGAAACCTCAGCCTGAGAATTTCGTTCTCAACCAGGTTCCCATCTGGGCAGGAAGAGGAT
+GAATGGGGTTCATGAATCTTCAGTGAATATTCTAACTGGTGTTCCTGTTGCATACTTGTCCCTTCCCTACAGCCAATCGC
+AATTTGCGCTCCCACTTGTGACTCCAGCAGCGGGCTCTGCCCTGGTGGACTTTGAACGACACCAGGCAGCAACCGAACAG
+AAGGGGACTGCCAAGGAGACCTGAAGTTAGACCAAAGCCAGAGAAGAACTTATCATGTGGATAAAATGCCAATCATGACA
+AAATGAGGCATGTATATGTTGGCTGTTTCTCCCTAACATCTCAATAAAAATTTTGAAAGCTGAATTTCAGTGTCGTTTGA
+TCTTTTGGTTGGAAACTGGGTTCCTGAGCTGGGCAGGCTTAGGGG
+>ref|ref|X56626.1|| Bovine tRNA-pro (anticodon UGG)
X57443.1 Chicken tRNA-pro (anticodon UGG)
K00360.1 Mouse Pro-tRNA-2
+GGCTCGTTGGTCTAGGGGTATGATTCTCGCTTTGGGTGCGAGAGGTCCCGGGTTCAAATCCCGGACGAGCCCCCA
+>ref|ref|X56627.1|| Bovine tRNA-pro (anticodon IGG [inosine])
X57444.1 Chicken tRNA-pro (anticodon IGG [inosine])
+GGCTCGTTGGTCTAGGGGTATGATTCTCGCTTAGGGTGCGAGAGGTCCCGGGTTCAAATCCCGGACGAGCCCCCA
+>ref|ref|X03073.1|| Bovine retinal mRNA for transducin beta-subunit
+AGAGAAGGAGCCTAGGCCACGTAACTGATGGTGGGCTTCCTGGAGGCTCTGGGGGACTGAGGACAGTGAGGAGAGCAACA
+GAGACGTCACATATCTCAGATTCTTTGAGGTGGCTTTGAAGAGCACTAAGATTAGAAGATGAGTGAACTTGACCAGTTAC
+GGCAGGAGGCCGAACAGCTTAAAAACCAAATTAGAGATGCTCGGAAGGCGTGTGCAGATGCGACTCTCTCTCAGATCACA
+AACAACATCGACCCTGTGGGAAGAATCCAGATGCGCACCAGGAGGACGCTGAGGGGACACTTGGCCAAGATCTATGCCAT
+GCACTGGGGCACCGACTCCAGGCTTCTACTCAGTGCCTCGCAGGATGGTAAACTTATTATCTGGGACAGCTACACCACAA
+ACAAGGTCCATGCCATCCCTCTGCGCTCCTCGTGGGTCATGACGTGCGCTTATGCCCCTTCTGGGAACTACGTGGCCTGT
+GGAGGCCTGGATAACATCTGCTCCATTTACAATCTGAAAACTCGTGAAGGGAATGTACGTGTGAGTCGTGAGCTGGCTGG
+ACACACAGGTTACCTGTCCTGCTGCCGTTTTCTGGATGACAATCAGATTGTTACCAGCTCTGGAGACACCACCTGTGCCC
+TGTGGGACATCGAGACTGGCCAGCAGACGACCACATTCACTGGACACACCGGAGACGTCATGAGCCTTTCACTCGCTCCG
+GACACCAGACTGTTTGTCTCTGGTGCTTGTGACGCTTCAGCCAAACTCTGGGACGTGCGAGAAGGGATGTGCCGGCAAAC
+CTTCACCGGCCATGAGTCCGATATCAATGCCATCTGTTTCTTCCCGAACGGCAATGCATTTGCCACTGGCTCAGACGATG
+CCACCTGCCGGCTGTTCGACCTCCGTGCGGACCAGGAGCTCATGACCTACTCCCATGACAACATCATCTGCGGGATCACC
+TCCGTCTCCTTCTCCAAGAGCGGGCGCCTCCTTCTCGCAGGGTACGACGACTTCAACTGCAACGTCTGGGACGCCCTCAA
+GGCCGACAGGGCAGGGGTCTTGGCCGGGCATGACAACCGCGTGAGCTGCCTGGGGGTAACTGATGACGGGATGGCCGTGG
+CGACGGGATCCTGGGACAGCTTCCTCAAAATCTGGAACTAACCCTGACAGCAGGTGGACGCCACAGTGACTGGAAGACCA
+TTCCAGCCTTGGAGCGTTGCAGATAGCATTTCCCATCTACCCCTACTAACGCGGACGCCCTGCACCCCTCAGAACTTCAA
+AAGGGCAAGACCTTCCCCTCACTTATTGCTGAAACCAAGAGCACAATTCCCACTGAGAGAAGAATCTCTGTGCTGTAACT
+AAAACGAATCGTGCATTCCTTCCGGGACCATTGTCTTTGTTTTCTTTTTTTGTTTGTTTTGAATGAATTTAAAAGGAAAT
+ACTATAATAAAAATGTTAACAAGAAGGTAAACTTGAGTGTAATTGTAAGACAGACACACCTTTTTACTAGTTTATTTGAA
+ATCTTGATCAATAATCCTGTTTGGTGATGTTCATGCAAAACAATTTGAGGACTTCATCTTGTAATTGACTCTGAATTCTA
+GATTGTGTTTGTAACAGGATTTTGCAGACATGATTCATATTTCCTTCTTAAAATATATTTCTTTCTGCTCGTAGTTAAAC
+AGAGAAGGAGGGTCTGGTGTGGCCTCTCTGAGATTGTTAATGATGTAAATTTAGTCCCTGGTTTTTTTTACTTCCGTCTC
+GTGTCACATGACCGTCGTGCGCATGGTGTAGAAGGATGATGCTGAGAAGTCAAGGAACTGAGCACGCGGACGAACAGTGG
+CCGCGTCAGGCGCCTTTCCCCCAACCCACCCTCTCCCCTCAGTTTGGTTTTTAGTCTCACCCAGTCTCCTTGTGAAGTTG
+GAGGGAGGCTGACACAACAGCGCGACACTACCCTGTGCCCCGCCCGGCCATCACGAGCCTCCGTCCTCAAGAGCGGTGCC
+GTCCTGTGCGTGGAGAGTCAGTCAGTTATTTGTGTATGAAACAATGTACAAATCAATGTTTTGAAAATAATGATCTCAAA
+CTTTCTAAGTTAAATTTTAAAAAACCTGATCGTTTGCCATATGGGGTGGGTTTGCTCTTAGAACCGCATGCTGTAGAAAT
+GCTCACAGTGCATATAGGACTCAGTCCTTAGATGTTCCTTTTCTTTTAAGAAATAACCTCTTTGAAGTTGTGACGTCGCG
+CTCTGTCCACTTCGCGTCGCCCCTCTGTGCACACGCATCGCATTGGAGGCCGTGCAGTTAGCGGCTCTACACGCTCGCCT
+GGCGAGATGTCACTGTTTTCTTTCTTTAAAAAAACAAGTCCTGTTCCAAAATCGTTGTTGGATGGGGTGGGGGGTGTACA
+GGGAACGGAGTCCCTGGCCTCCCTTATGGATTCCTCACGGCCCACCTCTCCCGGGAACCAGCCTTTGTGCTGAGGCAGAC
+CACTTTTCTAACACGCAGATGTCCCTGGTTCCGTGCGCGTCCAGTGTTGGGCAGCGGTGCTGGGACAATGCGGGCCTCCT
+CCCCGTACCAGCGCCCCCGTAGCGGCAGCAGTGGCTTCTCCACCTGTGTTTGCACCATCCTGTGCGCCCTGTGCCCTGGA
+CCCGCAGAGAGTGGGATGAGCCCCCGCCCCCGTCGGCACCTCTGTAGAGCTCTCTGCACCCTGTCCCTCACCTTTTGTAT
+TTAATTTTAAAGTCAATGTACTGCAAGGAAGCTGGATGCAAGATAGATCCTATATTCAACTGTACTGTTATTTAAGATGT
+AATAAAGCAGTTTGACATGAGG
+>ref|ref|Z18292.1|| Bos taurus transcription factor sequence
+TGGCCGGGGGCAACCCCGGCGGCCCCAACCCCGCAGCGCAGGCGGCCCACGGCGGCGGCGGCGGCGCCGGCGAGCAGCAG
+CAGCAGCAGGCGGGCTCGGGCGCGCCGCACACGCCGCAGACCCCGGGCCAGCCCGGAGCACCCGCCACCCCCGGTACGGC
+AGGGGACAAGGGCCAGGGCCCGCCCGGCTCGGGCCAGAGCCAGCAGCACATCGAGTGCGTGGTGTGCGGGGACAAGTCGA
+GCGGCAAGCACTACGGC
+>ref|ref|X04540.1|| Bovin liver transfer RNA-Arg (CCU)
+GCCCCAGTGGCCTAATGGATAAGGCATTGGCCTCCTGAGCCAGGGATTGTGGGTTCGAGTCCCATCTGGGGTCCCA
+>ref|ref|X04541.1|| Bovine liver transfer RNA-Arg (U9CF)
+GGCTCCGTGGCGCAATGGATAGCGCATTGGACTTCTGATTCAAAGGTTCCGGGTTTCGAGTCCCGGCGGAGTCGCCA
+>ref|ref|X04542.1|| Bovine transfer RNA-Gln (CUG)
V01265.1 Rat major tRNA GlN from liver
M16251.1 Mouse Gln-tRNA-CTG
+GGTTCCATGGTGTAATGGTTAGCACTCTGGACTCTGAATCCAGCGATCCGAGTTCAAATCTCGGTGGAACCTCCA
+>ref|ref|X14338.1|| Bovine mRNA fragment for 49 kDa subunit of mitochondrial NADH:ubiquinone oxidoreductase (EC 1.6.5.3)
+GCAGTGGCAGCCAGATGTGGAATGGGCAGAGCAGTATGGGGGTGCTGTCATGTACCCCACCAAGGAAACAGCCCACTGGA
+AACCTCCCCCTTGGAATGATGTGGACCCTCCAAAGGACACACTGGTGTCGAACCTGACCCTGAACTTTGGGCCCCAGCAC
+CCAGCAGCCCATGGAGTCCTGCGGCTAGTGATGGAGCTGAGTGGGGAGATGGTGCGGAAGTGCGACCCCCACATCGGGCT
+GCTGCACCGGGGCACTGAGAAGCTAATTGAATACAAGACCTATCTGCAGGCCCTTCCATACTTTGACCGGCTGGACTATG
+TATCCATGATGTGTAATGAACAGGCCTACTCACTGGCCGTGGAGAAGCTGCTCAACATCCGGCCTCCTCCTCGTGCACAA
+TGGATCCGAGTGCTATTTGGAGAAATCACTCGACTTTTGAACCACATCATGGCTGTGACCACACATGCCCTGGACATTGG
+GGCTATGACCCCTTTCTTCTGGATGTTTGAAGAAAGGGAGAAGATGTTCGAGTTCTACGAGCGCGTGTCTGGGGCTCGGA
+TGCATGCTGCTTACGTCCGGCCAGGAGGTGTGCACCAGGACCTACCCCTTGGGCTTATGGATGACATTTATGAGTTTTCT
+AAGAACTTTTCTCTTCGGATTGACGAGCTGGAGGAGATGCTGACCAACAATAGGATCTGGCGAAATCGGACAGTCGACAT
+TGGGATTGTAACAGCAGAAGACGCACTGAACTATGGTTTTAGTGGGGTGATGCTCCGGGGCTCAGGTATCCAGTGGGACC
+TGCGGAAGACCCAGCCCTACGATGTCTACGACCAGGTGGAGTTTGATGTGCCTATTGGCTCTCGAGGGGACTGCTATGAT
+AGATACCTGTGTCGGGTGGAGGAGATGCGCCAGTCCATTCGAATCATCTCACAGTGTCTGAACAAGATGCCTCCTGGGGA
+GATCAAGGTTGATGATGCCAAAGTGTCTCCACCAAAACGAGCAGAAATGAAGACGTCTATGGAGTCACTGATCCATCACT
+TTAAGCTGTACACTGAGGGCTACCAAGTTCCCCCAGGAGCCACATACACAGCCATCGAGGCGCCCAAGGGAGAGTTTGGC
+GTGTACCTGGTGTCTGATGGTAGCAGCCGCCCTTACCGATGCAAGATCAAGGCTCCTGGTTTTGCTCACCTGGCTGGTCT
+GGACAAGATGTCTAAGGGACACATGTTGGCGGACGTCGTTGCCATCATAGGTACCCAAGATATTGTGTTTGGAGAAGTAG
+ACCGGTGAGCGGGGGATCAGTGTCGGATCTCCCTGCCCTCTGTGCAGCCTCTCCATCGTTGCAAATGGGCCTGTGCGTGC
+GTGCGTGTGTGTGTACACGTCCATGAATGCTTAGCTGTCAGGCTTTCTGTGCATGTACTAGAAAAGGAGAAATCACAATA
+AATTAGCCACGTCTGGCCCCACAAAAAAAAAAAAAAAAAAAA
+>ref|ref|X02312.1|| Goat repetitive sequence 8 kb 5' to beta-A-globin gene
+AGAAAGATGAATTGTTTTGTGAAGTGAAGTCACTCAGTCATGTCCAACTCTTTGTGACCCCATGGACTGTAGTTTACAAG
+GCTCTTCTCTCCATGGAATTTTCCAGGCAAGGGTACTGGAGTGGGTTGCCATTTCCTTCTCCAGGGGATTTTCCCACCCA
+GGGATCGAACCTGGGTCTCCCACACTGCAGGCAGACACTTTAGCATCTGAGCTACCAGGGAAGCCATGGTAGAAGG
+>ref|ref|NM_001003288.1|| Canis lupus familiaris chloride nucleotide-sensitive channel 1A (CLNS1A), mRNA
X65450.1 C.canis mRNA for chloride channel
+GGCGAGGCGAGCGGCTGGGGTCGCCGCGCGGCAGCTCGCTCCCGGCCTGTGTCTCCGCGCTCCCTGCTGCAATGAGCTTC
+CTCAAAAGTTTCCCGCCGCCCGGCTCGGCCGAGGGGCTTCGGCAGCAGCAGCCCGAGACCGAGGCCGTGCTGAACGGCAA
+GGGCCTCGGCACCGGCACGCTCTACATCGCGGAGAGCCGCCTGTCTTGGTTAGATGGCTCTGGATTAGGATTCTCACTGG
+AATACCCCACCATTAGCTTGCATGCGGTGTCCAGGGACCTAAATGCCTATCCACGAGAGCATTTGTATGTTATGGTGAAT
+GCTAAATTTGGAGAAGAATCAAAAGAATCTGTTGCTGAAGAAGAAGACAGTGATGATGATGTTGAACCTATTGCTGAATT
+TAGATTTGTGCCTAGTGATAAATCAGCATTGGAGGCAATGTTCACTGCAATGTGTGAATGCCAGGCTTTGCATCCTGATC
+CTGAGGATGAAGATTCAGATGATTACGATGGAGAAGAATATGATGTGGAAGCACATGAACAAGGGCAGGGGGACATCCCT
+ACATTTTATACCTATGAAGAAGGATTATCCCATTTAACAGCAGAAGGCCAAGCCACCTTGGAGAGATTAGAAGGAATGCT
+TTCTCAGTCTGTGAGCAGCCAATATAACATGGCTGGAGTCCGGACAGAAGATTCAACCAGAGATTATGAAGATGGGATGG
+AGGTAGACACTACACCAACAGTTGCTGGACAGTTTGAGGATGCAGATGTTGATCACTGAAGATGATTTATGCTGCTGTGG
+GATTCTGCTCATAACTAGGAAAGGACTAAAGAACTTGGTGCCTCTTCTACTGTGGAGTGGGTGTTGATGAAAGTCTTTTT
+CCTTCTCCAAAATTTACCTGAACCAGTTCTTTTTTTGAGACAGACTATATACTGAGACAAAAAGTTGTCACCAGCAGAAG
+AAACTATGACCTTTATTAACAAAGGTGAATTAACTTAACCAAGAGGGTATTTGTAGTTTATCATCTACCCAAAACTTTTG
+TGTATAGGTATCCTCTGAGTAGGCCTATAGTTCCTGCTTTCACTATATGCATCTTCTGTAACCTGGCAGGCCTATGTGGT
+GAGAATGCGCAGGTGCTTGAAGACATAGGTAGACTGGATGGGAAGGAAGGAGGCTGAATCTAAGATATATCCTTTAGAGC
+CTAAGGATTCCCTTACCCCTTAGAAAGAAAGACAAAGAGATCTCAGAGAAATCCTGGCCACTGCTTGTTCTTCACAGGGA
+TTAGGGTCTTTTTACTAATTTGGGATCCAGGTTAATTCATTTAGGCATCTTTAGAGAGCCTCTTGGAAATATCCTAGCCA
+CATGAAATACCACTAATATGGATGCTTCTGATTAGCTTTTACTCTTTCACCATGTTTCACCAGTCTGTTTTGTTATAACC
+TCTTAGGTTATAGCCTTTAATTTCTAACCTCTTAGGTCAGTTTCCATAACAAATGAAATTGGGATGAAGTCCTCACAGTA
+CTTCAATGATACTTGTTTTGTCTTTGTAATAGTTTAACAAATAAATCTAGGTTTTCTAT
+>ref|ref|X53591.1|| Dog mRNA for glycoprotein gp25H
+TCGAATTCCCACAAATCTTCTCACTATTTTGCTACATAGATGAGTTGATCCTTTTAGATTGTTTATGGGTAGCTCTTCCG
+GTCTCGGTGGTCCCCTGAAAGACTGTGGGGTGCGCGCGATGAGGCTTCTGGCTTCTGTGCTGTTGGCCCTGTTTGCTGTC
+AGTCATGCGGAGGAAGGAGCCCGGCTTCTGGCCTCCAAGTCACTGCTGAACAGATACGCCGTGGAGGGGCGAGACCTGAC
+CTTGCAGTACAACATCTACAATGTTGGCTCAAGTGCTGCATTAGACGTGGAGTTATCTGATGATTCCTTTCCCCCAGAGG
+ACTTTGGCATTGTGTCTGGAATGCTCAATGTCAAATGGGACCGGATTGCCCCTGCTAGCAATGTCTCCCACACCGTGGTC
+CTGCGCCCGCTCAAGGCTGGCTATTTCAACTTTACTTCGGCTACTGTTACTTACCTGGCTCAGGAGGATGGGCCTGTCGT
+GATTGGCTTTACCAGCGCCCCTGGACAGGGAGGGATCCTGGCCCAGCGGGAGTTTGATAGGAGATTCTCCCCGCATTTTC
+TGGACTGGGCAGCCTTCGGAGTCATGACCCTGCCCTCCATCGGCATCCCCCTGCTGCTGTGGTACTCCAGCAAGAGGAAA
+TATGACACTCCCAAGTCCAAGAAGAACTGAGGGGCTTCCGAGGCCGCTGCCTAGGAGATCCAGGTGCTTTCCAGACTCCG
+GAGGGCCTCTGGAGTGCGGTCTCTCATCCCCAGCCCCTGCCACCTTCTCCAGGATCCTGCCTGCTCTCAACCAGAGTCGG
+ACAGCCTCGGTGTCTGTGAAAGCCTCCTCCTTCTGTCCCAAAGCCATATGAGCAAGAACGAGCAGGAATGCCTCCAGCAA
+CAATCCTCGGGACCTCATCTGTGTGCCTTGTGGTGCTGCAGTGTGAACTGAGGGGCCAGGAGGGGGCACTAAGGAAACTG
+CCTGACTCTACCCCCATCCCCTGCTCTCGCCTCTCGGAAGAGGGTGGAGAGGATCAGATGAAGGCCAAGTGACTCGGAGG
+CTACCCAATCTCTGTTGTGGGTCAGGGGAGCTCTAACCAAATGGAGTTTTCTAATAAAAACATGCCACACGGAATTCCTG
+CAGCCCGGGGGATCCACGAGTCTA
+>ref|ref|NM_001003286.1|| Canis lupus familiaris glycoprotein 25L (TMED11), mRNA
X53592.1 Dog mRNA for glycoprotein gp25L
+CAGAAATGCCAATGCTGGCATTTGCTTTAAGTTTTTATTTTTCTCTTTCAACTGCTTTCTACTTCCACGTAGGGGAACGA
+GAGGAGAAATGCATCATAGAAGACATTCCAAGTGACACGCTGGTAACAGGGACTTTCAAGACACAGCAGTGGGACTTCCG
+CAGGCAGGATTTCCTCGAATCTGCTCCGGGCCTGGGGATGTTTGTGACTGTCACAACCTACAACGATGAGGTATTATTGT
+CCAAGTTATATGGCCCACAAGGAAGATTCTATTTTACTTCACATTCACCTGGCGAACACATCATTTGCTTGGAATCTAAT
+TCTACGAGGCTTGTGTCCTTCGGTGGGAGTAAGCTGCGGATCCACTTAGAGATTCGAGTTGGACAACATGACCTTGATGC
+GGCCATTGCTCAAGCAAAGGACAAAGTTAATGAAGTTAGCTTTAAGCTGGAACATCTAATTGAGCAAATTGAGCAAATAG
+TCAAAGAACAGAACTATCAAAGGGACCGTGAAGAAAATTTTCGGATGATCAGTGAAGATACAAATAGCAATGTTTTATGG
+TGGGCATTTGCACAAACATTGATCTTTATTGCAATCGGAATTTTCCAAATGAAATCCCTTAAAAACTTCTTTATAGCTAA
+GAAACTCGTTTAAAATGTTAATACAAACAGCTACCTGCTAATTTGTAGAATGTCTGAGTTAATAAATCAAAATACATTCA
+CAAAAAAAAAAAAATAATACAAACAGCTACCTGCTAATTTGTAGAATGT
+>ref|ref|NM_001003285.1|| Canis lupus familiaris thyroid stimulating hormone receptor (TSHR), mRNA
X17146.1 Canine mRNA for thyrotropin (TSH) receptor
M29957.1 Canine thyrotropin receptor (TSH) mRNA, complete cds
+CAGGCGCAGAGGGGCCCAGACGACCGTGGAGGATGAAGAAATAGCCTTGGGACCCTTGGAAAATGAGGCCGCCGCCCCTG
+CTGCACCTGGCGCTGCTTCTCGCCCTGCCCAGGAGCCTGGGGGGGAAGGGGTGTCCTTCTCCCCCCTGTGAGTGCCACCA
+GGAGGATGACTTCAGAGTCACCTGCAAGGATATCCACCGCATCCCCACCCTACCACCCAGCACGCAGACTCTGAAGTTTA
+TAGAGACTCAGCTGAAAACCATTCCCAGTCGTGCATTTTCAAATCTGCCCAATATTTCCAGGATCTACTTGTCAATAGAT
+GCAACTCTGCAGCGGCTGGAATCACATTCCTTCTACAATTTAAGTAAAATGACTCACATAGAGATTCGGAATACCAGAAG
+CTTAACATCCATAGACCCTGACGCCCTAAAAGAGCTCCCACTCCTGAAGTTCCTTGGCATTTTCAACACTGGACTTGGAG
+TATTCCCTGATGTGACCAAAGTTTATTCCACTGATGTATTCTTTATACTTGAAATCACAGACAACCCTTACATGGCTTCC
+ATCCCTGCCAATGCTTTCCAGGGGCTGTGCAATGAAACCCTGACACTGAAACTATACAACAATGGCTTTACTTCAATCCA
+AGGACATGCTTTCAATGGGACAAAACTGGATGCTGTTTACCTGAACAAGAATAAATACCTGTCAGCTATCGACAAAGATG
+CATTTGGAGGAGTGTACAGTGGACCAACCTTGCTGGATGTCTCTTACACCAGTGTTACTGCCCTGCCATCCAAAGGCCTG
+GAGCATCTAAAGGAGCTGATAGCAAGAAACACTTGGACTCTAAAGAAACTCCCACTTTCCTTGAGTTTCCTTCACCTTAC
+ACGGGCTGACCTTTCTTATCCAAGCCACTGCTGTGCTTTTAAGAATCAGAAGAAAATCAGAGGAATCCTTGAGTCCTTAA
+TGTGTAATGAAAGCAGTATTCGGAGCCTGCGCCAGAGAAAATCTGTGAATACTTTGAATGGCCCCTTTGACCAGGAATAT
+GAAGAGTATCTGGGTGACAGCCATGCTGGGTACAAGGACAACTCTCAGTTCCAGGATACCGATAGCAATTCTCATTATTA
+TGTCTTCTTCGAAGAACAAGAAGATGAGATCCTCGGTTTTGGGCAGGAGCTTAAAAACCCACAGGAAGAGACCCTCCAGG
+CCTTTGATAGCCATTATGACTACACTGTGTGTGGTGGCAATGAAGACATGGTGTGTACTCCTAAGTCAGATGAGTTCAAC
+CCCTGTGAAGACATAATGGGCTACAAGTTCCTGAGGATTGTGGTGTGGTTTGTTAGTCTGCTGGCTCTCCTGGGCAATGT
+CTTTGTCCTGATCGTCCTCCTTACCAGTCACTACAAATTGACTGTCCCACGCTTTCTCATGTGCAACTTGGCCTTTGCAG
+ATTTCTGCATGGGGATGTATCTGCTCCTCATCGCCTCCGTAGACCTCTACACTCATTCTGAGTACTACAACCATGCCATC
+GACTGGCAGACAGGCCCTGGGTGTAACACAGCTGGTTTCTTCACTGTCTTTGCCAGTGAATTATCAGTGTATACACTGAC
+AGTCATCACCCTGGAGCGCTGGTATGCCATTACCTTCGCCATGCGCCTGGACAGGAAGATCCGCCTCAGGCATGCATATG
+CCATCATGGTTGGGGGCTGGGTTTGCTGCTTCCTGCTCGCCCTGCTCCCTCTGGTGGGAATAAGCAGCTATGCCAAGGTC
+AGCATCTGCCTGCCCATGGACACTGAGACACCTCTTGCCCTGGCATATATTATCCTTGTTCTGTTGCTCAACATAGTTGC
+CTTTATCATTGTCTGCTCCTGTTATGTGAAGATCTACATCACAGTCCGAAATCCCCAGTACAACCCGGGGGACAAAGACA
+CCAAAATTGCCAAAAGGATGGCTGTATTGATCTTCACTGACTTCATGTGCATGGCCCCAATCTCATTCTACGCTCTGTCA
+GCACTTATGAACAAGCCTCTCATCACTGTTACCAACTCCAAAATCTTGCTGGTTCTCTTCTATCCACTTAACTCCTGTGC
+CAATCCATTTCTCTATGCTATTTTCACGAAAGCCTTCCAGAGGGATGTATTTATCCTGCTCAGCAAGTTTGGCATCTGTA
+AACGCCAGGCTCAGGCATACCGGGGCCAGAGGGTTTCTCCAAAGAATAGTGCTGGTATTCAGATCCAAAAGGTTACCCGG
+GACATGAGGCAAAGTCTCCCCAACATGCAGGATGAGTATGAACTGCTTGAAAACTCCCATCTAACCCCAAATAAGCAGGG
+CCAAATCTCAAAAGAGTATAACCAAACAGTTCTGTAAGCAGACCCTATACTACTCGCAGTGGCAGGTGGACTTCTAAAAA
+TCTAGTTTCTTGAACACGTATTCCAAATTCATTATATACACAAGACAGCTGACCTAACCCTTTGCAGGTGATGTTTCATG
+GGGCAAATTTCATCTCCAAAAAGGGGGTAGCTCTACCACCTAATCATTACCTCCCAGAAGGAAGAGAGGCTACCAGCACT
+TCTGAACCCTGGTGATATCAAGATAACTGACACTTTCTAGAAAACTTGTTTGATGCTAACTGCTTTAACAACATTGTATA
+AGATGTCCAACAGATATTAACTGAACCAGGTCAACATTGAGCTTCTCACTTTCAAATAGCATTTCATAGTAAAGATTCTG
+CAAATGGCAAATGCTATTAACTGAGTTGGTGACCACAAGATAGAATTAGCCCCATGTTGGCTTGGTCCACCTTCATGTTC
+TTGGATACAACCAAAGAGAATGTGAATTCCTCGAAACTGAAAAGTCCAGCAGGATACATGCATGAAGCAGCTATTATGAG
+GTGGAAGGAGGGGAAAGGCTTAGCTTAGTTGTTATTTCAGCCTCTGAAACTATATCATCTCTTCACAAGGACCTACCTGA
+TGTGACCCAACTGTTAGGTGTTGCCCAGGGGGGAAAAAAACTGGCAAGATTTCAGCTTATGTGGCTGAGCAAAGTAAGAA
+TTGTTCTTCTTGGCTAGTCTTATAGCATAAAATACGTGAACCCTAGAAATATTTCTAAGTAGCAGCAAGTGGGAATTATG
+AGCAGGGCACACTAAATCACACACTGATTAATAAAGCAGGGCCACAAGGTAACTGTTGGAGCTTGGGCAAATCACTGGGC
+CACTTCTAAGTCTAGAAATGAGAGAGCCTGATTGCTTCTTCAGTTTCAAAACTCTATGTATATCCCTTCCCCTTAAAATA
+TGTTTCCATGACAAAAAAGAAAAGCACTAAAAAAGAAAAGAAAAGAAAAGCACTAAGAAAGAAAAATTTATTTTTCCTAT
+CTTGTAGTGCAGCCACCTCTTTCTCTTTGGAGGCTGGATATATGACCCAGGACATTTCTTTCTTTTTTTTATTTTTTTTT
+TCATTTTTGATTATAATGTCTGATCCATGTTGGGCTGGATCTAAATCACTCAACTAATTACTAGATCTCTACAGCTACAA
+TTATCAGGCCAAAAACAGACTCATATTCACATAACAGAATAAAAGGTGGTTTTGCAAATTTTGGTTATTCAGAGTTACTA
+CTTCACTGTATAGATTAACTTGAAAACATTTAACTTGTCCAGGGATTGGAAGCTATCAAACACTCAGGCAAAGCAACACT
+AAAGCTATCAAGAGAAGTTTCTTCTCTCCAAAACTGCTAGCCTTTTCCAACCTGTTGATCATTGGACATAATCTCTATTG
+CCCAATAGTGTTCTCTTACTTAAAATGGTTAGGATCAATCTTTTAATATAGACGTACTCTTCAGATTACCTGTCAAAACA
+GTCCCTTAATTTCCTCCCAAGCAGAGATGGCATTTGCTTCTCAATGTTCATGAAGCACACCAAGGAATTAGAAGCATTTG
+TTGTTTCAAGTCTGTGGAGTAGGGTTACTGGGCCCAATGCCCCCCCCCCCACAGAGATGGTCCCCCAACCCACCTAGGAT
+ATCCCAATAGCAATACCCATTTCTGATTATCATTGAGATTGGACATCTTAGTAGAAATATTATACACACTCGAAATCATG
+ACTTATCCACCAGTTCACTTGTAACTAATAACTAAACAGTTGTGTTATCGTTTGGCATGTGTTTCTCACCTGTGACATTT
+TGAAATAGTACATCCTGATAATGTATTTTATCTTAAGTAGTTGAAATAACACTTTGGAAACCGTCCTAGAAAAGTAACTT
+CAACACAATTGTTACTAAAATTTGCATTCACAACATGAAATAAATTTTCTTCCTATGAAATGATTGTGCTGAGTCCTACA
+GTATGGCATTTTGTAATTTGTGAGCTTCTTTTAATGTTACCGTTATATGTGTTACAACTGAAGACAGGGAAAAAAAAACA
+ACTGGCAAATTTGCTAA
+>ref|ref|X17147.1|| Canine mRNA for thyrotropin (TSH) receptor variant
M90047.1 Dog thyrotropin receptor variant (TSH) mRNA
+CAGGCGCAGAGGGGCCCAGACGACCGTGGAGGATGAAGAAATAGCCTTGGGACCCTTGGAAAATGAGGCCGCCGCCCCTG
+CTGCACCTGGCGCTGCTTCTCGCCCTGCCCAGGAGCCTGGGGGGGAAGGGGTGTCCTTCTCCCCCCTGTGAGTGCCACCA
+GGAGGATGACTTCAGAGTCACCTGCAAGGATATCCACCGCATCCCCACCCTACCACCCAGCACGCAGACTCTGAAGTTTA
+TAGAGACTCAGCTGAAAACCATTCCCAGTCGTGCATTTTCAAATCTGCCCAATATTTCCAGGATAGAGATTCGGAATACC
+AGAAGCTTAACATCCATAGACCCTGACGCCCTAAAAGAGCTCCCACTCCTGAAGTTCCTTGGCATTTTCAACACTGGACT
+TGGAGTATTCCCTGATGTGACCAAAGTTTATTCCACTGATGTATTCTTTATACTTGAAATCACAGACAACCCTTACATGG
+CTTCCATCCCTGCCAATGCTTTCCAGGGGCTGTGCAATGAAACCCTGACACTGAAACTATACAACAATGGCTTTACTTCA
+ATCCAAGGACATGCTTTCAATGGGACAAAACTGGATGCTGTTTACCTGAACAAGAATAAATACCTGTCAGCTATCGACAA
+AGATGCATTTGGAGGAGTGTACAGTGGACCAACCTTGCTGGATGTCTCTTACACCAGTGTTACTGCCCTGCCATCCAAAG
+GCCTGGAGCATCTAAAGGAGCTGATAGCAAGAAACACTTGGACTCTAAAGAAACTCCCACTTTCCTTGAGTTTCCTTCAC
+CTTACACGGGCTGACCTTTCTTATCCAAGCCACTGCTGTGCTTTTAAGAATCAGAAGAAAATCAGAGGAATCCTTGAGTC
+CTTAATGTGTAATGAAAGCAGTATTCGGAGCCTGCGCCAGAGAAAATCTGTGAATACTTTGAATGGCCCCTTTGACCAGG
+AATATGAAGAGTATCTGGGTGACAGCCATGCTGGGTACAAGGACAACTCTCAGTTCCAGGATACCGATAGCAATTCTCAT
+TATTATGTCTTCTTCGAAGAACAAGAAGATGAGATCCTCGGTTTTGGGCAGGAGCTTAAAAACCCACAGGAAGAGACCCT
+CCAGGCCTTTGATAGCCATTATGACTACACTGTGTGTGGTGGCAATGAAGACATGGTGTGTACTCCTAAGTCAGATGAGT
+TCAACCCCTGTGAAGACATAATGGGCTACAAGTTCCTGAGGATTGTGGTGTGGTTTGTTAGTCTGCTGGCTCTCCTGGGC
+AATGTCTTTGTCCTGATCGTCCTCCTTACCAGTCACTACAAATTGACTGTCCCACGCTTTCTCATGTGCAACTTGGCCTT
+TGCAGATTTCTGCATGGGGATGTATCTGCTCCTCATCGCCTCCGTAGACCTCTACACTCATTCTGAGTACTACAACCATG
+CCATCGACTGGCAGACAGGCCCTGGGTGTAACACAGCTGGTTTCTTCACTGTCTTTGCCAGTGAATTATCAGTGTATACA
+CTGACAGTCATCACCCTGGAGCGCTGGTATGCCATTACCTTCGCCATGCGCCTGGACAGGAAGATCCGCCTCAGGCATGC
+ATATGCCATCATGGTTGGGGGCTGGGTTTGCTGCTTCCTGCTCGCCCTGCTCCCTCTGGTGGGAATAAGCAGCTATGCCA
+AGGTCAGCATCTGCCTGCCCATGGACACTGAGACACCTCTTGCCCTGGCATATATTATCCTTGTTCTGTTGCTCAACATA
+GTTGCCTTTATCATTGTCTGCTCCTGTTATGTGAAGATCTACATCACAGTCCGAAATCCCCAGTACAACCCGGGGGACAA
+AGACACCAAAATTGCCAAAAGGATGGCTGTATTGATCTTCACTGACTTCATGTGCATGGCCCCAATCTCATTCTACGCTC
+TGTCAGCACTTATGAACAAGCCTCTCATCACTGTTACCAACTCCAAAATCTTGCTGGTTCTCTTCTATCCACTTAACTCC
+TGTGCCAATCCATTTCTCTATGCTATTTTCACGAAAGCCTTCCAGAGGGATGTATTTATCCTGCTCAGCAAGTTTGGCAT
+CTGTAAACGCCAGGCTCAGGCATACCGGGGCCAGAGGGTTTCTCCAAAGAATAGTGCTGGTATTCAGATCCAAAAGGTTA
+CCCGGGACATGAGGCAAAGTCTCCCCAACATGCAGGATGAGTATGAACTGCTTGAAAACTCCCATCTAACCCCAAATAAG
+CAGGGCCAAATCTCAAAAGAGTATAACCAAACAGTTCTGTAAGCAGACCCTATACTACTCGCAGTGGCAGGTGGACTTCT
+AAAAATCTAGTTTCTTGAACACGTATTCCAAATTCATTATATACACAAGACAGCTGACCTAACCCTTTGCAGGTGATGTT
+TCATGGGGCAAATTTCATCTCCAAAAAGGGGGTAGCACTACCACCTAATCATTACCTCCCAGAAGGAAGAGAGGCTACCA
+GCACTTCTGAACCCTGGTGATATCAAGATAACTGACACTTTCTAGAAAACTTGTTTGATGCTAACTGCTTTAACAACATT
+GTATAAGATGTCCAACAGATATTAACTGAACCAGGTCAACATTGAGCTTCTCACTTTCAAATAGCATTTCATAGTAAAGA
+TTCAGCAAATGGCAAATGCTATTAACTGAGTTGGTGACCACAAGATAGAATTAGCCCCATGTTGGCTTGGTCCACCTTCA
+TGTTCTTGGATACAACCAAAGAGAATGTGAATTCCTCGAAACTGAAAAGTCCAGCAGGATACATGCATGAAGCAGCTATT
+ATGAGGTGGAAGGAGGGGAAAGGCTTAGCTTAGTTGTTATTTCAGCCTCTGAAACTATATCATCTCTTCACAAGGACCTA
+CCTGATGTGACCCAACTGTTAGGTGTTGCCCAGGGGGGGAAAAAAACTGGCAAGATTTCAGCTTATGTGGCTGAGCAAAG
+TAAGAATTGTTCTTCTTGGCTAGTCTTATAGCATAAAATACGTGAACCCTAGAAATATTTCTAAGTAGCAGCAAGTGGGA
+ATTATGAGCAGGGCACACTAAATCACACACTGATTAATAAAGCAGGGCCACAAGGTAACTGTTGGAGCTTGGGCAAATCA
+CTGGGCCACTTCTAAGTCTAGAAATGAGAGAGCCTGATTGCTTCTTCAGTTTCAAAACTCTATGTATATCCCTTCCCCTT
+AAAATATGTTTCCATGACAAAAAAGAAAAGCACTAAAAAAGAAAAGAAAAGAAAAGAAAAGCACTAAGAAAGAAAAATTT
+ATTTTTCCTATCTTGTAGTGCAGCCACCTCTTTCTCTTTGGAGGCTGGATATATGACCCAGGACATTTCTTTCTTTTTTT
+TATTTTTTTTTTCATTTTTGATTATAATGTCTGATCCATGTTGGGCTGGATCTAAATCACTCAACTAATTACTAGATCTC
+TACAGCTACAATTATCAGGCCAAAAACAGACTCATATTCACATAACAGAATAAAAGGTGGTTTTGCAAATTTTGGTTATT
+CAGAGTTACTACTTCACTGTATAGATTAACTTGAAAACATTTAACTTGTCCAGGGATTGGAAGCTATCAAACACTCAGGC
+AAAGCAACACTAAAGCTATCAAGAGAAGTTTCTTCTCTCCAAAACTGCTAGCCTTTTCCAACCTGTTGATCATTGGACAT
+AATCTCTATTGCCCAATAGTGTTCTCTTACTTAAAATGGTTAGGATCAATCTTTTAATATAGACGTACTCTTCAGATTAC
+CTGTCAAAACAGTCCCTTAATTTCCTCCCAAGCAGAGATGGCATTTGCTTCTCAATGTTCATGAAGCACACCAAGGAATT
+AGAAGCATTTGTTGTTTCAAGTCTGTGGAGTAGGGTTACTGGGCCCAATGCCCCCCCCCCCACAGAGATGGTCCCCCAAC
+CCACCTAGGATATCCCAATAGCAATACCCATTTCTGATTATCATTGAGATTGGACATCTTAGTAGAAATATTATACACAC
+TCGAAATCATGACTTATCCACCAGTTCACTTGTAACTAATAACTAAACAGTTGTGTTATCGTTTGGCATGTGTTTCTCAC
+CTGTGACATTTTGAAATAGTACATCCTGATAATGTATTTTATCTTAAGTAGTTGAAATAACACTTTGGAAACCGTCCTAG
+AAAAGTAACTTCAACACAATTGTTACTAAAATTTGCATTCACAACATGAAATAAATTTTCTTCCTATGAAATGATTGTGC
+TGAGTCCTACAGTATGGCATTTTGTAATTTGTGAGCTTCTTTTAATGTTACCGTTATATGTGTTACAACTGAAGACAGGG
+AAAAAAAACAACTGGCAAATTTGCTAA
+>ref|ref|X55317.1|| C.domesticus gene for proteolipid protein
+AGAGGACCGAAGAAGGAGACTGGAGAGACCAGGATCCTTCCAGCTGAACAAAGTCAGCAGCAAAGCAGACTAGCCAGCTG
+GCTACAATTGGAGTCAGAGTTCCAAAGACATGGGCTTGTTAGAGTGCTGTGCAAGATGTCTTGTAGGGGCCCCCTTTGCT
+TCCTTGGTGGCCACTGGATTATGTTTCTTTGGGGTGGCACTGTTCTGTGGCTGTGGACATGAAGCATTAACTGGTACAGA
+AAAGCTAATTGAGACCTATTTCTCCAAAAACTACCAGGACTATGAGTATCTCATCAATGTGATCCATGCCTTCCAGTATG
+TCATCTATGGAACTGCCTCTTTCTTCTTCCTTTATGGGGCCCTCCTGCTGGCTGAGGGCTTCTACACCACCGGTGCAGTC
+AGGCAGATCTTTGGCGACTACAAGACCACCATCTGCGGCAAGGGCCTGAGCGCAACGGTAACAGGGGGCCAGAAGGGGAG
+GGGTTCCAGAGGCCAACATCAAGCTCATTCTTTGGAGCGGGTGTGTCATTGTTTGGGAAAATGGCTAGGACATCCCGACA
+AGTTTGTGGGCATCACCTATGCCTTGACCATTGTGTGGCTCCTGGTGTTTGCCTGCTCTGCTGTGCCTGTGTACATTTAC
+TTCAATACCTGGACCACCTGCCAGTCAATTGCCTTCCCCAGCAAGACTTCTGCCAGTATAGGCAGTCTCTGTGCTGATGC
+CAGAATGTATGGTGTTCTCCCATGGAATGCTTTCCCAGGCAAAGTGTGTGGCTCCAACCTTCTGTCCATCTGCAAAACAG
+CTGAGTTCCAAATGACGTTCCACCTGTTTATTGCTGCATTCGTGGGGGCTGCAGCCACACTGGTTTCCCTGCTCACCTTC
+ATGATTGCTGCCACTTACAACTTTGCCGTCCTTAAACTCATGGGCCGAGGCACCAAGTTCTGATCTCCTGTAGAAATGTC
+CCTTTCTCTAATAGCGAGGCTCTAACCACACAGCCTACAATGCTGCGTCTCCCATGTTAACTCTTTGCCTTTGCCATCTA
+TTGGCCCTTTCTTACTTGACGAGTGTAACAAGAAAGGAGAGTCTTGTGGTGATTAATGTCTCTCTGTGGACTCTCCCCCT
+TACATACCTCTTTTAGTCATTTTGCTTCACAGCTGGTTCCTGCTAGAAATGGG
+>ref|ref|Z18635.1|| C.eutropia gene for large subunit rRNA
+AGTATTAGAGGCACTGCCTGCCCAGTGACAATGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCACTT
+GTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCTCC
+CCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAATA
+ATACCACCAAGGGATAACAAAGCTTTACATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCCTCCGA
+GTGATTAAAACTTAGGCCTACCAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTACCC
+TAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCT
+AATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18634.1|| C.eutropia gene for small subunit rRNA
U13082.1 Cephalorhynchus eutropia mitochondrion 12S rRNA gene, partial sequence
+CCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACCACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCATAAACTTACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|ref|X59998.1|| C.familiaris mRNA for amylin
+CCTCTGATATACTGACACTGAAACATTAAAAGTAAATTTGAGAAACAATGTGTCTCCTGAAGCTGCCAGTAGTTCTCATC
+ATACTCTCGGTTGCATTAAACCATCTGAAGGCTACTCCCATTAAAAGTCACCAGATGGAAAAGCGGAAATGCAACACTGC
+CACGTGTGCGACTCAACGCCTGGCAAATTTCTTGGTTCGTACTAGCAATAATCTTGGTGCCATTCTCTCGCCTACCAATG
+TGGGATCCAATACATATGGCAAGAGAAACACAATTGAGATTTTAAACAGGGGACCATTGAATTACTTACCACTTTAGAGG
+TCAACGCACCCCTATCATTCTTACTTTCATGTATAAAAATATTCTAGTGATTTCTTGTGTAAGTTAACATTAGCATGAAC
+ATAAGTTTTTATGTACTATGTTTGTTAGTAGTACATATAAATTGTTATGGTAAGAATTGTTTTAACTTTAATGCTAATTA
+AGACCCCATCATAAAAAGTCAATGTCTTTAAAAATGAAATGTTCTTGCTATAGATATTTATTTTGAAAACATATTAAAAA
+GTCATTCTTTTGCCTATATCTTTATGATCTGAGTTTGAGAACAAAAGAGAAAATAGTATTTGGAAACTTGGTAAATTGTA
+AACAGCGGAGAGTGAAGTTAAGCACATTAAAAAGGGCATTGAGGACCGCAGGTGAGGAGAGCTTGATGAGCATGATGTCA
+TTGTCCAGGATCCAGCTGTTATAGTTGGGATGGCGGATGACCTTGGCGGAGTTGATGAACTGCTACAAGTCCCGCATCCA
+AGTGAGACTCGGAGAGTACAACATCGATGTCCTGGAGGGGAATGAGCAGTTCATCAACTCCGCCAAGGTCAT
+>ref|ref|X05297.1|| Dog kidney mRNA for (Na+/K+)-ATPase beta-subunit
+GGTTGTGTAGTCCGTAAGTGTCAACTTTTGAAACTGTCCTTTCACTTCACACGGAAGCCCAGCGATGCTCTGATAGTAGC
+TTATGAACCAGCCTTATGCTGGTGGGAGGTTTTTTTGTTTTTGTTTTTGTTTTTTGTTTTTTTTGGTAGCCCATCCACAC
+ATGCTATTAACTCTGATTTTCATTGAGCATCTAAAGTATAAGATCTAAGATGTTTCATGCAAAGATAGTCTTATTAACGT
+TTTTTGGTTTGACACTCTTCCCCCAAGGTGGTGTGGTGTTCAGGCACCTGCCGTAGTAGGGGTAATATTGCAGAGGAAAG
+CCCGGGTAGCCGCCCAGGCCAAAATACTCCACGTTCCCAATTCTATCCTTGTCTTCGTCTCGCTTGCCAGTGCACTGAAC
+CGGCAGGACGTAAGGACTGTATTTCATCACTGGGTAAGCCTCCAGGGACTCATTCTTGGGAGGCTTAGGTTTGAAGCCCA
+GAACTCGGAGAGCCGCAGCGGCCGCGGCGGGTGCAGCCTGCGGAGAGCGGGGCGCGGGCCGCCGACCAGCAGCCGGGAGG
+ACGCGAGGCGCGCGCCGCACTCACCCACCCTCAGCCCCCGCGGCAGCCGCTGACCCGCCACCATGGCCCGCGGAAAAGCC
+AAGGAGGAGGGCAGCTGGAAGAAATTCATCTGGAACTCGGAGAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTT
+TAAGATCCTTCTGTTCTACGTGATATTTTACGGCTGCTTGGCTGGGATCTTCATTGGGACCATTCAAGTGATGCTGCTCA
+CCATCAGCGAATTCAAGCCCACATACCAGGACCGTGTGGCCCCACCAGGATTAACACAGATTCCTCAGATCCAAAAGACT
+GAAATTTCCTTTCGCCCTAACGATCCCAAGAGCTATGAGGAATATGTGCGCAACATAGTCAGGTTCCTGGAGAAGTACAA
+AGATTCAGCCCAGAAGGATGAAATGATTTTTGAAGATTGTGGCAATATGCCCAGCGAAATCAAAGAACGAGGAGAATTTA
+ACAATGAACGAGGAGAGCGGAAAGTCTGCAGGTTCAAGCTTGAGTGGTTGGGCAATTGCTCCGGAATCAACGATGAGACT
+TATGGCTACAGAGACGGCAAACCGTGTGTCCTAATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAA
+TGAGTCCCTGGAGGCTTACCCAGTGATGAAATACAGTCCTTACGTCCTGCCGGTTCAGTGCACTGGCAAGCGAGACGAAG
+ACAAGGATAGAATTGGGAACGTGGAGTATTTTGGCCTGGGCGGCTACCCGGGCTTTCCTCTGCAATATTACCCCTACTAC
+GGCAAGTTGCTCCAGCCCAAGTATCTGCAGCCCCTGCTCGCCGTGCAGTTCACCAACCTCACCATGGACACTGAAATTCG
+CATCGAGTGTAAGGCTTACGGGGAGAACATTGGTTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTG
+AAGTTAAGAGCTGATCACAAGCACAAATCTTTCCCACTAGCCATTTAAAAAAAGTTAAAAAAAAGATACAAAAAACAAAA
+ACCTACTAGTCTTGGAATAAACTGTCATACGTATGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTT
+AATAGGTTAGAATGTAAATTTAAAGTGTAGCAATAGCAAGAAAATATTTATTCTACTGTAAATGAC
+>ref|ref|X64964.1|| C.familiaris mRNA DOPCRH01 for olfactory receptor
+TGTCTGTAACCCTCTAAGGTATCCAGTCCTGATGAACCGCAGGGTGTGTCTCCTGCTGGCTGCTGGTGCCTGGTTTGGTG
+GGTCCCTGGATGGCTTTCTGCTCACCCCCATCACCATGAATGTCCCTTACTGTGGCTCCCACAGTATCAACCATTTTTTC
+TGTGAGATCCCTGCAGTTCTCAGACTAGCCTGTGCTGACACATCCTTGTATGAAACCCTAATGTACATCTGCTGTGTACT
+CATGTTACTCATCCCTATCTCTATCATCTCAACCTCCTACTCTCTCATCTTGTTAACTGTCCACCGAATGCGCTCTGCTG
+AAGGCCGGAAAAAAGCTT
+>ref|ref|X64965.1|| C.familiaris mRNA DOPCRH02 for olfactory receptor
+CATCTGTAACCCTCTGCGCTACACAGAGCTCATGGGACACCGGGTGTGTGTGGGACTCGTGGCCACTGCCTGTGCCTGTG
+GCTTGACTATTGCACAGATTATCACCTCCCTGGTGTTTTACCTGCCGTTCCGCTCCTCCAACCAGCTCCATCACTACTTC
+TGCGACATCCCTCCTGTCCTCAAAGTGGCATCTCAACATACCCACTTGAGTCAGATTGTCATTATCATGCTCTGTGCATT
+GGTCCTGGTTATCCCTCTGCTACTGATTTTGGTATCCTATATTCACATCATCTCTGCCATCATCCAATTTCCTTCCACAT
+TAGGCAGATACAAAGCTT
+>ref|ref|X64966.1|| C.familiaris mRNA DOPCRH07 for olfactory receptor
+CATTTGCAAGCCCCTGCATTACTTGACCATCATGAACCTGAAGACTTGCTCCTTCCTGGTCACTACCTGCTTCACTTTGG
+CCTTCACTCTCATCACTGGTTTGGTAGTGAAAGTTTCCCAGTTATCCTTCTGTGGCCCCTATGTCATCCCTCACTTTTTC
+TGTGACATTGGCCCCCTGATTCATCTTTCCTGTTCTGACACTAAACCTACTGAAATGTTGGCTTTTGTCCTCGCTTTGTT
+TATCCTTTTGACATCCCTTATCATAACCATCATTGCCTACAGCAACATAATAGTCACAATTGTACAACTCCCATCAGCTA
+GGGAACGACAGAAAGCTT
+>ref|ref|X64967.1|| C.familiaris mRNA DOPCRX01 for olfactory receptor
+TGTTTGCCACCCACTGAGGTACCCCGTTCTCATGAGCTGGCAATTATGCCTGAGAATGACCGTGGGGTCCTGGTCCCTGG
+GGGCAGCTGATGGGCTCATGCAGGCTGCTGCCACCCTGAGTTTTCCATTCTGTGGTGCACATGAGATCAATCATTTCTTC
+TGTGAGGCCCCCACTCTGGTGCGTTTGGCTTGTGCTGACACGTTTGTTTTTGAGTATGTCATGTATATCTGCTGTGTATT
+AATGCTGCTGGTTCCGTTTTCTCTCATCCTGATTTCCTATAGTCTCATCCTTGCTGCAGTTCTCCAGATGCATTCTAGAG
+AAGCCCGCAAGAAAGCTT
+>ref|ref|X64968.1|| C.familiaris mRNA DOPCRX04 for olfactory receptor
+TATTTGCTTTCCTCTTCACTATCCCATTCGTATGAGCAAAAAAGTATGCATGCTGATGATAACAGGATCTTGGATAATGG
+GCTCAGTCAATGCTTGTGCCCACACTGTATACGCCTTCCATATACCTTACTGTCGATCCAGGAACATCAACCATTTCTTC
+TGTGATGTCCCAGCCATGTTGACTTTAGCCTGCATGGACACCTGGGTCTATGAGTACACAGTGTTTGTGAGCACCATCCT
+CTTCCTTGCATTTCCATTCATTGGCATTGTGTGTTCCTATGGCCGGGTCCTCCTAGCTATCTGCCACATGCAGTCCACAG
+AAGGGAGGAAGAAGGCCTATTCC
+>ref|ref|X64969.1|| C.familiaris mRNA DOPCRX07 for olfactory receptor
+CATTTGTCAACCTCTACACTACATGGCCATCATGAACACCAGGCTCTGTGGACTGCTGGTTCTGGTATCCTGGACCACGA
+GTGTCTTGCATTCCTTGTTACAAACCTCAATGGTGTTGCGGCTGTCCTTCTGTACAGAGGTGGAAATCCCCCACTTTTTC
+TGTGAACTCAATCAAATGATCCAACTTGCCTGTTCTGACACCTTTCTTAATAATGTGGTAATGTATTTTGCAGCTATGTT
+GCTGGCTGGTGGTCCCCTCACTGGGATCCTTTACTCGTATTCTAAGATTGTTTCCTCCATTTGTAGAATCTCATCAGCTC
+AGGGCAAGTATAAAGCTT
+>ref|ref|X64970.1|| C.familiaris mRNA DOPCRX09 for olfactory receptor
+CATATGCAAACCATTACTTTATCCAGTGATTATGTCTAATACACTGTGCATCCGGCTGTTAGTTTTGTCACTTTTAGGTG
+GACTTCTCCATGCCATAATTCATAGTTCTTTTTTATTCAGATTAACCTTCTGTGATTCCATCATAGTACATCACTTTTAT
+TGTGACATTATACCCCTGCTTAAGATCACCTGTACTGACCCTTCTATTAATTATCTGATAGTATTTATTTTTGCTGGGTC
+AATACAGATGTTCACCATTCTGATAGTTCTTGTCTCCTACACACTAGTGCTCTTCACAATATTAAGAAAGAAGTCTCTAC
+AAGGCATAAAGAAAGCCTTCTCC
+>ref|ref|X64971.1|| C.familiaris mRNA DOPCRX16 for olfactory receptor
+CATATGCAAACCATTAACTTATCCAGTGATTATGTCCAATACACTCTGCATCCGGCTGATACTTTTGTCATTTTTAGGAG
+GACTTCTTCATGCCATAATTCACAGTTCTTTTTTATTCAGATTAACCTTCTGCAATTCTATCATAGTACATCATTTTTAC
+TGTGATATTATACCATTGTTTAAGATCTCCTGTACTGATCCTTCTATTAATTATCTGATGGTATTTATTTTCTCTGGGTC
+AATACAAGTCTTCACCATTTTGACTGTTCTTGTCTCCTACACACTAGTGCTCTTTACAATATTAAGAAAGAAGTCGCTGC
+AAGGCATAAAAAAAGCCTTCTCC
+>ref|ref|X64996.1|| C.familiaris DTMT gene for olfactory receptor
+GAGCTCTCAGGTGTATGACTTGTGCCTGAGTTTCTTTTACTGATATGTGAGAGATTTGGAGGCACAGATTGGGAGAGGGG
+CAGGGTGAGGGTGAGTTCATGAGCTTCTTTTAGGATTTTCTGAGCTTAAAATACATGTGCTAAGTCTAAAGAAGATAATC
+ATTAAGCAATTACATACACAGTTTTATAGATTAGATAGTCATCTACATCTGACATTTAAATGGTAGTGCAGTCTTTTGGA
+GTAGGTGAGTTTTTCTTTGTGGTATATGTAGCATTATAAGAGAACAGTGTCTAAGAAAAAGCCATGGAACGTCAACATGA
+AGAGACTGACAAAACAGAAAGTAATTAGAGTTAGTGAGGATGTCTGGTCAGTTAGGTATGAGAAAAACCCAATATATATG
+TATCTCAGAGGTAATAGGAGTATTTTATAAAAGGTGGAATATTGATAAAGAGAAGTGAAGAAAAGTCATTTCTGATCATA
+GAGATTCTGATCTTAGAATTTTGGATATAAATGGTAATTATTGTGATGAGAGTGATACCAAGTAACTTTACAGAACACTT
+AACAGATCATGTATCATAGAAATATGTTTATTTTTAAATTCAGGTTTAATGGACACTGTAATTTCTTCTTAAAGATACTG
+AAGACAAAGCATGACAGAAAAGAATCAAACTGTCGTCTCAGAATTTGTCCTCCTTGGCCTGCCCATTGATCCAGATCAGC
+GAGACCTGTTCTACGCCCTGTTCCTGGCCATGTATGTTACCACAATCCTGGGGAACCTACTCATCATTGTCCTCATTCAG
+CTGGACTCGCACCTCCACACACCCATGTATTTGTTTCTCAGCAATTTATCCTTCTCTGACCTCTGCTTCTCTTCTGTCAC
+AATGCCCAAGTTGCTGCAGAACATGCAGAGCCAAGTCCCGTCCATCCCCTATGCTGGCTGCCTGACCCAAATGTACTTCT
+TCCTGTTTTTTGGAGATCTGGAGAGCTTCCTCCTGGTGGCCATGGCCTATGACCGCTATGTGGCCATCTGCTTCCCCCTA
+CACTACACCACCATCATGAGCCCCAAGCTCTGTTTCTCCCTGTTGGTGCTGTCATGGGTGCTGACCATGTTCCATGCTGT
+ATTACACACTCTGTTAATGGCCAGATTGTGTTTTTGTGCCAACACAATCCCCCACTTTTTTTGTGATATGTCTGCTCTGC
+TGAAGCTGGCCTGCTCTGACACTCAAGTTAATGAGTTGGTGATATTTATCATGGGAGGGCTCATTCTCGTGATCCCATTC
+CTGCTCATCATCACGTCTTATGCACGGATTGTGTCCTCCATCCTCAAGGTTCCTTCTGCCATAGGCATCTGCAAGGTCTT
+CTCCACCTGTGGCTCCCACCTCTCAGTGGTGTCTCTCTTCTATGGGACAGTTATTGGTCTCTATTTATGCCCATCAGCTA
+ATAATTCTACTGTTAAGGAGACTATCATGGCTATGATGTACACTGTGGTCACCCCCATGCTGAACCCCTTCATCTACAGC
+CTGAGGAATAAAGACATGAAGGGAGCCCTGAGAAGAGTCATTTGTAGAAAGAAAATTACCTTCTCTGTGTGATGGTAACA
+TTTGATACTTTTACATATTTCTATCTAGGAGATATAATAATATTGGAATACTATTCCAGATGTTTTCTCTTACCCATGGA
+AAGCCTGTAAAAATGGTACGGTAAATAATTATT
+>ref|ref|X64972.1|| C.familiaris mRNA DTPCRH02 for olfactory receptor
+TATTTGCCATCCTCTCCGATACAAGGTCATCATGAGCCGCTGGATGTGTCTCCTCATGGTGGGCATCTGTGGAGTTTATG
+GCGTGGTGGGTAGCCTGTGCTACACTTTCTTTGCGATGCGCCTGCCCTACTGTGGCCCTAATGAAATTGACCACTACTTC
+TGTGAGGTCCCTGCCGTCCTGAAGCTGGCCTGTGCAGACACATCCCTCAATGACTTGGTGGACTTCATCACGGGCTTCAA
+TGTCATTGTGGTCCCACTGACCCTGGTTGTCATTGTCTATGCCAACATCTTTGCCACCATCATGAAGATCCGCTCAGCCC
+AGGGACAGATCAAAGCCTTCTCC
+>ref|ref|X64973.1|| C.familiaris mRNA DTPCRH09 for olfactory receptor
+CATTGTCAACTCTTTGCTTTACAGTGCAGCCATGTCTAAGAGAACATGTGTAGGGTTGGTCATTGGGTCATTCATAGGTG
+GAATGATTAACTCATTGACACACACAGTAAGTTTAGGCAGACTGTCCTTCTGTGGGTCCAATGTTGTCAGCCACTTCTTC
+TGTGATATTCCCTCACTCCTAAAGCTATCATGTTCTGATACTACCATGAATGAATTGTTGCTCTTAACTTTCTCTGGAGT
+CATTGCCATGGCCACCTTCTTGATTGTGATCATTTCCTACGTGTTTATTGCTGTTGCTATTCTGAGGATCCGCTCAGCAA
+CAGGCAGACAGAAAGCCTTCTCC
+>ref|ref|X14610.1|| Canis familiaris partial gene for endothelin
+CACAGGCTTCTATGTGCTCCTCATGATCCCAGGGGAACATGCCCTGCTGACCTGCTCTTTCTCTCCCCAGCGGTCCTGGG
+TGCGGAGCTCAGCACAGGCCCGGACAGCAGGGGGGAGAAGCCTGCTCCCAGTGCACCCTGGCGGCCCCGCCGATCCAAGC
+GCTGCTCCTGCTCTTCCCTGATGGATAAAGAGTGTGTCTACTTCTGCCACCTTGACATCATCTGGGTCAACACTCCTGAG
+TAAGTCCCTAGAGGGCGTCGTAACTCTATTCCTTACCTCTGGCTTCCCCAGACTCTGGAGCCCAGTGACTCTAGCTGCTT
+TTAGGGGAGCTC
+>ref|ref|X14048.1|| Canis familiaris RDC1 mRNA for G protein-coupled receptor
+CGAGGCGGGGAGCCGAGGCCGCCGCCAGCGCGCAGGGAGCCCCGAGCCCGAGCCCCGCCGCGAGGCCGTTCGCCGGCTGC
+CCGCAGCACCATGGATCTGCACCTCTTCGACTACGCCGAGCCAGGCAACTTCTCCGACATAAGCTGGCCGTGCAACAGCA
+GCGACTGCATCGTCGTGGACACCGTGCTGTGCCCCAACATGCCCAACAAAAGCGTGCTGCTGTACACGCTGTCCTTCATT
+TACATCTTCATCTTCGTGATCGGCATGATCGCCAACTCCGTGGTGGTCTGGGTGAACATCCAGGCCAAGACCACCGGCTA
+CGACACTCACTGCTACATCCTCAACCTGGCCATCGCCGACCTGTGGGTGGTCGTCACCATCCCCGTCTGGGTGGTCAGCC
+TCGTGCAGCATAACCAGTGGCCCATGGGGGAGCTCACGTGCAAGATCACGCACCTCATCTTCTCCATCAACCTGTTCGGC
+AGCATCTTCTTCCTCACGTGCATGAGCGTGGACCGCTACCTCTCCATCACCTACTTCGCCAGCACGTCGAGCCGCAGGAA
+GAAGGTGGTTCGCCGCGCCGTCTGTGTCCTGGTGTGGCTGCTGGCCTTCTGCGTGTCCCTGCCCGACACCTACTACCTGA
+AGACCGTCACGTCGGCGTCCAACAACGAGACCTACTGCCGCTCCTTCTACCCCGAGCACAGCGTCAAGGAGTGGCTCATC
+AGCATGGAGCTGGTCTCGGTGGTCCTGGGCTTCGCCATCCCCTTCTGCGTCATCGCCGTCTTCTACTGCCTGCTGGCCCG
+CGCCATCTCCGCGTCCAGCGACCAGGAGAAGCAGAGCAGCCGAAAGATCATCTTCTCCTACGTGGTGGTCTTCCTCGTGT
+GCTGGCTCCCCTACCACGTGGTGGTGCTCCTGGACATCTTCTCCATCCTTCACTACATCCCCTTCACCTGCCAGCTGGAG
+AACTTCCTCTTCACGGCTCTGCACGTCACGCAGTGCCTGTCTCTGGTGCACTGCTGCGTCAACCCCGTGCTCTATAGCTT
+CATCAACCGTAACTACAGATACGAGCTGATGAAGGCCTTCATCTTTAAGTACTCGGCCAAGACGGGTCTCACCAAGCTCA
+TCGATGCCTCCAGGGTGTCGGAGACGGAGTACTCCGCCTTGGAGCAAAACGCCAAGTGACAGGCCCCGCGGGGCCTCGGG
+GACAAGCGTGCGCGCTTCCTACACGGCGCTGGGTTGCATCGTCTCCAAGAGTTCAAGCAAGGCGCCTTGGGGCTTGAGGC
+CTGAGTCGCGTGAAGTGGGGAAGCAGGTGCCACCGTGGGCCCTTCTCCTCTTTGTCCGGCTGCCGGGGTGGCTGTCACGG
+GGCCGTCGTGCCTGCAGGCGTGGGCCGTGCTGCGTGACCCTACTACTTACTCGTCCAAGCCGGTTGCCGGCGGGCTCGCC
+TGCACTTCTGTAAAATAGGACTTTCTGTGTTCCCTGGAGGTTTTACTTGGTGACTTGTATTTAAGTTTTAAGACTTTATT
+TTCTCATTATCGGCGTACCTTATAAATGTACTTGAAAGTTTAAATATATTTTATAAAAATCGTATGGGCGCTGTCACATA
+CGATACATATACATACGCTGACATATATTCAGAGCGTTGTAGTTTTAACTAGTTTGATTTCAGTTTTGACTAAGGATGAC
+ATTAATTGTTAGCTGTTTTGAAATTTTATATATATATATAAATATAAATATAAATATATAAATATATAAATATATGCCGG
+TCTGGGCTGAAATGTTTTATTTACGATAGTTTTATATCTGTGTGGTGCTTTGCTACCTGCATGGGATATGGGACAAGAAG
+GACGCTGTAAAGCAGTTTGTGATATTAATTGTATCGTAAAGTTACATTAAAAATGCGAAACGAAGCGGAACCTCTCCAGG
+CTGCAGCGCCGCGCACAAAGTTTTGAACAGTCTTATTTCGGAGAGTTCTCTCAATTTGTAAGTTATTTTTCTTTTTTTTT
+TTTTTTAATAAAGATTTGTTTTTCCTAAAAAAGGCAAAAAAAAAAAAAAAA
+>ref|ref|X14050.1|| Canis familiaris RDC5 mRNA for G protein-coupled receptor
+CCGTGCTGCCCTTCTCGGCGGCCCTGGAGGTGCTCGGCTACTGGGTGCTGGGACGGATCTTCTGTGACATCTGGGCCGCC
+GTGGACGTCCTGTGCTGCACGGCCTCCATCCTGAGCCTGTGCGCCATCTCCATCGACCGCTACATCGGGGTGCGCTACTC
+GCTGCAGTACCCCACGCTGGTCACCCGCAGGAAGGCCATCCTGGCGCTCCTCGGCGTCTGGGTCTTGTCTACGGTCATCT
+CCATCGGGCCTCTCCTTGGGTGGAAGGAGCCCGCGCCCAACGATGACAAGGAATGCGGGGTCACCGAGGAACCCTTCTAC
+GCCCTCTTCTCTTCCCTGGGCTCCTTCTACATCCCGCTGGCGGTCATTCTGGTCATGTACTGTCGCGTGTACATCGTCGC
+CAAGAGGACCACCAAGAACCTGGAAGCCGGAGTCATGAAAGAGATGTCTAACTCCAAGGAGCTGACTCTGAGGATCCACT
+CCAAGAACTTCCACGAGGACACCCTCAGCAGTACCAAGGCCAAGGGCCACAACCCCAGGAGTTCCATAGCCGTCAAACTT
+TTTAAGTTCTCCAGGGAGAAGAAAGCAGCCAAGACCTTGGGCATTGTGGTCGGTATGTTCATCTTGTGCTGGCTACCCTT
+CTTCATTGCTCTACCGCTTGGCTCCCTGTTCTCCACCCTGAAGCCCCCCGACGCCGTGTTCAAGGTGGTGTTCTGGCTGG
+GCTACTTCAACAGCTGCCTCAACCCCATCATCTACCCGTGCTCCAGCAAGGAGTTCAAGCGCGCCTTCGTGCGCATCCTC
+GGCTGCCAGTGTCGCGGCCGCCGCCGCCGCCGCCGCCGCCGTCGCCTGGGCGGCTGCGCCTACACCTACCGGCCGTGGAC
+GCGCGGCGGCTCGCTGGAGCGCTCGCAGTCGCGCAAGGACTCGCTGGACGACAGCGGCAGCTGCCTGAGCGGCAGCCAGC
+GGACCCTCCCGTCGGCCTCGCCGAGCCCCGGCTACCTGGGCCGCGCCGCGCCGCCGCCCGTCGAGCTGTGCGCCGTCCCC
+GAGTGGAAGGCGCCGGGCGCGCTGCTGAGCCTGCCCGCGCCCCAGCCCCCCGGCCGCCGCGGCCGCCGGGACTCGGGCCC
+GCTCTTCACCTTCAGGCTCCTGGCGGAGCGCGGGAGCCCCGCGGCCGGAGACGGGGCCTGCCGGCCCGCGCCCGACGCGG
+CCAACGGGCAGCCCGGCTTCAAGACCAACATGCCCCTGGCGCCCGGGCAGTTTTAGGGGGGCCTGCGGGGGGGAGGGGGG
+CGAAACCACCGTGGGGGGAGGGCGGGCGAGGGGGGAGGGCGGCGGCGCCCGGGGGAGGCGGGGGGGCGGGGGGCAGCTGC
+TTTGCTGGCAGGGGCATGGGTGCCAGGTACAGCGGAGGGCTGGGCGAGCATGCCGAGAGCCTGGGGCCCCGACGCCGGCC
+GGGATGTCCGTCTGTCTCTCTGTACATATCCAAACGAGTCCCTGTGTGCACGTATTTAACCGTGGGTACACGTGCGTGTG
+TCTGTGCGGTGTCCGTGTGGTCTGCGTGCGCGCGTGGGTGCGGCCACCGGGGGGGGGGCAGCGGGGGCGCCGTCGGCCCG
+GGACCTCGCGCCCCTCCAGCCGCTCCCCGGCCCTCCCCGAGTGGCGGATGGCCCTGGGCCCGGGTCGGAAACAAATCGGA
+CATTAAAGGTCGTTG
+>ref|ref|NM_001003279.1|| Canis lupus familiaris adenosine A1 receptor (ADORA1), mRNA
X14051.1 Canis familiaris RDC7 mRNA for G protein-coupled receptor
+CCTCCCACCCGGGCTTCCCACCACAGGTACCTGTCCCCGAACCCTCCGCGCCCACCTGCTGATGTGCCCGGCCCGCGCCT
+GCCATGCCGCCCGCCATCTCGGCCTTCCAGGCCGCCTACATTGGCATCGAGGTGCTCATCGCCCTGGTCTCTGTGCCCGG
+GAACGTGCTGGTGATCTGGGCAGTGAAGGTGAACCAGGCGCTGCGGGATGCCACCTTCTGCTTCATCGTGTCGCTGGCGG
+TGGCTGACGTGGCGGTGGGCGCCCTGGTCATCCCGCTGGCCATCCTCATCAATATCGGGCCAAGGACCTACTTCCACACC
+TGCCTCATGGTCGCCTGCCCTGTCCTCATCCTCACCCAGAGCTCCATCCTGGCCCTGCTGGCGATTGCCGTGGACCGCTA
+CCTCCGCGTCAAGATCCCACTCCGGTACAAGACGGTGGTGACTCCGCGGAGGGCGGCGGTGGCCATCGCCGGCTGCTGGA
+TCCTGTCCTTCGTGGTGGGCCTGACCCCGCTGTTCGGCTGGAACAGGCTGGGGGAGGCGCAGCGGGCCTGGGCGGCCAAC
+GGCAGCGGCGGCGAGCCCGTGATCAAATGCGAGTTCGAGAAGGTCATCAGCATGGAGTACATGGTCTACTTCAACTTCTT
+CGTGTGGGTGCTGCCCCCGCTGCTGCTCATGGTCCTCATCTACCTGGAGGTCTTCTATCTGATCCGGAGGCAGCTCGGCA
+AGAAGGTGTCGGCCTCCTCTGGCGACCCGCAGAAGTACTACGGGAAGGAGCTGAAGATCGCCAAGTCGCTGGCCCTCATC
+CTCTTCCTCTTCGCCCTCAGCTGGCTGCCCTTGCACATCCTCAACTGCATCACCCTCTTCTGCCCCTCCTGCCGGAAGCC
+CAGCATCCTCATGTACATCGCCATCTTCCTCACGCACGGCAACTCGGCCATGAACCCCATCGTCTACGCCTTCCGCATCC
+AGAAGTTCCGGGTCACCTTCCTTAAGATCTGGAATGACCACTTCCGCTGCCAGCCCACGCCCCCCGTCGACGAGGACCCC
+CCAGAGGAGGCGCCCCACGACTAGACGCCACCTTCTCCCGCCTGCCCACGTCGGGGGCGTCTCCGCCCCGGCCCACCCCC
+CCACTGACCCACTCCTGAGCCCTCCCGGCTGGGCTGCGGGGTGTGGGCGCCTGCACCTTGGGTCCTAGAGGAGGTTTGGG
+AGGACGGCCCACGGCGAAGGAACCGGGTGCCCTGAGGAGACGGAGAAAGTGGCTCGAGCCTCCCCAGCTGTGTGACCGGC
+CCACGGGCAGCCCGGTGCTTCAGGCCAGACGGACCTGGGGACACTGGGGCTGCGGGGGTCCCGTGGGGCCCGGAAGGCAA
+GCTTGGGCTCCCGTGGAGGTCAGGGAGCCGCTTGTCGCTGGTGCTGCTGCTGAAGCCCTGGAACAGAGCCCGAGGACGGG
+GGAGGTCCCCTCCGAGATGCAGGGGATGGAGAGAAGCTGGACATCAAGGTCTTGCTTCCTCTCCTGTTCTGTAGAAGGTG
+GGAGAGCCCCTGGGCAGGAATCAGGGGTCCTCAGCCCCTGCCTCCCGGGACCCTGAGCTCCTAGCCACGCTGGGTGCCGG
+GGGCCTGCCCCTCTTGCCCCAGGGCAACCGGGTTTGCACTTGGGATGGGCGGGAAGAGCGGGTCCAGAAATCATTCCCAA
+CCTTTACTTGATCCTCCACCAGCCCCTGGCCCCTGTCGAAGGGCCTGCCACACACAGCCACCAGGTGGCAGCCCCGCGCC
+GGCTCAGCCGAGCCCCCCAGGAGCGGGAGCAGCGGGGCTGTGAGGGGCCACCTGGGCTACCGCCCCATTAGCCCTAGAGG
+ATGCCTGCACTCTCCTAAGTGACACTGGCTGCTGCTTCTGGGCCGGGGACAGGGGGGCGCAGCCTCCGGCCTTGCGAGCG
+CTGCCCGTGGGCGCTCCCGGTGTGACTTGGCACAGGCTGCACCGCCTGAGGCTGAGGCAGGAAGGTCTTGCTGGCATTTA
+AATACCCTCAGGACCCCTGGCACTTAGCAGTTTCCAGGGCCTTTGGGGCTCTGCACGGTCTAGATGGGCTTTAGCGCATC
+CAGGGAAGGGTCCGCCCTCTGCCAAGCTCAGGGCCCGGGGCCCTTGTCCAGGGGGTGGGGGCGGGGTTCGGAGTGTGAAC
+AGCAGCTCTAGGCCTGGATTCCAGACCCTTCCCTTTCTCAGAGGTAGGCTCTTCCCTGGCTCCCAGGGGGGCCACCTTCT
+AATAAAAGACTGTGGGTCTTGAAAAAAAAAA
+>ref|ref|NM_001003278.1|| Canis lupus familiaris adenosine A2a receptor (ADORA2A), mRNA
X14052.1 Canis familiaris RDC8 mRNA for G protein-coupled receptor
+CCGAGCCCGAGCCGCGGCGGAGACAGCGGGAGCCGGCGCGCGAGCCGCAGGTGCCTCGGGGACTATGAAGCCGAGCTGAG
+CCAAGATGCTGCGAGAGCCCCTGAGGAGGGCCCAGTTTCTGGAGACTCAGACTTGGCAGTGAAAACGCCCTTGGGGAGCC
+CCCGTCACAGGCAGGGGCGCTCTTGGCTCCTGTGAAGAAGGGGCTCAGGGGCCTGGGCAGGGCCAGCGGCACTGCAGCTA
+TGGACCGTGAGCTGGCCCGGCCCGTGTCCTTGCTGACCCTGCCCGTCTGCAGCCATGTCCACCATGGGCTCCTGGGTGTA
+CATCACGGTGGAGCTGGCCATCGCTGTGCTGGCCATCCTGGGCAATGTGCTGGTGTGCTGGGCTGTGTGGCTGAACAGCA
+ACCTGCAGAACGTCACCAACTACTTCGTGGTGTCACTGGCGGCAGCCGACATTGCCGTGGGAGTCCTCGCGATCCCCTTC
+GCCATCACCATCAGCACAGGGTTCTGTGCTGCCTGCCACAACTGCCTCTTCTTTGCCTGCTTTGTCCTGGTCCTCACTCA
+GAGCTCCATCTTCAGCCTCCTGGCCATCGCCATTGACCGCTACATCGCCATCCGCATCCCACTCCGGTACAATGGCTTGG
+TGACTGGCACAAGGGCCAAGGGCATCATTGCGGTCTGCTGGGTGCTGTCGTTTGCCATTGGCTTGACTCCCATGCTGGGC
+TGGAACAACTGCAGTCAGCCAAAGGAGGGCAGAAACTACTCACAGGGCTGCGGGGAGGGCCAGGTGGCCTGTCTCTTTGA
+GGATGTGGTGCCCATGAACTACATGGTGTACTACAACTTCTTTGCTTTTGTCCTGGTGCCGCTGCTGCTCATGCTGGGTG
+TCTACTTGCGGATCTTCCTAGCAGCTCGGCGACAGCTGAAGCAGATGGAGAGCCAGCCTCTGCCTGGGGAGCGGGCTCGG
+TCCACGCTGCAGAAGGAGGTCCACGCTGCCAAGTCACTGGCCATCATTGTGGGGCTCTTCGCCCTCTGCTGGCTGCCCCT
+GCATATCATCAACTGCTTTACCTTCTTTTGCCCAGAGTGTAGCCATGCCCCACTCTGGCTCATGTACCTGACCATCGTCC
+TCTCCCACACCAATTCTGTTGTGAATCCCTTCATCTATGCCTACCGCATCCGTGAGTTTCGCCAGACCTTCCGCAAGATC
+ATTCGCAGCCACGTCCTGAGGCGGCGGGAGCCCTTCAAAGCAGGTGGCACCAGTGCCCGCGCCTTGGCAGCTCATGGCAG
+TGATGGAGAGCAGATCAGCCTCCGCCTCAATGGCCATCCTCCTGGGGTGTGGGCCAATGGCAGCGCCCCCCATCCTGAGC
+GGCGGCCCAATGGCTACACCCTGGGGCTGGTGAGTGGAGGGATTGCCCCTGAGTCCCATGGCGACATGGGCCTCCCAGAT
+GTGGAGCTCCTCAGCCATGAGCTCAAGGGAGCATGCCCAGAGTCCCCTGGCCTTGAAGGTCCCCTGGCCCAGGATGGAGC
+AGGAGTGTCCTGATGATCCACTCAGTTTGCCTCTTCCTACAGGAAGGAAATCTTTCTCTTTGGTGGATAGAACCAGTCAC
+ATTGGGAAAAGAATGAATGTGCCTGGAGACCCTTCTCGTGGCCAGTTCCCACTTTGGACTGAGAGGAGGGAGCCCTGGCT
+GGAGCAGCATGTGGCCTAGCAGGAAGGGTTTGGAGTCCAAGAAAGTGGACGTTTCACATCAGAAGGCCCAGCATCAGGTC
+AGGGCCACAGCACAGAGCATCTTGGCTGGGCAGGGCCTGGTCCCCCACTCTGGAAGCATCTAGAAGTACCATCCTGATGT
+GGCAGGGCAGGCTAACTGGCCCTGAGGCTGTGGGGGTGGCTCCAACAGGCCCCCTACCACACACAGACAACACCCTCCCC
+AGACTTTTCAAGGATTCAGGAGCTGCTATGCCCAGAGGTGGCGTTTTTCATTTCTTTCTTTCTTTTTTCTCTTTTTTTTT
+TCCAGGAGAAAATGTTAAACGTGAAGAATGCCTTTTTTTTTTTTTTTAATTATTTTCCTTCCCTGGTTGCCAGGTCTGTT
+GTCAGTCCTGCTGCTAACCTAGCTCCAGGAGTCAGCCCAGGGAGTCCCAGACAGCCCTGTCTGGCTACCATGAACTGCCA
+CGCACTTCTTACACCATCAGTCCCAGGGCCATCTCTTGGGGTCACAAAGCTGGGCTCAAGGACAGGGAGCTGTAATGGAT
+TTGCTGCCAGACTGTGGGCTCAGGGGAGGAGATCGGGACTGGCTCACCATGCGGTGTGCCTGGGTAGCTCAGAGCTGCCC
+GGTCAGAGGCCCTTTCTAACTGCCTTTCCTTCCGAAGGAATGTTTTTTTCTGAGATAAAATAAAAATGAGCCATGTTGTG
+TTTTAAAAAAAAAAAAAAA
+>ref|ref|NM_001003271.1|| Canis lupus familiaris signal recognition particle 68 (SRP68), mRNA
X53744.1 Canine mRNA for 68kDA subunit of signal recognition particle (SRP68)
+GGCAAGATGGCTGCCGAGAAACAGGTTCCCGGTGGCGGCGGCGGCGGCGGCGGCGGGAGCGGCGGCGGACGCGGTGCCGG
+AGGAGAGGAAAATAAGGAAAACGAACGGCCTTCAGCTGGATCGAAGGCAAACAGAGAATTCGGGGATAGCCTGAGTTTGG
+AGATTCTTCAGATAATTAAGGAATCCCAGCAGCAGCATGGTTTGCGGCATGGAGATTTTCAGAGGTATAGGGGCTACTGT
+TCCCGTAGACAAAGACGTCTTCGGAAAACACTCAACTTCAAGATGGGGAACAGGCACAAATTTACAGGGAAAAAAGTAAC
+TGAAGACCTTCTGACTGATAACAGATATTTGCTTCTGGTTCTGATGGATGCTGAACGAGCCTGGAGCTATGCCATGCAGC
+TGAAACAGGAAGCCAACACTGAACCCCGAAAACGTTTCCACTTGTTGTCTCGCCTTCGCAAAGCTGTGAAGCATGCGGAG
+GAATTGGAACGCTTGTGTGAGAGCAATCGCGTGGATGCCAAGACCAAGTTAGAGGCTCAGGCTTACACGGCTTACCTCTC
+AGGAATGCTGCGTTTTGAACATCAAGAATGGAAAGCTGCGATTGAGGCTTTTAACAAGTGCAAAACTATCTATGAGAAAC
+TAGCCAGTGCTTTCACAGAAGAGCAGGCTGTGCTATACAACCAACGTGTGGAAGAGATCTCGCCTAATATCCGCTACTGT
+GCATATAACATTGGGGACCAGTCAGCTATCAATGAACTCATGCAGATGAGATTGAGGTCTGGAGGCACTGAGGGTCTCCT
+GGCTGAAAAATTGGAGGCATTGATCACTCAGACTCGGGCCAAACAGGCAGCCACCATGAGCGAAGTGGAATGGAGAGGGA
+GAACGGTTCCAGTGAAGATTGACAAAGTGAGGATCTTTTTGTTGGGATTGGCTGATAACGAAGCAGCCATTGCCCAGGCT
+GAAAGTGAAGAAACCAAGGAGCGTCTGTTTGAATCAATGCTCAGTGAGTGTCGGGACGCCATCCAGGCTGTTCGGGAAGA
+GCTCAAGCCAGATCAGAAACAGAGAGATTACACCCTTGACGGGGAGTCGGGAAAGGTATCTAATCTTCAATACCTGCACA
+GCTACCTGACTTATATCAAGCTGTCAACGGCCATCAGGCGGAACGAGAACATGGCTAAGGGGCTGCAGAAAGCACTACAG
+CAGCAGCCAGAAGATGAGAGCAAGCGCTCGCCACGGCCCCAGGACCTCATCCGGCTCTATGACATCATTCTACAGAATCT
+GGTGGAATTGCTCCAGCTTCCTGGGTTAGAGGAGGACAGAGCCTTCCAGAAAGAGATAGGCCTCAAGACTCTGGTGTTTA
+AGGCTTACAGGTGTTTTTTCATTGCTCAGTCCTATGTGTTGGTGAAGAAGTGGAGCGAAGCCCTCGTCCTGTATGACCGA
+GTCCTGAAATATGCAAATGAAGTAAATTCGGATGCTGGGGCCTTCAGGAACAGCTTAAAGGACCTGCCCGATGTGCAAGA
+GCTCATCACTCAAGTGAGGTCAGAAAAGTGTTCTCTGCAGGCAGCAGCAATCCTGGATGCAAGTGACTCCCACCAACCGG
+AGACTTCTTCCCAAGTCAAGGACAACAAGCCTCTGGTTGAACGGTTTGAGACATTCTGCTTGGACCCTTCCCTCGTCACC
+AAGCAAGCCAACCTTGTGCACTTCCCGCCAGGATTCCAGCCTATCCCCTGCAAGCCTTTGTTCTTTGACCTGGCCCTCAA
+CCATGTGGCTTTCCCACCCCTCGAGGACAAGTTGGAGCAGAAGACCAAGAGTGGCCTCACTGGATACATCAAGGGCATCT
+TTGGATTCCGGAGCTAACCAGGCTCTTCTTGGGGGCAAGGGGAGATTCTCACTCTTCATCTGTATTGTGAGAAAACCCTA
+GCAAGTTCCATGATATTAAATCCAGGTCTGCATTGGCCCCGGGCAAGAGTGTATCATCCTCAGCCCTGCGTCCCTATGTC
+TTGTGTGTTTGTGCACTTAACATTCTTAACCGGTGTGCTCAAAGGGGACCCTGCTGTCTTCTGGTGGATGTGTGCGGGAT
+TCCTCTGTCCGCACCTCCTGGGGGAAGGGCCACTGCCACCTGGCCCCATGGGAGCCGTGCTTGGGTGGGTCCACTCCAGG
+CATAGATGGGAGCTCGGAACTTTGTCGTGTTTCTTCAGTATCACGAATTTGAAATGGACTCCTCCTCGCTGTGAGCATCC
+ATCCAGAGTCCCGTGAAGAGTCTGTGACCAGGAACCACTGGCAGCATCACCCCACAACTACAGTCAGCCTTATGCCCTGT
+CACCTCCAAGTGGAAGTTAAGTTTCAGAACAAGCAAAGAGCTCTATTTTTAGAAGAAATGTGTTACACTCAGAAATGATG
+AAAACAAATCTTATATTAAAAGGCAAAGATGCTGG
+>ref|ref|NM_001003270.1|| Canis lupus familiaris signal sequence receptor subunit 1 (SSR1), mRNA
X51367.1 Canine mRNA for signal sequence receptor protein alpha subunit (TRAP-complex alpha subunit)
+CCGCGGAGAGCGCTGGCGGGCGGCGAGCGGACGCCGGACCGGCCGCGCCATGAGGGTCCTCCCGCGCCTGCTTCTGCTCC
+TCTTGCTGGCGTTCCCCGCTGCCGTGCTGCTCCGAGGCGGCCCGGGAGGCTCATTAGTTGCAGCTCAAGATCTCACAGAA
+GATGAAGAAACGGTGGAAGATTCAATAATTGAAGATGAAGATGATGAAGCAGAAGTGGAAGAAGATGAACCCACAGATTT
+GGCTGAAGATAAAGAGGAAGAAGATGTATCTGGTGAACCTGAAGCTTCACCAAGTGCAGATACAACCATCCTGTTTGTGA
+AAGGAGAAGATTTTCCAGCAAATAATATTGTGAAGTTCCTAGTAGGCTTTACAAACAAGGGTACAGAAGATTTTATTGTT
+GAATCCTTAGATGCCTCATTCCGTTATCCTCAGGACTACCAGTTTTATATCCAGAATTTCACAGCTCTTCCTCTGAACAC
+TGTAGTACCACCGCAGAGACAGGCAACTTTTGAGTACTCCTTCATTCCTGCAGAGCCCATGGGTGGACGACCTTTTGGTC
+TAGTCATCAATCTGAACTACAAAGATCTGAATGGCAATGTATTCCAAGATGCTGTCTTCAATCAAACAGTTACGATCATT
+GAAAGAGAGGATGGGTTAGATGGAGAGACAATCTTTATGTATATGTTCCTTGCTGGTCTTGGGCTCCTGGTTGTTGTTGG
+CCTTCATCAACTCCTAGAATCGAGAAAGCGCAAGAGACCCATACAGAAGGTAGAGATGGGTACATCAAGTCAGAATGATG
+TTGACATGAGTTGGATTCCTCAGGAAACCTTGAATCAAATCAATAAAGCTTCACCAAGAAGGTTGCCCAGGAAACGGGCA
+CAGAAGAGATCAGTGGGATCTGATGAGTAAATGTTCCTTTGTGCAACAATTCAGTCTTTACTTAACCTGCCCTAATGTTT
+TTCGGCCTGATGGGAATTAGTGCAGAGAAGCCATATCACCATAGAAGGCAACTACTACTTATGTGTGGACTGAGCAATCA
+GAGTCTGTGGCGATAATAATATTACTGAAAATGCACTGCATTCATTTTTCTAAAGTAACAAA
+>ref|ref|X53529.1|| Dog mRNA for signal sequence receptor beta subunit (TRAP-complex beta subunit)
+CGGCCGCCGGTGGTCCCCTGAAAGGACTGTGGGGTGCGCGCGATGAGGCTTCTGGCTTCTGTGCTGTTGGCCCTGTTTGC
+TGTCAGTCATGCGGAGGAAGGAGCCCGGCTTCTGGCCTCCAAGTCACTGCTGAACAGATACGCCGTGGAGGGGCGAGACC
+TGACCTTGCAGTACAACATCTACAATGTTGGCTCAAGTGCTGCATTAGACGTGGAGTTATCTGATGATTCCTTTCCCCCA
+GAGGACTTTGGCATTGTGTCTGGAATGCTCAATGTCAAATGGGACCGGATTGCCCCTGCTAGCAATGTCTCCCACACCGT
+GGTCCTGCGCCCGCTCAAGGCTGGCTATTTCAACTTTACTTCGGCTACTGTTACTTACCTGGCTCAGGAGGATGGGCCTG
+TCGTGATTGGCTTTACCAGCGCCCCTGGACAGGGAGGGATCCTGGCCCAGCGGGAGTTTGATAGGAGATTCTCCCCGCAT
+TTTCTGGACTGGGCAGCCTTCGGAGTCATGACCCTGCCCTCCATCGGCATCCCCCTGCTGCTGTGGTACTCCAGCAAGAG
+GAAATATGACACTCCCAAGTCCAAGAAGAACTGAGGGGCTTCCGAGGCCGCTGCCTAGGAGATCCAGGTGCTTTCCAGAC
+TCCGGAGGCCTCTGGAGTGCGGTCTCTCATCCCCAGCCCCTGCCACCTTCTCCAGGATCCTGCCTGCTCTCAACCAGAGT
+CGGGGACCAGGCCTCGGTGTCTGTGAAAGCCTCCTCCTTCTGTCCCAAAGCCATATGAGCAAGAACGAGCAGGAATGCCT
+CCAGCAACAAGCCTCGGGACCTCATCTGTGTGCCTTGTGGTGCTGCAGTGTGAACTGAGGGGCCCAGGAGGGGGCACTAA
+GGAAACTGCCTGACTCTACCCCCATCCCCTGCTCTCCCCTCTCGGAAGAGGGTGGAAGATCAGATGAAGGCCAAGTGACT
+CGGAGGCTACCCAATCTCTGTTCTGGGTCAGGGGAGCTCTAACCAATGGAGTTTCTAATAAAAACATGCCAAACTG
+>ref|ref|NM_001003268.1|| Canis lupus familiaris transcription factor 4 (TCF4), mRNA
X51448.1 Dog mRNA for putative transcription factor recognizing thyroglobulin promoter
+CGCAGTGCCCGGATGTGAATGGATTACAATGTATCTTTCAGGGAAACCTATTATTATCAATGTGACTCCACGGGGGAGTC
+AATGGTGATGATGAGGAGGAGGAGGAGGATGATGATGATGAGACACCTCTAAACTTGGAACAAGTTTAAGACTTTATAAG
+AGGAGAAGAAAAAAAAAAAGCCACCAACAAGATTTGTTTGAGGAAAGATTCTAACTATCCTGTATTGATATATTTTTTTT
+TTTTTTAGAAACAATAAGAAAAAGTTGTTGGAATTTTTTTTTTTTTTTAATGGTTTCTTTTTTGGGGGAGGGGATTTTGT
+TGCAGTTTGATGGTGGAAAATGCAAAAACCAGAGCCAGGTGCATAATCTTGTATTCTGTGGATATCCCTGGAGCAGAACT
+GAGTACCAGTTAAAATACTTTTTTGGGGGATACACATGTGAGATACTAAGTACTTGCAGAAGATTTTTTGTCTTTCTTTT
+TAAAGTCACTTTCCTTGGAATATTGTGAGCATATTTGTGGCCATTTAAGATGTTTTCACCTCCTGTGAGCAGTGGGAAAA
+ATGGACCAACTTCTTTGGCGAGTGGACATTTCACTGGCTCAAATGTAGAAGACAGAAGTAGCTCAGGGTCCTGGGGGAAC
+GGAGGACATCCAAGCCCGTCCAGGAACTATGGAGATGGGACTCCCTATGACCACATGACCAGCAGGGACCTTGGGTCACA
+TGACAATCTCTCTCCACCTTTTGTCAATTCCAGAATACAAAGTAAAACAGAAAGGGGCTCATACTCATCTTATGGGAGAG
+AATCAAACTTACAGGGTTGCCACCAGAGTCTCCTTGGAGGTGACATGGATATGGGCACCCCAGGAACCCTGTCGCCCACC
+AAACCTGGCTCCCAGTATTACCAGTATTCTAGCAATAACCCCCGAAGGAGGCCTCTTCACAGTAGTGCTATGGAGGTGCA
+GACAAAGAAAGTTCGAAAAGTTCCTCCAGGTTTGCCATCTTCAGTTTATGCTCCATCAGCAAGCACTGCCGACTACAATA
+GGGACTCGCCAGGCTACCCTTCCTCGAAACCAGCAGCCAGCACTTTCCCTAGCTCCTTCTTCATGCAGGATGGCCATCAC
+AGCAGTGACCCTTGGAGCTCCTCCAGTGGGATGAATCAGCCTGGCTACGGAGGAATGTTGGGCAGTTCTTCTCATATTCC
+ACAGTCTAGCAGCTACTGTAGCCTGCATCCACACGAACGCTTGAGCTATCCATCACACTCCTCAGCAGACATCAATTCCA
+GTCTTCCTCCGATGTCCACTTTCCACCGTAGTGGCACAAACCATTACAGCACCTCTTCCTGTACACCTCCTGCCAACGGG
+ACAGACAGTATAATGGCAAATAGAGGAAGCGGGGCAGCAGGCAGCTCCCAGACTGGAGATGCTCTGGGGAAAGCACTTGC
+TTCGATCTATTCTCCAGATCACACTAACAACAGCTTTTCATCAAACCCTTCAACTCCTGTTGGCTCTCCTCCTTCTCTCT
+CAGCAGGCACAGCTGTTTGGTCTAGAAACGGAGGACAGGCCTCATCATCTCCTAATTATGAAGGACCCTTACACTCTTTG
+CAAAGCCGAATTGAAGATCGCTTAGAAAGACTGGATGATGCTATTCACGTTCTCCGGAATCATGCAGTGGGCCCATCCAC
+AGCTATGCCGGGTGGTCATGGGGACATGCATGGAATCATTGGACCTTCTCATAATGGAGCGATGGGTGGTCTGGGCTCAG
+GGTATGGAACCGGTCTTCTTTCAGCCAACAGACATTCACTCATGGTCGGGGCCCATCGCGAAGACGGCGTGGCCCTGCGA
+GGCAGCCACTCCCTCGTGCCCAACCAGGTCCCGGTGCCACAGCTTCCCGTGCAGTCTGCGACGTCCCCTGACCTGAACCC
+ACCCCAGGACCCTTACAGAGGCATGCCACCGGGATTGCAGGGCCAGAGCGTCTCCTCCGGCAGCTCTGAGATCAAATCCG
+ACGACGAAGGCGATGAGAACCTGCAAGACACGAAATCTTCCGAGGACAAGAAGTTAGATGACGACAAGAAGGATATCAAA
+TCGATTACTAGCAATAACGATGACGAGGACCTGACCCCGGAGCAGAAGGCGGAGCGCGAGAAGGAGCGGAGGATGGCCAA
+CAACGCCCGCGAGCGCCTGCGCGTCCGCGACATCAACGAGGCTTTCAAGGAGCTCGGCCGCATGGTGCAGCTCCACCTCA
+AGAGTGACAAGCCCCAGACCAAGCTCCTGATCCTCCACCAGGCCGTGGCCGTCATCCTCAGCCTGGAGCAGCAAGTTCGA
+GAAAGGAATCTGAATCCGAAAGCCGCGTGTCTGAAAAGAAGGGAGGAAGAGAAGGTGTCCTCAGAGCCTCCCCCGCTCTC
+CTTGGCGGGCCCGCACCCTGGAATGGGAGATGCGTCAAACCACATGGGACAGATGTAAAAGGGTCCAAGCTGCCACATTG
+CTTCATTAATACAAGAGACCACTTCCTTAACAGCTGTATTATCTTAAACCCACATAAACACTTCTCCTTCACCCCTTTTT
+TTGTAATATAAGACAAGTCTGAGTAGTTATGAATCGCAGACGCAAGAGGTTTCAGCATTCCCAATTATCAAAAAACCGAA
+AAACACAC
+>ref|ref|NM_001003267.1|| Canis lupus familiaris translocation associated membrane protein 1 (TRAM1), mRNA
X63678.1 C.familiaris mRNA for TRAM-protein
+TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCCGGGCGGCCCCGGCGGCTGCGTACTGGCTGTGGGATGGGAAGTGA
+AGCCCCAGCGAGCGGCACGGCGGGGCGGTGAGGAGCAGCCAGGGGGAGGCGGCGGCGGCGGCGGCGGCAGCCAGTCTGTG
+AGCAGCTGGAGAGCGGCGCCGGGGACGAGCACCTGCAGGCACGGGCGGCGGCCTCGCCATGGCGATTCGCAAGAAGAGCA
+CCAAGAGCCCCCCGGTCCTGAGCCACGAATTCATCCTGCAGAATCACGCGGACATCGTCTCCTGTGTGGCGATGGTCTTC
+CTGCTGGGGCTCATGTTCGAGATAACAGCGAAAGCCTCTATCATTTTTGTTACTCTTCAGTACAATGTTACCCTCCCTGC
+AACAGAAGAACAAGCTACTGAATCAACATCCCTTTATTACTATGGTATCAAAGATTTGGCTACAGTTTTCTTCTACATGC
+TAGTGGCGATAATTATTCATGCCATAATTCAAGAGTATGTGTTGGATAAAATTAACAGGCGAATGCATTTCTCCAAAACG
+AAACACAGCAAGTTTAATGAATCTGGTCAGCTTAGTGCATTCTACCTTTTTTCTTGTATTTGGGGCACATTCATTCTAAT
+ATCTGAAAACTACATCTCAGACCCAACTATCTTGTGGAGGGCTTACCCCCATAACCTGATGACATTTCAAATGAAGTTTT
+TCTACATAGCCCAGTTGGCTTACTGGTTCCATGCTTTTCCTGAACTCTACTTCCAGAAAACCAAAAAAGAAGATATTCCT
+CGTCAGCTTGTCTACATTGGTCTTTACCTCTTTCACATTGCCGGGGCTTATCTTTTAAACTTGAATCATCTAGGACTTGT
+TCTTCTGGTGCTACATTATTTTGTTGAATTTCTCTTCCATATTTCCCGCCTGTTTTATTTTAGTGATGAAAAGTATCAGA
+AAGGGTTTTCTCTGTGGGCAGTTCTGTTTGTTTTGGGAAGACTTCTGACTTTAATTCTTTCAGTACTCACTGTTGGCTTT
+GGCCTTGCAAGAGCAGAGAATCAGAAACTGGATTTCAGTGCTGGGAACTTCAATGTGTTAGCTGTAAGAATTGCTGTCCT
+GGCATCCATTTGCATTACCCAAGCATTCATGATGTGGAAGTTCATTAATTTTCAGCTTCGGAGGTGGAGGGAACATTCTA
+CTTTTCAGGCACCAGTTGTGAAGAAGAAACCAACAGTAACTAAAGGCAGGTCTTCTAGAAAAGGAACAGAAAATGGTGTA
+AATGGAACAGTAACTTCAAATGGAGCTGACTCTCCCCGTAATAGAAAAGAGAAATCTTCATAATGAATTATAATCTAATT
+GATTAATGTCCCCAAAGAAATCTGCTTTTTACTATATCTTTCAGCACTAGAGATTTTTTCTGTCCTTGAAAATACAGTTT
+GTGCTCTTTGATTCTTGCTATTGTACTGTTGTTTCATGCATTTTTTTAAAGGGCATTTGAGGGAAGGATGATTACTATGA
+GTGAGAAAAATATTTTAGCTTAGACTAAGCTACCTGCCTTCAAAATAGTTTAGGGACCACCACCATATTCTATTTTGTTT
+TTTATCTTTGAATGTTTTTCTAATGATTTGGAGAGATAACTATTTACAAAAATTCTACATAACAGTGATAAAATTTCTTG
+CTCTCACCAATTTTTTGTATTAGCAAGATGGCCTCTTCCAGCAAGGTCATTTTTTTAAGTTATCTTTCAGGGTAAAATGG
+AAATACTATACAGTTGGAAGTCAAACTTTAATATGTTTTCAGTGTTCTCTAATTTTTAGGAATTTTTGTAGTCTTTACAC
+CTGGGAAAAAAGATTTGTAAATTCACTATAATAATTGTGTGCTTTATTTTATAGGTAATGGTTGTTAATGTTACATCCCC
+ATTTTAAAAAACAACCACAACATACTATTGGTTACAATGTGTGGAGAGTTATTGCCATATATATTGAATCAAAAATATAT
+GAACATAAAAGTACCTGTGAAGTAAAATCCTTTCTTGAGCATTTTCAACACTTGTAAACTGAAAATCAGAAAATTAAATA
+TTTACTATAAAGAAGCAAATACGACTATAGCCCTTTTTGATATGTTTATTAATAATGATTCTTAATGGGGCTTATAAGGT
+CGATATGCACAGCATCTTAGAAAAATATTGTTTAACCTGCAAACCCTTTTTAAAAATAATGCCTACTTAATTTATATCTA
+TAAAAGAATGTCGGGTAATTATATTTGGAACATTTACGCACTAATCTTAAAGAAATTGAAAATTCAGTTGGATAAATAGT
+CTTACAAAAGACAGTGCTTTATGTTATAACTATAGCTTTGGTCCCATCTTTAATTGAGAAGCATTTATCTGTATAAAACA
+TATTTTTGGATAAATATATATATATATATTTGTATCTCTACAGAAAGGCTCTAAAAAACATTTGAGTAAAACATTTGGTT
+CCCTTTTCTATAATTATCCTTAAAAATTCTTACAGCTATATTTGGTTTTTTTGTTGTCTTCACAGTACCTATACTGCTCC
+TTTTGGTGTTCACATCTTGTTCTCCATTTCTCACTTTTGTCACCAGCTCATGTTTGTGCCATTTTTAGTATAAAAGTTGC
+AGGCTTGTTAGGTCTGCAGTTTAATAAGTTGCCATGCTGCTAGAAAGTTGTGCTTTCTATTTCCAGCTGTTTACTTCCTG
+GAAAAAGTAGTAGCTCTCTGTAGCATCATGGAGTTTCAGTGGAACCAAATTTTTGCCAATAAAAACTGGCATTATATTGA
+ACTATACATTGAGAAATCAAACAAAATAAAATTTTTACTTTCAAAAAAAAAAAAAA
+>ref|ref|Z12161.1|| C.familiaris gene for VIP21
+GGCACGAGCGGTTCCCTTGAATAACAGCCCAGGGAAACCTCGGAGCCTTCACCCAGCCACCGGCCAGCATGTCTGGGGGC
+AAATACGTAGACTCCGAGGGGCACCTCTACACCGTTCCCATCCGGGAGCAGGGCAACATCTACAAGCCCAACAACAAGGC
+CATGGCGGAGGAGATGAGCGAGAAGCAGGTGTACGACGCGCACACCAAGGAAATCGACCTGGTCAACCGCGACCCCAAGC
+ATCTCAACGACGACGTGGTCAAGATTGATTTTGAAGATGTGATTGCAGAACCAGAAGGAACACACAGTTTTGATGGCATC
+TGGAAGGCCAGCTTCACCACCTTCACTGTGACAAAATACTGGTTTTACCGCTTGCTGTCTGCCCTCTTTGGCATCCCAAT
+GGCACTCATATGGGGCATTTACTTTGCCATTCTTTCTTTCCTGCACATCTGGGCAGTTGTGCCGTGCATTAAGAGTTTCC
+TGATTGAGATTCAGTGCATCAGCCGTGTCTATTCCATCTACGTCCACACCTTCTGTGACCCGTTCTTTGAGGCTGTTGGC
+AAAATATTCAGCAATATCCGCATCAACATGCAGAAAGAAACATAAATGACATTTTAAGGATAGCAGTTAACCTGATTCTT
+TTTT
+>ref|ref|X57335.1|| C.hircus 1.714 satellite DNA
+CCCTCCTCTCGAGCTATGAGGCAGACACTGGGCTCCTCTGAATGTGGGCGGGACTGTCGTGCTTCCTCTCGAATGGAGAC
+AGGTATGTCGGGGAACTACTTGAGTTGCAGTAAGGGTGTGAAGGACCCTTTGGAAGTTTCAGAGGTTAGGTGTGATTAGC
+CTCGAGACACCTCAGCGGAAATGGGCCTCATCTCGCCTGGATGGGGGAACTCCTGGATTTTCTCGAGTGTCAGCAGGTGC
+TCTCGACCTAGGACGGGGACCACAGGGACTCCTCTGCTGGCCTCAGGAAAGGCACTCCCCATGCGAGTTGCTCGGGGACC
+TCTAGGGATTCCTCTCCCGTCGATGCCGGGGCCTAAGACCTTGTGTGGAGTAGGTTCCGGAACCAGAGGATTCCTCTCCA
+GTGCTGACATGGATCTTGGGGTACTTCTGGAGTCTCTCCAGGGGAGTCACTCCTCGTCTCAAATGGGGGCATGCACGCGG
+GCTTTCCTCCCGGAGCTGTAACGCAGCATTGTCACGCTTCCCTTCGCGTGGATAAAGGGATCTGTGGCTTTCCCTCGAGG
+CTTTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGCCGTCCCACGTGCCAGCCGTGTTTGAGTCGATCCTCGGCTTG
+AAAGTCGAGGCAGTCGAGGGAAAACAGGTTTCCCTAGAATGGACTGAGACATCTGGGGGACTCTGGGAATGGTTGCACGA
+CTCTGGAGTTCCTTTCGCCTTTCCTGTGGAGAGCGCCTCCACTTGAGATGCGACGGGAACGCATGGAATTCTTTCCCGAC
+ACACGCAGGAATGGAT
+>ref|ref|X04726.1|| Goat embryonic alpha-globin gene zeta exon 1 (and joined CDS)
+AGGACCCCTATCTCCCTGTCGGCCACCCTCGGCTGTGGCCTGCAGGGGCAGCCGAAGTGACAGCCCCTCAGCCATTAAGC
+CCACCAGGCCCTGACCACCCGCTGTCACTGGAAATGATAAGAAACCCACCCCATTGCCCCCTCCCTTCTCCCAGTGATGA
+CCCTGGCCCCAACCCTGGTTCCACATATATAAGGGGACCTTGGGGGCTGAGCATCACCAACACCAGTTTTCAGTAAGTCA
+AGCTCCCGCTCAGCTGCCACCATGTCTCTGACCAGGACTGAGAGGACCATCATCCTGTCCCTGTGGAGCAAGATCTCCAC
+ACAGGCAGACGTCATTGGCACCGAGACCCTGGAGAGGTGAGCACCAGGTGGGCTGGGGTAGAGCCTGGAGGGGACCTTGT
+GGGTCAGTGAGGTCAGGAGTCAGTGAGAACAGGGGTCAGTGAGGAGGGGTGACTGAGGAGGGTGAGTGAGGAGGGACAGT
+GAGGAGGGTGAGTGAGGAGGGGAGAGTGAGGAGGGGAGAGTGAGGAGGGTGAGTGAGGAGGGTGAGTGAGGAGGGAGAGT
+GAGGAGGG
+>ref|ref|X04862.1|| Goat embryonic alpha-globin gene zeta exons 2-3
+GGAGAGTGAGTGAGGAGGGTGATTGAGGTGGGGTCATTGAGGAGGGGTCAGTGAGGAGGGTCAGTGAGGTGGTCAGTGAG
+GGGGTCACTGAAGATGGTCAGTGAGAAGGGTCAGTGAGCATGAGCCGGTGAGGAGTGTCTCGGTGGTCAGAGGCAGGAGG
+AGGAGGTGATGGGGGCGGTCTGAGGTCACCTGTGTCTCTCGGGGCCCAGCACCCAGGTCCCCACAATCACGTGGAGGGAG
+GGAGGCAGGGAAGGAAGGAATGACCGGCAGACGGGCGGTCAGGGTGAGGTGGCCGGGCCGTACTGAGCAGCGGCTACGCG
+CGAGAGTCACCCGGAGCGGTCACTAAGGCGCCCGCCCGCCCGCAGGCTCTTCTCCTGCTACCCGCAGGCCAAGACCTACT
+TCCCGCACTTCGACCTGCACTCGGGCTCCGCGCAGCTGCGCGCGCACGGCTCCAAGGTGGTGGCCGCCGTGGGCGACGCG
+GTCAAGAGCATCGACAACGTGACGAGCGCGCTGTCCAAGCTGAGCGAGCTGCACGCCTACGTGCTGCGCGTGGACCCGGT
+CAACTTCAAGGTGGGCGCGGGGCCCCGGGGGCGCCTTTTCGGGGCTGGGGTCCCGGAGTCCCGGGGGCGGGAGGAGGTCT
+CTGTGGGCGGGTCCCGGGGCGGGGCGATGTCTCTGTGGGCGGGGTTTGGGGCGGGGCGGGGCCTCTGGGCGGGGCTGCTT
+CTGGGGCCGGGGTCCCGGGGCGGGACGAGGTCCCAGAGGCGGAGCTCGTCCGGGCAGACAGCACTGACCGCTCTCCCTCC
+CTCCCCAGTTCCTGTCCCACTGCCTGCTGGTCACGTTGGCCTCGCACTTCCCCGCCGACTTCACGGCCGACGCGCACGCC
+GCCTGGGACAAGTTCCTGTCCATCGTGTCCGGCGTCCTGACGGAGAAGTACCGCTGAGGCCGCCGCAGGCCCCAAGAACA
+GGCTTCGAGCCTCCTCTTCCTCTGCACCCTATTAGTGTTTCGATAGGGACCCCCAATAAATGGATGAGGATGGAAGGAGC
+CTGGTCGTGCGTTCTCAGTATTGGGGGAAAGAGGGAAGAGTGACGGGAGAGAATGAGGACTTGGCAGGAACGCAGCCCAA
+CACGGTGTCACCCCCCAGCCTGGAGTGACTCCAAGGGGCGCTTTGGAGCGGTCCTTGGCCTGCAGAGCCCAGAGTAGCGA
+CCGGAAGGAGCAGGGCAGCCCAGCACCGTCCACGCCGCGTTCTCGNG
+>ref|ref|X56462.1|| C.hircus as1-casein gene, partial cds, exons 9-11
+AAAAGGTTTTAAGTAGTTATTATACTCCCCTCTCCAACATATTTTAAATAAAATTGACAATCCAAAAAAAAGTAAATTTT
+ATTGGCTCTGAATCCTTTTATACCCAATTGTTTTCACTAAAAACTAGTTAGCAACCCATTAAGTGTGGGTTGTTTCCTTC
+TAATGAAACAATGGAATGTATGGAAGTGTGGAATAGTTTCCTTCTAATTCTAAAAGTCTCAGAGGCAGTAACAATGATTC
+TCTTTCTTTTAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGTATACCATTTTTATGTTAATTAAGTATCCCAATT
+AGAAAATGTTTATGAAAGTTTGTTGAACCATAAAGTTTCATTGTACAAGGCACTATGTATGTAGCTCTATCCTAATTTTA
+ACATACAAGGCTATCAACCCCCAAAATGTAAGAAAACAATTATTTGTCAGAGACAAAATAAAGATTTCTTTCTGGGCAAA
+TAATCCTATTGGATATCTGTGGTGTCCAAACATTATTTTTCTAATTTTTTTTCCTTCCCAGATTTTTGTAGAATTAAATC
+TTGTCACTGAAAATTACAATAATGGCTATGCTTCTAAATTGTGAAATATAAACATGATATATCCTTTGCAGAACTCAATC
+AATTCTATGTTAAAGAGGCACTGGAATCCTTTGCTATTTGTTACCTAGAGGAGAAAAAGAGAAGGCATACAAAGTGATGA
+AATCCTTAAACTTTGGGAGCAGAACTTCATCCAGTTTACAAAATAAACCCAGTTCCAGTGAATTCAGTTAAAAGTGAATT
+CTTCACAATCCAACATTCTGAATAACTTCCCTGGTGAAAGCAGTGAGAAGAGAAAAGAGAACATGTACTTTGATTGTTCA
+TCTTATCTAAATTTACCCAGGAATTTGTGGCTAAAATCAGTTTACCACAGATAAGCTATGATGTGTCTGGTTAATTAGCA
+TTTTTATCTTGAATGTAAATTAATGTTATAAAACTAACAATACATGTTTTTTTTTTTTTTAAGGAAATTGTTCCCAATAG
+TGCTCAGGTGAGATATATTTACTAAATTTAAAATATATTAACATCATCCAGGATATCTTAAAATTTAATTAAACTTTTTA
+TTTTTTGAATTTTTTAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACCTGGGTTATCTGGTAAAATTT
+TATTAAAAGTTAATCAAAGACCAATGCATCAGGGAATGAGCAAGAATGTTGTGTTGATAAATTATCTCTCCTTTTCAATA
+TCTGCTAAACTTAAACTAAGCAGACTAACAGATTCTAGTAGTATACTGATCCC
+>ref|ref|X56463.1|| C.hircus as1-casein gene, partial intron 8
+ATCAGTTCTCCCAATGAATATTCAGGATTGACTTCCTGTAGTGATTCCTCCACTCTTCTCCAGTAGCATGTTGGGCACCT
+ACTGACCTGGGGAGTTCATCTTTCAGTGTCATATCTTTTAACCTTTTCATACTGTTCATGGGGTTCCCAAAGCAAGAATG
+CTGAAGTGGTTTTCCATTCCATTCTCCAATGGGCTATGCTACCTAATCTCAAAA
+>ref|ref|X59836.1|| C.hircus mRNA for as1-casein
+AACCCAGCTTGCTGCTTCTTCCCAGTCTTGGGTTCAAAGTCTTGACAACCATGAAACTTCTCATCCTTACCTGTCTCGTG
+GCTGTTGCTCTTGCCAGGCCTAAACATCCTATCAATCACCAAGGACTCTCTCCAGAAGTCCTCAATGAAAATTTACTCAG
+GTTTGTTGTGGCGCCTTTTCCAGAAGTGTTTAGAAAGGAGAACATCAATGAACTGAGTAAGGATATTGGGAGTGAATCAA
+CTGAGGATCAAGCCATGGAAGATGCTAAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGAAATTGTTCCCAATAGT
+GCTCAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACCTGGGTTATCTGGAACAGCTTCTCAGACTGAA
+AAAATACAACGTGCCCCAGCTGGAAATTGTTCCCAAAAGTGCTGAGGAACAACTTCACAGTATGAAAGAGGGAAACCCTG
+CCCACCAGAAACAGCCTATGATAGCAGTGAACCAGGAACTGGCCTACTTCTACCCTCAGCTTTTCAGACAATTCTACCAG
+CTGGATGCCTATCCATCTGGTGCCTGGTACTACCTTCCACTAGGCACACAATACACTGATGCCCCCTCATTCTCTGACAT
+CCCTAATCCCATTGGCTCTGAGAACAGTGGAAAGACTACTATGCCACTGTGGTGAAGAGTCAAGTGAATTCTGAGGAACT
+CCACAATTATGGTCTTTGATGGGATTGAAAATTCCATGCTTTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCC
+AAAGGCTTCAATTGCTGTTTTAGAATAGGACAACCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCCACTGTATTTT
+AGATTGTGTAACATCCTTAAGTGAAATTGTCCTAAGAGCTTGTTACCTAAATTCCAGTAGTATCACGCTGGTATAAAGGC
+CACTGACTCAAAGGGAATTACAGTCTTCATTAAATTTCTATATGGAAAATGTTTTTAAAGCCTTTGAATCACCTCTCCTG
+TAAGTGCCATCATTTCAAATAACTGTGTGCAGTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGC
+ACTATT
+>ref|ref|V00150.1|| Partial goat pseudogene for beta-globin (exons 1 and 2)
+GAGGAAGAGGAGTGCATCTTACATTCCCCCAAACCAATGAACTTGTGTTATGCCTTGGGTTAATCTACTCTCAGAAGCAG
+AGAGGGCAGGAGGCTCGTGGGGCTCACAAGGAAGACTAGGGCCCCTGCTGCTTACACCTGCTTTTGACACAACTTGCAGC
+TGGGTAAACACACATCATGGTGCATCTGACTCTAGAAGAGAAGGCTACTTGTCACTGCCCTGTGGAGCAAGATGAGGGTG
+GCTGAAGTTGGTGTTGAAACCCTAGGGAGGCAGGTATTCAGCTTACAAGGCAGGCTGAAGGAGAGTGAATGTCAGCTGGG
+TGTGTGGGGACAGAGCCATTGCCTGAGATTGAGGCACTGACTCCCTCTGTTCTTATGCTGTTTTCACCCCCTAGGCTGCT
+GGTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGAACTTGCCCTCTGCTGATGATATTATGGGCAACGCTA
+AGGTGAAGGCCCGTGACAATAAGGTGCTAGACTCCTTTACTGAAGGCCTGAAGTATGTCGACCACCTCAAGGGTGTCTTT
+TCTTTGCTGAGTGAGTTGGACTGTAAGAATCTGCATGTCAGTCCTGAGAACATCAGGGTGAGTCTACAGGAATCTTAATG
+TTCTCTATCTTTTTTTTTTTTTCTTTTTTTTCCTTTGTGGTCTAGTTTCTATCAT
+>ref|ref|V00154.1|| Goat pseudogene psi-beta-Z for a beta-globin
+AGGAACAAGAGTGCATCTTACATTCCCCCAAATCAATGAACTTGTGTTATGCCCTGGACTAATCTACTCTCAGAAGCAGA
+GAGGGCAAGGTGCTGGGTGGGACTCACAAGGAAGACCAGGGCCCCTGCTGCTTACACCTGTTTTTGACACAACTTGCAAC
+TGCACAAACACACATCATGGTGTATCTGACTCTTGAGGAGAAAGCTACTTGTCACTGCCCTGTGGAACAAGAGTGGCTGA
+AGTTGGTATTGAAATCTTAGGCAGGCAGGTATTCAGTTTACAAGGCAGGCTGACAGACAGTGAATGTCAGCTGGGTGTGT
+GGTGACAGAGCCATTTCCTGAGATTCTGGCAGGCACTGATTCCCTCCTTCCTTATGCTGTTTTCACCCCCTAGGCTGCTG
+GTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGAACTTGCCCTCTGCTGATGCTGTTATGAGCAACGCTAA
+GGTGAAGGCCTATGACAAGAAGGTGCTAGTCTTCCTTACTGAAGGCCTGAAGCATGTTGACCATCTCAAGGGAGTTTTTG
+CTTTGCTGAGTGAGTTGCACTATAAGAAGCTGCATGTCAGTCCTGAGAACATCAGAGTGAGTCTACGGGACCCTTAATAT
+TCTCCATCTTTTTTCTTTTTTTTTTTTTGTGGTCAAGTTTCTATCATGGGGAGAGAGTTAAGCAGCAGGATACAGTTCAG
+AATGCAGAAGAGGTATTCTGGTTACATCACTATGGATTTCTCAGGACCATTTCATTTCCTTTACCTTCTTTGTTCCCAGC
+CATCATTTCCTCTTACCCAATCTTGTTCTTTTTTCTGTTTGCTCTTTACAATATCTTCTTTATATTTAAACATTTTGAGT
+GTTTAAAAACACTTTTATGTTTTAAGTCACTTAAAATTTTATCTCATTTTTTCCCCTTACCTCTTCCTTTCAAAGCAAGG
+AAGACAAAATGATGCATTGCTTCTTGAAATGGTTCAAAAGAATAATAAATGATAACAGACTAAGGCAGAAAGGATGAAAC
+ATTTCTAAGAACAAGCTCAGGTTGATATAGGTGGCTCCATATCAGTAGTAACACCTACTCTTCAGCCATCTTTCTACTTA
+TATTCTAGGGGCACAACTTGGGATGAGACTGAAATACTCTTTAGTCCAAATTGGGTGCCTCTGCTAACTATGTCCTTGTT
+TTTTTATTCCTTCCACACAGCTCCTTGGCAAAATACTGGTA
+>ref|ref|NM_001285587.1|| Capra hircus casein kappa (CSN3), mRNA
X60763.1 C.hircus mRNA for kappa casein
+GGCCAACTGAATCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTGCAATGATGAAGAGTTTTTTCCTAGTTGTG
+ACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAGGAACAGCCGATATGCTGTGAGAAAGATGA
+AAGATTCTTCGATGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCTAGTTATGGACTCAATT
+ACTATCAACAGAGACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAAAGCCAGTTGCAGTTAGG
+TCACCTGCCCAAACTCTTCAATGGCAAGTTTTGCCAAATACTGTGCCTGCCAAGTCCTGCCAAGACCAGCCAACTACCCT
+GGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAGATCAGGATAAAACAGAAGTCCCTGCCA
+TCAATACCATTGCTAGTGCTGAGCCTACAGTACACAGTACACCTACCACCGAAGCAATAGTGAACACTGTAGATAATCCA
+GAAGCTTCCTCAGAATCGATTGCGAGTGCATCTGAGACCAACACAGCCCAAGTTACTTCAACCGAGGTCTAAAAACTCTA
+AGGAGACATCAAAGAGGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCCAGTTGTCTGCC
+TTCAGTGAACAGAGAATATGATTTTCACAGATCCAGCTCCTTTCTCATCTCCTCTTACATTTTACATTTATGCCGCATTT
+AGTTTTTTGATTCCTGCATAATAAAG
+>ref|ref|X05149.1|| Goat mRNA for prealpha-lactalbumin
+GGGGTAACCAAAATGATGTCCTTTGTCTCTCTGCTCCTGGTAGGCATCCTATTCCACGCCACCCAGGCTGAACAATTAAC
+AAAATGTGAGGTGTTCCAGAAGCTGAAGGACTTGAAGGACTACGGAGGTGTCAGTTTGCCTGAATGGGTCTGTACTGCAT
+TTCATACCAGTGGTTATGACACACAAGCCATAGTACAAAACAATGACAGCACAGAATATGGACTCTTCCAGATAAATAAT
+AAAATTTGGTGCAAAGACGACCAGAACCCTCACTCAAGGAACATCTGTAACATCTCCTGTGACAAGTTCCTGGATGATGA
+TCTTACTGATGACATTGTGTGTGCCAAGAAGATTCTGGATAAAGTAGGAATTAACTACTGGTTGGCCCATAAAGCACTCT
+GTTCTGAGAAGCTGGATCAGTGGCTCTGTGAGAAGTTGTGAACACCTGCTGTCTTTGCTGCTTCTGTCCTCTTTCTGTTC
+CTGGAACTCCTCTGCCCCTTGGCTACCTCGTTTTGCTTCTTTGTACCCCCTTGAAGCTAACTCGTCTCTGAGCCCTGGCC
+CTGTAGTGATGATGGACATGTAAGGACTAATCTCCAGGGATGCGTGAATGGTGCTCGGGACATTTGACCCTTGCTCGGTG
+CCTCTGATAGCACTTTTAATGCAACAGTGCATATTCCACTTCTGTCCTGAATAAAAGGCCTGATTCTG
+>ref|ref|X67490.1|| C.hircus microsatellite DNA
+TTCCTTAGCAACACTCGGCTCATCTGCCTACAAGACGAAAGAAACACGGCACGGCACATCTTCCTTAGCAACTCTTCCTA
+TCCCTCCCTCTTTTCCTTCCCCACTTTTCTTGCCCCCTCTTTCTTTTTCTACCCCTCAAGCTTGAACTGGAGTGTGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAATGGTGGCAGCGAGGGGGAGGAGAACATCCTGC
+AGCCCCAGCCTCCACAGAGGAAAGAAACTCGGGGTCAGGACTCGTTAACTGTCAATATCGGTACATGGTTCTGTGTGAAT
+GT
+>ref|ref|X02313.1|| Goat repetitive sequence 4.3 kb 5' to beta-F-globin gene
+TTAATTCCCAAAGCCAACTTTTAGGGCACTTAAGCATCTGCCTGGAATGCGGGACACTTGGGTTCGATCCCTGGGTTGGG
+AAGATTCCCTGGAGAAGGAAATGGCAACCCACTCCAGTACTCTTGCCTGGAGAATCCCGCAGAGGGAGGCCTGTTAGGCT
+ACAGTCCATGGGGTCGCAAAGTCGGACACGACTGAGCGACTTTACTTTACTCTCTGAGGCTTCAGAGATAGGAAAATCTA
+GAAGAATAGCATCCTAAATTCCCA
+>ref|ref|X02314.1|| Goat repetitive sequence 5.3 kb 5' to beta-C globin gene
+TACTGACAATAGAAGTCGAGTGAGTGAGTGAGGTCGTTCAGTTGTGTCCAACTCTTTGCCACCCCATGGACTGTAGCCCA
+CAAGGCTCCCCTATCCATGGAATTTTCTAGGCAAGAGTACTGGAGTGGTTGCCATTTCCATCTCCAGGGGATCTTCCCAA
+CCAGGGGATTGAACCCTGGTCTCCCTCATTAGAGGCAAACGCTTTACCATCTGAGCCACCAGGGAATCCCATACTAACAA
+TAGAA
+>ref|ref|X02315.1|| Goat repetitive sequence 7.3 kb 5' to beta-A-globin gene
+TTAGTTGCTCAGTCAGTGTCCCACTCTTGGCAACCCCACGGAGTCCATCAGGTTTCTTTGTCCATGGGATTCTCCAGGCA
+AGAATACTGGAGTGGGTTGCCACTCCTCCTCCAGGGGATCTTCCCAACCCAGGCATCGAAGCCAGGTTTCCTGCATTGCA
+GATAGATTCTTTACTGTCTGAGCCACCAAGGAAGTCCTTTACCCTTACTT
+>ref|ref|X03118.1|| Goat satellite II DNA repeat unit fragment
+GATCTGGCAGAGTTCCTGGCGCGAGGCTGCTCTGCCGGGGGCTAGCCTTGCCCAGACTTGCCTTGCTTTTAGGCTGCCTC
+TCCAGGAAGGAGCAGGCAGCAGGAGCCTGGGAGTCACCACTGGCGCCTTTCTTGCCTCAGCTCCAATCCTGCCTTGCCTT
+TGCACTTAGGTCCCAGTCCTCCTTAAGGAGAGCTTAGGGGCTGGTGGGTTGCACATCCAAGGGCTCCAGCCGTGAGAATT
+>ref|ref|X55312.1|| C.hircus DNA for thyroglobulin (Tg) gene, last exon
+GGAAGAGATGAGGGAGAAATCGGATCCAGGTTGGACCAGCCTTGTCTGTCCTATTTCAGATGAAACTAAGGACGGGCTGT
+CAGCAGACAGCAGAGAGGAGGACCAGCTGGCTGGCTCTGGGCTGACAGAGGACCTCCTGGGTCTCCCAGAGTTAGCCTCC
+AAGACCTACAGCAAGTGACCAGCCCCATCCCAAATGCCACCCTGGACACCTTATTCTCCAACATAGCCGCTATCAATAAA
+GTGTCTACCTGCAGAAAAGCATTGGTGACTCAGATTCATTAATTTCAGACAGTCCTTGGGAGACACCAGGGATTCTTGTG
+GCTCAGAGGGTAAAGCATCTGCCTGCAATGCAGAGACCTGGGTTCAATCCCTGGGTCAGGAAGATCCCCTGGAGAAGGAA
+ATGGCAATCTACTCCAGTACTCTTGCCTGGAGAATCCCATGGATAGGGGAGCCTGGTAGGTACAGTCCATGGGGTCGCAA
+AGAGATGGACACGACCTGAGCGACTTCACTCACTCACTCACTTGGGAGACACCAA
+>ref|ref|Z18637.1|| D.delphis gene for large subunit rRNA
U13106.1 Delphinus delphis mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAATACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA
+AAACAATACCACCAAGGGATAACAAAGCTTTAAATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCTACTAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18636.1|| D.delphis gene for small subunit rRNA
U13083.1 Delphinus delphis mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAATCCCAAAACAAGATTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAACTCACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATGAGGCCA
+>ref|ref|Z18639.1|| D.leucas gene for large subunit rRNA
U13107.1 Delphinapterus leucas mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGGCTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTCTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACCCAAAAAACA
+CAAAACAGCACCACCAAGGGATAACAAAATTTTACATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAAC
+CCTCCGAGTGATTAAAACCTAGCCTACTGGCCAAAGTGTAATATCACTTATTGATCCAAATTCTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGTAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18638.1|| D.leucas gene for small subunit rRNA
+TCGTAAACTTAAATAGTCCTTAAAACAAGACTATTCGCCAGAGTACTACCGGCAACAGCCCGAAACTCAAAGGACTTGGC
+GGTGCTTCATATCCCTCTAGAGGAGCCTGTTCTGTAAACGATAAACCCCGATCAACCTCACCAATCCTTGCTACCTCAGT
+CTATATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCACAACTATCGCACATAAAAACGTTAGGTCAAG
+GTGTAACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACATCCCTCAAGTCTACACGAAAGTTTTTAT
+GAAAACTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAATAGAGTGCTTAATTGAATAAGGCC
+>ref|ref|Z11814.1|| D.virginiana interphotoreceptor retinoid binding protein gene, exon 1
+CCCAGAAAACCTAATGGGCATGCAAGAAGTCATTGAACAAGCAATCAAGAGTGGGGAGATCCTGGATATCTCTGATCCCC
+AAATGCTGGCCAGTGTCCTGACAGCAGGTGTGCAGGGTGCCCTCAATGACCCACGGCTAGTGATCTCCTTTGAGCCCAGC
+ATTCCTGAGACTCCCCAGCATGTCCCAAAATTTGCCAACGTCACTCAGGAGGAACTGCTCACCCTGCTCCAGCAAATGAT
+CAAGTACCAGGTACTGGAGGGCAATGTGGGTTACCTAAGAGTTGACTACATCCCTGGCCAGGAGGTGGTAGAGAAAGTCG
+GGGAGTTCTTGGTGAATAACATCTGGAAAAAGCTCATGGGGACCTCCGCTCTGGTGTTGGATCTCCAGCACAGCTCAGGG
+GGTGAAGTTTCAGGAATTCCCTTTGTCATTTCCTACCTACACCAGGGGGATATCGTGCTGCACATAGACACAGTTTATGA
+CCGGCCATCCAATACCACCACAGAGATCTGGACCCTGCCCCAGGTGCTGGGTGAGAGGTACGGTGGGGAGAAGGACATGG
+TGGTCCTCACCAGTCACGGTACTGTTGGAGTAGCAGAGGATATAGCCTACATCCTCAAGAAGATCCGCCGGGCCATTGTG
+GTGGGAGAGCAGACTCTGGGAGGGGCTCTAGATCTCCGGAAGCTGCGCATTGGCCAGTCAGATTTCTTCATCACTGTGCC
+GGTATCACGCTCCCTGAGCCCCCTCGGAGGGGAAGGCCAGACATGGGAGGGCAGTGGGGTGCTCCCCTGTGTAGGGATCC
+CAGCAGAACAGGCCCTGGGGAAAGCACTGGCCATTCTCACCCTGCGCAGGGCAAGACCGGGAGCCATTCAACGTCTCATG
+GAAGTCTTACAGAATTACTACACCCTGGTGGATCGGGTACCCGCGCTGCTCCATCACCTCACTGTCATCGACTATTCCTC
+AGTGCTCACAGAGGAAGATTTGGCGACCAAGCTCAATGCAGGACTGCAAGCTGTGTCAGAGGACCCCAGGCTCCTCGTTC
+GGGTTCTGAAGCCTGAGGAAGTCACAACTGACTCTGAAGTTAGCAAGGAGGCAGATACTACAGCTGTGGCCCACTCACTG
+CCTGAGGATGAAGTCCCAGAGCAAGCCCTGGTAGACTCTGTGTTCCAGGTATCAGTGTTGCCAGGTAACGTGGGCTATTT
+GAGGTTTGATGAGTTTGCTGACTCCTCGGTACTTGCACCCTGG
+>ref|ref|X51914.1|| Equus caballus large-subunit ribosomal RNA D3 domain
+ACGGACCAAGGAGTCTAACACGTGCGCGAGTCAGGGGCTCGCACGAAAGCCGCCGTGGCGCAATGAAGGTGAAGGCCCCG
+CGCCGCCCCCCGGGGGCCGAGGTGGGATCCCGAGGCCTCTCCAGTCCGCCGAGGGCGCACCACCGGCCCGTCTCGCCCGC
+CGCGCCGGGGAGGTGGAGCATGAGCGCACGTGTTAGGA
+>ref|ref|X58563.1|| Equus caballus mRNA for atrial natriuretic polypeptide (ANP)
+ATGGGCTCCTTCTCCACCATCATGGCGAGCTTCCTCCTCTTTCTGGCATTTCAGCTCCAAGGGCAAACCAGAGCTAACCC
+CGTGTATGGCTCTGTGTCCAACGGAGACCTGATGGATTTCAAGAATTTGCTGGATCGTTTGGAGGACAAGATGCCTTTAG
+AAGATGAGGTGATGCCCCCACAAGTACTAAGTGATCAGAGTGAGGAAGAGAGGGCAGCTCTCAGCCCCCTCCCTGAGGTG
+CCTCCCTGGACCGGGGAGGTCAATCCAGCCCAGAGAGATGGGGGTGCCCTTGGGCGGGGCTCCTGGGACTCCTCCGACAG
+ATCTGCCCTCCTGAAAAGCAAGCTGAGGGCACTGCTCGCTGCTCCTCGGAGCCTACGGAGGTCCAGCTGCTTCGGGGGCA
+GGATGGACAGGATTGGAGCCCAGAGTGGACTGGGCTGCAACAGCTTCCGGTACCGAAGATAACAGCCAGGGAGGACAAGG
+ACAAGGCCAGGCCCTGGGCAGACTGCGAGAGACCCTATCCCCCGGGGTCTCTCACTCAACGTTGTTCCATCTCATTGCTC
+CCAAGCTGAGTGGTGACGAGCACCCTATCCAAGCTGCAGCCCCCTGTCAACAATTCTCACATTTTATTCTAAATGTAGAT
+AAAGTGGCTTAATTGTGGCTTCCCCAGCTCCCCCATCCCATGCATTAAATTTTAGGGTAGATCCTCACCCATTACTGAAA
+GCGGTTTGAAAAATGAATAAACTTCAGCACCACGGAGAGAAAAAAAAAAAAAAAAA
+>ref|ref|X16773.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 1)
+CTGCAGGTTCAACGGATCCCAGACCACAGGAGGCGTTTGGGAGGGCACCAGAGGCCGGGGAGGCCAACCGCAGGTGGGCG
+CCGGCTGCATCCGCAGCCCAATCTCCCACCCCCACCCAGGCGCGTCTCTTCGTCTCAGAGGAGCTCCCTGATGCCCTGGA
+AAGGCCCCTCTGAGCGAGGTTTCTGTTTTGGGTCCGCGGAGATTCGGGGAGCCCAGTTCCGAAAACATATCCGCACCCAC
+TGCGACCTTCGGTGCCCCACAAAGCAGCCCGGCCACGCAGGGCCCGGAGGAGGGGCGCGGGAGCTGCACGGGCCCGAGGC
+CCCGCGGCCCAGCCAGCCGGTGCGCCCCGCAGTGGGGGCCGCGGCCGCCCGGGCGTGGGCACGCCGCGCCCCGGGCCCGG
+ACCCCGGCGCCCTCCTGCCGGGAGCCCAAGCAGGCGGGGGCCGGCGGGGCGGCTGCTGGGGCCGGAGTTTCGTTTGGGGT
+GGGGGCGGAGCAAGCCAGCGCCGGTGTTGGAGCCAAGGCACAGCCGGTGTCAGGTTGCTCCGGCAACGGTGACGTGCCGC
+GGCGTGGGCGGGGCCAGCACGCAGGTTGCATATTTTAGGAAGCGAGGCGGAGGCGGGGGTTCGAGCTGCGGCAGGGTCTG
+GGGCGCGGACGAACGGCGGAGGAGGCGGACACGTGGCAGTGGCACTGGTAGCAACCCGGCGGCGGCGGCAGTAGCAGCGG
+CGGCTTCGGTCCGAGCCGCCGGCCGTCCTCCCTCGCTCCCGCCCGCGGCAGCCCTCGCTCGCCTCTCGGCTCCCCCGGCC
+GCGCTAGCTCGGCCGGGAGCTCTCTCTTCTTCTCTGTCTCATTCCCAAGCGACAGGACCCGGCGCCGGGCACAGACCACC
+GCCACCATGGGGAAGGGGGTGAGTGTCCGGCGAGCTGG
+>ref|ref|X16774.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 2)
+TTTCCCACATTCTCCTGTAGGGTGGACGTGATAAATATGAACCCGCAGCGATTTCAGAGCATGGCAACAAGAAAAAGGCC
+AAGAAAGAGAGGGATATGGATGAACTGAAGAAAGAAGTCTCTATGGTAAGTGCTAGGAGGAAGGT
+>ref|ref|X16775.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 3)
+TTGTTTCTGTTTTCCCTTAGGATGACCATAAACTTAGCCTTGATGAACTTCAGCGCAAATATGGAACAGACTTGAGCCGA
+GTATGTTCAAATTTGAAACT
+>ref|ref|X16776.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 4)
+CATCTTCCTCTACTTCTCAGGGCTTAACAACTGCTCGAGCTGCTGAGATCCTGGCCCGAGACGGTCCCAATGCCCTTACA
+CCCCCTCCCACCACTCCTGAATGGGTCAAATTCTGTCGGCAGCTCTTTGGGGGTTTCTCAATGTTACTGTGGATTGGAGC
+AATTCTTTGTTTCTTGGCTTATGGCATCCAAGCTGCTACAGAAGAGGAGCCTCAAAATGATAATGTGAGTGCTATACTTC
+CTCA
+>ref|ref|X16777.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 5)
+ACTTGTTTGTTCCCTCCCAGCTGTATCTTGGCGTGGTGCTGTCAGCTGTCGTCATCATAACTGGCTGTTTCTCCTACTAT
+CAAGAAGCTAAAAGTTCAAAGATCATGGAATCCTTCAAAAACATGGTTCCTCAGGTACCTCTCTTTTGGGCTTC
+>ref|ref|X16778.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 6)
+ACTGTTTTCCCCTCCCAAAGCAAGCACTTGTGGTTCGAAACGGTGAGAAGATGAGCATCAATGCGGAGGAAGTAGTGGTA
+GGGGATCTGGTGGAAGTGAAAGGAGGAGACCGGATCCCTGCTGATCTCAGGATCATATCTGCAAACGGTTGCAAGGTGGG
+TGGGTTCGAACAGGA
+>ref|ref|X16779.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 7)
+TTACTTTTGCTCCCGGACAGGTGGATAATTCCTCACTCACTGGCGAATCAGAACCCCAGACCAGGTCTCCAGATTTCACA
+AATGAAAACCCCCTGGAGACGAGGAACATTGCCTTTTTTTCAACCAACTGCGTTGAAGGTGTCCATATTAAGGCACTC
+>ref|ref|X16780.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 8)
+CCCCCTTCATGCTTTTTAAGGCACTGCACGTGGCATTGTCGTGTACACGGGGGATCGCACCGTGATGGGAAGAATTGCCA
+CACTTGCTTCTGGGCTGGAAGGGGGCCAGACTCCTATTGCTGCAGAAATTGAACATTTTATCCATATCATCACGGGTGTG
+GCCGTGTTCCTGGGTGTGACCTTCTTCATCCTTTCTCTGATCCTCGAGTACACTTGGCTTGAAGCTGTCATCTTCCTCAT
+CGGTATCATTGTAGCCAATGTGCCAGAAGGTTTGCTGGCCACCGTCACGGTAAGAGCCTTAGGGGAAGG
+>ref|ref|X16781.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 9)
+TGGTTGCTGACCTTTTTCAGGTGTGCCTGACCCTCACTGCCAAGCGCATGGCGAGGAAGAACTGTTTAGTGAAGAACTTA
+GAAGCTGTGGAGACCTTGGGGTCCACATCCACCATCTGCTCGGATAAAACTGGAACGCTGACTCAGAACCGGATGACAGT
+GGCCCACATGTGGTTTGACAATCAAATCCACGAGGCCGACACGACTGAGAATCAGAGTGGTAAGACTAGTACCCCCTCC
+>ref|ref|X16782.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 10)
+TCTTTTCTTGGTTTCATCAGGTGTCTCATTCGACAAGACTTCAGCCACCTGGCTCTCTCTGTCCAGAATTGCGGGTCTTT
+GCAACAGAGCAGTGTTTCAGGCTAACCAGGAAAACATCCCCATCCTTAAGGTGCGCTCAGGCGTCCTGTG
+>ref|ref|X16783.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 11)
+TCACAGCTGGGCCGTCGCAGCGGGCCGTCGCAGGCGATGCCTCCGAGTCAGCACTCTTGAAATGCATCGAGCTGTGCTGC
+GGCTCTGTGAAGGAGATGAGGGACAGATACCCCAAGATCGTGGAGATTCCCTTCAACTCCACCAACAAGTACCAGGTGGC
+CTGGGGCGCGAGGCG
+>ref|ref|X16784.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 12)
+TTTACAGTTGTCCTTTACAGTTGTCCATTCATAAGAACCCCAACACGTCTGAGCCCCAGCACCTGCTGGTGATGAAAGGT
+GCTCCGGAAAGGATCCTGGACCGCTGCAGCTCTATCCTCCTCAACGGCAAGGAGCAGCCCCTGGACGAGGAGCTGAAAGA
+TGCCTTTCAGAACGCCTACCTGGAGCTGGGCGGCCTCGGAGAGCGAGTGCTCGGTACGCAGATAACCTGGTTA
+>ref|ref|X16785.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 13)
+GCTCCCTGCCCTCCTTTCAGGTTTCTGCCACCTTTTCCTGCCCGACGAACAGTTTCCCGAAGGCTTCCAGTTTGACACTG
+ACGATGTGAATTTCCCTCTTGAAAATCTCTGCTTCGTTGGGCTCATCTCCATGATCGACCCTCCCCGAGCTGCCGTGCCT
+GATGCCGTGGGCAAATGTCGGAGCGCTGGGATTAAGGTAGCGTCCAGTCTGCGTCC
+>ref|ref|X16786.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 14)
+TGTCTTGTTTCTTGTTGCAGGTCATCATGGTCACTGGAGACCATCCTATCACAGCCAAAGCCATTGCCAAAGGTGTGGGC
+ATCATCTCAGAAGGCAATGAGACCGTAGAGGACATTGCTGCCCGCCTCAACATCCCAGTGAGCCAGGTGAACCCCAGGTA
+AGGCAGGAAGCTCGAAG
+>ref|ref|X16787.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 15)
+CTTTTCTGTCCTCATCCTAGAGATGCCAAGGCCTGCGTGGTTCATGGGAGTGATCTGAAGGACATGACCCCTGAGCAGCT
+GGATGACATCTTGAGGCACCACACTGAGATTGTGTTTGCCAGGACCTCCCCTCAGCAGAAGCTTATCATCGTGGAAGGCT
+GCCAGAGGCAGGTTCCAAGGTGGCCCTCTCA
+>ref|ref|X16788.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 16)
+CATGTCAATGTTTGTGGTAGGGTGCCATTGTGGCTGTAACTGGCGATGGTGTCAATGACTCTCCAGCTTTGAAGAAGGCG
+GACATTGGGGTTGCTATGGGGATAGCTGGCTCAGACGTGTCTAAACAAGCTGCTGACATGATTCTTTTGGACGACAACTT
+TGCCTCAATTGTGACTGGAGTAGAGGAAGGTGAGAGCACTACATTTAAA
+>ref|ref|X16789.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 17)
+AAAATATTTTGCCTTCCTAGGTCGTCTGATCTTCGATAACTTGAAGAAATCCATTGCCTACACCCTGACCAGTAACATTC
+CAGAGATCACCCCCTTCCTGATATTTATTATTGCAAACATTCCACTGCCCCTGGGGACTGTCACCATCCTCTGCATTGAC
+TTGGGCACAGACATGGTAATGATGTCGAGCTTCCA
+>ref|ref|X16790.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 18)
+CTCGCCGCCCCTACCCCCAGGTCCCCGCCATCTCCCTGGCTTATGAGCAAGCTGAGAGCGACATCATGAAGAGACAGCCC
+AGAAACCCCCAGACGGACAAACTTGTGAATGAGCGGCTGATCAGCATGGCCTACGGACAAATTGGTGAGCTGCCACATGG
+CGTC
+>ref|ref|X16791.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 19)
+TTACTTTTCTAACTTCTTAGGTATGATCCAGGCCCTAGGGGGCTTCTTCACCTACTTTGTGATTCTGGCTGAGAATGGCT
+TCCTCCCAATTCACCTGCTGGGACTCCGCGTGGACTGGGATGACCGCTGGGTCAACGACGTGGAGGACAGCTACGGGCAG
+CAGTGGGTGAGTGAGCTCCTCAGTTC
+>ref|ref|X16792.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 20)
+TTTTGCCTTTTGCGTTTCAGACTTACGAACAGAGGAAAATCGTGGAGTTCACCTGCCACACAGCATTCTTCGTCAGTATC
+GTGGTGGTACAGTGGGCCGACTTGGTCATCTGCAAGACCAGGAGGAACTCAGTCTTCCAGCAGGGGATGAAGTGTAAAGG
+ACAGTCAGGTT
+>ref|ref|X16793.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 21)
+TTTTTCCTCCTTGACTTTAGGAACAAGATCCTAATATTTGGCCTCTTCGAAGAGACGGCCCTTGCTGCCTTCCTTTCCTA
+CTGCCCTGGAATGGGTGTGGCCCTGAGGATGTATCCCCTCAAGTAAGTCCATCCTCTCCAGC
+>ref|ref|X16794.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 22)
+GGTACCTGCTTTTTCCAGGCCTACCTGGTGGTTCTGTGCCTTCCCGTACTCTCTTCTCATCTTCGTGTATGACGAAGTCA
+GAAAACTCATCATCAGGCGACGCCCTGGCGGTAATTACAGGCATTTTAGC
+>ref|ref|X16795.1|| Horse alpha-1 subunit of Na,K-ATPase gene (exon 23)
+CTGTGTGTTTGCTGCCGCAGGCTGGGTGGAGAAGGAGACCTACTACTAGACGCCATCCTGCAGCCGCGGAATCGCTCACC
+CTGCACCCCTCACCCACCCCCCTCTGTGTACTTCAGTCCCGGAAGCTCGGAACTCTACCCTGGTAGGAAGGCACCGAAGC
+ATGTGGGGGAAGCCAGACGTCCCGGAATGAAGCATGTAGCTATATGGGGGGAGGGGGGAGGCTGCCTGAAAACCATCCAT
+CTGTGGGAATGACAGCGGGGAAGGTTTTTATGTGCCTTTTTGTTTTTGTAAAAAGGATAACTCGGAAAAGACTGAAAGAA
+TACATTTTATATCTGGATTTTTACAAATAAAGATGGCTATTATAATGGAATTTGCCTCATGTCCTTCATCACTTCTGTGG
+TCCAGATGTCTGTGTGTTGTGTGAGGATCTGAGCTCACGGGGGCTGCTGCACAGTCCCCAGCCTGGAGACAGGTGCCTGG
+GCAGCCTCTGTGGGAGGGCTAAGCTTTCCTGACGACCAGCTCGTGCAGTAAACATGTGAGCCAGGTGGTCCC
+>ref|ref|X07053.1|| Horse psi zeta and alpha 2 globin genes (BI allele)
+CCTGAGTGCATCTGACCAGTGAGAATGGACCAACAGATCTTACCTGTCATGTGGGAATGTGCGACCTCAACAGCGAGTGG
+AAACAGTGCCACCACACGGATCGCCATGACAGCCATCCCCCTTCATGCGCTGGCTGGGGAGGGAGAAACTGGTCCACACG
+CAGATGTTAGGGCTCAGTCCAGGGTCAGAGCAGTGAGGGGGTCTCTGCCCCTTTCTCCGAGTACCCAGGGTCTCCCTGAG
+GCAGCCAGGGAGGTGGCCGTCGGGGGATGTGTAACAGGAGGAGCCACAGAAGAAGCTTCTCCACCAGACTCAGGCCTGGG
+CTTGGTCTGCCAGCCCCCTGTGCCCAGGGGCCCCAAACTCTCGGCTCAGATACAAAGACAGGGTCAGGCGGCCCACAGCT
+CAGCTCCACTGAACAGCAACACGTGCTCCATGTGGAAACCCAGTGACAACACACGCAACCGACCAACCGACAAGGACACC
+ACAACCCTCGTCACTTAGGGGTCATTACTGTCACTAGTTTGGTGCTGTCCTATCCAGCCCTTTCTACTACTGAAAAACAT
+TATCATATTGTATGTTCTGTAAAAAATCTTCTATTTTAAGAAAGTGCTTATAAAAAATGTTTATTATAATTACAACATTC
+AAATCAAGCTATAATTTAACTTAAAAATACATGCATAAAAGTGCACTTTGCAAGAACCCATAGGAACTGAGAGGAAGATA
+CAGGCTCATTAGAATGGCCGCCTTACGGGAAGGGAAGGGAAGCGACGTGCGTGGACAAGAGAACAAGGGTCTTGTCCAGG
+CTGTGACAGGTGGAACCGTAGGCGCGTGTGGCCCAGCCGTTGTGGAGAATCCAGGCTCCTTGCGGCCTGGGGCCCTGCTT
+GGAAAGCAGCCCCCCCAAGCTGCTGGGGGACTTGGCCCATGCTGGGGAGAACCTCAGACAGACCCTCATCTAGGTGAGGA
+GGGGGCAACACAGAAGAGGCGGGAGAGGGTCTGAGGCCAAGACTGCCACTCACACCCAGTGATGCCTGGCCTCAGTTTCC
+CTCCATGGGCCTCGGTGACTCATCAGGTGGCGTTGCTGAAGCTTTAAGGAACAGGGTGCTTCTGTCAGGGCCCGACGGGT
+TTCAGGTCATCCTTCCATTGCAAGGACAAGGAGGGGAGGGACCAGCATTACGGAGGCCAGTCTCTGGGCTGGGCTGACAC
+GTGGACCCTCGACCCAAGCCTGGGCCCCCATCTCCCTGGGCCAGGGCTCTGGCTGTGGCCCAGTGGGTGATACCCTCACC
+CCCTCACCCCAAACTGCTCGTCACTGGATCGGATAAGAGACCACCACCCTCACGGCCCCCTCCCCTCCTGACCAATGGCC
+ACACTCTGGCCCCCACCCCAGCTCCGTGTATATAAGGGGACCCTGGGGGCTGAGCACCATGGAGGCCAGTCCTGAGGACA
+CCCAGCTCCAGTCCAGCCATCACCATGTCTCTGACCAAGGCTGAGAGGACCATGGTCGTGTCCATATGGGGCAAGATCTC
+CATGCAGGCGGATGCCGTGGGCACCGAGGCCCTGCAGAGGTGAGTGCCAGACAGCCTGGGACAGGTGACAGTGTCCCAGG
+TGACACTGGTGTAGGTGACAGCGTGAGTTTAGTGAGGACAGGGGCCAGTGAGGAGGGACAGCGAGGAGGGGTCAGTGAGG
+AGGGCACAGTCAGGAGGGACAGTGGAGAAGGTCTTGAGTCGGGAAAGGTGAATCGCTCGGATGTCTGGCTGACCCCCGCT
+AGGCCTAGCAGGGACAGGCCCAGGTCCCCACAAGGAGGGGCTGCACACATTTCTCCCGAGAGAACAGAAGTGTCTTCCGG
+GGCGCCAGGCAGCAACAGCATCAGGGTCTCGCATTCTGGGGGCGGTGTCAGCAGAGGGTCCCCGCAGAGACCTTCCTTGG
+GACACGGCTGGAGAGGGCAGCATTTCCGGCAGAAGGGTCAACAGGAAGCCTGATCAAGGGCTGGGAAGGAGGCCCCTTCG
+CCAGAGGAGAGGTGACAGGGGCTGATTGGAAGCCAGGAGGCAGGCCCGGAGCCGCCCGGCCTGGAATGGGGCTGGGGGCC
+GAACACGGCCCGGCGGCGGGAGGGTGTGGACGCCGAGGAGAGGGCGCCTCCAGACGGCGGGGTGGAGCTTCGGTGGGGGG
+CCGTGGTAGGGCAGAGTGGGTGCTCGGATCGGAGGAGAGTCAGGCTTCGGCTTGCGCGGTGGCCCCACCTTCTCAAAGCA
+CGTCCGCAGTCATTCGTTCGTTCAGTCATTCTCCCTCCATCCCTACCTCGCGCGGAAGCGGGGAACGTGAATCTTTGCCC
+CTTTTGCAGACAGACGCGGGCTCCCAGGCCCAGGGGCCAAGTTCCTGGCCTGAGGTTAAACAGAATTGCGGCCCTGGGTT
+CCTCGGACACCCATCTCTGTTCCTTTTCCGCTTCCCCTCCCCCTAGCCTGCAGCAAATCTTGCCCTGGGCCAAATTATCC
+CCTTCCTCTGAATCTCCTGGGGGCAAGGGATGGGGGTAGGGAGGAACTTCTCGACGGCCGCAATCTGGCGGAACAGGTTT
+CCAACTCGATTCACTGGGCATGTCCCCGAGCAATCTGAGCCTAACGCATCAGGTGGGAAAACCTCGGGCCTCGCTGGGTC
+TTTGAAATAATTTACGCGATCAGAATGCAGGGTCGGTTCCAGGCTGGCCCCGGCCACCCCACCCCCACCCAGCCGCAGCC
+GCGGCGCCCCAGTCTCCGCGCGTCCCCGGCCACCACGCCCGGCCCCAGGGTCGATCTCTCCCGCCTGCGGCACCGGGGCA
+GGAATCTTAGCGCTCAACCCAGAACCTCTGCGGACAAGGGGACAGGAGCCCGGAGAGGGACCCTGGGAGCCCTCCAAACT
+CGATGAGGACCGTTCCGGGACCATCGGCGCCCAAGTCCGAAGGGGGACGCTGGAGGCTAAGTCCGGACGGTGGTTCGGCC
+GAAACCCGCGCCCACGCGGTCCAGGCCGCCCGTTACCCCTTGCTGCCGGGAGCGCCTGCCCACCACCGGGGGAGGAGGGC
+TTGGAGGACGTCCCCCACATTATCTCCTTCCCCGCGTCGTTTACACGGACAGTTTGCAGCTCTCGGCCTGGGGCAAAGTT
+TGGTGCCAAAGCAGCTTGTTTCACTTCGGAACCCGCAAATATACACATTGGAAGCTATCCCCCAGCCCGAGCCAAAGGCG
+AGTGACAGTGGGTTTGGGTGGCTCAGAACCCGCGTGGGCTCCCGGAACCACAGGAGAGAGAATCGAGGGTGCGGAGGAGA
+GCTGGCTCCCGGCGCGGGCGCAGGGAGTCCTGCCTGCCCCCCTCGCTCTGCTCAGCGCTTTCCCAGCCCGCAGCTCCCGG
+CACCGCGCCAGCCAATGAGCGCGGCCCGGGCGGGCGTGCCCCCCGCGCCCAGACCATAAAGCTGCGCGCTCTGTCAGCCG
+CGTACACTGCTGTCCCGGCACAGACTCAGAAACAGTCACCATGGTGCTGTCTGCCGCCGACAAGACCAACGTCAAGGCCG
+CCTGGAGTAAGGTTGGCGGCCACGCTGGCGAGTATGGCGCAGAGGCCCTAGAGAGGTGAGGACCCTCCTTTCCCCGGCCG
+GGACCCTCGGGCACAGCAGCCGCCCCAGGGGCCTGCCAGCAACCCCTCGGTGGGTTCTGGCCCGGCTGGTGCAAAGACCC
+CCAAGATGTCAGGGTCTGACCGCGGACCAGCCGGAGGAGCCCGGCCAGCACCTTCTTCCGAATCCGAGGCTCCGGACCCT
+GCCCCCGACCCCGCTACCCCACACCCACGCCGGCCCCCCGCCGCCGCCGCCCCCCCCCCCCCCCGCCCCCCGCTCACTCT
+CCTCTCCCTGCAGGATGTTCCTGGGCTTCCCCACCACCAAGACCTACTTCCCCCACTTCGATCTGAGCCACGGCTCCGCC
+CAGGTCAAGGCCCACGGCCAGAAGGTGGGCGACGCGCTGACTCTCGCCGTGGGCCACCTGGACGACCTGCCTGGCGCCCT
+GTCGAATCTGAGCGACCTGCACGCACACAAGCTGCGCGTGGACCCCGTCAACTTCAAGGTGAGCCCGGGGGCCGGGCCTG
+GCCGGGCGGGAGAGACGAGCGGGAGGCGCAGCGGGCCCTCCCAGAGGGCAGGGAACCCCGTGGGTCTCAGAAGTGGAGCG
+CGGGCGGCCGCGGCCCCGACGCCCCCTGACACCCCCTCGATCCACAGCTCCTGAGTCATTGCCTGCTGTCCACCTTGGCC
+GTCCACCTCCCCAACGATTTCACCCCTGCCGTCCACGCCTCCCTGGACAAGTTCTTGAGCAGTGTGAGCACCGTGCTGAC
+CTCCAAATACCGTTAAGCTGGAGCCACGGCGATCCCTGCCCGCGGCCCGGGGCCCTTTGCGCTCCGCGTGCCCGCACTTC
+CCTATCTTTCAATAAAGTCTGATGGGCTGCATGCAGCCTGCGTGCCTCGGTTCTCTGTGTCCGCGAATGTGCCAGGGGTG
+GGGGTGGTCTGTCTGATCAAGGACCTCCCAGGAGCGGGCAGAGAGGGAAGGGAAGAAAAGGGTGGAGGAGGGAGTGGAGC
+TAAGACACATGCTTCAGGGAATCGCTGCACTGTGCTCCTGTGCTGGGAGGTGCCCGACTTCGCAGGGTTCCTCCCTGGCA
+TGGGACGTGGGGAGTTGTAAGATCGCCACCCTGTTTGAAGTCTCTGACTGATGCCCGTTGAACATATAATCTAGATCAAA
+ACAAACCACAAACATAGGCGGCTCCCGTGCAAATGCAGGCATTGGACAATATCTAGAAGATCCACTCGTTCCACCAGAAG
+GAAGGTTGCTTGGAATGGGCGCCGCAGCCTGGCGCACCCTCCCTGCCTCACAGCAATCCTTGGGAGCGGCAGGCAAGTGG
+GGGCGGGGGAGAGAGGACCTGAGTCAAGGCACTTAGGAGAGCACTGTTCCCTCGTTCCTGCAGGTTACCAGGCATTGCGT
+GCCCAGCCCTGCATCCCCCAGCTAATTGCTTCCCCATTCTCCAGCCAGAGGCTCCTGGGGTCTGCCAGCGGTTCTGCGCC
+GCGCTGTGAGCCACCTTCAGTAAGGCCCCTGTCCAGGTGCTGAAGCCCT
+>ref|ref|Z18645.1|| E.hemionus gene for large subunit rRNA
+TTCTAGTATTAGAGGCACTGCCTGCCCAGTGACATCTGTTTAAACGGCCGCGGTATCCTAACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAGGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTCCAATCAGTGAAATTG
+ACCTTCCCGTGAAGAGGCGGGAATAGCCAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAACTGATTCACAAAAAAT
+AACATACAAACCTAACCCCCAGGGACAACAAAACTTTTGATTGAGTCAGCAATTTCGGTTGGGGTGACCTCGGAGAACAA
+AACAACCTCCGAGTGATTTAAATCTAGACTAACCAGTCAAAATACATAATCACTTATTGATCCAAACCATTGATCAACGG
+AACAAGTTACCCTAGGGATAACAGCGCAATCCTATTCCAGAGTCCATATCGACAATTAGGGTTTACGACCTCGATGTTGG
+ATCAAGACATCCTAATGGTGCAACCGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18644.1|| E.hemionus gene for small subunit rRNA
+CCCTAAACTAAAATAACTCATCACAACAAAGTTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGG
+CGGTGCTTTATATCCCTCTAGAGGAGCCTGTTCCATAATCGATAAACCCCGATAAACCCTACCATCCCTTGCTAATTCAG
+CCTATATACCGCCATCTTCAGCAAACCCTAAACAAGGTACCGAAGTAAGCACAAACATCCAACATAAAAACGTTAGGTCA
+AGGTGTAGCCTATGGGATGGAGAGAAATGGGCTACATTTTCTACTCTAAGAACAAGAATTTAACCCAGACGGAAGTCTCC
+ATGAAATTGGAGACCGAAGGAGGATTTAGCAGTAAATTAAGAATAGAGAGCTTAATTG
+>ref|ref|X01086.1|| Equine BII alpha-1 globin gene
+TCCTCGCCAGCCAATGAGCGCGGCCCGGGCGGGCGTGCCCCCCGCGCCCGGACTATAAAGCTGCGCGCTCGGCCCGCCGC
+GTACGCTGCTGTGCCGCTGCTGGTCCTAGCACAGACTCAGAAACAGTCACCATGGTGCTGTCTGCCGCCGACAAGACCAA
+CGTCAAGGCCGCCTGGAGTAAGGTTGGCGGCCACGCTGGCGAGTTTGGCGCAGAGGCCCTAGAGAGGTGAGGACCCTCCT
+TTCCCCGGCCGGGACCCTCGGGCACAGCAGCCGCCCCAGGGGCCTGCCAGCAACCCCTCGGTGGGTTCTGGCCCGGCTGG
+TGCAAAGACCCCCAAGATCTCAGGGTCTGACCGCGGACCAGCCGGAGGAGCCCGGCCAGCACCTTCTTCCGAATCCGAGG
+CTCCGGACCCTGCCCCCGACCCCGCCACCCCACACCCACGCCGGCCCCCCGCCGCCGCCGCCCCCCCCCCCCCCGCCCCC
+CGCTCACTCTCCTCTCCCTGCAGGATGTTCCTGGGCTTCCCCACCACCAAGACCTACTTCCCCCACTTCGATCTGAGCCA
+CGGCTCCGCCCAGGTCAAGGCCCACGGCAAGAAGGTGGGCGACGCGCTGACTCTCGCCGTGGGCCACCTGGACGACCTGC
+CTGGCGCCCTGTCGAATCTGAGCGACCTGCACGCACACAAGCTGCGCGTGGACCCCGTCAACTTCAAGGTGAGCCCGGGG
+GCCGGGCCTGGCCGGGCGGGAGAGACGAGCGGGAGGCGCAGCGGGCCCTCCCAGAGGGCAGGGAACCCCGTGGGTCTCAG
+AAGTGGAGCGCGGGCGGCCGCGGCCCCGACGCCCCCTGACACCCCCTCGATCCGCAGCTTCTGAGTCATTGCCTGCTGTC
+CACCTTGGCCGTCCACCTCCCCAACGATTTCACCCCTGCCGTCCACGCCTCCCTGGACAAGTTCTTGAGCAGTGTGAGCA
+CCGTGCTGACCTCCAAATACCGTTAAGCTGGAGCCACGGCGATCCCTGCCCGCGGCCCGGGGCCCTTTGCGCTCCGCGTG
+CCCGCACTTCCCTACCTTTCAATAAAGTCTGATGGGCTGCATGCAGCCTGCGTGCCTCGGTTCTCTGTGTCCGCGAATGT
+GCCAGGGGTGGGGGTGGTCTGTCTGATCAAGGACCTCCCAGGAGCGGGCAGAGAGGGAAGGGAAGAAAAGGGTGGAGGAG
+GGAGTGGAGCTGGTAGGCTGCCTGGGGTTTGCTGCAACCCCCCACTGTCACCCTGGAGAGCTTTGCTATGCACGTTGGCC
+TCTTCCTGCATTTCATTCCTTGCAGACTCAACACGGGTTTATTCAAGCAAT
+>ref|ref|Z11811.1|| Felis catus interphotoreceptor retinoid binding protein gene, exon 1
+TCAAGAGTCGTGAGATCCTCGCCATCTCGGACCCTCAGACTCTGGCCCATGTGCTGACGACTGGGGTGCAGAGCTCCTTG
+AACGACCCTCGCCTGGTCATTTCATACGAGCCCAGCACCCTCGAGGCTCCCCGGCAAGCCCCAGCACTCACCAACCTCAC
+AAAAGAGGAAATGCTTGCCCGGCTGCAGAAGGGCATCCGCCACGAGGTTCTGGAGGGCAATGTGGGCTACCTGCGTGTGG
+ACGACATCCCAAGCCAGGAGGTGGTGAGCAAGCTGGGGGGCTTCCTGGTGGCCAGCGTCTGGAGGAAGCTCATGGGCACC
+TCTGCCTTGGTGCTGGACCTCCGGCACTGCACCGGGGGCCACGTTTCCGGCATCCCCTATGTCATCTCCTACCTGCACCC
+AGGGAACACGGTCCTGCACGTGGATACCATCTACGACCGTCCCTCCAATACGACCACTGAGATCTGGACCTTGCCCCAGG
+TGCTGGGAGAGAGGTACAGTGCCGACAAGGATGTGGTGGTCCTCACCAGCAGCCACACTGGGGGCGTGGCTGAGGACATC
+ACTTACATCCTCAAGCAGATGCGCAGGGCCATCGTGGTGGGTGAGCGGACTGTGGGGGGTGCCCTGGACCTCCAGAAGCT
+GAGGATAGGCCAGTCTGACTTCTTCCTCACCGTGCCCGTGTCCAGGTCCCTAGGGCCCCTGGGAGGGGGCAGCCAGACAT
+GGGAGGGCAGTGGGGTGCTGCCCTGTGTGGGGACACCAGCCGAGCAGGCCCTAGAGAAAGCCCTGGCCATCCTCACTCTG
+CGCCGGGCCCTGCCAGAGGTTGTCCAGCGCCTGCAGGAGGCCGTGCAGACCTACTACACCCTGGTGGACCGTGTGCCCAG
+CCTGCTGCACCACCTAGCCAACATGGACTTCTCCGCAGTAGTCTCGGAGGAGGACCTGGTCACCAAACTCAACGCTGGCC
+TACAGACTGTGTCTGAGGACCCCAGGCTCCTGGTGCGGGCCGTGAGGCCCAAGGACGCCTCTTCTGCGCCCGAGGTTGGC
+GAGGATGAGCCTCCGGAGGTAGTCCCCACGGTGCCCGGAGCTGAGGCTGCCCGGCAGGCCCTGGTGGTCTCTATGTTTCA
+GGTGTCAGTGCTGCCAGGCAATGTGGGCTA
+>ref|ref|X06372.1|| Felis catus repetitive DNA satellite monomer FA-SAT
+TCCTGACCGGCACCGTCCCTTGTGCCCTCAACTCAGCCCTTCGGGGAGACCACTGCCCTGCTGTGGGTTCGGCGCCTGGA
+ACCTCCTGGGACCTAACCCTAACCCTAACCCTACCCCGAACCGGGACCCTCCCCCGAAACCTAAGCCTGCCTCGATCCCT
+AATCCTGCATTTGAGCCGCCTTCTGGCATGGGCCCTCACTTCAGCCCTCGAGGGAGATCACGAGACCGGAGTCGCTTCGG
+CCCTGGCGACGTCCCTGGCCCGAACCCTAACCCTAGCTAAGGCTCTCCCCTCATGGGGACCCAATTCCAACGTCTGACAG
+CATCACGCGCCTGGGGTCCAGAAGCGGTGCAGGCTGACTCGGCAAGGCACCTGGAAGCTCACCATGTCGTTTCCCAGGCC
+CGGCTGCAGCTCCCGAGAGGATTGCGGAGGCCTCCTCGACCGCGGGAGGAACAACATGTGTGGCCGTGGCAGCCAAAGAG
+GGA
+>ref|ref|X60725.1|| Feline immunodeficiency virus ENV gene for envelope precursor glycoprotein
+ATGGCAGAAGGGTTTGTAGCCAATGGACAATGGATAGGACCAGAAGAAGCTGAAGAGTTAGTAGATTTTGAAATAGCAAC
+ACAAATGAATGAAGAAGGGCCACTAAATCCAGGAATAAACCCATTTAGGGTACCTGGAATAACAAAACAAGAAAAGCAGG
+AATATTGTAGCACAATGCAACCCAAATTACAAGCTCTAAGGAATGAAATTCAAGAGGTAAAACTGGAAGAAGGAAATGCA
+GGTAAGTTTAGAAGAGCAAGATTTTTAAGATACTCTGATGAAACTATATTGTCTCTGATTTACTTGTTCATAGGATATTT
+TAGATATTTAGTAGATAGAAAAAGGTTTGGGTCCTTAAGACATGACATAGATATAGAAGCACCTCAAGAAGAGTGTTATA
+ATAATAAAGAGAAGGGTATGACTGAAAATATAAAATATGGTAAACGATGCTTAGTAGGAACAGCAGCTTTGTACTTGATT
+CTAGCTATAGGAATAATAATAATAATACGGACAACCGATGCTCAGGTAGTGTGGAGACTTCCACCATTAGTAGTCCCAGT
+AGAAGAATCAGAAATAATTTTTTGGGATTGTTGGGCACCAGAGGAACCCGCCTGTCAGGACTTTCTTGGGGCAATGATAC
+ATCTAAAAGCTAGTACAAATATAAGTAATACAGAGGGACCTACCTTGGGGAATTGGGCTAGAGAAATATGGGCAACATTA
+TTCAAAAAGGCTACCAGACAATGTAGAAGAGGTAGAATATGGAAAAGATGGAATGAGACAATAACAGGACCAATAGGATG
+TGCCAATAACACATGTTACAATATCTCAGTGATAGTACCTGATTATCAATGTTACATAGACAGAGTAGATACTTGGTTAC
+AAGGAAAAGTAAATATATCACTATGCTTAACAGGAGGAAAAATGTTGTATAATAAAGAAACAAAACAATTAAGCTATTGT
+ACAGACCCATTACAAATCCCACTAATCAATTATACGTTTGGACCTAATCAAACATGTATGTGGAACATTTCACAAATTCA
+AGACCCTGAAATTCCAAAATGTGGATGGTGGAATCAACAAGCTTATTATAACAATTGTAAATGGGAGCGGACTGATGTAA
+AGTTTCAGTGTCAAAGAACACAGAGTCAGCCTGGGTCATGGATTAGGGCAATCTCGTCGTGGAAGCAAGGGAATAGATGG
+GAATGGAGACCAGATTTTGAAAGTGAAAGGGTGAAAGTATCGCTACAATGTAATAGCACAAGAAATCTAACCTTTGCAAT
+GAGAAGTTCAGGAGATTATGGCGAAATAACGGGAGCTTGGATAGAGTTTGGATGTCATAGGAATAAATCAATACGTCATA
+ATGCAGCAAGGTTTAGAATTAGATGTAGATGGAATGAAGGGGATAATAACTCACTCATTGATACATGTGGAGAAACGCAA
+AATGTTTCAGGTGCAAATCCTGTAGATTGTACCATGTATGCAAATAAAATGTATAATTGTTCCTTACAAGATGGGTTTAC
+TATGAAGGTAGATGACCTTATTATGCATTTCAATATGACAAAAGCTGTAGAAATGTATAACATTGCTGGAAATTGGTCTT
+GTATGTCTGACTTACCAACAGAATGGGGATATATGAATTGTAATTGTACCAATGACACCTCTAATAATAACACTAGAAAA
+ATGAAATGTCCTAAGGAAAATGGCATCTTAAGAAATTGGTATAACCCAGTAGCAGGATTAAGACAATCCTTAGAAAAGTA
+TCAAGTTGTAAAACAACCAGATTACTTACTGGTACCAGAGGAAGTCATGGAATATAAACCTAGAAGAAAAAGAGCAGCTA
+TTCATGTTATGTTAGCTCTTGCAACAGTATTATCTATGGCTGGAGCAGGGACGGGAGCTACTGCTATAGGGATGGTAACA
+CAATATCATCAAGTTCTGGCAACTCAGCAAGAAGCTATAGAAAAGGTGACTGAAGCCTTAAAGATAACTAACTTAAGATT
+AGTTACATTAGAGCATCAAGTATTAGTAATAGGATTAAAAGTAGAAGCTATGGAAAAATTTTTATATACAGCTTTCGCTA
+TGCAAGAACTAGGATGTAATCAAAATCAATTCTTCTGTAAAGTCCCTCCTGAATTATGGAGGAGGTATAATATGACTATA
+AATCAAACAATATGGAATCATGGAAATATAACTTTAGGAGAATGGTATAACCAAACAAAAGATCTACAAAAAAAGTTTTA
+TGGGATAATAATGGATATAGAGCAAAATAATGTACAAGGGAAAAAAGGGTTACAACAATTACAAAAGTGGGAAGATTGGG
+TAGGATGGATAGGAAATATACCACAATATTTAAAAGGATTATTAGGAAGTATCGTAGGAATAGGATTGGGAATCTTATTA
+TTGATCTTATGTTTACCTACATTGGTTGATTGTATAAGAAATTGTATCCACAAGATACTAGGATACACAGTAATTGCAAT
+GCCTGAAGTAGACGGAGAAGAGATACAACCACAAATGGAATTGAGGAGAAATGGTAGGCAATGTGGCATGTCAGAAAAAG
+AGGAGGAATGA
+>ref|ref|X16582.1|| Feline mRNA for preprogastrin
+CCCAGGCTGGCTATAGCATCACCAACCTCCCGGCTCTGCAGACAAGATGCAACGACTGTGTGTGTGCGTGCTGATCTTGG
+CACTGGCTCTGACCGCCTTCTCTGAAGCTTCCTGGAAGCCCCGCTCCCAGCTGCAGGATGCACCCTCGGGTCCAGGGGCC
+AACGGGGGCCTGGAACCACATTGGCTGAACCGGCTGGGCCCAGCCTCTCACCACCGATGGCAGCTAGGGCTCCAGGGTCC
+CCCACAGCAGGTGGCAGACCTGTCCAAGAAGCAGGGACCGTGGCTGGAGGAAGAAGAAGCAGCATACGGATGGATGGACT
+TTGGCCGCCGCAGTGCAGAGGACGGGGACCAACATCCCTAGAACGGAGCTTCAGAGCCCAGCCTCTCCCCAGCCCAGCCC
+AGCCCAGCCCAGCCCAGCCCCATGAAAAACCAATCAAAATAAACTAGCTTCCGATGG
+>ref|ref|X06297.1|| Felis catus c-sis proto-oncogene, exon 1 and joined CDS
+TAGCACTCTCCCTTCTCCTTTATAAAGGCCGGAACAGCTGAAAGGGTGGCAACTTCTCCTCCTGCCGCCGGGAGCAGCCC
+GCCTGTCTCCCCGCGCGCCCGCAGCCTCCCCCGCTGCCTCCCTGAGGGCTCCCCTCTGGCCGCCAGCGCCCATCTTTCAT
+TTCCGAGATTGCGATATTTTGCGCACACACGCATACACACACGCGCAAAAAGGGGGGGAAAAAAGGGCCCACCCTCCAGC
+CTCGCTGCAAAGAGAAGCCGGAGCAGCCGCAGCTCACAGCCCAGAGGACGCCCAGAGCGGCAGCGCGCAGACAGACGGAC
+CGACGGACTCCGCCGCGTCCACCTGTCTGCCCGGCCCGGCACTGCGCGCACGGGCACGGCCGAGCGCGGAGCAGCCGTGC
+CCGCCGCCCGGGCCCGCCAAGGCGCACACGCTCCGGCCCCCCCCACCCGGCCCGGGCGGGAGTTTGCACCTCTCCCTGCC
+CGGGTACTCGGGCCGCCGCTGCAAAGCCAACTTTGGAAAAAGTTTTTGGGGGGAGACTTTGGCCTTGAGGTGCCCGGCTC
+TGCACTTTCCGACTTCGGGGGCCTTTCTAGAAAATGTTGCAAAAAAGCTAAGCCAGCGGGCAGAGGAAAACGCCTATAGC
+CGGCGAGTGAAGACGAACCATCGGCTGCCGTGTTCTTTTTCCTCTTGGAGGTTGGAGTCCCCTGGGCGCCCCCACACGGC
+TAGACGCCTCGGCTGGTTCGCGACGCAGACCCCCGGCCGTGGATGCTCGCTCGGGCTCGGGATCCGCCCAGGTAGCGGCC
+GGACCCTGGTCCCGCGCCCAGGCCCTCCCCAGCCCCCCAACGACGGAGCCGGGGCCGGGGGCGGCGGCGCCGGGGGCCAT
+GCGGGTGAGCCGGGCGGCGGCTGCAGCGGCCTGAGCGCCTGATCGCCGCAGACCCGAGCCGAGCCCACCTCCTTCCCCAG
+CCCCCGCCCCCCACCCTGGCCGCGGGGGCGGCGCGCTCGGTCCACGCGTCCGGGGCCCCGCGGGGCCGGGCCCGGAGTCG
+GCATGAATCGCTGCTGGGCGCTCTTCCTGTCTCTCTGCTGCTACCTGCGTCTGGTCAGCGCCGAGGTGAGTTGCGACGGC
+GGCGG
+>ref|ref|X06298.1|| Felis catus c-sis proto-oncogene exon 2
+CCATGGTGTCTCCCTGGCAGGGGGACCCCATTCCCGAGGAACTCTACAAGATGCTGAGTGACCACTCAATCCGCTCCTTC
+GATGACCTCCAGCGCCTGCTACACGGAGACTCCGTAGGTAAATTGAACCTTGTTCGG
+>ref|ref|X06299.1|| Felis catus c-sis proto-oncogene exon 3
+TGCCTTGCCTTGCCTTGCAGACGAAGACAGAGCCGAGTTGGACCTGAATTCGACTCGATCCCATTGTGGAGGCGAGCTGG
+AGAGCTTATCCCGAGGGAGAAGGAGCCTAGGTGAGGCTGCAGGTAAGAATCCTCCTTTCTCG
+>ref|ref|X06300.1|| Felis catus c-sis proto-oncogene exon 4
+TGAGGCCCCCCTCCCTTCAGGTTCCCCGACGGTCGCCGAGCCAGCCATGATCGCCGAGTGCAAGACACGCACGGAGGTGT
+TCGAGGTGTCCCGGCGCCTCATAGACCGCACCAACGCCAACTTCCTGGTGTGGCCGCCCTGCGTGGAGGTGCAGCGCTGC
+TCCGGCTGCTGTAACAACCGCAACGTGCAGTGCCGTCCCACCCAGGTGCAGCTGCGGCTTGTCCAGGTGCGCGGGGGGGC
+CCGACC
+>ref|ref|X03494.1|| Cat c-sis oncogene (platelet-derived growth factor) 5' region
+CTGCAGACGACTCCCCAAACCACGTGGGCTAGAAATCAGGCCACGGTCACTGTGCTAAGGGGCGGGGCGCTCAGTCGCCC
+CTAGTTCTCCCTTCGCCAGGGCCGGGCTCCCGGAGGGGCTGCGGAGCTCTCAGAGACCCCTGAGCGCCCCGCCCCCGCCT
+CAGGCCCTCCCGGAGCTCCCCCCCCTCTTCCCGGTGCTGACTCTCGGCCAGAAGAGGAAAGGCAGTCTCCACCCACCTCT
+AGCACTCTCCCTTCTCCTTTATAAAGGCCGGAACAGCTGAAAGGGTGGCAACTTCTCCTCCTGCCGCCGGGAGCAGCCCG
+CCTGTCTCCCCGCGCGCCCGCAGCCTCCCCCGCTGCCTCCCTGAGGGCTCCCCTCTGGCCGCCAGCGCCCATCTTTCATT
+TCCGAGATTGCGATATTTTGCGCACACACGCATACACACACGCGCAAAAAGGGGGGGAAAAAAGGGCCCACCCTCCAGCC
+TCGCTGCAAAGAGAAGCCGGAGCAGCCGCAGCTCACAGCCCAGAGGACGCCCAGAGCGGCAGCGCGCAGACAGACGGACC
+GACGGACTCCGCCGCGTCCACCTGTCTGCCCGGCCCGGCACTGCGCGCACGGGCACGGCCGAGCGCGGAGCAGCCGTGCC
+CGCCGCCCGGGCCCGCCAAGGCGCACACGCTCCGGCCCCCCCCACCCGGCCCGGGCGGGAGTTTGCACCTCTCCCTGCCC
+GGGTACTCGGGCCGCCGCTGCAAAGCCAACTTTGGAAAAAGTTTTTGGGGGGAGACTTTGGCCTTGAGGTGCCCGGCTCT
+GCACTTTCCGACTTCGGGGGCCTTTCTAGAAAATGTTGCAAAAAAGCTAAGCCAGCGGGCAGAGGAAAACGCCTATAGCC
+GGCGAGTGAAGACGAACCATCGGCTGCCGTGTTCTTTTTCCTCTTGGAGGTTGGAGTCCCCTGGGCGCCCCCACACGGCT
+AGACGCCTCGGCTGGTTCGCGACGCAGACCCCCGGCCGTGGATGCTCGCTCGGGCTCGGGATCCGCCCAGGTAGCGGCCG
+GACCCTGGTCCCGCGCCCAGGCCCTCCCCAGCCCCCCAACGACGGAGCCGGGGCCGGGGGCGGCGGCGCCGGGGGCCATG
+CGGGTGAGCCGGGCGGCGGCTGCAGCGGCCTGAGCGCCTGATCGCCGCAGACCCGAGCCGAGCCCACCTCCTTCCCCAGC
+CCCCGCCCCCCACCCTGGCCGCGGGGGCGGCGCGCTCGGTCCACGCGTCCGGGGCCCCGCGGGGCCGGGCCCGGAGTCGG
+CATGAATCGCTGCTGGGCGCTCTTCCTGTCTCTCTGCTGCTACCTGCGTCTGGTCAGCGCCGAGGTGAGTTGCGACGGCG
+GCGGGGGCTGGTTCGCTTCATCCATTACGCCCACCCTCACCCCCTGGCCGCCCCCTCCCCTCCCTGCAGGGGACTTTGGA
+CCCTCGCAGCCCACGGGCCTAGCGCCGGGCGCTAGGTGACCTCCGAGGGCTGGGACGCGAGGTGCGGGAGGTGCCAGGCT
+CTGAGGGGAGGGGGCGGGGGTGGCTTGCTTTCCCATGGGCGATCCCAGATCACCGGCCCTTTTAGCGTCGGGGGAGCGTG
+TGTGTGGCCCTGTCCCCCACCCCTCAGGAACCTGAAGGGAGAGAGAGTGGGGGTGGTGCCGAGGGTGCAGAGGCCAGCGC
+GTTCTCCCGAGCCCACTTCGGTTCCAGCCTAGGTTCCGTCCAGGACCCGGCTTGCACGGGAGGTGCGAGCTC
+>ref|ref|X06301.1|| Felis catus c-sis proto-oncogene exon 5
+TCGATGGTTCTGTCCTCCAGGTGAGAAAAATCGAGATTGTGCGGAAGAGGCCAGTCTTTAAGAAGGCCACGGTGACCCTG
+GAGGACCACCTGGCGTGCAAGTGTGAGACGGTGGTGGCTGCACGACCCGTGACCCGAAGCCCGGGGAGCTCCCAAGAGCA
+GCGAGGTAAGCGCTGGTCCGGGGTC
+>ref|ref|X06302.1|| Felis catus c-sis proto-oncogene exon 6
+TCTTTCTCTCGAGCAGCCAGGACACCCCAGACTCGGGTGACCATTCGGACGGTGCGAGTCCGCCGGCCCCCCAAGGGGAA
+GCACCAGAAGTTCAAGCACACGCATGACAAGAAGGCACTGAAGGAGACCCTCGGAGCCTAGGGGCATCTGCAGGAGCGTG
+CGGGCAGGTGAGGCCAGGCGGGGAACC
+>ref|ref|X06303.1|| Felis catus c-sis proto-oncogene exon 7
+TCCCTCTGGTTGGCCTACAGGGTTATTTAATACGGTATTTGCTGTATCGCCCCCATGGGGTCCTTGGAGTGATAATATTG
+TTCCCCTCGTCCGTCTGTCTCGATGCCTGATTCGGACGGCCAATGGTGCTTCCCCCCCTCCCACGCGCCTGTCCACCCAC
+CAGCGGGTCCCCTCATTGGCCTCCAGCGCCTTGCCCGGGAGCTCGAGAAGGACACGAAGGACCTGAACTCCACTGCTGTC
+TTCCTCCGCTGACCCCGAGAACGTGGCATAGAAGTGTAAGAGAGACCCATGGGATCGCCGTTCGGGGACCGGAGGAGCTT
+CCCTTCCCCAGCTCCTGGCCCGGGTCACACCTGAGCGCCGTGGACTGGCCTGAAACCCTGCACGTGGCCCGCCCGGTCCC
+AGGACCCCTGGCCCGCTCTGAAGGGAGCACCCCCAGGCAGGCCAGGGTGCCTCGTCCTCCTGTGGCTGGGACCACGCGTT
+GGACCGTAGACTGGAGAGAAATCCTCCCACGGCGCCCAGGCCCAGTCACTTCTTTCTCCCCGGTCACCTCTGCTTATAGT
+GGCTTCCTTTCGTTTTCTATATATGAAATCTTCGAAGATGTGGACTCCTCTGGGTGGGCGTGGCCCGAGTACCCGGCAGC
+CAAGTGCCCCGTCAGATGGGTTAGAGATGAAGTTTGCTCTGGAGCCACCATGGATGGTGATCTGGGCGCTCACTGCCTCC
+TTCCACTCCCCTGCCTTCACCTCCTCTGTTTCATCTCTCTACCTCCACCCTGCGTCTTCCTCTTGTCCCGGCCTTCAGTC
+CGCTCCACCGAGGGACTCCTTGGACCCCGTGCTGAGACCGTAAATAACCCCACTCACTGCTCCATTAGGCCGAAGACCAG
+GGGTCAGGGCAGCAGGGGGCCTGCGCTTCGTATCCCAGCCCGGCCGAGACTGCCGTGTAGGTTCGTGCAGGGTGTGCACT
+GTGCAAGGCATGCGTGCAGGGGTCGTTGTTCATGCCGTAGAACATGGCCCGCTGGTGTATTTGTTAGGACAGTTTTCTGG
+CAGATGGAGCTAAAATGTCTTGAGCAAAGGGATCCTGTTCCTAATCGACATGAAGGTTCCATGTGGACTGGCTGTGTCCC
+GACCCAGCCAATGGCTTGGGGTAGTTGGACAGGAGAGTGAGCCCACGTTGGGTGGGGACGCCACGCGTTGTCCAGCTGGC
+CTCTATTTTCCTGAGTCCTCAGCTCAAGCAGTTCCCCTTCCAGGCGGGCGTGAAAAACCCAAGAGAGAATCTCCAAGGGA
+GGGGGCAGCCCTCGCTCTCCCCGGGCACGCTACCCCCCAGAGTAGATTCTTTTGAGATCCGCCCGTGGTGGCTCCTCCCA
+GGAAACCAGCTCACGGGCTGGGAGTGGGGGAGAAAAGGGAAAAGATCCCCAGGGGTCCCTGGGGTGGGGTCTGAGCTCCC
+ACCTCCCTCCCCTCCACCCCACTGCACTTTCCCCCTTACCCCCCCCCTCCAAAATCTGCTCTCTTCAGTTTGTAAAGTTG
+GTGATTATATTTTTGGGGGCTTTCCTTTTATTTTTTAAATGTAAATTTATTTATATTCCGTATTTAAAGTTGTAAAAAAA
+AAAAAATAACCACAAACAAAACCAAATGAATGAATCCACCGGC
+>ref|ref|X68820.1|| G.melas DNA for locus 199/200
+TGAAATTCTTCATCAGTTGCCATGGTGGGGATTTTTCCCTCTCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCCCCT
+TAACTGGTGAAACTGACAGTCTGCCTACATTAAC
+>ref|ref|X68821.1|| G.melas DNA for locus 415/416
+GTTCCTTTCCTTACATATGTAATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTTAATAGAGAC
+ATGTGGTTAGACTGCATTAATAGAAACAGAAATACGATGTCCAGGAAAAAGTTTGCATTTGTTCAATTCTCTTAGTTTGT
+TGGCACATTTAGATTATCTTATTTAATTCTGGAAGATACAATTCACAAGTAATATTGACAAACATTGAT
+>ref|ref|X68822.1|| G.melas DNA for locus 417/418
+GTGATATCATACAGTATTTGTCTTTCTCTGTCTGACTTATCTCACTTAGCATAATGCCCTCAAGGTCCATCCATGTTGTC
+TCAAATGGCAGGGTTTCCTTCTTTCTCATGACTGAATAATATTCCAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
+ATGATATGTGACAAACAGAT
+>ref|ref|X68823.1|| G.melas DNA for locus 464/465
+GGGGTTTCTCCTCTAAATTCATGCCCCCTCACCCAAACACACTATGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTGTGTGTGTGTGCTACTCCTCTGTAAGTCATGCCTTATCCTAACTTTCTCTTATTGGCAGATCA
+>ref|ref|Z18641.1|| G.melas gene for large subunit rRNA
U13109.1 Globicephala melas mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCCTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACTCAAAAAGCATA
+AAACAATACCACCAAGGGATAACAAAGCTTTATATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCTACTAGCCAAAGTACAGTATCACATATTGATCCAAAATTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18640.1|| G.melas gene for small subunit rRNA
+TCGTAAACTTAAATAGTCCTAGAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACATTGCACGTAAAAACGTTAGGTCAAGG
+TGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTACAATAAGAACACCCCTAAACTTAACGAAAGTTTTTATGAA
+ATCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|ref|V00471.1|| Halichoerus grypus myoglobin gene fragment encoding first exon (and joined CDS)
+CAGACAGTAGCCCAACCTCCTCCCTGCTCTTGCCACATACACAAACACCCCCACGCCCCTGTGGCCTGAGTTGTCCTACC
+TCCCCCCAAATGGCACCTGCCCCAAAATAGCTTCCATGTGAGAGCTACAGAAAGGAAAAGATTAGACCCCGCATGAAAAG
+GAGGGAGGAGGAGGAGGAGGAGAGAGAGTGAGCAAGCTGTCAAGTGATCTGTGTCAAGCTTCTGGGAAAGTATAAAATCC
+CTCTGGGGCCAGGCGATCTCAAACCCCAGCTGTCAGAGCCAGGACACCGAGTCAGCCGGGACTTGCTCTTCTTGTCTTCC
+TCAGACTGCACCATGGGGCTCAGCGACGGGGAATGGCACTTGGTGCTGAACGTCTGGGGGAAGGTAGAGACTGACCTCGC
+GGGCCATGGGCAGGAGGTCCTCATCAGGTAAAAGGAAGAGACCCCATTGCCTCTGTCACCCACTCCCCAAAGATCAAGGG
+TGTGTGCCTGTAAGGTGGAACGTTTGCCTGGGGTTGACCAGTTGGCTGCATTGGTTGAGTTTATTAAAACCCCCGCTTGG
+TTCTCCTTTGCTTGTGTCAGGGACTTGAGTCCGAAAGGAAGAG
+>ref|ref|V00472.1|| Halichoerus grypus myoglobin gene fragment encoding second exon
+AACGGCGTGTTCCTGTGTCTGACTCCCACCCTCCCTGTGCCCGCAGGCTCTTTAAGAGCCACCCTGAGACCTTGGAGAAG
+TTTGACAAGTTCAAGCACCTGAAGTCAGAGGACGACATGAGGCGTTCTGAGGACCTGAGGAAGCACGGCAACACGGTGCT
+CACGGCCCTGGGGGGCATCCTCAAGAAGAAGGGACATCACGAGGCTGAGCTGAAGCCCCTGGCCCAGTCACATGCCACCA
+AGCACAAGATCCCCATCAAGTACCTGGAGGTAGGAGGCAGGGCAGGGGCGGGTGGGGGGTGGAAGGACAGGCCTCGGAGG
+GATGCGATTTGGGTTCGAGTCCCAGCTTGGCCCACGATGCTCCTCCTTGTGCCCCAGGGCCCTCATCTGTAAAATGGCTA
+TTGCCCACTTTGCCTTCCTCATGGGGTCACTGAGAGTAAACCCACTTCCTCCCCCAAATCAGTCTGTCATCTAGGGGAAG
+AAGGGAAGAGCAGAGATT
+>ref|ref|V00473.1|| Halichoerus grypus myoglobin gene fragment encoding third exon
+GGAGCATTTCCCTTCCTTTCTGCTGCCAGCATGGGGGCAGTGTCCTGGGCTCTTGCACCGAGGTGGGCCTGGTTCCCCGT
+CGGCACCTGTCTCCCAGGGTGGTAGGGAGAGAAGGAATTAATCCACAGAGACCCCTCGATAGCACGCTTGGTGTGTAATA
+AGCCCTCGATAAATGGCCGTGGAGTAAAGAGAAGGTGGGACTCAGTCTGATTCCCATCTGGCTCCTGGCGTGTGCGCCCC
+TGTGACCAGCACCCCCTTTCGTCTCCCCCTTGCAGTTCATCTCAGAAGCCATCATCCATGTCCTGCACAGCAAGCATCCC
+GCGGAATTCGGCGCCGACGCCCAGGCTGCCATGAAAAAGGCCCTGGAGCTGTTCCGGAATGACATCGCTGCCAAATACAA
+GGAGCTGGGGTTCCATGGCTAAGCACCTGGGCGCCCCCACTCCCACCCCCACCCACTCGGGCCCCGGGGCCAAGGGTCGG
+GTGGGCCTAGATCTCCTGTAGCCATGTAGAGTTTGCTTCTGAGTGTCTGCTTTGTTTGAGAGGTGGGTGGGAGAGGCTGA
+GGGGCTGGGCTAGGCTCTTCAGGGTGGCTTCGCTGCCTGGAGACTGGGGTCCTCGTGGAGGGTCATCACCCCGGGAACCA
+GGAGACATGTGACCCTTTGCTCACTGTGGCCCCGCAGTGTTAATTCGCCTCTCTCTTAAACTCCAACCCAATTCCTCCAA
+CCTCCAAACTCAACCACACCTTCACCCTCACCTCTAATCACAAATCCAAGCCATAAACCAAGGCCTGGCCATAAAGATGC
+TCTCCCATCACCCCCCGCCCCAAAGTCTGTCTGCAGTGAGAAAGAGGTGTGGGCGGAGAGGGACAGCCACACGCATCCCG
+AGAGAGGCGACGGGGGTCTGGAACATAAGTGTGCCTTCTCAGCGAATGGAGTGACTCACCTGGTTTTAATAAAAGACCTT
+GCAGCATCACAGTCCGTGCCTGGTGATCTTCCTTTCCCAGAGCAAGTGAAGGGGCCCCCAGGGAAGAAATGGCTGGGATT
+GTGTGTGCAGACAGCCCTGGGGGGCGAGGCAGAGGGAGAGGAGGAGAGGAGGGAAACGGGGCAGGAGGGAGAGAGGGACG
+GGAAGCTGCCTTCCTTAGATCACCCCTCAGTGGCGGGGACAGTGCTGGGCACGGGGAAGGAGGGGGG
+>ref|ref|Z18643.1|| K.breviceps gene for large subunit rRNA
+AACCAGTATTAGAGGCACTGCCTGCCCAGTGACTAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTCCCCGTGCAGAGGCGGGGATAACAAAACAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAAAAAGCCA
+CAATCTAAACCACCAAGGGATAAAAAAGCTTCATATGGGCTGACAATTTCGGTTGGGGCGACCTCGGAGTATAAAAACCC
+CTCCGAGTGATTAAAGCCTAGGCCTACTAGCCAAAGCATAATATCACTTATTGATCCAAAATATTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18642.1|| K.breviceps gene for small subunit rRNA
+CCGTAAACCTAAATAGACATAGAACAAGATTATTCGCCAGAGTACTACTAGCAACAGCCTGAAACTCAAAGGACTTGGCG
+GTGCTTCATACCCCTCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTCCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAATAAAAGTAAGCATAACTACCCCACGTAAAAACGTTAGGTCAAGG
+TGTAACTCATGGGGTGGGAAGAAATGGGCTACATTTTCTACATTAAGAACACCCTTCATACTCACACGAAAGTTTTCATG
+AAACCTGAAAGCCAAAGGAGGATTTAGTAGTAAATTAAGAATAGAGTGCTTAATTGAATAAGGCCA
+>ref|ref|Z18647.1|| L.albirostris gene for large subunit rRNA
+ACCAGTTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCAC
+TTGTTCTCTAAATAAGGACTTGTATGAACGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCT
+CCCCGTGAAGAGGCGGGGATAACATAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAA
+TAATACCACCAAGGGATAACAAAACTTTACATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAACCCTCC
+GAGTGATTAAAACTTAGGCCCACCAGCCAAAGTATAATATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTAC
+CCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATC
+CTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18646.1|| L.albirostris gene for small subunit rRNA
U13090.1 Lagenorhynchus albirostris mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCTTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATAGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTATACGAAAGTTTTTAT
+GAAACCTAGAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAAAAAGGCC
+>ref|ref|Z18649.1|| L.obscurus gene for large subunit rRNA
U13114.1 Lagenorhynchus obscurus mitochondrion 16S rRNA gene, partial sequence
+GGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCACTTGTTCTCTA
+AATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCTCCCCGTGAAG
+AGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAATAATACCACC
+AAGGGATAACAAAGCTTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCCTCCGAGTGATTAA
+AACTTAGGCCTACCAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTACCCTAGGGATA
+ACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCTAATGGTGC
+AGCAGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18648.1|| L.obscurus gene for small subunit rRNA
U13091.1 Lagenorhynchus obscurus mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTATTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|ref|Z18665.1|| L.peronii gene for large subunit rRNA
U13115.1 Lissodelphis peronii mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATAGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA
+AAATAATACCACCAAGGGATAACAAAGCTTTATATGAATTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAATCC
+TCCGAGTGATTAAAACTTAGGCCTACCAGCCAAGGTGTAGTATCACTTATTGATCCAAAACTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18664.1|| L.peronii gene for small subunit rRNA
U13092.1 Lissodelphis peronii mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTATAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAATTTACACGAAAGTTTTTAT
+GAAACCTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|ref|X54714.1|| M.eugenii mRNA for alpha-casein
+AACCTCCCTTTGGCTCAAGGTTTCAGCCACCATGAAGCTGCTCATCTTCTCCTGCCTTGTGACTCTTGCTCTGGCTAGGC
+CAGATGCCCTCCGCTTATCTATTGATAGGCATTTTAAACATCGAGAACTGGAAAACCGTTTGAATGAGGATCCCATTCCA
+GTAAGTGAGGCTTCATCAAGTGAGGAATCTGTCCACCAGCTGAACAGAGACAGGCGTCCCCTGGAAAAATATGAGCTTGA
+CAAATACAGAGAGGATTTGAAGACTTCATCAAGTGAGGAATTTGTCACTCCATCTACCAATGAACGTGTCCGCAGACAGG
+TTGAATACAATTTCAATGAGGAGGATTCTTCTGCCTCAAGGGAGAGAAAGATTGAAGATTTCAGTGAACATGACCGGCAG
+TATCTGAGAAGACGGGTAGAAGAGAGAGCTCTCAATTTACGCTATCTGGAACCTCTCTATTATGCTACTGAGCCAGAATA
+CTACTACTACTACGCATATGTTCCTGTTTCCAGCCACGATATCCCCTATCAACAGAAGCCTCTGTCTCTTCTACCCGCAA
+AGTCCCACTACCTTATATCAACAGGGCTACTGAACGAGCCGTTACCTATTCTGAGAGAGAGACTAGGAAGAGGCTTCCAG
+TCCCCCTCTCTCCTGATCCTTGTTCTGACTGAAAATTCCAACCTCTTTATGGGATCTGTCTTCTATTGGTGTCTACAAAT
+AGCACATCCTATGCAGGAGATTTGATGCTCATTATTGAATGAAGAAAAAACAGAACGAAAGCAAAACAAAGCTCTGGAGA
+GTGGAATCTTTCTTTGATGTACCCACATGGCGTTATTCCTCATAATCAAAATTTGATTTAGAACTGCTCTTTCCTATATC
+CCTCTTTCAGTCCTGACAAGCCAGGTGTAGGGCATTCTAGTATGGACACATTATTTATAGGTACGGAAGCTTGTGCTGTG
+TTTCTTTAAAGGAAATGTTTAAGAAAGAGTCCTTGAATTATTTAACTTCTTAGTACTTCTTCTAGCTACTGTGTAATAAA
+ATTTTCCTTTCTCCTTGCAAAAAAAAAA
+>ref|ref|X54715.1|| M.eugenii mRNA for beta-casein
+GCTTCTCCTGATTCTTCTCTCCTCTTGAGGAAAGAAGGCTTCAGCAACCATGAAGCTCCTTATCCTCACCTGCCTTGTGG
+CCCTTGGCTTTGCCAGGCCTATGGTAGAAAAGATTTCAGAAAGTGAGGAATATGTCAATGAAGTCCCTGAGAAGCGCCTC
+AAAAGGAGGTTTCCAGTAAAGAATGAACATCAGGTTGAAATTAACCATCATCTTCGACCTGAATCTGAAATGATGAGCCT
+TTATTATCAGCCTTTTTACTGGTCTGAAGAAATGCGTAACCTCAAGATGACCAGCCTTCCAAAAGACAGAAGAATGGCTG
+TCCTTAAATCTACAGTTTCAGATGAGGTGTTTCCTTCTCTTCAGCATAAATCCCTGTCTCTTCCTAAATCAAAAGTCCAG
+CCTCTCTCTCGCCAACAGATCCTGACTTTCCATACCCTCCAAATGGTGCCTCTGTCCCACAAACTGTTGACCACTCCTAA
+GCGGGAGATGCTGCCCATTTATGAGAGAGAGAGACTACCTGCTCACAAGAGAGAGAGTCTGCTTGCTCACGAGAGAGAGA
+GTCTGCTTGCTCACGAAAGAGATATTCTTGTTCCTCAAAGAGAGATGTCATTTGTTCCTGAGAGAGAGTTTCTATTTGCT
+TCTGAGAGAGTAGTTCTACCCGAACAAGAGAAAGAGATTCTACACAATGATGAGAGAGAAGTTCTAGCTGTTCACAAGAA
+AGAGATTCTGCCTCCTTTTGAGAAAGAGAAGGTTCTGCCTCTTCTCCAGCACAGAGTTGTGCCTCTTCCCCAGAGAGAGA
+TTGTACCTCCTTTTCAGAGAGAGACACTATTGCCCGAAGAGATTTTGCCTGTTAATCAATGGGAACTCATGCCTGAAGTG
+GTACCTTTTGATCCCTATCCATTCCTTCAACCAGTGGCCCCCTTCTACTATTCCACGGAGCTGAATGAGAAAAACTAACA
+GGATCACTCAAATGACTATATCCTCCTGGCATTGATTGACTGTGGCTAGAATCTATTGTCATATCTCACTCATTTTTGGT
+GTTGGAAGTCAGTCCTGTCCTCCTTGCATCTTCTGGCATACACCATTTTAATTGGAATTTTTGAAGGATTCACCATATAC
+CAGTTCCCAGATTCAGAAGGGCCATTTTAAGTGACCCCTGGGTGAATTAAGCAAGTTTGCCAAGTTTCTTTCATAGTCAT
+TTTGTAAGGACAGTTTCATGAGCTGTATTTCTTGTCAATGCCAGGATGCCTAACAGTTCTGTATGTGGTCATCTTCTCTT
+TTTCCAGCTCCTGCAATAAATTATCCCTGTGGGCACACTGCAAAAAAAAAAAA
+>ref|ref|X15213.1|| Tammar wallaby (M.eugenii) late lactation protein (LLP) mRNA, complete cds
+AGCTTCATTGGGTGAGTGACTAAGGAGGAGAAGCTCCTATAAACCCTTTGTCAAGATGAGGGTCCTGTTCCTCACCATTT
+CACTAAGCCTGTTCTCCATTATCCATGCTGATGACTTTGCATTTTCTGAATTTAAACCATCGGAGGGCACATACTATGTA
+CAGGTTATCGCAGTAGACAAGGAATTTCCTGAGGACGAGATACCTAGGGACATTTCACCTTTGACCATTACCTACCTTAA
+CAATGGCAAAATGGAGGCCAAATTTACCGTGAAGAAGGACAACAATTGTGAAGAAATTAATTTGACGTTGGAAAAAATAG
+ATGAACCCAGGAAAATTACCACGACCAGGCACCTACATCACATCTGTGACACAGTAAGGACTTCTGAGGAGAAATATTGG
+ATTCTCTCATGTGTAAGAGAGTTTCAAGGCACTCAAATCAGAGAGGCAGAACTTGTGGGTCCTAATACAGATGAGAACCC
+CAAAGCCCTGGAAGATTTTTACAGGTTTATCAACAGAGAAAGATTTGTGGAAAGAAGAATCATCACTCCCAGACAAACTG
+AGGCCTGCACCTCAGAAAATGCTTAAGGAGAAGATGTTTCCTTTCAATATACAGAATCAATACAGTGAAGGAAATCTGAG
+CCATCTCTTCAGATGACAAGCATTCCTTGTTCCTGGGTCCAGCATAACCTCCTCCCTCATTACCCCAGTACCATTATCCA
+ATTCTAACATGCTACATAAATGTATGAAGCAATC
+>ref|ref|Z18651.1|| M.europaeus gene for large subunit rRNA
U13116.1 Mesoplodon europaeus mitochondrion 16S rRNA gene, partial sequence
+AATCAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTACTCTGACCGTGCAAAGGTAGCATAAT
+CATTTGTTCTTTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAACCAACCCAAAAAATATA
+AATTTAAACCACCAAGGAATAACAAAACTTTATATGGGTTGACAATTTTGGTTGGGGTGACCTCGGAGCACAAAAAAACC
+TCCGAGTGATTAAAACCTAGGCCTACCAGCCAAAGTGTTAAATCACTTATTGATCCAATTTTTTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTTTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGTAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18650.1|| M.europaeus gene for small subunit rRNA
U13093.1 Mesoplodon europaeus mitochondrion 12S rRNA gene, partial sequence
+GTAAACCTAAATAGTCTCAAAACAAGACTATTCGCCAGAGTACTACTAGCAATAGCCTAAAACTCAAGGGACTTGGCGGT
+GCTTCATATCCCTCTAGAGGAGCCTGTTCTATAATCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTCCAGTCTA
+TATACCGCCATCTTCAGCAAACCCCAAAAGGGAACGAGAGTAAGCATAACTATCTTGCATAAAAACGTTAGGTCAAGGTG
+TAACCTATGGGGTGGGAAGAAATGGGCTACATTTTCTATATTAAGAACATCCCTACGTCCATACGAAGGTTTTTATGAAA
+TCTAGAAACTAAAGGAGGATTTAGCAGTAAACTAAGAATAGAGTGCTTAGTTGAATAAGGCC
+>ref|ref|X69472.1|| O.aries gene for insulin-like growth factor-I, exons W, 1 and 2
+CAACCCCTTTCAAAACCAATCAGGTTTTCCTTTGAGGGCACCCACCTCTGCAACAGCTTCCTGGCCATGGCATAAAGACC
+TAGACAAGAGTTTCAAGCAAACCTTTGTTTTTAGTCGAAGCATCAGGATCACTGTGTCCCCTGAGAATAAGAGGGAGAAA
+TACAAGGTCCAGGCTACTCCCACCATTCCAGAAAACCATGCCCCAATAGACCCCAGGGAAAGTGGGATGTCTAACCTGGG
+CTTTTGCAATCTTATTTCATAATCCACTTTCTTATCGCCTCCTTCACAAAACTGATGAGAAATTGGTACAAACTCTATCG
+ACAAAAGATCACAACTTGATCCTCAATGGCAAAGGCAAGTATACATTATAAATAGCAAAACAGCTGGCTTGGACCATGTT
+GCTGGCCACTCATCCAGCTGAGAGATTTGAATGACATCATAACCCTTGAGAGGGTATTGCTAGCCAGCTGGTGTTATTTA
+GAATACACAAAAAGGGGGGAAAGAAAATGCACTCACATGCACACACACACAAATACACACACACACACACAGGTTCAAGT
+TATGCAGAAAAATATGAACAGTGGGAAAATCATTTGCCTCTCAGATGCCCTTCCCCTGGTGTGGGGTGGGGGTCGGGGTG
+GGGGCCAAGCAGCAGAATAGAGGAAGGAAGAAAGAGATTCGATTTTATTTTTTCAGTTGGCTTTACAGCTCAGCAAAATC
+TTTGCCCTGTCGTGGGCAAAAAGCATGAGACAGTGTCCTGAGGGGAGCCAATTACAAAGCTGCCTGCCCCTTTCCAGGTT
+CTAGGAAATGAGATCATTCCCCTCACTTGGCAACCAGGACGAGGGGTCATCCCAGCGCCGTCTTCCAGTCTAGTTTACCC
+CAGTCGTTTGAGGGTTAAAATCATAGAGTATGCTTGAGATGGTCTTTTTTTCATTTCTTGTTTTTTAAATTTTGTGTTGG
+CTCTGGAATATAAAATTGCTCGCCCATCCTCCACGAATATTCCTTTCATACGGGTAAGGTGTATTAGCAGATGTGTGTGT
+CTTCATGCCCGGTAGAAAGTTAATCAGAGGACAGCATCAGGATTTTAATGTCTGCTCCTCTTGTCACTAACACACATTCT
+TTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTTTAAAATGCAAAGGTATGATGTTATTTGTCACCATGCCCAAAAAAGT
+CCTTACTCGATAACTTTGCCAGAAGAGGGAGAGAGAGAGAAGGCAAGCGTTCCCCCAGCTGTTTCCTGTCTACAGTGTCT
+GTGTTTTGTAGATAAATGTGAGGATTTTCTCTAAATCCCTCTTCTGTTTGCTAAATCTCACTGTCACTGCTAAATTCAGA
+GCAGATAGAGCCTGCGCAATGGAATAAAGTCCTCAAAATTGAAATGTGACATTGCTCTCAACATCTCCCATCTCCCTGGA
+TTTCTTTTTGCCTCATTATTTCTGCTAACCAATTCATTTCCAGACTTTGCACTTCAGAAGCAATGGGAAAAATCAGCAGT
+CTTCCAACCCAATTATTTAAGTGCTGCTTTTGTGATTTCTTGAAGGTAAATATTTCTTACTCTTTGAAGTCATTGGGGAA
+TTTTCTTTAAATTGTGTACTGCTTGCTTCTGCTTAGAAATGTTCTTCACTTTAGAATTTTCATTGTTTCGGCACTGGGAG
+TTATTTATAAATTGCTGAATATGCAATTCTGTGGGATCTGAAAAAATAGCTCCGGGAGATAAATGCCTTTGCACAGATAT
+CTGTATGAGTAAAAACTATTGCAAGGTACTTATGCTAAATCCTCCACTTCTTCAGGGCTTGAGTGGTGTCATTATAGAAG
+ATTCCTTTAAATCCTGTCTATGGTTAAGGGCTATAGGGCATGGATATGAACTTTTGGATTTTTTTTGCAGGTGCAGATGT
+TTTATTTTTAAGACCATGTTCATGTGTATGTAGGGCTGTGTGGTGTGTGTGTGTGCGTGTGTGTAACTGGCCAGGACTTT
+TGATTACAAGACATGCCACATACAAAGAGTTACGTTTTAAATGATATTAAAGCTTTTAAATATGATCTTTGGAGCTAAGG
+TCCCGGAACTCTCTGCACTTATGCCCAGAGAGTCAAAGTTAGAGTGAAGTTTCATTTGCTCTTCTGAAAAAGAACTCCTT
+AAGAACTCCTGCTGACCTTGCATATTCGGATAATTTAAACAAATGCACACTGTATATGGAAAGCGGAAACTTTCTAGCAA
+CTGCTATTCCAAGTTTTTTCTTTTGAAGAGGACTCTCAGGGGCGAAGTTTGGACTTGGGGTCTTGTGTTGTAAAACACGG
+GTTTTGTATTTGGGATTGTAAAGTCTCTTTAGGTGAATTTGGCTAGCGCTGTCAATGCACTGACTTCGCCTTTCCAATAA
+CTGGCCCTAGTTCAAGTTTCCATTCTCAGCAAAATTATATCTTTCAAGACTTGTATTTTTCCAATTTGCAAGCATTTTTA
+AGCTGCTGTCACTGGCTCCCCGATGCAATTGCCTGTGGGCTCAATTCATGATCCGTCCCTACCGCTTAGTCCAACACTTA
+TTTGCCGGCTTTCCAGCACTCCACCACTAGGACGTTTCTTAGTCAAGTCAGTGGCTTAGGAGTTAAGAATACATCCTTGT
+CGGGCACCTGATCCTGCCGCCCTTGAGAAGCCAAGATGCACACTGCCTACCTTGCTTTTAAAAGAAATGAAGTCAGTATA
+CACATATGCTATGTGGTCTGACAGCTGGGGATTTTGTATCCCTACTTAGAGGATCCTAAAAGGGGCTGTGTAGTGTTATC
+TCTGCATTAATTACAAGTTTGGAAAACTCCAAATGAACTTTCCATGCTGTGTATGCTGAACTTTTCAGAAGTAGAGCTAG
+CTAGCCATAAGTTGTTGCTTTTTCCTGTACTTGAAGCAGGAAGTGGTTTCAGGGAGCTACGTGGTTCTTTCAAATGTAAT
+TCAATGAGTAAAGGTGTCTGCCAGGCAGAGCTCACAAGCTGATTGTACTGTGAGTCTCAAGATATTTCCAAGTGTTTGAG
+TCAGAGGAAAGAGGGCACAGGGGAGGACTGGAGCTTCGGTCCCTGTCCAGGACGGCTACAATAGGCACACGATGGAAATC
+AGTGGCTTGATTGGGAGGAAAAGATTGACTCAGATCCCAGCCGTGCAATTTGTTTATTGTCTGAATGGACAAAAGGCAGT
+TTACCCAGGCTCGTAGCATACCTGCCTGGGTGTCCAAATGTAACTAGATGCTTTCACAAACCCCACCCACAAAGCAGCAC
+ATGTTTTTAAGTCCTCAGTTTTCTATTCACATCAGTCTCATAATACCCACCCTGACCTGCTGTAAAAGATCTGGAACAAA
+CAAAAATGGTTACACCTACAGTGAGTATTTTCTTATGACTATTGCCCTCAAATTTTGCTGGGCATTTTTATTATAACCCA
+GACATCTGGAACCAATTGATATTCCATTTATTTAAGATAAAAAGAAAGGTTTTTAAAATTTTGGATTTGTGAATGATTTT
+TGAGAAAGAGTGCTCTGAAATTTTTTTTTCTCGTCTCTTTCTAGTTCTTCTTTCATTTCTTTCTTTCAGATCTCTCCTTT
+CTCTCTCTTCATTTCTTTTGTGTTTGGAAAAATAAAAGACCAAGGAAATGATGAACATATGGGGCCACTCATTTCAAACT
+TTTAACTCCTAAGCAAGTTCTTCATTGTTTTCTTTTGGGGGAACATAATGTGATAAATTCTCTGGTTCTCTGTGGGTGTG
+ATGGACTG
+>ref|ref|X69473.1|| O.aries gene for insulin-like growth factor-I, exon 3
+AAAGTCAGATAGCATGATGCCAAGACCTGCTCAGAGGTCACTCACACACCTTGTTGCACTCCTGAGGGGAGAGTTTTGAT
+TAATAACAGGAATGCAGAGATGGGGTAAAGGCACCCTTGCCTTGCCCCCACTCCCCTGGCAAGGACCCAGGAGGAAGATG
+ACCCTCCTTCTGCTCTTTCAGCAGGTGAAGATGCCAGTCACATCCTCCTCGCATCTCTTCTATCTGGCCCTGTGCTTGCT
+CGCCTTCAGCAGCTCTGCCACGGCGGGACCCGAGACCCTCTGCGGGGCTGAGTTGGTGGATGCTCTCCAGTTCGTGTGCG
+GAGACAGGGGCTTTTATTTCAGTAAGTAGCCTCCCTCTCGCTGCTCTGTGGATTTACAACTGCGGGGAGTGTGTGAAGAG
+CTGAATGACCGCCTGTGGCTGGCAGCCATCCTCAGCCTCCGAGATTCCTCACCCTAATGCGAGCCTAGTGTTTCAGCGGG
+GCCGTGGCACGTTTTGCAGATTTTGGATGGAGTTTTCCTCCTTAGCAGTTTGTCTTTTAACTACTCCCACTAGGCTTTCC
+CGCAACTGTTCTG
+>ref|ref|X69474.1|| O.aries gene for insulin-like growth factor-I, exon 4
+GTAGCAGTGAACACCGCCTATTATCCCACTCTAAAACTAGGCCTCTCTCTGATCTGCACAGACAAGCCCACGGGGTACGG
+CTCGAGCAGTCGGAGGGCGCCCCAGACAGGAATCGTGGATGAGTGCTGCTTCCGGAGCTGTGATCTGAGGAGGCTGGAGA
+TGTACTGTGCGCCTCTCAAGGCCGCCAAGTCGGCCCGCTCAGTCCGTGCCCAGCGCCACACCGACATGCCCAAGGCTCAG
+AAGGTAAGCCCACCAGGGGCGGCGGTGAGGGTCGGCCATCTTCGCGAGATCTGAGTTATGTGGTTGTAGCAACTTAGCAG
+CAGCAGCATCTGAATAGTAATTCATACCCTAATAGACTTCTGGCTCATAGGGTCAAAAGAGCTCCATTCTCCCCTGAGAG
+GTTCATCTTTTCTGTCACTCCACATTATAAATTCTCCCTTCCACCGCTGTGGCCCATCTGATCACCAGAAGATGGTGGAG
+AAGAGTGACTAAACCTGGGCTTTGGCATCAGACAAAACTGGGATCC
+>ref|ref|X69475.1|| O.aries gene for insulin-like growth factor-I, exon 6
+GTGAGACATAAGGTATGACGGTTGAGATCCAGTGTTAGAAATAGATAGGTTGGATACATAAACATTCATCAAATTAATGT
+CACTTTTTCTCCCTTATTTTTAGGAAGTACATTTGAAGAACACAAGCAGAGGGAGTGCAGGAAACAAGAACTACAGAATG
+TAGGAAGCCCTTCCTAAAGAGCGAAGAATGACATGCCACCGGCAGGATCCTTCGCTCTGCACGAGTTACCTGTTCAACAC
+CAGAAGACCTACCAAAAATAAGTTTGATAACATTTCAAAAGATGGGCATTTCCCCCAATGAAATAAGTAAACATTCCAAC
+ATTGTCTTTAGGAGTGATTGTTCAAAGCTTTGCACCTTGCAAAAATGACCCTGGAGTTGGTAGATTGCTGTTGATCCTTT
+ATCAATAATGTTCTATAGAGAAAATATATATATAGATCTTAGTCCCTGCCTCTCAAGAGCCACAAATGCATGGGTGTTGT
+ATAGATCCAGTTGCACTAAATTTATCTCTGAATCTTGGCTGCTAGTGACATTCATTCAGCAGGCTTGTCTAAGTGGTTTA
+TTAATTTTTTATTTGCACTTCTTTCTACGCAACACAGGCTGTTTGTTTTACAGTGTCTGATAATCTTGTTCCTCTATCCC
+GCTCCCTTCTCCATCCCCTTTATATTTGCTGAATTTGGCCTCCTAAACAGCAGCAGCAAGCAGTTAAGTAGCATACAGTT
+TTAACCCACAAGATTCATCTGTGGCATGTGTACAAATATAGTTGGATGCATTTATTTAGACACAAGCTTTATTTCTTCCA
+CATCTTGCTAAAAGATGCATGTAGTTACAACTTTGAGGCCAATCATTTTAGGTGTATGTTTTAAGCATAGAAAGTCTCAA
+ACTCTGAATGGTTCCTTCAAGAGATGAGTTAGTGTGTGACCTGATCAGTACTTCTCTCTTTTTATTTCTTCCATATAGAG
+CACTATGTAAATTTAGCATATCAATAATACAGGATATATCAAACAGTATGTAAAACTCTGTTTTTTAGTACAATGGTGCT
+ATTTTGTAGTTTGTTATATGAAAGAGTCTGGCCAAAACGGTAAAAGGTGAAAGCAAAACTAAAGAGGAAGCCTGGAGCCA
+AAGGTGACACAGAGGGGAAGGGTACTCAAAACTCAAACATTTGGGAAAGAAAAGCTCCCCAATTATGCCTTCCAAGAAAA
+ATAAGACACAAAGTCCACTGATAACAAATTTGATTGGCGAGTCCAGAGAGGAGTAGAAAAAGCAGAAGGCTAGGAATTTA
+ATAATCCTGGTTTCTTATTCTCACTGAAGAAACAAACATCTGACGACTCTGCCACGGACTCACCACTGTGTGACCTTGGG
+CAAGTCACTTCACCTCTCTGTGCCTCAGTTTC
+>ref|ref|X02323.1|| Muntjak satellite IA sequence
+TCCCAGTGGCAAAAGGAAAGGGAACCTGCGTCTGCCGCCTCACCTCGAGAGGTTTTCCTATGGCCCTTTCAAGCCAAGAA
+GAGACTCCCGAGGCGTCCCTCGCAAATAGACAGGAGTCCTTACGTCACTGAAGCACACCGTGTTTGGAAGGGCCATCCCC
+GCCGTAACTCGAGAATATACCCCAGGTTCCCGCCGCAACTCGAGAAAAACGATGAGACTCCCCCCTCGCCGCGAGTTGAG
+GCCCGATTTCACTGCACAGCATGCAGAGCAATTGCCTGCTCCCCATCAAACCCGAAAGGAGCCTTGATTTCCTTGATGGC
+ATCCTTAGATGGCATCCTTAGAAACCCCAGGTACACTGTCTCAAGTCTAGAGGTATCCTAAAGTCACTTCACCAACCAGA
+AACAGCTCCTGTATTCCGAATCATCTCGAGCTGAGAGCTGATTTCCTGGCTTCAAATCAAGAGGAATGCCAACTGTCCAC
+AAGCACCACAAGAGGAGGCTTCTCGCAGCTGTAGGTCTGGTTGAGGGAAGTTTGAATTTGCGGCCTCCAGTGGAATCGAC
+CCCGAGATGCCCTGACTCGAAATCAGGACGGAATTCCTGCAGTGACTTGAGTGCAAGCTGGATTTCATCTCACAAGATGA
+AGGGATGTCGGAAGCCCCTTGGGAGACACTAGATAATGCCCTAGCACAATGCCCTTTCTCGACAGGCGGCCTCCCATCCA
+TTGGACAGCTTGAGAGGAACACGGAGTTCAATGATTCCAAAGGACACGATGCCTGACTCCTCTGGAAAATGGACAGGAAT
+CCCAGGA
+>ref|ref|Z18653.1|| M.novaeangliae gene for large subunit rRNA
U13117.1 Megaptera novaeangliae mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGGCACTGCCTGCCCGGTGACTAGTCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAATTAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTCTCCGTGAAGAGGCGGAGATAACAAAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAATAAATCA
+CAACCTTAAACCACCAAGGGACAACAAAATTTTATGTGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAAAC
+CCTCCGAGTGATTAAAACCTAGGCCCACTAGCCAAAGTGTAATATCATTTATTGATCCAATCTTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTTCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18652.1|| M.novaeangliae gene for small subunit rRNA
+CGTAAACCCTAATAGTCACAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCGG
+TGCTTCATACCCCTCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTCT
+ATATACCGCCATCTTCAGCAAACCCTAAAGGGAGCAAAAGTAAGCATAACCATCCTACATAAAAACGTTAGGTCAAGGTG
+TAACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTAAGCTAAGAACATCCCCTACCCACACGAAAGTTTTTATGAAAC
+TTAAAAACCAAAGGAGGATTTAGTAGTAAATCAAGAGCAGAGTGCTTGATTGAATAAGGCC
+>ref|ref|Z18654.1|| M.peruvianus gene for large subunit rRNA
U13118.1 Mesoplodon peruvianus mitochondrion 16S rRNA gene, partial sequence
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAAT
+CATTTGTTCTTTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCCGTGAAATTGA
+CTTCCCTGTGAAAAGGCAGGAATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACCCAAAAATTATA
+AATCTTAACCACCAAGGAATAACAAAATTTTATATGGGTTGATAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAAACC
+TCCGAGTGATTAAAACCTAGGCCTACCAGCCAAAGTATTATATCACTTATTGATCCAAAATTTTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGTAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|ref|X56823.1|| M.reevesi repetitive DNA sequence
+CTTCAGTGACTTCAGTGACTGAGTGCAAGCTGATTCATCTCACAAGATAAAGGGATGTCTGAAGCCCCTGGGGAGACACT
+AGAGAAAGCCCTAGCTCCCTGCCTTATCTAGAGAGGCGGCCTCCCATCAATTGGAGAGCTCGAGAGGGAACACGGAGTTC
+AATGATTCCAAAGGAGACGATGCCTGACTCCTCTGGAAAATGGACAGGAATCCCAGGATCCCAGTGGCAACAGGATAGGG
+ATAATGGGTCTGTCGCCTCACCTTTGAGAAGTTTTCCTATGGCCCTTTCAAGCCCCGAGGAGACTCCCGAGGGTCCCTCA
+CAACAAACAGGAGTCCTGACCTCGCTGAACACACCCCGTGTTTGAAGGGCCATCCCCTCGTTAACTCGAGAATATAACCA
+GTTCCGCCGCAACTCGAGAAAAACGTGAGTCTCCACCCTCGCCACGAGATAAGGCCCGATTCCCCTGCACAGCATGCAGA
+GCAATTGCGTGTTCCCAATCAAACCCGGAAAGAAGCCTTGATTTCCTGATGCTCACGAGAGCAGACCGTTCCAGACATGT
+GGATCCTAAAGTCACTTCATCAACCAGAAACAGCTTCGTGTATTTCAAAACTTCTCGAGCTGAGAGATGATTTCCTGGCT
+TCAAATCAAGAGGAATGACAACTGTCCACAAGCACCACAAGAGGAGGCTTCTCGCAGCTGTACGTCTGGTTGAGGGAGGT
+TGAATTTGCGGCCTCCAGTGGAATCGAACCCGAGATGCCCTGACTCGAAATCAGGCCGGAATT
+>ref|ref|V00859.1|| Integration site of Moloney sarcoma virus in mink cell DNA
+ATAAATCTATAGCTTTTCTAAAAATAAAATCATTTAAAAATTACTTGAATGAAAGGTAAACACGCCTCTTTCACACAGTC
+TGATGCAAAGTCTCATCAAGAATTGGGCAGTCCTGGGAAGTTTGGAACCCTGTAAATACGGACTCCACCGTGCAGACAAT
+GCCATGTAGAGAAGCGTGTTCCCAAGATCCCAGCTTCCCCACTCTGGGTCCTTCCCCTCATAGATATAAACGCTAGTGCT
+GACCTAGTGCTGTGATAAATATTTAGCTCATTAGTCGCCC
+>ref|ref|Z19516.1|| M.vison mRNA for surfactant protein SP-C
+GCCTGCAGCAAGATGGATGTGGGCAGCAAGGAGGTCTTGATTGAGAACCCGCCGGATTACTCGGCAGCCCCCCAGGGCCG
+TTTTGGCCTTCCCTGCTTCCCTTCAAGTCTCAAGCGCCTTCTCATCATAGTGGTGGTGATAGTCCTTGTGGTCGTGGTGA
+TTGTAGGGGCTCTGCTAATGGGTCTTCACATGAGCCAGAAACACACTGAGATGGTCCTAGAGATGAGCCTTGGGGGGCCG
+GAAGCCCAGCAGCGCCTGGCCCTGCAGGAGCGTGCGGGCACCACTGCCACCTTCTCCATTGGCTCCACCGGCATCGTAGT
+GTATGACTATCAGCGGCTCCTGATTGCCTATAAGCCAGCCCCGGGAACCTGTTGCTACATCATGAAGATGGCTCCGGAAA
+ACATCCCAAGTCTTGAGGCTCTCACTAGAAAGTTCCAGAACTTCCAGGTCAAGCCTGCAGTGTCTACTTCTAAGCTGGGC
+CAGGAAGAGGGCCACAATGCTGGCTCAGCATCCCCTGGGGACCTGGACTTCCTGGGCACCACAGTGAGCACCCTATGTGG
+TGAGGTGCCTCTCTACTACATCTAGGACTCCACAGGACCTGTGGAAGCCCCAAGTGAAGAGGAAAGAGCCATGCGCTAAG
+GCTCTTCTGCAGAGAGGCAGAAAGCTGCTCCTACCCACACCACAGACACTGGAGCTGGAGAAATGGGAGCTGTGGGGAGA
+GGTGGGAGCGGGCAGAGGAGATGCGGCTCCTAGGGCCAAGGGTTTCCTAGCACGAAAGAATAAAGCAGCCTGACTG
+>ref|ref|NM_001009467.2|| Ovis aries phosphogluconate dehydrogenase (PGD), mRNA
X60195.1 Ovine 6-pgdh mRNA for 6-phosphogluconate dehydrogenase
+CTCGCCGTGCGCTCCCTGTGCTTCGGGTCTGCTTGCTCCAGCCTGCTTTGCCGCCGCCGCCATCGCCGCCATGGCCCAAG
+CTGACATTGCCCTGATTGGACTGGCTGTCATGGGCCAGAACTTAATTTTAAACATGAATGACCATGGCTTTGTGGTCTGT
+GCTTTTAATAGGACAGTCTCCAAAGTTGATGACTTCTTGGCTAATGAGGCGAAGGGCACCAAGGTGCTTGGCGCTCACTC
+CTTGGAGGAAATGGTGTCCAAGCTGAAGAAGCCACGGCGGATCATCCTGCTTGTGAAGGCCGGTCAGGCCGTCGATAATT
+TCATTGAGAAACTGGTACCTTTGCTAGACATTGGTGATATCATCATTGATGGAGGAAATTCTGAATACAGGGATACCATG
+AGACGGTGCCGAGACCTCAAGGATAAGGGCATCTTATTCGTGGGGAGCGGAGTTAGTGGTGGAGAGGATGGGGCCCGCTA
+TGGCCCGTCGCTTATGCCGGGAGGGAACAAGGAGGCCTGGCCCCACATCAAGGCCATCTTTCAAGGCATCGCCGCCAAAG
+TGGGGACAGGAGAACCCTGCTGTGACTGGGTGGGGGACGACGGTGCAGGACACTTTGTGAAGATGGTGCACAACGGCATA
+GAGTACGGGGACATGCAGCTCATCTGTGAGGCCTACCACCTGATGAAGGACGTCCTGGGCCTGGGGCACAAGGAGATGGC
+CAAGGCCTTTGAGGAATGGAATAAAACAGAGCTGGACTCATTCCTGATTGAAATCACAGCCAGTATTCTCAAGTTCCAAG
+ATGCTGATGGCAAACACCTGCTGCCAAAGATCCGGGACAGCGCAGGGCAGAAGGGCACCGGGAAGTGGACCGCCATCTCT
+GCCCTGGAGTACGGCGTGCCCGTCACCCTCATCGGAGAAGCTGTCTTCGCGAGATGCTTATCATCTCTGAAGGACGAGAG
+GATCCAAGCCAGCAAAAAGCTGAAGGGGCCTCAAAATATCCCATTTGAAGGAGATAAGAAATCATTCCTGGAGGACATTC
+GAAAGGCCCTCTATGCTTCCAAGATCATCTCTTACGCTCAGGGCTTCATGCTGTTAAGACAGGCAGCAACTGAATTTGGC
+TGGACCCTCAACTATGGCGGCATCGCCCTGATGTGGAGGGGCGGCTGCATCATCAGGAGTGTATTCCTGGGAAAGATAAA
+AGATGCATTTGATCGAAACCCAGGACTTCAGAATCTATTGCTGGATGACTTTTTTAAGTCAGCTGTGGAAAACTGCCAGG
+ACTCCTGGCGGCGGGCCATCAGTACTGGTGTCCAGGCAGGCATTCCCATGCCCTGCTTTACCACTGCTCTCTCTTTCTAC
+GATGGGTACAGACACGCGATGCTGCCGGCCAACCTCATCCAGGCTCAGCGCGACTACTTTGGGGCGCACACCTACGAACT
+CTTGGCCAAGCCGGGCCAGTTCATCCACACCAACTGGACGGGCCACGGGGGCAGCGTGTCCTCGTCGTCGTACAACGCCT
+GATGGGCTTCTGTTCCAAGCCACAACTCTACAGACCAGGACATTCCATCTGCCACACAGCACTGCTTGCATGGCCCTCTG
+CCCTACTTTCTGCTCAGATCTTTTAAAATACCATGTGTCGTAAGAGACTCCTTTGAAGAGTTGGCCCGAGTCTCTGAGTG
+TCAAGTAGTTCTGAGAGAACCAGCACGCCCTCTGCCCTCGCCTCTTGGGACGGAGCAGGAGTGGAGTGTGTGCGAGGCAG
+CTGCCCGAGGCAGCGTTCCCTGCAGGTCCCCTGTGGGTGAGGGAGGCAGCGGCTCTCATCAAGGTGGGGAAGGGTTTTGT
+AGAATTTGATCAAACTGGAACCTTTGTATCACACACCTGAACTCCCTTTCCTTTTACTTAATAAAAGAAAAAAAACATAA
+AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_001009796.1|| Ovis aries ATPase Na+/K+ transporting subunit beta 1 (ATP1B1), mRNA
X03883.1 Sheep kidney mRNA for (Na+/K+) ATPase subunit beta
+GCCCACAAGGAGCACAGTGAGGCAGTCAGGAGCCGGGGCGGCCGACTGGACTGGCCTGGAAGGAGAGGGACGGGCCGGAA
+CTGCAACCGCAGCGGCGGGGAGCGCGGAGCCGGCGGCAGAGGTCACAGGAGGTGGGGGCCGGACACGCGTCCCTGGTGGC
+TGCGGGAGCGGCATCTGCGGGCCCCGAACTGCCCCCCGCCCAAGGGCAAGAGGAGCGCGTGGCGGACCAAAGAGAGCCCG
+CGAGCGGCCGCGCGCCCACCAATAGGTGCGGGGCTCGGAGCCGCCCAGCGTGCGCGGTCCCTCCCTCCTCCCTCCGCCCC
+CGCCCCCGCCGCCGCCGCCTACCCCTCCTGCCGCTCCTGACTCTGCTTCTCCGCCGCGCGTCTGGCACTCAGAGAGCCGC
+AGCGCCAGCGGCGGGTGCAGCCAGCGGAGAGCCAGGCCGGGAACGCCGAGCGGCAGCCCGGGAGGACGCGAGGGCGCACG
+CCGCAGTCACCCATCTTCAGTCCCTGCGGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAG
+CTGGAAGAAATTTATCTGGAACTCGGAGAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGCTGGTTTAAGATCCTTCTAT
+TCTACGTAATTTTTTATGGCTGCCTGGCGGGCATCTTCATCGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTT
+AAGCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGATCCAAAAGACTGAAATTGCCTTTCG
+TCCTAACGATCCCAAGAGCTATATGACATATGTGGATAACATAGATAATTTCCTGAAGAAGTACAGAGATTCGGCCCAGA
+AGGATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGATCGAGGAGAATTTAACAACGAACAAGGA
+GAGCGAAAAGTCTGCAGGTTCAAGCTTGAATGGCTGGGAAATTGCTCTGGAATAAATGATGAAACTTACGGCTACAAAGA
+GGGCAAACCATGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGA
+CTTACCCAGTGATGAAGTACAATCCGTATGTCCTGCCTGTTCAGTGCACTGGCAAGCGAGACGAAGATAAGGAAAAAGTC
+GGAAGCATAGAGTACTTTGGACTGGGCGGCTACCCTGGTTTCCCTCTGCAGTATTATCCCTACTATGGCAAGCTCCTGCA
+GCCCAAGTACCTGCAGCCTCTCCTGGCCGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGG
+CGTATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGA
+TCACAAGCACACATCTTTCTCACTAGCCATTTAAAAAAGGTTTAAAAAAAAAAGATACAAAAACCTACTAGTCTTGAACA
+AACTGTCATACGTATGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAAT
+TTAAAGTGTAGCAATAGCAACAAAATATTTATTCTACTGTAAATGACAAAAGAAAAAATAAAAATTGAGCCTTGGGACGT
+GCCCATTTTTACTGTAAATTATGATTCCATAACTGACTTGTAGTAAGCAGTGTTTCTGACCCCTAAGTATCGCTGCCTTG
+TGTATTTTATTTAGTGTACAGTACTCTAGGTGCACACTCTGGTCATTTTTCAAGCCATGTTTTATTGTATCCGTTTTCTA
+CTTTATGTGAGCAAGGTTTGCTGTCCAAGGTGTAAATATTCAATGGGAATAAAACTGGCATGGTACTTTTTTTTTTTTCC
+TCTTTGGGTTTGGCTCTTTCAAATATAACGGCCCATCGATGAGCATTTTTAACACACTCCATAGTCTTTTCCTGTGGTGT
+TAGGTCTTCTTTCTTCTTTTTTTCTCCTGGGTCTGGGTGGGGGTGGGGTGGGCTGTCATGGGGGAACTGCCCTTTCAATT
+TTAAGTGACACTACGGAAACACACACAAAGGTGATGGGTTGTGTTGTGCTTTGTACTGAATGCTGTCTCGACTTCTCTTT
+CCCCGTCCTCCGGTCCGTTCTGAAACTGTGGGTAAGATCTGGAGCGCCCATCACTTTGGCTAGTGATAGGGCCGATTAAT
+TTGCTTTGTACATTTTCTTTCACTTTCCTTTTTTCCTTTCTCTGGAGGCATCACATGCTGGTGCTGTGTCTTTATGAATG
+TTTTAACCATTTTCATGGTGGAAGAATTTTATATTTATGCAGTTGTACAATTTTATTTTTTTCTGCAAGAAAAAGTGTAA
+TGTATGAAATAAACCAAAGTCACTTGTTTGAAAATAAATCTTTATTTTGGACTTTATAAAAAGCAATGCAGTACCCCATA
+GACTGATGTTGAATGTTGTCTACAGTGCAAAATCCATGTTCTAACATATGTCATAATTGCCAGGAGTACAGTGCTCTTGT
+TGATTTTGT
+>ref|ref|NM_001009396.1|| Ovis aries ATP synthase membrane subunit c locus 1 (ATP5MC1), mRNA
X69904.1 O.aries mRNA for mitochondrial ATP synthase c subunit (P1 form)
+CTGTGGTCTGAGCAGGGGCAGCCGGGGCAGTGGGAGTACAGACTGAAAAAAAAAATGCAGACCACCGGGGCACTACTCAT
+TTCTCCTGCTCTGATCCGTTCTTGTACCAGGGGTCTGATTAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAGAGATCC
+CATCTGTACAGCCTTCCTACAGCAGTGGCCCACTGCAGGTGGCTCGGCGGGAATTCCAGACCAGTGTTGTCTCCCGGGAC
+ATTGACACAGCGGCCAAGTTTATTGGCGCTGGGGCTGCCACAGTTGGTGTGGCAGGTTCAGGGGCTGGTATTGGAACAGT
+GTTTGGCAGCTTGATCATTGGCTATGCCAGGAACCCGTCTCTGAAGCAGCAGCTCTTCTCCTATGCCATTCTGGGCTTTG
+CCCTGTCTGAGGCTATGGGGCTCTTCTGTTTGATGGTCGCCTTCCTCATCCTCTTCGCCATGTGAGGCTCCGTGGAAGTC
+ACCTCCCCACCCCTGCTGCTTCGACTCCAGGCCATGCCCGGTGCTGGAGTGTGCTAACCTTTACCATTAAACACAATGTT
+TCTCTAAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|NM_001009468.1|| Ovis aries ATP synthase membrane subunit c locus 2 (ATP5MC2), mRNA
X69905.1 O.aries mRNA for mitochondrial ATP synthase c subunit (P2 form)
+CCCCTGAAAATGTACACTTGCGCCAAGTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTACACTATTGAGCCGATC
+ACTGTCTGCAGTGGTGGTAAGACGACCGGAGACACTGACAGATGAGAGCCACAGCAGCTTGGCAGTAGTCCCCCGTCCCC
+TGACCACCTCACTGACTCCTAGCCGCAGTTTCCAAACCAGTGCCATTTCAAGGGACATTGACACAGCAGCCAAGTTCATT
+GGAGCTGGGGCTGCCACAGTAGGGGTGGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGAGTCTCATCATTGGTTA
+TGCCAGGAACCCTTCTCTGAAGCAGCAGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCGGAGGCCATGGGGCTCT
+TTTGCCTGATGGTGGCCTTTCTCATCCTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATAGTTCTTCTCCCGTGTC
+TCGTCTGCCCTGTATGTTTCTTTTTCTGTACCTCCCCAGGCAACCTGGGGAAGGTGGTTGGCTCAGGGCCTGACAGAAGG
+AAGACAAATAAATACTGTATTAATA
+>ref|ref|X69906.1|| O.aries pseudogene for mitochondrial ATP synthase c subunit (P2 form)
+GGAGATCTTCTGCCCATTTCCAGTTGGTTTTCTGTGAGAATTATTCCACATGTAGATGTATTTTTGATGCGTTTTGTTGG
+TGGAGGTGAGTTTCACATCCTACTCCACCATCTTGATCCCCCCTCAGGAAGTACTATTGAGTCTACTATAAATATATTGT
+TAGCTACTGTGTGAGATTGATACATTTTAGCTACCTGTATATAATAGAAAAGTTGTTCTTTTGTATGTACAGTAGTATTC
+CTGTACTTTTTAAAAATTGTTCTATTTACTCCATCATCTCTTATTGGGCTCCCACTGTGTGGCTGATGGGTAGTTAGGTT
+CTGGAGATTCCGTTTGTCCCCTCTTTAGGGATGAGTATTATGATAAATGTGTAATAGTTTTATTTAAGAACAGATTCTTG
+TGTTAAATGTTTTATCTTAATAACTTTTAAAGTATCAGCAGTGAATGAGCAAGTACTTTTTTTCCCCAAAATCTAATTGA
+CAACTATTAGTCAATGCATGGAACATGACTACTTAAAGCATTCTTATTCTAAGAGAATTTCAGAATTGAAAAATCTTAAG
+CCAGCTCTCTGTCTTCTCTGCACTGGGAGCAGCTCTCCTGCCACAGCCCTTCATCCCCTGAAAATGTACACTTGCGCCAA
+GTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTACACTGTTGAGCCAATCACTGTCTGCAGTGGTGGTAAGATGAC
+CGGAGACACTGACAGATGAGAGCCACAGCAGCTTGGCAGTAGTCCCCCGTCCCCTGACCACCTCACTGACTCCTAGCCGC
+AGTTTCCAAACCAGTGCCATTTCAAGGGACATTGACACAGCAGCCAAGTTCATTGGAGCTGGGGCTGCCACAGTAGGGGT
+AGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGAGTCTCATCATTGGTTATGCCAGGAACCCTTCTCTGAAGCAGC
+AGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCGGAGGCCATGGGGCTCTTTTGCCTGATGGTGGCCTTTCTCATC
+CTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATAGTTCTTCTCCCGTGTCTCGTCTGCCCTGTATGTTTCTTTTTC
+CGTACCTCCCCAGGCAACCTGGGGAAGGTGGTTGGCTCAGGGCCTGACAGAAGGAAGACAAATAAATACTGTATTAATAA
+GAAAAAAAAAAAA
+>ref|ref|X16482.1|| Sheep mRNA for beta-casein
+ATCCATTCAGCTTCTCCTTCACTTCTTCTCCTCTACTTTGGAAAAAAGGAATCGAGAGCCATGAAGGTCCTCATCCTTGC
+CTGTCTGGTGGCTCTGGCCCTTGCAAGAGAGCAGGAAGAACTCAATGTAGTCGGTGAGACTGTGGAAAGCCTTTCAAGCA
+GTGAGGAATCTATTACACACATCAATAAGAAAATTGAGAAGTTTCAAAGTGAGGAACAACAGCAAACAGAGGATGAACTC
+CAGGATAAAATCCACCCCTTTGCCCAGGCACAGTCTCTAGTCTATCCCTTCACTGGGCCCATCCCTAACAGCCTCCCACA
+AAACATCCTGCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTTTCCTTCAGCCTGAAATAATGGGAGTCCCCAAAGTGA
+AGGAGACTATGGTTCCTAAGCACAAGGAAATGCCCTTCCCTAAATATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTG
+ACTCTCACTGATGTTGAAAAGCTGCACCTTCCTCTGCCTCTGGTCCAGTCTTGGATGCACCAGCCTCCCCAGCCTCTTCC
+TCCAACCGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTCAGCCCAAAGTTCTGCCTGTTCCCCAGAAAGCAGTGC
+CCCAGAGAGATATGCCCATCCAGGCCTTTCTGCTGTACCAGGAGCCTGTACTTGGTCCTGTCCGGGGACCCTTCCCTATT
+CTTGTCTAAGAGGATTTCAATGTGAATGCCCCCTCCTCACTTTTGAATTGACTGCGACTGGAAATATGGCAACTTTTCAA
+TCCTTGCATCATGCTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATTCCTTTATTTATTT
+TATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACCATATACTTTCAAAATGTTAATTCAACATTAGCATAAAAGTT
+CAGTTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATTATTATTTCTTTA
+AGAATCTATTTCCTAACCAGTCATTTCAATAAATTAACCCTTAGGCAT
+>ref|ref|X07004.1|| 1O.aries gene for beta-lacto-globulin exon 1 (and joined CDS)
+AGCCACCCCGGGCCTAGGATGAGCCAAGTGGGATTCCGGGAACCGCNTGGCTGGGGGCCAGCCCGGGCTGGCTGGCCTGC
+ATGCGCCTCCTGTATAAGGCCCCAAGCCTGCCTGTCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCACGACCCCAGCT
+GCAGCCATGAAGTGCCTCCTGCTTGCCCTGGGCCTGGCCCTCGCCTGTGGCGTCCAGGCCATCATCGTCACCCAGACCAT
+GAAAGGCCTGGACATCCAGAAGGTTCGAGGGT
+>ref|ref|X07005.1|| Ovine gene for beta-lactoglobulin exon II
+CCCTCTCCAGGTGGCGGGGACTTGGCACTCCTTGGCTATGGCGGCCAGCGACATCTCCCTGCTGGATGCCCAGAGTGCCC
+CCCTGAGAGTGTACGTGGAGGAGCTGAAGCCCACCCCCGAGGGCAACCTGGAGATCCTGCTGCAGAAATGGTGGGCGTCT
+>ref|ref|X07006.1|| Ovine gene for beta-lactoglobulin exon III
+TGTCTTTCAGGGAGAACGGCGAGTGTGCTCAGAAGAAGATTATTGCAGAAAAAACCAAGATCCCTGCGGTGTTCAAGATC
+GATGGTGAGTCCGG
+>ref|ref|X07007.1|| Ovine gene for beta-lactoglobulin exon III
+CCGCGTCCAGCCTTGAATGAGAACAAAGTCCTTGTGCTGGACACCGACTACAAAAAGTACCTGCTCTTCTGCATGGAAAA
+CAGTGCTGAGCCCGAGCAAAGCCTGGCCTGCCAGTGCCTGGGTGGGTGCCA
+>ref|ref|X07008.1|| Ovine gene for beta-lactoglobulin exon VI
+TGCCCCATAGTCAGGACCCCGGAGGTGGACAACGAGGCCCTGGAGAAATTCGACAAAGCCCTCAAGGCCCTGCCCATGCA
+CATCCGGCTTGCCTTCAACCCGACCCAGCTGGAGGGTGACGACCC
+>ref|ref|X07009.1|| Oovine gene for beta-lactoglobulin exon VI
+TCCCCCACAGGGCAGTGCCACGTCTAGGTGAGCCCCTGCCGGTGCCTCTGGGGTAAGCTGCT
+>ref|ref|X07010.1|| ovine gene for beta-lactoglobulin exon VII
+CCATTTTCAGGGCCCGGGAGCCTTGGACTCCTCTGGGGACAGACGACGTCACCACCGCCCCCCCCCCATCAGGGGGACTA
+GAAGGGACCAGGACTGCAGTCACCCTTCCTGGGACCCAGGCCCCTCCAGGCCCCTCCTGGGGCTCCTGCTCTGGGCAGCT
+TCTCCTTCACCAATAAAGGCATAAACCTGTGCTCTCCCTTCTGAGTCTTTGCTGGACGACGGGCAGGGGGT
+>ref|ref|NM_001009363.1|| Ovis aries alpha-S2-casein (CSN1S2), mRNA
X03238.1 Sheep mRNA for alpha-S2-casein
+TTCCATTGCCTGGACTACTTGTCTTCATTTTAGGAAAAGAGGATCAAGTAAACATGAAGTTCTTCATTTTTACCTGCCTT
+TTGGCCGTTGCCCTTGCAAAGCATAAGATGGAACATGTCTCCTCCAGTGAGGAACCTATCAATATCTCCCAGGAAATATA
+TAAGCAGGAAAAGAATATGGCCATTCATCCCAGAAAGGAGAAACTTTGCACCACATCCTGTGAGGAAGTTGTAAGGAACG
+CAGATGAAGAGGAATATTCTATCAGATCATCTAGTGAGGAATCTGCTGAAGTTGCCCCAGAGGAAGTTAAGATTACTGTG
+GACGATAAGCACTACCAGAAAGCACTGAATGAAATCAATCAGTTTTATCAGAAGTTCCCCCAGTACCTCCAGTATCTGTA
+TCAAGGCCCAATTGTTTTGAACCCATGGGATCAGGTTAAGAGAAATGCTGGCCCCTTTACTCCCACCGTGAACAGAGAGC
+AGCTCTCCACCAGTGAGGAAAATTCAAAGAAGACCATTGATATGGAATCAACAGAAGTATTCACTAAGAAAACTAAACTG
+ACTGAAGAAGAAAAGAATCGCCTAAATTTTCTGAAAAAAATCAGCCAGTATTACCAGAAATTTGCCTGGCCCCAGTATCT
+CAAGACTGTTGATCAGCATCAGAAAGCTATGAAGCCATGGACTCAACCTAAGACAAACGCTATTCCCTATGTGAGGTACC
+TTTAAGATTCTTGAATTAACTGCTTCTACCTGGTTATGGTTGGACTGGAAAATCTATCTTCTACAGTTTCATATCTACCA
+CTTTACTTCATACAACCAGCATGTTTGGGGTGGCGCATCGATAAGACAAATCGCAGAGTATTTCCTGAATTATTTATACT
+CTCGCTGTTAGTTTATATTGAATATACTGGGTTTATATGGTGGTTTCATACAAACTTAGCTGATGATTATTTAAAATCCT
+TTCCCTAATCTTTCTGAGTTACAGAAATATTTTTCTTTCCCTCTGGAAATAAAATGTCAAGTGC
+>ref|ref|NM_001009795.1|| Ovis aries casein alpha s1 (CSN1S1), mRNA
X03237.1 Sheep mRNA for alpha-S1-casein
+CCTTGATCATCAACCCAGCTTGCTGCTTCTTCCCAGTCTTGGGTTCAAGATCTTGACAACCATGAAACTTCTCATCCTTA
+CCTGTCTTGTGGCNGTTGCTCTTGCCAGGCCTAAACATCCTATCAAGCACCAAGGACTCTCTCCAGAAGTCCTCAATGAA
+AATTTACTCAGGTTTGTTGTGGCGCCTTTTCCAGAAGTGTTTAGAAAGGAGAACATCAATGAACTGAGTAAGGATATTGG
+GAGTGAATCAATTGAGGATCAAGCCATGGAAGATGCTAAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGAAATTG
+TTCCCAATAGTGCTGAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACTTGGGTTATCTGGAACAGCTT
+CTCAGACTGAAAAAATACAACGTGCCCCAGCTGGAAATTGTTCCCAAAAGTGCTGAGGAACAACTTCATAGTATGAAAGA
+GGGAAACCCTGCCCACCAGAAACAGCCTATGATAGCAGTGAATCAGCTTTTCAGACAATTCTACCAGCTGGACGCCTATC
+CATCTGGTGCCTGGTATTACCTTCCACTAGGCACACAATACACTGATGCCCCCTCATTCTCTGACATCCCTAATCCCATT
+GGCTCTGAGAACAGTGGAAAGATTACTATGCCACTGTGGTGAAGAGTCAAGTGAATTCTGAGGAACTCCACAATTATGGT
+CTTTGATGGGATTGAAAATTCCATGCTCTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCCAAAGGCTTCAATT
+GCTGTTTTAGAATAGGACAATCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCTATTGTATTTTAGATTGTGTAACA
+TCCTTAAGTGAAATTGTCCTAAGAGCTTGTTACCTAAATTCCAGTAGTATCATGCTGGTATAAAGGCCACTGAGTCAAAG
+GGAATTACAGTCTTCATTAAATTTCTATATGGAAAATGTTTTTAAAGCCTTTGAATCACCTCTCCTGTAAGTGCCATCAT
+TTCAAATAACTGTGTGCAGTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGCACT
+>ref|ref|X70061.1|| O.aries mRNA for gamma subunit of sodium potassium ATPase
+TTCTATTATGACTATGAGACGGTCCGCAATGGGGGCCTGATCTTCGCCGCCCTGGCCTTCATCGTGGGGCTCGTCATCAT
+CCTCAGCAAAAGATTCCGCTGCGGGGCCAAGAAGAAGCACCGGCAAATTCCTGAAGATGGGCTCTGAGGAGAGAGCCAGC
+CGTGCCCACCCTTGCACCGGGGCTGCTTGGAAGTCTTCCCTGAGCTGCAGACTTCCGTCCCAGCACTGTCAGGCCCCTCG
+GACTGAAGGAAGCTTCGGGCTCCACGTGACCCCCCGGTGGC
+>ref|ref|X17229.1|| Ovine IGF-I gene for insulin-like growth factor-I exon 1 and exon 1A
+GGGCTGCAGGTCGACTCTAGAGGATCTTTCAACCCATGAGACAATCTGTATCTTCAAAGTCCATTAGAGGAGGCTGGGCT
+GGGGGCACAAAAGGTGTGATGTGCTGAAGCTGAAGGAAATTTAAAAAAATAAATAAACCCAAACCCCAGATTTTTAGTGA
+ACAATTCCTAAGTTAAATGCATGAAGCGGGGCTCATTAAAGGAGGTCTTGGATTCTTCTCAAAGTACAGGCCTTGCCCCA
+CACCTGAAGATACCCCCCCCCCACCCCGCCTACGTCTTGATGATGTGTATCTCTTCAGGTCAAAACACATCCCCTGAAAC
+TTCCCAACTTTGCATTTCAAAGCTCCTCATGACACACCCCTCCTCCTCCATCCTGGATTCTCAGTAGTTTCACTTCCCTG
+TCTTTCCAGAGAAAGTGTGCACTTTTCATATTTTTAAAAGCGCATCCCACCACGTGACAGTGCTGTTTTCCTCTCTGCCT
+CTGCCACTTAGTTGAAAGGCCCTGTGGTGTGTGTAACTGAGCACACAGTAGGAGCGCACTCACTGAATGCTGAATATAGT
+GCACTGTTGGAATGGCATCACTCCTCGTGTCTAACTTGTCTTTCTCAAAGGCAAACCCTGCCCCAAGTTTAATCACAGAG
+AAGGCTTGAGTGAACTCAACCCCCTTTCAAAACCAATCAGGTTTTCCTTTGAGGGCACCCACCTCTGCAACAGCTTCCTG
+GCCATGGCATAAAGACCTAGACAAGAGTTTCAAGCAAACCTTTGTTTTTAGTCGAAGCATCAGGATCACTGTGTCCCCTG
+AGAATCAAGAGGGAGAAATACAAGGTCCAGGCTACTCCCACCATTCCAGAAAACCATGCCCCAATAGACCCAGGAAAGTG
+GGATGTCTAACCTGGGCTTTTGCAATCTTATTTCATAATCCACTTTCTTATCGCCTCCTTCACAAAACTGATGAGAAATT
+GGTACAAACTCTATCGACAAAGATCAACAACTTGATCCTCAATGGCAAAGGCAAGTATACATTATAAATAGCAAAACAGC
+TGGCTTGGACCATGTTGCTGGCCACTCATCCAGCTGAGAGATTTGAATGACATCATAACCCTTGAGAGGGTATTGCTAGC
+CAGCTGGTGTTATTTAGAATACACAAAAAGGGGGGAAAGAAAATGCACTCACATGCACACACACACAAATACACACACAC
+ACACACAGGTTCAAGTTATGCAGAAAAATATGAACAGTGGGAAAATCATTTGCCTCTCAGATGCCCTTCCCCTGGTGTGG
+GGTGGGAGTCGGGGTGGGGGGCCAAGCAGCAGAATAGAGGAAGGAAGAAAGAGATTCGATTTTATTTTTTCAGTTGGCTT
+TACAGCTCAGCAAAATCTTTCCCTGTCGTGGGCAAAAAGCATGAGACAGTGTCCTGAGGGGAGCCAATTACAAAGCTGCC
+TGCCCCTTTCCAGGTTCTAGGAAATGAGATCATTCCCCTCACTTGGCAACCAGGACGAGGGGTCATCCCAGCGCCGTCTT
+CCAGTCTAGTTACCCCAGACGTTTGAGGGTTAAAATCATAGAGTATGCTTGAGATGGGTCTTTTTTTCATTTCTTGTTTT
+TTAAATTTTGTGTTGGCTCTGGAATATAAAATTGCTCGCCCATCCTCCACGAATATTCCTTTCATACGGGTAAGGTGTAT
+TAGCAGATGTGTGTGTCTTCATGCCCGGTAGAAAGTTAATCAGAGGACAGTACATCAGGATTTTAATGTCTGCTCCTCTT
+GTCACTAACACACATTCTTTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTTTAAAATGCAAAGGTATGATGTTATTTGT
+CACCATGCCCAAAAAAGTCCTTACTCGATAACTTTGCCAGAAGAGGGAGAGAGAGAGAAGGCAAGCGTTCCCCCACGTGT
+TTCCTGTCTACAGTGTCTGTGTTTTGTAGATAAAATGTGAGGATTTTCTCTAAATCCCTCTTCTGTTTGCTAAATCTCAC
+TGTCACTGCTAAATTCAGAGCAGATAGAGCCTGCGCAATGGAATAAAGTCCTCAAAATTGAAATGTGACATTGCTCTCAA
+CATCTCCCATCTCCCTGGATTTCTTTTTGCCTCATTATTCCTGCTAACCAATTCATTTCCAGACTTTGCACTTCAGAAGC
+AATGGGAAAAATCAGCAGTCTTCCAACCCAATTATTTAAGTGCTGCTTTTGTGATTTCTTGAAGGTAAATATTTCTTACT
+CTTTGAAGTCATTGGGGAATTTTCTTTAAATTGTGTACTGCTTGCTTCTGCTTAGAAATGTTCTTCACTTTAAGAATTTT
+CATTGTTTCGGCACTGGGAGTTATTTATAAATTGCTGAATATGCAATTCTGTGGGATCTGAAAAAATAGCTCCGGGAGAT
+AAAGTCCTTTGCACAGATATCTGTATGAGTAAAAACTATTGCAAGGTACTTATGCTAAATCCTCCACTTCTTCAGGCTTG
+AGTGGTGTCATTATAGAAGATTCCTTTAAATCCTGTCTATGGTTAAGGGCTATAGGGCATGGATATGAACTTTTGGATTT
+TTTTTCGAGGTCGAGATGTTTTATTTTTAAGACCATGTTCATGTGTATGTAGGGCTGTGTGGTGTGTGTGTGTGCGTGTG
+TGTTAACTGGCCAGGACTTTTGATTACAAGGCATGCCACATACAAAGAGTTACGTTTTAAATGATATTAAAGCTTTTAAA
+TATGATCTTTTGGAGCTAAGGTCCCGGAACTCTCTGCACTTAGCCCCAGAGAGTCAAAGGTAGAGTGAAGGTTCATTTGC
+TCTTCTGAAAAAAGAACTCCTTAAGAACTCCTGCTGACCTTGCAGATTCGGATAATTTAAACAAATGCACACTGTATATG
+GAAAGCGGAAACTTTCTAGCAACTGCTATTCCAAGTTTTTTCTTTTGAAGAGGACTCTCAGGGGCGAAGTTTGGACTTGG
+GGTCTTGTGTTGTAAAACACGGGTTTTGTATTTGGGATTGTAAAGTCTCTTTAGGTGAATTTGGCTAGCGCTGTCAATGC
+ACTGACTTCGCCTTTCCAATAACTGCCTAGTTCAAGTTTCCGATTCTCAGCAAAATTATATCTTTCAAGACTTGTATTTT
+TCCAATTTGCAAGCATTTTTAAGCTGCTGTACTGGCTCCCCCGGATGCAATTGCCTGTGGGCTCAATTCATGATCCGTCC
+CTACCGCTTAGTCCAACACTTATTTGCCGCTTTCCACACTCCACCACTAGACGTTTCTTAGTCAAGTCAGTGGCTTAGGA
+GTTAAGAATACATCCTTGTCGGGCACCTGATCCTGCCGCCCTTGAGAAGCCAAGATGCACACTGCCTACCTTGCTTTTAA
+AAGAAATGAAGTCAGTATACACATATGCTATGTGGTCTGAGCTGGGGATTTTGTCTCCCTACTTAGAGGATCCTAAAAGG
+GGCTGTGTAGTGTTATCTCTGCATTAATTACAAGTTTGGAAAACTCCAAATGAACTTTCCATGCTGTGTATGCTGAACTT
+TTCAGAAGTAGAGCTAGCTAGCCATAAGTTGTTGCTTTTTCCTGTACTTGAAGCAGGAAGTGGTTTCAGGGAGCTACGTG
+GTTCTTTCAAATGTATGTAATTCAATGAGTAAAGGTGGTGTCTGCCAGGCAGAGCTCACAAGCTGATTGTACTGTGAGTC
+TCAAGATATCTCCAAGTGTTTGAGTCAGAGGAAAGAGGGCACAGGGGAGGACTGGAGCTTCGGTCCCTGTCCAGGACGGC
+TACAATAGGCACAGGATGGAAATCAGTGGCTTGATTGGGAGGAAAAGATTGACTCAGATCCCAGCCGTGCAATTTGTTTA
+TTGTCTGAATGGACAAAAGGCAGTTTACCCAGGCTCGTAGCATACCTGCCTGGGTGTCCAAATGTAACTAGATGCTTTCA
+CAAACCCCACCCACAAAGCAGCACATGTTTTTAAGTCCTCAGTTTTCTATTCACATCAGTCTCATAATACCCACCCTGAC
+CTGCTGTAAAAGATCTGGAACAAAACAAAAATGGTTACACCTACAGTGAGTATTTTCTTATGACTATTGCCCTCAAATTT
+TCGTGGGCATTTTTATTATAAACCAGACATCTGGAACCAATTGATATTCCA
+>ref|ref|X51357.1|| Ovine IGF-I gene for insulin-like growth factor-I exon 2
+GAATTCCTGAGACTTAAAAAAAAAAGACTTTTGCAGGTTTTGAGCCCAGTTCCCTGTTCATGGAAGGCATGTCTACACAT
+GTGTTGATCTGACATTGAGCTTGACACAAGGGGCTTTTAGAATGCAAAAGGAGTCGGGTTTACTTACCATAAACCAGTTT
+CATTCTGAAATTCTCAGATGTTTCTGTTCTGGTTTTACTTTACTTGTAGTGTACTGCTGATGTCGCAAGAAATCTCTCAG
+TCTCTCTTTCTCTCCCTCTGTACTCTCTGTCTCTGCCTCTCTGAAGTAGAAAAAAAAAGCTATAATGATATATAGTATTT
+TCACAAGTTCTTTTTCAGCTGCAATAAATTCTGTTTAATCAGTAGCAGGGGAATGACGTTCTGGTTAATTTAATATTCTG
+GTCAGTAATGAATGCACATGCCATCTGTGGAATGGCCAATTTGAGAGAATTTAAATTAATAAAACATATCTGGTCCCAAG
+TCTGGACTGAGCACAAATTAACCTTTGATGATTCCAAAGGTTTACCAGGACCTCTGAGTGGTGTGCAATAAGAGCATCTT
+TCACCTTCACACATTAAATGTTTACGGACATTTATCTCATTGAATTGTAATAGGAACCCATAAAGAAAGGGTTCAAGAAG
+GACTTCCCAGGGTTTCACAGTAGCAAGAGGATTAAAGTCAGATAGCATGATGCCAAGACCTGCTCAGAGGTCACTCACAC
+ACCTTGTTGCACTCCTGAGGGGAGAGTTTTGATTAATAACAGGAATGCAGAGATGGGGTAAAGGCACCCTTGCCTTGCCC
+CCACTCCCCTGGCAAGGACCCAGGAGGAAGATGACCCTCCTTCTGCTCTTTCAGCAGGTGAAGATGCCAGTCACATCCTC
+CTCGCATCTCTTCTATCTGGCCCTGTGCTTGCTCGCCTTCACGACGTCTGCCACGGCGGGACCTGAGACCCTCTGCGGGG
+CTGAGTTGGTGGATGCTCTCCAGTTCGTGTGCGGAGACAGGGGCTTTTATTTCAGTAAGTAGCCTCCCTCTCGTGCTAGC
+GATCTAGCTCTAGTGATTTACAACTCGCGGGAGTGTGTGAAGAGCTGAATGACCCGCCGTGTGCTGGCAGCCATCCTCAG
+CCTCCGAGATTCCTCGACCCTAATGCGAGCCTAGTGTTTGCAGCGGGGCCGTGGGCACGTTTTGCAGATTTTGGATGGAT
+TTTCCTCCTTAGCTAGTTTGTCTTTTAGCTACTTCCCACTAGGCTTTCCCGCAACTGTTCTCGTCTGCCCTCACTATTCC
+ATTTCTTCCTGGGAAAGACAGACAAAATGCCCTGGGGATTGGGTTTTCGTTTTCCAGACCTGTGGGTCACGTGGCAACAT
+ATGTGAATGTGTAGGGATGTTTTACGTGCCAGGTCACTTGGAGGAAACTAGGAAGGCGGACTTGGCAAAGGGGCACATCC
+CAGATGTCTCCATGTGATATGAAATCACCCGAACAGACAGAAGGTGAGAGTCGCTGAAAGGCACATTTGCAAAGACACAG
+CTCTCGCTCAATGCAAACTGAAATGCTGAGTTCATTTGACCCTCGGTTCACGCTGACCATTGAGTCATTTGATTGTATTG
+CCTTCCTTTGATGATCGCCCTTCTCTGGGCTCTCCAGTGATGTCTCATCTGAAAAGAGTTTCTGACAAGTCAAGGTCACT
+TATCCCATAAGTAGGTCTCAGGTGGATTAAAAAGTCAACAGTCAATGAAAAAGTAGACAGCCAAGTCCATGCTTGCGGAT
+AAATAATAAACACAAACGGGAGTCCCTGCTGCCTGAGGGAATGGATCC
+>ref|ref|X51358.1|| Ovine IGF-I gene for insulin-like growth factor-I exon 3
+ACATGGTGTGGGAGAGAGTTTTCTGGGGCTGGGTGTAGCAGTGAACACCGCCCTATTATCCCACTCTAAAACTAGGCCTC
+TCTCTGATCTGCACAGACAAGCCCACGGGGTACGGCTCGAGCAGTCGGAGGGCGCCCCAGACAGGAATCGTGGATGAGTG
+CTGCTTCCGGAGCTGTGATCTGAGGAGGCTGGAGATGTACTGTGCGCCTCTCAAGGCCGCCAAGTCGGCCCGCTCAGTCC
+GTGCCCAGCGCCACACCGACATGCCCAAGGCTCAGAAGGTAAGCCCACCAGGGGCGGTGAGGGTCGGCCATCTTCGCGAG
+ATCTGAGTTATGTGGTTGTAGCAACTTAGCAGCAGCAGCATCTGAATAGTAATTCATACCCTAATAGACTTCTGCTCATA
+GGGTCAAAAGAGCTCCATTCTCCCCTGAAGAGGGTTCATCTTTTCTGTCACTCCACATTATAAATTCTCCCTTCCACCGC
+TGTGGGCCCATCTTGATCCCAGTTTTGTCTGATGCCAAAGCCCAGGTTTAGTCACTCTTCTCCACCATCTTCTGGAGATC
+>ref|ref|X51403.1|| Ovine IGF-I gene for insulin-like growth factor-I exon 5
+CAGAGGAGAAAAAGAAAAAAATGAAAAGTTAATCTCCTTTTTACAGAAACTAAAACAGAACCAAAAGCAATAAAACAATG
+GAGGATTGATCCCCAGGATGTGATTGCTTTTTCTCACTAGAAAAAGATGTTCCAAGCCAGAAGACTGGATTTTAAAGGAT
+TCCCTTCCTATCAAGGAACCTGTGATAGTGGCAGATGAATAAACACATATTTTTATATGATTACAAAGCATTTGTGGTCC
+CATGCCATCAAGGGTAAATATAAGTAGCTTTAGTGAGGTCTGTCTAATATAACCAGCCATCACTGTATGTCTTTCTCAAA
+ACCCTGGCCCAAGTTGTCTATTAAACTGACTGGTGAGACATAAGGTAGTACGGTTGAGATCCAGTGTTAGAAATAGATAG
+GTTGGATACATAAACATTCATCAAATTAATGTCACTTTTTCTCCCTTATTTTTAGGAAGTACATTTGAAGAACACAAGCA
+GAGGGAGTGCAGGAAACAAGAACTACAGAATGTAGGAAGCCCTTCCTAAAGAGCGAAGAATGACAGTCCACCGGCAGGAT
+CCTTCGCTCTGCACGAGTTACCTGTTCAACACCAGAAGACCTACCAAAAATAAGTTTGATAACATTTCAAAAGATGGGCA
+TTTCCCCCAATGAAATAAGTAAACCCCCAATGAAATAAGTAAACATTCCAACATTGTCTTTAGGAGTGATTGTTCAAAGC
+TTGGCACCTGCAAATGACCTGGCCCCTGGAGTTGGTAGATTGCCTGTTGATCCTTTATCAATAATGTTCTAATAGAGAAA
+TATATATATATAGATCTTAGTCCCGTCCTCTCAAGAGCCACAAATCGATGGGTGTTGTATAGATCCAGTGCACTAAATTT
+ATCTCTGAATCTTGGCTAGGCTTGTCTAAGTGGTTTATTAATTTTTTATTTGCACTTCTTTCTACGCAACACAGGCTGTT
+TGTTTTACAGCGTCTGATAATCTTGTTCCTCTATCCCGCTCCCTTCTCCATCCCCTTTATATTTGCTGAATTTGCCTCCT
+AAACAGCAGCAGCAAGCAGTTAAGTAGCATACAAGTTTTTAACCCACAAGATTCCATCTGTGGCATGTGTACCAAATATA
+AGTTGGATGCATTTATTTTAGACACAAAGCTT
+>ref|ref|X69797.1|| O.aries mRNA for immunoglobulin gamma1 chain secreted form
+GAACCCACTGTGGACCCTCCTCTTTGTACTCTCAGCCCCCAGAGGGGTCCTGTCCCAGGTGCGGCTGCAGGAGTCGGGAC
+CCAGCCTGGCGACGCTGCTACAGACCCTCTCCGTCACCTGCACGATCTCTGGATTCTCATTAAATAATTATGGTGTAGAC
+TGGGTCCGCCAGGCTCCAGGAAAGGCGCTGGAGTGGCTTGGTGGCAGCGGTTATGATGAAGATATAGACTACAATCCAGT
+CCTTAAGTCCCGGCTCAGCATCACCAAGGACACCTCCAAGAGTCAAGTGTCGTTGACACTGAGCACCGTGACGACTGAGG
+ACACGGCCGTGTACTACTGCGCAAGAGTTGATTATGATAGTAGTCATGCTTTTGCGTATGCCTCATACGACTTCTGGGGC
+CCAGGGCTCCTGATCAGCGTTCTTTCAGCCTCAACAACACCCCCGAAAGTCTACCCTCTGACTTCTTGCTGCGGGGACAC
+GTCCAGCTCCATCGTGACCCTGGGCTGCCTGGTCTCCAGCTATATGCCCGAGCCGGTGACCGTGACCTGGAACTCTGGTG
+CCCTGACCAGCGGCGTGCACACCTTCCCGGCCATCCTGCAGTCCTCCGGGCTCTACTCTCTCAGCAGCGTGGTGACCGTG
+CCGGCCAGCACCTCAGGAGCCCAGACCTTCATCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGGTGGACAAGCGTGT
+TGAGCCCGGATGCCCGGACCCATGCAAACATTGCCGATGCCCACCCCCTGAGCTCCCCGGAGGACCGTCTGTCTTCATCT
+TCCCACCGAAACCCAAGGACACCCTTACAATCTCTGGAACGCCCGAGGTCACGTGTGTGGTGGTGGACGTGGGCCAGGAT
+GACCCCGAGGTGCAGTTCTCCTGGTTCGTGGACAACGTGGAGGTGCGCACGGCCAGGACAAAGCCGAGAGAGGAGCAGTT
+CAACAGCACCTTCCGCGTGGTCAGCGCCCTGCCCATCCAGCACCAAGACTGGACTGGAGGAAAGGAGTTCAAGTGCAAGG
+TCCACAACGAAGCCCTCCCGGCCCCCATCGTGAGGACCATCTCCAGGACCAAAGGGCAGGCCCGGGAGCCGCAGGTGTAC
+GTCCTGGCCCCACCCCAGGAAGAGCTCAGCAAAAGCACGCTCAGCGTCACCTGCCTGGTCACCGGCTTCTACCCAGACTA
+CATCGCCGTGGAGTGGCAGAAAAATGGGCAGCCTGAGTCGGAGGACAAGTACGGCACGACCACATCCCAGCTGGACGCCG
+ACGGCTCCTACTTCCTGTACAGCAGGCTCAGGGTGGACAAGAACAGCTGGCAAGAAGGAGACACCTACGCGTGTGTGGTG
+ATGCACGAGGCTCTGCACAACCACTACACACAGAAGTCGATCTCTAAGCCTCCGGGTAAATGAGCCAGATGCCCCCGCAC
+CAGCAAGCCCTCACCCAGCCCGCCCTCCCCGGGCTCCAGGTCCAGCCAGGACGCCCTAGCCCCTCCCTGTGTGCATGCCT
+CCTGGGCCGGCCATGAATAAAGCACCAGGCCGCCCTGGGACCCTGCAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|X59994.1|| Ovis aries mRNA for immunoglobulin mu chain precursor secreted form
+CTCATCTGCTCCAAGATGAACCCACTGTGGACCCTCCTCTTTGTGCTCTCAGCCCCCAGAGGGGTCCTGTCCCAGGTGCA
+ACTGCAGGAGTCGGGACCCAGCCTGGTGAAGCCCTCAGAGACCCTCTCCCTCACCTGCACGGTCTCTGGATCCTCATTAA
+CCGTCAATCATGTCTCCTGGATCCGCCAGGCTTCAGGAAAGATGCCGGAGTGGCTTGGTGGTGTAGAAAAAGGTGGAAAC
+ACATACTATAACCCGGCCCTGAAATCCCGGCTCAGCATCGCCAGGGACACCTCCAAGAGCCAAGTCTCCCTGTCACTGAG
+CAGCATGGCAATTGACGACACGGCCGTGTACTACTGTGCGAGATCTGCTGGAGCTTATTTTCTTGCAGATGTTGATATCT
+GGGGTCGAGGACTCCTGGTCACCGTCTCCTCAGAAAGTGAATCTCACCCGAAAGTCTTCCCCCTGGTGTCCTGTGTGAGC
+TCCCCGTCTGATGAGAACACGGTGGCCCTGGGCTGCCTGGCCCGGGACTTCGTGCCCAATTCTGTCAGCTTCTCCTGGAA
+GTTCAACAACAGCACGGTCAGCAGCGAGAGGTTCTGGACCTTCCCCGAAGTGCTGAGGGACGGCTTGTGGTCGGCCTCCT
+CTCAGGTGGCCCTGCACTCCTCAAGCACCTTTCAAGGGACGGATGGCTACCTGGTGTGTGAAGTCCAGCACCCCAAGGGA
+GAAGACGTCGGACACAAGGGTGTCCCCAGAGAGGTGGAAGTGTTGTCCCCCGTCGTGAGTGTCTTTGTCCCGCCTTGCAA
+CAGCCTCTCTGGTAACGGCAATAGCAAGTCCAGCCTCATCTGCCAGGCCACTGACTTCAGCCCCAAACAGATCTCCTTGT
+CCTGGTTTCGTGATGGAAAGCGGATAGTGTCTGATATTTCTGAAGGCCAGGTGGAGACTGTGCAGTCCTCACCCACAACA
+TACAGGGCCTACAGCGTGCTGACCATCACGGAGCGAGAATGGCTCAGCCAGAGCGCGTACACCTGCCAGGTGGAGCACAA
+CAAGGAAACCTTCCAGAAGAACGCGTCCTCTTCGTGTGATGCTACACCACCGTCTCCCATCGGGGTCTTCACCATCCCCC
+CATCCTTTGCCGACATCTTCCTCACGAAGTCAGCCAAGCTTTCCTGTCTGGTCACAAACCTGGCTTCCTATGATGGCCTG
+AACATCAGCTGGTCCCATCAGAATGGCAAGGCCCTGGAGACCCACACTTATTTTGAGAGACACCTCAACGACACCTTCAG
+CGCCAGGGGCGAGGCCTCAGTCTGCTCGGAGGACTGGGAGTCCGGAGAGGAGTACACCTGCACAGTGGCCCACTTGGACC
+TGCCCTTCCCAGAAAAGAGCGCTATCTCCAAGCCCAAAGACGTCGCCATGAAACCGCCGTCCGTGTACGTGCTGCCTCCA
+ACGCGGGAACAGCTGAGCCTGCGGGAGTCAGCCTCCGTCACCTGCCTGGTGAAGGGCTTCGCGCCCGCGGACGTGTTCGT
+GCAGTGGCTGCAGAAGGGGGAGCCTGTGGCCAAGAGCAAGTACGTGACAAGCAGCCCGGCGCCCGAGCCCCAGGACCCCA
+GCGCGTACTTCGTGCACAGCATCCTGACAGTGACTGAGGAGGACTGGAGCAAAGGGGAGACCTACACCTGCGTCGTGGGC
+CACGAGGCCCTGCCCCACATGGTCACCGAGCGGACCGTGGACAAGTCCACCGGTAAACCCACCCTGTACAACGTGTCCCT
+GGTCATGTCTGACACGGCCAGCACCTGCTACTGATGCCTGGTCAGAGCCCCCAGGTGACCGTCGCTGTGTGCATGCATGA
+CTCTAACCATGCTGATGCGTGAGATGTCGCCTTTTATAAAAATTAGAAATAAAAAGATCCATTCAAAAAAAAAAAAAAAA
+AAA
+>ref|ref|NM_001009808.1|| Ovis aries interleukin 1 alpha (IL1A), mRNA
X60167.1 O.aries mRNA for interleukin-1 alpha
+ATGGCCAAAGTCCCTGACCTCTTTGAAGACCTGAAGAACTGTTACAGTGAAAATGAAGACTACAGTTCTGAAATTGACCA
+CCTCTCTCTGAATCAGAAGTCCTTCTATGATGCAAGCTATGAGCCACTTCGTGAGGACCACATGAATAAGTTTATGTCCC
+TGGATACCTCGGAAACCTCCAAGACATCCAGGCTTAGCTTCAAGGAGAATGTGGTGATGGTGACAGCCAATGGCAAGATT
+CTGAAGAAGAGACGGTTGAGTTTAAATCAGTTCATCACCGATGATGACCTGGAAGCCATTGCCAATGATACCGAAGAAGA
+AATCATCAAGCCCAGATCAGCACATTACAGCTTCCAGAGTAACGTGAAATACAACTTTATGAGAGTCATCCACCAGGAAT
+GCATCCTGAACGACGCCCTCAATCAAAGTATAATTCGAGATATGTCAGGTCCATACATGACGGCTGCTACATTAAATAAT
+CTGGAGGAGGCAGTGAAATTTGACATGGTTGCTTATGTATCAGAAGAGGATTCTCAGCTTCCTGTGACTCTAAGAATCTC
+AAAAACTCAACTGTTTGTGAGTGCTCAAAATGAAGACGAACCCGTCTTGCATAAGGAGATGCCTGAGACACCCAAAATCA
+TCAAAGATGAGACCAATCTCCTCTTCTTCTGGGAAAAGCATGGGTCTATGGACTACTTCAAATCAGTTGCCCATCCAAAG
+TTGTTCATTGCCACAAAGCAAGAAAAACTGGTGCACATGGCAAGCGGGCCGCCCTCGATCACTGACTTTCTGATATTGGA
+AAAATAGCCTTGACTGTGCACTCTAC
+>ref|ref|NM_001009415.1|| Ovis aries interleukin 2 receptor subunit alpha (IL2RA), mRNA
Z11560.1 O.aries mRNA for IL-2 Receptor alpha chain
+AGAGAAGAGAGTGGTACGCACAATTTCCTGGCTGAGGAACCCAGGCTAATACTTATACAGAGCAAGCACTGACTGCCCTA
+GAGGCTGACGGACCGGCAAGGATGGCAACCTGAGCGGACTCACCCTTCATTCCCCAGTCTCCCGGTGCGATGCCAGCAAG
+AGGCTGAAAGGAAACCCGGCGCTCTGCAGAGCGACACTCTCTCTTCCCGGCCCCGATGTCGGCAGTGATCCCAGGGGCCA
+GGAGGATGGAGCCAAGCTTGCTGATGTGGAGGTTCTTCGTATTCATCGTGGTACCTGGCTGCGTGACAGAGGCTTGTCAT
+GATGACCCTCCGAGTCTCAGAAACGCCATGTTCAAGGTCCTCAGGTACGAGGTGGGCACCATGATAAACTGCGACTGCAA
+GGCAGGCTTCCGCAGGGTGTCGGCCGTCATGCGCTGCGTGGGGGACTCCAGCCACTCTGCCTGGAACAACAGATGCTTCT
+GCAACAGCACCTCCCCTGCTAAGAACCCAGTAAAACCAGTTACTCCTGGATCCGAAGAACAGAGGGAGAGAAAACCCACA
+GATGCACAGAGCCAAACGCAGCCTCCGGAGCAAGCTGACCTTCCAGGTCACTGCGAGGAACCACCGCCATGGGAACATGA
+ACGTGAACCTTTGAAGAGAGTCTATCATTTCACGCTGGGGCAGACGGTTCACTACCAGTGTGCCCAGGGATTCAGGGCCC
+TACACACCGGTCCTGCTGAAAGCACCTGCACGATGATCCACGGGGAGATGAGGTGGACCAGGCCCAGGCTCAAGTGCATA
+AGTGAAGGGGCGAACAGTCAGGCTCCAGATGAAGCAGAGCCTCCGGAGAGCACAGAAGCTCCCCCTGGGAGTGGAACTTT
+CTTAACAACCAGGATGGCAGGGACCACAGATTTCCAGAAGCCCACAGACGTGGTTGCAACGCTGGATACGTTCATATTTA
+CCACCGAGTACCAGATCGCAGTGGCCGGCTGCATCCTCCTGCTCTCCAGCATCCTCCTCCTGAGCTGCCTCACGTGGCAG
+CGGAGATGGAAGAAGAACAGAAGGACAATCTAGAAAACCAAGGGCCAGAAGAAGTCAAGAACAGCCCACAGGTGTCACGG
+ACCACAATCAGAATCAAAGAAGCTAAACACTCATCCAAGAGGCATCTCCTGATCCGGTGGGCTCTGGAAAGCTCTGAAGT
+CACGTAACAGAACACTGGGCAACTGCAGCCCCATCGTGAAGCCAGCTCTGTAGTATCAACCCTTGAGGCTGACCCGTCTA
+GGCAGCAAGTCCAAGGTCGCTGGAGGAACGGGGAGAGGCAACCAGAACTCTTTCTCCTGTTTTCATGTATATGTGATCAC
+TAGATCACAAGTAGCCTGGAGCTCTCTCCACACCATGTAGTGTAAAGAAGAGTAGTTTCATGCTAAGAGCATCCCAACTT
+CCCAGGTTAGAAATCCCAAGGAAAGCCCTAGCACTGATGTAAATAGACACACATGATCTCTGCCCGGGTGAGTGGACTTT
+GTCCCCGGATCCACATAAGTCTTTTCCAAGCCTCTGGTTGACCAGCCCACTCTCCTGTTCATATGCCCCCAAAGGAATCC
+TTTTGACCCTAGCCCAGTCCTCCAAGTTAGCGCCCTCTACTGAACCTTCCAGGTTGAGTTTCTAAAGAACAGATTCCCTG
+GGGGAGCAGTCTTTGGGTGACCGCAGAAGACAGCAAGCAAACCCATGGAACTGTTGAGCTTCAGAGTTTGAAAGGATTTC
+ACCGGAGTTAATGCCAGGAGAAGGGGGAGAAGCTGGGTCCCAGGTAGTGGGTTATCCTTAACATTTAGCTTCAGCTGTTT
+GTGACTGGCTGTTCTAACAGCTTTTTCTCTGGGATTGCTATAAATTATGCTCTGTGTACGGCTGCCACAAATTTGATGTT
+TACAGACAGACACACAGTGTGTAAATGTGTACATTTGCAAAGAGGTGCCATAAAAACACTGATAAGGAGGCAGTACATTC
+AGTGTTTATGGGAGGAAAGAAAGAAAGAAGGATGGGGGCGGGGAGCGCATGTAATTACGGATGAGGTCACATCAGTGACC
+CCTCACACTGTGAGGAAATTAAAATTGCCTGGAGAACTTGGTGAGACCTGGAAGCCTGGGCCCATCTCCAAGGTTTCTGA
+GTCAGCAGGTCTGGGGTGGGAACCGAGAATCCATGTCTAATAGTTTACAGGGGATGCTGACAATGCTGGTCCGGGGACCA
+CATTTTGAGAATCACCGGGTTTAAACCTCTCCATACCTGCCAACCCTCAACCCCCAATGGAAAAGCCAGCCTTGGGGGCT
+GAGATTTCAGTGCAAGTTCAGACTCTTGCCCAAGATATCAATTCTCAATCAGTTGACAGATGTCCTGGCTGAACAAAATC
+ACATGATGAAGGAGATTAATGAAAAATTTAAATCAGCAGCCAGTTTTCATTTCTGAGAGGGCAGGCAGGAAAGTGTTACC
+AAAAAATGCACAGGTATCAGCAGGTCTATATCCAGGTTAAAAAGTGGTTTTCTGTCCTTTCTGTGACCAACCAAGTACAA
+TCAGACTCCATCGTCAGCATTCCCTGACATGTATGTTTTCTGGGAAAGTAAGGTTAGGATCTGGAATTTCAGACCAGGAA
+AAAAAAAAAA
+>ref|ref|X60149.1|| Ovine mRNA for interleukin-2 receptor beta chain
+CTCCCGGTGCGATGCCAACAAGAGGCTGAAAGGAAACCCGCGCTCTGCAGAGCGACACTCTCTCTTCCCGGCCCCGATGT
+CGGCAGTGATCCCAGGGGCCAGGAGGATGGAGCCAAGCTTGCTGATGTGGAGGTTCTTCGTATTCATCGTGGTACCTGGC
+TGCGTGACAGAGGCTTGTCATGATGACCCTCCGAGTCTCAGAAACGCCATGTTCAAGGTCCTCAGGTACGAGGTGGGCAC
+CATGATAAACTGCGACTGCAAGGCAGGCTTCCGCAGGGTGTCGGCCGTCATGCGCTGCGTGGGGGACTCCAGCCACTCTG
+CCTGGAACAACAGATGCTTCTGCAACAGCACCTCCCCTGCTAAGAACCCAGTAAAACCAGTTACTCCTGGATCCGAAGAA
+CAGAGGGAGAGAAAACCCACAGATGCACAGAGCCAAACGCAGCCTCCGGAGCAAGCTGACCTTCCAGGTCACTGCGAGGA
+ACCACCGCCATGGGAACATGAACGTGAACCTTTGAAGAGAGTCTATCATTTCACGCTGGGGCAGACGGTTCACTACCAGT
+GTGCCCAGGGATTCAGGGCCCTACACACCGGTCCTGCTGAAACGACCTGCACGATGATCCACGGGGAGATGAGGTGGACC
+AGGCCCAGGCTCAAGTGCATAAGTGAAGGGGCGAACAGTCAGGCTCCAGATGAAGCAGAGCCTCCGGAGAGCACAGAAGC
+TCCCCCTGGGAGTGGAACTTTCTTAACAACCAGGATGGCAGGGACCACAGATTTCCAGAAGCCCACAGACGTGGTTGCAA
+CGCTGGATACGTTCATATTTACCACCGAGTACCAGATCGCAGTGGCCGGCTGCATCCTCCTGCTCTCCAGCATCCTCCTC
+CTGAGCTGCCTCACGTGGCAGCGGAGATGGAAGAAGAACAGAAGGACAATCTAGAAAACCAAGGGCCAGAAGAAGTCAAG
+AACAGCCCACAGGTGTCACGGACCACAATCAGAATCAAAGAAGCTAAACACTCATCCAAGAGGCATCTCCTGATCCGGTG
+GGCTCTGGAAAGCTCTGAAGTCACGTAACAGAACACTGGGCAACTGCAGCCCCATCGTGAAGCCAGCTCTGTAGTATCAA
+CCCTTGAGGCTGACCCGTCTAGGCAGCAAGTCCAAGGTCGCTGGAGGAACGGGGAGAGGCAACCAGAACTCTTTCTCCTG
+TTTTCATGTATATGTGATCACTAGATCACAAGTAGCCTGGAGCTCTCTCCACACCATGTAGTGTAAAGAAGAGTAGTTTC
+ATGCTAAGAGCATCCCGACTTCCCAGGTTAGAAATCCCAGGGTA
+>ref|ref|Z18897.1|| O.aries gene for interleukin 3 (multi-CSF)
+GGATCCAGACCCCTGCAACACAACCCTCTCCTTTATTCACTGTCTGCCAGATAAATTCCTGCCTGCTCCACTGGGCCTTC
+AGCTGGCCACCCACTCAGAACCAGGGAGTGCCAGGTGGGGTGGGAAGCAGAAGGTCAGGGCTGTCCAGGGCATGGCAGGA
+CCGCATCCCACTGGGCAGGAGCTCTGAGTCAGTGGACCCTCACCTGTCAGAGAGGATCTCTTACCTATCGCCACTCTGCC
+CAGTGACCGCCTGTCTCAGCCTCCCTGGCAAGATAAGGAGATACCCTTTGAGTAATTTTTTTTTCCAAGTTTCACTGATC
+TCAAATACTAGAAAGTGATGAATAAGTCTGTGGTTTGCTATGGAGGTTCCATGTCAGATAAAGGTTCTTCCGAAGCCCGT
+CCTCCCTTCGCTTCCCTGGGGCATGGGCACACTGAATAAAAGTCGGGGGCTGTCTCAGACACTTCAGAACACCACGAAGG
+ACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCCTGCTTT
+CTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAAATTATG
+GATGACCTAAAGAAAATAACTCCGAGTCCAGAAGTGAGTAGCTGGGATAAAGTTGGCAAGGGGCAGGGAAGGGCTGGCAG
+GTGCCTTGGGCCAATAGACTCAAGGGCTCTCTCTCTCTCTCTCTCTGCCTCACCAGGGCTCCTTGAACTCAGATGAGAAG
+AATATCCTGGCGGTAAGAGTTCAGGCCCCACACATGGGTGGCAACTTGGGTGGGTTCCCATCTCCTTCCTGCCTGGCGAC
+CTCAGGGCATGTCACACCACCTTGGCTAGCCACTAGGGTTAGCAGCACCTATCTCAGCGGTGGTGTGGTGAAAATTAAAT
+GCACAGTGTGCATCAAGTTCCCAGGCCAGTGTCTGGTTCTTGTCGAGTGCTCGGGACATTTGCCCAGTTATGGCTGTAAT
+AATGAAAATGATTTTTCTTAATTACAAAAGGAAAAGGCAGCTCTAGATGAACAATACCAGAGGCCTTAAGCTCAGTTTTC
+AGTGGGGCAGTTTCTGGGCTGGCAGACTAAAATTTCCCACAGGATCATGCCTGCCACCTTCTTTTTCCTTAAATAATTGA
+GTCATGTTTTCCAGTGCCAACCAGCACTAGTCATCATCACTTTTAGCTATTTTTCCTAAAGTGGTTATTTCACCTTTGCT
+TGCATGGCAATTCTTGGGTCAAACAAGAGGTAGAATCTCTTGAGTTCATTGGCCATTTGCATTTCCCCTCTCTGAGGCAC
+TAGTAGTTCACACGCTGCACCCCTTTCCACACTGGGGTCTCTGTGATTGTCTTCCTGATTTCAAGGAGCCGTTAATTCAG
+TCAATTCAGTTAATTCATGGCCTTTTAGCTGCAAATATTTCCCTTAGGCAGGCTTTTGGCTTTTTAGAGTCTGTTTGGGG
+AAATATTTTTTTCCCCCAAGTGCAAAAAGATCCACCCAGGACCTTCATTCAGCTCACAAGAGCCACAGGCTTGGGACGTG
+GGTGATGTAAAGCTTGTCTGGGGGTGTGCATTCACCTCTTGGATGGCGACCTTTGGAGCAGTTCAGAGACACATCTGGGG
+CAAGAAGGGGACTAGGAAGGGGCTGTCCAGGGATGTCCCTAAAAGCAGTCTTGGAAAACTGCGAGGGTGACTTCAGCCCA
+GTCGTAAGAAGGACACTCCAACTTTCCCCCTCACATGTATTCTTTGTCCCCTTAGAATAAGAGCCTCCTACAGGCAAACC
+TGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAAATCTTAAGGTATGTGAAGCT
+GTCAAGGGCCTGGGGATCCCTACCTTGACCCTGCCCTTCCTCTGGCAGGAGGGTGGCGGCTCTTGCTTGTTATCGAGGAC
+AGTCTCTGACTGTTTGCTTTGGTCTCTCCCCACAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGTAAGCTGC
+CCCCAAAATGCCCCTGAGGTGATGCCCTGAGCCACAACTTGACCCCAGCCTGACATCCACCTTCCAACCCGGCTCCATCT
+GATGCCTCCTTCTTTGTTTCTACACAGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGGGATTTTCGGATGAAATT
+GGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTATCTGAAGTCCAAGAACAT
+ACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGTGACAACAGACTGTCCTA
+AATTTCTTCGATGTTTCTCACATGGTCCAGGCCCTGGAAGAATTAATTTTCTCCTGTGGAGCCCAGATGAATCGTTAATT
+ATTTAACTCCTGATATGTGTGGCCCCCATTTGTCCTTTTGGGATTATGTTCTCATTTTTAATCTATTGAGACTTATTTAT
+TTATGTATGTATTTATTTATTACCTTGTGCAAATGTGAAGGGTATTTATTTTAGCAGGGGAAGTCATGTTCTGCTCCTTC
+TGGACAAAACTTAAGATGGGGACTTGGGAGTATGTTCATTTGTACCTCAGATTTGAAACTGAGGTACACATCTTGAAAAT
+AAACTACACTCTCTTAACAAATGCTTTGTTGCTACTGTTTCACTTTGACTCAGTAACTCTCTCGCCTGATGATTTAACAT
+G
+>ref|ref|NM_001009420.2|| Ovis aries interleukin 3 (colony-stimulating factor, multiple) (IL3), mRNA
Z18291.1 Ovis aries interleukin-3 gene
+CGAAGGACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCC
+TGCTTTCTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAA
+ATTATGGATGACCTAAAGAAAATAACTCCGAGTCCAGAAGGCTCCTTGAACTCAGATGAGAAGAATATCCTGGCGAATAA
+GAGCCTCCTACAGGCAAACCTGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAA
+ATCTTAAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGG
+GATTTTCGGATGAAATTGGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTAT
+CTGAAGTCCAAGAACATACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGT
+GACAAC
+>ref|ref|NM_001009378.1|| Ovis aries casein kappa (CSN3), mRNA
X51822.1 Sheep kappa-Cn mRNA for kappa-casein
+TTCCTTACAGTTCCCAGGCCAACTGAACCTACTGCCAAGCAAGTGCTGACAGTGACAAGGAAAGGTGCAATGATGAAGAG
+TTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAAGAACAACGAATAT
+GCTGTGAGAAAGATGAAAGATTCTTCGATGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCT
+AGTTATGGACTCAATTACTACCAACAGAGACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCGAA
+GCCAGTTGCAGTTAGGTCACCTGCCCAAACTCTTCAATGGCAAGTTTTGCCAAATGCTGTGCCTGCCAAGTCCTGCCAAG
+ACCAGCCAACTGCCATGGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAGATCAGGATAAA
+ACAGAAATCCCTGCCATCAATACCATTGCTAGTGCTGAGCCTACAGTACACAGTACACCTACCACCGAAGCAGTAGTGAA
+CGCTGTAGATAATCCAGAAGCTTCCTCAGAATCGATTGCGAGTGCACCTGAGACCAACACAGCCCAAGTTACTTCAACCG
+AGGTCTAAAAACTCTAAGGAGACATCAAAGAAGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTATCCTT
+TGGCCAGTTGTCTGCCTTCAGTGAACAGAGAATATGATTTTCACAGATCCAGCTCCTTTCTCATCTCCTCTTACATTTTA
+CATTTATGCCGCATTTAGTTTTTTGATTCCTGCATAATAAAGCCAATCAAATGC
+>ref|ref|X01610.1|| Sheep B2A and B2D genes for B2 high-sulphur keratins
+GATCCTTAATTGAATGACCACTTAGGAAGGGAATGTTCAGTTTAGACAAACTCTGCCTAAAGGCTATCAAAGGACATTTA
+TGACAAAGCAAGCCAGGGCAACGGTTAGCCAAAGTCTAATCTATCACACAACTTTCATGATGAGTCTTGGCTTGACCCAA
+AGGCAAAGAAGAAACATAATGAGATTTAATTGAACAATGACAAAAGCAGGCTATTCAAAATGCTATTTATAACCTTCTTA
+ACAACTCAAATATTAGCCAATCAGAGACTGAATTTCAATGGTATCCAGGAAAAATGCTAAATGTTAGGGAAATAACATAG
+CTCTACAGGATGTATAAAAGGACAGATGCAGAAGGTGGAGCCAAAACTCAAAAACTTCTCTTAACAACCCTCCTCTCAAC
+CCAACTCCTGACACCATGGCCTGCTGTTCCACCAGCTTCTGTGGATTTCCCATCTGTTCCACTGGTGGGACCTGTGGCTC
+CAGTCCCTGCCAGCCGACCTGCTGCCAGACCAGCTGCTGCCAGCCAACCTCCATCCAGACCAGCTGCTGCCAACCGATCT
+CCATCCAGACCAGCTGCTGCCAGCCAACCTCCATCCAGACCAGCTGCTGCCAGCCAACCTGCCTCCAGACCAGTGGCTGT
+GAGACGGGCTGTGGCATTGGTGGCAGCATTGGCTATGGCCAGGTGGGTAGCAGCGGAGCTGTGAGCAGCCGCACCAGGTG
+GTGCCGCCCTGACTGCCGCGTGGAGGGCACCAGCCTGCCTCCCTGCTGTGTGGTGAGCTGCACACCCCCGTCCTGCTGCC
+AGCTGTACTATGCCCAGGCCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCTGCTGCCGCCCAGCCTGCTGCTGCCAG
+CCCACCTGCATTGAGCCCATCTGTGAGCCCAGCTGCTGTGAGCCCACCTGCTGAAAGCAAGGCTGCTGATTGCTTAAGAA
+TGAAGGGGGAAGCAAAACAAACCTGCGCTGATCTCTGAAGAACCATTCAATTTTTCTTGGATGCTAAGTATCATGAAGTT
+TCTAAGCTGCTCAGAAATGAAAGTCTTAGGACACTTTTGAATGTTCTGAAATAGCACGCTGAAAACAGGCCTCAGCCACG
+GTGTCTGGATTTCCTGCCTTGCTTGAGCAGAGTACCAGACTCGAGTAGCTCTTCATTTCAGTGACATCTCTGATCTCTTT
+CCTCTCTCTTGTTCCCATATATTTTCAGACCTGCTTTCTCCTTCAATATCCTGTTAATTTCAAATAAAATATTTAAACTT
+GCAAAGCAAACTGAGTTATTTTCTTCCTTCTACCTTCAAGAGTGAATTTGACAGTAATGCTAAGGCATGAACATAAAGTC
+TAAGCCAGAGAGATTAAATACAATTACATTATGCTTAAATCTATTGCTTAGCAAAATGCTCCATGCATTAAATAATCTTT
+GTAGTTGTTCAAATACTTACCTGATCTAATCTGTTGTGAAAAGAAAGAAAGTGAAGTCATTTAGTCGTGTCCAACTCTTT
+GCAACCCTATGGACTGTAGCCCACCAGAGTCCTCTATCCATGGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCCAT
+TTCCTTCTCCAGGGGATCTTGCCAATCCAGAGATCAAATCCAGGTCTCCCACACTGCAGGCAGACTCTTTACCCTCTGAG
+CCACCAGGCTCTTTTTACCTAACATTTTCAGATTGATCAAAGCTACAGATGTAATCCTATCATATTTTAATCTCCTTCTG
+CTTAATAGAGTAGATGTTCTCCTTCATGCAGGCCCATATCTAAAGAAATTGTATTACCTATTAACTAGATTTCAAAATAT
+CAACCAGATACTATCAGATACTATCTATTTTCCAAGATCATTTATGTTCAGTTCCTATACCTTAGCCTATTGTATTCTTC
+CCGCTGATTCCCAAATTGCTCTCTAAGTTTCAAACCCAACACTAACTGCCATTAACTGTATTTTTATGGTGTATCTATGG
+TCTCAATGAGAATAGAACAAATAGCTGCAGAGATAGCCAGTGAGTTCTACCATCCCCATTCTAATGGATGTGTCAGACAC
+ATCCATTAGAAATCTGAAACAACTATGTATTTTATACTTTGCAACCCAATCTGAAAAATGTTCCCAATAAATGCACACAC
+ATCTGGAACAAAAAATACCTCTTAAAATTTAATTTTTTCAGTTCTTAAGTATGTGAGCACAACATACAAAACACAATAGG
+AGAAAACGTAGAACACATTGAGAACAATATTTTTGAGACAATTACAAGCTCCCGGCACTCACCTCTATCATTCAGCTGGT
+GGCAGTGATAGGTCACACACAAGATTACTTATTTCAGAGAAGAATAAAGTAGATACAGTGCACCCTTCAAAATGTCAGAG
+CTTATCGATGCTTTTTCTTCAGACTTAGTTCAACTATTAAATACAAAAAGATGTCAGCTTCTCCTGTTCCCTTTTGACAA
+TCATAAGGACTGCTTCATGAGAGGCACTACAGCTTAAAAGTTCTATTTAATCATTTATAAGTGGTATAGACACTCATGAA
+TCATGCCTTTTACTCCACCCATTGAAAATCAGATTCAATAAACATTTATTAAGGTTCTACCAGAAGCGAAGCACTGTGGT
+GGTGATCTTTCTGTATACTATATCATTTGGTTCACAAGGAAATATTTCTGGCCGTGGAACACAAGTAATATTTACACATT
+TCAAATTGGTTGAAATCAAAGGAAAAATGATGGTGATTTATTTGATGTTGGAATAAATGAGTTGGAAGCTTTTAATTATG
+TGTGACCAAAGGTACCTTTCAATTCAGTGGATGTCTTGATGTTCTAAATTCAAGAGAATTCAGTCTATATATTCAAGAGG
+GGGAAAAAAATAGCTAAAAACAGCACAATTACTCTTAGCCTTAGAGACCTAGACAGAGAATCACATGGAATAACTACCTC
+TACAAAATGAGGGTGTTGACATGGACAAAAATGGGAGGGCTCTTTGAACATGGAAAACCACAAACCTATTCCAAAGAGCA
+AAGGACCAATATGAGGAGTCCAAATGAAACTATAAAACGAAGTAATTTCTAAACTGCTGCTCATAATGTATCATAGGTAT
+TTCAATGTAAGCCAATCAGAGGACCACTGAAAAACAAATTTATACAAAAACAAGGAAGATATGCCAAGAAGTCTATAAAT
+AGCAGCTAGCGCGATATATAAAAGGCCTGACACAGAAGTCACCACCCAAAATCCTCCAAGCATTACAATTCTCAGCCCAA
+CTCCTGACACCATGGCCTGTTGCTCCACCAGCTTCTGTGGATTTCCCACTTGCTCCACTGGTGGGACCTGTGGTTCCAAC
+TTTTGCCAGCCAACCTGCTGCCAGACCAGCTGCTGCCAGCCAACCTCCATTCAGACCAGCTGCTGCCAGCCGACCTCTAT
+CCAGACCAGCTGCTGCCAGCCAACTTCCATCCAAACCAGCTGCTGCCAACCGATCTCCATCCAGACCAGCTGCTGCCAGC
+CAACCTGCCTCCAGACCAGTGGCTGTGAGACGGGCTGTGGCATTGGTGGCAGCATTGGCTATGGCCAAGTGGGTAGCAGC
+GGAGCTGTGAGCAGCCGCACCAAGTGGTGCCGCCCTGACTGCCGCGTGGAGGGCACCAGCCTGCCTCCCTGCTGTGTGGT
+GAGCTGCACATCCCCGTCCTGCTGCCAGCTGTACTATGCCCAAGCCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCT
+GCTGCCGCCCAGCCTGCTGCTGCCAGCCCACCTGCATTGAGCCCGTCTGTGAGCCCACCTGCTGTGAGCCCACCTGCTGA
+AAGCAAGGTTGCTCATTTAAAATTGCCCAAGACACAGTATCTCTGAATAATTTATCGCCTCAACCACCCATGGACAGCTA
+ACAAGCTCTTAGCTCCCATTTGGGTTTTTGTTATGGGCGCTACAGAGTATATGAGTTCTATCTGATTTCATTCTACAATG
+AATATCTGTACTTTCCACGGCAGATGCTGCGTACCACCTGTCATCATCAAATTGCTTTGGCTATACTATTTCTGATTTTG
+ATGCAAGGTTGAATATTGCTGACATATTGTGGAATTTATCCTTTTGAACTGCGCACAAGCCTATTTCTCCTGCTTTCTGA
+TCTATTTTTAGCTTCTGTTTGTCCCCAAATTTTTACAACGTCAAAGGCACCTGAGTATAGATAGTATATCTTCAGATGTC
+ACCAATGAGAATAGAAGCTCTTCACCCAATGTTCAGCTTCTAAGAAGGAGACTAGACTTTTCCATATTTCAACATCTGAT
+TCCATCCTCCTCTTTGCCTGTTGGCTATTTCAATTATATCTGTGATTCAGTGTCTTCTGTAATTTTTTAATAAATGTTAC
+ATATGGGGCAAAGAAATCACAGCCTTTGTGTCCACTTACACACAAAATGGGTTAATTTCTTCTGATTAAAAGATGCCTGT
+TTTAAAGAAATACATTTGTTTCTTTCTTAAAGGGACTGAAGTCATATACAGTGTAATAATTTAGTCATTTTTCCAGTAAA
+AATTTATTGACTACCACTTCTAAAGCAAGAACTAAGAAGATCAGAAAGATGAAAAATTGTTTCTTATCCTTGAGGACTTT
+ACTATCCAACAAGAAAAAGTATATGTGAAAGTAATTACATACAATATGGCAAGATAAATTGTATTCCCTTAGCAGCTG
+>ref|ref|X02925.1|| Sheep B2C gene for B2 high-sulphur keratin
+GATCCCATAGTCACATTGTCTTATGAGTGACAGTGATGTAATCATAAGCATAATACAAAGGCTGAGACTTGAGAAATTAC
+AGCATTATTTGAAAACAAAACATCAGTATTTTTACCAAAGACAAACACGTTTGGTGAGTATTAGCTGAGTAATAAGGAAA
+ATCCAATTTGGAGATATATTTAAAATAACTCATTATTTCAACAATCAGAGGGGCCTATTACCGTGGAAAAGATCGTTTAA
+AAGAGTAATAAGATAAAAATGCTGTCCATCACAAAAACAGGAAGTGGCAAAATTCTATAAAAGGCCTGGGTGGAACAAGC
+AGACCAAACTCAGAAACTTCTCCAAGCATCCCAGCTCTCAGCCTAACCCCTGACACCATGGCCTGCTGTTCCACCAGCTT
+CTGTGGATTTCCCATCTGTTCCACTGCTGGGACCTGTGGCTCCAGCTGCTGCCGATCAACCTGCAGTCAGACCAGCTGCT
+GCCAGCCAACTTCCATCCAGACCAGCTGCTGCCAGCCAACCTGCCTCCAGACCAGTGGCTGTGAGACCGGCTGTGGCATT
+GGTGGCAGCACTGGCTATGGCCAGGTGGGTAGCAGCGGAGCTGTGAGCAGCCGCACCAGGTGGTGCCGCCCTGACTGCCG
+CGTGGAGGGCACCAGCCTGCCTCCCTGCTGCGTGGTGAGCTGCACATCCCCGTCCTGCTGCCAGCTGTACTATGCCCAGG
+CCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCTGCTGCCGCCCAGCCTGCTGCTGCCAGCCCACCTGCACTGAGCCC
+GTCTGTGAGCCCACCTGCTCCCAACCCATCTGTTAAAAACCTACTGATGGAAATTCTAAGACAATGGCACTTCAAAATTA
+GCCAGTGTACAGTCCCAACAAACTTCTAAGGACTAGTACCCATAACCCAGCTTACCACCTCATGTCAGAAGGCTACATAA
+TTTCCCTAACATGGAAAATTGATTTATAATAAAAAACCAAAAATATTTCATAGATCTGGATATCAACAGAAGTCTTACAG
+TGTGAAAAGAAATGTGTAATACTTTACTATAAATATCTTCTGAAATGTTTCACCAACTCACTTGGCTTTTGGGTTTAATA
+AAATTTTTCATTCTTCAGTGATGAAATCATTGTTGGACTTTCTTTTCTTTGGTGTCCATTATTGATATTGGGGTACTGGG
+ATTTCTCAAAATGTCAATAAATGTAGTGTAGCACTGCGGTTTTTCTTTATTACTGTGCTTTTAGCAGTGGCCTTTAAAAG
+GTGGTTTTCCTTGTCTATCTACAGTCAAAGTATATGATTAAAAGAATACGTCAGTATTTAGACACTATTCCCTGAAGTCC
+TCAAGTATGCAAATTAATGGGTTAGGTGTCCCAGAATAACCAATTTTATGTCTTTTGGCTTCTTGAGGTGTCAACCAAAA
+ATATTCAGTTCATTCATATATGATTCTGTGGACAGTTCTTTAAACTATCGAGGATATAAAAGTAATGCATAATTGGAAAG
+ACAGTTATTAGGATAAGATGTGGGCTTCCCTGGAAGCTCAGCTGGTAAAGAATCTGCTTGCAATGCAGAAGACCCCTGGG
+TCTGATTCCTGGGTCAGGAAGATCCCCTGGAGAAGGGACAGGTTATCCTCTCCAGTATTATTAAGCTT
+>ref|ref|X05638.1|| Sheep HGT-C2 gene for high-(glycine + tyrosine) (HGT) keratin
+GCTTTTTTCAGTTTAGTTATGTCAGCTGGGAGGAGTTTATAATCAGAGAATTTAAACAGCCTCACAGGATGCAATCAGAA
+CAGTTGTTAAACCATGGGACACTGATGAAAAGAATTCAATTGCGTGTCAAGGAAGGCGCTGACTTTGAAGATACAACACC
+ATTCCTTTGTAAATAGATAAGCCAACAAAAATATGGGCAAAGAGTCTGTGGGTTGCTTTATATGCATTTTATTAGCAATA
+ATGGAATTATCTGTGCAAATTTATGGCAAGATGTTTAGCAAGCATGTCATCGGACAGCTTGAGGTATAAAAGGTTCCCGT
+GCATTACGAGAACTTCATTCCTTCTTGGGTAACTTGCTCTTCACATTCTATCCAAATCCTTCCCACTCCTGCCACAATGA
+CTCGTTTCTTTTGCTGCGGAAGCTACTTCCCAGGCTATCCTTCCTATGGAACCAATTTCCACAGGACCTTCAGAGCCACC
+CCCCTGAACTGCGTTGTGCCCCTTGGCTCTCCCCTTGGTTATGGATGCAATGGCTACAGCTCCCTGGGCTACGGTTTCGG
+TGGAAGCAGCTTTAGCAACCTGGGCTGTGGCTATGGGGGCAGCTTTTATAGGCCATGGGGCTCTGGCTCTGGCTTTGGCT
+ACAGCACCTACTGATGGACCATGGCTCCAGATGACTACGGGAACCCGCCCTCAATTCTCTGTGTGCAGAACAGCCTGAAA
+AACAATGACTGTCTTCCTGCCTCCAGAAACACTTGAGAGAGAAACACTGCAGTCTTCTCGATCTCCGACAGTGCTCAACA
+AGTCACCCAGGCATCAGATGCTGAGCTGATTCTCATCTACAGCCAAAGCAAGATTTTGTATTTCTCTAACATACTTGAAT
+TTTAGCTAATGAGGAAGACAGTCTGTCTCTTATGATAGCTCTGCCCGTCTATCTTAAGTTCTACATCAGTATCAATGCAT
+TACTATTACATGTGTGAGTAGGAAGGGGTTTTGCTTGTTCATCACAATAAATCCAATTCATTCAGCACAAACATTTTGTT
+CGGTTGTTTATTTTATTGTGCCTTTTGTTTGTTCATTTTGCTCTCATCAACCAGTTTCAACCTGTGAGGTGGCTTCAATC
+ACATTTTATTCTGATTTTCAGACTGTACACCTGGAATAGGTTGATGCCTAACAATTTTGTCCCTTTATGTTGAGATTTTC
+AATTAAAAAAAAATTCTTAAAAAGTCCTAAATTTAACCAAAATAGAAGATGGCCCTTGAACATGTTGGGAGGTTAATCCA
+TGTATAATCTATATTCAGCCCTTTGTATCTGAGATTTCTCTGCATCCCATGGATTCAACCAGCTGTGGAGTGTGTAGCAT
+TGTAGTGCTTACTACTAAAAAAATTCTGCATATAAGCGGACTTTTGAAGTTCAAACCCACTTTATTAAGTCAGTTGTATA
+GTCTGTACACTGCGATTGTTAGTGTTCTCTATGCTGATTATAAATAGCAAATTTTCTTAGCTGTTTAATGTTAAAAGAAA
+ATTCTTTCCTCCTTTCATTATTGACACGATTCCATTTAAGCTT
+>ref|ref|X05639.1|| Sheep gene for high-(glycine + tyrosine) (HGT) keratin
+AGCTTCATTTTTTTTTTACACTTACAAGATTATTAGTTCAGGTAGTGGTTTAAAAATGTGATGTTAAATATAGTTCAGGT
+GGGTATTATAATTAAAATTGAAATTTTATTCAGTTTTGTAAACACGGTAGCTATAAATAGAGGAAAAAAGAGTCTTTCCA
+ATGAACTCTTTGGTATTTGTCTTGGATAAATCCAAAATAAATTGTTTAATCAGACAAACACAAAGAATATCTCAGTCTCT
+GAGGTGATTTCACTATGTATTGGCTTTCCAGGTAGCACAGTAGTAAAGAATTCGCCTTCCAATGCAGGAGATTCAAGAGA
+CGAAGGTTGGATGCCTGGGTGGGGAAGATCCACTGGAATAGAAAACAACCCATCCTAGTATTCCTAGTATTCCTGCCTGG
+AAATTCTATGGATAGAGGAGCCTGGCAGGCCACAGTTCACCAGGTCACAAAGAGTGGGACGCAACTGAGGACGCAACTGA
+GCACGCGCACACACACACACACACACACACACACACACACAGTATGTATATGTTATTTCATTCAATTTTTTCCAACACAT
+ATTTATTGAATTCCAAGTGTGTGCTGTGGAAATTCAGTGCACAAGATGACTGGATAACAGTTAACAACCTCAGAATTTTC
+GTAGTACTGTAAAGCCTGCTTCCAGAGGCTTGTACTTAGGACTTTATAAGACCCAGGGCTTTGAAGACTCTGCAAAGCGG
+TATTTTAATGAAGGGACACAATTTTACAGGAAGGACTCCAGCCCCTGTTATTCTATCACATGAGAGCTTCTGAAGCAACT
+GTAAAGACATCTTAAGCAAGCAACACAAACTAATTAGCAATGGTGTCATGAATGAAAATGACGCCTTGTGTTTTTCGCCA
+CGGTCCCCTAGCCCGGGTATATAAAGAAGGGAGCATAGGGAATCCATCATACTGAGGAAATTCATTCCCTGCTCTCCAAG
+CCGCCCAACCCAGACACCATGAGCTACTGCTTCTCCAGCACCGTCTTCCCAGGTTGCTACTGGGGTAGCTATGGCTACCC
+GCTGGGCTACAGTGTGGGCTGTGGCTACGGTAGTACCTACTCCCCAGTGGGCTATGGCTTCGGCTATGGCTACAACGGCT
+CTGGGGCCTCCGGTTGCCGAAGATTCTGGCCATTTGCTCTCTACTGATTTGCTGAAATACCAGAGGCATGGAATCTTCTC
+CCCCAAACCCACGAGGCGGACTTCCAGGTCCTCAGAGACTCATCAGCCTCCCAGTTAGCTGCTTTTCACATCGGCACCAG
+AGTCTCAAGGGAAGAAGATGAAAAACCACTTGCCTCCAGCTGCCTTCCTGCATGATGTTTGTTGGGACATTTTGAGAAAC
+TTGACACCCAAACACGTTTTACGTTTGAATTTTTCACCATGCTCATGACTCTTGTCATTATCAAGTTGTGGGATGTGTCT
+GTCAAATTCTCAATAAACTTGTCTCAACCGCATATTATATTCTTACTTGAGTGGAGTTTCCTTTCTTGGTGCGCATATTT
+CTTGAAACAGGCAGTGAGGTGGATAGTGGATTTAGTTTTCTCATGTGGTTGTTAGAAGCAGTGAGAAAGCAAATAATCCT
+GCTCTCGTGTGAGAAGCAGGCAACAGGGTCTGCTTATGATTTTTTTAAAAAATTCTATCTTACCCTTCCTTTAAGTCTGC
+GACATCCTCCTCCAATTCTGCGTCAGTGTTACACCATCCATTGTTTGTGTCCCCATTCCGCATCTCGCTACTCCTGTTCC
+TCACAAGGAACCCAACACTGAGGGACTCTGTCAATTATTCCTGTATCAATACAAATCAAACCCACTATTTTCCTCTCGGG
+GACCAAGGATTGTAAATAAAATGCCATGTCCCTTATTTAAGGATTCTGGAGAATCTAGAATACCTATAGAGACATTTTAG
+GGATCTGAGAGTCTTTTAAGGGAGGAATAGATCCCCCATCTCAAACCACCTAGGATATCTACTTTACAACTTACAAGGAC
+CGGTTTAGAAACAGCGACAGAAAGCTT
+>ref|ref|Z18528.1|| O.aries repeat sequence
U24089.1 Ovis aries satellite I repeat, clone REPEAT4
+AATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCCAGTGCTG
+ACATGGATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTGCGCTTTC
+CTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCTTTCCCAC
+GGGACTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGAACGTCAA
+GGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGATTGGTGGCACGACCCTGGAG
+TTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGG
+>ref|ref|X07972.1|| Sheep metallothionein MT-I pseudogene
+CCCGGGGAAGGGGAAATGGTGGCGAGGGTCACCTCCACCTTGGGTCTGGGGCACCACTCCCCGGCCTCTGCCAAGCGGGA
+CACCAGCCAGCGGGAGGCGGGGTGGCTCACTGGCTCCAGGCAAGGGCGACCCGAGGCCGGCGGCGCGGGGATCTGTGGCG
+GGGAAGCCGCGAGGACACAGGAGCCCTGTTCCTAGAAGCGCCGAAACACGTGGCTGCTCCCGTGGCGAACACGGGGACGG
+GCGGCCGGGGCGAATGGGACCCCGCTTACCGCTGGCACCGGGCCCTGGGCTCCAGCCGGCACCAAGGGGAGCGCGCGCTC
+TGCCCGGGCGCCGCGGGCGGGGCGGGCGCAGGGGGCGGGGCCTCTGCGCGCGGGCCCCTCCCCTCCGAAGGCGGGTCAGG
+ACTGGGCTCCAAGGCCTCCCACCGGACCATGGGTCTGCTTCACCACCGCTTTGGACCTTGGACCTCGCCTTTCCTCCTGA
+TGGACCGCAAGTGCTCCTGCCCCACTGGTGAGGGACCCCTGGATTTGAGCCCTACTGATGCCTGCTTCTCAGTAACTGGA
+CGGTGAGTCCCCAGGGTTGCAGAAGGGAGTGTGTGGAGTTTGATCACAAGGGGACCGCTGTCACTTACTGGTCTAGGAAT
+GTCTTCCCAGCCGGGTTCCTGAGAGTATTTCAGGCGC
+>ref|ref|X66093.1|| O.aries mRNA for Mx homologue
+GAATTCGGCACGAGCTGCCAACTAATCAGCACTACATTGTCAAGTAAAAGGAAGGTATATTGAGGAAGAAGATGGTTCTT
+TCTGACTTGGATATCAAAGAACCTGATTCACCTGAATCCGGTCTAAATGGAAGTGACGATATGGTGAGGGAACATGAAAC
+GGAGTCCAAGGGCAACCTGTACAGCCAATATGAGGAGAAGGTGCGGCCCTGCATTGACCTCATCGACTCTCTGCGGGCCC
+TGGGCGTGGAGCAGGACCTGGCCCTGCCCGCCATCGCCGTTATCGGGGACCAGAGCTCGGGCAAGAGCTCTGTGCTGGAG
+GCCCTGTCTGGGGTTGCCCTCCCCAGGGGCAGTGGTATTGTTACAAGATGTCCTCTCGTGCTGAGGCTGAAAAAACTTGA
+GAAGGAAGGCGAGTGGAAAGGCAAAGTCAGCTTCCTGGACAGAGAGATTGAGATTTCAGATGCTTCACAGGTGGAAAAGG
+AAATCAGTGAAGCCCAGATTGCCATCGCTGGCGAAGGCATGGGGATCAGTCATGAGCTGATTAGTCTGGAGGTCAGCTCC
+CCTCACGTCCCAGATCTGACCCTGATAGACCTTCCTGGCATCACCAGGGTTGCTGTGGGCAACCAGCCACACGACATTGA
+ATATCAGATCAAGTCTCTCATCAGGAAGTATATCCTTAGGCAGGAGACCATCAACTTGGTGGTGGTCCCTGCTAACGTGG
+ACATCGCCACCACAGAGGCGCTGCGCATGGCTCAGGATGTGGATCCCCAAGGAGATAGGACCATAGGAATCTTGACAAAG
+CCCGATCTGGTGGACAAAGGCACGGAAGACAAGGTTGTAGACGTGGTGAGAAACCTGGTCTTCCACCTGAAGAAGGGCTA
+CATGATCGTCAAGTGCCGCGGCCAGCAGGAGATCCAGCATCGGCTGAGCCTGGACAAGGCCCTACAGAGAGAGCGGATAT
+TCTTCGAGGATCACACACATTTCAGGGACCTTCTGGAGGAAGGGAGGGCCACTATCCCCTGCCTGGCAGAAAGACTCACC
+AATGAACTCATCATGCACATTTGTAAAACTCTGCCCCTGTTGGAAAATCAAATAAAGGAGACTCACCAGAGAATAACAGA
+GGAGTTACAGAAGTATGGCAAGGACATCCCAGAAGAAGAAAGTGAGAAAATGTTCTCTCTGATAGAGAAAATTGATACAT
+TTAATAAAGAGATCATCTCAACAATAGAAGGGGAGGAACACGTGGGGCAGTATGACTCCCGACTGTTTACCAAAGTACGA
+GCCGAATTCTGCAAATGGAGTGCTGTGGTTGAGAAAAATTTCGAAAAAGGTCATGAAGCCATACGTAAAGAAATAAAGCA
+ATTTGAAAATCGGTATCGTGGCAGAGAGTTGCCAGGGTTTGTGAATTACAAGACATTTGAGATCATCATAAAAAAGCAGG
+TCATAGTTCTGGAAGAGCCTGCTGTGGACATGCTGCACACGGTGACAGATATAATCCGGAATACCTTCACAGAAGTTTCA
+GGAAAACACTTTAGTGAATTTTTCAACCTCCACCGAACTGCCAAGTCCAAAATTGAAGACATTCGGTTAGAACAAGAAAA
+TGAAGCTGAGAAATCCATCCGACTACATTTCCAAATGGAGCAGTTGGTCTACTGCCAGGACCAGGTGTACCGACGTGCTT
+TGCAACAGGTCAGAGAGAAGGAGGCAGAAGAAGAAAAGAAAAAAAAATCAAACCATTATTACCAATCTGAGGACTCAGAG
+CCCTCCACAGCTGAGATCTTTCAACACCTGATGGCGTACCACCAGGAAGTCAGCACCCGCATCTCCAGCCACATCCCCTT
+GATCATCCAGTTCTTCGTGCTCCGGACGTATGGGGAGCAGCTCAAGAAGAGCATGCTGCAGCTGCTGCAGGACAAGGACC
+AGTACGACTGGCTGCTGAAGGAGCGCACCGACACCAGAGACAAGAGGAAGTTCCTGAAGGAGCGGCTGGAGCGGCTGTCC
+CGCGCTCGGCAGCGGCTCGCCAAGTTCCCGGGCTGAACCCGCCCCCCCGTCCAGCCCCGGGTCTCCAGGGAGCAGACCAC
+CACCGACAGCTCCCCTGACGGCCTCATGCCCTTAGCTGCCCGCTTCACAGATGCTTCAGTGGTCAGCCTGCAGCCGGGGT
+CTCTGCTGTCTCTCTCAGTGGATAAGCACACTGGCTTTAAACAGCAGGTGATTTATTCGATCGTTCATCGCCATCGAGTC
+TTAGCCAACCGTCCATCCTGACTCTCTCCACCCTCTGTCAGTGATCCCCACACGCGCTGTAGAAGGGTCATTCCAATGAC
+TGTACAGCCTTTCACACCCCATGTGTTCGGAACATGAGTGCCACATTTGTGAATGCACACAGAAGCCTATTCCTTCAATT
+TGTAATACCGTTCTTTCTACC
+>ref|ref|Z11599.1|| O.aries gene for MHC class II (OLA-DRA), exon 1
+GTTTTTCATTCTTTTTGTTTGGTTGTGAGTTTGGTTAATTAAGAAGTTCCTTTTCATCAAATGCACAAAGCTTCTCCTTT
+CCTGGACCCTTTGCAAGAGTCTTTCCCTTAGCAACAGCAGTGTCATCTCAAAAGATTTTTCTGATTGGCTGCAGCTCAAC
+TGAGTTTAAATTTTTAATCAGTCAGACTCTATGACACCCTACATTCTCTTTTCTCATATTCCTGTCTGTTCTAATCCACC
+TTGAGCTCTCATCAAGACACGGACCCTCATCAAGACACCAAAGAAGAAAATGGCCATAACCAGGGTCCCAATATTAGGAC
+TTTTCATCACTGTCCTGATCAGCCTACAGGAATCGTGGGCTATTAAAGGTAAGTGCTGAGTTCAAAACTAGGAATAAATA
+AGTTCTGAGAGCTTTGGAGAAACGAACTGTGGACGTTTGCAAGACAGTCT
+>ref|ref|X55131.1|| Sheep gene for oxytocin and neurophysin
+TTAGAGACATTTGCAGTAGCTGTTGTAATGCAATAGGAGGATATCAGCCATTTCAGTTTGTGACGAAGTCACAGGTATTG
+CAAATTCCACTGTGGTTTGTTGCCTACCTTATAGTTGAAGGAAAGGCTGGATTTCACTTAGAAGAGAGAAAATAAAATCT
+TTTCATATCCAAGAGCCTCCTCCAGGTAAATGGATGTTGGTGTAGGGAGCCGGGCTGGGGTTCCAGGAAATCAGATTTCA
+GGAAGAGAACTTGCTTGCAGAGGGGAGCTAGGGGGTGTGTGTGGTTGGCCAAGAGGGCAGATGGGGGAGTCCTAAACCAA
+TCTCTTCTCGCCTGGAGGCCCGAGTGTTCATCCTGACCCCTCACCCCAAAGGAATGAGAGAGTCCTCGGTTGGGCCGCAG
+CCCCCATACTCCCTGTCCCACCGTAGACCCAGGCCACCGCACAGGCTCCCTGCCCAGAGCTGCTTGCTTCCCCTAGCGGC
+GCGCTCGCTATCATCTCCCGTAACATTAGCCATTAGCAGACATAACCTTGACCCGGCACAGCCCCTGCAAATGAGGGGGC
+GCGCCGGGGGCGCAGGGCCTGACCGGCGGGCGCGCTGTGACCAGTCATGCGGCTGCCCTCTTAAGACACCGTTCGCCCAC
+GCGGCGCCGGGCTTAAAAGGCCAGACCCGAGAGACGGCCGCAGTCCCCGGCCCGGAGCCCAGCGCGTCTGCACCATGGCA
+GGTTCCAGCCTCGCCTGCTGCCTGCTCGGCCTCCTGGCGTTGACCTCCGCCTGCTACATTCAGAACTGCCCCCTGGGCGG
+CAAGCGTGCGGTGCTGGACCTCGACGTGCGCACGGTGAGAGCCCCGCCCTCGACCCGTGGCTCTCCGGGCTGCCAGCCCC
+GCTGCCACAGGGTCGCCCCCGCCGCCCCCTTTCCCGCCCTGACCGCGTACCGGCCCCACCTAGCCTGGGAATCGAGGGAG
+CGGAGGAGCTTTTGACTGCCCTCCTTCGAGCCAATTCTGAGCCCAAAGAGAGGGGGAAGACCCGCCATCTCCCGCGCTCC
+TCAGGCCGCCCTCGCCGCCCGGCTCAGCCCCCCACCCCACAGGGTCTCCCTCCCCGGCGGTCCCCTCCCGGCCCCGGCTC
+ATCCCCGCCCTCCCGCCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGG
+ACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCGAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCC
+GGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGGATCTGCTGCAGCCCGGGTGAGTCCGGCAGGGGCCA
+GACGGGCCGGGGCTCCGAACCAGGCGGGCCGGCCAGGGTGGCCCTGACTCGGCGTCTCTCTGTGCAGACGGCTGCCACGC
+GGATCCCGCCTGCGACCCCGAGGCCGCCTTCTCCCAGCACTGAGACCGGCCGGCCCCTGACACCATCGGAGCACAGCCCT
+CACTCCCTCTGTAATCATCCCCAGGAATTATGACAATGAAATAAAGCCTTTTTTTCCCCTCCAACAAGCCTCGTGTCTGA
+GTGTCAGAACGGGGAGGGAAGGGCTTTGGGGG
+>ref|ref|NM_001123399.1|| Ovis aries trophoblast protein-1 (TP-1), mRNA
Y00287.1 Ovine mRNA (oTP-1) for trophoblast protein
+CTGAGATGGGATCAGAGAACCTACCTGAAGGTTCCCCCTGACCCCATCTCAGCCAGCCCAGCAGCAGCCGCATCTTCCCC
+ATGGCCTTCGTGCTCTCTCTACTGATGGCCCTGGTGCTGGTCAGCTATGGCCCAGGAGGATCTCTGGGTTGTTACCTATC
+TCGGAAACTCATGCTGGATGCCAGGGAGAACCTCAAGCTCCTGGACCGAATGAACAGACTCTCCCCTCATTCCTGTCTGC
+AGGACAGAAAAGACTTTGGTCTTCCCCAGGAGATGGTGGAGGGCGACCAGCTCCAGAAGGACCAGGCCTTCCCTGTGCTC
+TACGAGATGCTCCAGCAGAGCTTCAACCTCTTCTACACAGAGCACTCCTCTGCTGCCTGGGACACCACCCTCCTGGAGCA
+GCTCTGCACTGGACTCCAACAGCAGCTGGACCACCTGGACACCTGCAGGGGTCAAGTGATGGGAGAGGAAGACTCTGAAC
+TGGGTAACATGGACCCCATTGTGACCGTGAAGAAGTACTTCCAGGGCATCTATGACTACCTGCAAGAGAAGGGATACAGC
+GACTGCGCCTGGGAAATCGTCAGAGTCGAGATGATGAGAGCCCTCACTGTATCAACCACCTTGCAAAAAAGGTTAACAAA
+GATGGGTGGAGATCTGAACTCACCTTGATGACTCTTGCCGACTAAGATGCCACATCAGCCTCCTACACCCGCCTGTGTTC
+ATTTCAGAAGACTCTGATTTCTGCTCCAGCCACCAAATTCATTGAATTACTTTAGCTGATACTTTGTCAGTAGTAAAAAG
+CAAGTAGATATAAAAGTATTCAGCTGTAGGGGCATGAGTCCTGAAATGATGCCTTCCCTGATGTTATCTGTTGCTGATTT
+ATTTATACCTTCTAGCATTTAACATACTTAAAATATTAGGAAATTTGTTAAGTTACATTTACATCTGTACATCATATTAA
+AATTTCTAAAAC
+>ref|ref|NM_001009476.1|| Ovis aries prostaglandin-endoperoxide synthase 1 (PTGS1), mRNA
Y00750.1 Sheep mRNA for prostaglandin endoperoxide synthase
+CCTGAGTCGGTCTCCAGCACGCAACGGCCACCCTGCACCATGAGCCGGCAGAGTATCTCGCTCCGATTCCCGCTGCTTCT
+CCTGCTGCTGTCGCCATCCCCCGTCTTCTCAGCGGACCCCGGGGCGCCCGCGCCAGTGAACCCCTGCTGTTACTATCCAT
+GCCAGCACCAGGGGATCTGTGTTCGCTTCGGCCTTGACCGCTACCAATGTGACTGCACCCGCACGGGCTATTCCGGCCCC
+AACTGCACCATCCCGGAGATATGGACCTGGCTCCGGACGACTTTGCGGCCCAGCCCCTCTTTCATCCACTTTCTGCTGAC
+GCACGGGCGCTGGCTTTGGGATTTTGTCAATGCCACCTTCATCCGGGACACGCTCATGCGTCTGGTACTCACAGTGCGTT
+CCAACCTTATCCCCAGCCCTCCCACCTACAACATAGCGCACGATTACATCAGCTGGGAGTCCTTCTCCAATGTGAGCTAT
+TATACTCGCATTCTGCCCTCCGTGCCCCGAGACTGTCCCACGCCCATGGACACCAAAGGGAAGAAGCAATTGCCAGATGC
+GGAGTTCCTGAGCCGTCGCTTCCTGCTCAGGAGGAAGTTCATCCCTGACCCTCAAAGCACCAACCTCATGTTTGCCTTCT
+TTGCCCAACACTTCACCCATCAGTTCTTCAAAACTTCCGGCAAGATGGGTCCTGGCTTCACCAAGGCGCTGGGCCACGGG
+GTAGACCTCGGCCACATTTATGGAGACAATCTGGAACGTCAGTATCAGCTGCGGCTCTTTAAGGATGGGAAGCTGAAGTA
+CCAGATGCTCAATGGAGAGGTGTACCCGCCATCGGTGGAAGAGGCGCCCGTGCTGATGCACTACCCCCGGGGCATCCCGC
+CCCAGAGCCAGATGGCTGTGGGCCAGGAGGTGTTTGGGCTGCTTCCTGGACTCATGCTCTACGCCACGATCTGGCTGCGT
+GAGCACAACCGCGTGTGTGACCTGCTGAAGGCTGAGCACCCCACCTGGGGCGACGAGCAGCTCTTCCAGACGGCCCGCCT
+CATCCTCATCGGGGAGACCATCAAGATTGTGATAGAGGAGTATGTGCAGCAGCTGAGCGGCTACTTCCTGCAGCTCAAGT
+TCGACCCAGAGCTGCTGTTCGGGGCCCAGTTCCAGTACCGCAACCGCATCGCCATGGAGTTCAACCAGCTGTACCACTGG
+CACCCGCTCATGCCCGACTCCTTCCGGGTGGGCCCCCAGGACTACAGCTACGAGCAGTTTCTGTTCAACACCTCCATGCT
+GGTGGACTACGGGGTCGAGGCCCTGGTGGACGCCTTTTCTCGCCAGCCTGCAGGCCGGATTGGTGGGGGTAGGAACATAG
+ACCACCACATCCTGCACGTGGCCGTGGATGTCATCAAGGAATCACGGGTGCTAAGGCTGCAGCCCTTCAATGAGTACCGC
+AAGAGGTTTGGCATGAAGCCCTACACCTCTTTCCAAGAGCTCACAGGTGAGAAGGAGATGGCAGCTGAATTGGAGGAGCT
+GTATGGAGACATTGATGCTTTGGAATTCTACCCGGGGCTACTTCTTGAGAAGTGCCATCCGAACTCCATCTTTGGGGAGA
+GTATGATAGAAATGGGGGCTCCTTTTTCCCTTAAGGGCCTCTTAGGAAACCCCATCTGTTCTCCAGAGTACTGGAAGGCG
+AGCACATTTGGCGGTGAGGTGGGCTTCAACCTTGTCAAGACGGCCACGCTAAAGAAGCTGGTTTGCCTCAACACCAAGAC
+TTGTCCCTATGTCTCCTTCCACGTACCAGACCCCCGTCAGGAGGACAGGCCTGGGGTGGAGCGGCCACCCACAGAGCTCT
+GAAGGGGCCGGGCAGCAGCATTCTGGATGGTAGAGCTTCCTGCTTGCCATTCCAGAATGCCACGGGGTGGATTGTCTTTG
+ATGTTGGGTTTCTGATTTGGTGTCGAGAGCATCAGTGTGGACGTTTAGAACTCTAGGTCTCTCACCCATGGTCTGGAATA
+CTGTGTTCCTTGTTTGTTGTTCTAGAATGCTGAATTCCTGGTAAACCATTGAGAATGTTAGGAGTGGTTATCCCTTCAGC
+ATGCCAGAACACTGGGTTCCTGGGTGACCACCTAGAATGTCAGATTTCTAGTTGATCCGGAATTTAGGCACTCTGAAATA
+TGGGACTCCTGATGGAATCATCTGGAAAGTGAGGGGGTTTTTATTTTGCATTCTAGAATTCTGGGTGGCCCTCCAGAATG
+TCGACTTTCTGACTGGTTATCCGGAATGTTGTGCTCCGAGTTGCTGATCCAGAACAGTGGCTGGCATTCTAGATCAGTCC
+TGATCCGAATGTCTAGAGTGTTGAGAATTCATTTTCCTGTTCAGTGAGACAGCCACGGAGCAGGAGGATCTCGTGTCCTA
+CAAGAACGCATTGCCTGGATCTGTGCCTGCATGGAGAGGGCAAAGAAGTGGGGTGTTCGTCTTCTCAGTGGGACCCCTGA
+TGAGACCCTAGATATGGAGAGAACAGGTGGCTTTCTCCAGGCCATTGGTTGGAAGCCACCAGAGCTCTGTCCTCATCCAG
+GTCTCAACTCACGGCAGCTGTTTTTCATGAAGTTAATAAAATGCTTTTTCC
+>ref|ref|X00434.1|| Sheep repetitive DNA
+AATTCCGCTGATTCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCCAGTGCTGACATGG
+ATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATTGCACTTGCGCTTTCCTCCA
+GAGCGGTAGCAGCAGTGTCCAGCAGTCCGACCGTGATCAAAGCATCTATGGTTTTCCTGTGTCTTTCCACGAGGCTTTCC
+ACGAGGCTTTCCACAGGCTGTCCACTGCACACTGTGGATCAATCCTCGGCTTAACGTCAAGGCATGCAGGAAAACAGGTT
+CCTCTGAATGGACTGACACATCTGGGGGACTCTTGGAATGGCTGGCACCGACCCTGGAGTTCCTCTCGCCTTTCCTTGTG
+GAGAGCGCCTCCTCTTGAGATGCGACGGAA
+>ref|ref|NM_001009802.1|| Ovis aries alpha 2-HS glycoprotein (AHSG), mRNA
X16578.1 Ovis aries mRNA for fetuin
+CCGGAAGCCTCCAGCTGCCTGCCTGCTGACACACCGGGGCCTCTCTGAAGCCACCATGAAATCCTTCCTTCTGCTCTTTT
+GCCTGGCTCAGCTCTGTAGCTGCCGCTCGATCCCGCTTGACCCGATTGCAGGTTATAAGGAACCGGCCTGTGATGACCCA
+GACACAGAGCAAGCAGCCTTGGCGGCCGTGGACTACATCAACAAGCACCTTCCTCGGGGCTACAAACACACCTTGAACCA
+GATTGACAGTGTGAAGGTGTGGCCGAGGCGGCCCACGGGAGAGGTATATGACATTGAGATAGATACCCTGGAAACCACCT
+GCCACGTACTGGACCCCACGCCCCTGGTGAACTGCAGCGTGAGGCAGCAGACGGAGCACGCGGTGGAAGGAGACTGCGAT
+ATCCACGTGCTGAAACAAGATGGCCAGTTTTCCGTGCTGTTTACAAAATGTGATTCCAGTCCAGATTCCGCCGAGGACGT
+GCGCAAGTTGTGCCCAGACTGCCCCCTGCTGGCCCCGCTCAACAACAGCCAGGTGGTGCACGCCGCAGAGGTCGCGCTGG
+CTACCTTCAATGCCCAGAATAACGGCTCCTACTTTCAGCTGGTGGAAATTTCTCGGGCTCAATTTGTGCCTCTTCCAGGT
+TCTGTCTCTGTGGAGTTTGCAGTGGCTGCTACTGACTGTATTGCTAAAGAGGTCGTAGATCCAACCAAGTGCAACCTACT
+GGCAGAAAAGCAATATGGCTTCTGTAAAGGCTCTGTCATTCAGAAAGCTCTTGGTGGGGAAGACGTCACAGTGACTTGCA
+CACTGTTCCAAACGCAGCCTGTGATTCCGCAGCCCCAGCCCGAAGGCGCCGAAGCTGGGGCCCCAAGCGCTGTGCCGGAC
+GCAGCTGTGCCTGACGCAGCTGTGCCTGCGCCTTCTGCAGCCGGCCTGCCTGTGGGCTCCGTGGTGGCGGGGCCAAGCGT
+GGTAGCAGTTCCCCTGCCGCTGCACCGGGCACACTACGACTTGCGCCACACCTTCTCCGGTGTGGCCTCAGTGGAGTCGG
+CCTCGGGAGAAGCATTCCACGTGGGGAAAACACCCATCGTGGGGCAGCCTAGCGTTCCTGGAGGTCCAGTCCACCTTTGC
+CCAGGGAGAATCAGATACTTCAAGATCTAGAAGATGGTCGGAGATGAGACAGTTTGGCACAGAGAATACAGCTATCATTT
+TGTCCAAGTATGGGTAGGGGTTTTGTCTGTTCTGGCAGCAAGTGCTGCCTGTGGTCTAGATTAATGTCAGGTCTTGAGTC
+CCAACTTCTCATCCTTCCAAGGACAGGAGCAGAGGAGGTGCTAGTGATGTTTGATGGAACATAAAGTCAGCAGCTTGATT
+CTCACTGCTTTGATGTAAGCCACCACCACTGTGTTCTCTACCTCCTCTTGACCTCACAAAAATAACTGGAACTGTGACTC
+TGAAAGGTGCTCTTGCCAAGTTTATATCTGCTTGTCATTAAAAATGCCCTAATAAAGAAGGTTCTAAGCTGAAATGTC
+>ref|ref|Z18541.1|| O.aries centromerically located satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACTTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTTGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGATCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGGCGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACCGGGAAAGGAT
+>ref|ref|Z18540.1|| O.aries centromerically located satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACTTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGCTCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGAAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGGGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACAGGGAAAGGAT
+>ref|ref|X03117.1|| Sheep satellite II DNA repeat unit
+ACTCCCTGGGCGCCCAGAACCTGCCTCACACACGTAGCTTCCCTAGCGCTCTCCTCCCCAGCAGAGACGTGTGCAGCTGG
+TTGGGGCCTGCCTGCGTGCCTGGGCTCCCTCCCAGAGACCCAGCTCAGGGCAAGCAGCCCCTGAGCCAAGACCTGCAGGA
+GGCGCAGAGCCCACCCACCTGGAAGCCGAGTGAACGGCTGGCGGGGAGGCGAGCCTCCTCGAGGGAAGAAGAGGCAGCCC
+AGCCTCGTTTGGCTCAAGCCCTACTTGGCTGGAGCCGAGTGCGCCTCCAGGACGGAGAGCTCCAGCTCTGCTCAGAGGCC
+CGATCTGGCAGAGTTGCTGGAGCGAGGCTGCTCTGCCCTGGGCGAGCCTTGCCCAGACTTGCCTCACAGCTAGGCTTCCT
+TCCCAGGAAGGAGCAGGCTGAGCGAGGCTGGGGGACGCCACTGGCGCCTTCCTCGCCTCAGCTCCGCTCCTGCCTTGCCT
+TTGCACCTAGGCCCCAGGCGTCCTTGGGGAGGGCTTAGGGGACGTGTCTTGCACACTGCCAAGGGCTCCAGCAGGAAGAG
+CTCTGTGTGAGCGAAGGAAAGGGCTAGTGCAGGGCTCCTCCAGCCGTTGCTTGGCCGCCCAGACTCAGCGCCGCTCAGAG
+TGCACCAGGCTCCTAGGGTCCCTGGTTGGGGTCTGCAGCCCCACACTCCCGGAGGCTG
+>ref|ref|Z17215.1|| O.aries satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACCTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGCTCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGTCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGAGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACCGGTTCCTGTGGAATGGACTGACACATCTGGGGTACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACAGGGAAAGGAT
+>ref|ref|Z12966.1|| O.aries rearranged T-cell receptor gamma
+AACCAACTGAGCTCATAGTAGCTTCCCCTGATAGAGACCTTGATAAAGACATGTCTCCCAAGCCCACTATGTTTCTTCCT
+TCGATTACGGAAATCAAGCGTGATAATAGTGGAACATATCTTTGTCTTCTGGAGGACTTTTTCCCTCATGTTATTAAGGT
+TTATTGGAGAGAAAAAAGAGGCAACAAAGTTTTGCCATCCCAGGAGGGAAAAACCATTAAGACTCTTGACACATACATGA
+AGTTCAGCTGGCTGACTGTGTCTGGAAACTCCATGGATAAAGAACACATGTGTATCGTCAAACATGAGAAAAATAAAAGA
+GGAACCAATCAAGAGATTCTTTTTCCGGCAGTGAATGAAGTTGTCTCTTCAGTTGTCACTACTACTAAACCTCCAAATGA
+TGGTTTGAAGGATAAAAGTGAAAAACAAGTCCCTGTTGCAAATTCTACAAAAGCATGTCTGAAAGATGAAAACAATACCC
+TGCAGCTGCAGCTCATGAGCACCTCTGCCTATTACACATACCTCCTCCTCCTCATTAAGAGCACAGCCTACTTTGCCATC
+ATCACCTCCTGTGTGTTCAGGAGAACAGGCGTCTGTGGCAATCAGAAGAGCTCGTGATAGAGGGGCCCCATAAGAGGATC
+AACGTTCCTTCATCATCTATGGTCTCTAAAAGCTCTGCTCAGAATCTAGC
+>ref|ref|X06789.1|| Rabbit 5S ribosomal RNA from 5S RNP
+GNCTACGGCCATACCACCCTGAACGCGCCCGATCTNGTCTGATCTCGGAAGCTAAGCAGGGTCGGGCCTGGTTAGTACTT
+GGATGGGAGACCGCCTGGGAANACCGGGTGCNGNAGGCCNNN
+>ref|ref|V00872.1|| Rabbit alpha-actin messenger fragment (aa 72 to 145)
+TCGAGCACGGCATTATCACCAACTGGGACGACATGGAGAAGATCTGGCACCACACCTTCTACAACGAGCTGCGCGTGGCC
+CCCGAGGAGCACCCCACTCTGCTCACCGAGGCCCCCCTCAACCCCAAGGCCAACCGCGAGAAGATGACCCAGATCATGTT
+CGAGACCTTCAACGTGCCGGCCATGTACGTGGCCATCCAGGCCGTGCTGTCCCTGTACGCCTCCGG
+>ref|ref|V00873.1|| Rabbit alpha-actin messenger fragment (aa 192 to 281)
+GATCCTCACTGAGCGTGGCTACTCTTTCGTGACCACAGCCGAGCGCGAGATCGTGCGCGACATCAAGGAGAAGCTGTGCT
+ACGTGGCCCTGGACTTCGAGAACGAGATGGCCACGGCCGCCTCCTCCTCCTCCCTGGAGAAGAGCTACGAGCTGCCCGAC
+GGCCAGGTGATCACCATCGGCAACGAGCGCTTCCGATGCCCCGAGACGCTCTTCCAGCCCTCCTTCATCGGTATGGAGTC
+GGCCGGCATCCATGAGACCACCTACAACAGC
+>ref|ref|X62549.1|| O.cuniculus DNA for angiotensin-converting enzyme, 3' region
+CCGCCAGCCCCACCACGGGCCCCAGTTCGGCTCCGAGGTGGAGCTAAGACACTCCTGAGACATCCAGGCCGGGCCAGCTG
+GTGGGGACAGGGTCATGGGCAGCGGGCCGCGGATGCTCCCCAGCCAGCCAGCCCTCCTCCTCCTCCACCTCCTCCTCCTC
+CCACCCCGCCCCCTCCCGCCCTTCTCTGTCCCACTCTGCAGACACCCAGCCGCCCTGTGATACAATTAAAGGCCCTGCCC
+GCCCACCTGAGTCTGTCTCCCTCACAGGGAAGCCAGGGCAGGGATGGGGGTGGGACCACCCTTCTGCCTCCGGGCAGTCC
+ACCAGCTCCCCTCACTCACTGGGCTGCGCCTCCATCCTCCCCCAGAAAGAGGCTTGGAGAATCCCCAAGCTCTGGCCCCA
+GCCCGACGCAGCCCAGGCCACTGACCATCGTCCTGCCATGGCGGGCAGCCTGCAGGGGCTCTGGGGAGCAGAGGGGAGCC
+GGCCTGCGGGCTGCCCACCTTACCTTACCTGCCCTGCCTGATGCTGGCCCCTGCCCTGGCTGTTTCCCATAAGTGCCCAG
+GGTCCCCAGAGTGAAGACTGCCAGCTGTTCTTGGCCTCCTGCACCAAGCATGCAGAACAGGCCCGGGGTCACCTGCAGCT
+GGTGTGAGCTCAGTGTCCACATGCGTGATGCAGTCCCTGGATCCAGACGGAGCCAGTCAAGACTGCAGCGGTCGTGGAGC
+AGCTGTCGGAGCCACCTGCCCTGCTCTGAAGGCCAATGTGGGCTTGGCGAGCGTCACCTTGAGGCACATCTTTTATGCCC
+ACATTTATGTAGAAACTTTAGAAAATACACAATTCTGTAAAGAAAATAAAAGCCCTTTATACCAATATCAAGAGATAAGC
+ACTGTTGACAGTTTGGTGTTTTATCTTTCCAGCCTTTTTTAATTCCCGTTTACGTTGAAAGGCAGAGTGACAGACTGGGA
+GGTCCTCCATTCAACTTG
+>ref|ref|NM_001082393.1|| Oryctolagus cuniculus calcium voltage-gated channel auxiliary subunit gamma 1 (CACNG1), mRNA
X56031.1 Rabbit mRNA for calcium channel gamma subunit
+CTCTGGCTCAGCCGGGCACACTAAACTTAGCTTCCACCCCCAGCTCCGGAGCCACGGCCACCACCCTAGCCGGGCCGCCA
+CCTGCACGGGCAGGCGCCGCCGCCAGACCCTACCTGCAGCACCCACCCCTCTGCAGCCGCCATGTCCCCGACGGAAGCCC
+CAAAGGTCCGCGTGACCCTCTTCTGCATCCTGGTGGGCATCGTGCTGGCCATGACGGCCGTGGTGAGCGACCACTGGGCC
+GTGCTGAGCCCCCACATGGAGAACCACAACACCACCTGCGAGGCCGCCCACTTCGGCCTGTGGCGGATTTGCACCAAGCG
+CATCGCCCTGGGCGAGGACAGGAGCTGCGGACCCATCACCCTGCCTGGGGAGAAGAACTGCTCCTACTTCCGGCATTTTA
+ACCCAGGCGAGAGCTCGGAGATCTTCGAATTCACCACGCAGAAGGAGTACAGCATCTCGGCGGCCGCCATCAGCGTCTTC
+AGCCTGGGCTTCCTCATCATGGGCACCATCTGCGCGCTCATGGCCTTCAGGAAGAAGCGGGATTACCTGCTGCGGCCGGC
+GTCCATGTTCTACGTCTTTGCAGGCCTCTGCCTCTTCGTGTCACTGGAGGTAATGCGGCAGTCGGTGAAACGCATGATCG
+ACAGCGAGGACACCGTCTGGATCGAGTACTATTACTCCTGGTCCTTTGCCTGCGCCTGCGCCGCCTTCGTCCTCCTCTTC
+CTCGGGGGTATCTCCCTGCTGCTCTTCTCCCTGCCTCGAATGCCCCAGAACCCCTGGGAGTCCTGCATGGACGCCGAACC
+CGAGCATTAGCCCTCCTGGGGCGCCCAGGGAGCCTCGGCCCAGAACCTTCCAGAAGGGAGGCAGGAATTGCAAACCTGCC
+CTGTTCCCATCTGCCTCACCCCGCGACTGCTTCCCTTCCGTGGCTCTGACGGAGCTCCTCTGCTCACAGGGCAAATGGAC
+GCGAGCCCAGCCCTGTCCTGGTTGGACGAGGTGGGCAGGTGGTTGGAGGGGCCCGGCCTTCCACTGAGGCTCAAAGCCGT
+CCCTGCTGTGCCGGTTCTCCTTGGGAAGCTGGGCCCTGGTAAACCTGGTAAACCTCCCAGGAGCACCCCGTGCGCGCATG
+CCGGTGCTGGGTGCCCCCTGTGTGAAAAGCCGGCCCCTCTGTCTTCCCAGCCACCAGAACCTTCGTTGCCTCCCGGAGCT
+CTGGGAATCAGCATTTTCCACCAGGGAGTATCTGACTGTGGTTTGAAATAAAAGCGCTCAGAACACTC
+>ref|ref|NM_001101695.1|| Oryctolagus cuniculus orosomucoid 1 (ORM1), mRNA
X58727.1 Rabbit mRNA for acute phase protein
+AGCTCTGCCTGGCTCCAGCGCCTCTGTGTCTCAGCATGGCCCTGCCCTGGGCCCTCGCCGTCCTGAGCCTCCTCCCTCTG
+CTGCATGCCCAGGACCCAGCGTGTGCCAACTTCTCGACCAGCCCTATCACCAATGCCACCCTGGACCAGCTCTCCCACAA
+GTGGTTTTTTACCGCCTCGGCCTTCCGGAACCCCAAGTACAAGCAGCTGGTGCAGCATACCCAGGCGGCCTTTTTCTACT
+TCACCGCCATCAAAGAGGAGGACACCTTGCTGCTCCGGGAGTACATAACCACGAACAACACGTGCTTCTATAACTCCAGC
+ATCGTGAGGGTCCAGAGAGAGAATGGGACCCTCTCCAAACACGACGGCATACGAAATAGCGTGGCCGACCTGCTGCTCCT
+CAGGGACCCCGGGAGCTTCCTCCTCGTCTTCTTCGCTGGGAAGGAGCAGGACAAGGGAATGTCCTTCTACACCGACAAGC
+CCAAGGCCAGCCCGGAACAACTGGAAGAGTTCTACGAAGCCCTCACGTGCCTGGGCATGAACAAGACGGAAGTCGTCTAC
+ACTGACTGGACAAAGGATCTGTGCGAGCCGCTGGAGAAGCAACACGAGGAGGAGAGGAAGAAGGAAAAGGCAGAGTCATA
+GGGCACAGCACCGGCTCCGGGACTCGGGGCCCACCCCCTGCACCTGCCTTTTTGTTTGTTTTGTAAATCTCTGTTCTTTC
+CCATGGTTGCATCAATAAAACTGCTGGACCAGTAAAAAAAAAAAA
+>ref|ref|V00876.1|| Rabbit aldolase A messenger fragment (aa 37 to 55)
+CCGGGAGCATCGCCAAGAGGCTGCAGTCCATCGGCACCGAGAACACGGAAGAGAACCGG
+>ref|ref|X51508.1|| Rabbit mRNA for aminopeptidase N (partial)
+CCCAGTTCCAAGGCGAGCTGGCCGACGACTTGGCGGGCTTCTACCGCAGCGAGTACATGGAAGGCAACGTCAGAAAGGTG
+GTGGCCACGACACAGATGCAGATGCAGGCTGCAGATGCCCGGAAATCTTTCCCGTGCTTTGATGAGCCGGCGAGTAAGGC
+CACGTTCAACATCACGCTCATCCACCCCAGGGACTACACGGCCCTGTCCAACATGCTTCCCAGAAGCAGCACTGCACTCC
+CAGAAGACCCCAACTGGACCGTCACAGAGTTCCACACCACCCCCAAGATGTCCACGTACCTGCTGGCCTACATCGTCAGT
+GAGTTCACGAACATAGAAGCTCAGTCACCCAATAACGTCCAGATCCGGATCTGGGCTCGGCCCAGTGCCATCAGTGAAGG
+CCACGGCCAGTACGCCCTGAATGTCACGGGCCCCATCCTAAACTTCTTTGCCAACCATTATAACACTCCCTACCCGCTCG
+AAAAATCTGACCAGATCGGCCTGCCCGACTTCAACGCCGGGGCCATGGAGAACTGGGGCCTGGTGACCTACCGGGAGAGC
+GCCCTGCTTTTCGACCCCCTGGTGTCCTCCATCAGTAACAAGGAGCGGGTGGTCACCGTGGTTGCCCACGAGCTGGCCCA
+CCAGTGGTTTGGGAACCTGGTGACCGTGGACTGGTGGAATGACCTGTGGCTGAACGAAGGCTTCGCCTCCTACGTGGAGT
+ACCTGGGTGCTGACTACGCAGAGCCCACCTGGAATCTGAAAGACCTCATAGTGCTGAACGAACTGCACTCGGTGATGGCC
+GTGGACGCCCTGGCCTCCTCCCACCCTCTGTCCTCCCCCGCCGACGAGGTCAACACGCCCGCCCAGATCAGCGAGCTCTT
+CGACTCCATCACCTACAGCAAGGGCGCCTCTGTCCTTAGGATGCTGTCCAGCTTCCTGACCGAGGACCTGTTCAAGGAGG
+GCCTGGCGTCCTACCTGCACACTTTTGCGTACCAGAACACCATCTACCTGGACCTGTGGGAGCACCTGCAGCAGGCTGTG
+AACAGCCAGTCGGCGATCCAGCTGCCCGCCTCTGTGCGCGACATCATGGACCGCTGGATCCTGCAGATGGGCTTCCCGGT
+CGTCACCGTGAACACAACCAACGGGATCATCTCCCAGCATCACTTCCTCTTGGACCCCACGTCCAATGTCACTCGCCCGT
+CAGACTTCAACTATCTGTGGATTGTTCCTGTCTCGTCCATGCGGAACGGCGTGCAGCAGCAGGAATTCTGGCTGGAAGGC
+GTCGAGCAAACCCAGAACTCCCTGTTTAGAGTGGAAGGCGACAACAACTGGATCCTTGCGAACCTCAACGTGACGGGGTA
+TTACCAGGTGAACTACGATGAAGGCAACTGGAAGAAGCTTCAGACGCAGCTGCAGACCAACCCCTCGGTCATCCCTGTCA
+TCAACCGGGCGCAGATAATCCACGACGCCTTCAACCTGGCCAGTGCCCAAAAAGTCCCCGTCACACTGGCGCTAGATAAC
+ACCCTCTTCCTGATCCGAGAGACCGAGTACATGCCCTGGCAGGCGGCCCTGAGCAGCCTGAACTACTTCAAGCTCATGTT
+CGACCGCTCCGAGGTCTACGGCCCCATGAAGAACTACCTGAGCAAGCAGGTCCGCCCGCTCTTCGAGCACTTCAAAAATA
+TTACCAACGACTGGACGCGGCGCCCGGACACCCTGATGGACCAGTACAATGAGATTAACGCCATCAGCACCGCCTGCTCC
+AATGGGATTCAGGAGTGTGAGACCCTGGTCTCCGACCTCTTCAAGCAATGGATGGACGACCCCAGTAATAACCCGATCCA
+CCCCAACCTGCGCACCACCGTCTACTGCAACGCCATCGCCCTGGGCGGCGAGAGGGAGTGGGACTTCGCCTGGGAGCAGT
+TCCGCAACGCCACCCTGGTGAACGAGGCCGACAAGCTGCGGTCGGCCCTGGCCTGCAGCAACGAGGTGTGGATCCTGAAC
+AGGTACCTGAGCTACACCCTGAACCCCGACTACATCCGGAGGCAGGACGCCACCTCCACCATCAACAGCATCGCCAGCAA
+CGTGATCGGGCAGACCCTGGTCTGGGACTTTGTCCAGAGCAACTGGAAGAAGCTCTTTGAGGATTTTGGTGGCGGCTCCT
+TCTCCTTTGCCAATCTCATCCGGGCAGTGACCCGCCGGTTCTCCACTGAGTACGAGCTGCAGCAGCTGGAGCAATTCAGA
+CTGAACAACCTGGACACAGGCTTCGGCTCGGGCACCCGGGCCCTGGAGCAGGCCCTGGAGCAGACGAGAGCCAACATCAA
+GTGGGTGCAGGAGAACAAGGAGGCGGTGCTCGCGTGGTTCACGGCAAACAGCGCCTAGTCCCAGGTCCTTCTTGTCGCCT
+GGCCCCCACGCCCAGGACCCGCCCACGTGTGCCAAGGCAGCGGCTCTGTTCCCAGGGCCTGAGGCACTGTGTCCTCCCTT
+CCAGGACCAAGTCTCCAGCCCAAGCCTTCCTGCTCTGCCCGTGCGGCCGGCCAGGCTCCCGAGCGCCTCCCAAGCCCCTG
+CCCCTAGTGTCAATCTCACCTGGGGCCCAGCACAGACGCCAGGCCCCGGGTAACTGATCTCAGGGAAGCCCAGTCCAGGG
+CAGGTGGGCAGAAGCCCTCACTGGAAAAAGGACGGCCTTGAGGGGGCCGCCTGCACCCTCCCCCACCTTCCCATAAAGAC
+CCCCAACCTGAGGAATCAACAGGACATCAAATCTGTATTTTTTTTTTTTATAAGAACAAATGTAAATAAAGTATTTCTAA
+ATGAAAAAAAAAAAAAAAA
+>ref|ref|X16427.1|| Rabbit mRNA for serum amyloid A protein
+CTTCCACGCTCGGGGCAACTATGACGCTGCCCAAAGGGGCCCTGGGGGTGTCTGGGCTGCCAAGGTCATCAGTGACGTCA
+GAGAGGACCTTCAGAGACTCATGGGCCACGGAGCAGAGGACTCGATGGACGACCAGGCTGCCAACGAATGGGGCCGCAGT
+GGCAAAGACCCCAACCACTTTCGACCCAAGGGCCTACCCGACAAATACTGAGCTCCCTACTCTGCTGCCCCTGAGGACTG
+ACCCAGAGTACTGAGTTCCGTGTGCGTGAGCTGGTGGCGGGCATACAACTGGTGTCTAATAAATGCGTATAAGACTGAAA
+AAAAAAAAA
+>ref|ref|NM_001082392.1|| Oryctolagus cuniculus serum amyloid protein A (LOC100009259), mRNA
X16428.1 Rabbit mRNA for serum amyloid A protein
+CGCACCCCCCAAGTGGCCGCTACGCGGGCGCACAGCGTGCTCCACCAAAACCCAGCACCATGAAGCTCCTCTCAGGCCTG
+CTTCTCTGCTCCTTGGTCCTGGGAGTCAGCGGCCAAGGCTGGTTCTCCTTCATCGGTGAGGCTGTGAGAGGGGCAGGGGA
+CATGTGGAGAGCCTACTCCGACATGAGAGAAGCCAATTACATAAATGCAGACAAGTACTTCCACGCTCGGGGCAACTATG
+ACGCTGCCCAAAGGGGCCCTGGGGGTGTCTGGGCTGCCAAGGTCATCAGTGACGTCAGAGAGGACCTTCAGAGACTCATG
+GGCCACGGAGCAGAGGACTCGATGGCCGACCAGGCTGCCAACGAATGGGGCCGCAGTGGCAAAGACCCCAACCACTTCCG
+ACCCAAGGGCCTGCCCGACAAATACTGAGCTCCCTGCTCTGCTGCCCCTGAGGACTGGGACCCAGAGTGCTGAGTCCCGT
+GTGCGTGAAGCTGGTGGCGGGCACACAACTGGTGTCTAATAAATGCGTATAAGACTGAAAAAAAAAAA
+>ref|ref|X52090.1|| O.cuniculus BChE gene for butyrylcholinesterase, exon 1 (EC 3.1.1.8) (and joined CDS)
+ATCCAGTGTGCTGCGAAAAAGGTACACGGCTTTAAAAGATTCTCGCCATCAAAATAGTGACCTCTGATGCCGGTTCCCCT
+GAACTCGTTCAAATTCCCGGCCTATTATATATGCTAGGGACAAATTTCTTCTGTAGAGTACTAAATCTCCTTTACAGCTT
+AATGATAGTCACTAGTCTTCAAATCAAATAAATTCTATTTCCTAATGTACTCACTTATCTTCCAAACTGAAAACTATTTG
+AATAGTTTCGTATTTTATAGGACTCATAAAAGCTACTGTATTTCAGGGGATTCGCATCAACACAGTGTAATGCTATATGC
+ATAATACTGATAGAACTTCCTACTGCTCTTCTTTTCAGGAAGCCAATATGCAGGACAAGGGCACACTCATATCTACCCGG
+TTTCCTTTCCTGGTTCCTTTTACTCTGCATGGTTACTAGGAGTTCACACACCGAAGATGTGATAATTACAACCAAGAATG
+GAAGAATCAGAGGGATAAACTTGCCGGTTTTCGGAGGCACTGTAACAGCCTTTCTTGGCATTCCCTATGCACAGCCACCT
+CTAGGTAGACTTCGATTCAAAAAGCCACAATCTCTAACCAAATGGTCTGACATTTGGAATGCCACAAAATATGCAAATTC
+TTGCTGTCAGAACATAGATCAAAGTTTCCCAGGCTTCCATGGATCAGAAATGTGGAACCCAAACACTGACCTCAGTGAAG
+ATTGTTTATATCTGAATGTGTGGATTCCAACACCTAAACCAAAAAATGCCACTGTGATGATATGGATCTATGGTGGTGGT
+TTTCAGACTGGGACCTCTTCTTTGCAAGTTTATGATGGCAAGTTCTTGACTCGGGTTGAAAGAGTGATTGTGGTTTCAAT
+GAACTATAGGGTGGGTGCTTTAGGATTCCTAGCTTTGCCGGGAAATCCCGAAGCCCCAGGGAATATGGGCTTATTTGATC
+AACAGTTGGCCCTTCAGTGGGTTCAAAAAAACATAGCAGCCTTTGGTGGAAATCCTAAAAGTGTAACTCTCTTTGGGGAA
+AGTGCAGGAGCAGCTTCTGTGAGCCTCCATTTGCTCTCTCCTAGAAGTCACCCGTTGTTCACCAGAGCCATTCTGCAAAG
+TGGATCATCTAATGCCCCTTGGGAGGTCATGTCTCTTCATGAAGCTAGGAACAGAACGTTGACATTAGCTAAGTTTGTTG
+GATGCTCTACAGAGAATGAGACTGAAATCATAAAATGCCTTCGAAACAAAGATGCCCAGGAGATTCTTCTGAATGAAGTA
+TTTGTTGTTCCCTTTGATAGTCTCCTCTCAGTGAACTTTGGTCCAACAGTGGATGGTGACTTTCTCACTGACATGCCAGA
+CACACTCCTTCAGCTTGGACAACTAAAAAAAACCCAGATCTTGGTGGGTGTGAATAAAGATGAAGGGACAGCCTTTCTTG
+TCTATGGTGCTCCTGGTTTCAGTAAAGATAACACTAGTATCATAACTAGAAAAGAATTTCAGGAAGGTTTAAAAATATTT
+TTTCCTGGAGTGAGTGAGTTTGGAAAGGAATCCATCCTTTTTCATTACACAGACTGGGTAGATGAGCAGAGGCCTGAGAA
+TTACCGCGAGGCCTTGGATGATGTGGTTGGGGATTATAATTTCATATGCCCTGCCTTGGAGTTCACCAAGAAGTTCTCAG
+AATGGGGAAATAATGCCTTTTTCTACTATTTTGAACACCGATCCTCCAAACTTCCGTGGCCAGAATGGATGGGAGTGATG
+CATGGCTATGAAATTGAATTTGTCTTTGGCTTACCACTGGAAAGAAGAGTTAATTATACAAAAGCTGAAGAAATTTTGAG
+TAGATCCATTATGAAACGTTGGGCAAATTTTGCAAAGTATGGGCAAATTTTGCAAAGTATGGGTGAAGTGTGATTTTCCC
+TT
+>ref|ref|X52091.1|| O.cuniculus BChE gene for butyrylcholinesterase, exon 2 (EC 3.1.1.8)
+TCTACTTCAAATCCACCTCCCCACTAAGTACTTGAGAAGGTATCCCAAGGTGGCACAGACCGTGGGCCCCTGACAAGCAT
+GAGGGAGTACCAAGCAAGGAAGTTCCTAGCTCCTGGCATCAGCTTGATGCAGCTACCAACCATTGTAGTCATCAGGAGAG
+TAAACCTGCAGATGGAAGAGTTCTTTCTATCATTCGTCTTTCCTTCATCACTTCCTCGCCTTTTTAATAAAGAAGTAACG
+CCTTTTAAAAAAAGAAAAATGAAGTGATGAATAAACTTCGTCCTTTAGATTTTAACCTCCATGGGTTTTTAACTGATACA
+TGCTTGAATATCTTAAAACTCTAAAACTGGTTACACCTATGTTTAATCTCATGAAAATATGGGCTACATTTTTCAGGTCT
+GATGAAATATTCTTGCGAAAAGTCAAAAAATTATTTTCTAACAAATATTTCAACTGAAGTGTAATATCTCTATTTAATTA
+TGTAGTAATCCAAATGGGACCCAGAACAATAGCACAAGATGGCCAGTCTTCAAAAGCACTGAACAAAAATATCTGACCTT
+GAATACAGAGTCACCAAGGATATACACTAAACTACGTGCTCAACAATGCCGATTCTGGACACTATTTTTCCCCAAAGTCT
+TGGAAATGACAGGTGTGTGTTTTTTTTATTGCTTGCTTAATTAATATGGTATGGATTATGTAGAAGGAGAAACCTGGCAG
+ACTATCCGAGGCACAGAGATACTGTTAATAAACATATATGTTTGACAATCTGGTTACTTGATCTCAATGAATACATGTTA
+TTAAGGAACTTTTATCAGATCAGTATTTTGAGTGTTTACTATATGAGCATGTGAAGCACTTTAGTAATTAATATAGAGAG
+AACAAAAATGCAACAATGTGTATGTGGTTTGGTTATTGTTTGTAGCCCTTGTCTACTCCTGAGGAACAGCAGCCTTTCTA
+TTTATTACTTACTGA
+>ref|ref|X52092.1|| O.cuniculus BChE gene for butyrylcholinesterase, exon 3 (EC 3.1.1.8)
+TAGAAAAAAGCTAAAAAATAATTAAAGAAGATAAAAAATAATGAATAATAAAAAATTTGCTATGTAGTATATTAGGAGAA
+AATGGCATCTGTAATCAAAATTATTTTTCAAGTAATATAAACAGAGATTAAAATTTAGATTAATGTATTTTATATTCCAT
+GTTTTACAGGAAATATTGATGAAGCAGAACAAGAGTGGAAAGCAGGATTCCATCGTTGGAACAATTACATGATGGCCTGG
+AAAAATCACTTTAATGACTACACTAGCAAAAAAGAACGCTGCGCAGGCTTCTAATTAGTGGAATAGCCCTTTATGAAAGT
+TCGTAGAGGTAGATCAAAGCAAACCCTCTTCCACAATACTAACGAAAGCTTTTATACAGCTAAACAAACAAAAATTCCGG
+AATTATATTGATTGCTCACATCTTTCACTTTGTATTTTACCTAGCATTTAAA
+>ref|ref|V00880.1|| Rabbit pseudogene for beta-2-globin (sequence homologous to exons 1 and 2)
+TCAGACTCATAAGCCAGTGCCAGAGCTGACCATGACCAGTGTTCTGTCACTCTTCTGGCCTCACCCTGGCATTGGTGACT
+CACCAGGGTAGGCAGTGCAGGGGCCACTACTGGGCATAAAAGGCAGAGTGGGACAGCTGCTGCTTATGCTTGTATTTGAC
+ACAACTGTGTTTACTAGCAATATTCCAAATAGAATGGTGCATCTCTCTGGTGAAGAGAAGGATACATTCACTGCCCTGTG
+GGGCAAGGTTGATGTGAAGAAGTTGGTGATGAGGCCCTGAGAGGGTTGCTTTTCAAGTTATAGGGCAGTCTATTGAGGCA
+GATGGAAGCTGGGCTTGTGTAGACAGAGCTGGCCCCAGGGTTTCTGCCAGGCACTGAATCCCCCAGTGCTGATTGTCTAC
+CCAAGAACCCAGAGGTTCTTTATACCGTTTGGGGACCTGTCCTCTGAACCTGCTGTTATGAGTAATGTCAAGGTGACGGC
+CCATTGCAAGAAGGTGCTGGCTACCTTCAGTGAGGGTCTGAATCACCTGGACAACCTCGGGGAAAATTTTGTCCAGCTGA
+GTGAGCTGCACTGTCACAAGCTCCATGTGGATCCTGAGAACTTCAGTGTTAGTCTAGGCAATGTTCCACTTTTTTCTTTT
+CACATTCTCATCTTCTTTTTTTGTTGTTTGTTTGTTAAGCAACCTGTCTTTGTCAACATTTCTATCTAATTCCCTATATT
+TCGTCATTTATTGCTTTTCAAAAATTTTCATTTTTCTTTAGTATTTCGTTTTTTCATTCCTCAC
+>ref|ref|V00881.1|| Part of a rabbit pseudogene for beta-2-globin
+GGACATAGCAAAGGCACATTGTAGGTGGGGTTGCAGATGTTGCTAAGAAGCAACCACTATTACATCAATTAAGGGATTAA
+TTAGTAATATTATTATATATGCATATACATGTACATACCTATGTGATTATACACTTATATATATATTGGTTGTTTTAAAT
+TGAGACTCTATTTAGATTAAGATGTAGGAAGAAAATAATTAGTGTTGGCCCAATTTCAGAATACAAGCTTGATTTCTGTG
+CTAACCATACGTAAAATATCTCCATAGCTCTTTCTCACACTCCAGGGCAATGGGCTGGTGATTGTGCTGGCCTTCTACTT
+CGGCAAAGAATTTACCCCATAGCTGAAGGTGCCTATCACAGAGTGGCAGCTGGTGTGGCCAATGCCTGGGCTCACAAGTA
+CCCCTAAGATCTTGACTTGTTCTCTACTTACCCTGTTCCATGGAAAATCTTTTCTATATTTCATCTATTGAACATGAAGA
+CATAATACCCAACCTAAGGGTGTGAGCCTAATAAAAGATCA
+>ref|ref|X53521.1|| Oryctolagus cuniculus mRNA for brain tissue factor
+GCAGACACTACAGGTAGAGCATATAATCTAACTTGGAAGTCAACGAATTTCAAGACAATTCTGGAGTGGGAACCCAAATC
+CATCGATCATGTCTACACAGTTCAGATAAGCACTAGGCTAGAAAACTGGAAGAGCAAATGTTTCTTAACCGCGGAGACGG
+AGTGCGACCTCACCGATGAGGTCGTGAAGGACGTGGGGCAGACGTACATGGCGCGGGTCCTCTCCTACCCGGCAAGGAAC
+GGAAACACCACGGGGTTCCCCGAGGAGCCTCCCTTTAGAAACTCCCCGGAGTTCACGCCGTACCTGGACACAAACCTCGG
+ACAGCCAACAATTCAGAGCTTTGAACAAGTTGGGACAAAACTGAATGTGACAGTCCAGGATGCACGCACGCTGGTCAGAA
+GGAATGGGACATTCCTAAGTCTCCGGGCTGTGTTTGGCAAGGACTTGAATTACACGCTTTATTACTGGAGAGCTTCGAGC
+ACAGGAAAGAAAACAGCCACGACAAACACTAATGAGTTTTTGATCGACGTGGATAAAGGAGAAAACTACTGTTTCAGTGT
+CCAAGCAGTGATTCCCTCTCGGAAAAGGAAGCAGAGGAGCCCCGAGAGCCTCACTGAGTGCACCAGCCGCGAGCAGGGCA
+GGGCCAGGGAGATGTTCTTCATCATTGGAGCAGTGGTGGTCGTGGCCCTCTTGATCATCGTCCTGTCTGTGACCGTGTAC
+AAGTGCAGAAAGGCGAGGGCGGGGCCCAGCGGGAAGGAGAGCTCCCCCCTGAACATCGCCTGAAGGGAGCGCCGCGGGGG
+GTGCCGGCTGCTGCCAATGCTGTGTTGCACTGTGACCAGGAGAACAGGAGATAGGGGGATGCAAATGAGAATTTGGAGCA
+TAAAGACCCATGGATTCAAAAAAGCTCTTCCCGTGACCTGCTATTGTAAGCAGCACGGTGGCTCAGACATCGGCACGGTC
+ACTCGGGAGTGGAATGAGCAGTACAGCCAATCCCAGCTTGTTTCCGCGACTGTAACACTATGGTGCCTTTTGCACGTCTC
+CTGCCTGCTGTGGTGCGGGCTGCACCAGGTGTGGTGCACCTGCTGTGGTGCGAAGCCAGGGCAGCCGAGAACAAGCCAAG
+GAACAGGGCCTTAAAGTAGCCTGGGTGGGCTTTGGGAGAACTCTTGAAAAGCTGACTTCAGGTAATGTGGGAACGAGAAA
+TGGCAATCGGGGCCTATTTTCTGGGGTTTTTCTGAACTCTGCCGTCTCGTGTGTTGGTGTTGGTGTTTTTTCTTTTCTTG
+GTGGAGTATTTCGAGAATTC
+>ref|ref|X64297.1|| O.cuniculus mRNA for cardiac calcium channel beta-subunit CaB2a
+AGCCTGGAGCTTGCGCTGAGTTCTTGCTCTCGGGAAGGACGAGTGTACGCGCGAGTCCTGGGCTCCCTAGGAACTGGTCT
+GGCATGCTTGACAGGCACCTCGCGGCTCCGCACACCCAAGGCCTTGTTCTCGAGGGTTCGGCAGACTCCTACACCAGCCG
+TCCATCCGATTCAGATGTGTCTCTGGAGGAGGACCGGGAGGCAGTGCGCAGAGAAGCTGAGCGACAGGCCCAGGCCCAGT
+TGGAAAAAGCAAAGACAAAGCCTGTTGCATTTGCTGTTCGGACAAATGTCAGCTACAGTGCTGCCCACGAAGATGATGTC
+CCAGTGCCAGGCATGGCCATCTCATTTGAAGCAAAAGATTTTCTGCATGTTAAGGAAAAATTTAACAATGACTGGTGGAT
+AGGGCGTTTGGTTAAAGAAGGCTGTGAAATCGGATTCATTCCAAGCCCGGTCAAACTAGAAAACATGAGGCTACAGCATG
+AACAGAGAGCAAAGCAAGGGAAATTCTACTCCAGTAAATCAGGAGGAAATTCATCATCCAGTTTGGGTGACATTGTACCT
+AGTTCCAGAAAATCTACACCTCCATCATCTGCTATAGACATAGATGCTACTGGCTTAGATGCAGAAGAAAATGATATTCC
+AGCAAACCACCGCTCCCCTAAACCCAGTGCAAACAGTGTAACGTCACCCCACTCCAAAGAGAAAAGAATGCCCTTCTTTA
+AGAAGACAGAGCACACTCCTCCGTATGATGTGGTGCCCTCCATGCGACCCGTGGTCCTCGTGGGCCCTTCCCTGAAGGGG
+TATGAGGTCACAGATATGATGCAGAAAGCGCTGTTTGATTTTTTAAAACACAGATTTGAAGGGCGGATATCCATCACAAG
+GGTCACTGCTGATATCTCGCTTGCCAAACGCTCAGTGTTAAACAACCCCAGTAAGCATGCAATAATAGAAAGATCCAACA
+CTAGGTCAAGCTTAGCGGAAGTTCAGAGTGAAATTGAAAGGATCTTTGAACTTGCAAGGACACTGCAGTTGGTAGTCCTT
+GATGCGGATACTATTAACCATCCAGCTCAACTTAGTAAAACCTCTTTGGCCCCTATTGTAGTGTATGTGAAGATTTCTTC
+TCCTAAGGTTTTACAAAGGCTAATAAAATCTCGAGGGAAATCTCAAGCTAAACACCTTAATGTCCAGATGGTAGCAGCTG
+ATAAACTGGCTCAGTGTCCTCCAGAATTGTTTGATGTGATCTTAGATGAGAACCAGCTTGAGGATGCTTGTGAGCATCTT
+GCCGACTATCTGGAGGCCTACTGGAAGGCCACCCATCCTCCCAGCAGCAATCTCCCCAACCCTCTCCTTAGCCGTACTTT
+AGCTACTTCAGCTCTGCCTGTCAGCCCCACCCTCGCCTCTAATTCACAGGGTTCTCAAGGAGATCAGAGGACTGATCGCT
+CTGCCCCTGCCCGTTCTGCTTCCCAGGCTGAAGAAGAACCTTGCTTGGAACCAGCAAAGAAATCCCAGCACCGGTCTTCC
+TCCTCAGCCCCACACCACAACCATCGCAGTGGTACAAGCAGAGGCCTCTCTAGGCAAGAGACATTTGACTCAGAAACCCA
+GGAGAGTCGAGACTCTGCCTATGTGGAGCCGAAGGAAGATTATTCCCATGAACATGTGGACCACTATGCTCCACACCGTG
+ACCATAATCACCGAGATGAGACCCACAGGAGCAGTGACCACAGACACAGGGAAACCCGGCACCGTTCCCGGGACATGGAT
+CGAGAGCAGGACCACAATGAGTGCAACAAACAACGAAGTCGTCATAAATCCAAGGATCGCTACTGTGACAAGGATGGAGA
+AGTAATATCCAAAAAACGGAATGAGGCTGGGGAGTGGAATAGGGATGTTTACATCCGCCAATGACTTGTGCCCTTTTGTG
+TTTTTTTTTTTTTAAGTCTTGTATAAGCGCACCCTCAGATGAAATCTTTGGGGTCTACATTGAAATCATATGTGATCTGT
+CTTGTGTATTTTGTATTGCTGTTGCTCAAGTAGCAATAGCATGAAATAGAGTATTAATATACTTTTTTTTTCTTTTTTAA
+GTGCTATATAAATTGGCCTGGTACAGCTGAATTCACAAACTGTGTTGGGTAGCTGCCACTTGAACAAAATCTGTTGCCAC
+ACAGGTGATTAGCGTTTCAAGAAACATAGTTGATCCATCCAGCAAGCCAGAATCAGCACAGATAAGTGGAATTTCTTGTT
+TCCCAGATTTTTAATACACAGATACCTTATTTGCATATTCATTTATTCATGGACCACTGTTTCTTGCTTGTACCTCTGGC
+TGACTAAATTTGGGAACAGATTCAGTCTTGCCTTACACAAAGGGGATCATAAAGTTAGAATCTATTTTCTATGTATTAGT
+ACTGTGTACTGTATAGACAGTTTGTAAATGTTATTTCTGCAGACACCTTATTATAATTATATATAATATATATATATACA
+ATCAGTTTGATCACACTATTTTAGAGTCTTAATGCCAAGTCAGCAGATTTGCTTTATGAATTACAGGGACTAGAAATACC
+CACATTCAGGAAATTTGTAATAACATTGTCTAGACACCTATCCCCACTCTAATAGAAAGTCTGTATATACTGTAAATATG
+TGTGATTGCTTGACTTGAAAAGATTTGATTTCTAAATGTTATACCATCCTGTAAGTTTATAATTTTGACCATAAATTATG
+GCAAATATACCAAACTCAAAGGTTGTTCTACTCCATACAGTTCACACTAATTGTGACAAACACATTCTTAGTAGCTAGTG
+TCTGTTATAGTCACTGCACTGGAATATGAGCCGGAACCCGCTGTATGCACGTGCGTGTGTGTCTGTATGTAAGAGTGTGC
+ACGAGTGACCGGTTGAAATAAACTCAAATGCTGAAGACTAGTGAAGAAATTAGAGACTGGTCTCTAGAATTCCAGCCACC
+TGGCTTTGTATTTAATTGTGCTATGTGTTGCTTTAACAATCAATCCATCAAGCAGTCAGGGAACGTGAGAAAGCTTGCTG
+CCAAAGTAAATAGGAAAATAA
+>ref|ref|NM_001082396.1|| Oryctolagus cuniculus calcium voltage-gated channel auxiliary subunit beta 2 (CACNB2), mRNA
X64298.1 O.cuniculus mRNA for cardiac calcium channel beta-subunit CaB2b
+GCGGCCTCGCAGCTCGCTCGTGCCTGCGTCTCCTCCTCCGCCGCCTCCTCCTCCTCTTCTGCTCGCCGTTCGCCACCCAC
+TTCTCTCCCGGCGCCGGGGACCCTGCCCCTTGGCGCTTCCCCCTGACTCTTCTCCGGCTTCCATTTTTCTCTGCTTCCGA
+AAAGCAAGTGGGAAGGGGCGGGGGCGACCTGCCGGGCTCGCAGCTTCTCCCGGGCGGCTCTGCTCAGCTCTCGTCGCTCC
+TGCCCGGGAGAGGCACATGGAGAGACATGAACCAGGCGAGTGGACTGGACCTGCTCAAGATCTCCTATGGAAAAGGAGCC
+AGAAGGAAAAACCGATTTAAAGGATCCGATGGGAGCACCTCCTCTGATACTACCTCAAACAGTTTTGTTCGTCAGGGTTC
+GGCAGACTCCTACACCAGCCGTCCATCCGATTCAGATGTGTCTCTGGAGGAGGACCGGGAGGCAGTGCGCAGAGAAGCTG
+AGCGACAGGCCCAGGCCCAGTTGGAAAAAGCAAAGACAAAGCCTGTTGCATTTGCTGTTCGGACAAATGTCAGCTACAGT
+GCTGCCCACGAAGATGATGTCCCAGTGCCAGGCATGGCCATCTCATTTGAAGCAAAAGATTTTCTGCATGTTAAGGAAAA
+ATTTAACAATGACTGGTGGATAGGGCGTTTGGTTAAAGAAGGCTGTGAAATCGGATTCATTCCAAGCCCGGTCAAACTAG
+AAAACATGAGGCTACAGCATGAACAGAGAGCAAAGCAAGGGAAATTCTACTCCAGTAAATCAGGAGGAAATTCATCATCC
+AGTTTGGGTGACATTGTACCTAGTTCCAGAAAATCTACACCTCCATCATCTGCTATAGACATAGATGCTACTGGCTTAGA
+TGCAGAAGAAAATGATATTCCAGCAAACCACCGCTCCCCTAAACCCAGTGCAAACAGTGTAACGTCACCCCACTCCAAAG
+AGAAAAGAATGCCCTTCTTTAAGAAGACAGAGCACACTCCTCCGTATGATGTGGTGCCCTCCATGCGACCCGTGGTCCTC
+GTGGGCCCTTCCCTGAAGGGGTATGAGGTCACAGATATGATGCAGAAAGCGCTGTTTGATTTTTTAAAACACAGATTTGA
+AGGGCGGATATCCATCACAAGGGTCACTGCTGATATCTCGCTTGCCAAACGCTCAGTGTTAAACAACCCCAGTAAGCATG
+CAATAATAGAAAGATCCAACACTAGGTCAAGCTTAGCGGAAGTTCAGAGTGAAATTGAAAGGATCTTTGAACTTGCAAGG
+ACACTGCAGTTGGTAGTCCTTGATGCGGATACTATTAACCATCCAGCTCAACTTAGTAAAACCTCTTTGGCCCCTATTGT
+AGTGTATGTGAAGATTTCTTCTCCTAAGGTTTTACAAAGGCTAATAAAATCTCGAGGGAAATCTCAAGCTAAACACCTTA
+ATGTCCAGATGGTAGCAGCTGATAAACTGGCTCAGTGTCCTCCAGAATTGTTTGATGTGATCTTAGATGAGAACCAGCTT
+GAGGATGCTTGTGAGCATCTTGCCGACTATCTGGAGGCCTACTGGAAGGCCACCCATCCTCCCAGCAGCAATCTCCCCAA
+CCCTCTCCTTAGCCGTACTTTAGCTACTTCAGCTCTGCCTGTCAGCCCCACCCTCGCCTCTAATTCACAGGGTTCTCAAG
+GAGATCAGAGGACTGATCGCTCTGCCCCTGCCCGTTCTGCTTCCCAGGCTGAAGAAGAACCTTGCTTGGAACCAGCAAAG
+AAATCCCAGCACCGGTCTTCCTCCTCAGCCCCACACCACAACCATCGCAGTGGTACAAGCAGAGGCCTCTCTAGGCAAGA
+GACATTTGACTCAGAAACCCAGGAGAGTCGAGACTCTGCCTATGTGGAGCCGAAGGAAGATTATTCCCATGAACATGTGG
+ACCACTATGCTCCACACCGTGACCATAATCACCGAGATGAGACCCACAGGAGCAGTGACCACAGACACAGGGAAACCCGG
+CACCGTTCCCGGGACATGGATCGAGAGCAGGACCACAATGAGTGCAACAAACAACGAAGTCGTCATAAATCCAAGGATCG
+CTACTGTGACAAGGATGGAGAAGTAATATCCAAAAAACGGAATGAGGCTGGGGAGTGGAATAGGGATGTTTACATCCGCC
+AATGACTTGTGCCCTTTTGTGTTTTTTTTTTTTTAAGTCTTGTATAAGCGCACCCTCAGATGAAATCTTTGGGGTCTACA
+TTGAAATCATATGTGATCTGTCTTGTGTATTTTGTATTGCTGTTGCTCAAGTAGCAATAGCATGAAATAGAGTATTAATA
+TACTTTTTTTTTCTTTTTTAAGTGCTATATAAATTGGCCTGGTACAGCTGAATTCACAAACTGTGTTGGGTAGCTGCCAC
+TTGAACAAAATCTGTTGCCACACAGGTGATTAGCGTTTCAAGAAACATAGTTGATCCATCCAGCAAGCCAGAATCAGCAC
+AGATAAGTGGAATTTCTTGTTTCCCAGATTTTTAATACACAGATACCTTATTTGCATATTCATTTATTCATGGACCACTG
+TTTCTTGCTTGTACCTCTGGCTGACTAAATTTGGGAACAGATTCAGTCTTGCCTTACACAAAGGGGATCATAAAGTTAGA
+ATCTATTTTCTATGTATTAGTACTGTGTACTGTATAGACAGTTTGTAAATGTTATTTCTGCAGACACCTTATTATAATTA
+TATATAATATATATATATACAATCAGTTTGATCACACTATTTTAGAGTCTTAATGCCAAGTCAGCAGATTTGCTTTATGA
+ATTACAGGGACTAGAAATACCCACATTCAGGAAATTTGTAATAACATTGTCTAGACACCTATCCCCACTCTAATAGAAAG
+TCTGTATATACTGTAAATATGTGTGATTGCTTGACTTGAAAAGATTTGATTTCTAAATGTTATACCATCCTGTAAGTTTA
+TAATTTTGACCATAAATTATGGCAAATATACCAAACTCAAAGGTTGTTCTACTCCATACAGTTCACACTAATTGTGACAA
+ACACATTCTTAGTAGCTAGTGTCTGTTATAGTCACTGCACTGGAATATGAGCCGGAACCCGCTGTATGCACGTGCGTGTG
+TGTCTGTATGTAAGAGTGTGCACGAGTGACCGGTTGAAA
+>ref|ref|X64299.1|| O.cuniculus mRNA for brain calcium channel beta-subunit CaB2c
+GTACCTAGTTCCAGAAAATCTACACCTCCATCATCTGCTAAGCAGAAGCAGAAATCGACAGAGCACACTCCTCCGTATGA
+TGTGGTGCCCTCCATGCGACCCGTGGTCCTCGTGGGCCCTTCCCTGAAGGGGTATGAGGTCACAGATATGATGCAGAAAG
+CGCTGTTTGATTTTTTAAAACACAGATTTGAAGGGCGGATATCCATCACAAGGGTCACTGCTGATATCTCGCTTGCCAAA
+CGCTCAGTGTTAAACAACCCCAGTAAGCATGCAATAATAGAAAGATCCAACACTAGGTCAAGCTTAGCGGAAGTTCAGAG
+TGAAATTGAAAGGATCTTTGAACTTGCAAGGACACTGCAGTTGGTAGTCCTTGATGCGGATACTATTAACCATCCAGCTC
+AACTTAGTAAAACCTCTTTGGCCCCTATTGTAGTGTATGTGAAGATTTCTTCTCCTAAGGTTTTACAAAGGCTAATAAAA
+TCTCGAGGGAAATCTCAAGCTAAACACCTTAATGTCCAGATGGTAGCAGCTGATAAACTGGCTCAGTGTCCTCCAGAATT
+GTTTGATGTGATCTTAGATGAGAACCAGCTTGAGGATGCTTGTGAGCATCTTGCCGACTATCTGGAGGCCTACTGGAAGG
+CCACCCATCCTCCCAGCAGCAATCTCCCCAACCCTCTCCTTAGCCGTAC
+>ref|ref|X13042.1|| Rabbit mRNA for alpha-casein
+ATCGCCTAGATCATCAACCCAACTTGCCTCTTTTCAGTCGAGTTTAAGGCTTGGACCACCATGAAGCTTCTCATCCTCAC
+TTGCCTTGTGGCTACTGCTCTTGCCAGGCATAAATTTCATTTAGGACACCTGAAACTCACTCAGGAGCAGCCTGAGAGCA
+GTGAGCAGGAAATCTTAAAAGAAAGAAAGCTCCTCAGGTTTGTCCAGACAGTACCACTAGAATTAAGAGAGGAATATGTC
+AATGAACTGAACAGGCAGAGAGAACTTCTGAGAGAAAAAGAGAATGAGGAAATCAAGGGAACTAGAAATGAAGTAACTGA
+GGAACATGTTTTGGCAGACCGTGAGACAGAAGCTAGCATCAGCTCATCAAGTGAGGAAATTGTTCCCAGCAGCACCAAGC
+AGAAGTACGTGCCAAGGGAAGACCTGGCTTACCAACCTTACGTGCAGCAGCAGCTTCTCAGAATGAAAGAACGCTACCAA
+ATCCAGGAGAGAGAGCCTATGAGAGTGGTGAATCAGGAACTGGCTCAGCTCTATCTTCAGCCTTTCGAACAACCCTACCA
+GCTTGATGCCTATCTCCCTGCTCCTTGGTACTATACTCCGGAAGTGATGCAGTATGTTCTTTCCCCACTGTTCTATGACC
+TCGTTACACCCAGTGCCTTTGAGAGTGCTGAAAAAACTGACGTTATTCCAGAGTGGTTGAAGAATTAAGTCAATTCTCAG
+GAACTCCACAATTATGACCATTGATGTGACTGAAAATTCAACCTATGAATTTCTCATCTTTGTTTTATAATCTAAAACCA
+CTTTATCCAAAGACTTTGTTATTCTAGGATAGGAAATCTCATATTGAGGGCTATCTTTCTTTTTGAGCTATCTACTCTTT
+AACAGACAGCATATCATTACTTTCTTAAGCAAAATTTTCTTAGACAGTTTATTATCTAAACTCCAGTTGTATCATGCCAG
+TATGGAAAGCACCTGGTTAGGGGGTATTAAAGTCTTTAGTAAGTTTCTGTAATGGAAATTTCGTTTAAAAAGTCTTTGGA
+TGGATTTTTCTGTAAGTGCAATCATGTCAAATAATTGTGTGCAGTGACTGAGATTTGTTCTTTCTTCTCAATAAATTACA
+TTTTAAGGCA
+>ref|ref|NM_001082759.2|| Oryctolagus cuniculus casein beta (CSN2), mRNA
X13043.1 Rabbit mRNA for beta-casein
+ATCATCCACCCAGCTTCATTTTCACTTCTTGTCCTCCACCTTGGAATAAAGGACTTGGCAGTCATGAAGGTCCTCATTCT
+TGCCTGCCTGGTGGCTCTCGCTCTTGCAAGGGAGAAGGAACAACTCAGTGTTCCCACAGAGGCTGTAGGAAGTGTTTCCA
+GCAGCGAGGAAATTACACATATCAACAAGCAGAAACTCGAGACGATTAAGCACGTGGAACAGCTGCTAAGAGAGGAGAAA
+CTCCAGGATAAAATCCTCCCCTTTATTCAATCACTCTTTCCTTTTGCTGAGCGCATCCCCTACCCTACTCTTCCACAGAA
+CATCCTGAACCTTGCTCAACTCGACATGCTGCTACCTCTCCTTCAGCCTGAAATAATGGAAGACCCCAAGGCTAAAGAGA
+CCATTATCCCTAAGCACAAACTGATGCCCTTCCTTAAATCTCCAAAGACGGTCCCCTTTGTTGACTCTCAAATTCTGAAT
+CTCAGGGAGATGAAAAATCAACACCTTCTTTTGCCCCAGCTCCTGCCCTTCATGCACCAGGTCTTCCAGCCTTTTCCCCA
+GACTCCCATTCCATATCCTCAGGCCCTCCTCTCTCTTCCTCAGTCCAAATTCATGCCTATTGTCCCACAAGTGGTGCCCT
+ACCCTCAAAGGGACATGCCTATCCAAGCCCTTCAGCTGTTCCAAGAACTGCTTTTCCCTACCCATCAAGGCTACCCTGTG
+GTTCAACCAATAGCCCCAGTTAATGTCTAAGAGGATTTCACAGTTAATATCTTTTCCTGATTTTTGAATTGACTGAGACT
+GGAACTTTGGCATCTTCTCCGTCTTTCTATCATGTCATCAGAAACTAAATGTTTTTTAACTAACCAATATGGGCAAATGA
+ATCCTTACTCTTTTATTTATTTTATGCCTTAAATGAAATTTCATTTAATTTGAATTTGACTTGTAAGTTGTTTATACATT
+ACAAATTGTAATTCAGGTAGTACCATCAAAATTCAACATTGAATTGGAAATGTTATAGCAATGCCAAAATATGTTCAAAA
+ATAATTCTTACTATTATTTCTTTCAGACTCTATTTCCTTTCCAGTCATTTCAATAAATTAATCCTTTAGGCATA
+>ref|ref|X15735.1|| Rabbit DNA for 5'flanking region of beta-casein gene
+GAATTCAAGAAGAAAGTGACTTTCAAATTTCTTCTTGTCATTCTGTATTTCTCTGCTCTACTATTCAGTGAGTAACCAAA
+GATATTTGAGTTGCATTCTTGGACAATTTCCTTTCTCGCTTGCTACCCTTTCCCTAGGGAAGTGCATATACTCACTTGAG
+AAAAGAAATCATCTCTGTAAGTGTACTGATTGATGACTTCTCCCTTGAGCCACAAAACCTGAACACCTTCAAACGTACCA
+TGCACAAAATTTGACTCAGATTCTTGCTCCTTGTTTTATTTCTGTTTTATGACATTGGGTAATTTTCCAATCACTCAATC
+ATAGTACAGACATAGATTTTTCCCAATTTTCCATACTCCCATGTTTTTTTTTCTTTCAAACTTTTATTTAATAAATATAA
+ATTTCCAAAGTACAGCTTATGGATTACAATGGCTTCCCCCCCATAACGTCCCTCCCACCCGCAACCCTCCCCTTTCCCAC
+TCCCTCTCCCCTTCCATTCACATCAAGATTCATTTTCGTTTCTCTTTATATACAGAAGATCAGTTTAGCATACATTAAGT
+AAAGATTTCAACAGTTTGCTCCCACACAGAAACATAAAGTGAAAAATACTGTTTGAGTACTAGTTATCCCATGTTTTAAT
+GATTCATTTACCTTCCTCTGTCTAGGATGCCCTGCACCATCTCCCTAATTGAGATAAAAGTATTATCTGTCTTAGATTGC
+TGTAATGATATCACATAAAATCCCCTTATTAGTTCACCTGAGTTATTGTCATTAAGTCGTAAAATTCAAGAAATTGCACA
+ATCCACCTTTCTTTCAAATATTTACCATCTTTTCCAGTTGCTACTGAAGTATGACACATTAACACACTTGAGATCTAGAT
+ATCTATGACCTGACTCTGTCAAACCTCTGCAATTGTAACTTGGACTCTAAAATTTCTATGTGTCTCTACACTTACTATAT
+CGCCCTTCAAGTTATTGCATTGACTTTAGCTGAAATATTTTATTCCTATTTAATCTTTCCTCAAAATTCTACTCATTCTT
+GATAGTTTCATGAAAATAACAGTTCCTTAATGACAAGCTTCTCTGCTCACACTCACATTTTTTTTTATTTCTCCAGCCAT
+AATTAAATTCTGCACTTTTTTAAACAATATCTTACGAGAGTTAAGACAAAGCCTGTGATATATACATGTTATCAAAGAGA
+ATTGCCCTATAGGTCAAATAAATCTAAATTTAAATGGGTGTCCTTGTCATTAACTCAATATAATTTTGAGCAGGTAACTT
+AAACTTTTGGGTATCTCATACCTCTACCTGGAGATAGATGCCTCACTTGTTTTTGTGACAATTGTACAAGATACTATCTG
+TAAAGTGCTTAATGCCAGGACTGGGCTTAATACTTTGAAAAAGTATCTATTATTATTACTAGTATGCCAACAGCAGCAGA
+AAAAGATAATGAGTATTCGTCAGGTAAATACATCGCCAGAACACCTGTAGTAGCCATCCAGTTTCCATTTTTGACTTGTT
+CCATGTTAGAGGGAGGTATACCACTCTTGTGTGCAAAATATTGGTTTGAGCGGAAATATTTATTTTTTTCTAAATCAAAT
+GGTTCTTGACACTAAACAGTTGACCTCATTTGACTAAGCTATCCTCATGAACTAGTTGCTTTGTTAATTTCTCCACTGTG
+ACATAAAGGACTGTTCAGGTTATCATGAAGTCATGGTCTTTGTGAGCCCCTGTGTATCGTTGGTGTTCATATAGAATTTC
+CCTACAGTTGAGATCTTTAGGTCTCCCTAGACCCAAAAGAAACCTAATAGTGCTCACATTAGTATCTTGGAGACTAGGCT
+GGAGCACCACTCTTCTCCAGCCATTGTGTTTATTATTGGGCAATTCATTTCCTGGACACATTTCCTTTATAGGCCTATGA
+ATTACTGCCTTGTCTCAATGCTCCCCAGAATTTCTGGGGAAAGATAATGAGTAGAAATCATTTTCTAATCATATGGAGTT
+CTTGGAATTGAAACTCAAAATCGATTTTTTTTTTTCAAACCACAAAATTAGCATGTCATTAAATGGAGTATATAAGCATC
+CCCAAAAGCAGAGAACATCATCCACCCAGCTTCATTTTCACTTCTTGTCCTCCACCTTGGAATAAAGGTAAGAATTC
+>ref|ref|NM_001101693.1|| Oryctolagus cuniculus calcium voltage-gated channel subunit alpha1 A (CACNA1A), mRNA
X57476.1 Rabbit mRNA for calcium channel BI-1
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCTTTACCGGGACATGTATGCGATGCTGAGACACATGCCCCCACCCCTGGGTCTGGGGAA
+GAACTGCCCGGCCAGAGTGGCCTACAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGCCCGGCGGCCGCCGACAAGGAACGCTACGGCCCGCAGGACCGGCCCGACCATGGCCACGGC
+CGCGCCCGCGCCCGGGACCAGCGCTGGTCCCGCTCGCCCAGCGAGGGCCGGGAGCACACCACGCACCGGCAGTAGTTCAG
+TAAGTGGAAGCCCCGTCCCTTCTACGTCCGGTACCAGCACTCCGCAGCGGGGACGCCGCCAGCTCCCCCAGACCCCCTGC
+ACCCCCCGGCCACTCGTGTCCTACTCCCCCGTGGTCCGCAAGGTCGGAGGCGTGGGTCCCCCGCAGCAGCAGCAGGCGGT
+GGCCAGGCCGGGCCGGGCGGCTCCCGGCGGCCCTCGGAGGTACCCGGGCCCCGCGGCTGAGCCCCCGCCCGCTGGGGGCC
+ACGGCGCCGGCCGCTCGCCGGCCTTGGAGCGGCGGGGCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCAC
+GGCGGCGGCGGCGGGGCCCGGTGGCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACAC
+GCACGGCTACTACCGGAGCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACG
+AGGAGGTGGCGGCCGGGCCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCA
+GCGTGTGCCTCGCCCGCGCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGG
+GCCCGGCTCCCGCAAAAGCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCC
+GGGCGAGCTGGCCCCGCGCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCC
+GGCGCTGGACCGCGAGCGCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGG
+GTTGGGGTGTCGCGTGCGGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCA
+CGCAACCATTTCTGGACAACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACGCACACACGATCAC
+ATTTTTAAAAGAAAACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGG
+CTGAGGGCTGCCGAGCGCGGCCGCTAGGGGCGCATGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGG
+CGCGGACTCGGCCGCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTC
+GGCCGCTAGGGGCGCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAA
+AAAAATAACAATAATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTT
+TTCTGACATTTGATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATT
+CCTTTGCTTCTATTTTTTTGGATATTTTTTCTCTTTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTT
+TGAAAGCTGTGGGCTTGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAA
+GCGAAAAAACAGTTGAATTC
+>ref|ref|X57688.1|| Rabbit mRNA for calcium channel BI-1 (lambda CBP109 and CB101)
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCACTATAAGGATATGTACAGTTTATTACGTGTAATCTCTCCCCCTCTCGGCTTAGGCAA
+GAAATGTCCTCATAGGGTTGCCTGCAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGCCCGGCGGCCGCCGACAAGGAACGCTACGGCCCGCAGGACCGGCCCGACCATGGCCACGGC
+CGCGCCCGCGCCCGGGACCAGCGCTGGTCCCGCTCGCCCAGCGAGGGCCGGGAGCACACCACGCACCGGCAGTAGTTCAG
+TAAGTGGAAGCCCCGTCCCTTCTACGTCCGGTACCAGCACTCCGCAGCGGGGACGCCGCCAGCTCCCCCAGACCCCCTGC
+ACCCCCCGGCCACTCGTGTCCTACTCCCCCGTGGTCCGCAAGGTCGGAGGCGTGGGTCCCCCGCAGCAGCAGCAGGCGGT
+GGCCAGGCCGGGCCGGGCGGCTCCCGGCGGCCCTCGGAGGTACCCGGGCCCCGCGGCTGAGCCCCCGCCCGCTGGGGGCC
+ACGGCGCCGGCCGCTCGCCGGCCTTGGAGCGGCGGGGCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCAC
+GGCGGCGGCGGCGGGGCCCGGTGGCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACAC
+GCACGGCTACTACCGGAGCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACG
+AGGAGGTGGCGGCCGGGCCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCA
+GCGTGTGCCTCGCCCGCGCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGG
+GCCCGGCTCCCGCAAAAGCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCC
+GGGCGAGCTGGCCCCGCGCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCC
+GGCGCTGGACCGCGAGCGCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGG
+GTTGGGGTGTCGCGTGCGGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCA
+CGCAACCATTTCTGGACAACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACGCACACACGATCAC
+ATTTTTAAAAGAAAACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGG
+CTGAGGGCTGCCGAGCGCGGCCGCTAGGGGCGCATGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGG
+CGCGGACTCGGCCGCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTC
+GGCCGCTAGGGGCGCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAA
+AAAAATAACAATAATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTT
+TTCTGACATTTGATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATT
+CCTTTGCTTCTATTTTTTTGGATATTTTTTCTCTTTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTT
+TGAAAGCTGTGGGCTTGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAA
+GCGAAAAAACAGTTGAATTC
+>ref|ref|X57477.1|| Rabbit mRNA for calcium channel BI-2
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCTTTACCGGGACATGTATGCGATGCTGAGACACATGCCCCCACCCCTGGGTCTGGGGAA
+GAACTGCCCGGCCAGAGTGGCCTACAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCACGGCGGCGGCGGCGGGGCCCGGTG
+GCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACGCGCACCCGCACGGCTACTACCGGA
+GCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACGAGGAGGTGGCGGCCGGG
+CCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCAGCGTGTGCCTCGCCCGC
+GCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGGGCCCGGCTCCCGCAAAA
+GCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCCGGGCGAGCTGGCCCCGC
+GCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCCGGCGCTGGACCGCGAGC
+GCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGGGTTGGGGTGTCGCGTGC
+GGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCACGCAACCATTTCTGGAC
+AACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACACACGCACACACGATCACATTTTTAAAAGAA
+AACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGGCTGAGGGCTGCCG
+AGCGCGGCCGCTAGGGGCGCACGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGGCGCGGACTCGGCC
+GCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTCGGCCGCTAGGGGC
+GCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAAAAAAAATAACAAT
+AATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTTTTCTGACATTTG
+ATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATTCCTTTGCTTCTA
+TTTTTTTGGATATTTTTCTCTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTTTGAAAGCTGTGGGCT
+TGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAAGCGAAAAAACAGTTG
+AATTC
+>ref|ref|X57689.1|| Rabbit mRNA for calcium channel BI-2 (lambda CBP109 and CB101)
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCACTATAAGGATATGTACAGTTTATTACGTGTAATCTCTCCCCCTCTCGGCTTAGGCAA
+GAAATGTCCTCATAGGGTTGCCTGCAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCACGGCGGCGGCGGCGGGGCCCGGTG
+GCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACGCGCACCCGCACGGCTACTACCGGA
+GCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACGAGGAGGTGGCGGCCGGG
+CCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCAGCGTGTGCCTCGCCCGC
+GCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGGGCCCGGCTCCCGCAAAA
+GCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCCGGGCGAGCTGGCCCCGC
+GCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCCGGCGCTGGACCGCGAGC
+GCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGGGTTGGGGTGTCGCGTGC
+GGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCACGCAACCATTTCTGGAC
+AACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACACACGCACACACGATCACATTTTTAAAAGAA
+AACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGGCTGAGGGCTGCCG
+AGCGCGGCCGCTAGGGGCGCACGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGGCGCGGACTCGGCC
+GCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTCGGCCGCTAGGGGC
+GCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAAAAAAAATAACAAT
+AATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTTTTCTGACATTTG
+ATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATTCCTTTGCTTCTA
+TTTTTTTGGATATTTTTCTCTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTTTGAAAGCTGTGGGCT
+TGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAAGCGAAAAAACAGTTG
+AATTC
+>ref|ref|X07798.1|| Rabbit mRNA for type-1 protein phosphatase 1-alpha catalytic subunit
+GCCCGGAGCTGCTGGGCCCCGAGCGGCGGCGCCGCCATGTCCGACAGCGAGAAGCTCAACCTGGACTCTATCATCGGGCG
+CCTGCTGGAAGTGCAGGGCTCGCGGCCCGGAAAGAATGTGCAGCTGACGGAGAACGAGATCCGTGGTCTGTGCCTCAAAT
+CCCGGGAGATCTTCCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGGCCAG
+TACTACGACCTGCTGCGGCTGTTCGAGTACGGCGGCTTCCCCCCAGAGAGCAACTACCTGTTCCTGGGTGACTACGTGGA
+CCGCGGCAAGCAGTCCCTGGAGACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTGCTGC
+GCGGGAACCACGAGTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAAGCTG
+TGGAAGACGTTCACCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATGGCGG
+CCTCTCCCCCGACCTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTGCTGT
+GTGACCTGCTGTGGTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTTCGGC
+GCGGAGGTGGTGGCCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACGGCTA
+TGAGTTCTTTGCCAAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGAGCCA
+TGATGAGCGTGGACGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGGGCAG
+TTAAGTGGCCTGAACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGGGTGC
+GGCCCCCTGCCCAGACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGGGGAC
+ACGGGCCTCGGTGGATCTGTTTTTTAATGAATCACTAGCAGCACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTGCGCG
+GCTGCAAGCAGGATCCTGGGGCCAAGGCTGCAGCTCAGGGCGACGGCGGCCAGACTGGGTCTCGTCTCGTGCGGCCGCAG
+GGCTGGCAGCCGGGTCCCAGGGCAGCCCGTCTGGTCTCCTGAATAAAGGTCAAAGCTGGATTCTGAAAC
+>ref|ref|NM_001101717.1|| Oryctolagus cuniculus serine hydroxymethyltransferase 1 (SHMT1), mRNA
Z11846.1 O.cuniculus mRNA for cytosolic serine hydroxymethyltransferase
+AAAGATGAAGAAAAAGGAGCCAGTGGGTTCCGCTGACTCCGCGGGTCACGTGGCGGGCCTGCCGGAGCGCGCGAGTGGAC
+GGTCGTGGACGGTCGTGGAGCGGCGGCCGGACCGAGGCATACGTGTCCGCGTTCCGGTGGCCTTGAACCAGCGTGATGGC
+GACCGCAGTCAATGGGGCCCCCAGGGACGCTGCCCTGTGGTCCTCGCATGAACAGATGCTGGCCCAGCCCCTGAAGGACA
+GCGACGCAGAGGTTTACGACATCATCAAGAAGGAGAGCAACCGGCAGAGGGTCGGCCTGGAGCTGATTGCCTCGGAGAAC
+TTCGCCAGCCGTGCGGTTTTGGAAGCCCTGGGCTCCTGCTTAAATAACAAATACTCAGAGGGCTACCCCGGCCAGAGGTA
+TTATGGCGGCACTGAGCATATCGATGAGCTGGAGACGCTGTGTCAGAAGCGGGCGCTGCAGGCCTACGGCCTGGACCCAC
+AGTGCTGGGGCGTCAACGTGCAGCCCTACTCAGGCTCCCCCGCCAACTTCGCCGTGTACACGGCCCTGGTGGAGCCCCAT
+GGGCGCATCATGGGTCTGGACCTGCCCGACGGGGGCCACCTGACCCACGGGTTCATGACGGACAAGAAGAAGATCTCGGC
+TACGTCCATCTTCTTTGAATCCATGGCCTACAAGGTGAACCCAGACACTGGCTACATCGACTACGACCGGCTGGAGGAGA
+ACGCGCGCCTCTTCCACCCGAAGCTGATCATCGCAGGAACCAGCTGCTACTCCCGGAACTTGGACTACGGGCGGCTCAGG
+AAGATAGCGGACGAGAACGGGGCCTACCTCATGGCCGACATGGCACACATCAGTGGGCTGGTGGTGGCTGGCGTGGTGCC
+CTCCCCCTTTGAGCACTGCCACGTGGTGACCACCACGACCCACAAGACGCTGCGAGGCTGCCGGGCCGGCATGATCTTCT
+ACAGGAGAGGAGTGCGCAGCGTGGACCCCAAGACTGGCAAAGAGATCCTGTACAACCTGGAGTCGCTCATCAACTCTGCC
+GTGTTCCCGGGCCTGCAGGGAGGCCCCCACAACCACGCCATCGCAGGGGTCGCCGTGGCCCTGAAGCAGGCCATGACTCC
+GGAGTTCAAGGAGTACCAGCGCCAGGTGGTGGCCAACTGCAGGGCCCTGTCCGCAGCCCTCGTGGAGCTGGGATACAAGA
+TTGTCACAGGTGGTTCTGACAACCATTTGATCCTCGTGGATCTCCGTTCCAAAGGCACAGATGGCGGGAGGGCGGAGAAG
+GTGCTGGAAGCCTGCTCTATCGCTTGCAACAAGAACACCTGCCCAGGTGACAAGAGTGCACTGCGTCCTAGCGGCCTGCG
+CCTGGGTACCCCAGCGCTGACATCCCGGGGCCTCCTGGAAAAAGACTTCCAGAAAGTGGCACACTTCATCCACAGAGGCA
+TAGAGCTCACCGTGCAGATCCAGGACGACACGGGCCCCAGGGCAACCCTGAAGGAGTTCAAGGAGAAGCTGGCAGGCGAC
+GAGAAGCACCAGAGGGCCGTGCGGGCCCTGCGCCAGGAGGTCGAGAGCTTCGCCGCCCTGTTCCCGCTGCCCGGCCTGCC
+CGGCTTCTAGAGGGGCCGGCGCCTGAGGCCGAGGGGACCCCGCTTCGAGCCCCCGCGGGAGTGCCTTCGGACTTCCCTCG
+TCTTCCTCCCACATCAAACCCTTGTCTGGGAGGAGTAAGGCTGGCCCGGGGCAGTAGGGACGTGGCGGTGAACCATGGAG
+GCTGGCCGGCCGGCTGTGCACCTCCCTTCTCTTAGCGCCCCTGGGCACTGGTCTGGCTTCCTGCAGCCGGCCGGGCCCCG
+TGCTCACGGCTGTGAGAGCTGCCCGCCGGGACGTGTCAGGGACGCAGAGCAGAATCAGGACGACCACAGCTGAGAGGCGA
+TTCCCCGGAGCCAGAAGAGGCGTGCCCAGCCTGGCGGAGGTGCAGCTCCCCACAGCTCTGGGTCTCCTCCACGCCTGCCC
+CAGGAAGCGCCCAGTGCCAGCCGCCGGCCTTTGCCGCCACCCCACCCCCCCCCCCCCCCGCACTGTGACAGGAAGCCACA
+TGTCACCTTCCCAAAGAGACTTTATTTTTCACATAGCTGAAGTGCAAAACATAGCTGACCGTTTTTAATAAGCACAATCA
+AGGTTTTAACCACAGAATGTCTACAAGAATTATAGCTTTAAAAAATACAACCAATTTTTATATTTCAAAAATATCTGAAC
+TCAAATAAATTAATTTCTGAA
+>ref|ref|Z14091.1|| O.cuniculus mRNA for cytochrome b5
+GAGATGGCTGCGCAGTCAGACAAAGACGTGAAGTACTACACCCTAGAAGAGATTAAGAAGCACAACCACAGCAAAAGCAC
+CTGGCTGATCCTGCACCACAAGGTGTACGATCTGACCAAATTTCTGGAGGAGCACCCTGGAGGGGAGGAAGTCCTGAGGG
+AACAAGCTGGGGGCGATGCCACTGAAAACTTTGAGGACGTCGGGCACTCGACAGATGCCAGAGAGCTGTCCAAGACCTTC
+ATCATCGGGGAGCTGCACCCGGATGACAGATCAAAATTGAGCAAGCCTATGGAACCTTAAAGGCTGTGTTTCAAGGAAAC
+TCTTATCACCACCGTCGATTCCAATTCCAGCTGGTGGACCAACTGGGTGATCCCCGCCATCTCCGCCCTGATCGTGGCAC
+TGATGTATCGCCTCTACATGGCCGACGACTGAGCCCCTGCCCAGCAGCC
+>ref|ref|NM_001101700.1|| Oryctolagus cuniculus dystroglycan 1 (DAG1), mRNA
X64393.1 O.cuniculus mRNA for dystroglycan
+GGCTGCTTTTCAGGAAGATAAAGCTTTTAAGGCTGCCTAACACTAGAAGGAGAGGCTCTCGATGCTCTGGGATGGAGCAG
+GTGTGCAGAGGGTGAGGACCCGGCTCTGGGATCAAGTCACTTGCTTGCTTCCTTAGCAAGATCTTCGGCTTGAGCGAACT
+TGGCCTGGGATGAGGATGTCTGTGGGCCTTTCACTGCTGCTCCCCTTGTGGGGGAGGACATTTCTCCTCCTCCTCTGTGT
+GGCCGTGGCTCAGTCCCATTGGCCCAGCGAACCCTCGGAGGCTGTCAGGGACTGGGAGAACCAGCTGGAGGCGTCCATGC
+ACTCTGTGCTCTCAGACCTGCACGAAGCCCTTCCCACAGTGGTTGGCATTCCTGATGGCACGGCTGTTGTTGGGCGCTCG
+TTTCGAGTGACCATTCCAACAGATTTAATTGGCTCCAGTGGAGAAGTCATCAAGGTATCCACGGCAGGGAAGGAGGTTTT
+GCCATCGTGGCTGCATTGGGATCCACAGAGCCACACCCTGGAGGGCCTTCCGCTGGACACGGACAAGGGTGTGCATTACA
+TCTCAGTGAGCGCTGCACAGCTGGATGCCAACGGAAGCCACATCCCTCAGACCTCCAGTGTGTTCTCCATCGAGGTCTAC
+CCCGAAGACCACAGTGAGCCGCAGTCTGTGCGGGCGGCCTCTCCAGACCTGGGCGAGGCGGCGGCGTCTGCCTGTGCTGC
+CGAGGAGCCGGTGACCGTCTTGACCGTGATTCTGGATGCCGATCTCACCAAGATGACTCCGAAGCAGAGGATCGACCTCC
+TGCACAGGATGCAGAGCTTCTCGGAGGTGGAGCTCCACAACATGAAGTTGGTGCCGGTGGTGAATAACAGACTGTTTGAT
+ATGTCTGCCTTCATGGCCGGCCCCGGAAACGCCAAAAAGGTGGTAGAGAACGGGGCCCTGCTCTCCTGGAAGCTGGGCTG
+CTCCCTGAACCAGAACAGTGTGCCTGACATTCGCGGCGTGGAGGCCCCTGCCAGGGAGGGCACTATGTCTGCCCAGCTTG
+GCTACCCTGTGGTGGGTTGGCACATTGCCAACAAGAAGCCACCTCTCCCCAAGCGTATCCGAAGGCAGATCCATGCCACA
+CCCACACCTGTCACTGCCATTGGGCCCCCAACCACGGCCATCCAGGAGCCGCCGTCCAGGATCGTGCCTACCCCCACTTC
+TCCAGCCATTGCTCCTCCCACAGAGACGATGGCTCCTCCAGTCAGGGATCCTGTTCCTGGGAAGCCCACGGTCACCACTC
+GGACTCGAGGTGCCATTATTCAGACCCCAACCCTAGGCCCCATCCAGCCCACTCGGGTGTCAGACGCTGGCACCGTAGTT
+TCTGGCCAGATTCGTGCAACGGTGACCATTCCTGGCTACGTGGAGCCCACAGCAGTTGCCACCCCTCCCACAACTACAAC
+CAAAAAGCCACGAGTGTCCACACCAAAACCAGCAACGCCTTCAACGGACTCCTCAGCCACCACGACTCGCAGGCCAACCA
+AGAAGCCACGGACACCCAGGCCGGTGCCACGGGTCACCACTAAAGCTCCCATCACCAGGCTGGAGACGGCCTCCCCACCT
+ACTCGTATCCGCACCACCACCAGCGGGGTGCCCCGCGGGGGAGAACCCAACCAGCGCCCAGAGCTCAAGAACCACATCGA
+CAGGGTGGACGCCTGGGTCGGCACCTACTTTGAGGTGAAGATCCCATCTGATACCTTCTACGACAAGGAGGATACCACCA
+CCGACAAGCTCAAGCTGACCCTGAAGCTGCGAGAGCAGCAGCTGGTGGGCGAGAAGTCCTGGGTGCAGTTCAACAGCAAC
+AGCCAGCTCATGTATGGCCTGCCCGACAGCAGCCACGTGGGCAAACACGAGTATTTCATGCATGCCACAGACAAGGGAGG
+CCTGTCCGCCGTGGATGCCTTTGAGATCCATGTCCACAAGCGCCCTCAAGGGGACAAAGCTCCTGCTCGTTTCAAAGCCA
+AGTTCGTGGGTGACCCAGCGCCAGTGGTGAATGACATCCACAAGAAGATTGCCCTGGTGAAGAAGCTGGCCTTTGCCTTT
+GGGGATCGCAATTGCAGCACCGTCACCCTGCAGAACATCACCCGCGGCTCCATTGTGGTGGAGTGGACCAACAACACACT
+GCCGCTGGAGCCCTGCCCCAAGGAGCAGATCACGGGGCTGAGCCGCAGGATCGCCGAGGACAACGGGCAGCCTCGGCCAG
+CCTTCACCAATGCCCTGGAGCCTGACTTTAAGGCCACGAGCATCGCCATAACGGGCTCTGGCAGTTGTCGGCACTTGCAG
+TTTATCCCCGTGGCACCGCCTGGGATCCCGTCCTCGGTGACACCACCCACGGAGGTGCCAGACAGGGACCCCGAGAAGAG
+CAGTGAGGATGACGTCTACCTACACACAGTCATTCCGGCTGTGGTGGTGGCGGCCATCCTGCTCATTGCTGGCATCATTG
+CCATGATCTGCTACCGCAAGAAGCGGAAGGGCAAGCTCACCCTGGAGGACCAGGCCACCTTCATCAAGAAGGGGGTGCCC
+ATCATCTTTGCAGACGAGCTGGACGACTCCAAGCCCCCGCCCTCCTCCAGCATGCCGCTGATCCTGCAGGAGGAGAAGGC
+TCCCCTTCCCCCCCCAGAGTATCCCAGCCAGAGCGTGCCCGAGACCACGCCTCTGAACCAGGACACTGTGGGGGAGTACA
+CGCCCCTTCGGGATGAGGATCCCAACGCGCCTCCCTACCAGCCCCCCCCACCCTTCACAGCCCCGATGGAGGGCAAGGGC
+TCCCGTCCCAAGAACATGACCCCTTACCGGTCACCCCCTCCTTATGTTCCCCCTTAACCCACAAGCGCCTGGGTGGAGGC
+AGGGTAGGGCAGGGGCCTGGGGACAACACAGTGTTGTCTGTGGAGCCCGGTGGCCCGCAGACCATCGCCCACTGGGCGCT
+GACACCAGACCTAGCACACACTGGCACACGGGGCCTGGACAAGCCCGCCCTCTCTGGTCCTCCCAAACCCCAAAGCAGCT
+GGAGAGACTTTGGGGACTTTTTTTATTTTTATTTTTTGCCTAACAGCTTTTTGTTTGTTCATAGAAAATCCTTCGCTGCG
+TTTTGATGGCTGGCTCTGGAAGCACCATTTGGAGTAGAGGTAGAGGGAGGGAGCGAGGAGCCGTGGGTGAACTCGCAGGC
+AGTGCTGGGCAGCCCCCCGGCTCTCTGCGTTTTGCCTTTAACACTAACTGTACTGTTTTTTCTATTCACGTGTGTCTAGC
+TGCAGGATGTAACATGGAAAACAGTAGCTAAAGATTAAATTCAAAGGACTTTCAGAAGTTAAGGTTAAGTTTTTACATTT
+AATCTGCTGTTTACCTAAACTTGTATGTATAATTTTTGGGTGGGTATGGGGAATTGCTTTGCTAAAAATAAGCTCCCAGG
+GTGTTTCAAACTTAAGAGAAGACCAAGGGACAGTATTTTTTATCAAAGGAATCCTATTTTTTCACACTATGTCAACTTGG
+TTGCTCTGATATCCCAGAGCCCGATCGGGGGCCTCCTGGCCCTGGCTCAGGGGCCAGGGTCCTGGTGCTGGGTTTGCTCT
+CCTGCTGTTGGCAGGAGTTGGAAGCTGGAGGGGCCTCTCGGGCCGTGGACATCCCCACCTCCACCCCATGCATGCTAGTG
+GCCCACCACCAAGGGGTCTTCATTTCCATGGGAAAGGGACTCCAAGAGGCAGTGGTGGCCGTGGCCCCCACCCCGGGTGC
+TCCAAGGTGGGCCAGCTGCTCGTGGGGGCCCCTGGGGAGGTTGAGGGACTCGACCACATCGACCTGTTTCCTTTCACCTT
+TTATTTTTTTTTTTCCCCACCCCTCCTAAAAGGATTATCACGGTTTTTGAAACACTCAGTGGGGGACATTTTGGTGAAGA
+TGCAATATTTTTATGTCATGTGATGCTCTTTCCTCACTTGACCTTGGCCACTTTGTCCCAACAGTCCACAGCCCCGCCCC
+GATCCACCCCATCCCTCTTCTCTGGCGCTCCCGTCCCAGGCCTTGGGCCTGAACGACTGGAAAAGGCCTGGTTGGCTGGG
+GAGGAGTGCCACCAATAGTTCATAGTAAACAATCTGTGGGCTCTCAAAGCTAATTTTTTACTAAAGTTTTTATACAGCCT
+CAAATTGTTTTATTAAAAAATAGATTAAAAATGGTGATGC
+>ref|ref|NM_001101720.1|| Oryctolagus cuniculus calcium voltage-gated channel subunit alpha1 S (CACNA1S), mRNA
X05921.1 Rabbit mRNA for dihydropyridine (DHP) receptor (from skeletal muscle)
+TTCCACCTACATGTTGGCCTGGACAGCAGGGAGCCGAGGGGAGGCTAATTTTACTGCTGGGAGCAGCTAGCATAATCCTC
+CCGCCCCCACCCCGCTGGCTCAGCAGGGCAGGCTTCGCCCGGCAAGCTCAGCGGCCCAGTCCCCAAGGCGGGGAACACTG
+GGGACGCAGGGAAGAGAGGGCCGCGGGGTGGGGGAGCAGCAGGAAGCGCCGTGGCCAGGGAAGCCATGGAGCCATCCTCA
+CCCCAGGATGAGGGCCTGAGGAAGAAACAGCCCAAGAAGCCCCTGCCCGAGGTCCTGCCCAGGCCGCCGCGGGCTCTGTT
+CTGCCTGACCCTGCAGAACCCGCTGAGGAAGGCGTGCATCAGCATCGTGGAATGGAAACCCTTCGAGACCATCATCCTGC
+TCACCATCTTTGCCAACTGTGTGGCCCTGGCCGTGTACCTGCCCATGCCCGAGGATGACAACAACTCCCTGAACCTGGGC
+CTGGAGAAGCTGGAGTACTTCTTCCTCACCGTCTTCTCCATCGAAGCCGCCATGAAGATCATCGCCTACGGCTTCCTGTT
+CCACCAGGACGCCTACCTGCGCAGCGGCTGGAACGTGCTGGACTTCATCATCGTCTTCCTGGGGGTCTTCACGGCGATTC
+TGGAACAGGTCAACGTCATCCAGAGCAACACGGCCCCGATGAGCAGCAAAGGAGCCGGCCTGGACGTCAAGGCCCTGAGG
+GCCTTCCGTGTGCTCAGACCCCTCCGGCTGGTGTCGGGGGTGCCTAGTTTGCAGGTGGTCCTCAACTCCATCTTCAAGGC
+CATGCTCCCCCTGTTCCACATCGCCCTGCTCGTCCTCTTCATGGTCATCATCTACGCCATCATCGGGCTGGAGCTCTTCA
+AGGGCAAGATGCACAAGACCTGCTACTACATCGGGACAGACATCGTGGCCACAGTGGAGAATGAGAAGCCCTCGCCCTGC
+GCTAGGACGGGCTCGGGGCGCCCCTGCACCATCAACGGCAGCGAGTGCCGGGGCGGCTGGCCGGGGCCCAACCACGGCAT
+CACGCACTTCGACAACTTCGGCTTCTCCATGCTCACCGTGTACCAGTGCATCACCATGGAGGGCTGGACAGATGTCCTCT
+ACTGGGTCAACGATGCCATCGGGAACGAGTGGCCCTGGATCTACTTTGTCACTCTCATCCTGCTGGGGTCCTTCTTCATC
+CTCAACCTGGTGCTGGGCGTCCTGAGTGGGGAATTCACCAAGGAGCGGGAGAAGGCCAAGTCCAGGGGAACCTTCCAGAA
+GCTGCGGGAGAAGCAGCAGCTGGAGGAGGACCTTCGGGGCTACATGAGCTGGATCACGCAGGGCGAGGTCATGGACGTGG
+AGGACCTGAGAGAAGGAAAGCTGTCCTTGGAAGAGGGAGGCTCCGACACGGAAAGCCTGTACGAAATCGAGGGCTTGAAC
+AAAATCATCCAGTTCATCCGACACTGGAGGCAGTGGAACCGTGTCTTTCGCTGGAAGTGCCATGACCTGGTGAAGTCGAG
+AGTCTTCTACTGGCTGGTCATCCTGATCGTGGCCCTCAACACCCTGTCCATCGCCTCGGAGCACCACAACCAGCCGCTCT
+GGCTGACCCACTTGCAAGACATCGCCAATCGAGTGCTGCTGTCACTCTTCACCATCGAGATGCTGCTGAAGATGTACGGG
+CTGGGCCTGCGCCAGTACTTCATGTCCATCTTCAACCGCTTCGACTGCTTCGTGGTGTGCAGCGGCATCCTGGAGCTGCT
+GCTGGTGGAGTCGGGCGCCATGACGCCGCTGGGCATCTCCGTGTTGCGCTGCATCCGCCTCCTGAGGCTCTTCAAGATCA
+CCAAGTACTGGACGTCGCTCAGCAACCTGGTGGCCTCCCTGCTCAACTCCATCCGCTCCATCGCCTCGCTGCTGCTGCTG
+CTCTTCCTCTTCATCATCATCTTCGCCCTGCTGGGCATGCAGCTCTTCGGGGGGCGGTACGACTTCGAGGACACGGAAGT
+GCGACGCAGCAACTTCGACAACTTCCCCCAGGCCCTCATCAGCGTCTTCCAGGTGCTGACGGGTGAGGACTGGAACTCCG
+TGATGTACAACGGGATCATGGCCTACGGAGGCCCGTCCTACCCGGGCGTTCTCGTGTGCATCTATTTCATCATCCTTTTT
+GTCTGCGGCAACTATATCCTGCTGAATGTCTTCCTGGCCATCGCCGTGGACAACCTGGCCGAGGCGGAGAGCCTGACTTC
+CGCGCAAAAGGCCAAGGCCGAGGAGAGGAAACGCAGGAAGATGTCCAGGGGTCTCCCTGACAAGACAGAGGAGGAGAAGT
+CTGTGATGGCCAAGAAGCTGGAGCAGAAGCCCAAGGGGGAGGGCATCCCCACCACTGCCAAGCTCAAGGTCGATGAGTTC
+GAATCTAACGTCAACGAGGTGAAGGACCCCTACCCTTCAGCTGACTTCCCAGGGGATGATGAGGAGGACGAGCCTGAGAT
+CCCAGTGAGCCCCCGACCGCGCCCGCTGGCCGAGCTGCAGCTCAAAGAGAAGGCAGTGCCCATCCCGGAAGCCAGCTCCT
+TCTTCATCTTCAGTCCCACCAATAAGGTCCGTGTCCTGTGTCACCGCATCGTCAACGCCACCTGGTTCACCAACTTCATC
+CTGCTCTTCATCCTGCTCAGCAGTGCTGCGCTGGCCGCCGAGGACCCCATCCGGGCGGAGTCCGTGAGGAATCAGATCCT
+TGGATATTTTGATATTGCCTTCACCTCTGTCTTCACTGTGGAGATTGTCCTCAAGATGACGACCTACGGCGCCTTCCTGC
+ACAAGGGCTCCTTCTGCCGCAACTACTTCAACATCCTGGACCTGCTGGTGGTGGCTGTGTCTCTCATCTCCATGGGTCTC
+GAGTCCAGCACCATCTCCGTGGTAAAGATCCTGAGAGTGCTAAGGGTGCTCCGGCCCCTGCGAGCCATCAACAGAGCCAA
+AGGGTTGAAGCACGTGGTCCAGTGCGTGTTCGTGGCCATCCGCACCATCGGGAACATCGTCCTGGTCACCACGCTCCTGC
+AGTTCATGTTCGCCTGCATTGGTGTCCAGCTCTTCAAGGGCAAGTTCTTCAGCTGCAACGACCTATCCAAGATGACAGAA
+GAGGAGTGCAGGGGCTACTACTATGTGTACAAGGACGGGGACCCCACGCAGATGGAGCTGCGCCCCCGCCAGTGGATACA
+CAATGACTTCCACTTTGACAACGTGCTGTCGGCCATGATGTCGCTCTTCACGGTGTCCACCTTCGAGGGATGGCCCCAGC
+TGCTGTACAGGGCCATAGACTCCAACGAGGAGGACATGGGCCCCGTTTACAACAACCGAGTGGAGATGGCCATCTTCTTC
+ATCATCTACATCATCCTCATTGCCTTCTTCATGATGAACATCTTTGTGGGCTTTGTCATCGTCACCTTCCAGGAGCAGGG
+GGAGACAGAGTACAAGAACTGCGAGCTGGACAAGAACCAGCGCCAGTGTGTGCAGTATGCCCTGAAGGCCCGCCCACTTC
+GGTGCTACATCCCCAAGAACCCATACCAGTACCAGGTGTGGTACGTCGTCACCTCCTCCTACTTTGAATACCTGATGTTC
+GCCCTCATCATGCTCAACACCATCTGCCTGGGCATGCAGCACTACCACCAGTCGGAGGAGATGAACCACATCTCGGACAT
+CCTCAACGTGGCCTTCACCATCATCTTCACACTGGAGATGATCCTCAAGCTCTTGGCGTTCAAGGCCAGGGGCTATTTCG
+GAGACCCCTGGAATGTGTTCGACTTCCTGATCGTCATCGGCAGCATCATTGACGTCATCCTCAGCGAGATCGACACTTTC
+CTGGCCTCCAGCGGGGGACTGTATTGCCTGGGTGGCGGCTGCGGGAACGTTGACCCAGACGAGAGCGCCCGCATCTCCAG
+TGCCTTCTTCCGCCTGTTCCGGGTCATGAGGCTGATCAAGCTGCTGAGTCGGGCCGAGGGCGTGCGCACGCTGCTGTGGA
+CGTTCATCAAGTCCTTCCAGGCCCTGCCCTACGTGGCCCTGCTCATCGTCATGCTGTTCTTCATCTACGCCGTCATCGGC
+ATGCAGATGTTTGGAAAGATCGCCCTGGTGGACGGGACCCAGATCAACCGCAACAACAACTTCCAGACCTTCCCGCAGGC
+CGTGCTGCTGCTCTTCAGGTGTGCGACAGGGGAGGCGTGGCAAGAGATCCTGCTGGCCTGCAGCTACGGGAAGTTGTGCG
+ACCCAGAGTCAGACTACGCCCCGGGCGAGGAGTACACGTGTGGCACCAACTTCGCCTACTACTACTTCATCAGCTTCTAC
+ATGCTCTGCGCCTTCCTGATCATCAACCTCTTCGTGGCTGTCATCATGGACAACTTTGACTACCTGACACGCGACTGGTC
+CATCCTGGGCCCTCACCACCTGGACGAGTTCAAGGCTATCTGGGCAGAGTATGACCCAGAGGCCAAGGGGCGAATCAAGC
+ACCTGGACGTGGTGACCCTGCTGAGAAGGATCCAGCCCCCTCTGGGCTTCGGGAAGTTCTGTCCACACCGGGTGGCCTGT
+AAGCGCCTGGTGGGCATGAACATGCCCCTGAACAGTGACGGCACGGTCACCTTCAATGCCACGCTCTTTGCCCTGGTGCG
+CACGGCCCTCAAGATCAAGACAGAAGGTAACTTTGAGCAGGCCAACGAGGAGCTGAGGGCCATCATCAAGAAGATCTGGA
+AGAGAACCAGCATGAAGCTGCTGGACCAGGTCATCCCTCCCATAGGAGATGACGAGGTGACCGTGGGGAAGTTCTACGCC
+ACATTCCTCATCCAGGAGCACTTCCGGAAGTTCATGAAGCGCCAGGAGGAATATTATGGGTATCGGCCCAAGAAGGACAC
+CGTGCAGATCCAGGCTGGGCTGCGGACCATAGAGGAGGAGGCGGCCCCTGAGATCCGCCGCACCATCTCAGGAGACCTGA
+CCGCCGAGGAGGAGCTGGAGAGAGCCATGGTGGAGGCTGCGATGGAGGAGAGGATCTTCCGGAGGACGGGAGGCCTGTTT
+GGCCAGGTGGACACCTTCCTGGAAAGGACCAACTCCCTGCCCCCGGTGATGGCCAACCAAAGACCGCTCCAGTTTGCTGA
+GATAGAAATGGAAGAGCTTGAGTCGCCTGTCTTCTTGGAGGACTTCCCTCAAGATGCAAGAACCAACCCTCTCGCTCGTG
+CCAATACCAACAACGCCAATGCCAATGTTGCCTATGGCAACAGCAACCATAGCAACAACCAGATGTTTTCCAGCGTCCAC
+TGTGAAAGGGAGTTCCCGGGAGAGGCGGAGACACCGGCTGCCGGACGAGGAGCCCTCAGCCACTCCCACAGGGCCCTGGG
+ACCTCACAGCAAGCCCTGTGCTGGAAAACTGAATGGGCAGCTGGTCCAGCCGGGGATGCCCATCAACCAGGCACCTCCTG
+CCCCCTGCCAGCAGCCTAGCACGGATCCCCCAGAGCGCGGGCAGAGGAGGACCTCCCTGACAGGGTCTCTGCAAGACGAA
+GCACCCCAGAGGAGGAGCTCCGAGGGGAGCACCCCCAGGCGCCCGGCTCCTGCTACAGCTCTGCTGATCCAAGAGGCTCT
+GGTTCGAGGGGGCCTGGACACCTTGGCAGCTGATGCTGGCTTCGTCACGGCAACAAGCCAGGCCCTGGCAGACGCCTGTC
+AGATGGAACCGGAGGAAGTAGAGGTCGCAGCCACAGAGCTACTGAAAGCGCGAGAGTCTGTCCAGGGCATGGCCAGTGTC
+CCGGGAAGCCTGAGCCGCAGGTCCTCCCTGGGCAGCCTTGACCAGGTCCAGGGCTCCCAGGAAACCCTTATTCCTCCCAG
+GCCGTGATGGCTGTGGTGTCCACATGACCAAGGCGAGAGGGACAGTGCGTGCAGAAGCTCAGCCCTGCATGGCAGCCTCC
+CTCTGTCTCAGCCCTCCTGCTGAGCTGGGGCGGTCTGGAACCGCACCAGGAAGCCAGGAGCCTCCCCTGGCCAGCAAGAG
+GCATGATTCTAAAGCCATCCAGAAAGGCCTGGTCAGTGCCACTCCCCAGCAGGACATTAAAGTCTCTAGGTCTGTGGCAC
+TGG
+>ref|ref|X14578.1|| Rabbit mRNA for ferritin light chain subunit 5'end
+NNGCTACGCGTCGGGAGACCCGCGGACCTGTGTCTTGCTTCAACAGTGTTTGAACGGAACAGGCCCGGGGACTCTCTCAC
+AGGCTTCGACCGCCCTCC
+>ref|ref|V00884.1|| Rabbit glyceraldehyde 3-phosphate dehydrogenase messenger fragment (aa 32 to 78)
+GATCCATTCATTGACCTCCACTACATGGTCTACATGTTCCAGTATGATTCCACCCACGGCAAGTTCCACGGCACGGTCAA
+GGCTGAGAACGGGAAGCTGGTCATCAACGGGAAGGCCATCACCATCTTCCAGGAGCGAGATC
+>ref|ref|NM_001101698.1|| Oryctolagus cuniculus tachykinin precursor 1 (TAC1), mRNA
X62994.1 O.cuniculus mRNA for gamma preprotachykinin I
+AAATCCAACATGAAAATCCTCGTGGCCCTGGCAGTCCTGGCTCTGGTTTCCACCCAACTGTTTGCGGAGGACATCCGAGC
+CAACGATGATCTAAATTATTGGTCCGACTGGTCCGACAGCGACCAGATCAAGGAGGAGCTGCCCGAGCCCTTCGAGCACC
+TGCTGCAGAGAATCGCCCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTAATGGGCAAACGGGATGCTGGACACGGCCAG
+ATTTCTCACAAAAGGCATAAAACAGATTCCTTTGTTGGACTAATGGGCAAAAGAGCTTTAAATTCTGTGGCTTATGAACG
+GAGCGCCATGCAGAATTACGAGAGAAGACGTAAATAAACTGCCTACAGTATTATTCATGCCGCTTCATTTATGTCAATGG
+GCAGTGAAAGGTAAAATGTGACGTGCACTATGAGGAATGATTATTTATTTAAATAACTTGTTGTTTTAAGTTGAAAACGT
+TAAAGAAAAGTGTTTAATTTTTCCTATTGTGCCAAAATGTGTTGTAAACATGTAATTCCTAATATGAAGATGCCCTCAGA
+GGTAGAAATCAGTGCAAACCTCTCAACAAAGCACAGTGTTCAATGAAATGGTAAAATCGTGTTAAAATGTCATCGCCGGA
+AGAAAGCGTGGCTTCGAAGCGGTCACATCTGGAAAGGGCGGGGGCTCTCATGCAGTCACACACTTGCCCTGTGTGTCTCA
+GGGCTGAAATGTACTGAGTCTTGGTGTCAAACTGTGTTTGTACCCCTGCAGCATGTTTCACGGTTTGTGGTTCCATAGAG
+ATGTTTTACAAGTTTTCATGTGACCCCAGGGTCTCCATTTCATTGTATAATGTGTTGTA
+>ref|ref|X57123.1|| Oryctolagus cuniculus H-RAS PROTO-ONCOGENE exon and joined CDS
+CGGCTGACGCTGGCCTGCCTGGGCCAGTGTGGCCCGGCCGGCCGCGGCAGGACCTGTTCTGGGAGGCTAACCTCAGCCCT
+CAGGCCCTGCGGGTTGTGCGTTCTGCCTACACAGCAGCTTCTAATTTGGGTGCGTGGTTGGGAGAAGCTCTCAGCTGTCA
+GCCCTGCCTTTGGGGGTAGGCCGCCCTGCCTTGCTCACGCTGTCGCTGGTGCGGCGGGGTGGGGAGGCGGCACCCCTCCC
+GCCCCCTGGATGGCGGCTGGCCCAGGTGGGCAGCTGGGCCGCCGTCCTGGCCGTCGGAGCTGCGGGCCTGGCTGAGCGTG
+GCCCTCCTTGGCAGGCGGGGCAGGAGACCCCACAGCGCCGGGCAGCCGCGAGCAGCGCGCGATGACGGAGTATAAGCTGG
+TGGTGGTGGGCGCCGGCGGTGTAGGCAAGAGCGCACTGACCATCCAGCTGATCCAGAACCACTTCGTGGACGAATATGAC
+CCCACCATCGAGGTG
+>ref|ref|X57124.1|| Oryctolagus cuniculus H-RAS PROTO-ONCOGENE exon 2
+CAGGACTCGTACCGGAAGCAGGTGGTCATCGACGGGGAGACGTGCCTGCTGGACATCCTGGACACGGCGGGCCAGGAGGA
+GTACAGCGCCATGCGGGACCAGTACATGCGCACGGGCGAGGGCTTCCTCTGCGTGTTCGCCATCAACAACACCAAGTCCT
+TCGAGGACATCCACCAGTACAGGTG
+>ref|ref|X57125.1|| Rabbit H-ras proto-oncogene, exon 3
+CAGGGAGCAGATCAAGCGGGTGAAAGACTCGGACGACGTGCCCATGGTGCTGAACAAGTGCGACGTGGGGAACAAGTGCG
+ACCTGGCGGCGCGCACCGTGGAGTCCCGGCAGGCGCAGGACCTGGCCCGCAGCTACGGCGTCCCCTATATCGAGACCTCG
+GCCAAGACGCGGCAGGTG
+>ref|ref|X57126.1|| Rabbit H-ras proto-oncogene, exon 4
+GGCGTGGAGGACGCGTTCTACACGCTGGTGCGGGAGATCCGGCAGCATAAGCTGCGGAAGCTGAACCCGCCTGACGAGAG
+CGGCCGCGGCTGCATGAGCTGCAAGTGTGTGCTGTCC
+>ref|ref|V00885.1|| Rabbit exon encoding constant part of immunoglobulin kappa chain (allele bas, allotype Basilea)
+GTACCTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAGGTGATCCAGTTGCGCCTTCTGTCCTCCTCTTCCCACCATCT
+AAGGAGGAGCTGACAACTGGAACAGCCACCATCGTGTGCGTGGCGAATAAATTCTATCCCAGTGACATCACCGTCACCTG
+GAAGGTGGATGGCACCACCCAACAGAGCGGCATCGAGAACAGTAAAACACCGCAGAGCCCCGAAGACAATACCTACAGCC
+TGAGCAGCACTCTGTCACTGACCAGCGCACAGTACAACAGCCACAGCGTGTACACCTGCGAGGTGGTCCAAGGCTCAGCC
+TCACCGATCGTCCAGAGCTTCAACAGGGGTGACTGCTAGAGCGAGACGCCTGCCAGGGCACCGCCAGGGACCCTGAGGGC
+CAGCCTCGCCGCTCCCTCCCCTCAGTGGACCCATTCCCACCGCAGTCCTCCAGCCCCTCCCTTCCCGGTCCTCCCCCCCT
+CCTTGGCTTTAACCTTGCGAATGTTGGTGAGATGGATGAATAAAGTGAATCTTTGCACTTGTGACTTCTCTCTGCTTCTT
+CATTTAATGGTTATTAGTCATGGTTCCCCAG
+>ref|ref|X00232.1|| Rabbit immunoglobulin k2 gene fragment
+GAGCTCACCTAAGGAAACAAGCATTCTGCATCAGAGAAGCCTCAGGGCTTCCACACCTGTTCAGAAAGGGAGTTAGGCCT
+CAGAGCTGAGGCAGGGCTCGGTTCCCCTTGGGTGAGAAGGGTTTTTGTACAGTGAGGCAATGGGGAGTTGTCACTGTGTT
+TGACTTTTGGAGCTGGCACCAAGGTGGAAATCAAACGTGAGTAAAATCCGAACGTTCCCTCTCTGGTTGTCTGCGTCGTG
+TGACCTCTGTGTCTGTGAAGTGATCCCTAAGCTGACTCTGAAACCAATCGGGAGCATCCACCAGGCAATGCAGGGATGAA
+GTGTGTGGCAAGCTTGAGCAAGGACTGCATATTGTCTACGAAGAGCAAGACTCAGTCATTGAGAAAGAGAGGGAGAGAGA
+GAGAGGGAGGGAGAAATTTGAGAGCTTTAGAAATTCACTGGGGTGCATCCTGCTGTGTTCCGGGCAGAGCCTTGCCTGAT
+GGTCAGAAAGGAAAACTCAGTTATTGTACAGGAGGGAGGTTGTGAGGAACCACTGTGTCTAATACTTTCGGTGCGGGGAC
+CAAGGTGGAGATCAAACGTAAGTGCACTTTCCCAGTCTTCCTTACAGAGTTGGTAAATGTGGGATTTAAGTTTGTGGGAG
+ATGAGTTAAGGTCAATCCGGAAGGGAATGGAATTTTTCCAAAAACATGGATGGGTAGGGAGCAGAAAATCCGTTCATCTC
+AAGAAGAGAGCAAAGGGCTAGCAGGCTAGCAAGTGGCCAAATTCTGTCTGTCTGTCAGTCTGACGAGCTTGGGAGCAGTC
+AGAGGTTTTTGTTGAGGGAAAGCAATAAAGCTAATTCTGTGGATCACCTTTGGAAAAGGAACCAAGCTGGAGATCAAACG
+TAAGTACCGTTTTCCTATTCCTGTCTGAAATTTTGCTCTAATTGGCCAGATTGACTTTTAAGAAAAATTTTATAAAAGTG
+GGTAAATGAGTAGGTTTGAGATTTGTCGTCGGTTGCAAAAGTTAAATGGATTTAGAGATGAAAAGATTAAATTGCTCTAT
+ACTGAATGACTCAAAGGGGAAGAAATCAGTGTAGATAAGTAAGGGAGCCCTCAGCACTCTAAAGAGCTTTTTAAAAACTT
+TTAGAGACTTTAAAACTCTATTAAAAGCTAATGAGACGTCTTGAAATAATTTTTATATTAAAGTGCTAATTGTTTAAGAT
+GTGAACGCCAGATGGAAAATGTAAAGCTCTCCAGGACTGCCCAGGCGGAAGGTCTTCACAGACCACTCTTCCCTGCTCAG
+GGGCTCGATCACAGTATTGTGCTGCCAAGTCCACTGTATACAGTTATGGGGGGGGCACTAATCATGGAGATTCAAAGAGG
+AACATAAAACAGGAAAGTTCACTGTCTTACACTGAACTACTTGGTTAGCATGGGGGTTAGCTTTGTATAAGTCTGTCCGA
+GTGTCTGCTGACTGTCGCAGGAAGGATTCTTGATTTTTTTCATTTTAACGGTGCTCTCCCACCCTAGGCCCTGACTCCCC
+ACAGAGCAGGGTTTCCCAGGGGCCATCTGGCAGCTGCCCGCGGTCAGGAGTGAAGCTCACCAATTCCTGCGAGGCAGGTG
+GCCCAGCTTACAGCTGACCCCTCCCGAGTCCTCCTGCAAACAGGCTGGCCTGGGAACAGGCGGCCAGGCGCAGGTCTCAC
+TGTGAGGCCTGCGAGACGGTAGGAGAGTCACTGGCATGACCCCAGGCGCTGAAGGGGTGGGTGCAGACACAGGCTGGAGG
+CCCACTCTGCAGGGTGGGTTTGGCCTGGCCTCGCCAAGGAAGGCCCAGAGAGTCCTGATATCACTGCACGGTCCTGGGGG
+AGACCAGGGAAATGAAAGCCGAGAGGCTCCCCTTAGACGCTCGCTGCCTGCTCTGCCGCCGTCCCCCGTCTTCTCCTAGG
+ACACAGGGCCGGGACCTGTTCCTACTTCTAAACTCCAAAGGGGTCAGATGAAATGGGCTGTGTTCTTTCCCCGATCACTG
+AGTCATTGCAGGGGCAGAGTAGAGCAACAACAAAGAGGCCTCCCAGTGGGTCAGAGAGTTCAAACACAACAACATAGAAC
+TTTCTGAAGGGGCAGGCGGAACCCGGAGGGAAACAAAGTCATCCAGATTCTACGTCTGCTCGCTGCCCCATTGCAACAGC
+TTTGGGCTGCTTCTGTCTGTCCATCCCTAATGCGCTCTGTGATCATCCACATGGCACCCAGGGGAGATGCCCACTGGTAC
+CTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAGGTGATCCAGTTGCGCCTTCTGTCCTCCTCTTCCCACCATCTAAGG
+AGGAGCTGACAACTGGAACAGCCACCATCGTGTGCGTGGCGAATAAATTCTATCCCAGTGACATCACCGTCACCTGGAAG
+GTGGATGGCACCACCCAACAGAGCGGCATCGAGAACAGTAAAACACCGCAGAGCCCCGAAGACAATACCTACAGCCTGAG
+CAGCACTCTGTCACTGACCAGCGCACAGTACAACAGCCACAGCGTGTACACCTGCGAGGTGGTCCAAGGCTCAGCCTCAC
+CGATCGTCCAGAGCTTCAACAGGGGTGACTGCTAGAGCGAGACGCCTGCCAGGGCACCGCCAGGGACCCTGAGGGCCAGC
+CTCGCCGCTCCCTCCCCTCAGTGGACCCATTCCCACCGCAGTCCTCCAGCCCCTCCCTTCCCGGTCCTCCCCCCCTCCTT
+GGCTTTAACCTTGCGAATGTTGGTGAGATGGATGAATAAAG
+>ref|ref|X00977.1|| Rabbit germ-line V kappa gene V18a
+GGCCCTTCAGCTGGGCACAGCCTGCCCCGCCCCTGCTCATTTGCATGTGCCCAGAGCACGCCCACCTCTATGGGCATTTA
+GGAGCAGGCTGCTCCGCCCCATGCAGGAGGCAGTGCAGGCAGGACCCAGCATGGACACGAGGGCCCCCACTCAGCTGCTG
+GGGCTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCAGAAACGGCCTCGGGCAGTGTGCCAGGGCTGCCCGTC
+TCTGCAGGAGCGTCCTCTTAGAACGTGAGGATGAGTGTGGTCTCTGTGTTTCTGCTTCCCTCCTCAGGTGCCATATGTGA
+CCCTGTGATGACCCAGACTCCATCTTCCACGTCTGCGGCTGTGGGAGGCACAGTCACCATCAACTGCCAGTCCAGTCAGA
+ATGTTTATAGTAACAACTACTTATCCTGGTTTCAGCAGAAACCAGGGCAGCCTCCCAAGCTCCTGATCTATGGTGCATCC
+AAACTGGCATCTGGGGTCCCATCGCGGTTCAGCGGCAGTGGATCTGGGAAACAGTTCACTCTCACCATCAGTGGCGTGCA
+GTGTGACGATGCTGCCACTTACTACTGTGCAGGGTATTATTATAGTGGTAGTGGCACTGATACCACAGTGATACAAGCCC
+TTACAAAAACCCCCCAGGAAAGCAGAAGTGTGGTGCTGGGCTGCCCCAGCTGCTCCTCCTGGGCCCCACCTGCTGAGAGT
+GATTCTCAGAGCAGCCAGGCTTGAAGGTCCTGCAGGGTCGGGTGGAAGGGGC
+>ref|ref|X13699.1|| Rabbit nonproductive VHa1 mRNA for Ig(mu) heavy chain constant region
+TAGAAAGCTCAAGCTTAGCTTATCAATTTCTAAATTGTATTCATTTTTAAAGTAAGATATTTTAGAAATTAAACTTACAG
+ATGGTTTATTAATGCGCCCATGAAACTTTTTAAAATTACTTTGTTATTTCTTCATACGGTAATTAACCTCAAACTTCAGA
+GACCTCAAAGCATTATTTTTGCAACGCCTGCGACCGTCATTTTTAAGAGTCTGTTTTCTCTATGATTAGAAGAGACGTTT
+TGAGGCTTCATTTCAGTATTTTTCAAGACTGCTTTTCAAGTATTCATTTTTGCACCAGTTCTAGCTGAGGTGGACCTAAG
+TGTCCTGAGTTATTGGGTTAAACGTGTGACTTGGTGAATTGGAGAGCCATCAGACAGTGCAGAGACAGGAGTCGGGAGCT
+CTGCAGAAGCCGGGCCACCCACGCCTTGAGGTTTCCCAAGACCGCCGGGTCTGGGGGTGCAGCCGTGGCTTCTGGTTAGT
+CAGGAATTCCTGTTTGGAGTGGACTTGGAGGACCCGCAGGACGTGCCAGTGACCAGCCACTGCACATGTGAGCCTGTCAT
+CTCCAACTCTGTACCCG
+>ref|ref|X13700.1|| Rabbit IgH gene JH-C(mu) intron with enhancer region yealding a nonproductive C(mu) transcript
+GTTAGAAAGAGAACGGTTGTCAGCAGTACAAGGAAGGAGGGCCGTGGAGCCCCAAAGGCGCTGCCTCTGACAGGGACCTA
+GCAAGGCCTGGGCAGCCCAACCGTGCTGGGACGGCGCCCACCAGGTGTGCAGGGACATGGTGTCCGAAGTGGCTTCTGAG
+AAAAGTGGCTGAGAAAATTGAGAATGAAGACTTTTTGTTCATGTATATTCAGCTTTTTGTGTTTTTTTAATGTAAAGGAC
+TTTTAGATTATTATTGTTCAGTATCTGTCTGGGATTGGCACAAGACAGCAGAGAAACAGTGGAGTGGCACCAGCAGGCCC
+CAATACAGGACTGAGTTTTGACAAAAATTATTTAAGTTTAATTTTTAATTAATTGAGCAATGCCAGATTAGTGCATGAGT
+GACAGCCAAGATGGCCGCGCATCCGGCCGGACACCTGCAGCAGGTGGCAGGAAGCATGTCGCACTGAGAGTCTATTTTAG
+GAAGCCAAAAAGCACCCTGTGTGAATTTATAGCTCCTGTTTTTGAAGTGGTGGTTTTCAAGTGGTTTTCCCGGATCCGAA
+AGTGTTGCAGAGCAAAACAACACCTGGGTAGTTTGCATATCTAAAATAGGACAGGGGACTGCCAGGGTTCCTCTTGTCAC
+TATTTGAATTTATTTTTTCAATCTGAACTTAGCAACTTCTAGTTTGCTCAAGCTTAGCTTATCAATTTCTAAATTGTATT
+CATTTTTAAAGTAAGATATTTTAGAAATTAAACTTACAGATGGTTTATTAATGCGCCCATGAAACTTTTTAAAATTACTT
+TGTTATTTCTTCATACGGTAATTAACCTCAAACTTCAGAGACCTCAAAGCATTATTTTTGCAACGCCTGCGACCGTCATT
+TTTAAGAGTCTATTTTCTCTATGATTAGAAGAGACGTTTTGAGGCTTCATTTCAGTATTTTTCAAGACTGCTTTTCAAGT
+ATTCATTTTCACACCAGTTCTAGCTGAGGTGGACCTAAGTGTCCTGAGTTATTGGGTTAAACGTGTGACTTGGTGAATTG
+GAGAGCCATCAGACAGTGCAGAGACAGGAGTCGGGAGCTCTGCAGAAGCCGGGCCACCCACGCCTTGAGGTTTCCCAGGA
+CCGCCGGGTCTGGGGGTGCAGCCGTGGCTTCTGGTTAGTCAGGAATTCCTGTTTGGAGTGGACTTGGAGGACCCGCAGGA
+CGTGCCGGTGACCAGCCACTGCACATGGTGAGAGGGGCAGCTGCTCTGCCACAGATC
+>ref|ref|X03050.1|| Rabbit (Basilea) Ig-kappa 1b9 mutant gene JK-CK intron and C(k)1 exon
+GGATCCCTGAGTCATTGCAGGGGCAGAGTAGAGCAACAACAAAGAGGCCTCCCAGTGGGTCAGAGAGTTCAAACACAACA
+ACATAGAACTTTCTGAAGGGGCAGGTGGAACCCGGAGGGAAACAAAGTCATCCAGATTCTACGTCTGCTCGCTGCCCCAT
+TGCAACAGCTGGGCAGGATAATCGGGCTGCTTCTGTCTGTCCATCCCTAATGCGCTCTGTGATCATCCACATGGCACCCA
+GGGGAGATGCCCACTGGTACCTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAAGTGATCCTCCAATTGCGCCTACTGT
+CCTCCTCTTCCCACCATCTGCTGATCAGCTGACAACTGAAACAGTCACCATCGTGTGCGTGGCAAATAAATTCCGTCCCA
+ATGACATCACCGTCACCTGGAAGGTGGATGACGAAATCCAACAGAGCGGCATCGAGAACAGTACAACACCGCAGAGCCCC
+GAAGACTGTACCTACAACCTCAGCAGCACTCTGTCACTGACCAAAGCACAGTACAACAGCCACAGCGTGTACACCTGCGA
+GGTGGTCCACAACTCGGGCTCAGCGATCGTCCAGAGCTTCAATAGGGGTGACTGTTAGAGTGAGACGCCTGCCAGGGCAC
+TGCCAGCGACCCTGAGGCCCAGCCTCGCCCCTCCCTCCCCTCAGTGGACCCATTCCCATCACAGTCCTCCAGCCCCTCCC
+CTCCCGGCCCTCACCCCCTCCTTGGCTTTAACCGTGCGAATGTTGGTGAGATGGATGAATAAAGTGAATCGTTGCACTTG
+TGACTTCTCTCTGCTTCTTCATTTAATGGTTATTACTCATGGTTCCCAG
+>ref|ref|X57729.1|| Rabbit immunoglobulin lambda light chain mRNA, isotype c7
+CGCTCCTCCTCCTCCTCACCCTCCTCCAGTGCACAGGGTCCCTGTCCCAGCCTGTGCTGACTCAGTCGCCCTCTGTGTCT
+GCCGCCCTGGGAGCCTCTGCCAGGCTCACCTGCACCCTGAGCAGTGCCCACAAGACCTACACCATTGACTGGTATCAGCA
+GCAACAAGGGGAGGCCCCTCGGTACCTGATGCATATTAAGAGTGATGGAAGTTACACCAAGGGGACCGGGGTCCCTGATC
+GCTTCTCGGGCTCCAGCTCTGGGGCTGACCGCTACTTAATCATCCCCAGCGTCCAGGCTGATGACGAAGCCGACTACTAT
+TGCGGCGCAGATTATAGCGGTGGCTATACATTCGGCGGAGGGACACAGCTGACCGTCACAGGTCAGCCCGCGGTGACCCC
+CTCGGTCATTTTGTTCCCGCCCTCCTCTGAGGAACTCAAGGACAACAAGGCCACCTTGGTGTGTCTGATCAATGACTTCT
+ACCCGGGCACCGTGAAGGTGAACTGGAAGGCCGATGGTACTCCCGTCACCCAGGGCGTGGACACCACCCAGCCCTCCAAA
+CAGAGCAACAGCAAGTATGCGGCCAGCAGCTTCCTCAGCCTGTCAGCCAATCAATGGAAATCCTACCAGAGTGTCACCTG
+CCAGGTCACGCATGAGGGCCACACGGTGGAGAAGAGCCTGGCCCCTGCAGAATGCTCCTAGGGCCCCACCCTCACCCACC
+CCCAGGGGCCAGGAGCTGCAGACCCAGAGACCAGGTCCATTGTCCCACCATTCATCATCCACCGTGCCTTGACCCCATTA
+AACTCTCAATAAATATCCTCACTTTTTCAATCAG
+>ref|ref|X03054.1|| Oryctolagus cuniculus IGH gene for Ig heavy chain variable region (RVH 832, V(H)a-negative)
+ATGGAGACTGGGCTGCGCTGGCTTCTGCTGGTCGCTGTGCTCAAAGGTAATGATGGAGAACGCGGGGCACTGAGTCTGGG
+AGAGGACGTGAGTGAGAGACACAGAGAGTGTGAGTGACAGTGTATTGACCAGACATCTGTGTTTGCAGATGTCCAGTGTC
+AGCAGCTGAAGCAGTCCGGAGGAGGAGCCGGAGGAGGCCTAGTCAAGCCTAGGGGATCCCTAGAACTCTTCTGCAAAGCC
+TCTGGATTCTCCCTCAGTAGCAGCTACTGGATATGCTGGGGCCGCCAGGCTCCAGGGAAGGGGCTGGTGTGGATCGGATG
+CATTTATGCTTGTAGTGGTAGCACTTACTACGCGAGCTGGGTGAATGGCCGATTCACCCTCTCCAGAGACATCGACCAGA
+GCACAGGTTGCCTACAACTGAACAGTCTGACAGCCGCGGACACGGCCATGTATTACTGTGCGAGAGACACAGTGAGGGGC
+CCTAGGGCGCACCTAGACACAAACATA
+>ref|ref|X03053.1|| Rabbit pseudogene for Ig heavy chain variable region (RVH 831, V(H)a-negative)
+ATGGAGACTGGGCTGCGCTGGCTTCTGCTGGTCGCTGTGCTCAAAGGTAATGATGGAGAACGCGGGGCACTGAGTCTGGG
+AGAGGACGTGAGTGAGAGACCCAAAAGTGTGAGTGACAGCTTCCTGACCAAGACGTCTGAGTTTGCAGGTGTCCAGTGTC
+AGGAGCAGCTGGTGGAGTCCCGGGGTGGCCATGTCACGCCTAGGGAATCTCTGAAACTCTTCTGCAAAGCCTCTGGATTC
+ACCATCAGTAGCAGCATCTGGATGTGCTGGGTCCGCCAGGCTCTAGGGAAGGGGCTGGAGTGGGTCGGATGCATTTATAC
+TGGTGGTCGTAGCACATACTACGCGGGCTGGGTGAATGGCCGATTCTCCATCTCCAGAGAGAAAACCCAGAACACGGTGT
+CTCTGCAAATGAACAGTCTGAGAGCTGCGACACGACCCTGTATTACTGTGCAAGACAGCTGAGCCTAGATAGAAACCTC
+>ref|ref|NM_001101684.1|| Oryctolagus cuniculus interleukin 1 alpha (IL1A), mRNA
X02852.1 Rabbit mRNA for interleukin-1 precursor
+AGTCAGTTCATTGGCACTTGAGTCGGCAAAGAAATCAAGATGGCCAAAGTCCCTGATCTGTTTGAAGACCTAAAGAACTG
+TTTCAGTGAAAATGAGGAATACAGCTCTGCCATTGACCATCTTTCTCTGAATCAGAAATCCTTCTATGATGCAAGCTATG
+AACCACTTCATGAAGACTGCATGAATAAAGTTGTGTCTCTGAGTACCTCTGAAACCTCTGTGTCACCCAACCTCACCTTC
+CAGGAGAATGTGGTGGCAGTAACAGCCAGTGGGAAGATTCTGAAGAAAAGACGCTTGAGTTTAAACCAGCCCATCACTGA
+TGTTGACCTGGAGACCAATGTCAGTGATCCAGAAGAAGGAATCATCAAGCCCAGATCAGTTCCTTACACCTTCCAGAGAA
+ATATGAGATACAAATACTTGAGAATCATCAAACAAGAGTTTACCCTGAATGATGCTCTCAATCAAAGCCTAGTTCGTGAC
+ACCTCAGATCAGTACCTCAGGGCAGCTCCACTACAAAATCTGGGCGATGCAGTGAAATTTGACATGGGGGTCTACATGAC
+ATCAGAGGATTCTATACTTCCTGTAACTTTAAGAATCTCACAAACTCCACTGTTTGTGAGTGCCCAGAATGAAGATGAAC
+CTGTGCTGCTAAAGGAAATGCCTGAGACACCCAGGATCATCACAGACAGCGAGAGTGACATCCTCTTCTTCTGGGAAACT
+CAAGGCAATAAGAACTACTTCAAGTCAGCAGCCAACCCACAGCTGTTTATTGCCACAAAGCCAGAACATCTGGTGCACAT
+GGCAAGGGGGTTACCTTCGATGACTGATTTTCAGATCTCATAAAACCAGCCTTAGCTCTGGAAGTCCACTCACTAGTGAA
+GTGTTGACCATCTGTATGTACCGTGTACATGAAGAAGCCAGTCTTCACTCTTAGTCATTGGCTGAGCATGTGCTGAGCCT
+GCATAATTCTACATGAATGTTTCCCCTCTTTGTAAGAGAGAAGCCAAGTCTAATGGGACCAACACTAACATATAATGTTG
+TTTGTTGTTGAAAGATCACCCTATACTTTGCACAGTACCAATCATTTTAATTATTGTTCCTGATAACAACCTTAAGAGGA
+CCAGGGCTACTGACTATGGCTACCAAAAAGATTCTACCCATATTACAGATGGGTTAGCTAAGGCATAATAAAACTAACAG
+ATACACATAATGATAGAATGAGAAGCTACACAGAATATCATTTCGACTATTTGCCTTCCGCTGTTAAGACTGTTAGATTC
+TTAATCAAATAGCATAAGTTCCTGGAACCTCAGTTTTATTGTTTTCAAGATGGAAGAAATAAAACCTACATTGTTCCTGC
+CTTAATGGTTCTTTGTGTCAATTAGTGAGGTCATTTTGTTAAGATACTGCTTGAAGCTGAGCTTCAAGGAAAAAAATGTA
+ATCGTATTTTTAAATTATTTATATGTATGTATTTATAAATGTATTTAAGATAATAATTATTATTATATTTATAGCAGTTT
+CTTGAATAGTCTGACTTTGACTAGGCAACCTCAACAATAGTGTGCAGTGTTTTCTAGACAGAATGAGTCTGTTTTGCTTA
+CATGAGGATACTTTGATCCAAGTTGTACTTTATACATAGCCAAGAAGCTCTCAATTCTGGTACTGGAGACCCTGTACTTA
+TGATAATAAATTATTTGTAATTTATTTGAATGTTTGAGCTGATAACTGGGCCACTATTTCACTCTTCTGCCCTTAACCTT
+ATCTTCGCATTCTTCTGTCACTCATTTTACCTATAGTCAAATCATACTAGATAAAAGGGGATGAACTTAACTTTGGCAAC
+CATTGTATTCAAAGTTTCATTTCTGGGATATAATTAGTGCTTCCAATTTCTAAAAATTGACATCAAAACATAGTGTTACC
+TTTTATCTTCAATAATGATTAATTTGTTATTATCAACCAAAATTGAATAAACCTCAAAAATGAC
+>ref|ref|Z11812.1|| O.cuniculus interphotoreceptor retinoid binding protein gene, exon 1
+CGGCAGCCCCAGCACCCAGCAACCTTACCCAGGAGGAGCTGCTGGCTTGGCTGCAGAAGAGTATCCAACATGAGATCCTG
+GAACACAATGTGGGCTACCTGCGGGTGGATGACCTCCCGGGCCAGGAGGTGCTGAGCAAGCTGGGCGGGTTCCTGGTGGC
+CCATGTCTGGGGGCAACTCATGGGCACCTCCGCCCTGGTGCTGGATCTGCGGCACTGCACGGGGGGCCACGTCTCTGGCA
+TCCCCTACGTCATCTCCTACCTGCACCCGGGGAACACTGTCGTGCACGTGGACACCATCTATGACCGTCCTTCCAACACA
+ACCACGGAGCTCTGGACCCTGCCCCAGGTGCTGGGGGAGAGGTACAGCGCTGACAAGGATGTGGTGGTCCTCACCAGCGG
+CCGCACGGGGGGTGTGGCTGAGGACATCGCCTACATCCTCAAGCAGATGCGCAGGGCCATCCTGGTGGGTGAGCAGACCG
+TTGGGGGCGCCCTGGACCTGCAGAAGCTAAGGATAGGCCAGTCTGACTTCTTCCTCACCGTCCCCGTGTCCAGATCCCTG
+GGGCCCCTGGGCGGGGGCAGCCAGACGTGGGAGGGCAGCGGCGTGCTGCCCTGCGTGAGGACACCAGCCGAGCAAGCCCT
+GGAGAAGGCGCTGGCCATCCTCACCCTGCGCCGGGCCCTGCCGGGGCTGGTCCGCCGCCTACAGGAAGCCCTCCAGGAAT
+ACTACACGCTGGTGGACCGTGTGCCCGCCCTGCTGCATCACCTGGCCACCATGGACTTCTCCACGGTGGTCTCTGAAGAA
+GACCTGGTCTCCAAGCTCAATGCCGGGCTGCAGTCTGTGTCTGAGGACCCCAGGCTCCTGGTGCGTGCCATGGGGCCCAG
+AGAAACTGCTTCTGGGCTCGAGGCGGCAGTTGAGGACCCTCCAGAGGCAGCCCCC
+>ref|ref|X15116.1|| Rabbit immunoglobulin kappa light chain gene J-C enhancer
+AAGCCTGTCCGAGCGTCTGCTGACTTGTCGCAGGAAGGATTCTTGATTTTTTTATTTTAATGGTGCTCTCCCCACCCCCG
+AGGCCCTGACTCCCCACAGAGGGGTTTCCCAGGGCCCATCTGGCAGCTGCCCGCGGTCAGGAGTGAAGCTCACCAGTTTC
+TGCGAGGCAGGTGGCCCAGCTTACAGCTGACCCCTCCCGAGTCCTCCTGCAAACAGGCTGGCCTGGGAACGGGCGGCCAG
+GTGCAGGTCTCACTGTG
+>ref|ref|Z18243.1|| Oryctolagus cuniculus encoding kappa-casein
+CTTTGCTATAGCTAAGAGGTCAATTCAACCTACTGCCAAGCAAGACCCGACAGACAGAAGGAAAGGTGCAATGATGAAGC
+ATTTTCTTCTAGTTGTGAACATCCTGGCAGTAACCTTGCCTTTTTTGGCTGCAGACATACAAAACCAGGAACAGACAACG
+TGCCGTGAGAATGAGGAAAGACTGTTCCACCAGGTTACAGCTCCATATATCCCAGTTCACTATGTGATGAACAGATATCC
+TCAATATGAACCCAGCTACTACCTGCGCAGACAAGCTGTTCCAACTCTTAATCCATTTATGCTTAACCCGTATTATGTAA
+AACCAATTGTATTTAAGCCAAATGTCCAAGTTCCTCACTGGCAAATCCTGCCAAATATCCACCAGCCAAAAGTGGGACGT
+CACTCACATCCATTTTTTATGGCCATTCTCCCGAATAAAATGCAGGATAAAGCAGTCACCCCCACCACCAACACCATTGC
+TGCTGTGGAGCCTACCCCGATTCCTACCACTGAGCCAGTGGTGAGCACTGAAGTGATTGCAGAGGCTTCCCCAGAGCTCA
+TCATCAGCCCTGAGACTACCACGGAAGCAACTGCTGCATCAGCGGCAGCATGATACCAAGGAACATCAAAGAAGACAACA
+CAGGTCTTCCTAAAACCAAATGATTTCTTCCAACTCTTCAGCAGCTGTTTGCCTCCATCCATCAAAAGAAGTGATTTCAC
+TCATCCAGCTGCTTTTTCTTCTCTCAATTTTACATTCATGCCACATTTAATTATTCCT
+>ref|ref|X55146.1|| Rabbit gene for muscle creatine kinase, exon 1
+CTCCCTGAGGGGAGTGCCCCGCTTAGCCCTCAGCCCTGGCACCCACCAGGCAGAGGAGGCAGCTCCCAGAGTCCCCGGCT
+GAGGGGGCCTGCCCATGTCCTCGCGAGTCGGGCACCCAGTCCCCTTCCCTGGGGGCCTCGGGTGCCTTGTAAGGAGGCAA
+GGCCCAGGACACCCGAGCTGCCGGCTATAATTAGCCTGGACACGTGGGCCCCCCGCCAGCACCTGCCCTGAGCCCCCCTA
+CCCGCAGCCTTGGGTGCTGGGACTGCCGACAGCAGAGACCGCTCTAAAAATAGCTCCCTTCCTGGACGGCCCCTCCCAGC
+AGGCCCCCCACCCCCCGCTGAGGCTCACTGCTGGTGTCCCTGCCTGGTGCTCCCTAGGGTGTGCACCCACGGCAGGTGCA
+GAGGCAGGGGGCACCGCGGGGGGCTGGTAACAGCAGCAGGCCTAGGGGCCAGGGGACGGCGAGCTGTACGTGCCAGGACA
+CCCCCAGCCACTGTCCCGTGCTCCCGGCGGGGGCCAGCTGTCCCCCGCCAGCCCGACTCAGCACTTGCTCTGCACATCGG
+CCTGGGGCGGCCCATACAAGGGCATGGGGCTGGGCACAAGGCACGCCCGCGTCCAGGTGGGCACTGTGCCCGGGCATGGT
+GGGGGGAGAGGCTGGGCTGCCTTCCAGGCCCCCTCCCTGGGGCCAGCCCCGCCCAGCCAGTGGCACAGCAGGGTCCCCTA
+CATAAAGCCGGGGCCGCGGGCCCTGGATCTGCCTCAGTGTCGCCTGCAGGACACACGTAGCCCCGCTCAGCACAGCCCAG
+CCAG
+>ref|ref|X07791.1|| Rabbit MT-2 processed gene for metallothionein
M23602.1 Oryctolagus cuniculus processed metallothein-2 (MT-2) pseudogene
+GGATCCAGACTGCCTGGTTCAGTTTCTGGCTCTGCTACTCATTAGCTGTGTGACTGGGAAAGGCAATCTTTCTGTACTTC
+AGTTGTTTCCTTATATACAAATAGAGATAAGGACTTTATCCGAGAGTTATGAGAATTAAGTGCATTAATATTTTTATTTA
+TTTATTTATTTATTTATTTATTTGACAGGCAGAGTGGACAGTGAGAGAGAGAGAGACAGAAAGAAAGGTCTTCCTTTGCC
+GTTGGTTCACCCTCCAATGGCCGCCGCGGCCGGCGCACCGCGCTGATCCGGTGGCAGGAGCCAGGAGCCAGGTGCTTTTC
+CTGGCCTCCCATGGGGTGCAGGGCCCAAGCACCTGAGCCATCCTCCACTGCACTCCCTGGCCACAGCAGAGAGCTGGCCT
+GGAAGAGGGGCAACCGGGACAGAATCCGGCGCCCCGACCGGGACTAGAACCCGGTGTGCTGGCACCGCTAGGCGAGGATT
+AGCCTAGTGAGCCGCGGTGCCGGCCTAAGTGCATTAATATTTAAAGTGTTGAAAAAAAAAAAAAAAAAAAACTAAAATGG
+GACCGGCGCCGTGGCACAGTAGGCCAAGCCTCTGCCTGTGGGGCTGGCATCTCATATGGGCGCCAGTTCATGTCGTGGCT
+GCTCCTCTTCTCATCCAGCTCTCTGCTATGGCCTGGGAAGGCAGTAGAAGATGGCCCAAGTGCTTGGGCCCCTGCACCTG
+CATGTGAGACCTGGAAGAATTTCCTTGCTCCTGGCTTCGTATTGGCCCAGCTCCAGCTGTTGCGGCCATTTGGGGAGTGA
+ACCAGTGGATGGAAGACCTTTCTCTCTGTCTCTCTCCTCTGTAACTTTACCTCTCAAATAAATGAATAAATCTTTTAAAA
+ATATTTGAAGTGTTTAACACACCTTCCAACTGCCGGACTGACTCTTCACCTTTCGCTTTGTATTTCCAGCTTCACCTGGG
+CTCAAAATGGAGCCCAGCTGCTCCTGCATCACCAGTGACTCCTGCACCTGTGCCAGCTCTTGCACATGCATGTCCTGCAG
+GAAGAGCTGCTGCCCAGTGGGCTGTGTCCAGTGTGCCCAGGGCTGCATCTGCAAAGGGGCATCAAACAAATGCAGCTGCT
+GCGCCCCTGAGAGCCTGGCTCCCACATGCAAATAGAGCAACGTGTGCAAACCTGGATTTATACCCCCATACAACCTGACT
+TCTATGCTGCATTCCTTCTTGTGTGAAATATGTGAATGAGAATACAAGTTGTTGATTTTAAAAGAATAAAGTGTTTAGAA
+CATGGTCTAGGGGCCAATGTCGTGGCATAGCTGGTTTAGCCACTACCTGCGATGCTGGCATCCCACATGGGTACTGGTTT
+GAGTCCTGGCTGCTCCACTTCCAAGCCAGCTCCTGCTAATGCACCCAGGCCTGGCTGTTGCAGCCATTTGGGGAGTGAAC
+CATAGAATGCAAGAAGATGGCTCAGTGCTTGGGCACTTGCACCCAAGTGGGAGACCCAGATGCAGCTCCTGGTTCCTGGC
+TTTGGCTTGGCCCAGCCCTGGCCATTGCAGCCAGTTGGGGAATGAACCAGCAGCTTGGAAGATCTCTCTGTCTCTCTCTC
+TCTCTCTGTAACTCTTTCAAATAAGCAAATCTGGCCGGGGCCGCGGCTCAACAGGCTAATCCTCCGCCTAGCGGCGCCGG
+CACACCGGGTTCTAGTCCCGGTTGCCCCTCTTCCAGGCCAGCCCTCTGCTGTGGCCCGGGAGTGCAGTGGAGGATGGCCC
+AGGTGCTTGGGCCCTGCACCCCATGGGAGACCAGGAAAAGCACCTGGATCC
+>ref|ref|X07790.1|| Rabbit MT-I gene for metallothionein
M20015.1 Rabbit, metallothionein-I, exons 2 to 4
+CTGCAGTGCCAGCATCCCATATGGGCGCCAGTTCAAGTCCTGGCTGCTCCACTTCCAATCCAGCTCTCTGCTGTGGCCTG
+GGAAAGCAGTAGAAGATGGCCCAGGTCCTTGGGCCCCTGCACCCACGTGGGAGACCCTGAAGAAGCTCCTGGCTTCGGAT
+CAGTGCAGCTCCAGCCGTTGCAGCCAGTTGGGGAATGGACCAACAGATAGAAGACCTCTCTCTCTCTCTCTCTCCCTCTC
+TCTGCCTTTCCTTCTCTCTCCGTGTAACTCTGACTTTCAAATAAATAAATCTTTAAAAAAAAATGAAAGAAAGAAAAGGA
+TGATAAACAGAGCTTGGCACGGTCTACAGGCTATATAATAGCTAAAGATCCTGAAAGAGAAACCATCACTTTTCTGCTTT
+TTAAGGTAACACAGGCTCTGTATACTGCCTAAGGACAAGACTTTAAAATGAGCTTTTCCCCTGGGGGCATCCTGGAGTAG
+GTGGGGGTGGCTAGGCTGAGGGGAGCCCCTGGAGAGTCTTCCAGATAGGAGGACCCAGACAAATGTGCCCAGCCACCCCT
+CAGGCTCAGGGAATTGGGGGGAGGGAGGCAGAGCCCCGGATCTGCTTTCCTGCTGTGTACGAGAGAAACGGGGCCAAGGA
+CTGGCATGGGAACAAGGACAGGCACAGCGGGGGACGCAGGGGTCATGTTCATGGCCAGACCTCTGCACACAACTCCCTCG
+CTGCGCTCCACGGCCAGCACCCCATCCCGGGCCGTGAGCAGAGGGCTGGGGTTGCACACGCACTCCGGGAAAGGTGAAGC
+TGCGGTCAACGGTGCGAGGGGGCACGGGGAAGTGCCGGGAATTGGAGAGGGGGCGGGAAGGCTACAGGGAAGTCCAATAC
+AGCCGGGCGCACAGCCTCGCTCGAGCGATCCGGAGCCAAAGAGCCTCCCCCGCCGTGCGCACCGAGCGGCGCTCCGGGAG
+TCGTGCGCCCGGCCCGCGCGGTGAGCTCAGCACGGCACGGACTGCGGGCCGTCGCCAGAGCTGGGGCGGGTGCAAGGGCC
+GGGGCGGCGCCTTTGCGCCCGGGCTCCCTCCCGCGGCAGTTAAAAGGAGCCGGCGCCGCCTGGGCTCCAGCGCGCCTTCC
+ACGAGCCTTGCGGAGTCTTCGCCTCTCACTTTGAACGTCGGACCTCACCTCGCTCGAAATGGACCCCAACTGCTCCTGCG
+CCACAGGTAAGGGACGCTGGCTGTGGGCTTGGGATGCGATAGCCCTGGGTGGGGGGAAGAGGCCACGTTCAGGTCGCTGA
+GCTGAGAGCGGTTCCAGCTTCCCGGGGCTTCTGGTTTCTTCGCCAGAGCCGAGGTCCCGGGGCTCCGGGCTGGCCCGCCT
+GACGTCATCCAGCAGGTCGGGGCGAGGGGGTGGGGGCTGGTGGCTGTGACCCCGCGCTTCGTGCAGGCCTCCGAGGACCC
+CGGCTGGCTGGGAAGCAGAGAACCTTGCCTTTTCTGAGTTCAGGACATAAGGTCCTTGCCCCTGGTCCCAGTATTCCTGG
+ACTGGGCTGGGATAAGACCAGGAGGACCCGTGCTCTTCCCGGAGTGAGGGGACAGAGTGAGGTTTCTCTTTCTTTTCCCT
+GAGCGGGACAGGAACTCTCGGGTCTGATCTGCATCACACCCATCGCTCATTGCTGGCCTTTCTCCTCCTCCCAGGCAACT
+CCTGCACCTGTGCCAGCTCCTGCAAATGCAAAGAATGCAAATGCACCTCCTGCAAGAAGAGTGAGTGTGGGCTTTCCCTG
+GGAGACCGGGCTGGGGGCGGGCGGACCCAAGGCCAGTGAAGGTGAAGGAGTCGGGGGCTGAGCAGGCAGGAACTGGCCGG
+TGCCCAGCTTCCCCTCAGCCCCTGATTTGGGGTCAGAGCTCCAAAGGCCATGGAGAAGAGTGTGTCCCAACTTCCCAAGA
+TAGACGGCCCAGAGGGGACAGCCACTGTTGTCAGGGGCAGAGCCAGAACTTGAACCTTTGTCTCCTGTGTCCTGATGGAG
+CCTTCCAACCCACCCAGGTCTGAAGCACTGGATGCACTTGACCTTGGGGACCACGTGTGGCTTCTGAGCTGCAGGGTCGA
+CCTTTTCCTATGTAGGCTCCCAGGGCTGCTTTGGAGGGGGTAGACCCCTGTCTCATCCTGAGGAACTCCTCACATCCCTG
+GACAGTTTGGTGGCTCCATTGCTCCCAGAGGTCCTGTTGCTGCCCCTCTGTGTGACTCCCAACCCAAGCATCCACCAGCT
+GTGTGCCTGACCGGGCATGCCAGCTAGAACTAGGGCTCCTGCCGGGCTGGGGGCCGAGCCTGTGCCAGGGAGGGGGCCAG
+TCAAGTCAGCTCTGACCTCTTCCCTCTCTCTCTCCTCTTCCCAGGCTGCTGCTCCTGCTGCCCCGCCGGCTGCACCAAGT
+GTGCCCAGGGCTGCATCTGCAAAGGGGCATCGGACAAGTGCAGCTGCTGCGCCTGACGCCCGCAGAGCCCGGCTCCGGAT
+GTGAAATAGTGCACTGTGTACAAACCTGGATTTTTTTTTTTTTTCATACGAGCCTCATTTGCTACATTCCTTTTTCTATG
+AGAGATGTGGATGACAATAAACCCATTCAGACTTTCTGTGGCTCCAGGTGCCTTTGGTGTGTGGGAACATGGACTTGGTT
+GTAGTCGGGATGTAGAAGAAGTCAGTTGTGGGGAGGTGACACTGGGAGTGGGGGTCCGGGTACAAGGTGTTCTAGGTGTG
+CTGCAGCCTGGTCTAGCCTGGGCTGTCCTTTGTGGGCTGTGGTGGGGAATTC
+>ref|ref|V00886.1|| Rabbit myosin heavy chain messenger fragment (aa 1643 to 1669)
+AGCAGGAAAGTGGCAGAACAAGAGCTCCTGGATGCCAGTGAACGTGTGCAGCTCCTCCATACTCAGAATACCAGCCTGAT
+C
+>ref|ref|V00887.1|| Rabbit LC2 myosin light chain messenger fragment (aa 26 to 37)
+GATCCAGGAGTTCAAGGAGGCCTTCACCGTCATCGATC
+>ref|ref|V00888.1|| Rabbit LC2 myosin light chain messenger fragment (aa 112 to 145)
+AAGGGCACAATCAAGAAACAGTTCTTGGAGGAGCTGCTGACCACGCAGTGTGACCGCTTCTCCCAGGAGGAGATCAAGAA
+CATGTGGGCGGCCTTCCCCCCGG
+>ref|ref|X06419.1|| Rabbit mRNA for Na(+)/glucose co-transporter
+GTCGTCGCCGCCGCCACGCCGCCATGGACAGCAGCACTTTGAGCCCCCTGACCACCTCCACCGCGGCCCCCCTTGAGTCC
+TATGAGCGCATCCGCAATGCGGCCGACATCTCCGTCATCGTCATCTACTTCTTGGTGGTGATGGCCGTCGGGCTGTGGGC
+TATGTTTTCCACCAATCGGGGGACGGTCGGAGGCTTCTTCTTGGCGGGTCGGAGTATGGTGTGGTGGCCGATCGGAGCCT
+CTCTGTTTGCCAGTAACATTGGAAGTGGCCACTTTGTGGGGCTGGCCGGGACGGGAGCTGCTTCAGGCATTGCCACTGGG
+GGCTTTGAGTGGAACGCCCTGATCATGGTGGTCGTGCTGGGCTGGGTGTTTGTCCCCATTTACATCAGGGCTGGGGTGGT
+GACGATGCCAGAGTATCTGCAGAAGCGGTTTGGAGGCAAGAGGATCCAGATCTACCTTTCCATTCTGTCCCTGTTGCTCT
+ACATTTTTACCAAGATCTCGGCAGACATCTTTTCCGGAGCCATCTTCATCCAGCTGACCTTGGGCCTGGATATCTATGTG
+GCCATCATTATCTTATTGGTCATCACTGGGCTCTACACCATCACAGGGGGCTTGGCCGCTGTGATCTACACGGATACCTT
+GCAGACTGCCATCATGATGGTGGGCTCTGTGATCCTGACTGGGTTCGCTTTTCACGAAGTAGGAGGGTACGAGGCCTTCA
+CGGAGAAGTACATGCGAGCCATTCCCAGCCAGATCTCCTACGGAAACACCTCCATCCCACAGAAGTGCTACACCCCAAGG
+GAAGACGCCTTCCACATCTTCCGAGATGCCATCACTGGGGACATCCCCTGGCCCGGGCTCGTCTTTGGAATGAGCATCCT
+CACCCTTTGGTACTGGTGCACTGATCAGGTCATTGTGCAGCGTTGCCTGTCAGCCAAGAACTTGTCCCACGTGAAGGCCG
+GCTGCATTCTGTGTGGGTACCTGAAGGTGATGCCTATGTTCCTCATAGTGATGATGGGGATGGTGAGCCGTATCCTGTAC
+ACAGACAAAGTTGCCTGCGTCGTGCCCTCGGAATGTGAGAGATACTGTGGCACCAGGGTTGGCTGCACCAACATTGCCTT
+CCCAACCTTGGTGGTGGAGCTGATGCCCAATGGGCTGCGGGGCCTGATGCTGTCCGTCATGATGGCGTCTCTTATGAGCT
+CCCTGACCTCCATCTTCAACAGCGCCAGCACCCTCTTCACCATGGACATCTACACCAAGATCCGGAAGAAAGCATCTGAG
+AAGGAGCTCATGATCGCAGGAAGGTTGTTCATGCTGTTCCTGATTGGCATCAGCATCGCCTGGGTGCCCATTGTGCAGTC
+AGCCCAGAGTGGGCAGCTCTTTGATTACATCCAGTCCATCACCAGTTACTTGGGGCCGCCCATTGCTGCTGTCTTCCTGC
+TTGCTATTTTCTGGAAGAGAGTCAACGAGCCTGGAGCCTTTTGGGGGCTGGTCCTCGGATTTCTGATTGGGATTTCCCGT
+ATGATTACCGAGTTTGCCTATGGAACCGGGAGCTGCATGGAACCCAGCAACTGCCCCACGATTATTTGTGGTGTGCACTA
+CTTGTACTTTGCCATCATCCTCTTTGTCATTAGTATCATCACCGTTGTGGTTGTCTCCCTCTTCACCAAGCCCATTCCAG
+ATGTGCATCTCTATCGTCTGTGCTGGAGCCTACGTAATAGCAAAGAGGAGCGCATTGACTTGGATGCAGGAGAGGAAGAC
+ATTCAAGAAGCTCCAGAGGAGGCCACTGACACAGAAGTTCCTAAGAAGAAGAAAGGATTCTTCAGGCGGGCCTATGACCT
+GTTTTGTGGGCTGGACCAGGATAAGGGACCCAAGATGACCAAGGAGGAGGAGGCTGCCATGAAGCTGAAGCTCACAGACA
+CCTCCGAGCACCCTCTGTGGAGGACCGTGGTGAACATCAACGGTGTCATCTTGCTGGCCGTGGCTGTCTTCTGCTACGCG
+TACTTTGCCTGAGTCCCGGCCGCTGCTGCCACTCGGCAAGGCTGGCGTGTGTACTCTCTGCCTGCCTTTCATCCCATGCT
+GTGGTGGCGAAGGGGAATCAATCCCTTGCAAAGTTTGCCCCATTTGGATAAATGTCTATATGTAAATTACAGGCTGGTTG
+GAGG
+>ref|ref|NM_001101721.1|| Oryctolagus cuniculus solute carrier family 9 member A1 (SLC9A1), mRNA
X59935.1 Rabbit mRNA for Na(+)/H(+) exchanger
+CTCCCAGAGACCTGCTGCTCTGTCCCTAGGGCGCGCTCTTCTGCCTCTCTGCCTCTCCCAGGTCTGCAGCTCCGGACCTT
+TTGGTCTCCTTCCGTGGTCCTTTCTGGGTCCCTGTCCCTTTCCCCAGTTTGGAGTTGCAGATCAGGAAGCCAGACTCCCT
+CCACCCCCAGAGGACTGCTCCTACAAAACTTGACTCTATAACATGAACTCCTCCTAGGGACCAGCCCTGTCCCCTCCCTC
+CCCCTCCCCCTGCTCCCTATGTCCCAGGTCTCACTCTCACTTCGCTAAGGGTCTCGGCCTGCTGGGCGGAGGGCGCACCG
+CCATGCTTCTGTGGTCAGCTGTCCGTGGCCTCTCTCCACCTCGGATCGTCCCCTCCTTGCTGGTGGTGGTGGCCTTGGCG
+GGGCTGCTCCCTGGCCTCAGGAGCCATGGGCTCCAGCTCAGCCCCACTGACAGCACCACCCCAGACTCGCAGCCTTCACG
+GGAACGCTCCATTGGGGATGTCACCACCGCTCCACCGGAAGTCACCCCCGAGAGCCGCCCCGTGAACCGTTCGGTCACTG
+AACATGGCATGAAGCCGCGGAAGGCCTTTCCGGTCCTGGGCATTGACTACACACACGTGCGCACCCCTTTTGAGATCTCC
+CTCTGGATCCTGCTGGCCTGCCTCATGAAGATAGGTTTCCACGTGATCCCCACCATCTCCAGCATCGTCCCGGAGAGCTG
+CCTGCTGATTGTGGTGGGGCTGCTGGTGGGGGGCCTGATCAAGGGCGTGGGCGAGAAGCCGCCCTTCCTGCAGTCGGAGG
+TCTTTTTCCTCTTCCTGCTGCCGCCCATCATCCTGGACGCCGGCTACTTCCTGCCGCTGCGGCAGTTCACCGAGAACCTG
+GGCACCATCCTCATCTTCGCCGTGGTGGGCACGCTGTGGAACGCCTTCTTCCTGGGCGGCCTCATGTACGCCGTGTGCCT
+GGTGGGCGGCGAGCAGATCAACAACATCGGGCTGCTGGACAACCTGCTGTTCGGCAGCATCATCTCGGCCGTGGACCCCG
+TGGCCGTGCTGGCCGTCTTCGAGGAGATCCACATCAATGAGCTGCTGCACATCCTGGTCTTCGGCGAGTCCCTGCTCAAC
+GACGCCGTCACTGTGGTGCTGTATCACCTCTTTGAGGAGTTTGCCAACTACGACCACGTGGGCATCGTGGACATCGTCCT
+GGGCTTCCTGAGCTTCTTCGTGGTGGCCCTGGGCGGGGTGTTCGTGGGCGTGGTCTACGGGGTCATCGCAGCCTTCACCT
+CCCGATTCACCGCCCACATCCGCGTCATCGAGCCGCTCTTCGTCTTCCTCTACAGCTACATGGCCTACCTGTCGGCCGAG
+CTCTTCCACCTGTCGGGCATCATGGCACTCATCGCCTCGGGAGTGGTGATGCGGCCCTACGTGGAGGCGAACATCTCGCA
+CAAGTCGCACACCACCATCAAGTACTTCCTGAAGATGTGGAGCAGCGTCAGCGAGACCCTCATCTTCATCTTCCTCGGCG
+TCTCCACCGTGGCCGGCTCCCACCACTGGAATTGGACCTTCGTCATCAGCACCCTGCTCTTCTGCCTCATCGCCCGCGTG
+CTGGGTGTGCTGGGCCTGACCTGGTTCATCAACAAGTTCCGCATAGTGAAGCTGACGCCCAAGGACCAGTTCATCATCGC
+CTACGGCGGCCTGCGGGGCGCCATCGCCTTCTCGCTGGGCTACCTCCTGGACAAGAAGCACTTCCCCATGTGCGACCTGT
+TCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGACCATCCGGCCCCTGGTGGACCTGCTG
+GCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGCAGTTCCTGGACCACCTTCTGACAGG
+CATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAACCGGTTTAACAAGAAGTACGTGAAGA
+AGTGTCTGATCGCGGGCGAGCGCTCCAAGGAGCCCCAGCTCATCGCCTTCTACCACAAGATGGAGATGAAGCAGGCCATC
+GAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCTCCATGCAGAACATCCACCCCAAGGC
+CCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATCCGCAAAATCCTGAGGAACAACCTGC
+AGAAGACCCGGCAGCGGCTGCGCTCCTACAACAGACACACGCTGGTGGCCGACCCCTACGAGGAGGCCTGGAACCAGATG
+CTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGACTGTGCCGGCGCACAAGCTGGACTC
+GCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAGGCAGACTTGCCGGTCATCACCATCG
+ACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAAGGGCAAGGTCCTGGGGCTGAGCCGG
+GAGCCGAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGATGCGGCCCAAGGAGCCCTCGTCCCC
+CGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGGATGCAGCGCTGTCTCAGCGACCCCG
+GCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCGCAGCGCACCTGCCGCCAGACTCTCC
+CGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCACCGCATGGCAGCTGGGCCCAAGCGCC
+CACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCGGCGGAGCTGCCTTCCCCATCGTCTGGCTGGGG
+CGGTCTGGCTCCCTCCAGGGGTCGGGGCCCCTGCCCCCACTCCATCGCCCCCTCACTCAGACCAAGCTTCCTTTCTAACC
+AAAGACCTCTGGCTCCAGACGGGGAGGGGGCCGAGGGAGCCTGGGCCCAGGGGAGGCAGCAGGGGTACCAGGTGTGCGCC
+CGGAGCAGCGCAGGCGGCCCGCGAGGGTCTCTGCCCCGAGCTGCTGTGCCGGAGCCGAGACGTTTCTGGCGGTGAGGAGA
+CTCCACTGCGCCCCTACAGGGCCAGGCGCTGAGCTGTTCAGGGTTTTGCTTCTCTGCACTTCCGAGGACGATTCTGTCCA
+CACAGAGGGCGCTCCTGGGTTTAAACCGTTTTTGAAGCCCTTGGCTCCACGGACATCTGCCCCTCTGGCTCCCTCCCTCA
+GCCTGTGCAGAGAACCAGTGGCCTCTCCCAGGTCGTCCTCTGCTGTTGTCCGAGGCTCTGATTTCAGGAAGGGGCCCCAC
+CCCGATCATGGGCCTCCGGGGCCTGACTCGCTTCCTGTGGGACTGTCTTTCCGACCTGCCCCACCGCTGGGTTGGCCCTG
+GAGCCCCGACCTCGCGTTCACCGCAGCCTGCTTGCTGTGGAGCCCGGTCCTCAGGGAGAAGGCCCCGCGGATCTCCCGCT
+GCAGCCAGGGCTGCCGGGCTGGGCAGGGACCTGGGCCCCCAGAGACACACACTCCCCCCATCACTGTCACCATGGCCAGG
+CCCGGGCTGTCGGTGTCGGTCCCCCCCCCAGGACACTCCCCCTCCCAGGATCGTGCAATAGTCAGTGTCCCACCTCCCAG
+TGCACTGGGCCGCAGGCGCCAAGCCCACCTGCCCATCTCCTGTCCCGTGGGCAGCAGTGCCTGTGCCAGGGTGACGTCGA
+CAACCATGTACAAAGCCACCGCAGCTGCTGCCGCTCTGCCGCCTGTACAGAAGAAACCGAATCTTTTTCATATTCTAATA
+ATCTATGTGAGTTTTTGAAAAAAAAAAAAAAAAAAAA
+>ref|ref|X53766.1|| Rabbit NAT2 gene for arylamine N-acetyltransferase (EC 2.3.1.5) exons 1 and 2
+GGGAGTGGGATTAAAACCTTGTACCTTCTTCTTTGCTCTCTTCTACATTTCTGGATCTGCTTTTTCCTGGACCTTATCCA
+ACTATCACCTCCACCTCTCTCGATGGGGGAAATCTGGCTTCAAGTTCCCAGTAAGCAGGAACCCTGTGTAACACAAAGGC
+ACAACTCTCAGCCTTGGCATGGAACCAGCAGATAGTGCTTGTATCTCTCCACATTTTAGTGAAAAAAAGCCGACCAAGAG
+GTCCACTTGGGCAACCAGAGGCCCTGTGACTACATTTCCCAGAGTTCACAGTGCTGACTCTTACTGGATTTGGAGGTGGG
+GAGATCTGGAACACAATAAAAGAAAGTCCTCTGCAGATGTGAAAGTGAAAGAATAGCATTCAGCCCGGTTCCTGATTGCA
+GGTCCTGGAAACGCGGTAAGTGGAGCTCCGTGACTGCAGGGTTATGAGATCTGGGTTTAATTCTATCTTACATGTGAGTC
+CATAGGCCAGATTGTTCACCTTACCAGAATTTCAGGTCTAAGGCTGTTCAGAAAGTATGTGTGGTCCACATTTGGAGGAC
+AATGCCATAACTACTATACAGTATAATGATGAATGTGGAAGAATCTTCTTTCATCCCCCTGGCTGAGTCACGGCTCATGA
+GAACATGAGCAAATCATTTAGCTTTTTAAAACTATTTTTCCATCAGCAAAATGGAGTTAGTTATAGTGCCTACTTAAAAA
+GTTTGCCATAGGGATTAAATATGTGTATTAAGAGATAACTAGTGTGTTTAAAGGAACCTACTTGCCTGGCTTTCCCTCTT
+GGGTACTTGTAACAGTGCTGTCCACCCTCTTCTTTGCTTGACAGGATACATCCCAAAGGACCATGTCTTGCCGGCACTTC
+CTGATCAGAAATCCTTTAGCAATCCCAAATGTCTGGGGAGGTTGAATTGTGTGGTCTGAAGACTGTTTCAAGAGGAATTC
+TAATCCAGTTGTGTCAACATCAGAACTAATAAAGGTAAACTAAAGCATATTAATGATTTAAAGTATTGATTTAAGTCAAT
+AGCAACTCAAGTATTAAGCAACACCAGACTGCAGATAATAGTTCAGTGCCCTTCTCTAGGGAGGTGAGAGAGAAACTTTC
+CTGATATGTTAGCAGAAGCAAGATAAAGGAAATCTATTTGATTGGTTAGAGTGAAAGCTCTCTAGCTAGAGGTTTACTAG
+TGGTTTCTGGTGGGTAAAGTCCAGTTTTGTTTTACAGTTTACATTGGGAGCCCAAAGTCCTGGAGCCATCGACGTTACAG
+TCTCTTACCGACCTGATTTCTTCTTCCTTATGAAATATTTTCCTTCCATGCCAAATGCTCGAGAGGGTCTCTTAAATTTT
+TAATTTAAATAATTGAACATAAATACATTTCACTATCAAGCATGCTGACCCAGACTCCTGGAATCCCATCCCCCTTGCTG
+TGCTGCCTGTTTTTTTCTTCACTTCAGGATAATAATTTTTTATCTTTATTTTGGTTTTATTTTTGATATTTGAGAGATTC
+TTCATTTTTTATGTTTCAAAAACTACATTCTGTGTTTTAGAGAAAAGTCATAGTGTGTTTTTAAGTCTGTCTTTTCTGTT
+TTTTTCTAGAGTTTTGGCTGGGAAGATAAAATATCCCAAGTCACCTGAATTAAAACTGAAGATCAACCCTCCTTCAACTT
+ACTAAGGTAGGAACTGAGTGCATTTCTTTGAGTCCTTAGTAGGCGACCTAAGTGTGTTCACTCTGCCTACTTAAGCCGTC
+TCTTTCAGGTATGATAAAGCTGTCAGGGAAGGATATATCCATGCAAAGAGATGATACAAATCACCATAAAAAGCTAACAG
+TGGTTTCACCCAGCCATTTTTCTGGCAACCGTTTTCCAAGAGATTTCTACATTTCAACTTGAAATATAAGATTTATTATG
+TTTAGTCAAAGAATATAGAAGTATTACTAAGGTATAACATGTAGCTAGTATCCAAGCCCTTAACAAAAACTGACTTCTTT
+TGAATGCACCTGTAGTTACAAAACCCCAATTCAATGTTTTTATCTGACAAAAAAAATCAGAAGTAGGGAAGTGAATGTGG
+AGGAGGATGAAGAACAGAAGAGAGGGGGCAGAGAGAGACAAACACTTGAAAACATAATATAGCATTTAAAAGAAGAATAA
+AGTAAGCTCTATGGGCCAGCACTGTGGTGCAGCAGGTTACCACCTTGGCCTGAAGCACTGGCATCCCATATGGGCATCAG
+TTCTAATCCGGGCTGCTCCACTTCAATTCTAGCTCTCTGCTGTGGCCTGGGCAAGCAGTAGAGAATGGCCCAAGTCCTTG
+GGCCC
+>ref|ref|X58123.1|| Rabbit mRNA for nebulin (partial)
+GGCTAACAAACTGAATATGGACAAGAGGCTGTACACTAAGAAATGGGACAAAGATAAGACCACCATACACGTCATGCCCG
+ATACTCCAGATATCCTTCTCTCCAGAGTAAACCAAATCACCATGAGTGATAAACTGTACAGAGCTGGCTGGGAAGAGGAG
+AAGAAGAAGGGCTATGATCTGAGGCCTGATGCCATCTCCATAAAGGCTGCCAAAGCTTCTAGAGACATTGCCAGTGATTA
+CAAATACAAGCAAGCGTATGAGCAAGCCAAAGGAAAACATATTGGATTCCGCAGCCTGGAAGACGACCCCAAGTTGGTGC
+ACTTCATGCAGGTGGCCAAGATGCAGTCAGACCGGGAATACAAGAAGGCCTATGAGAAATCCAAGACCTCCTTCCACACC
+CCCGTGGACATGCTCAGTGTGGTAGCAGCCAAGAAGTCCCAGGAGGTGGCCACCAACGCCAACTACAGGAATGTGATCCA
+TACCTACAACATGCTTCCTGATGCCATGGGCTTTGAGTTGGCCAAAAATATGATGCAGA
+>ref|ref|X61504.1|| O.cuniculus NHE-1 mRNA for renal Na(+)/H(+) exchanger
+TGCAGCTGGGCCGGGGCGCGCAGCGCTGCGCCGCGCCGGGGCCGCACCGACGGGCGTGTTGCTGCTGGCCCACCGGGAGC
+CGCCCCCCGCCCGCGTCGAGGCGCCTTCCCTCCAGGCCGCCTGCCTCCGCCTTCCGCCTCCCTCCATTTCCCCGGAATCT
+CGGCCGGACGCGCCCGGACCCCGGCCCTTCTCTGCAGGGGGAAGCTCCGGGCTGCCTTCCGGCCTCACTTCCTCACAGCC
+CGGCCCGCCACCCCCAGCCCTCTCTTTTTCTCCTTCCTGGACCGGCTTCGGTCCCCTCCCTCTGGCTCAGGCTCCCTCCC
+CCTTCCCCTAGCCGAGTCCCAGGTCCTCAGTCAGTTTCCTGAGCCGGAGGTGCCAGCCTGCCTTCTTTCCCTCCCCCGGG
+CTCCCCCCATCCCGTCCCTTGCTCTGTCCCTAGGGCGCGCTCTTCTGCCTCTCTGCCTCTCCCAGGTCTGCAGCTCCGGA
+CCTTTTGGTCTCCTTCCGTGGTCCTTTCTGGGTCCCTGTCCCTTTCCCCAGTTTGGAGTTGCAGATCAGGAAGCCAGACT
+CCCTCCACCCCCAGAGGACTGCTCCTACAAAACTTGACTCTATAACATGAACTCCTCCTAGGGACCAGCCCTGTCCCCTC
+CCTCCCCCTCCCCCTGCTCCCTATGTCCCAGGTCTCACTCTCACTTCGCTAAGGGTCTCGGCCTGCTGGGCGGAGGGCGC
+AGCGCCATGCTTCTGTGGTCAGCTGTCCGTGGCCTCTCTCCACCTCGGATCGTCCCCTCCTTGCTGGTGGTGGTGGCCTT
+GGCGGGGCTGCTCCCTGGCCTCAGGAGCCATGGGCTCCAGCTCAGCCCCACTGACAGCACCACCCCAGACTCGCAGCCTT
+CACGGGAACGCTCCATTGGGGATGTCACCACCGCTCCACCGGAAGTCACCCCCGAGAGCCGCCCCGTGAACCGTTCGGTC
+ACTGAACATGGCATGAAGCCGCGGAAGGCCTTTCCGGTCCTGGGCATTGACTACACACACGTGCGCACCCCTTTTGAGAT
+CTCCCTCTGGATCCTGCTGGCCTGCCTCATGAAGATAGGTTTCCACGTGATCCCCACCATCTCCAGCATCGTCCCGGAGA
+GCTGCCTGCTGATTGTGGTGGGGCTGCTGGTGGGGGGCCTGATCAAGGGCGTGGGCGAGAAGCCGCCCTTCCTGCAGTCG
+GAGGTCTTTTTCCTCTTCCTGCTGCCGCCCATCATCCTGGACGCCGGCTACTTCCTGCCGCTGCGGCAGTTCACCGAGAA
+CCTGGGCACCATCCTCATCTTCGCCGTGGTGGGCACGCTGTGGAACGCCTTCTTCCTGGGCGGCCTCATGTACGCCGTGT
+GCCTGGTGGGCGGCGAGCAGATCAACAACATCGGGCTGCTGGACAACCTGCTGTTCGGCAGCATCATCTCGGCCGTGGAC
+CCCGTGGCCGCGCTGGCCGTCTTCGAGGAGATCCACATCAATGAGCTGCTGCACATCCTGGTCTTCGGCGAGTCCCTGCT
+CAACGACGCCGTCACTGTGGTGCTGTATCACCTCTTTGAGGAGTTTGCCAACTACGACCACGTGGGCATCGTGGACATCG
+TCCTGGGCTTCCTGAGCTTCTTCGTGGTGGCCCTGGGCGGGGTGTTCGTGGGCGTGGTCTACGGGGTCATCGCAGCCTTC
+ACCTCCCGATTCACCGCCCACATCCGCGTCATCGAGCCGCTCTTCGTCTTCCTCTACAGCTACATGGCCTACCTGTCGGC
+CGAGCTCTTCCACCTGTCGGGCATCATGGCACTCATCGCCTCGGGAGTGGTGATGCGGCCCTACGTGGAGGCGAACATCT
+CGCACAAGTCGCACACCACCATCAAGTACTTCCTGAAGATGTGGAGCAGCGTCAGCGAGACCCTCATCTTCATCTTCCTC
+GGCGTCTCCACCGTGGCCGGCTCCCACCACTGGAATTGGACCTTCGTCATCAGCACCCTGCTCTTCTGCCTCATCGCCCG
+CGTGCTGGGTGTGCTGGGCCTGACCTGGTTCATCAACAAGTTCCGCATAGTGAAGCTGACGCCCAAGGACCAGTTCATCA
+TCGCCTACGGCGGCCTGCGGGGCGCCATCGCCTTCTCGCTGGGCTACCTCCTGGACAAGAAGCACTTCCCCATGTGCGAC
+CTGTTCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGACCATCCGGCCCCTGGTGGACCT
+GCTGGCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGCAGTTCCTGGACCACCTTCTGA
+CAGGCATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAACCGGTTTAACAAGAAGTACGTG
+AAGAAGTGTCTGATCGCGGGCGAGCGCTCCGAGGAGCCCCAGCTCATCGCCTTCTACCACAAGATGGAGATGAAGCAGGC
+CATCGAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCTCCATGCAGAACATCCACCCCA
+AGGCCCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATCCGCAAAATCCTGAGGAACAAC
+CTGCAGAAGACCCGGCAGCGGCTGCGCTCCTACAACAGACACACGCTGGTGGCCGACCCCTACGAGGAGGCCTGGAACCA
+GATGCTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGACTGTGCCGGCGCACAAGCTGG
+ACTCGCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAGGCAGACTTGCCGGTCATCACC
+ATCGACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAAGGGCAAGGTCCTGGGGCTGAG
+CCGGGAGCCGAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGATGCGGCCCAAGGAGCCCTCGT
+CCCCCGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGGATGCAGCGCTGTCTCAGCGAC
+CCCGGCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCGCAGCGCACCTGCCGCCAGACT
+CTCCCGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCACCGCATGGCAGCTGGGCCCAAG
+CGCCCACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCGGCGGAGCTGCCTTCCCCATC
+>ref|ref|NM_001135681.1|| Oryctolagus cuniculus phosphorylase kinase regulatory subunit alpha 2 (PHKA2), mRNA
X60421.1 O.cuniculus PHKA2 mRNA for phoshorylase kinase alpha subunit
+GCTAGAACTGACAGAGCCTCAGCGTTCGGGGATCAGGCCCGCTCGGAGGCTGCAGACTAAGATCGGGCGTCCGGGAGATG
+CGGAGCAGGAGCAATTCCGGGGTCCGCTTGGATGGGTACGCGCGGCTGGTGCAGCAAACCATCCTGTGTTACCAGAACCC
+TGTCACAGGGCTGCTCTCTGCCAGCCACGAGCAGAAGGATGCCTGGGTGCGAGACAACATCTACAGCATCCTGGCCGTGT
+GGGGCCTGGGCATGGCCTACCGCAAGAATGCCGATCGCGATGAGGACAAGGCCAAGGCCTACGAGCTGGAGCAGAACGTG
+GTGAAGCTGATGCGAGGTCTTCTCCAGTGCATGATGAGGCAGGTGGACAAAGTGGAGAAGTTCAAGTACACTCAGAGTAC
+CAAGGACAGCCTGCACGCCAAGTACAACACTGCCACCTGCAGCACCGTGGTGGGCGATGACCAATGGGGCCACCTCCAGG
+TGGATGCCACCTCCCTCTTTCTCCTGTTCCTGGCTCAGATGACTGCCTCAGGCTTGCGTATTATTTTCACCCTCGACGAG
+GTGGCCTTTATACAGAATCTCGTTTTTTACATAGAAGCTGCGTATAAAGTTGCTGATTATGGGATGTGGGAGCGTGGAGA
+TAAGACTAATCAGGGCATTCCGGAATTGAACGCAAGCTCTGTAGGAATGGCCAAGGCAGCACTTGAGGCCATTGATGAAC
+TCGACCTTTTTGGAGCCCACGGAGGACGCAAGTCAGTGATCCACGTTCTGCCCGACGAGGTCGAGCACTGCCAGTCAATT
+CTGTTCTCCATGCTGCCAAGAGCATCAACATCCAAAGAGATTGATGCGGGACTTCTTTCCATCATTTCTTTTCCCGCCTT
+TGCAGTGGAAGATGCGAACCTCGTAAATGTGACCAAGAGTGAAATTATTTCCAAGCTACAGGGGCGTTATGGATGCTGTC
+GTTTCCTTCGAGATGGTTATAAAACCCCAAGAGAGGACCCAAACCGGTTGCATTATGACCCTGCTGAACTCAAGCTCTTT
+GAGAACATTGAATGTGAGTGGCCTGTGTTCTGGACCTATTTCATAATAGATGGAATCTTCAACGGTGACGCTCTCCAGGT
+CCAGGAGTACCAAGAAGCCCTAGAAGGAATATTAATCAGAGGCAAAGATGGGATCCGCCTGGTGCCAGAACTCTACGCCA
+TCCCACCAAACAAGGTGGATGAAGAGTACAAGAATCCTCATACCGTGGACAGAGTTCCTCTGGGCAAGCTTCCCCACCTG
+TGGGGTCAGTCCTTGTACATCCTCAGCTCGCTGCTGGCAGAGGGATTCCTTGCCACTGGCGAGATTGATCCCTTAAATAG
+AAGATTTTCCACTTCCGTCAAACCCGACGTTGTCGTGCAAGTCACCGTTCTGGCAGAGAACAGTCACATTAAGGAATTGT
+TGAGGAAACACGGCGTAGACGTCCAGAGCATTGCTGACATCTATCCAATCCGAGTCCAGCCAGGCCGGATCCTTAGTCAC
+ATATACGCCAAACTCGGACGGAATAAGAACATGAAATTGAGTGGGCGACCATATCGGCACATTGGCGTCCTTGGAACCTC
+CAAACTATATGTGATTAGGAACCAAATCTTTACTTTCACACCCCAGTTCACCGACCAGCATCACTTCTACCTGGCCCTGG
+ACAATGAGATGATCGTGGAGATGCTGAGGATCGAGCTGGCTTACCTGTGCACGTGCTGGCGGATGACTGGCAGGCCCACG
+CTCACCTTCCCCATCACTCACACCATGCTCACAAATGACGGCTCGGACATTCACTCTGCGGTTCTTTCAACAATTCGGAA
+GCTCGAGGATGGATATTTTGGAGGAGCTAGAGTCCAGTTAGGGAACCTTTCGGAATTTCTCACCACATCATTCTACACAT
+ATCTGACCTTCCTGGATCCAGACTGTGATGAGAAGTTGTTCGATGATGCCAGCGAAGGAAGCTTCAGTCCTGATAGCGAT
+TCGGATTTAGGAGGATATTTAGAAGAAACTTATAATCAAGTTACAGAAAGCCAAGATGAACTTGACAAGTACATCAACCA
+CCTTCTGCAAAGCACCTACTCAAAGTGCCATCTGCCTCCTCTGTGTAAGAAGATGGAAGACCACAATGTTTTCAGTGCCA
+TCCACTCCACTCGGGACATACTTTCCATGATGGCAAAAGCAAAGGGTCTGGAAGTTCCATTTGCCCCCATGACTTTGCCA
+ACCAAAGCGCTCAGCGTCCACCGTAAGTCGCTGAATCTTGTCGACTCTCCGCAGCCACTCCTTAAAAGGATCCTGAAGCG
+ACTGCACTGGCCCAAAGACGAGCGAGGCGACGTGGACTGCGAGAAGCTGGTGGAGCAGCTGAAGGACTGCTGCACCCTAC
+AGGACCAGGCAGACATCTTGTACATCCTGTATGTGCTCAAGGGTCCAAGCTGGGACACAGCTCTCTCCGGACAGCACGGG
+GTCACCGTTCACAACCTCCTCAGTGAGCTCTACGGGAAAGCTGGCTTGAACCAGGAGTGGGGTCTGATTCGCTACATCTC
+GGGCCTGCTCAGGAAGAAAGTGGAGGTCCTGGCCGAGGCCTGTGCAGACCTGCTCTCCCACCAGAAGCAGCTCACAGTGG
+GCCTGCCGCCCGAGCCCCGCGAGAAGACCATCTCTGCGCCCCTTCCCCCAGAGGAGCTCACAGAGCTCATCTACGAGGCC
+AGCGGGGAAGACATCAGCATCGCGGTCCTCACCCAGGAGATTGTGGTTTACCTGGCCATGTACGTCAGGGCCCAGCCAGC
+CCTCTTCGTGGAGATGCTCAGACTCCGGATTGGACTGATCATTCAGGTGATGGCCACGGAGCTGGCGAGGAGCCTCAACT
+GCTCAGGAGAAGAAGCCTCTGAAAGTTTGATGAACCTCAGCCCTTTCGATATGAAAAACCTCCTGCACCACATCCTTAGT
+GGCAAAGAGTTTGGCGTCGAAAGAAGCATGCGTCCTATCCACTCCTCTGCATCCAGCCCTGCCATCTCCATCCACGAGGT
+AGGACATACTGGAGTCACCAAAACAGAGAGGAGTGGCATTAACAGGCTGAGGAGCGAGATGAAACAGATGACCAGGCGAT
+TTAGCGCTGATGAACAGTTCTTTCCTGTGAGCCAGACGGTATCTAGCAGCGCATACTCCAAGTCTGTGAGGTCCAGCACC
+CCGTCCTCACCCACGGGCACGTCCTCGTCAGACTCGGGAGGACATCACATCAGCTGGGGGGAGCGGCAGGGCCAGTGGCT
+GCGCAGGCGGCGGCTGGACGGAGCCATCAATAGGGTCCCCGTGGGCTTCTACCAGAGGGTGTGGAAGATCCTTCAGAAGT
+GCCACGGTCTCTCCATCGATGGCTATGTCCTCCCATCCTCAACAACCCGAGAGATGACCCCACAGGAGATCAAGTTTGCT
+GTCCATGTGGAGTCAGTGCTGAACCGCGTGTCCCAGCCCGAGTACCGGCAGCTGCTAGTGGAAGCCATCATGGTGCTGAC
+ACTGCTCTCAGACACAGAGATGGAGAGCATCGGGGGCATCATCCACGTGGACCAGATCGTGCAGATGGCCAATCAGCTGT
+TCCTGCAGGAGCAGATATCCACCGGAGCCATGGACACCCTGGAGAAAGACCAAGCCACAGGGATCTGCCACTTCTTTTAC
+GACAGTGCCCCGAGCGGGGCTTACGGCACGATGACCTACCTAACGAGAGCGGTGGCTTCTCACCTGCAGGAGCTGCTGCC
+CAGCTCGGGCTGCCAGACGCAGTAAGGGCCTCACTTGTGAAGGTGGCCACCTGTCACTTGTCCCAAGACCCCCTGGGCCA
+CCACAGAAGCATGCCCCATCAGAAACAAACGCTGGAAGGCGACGGCAGCCCTCCACCTAGGCCAGTGCACGAGCAGGGCG
+CCCAGAGCACAGAGCACTCCTGGGCTCCCCGCAGAGGAGCGCCCTGGGCTGGGTGTTCTGGGTGTTGTTTCGCGGCAACA
+TTTGTCACAGCATCTGGTCTCATGGACTGAGGAGGAATTGGCAATCGGCTGTAGCAGAGGTACAGAAATAGGCTGTGAGC
+TAGCGACATCCAAGATGGAGGGATCCTTCCAGCGGCAAGAGCAAGACAAGCAGAGAGACCGACAGAGGGCTCACCTTCAC
+AGGGTGCAGTCCGTCTGCGGACCACGCGGCTTACCAAATAGAACGGCTTGGCTCTGGCAAAAAAAAAAAAAAAAAAAAAA
+AAAAA
+>ref|ref|NM_001101705.1|| Oryctolagus cuniculus phosphorylase kinase catalytic subunit gamma 1 (PHKG1), mRNA
Y00684.1 Rabbit mRNA for gamma-subunit of phosphorylase kinase (EC 2.7.1.38)
+GGGGCTCTGGGACCTTTGGGATTCTCGTCAAGCTCATTCCGGGACCTGCAAGGACCTAACGAGCCCCCGAGGAGCTGAGC
+ATGACCCGCGACGCGGCACTGCCTGGCTCTCACTCCACACATGGCTTCTACGAGAATTATGAGCCCAAGGAGATCCTGGG
+CAGAGGAGTTAGCAGTGTGGTCAGGCGCTGCATCCACAAGCCCACGTGCAAGGAGTATGCCGTGAAGATCATTGATGTCA
+CTGGTGGAGGCAGCTTCAGCGCTGAGGAGGTGCAGGAGCTGCGAGAAGCCACGCTGAAGGAGGTGGACATCCTACGCAAG
+GTCTCGGGGCACCCCAACATCATACAGCTGAAGGACACTTATGAGACCAACACTTTCTTCTTCTTGGTGTTTGACCTGAT
+GAAGAAAGGGGAGCTCTTTGACTACCTCACTGAGAAGGTCACCTTGAGTGAGAAGGAAACCCGAAAAATCATGAGGGCCC
+TGCTGGAGGTGATCTGCGCTTTGCACAAACTCAACATTGTGCATCGGGACCTGAAGCCCGAGAACATCCTCTTGGATGAT
+GACATGAACATCAAGCTCACAGACTTCGGCTTTTCCTGCCAGCTGGACCCCGGAGAGAAGCTGCGAGAGGTCTGTGGGAC
+CCCCAGTTACTTGGCTCCTGAGATCATCGAGTGCTCCATGAATGACAACCACCCAGGCTATGGGAAGGAGGTGGACATGT
+GGAGCACAGGGGTCATCATGTACACCCTGCTGGCCGGCTCCCCGCCCTTCTGGCACCGGAAGCAGATGCTGATGCTGAGG
+ATGATCATGAGTGGCAACTACCAGTTTGGCTCACCGGAATGGGATGATTACTCCGACACGGTCAAGGACTTGGTTTCTCG
+CTTCTTGGTGGTCCAGCCCCAGAAGCGCTACACGGCTGAAGAGGCCCTGGCACACCCCTTCTTCCAGCAGTACGTGGTGG
+AGGAAGTGCGCCACTTCAGCCCCCGGGGGAAGTTCAAGGTGATCTGCCTAACCGTGCTGGCTTCGGTGCGCATCTACTAC
+CAGTACCGCCGGGTGAAGCCCGTCACCAGGGAGATCGTCATCCGGGACCCCTACGCCCTCCGACCTCTGCGCCGCCTCAT
+CGACGCCTACGCTTTCCGAATCTACGGCCACTGGGTGAAGAAGGGGCAGCAGCAGAACCGGGCTGCCCTCTTTGAGAACA
+CCCCCAAGGCTGTGCTCTTCTCGCTGGCTGAGGATGACTACTGAGGGGGCAGGCACGCGGGGGAGGCATGAGGCCCCCGC
+CAGGAGCCCCCTCCCCGGGTGCTGAAGCCAGCGATGGACGGACCCCGACCCCGGGCCAGGCGCCATTCCTGAGGAGGGAG
+GACCAGATGCGGTCCGGGGCAGAGCCCTTGCTTCGTGGGAGGCGCAAAATCTCTAACACCCCTGCTGCTGTCTTCCCTGA
+TTCCCAGGGCGAGGCTAAAACACGGGACATGTTTAGAGATGCGCAGTCACACGATGTGCACTGGCATCCGGGGACTTGGT
+CCGAGAGGCCCAGGGAAGCCCTTAGGTATATTAGCAATAGAAGAGGAAGCTTCTGATACTTCCTCTGGAGCGTTATTTAC
+TTTGTGACTCCCACGGTGCACTGCTTCTCCTGGTCCTTTGGGTCTCCCAGGTCCCCCGTGAAGACTGACGCTGTCCTGTC
+AAGAGCCACCGTGGTGCATTTTACACGTGGAGAAAAATCACGGTTCTTCTCAGGGGCATGAAACGCCACAGAGGAGGCCA
+ATGAAATTGCATCTTCCTCCTACAGCGGTTTTCTGGGAAAACAAAGAAATGGGGACACCCTGCCTTGAGAAAACACTTGT
+CAGATCCCTAAATCAGAC
+>ref|ref|NM_001082184.1|| Oryctolagus cuniculus glycogen phosphorylase, muscle associated (PYGM), mRNA
D00040.1 Oryctolagus cuniculus mRNA for glycogen phosphorylase, complete cds
X04265.1 Rabbit mRNA for muscle glycogen phosphorylase (EC.2.4.1.1)
+TCCCTGGCTGGAGGCACCTCAGGCCACCCGTCCGCCCTTCCTTCCACGTCTCGCCCGGCCCGCCTCCCGCAGCCATGTCC
+CGGCCCCTGTCAGACCAGGAGAAGAGAAAGCAAATCAGCGTGCGCGGCCTGGCCGGCGTGGAGAATGTGACGGAGCTGAA
+AAAAAACTTCAACCGCCACCTGCATTTCACCCTGGTGAAGGACCGCAATGTGGCCACGCCGCGAGACTACTACTTCGCAC
+TGGCCCACACTGTGCGCGACCACCTCGTGGGGCGCTGGATCCGCACGCAGCAACACTACTATGAGAAGGACCCCAAGAGG
+ATCTACTACCTGTCTTTGGAGTTCTACATGGGCCGGACGCTACAGAACACCATGGTGAACCTGGCTTTGGAGAATGCCTG
+CGACGAGGCCACCTACCAGCTGGGCCTGGACATGGAGGAGCTGGAGGAAATCGAGGAGGACGCCGGGCTGGGCAACGGCG
+GCCTGGGCCGGCTGGCAGCCTGTTTTCTGGACTCCATGGCAACACTCGGCCTGGCTGCCTATGGCTACGGGATCCGCTAT
+GAGTTTGGGATCTTTAACCAGAAGATCTGCGGGGGCTGGCAGATGGAAGAGGCTGATGACTGGCTTCGCTACGGCAACCC
+CTGGGAGAAGGCCCGGCCTGAGTTCACACTGCCTGTGCACTTCTATGGCCGAGTGGAGCACACCAGCCAGGGGGCCAAGT
+GGGTGGACACACAGGTGGTGCTGGCCATGCCCTACGACACACCGGTGCCTGGCTACCGCAACAACGTCGTCAACACCATG
+CGCCTCTGGTCGGCCAAGGCGCCCAATGACTTCAACCTCAAGGACTTCAACGTCGGTGGCTACATCCAGGCCGTGCTGGA
+CCGCAACCTGGCTGAGAACATCTCTCGGGTCCTGTACCCCAACGATAACTTCTTCGAGGGGAAGGAGCTGCGGCTGAAGC
+AGGAGTACTTCGTGGTGGCGGCCACCCTGCAGGACATCATCCGCCGCTTCAAGTCCTCCAAATTCGGCTGCCGCGACCCC
+GTGCGCACCAACTTCGATGCCTTCCCGGATAAGGTAGCCATCCAGCTCAATGACACCCACCCCTCGCTGGCCATCCCCGA
+GCTCATGAGGGTGCTGGTGGACCTGGAGCGGCTGGACTGGGACAAGGCCTGGGAAGTGACGGTAAAGACGTGCGCCTACA
+CCAACCACACGGTGCTGCCCGAGGCGCTGGAGCGCTGGCCCGTGCACCTCCTGGAGACGCTGCTGCCGCGCCACCTCCAG
+ATCATCTACGAGATCAACCAGCGCTTCCTGAACCGCGTGGCGGCTGCGTTCCCGGGGGACGTCGACCGGCTGCGGCGCAT
+GTCGCTGGTGGAGGAGGGCGCCGTGAAACGCATCAACATGGCGCACCTGTGCATCGCGGGCTCGCACGCCGTCAACGGTG
+TGGCTCGCATCCACTCGGAGATCCTCAAGAAGACCATCTTCAAGGACTTCTACGAGCTGGAGCCTCATAAGTTCCAGAAC
+AAGACCAACGGCATCACCCCTCGGCGCTGGCTGGTTCTGTGTAACCCTGGGCTGGCCGAGATCATTGCTGAGCGCATCGG
+GGAGGAGTACATCTCAGACCTGGACCAGCTGCGCAAGCTGCTCTCGTATGTGGACGACGAAGCCTTCATCCGGGATGTGG
+CGAAAGTGAAGCAGGAAAACAAGCTGAAGTTCGCGGCCTACCTGGAGAGGGAATACAAGGTCCACATCAACCCCAACTCG
+CTGTTCGACGTCCAAGTGAAACGGATCCATGAATACAAGCGGCAGCTGCTCAACTGCCTGCACGTCATCACCCTGTACAA
+CCGCATCAAGAAGGAGCCCAATAAGTTTGTTGTGCCTCGGACCGTCATGATTGGAGGGAAGCCCGCACCTGGGTACCACA
+TGGCCAAGATGATCATCAAACTTATCACCGCCATTGGGGATGTGGTCAACCACGACCCGGTGGTTGGAGACCGCCTCCGT
+GTCATCTTCCTGGAGAACTACCGGGTCTCACTGGCTGAGAAAGTGATCCCGGCTGCCGACCTCTCGGAGCAGATCTCCAC
+CGCGGGCACCGAGGCCTCCGGCACCGGCAACATGAAGTTCATGCTCAATGGAGCCCTGACCATTGGCACGATGGACGGCG
+CCAACGTGGAGATGGCCGAGGAGGCGGGAGAGGAGAACTTCTTCATCTTTGGCATGCGGGTGGAAGATGTGGACAGACTC
+GACCAGAGAGGGTACAACGCCCAGGAGTACTACGACCGCATCCCGGAGCTTCGGCAGATCATCGAGCAGCTGAGTAGCGG
+CTTCTTCTCCCCGAAGCAGCCGGACCTGTTCAAGGACATTGTCAACATGCTCATGCACCATGACCGGTTCAAAGTCTTTG
+CAGATTATGAAGAGTACGTCAAGTGCCAGGAGCGAGTCAGCGCCTTGTACAAGAACCCCAGAGAGTGGACGCGGATGGTG
+ATCCGGAACATAGCCACCTCGGGCAAGTTCTCCAGCGACCGCACCATTGCCCAGTACGCGCGGGAGATCTGGGGTGTGGA
+GCCCTCGCGGCAGCGGCTGCCAGCCCCCGACGAGAAGATACCCTAGGCCAGACCCCAACGCGGCCCTGCAGTCTGCAAGC
+TTGGGGCCAGCGCCAGCTCCCCGTCCAGAGTGTGGGGGCCTGGAGTCAGACCTCCAAGTCCCCTCCTGAAACCCCCATTC
+CCCCCAGAAGCAAGGTCCCAGTGCCCAGCGTGCCTCAGGACACTGGGCCCCCTCCTATTTATGGGGTCCGACCAACTGCG
+CCCACTCCCCAATAAACTCTCCCTCCTTACC
+>ref|ref|X56536.1|| Rabbit mRNA for pH regulatory protein (Na+/H+ exchanger), partial
+AAGCACTTCCCCATGTGCGACCTGTTCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGAC
+CATCCGGCCCCTGGTGGACCTGCTGGCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGC
+AGTTCCTGGACCACCTTCTGACAGGCATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAAC
+CGGTTTAACAAGAAGTACGTGAAGAAGTGTCTGATCGCAGGCGAGCGCTCCAAGGAGCCCCAGCTCATCGCCTTCTACCA
+CAAGATGGAGATGAAGCAGGCCATCGAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCT
+CCATGCAGAACATCCACCCCAAGGCCCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATC
+CGCAAAATCCTGAGGAACAACCTGCAGAAGACCCGGCAGCGGCTTAGGTCCTACAACAGACACACACTGGTGGCCGACCC
+CTACGAGGAGGCCTGGAACCAGATGCTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGA
+CCGTTCCGGCGCACAAGCTGGACTCGCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAG
+GCAGACCTGCCGGTCATCACCATCGACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAA
+GGGCAAGGTCCTGGGGCTGAGCCGGGAGCCAAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGA
+TGCGGCCCAAGGAGCCCTCGTCCCCCGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGG
+ATGCAGCGCTGTCTCAGCGACCCCGGCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCG
+CAGCGCACCTGCCCGCCAGACTCTCCCGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCA
+CCGCATGGCAGCTGGGCCCAAGCGCCCACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCAGCGGAG
+CTGCCTTCCCCATCATCTGGCTGGGGCGGTCTGGCTCCCTCCAGGGGCCGGGGCCTGCAGCCGCCCAGGCCTCGGAGCCC
+CTGACTCAATCGCCCCCTCACTCAGACCAAGCTTCCTTTCTAACCAAAGACCTCTGGCTCCAGACGGGTAGGGGGCCAAG
+GGAGCCTCGGCCCAGGGGAGGCAGCAGGGGTACCGGGTGTGCGCCCGGAGCAGGGCCAGGCGGCGCGAGGGTCTCTGCCC
+CGAGCTGCTGTGCCGGAGCCGAGACGTTTCTGGCGGTGAGGAGACTCCGCTGCGCCCCTACAGGCCGGGCGCTGAGCTGT
+TCAGGGTTTTGCTTCTCTGCACTTCCGAGGACGATTCAGACCACACAGAGGGCGCTCCTGGGTTTAAACCAGTTTTTGAA
+GCCCTTGGCTCCACGGACATCTGCCCCTCTGGCTCCCTCCCTCAGCCTGTGCAGAGAACCAGTGGCCTCTCCCAGGTCGT
+CCTCTGCTGTTGTCCGAGGCTCTGATTTCAGGAAGGGGCCCCACCCCGATCATGGGCCTCCAGGGCCTGACTCGCTTCCT
+GTGGGCCTGTCTTTCCAACCTGCCCCACCGCTGGGTTGGCCCTGGAGCCCCGACCTCGCGTTCACCGCAGCCTGCTTGCT
+GTGGAGCCCGGTCCTCAGGGAGAAGGCCCCGCGGATCTCCCGCTGCAGCCAGGGCTGCCGGGCTGGGCAGGGACCTGGGC
+CCCCAGAGACACACACTCCCCCCATCACTGTCACCATGGCCAGACCCGAGCCTGTCGGTGTCGGTCCCCCCCAGGACACT
+CCCCCTCCCAGGATCGTGCAATAGTCAGTGTCCCACCTCCCAGTGCACTGGCCGCAGCCAAGCCCACCTGCCCATCTCCT
+GTCCCGTGGGCAGCAGTGCCTGTGCCAGGGTGACGTCGACAACCATGTACAAAGCCACCGCAGCTGCTGCCGCTCTGCCG
+CCTGTACAGAAGAAACCGAATCTTTTTCATATTCTAATAAATCTATGTGAGTTTTTG
+>ref|ref|NM_001101706.1|| Oryctolagus cuniculus protein phosphatase 1 catalytic subunit alpha (PPP1CA), mRNA
Y00701.1 Rabbit mRNA for protein phosphatase-1 catalytic subunit (EC 3.1.3.-)
+GGCACCTTGGACCACCACGAGGCTCTAGGGGTGGCAGAGGGGGTCCTGCACAATAGCAGAGAGGCCGTGGTTCCCGTGGA
+GCTCGGGGCAATCGTGGGGGCAATGTAGGAGGCAAGAGAAAGGCAGACGGGTACAACCAACCTGATTCCAAGCGTCGTCA
+GACCAACAACCAACAGAACTGGGGTTCCCAACCCATCGCTCAGCAGCCGCTTCAGCAAGGTGGTGACTATTCCGGTAACT
+ATGGTTACAATAATGACAACCAGTGAATATTTATCAGGATACGAGATCCGTGGTCTGTGCCTCAAATCCCGGGAGATCTT
+CCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGGCCAGTACTACGACCTGC
+TGCGGCTGTTCGAGTACGGCGGCTTCCCCCCGGAGAGCAACTACCTGTTCCTGGGTGACTACGTGGACCGCGGCAAGCAG
+TCCCTGGAGACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTGCTGCGCGGGAACCACGA
+GTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAAGCTGTGGAAGACGTTCA
+CCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATGGCGGCCTCTCCCCCGAC
+CTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTGCTGTGTGACCTGCTGTG
+GTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTTCGGCGCGGAGGTGGTGG
+CCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACGGCTATGAGTTCTTTGCC
+AAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGAGCCATGATGAGCGTGGA
+CGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGGGCAGTTAAGTGGCCTGA
+ACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGGGTGCGGCCCCCTGCCCA
+GACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGGGGACACGGGCCTCGGTG
+GATCTGTTTTTTAATGAATCACTAGCAGTACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTGCGCGGCTGCAAGCAGGA
+TCCTGGGGCCAAGGCTGCAGCTCAGGGCGACGGCGGCCAGACTGGGTCTCGTCTCGTGCGGCCGCAGGGCTGGCAGCCGG
+GTCCCAGGGCAGCCCGTCTGGTCTCCTGAATAAAGGTCAAAGCTGGATTCTG
+>ref|ref|X14832.1|| Rabbit mRNA for type-1 protein phosphatase catalytic subunit (PP1 alpha) alpha isoenzyme
+GTGGGCCCGGAGCTGCTGGGCCCCGAGCGGCGGCGCCGCCATGTCCGACAGCGAGAAGCTCAACCTGGACTCTATCATCG
+GGCGCCTGCTGGAAGTGCAGGGCTCGCGGCCCGGAAAGAATGTGCAGCTGACGGAGAACGAGATCCGTGGTCTGTGCCTC
+AAATCCCGGGAGATCTTCCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGG
+CCAGTACTACGACCTGCTGCGGCTGTTCGAGTACGGCGGCTTCCCCCCGGAGAGCAACTACCTGTTCCTGGGTGACTACG
+TGGACCGCGGCAAGCAGTCCCTGGAAACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTG
+CTGCGCGGGAACCACGAGTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAA
+GCTGTGGAAGACGTTCACCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATG
+GCGGCCTCTCCCCCGACCTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTG
+CTGTGTGACCTGCTGTGGTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTT
+CGGCGCGGAGGTGGTGGCCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACG
+GCTATGAGTTCTTTGCCAAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGA
+GCCATGATGAGCGTGGACGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGG
+GCAGTTCAGTGGCCTGAACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGC
+GTGCGGCCCCCTGCCCAGACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGG
+GGACACGGGCCTCGGTGGATCTGTTTTTTAATGAATCACTAGCAGCACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTG
+CGCGGCTGCAAGCAG
+>ref|ref|X14030.1|| Rabbit mRNA for liver protein phosphatase 2A-beta 3'-region
+CTCCTGGGAAACCTGCCTTTCTTTGTGGAAGTATACCTGGCTTTTTAAAATATATATATATATATATTTAAAAGCAAACA
+AAGCAACAGTAATCTATGTGTTTCTGTAACAAATTGGGATCTGTCTTGGCATTAAACCACATCATGGACCAAAATGTGCC
+ATACTAATGATGAGCATTTAGCACAATTTGAGACTGAAATTTAGTACACTATGTTCTAGATTGGTCAGTCTAACAGTTTG
+CCTGCTGTATTTGTAGTAACCATTTTCCTCTGGACTGTTCAAGCAAAAAAAAAAGGTAACTAATTTGTTCCATCTCCTTT
+TGCGCTTATTTGGAAATTTAGTTATAGTGTTTAACTGGCATGGATTAATAGAGTTGGAGTTTTATTTTTTAAAATATTCA
+CAAGCTAACATCCAATTAACCCATTACCCTTTATTTTATTGAAATGTGTAATTAACTTAACTGAAGAAAGTCTTCTTGGG
+AGTATGTTGTCATAACATTTAAAGAAATTTTCCTTTCATTTAAGCTAAATTACTGTTTTATGTTGATCTGCATATTTCTG
+TATATTTGTCACAACAATGCTTGCATCCTATTTGGTGTACTGAGCAAATAAACTTTCCATTTTAAAC
+>ref|ref|NM_001101708.1|| Oryctolagus cuniculus phospholipase B1 (PLB1), mRNA
Z12841.1 O.cuniculus mRNA for phospholipase
+CCGAGGCACCTGCAGCGTCCAGGCATGGCTCTGTGGCCGAGCGTCTTCCTCCTGGGGCTGCTGCCGCTCCTGGGGCGAGG
+TGCAGATCAGATCCAAACCTCTTCTGGAAAGAACACATTGGAAGGGCAGCTCTGGCCAGAGAGCCTGAAGACTTTTCCAT
+TCCCATGCGACCCAAAGACGTTAGCAGAGAGCGTGCCCTCTGAGTCAGTTCACTCTCTGAGGCCTTCTGACATTAAATTT
+GTTGCAGCCATTGGCAATGTGGAAACTGCTCCAGACTCAGGGGCGGACGACCTAGAGGAGCAAGACGGGACGGAGAAGAG
+GCCAGAGCAGGCGTGCATGGGCGTGGTGACCGTCCTTTCAGACATCATCGGCCGTTTCAGTCCTTCTGCTCTGATGCCGC
+TGTGTCCTGAGACAAGACTTGTACCTCGTGGAGGTGCTGAAGACTTGTGGATGCAGGCTACAGAGCTGGTGAGAAGCATG
+AGAGAGAACCCGCAACTTGACTTTGAACATGACTGGAAGCTCATCAACGTGTTCTTCAGTAACACAAGCCAGTGTTTCCC
+GTGTCCCTCTGCTCAACAGAAGGGGCTCGTGCTGGGGGGCATGGACAAGCTGACAAGGACCCTGGACTACCTGCAGCAGG
+AGGTCCCCAAAGCGTTCGTCAACCTGGTGGATCTCTCGGAGTTGGCAGCATTCTCTCGCTGGCGTCAGGGGGCTCAGCTC
+AGCCCAGCAGCCGAGCCCTGCAGGTGCTTAAGGGAAACCTCCCAGCTGACCAAGGTCCTGACGCAGTGGTCCTACCTGGA
+AGCCTGGGACAGCCTCCTGGCGTCCAGCAAGTACAACACACAGGAGTCCTTCGCGGTGGTCTTCCAGCCTTTCTTCTACG
+AGAGCTCGCTGTCGGCGCTGTTGGCGGAGCCCCCACTCCAGGACCCCACCACACTGGCCCTGAGTCTCTGGAACAGAATG
+ATGGAGCCCATAGGGCGCAAAGAAGAGCCGTTCAGTGAGAAGGAGAGGAAGCCACTGAGATGCCCCACACAGGAGAGCCC
+CTACCTATTCACCTACAGGAACAGCGGCCAGCTGACCAGGGTGTCACAGCCCCAGGGGAAGCTCGAGGTGAGAGAAGGGA
+CGGAAATCCGCTGTCCCGACAAGGACCCCTCCGACTCGGTTCCCACCTCAGTTCACAGGCTGAAGCCCGCCGACATCAAG
+GTCATAGGTGCCATGGGTGACTCCCTCACGGCAGGCAACGGGGCGGGGTCCCAGCCTGGGAACATCCTGGATGTCCTTAC
+TCAGTACCGAGGCCTCTCCTGGAGCGTCGGGGGCGATCAGAACATCAGCACGGTCACCACCCTGGCCAACATCCTCCGGG
+AATTCAACCCTTCCCTGCAGGGCTTCTCCGTCGGCACCGGGAGAGAGACCACTTCCCAAGCCTTCTTCAACCAGGCAGTG
+GCGGGCGCCCGAGCCGATGGGTTAATTCCCCAGGCCCAGCGGCTGGTGGCCCTGATGAAGAATGACACGAGGATAAATTT
+TCAGGAGGATTGGAAGATAATAACCGTGTTCATTGGAGGCAACGACCTCTGTGATTTCTGCAATGACCCGGTGCGCTACT
+CCCCCCAGAACTTCACGGACAACATCGGGACGGCCCTGGACATCCTCCACGCTGAGATTCCCCGGGCCTTTGTGAACCTG
+GTGAAGGTGCTTGAGATCTCCAAGCTGAGAGAGCTGTACCAGGAGACTAAAGTGAGCTGCCCCAGGATGATCCTCAGGTC
+TCTGTGTCCCTGTGTCCTGAAGTTCGATGACAACTCCACAGAAATTGCCTCCCTCATCGAAACGATCAAGGAGTATCAGG
+AGAGGACCCAGCAGCTGATTGACAGCGGGCGATACGACACGAGGGACGACTTCACGGTGGTTTTGCAGCCGTTTTTTGAA
+AAAGTGAACATGCCAAAGACCCAGGACGGGCTACCCGACAACTCTTTCTTCGCGCCCGACTGCTTCCACTTCAGCAGCAA
+GGCCCACGCGCACGCAGCTAGCGCCCTCTGGAACAACATGCTGGAACCTGTTGGCCAGAAGACAACACACAATGATTTTG
+AAGGAGCAGTCAACATTACGTGTCCAAACCAGGTCTGGCCGTTTCTGAGTACCTACAAGAACAGCGTGCAGGGTTTTGGG
+ACCTGGCTGCCGTGCAGAGACAGATCCCCGTCTGCCTCGCCCCCCACCTCAGTGCACGCCCTGAGACCCGCAGATATCCA
+AGTTGTGGCTGCTCTGGGAGATTCTCTAACTGCTGGCATTGGAATTGGCTCCAAACCAAATGACCTCTCAGATGGCACCA
+CTCAGTATCGGGGACTGTCATATAGTTCAGGAGGGGACGGCTCCCTGGACAACGTGACCACCTTGCCTAATATCCTCCGG
+CAGTTCAACAGCAACCTCATGGGCTTCGCCGTGGGCACTGGTGATGCCAGTGGCACCAATGCTTTCTTCAACCAGGCTGT
+TCCCGGAGCAAAGGCGAGGGATCTTATGAGCCAAGTGCAGACTCTGGTTCAGAGGATGAAGGACGACCATAGAGTAAATT
+TCCAAGAAGATTGGAAGGTCATCACGGTGCAGATCGGAGCCAGTGACTTGTGTGACTACTGCACGGATTCGAACCTGTAT
+TCTGCAGCCAACTTTTACGACCATCTCCGAGACGCCTTGGACGCCCTCCACAGAGAGGTGCCCAGAGCTCTGGTCAACCT
+CGTGGACTTCATGAACCCAAGTGTCACACGACAGGTGTTCCTGGGGAACCCCGACAAGTGCCCAGTGCAGCAGGCCAGCG
+CCCTGTGTAACTGCGTCTTGAGCCCCCGGGAGAACTCCTATGAGCTGGCCCGGTTGGAGGCCCTCGCACAAGCCTACCAG
+AGCAGCCTGCGGGAGCTGGTGGAGTCCGGCCGCTACGACACGCGGGAGGACTTCTCCGTGGTGCTGCAGCCCTTCTTCCA
+CAGCATCCAGCTCCCCGTCCTGCAGGACGGGCGCCTGGACACGTCTTTCTTCGCCCCAGACTGCGTCCACCCAAATCAGA
+AGTTCCACTCCCAGCTCTCCAGAGCCCTCTGGCGCAACATGCTGGAGCCCCTGGGAGGGAAAACGGATGCACTGGACCTG
+ACGGCAGCCATCACCCTCACCTGCCCCACTCAGAACGAGCCTTTCCTGAGAACCTTCCGGAACAGTGACTACACCTACCC
+CAGCAGGCCAGCCGTCGAGAACTGGGGCAGTGACTTCCTGTGCACCGCGTGGAATGCTTCCAGGGGTGTTCCGAACTCAG
+TCCATGAGCTCCAACCAGGAGATATCAAAGTCGTAGCTGCCCTGGGTGACTCGCTGACGCTGGCCATGGGCGCTCGACCA
+AGCAACTCCAGTGACCCACCCATGTTCTGGAGGGGCCTCTCCTGGAGCATTGGTGGGGACGGGGCCTTGGAGACTCACAC
+CACACTGCCCAACATTCTGAAGAAGTTCAACCCTTCCATCCTGGGGTTTTCTACTGGAACCTTGGAGGGAACCATGGGAC
+TCAACGTAGCAGTGCAAGGGGCCAGAGCTCAGGACATGCCAGCCCAAGCCCGGGACCTGGTGGAGCGAATGAGAAACAGC
+CCTGAGATCGACCTGGAGAAGGACTGGAAGCTGGTCACACTCTTCGTGGGGGGCAATGACCTGTGTCACTTCTGCGAGAA
+TCCGGAGGGCAGCTCCGAGGGGGAGTACGTCCAGCACATCCAGCAGGCCCTGGACGTCCTGTACGAGGAGCTTCCGAGGA
+CTTTTGTCAATGTGGTGGAGGTCATGGAGCTGGCCGGCCTGCACCAGGACCAAGGCGGGAGATGTGCCACACTGCTGGCA
+GCTCAGAGCCACTGCACCTGCTTCAAATACTCTCAGAGCTCAGTGGAGATGCAAGAACTGAAGAAAGTGAACTGGAACCT
+CCAGAGCGGCCTCTCCAGGCTCTCCTACTCACACCAGTACGTGCAGCGTGAGGACTTCGCCGTCGTTGTGCAGCCTTTCT
+TCCAGAACACTCTCGTCCCACTGAACGGGAGAGGGGACACTGACCTCACCTTCTTCTCTGACGACTGCTTCCACTTCTCA
+GAGCGCGGTCATGCCGAGATGGCCATTGCCCTCTGGAACAACATGCTGGAGCCAGTGGGCCACAAGACAACCTCCAACAA
+CTTCACCTACAGCCGAACCAAACTCAAGTGCCCCTCTCCCGACAGCCCGTACCTCTACACCCTCCGGAACAGCCGGCTAC
+TCCCCGACCAGGCTGAGGCAGACCCCACGGTGCTCTACTGGGCAGTGCCGGTGGCAGCAGGAGCCGGCCTTCTCATCGGC
+ATCCTCGCCATGGTGGCAGGGAGAGGCATGCGCTGTCGCCCGCGGGAGGACCCCCCGCTGAGCCTGAGCACAGGCCTCTA
+GGCCCATGTGTGTGGTCCTCACCCGGAAGGTCCCGGCCACACTCCAACCTGGCCCTTCTACCTCAGCCACCTGTGGCCAC
+CACGGGCAGAACCTGCTTCTACACCTGAGACACAGCAGCCAAAGGGACAGTCAGGACTTCTTGGGGCCTGGGCTTCTCCC
+AGGTCAATGCTCCTGGGATTGGCAAACTTAAATAAAAAGCCGAACATGTTCT
+>ref|ref|X06623.1|| Rabbit progesterone receptor gene 5' flank
+TCTTTCAATCAAAGATTCATATATTCAGGAAGTTCCTGTGCCAACCATTATCATCACTAAGCATCAAATCTTGTGGAATA
+ATGGTGATGCAGATATGCTGGGCACCTTTATTATTATTTTCCCACTTCAAGATTTTCAATCTTGTGGAAATAAACTAGCA
+GGGCCAGCGCTGTGGGGTAGCAGGTTAAGCCGCCGCCTGTAGTGCTGGCATCCCATATGGGCACCGGTTCGAGCCCTGGC
+TGCTCCATTTTTGATCTAGCTCTCTGCTATGGCCTGGGAAAGCAGTACAAGATGACCCAAGTCATTGGGCCCCTGCACCC
+ATGTGGGAAGACCCGGAGGAGGCTCCTGGCTTTGGATCAGTGCAGCTCCGGCCACTGCGGCCAGTTGGGGAGTGAACCAG
+CAGATAGAAGACTTTTCTCTCTCTCTGCCTCTGCTTCTCTCTCTGCATAACTCTGACTTTCAAATAAATAAATAAATATT
+TTAAAAAGAAAAGAAACTAGCCAGACTCTCCGGCTTAGAGGGAAGATGTAAAATCAACCACAGTTAAATATAATTTGTCA
+GATTTAGGATGAGGTCAGGTGCCAATTTTACGGCAGCAACCTAGAAACCAAGTCTGAGTCATCTGATATTTAAAATCACA
+CTCCTAATAAGATACTTTGGCCATTTGGCATCAAATCTGTCAATGCTACTTACTATATTTATAATAGTGGGTAACTTTGT
+GTCTCACTTTTCCCAACAAGGAGAGAGATAATAGGACCTATTTTGTGGACTGTTGAAGTATTAAATGAGTTTTCACACAT
+ATAGGGCTTAGAAGATTACTAGGCAATGCTGTCCAGATTCTAATATTTCTACAGATTCTATGGCCCCGGCCATCAAGGAT
+ACACAAATCAAAGCTTCTGTGAGATACCCCTGCATACAGCAGAAGACCAAGAATAAAAAAAAAGTACAGTTCGTAAGCAT
+TGCTAGTGATGTAGAGAAACTGAATCCTCGTACACTGCTGGTGGGAACATAAATGCAATCACTTTGAAGAAACAATCCAG
+CAGTCCTTGTACGCACACATTGCAATATATCCTGGCAATAAAAAGTAATGACGTACTGATACATACATATGATAGTTGAA
+ACTAACATTATGCTAAGTGAAAGAAAACTGTCAAAAAAAAAGATCTCATGGCATGGTTAAATTTATATAAAATTTCCAAA
+ATATGAAATTCACAGAGACATTAAATTAGTGGCTGCTGGGAGGTTTGGGGGGAAGTAGGGAATAACTACTAACAAGGTAT
+GAGATTTCTTTTTAGGATTCTATAAATGTTTTAAAAGTGAGAATGATGATAGTTTTGCAACTGTGAACATGCTAAAACCC
+ATTGAATTTTATGTGTAAAATGGGTAAACTGTATGTTACCTGAATTATATCTCAATAAGACATTTGTGTTTTAAGATGTA
+CTGAAAAGAGGAAAAGCCTGATAAACATTATGAATAGTAAATTAGTTTGTCTGTTGGGCTTATGTACTTCCATTCCCATA
+CTTTCTCTGTACTCTTTTGATAATGATCCTCTCACAGTTCCTACATTATGTTTTCCTATTCAACACCCTGTGACCACAAT
+GGCTTCCCGAGATTTTCTTTTCCTCTCCTCTACCTGCCTAACTTCTTTGACACATTTAAAATTAGCCAGTCAGGGAGCAT
+TAATTGCTGGAACAATCAGTTCCCAAACCCAGTGACCTAACATGGTAAAGGTTTATTTCTCATCCATATAGCCCCTCCCC
+AGGTGATCCAGGGTCCTCCCCTCCAGTGGCTCTGTCCATCCTGGAGTCCTGGAGCCCTCCACTAGACCCTCCTATTTCTG
+GCTGAGAGAAATTGTGAGTAGCAGGGGTGGTCCTACAAGGAGGTTTCCAAATGACTAACTCTATCTTGAAGATGATGCCA
+GGACACCCAATGATCCTGGGTTTGGCACAAGCTTGTTACTTCATGGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCT
+ACCTACCTACCTATCTTTTGCCACACTTACCTTTCTCTGCTGTGTATTCAAGAATTTAGAGGTGATCTGTTTAAATAGCT
+GAAAGACAACAATTCCTAAGAGTAAGAATATTGCAGGGAGAAAATACTATTCAAGCAGTCTTTGGGGAATCTTATGATGT
+GGCACAGAGTATCAAGGAAACTCCTTAAATATTTATTAAGAATTGGATTGTGTTCTGTAAGACAGATCAAGACACAGCAT
+ACAACATTCAAGCATCCTGCATGGGTAGAAAGGTGTTAGCAACCATCTCCCACTTCCAAATTTTGGTCACATCAAGGACT
+GCTTAAGTGAAGCAGGTCATGTCGATTGGAGTGAGAGAAATTTGAAAGCACTCACTTTCATGGGACTCATAAGGGAGAGA
+CTCTCTTAAAGATGATTTAGGATCATCTCTGATGCATGTATTCTAAAAGACAATGTTGCCAGAGGTCTCTCTCTGTACAA
+TCTCTATAAAACCAGAATCCTGAAAACGGTGCAAAAACGGTGCTTCTGACAGAATCTATTCGCATTTCCAATTAATTGGG
+TATGCTTCTTAACTACTAATACAAAACCTCATATGCTTACGGGGCTGCATCCCAAAGCACCTGCTATTGGGAGTTGATTT
+CAGACGAGTGGGTGGGAAAATCAACTCTAGAGTTTCAGCTCTGGTCCGTAATTGGGATAGGGAGGGGCTTTGGGCGGGCC
+TCTCTAGAGGGAGGAGGCGTTTGTTAGAAAGCCATGGGGCCAGTCCACGCTGTCACTACTCGGGTTAAGCTTTGTAGCAC
+TTGCGTGTGTGAGGATTCTGGTGTGTGGGGAGCCTTCTCAATGAGAACGAGCTTCACCTGTCATCGGAGACTTGGCACCA
+GAGGCGGCTCTTCCTCCCGGAACGCAGGGAACCGAGAGAGCAGCGGAGACCAGTGTGGCCCGCTGTAGGGGGCCGGCAGA
+AGCCCATTCCTGGGAATGGGCTGTACCGAGAGGGTCAGCTAGCCGCAGAGTGCTAGAGAGAGGGGCAGCGGAACGCAGTC
+AGGGGCTCGGAGCTTCGCAGCGTGCACGGGTTTGAAGCCTGGGGAGAAGTCGGGCGCGTTAACTGAACTGCAAGCGCTGC
+CGCAGCCACTCCGGGGCGGGACTTGTGAGTACTCCGCGTCGCCCGCGCTCGGACAGAAGCCAGAGGACTTCCAAATCGGA
+GACGAGAGCCCTGCAACTACCTTTCCCTGCTCTTCCCACTTGCCGCAGGGACTGAGCGACCGCAGCCCTGCCCCTGACCA
+CAGGATGCAGGGCGAGGGCCAGAGCTGACCGGCACCGCCCCCTCCCGACCCAGGAGGTGGAGATCCCGCGGGTCCAGCCA
+AACCCCACACCCATTTTCTCCTCCCTCTGCCCCTATATCCCGGCACCCCCTCCTCCTAGCCCTTTCCCTCCTCCCGAGAG
+ACGGGGGAGGAGAAAAGGGGAGTTCAGGTCGACATG
+>ref|ref|X06624.1|| Human progesterone receptor mRNA 3'-flank
+TGAATGTCAATTATTTTTCAAAGAATTAAGTGTTGTGGTATGTCTTTCGTTTTGGTCAGGATTATGACGTCTCGAGCTCG
+AGTTTTTATAATATTCTTCTGAAAGCCTTACATTTATAACATATCATACCGTGTAAATTTAAGAGGAAGATTGTGAGATC
+CTAATTATTTTCCTGTATTAAGCATAATTAGAGTTTTTAAAGTGTTTTTCTGCCCCCCATATTTTCTTTAAAAGTTTAAA
+GAGTTTATAAGGTTGAAAAAGTACTAAAACTGATTATTGAAGTAAGCTATGTCTTACCCATACTATTTCATACCATTTAA
+GTGAGGATTTTTAACTTTTACATATAACAAATCTTCTACTTTAGAGAAAGAAAATCTTCACATGTAATAATAAAAAGCTA
+CTATTATATGTTACTTCTAGATAGCTCCCTTTTTCTCCTTGACTGTACTTCCAAAAGTGAACCTTTAAAATGGTATGCAA
+AACTTTGTCTACTAGAGTGTGTGTGTGTGTATATATATATATATATACACACACACATATATATATGTTTCTGTAAGGAG
+GAAATTCATAACCTGATTTCTAAGAGTTTTTAATGACAAAAATATAGAGACAAAGAGTTAAAAAAAAAAACACTAAACAG
+ATTACCATTTTTCAGACTAGACAAAACAGTTCTATGTTGAAGGGATTTCTTATATTGGAAACCCAAATCTATAAGGAAAT
+TAGTAATGAGTAGAGTTTTACTGTTATGCCAACAGTATTGCAGCTTTTGTAGGGACTTTTTGGTAACTTTTATAGGAGGG
+AGTTGTCCTCTAACAAAGTATTGTGACTAGAAACTATATCTGTGATCTGACTCTTTACCATCTGTGGCATGCGGAAGTTT
+TCAATTTCTTCACATTTAATGTGGTACAATGATATCTTTCCTTCCAAATTCTTCTTGTGATCTGAGCTTCTTTTTAACCT
+CTTCTCAAATCAAAGAAGGAAGGGATGGAAAGAGGGAGATAGGGAGGGAAAGAGAGGGATATAATTCCCTTTCTCCACTC
+CTCAAAGACTTAAGGATGGTGTCCTTTTCCTGTCAGGTGTAATAGATGAATCTCAGGTTGAAAAATTTTGAGTGCCTTTG
+ATCCAGTTTTATTAGAGATGCTTCAGGAAATACTAGATGGTGTCTTAAAATATTACAACCAATTAACAATAACCAGAAAG
+CACAAAATTCACATTCTTGTTTGAACTGAAAATATTACTTTAGAAGACAGATAGTTCTTTTCTGAGGTAAATCACTGGAG
+ATGTATTTGTAAAAAAGAAAGGAAGATATATTTATATATATACTATCCATACATATAATACAATGGGAAGAACCAAGTTC
+ATACCATTGGTGAAATTCAGTTGAAACCGGTGTTTTCTTTCTAGATAAAGTTAGTTATACCAGTTTTAGGCATGTATGAG
+TATACATACTTTTTTTAATAACTCAACAAAGCTAATAGGATAAACTTTTTTTTCTAAATTTCCCTAAAATTGGACATATC
+ATTATCTTTACAAATAAAATACATTACCTCATGCAGATTACTAGTTGTTAATTAGAAAATTAAAGTAACTTGAAAATTTT
+CTACATTGAAAACAATATAGAAAAAATTTGCTGAAATTTCTGAGTTCTTAATGTGTTTTCAATTCTCCATTCCTTTCTAT
+TGGTAAATACTTGCAGTTTACCAAGGGAATAATAACATAAGAATATTCTTAGCAAATACTGCTGTGACCCCTAAAGCACA
+AGTAAAGTGATTTCATGTGATAAAATATTGGCATAATAATATTACCATAGCTGGTTTTTAAACCAATAATTCTTCAACTT
+TCAAAAATAATTAGCTATGAGGTGTCTAAATAGTGGGTTTTCATAGGCTATTTAAAATAAGTATTGAAACATGCTTCAGA
+TAGAGCCCTTGGCTTGGATTCATTAAACCTATGTGGCAAATATAATAGGTTATATACATATTTATAATTTTTAGCTATAA
+CAGTCAACAAAAGTTTAACTCAAGTATTCCAAGTAGCCTCAAAGAGTTTAAAATTAGCCGCTTTTTAGTATTTCTGTGTA
+CATCTTTTTCTGTGGATGCATTTGTGTTACATGTGTTATATAGACTCTTGACAGGCATACCCTCACCCTACAGACCAGTT
+ATCATCCTAAAAAGGGATCTACTTATGCCATTTCCTCACTGTGAAACTTTCAGTGATTTCCAGTCACCTGTCACAGTGAC
+TCCAGTCATAGAATTTCCAAATGAACTTTAAAAAGAATGCTATTACCTGAGCTCCTTCCTCAGTGATTATAATGGGTCTA
+CTTGCATTAATGCAGGCACAGAATAAGTATTTTGAAATAGTGTTCAACTGTCAATCCTTTATACTTTGCTGTCTTTACCC
+TCCACTGTAATGCATGTTATGTCCCAGCCAGGAAAATCCTTTACCCACCATTTTTTTACCTGCCGGAATTCCCCCACCTT
+TGACAAGACAGCCAAGTATCATTTCTGTAAAGTCTTCCCTTAGTCTTCCAGACAGTGCTTTGCTTCCTCCTACAGTTCAC
+CTACCGTTTTGTGCACATCTGAATGACTGTAGCACAACTGTGATTCTCCTACAAATCTGGAAGCCACTCTGAGGTGGAAC
+ATTGTGTCTGTGGACTGAAGAGTTCAATGACACATTCTCTCTGTAACTGGTATCACCATGAAGTTCTATCAGTCTTTGAT
+TACATCATTGCATGTGTCTGCACTTATGTCTTTACCACTTTCTCTTTTCATATTCTTTTATCTTCATTTATTGCTTGTAA
+ATTTTCCAACTTTTTTTCCGGCTTTGAGAGATTCTCTCCCTTTACCAACTATAAATAGGAGAATGAAAGTACATCTTCTG
+TTTATTAATTAAAGATACTTTATTCTGTTCTAAATTTTAACATTGAATGAATGGAATACTATTTTTCTCCCTAGAAAAAA
+TTCCACAGTTGTTTCTTATGTTTAAGTAGCCCGAAATTGTTTTGTATTGTAAACCTCAGTATGAAATTTGTTATTTTGAT
+TTCATTAAACAAATATTTATTGTCTGTTATTGGCATGAGAAAATATGTTCATACACTTTGTGAGAATTTAGAGCTCAAGA
+AAGACTATAATTCAAGACAGTGGTAGCTCAGTAGTAAATATAAATGGCAGGGTGATAAATTGTAGGCACTCAAATATATG
+TTGACATGAGATGTGATAGGTGCAAAGCATTATGTACATATAATTGTACTGAGACAAATGCAGCACAAATATACTAACTT
+TGAAATAAATTAAATTAAAACCTAATTTAGTCAAGTGTCCATAATTCATTTACATTAATCTATGTGTACATTTGTTTACT
+AAAAAGCACTTTCCCATATCTTTTCCCCTACCGTGTCATCCCAGTAAAAATACATTTAATAGTTCCCATATGCAATTACT
+AAAGGAAATATACCTCTGTGGGAGTGGCACCTCTCAGAATGGATTATGTAACATAAATGAATGAATGTATGTGTTTCAGA
+AAAATAAATAAATGAGAACACTATTGTTAGCCCTTTAAAAAAAAAA
+>ref|ref|X02215.1|| Rabbit DNA fragment of short interspersed C repeat (SINE) (1850 bp 5' to embryonic globin gene beta 4)
+CTTCTCCCACAGGTGTGGCAGGTACCCCCCAGACCTGAGTTCTCACGGTGCTGCCTCTTAGGAAGCTAGAATGGGGAGCA
+GAGCAAGGACCCAAGCTCAAGCCTTCTGATATAGAATACGGGCATCTCAGGCAGCATCATAACTGGTGACTTCAAAAGTT
+GTCCCTAATTTCGACTTCTAATTTCCGAAGCTTTATCCTTCAGAAAAGTGTGACGTGAAATGAATGATTCTGCCTTTCCA
+CTCCTTCTTCCCAGTAAATTTAATTTGCATTCACAGATCTACGGTTATGCTTTAGGGCCATTGTCCACAAGGTCCAAAGT
+CTGTGAACTAAGCTACTAAGAGATGGGTCAGTCTGAGAATGAGACCTAATTTTGAGCTCAAATTCATCTACAACCTTTGT
+AAGAAATGAGGCAGACGCCTGATGTGTTCACAGCAGCAGCATTGTATGTCCACTAGTAGTGGTTTAGTCTCACTTTTTGC
+AGCTACACCAGAAAATATTCTTAAGACTTATGAAAGCAGCCACCAGAAATTCTTCTTGTTTTTTGTTACCAAAGTCATTG
+CCAGCTAAGGCAAAACATAAGAGAAACTTCTGCTGTGGCCAGGGAGTGCAGTGGAGGATGGCCTAGGTGCTTGGGCCCTG
+CACCCCATGGGAGACCAGGAAAAGCACCTGGCTCCTGGCTCCTGCCATCGGATCAGCGCGGTGCGCCGGCCGCAGCGCGC
+CCGGCGCGGCGGCCATTGGAGGGTGAACCAACAACAAAGGAAGACCTTTCTCTCTGTCTCTCTCTCTCACTGTTCACTCT
+GCCTGTCAAAAAATTAAAAAAAAATTAAAAAAAATTAAAAAAAAAAGGAAAGAGAAAAAGAGAGAGAGAGGAAGAGAGGG
+TACGGGGGAATTC
+>ref|ref|X02216.1|| Rabbit short interspersed C repeat (SINE) (loc. between pseudogene psi2 and fetal-adult gene beta 1)
+CAAACAGTAGAGACTTTGGCAGCTGTTATTATAGTCTCATTTATTGGTAGACAATAATTACTTGAAAATCACAGCAGAGG
+CTGGTGCTGCGGCTTACTAGGCTAATCCTCTGCTCTGCGGCGCCGGCACTCTAGGTTCTAGTTCCGGTTGGGGCACCGGA
+TTCTGTCCCGGTTGCCCCTCTTCCAGGCCAGCTCTCTGCTGTGGCCTGGGAGTGCAGTGGAGGATGGCCCAAGTGCTTGG
+GCCCTGCACCCCNNNGGAGACCAGGAGGAAGCTCCTGACTCCTAGCTTCGGATCGGCGCAGTGCGCGCCGTAGCGACCAT
+CTAGGGGGTGAACCAACAGCCCCGGAAGACCTTTTTCTCTGTCTCTCTCTGTTTAACTCTGCCTGTCAAAAATAAGTAAA
+TAAATAAATGTGCACTTTCCTATTTACAAAAAAAGAAAATCATAGAAGAGGAATTAATTCCTGTGTTGGCTTCGCGTTAT
+TGATAACTTCCATACAGTATTCATTTCCAGTGTGTTAAGGTCTCGGT
+>ref|ref|X60986.1|| Rabbit MHC fragment RLA-DF DNA
+GATCTGCATTAGAATCCCAAGACCTTCAACAAACCATGGAGTCCAGGACCCCTGTGGAAAAAAAAATAGAATCTAGTACT
+TGCTGATATAAACATGAAGTTAGAAAAACCAATCTTAGTAATTCTCAGCAAAGATACAGATTTTTTTGACTCAGTTAAAA
+TTTAGAAGTATTTAGGATCTGGGCTTAGATTATAAACTAAAAAACAGACTTTAGATTTCTCTTATGTTTTTTTCCATTTT
+AGGATTGAAGAAAGAGCTTGATAAGGTCTCCTTTTTCCTAGCCTTGTAGAGAAATGGAGTCCTTACTCCATGCTTGGTGT
+CTCACATGCCATTATTTCTTTTCAGCCACACACAGCTCTTTATTTCTCTTGTGCTAGAATGACTCAGACATTGGAATTAT
+CTGCTCTTCCAAAGTGTCAAGGCCTTTTATCCCCTTCCATAGATGTGTATATAGACCACACACAGTCTTGGAAATCTTCT
+CCAGTAGCCAAGGCCACTGCTTCACAATAGAATAATGCATCCAGTAATATAGGAAGGGAAGGGAAGCCCCACAGTTTGGG
+CAACATTGTCTTATATTTGCTGAGGGAGGCCATCAGTTCAGAGGCACTTACAGACCTGGGTCCATCAGTGTTAGAAAATG
+TGCTGTGTGTGCCCTAGGCCTGGTTGTGGGTCTGAGGGACATCATTGTTGGGAGCATCTTCATCTTTCTGCTATATAAAA
+TCTATTCTGTTCATTTTGTTTCCATTTTAGAAAACTTGGAGAAAGAGCTTGGTAAGTTCTCCTTTTTCTTTGCTTTGTAG
+AGAAATTAGAGTGTTTACTCCATGCTTGGCATCTCACAGGTCATTATTTCTTTTCAGCCACAAGGAAGGAACTGTATCAG
+CATGGTGAGTTCCACTGGTGTTATGGTTAAGCCATTCATCTCATCTGTCCCTCTGTCCTTTTTTTAAAAAAAATCATTTA
+TTTATTTGAAAGGCAGAAGTATAAAAAGAGAAATACACACAGAGAGAAAAATATTCTATCCCTTGATCCACTCACCAATG
+GACACATCAACTAGGGTTGGGTCAGGCCAAAGCCAGAACTCCATCCATGTCTCCCATGCAGATGGCAGGGGCCCAAGTAC
+TTCAGATATCTTCCACTACTTTCCCAGGAGGATTAGCAGGGAGTGCATCAGAAGTGGAGCAGCTGGGAGCTAACCAGCTC
+CCTCTGATAAGGACTTCTGGTATTGAGTGATGGCTTAATCCACTGAGCCACACTATGGGCCCCTGTCCCTCTGTTCTGAT
+CACCTTCTATTCACCGTTTTTGGTGAAAGGGATCTTCCACCCTAAATTGCCTAAGATGGTGAAACACATGACATCTATAC
+AGGACAGATGGAACTGAGAGCAGTGTATCAGTTACATGTACTCATGGCCTGGGGGAAGGGGACACTGTACATTACACAGG
+ACCACAGAGGAGTTGCCCAAGAGAGTTAAGTGAACCATGAAGGGAGGTAAGAGGCAAACTGTAGCAACAAGAAGAGGAGG
+TGCTCACTATTTTCTCGAGGAGTAATGCGGCTTAGCTTGCTTGAATAAATTTGGCATGCTGGCATGGAAATGATGCCCAA
+AAATTAGCTTGAGAACCAGGAGGGGCTCAGCTGGGTTGAGTATAGGGGTTTGAGCAGGGGAGGGAGCTTTCCTATCTGGT
+GGGGAGCAGGGGAACCTTTGTCACTTGAAGCAATGGTGATCCCAAAGATGTCAGGGCAACACATAATATTTAGGCTTCAA
+CATACAGCCCCACCTTCAACACCTGCACCCTCTTCTCAAAGGACCAGACCCTTAGATTGGTGGATGGCTAAAATCAGTAG
+ACCAGGATATGTAAAAAGGAACACAAATACACTAGAATTATCATTAAGAGACAGACCACAGAAACAACACTTTCAGAAAC
+CTCAGATTTCATATAGTCACAGTACATTTCATTCTCTGCAGTGAGGGCACCATGAATGGAAGCATCTAATTCTTTTCTTT
+TATTTCAGGACTGGAAAAAAAGCAAATTTATATGCTGGTGAGTAAAATCTGATGCTGTCTGTGGCTTCAGCTGACCCAGG
+ATCTTGTGAGATAGCAGACCATTGTCCAGAGACACGGCATCTTCTAGAGATTTTATTTTGAAACCAATGTGGGGTGGGTG
+GCAAAGGAATATCCCATTAGCTCACAAAATATGTTCTTGGCATGTTTTACCATAGAGTTTATTTTCTTTTTAGACTGGAG
+AAAGAAAAATTTCGAAGCAGGTGAGTTATTACCTTGTTCCACTCAACCTCTTCTATACAAATGAGAAGCACTCCTGAGAA
+GTCCTCTCATGGCCTTCATTCTAAGTCTCAATGGCTTCCTTTCTGTCCTGAGACCATGTATTCAAACAGCATGCATGGAC
+GGTCTCTGACTTACAGCCTTTCAACTTTAAAATGGTAAAAAGCAATTGCATTAGTAGAAACATACTCAAATTGGAATTTT
+GATCTTTTCCTTGTCAATGTATATCATGATGCTATTCTTAAATATTTTTCTATTTATTTATTTTCCTTTTATTTGAAAGT
+CAGATAGACATTGACAGAAAGAGACAGAGAGACAGAGCCATAGAGGGCAGAGAGAGAGAAAGACAGAGGGAGAATATTTA
+AGTTGCTGGCTCATTTGCCAAATTTCCACACAACTGCTGGGCTTGGGCCAGGCAAAAGCCAAGAGCCCATAACTTCTACC
+CAGATC
+>ref|ref|X60732.1|| O.cuniculus mRNA for alpha smooth muscle actin
+GGCACGAGGGAGAAGCCCAGCCCAGCACTGTCAGGAATCCCGTGAAGCAGCTGCAGCTATGTGTGAGGAAGAGGACAGCA
+CCGCCCTTGTGTGTGACAATGGCTCCGGGCTCTGTAAGGCTGGCTTTGCCGGAGACGATGCTCCAAGAGCTGTTTTCCCA
+TCCATTGTGGGACGTCCCAGGCACCAGGGGGTGATGGTGGGAATGGGGCAAAAAGACAGCTACGTGGGTGATGAAGCGCA
+GAGCAAAAGAGGAATCCTGACCTTGAAGTACCCGATCGAACATGGCATCATCACCAACTGGGACGACATGGAAAAGATCT
+GGCACCACTCCTTCTACAATGAGCTTCGCGTTGCCCCTGAAGAACATCCAACCCTGTTGACTGAGGCACCGCTGAACCCC
+AAAGCCAACCGGGAGAAAATGACCCAGATTATGTTTGAGACTTTCAATGTCCCAGCCATGTACGTGGCTATTCAGGCGGT
+GCTGTCCCTCTATGCCTCTGGACGTACAACTGGCATTGTGCTGGACTCTGGAGATGGTGTCACCCACAACGTGCCCATCT
+ATGAGGGCTATGCCCTGCCCCATGCCATCATGCGTCTGGACCTGGCAGGCCGAGATCTCACTGACTACCTCATGAAGATC
+CTGACTGAGCGTGGCTATTCCTTCGTGACTACTGCTGAACGTGAGATTGTCCGGGACATCAAAGAGAAATTGTGCTATGT
+CGCTCTGGACTTTGAAAACGAGATGGCCACTGCTGCATCCTCCTCCTCCCTCGAGAAGAGCTATGAGCTGCCTGACGGGC
+AGGTGATCACCATCGGGAACGAACGCTTCCGCTGCCCAGAGACCCTGTTCCAGCCCTCCTTCATCGGGATGGAATCTGCT
+GGCATCCATGAAACCACCTACAACAGCATCATGAAGTGTGACATCGACATCAGGAAGGACCTCTATGCTAACAATGTGCT
+CTCAGGGGGCACCACCATGTACCCTGGCATTGCTGACCGTATGCAGAAGGAAATCACGGCCCTAGCTCCCAGCACCATGA
+AGATCAAGATAATTGCCCCTCCAGAGCGCAAATACTCCGTCTGGATCGGCGGCTCCATCCTGGCCTCTCTGTCCACCTTT
+CAGCAGATGTGGATCAGCAAACAGGAGTACGATGAAGCCGGGCCCTCCATTGTCCACCGCAAATGCTTCTAAGTCACTTC
+CCTGCTCTGTTTCTAGCCCACAACTGTGAATGTGTTGTGGAATAATGCCTTCAATTCCTTTCCAAGTCATGCCTATCCAA
+AGCTCTGACTCATTACCTATGTATTTTTTAATAAATCTGAAATATGCTACCAGTCAA
+>ref|ref|X59602.1|| O.caniculus RNA for myosin heavy chain
+GAATTCGGGCTGGAGGAGGCCAAGAAAAAACTAGCTCAGCGCCTGCAGGATTCCGAGGAACAGGTTGAGGCTGTGAATGC
+TAAGTGCGCGTCCCTGGAGAAGACCAAGCAGAGGCTGCAAGGGGAGGTGGAGGACCTGATGGTGGACGTGGAGAGGGCCA
+ACTCCCTGGCCGCCGCTCTGGACAAGAAGCAGAGGAACTTCGACAAGGTGCTGGCCGAATGGAAGACCAAGTGTGAGGAG
+AGCCAGGCGGAGCTGGAGGCGTCTCTCAAGGAGTCCCGCACCTTGAGCACTGAGCTTTTCAAGCTGAAAAATGCCTACGA
+GGAGGCCTTAGATCAACTTGAAACTGTGAAACGGGAGAATAAGAACTTAGAACAAGAGATAGCGGATCTCACAGAGCAAA
+TTGCGGAAAATGGTAAAACCATCCACGAACTGGAGAAATCCAGGAAGCAGATGGAGCTGGAGAAGGCTGACATCCAGCTG
+GCTCTCGAGGAAGCAGAGGCTGCTCTCGAACACGAAGAAGCCAAGATCCTCCGGGTCCAGCTCGAGCTGACGCAGGTGAA
+AGCCGAGATCGACAGGAAGATTGCCGAGAAGGACGAGGAGATGGAGCAGCTGAAGAGGAACTACCAGCGGACGGTGGAGA
+CCATGCAGAGCGCCCTGGACGCCGAGGTGCGCAGCAGGAACGAAGCCATCCGCATCAAGAAGAAGATGGAGGGGGACCTG
+AACGAGATCGAGATCCAGTTGAGCCACGCCAACCGCCAGGCCGCCGAGACCCTCAAGCACCTCCGGAGCGTCCAGGGACA
+GCTGAAGGATACCCAGCTGACCTGGACGATGCTCTCCGCGGCCAGGAGGACCTGAAGGAGCAGCTGGCCCTGGTGGAGCG
+CAGGGCCAACCTGCTGCAGGCTGAGGTGGAGGAGCTGCGGGCCACGCTGGAGCAGACGGAGAGGGCCCGGAAACTGGCTG
+AGCAGGAGCTCCTGGATGCCAATGAGCGGGTGCAGCTGCTGCACACCCAGAACACCAGCCTCATCCACACCAAGAAGAAG
+CTGGAGACGGACCTCACCCAGCTGCAGAGCGAGGTGGAGGACGCCAGCCGGGATGCCAGGAATGCCGAGGAGAAAGCCAA
+GAAGGCCATCACAGACGCGGCCATGATGGCGGAGGAGCTGAAGAAGGAGCAGGACACCAGCGCCCACCTGGAGCGCATGA
+AGAAGAACATGGAGCAGACGGTCAAGGACCTGCAGCACCGCCTGGACGAGGCCGAGCAGCTGGCGCTCAAGGGTGGCAAG
+AAGCAGATCCAGAAGCTGGAGACGCGGATCCGAGAGCTGGAGTTTGAGCTGGAAGGGGAGCAGAAGAAGAACGCAGAATC
+TGTGAAGGGCTTGAGGAAGTATGAGCGGCGGGTCAAGGAGCTAACGTACCAGAGTGAAGAGGACAGGAAGAACGTGCTCC
+GGCTGCAGGACCTGGTGGACAAGCTGCAAGTCAAGGTCAAGTCCTACAAGAGGCAGGCCGAGGAGGCGGATGAGCAAGCC
+AACGTGCATCTCAGCAAGTTCCGGAAAGCGCAGCACGAGCTGGAGGAGGCGGAGGAGCGGGCCGACATCGCCGAGTCGCA
+AGTCAACAAGCTTCGGGCTAAAACCCGGGACTTCACCTCCAGCAGGATGGTTGTCCATGAGAGTGAAGAGTGAGCGAGCG
+TGTCCTGGGGCAGGACAGAGGACACGCAGAATGCGTGTTTTCATGCTCCCTGCCCTTACACCTGACGTCCATGGGACCGA
+ATTC
+>ref|ref|X00861.1|| Rabbit DNA sequence C family interspersed repeat
+ACAATCCAATTATAGAAATATAGAAGCCGGCGCCGTGGCTCAATAGGCTAATCCTCCACCTTGCGGCGCCGGCACACCGG
+GTTCTAGTCCCGGTTGGGGCCGGANTCGCCCCGGTTGCTCCTCTTCCAGGCCAGCTCTCTGCTATGGCCAGGGAGTGCAG
+TGGAGGATGGCCCAAGTGCTTGGGCCTGCACCCCATGGGAGACCAGGAAAAGCACCTGGCTCCTGGCTCCTGCCAGGGTG
+CAGCGCGGTGCGCCGGCTGCAGCGGCGGCCATTGGAGGGTGAACCGCGGCAAAGGAAGACCTTTCTCTCTCTGTCTCTCT
+CTCTCACTGTCCACTCTGCCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAAAAAAA
+AAAAAAAAAAAAAGAATATAGAGTCTAATGAAGTTTGATATA
+>ref|ref|X15749.1|| Rabbit gene for ryanodine receptor 5' end
+GTACAACCGTGACTCTGCACAGGCACTGTTGCAAATGCAGAAAGCACAATATCTCGTTTCACTCAACAACCCTGTGTGGT
+GGGCACGATCATAGCTCCCCTACCAGACCGGGAAATGAGGTCGGAGAGTAACTAGTCTCAACTGACCCAGGGGAGCCCGG
+CCTAAGCTGATGTGGCTCGGAGTTACTGCTTTCAATCACCTCGTGCTGCTGTGGGATCTTCTTGGTGCACATCCGGGCCC
+CGCTGTGTGGTAACCAGCGGGAGTAGCAAATGGGGAGAAAACTCAACGGCCGGCCACACTGGGCTCCCAGGCCCCCGGCT
+GCGAAGACCTGAGCCCCGGCGCGGGGCCTGTGGGCGGGGCTCCGACGAGGGGCGTGGCCTGCGTGCCCTGGCCCAATGGG
+GGTTTTAGGGCGGGGACTTCCTTCCTTCCCTGTCCAGCACGCGTGTCTTCCTCGCAGTTCCA
+>ref|ref|NR_033238.1|| Oryctolagus cuniculus 18S ribosomal RNA (RN18S), ribosomal RNA
X06778.1 Rabbit 18S rRNA
+TACCTGGTTGATCCTGCCAGTAGCATATGCTTGTCTCAAAGATTAAGCCATGCATGTCTAAGTACGCACGGCCGGTACAG
+TGAAACTGCGAATGGCTCATTAAATCAGTTATGGTTCCTTTGGTCGCTCGCTCCTCTCCTACTTGGATAACTGTGGTAAT
+TCTAGAGCTAATACATGCCGACGGCGCTGACTCCCTTTGTGTGGGATGCGTGCATTTATCAGATCAAAACCAACCCGGTC
+AGCCTCCCCGCCGGCCGGGGGGGTGGGGCGGCGGCTTTGGTGACTCTAGATAACCTCGGGCCGATCGCAGCCCTCCGTGG
+CGGCGACGACCCATTCGAACGTCTGCCCTATCAACTTTCGATGGTAGTCGCCGTGCCTACCATGGTGACCACGGGTGACG
+GGGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACATCCAAGGAAGGCAGCAGGCGCGCAAATTAC
+CCACTCCCGACCCGGGGAGGTAGTGACGAAAAATAACAATACAGGACTCTTTCGAGGCCCTGTAATTGGAATGAGTCCAC
+TTTAAATCCTTTAACGAGGATCCATTGGAGGGCAAGTCTGGTCGCAGCAGCCGCGGTAATTCCAGCTCCAATAGCGTATA
+TTAAAGTTGCTGCAGTTAAAAAGCTCGTAGTTGGATCTTGTGGAGGGTGCGTAGCGGGCGGTCCGCCGCGAGGCGAGCCA
+CCGCCCGTCCCCGCCCCTTGCCTCTCGGCGCCCCCTCGATGCTCTTAGCTGAGTGTCCCGCGGGGCCCGAAGCGTTTACT
+TTGAAAAAATTAGAGTGTTCAAAGCAGGCCCGAGCCGCCTGGATACCGCAGCTAGGAATAATGGAATAGGACCGCGGTTC
+TATTTTGTTGGTTTTCGGAACTGAGGCCATGATTAAGAGGGACGGCCGGGGGCATTCGTATTGCGCCGCTAGAGGTGAAA
+TTCTTGGACCGGCGCAAGACGGACCAGAGCGAAAGCATTTGCCAAGAATGTTTTCATTAATCAAGAACGAAAGTCGGAGG
+TTCGAAGACGATCAGATACCGTCGTAGTTCCGACCATAAACGATGCCGACTGGCGATGCGGCGGCGTTATTCCCATGACC
+CGCCGGGCAGCTTCCGGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGA
+CGGAAGGGCACCACCAGGAGTGGAGCCTGCGGCTTAATTTGACTCAACACGGGAAACCTCACCCGGCCCGGACACGGACA
+GGATTGACAGATTGATAGCTCTTTCTCGATTCTGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCT
+GGTTAATTCCGATAACGAACGAGACTCTGGCATGCTAACTAGTTACGCGACCCCCGAGCGGTCGGCGTCCCCCAACTTCT
+TAGAGGGACAAGTGGCGTTCAGCCACCCGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTCGGGGCTGCACGC
+GCGCTACACTGACTGGCTCAGCGTGTGCCTACCCTACGCCGGCAGGCGCGGGTAACCCGTTGAACCCCATTCGTGATGGG
+GATCGGGGATTGCAATTATTCCCCATGAACGAGGAATTCCCAGTAAGTGCGGGTCATAAGCTTGCGTTGATTAAGTCCCT
+GCCCTTTGTACACACCGCCCGTCGCTACTACCGATTGGATGGTTTAGTGAGGCCCTCGGATCGGCCCGCCGGGGTCGGCC
+CACGGCCCTGGCGGAGCGCTGAGAAGACGGTCGAACTTGACTATCTAGAGGAAGTAAAAGTCGTAACAAGGTTTCCGTAG
+GTGAACCTGCGGAAGGATCATTA
+>ref|ref|X00640.1|| Rabbit 18S ribosomal RNA sequence
+TACCTGGTTGATCCTGCCAGTAGCATATGCTTGTCTCAAAGATTAAGCCATGCATGTCTAAGTACGCACGGCCGGTACAG
+TGAAACTGCGAATGGCTCATTAAATCAGTTATGGTTCCTTTGGTCGCTCGCTCCTCTCCTACTTGGATAACTGTGGTAAT
+TCTAGAGCTAATACATGCCGTCGGGGCTGTCCCCCTTTGTGCGGGATGCGTGCATTTATCAGATCAAAACCAACCCGCGT
+CAGTTTCCCCCCGGCCCCGCGGNNNNGGTGGGCGTCGGACTGCTTTGGTGACTCTAGATAACCTCGGGCCGATCGCANGC
+CCCGTGTCGGCATTCGAACGTATGCCCCATCAACTTTCGATGGCAGTCGCCGTGCCTACCATGGTGACCACGGGTGACGG
+GGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCCACCACATCCAAGGAAGGCAGCAGGCGCGCAAATCACC
+CACTCCCGACCCGGGGAGGTAGCGACGAAAAACAACAACACAGGACTCTTTCGAGAGCCCTGCAATTGGAATGAGTACAT
+TTCAAATCCTTCAACGAGGATCCATTGGAGGGCAAGTCTGGTGCCAGCAGCCGCGGTAATTCCAGCTCCAACAGCGCACA
+TCAAAGTTGCTGCAGTTAAAAAGCTCGTAGTTGGATCTTGTGGAGGGTGCGTAGCGGGCGGTCCGCCGCGAGGCGAGCCA
+CCGCCCGTCCCCGCCCCTTGCCTCTCGGCGCCCCCTCGATGCTCTTAGCTGAGTGTCCCGCGGGGCCCGAAGCGTTTACT
+TTGAAAAAATTAGAGTGTTCAAAGCAGGCCCGAGCGGCCTAGATACCGCAGCCAGGAATAATGGAACAGGACCGCGGTTC
+TATTTTGTTGGTTTTCGGAACTGAGGCCATGATTAAGAGGGACGGCCGGGGGCATTCGTATTGCGCCGCTAGAGGTGAAA
+TTCTTGGACCGGCGCAAGACGGACCAGAGCGAAAGCATTTGCCAAGAATGTTTTCATTAATCAAGAACGAAAGTCGGAGG
+TTTGAAGACGATCAGATACCGTCGTAGTTCCGACCACAAACGATGCCGACTGGCGATGCGGCGGCGTTATTCCCATGACC
+CGACCGGAACCTTCCGGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGA
+CGGAAGGGCACCACCAGGAGTGGATCCTGCGGCCCAATTTGACTCAACACGGGAAACCTCACCCGGCCCGGACACGGACA
+GGATTGACAGATTGATAGCTCTTTCTCGATTCTGTGGCTGGTGGTGCATGGCTGTTCTTAGTTGCTGGAGCGATTTGTCT
+GGTTAATTCCGATAACGAACTAGACTCTCGCATGCTAACTAGTCACGCGACCCCCGAGCGGTCGGCGTCCCCCAACTTTT
+CAGAGGGACAAGTGGCGTTCAGCACCGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTCCGGTCGGCACGCGC
+GCTACACTGACTGGCTCAGCGTGTGCTCACCCTACGCCGGCAGGCCGGTAACCCGTTGAACCCCATTCGTGATAGGGATC
+GGGGATTGCAATTATTTCCCATGAACGAGGAATTCCCAGTAAGTGCGGGTCATAAGCTTGCGTTGATTAAGTCCCTGCCC
+TTTGTACACACCGCCCGTCGCTACTACCGATTGGATGGTTTAGTGGGCCCTCGGATCGGCCCGCCGGGGTCGGCCCACGG
+CCCTGGCGGAGCGCTGAGAAGACGGTCGAACTTGACTATCTAGAGGAAGTAAAAGTCGTAACAAGGTTTCCGTAGGTGAA
+CCTGCGGAAGGATCATTA
+>ref|ref|X15750.1|| Rabbit skeletal muscle mRNA for ryanodine receptor
+TCTACCCTGCCGGTGCCTCCGGCGTCCCCAGAGGTCTCCGACCCCAGCCCGCCCCCAGCCCACCTGTCCAGCCTGCGGCC
+TCTTCTCACTACCCCCCCGACCTCAGCCCGGGTCCCGCGGGCCTCGACATCATGGGTGACGGAGGAGAGGGCGAGGACGA
+AGTCCAGTTCCTGCGGACGGACGACGAGGTGGTCCTGCAGTGCAGCGCCACCGTCCTCAAGGAGCAGCTGAAGCTGTGCC
+TGGCCGCCGAGGGCTTCGGCAACCGCCTCTGCTTCCTGGAGCCCACCAGCAACGCCCAGAATGTGCCCCCCGACCTGGCC
+ATCTGCTGCTTCACCCTGGAGCAGTCCCTGTCGGTCCGCGCCCTGCAGGAGATGCTGGCCAACACCGTGGAGGCTGGCGT
+GGAGTCATCCCAGGGCGGGGGACACAGGACACTCCTGTATGGCCATGCCATCCTGCTCCGGCATGCACACAGCCGCATGT
+ACCTGAGCTGCCTCACTACCTCGCGCTCCATGACTGACAAGCTGGCTTTTGACGTGGGACTGCAGGAGGATGCAACAGGA
+GAGGCCTGTTGGTGGACCATGCACCCAGCCTCCAAGCAGAGATCGGAAGGAGAGAAGGTCCGCGTCGGGGACGACCTCAT
+CCTTGTCAGCGTCTCCTCCGAGCGCTACCTGCACCTGTCGACGGCCAGTGGGGAGCTCCAGGTTGATGCCTCCTTCATGC
+AGACCCTGTGGAACATGAACCCCATCTGCTCCTGCTGTGAAGAGGGCTACGTGACTGGGGGCCACGTCCTCCGCCTCTTC
+CACGGACACATGGACGAGTGCTTGACTATTTCTGCTGCTGACAGCGACGACCAGCGCAGGCTTGTCTACTACGAGGGGGG
+AGCTGTGTGCACGCACGCCCGCTCCCTCTGGAGGCTGGAACCCCTGAGAATCAGCTGGAGTGGAAGCCACCTGCGCTGGG
+GCCAGCCACTGCGGATCCGGCATGTCACCACCGGACGGTACCTGGCACTCACCGAGGACCAGGGCCTGGTGGTGGTCGAT
+GCCTGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGTGTCTCCAAGGAGAAGCTGGACACGGCCCCCAAGCGAGA
+CGTGGAGGGCATGGGCCCGCCTGAGATCAAGTACGGGGAGTCGCTGTGCTTTGTGCAGCACGTGGCCTCGGGCCTGTGGC
+TCACCTACGCCGCCCCTGACCCCAAGGCCCTGCGGCTGGGCGTGCTGAAGAAGAAGGCCATTCTGCACCAGGAGGGCCAC
+ATGGACGATGCACTGTTCCTGACCCGCTGCCAGCAGGAGGAGTCCCAGGCTGCCCGCATGATCCACAGCACTGCCGGCCT
+GTACAACCAGTTCATCAAGGGCCTGGACAGCTTCAGCGGGAAGCCCCGGGGCTCAGGGCCGCCGGCTGGCCCTGCGCTGC
+CCATCGAGGCCGTCATCCTGAGCCTGCAGGACCTCATTGGCTACTTCGAGCCGCCCTCGGAGGAGCTGCAGCACGAGGAA
+AAGCAGAGCAAGCTGCGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGGGATGCTCTCCCTGGTCCTGAACTG
+CATCGACCGCCTGAACGTCTACACCACCGCTGCCCACTTTGCCGAGTATGCAGGGGAAGAGGCAGCTGAGTCCTGGAAAG
+AGATTGTTAACCTACTCTACGAACTCCTGGCCTCTCTGATCCGGGGCAATCGTGCCAACTGTGCCCTCTTCTCCACAAAC
+TTGGACTGGGTGGTCAGCAAACTGGACCGGCTGGAGGCCTCGTCTGGCATCCTGGAGGTGCTGTACTGTGTCCTGATTGA
+GAGTCCCGAGGTGCTGAACATCATCCAGGAGAACCACATCAAGTCCATCATCTCCCTCCTGGACAAGCATGGGAGGAACC
+ACAAGGTTCTGGATGTGCTGTGCTCCCTGTGTGTGTGCAATGGCGTGGCTGTGCGCTCCAACCAAGATCTCATCACCGAG
+AATCTGCTCCCTGGCCGTGAGCTGCTGCTGCAGACAAACCTTATCAACTACGTCACCAGCATCCGCCCCAACATCTTCGT
+GGGCCGAGCCGAGGGCTCCACGCAGTATGGCAAATGGTACTTTGAGGTGATGGTGGACGAGGTGGTTCCATTTCTGACAG
+CTCAGGCCACCCATCTGCGGGTGGGCTGGGCCCTCACCGAGGGCTACAGCCCCTACCCTGGCGGCGGCGAGGGCTGGGGC
+GGCAATGGGGTCGGCGATGACCTCTACTCCTATGGCTTTGACGGGCTGCACCTCTGGACAGGACACGTGGCACGCCCGGT
+GACCTCCCCCGGGCAGCACCTCCTGGCCCCTGAGGACGTGGTCAGCTGCTGCCTGGACCTCAGCGTGCCGTCCATCTCCT
+TCCGCATCAATGGCTGCCCCGTGCAGGGTGTCTTTGAGGCCTTCAACCTGGATGGGCTCTTCTTCCCTGTGGTCAGCTTC
+TCGGCTGGTGTCAAGGTGCGGTTTCTCCTTGGCGGCCGCCATGGTGAATTCAAGTTCCTGCCCCCACCCGGCTACGCCCC
+ATGCCATGAGGCAGTGCTCCCGCGAGAGCGACTCCGTCTTGAGCCCATCAAGGAGTACAGACGGGAAGGGCCGCGGGGGC
+CCCACCTGGTGGGCCCCAGCCGCTGCCTCTCGCACACTGACTTTGTGCCCTGCCCGGTGGACACCGTCCAGATCGTCCTG
+CCTCCCCACCTGGAGCGCATCCGTGAGAAGCTGGCAGAGAACATCCATGAACTCTGGGCGCTGACGCGCATTGAGCAAGG
+CTGGACCTATGGCCCGGTTCGGGATGACAACAAGAGGCTGCACCCGTGTCTTGTGAACTTCCACAGCCTTCCGGAGCCCG
+AGAGGAATTACAACCTGCAGATGTCGGGCGAGACTCTCAAGACTCTGCTGGCGCTGGGCTGCCACGTGGGCATGGCCGAC
+GAGAAGGCGGAGGACAACCTGAAGAAGACAAAGCTGCCCAAGACGTATATGATGAGCAATGGGTACAAGCCAGCCCCGCT
+GGACTTGAGCCATGTGCGACTGACACCCGCACAGACGACACTGGTGGACCGGCTGGCAGAGAATGGGCACAACGTGTGGG
+CACGAGACCGAGTGGCCCAGGGCTGGAGCTACAGCGCCGTGCAGGACATCCCGGCTCGCCGGAACCCTCGCCTTGTGCCC
+TACCGCCTGCTGGACGAGGCCACCAAGCGCAGCAACCGGGACAGCCTCTGCCAGGCCGTGCGCACCCTGCTGGGCTATGG
+CTACAACATCGAGCCACCTGACCAGGAGCCCAGTCAGGTGGAGAACCAGTCTCGCTGGGACCGGGTGCGCATCTTCCGGG
+CAGAGAAATCCTACACAGTGCAGAGTGGCCGCTGGTACTTCGAGTTTGAGGCCGTCACCACAGGCGAGATGCGAGTGGGC
+TGGGCGAGGCCCGAGCTGCGGCCTGACGTCGAGCTGGGAGCGGATGAGCTGGCCTACGTCTTCAACGGGCACCGTGGTCA
+GCGCTGGCACTTGGGCAGTGAGCCGTTCGGGCGGCCCTGGCAGTCAGGCGATGTCGTCGGCTGCATGATCGACCTCACCG
+AGAACACCATCATCTTCACCCTCAACGGCGAGGTCCTCATGTCTGACTCGGGCTCCGAAACAGCCTTCCGGGAGATCGAG
+ATTGGGGACGGCTTCCTGCCTGTCTGCAGCTTGGGACCTGGCCAGGTGGGTCACCTGAACCTGGGCCAGGATGTGAGCTC
+CCTGCGGTTCTTTGCCATCTGCGGCCTCCAGGAAGGCTTTGAGCCATTCGCCATCAACATGCAGCGCCCTGTCACCACGT
+GGTTCAGCAAAAGCCTTCCCCAGTTTGAGCCTGTGCCCCCTGAACACCCGCACTATGAGGTGGCGCGCATGGATGGCACT
+GTGGACACGCCCCCCTGTCTGCGCCTGGCTCACCGCACCTGGGGCTCCCAGAACAGCCTGGTGGAGATGCTGTTCCTCCG
+GCTGAGCCTTCCGGTCCAGTTCCATCAGCACTTCCGTTGCACCGCAGGGGCCACGCCCTTGGCACCTCCCGGCCTGCAAC
+CCCCGGCGGAGGACGAGGCCCGGGCAGCAGAACCCGACCCTGACTACGAAAACCTGCGCCGCTCAGCTGGGGGCTGGGGC
+GAGGCTGAAGGGGGCAAAGAGGGAACTGCCAAGGAGGGGACACCCGGGGGCACCCCCCAGCCTGGGGTGGAGGCCCAGCC
+CGTCAGGGCGGAGAACGAGAAGGATGCCACCACGGAGAAGAACAAGAAGAGAGGGTTCTTATTCAAGGCCAAGAAGGCCG
+CCATGATGACTCAGCCACCAGCCACCCCTGCTCTGCCCCGGCTCCCTCACGACGTGGTGCCTGCTGACAACCGCGATGAC
+CCCGAGATCATCCTCAACACCACCACGTACTATTACTCCGTGAGGGTCTTCGCGGGTCAGGAGCCCAGCTGCGTATGGGT
+GGGCTGGGTCACCCCCGACTACCATCAGCACGACATGAACTTTGACCTCAGCAAGGTCCGGGCAGTGACGGTGACCATGG
+GGGATGAACAAGGCAACGTCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGGTGTGGGGTGGGGACTTCGTGAGCCCT
+GGGCAGCAGGGCCGGATCAGCCACACGGACCTTGTCATTGGCTGCCTGGTGGACCTGGCCACTGGCTTAATGACCTTCAC
+GGCCAATGGCAAAGAGAGCAACACCTTTTTCCAGGTGGAACCCAACACAAAGCTCTTTCCTGCCGTGTTTGTCCTGCCCA
+CGCACCAGAACGTCATCCAATTTGAGCTGGGGAAGCAGAAGAACATCATGCCGCTGTCCGCCGCCATGTTCCTGAGCGAG
+CGCAAGAACCCAGCGCCACAGTGTCCACCACGGCTGGAGGTGCAGATGCTGATGCCCGTGTCCTGGAGCCGCATGCCCAA
+CCACTTCCTGCAGGTGGAGACGCGGCGCGCTGGCGAGCGCCTTGGCTGGGCCGTGCAGTGCCAGGATCCCCTGACCATGA
+TGGCGCTGCACATTCCGGAGGAGAACCGGTGCATGGACATCCTGGAGCTGTCCGAGCGCCTGGACCTGCAGCGCTTCCAC
+TCGCACACGCTGCGCCTCTACCGCGCCGTGTGCGCCCTGGGCAACAACCGTGTGGCGCATGCTCTGTGCAGCCACGTGGA
+CCAGGCGCAGCTGCTGCACGCGCTGGAGGACGCGCACCTGCCCGGCCCCCTGCGCGCGGGCTACTACGACCTCCTCATCA
+GCATCCACCTGGAAAGTGCCTGCCGCAGCCGGCGCTCCATGCTCTCCGAGTACATCGTGCCGCTCACGCCCGAGACCCGC
+GCCATCACGCTCTTCCCGCCGGGAAGGAAGGGGGGAAACGCCCGCCGCCACGGCCTGCCCGGCGTCGGCGTCACCACCTC
+GCTGCGGCCTCCGCACCATTTCTCCCCTCCGTGCTTCGTGGCCGCCCTGCCCGCCGCCGGGGTAGCGGAAGCCCCGGCCC
+GCCTCAGCCCTGCCATTCCTCTGGAGGCCCTGCGCGACAAGGCGCTGAGGATGCTGGGAGAGGCCGTGCGCGATGGCGGG
+CAGCACGCCCGCGACCCCGTCGGGGGCTCCGTGGAGTTCCAGTTCGTGCCGGTGCTCAAGCTCGTGTCCACCCTGCTGGT
+GATGGGCATCTTTGGCGATGAGGATGTGAAGCAGATCTTAAAGATGATAGAACCTGAAGTTTTCACCGAGGAAGAGGAGG
+AGGAAGAAGAGGAGGAGGAGGAAGAAGAGGAGGAAGAGGAGGACGAAGAGGAAAAGGAAGAGGACGAGGAGGAAGAGGAG
+AAGGAAGATGCTGAAAAAGAGGAAGAGGAGGCCCCGGAAGGGGAAAAAGAAGATTTGGAGGAGGGGCTGCTCCAGATGAA
+GTTGCCGGAGTCCGTGAAGCTACAGATGTGCAACCTCCTGGAGTATTTCTGTGACCAAGAGCTACAGCATCGAGTGGAGT
+CCCTGGCGGCCTTCGCAGAGCGCTACGTGGACAAGCTCCAGGCCAACCAGCGCAGCCGCTACGCCCTCCTCATGAGAGCC
+TTCACCATGAGTGCAGCTGAGACCGCAAGGCGCACCCGCGAGTTCCGCTCCCCGCCCCAGGAGCAGATCAACATGCTCTT
+GCACTTCAAAGATGAGGCAGATGAGGAAGACTGCCCTCTCCCCGAGGACATTCGACAGGACTTGCAGGACTTTCATCAAG
+ACCTGCTGGCGCACTGTGGAATCCAGCTGGAGGGGGAGGAGGAGGAGCCGGAGGAGGAGACCAGCCTGAGCAGCCGCCTC
+CGGAGCCTGTTGGAGACGGTGCGGCTGGTGAAGAAGAAGGAGGAAAAACCCGAGGAGGAGCTGCCAGCCGAGGAGAAAAA
+ACCCCAGTCCCTGCAGGAGCTGGTGTCCCACATGGTGGTGCGCTGGGCCCAGGAGGACTACGTGCAGAGCCCTGAGCTGG
+TGCGGGCCATGTTCAGCCTCCTGCACCGGCAGTACGATGGGCTCGGCGAGCTGCTGCGCGCCCTGCCCCGGGCCTACACC
+ATCTCGCCGTCCTCTGTGGAGGACACCATGAGCCTGCTCGAGTGCCTCGGCCAGATCCGCTCGCTGCTCATCGTGCAGAT
+GGGCCCCCAGGAGGAGAACCTCATGATCCAGAGCATTGGGAACATCATGAATAACAAAGTCTTCTACCAACACCCGAACC
+TGATGAGGGCCCTGGGCATGCATGAGACCGTCATGGAGGTCATGGTGAACGTCCTGGGGGGCGGCGAAACCAAGGAGATC
+CGCTTCCCCAAGATGGTGACAAGCTGCTGCCGCTTCCTCTGCTACTTCTGCCGCATCAGCCGGCAGAACCAGCGCTCCAT
+GTTTGACCACCTGAGCTACCTGCTGGAGAACAGCGGCATCGGCCTGGGTATGCAAGGCTCCACGCCCCTGGATGTGGCTG
+CCGCCTCCGTTATCGACAACAACGAGCTGGCCTTGGCGTTGCAGGAGCAGGACCTGGAAAAGGTCGTGTCCTACCTGGCA
+GGCTGTGGCCTCCAAAGCTGCCCCATGCTCCTGGCCAAGGGCTACCCGGACATCGGCTGGAACCCCTGCGGTGGGGAGCG
+CTACCTGGACTTCCTGCGCTTCGCTGTCTTTGTTAACGGCGAGAGCGTGGAGGAGAACGCCAACGTGGTGGTGCGGCTGC
+TCATCCGCAAACCTGAGTGCTTCGGGCCTGCGCTGCGGGGTGAGGGCGGCTCGGGGCTGCTGGCCGCCATCGAGGAGGCC
+ATCCGCATCTCTGAGGACCCCGCGCGGGACGGCCCAGGCGTCCGCAGGGACCGGCGGCGCGAGCACTTTGGGGAGGAGCC
+CCCTGAAGAAAACCGCGTGCACCTGGGCCACGCCATCATGTCCTTCTATGCTGCCTTGATCGACCTGCTGGGCCGCTGTG
+CTCCGGAGATGCATCTGATCCAAGCCGGCAAGGGTGAGGCCCTGCGAATCCGCGCCATCCTTCGCTCCCTCGTGCCCCTG
+GACGACCTCGTGGGCATCATCAGCCTCCCGCTGCAGATCCCCACCCTGGGCAAAGACGGGGCCCTGGTGCAGCCGAAGAT
+GTCGGCCTCCTTCGTGCCGGACCACAAGGCATCCATGGTGCTCTTCCTGGACCGCGTGTACGGCATTGAGAACCAGGACT
+TCCTGCTGCACGTGCTGGACGTGGGGTTCCTTCCCGACATGAGAGCTGCCGCCTCGCTGGACACGGCCACTTTCAGCACC
+ACGGAGATGGCGCTGGCGCTGAACCGCTACCTGTGCCTGGCTGTGCTGCCGCTCATCACCAAGTGTGCGCCGCTCTTTGC
+GGGCACGGAGCACCGTGCCATCATGGTGGACTCGATGCTGCACACCGTGTACCGCCTGTCGCGCGGCCGCTCGCTCACCA
+AGGCGCAGCGCGACGTCATCGAGGACTGTCTCATGGCGCTGTGCAGGTACATCCGCCCGTCCATGCTGCAGCACCTGCTG
+CGGCGCCTGGTGTTCGACGTGCCCATCCTGAACGAGTTCGCCAAGATGCCGCTCAAGCTCCTCACCAACCACTACGAGCG
+CTGCTGGAAGTACTACTGCCTCCCCACGGGCTGGGCCAACTTCGGGGTCACCTCGGAGGAGGAGCTGCACCTCACACGCA
+AACTCTTCTGGGGCATCTTCGACTCTCTGGCCCACAAGAAGTACGACCAGGAGCTGTACCGCATGGCCATGCCTTGTCTG
+TGCGCCATCGCGGGGGCCCTGCCTCCCGACTACGTGGACGCTTCGTACTCTTCCAAGGCGGAGAAAAAGGCCACAGTGGA
+TGCTGAAGGCAACTTTGATCCCCGGCCTGTGGAGACCCTCAATGTGATCATCCCGGAGAAGCTCGACTCCTTCATCAACA
+AGTTTGCCGAATACACGCACGAGAAGTGGGCCTTCGACAAGATCCAGAACAACTGGTCGTACGGAGAGAACGTGGATGAG
+GAACTGAAGACCCACCCCATGCTGAGGCCCTACAAGACCTTTTCGGAGAAGGACAAAGAGATCTACCGCTGGCCCATCAA
+GGAGTCCCTGAAGGCCATGATTGCCTGGGAGTGGACGATCGAGAAGGCCAGGGAAGGCGAGGAGGAGAGGACGGAGAAGA
+AAAAGACACGGAAGATTTCCCAGACTGCCCAGACCTACGATCCCCGAGAAGGCTACAACCCGCAGCCCCCCGACCTCAGC
+GGAGTCACCCTGTCTCGGGAGTTGCAGGCCATGGCCGAACAACTGGCGGAAAACTACCATAACACCTGGGGGAGAAAGAA
+GAAGCAGGAGCTGGAAGCCAAGGGCGGCGGGACCCACCCCCTGCTGGTCCCCTACGACACGCTCACGGCCAAGGAGAAAG
+CGCGAGACCGAGAGAAGGCCCAGGAGCTGCTGAAGTTCCTGCAGATGAACGGCTACGCGGTCACCAGAGGCCTGAAGGAC
+ATGGAGCTGGACACGTCTTCCATTGAGAAGCGGTTCGCCTTTGGCTTCCTGCAGCAGTTGCTGCGCTGGATGGACATTTC
+GCAGGAGTTCATTGCCCACCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGAGAAGTCCCCACACGAACAGGAGATTAAAT
+TCTTTGCCAAGATCCTGCTCCCTTTGATTAACCAGTACTTCACCAACCACTGCCTCTACTTCCTGTCCACACCCGCCAAA
+GTGCTGGGCAGTGGTGGCCATGCCTCCAACAAGGAGAAGGAGATGATCACCAGCCTCTTCTGCAAACTCGCTGCCCTTGT
+CCGCCACCGAGTCTCTCTCTTCGGCACAGACGCCCCGGCTGTGGTCAACTGCCTTCACATCCTGGCACGCTCCCTGGATG
+CCAGGACGGTGATGAAGTCGGGCCCCGAGATCGTCAAGGCCGGCCTCCGCTCCTTCTTTGAGAGCGCCTCGGAGGACATC
+GAGAAGATGGTGGAGAACTTGCGGCTGGGCAAGGTGTCCCAGGCGCGCACGCAGGTGAAGGGCGTGGGCCAGAACCTCAC
+CTACACCACCGTGGCCCTGCTGCCCGTCCTCACCACGCTCTTCCAGCACATCGCCCAGCACCAGTTCGGCGACGACGTCA
+TCCTGGATGACGTGCAGGTGTCTTGCTACCGAACATTGTGCAGCATCTACTCTCTGGGGACCACCAAGAACACTTATGTG
+GAAAAGCTACGGCCAGCCCTTGGAGAGTGCCTGGCCCGCCTGGCAGCGGCCATGCCTGTGGCCTTCCTGGAGCCTCAGCT
+GAACGAGTACAACGCTTGCTCCGTGTACACCACCAAGTCTCCCCGGGAGCGAGCCATCCTGGGGCTCCCCAACAGCGTGG
+AGGAGATGTGTCCTGACATCCCGGTGCTGGATCGGCTCATGGCAGACATCGGGGGGCTGGCCGAGTCCGGGGCCCGCTAC
+ACGGAGATGCCGCACGTCATCGAGATCACGCTGCCCATGCTCTGCAGCTACCTGCCCCGCTGGTGGGAGCGCGGGCCCGA
+GGCGCCCCCTCCCGCCCTGCCTGCCGGCGCCCCCCCGCCCTGCACGGCTGTCACCTCCGACCACCTCAACTCACTCTTGG
+GGAACATCTTGCGCATCATTGTCAACAACCTGGGCATTGACGAGGCCACCTGGATGAAGCGGCTTGCTGTGTTCGCCCAG
+CCCATCGTGAGCCGGGCGCGGCCTGAGCTCCTGCATTCCCACTTCATCCCCACCATCGGGCGGCTGCGCAAGCGGGCAGG
+CAAGGTGGTGGCCGAGGAGGAGCAGCTGCGGCTGGAGGCCAAGGCCGAGGCCGAGGAGGGCGAGCTCCTGGTGCGGGACG
+AGTTCTCTGTGCTCTGCCGGGACCTGTACGCCCTCTACCCGCTGCTCATCCGCTACGTGGACAACAACAGGGCGCACTGG
+CTGACGGAGCCCAACGCCAACGCCGAGGAGCTGTTCAGGATGGTGGGCGAGATCTTCATCTACTGGTCCAAGTCCCACAA
+CTTCAAGCGTGAGGAGCAGAACTTTGTGGTCCAGAACGAGATCAACAACATGTCCTTCCTGACGGCTGACAGCAAGAGCA
+AGATGGCCAAGGCGGGAGACGCACAGTCGGGCGGCTCGGACCAGGAACGCACCAAGAAGAAGCGCCGGGGGGACAGGTAC
+TCCGTGCAGACGTCACTGATCGTGGCCACGCTGAAGAAGATGCTGCCCATTGGCCTGAACATGTGTGCGCCCACCGACCA
+GGACCTCATCATGCTGGCCAAGACCCGCTACGCCCTGAAAGACACAGACGAGGAGGTCCGGGAATTTCTGCAGAACAACC
+TCCACCTTCAGGGAAAGGTCGAAGGCTCCCCGTCCCTGCGCTGGCAGATGGCGCTGTACCGGGGCCTCCCCGGCCGCGAG
+GAGGACGCCGACGACCCGGAGAAAATCGTGCGCAGGGTCCAAGAAGTGTCAGCGGTGCTCTATCACCTGGAACAGACCGA
+GCACCCCTACAAGTCCAAGAAGGCCGTGTGGCACAAGCTGTTGTCCAAGCAGCGCCGGCGAGCCGTGGTGGCCTGCTTCC
+GTATGACGCCCCTGTACAACCTGCCCACGCACCGGGCCTGTAACATGTTCTTGGAGAGCTACAAAGCCGCCTGGATCCTG
+ACCGAAGATCACAGTTTCGAGGACCGCATGATAGATGATCTTTCAAAAGCTGGGGAGCAGGAGGAGGAGGAGGAGGAAGT
+GGAGGAGAAGAAGCCAGACCCCCTGCACCAGCTGGTCCTGCACTTCAGCCGCACGGCCCTGACTGAAAAGAGCAAACTGG
+ACGAGGACTACCTGTACATGGCATATGCCGACATCATGGCCAAGAGCTGCCACCTGGAGGAGGGAGGGGAGAACGGTGAA
+GCTGAGGAAGAGGAGGTTGAGGTCTCCTTTGAGGAGAAAGAGATGGAGAAGCAGAGGCTCCTCTACCAGCAGTCACGGCT
+GCACACGCGCGGGGCCGCCGAGATGGTGCTGCAGATGATCAGCGCCTGCAAAGGAGAGACAGGTGCCATGGTGTCCTCCA
+CCCTGAAGCTGGGCATCTCCATCCTCAATGGAGGCAATGCCGAGGTGCAGCAGAAAATGCTGGATTATCTGAAGGACAAG
+AAGGAAGTCGGCTTCTTCCAGAGCATCCAGGCGCTGATGCAGACATGCAGCGTCCTGGATCTCAATGCCTTCGAGAGACA
+GAACAAGGCAGAAGGCCTGGGCATGGTGAACGAGGATGGAACCGTCATCAATCGCCAGAACGGAGAGAAGGTTATGGCCG
+ATGACGAATTCACACAAGATCTGTTCCGATTTCTGCAGCTGCTCTGTGAGGGGCACAACAACGATTTCCAAAACTACTTA
+CGGACACAGACGGGCAACACCACCACGATTAACATCATTATCTGCACAGTGGACTACCTCCTGCGGCTGCAGGAGTCCAT
+CAGCGACTTCTACTGGTACTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGGAACTTCTCCAAGGCCATGTCCG
+TGGCCAAACAGGTGTTCAACAGCCTCACCGAGTACATCCAGGGCCCCTGCACCGGGAACCAGCAGAGCCTGGCGCACAGC
+CGCCTCTGGGACGCCGTGGTGGGATTCCTGCACGTGTTTGCCCACATGATGATGAAGCTCGCTCAGGACTCGAGCCAGAT
+CGAGCTGTTGAAGGAGCTGCTGGACCTGCAGAAGGACATGGTGGTGATGCTGCTGTCCCTACTGGAAGGGAACGTGGTGA
+ACGGCATGATTGCCCGGCAGATGGTGGACATGCTGGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCAAGTTCTTCGAC
+ATGTTCCTGAAACTCAAGGACATCGTGGGCTCCGAGGCCTTCCAGGACTACGTCACCGATCCCCGTGGCCTCATCTCCAA
+AAAGGACTTCCAGAAGGCCATGGACAGCCAGAAGCAGTTCACTGGGCCGGAAATCCAGTTTCTGCTCTCGTGCTCCGAAG
+CCGACGAGAATGAGATGATCAACTTCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGGGACATCGGCTTCAACGTG
+GCCGTGCTGCTGACCAACCTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTGGAGCTGGCTGAGAGCAT
+CCTTGAGTACTTCCGGCCCTACCTGGGCCGCATCGAGATCATGGGCGCCTCCCGCCGCATCGAGCGCATCTACTTCGAGA
+TCTCAGAGACCAACCGCGCCCAGTGGGAGATGCCCCAGGTCAAGGAGTCCAAGCGCCAGTTCATCTTCGACGTGGTCAAC
+GAGGGCGGGGAGGCCGAGAAGATGGAGCTGTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAGATCGCCGCGCA
+GATCTCCGAGCCCGAGGGCGAGCCCGAGGCCGACGAGGACGAGGGCATGGGCGAGGCGGCCGCCGAGGGCGCCGAGGAGG
+GCGCGGCGGGCGCCGAGGGCGCGGCGGGCACGGTGGCGGCGGGCGCCACGGCGCGGCTGGCGGCGGCCGCGGCCCGGGCG
+CTGCGCGGCCTCAGCTACCGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACGGCGCGCGAGGCGGCCACGGC
+GCTGGCCGCGCTGCTCTGGGCCGTGGTGGCGCGCGCGGGCGCGGCGGGCGCGGGCGCGGCGGCGGGCGCGCTGCGCCTGC
+TCTGGGGCTCGCTCTTCGGCGGCGGCCTGGTGGAGGGCGCCAAGAAGGTGACGGTGACCGAGCTGCTGGCCGGCATGCCC
+GATCCCACCAGCGACGAGGTGCACGGCGAGCAGCCGGCCGGGCCCGGCGGCGACGCGGACGGCGCGGGCGAGGGCGAAGG
+CGAGGGCGACGCGGCCGAGGGTGACGGCGATGAGGAGGTGGCGGGTCACGAGGCCGGCCCGGGCGGTGCCGAGGGGGTCG
+TGGCCGTGGCCGACGGGGGCCCCTTCCGGCCCGAGGGCGCTGGCGGCCTTGGGGACATGGGCGACACCACGCCGGCGGAA
+CCGCCCACGCCCGAGGGCTCCCCGATCCTCAAGAGGAAGCTGGGGGTGGATGGAGAAGAGGAGGAGCTGGTTCCAGAACC
+GGAGCCCGAGCCCGAGCCTGAGCCTGAGAAAGCCGATGAGGAGAACGGGGAGAAGGAGGAAGTCCCCGAGGCCCCACCAG
+AACCCCCCAAGAAAGCCCCTCCCTCACCTCCTGCAAAGAAGGAGGAAGCCGGAGGCGCCGGCATGGAGTTCTGGGGAGAA
+CTGGAAGTGCAGAGGGTGAAGTTCTTGAACTACCTCTCCCGGAACTTCTACACCCTGCGCTTCCTTGCCCTCTTCTTGGC
+GTTTGCCATCAACTTCATCCTGCTGTTTTATAAGGTCTCAGACTCTCCACCAGGGGAGGATGACATGGAGGGCTCGGCAG
+CAGGGGACCTGGCGGGTGCAGGGTCCGGGGGCGGCTCCGGCTGGGGCTCGGGGGCCGGCGAGGAGGCAGAGGGGGACGAG
+GACGAGAACATGGTATACTACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCGGCCCTGTGGTGCCTGAGCCTGCTGCA
+CACGCTGGTGGCCTTCCTCTGCATCATCGGCTACAACTGCCTCAAGGTGCCCCTGGTGATCTTCAAGCGGGAGAAGGAGC
+TGGCACGAAAGCTGGAGTTTGACGGCCTGTACATCACAGAGCAGCCTGGGGACGACGACGTGAAGGGCCAGTGGGACCGG
+CTGGTGCTCAACACGCCGTCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAGGTCCTGGACAAACACGGGGA
+CATCTTCGGGCGGGAGCGGATTGCCGAGCTGCTGGGCATGGACCTGGCCTCGCTGGAGATCACGGCCCACAACGAGCGCA
+AGCCCGACCCCCCGCCGGGGCTGCTGACCTGGCTCATGTCCATCGATGTCAAGTACCAGATCTGGAAGTTCGGGGTCATC
+TTCACGGACAACTCGTTCCTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGCCACTACAACAACTTCTTCTTTGC
+CGCCCACCTGCTGGACATCGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCCTCTGTCACCCACAATGGGAAACAGC
+TGGTGATGACTGTGGGCCTCCTGGCCGTCGTGGTCTACCTGTACACTGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTAC
+AACAAGAGCGAGGACGAGGACGAGCCGGACATGAAGTGCGATGACATGATGACGTGCTACCTGTTCCACATGTACGTGGG
+CGTCCGGGCTGGCGGAGGCATCGGGGACGAGATCGAGGACCCAGCGGGCGATGAATACGAGCTCTACCGGGTGGTCTTCG
+ACATCACCTTCTTCTTCTTCGTCATTGTCATCCTGCTGGCCATCATCCAGGGTCTGATTATCGACGCCTTCGGCGAGCTC
+CGAGACCAGCAGGAGCAAGTGAAGGAAGATATGGAGACCAAATGCTTCATCTGCGGGATTGGCAGTGACTACTTCGATAC
+CACGCCGCACGGCTTCGAGACCCACACGCTAGAGGAGCACAATCTGGCCAATTACATGTTCTTCTTGATGTATCTGATAA
+ACAAGGACGAGACGGAGCACACGGGCCAGGAGTCCTACGTCTGGAAGATGTATCAGGAGAGGTGCTGGGACTTCTTCCCC
+GCCGGCGACTGCTTCCGCAAGCAGTACGAGGACCAGCTGAGCTGAGACGCCCCGGCTGCCCTCCACCCCACCTCCAGTGC
+CTTCTTCTCACAGCAAGCCCTCCAGACTCCCGGGCAGAGGGATTCCGAACCCGAGAAATAAAAGTCTGTTCCACCCCCTG
+G
+>ref|ref|X62677.1|| O.cuniculus DNA fragment for retrovirus related reverse transcriptase
+TTTAACGTCCTTGGTTAAGTTTATTCCAAGGTATTTGATTGTTTTTGTAGCTATTGTGAATGGGATTGATCTTAGCAGTT
+CTTCCTCAGCCATGGCATTGTCTGTGTATACAAAGGCTGTTGATTTTTGTGCATTGATTTTATACCCTGCTACTTTGCCA
+AAATCTTCTATGAGTTCCAATAGTCTCTTAGTAGAGTTCTTTGGGTCCCCTAAATAAAGAATCATATAATCTGCAAAGAG
+GGATAGTTTGAGTTCTTCCTTCCCAATTTGTATCTCTTTAATTTCTTTTTCTTGCCTAATAGCTCTGGCTAGAACTTCCA
+GAACTATATTGAATAGTAGTGGTGTAAGTGGGCATCCCTGT
+>ref|ref|NM_001101718.1|| Oryctolagus cuniculus ryanodine receptor 1 (RYR1), mRNA
X15209.1 O.cuniculus mRNA for skeletal muscle ryanodine receptor
+GTACAACCGTGACTCTGCACAGGCACTGTTGCAAATGCAGAAAGCACAATATCTCGTTTCACTCAACAACCCTGTGTGGT
+GGGCACGATCATAGCTCCCCTACCAGACCGGGAAATGAGGTCGGAGAGTAACTAGTCTCAACTGACCCAGGGGAGCCCGG
+CCTAAGCTGATGTGGCTCGGAGTTACTGCTTTCAATCACCTCGTGCTGCTGTGGGATCTTCTTGGTGCACATCCGGGCCC
+CGCTGTGTGGTAACCAGCGGGAGTAGCAAATGGGGAGAAAACTCAACGGCCGGCCACACTGGGCTCCCAGGCCCCCGGCT
+GCGAAGACCTGAGCCCCGGCGCGGGGCCTGTGGGCGGGGCTCCGACGAGGGGCGTGGCCTGCGTGCCCTGGCCCAATGGG
+GGTTTTAGGGCGGGGACTTCCTTCCTTCCCTGTCCAGCACGCGTGTCTTCCTCGCAGTTCCATCTACCCTGCCGGTGCCT
+CCGGCGTCCCCAGAGGTCTCCGACCCCAGCCCGCCCCCAGCCCACCTGTCCAGCCTGCGGCCTCTTCTCACTACCCCCCC
+GACCTCAGCCCGGGTCCCGCGGGCCTCGACATCATGGGTGACGGAGGAGAGGGCGAGGACGAAGTCCAGTTCCTGCGGAC
+GGACGACGAGGTGGTCCTGCAGTGCAGCGCCACCGTCCTCAAGGAGCAGCTGAAGCTGTGCCTGGCCGCCGAGGGCTTCG
+GCAACCGCCTCTGCTTCCTGGAGCCCACCAGCAACGCCCAGAATGTGCCCCCCGACCTGGCCATCTGCTGCTTCACCCTG
+GAGCAGTCCCTGTCGGTCCGCGCCCTGCAGGAGATGCTGGCCAACACCGTGGAGGCTGGCGTGGAGTCATCCCAGGGCGG
+GGGACACAGGACACTCCTGTATGGCCATGCCATCCTGCTCCGGCATGCACACAGCCGCATGTACCTGAGCTGCCTCACTA
+CCTCGCGCTCCATGACTGACAAGCTGGCTTTTGACGTGGGACTGCAGGAGGATGCAACAGGAGAGGCCTGTTGGTGGACC
+ATGCACCCAGCCTCCAAGCAGAGATCGGAAGGAGAGAAGGTCCGCGTCGGGGACGACCTCATCCTTGTCAGCGTCTCCTC
+CGAGCGCTACCTGCACCTGTCGACGGCCAGTGGGGAGCTCCAGGTTGATGCCTCCTTCATGCAGACCCTGTGGAACATGA
+ACCCCATCTGCTCCTGCTGTGAAGAGGGCTACGTGACTGGGGGCCACGTCCTCCGCCTCTTCCACGGACACATGGACGAG
+TGCTTGACTATTTCTGCTGCTGACAGCGACGACCAGCGCAGGCTTGTCTACTACGAGGGGGGAGCTGTGTGCACGCACGC
+CCGCTCCCTCTGGAGGCTGGAACCCCTGAGAATCAGCTGGAGTGGAAGCCACCTGCGCTGGGGCCAGCCACTGCGGATCC
+GGCATGTCACCACCGGACGGTACCTGGCACTCACCGAGGACCAGGGCCTGGTGGTGGTCGATGCCTGCAAGGCCCACACC
+AAGGCCACCTCCTTCTGTTTCCGTGTCTCCAAGGAGAAGCTGGACACGGCCCCCAAGCGAGACGTGGAGGGCATGGGCCC
+GCCTGAGATCAAGTACGGGGAGTCGCTGTGCTTTGTGCAGCACGTGGCCTCGGGCCTGTGGCTCACCTACGCCGCCCCTG
+ACCCCAAGGCCCTGCGGCTGGGCGTGCTGAAGAAGAAGGCCATTCTGCACCAGGAGGGCCACATGGACGATGCACTGTTC
+CTGACCCGCTGCCAGCAGGAGGAGTCCCAGGCTGCCCGCATGATCCACAGCACTGCCGGCCTGTACAACCAGTTCATCAA
+GGGCCTGGACAGCTTCAGCGGGAAGCCCCGGGGCTCAGGGCCGCCGGCTGGCCCTGCGCTGCCCATCGAGGCCGTCATCC
+TGAGCCTGCAGGACCTCATTGGCTACTTCGAGCCGCCCTCGGAGGAGCTGCAGCACGAGGAAAAGCAGAGCAAGCTGCGC
+AGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGGGATGCTCTCCCTGGTCCTGAACTGCATCGACCGCCTGAACGT
+CTACACCACCGCTGCCCACTTTGCCGAGTATGCAGGGGAAGAGGCAGCTGAGTCCTGGAAAGAGATTGTTAACCTACTCT
+ACGAACTCCTGGCCTCTCTGATCCGGGGCAATCGTGCCAACTGTGCCCTCTTCTCCACAAACTTGGACTGGGTGGTCAGC
+AAACTGGACCGGCTGGAGGCCTCGTCTGGCATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCCGAGGTGCTGAA
+CATCATCCAGGAGAACCACATCAAGTCCATCATCTCCCTCCTGGACAAGCATGGGAGGAACCACAAGGTTCTGGATGTGC
+TGTGCTCCCTGTGTGTGTGCAATGGCGTGGCTGTGCGCTCCAACCAAGATCTCATCACCGAGAATCTGCTCCCTGGCCGT
+GAGCTGCTGCTGCAGACAAACCTTATCAACTACGTCACCAGCATCCGCCCCAACATCTTCGTGGGCCGAGCCGAGGGCTC
+CACGCAGTATGGCAAATGGTACTTTGAGGTGATGGTGGACGAGGTGGTTCCATTTCTGACAGCTCAGGCCACCCATCTGC
+GGGTGGGCTGGGCCCTCACCGAGGGCTACAGCCCCTACCCTGGCGGCGGCGAGGGCTGGGGCGGCAATGGGGTCGGCGAT
+GACCTCTACTCCTATGGCTTTGACGGGCTGCACCTCTGGACAGGACACGTGGCACGCCCGGTGACCTCCCCCGGGCAGCA
+CCTCCTGGCCCCTGAGGACGTGGTCAGCTGCTGCCTGGACCTCAGCGTGCCGTCCATCTCCTTCCGCATCAATGGCTGCC
+CCGTGCAGGGTGTCTTTGAGGCCTTCAACCTGGATGGGCTCTTCTTCCCTGTGGTCAGCTTCTCGGCTGGTGTCAAGGTG
+CGGTTTCTCCTTGGCGGCCGCCATGGTGAATTCAAGTTCCTGCCCCCACCCGGCTACGCCCCATGCCATGAGGCAGTGCT
+CCCGCGAGAGCGACTCCGTCTTGAGCCCATCAAGGAGTACAGACGGGAAGGGCCGCGGGGGCCCCACCTGGTGGGCCCCA
+GCCGCTGCCTCTCGCACACTGACTTTGTGCCCTGCCCGGTGGACACCGTCCAGATCGTCCTGCCTCCCCACCTGGAGCGC
+ATCCGTGAGAAGCTGGCAGAGAACATCCATGAACTCTGGGCGCTGACGCGCATTGAGCAAGGCTGGACCTATGGCCCGGT
+TCGGGATGACAACAAGAGGCTGCACCCGTGTCTTGTGAACTTCCACAGCCTTCCGGAGCCCGAGAGGAATTACAACCTGC
+AGATGTCGGGCGAGACTCTCAAGACTCTGCTGGCGCTGGGCTGCCACGTGGGCATGGCCGACGAGAAGGCGGAGGACAAC
+CTGAAGAAGACAAAGCTGCCCAAGACGTATATGATGAGCAATGGGTACAAGCCAGCCCCGCTGGACTTGAGCCATGTGCG
+ACTGACACCCGCACAGACGACACTGGTGGACCGGCTGGCAGAGAATGGGCACAACGTGTGGGCACGAGACCGAGTGGCCC
+AGGGCTGGAGCTACAGCGCCGTGCAGGACATCCCGGCTCGCCGGAACCCTCGCCTTGTGCCCTACCGCCTGCTGGACGAG
+GCCACCAAGCGCAGCAACCGGGACAGCCTCTGCCAGGCCGTGCGCACCCTGCTGGGCTATGGCTACAACATCGAGCCACC
+TGACCAGGAGCCCAGTCAGGTGGAGAACCAGTCTCGCTGGGACCGGGTGCGCATCTTCCGGGCAGAGAAATCCTACACAG
+TGCAGAGTGGCCGCTGGTACTTCGAGTTTGAGGCCGTCACCACAGGCGAGATGCGAGTGGGCTGGGCGAGGCCCGAGCTG
+CGGCCTGACGTCGAGCTGGGAGCGGATGAGCTGGCCTACGTCTTCAACGGGCACCGTGGTCAGCGCTGGCACTTGGGCAG
+TGAGCCGTTCGGGCGGCCCTGGCAGTCAGGCGATGTCGTCGGCTGCATGATCGACCTCACCGAGAACACCATCATCTTCA
+CCCTCAACGGCGAGGTCCTCATGTCTGACTCGGGCTCCGAAACAGCCTTCCGGGAGATCGAGATTGGGGACGGCTTCCTG
+CCTGTCTGCAGCTTGGGACCTGGCCAGGTGGGTCACCTGAACCTGGGCCAGGATGTGAGCTCCCTGCGGTTCTTTGCCAT
+CTGCGGCCTCCAGGAAGGCTTTGAGCCATTCGCCATCAACATGCAGCGCCCTGTCACCACGTGGTTCAGCAAAAGCCTTC
+CCCAGTTTGAGCCTGTGCCCCCTGAACACCCGCACTATGAGGTGGCGCGCATGGATGGCACTGTGGACACGCCCCCCTGT
+CTGCGCCTGGCTCACCGCACCTGGGGCTCCCAGAACAGCCTGGTGGAGATGCTGTTCCTCCGGCTGAGCCTTCCGGTCCA
+GTTCCATCAGCACTTCCGTTGCACCGCAGGGGCCACGCCCTTGGCACCTCCCGGCCTGCAACCCCCGGCGGAGGACGAGG
+CCCGGGCAGCAGAACCCGACCCTGACTACGAAAACCTGCGCCGCTCAGCTGGGGGCTGGGGCGAGGCTGAAGGGGGCAAA
+GAGGGAACTGCCAAGGAGGGGACACCCGGGGGCACCCCCCAGCCTGGGGTGGAGGCCCAGCCCGTCAGGGCGGAGAACGA
+GAAGGATGCCACCACGGAGAAGAACAAGAAGAGAGGGTTCTTATTCAAGGCCAAGAAGGCCGCCATGATGACTCAGCCAC
+CAGCCACCCCTGCTCTGCCCCGGCTCCCTCACGACGTGGTGCCTGCTGACAACCGCGATGACCCCGAGATCATCCTCAAC
+ACCACCACGTACTATTACTCCGTGAGGGTCTTCGCGGGTCAGGAGCCCAGCTGCGTATGGGTGGGCTGGGTCACCCCCGA
+CTACCATCAGCACGACATGAACTTTGACCTCAGCAAGGTCCGGGCAGTGACGGTGACCATGGGGGATGAACAAGGCAACG
+TCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGGTGTGGGGTGGGGACTTCGTGAGCCCTGGGCAGCAGGGCCGGATC
+AGCCACACGGACCTTGTCATTGGCTGCCTGGTGGACCTGGCCACTGGCTTAATGACCTTCACGGCCAATGGCAAAGAGAG
+CAACACCTTTTTCCAGGTGGAACCCAACACAAAGCTCTTTCCTGCCGTGTTTGTCCTGCCCACGCACCAGAACGTCATCC
+AATTTGAGCTGGGGAAGCAGAAGAACATCATGCCGCTGTCCGCCGCCATGTTCCTGAGCGAGCGCAAGAACCCAGCGCCA
+CAGTGTCCACCACGGCTGGAGGTGCAGATGCTGATGCCCGTGTCCTGGAGCCGCATGCCCAACCACTTCCTGCAGGTGGA
+GACGCGGCGCGCTGGCGAGCGCCTTGGCTGGGCCGTGCAGTGCCAGGATCCCCTGACCATGATGGCGCTGCACATTCCGG
+AGGAGAACCGGTGCATGGACATCCTGGAGCTGTCCGAGCGCCTGGACCTGCAGCGCTTCCACTCGCACACGCTGCGCCTC
+TACCGCGCCGTGTGCGCCCTGGGCAACAACCGTGTGGCGCATGCTCTGTGCAGCCACGTGGACCAGGCGCAGCTGCTGCA
+CGCGCTGGAGGACGCGCACCTGCCCGGCCCCCTGCGCGCGGGCTACTACGACCTCCTCATCAGCATCCACCTGGAAAGTG
+CCTGCCGCAGCCGGCGCTCCATGCTCTCCGAGTACATCGTGCCGCTCACGCCCGAGACCCGCGCCATCACGCTCTTCCCG
+CCGGGAAGGAAGGGGGGAAACGCCCGCCGCCACGGCCTGCCCGGCGTCGGCGTCACCACCTCGCTGCGGCCTCCGCACCA
+TTTCTCCCCTCCGTGCTTCGTGGCCGCCCTGCCCGCCGCCGGGGTAGCGGAAGCCCCGGCCCGCCTCAGCCCTGCCATTC
+CTCTGGAGGCCCTGCGCGACAAGGCGCTGAGGATGCTGGGAGAGGCCGTGCGCGATGGCGGGCAGCACGCCCGCGACCCC
+GTCGGGGGCTCCGTGGAGTTCCAGTTCGTGCCGGTGCTCAAGCTCGTGTCCACCCTGCTGGTGATGGGCATCTTTGGCGA
+TGAGGATGTGAAGCAGATCTTAAAGATGATAGAACCTGAAGTTTTCACCGAGGAAGAGGAGGAGGAAGAAGAGGAGGAGG
+AGGAAGAAGAGGAGGAAGAGGAGGACGAAGAGGAAAAGGAAGAGGACGAGGAGGAAGAGGAGAAGGAAGATGCTGAAAAA
+GAGGAAGAGGAGGCCCCGGAAGGGGAAAAAGAAGATTTGGAGGAGGGGCTGCTCCAGATGAAGTTGCCGGAGTCCGTGAA
+GCTACAGATGTGCAACCTCCTGGAGTATTTCTGTGACCAAGAGCTACAGCATCGAGTGGAGTCCCTGGCGGCCTTCGCAG
+AGCGCTACGTGGACAAGCTCCAGGCCAACCAGCGCAGCCGCTACGCCCTCCTCATGAGAGCCTTCACCATGAGTGCAGCT
+GAGACCGCAAGGCGCACCCGCGAGTTCCGCTCCCCGCCCCAGGAGCAGATCAACATGCTCTTGCACTTCAAAGATGAGGC
+AGATGAGGAAGACTGCCCTCTCCCCGAGGACATTCGACAGGACTTGCAGGACTTTCATCAAGACCTGCTGGCGCACTGTG
+GAATCCAGCTGGAGGGGGAGGAGGAGGAGCCGGAGGAGGAGACCAGCCTGAGCAGCCGCCTCCGGAGCCTGTTGGAGACG
+GTGCGGCTGGTGAAGAAGAAGGAGGAAAAACCCGAGGAGGAGCTGCCAGCCGAGGAGAAAAAACCCCAGTCCCTGCAGGA
+GCTGGTGTCCCACATGGTGGTGCGCTGGGCCCAGGAGGACTACGTGCAGAGCCCTGAGCTGGTGCGGGCCATGTTCAGCC
+TCCTGCACCGGCAGTACGATGGGCTCGGCGAGCTGCTGCGCGCCCTGCCCCGGGCCTACACCATCTCGCCGTCCTCTGTG
+GAGGACACCATGAGCCTGCTCGAGTGCCTCGGCCAGATCCGCTCGCTGCTCATCGTGCAGATGGGCCCCCAGGAGGAGAA
+CCTCATGATCCAGAGCATTGGGAACATCATGAATAACAAAGTCTTCTACCAACACCCGAACCTGATGAGGGCCCTGGGCA
+TGCATGAGACCGTCATGGAGGTCATGGTGAACGTCCTGGGGGGCGGCGAAACCAAGGAGATCCGCTTCCCCAAGATGGTG
+ACAAGCTGCTGCCGCTTCCTCTGCTACTTCTGCCGCATCAGCCGGCAGAACCAGCGCTCCATGTTTGACCACCTGAGCTA
+CCTGCTGGAGAACAGCGGCATCGGCCTGGGTATGCAAGGCTCCACGCCCCTGGATGTGGCTGCCGCCTCCGTTATCGACA
+ACAACGAGCTGGCCTTGGCGTTGCAGGAGCAGGACCTGGAAAAGGTCGTGTCCTACCTGGCAGGCTGTGGCCTCCAAAGC
+TGCCCCATGCTCCTGGCCAAGGGCTACCCGGACATCGGCTGGAACCCCTGCGGTGGGGAGCGCTACCTGGACTTCCTGCG
+CTTCGCTGTCTTTGTTAACGGCGAGAGCGTGGAGGAGAACGCCAACGTGGTGGTGCGGCTGCTCATCCGCAAACCTGAGT
+GCTTCGGGCCTGCGCTGCGGGGTGAGGGCGGCTCGGGGCTGCTGGCCGCCATCGAGGAGGCCATCCGCATCTCTGAGGAC
+CCCGCGCGGGACGGCCCAGGCGTCCGCAGGGACCGGCGGCGCGAGCACTTTGGGGAGGAGCCCCCTGAAGAAAACCGCGT
+GCACCTGGGCCACGCCATCATGTCCTTCTATGCTGCCTTGATCGACCTGCTGGGCCGCTGTGCTCCGGAGATGCATCTGA
+TCCAAGCCGGCAAGGGTGAGGCCCTGCGAATCCGCGCCATCCTTCGCTCCCTCGTGCCCCTGGACGACCTCGTGGGCATC
+ATCAGCCTCCCGCTGCAGATCCCCACCCTGGGCAAAGACGGGGCCCTGGTGCAGCCGAAGATGTCGGCCTCCTTCGTGCC
+GGACCACAAGGCATCCATGGTGCTCTTCCTGGACCGCGTGTACGGCATTGAGAACCAGGACTTCCTGCTGCACGTGCTGG
+ACGTGGGGTTCCTTCCCGACATGAGAGCTGCCGCCTCGCTGGACACGGCCACTTTCAGCACCACGGAGATGGCGCTGGCG
+CTGAACCGCTACCTGTGCCTGGCTGTGCTGCCGCTCATCACCAAGTGTGCGCCGCTCTTTGCGGGCACGGAGCACCGTGC
+CATCATGGTGGACTCGATGCTGCACACCGTGTACCGCCTGTCGCGCGGCCGCTCGCTCACCAAGGCGCAGCGCGACGTCA
+TCGAGGACTGTCTCATGGCGCTGTGCAGGTACATCCGCCCGTCCATGCTGCAGCACCTGCTGCGGCGCCTGGTGTTCGAC
+GTGCCCATCCTGAACGAGTTCGCCAAGATGCCGCTCAAGCTCCTCACCAACCACTACGAGCGCTGCTGGAAGTACTACTG
+CCTCCCCACGGGCTGGGCCAACTTCGGGGTCACCTCGGAGGAGGAGCTGCACCTCACACGCAAACTCTTCTGGGGCATCT
+TCGACTCTCTGGCCCACAAGAAGTACGACCAGGAGCTGTACCGCATGGCCATGCCTTGTCTGTGCGCCATCGCGGGGGCC
+CTGCCTCCCGACTACGTGGACGCTTCGTACTCTTCCAAGGCGGAGAAAAAGGCCACAGTGGATGCTGAAGGCAACTTTGA
+TCCCCGGCCTGTGGAGACCCTCAATGTGATCATCCCGGAGAAGCTCGACTCCTTCATCAACAAGTTTGCCGAATACACGC
+ACGAGAAGTGGGCCTTCGACAAGATCCAGAACAACTGGTCGTACGGAGAGAACGTGGATGAGGAACTGAAGACCCACCCC
+ATGCTGAGGCCCTACAAGACCTTTTCGGAGAAGGACAAAGAGATCTACCGCTGGCCCATCAAGGAGTCCCTGAAGGCCAT
+GATTGCCTGGGAGTGGACGATCGAGAAGGCCAGGGAAGGCGAGGAGGAGAGGACGGAGAAGAAAAAGACACGGAAGATTT
+CCCAGACTGCCCAGACCTACGATCCCCGAGAAGGCTACAACCCGCAGCCCCCCGACCTCAGCGGAGTCACCCTGTCTCGG
+GAGTTGCAGGCCATGGCCGAACAACTGGCGGAAAACTACCATAACACCTGGGGGAGAAAGAAGAAGCAGGAGCTGGAAGC
+CAAGGGCGGCGGGACCCACCCCCTGCTGGTCCCCTACGACACGCTCACGGCCAAGGAGAAAGCGCGAGACCGAGAGAAGG
+CCCAGGAGCTGCTGAAGTTCCTGCAGATGAACGGCTACGCGGTCACCAGAGGCCTGAAGGACATGGAGCTGGACACGTCT
+TCCATTGAGAAGCGGTTCGCCTTTGGCTTCCTGCAGCAGTTGCTGCGCTGGATGGACATTTCGCAGGAGTTCATTGCCCA
+CCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGAGAAGTCCCCACACGAACAGGAGATTAAATTCTTTGCCAAGATCCTGC
+TCCCTTTGATTAACCAGTACTTCACCAACCACTGCCTCTACTTCCTGTCCACACCCGCCAAAGTGCTGGGCAGTGGTGGC
+CATGCCTCCAACAAGGAGAAGGAGATGATCACCAGCCTCTTCTGCAAACTCGCTGCCCTTGTCCGCCACCGAGTCTCTCT
+CTTCGGCACAGACGCCCCGGCTGTGGTCAACTGCCTTCACATCCTGGCACGCTCCCTGGATGCCAGGACGGTGATGAAGT
+CGGGCCCCGAGATCGTCAAGGCCGGCCTCCGCTCCTTCTTTGAGAGCGCCTCGGAGGACATCGAGAAGATGGTGGAGAAC
+TTGCGGCTGGGCAAGGTGTCCCAGGCGCGCACGCAGGTGAAGGGCGTGGGCCAGAACCTCACCTACACCACCGTGGCCCT
+GCTGCCCGTCCTCACCACGCTCTTCCAGCACATCGCCCAGCACCAGTTCGGCGACGACGTCATCCTGGATGACGTGCAGG
+TGTCTTGCTACCGAACATTGTGCAGCATCTACTCTCTGGGGACCACCAAGAACACTTATGTGGAAAAGCTACGGCCAGCC
+CTTGGAGAGTGCCTGGCCCGCCTGGCAGCGGCCATGCCTGTGGCCTTCCTGGAGCCTCAGCTGAACGAGTACAACGCTTG
+CTCCGTGTACACCACCAAGTCTCCCCGGGAGCGAGCCATCCTGGGGCTCCCCAACAGCGTGGAGGAGATGTGTCCTGACA
+TCCCGGTGCTGGATCGGCTCATGGCAGACATCGGGGGGCTGGCCGAGTCCGGGGCCCGCTACACGGAGATGCCGCACGTC
+ATCGAGATCACGCTGCCCATGCTCTGCAGCTACCTGCCCCGCTGGTGGGAGCGCGGGCCCGAGGCGCCCCCTCCCGCCCT
+GCCTGCCGGCGCCCCCCCGCCCTGCACGGCTGTCACCTCCGACCACCTCAACTCACTCTTGGGGAACATCTTGCGCATCA
+TTGTCAACAACCTGGGCATTGACGAGGCCACCTGGATGAAGCGGCTTGCTGTGTTCGCCCAGCCCATCGTGAGCCGGGCG
+CGGCCTGAGCTCCTGCATTCCCACTTCATCCCCACCATCGGGCGGCTGCGCAAGCGGGCAGGCAAGGTGGTGGCCGAGGA
+GGAGCAGCTGCGGCTGGAGGCCAAGGCCGAGGCCGAGGAGGGCGAGCTCCTGGTGCGGGACGAGTTCTCTGTGCTCTGCC
+GGGACCTGTACGCCCTCTACCCGCTGCTCATCCGCTACGTGGACAACAACAGGGCGCACTGGCTGACGGAGCCCAACGCC
+AACGCCGAGGAGCTGTTCAGGATGGTGGGCGAGATCTTCATCTACTGGTCCAAGTCCCACAACTTCAAGCGTGAGGAGCA
+GAACTTTGTGGTCCAGAACGAGATCAACAACATGTCCTTCCTGACGGCTGACAGCAAGAGCAAGATGGCCAAGGCGGGAG
+ACGCACAGTCGGGCGGCTCGGACCAGGAACGCACCAAGAAGAAGCGCCGGGGGGACAGGTACTCCGTGCAGACGTCACTG
+ATCGTGGCCACGCTGAAGAAGATGCTGCCCATTGGCCTGAACATGTGTGCGCCCACCGACCAGGACCTCATCATGCTGGC
+CAAGACCCGCTACGCCCTGAAAGACACAGACGAGGAGGTCCGGGAATTTCTGCAGAACAACCTCCACCTTCAGGGAAAGG
+TCGAAGGCTCCCCGTCCCTGCGCTGGCAGATGGCGCTGTACCGGGGCCTCCCCGGCCGCGAGGAGGACGCCGACGACCCG
+GAGAAAATCGTGCGCAGGGTCCAAGAAGTGTCAGCGGTGCTCTATCACCTGGAACAGACCGAGCACCCCTACAAGTCCAA
+GAAGGCCGTGTGGCACAAGCTGTTGTCCAAGCAGCGCCGGCGAGCCGTGGTGGCCTGCTTCCGTATGACGCCCCTGTACA
+ACCTGCCCACGCACCGGGCCTGTAACATGTTCTTGGAGAGCTACAAAGCCGCCTGGATCCTGACCGAAGATCACAGTTTC
+GAGGACCGCATGATAGATGATCTTTCAAAAGCTGGGGAGCAGGAGGAGGAGGAGGAGGAAGTGGAGGAGAAGAAGCCAGA
+CCCCCTGCACCAGCTGGTCCTGCACTTCAGCCGCACGGCCCTGACTGAAAAGAGCAAACTGGACGAGGACTACCTGTACA
+TGGCATATGCCGACATCATGGCCAAGAGCTGCCACCTGGAGGAGGGAGGGGAGAACGGTGAAGCTGAGGAAGAGGAGGTT
+GAGGTCTCCTTTGAGGAGAAAGAGATGGAGAAGCAGAGGCTCCTCTACCAGCAGTCACGGCTGCACACGCGCGGGGCCGC
+CGAGATGGTGCTGCAGATGATCAGCGCCTGCAAAGGAGAGACAGGTGCCATGGTGTCCTCCACCCTGAAGCTGGGCATCT
+CCATCCTCAATGGAGGCAATGCCGAGGTGCAGCAGAAAATGCTGGATTATCTGAAGGACAAGAAGGAAGTCGGCTTCTTC
+CAGAGCATCCAGGCGCTGATGCAGACATGCAGCGTCCTGGATCTCAATGCCTTCGAGAGACAGAACAAGGCAGAAGGCCT
+GGGCATGGTGAACGAGGATGGAACCGTCATCAATCGCCAGAACGGAGAGAAGGTTATGGCCGATGACGAATTCACACAAG
+ATCTGTTCCGATTTCTGCAGCTGCTCTGTGAGGGGCACAACAACGATTTCCAAAACTACTTACGGACACAGACGGGCAAC
+ACCACCACGATTAACATCATTATCTGCACAGTGGACTACCTCCTGCGGCTGCAGGAGTCCATCAGCGACTTCTACTGGTA
+CTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGGAACTTCTCCAAGGCCATGTCCGTGGCCAAACAGGTGTTCA
+ACAGCCTCACCGAGTACATCCAGGGCCCCTGCACCGGGAACCAGCAGAGCCTGGCGCACAGCCGCCTCTGGGACGCCGTG
+GTGGGATTCCTGCACGTGTTTGCCCACATGATGATGAAGCTCGCTCAGGACTCGAGCCAGATCGAGCTGTTGAAGGAGCT
+GCTGGACCTGCAGAAGGACATGGTGGTGATGCTGCTGTCCCTACTGGAAGGGAACGTGGTGAACGGCATGATTGCCCGGC
+AGATGGTGGACATGCTGGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCAAGTTCTTCGACATGTTCCTGAAACTCAAG
+GACATCGTGGGCTCCGAGGCCTTCCAGGACTACGTCACCGATCCCCGTGGCCTCATCTCCAAAAAGGACTTCCAGAAGGC
+CATGGACAGCCAGAAGCAGTTCACTGGGCCGGAAATCCAGTTTCTGCTCTCGTGCTCCGAAGCCGACGAGAATGAGATGA
+TCAACTTCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGGGACATCGGCTTCAACGTGGCCGTGCTGCTGACCAAC
+CTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTGGAGCTGGCTGAGAGCATCCTTGAGTACTTCCGGCC
+CTACCTGGGCCGCATCGAGATCATGGGCGCCTCCCGCCGCATCGAGCGCATCTACTTCGAGATCTCAGAGACCAACCGCG
+CCCAGTGGGAGATGCCCCAGGTCAAGGAGTCCAAGCGCCAGTTCATCTTCGACGTGGTCAACGAGGGCGGGGAGGCCGAG
+AAGATGGAGCTGTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAGATCGCCGCGCAGATCTCCGAGCCCGAGGG
+CGAGCCCGAGGCCGACGAGGACGAGGGCATGGGCGAGGCGGCCGCCGAGGGCGCCGAGGAGGGCGCGGCGGGCGCCGAGG
+GCGCGGCGGGCACGGTGGCGGCGGGCGCCACGGCGCGGCTGGCGGCGGCCGCGGCCCGGGCGCTGCGCGGCCTCAGCTAC
+CGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACGGCGCGCGAGGCGGCCACGGCGCTGGCCGCGCTGCTCTG
+GGCCGTGGTGGCGCGCGCGGGCGCGGCGGGCGCGGGCGCGGCGGCGGGCGCGCTGCGCCTGCTCTGGGGCTCGCTCTTCG
+GCGGCGGCCTGGTGGAGGGCGCCAAGAAGGTGACGGTGACCGAGCTGCTGGCCGGCATGCCCGATCCCACCAGCGACGAG
+GTGCACGGCGAGCAGCCGGCCGGGCCCGGCGGCGACGCGGACGGCGCGGGCGAGGGCGAAGGCGAGGGCGACGCGGCCGA
+GGGTGACGGCGATGAGGAGGTGGCGGGTCACGAGGCCGGCCCGGGCGGTGCCGAGGGGGTCGTGGCCGTGGCCGACGGGG
+GCCCCTTCCGGCCCGAGGGCGCTGGCGGCCTTGGGGACATGGGCGACACCACGCCGGCGGAACCGCCCACGCCCGAGGGC
+TCCCCGATCCTCAAGAGGAAGCTGGGGGTGGATGGAGAAGAGGAGGAGCTGGTTCCAGAACCGGAGCCCGAGCCCGAGCC
+TGAGCCTGAGAAAGCCGATGAGGAGAACGGGGAGAAGGAGGAAGTCCCCGAGGCCCCACCAGAACCCCCCAAGAAAGCCC
+CTCCCTCACCTCCTGCAAAGAAGGAGGAAGCCGGAGGCGCCGGCATGGAGTTCTGGGGAGAACTGGAAGTGCAGAGGGTG
+AAGTTCTTGAACTACCTCTCCCGGAACTTCTACACCCTGCGCTTCCTTGCCCTCTTCTTGGCGTTTGCCATCAACTTCAT
+CCTGCTGTTTTATAAGGTCTCAGACTCTCCACCAGGGGAGGATGACATGGAGGGCTCGGCAGCAGGGGACCTGGCGGGTG
+CAGGGTCCGGGGGCGGCTCCGGCTGGGGCTCGGGGGCCGGCGAGGAGGCAGAGGGGGACGAGGACGAGAACATGGTATAC
+TACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCGGCCCTGTGGTGCCTGAGCCTGCTGCACACGCTGGTGGCCTTCCT
+CTGCATCATCGGCTACAACTGCCTCAAGGTGCCCCTGGTGATCTTCAAGCGGGAGAAGGAGCTGGCACGAAAGCTGGAGT
+TTGACGGCCTGTACATCACAGAGCAGCCTGGGGACGACGACGTGAAGGGCCAGTGGGACCGGCTGGTGCTCAACACGCCG
+TCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAGGTCCTGGACAAACACGGGGACATCTTCGGGCGGGAGCG
+GATTGCCGAGCTGCTGGGCATGGACCTGGCCTCGCTGGAGATCACGGCCCACAACGAGCGCAAGCCCGACCCCCCGCCGG
+GGCTGCTGACCTGGCTCATGTCCATCGATGTCAAGTACCAGATCTGGAAGTTCGGGGTCATCTTCACGGACAACTCGTTC
+CTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGCCACTACAACAACTTCTTCTTTGCCGCCCACCTGCTGGACAT
+CGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCCTCTGTCACCCACAATGGGAAACAGCTGGTGATGACTGTGGGCC
+TCCTGGCCGTCGTGGTCTACCTGTACACTGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAG
+GACGAGCCGGACATGAAGTGCGATGACATGATGACGTGCTACCTGTTCCACATGTACGTGGGCGTCCGGGCTGGCGGAGG
+CATCGGGGACGAGATCGAGGACCCAGCGGGCGATGAATACGAGCTCTACCGGGTGGTCTTCGACATCACCTTCTTCTTCT
+TCGTCATTGTCATCCTGCTGGCCATCATCCAGGGTCTGATTATCGACGCCTTCGGCGAGCTCCGAGACCAGCAGGAGCAA
+GTGAAGGAAGATATGGAGACCAAATGCTTCATCTGCGGGATTGGCAGTGACTACTTCGATACCACGCCGCACGGCTTCGA
+GACCCACACGCTAGAGGAGCACAATCTGGCCAATTACATGTTCTTCTTGATGTATCTGATAAACAAGGACGAGACGGAGC
+ACACGGGCCAGGAGTCCTACGTCTGGAAGATGTATCAGGAGAGGTGCTGGGACTTCTTCCCCGCCGGCGACTGCTTCCGC
+AAGCAGTACGAGGACCAGCTGAGCTGAGACGCCCCGGCTGCCCTCCACCCCACCTCCAGTGCCTTCTTCTCACAGCAAGC
+CCTCCAGACTCCCGGGCAGAGGGATTCCGAACCCGAGAAATAAAAGTCTGTTCCACCCCCTGG
+>ref|ref|X58291.1|| Rabbit intron from SERCA2 gene for CaMg ATPase
+GTGAGTGTCGGGTCCTGGGGGGTGAGCAGCCGCCTCCGCGAGTCGGGAGCCTGACAGGGCCCTGGGTGCCAG
+>ref|ref|NM_001101692.1|| Oryctolagus cuniculus solute carrier family 5 member 1 (SLC5A1), mRNA
X55355.1 Rabbit mRNA for cortical sodium-D-glucose cotransporter
+TGTCGTCGCCGCCGCCACGCCGCCATGGACAGCAGCACTTTGAGCCCCCTGACCACCTCCACCGCGGCCCCCCTTGAGTC
+CTATGAGCGCATCCGCAATGCGGCCGACATCTCCGTCATCGTCATCTACTTCTTGGTGGTGATGGCCGTCGGGCTGTGGG
+CTATGTTTTCCACCAATCGGGGGACGGTCGGAGGCTTCTTCTTGGCGGGTCGGAGTATGGTGTGGTGGCCGATCGGAGCC
+TCTCTGTTTGCCAGTAACATTGGAAGTGGCCACTTTGTGGGGCTGGCCGGGACGGGAGCTGCTTCAGGCATTGCCACTGG
+GGGCTTTGAGTGGAACGCCCTGATCATGGTGGTCGTGCTGGGCTGGGTGTTTGTCCCCATTTACATCAGGGCTGGGGTGG
+TGACGATGCCAGAGTATCTGCAGAAGCGGTTTGGAGGCAAGAGGATCCAGATCTACCTTTCCATTCTGTCCCTGTTGCTC
+TACATTTTTACCAAGATCTCGGCAGACATCTTTTCCGGAGCCATCTTCATCCAGCTGACCTTGGGCCTGGATATCTATGT
+GGCCATCATTATCTTATTGGTCATCACTGGGCTCTACACCATCACAGGGGGCTTGGCCGCTGTGATCTACACGGATACCT
+TGCAGACTGCCATCATGATGGTGGGCTCTGTGATCCTGACTGGGTTCGCTTTTCACGAAGTAGGAGGGTACGAGGCCTTC
+ACGGAGAAGTACATGCGAGCCATTCCCAGCCAGATCTCCTACGGAAACACCTCCATCCCACAGAAGTGCTACACCCCAAG
+GGAAGACGCCTTCCACATCTTCCGAGATGCCATCACTGGGGACATCCCCTGGCCCGGGCTCGTCTTTGGAATGAGCATCC
+TCACCCTTTGGTACTGGTGCACTGATCAGGTCATTGTGCAGCGTTGCCTGTCAGCCAAGAACTTGTCCCACGTGAAGGCC
+GGCTGCATTCTGTGTGGGTACCTGAAGGTGATGCCTATGTTCCTCATAGTGATGATGGGGATGGTGAGCCGTATCCTGTA
+CACAGACAAAGTTGCCTGCGTCGTGCCCTCGGAATGTGAGAGATACTGTGGCACCAGGGTTGGCTGCACCAACATTGCCT
+TCCCAACCTTGGTGGTGGAGCTGATGCCCAATGGGCTGCGGGGCCTGATGCTGTCCGTCATGATGGCGTCTCTTATGAGC
+TCCCTGACCTCCATCTTCAACAGCGCCAGCACCCTCTTCACCATGGACATCTACACCAAGATCCGGAAGAAAGCATCTGA
+GAAGGAGCTCATGATCGCAGGAAGGTTGTTCATGCTGTTCCTGATTGGCATCAGCATCGCCTGGGTGCCCATTGTGCAGT
+CAGCCCAGAGTGGGCAGCTCTTTGATTACATCCAGTCCATCACCAGTTACTTGGGGCCGCCCATTGCTGCTGTCTTCCTG
+CTTGCTATTTTCTGGAAGAGAGTCAACGAGCCTGGAGCCTTTTGGGGGCTGGTCCTCGGATTTCTGATTGGGATTTCCCG
+TATGATTACCGAGTTTGCCTATGGAACCGGGAGCTGCATGGAACCCAGCAACTGCCCCACGATTATTTGTGGTGTGCACT
+ACTTGTACTTTGCCATCATCCTCTTTGTCATTAGTATCATCACCGTTGTGGTTGTCTCCCTCTTCACCAAGCCCATTCCA
+GATGTGCATCTCTATCGTCTGTGCTGGAGCCTACGTAATAGCAAAGAGGAGCGCATTGACTTGGATGCAGGAGAGGAAGA
+CATTCAAGAAGCTCCAGAGGAGGCCACTGACACAGAAGTTCCTAAGAAGAAGAAAGGATTCTTCAGGCGGGCCTATGACC
+TGTTTTGTGGGCTGGACCAGGATAAGGGACCCAAGATGACCAAGGAGGAGGAGGCTGCCATGAAGCTGAAGCTCACAGAC
+ACCTCCGAGCACCCTCTGTGGAGGACCGTGGTGAACATCAACGGTGTCATCTTGCTGGCCGTGGCTGTCTTCTGCTACGC
+GTACTTTGCCTGAGTCCCGGCCGCTGCTGCCACTCGGCAAGGCTGGCGTGTGTACTCTCTGCCTGCCTTTCATCCCATGC
+TGCGGTGGCGAAGGGGAATCAATCCCTTGCAAAGTTTGCCCCATTTGGATAAATGTCTATATGTAAATTACAGGCTGGTT
+GGAGGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|X65078.1|| O.cuniculus mRNA for surfactant associated protein C
+CGCAAGATGGACATGGGCAGCAAAGAGGCCTTGATGGAGAGCCCACCGGACTACTCAGCAGCTCCCCGGGGCCGCTTCGG
+CATCCCCTGCTGCCCAGTGCACCTCAAACGTCTTCTCATCGTGGTCGTCGTGGTGGTCCTCGTGGTCGTGGTGATTGTGG
+GGGCCCTGCTCATGGGGCTCCACATGAGCCAGAAACACACCGAGATGGTCCTAGAGATGAGCATCGGGGCGCCGGAGGTC
+CAGCAGCGCCTGGCACTGAGCGAGTGGGCGGGCACCACGGCCACTTTCCCCATCGGCTCCACCGGCATTGTCACCTGCGA
+CTACCAGCGGCTCCTGATCGCCTATAAGCCAGCCCCGGGAACCTGCTGCTACCTCATGAAGATGGCTCCAGACAGCATCC
+CCAGTCTGGAGGCTCTGGCTAGAAAATTCCAGGCCAACCCTGCAGAGCCTCCCACTCAGCGGGGCCAGGACAAGGGGCCA
+GCCGCACGGCCGGCGTCCTCCGGAGGAGAGCTGGCCTTCCTGGGCGCAGCCGTGAGCACCCTGTGTGGGGAGGTGCCTCT
+CATCTACATCTAGGACTCAGGGTCTGCGGAAGCCCCGAGGGGGTCAGGAGGGACCCGCCAGCAGAAGGGTCTTCCGTCAA
+GAGGCAGGACGCTGCGTCTGCCCGCACCTCCAGGGCCGGCCGTGGGCGACCGGAGCTGCGGGGAGAGGCAGCCCCCAGGG
+CCCAGGGGTGGGGGGACCCCCGCCACAGGAGAATAAAGCAAGCTGACCGAAAACAAAAAAAAAA
+>ref|ref|V00892.1|| Rabbit alpha-tropomyosin messenger fragment (aa 103 to 146)
+CAGGAGCGTCTCGCAACAGCCTTGCAGAAGCTGGAGGAGGCCGAGAAGGCAGCAGACGAGAGTGAGAGAGGCATGAAAGT
+CATTGAAAGCCGAGCCCAAAAGGATGAGGAAAAAATGGAAATTCAGGAGATC
+>ref|ref|V00893.1|| Rabbit beta-tropomyosin messenger fragment (aa 131 to 172)
+TCGAAAACCGGGCCATGAAGGATGAGGAGAAGATGGAGCTGCAGGAGATGCAGCTGAAGGAGGCCAAGCACATTGCCGAG
+GACTCAGACCGCAAATACGAGGAGGTGGCCAGGAAGCTGGTGATCCTCGA
+>ref|ref|V00895.1|| Rabbit troponin C messenger fragment (aa 132 to 148)
+TCGAATCCCTGATGAAGGACGGGGACAAGAACAACGATGGCCGCATTGACTTCGA
+>ref|ref|V00896.1|| Rabbit troponin C messenger fragment (aa 134 to 148) (slow muscle)
+TCGAGGAGCTCATGAAGGACGGCGACAAGAACAACGACGGCCGCATCGA
+>ref|ref|V00897.1|| Rabbit troponin I messenger fragment (aa 1 to 24)
+ATGGGAGATGAAGAGAAACGCAACAGGGCCATCACGGCCCGGCGGCAACACCTGAAGAGCGTGATGCTGCAGATC
+>ref|ref|V00898.1|| Rabbit troponin I messenger fragment (aa 162 to 174)
+TCGAGGAGAAATCGGGCATGGAGGGCCGCAAGAAGATGTTCGA
+>ref|ref|V00899.1|| Rabbit troponin T messenger fragment (aa 49 to 129)
+GATCCCGGAAGGAGAGAAAGTAGACTTCGATGACATCCAGAAGAAGCGGCAGAACAAGGACCTCATGGAGCTGCAGGCGC
+TCATCGACAGCCACTTCGAGGCCCGCAAGAAGGAGGAGGAGGAGCTGGTGGCCCTCAAGGAGAGGATCGAGAAGCGCCGG
+GCCGAGAGAGCGGAGCAGCAGAGGATCCGGGCCGAGAAGGAGCGGGAGCGCCAGAACAGACTGGCGGAGGAGAAGGCCCG
+GAGA
+>ref|ref|V00900.1|| Rabbit troponin T messenger fragment (aa 233 to 259)
+CCGGGCCAGGGTCGAGATGCTGGCCAAGTTCAGCAAGAAGGCTGGCACCACGGCCAAGGGCAAGGTCGGCGGGCGCTGGA
+AGTGA
+>ref|ref|V00901.1|| Rabbit troponin T messenger (new isotope) fragment (aa 217 to 236)
+TCGAGTTCGGGGAGAAGCTGAAACGCCAGAAATACGACATCACCAACCTTAGGAGCCGCATCGA
+>ref|ref|V00902.1|| Rabbit triose phosphate isomerase messenger fragment (aa 56 to 83)
+GATCCCAAGATTGCTGTGGCTGCACAGAACTGCTACAAAGTGACTAACGGGGCCTTCACTGGGGAGATCAGCCCTGGCAT
+GATC
+>ref|ref|Y00760.1|| Rabbit mRNA for adult fast skeletal troponin-C
+CGTCTGTGCGTGGTGGAGTTCAGGGGAGGCGGCTCACGGCAGGGGTGGCCCAGTGACCAGCAACCATGACGGACCAGCAG
+GCTGAGGCCCGGTCCTACCTCAGCGAGGAGATGATCGCTGAGTTCAAGGCCGCCTTCGACATGTTTGATGCTGATGGCGG
+TGGTGACATCAGCGTCAAGGAGTTGGGCACAGTCATGAGGATGCTGGGCCAGACACCCACCAAAGAGGAGCTGGACGCCA
+TCATCGAGGAGGTGGATGAGGATGGCAGCGGCACCATCGACTTCGAGGAGTTCTTGGTCATGATGGTGCGCCAGATGAAA
+GAGGACGCCAAGGGCAAGAGCGAGGAGGAGCTGGCCGAGTGCTTCCGCATCTTCGACAGGAACGCAGACGGCTACATCGA
+CGCCGAGGAGCTGGCTGAGATTTTCAGGGCCTCTGGGGAGCACGTGACGGACGAGGAGATCGAATCCCTGATGAAGGACG
+GGGACAAGAACAACGATGGCCGCATTGACTTCGACGAGTTCCTGAAGATGATGGAGGGCGTGCAGTAAGGCTGGGGTCTC
+CGCCTCCGGCCCCGCGCGGCTCGTTCCCTGCCCCGCGCGGGGCGGCCCCTTCTGGCTCCGTGTCTGGAAGGAATAAAAGC
+AAACGTTGCC
+>ref|ref|X17329.1|| Rabbit mRNA for titin (partial) (A-band)
+TCATTGGCTATCATCTAGAACGCAAGGAGAGAAATAGCATCCTCTGGGTTAAGCTGAATAAGACACCTATTCCTCAAACC
+AAGTTTAAGACAACTGGACTGGAAGAAGGCATTGAATATGAATTTAGAGTCTCTGCAGAGAACATTGTGGGTATTGGCAA
+GCCAAGTAAAGTCTCAGAATGTTATGTAGCTCGTGATCCATGTGACCCACCAGGACGGCCAGAGCGGATCATTGTCACAA
+GGAATTCTGTGACTCTTCAGTGGAAGAAGCCCACCTATGATGGTGGAAGCAAGATCACTGGTTACGTTGTTGAGAAGAAA
+GAATTACCTGATGGCCGCTGGATGAAAGCCAGTTTTACAAATATCATGGACACTCAGTTTGAAGTAACCGGCCTGGTTGA
+AGACCATAGATACGAGTTCCGGGTTATAGCTCGAAACGCTGCAGGAGTGTTTAGTGAGCCGTCAGAGAGCACGGGCGCCA
+TAACAGCAAGAGATGAGATAGATCCACCTCGAATAAGCATGGATCCAAAGTACAAAGACACGATAGTGGTTCACGCTGGT
+GAGTCATTCAGGATTGATGCAGATATTTATGGCAAACCGATACCAACCACTCAGTGGATTAAAGGTGATCAGGAGCTCTC
+GAACACAGCTCGACTAGAAATAAAGAGCACGGACTTTGCCACAAGTCTCAGTGTAAAGGATGCATTCCGTGTTGACAGTG
+GAAATTACGTACTGAAAGCCCAAAATGTGGCAGGAGAGAGATCGGTTACTGTGAATGTCAAGGTTCTTGATAGACCAGGG
+CCACCTGAAGGACCTATTGTGATATCAGGAGTTACAGCCGAAAAATGCACACTAGCTTGGAAACCGCCACTTCAGGACGG
+TGGAAGCGACATCATAAATTATATTGTGGAAAGGAGAGAAACCAGCCGCCTTGTTTGGACTGTGGTCGATGCCAATGTGC
+AAACCCTCAGCTGCAAGGTCACAAAGCTTCTTGAGGGCAACGAATATATTTTCCGTGTAATGGCTGTGAACAAATACGGT
+GTTGGTGAGCCTCTCGAATCTGAGCCAGTAATCGCCAAGAATCCATTTGTAGTGCCAGATGCCCCAAAAGCTCCAGAATG
+CACCACAGTGACCAAGGACTCAATGATTGTGGTATGGGAACGGCCAGCATCTGATGGTGGCAGTGAAATTCTTGGATACG
+TTCTTGAAAAACGGGATAAGGAAGGCATTAGATGGACAAGATGCCACAAGCGACTGATTGGGGAGTTGCGTTTGAGAGTA
+ACTGGACTCATAGAAAATCACAACTATGAATTCAGAGTCTCAGCTGAGAATGCTGCAGGACTTAGTGAACCAAGCCCTCC
+TTCTGCTTACCAAAAGGCTTGTGATCCTATTTACAAACCTGGACCTCCAAACAACCCCAAAGTCATGGATATTACCAGAT
+CTTCAGTTTTCCTTTCTTGGAGCAAACCAATCTATGATGGAGGCTGTGAAATCCAAGGATACATTGTTGAAAAATGTGAT
+GTGAGTGTTGGCGAATGGACAATGTGTACTCCACCAACTGGAATCAATAAAACAAATATAGAAGTAGAGAAGCTGTTGGA
+AAAACATGAATACAACTTCCGTATCTGCGCTGTGAATAAAGCTGGAGTCGGTGACCATGCTGATGTCCCTGGACCCGTTA
+TAGTTGAAGAAAAACTGGAAGCACCAGACATTGACCTGGACCTCGAACTCAGGAAAATTATAAATATAAGGGCTGGTGGC
+TCCTTAAGGTTATTTGTTCCTATAAAGGGTCGTCCTACTCCAGAAGTTAAATGGGGGAAGGTGGATGGTGAAATCCGAGA
+TGCAGCGATAATTGACAGCACCAGCAGTTTCACCTCTCTTGTTCTTGACAATGTCAACCGATATGATAGTGGAAAATACA
+CGCTCACATTAGAAAACAGCAGTGGAACAAAGTCTGCCTTTGTTACTGTGAGAGTCCTGGACACACCAAGTCCACCTGTT
+AACCTGAAAGTCACGGAAATCACCAAAGACTCCGTATCGATTACCTGGGAACCTCCTCTGTTGGATGGGGGATCCAAAAT
+TAAAAATTACATTGTTGAGAAACGCGACAGCACAAGAAAATCTTATGCAGCTGTTGTCACAAACTGCCATAAGAGTTCTT
+GGAAAATCGATCAGCTCCAAGAGGGTTGCAGTTATTACTTCAGAGTCACAGCTGAGAACGAGTATGGTATCGGCCTTCCT
+GCCCGCACTGCTGATCCAATTAAGGTTGCAGAAGTCCCACAGCCTCCAGGAAAAATCACTGTAGATGATGTCACCAGAAA
+CAGTGTCTCTCTGAGTTGGACAAAGCCCGAACATGACGGTGGCAGTAAAATCATTCAATACATTGTGGAAATGCAAGCTA
+AACACAGTGAGAAATGGTCAGAGTGTGCGCGAGTAAAGTCCCTTGAAGCAGTAATTACCAACCTAACTCAAGGAGAAGAA
+TATCTCTTTAGAGTCGTTGCTGTAAATGAAAAGGGGAGAAGTGATCCTAGGTCCCTTGCAGTTCCAATAGTTGCCAAAGA
+TCTGGTCATTGAGCCCGATGTAAAACCAGCATTCAGCAGTTACAGTGTACAGGTTGGCCAAGATTTGAAAATAGAAGTGC
+CAATTTCTGGACGTCCCAAGCCAACCATTACCTGGACTAAAGATGGTCTTCCACTGAAGCAGACCACAAGAATCAATGTT
+GCTGATTCACTTGACCTCACCACACTCAGTATTAAAGAAACCCATAAGGATGATAGTGGGCACTATGGAATCACAGTTGC
+CAACGTTGTTGGTCAGAAAACCGCATCCATAGAAATTATCACTCTAGATAAACCTGATCCTCCAAAAGGACCTGTTAAAT
+TTGATGAAGTCAGTGCTGAAAGTATTACATTATCTTGGAACCCTCCATTATACACAGGGGGCTGCCAGATCACCAACTAC
+ATTGTTCATAAAAGAGATACAACCACCACAGTATGGGATGTTGTTTCTGCTACTGTTGCTAGAACCACACTCAAAGTGAC
+CAAACTGAAAA
+>ref|ref|NM_001171077.1|| Oryctolagus cuniculus uncoupling protein 1 (UCP1), mRNA
X14696.1 Rabbit UCP gene encoding mitochondrial uncoupling protein, complete cds
+CCGGGGTGGGAGGGCGGTTCCCGAGGTCAGAGAGAGCCCAGTGACCAGGCAGGAAAGGGAACTTACATCTTCGGAGATTG
+CAGCCCTTATCCTCTTGCACCTGCCTCTTGCTCAGAGTGAAGATGGTGGGCACCACGACCACGGACGTGCCCCCAACCAT
+GGGGGTCAAGATCTTCTCAGCTGGAGTGGCAGCCTGCCTGGCGGACGTGATCACCTTTCCGCTGGACACCGCCAAAGTCC
+GGCAACAGATCCAAGGCGAGTTCCCGATCACCAGCGGCATCAGGTACAAAGGTGTCCTGGGGACAATCACCACCCTGGCA
+AAAACGGAAGGGCCCCTGAAACTCTACAGCGGGTTGCCCGCCGGCCTCCAGAGACAAATCAGCTTCGCCTCGCTCAGGAT
+CGGCCTCTACGACACGGTGCAGGAGTTCTTCACCTCGGGGGAAGAAACACCGAGTTTAGGAAGCAAGATCTCGGCCGGCC
+TAACAACTGGAGGCGTGGCGGTGTTCATCGGGCAGCCCACAGAGGTCGTGAAAGTCAGGCTGCAAGCGCAGAGCCACCTG
+CACGGTCTCAAGCCTCGCTACACGGGGACGTACAATGCCTACAGGATTATAGCTACAACTGAGAGCTTGACCAGTCTGTG
+GAAAGGGACAACTCCTAATCTGTTAAGGAATGTCATTATTAACTGTACAGAGCTCGTAACCTACGACCTAATGAAGGGGG
+CCCTTGTGAGAAACGAAATACTAGCAGATGATGTTCCCTGCCACTTCGTGTCAGCTCTTATCGCTGGATTTTGCACAACG
+CTTCTGTCCTCTCCAGTGGATGTGGTGAAAACCAGATTTATTAACTCTCCACCGGGACAATATGCGAGTGTGCCCAACTG
+TGCAATGACAATGTTCACTAAGGAAGGACCAACGGCTTTTTTCAAAGGATTTGTACCTTCCTTCCTGCGACTCGGATCAT
+GGAACGTCATCATGTTCGTGTGCTTTGAAAAGCTGAAAGGAGAACTCATGAGGTCAAGGCAGACTGTGGACTGTGCCACA
+TAATCAGCTTCAAGAAAAGGACACCACATCCCAGTGGGAACCCCTGCACCCGGGTCATCAAGAAATAAAACCTTGTTCAC
+TTTATTTTACCCTAAAAACTAAAGAAATCCCAGTAGGGAGTTTTGGACTTTTTTTTTCAAAGGCAAATGAAGACCTATTT
+TGTTTAAGTTTTATCCTCAGTGCCTTAGGAGGAGAAAGCCAAACATACATCTGGCAAATGTAACGCCCAAATAAGGAACA
+GCACTTGGTTGACCATTTTGGAGGTGCAATGGTATAATTGAATATGAAGAACCTTTATATATTTTAATATTTGAAACTGA
+TGGTAGAGGAAAACTGAGTGAAATGCATTTTATGAATACTTTAAAATGAAGTTGTCAAAGAAAATATTAGTTTCTTTTTA
+TTTATTAACCACACTGCCAGCTAATATATTCAATAAAGTATTCTAATACCCTTT
+>ref|ref|NM_001101712.1|| Oryctolagus cuniculus neurexophilin and PC-esterase domain family, member 1 (NXPE1), mRNA
Z12840.1 O.cuniculus mRNA for protein of unknown function
+GGACCTAACAGGTATCTACAAGGTCGATTAACTCTGTTGTTTCCTTGCTGATTTTCTGTCTGGTTGATCTGGACACAGAC
+AAGGATAAAGGGGACTTCTGCACATCGAGGGTAGCCACATAAGAACTCAGAGGTGTTTTTCCAACTACGCAGACAGAGGC
+AGTCATCGGAAGAGGATACTTATCATACTCTCAAGTACAATGCTTCACAAATATCTGAAGTTGATATGTCTCTTAGCAGC
+TATTTGTGTACTTTGTATAATTTCTCAGAACTCCACAAAGATTTGGGGTGCTCTAAAGTTACCCAACTCCCACTACTATT
+CTAATACCTCCATGATATCCTCAATCCCAAAAATGTCAGTGAGCCCGGTGAAGTCACTAACAGAGACTGAGCTGAGAGTA
+AAGGAAATCCTAGAGAAACTAGATCGGCTGATCCCACCCAGACCTTTCACCCACGTGAACACCACCACCAGTGCCACACA
+CAGCACAGCCACCATCCTCAACCCACAAGACAAGTATTGCGTGGGGGACCAGCTGGACATCTTGCTGGAGGTGAGGGACT
+ACTTGGGACACCAGAAGGAATATGGTGGGGATTTCCTGAGGGCCAGGATGTTCTCTCCAGCCCTGAAGGCAGGAGCCTCA
+GGAAAGGTGACCGACTTCAACAATGGTACCTACCTTGTCAGCTTCACTCTGTTCTGGGAGGGCCAGGTCTCCCTGTCTGT
+CCTGCTCATCCACCCCAGTGAAGGGGCATCAGCTCTCTGGAGGGCAAGGAACCAAGGCTATGACAGAATTATTTTCAAAG
+GGCAGTTTGTCAATGGGACCTCCCATGTCTTCACTGAATGTAGCCTGACCTTAAACTCAAACACCGAAGAGTGCAAATAC
+TTGAATGGCAGAGACCAAGATGTCTTCTACTGCATGAAACCTCAACACATGCCCTGTGAAGCCCTAACTCATGTGACATC
+CAGGAATCGGGATATTTCATATCTTACCAGCAAGGAAAAAAACCTTTTTCACAGGTCCAAAGTGGGAGTTGAAATAATGA
+AAAACCAACATATTGATGTCTCCCAATGTAACAAGAGTAAAGAGGTAAAAGAGAAATGCCAAATTGGAATGAAGATCCCT
+GTACCTGGCGGTTACACTTTACAAGGAAGATGGTTAACAACATTTTGCAACCAGATTCAGTTAGATACAGCTAAAATAAG
+TGGCTGCTTGAAAGGAAAACTCATCTATCTCATGGGAGACTCTACGCTGCGTCAGTGGATCTACTACTTACCCAAAGTAA
+TGAAAACACTAAAATTCTTTGATCTTCACGAAACTGGAAATTTTAAGAAACATTTGCTTCTGGATGCAGAAAAACACACT
+CAGATTCAATGGAAAAAACATAGCCATCCTTTCGTCACGTATCAACTCTTCTCGGTGATAGATCATGGTTACATCCCTCA
+GGAAATTGACCGGCTAATAGGTGACAAGGACACAGTCATCGTCATCACCTTTGGCCAACACTTCAGACCCTTCCCCATTG
+ACATCTTCATTCGTAGAGCCATCAGTGTCCGACAGGCTATTGAACGACTGTTCCTGAGAAGCCCAGCCACCAAAGTGATC
+GTGAAGACAGAAAACATCAGAGAGATGCACATTGAGGCAGAGAGATTTGGAGATTTCCATGGTTACATTCAGTATCTTAC
+TCTGAAGGACATTTTCAAAGATCTCAATGTGGGGGTTGTTGATGCCTGGGACATGACCATTGCATATGGCACCAATAATG
+TCCACCCACCTGATCAGGTGATTGGAAATCAGATTAATATGTTCTTAAATTACATTTGCTAACACACACACACACACACA
+CACTCTCACAGTCACTAAGAAACAATCTCTGTAGATAATTCCTCATCTATTGCCAAATGGTTCTGAGCATCTGAGGAACT
+AGGATGTCAAGACGTTCTGAAATAGGGATCACTTAACTTTGTAGAGGACTAGCTAATAAATATTTTAGGTTTTGCAGACC
+ACATGATCTCTGTCACAACTGTCCATGTCTGTCACTGAAATTCAAAAGCAACCAATGACAGCATGTAAACAGATGGGTTT
+CATAATGTTTCAATAAAACTTTATTTATGGACACTGAAAGTCAAATTAAATATAATTTTTACAT
+>ref|ref|Z12842.1|| O.cuniculus mRNA for protein of unknown function
+CAACCAAAGGGGAAGCGCTGGGACCTTGTCAGCTCACGTTTCCTCAGGATGGCTTCTGGAAGACTAATCAAGCTCGTGAT
+TTTCGAGCTTCTGGAGTTTGCTGCTTTCTCCATTCCCACGCTCGTGATTATGGAGCAGTTTGCCACTGCCTACCAGAGGA
+CCAGGAATGCGTCTGAGAAAACACATTACTGGCTGATTGTTTCCTGCTCTATCGCCTATGTCGCTGTAGTGAGTCTTTTG
+ATTTGGGTTCCCGTAAAAGTTCTCTTACACAAGAAACGTCATCTTTACAAAAAAATTAAAGGATGGAGACCTGTTATGAT
+GATGTGTGTAGTACTCACCACACTTCCCAGCTTCATCTTTTCTATAGCAGTAACTGAGGTTCAGAAGACCATTAATACTA
+CTGTTGATGTATTACCAGATACCTTGCCTGACCTGCCAGTATCTCTGGTTATTTCATCCTTGATCATCACTGATATTATT
+GAAAACTCAGGTTTCATCCTATTAGAGGGTATCAAAAGAGTAACGAAGATAAACACATCCACACGTCCTCTTTGCAACAA
+GTAAGAACTGTGACGGAACAAGTGAGGCAAAATGGAGAGAACGCTGCCTCTCCCTGCGCAGCCAGCCCCTCTGAGACGTG
+GCAGCCCCCAGGGGCACTGACACACAGCGCCGTCCCCATGTTCGCTGGGCCCCAGGAGCCTTTCTTTGGCTCCGGAATCC
+TGAAGACAATGTCCCGGCGAGATGTCCGGGCCGAGATATTCCTCTGGAGCTTTCTGCTGTGGTCTGACACAATAGAGATG
+GTGCGAGTGGCCGGTCACCCTAACGTGTACAAGACAAACTGGCTGTATCCAGTCTACTTATTCAGTTTCATTTCTCTCCT
+TCGCATTATATTCACCCCCCAAAATCCTCTTCTCAGTTGTCTGGGCATCCTGCTGCAGGATTTACCCTTTGTGTTTGTCA
+GGCTCAGTTTGATCATTGCCCTGGGGACAATCACACCTGTCCTCGGCCTTTGTAAAAACGTGCTGGTGACTCTCTCTTAT
+GTTTACTTCAATTTCTTAACCAGATTCAGGGCTTTCTCTAACTTTGAGTTGTCTCCATTTTAAAAAGAAGACTCCTGTTT
+TTAAAAAGATGAGACCTCTTCCTATGAGTAAACGCACATTACAGCAGTGGCTTTTTTTGTTTTTGTTTTTTTTCTCCATT
+TTTGGCAGAGCCTAAATTTTTGCACTACAGAAGAAACGAAGAACAGATTGTACAGAGTAACCTGTTTTTAATTACTGTAG
+ATATCAATTGTTAATGTATACAGTTGGTGCTAAAGTTCAACAAAGTTGTATTCTTAGAAGTTGGTGCCCATACATCTCTT
+TCTGAAAATGTTAGTAGTTTCAGTTACATCTTCAAAAAACTCATGGAAAATGCATATTATGAAAAAACTATACGTGGATT
+TCCAGAATTTTATACCAAAATAAACTTATCTTTAAATCCATTTTTCTGCAAAATTTTAAGTACCCTTATATACAACGTTT
+TTTCCAATAACACTCCTTCATAAAGCCTTTTTTAAAATTGAGAACATATTTTCCCACTACATGAGCCCAAGAATGAGATT
+TTTACCATTTATGCAAATTATGGAACATTACATGAATTAATCAGATTTTAGGAAATACACCTGAAGTTATTGAATAATTT
+TTAAGATTATGCTTTTTTTTTTTTTTGACAGGCAGAGTGGACAGTGAGAGAGAGAGACAGAGAGAAAGGTCTTCCTTTTG
+CCGTTGGTTCACCCTCCAATGGCCGCCGCGGCTGGCGTGCTGCAGCTGGCGCACTGCGCTGATCCGAAGGCAGGAGCCAG
+GTACTTATCCTGGTCTCCCATGGGGTGCAGGGCCCAAGGACTTGGGCCATCCTCCACCGCACTCCCTGGCCACAGCAGAG
+AGCTGGCCTGGAAGAGGGGCAACCGGGACAGAATCCGGCGCCCTAACCGGGACTAGAACCCGGTGTGCCGGCACCGCTAG
+GTGGAGGATTAGCCTATTGAGCCGCGGCGCCAGCCTAAAATTATGCTTTTTTAAATCTGAAAATTATACCTTAGAGTCTC
+TTTCAAACACAGAATTATAGTCCTTATCCCGCTCCTTCAGGTGACTTTTATTTAGCTGATTTCCCCATGAGAAACAATTC
+ACTTGAACAGGTGTTTCACTCAGGTGAAGGTGTAATTTAGCTGTTGAACTGGAACTGCAATACTAACATGAATTGTGTTT
+ACTGTAATGAAGGCAAGGTACATCAGTGATCTCTAGATAAAGTTTTATAATGGGAAGCCATAAATTGAAGATGTAGATTT
+CAAAGTGTAATATTATTTTATTTGTGGAATTTGATACCATCATAAAAATGATTGAGTGCATGCACTATCTAAAATTAGAA
+GTTCAACGTATGAATATAATGGCAATTGCACCAGTGTCTTATGTGATGCTCTGTCGTGACTATCTTCATGGTTTGAAATA
+ATCACATGCAAAATCATGGCACTTGCCTTCACTATGTGGGGATACTCCAAAATTCAGGGCAGAGGTGCTCCCTCTCACGT
+GACTTTTCAGACGCTGGACAGATTTGTAGGAGGCCTAGGAGCGCAGTGTAATGATTTGTGTAGCCAGTCTCTTTCATGAC
+CTGGATGGATGACAGACCTGGTATGTTCCCTGCTCTCCACTAAATCCCCGAGTCTCTCACCCCTGCTACCTTCAGGTTTT
+TATAATCTCGTAAAGGAAGGTCTGTCATTGTTCAACCTTGCCTGCTGGTTTTATGACCTGTGACACGTTCCTGGACTGCT
+GTGGCCTCCATTTTCATATTAAAGATGAATATACACCTGAAACCACTTTAGTAGGCATGAAAGTGTGAGGACTGCTCCCA
+GCATGCTGTCTGGCAAACAAGAATATCTGTATAAATGCTAAGTGTTTTCTTGGTGCCCATCCCCAGTAAACAACTAAATA
+CATTGCTGCTTTGTTCTGTTTTATTCTTTCTCTGTGTCCCTGCTTACCTTTTGGGAAAAATTTAAACCTCGAATTTCTGA
+AAAGTCTTATGTGAAATCTGACCAGAGACTACAACTTTTTATCAAGTGGTAGAATGTTGAGAAGTGAATATGCAGCATAA
+AACGGATGTAAGCGTTTGCTCATCAGACGTTGGAGAGTCACCCTGTGAACTCCAGTTGTGACACTGGATGAAGACTTTCA
+TTGTATGTTTACTCTTCTGTATTCCTCACTAATCTTATTCCTTAAAGGAAGGTCTGAGGATATTTTCTTTAATAATGCAT
+CTTTTACTGTCAATAAAAACCTGTAATCAAGTGATTAATTTAAAATATTCCTACATATAGAAATATTTTACATAAATATA
+TATTTATTTTATATTGGAATTTATAGAGAAATGGTGCTTAGGTAAACTCAGAGGTATTACTTGAGTATTACTTGAGTTTA
+GGATTTGTTTTGTTTCTAATATTTAAACATGAATATGCCCAATATTTTGAGTAGTAATGCAAAACATGACATGTAGGAAG
+AAAATTATTGGATAGCTAATTTATTTATAAACATGTGTTTATAAAGTTCAACTCTGTTATTTAACAGATATTACAGAAAA
+TTATGCTGACAAAACATTGATCTACACTGTGTGATTAAAATTACATTATTAAAATTATATGGCAATTATCATAGCTTCTC
+ATTGTTGTTGGTACTAAGACTCATATAACTTTTTTTTGTTCTGATAAAAATGTTACTTTTCTGCTGTATGAAATTGTACA
+TGCCAAAATGTCATGATCTATAATACACTGTATGATGTTTTATTCCAAG
+>ref|ref|Y00136.1|| Rabbit uteroglobin gene 5'-flank EcoRI2-EcoRI3 fragment
+GAATTCTCTGCGGGGAGAGACTGTGCAGTCTTTCACGCCCGAGCAGCCATCTCTGTGACCCTTCTTGGGCCATCTCAGCA
+CAGCCACTGGGCTGTGACACCTAGTGGTCATGCAGGAAGCACCCATTGTTTAACAAGGAGGCTCCCTCATTCTACAACCC
+AGAAGGCACACAAACACTCCTTTGGCGTTCCAAGCTGTTCTCCAGGACTGCCTCAGTATTCTTTCTTGCCGTAATCTCAC
+CCATCAGTCCAGGCCCTAGGGTCAGGCCAGGGACACGGGAGTCAGCTGAACCTAGGAGTCATTTGATGGGCACAGATGGG
+CATTTCAGGAACAAAGGGAAAACTCCCTCTAGGGTCCCAGCCCAGCAGCAGTGCTTGCCCGGATCCACTGCTGCCAAGTC
+ACTCATGTGTAGACTCGAACAAGGAAACTGCCTGTGCACAGGCAATGTGGGGATGTGCAAATGCTTGGGCAGCCAGGACT
+GGAACGGGTGCTCCAATATGACATGCAGGCATTGCAAGCAGTGGCTTAACCCACTGAACCACTCCTGCTCCAGTTTTGTG
+TTCTGTCTTTTGCCTTTTTTTTTTTTTTTTAAGATTTATTTATCTGAAAGTCAAAGTGACAGAGAGAGAGGAAGAGACAG
+AAAGACAGATCTTCCAATGGCTGATTCACTCCCCAAATGGTCACAGCAGCCAGGGATGGGCCAGGCCAAAGCCAGGAGCC
+TAGAATTC
+>ref|ref|X01423.1|| Rabbit uteroglobin gene
+GAATTCAACCAAGGTTCCCCACATAGTCGGCAGGGGCTCAAGTACTTAGGCCACTTCCCGCTGCTCTCCTAGGCACATTA
+GCAGGGAGCTGCATTGGAAGAGAGCAGCTAGGCCGCAAACTGGCACTCCAACAAGGAATGCCAACATGGCAGGGAGCAGC
+TTAACCCACTATGCCACAATGCCAGCCCTTAGTTCTTTCTCTTCGAAATTTTGTTTTGAATCAACAATACATTTTTACAC
+ATCCGAGTGGGACAGATGTTGTGGCATAGCCAACACTTAGATTGCCCACATCCCATATCAGAGTGCCAGTTCGAGTACTG
+ACACCTCCACTGTTGGTCCAGTTTCCTATCAATGCAACCTGGAGGCAGCAGATGATGGCCCAAATGCTTGGGCACCTGCT
+ACCCATGTGGGAGTCCCAGATAAAGTGCCAGACTCCGGCTTCAACCTGACCCGCCCCAGGCATTGCGGCCATTTGAAGAG
+TGAAGCAGAGATTGGGAGATAAATCTTTCCAAAAAACACCTAGGAAAAGCACAAAGGAAAAAAAAAGTGTCAGTCTTGTT
+CTCCCCTCCGTGTGCAAGCAAACCGGACACGGAGTCCTTTTGCTCCTTTCCACTCTGTTCACTCTGTTCTATGCCTTGTT
+TTTCACTCTGCAGCCTGCCTTGGCAATCATCTCATTATCAGTTCAGAAGATCTTCCTTTCCTGTCTTCTCAGCCACGTCA
+TAGGGGCACACAGTAATTCACCTAGCAAGTCCTGATTGGTGGATTGTTTAGAACCCGTGCTCTTAACTACGTGTCTCCAC
+GGCCTGCAAATAGCACCTGACACAAAGGCCTGTTCACTGATTCGTTCCAAGGTGCCTGTTTAGTGAACATCAAGTACTTG
+GCTTTGTGGGGCCAATCAAGCAAAGGATTCGTGCCAGTAAAACACCGTATGGTGGGCCGGCTAACCAAAGGGGTGGGGAG
+AGGTGCACAGTGTGTGAGAGCTGTTACTGGCAGAATCGCCCATCATACTGGGCTTCCTGGGCTTCCATTCTCAGTCTTAC
+CCCTCCCGAGTCTTCTCTATGTCCCAGAGCAGCTCTGAGCGAGCCAGGGTCATCGCATCAGAAATGAACTCAGACCACAT
+CATCCCCTGACTTAATAAACCCTTCTGGAGTTTCCGCCTCTCTGAGCACAAGGCCTTGGGTGATCTCACCCCTCCCCATC
+CTGCACAGACTCCTCACCCAGATGCAAGGAGCACTCTCTGCTCCTCAAGCCCACAGGGCCTCTCCACCTAGGGCCTTGGT
+GCGGGTCTCCCCTTCCCAGAATCCTCCATGCCACCTGCTCGGGAAGGCCACCTAAGTAGGTCTCCGTCTTTGTCCATCCC
+GACACTCTGCTCAGTTCCCCTGTAGCATGAACGGCAAGCTGTAATAACATCATATGCTTAGTCCTTTGCTTGTCTGTCTC
+CTCCCCTCCCCAAAGTGGAGCTTCATGGTGGCAGGGTTTGGGTTTGATTCGGCCATCACTACATGCCTGTCGGGAACACA
+GATGCTGAAATCAAGTTTTGGGTGCACAGCTGTTATTAGGAAGGGGTCAGCCCCTGTGAGGGAAGGAGGTGGAAGCAGAC
+TGGGCACAGGGGAAAAGCTGCAGAGAACTGCTTTGGTCAAGGTCACACCCTTCCTAGGGCTGCTCCTAACTGGTGGCCCA
+ACAAGAAGATGACACAAAAAAGCCTGGGTGTGTCAGCACCGAGTGGACGGCTCTGGTGGGCAGTCCTTCAGGGCTCTCTG
+TCTGGTTGGCTCAAATTTTGCTGAGCCTGTGCCACACTGCAGCTGGGGCGACTGGCAAGTGTGAGGCTCTCTGCTGACCA
+CAGTTCTCACAGGTTCTCCAAGCAGTGCCTCCTCCACACCCACCCCAATGTCCACTCCCAGCACAGTGCCCAGCACACAG
+CAGTGCTCAGCATTTATTTGAATGGGTGGTGGTTGGATATGTGACTGAGCTTTGAAATACAAATAAGATTGGGAGAAGCA
+GACATGGCAGGAAATGTGTGTTCTAGGCATAAGTGTTGCTTGGGCAAAGGTGAAAAGTATGAAAAATACATGAAATATTC
+CTAAATATTGGTACAATCAGGTTAAATCACCATGCCAGGGAGCCAATGACTGAAGCTCAAATGGTAGGCAGGGGCCAGTG
+GGTAAGAGCCGTGTAAATTGCACCTGAGTTATCTCATCCTGCTGGAGAAAGAGTTTCAAAGAGAAGAACAACATGACCAG
+CGGGTTTTGGAAAGATCATTCCGATGGCCTTGCAGAGAAGGTCAGATGAAGGCAAAGTGGGAGGCCAGAGGCCAAGCAGG
+CGTTGAGTCCACAAGGCCAAGCCAGGTGTTAAAGGCTCGAGGCGCGGCCAGCGGAACAAGAGCAGGGCTGAGGTCAAAGC
+CTTGGGAACCACCACCACTCAAGAGCAGTCAGGGGCGAGCAAACATCTGAAGAGAACAAGAAGGAATGGTCAGCGAGGGA
+AAACAGGAAAGAACCGAGCCGTGGGAAAGCAGGGGAGAGAATGGCTGAAGAAGGAAACGGCCAAGAGGGTCAAGGCCATT
+AAGAGGTCAGGGTGATAAGGACTGCAGGTGCCCATCAAAGAGGCCCTCTGAAAGGCAGAGCTTGAGGGCATTTCTAGACC
+ACAACAGACCCAGCCCGGGCAGGGCATTGGCTCGGCTAGGTATGGGGTTTGGGTCTTTGGTGGGTGTTCTGCGGAAGTCC
+TTTTTCTGTCCACGTGTTCAGGCCAGGGTCTCCTCCAGGCAATGCTCACAGCAATGCTCTGAACCCAGTGACCTTCACGG
+CTCAACGTCCAGCCACCTTCCTCGGAGGGGGGAAGCAGAGGAGCCCAGTGCAGCCACAGGATCCTGGGTGCTCCTATCCT
+GTCACAGCCACTTGGGCCTCAGCTTCTTCTGGGGTGACAGGAGACACACTTGCTTCTGTTGGTCTGGGCTGCCCAAATGC
+CTTGGTTCAAAGAGAAGACGCAGGTGGCTAGGTCACCATGCCCTCGGGGGCAGGCACCCCTTACCACACCCCCGCACAAG
+ACTCCGGGCTCTCCCTCCCCCCGAGGGACCCATTGTGTGAGTTCAGTTTCAATAGGGATGGAAACTGGATTGAGAAAAGG
+GAATATTTACTTATCCCACCAAGTCAATGCCCAAGTAAATAATGCAGTCAAGTAAGTGGAGCCCAGGCCCTGCCCTCTTC
+TATCTGGGCACTGCCCGGAGAATACAAAAAGGCACCTGACGGCCGTCCCCCTCAAGATCACCGGATCCAGAGCCAGCCCA
+GAGCCTTCCCATTCTGCCACCATGAAGCTCGCCATCACCCTCGCCCTGGTCACCCTGGCTCTCCTCTGCAGCCCTGGTGA
+GTGCCCAGCGTCCCTTTCCCCCAGGCAACCCTCTCCGCCACCCACTTCTGCTCAGAGGGAGAGGTGAGCTGCCTGTGCCC
+TCCCTGCAGCTGCTGGCAGGGCCTGAGAACGTGGACTTTCGGAAAATGGGGTCTGGTGAGCGACCCCACGTTGAGAACCT
+GGGGAGGGCCCTGCGGCTGTTAGGAAACTAGGAAGGATGTCCTCTTCCACATCCAACAACCTCCGCGTTCCGGGGGACAG
+GACAGGCTAGAGGGAGGGAGGAGGCCCCTGCGGGTGAACAGTGCAACAGCAAGTGGGAGAGGAATACAGTCTCCCAAAGC
+CCAGACTTGTGTAGACCCCAAGATGCCCAAGGACCACTGGGGCCTCCGCCCGACTCTGGCAGCCACAGGGCCTGAAAGGG
+GAGCTGCAGAGACGGACATCCCCGAAAGAAACCCAAGCCAAGGCACAGCTTCCGGGTCTGGGCCTAAAGGACAAGTCCAG
+AAAAAGGATCTTCCCTTTGGGACAACGCCAGCCCAGAGTGCCGTTTTCTAAACAATTCTGTTCTCTGCAAAAAGGGCTAC
+AAGTCTCCAAGTGGCTGCTGCTGTTGCTAGGAGGAAAGGAATGGGAAAGGAGAAAGCGGGGAGGAAGGGAGGGGAGAAGA
+GGGGAGGGCTCACATCTCCCTCCGAGCGCCCTGCCATTTGGGAAGGAGGTTACCTAACTCGGCTTTTCACCCTGCATCAG
+CCTCTTCCACTCCCATCTGAAAATGCTGTTGCTGTTGTTATTGTTGTTGTTTTCATCAGCAAACCCCAACGGAAAGTTTC
+ACACAACTCCTAGATGTGAGTTTGACGACCTTGGGGGATTGGAAAAACCAAACCGAGAGGGAGTGGGAACAACTGTTTGG
+CAGAGAGTGTTACTTGTTTCTCCGGTGGGAAATGACATCATTTGGGGCTGAAATGTATGAATTAGAAGATCTGGGTACTG
+AGTATAGAGGTGGTGACTCAGGAGGACAGGACTGAACCACCCCCCGCCTCTTTTTTAAAAAACAGATTGTATTTATTTGA
+GAGGTAGAGTTACAGAGAGAGGGAGAGAGAGAGAGAATCTTCCATCCACTGGTTCACTCCCCAGTTGGCCACAGTGGCAG
+AGCTGGGCCGATCCAAAGCCAGGAGCTTTTTCTGGGTTTCCCATGCAGGTATAGGGGCCCAAACACTTGGGCCGTTTTCC
+ACTGCTTTCCTAGGCCAAAAGCAGAGAGCTGGATCGGAAGAGGAGCTGCCGGACATGAGCTGACATCCATATGGGATGCT
+GGTGCTGCAGGTGGAGGCTTAGCCTACAATGCCACAGCACCAGCCCTAGACTGAAACCCTTTAAGGGGTGGATCAGGGAC
+ACAACACCCATTCATATACTTTTGTGTGCACACGTGTAATAATGTCTGCTCTTAACCCTTTGACATACACCTCTTTTCTT
+TCTTACAACCTCATGAGGAGGGGACATTGTACCCATTTTACAGATGATAAAAACTGAGCTATTAGCACTTTGTAAGATCA
+AGTAACTCCTGAGGGCATAGTAAGTTGCAAGGTGGGGATTCGAGCTCTGGAGAGGGTGTGGTTTGGAATGGCCACCCTGA
+GTAGGGCCTCCAGTCTGAGAGCAGACATTGAGTTGGCACGTGAAGCAGAGAATTCAAGGACAGGGATTTGAGACTTCATG
+GGAAGATGGAGGCAAATAGAGGTGGGGCGTGGTGAGTCCCCCCCACAACCTGGGGGCAGGGGCCTGAGAAACAGTTATAG
+GGACAGTGGCACAAGTGGTTGGTCTGTGTTGAGCTGAGCAAACCACAAGGCCCACCACTCACATGTGCACGCCTGTCCCG
+TGCCAGGTGGGGAGCCCCATGCTGGGCTGGTACCAGCCTCAGCCTGGCTTTGCCACATCCCCTCAGTGACACGTGGCTCC
+AACCACCATGGACCACAGAAGACAGGCAAGGTCCTGGTAGGAACCAAAGCTCTCAGTGGCCTCTTCCCAGCCCCACCCTG
+CATTAAAAATCAGCCCAGCAGCTTCTATTATCAATACTCCACCCAGAACATGAGCATAAAAAACAAATGGCACCCTGGCC
+CACGCCAGCCCAGGAAGTCCAGGGAAGGCTCAGGCCAACCACAAAAACACCAGCTGTAACCTAGAGAGAATTCACCCAGC
+GCTTAGAGCACCAGCAGAGCTGATTTCCCCTCCCCGTCCATGAAAAGCTGTCTAGTCTCAAACTGACTGACGAGCTTGGC
+TGTGTGCCCCTGGTTCTTGGGCTTCTCCTGCTCTGTTCTCAGCATCTGCAGGCATCTGCCCGAGATTTGCCCACGTCATT
+GAAAACCTCCTCCTGGGCACGCCCTCCAGTTACGAGACATCCTTGAAGGAATTTGAACCTGATGACACCATGAAAGATGC
+AGGGATGCAGATGAAGAAGGTCTTGGACTCCCTGCCCCAGACGACCAGAGAGAACATCATGAAGCTCACGGTAACCAGTG
+CCTATTGCCCACGCCTATAAGTGGCTTCCGGAGCCCCTCAGCTGTGGTCTCATCCCATGCTAAGACCCTTTCCTAACCCA
+GAGAAAAGACTTGCAATACCAACATCCCCGTAGTACCCATGTCCTCACGGGCAAGCCACCTCTCTAGGCATTTCCCCTTA
+CCCATTTCTAAAATGGCTTTTTGAGAAGGAAAAAAAATGTCCTTATAATCATCATTCTTCCCAGAGTTCATTGGACATCT
+CCACTGACATTGACGTTTGTGTCTCCGCATCTCTGCCTCACTGCAGAGGTCACGGGGCTTTTGTTTCTCTTTTTCAGGAA
+AAAATAGTGAAGAGCCCACTGTGTATGTAGGATGGAGGAATCCGAGGTCCTGCGGACTGAGAAGCCGAAGATTTCCACCT
+GCTGAAGCCCCTGCTGCTGCCCCTGGCCCCTTGGGTCCCCCACCCACCCAACCCAGCCAGCCTTTGCTTTCAATAAACTG
+CAAGCAGATCACATCCGTCGTCCTGAGCTCTTATTTACCTGCTTGAGGGAGAGAGGCGTGCACCTGCCAGGAAGGGTAGC
+CAGGACTCCCAGGAAGGCGGCGGAGCCTGCCCTTGGACCCCACGAGGAAACTCTGACGCCTTCCAAAGTCCTTTCCTCTA
+GGTTTCTGCCATTGGCCACCCAAAAAGCTGAGCCCTCTCCCCTTACATTCTACCACCTACGTCTCAAACTCCACCTGTGG
+GAGAATTC
+>ref|ref|X14364.1|| Rabbit vkB95g gene for immunoglobulin kappa light chain variable region
+CAGCTGGGCACAGCCTGCCCCCACCCCTGCTCATTTGCATGTCCCCAGAGCACCGCCACTCTCTGGGACCATTTCAGGAG
+CAGGCTGCTCCCGCCCCATGCAGGAGGCAGTGCCAGGCAGGACCCAGCATGGACACGAGGGCCCCCACTCAGCTGCTGGG
+GCTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCGGAACAGCCTGGGGTAGTGTGCCAGGGCTGCCCGTCTCT
+GCAGGAGCGTCCTCTTAGAACGTGAGGAGTGAGTGTGGTCTCTGTGTTTCTGTTTCCCTCCTCAGGTGCCAGATGTGCCG
+ATGGCGTGATGACCCAGACTCCAGCCCCCGTGTCTGCAGCTGTGGGAGGCACAGTCACCATCAATTGCCAGGCCAGTCAG
+AGCATTGGTAGCGACTTATCCTGGTATCAGCAGAAACCAGGGCAGCCTCCCAAGCTCCTGATCTATTCTGCATCCAAACT
+GGCAACTGGGGTCCCATCGCGGTTCAACGGCAGTGGATCTGGGACACAGTTTACTCTCACCATCAGCGGCGTGCAGTGTG
+ACGATGCTGCCACTTACTACTGTCAATGCACTTATAGTAGTAGTACTGGTTCCACAGTGATACAAGCCCTAACAAAACCC
+CCCCAGGAAAGCAAAAATGTGGAGCTGGGCTGCCCCAGCTGCTCCTCCTGGGCCCCATCTGCTCAGATGATTCTCAGAGC
+AGCCAGGCTTGAAGGTCCTTCAGGTCCACTCTACAGGAT
+>ref|ref|X14365.1|| Rabbit vkB95r gene for immunoglobulin kappa light chain variable region
+CTGCAGGTAAACTTGTGCAGCCCTGGTCTGAGCTGGGACAGCTTGAGACACAGCCCCTGGGCTGAGTTCTGAGCTCGCCC
+TGGGCCCTTCAGCTGGGCACAGCCTGCCCCCGCCCCTGCTCATTTGCATGTCCCCAGAGCACGCCCACTCTCTGGCACCA
+TTTCAGGAGCAGGCTGCTCCCGACCCATGCAGGAGGCAGTGCCAGGCAAGACCCAGCATGGACACGAGGGCCCCCACTCA
+GCTGCTGGGCGTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCGGAACAGCCTGGGGTAGTGTGCCAGGGCTG
+CCTGTCTTTGCAGGAGCGTCCTCTTAGAACGTGAGGAGTGAGTGTGGTCTCTGTGTTTCTGTTTCCCTCCTCAGGTGCCA
+GATGTGCTGAGGTAGTGATGACCCAGACTCCAGCCTCCGTGTCTGCAGCTGTGGGAGGCACAGTCACCATCAATTGCCAG
+GCCAGTCAGAACATTGGTGGCGACTTAGCCTGGTTTCAGCAGAAACCAGGACAGCCTCCCAAGCTCCTGATCTATGGTGC
+ATCCACTCTGGCATCTGGGGTCCCATCGCGGTTCAAAGGCAGTGGATCTGGGACACAGTTCACTCTCACCATCAGCGGCG
+TGCAGTGTGACGATGCTGCCACTTACTACTGTCAAACAGCTTATAGTGCTGTTAGTGGTTTTGCTTTTGGCGGAGGGACC
+GAGGTGGTCGTCAAAGGTAAGTGGCCATCTCACTGAGTCCTCACCGTTTCTGCCTGATTTGCTTGCTTTTTCCACTTTTT
+CCCTGTTTGTGTGTCGTTCTTGGCTGGAGGTCAGGGTTCTAACGAATTTCTTTCCAAGATGAGGCACAGAGGAGGGAAAA
+CTGTCTGAGATTTCCAAGTCAAAATGACTTCCCCGGG
+>ref|ref|NM_001082390.2|| Oryctolagus cuniculus whey acidic protein (WAP), mRNA
X07943.1 Rabbit mRNA for whey acidic protein (WAP)
+ATCCGACACCTGCCTGCTGCCCACCACCAGCCTACCACCTGCCACCATGCGCTGTCTCATCAGCCTGGCCCTCGGCCTGC
+TCGCCCTGGAGGCGGCCCTCGCTCTGGCCCCCAAGTTCATCGCTCCAGTGCAGGTCATGTGCCCCGAGCCCAGCTCTTCC
+GAGGAGACGCTCTGCCTCAGTGACAACGACTGTCTCGGCAGCACCGTGTGCTGTCCCAGCGCCGCCGGCGGCTCCTGCAG
+AACCCCCATCATCGTCCCTACCCCCAAGGCTGGCCGCTGCCCCTGGGTGCAGGCGCCAATGCTGTCCCAGTTGTGTGAGG
+AGCTGAGCGACTGTGCCAACGACATCGAGTGCAGGGGCGACAAGAAGTGCTGCTTCAGCCGCTGCGCCATGCGCTATCTG
+GAACCCATCCTAGAGAGCACTCCCCAGTGAGCCGCCTACCCAGGAGTCCCTGGCTGCCAGGAGAGTTGGGCCTGAGTTCC
+CCCTCTTGGACCCAGAGAGCTTGTGACGCGTCCTCCCTGCTGCTAATAAAACTACTCAGCTTCAAAA
+>ref|ref|X59242.1|| Ovis dalli 1.714 satellite DNA
+CCCTCATCTCGAGCTAGGAGGCGGAAACGGGGCTCCCCTGGATGTGTGCGGGACCCTCGAGCTTCCTCTCGAGTGGAGAC
+GGTATGTCGCGGAACTTCTTGAGTTGCAGCAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGTGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGGCAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTAGATATTCTCGAGTTGTGGCAGGTGCT
+CTCGACTTACGACGGGGACCTCAGGGACCTGCTCTGGTGGCTCAGGAAAGGCGGCCCATCGGAGTTCCTCAGGGGGCTCT
+CGGGATTCCTCCCCATCGATGCCGGGGCGTAAGACCTTGTGTGGAGTCGGGGCTGGAACTGAGGATTCCACTCCAGTGCT
+GACATGGATCTTGGGGTATTTCTGGAGTCTCCCCTGGGGAGTCAGTCTTCGTCTCGAATGCGGGCATGCAGTGTCACGCA
+GTCCACCTCTGGATCAAAAGATCTATGGTTTTCCCTCGAGTCTTTCCCACGAGGCTTTCCCACGAGGCTTTCCCACGAGG
+CTTTCCACGAGGCTTTCCCACGAGGCTTTCCCACACGGCTCTCTCCCATGCACACGTGGTGGGTGTCGATCCTCGGCTTG
+AACGTCAACGGAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCCGGGGGACTCTTGGAATGGTGGCACGA
+CCCTGGAGTTCCTCTCGCCTTTCCTATGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTAC
+GAAACAGGGAAAGGAT
+>ref|ref|Z11496.1|| O.orca P1 gene for protamine
+CTCACAGGTTGGCTGGCTCAACCAAGGCGGCATCCCCTGCTCTGAGCATCCAGGCCGATTCCATCCGTCACCATGGCCAG
+AAACAGATGCCGCAGCCCGAGCCAGAGCAGATGCCGCCGCCCGAGGCGCAGATGTCGCAGGAGGATACGGTGCTGCCGGA
+GGCAGAGGAGAGGTGAGGGGGTCGTCCGCGGGTGGGGGCCGGGGAGCTGGGGTGGAGTGGGGGTTCAGCCCATGCTGAAG
+TCTGCTCTCGCCCCCTCGTTCTCCGCAGTGTGCTGCCGCCGCTACACCACCACAAGGTGTGCAAGACAGTAAGCGCCCAG
+TAGCAAGACCACCACACTCCTGCCTGAAACGCTACCAGCCTTC
+>ref|ref|X56545.1|| O.ovis UCP gene for uncoupling protein, exons 3 (partial) and 4
+GATCTCAGCGGGCCTAACGACTGGAGGCGTGGCGGTGTTCATTGGGCAACCCACAGAGGTGGTCAAGGTCAGACTGCAAG
+CTCAGAGCCATCTCCACGGTCCCAAACCTCGATACACTGGGACTTACAATGCTTACAGGATTATAGCAACAACAGAAGGC
+TTGACGGGGCTTTGGAAAGGTGACTCTCTTCAACATGGATTCTATAGTCGTTAAAACACACATATCTAAGTAGCACCTTA
+TCATATGATGGAGCTATTCAACACTTTCTTTCCCTCCAGGACTACTCCCAATCTGACAAGAAATGTCATCATCAACTGTA
+CAGACCTCGTAACGTATGACCTAATGAAGGAGGCCCTTGTGAAAAACAAACTATTAGCAGGTAACTTTCTTTCTCACATG
+GCAGGTCTGCACATTTATAATTTCATCTTTTATTATACTGAATCCCTTAATTGTAATAATTTTATCTTTTAAAACAGTAA
+TACTCTTGAATAATAGATAT
+>ref|ref|X58696.1|| Rabbit brain L-type calcium channel mRNA (pBC-1 and pBC-2)
X58695.1 Rabbit mRNA for cardiac L-type calcium channel (pCC-1)
+CTGAGAGTGCTAAGGGTCCTCCGGCCCCTGCGAGCCATCAACAGAGCCAAGGGGCTAAAGCACGTGGTTCAGTGTGTGTT
+CGTGGCCATCCGGACCATTGGGAACATCGTGATTGTCACCACGCTGCTGCAGTTCATGTTCGCCTGCATCGGAGTCCAGC
+TCTTCAAGGGGAAGCTGTACACCTGTTCAGACAGTTCCAAACAGACTGAGGCTGAATGCAAGGGTAACTACATCACCTAC
+AAAGATGGAGAGGTTGACCATCCCATCATCCAGCCGCGCAGCTGGGAGAACAGCAAGTTTGACTTTGACAACGTCCTGGC
+AGCCATGATGGCCCTCTTCACTGTCTCCACCTTCGAGGGCTGGCCAGAGCTGCTGTACCGCTCCATCGACTCCCACACGG
+AAGACAAGGGCCCTATCTACAACTACCGAGTGGAGATCTCCATCTTCTTCATCATCTACATCATCATCATCGCCTTCTTC
+ATGATGAACATCTTCGTGGGTTTCGTCATTGTCACCTTCCAGGAGCAGGGGGAGCAGGAGTACAAGAACTGTGAGCTGGA
+CAAGAACCAGCGGCAGTGCGTGGAATATGCCCTCAAGGCCCGGCCCCTGCGGAGGTACATCCCCAAGAACCAGCACCAGT
+ACAAAGTGTGGTACGTGGTCAACTCCACCTACTTTGAGTACCTGATGTTCGTCCTCATCCTGCTCAACACCATCTGCTTG
+GCCATGCAGCACTACGGCCAGAGCTGCCTGTTCAAAATCGCCATGAACATCCTCAACATGCTCTTCACCGGCCTCTTCAC
+CGTGGAAATGATCCTGAAGCTCATTGCCTTCAAACCCAAGCACTATTTCTGTGATGCATGGAATACATTTGACGCCTTGA
+TTGTTGTGGGTAGCATTGTTGATATAGCGATCACCGAGGTACACCCAGCTGAACATACCCAATGCTCTCCCTCTATGAAC
+GCAGAGGAGAACTCCCGCATCTCCATCGCCTTCTTCCGCCTGTTCCGGGTCATGAGGCTGATCAAGCTGCTGAGTCGGGC
+C
+>ref|ref|X58697.1|| Rabbit skeletal muscle L-type calcium channel mRNA (pSC-1)
+CTGAGAGTGCTAAGGGTGCTCCGGCCCCTGCGAGCCATCAACAGAGCCAAAGGGTTGAAGCACGTGGTCCAGTGCGTGTT
+CGTGGCCATCCGCACCATCGGGAACATCGTCCTGGTCACCACGCTCCTGCAGTTCATGTTCGCCTGCATTGGTGTCCAGC
+TCTTCAAGGGCAAGTTCTTCAGCTGCAACGACCTATCCAAGATGACAGAAGAGGAGTGCAGGGGCTACTACTATGTGTAC
+AAGGACGGGGACCCCACGCAGATGGAGCTGCGCCCCCGCCAGTGGATACACAATGACTTCCACTTTGACAACGTGCTGTC
+GGCCATGATGTCGCTCTTCACGGTGTCCACCTTCGAGGGATGGCCCCAGCTGCTGTACAGGGCCATAGACTCCAACGAGG
+AGGACATGGGCCCCGTTTACAACAACCGAGTGGAGATGGCCATCTTCTTCATCATCTACATCATCCTCATTGCCTTCTTC
+ATGATGAACATCTTTGTGGGCTTTGTCATCGTCACCTTCCAGGAGCAGGGGGAGACAGAGTACAAGAACTGCGAGCTGGA
+CAAGAACCAGCGCCAGTGTGTGCAGTATGCCCTGAAGGCCCGCCCACTTCGGTGCTACATCCCCAAGAACCCATACCAGT
+ACCAGGTGTGGTACGTCGTCACCTCCTCCTACTTTGAATACCTGATGTTCGCCCTCATCATGCTCAACACCATCTGCCTG
+GGCATGCAGCACTACCACCAGTCGGAGGAGATGAACCACATCTCGGACATCCTCAACGTGGCCTTCACCATCATCTTCAC
+ACTGGAGATGATCCTCAAGCTCTTGGCGTTCAAGGCCAGGGGCTATTTCGGAGACCCCTGGAATGTGTTCGACTTCCTGA
+TCGTCATCGGCAGCATCATTGACGTCATCCTCAGCGAGATCGACACTTTCCTGGCCTCCAGCGGGGGACTGTATTGCCTG
+GGTGGCGGCTGCGGGAACGTTGACCCAGACGAGAGCGCCCGCATCTCCAGTGCCTTCTTCCGCCTGTTCCGGGTCATGAG
+GCTGATCAAGCTGCTGAGTCGGGCC
+>ref|ref|Z18655.1|| P.catodon gene for large subunit rRNA
U13119.1 Physeter catodon mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGGCACTGCCTGCCCAGTGACTGATAGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAAGGACTTGTATGAACGGCCACACGAAGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTTCCCGTGAAGAGGCGGGAATAACAAAACAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAATAACCCA
+CAACCTCAAACCACCAAGGGATAAAAAAAACTTATATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAACC
+CCTCCGAGTGATTAAAGCCTAGGCCTACCAGCCAAAGCATAACATCACTTATTGATCCAAAGCTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18666.1|| P.catodon gene for small subunit rRNA
+CCGTAAACCCAGGTAGTCATAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCG
+GTGCTTCATACCCCCCTAGAGGAGCCTGTTCTATAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAATGAAAGTAAGCATAACTATCCTACGTAAAAACGTTAGGTCAAGG
+TGTAACCCATGGGATGGGAAGAAATGGGCTACATTTTCTACACCATAGAACACCCTATACCCCACGAAAGTTTTTATGAA
+ACCTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAACAGAGTGCTTAATTGAATAAGGCC
+>ref|ref|Z11809.1|| P.hypomelanus interphotoreceptor retinoid binding protein gene, exon 1
+GGGGTACAGAGTTCTTTGAATGACCCTCGCCTGGTCATCTCCTATGAGCCCAGTGCCCTCATGGCTCCCCAGCAGGCGCC
+AGCACTCACCCACCTCACACAAGAAGAACTGCTTGCTCAACTGCAGAAAGGCATCCGCCACGATGTTCTGGAGGGCAATG
+TGGGCTACCTGCGAGTGGACGACATCCCGAATCAGGAAGTAGTGAGCAAGCTGGGGGGCTTCTTAGTGGAAAATATCTGG
+AGAAAGCTTATGGGCACCTCTGCCTTGGTGCTAGACCTCCGACACTGCACTGGGGGCCACGTTTCCGGCATCCCCTATGT
+CATCTCCTACCTGCACCCAGGAAACACGATTCTGCATGTGGATACCATCTACGACCGCCCCTCCAATACGACCACTGAGA
+TCTGGACCTTGCCCCAGGTCTTGGGGGAGAGGTACAGTGCTGACAAGGATGTGGTGGTTCTCACCAGTGGCCACACTGGA
+GGAGTGGCTGAGGACATAGCATACATTCTCAAACAGATGCGCAGGGCCATCGTGGTGGGTGAGCGGACCGTTGGGGGGGC
+CTTAGACCTCCAGAAGCTGAGGATAGGCCAGTCTGACTTCTTCCTCACTGTGCCTGTGTCCAGGTCCCTGGGGCCCCTGG
+GCGGGGGCAGCCAGACATGGGAGGGCAGTGGGGTGCTGCCCTGTGTTGGGACACCGGCAGAACAGGCCCTAGAGAAGGCC
+CTGGCCATTCTCACCCTGCGCAGAGCCCTGCCGGGAGTCATGCGGCGCCTACAGGAGGCCCTGCAGGACTACTACACACT
+GGTGGACCGCGTGCCGGCCCTACTACATCACCTGGCCAGCATGGACTTTGCCGCAGTGGTCTCTGAGGACGATCTGGTCA
+CTAAGCTCAACGCTGGTCTGCAGGCTGTGTCCGAGGACCCCAGGCTCCTGGTGCGAGCCATTAGGCCCAGGGAAACCTCT
+TCTGGGCCCGAGGCTGGAGCTGACTACCCCCCAGAGGTGGTCCCAGCAGTGCCAGAGGATGAGATTGCCCGGCAGGCCCT
+AGTGGACTCCGTTTTCCAGGTGTCAGTGCTTCCAGGAAACGTGGGCTACCTG
+>ref|ref|Z18657.1|| P.phocoena gene for large subunit rRNA
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAAAT
+CGTAAAACAGTACCACTAAGGGATAACAAAATTTTATATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAA
+ACCCTCCGAGTGATTAAAACCTAGGCCTACTAGCCAAAGTGTAGCATCACTTATTGATCCAAATTTTTGATCAACGGAAC
+AAGTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCGTATCGACAATAGGGTTTACGACCTCGATGTTGGATCA
+GGACATCCTGATGGTGCAGCGCTATCAAGGGTTCGTTTGTT
+>ref|ref|Z18656.1|| P.phocoena gene for small subunit rRNA
+TAAACCTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCGGTG
+CTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATCAACCTCACCAACCCTTGCTACTTCAGTCTAT
+ATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCACAACTATCACACATAAAAACGTTAGGTCAAGGTGT
+AACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTACACAACAAGAACACCCCTTAAACTTACACGAAAGTCTTTATGA
+AACCTAAAGACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|ref|Z18659.1|| P.spinipinnis gene for large subunit rRNA
U13122.1 Phocoena spinipinnis mitochondrion 16S rRNA gene, partial sequence
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAATCA
+GAAAACAATACCACTAAGGGATAACAGAATTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAAACC
+CTCCGAGTGATTAAAACCTAGGCCTACTAGCCAAAGTGTAATATCACTTATTGATCCAAATTTTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|ref|Z18658.1|| P.spinipinnis gene for small subunit rRNA
U13099.1 Phocoena spinipinnis mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACCTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCATAACTATCACGCATAAAAACGTTAGGTCAAGG
+TGTAACCCATGGGTTGGGAAGAAATGGGCTACATTTTCTACAACAAGAACATCCCCTTAAACTCACACGAAAGTTTTTAT
+GAAACCTAAAGACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|ref|X14724.1|| Bovine mRNA for NADH dehydrogenase 24 kDa subunit (AA 6-217) (EC 1.6.99.3)
+CTTATTTGTGCACAGAGATACTCCTGAGAATAACCCAGAAACTCCATTTGATTTCACACCAGAAAACTATAAGAGGATAG
+AGGCCATTGTGAAAAACTACCCAGAAGGGCATAAGGCAGCAGCTGTGCTTCCAGTTCTGGATTTAGCCCAGAGACAGAAT
+GGATGGCTGCCCATCTCTGCTATGAACAAGGTTGCAGAAATTTTACAAGTACCTCCAATGAGAGTGTATGAAGTAGCAAC
+TTTTTATACAATGTATAATCGAAAGCCTGTTGGAAAGTATCACATTCAAGTCTGCACTACCACACCTTGCATGCTCCGAA
+ACTCTGACAGCATACTGGAAGCCATTCAGAAAAAACTTGGAATAAAGGTTGGAGAGACTACACCTGACAAACTTTTCACT
+CTTATAGAAGTTGAATGTTTAGGGGCCTGTGTAAATGCACCAATGGTTCAAATAAATGACAACTACTATGAGGATCTGAC
+ACCTAAAGATATTGAAGAAATTATTGATGAACTGAAGGCTGGCAAAATCCCAAAACCTGGGCCGAGGAGTGGACGCTTCT
+CCTGTGAGCCAGCTGGAGGTCTTACCTCTTTGACTGAACCACCAAAAGGACCTGGGTTTGGTGTGCAAGCAGGCCTTTAA
+TTTATATTCGCTGTAAATATGTCAGTGGAAAAATAAAATATGAATCTCCTATCTACCTAAATTTTTTATACTACTTGTTC
+ATTTCCATCTGTGTACACTTTGCTTGTAACCTAGCAACTTACAGCTATTAAGTATCATGTCAGAACTTCAGAGCACCATT
+TTCAACTGCCTCTTCACTTTTATCAATATTAGGGTACTGTGAAATAAAAACTCTGTCAAATTTC
+>ref|ref|X53719.1|| Pig mRNA for phosphoglucose isomerase (EC 5.3.1.9)
+GATCCTTAACCCACTGAGCAAGGCCAGGGATCGAACCCCAAACGTCATGGTTCCTAGCCGGATTCGTTTCCGCTGCAGGA
+CGACGGGAACTCCCTCAAATGCCACTTCACTAGTGAATTTTCCATTGACCATTCTATTCAATATTGCAACCTCTATTCCC
+AGCTTTCCTTTTCTCAGTAGCACTTACCAGCATCTGACATGCCATACGTCTTACTTGTCACACATGTATCTGCAACACCT
+ATAACACTGCCTGGAACATGGAAGGTGTTGCGTGAGTGAATGAATGAACTAATGAAGCAGGCCGGGGCAAGGGGGCTCGG
+CCTCTGTTCCCCAGTCACTTCCAGGCAGAGGTCGGCAGAGAGGCAGCGCAAGTGGCCGCCTGGTGTCAAGAAGGACGAGA
+CGTCCCGAGCCACTGCTGCTGACCAAGTCTTCCCCGCGCCGGCGCCGACAGAAGGGCAGAGGGCCGGGCCGGGGCGGGGC
+CGGGGCGGGGCCGGCGCCTGCGCCATAAAGTCCGCTGGGCGCCTCCCGCCTCCGCCTGCAGCGCGCCGCCCGCCCCGCTT
+CCTCGTTCGCGTCCGCAGGGGTCCGTGTTTCCAGCCGCTTTCGCCATGGCTGCACTCACCCAGAACCCGCAGTTCAAGAA
+GCTGCAGACCTGGTAC
+>ref|ref|X13919.1|| Suncus murinus S(u) sequence upstream of mu-immunoglobulin C gene
+GAGCTGGACTGAGCTGGGAGAGCTGAGCTGGGCTGAGCTGAGCTGGGCTGAGCTGGGTGAACTGAGCTGGGCTGAGCTGG
+GAGAGCTGAGCTGGGCTAGACTGAGCTAGGCTGAGCTAGGTGAGCTGAGCTGGGCTGAGCTGAGCTGGGTGAGCTGAGCT
+GGGCTGAGCTGGTTGAGCTGGGCTGAGTTGGGTGAGCTGGACTGAGCTGGGTGAGCTGGGTTGGGTTGAGCTGAGCTGGG
+AGAACTGAGCTGGACTGAGTTGGGTTGAACTGGGCTGAGCGGGATGCACTGGGCTGAGCTGAGCTGGGTGAGCTGGGGTG
+AGCTAGGTGAGCTGAGCTGGGCTGAGCTGGGTTGAACTGGCCTGAGCGGGGTGAGCTGAGCTGGGCTGAGCTGGGTGATC
+TGAGCTGGGCCGAGCTATGCTGGGCTGAGCTGAGCTGGGTGAGCTGAGCTGAGCTGAGCTGAATTGGACTAAACT
+>ref|ref|Z11854.1|| S.scrofa gene for 17a-hydroxylase cytochrome P450, exon 1
+TTTTTTTTTTTTTTTTTTTTTGTCTTTTGCTATTTTCTTGGCTCCCGGCGGGCATATGTGAGTTTTCCCAGGGCTAGGGG
+GTCGAATTGGAGCTGTAGCTGCCAGCCTATGCCAGAGCCACAGCAAATCGCGGGATCCGAGGCCGGCGTCTGCAACCTAC
+ACCACAGCTCATGGCAACACCGGCAATCGCGGATCCAGGCCGGTCTGCAACCTCACCACAGCTCATGGCCAACACCGGAT
+CCTTAACCCACTGAGCAAGGGCAGGGATCGAACCCGCAACCTCATGGTTCCTAGTCGATTCGTTAACCACTGTGCCACGA
+CGGGAACTCCACAAAATTATTTTTAATAAAAAGTTTATTTAGAGAGTTCCTGGTGATCTAGTGTTAGGACTCAGCACTCA
+CTGCTGCAGAGTCATGAGATTGCCCACATCAAGCCACTGGCCAAAAGAAGGGGAAAAAATTTTTTTTAAAACATGTAGAG
+GTCAAACAAGAGTTTCAGCCCAAACCTATCTGTTCTAGGGCACATGCTCTCAACCCAAGGGTTCACTCCCCCCCTTGAAA
+AAAGCAGCAAAAACAGGAATCAGGAGACCTGGGTTCTTGTCATTACCGTCTTGTGTGACCTTATGCAAGCCCTGCCTTTG
+AGGGCCCTCACTTTCCTCAGCTGTTAAATGATAACGAATGGATAGAATACTTGACATATCCTGCTAGTATACCCTGTGCT
+AGTTATAACCACTCCTGACAGTGTAAGCTGTCTATTGATTTGAGATTTTACAACACAGCCAACCGTTGATCCCGTGATCG
+ACCCAGATACCATTTGCTTCTGGCACACTCCGGAGTTACTGGACAGGGAGGAGGGGCAGGACCAGCCGCAGCCCCCTTAC
+CTAGCCCCACCCCTAGAGGCTTGCCTGAAGTTGAGCCAGTTCTTGAGGAGGCCTCCACTCCTCTCCCCATTCTAGGAGAG
+GGCTCCGGTCTGGCTGTGCTCCAGAATAAACTTCCACAAGGCAAGCGATAACATAAAGTCAAGGTGAAGATCAGGGCAGC
+CTTTAAAAAGGGCTCCTTGCACCCTAAGTGGCTGAAGACACTCCAGAGCTGTCTGTCCTGCCTGCCGCCACCTGGCCACC
+ATGTGGGTGCTCTTGGTTTTCTTCTTGCTCACCCTCACCTATTTATTTTGGCCTAAGACCAAGGGCTCTGGTGCCAAGTA
+CCCCAGGAGTCTCCCAGTCCTGCCCGTGGTGGGCAGCCTGCCATTCCTACCCAGACGTGGCCACCAGCACATCAACTTCT
+TCAAGTTGCAGGACAAATATGGCCCCATCTTCTCCTTTCGTCTGGGTTCCAAGACTACCGTGGTAATTGGTGACCACCAG
+CTGGCCAAGGAGGTGCTTCTCAAGAAGGGCAAGGAATTCTCCGGGCGGCCCAGAGTGGTAAGCCAGTGCCCATCATCCCT
+GCTCAGAGTGGTGGGGGGTCCCCTCCAACTCAGAAAGTCGGTTCCAGTACGGAGCTTACTTGGATCCAACTCTAACAAGC
+CTGTGATTCTTTCAAAAACAGACCTATGGGGCTGTGGGGTGGGGTCCAACTCTAACAAGCCTGTGATTCTTTCAAAAACA
+GACCTATGGGGCTGTGGGGTGGGGGACCTTTGGCCACCCAGGCTCTAAACTAGGCAGGAAGAATTAAAGAAGAACTTTCT
+AGGCTCCCCAGGAGGGAGGGTGGGTGGGAGTGGTGGTTTTGAGGGGTCAGAGAGCCCTACAAACCGCAACTACCCCTGAA
+CTGGAGAGACTTCGAGCTAGTTTCTAACACCGAAA
+>ref|ref|Z11855.1|| S.scrofa gene for 17a-hydroxylase cytochrome P450, exons 2-5
+GAGTGCAGGAGGCCCTGGGAGAGGGGGAGTGGATGGAGTCTGATGGCTGTTCCTTTCCTGCTTTCCAAAGATGACTCTAG
+ACATCCTGTCAGACCATGGTACCTCCTGGCAGCTGCATCGGAAGCTGGCACTGAGCACCTTTTCCCTGTTCAAGGGTGGC
+AACCTGAAGCTGGAGAACATCAGTGAGTGCCCAGCCGGCCCTGGGCTGCTGGAGGGAAGAGGGGGCCTGGGGAGGAAGAG
+GATCGAGCGGGGGAGGGGGGGGATTCCATCTAGCGTTTTCTTGGCTACTGCTGCCAATCTTAGCGGACATCTTGCTCTCC
+ATCTTTGACTGGGCCTGGAGCTGGTGGAGAGGGAGGTGCTACCCATTCCCCCACCCTCATCCCCCTCTCTCCCCTCAGTT
+AATCAAGAAATCAAAGTACTGTGCGATTTCCTGGCCACACGGAATGGAGAGTCCATTGATTTGGCCCAGCCTCTCTCTCT
+GGCGATGACCAACATAGTCAGCTTTATCTGCTTCAACTTCTCCTTCAAGAAGGGGGATCCCGCGCTGCAGGCCATAGTGA
+ATTTCAATGATGGCATCCTGGATGCTGTGGGCAAGGAAATTTTGTATGACATGTTCCCTGGAATTAGGGTGAGAATAAGG
+TGGGCCCCACTGTGGGGATCTCAGCAGACCCTGACTGCATCCCCAGTTTTTCTTTCCTCTATGGTTCAGTTCCAGACCCA
+CCTTTTTACTGACCACCTCGCCTACAGGACCTCTACCTTCTCTCTTAAAACCTTGCCGCTTCTCTATGGAACTAGGTTAA
+GCCTTTAAATCATGCATTTTAATACTCATGATAATGGCTCTGTTCATTTACCAATTGCCTTCTGCCGAGAGTGACACTCC
+CACATGCATTCATCACGTGTTCCCCTGGGAACAGGTTTTATTGTCCCACATAGGTCTACTAAGTAAACCCTCCATCAGTG
+CTGGACGCTGACTGAATGGGGAAGGGCAAGTGGAGGTGGCTCCGGCCTCCTTTGTTTAAAAATGTCCTAGTTGTCACTGA
+TGGGTCCCATCCTGAGTCCCTCATCCGGCTCTCCATTCTGGCTAAAGGTTGAGGTTAGAGTGGGGACTCTCCAGAGACAG
+AACAGGTAGACTTTGACATTTTTACTTTGCAGATTTTACCCAGCCAAACTCTCGAAAACATGAAGCAGTGTGTTAGAATG
+CGAAACGAATTGCTGCGGGAAATTCTTGAAAACCGTAAGTAGGTGGTGATGAAGCAGGAGAGATGACGAATTAGGTTGAA
+GGTCTGAGAGCAGGCTTGGGTCATTTGGACGTTAGGAGCTCAGCACTAGGAGGGAGCCTGGCACATAGTAGGGGCTCAAT
+AAAAACTGACAAATAATGAACAGGGGTGAGGAATCGAAGAAGATCCTAGGAGGGGCCCACCCACACCTCCCAATTTAAAG
+CGGGTTCAGTGCTTCCTCCTACTTCCACAAGCTCACAGGTCCTGACTAGCCTTACTCCGCTCCCTCACTTCCAAGTGGAA
+GAAGTCTTTGTTTCTGCCAGGGGGACCCATAGCCCTCCCCGAGCTCTACCCCGAGGAAGGAGTAGTGCAGAGAAGGTTAG
+AGCGCCAATCAGGAGAACTACAGCAGAAACTCCATCACTAACTTGTTGGACATAATGATCCAAGCCAAGACGAACGCAGA
+AAGTAACACTGGTGGCCCAGACCACAATTTAAAGCTGCTTTCAGACAGACACAGTCTCGCCACTGTTGCGGACATCTTTG
+GGGCCGGTGTGGAGACTTCTGCCTCTGTGGTAAAGTGGATCGTGGCCTTCCTTGCTACACTATGTCCTCTGGTGAAGCCT
+TTCCATCCCCGACCCTTT
+>ref|ref|Z11856.1|| S.scrofa gene for 17a-hydroxylase cytochrome P450, exons 6-8
+GGTCAGCAGCTCTCTGATGTGACATGGATTCTTCTAGCCTTGCATCAGTGCTTCTGGCTCACACACCTGTCACATCCACC
+TTGTTCTTGGCCCTCAGCTGAGGAAGAAGATCCAGGAAGCTATCGAACAGAATATTGGTTTCAATCGCGCCCCATCTATA
+AGCGACCGAAACCAACTTGTCCTCCTGGAGGCCACCATCCGAGAGGTGCTTCGATTCCGGCCTGTGTCCCCTACGCTCAT
+CCCCCACAGGGCTATCATTGACTCCAGGTGTGCTTTCCTCCCGGTAACATCCAGCCCTGTGATGCATTCAGGGCTCCTTT
+TCAGCCCACGTGGTCCCTCCTCCATCACCCCAAACCTACTATCAATCATCCCACCCATGAGCCTATTGACCGAGGTATCT
+GCCACCCGCTGCCACCCACTGACTAATCCACAGGTCTCTCTGACCTCCCTCAGAAGCTGCCCAGGAGATATGTGGTCTTG
+GGATGAAAGATCGTGGGTGCGTTCTGTCCCAACCCAATCCAATTGCTGTACCGACGTTCTCGCACCAGCTCAACCCGCAT
+ACCCACCTACCCTGACATACCCGCATGGTTGATGCATTAGTGCCGGCCAGGAAAAGAGGCCTGGATTCATAGTCGATCTG
+GCAGAACGTGAGGAAAAGATGAGGGAGTGGACATGAGGGGGTAAAAGGCTCCTTTCCCCCAGGGTTGGGGACCATGAGGC
+TTGGGGCTGGGCAAGACTCCATGGTCTCCCCTCCCTCTCTGGGGCAGCATTGGCGAATTTACCATTGACAAGGACACAGA
+TGTCGTCGTCAATCTGTGGGCACTGCATCACAATGAGAAGGAGTGGCACCGGCCCGACCTGTTCATGCCTGGTGAGTTCC
+TGTTCTTTGGGGGAGTGTGGGGGAGCTGGCTGCTCCCCGGCCACACAGCCAGCCTGGTCTCTGTAACCCCCGCTCCAGCA
+GCACTTGCCCTCTGCCAAGTTGGCTCTAGAAAACTCCTGACTCCAACTATGGTCCTGTTGACCCGTCCCTTTTACCCTAG
+ACTTACCCAGATTCTTTGCCAGGATCTGGGGTTCCCACTTTCTCCTTCCACCAATCTCAAATCTCCTCCTCTAAGAAGCC
+CTCCAGGCAATGTCTCCCTCTCCCCTGGGATGGTGGCATTTTCATCTGCTAATACACCTTCTTTCCATCCTTCTGGAATA
+TTCTGGAATATTCATTCTCCTCTGTGTGATTCAGGGCGGCCTAGGGCAGGGTTGTATCTCCTCAACCGCCCCACCCCCGT
+CCCCACCCCCGACCCCGCCAAAGTCAGCGTTCCGCCTTCTCAATAGTCTGGCGTTCTACTCCTCTATCTCCTCCCGTCCC
+CTGGCTTCCCCACTGAGTCCTCCGCATGTCCGCAGAGCGCTTCCTGGACCCCACGGGGACCCAGCTCATCTCACCATCAT
+TGAGCTACTTGCCCTTCGGAGCAGGACCCCGCTCTTGCGTAGGGGAGATGCTAGCCCGGCAGGAGCTCTTCCTCTTCACG
+GCTGGATTGCTGCAGAGGTTCGACCTGGAGCTCCCAGATGATGGGCAGCTACCCTGTCTCGTGGGCAACCCCAGTTTGGT
+CCTGCAGATAGATCCTTTCAAAGTGAAGATCAAGGAGCGCCAGGCCTGGAAGGAAGCCCACACTGAGGGGAGTACCTCCT
+GACTCCACCCTGGGTGACCTCGCAGGCAGAGAATGAGAGTGTCCTACCTCCCCCCC
+>ref|ref|NM_214261.1|| Sus scrofa cholinergic receptor muscarinic 2 (CHRM2), mRNA
X04708.1 Porcine mRNA for cardiac muscarinic acetylcholine receptor (mAChR)
+CGAAGGGCTCCCCACTCCTAGCCAGCCCACACCAAGCTTCTTGCAGCCCGGGGAGCAAGTGGAACTAAACCTGCGGCAGG
+TTTAAATGTGTATTTGGCTACTTGGCTACTGAGTAGAGAACACAAAATGAATAACTCCACCAACTCCTCTAACAGTGGCC
+TGGCTCTGACCAGTCCTTATAAGACATTTGAAGTGGTTTTTATTGTCCTTGTCGCCGGATCCCTCAGTTTGGTGACCATT
+ATTGGGAACATCCTGGTCATGGTCTCCATCAAAGTCAACCGACACCTCCAGACAGTCAACAATTACTTTTTGTTCAGCTT
+GGCCTGTGCTGACCTCATCATTGGTGTTTTCTCCATGAACCTGTACACTCTTTACACTGTGATTGGCTACTGGCCTTTGG
+GCCCCGTGGTGTGTGACCTTTGGCTAGCTCTGGACTACGTGGTCAGTAATGCCTCAGTAATGAATCTGCTCATCATCAGC
+TTTGACAGGTACTTCTGTGTCACGAAGCCGCTCACCTACCCCGTCAAGCGGACCACAAAAATGGCAGGTATGATGATTGC
+TGCTGCGTGGGTCCTCTCCTTCATCCTCTGGGCTCCGGCCATTCTCTTCTGGCAGTTCATTGTAGGGGTGAGAACTGTGG
+AGGATGGTGAATGCTATATACAGTTTTTTTCCAACGCTGCTGTCACCTTTGGCACTGCCATTGCAGCCTTCTATTTGCCT
+GTGATCATCATGACTGTATTATACTGGCACATATCCCGAGCCAGTAAGAGCAGGATTAAGAAGGACAAGAAGGAGCCTGT
+GGCCAACCAAGAACCAGTTTCTCCAAGTTTGGTACAAGGAAGAATAGTGAAGCCGAACAACAATAATATGCCTGGCAGTG
+ATGAAGCCCTGGAGCACAACAAAATCCAGAATGGCAAAGCTCCCAGGGATGCTGTGACTGAGAACTGTGTCCAGGGAGAG
+GAGAAAGAAAGCTCCAACGATTCCACCTCAGTCAGTGCTGTTGCCTCTAATATGAGAGATGATGAAATAACCCAGGATGA
+AAACACAGTTTCCACTTCCCTGGGCCATTCCAAAGATGAGAACTCAAAGCAAACATGCATCAAAATTGTCACCAAGACCC
+AAAAAAGTGACTCATGCACCCCAGCTAATACCACTGTGGAGCTTGTTGGTTCTTCAGGTCAGAATGGAGATGAAAAACAG
+AACATTGTCGCTCGCAAGATTGTGAAGATGACCAAGCAGCCTGCAAAAAAGAAGCCGCCTCCTTCCCGGGAAAAGAAAGT
+GACCAGGACGATCTTGGCTATTCTGTTGGCTTTCATCATCACTTGGGCCCCGTACAACGTCATGGTGCTCATTAATACCT
+TCTGTGCACCCTGCATCCCCAACACAGTGTGGACAATTGGTTATTGGCTCTGTTACATCAACAGCACTATCAACCCTGCC
+TGCTATGCACTTTGTAATGCCACCTTCAAGAAGACCTTTAAACACCTTCTTATGTGTCATTATAAGAACATAGGCGCTAC
+AAGGTAAAACATCTTTGTAAAGAAGGAAGGTAGTCAAGAGGAGCTTGAGGAACAGAAAAAGAATGAAAGAGCTCCTAGTT
+TTAAAATCTCTGCCATTGCACTTTATAGTCTTATTAATGGAATGTGCAATTAAGGAGCCCTACAG
+>ref|ref|NM_214033.1|| Sus scrofa acrosin (ACR), mRNA
X14844.1 Boar mRNA for preproacrosin
+GAGGTCACTGGGCTTCCAGGCCAGGCCGGCGAGGAGCGCGGTAGAGATGCTGCCAACTGCCGTTCTGGTCCTGGCAGTGT
+CTGTGGCGGCCAGAGATAACGCCACGTGTGATGGCCCCTGCGGCTTACGGTTCAGGCAGAAATTAGAGTCAGGCATGCGT
+GTGGTTGGCGGCATGAGTGCAGAACCGGGCGCCTGGCCCTGGATGGTCAGCCTCCAGATCTTTATGTACCACAACAACCG
+GAGGTACCACACGTGCGGGGGCATCTTGCTGAACTCGCACTGGGTGCTCACTGCTGCTCACTGCTTCAAGAACAAAAAAA
+AAGTTACTGACTGGAGACTGATTTTCGGAGCAAACGAAGTTGTGTGGGGAAGCAATAAGCCGGTGAAGCCACCCCTGCAG
+GAGAGATTTGTTGAGGAGATCATCATTCATGAAAAATACGTTTCAGGGTTAGAGATAAATGACATTGCTCTCATAAAGAT
+CACCCCTCCTGTTCCATGCGGGCCCTTCATCGGACCAGGCTGCCTGCCCCAGTTTAAGGCTGGCCCGCCCAGAGCGCCCC
+AGACATGCTGGGTGACTGGCTGGGGCTACTTAAAAGAGAAAGGCCCCAGGACGTCACCTACACTGCAGGAGGCACGTGTG
+GCCCTCATCGACCTCGAATTATGTAACTCGACCCAGTGGTACAATGGGCGTGTCACGTCAACTAATGTGTGCGCAGGGTA
+TCCTAGAGGCAAGATTGACACCTGCCAGGGGGACAGCGGCGGGCCTCTCATGTGCAGAGACAGAGCGGAAAACACCTTTG
+TGGTCGTGGGCATCACAAGCTGGGGGGTAGGCTGCGCCCGAGCTAAGCGCCCTGGAGTCTACACGTCTACCTGGCCCTAT
+CTGAACTGGATTGCTTCCAAGATTGGTTCTAATGCCTTGCAGATGGTTCAACTGGGCACCCCTCCCCGTCCTTCTACTCC
+AGCACCCCCTGTCAGACCCCCCTCTGTTCAGACTCCTGTTCGCCCACCTTGGTACTTCCAACGCCCTCCTGGACCCTCCC
+AGCAACCTGGGTCCCGCCCCCGCCCCCCAGCTCCCCCCCCTGCCCCGCCCCCCCCGCCCCCCCCACCCCCACCGCCTCCA
+CCACCCCCACCCCCACCCCCACAGCAAGTTTCCGCTAAACCTCCCCAAGCACTTTCCTTTGCCAAGCGACTGCAGCAGCT
+CATAGAGCTGAAGGGGACGGCATTCTCTAGTGGAAAGGAGCTATTATGAAACAGAGACCACAGACCTCCGAAGAACTGCC
+CGCCTCCTGATTTGACCTCATTTTCACCTGATTTGGACCCATTGCACACCTCATCCCTGAGAAAAAAAAGGATGAAATAA
+ATGACTATAAATACAAATATAAATATATATACATAAAG
+>ref|ref|X54669.1|| Porcine mRNA for prepro atrial natriuretic peptide (ANP) with human-derived PCR primers
+ACGACGCCAGCATGAGCTCCTTCACCATCACCGTGAGCTTCCTCCTCGTTCTGGTGTTTCAGTTCCCAGGGCAAACCAGA
+GCGAACCCTGTGTACGGCTCCGTGTCCAATGCAGACCTGATGGATTTCAAGAATTTGCTGGACCACTTGGAGGACAAGAT
+GCCTTTAGAAGATGAGGCTATGCCCCCACAAGTACTAAGCGAGCAGAATGAGGAAGTGGGGGCCCCTCTCAGCCCCCTTT
+TGGAGGTACCTCCCTGGACCGGGGAGGTGAACCCAGCCCAGAGAGATGGGGGTGCCCTGGGGCGGGGCCCCTGGGACGCT
+TCCGATAGATCTGCCCTTCTGAAGAGCAAGCTGAGGGCACTGCTTGCTGCCCCTCGGAGCCTGCGGAGGTCCAGCTGCTT
+CGGGGGTAGGATGGACAGGATTGGAGCACAGAGTGGACTGGGCTGTAACAGCTTCCGGTACTGAAGATAACAGC
+>ref|ref|X16088.1|| Sus scrofa aminopeptidase N gene and 5'flanking sequence
+GAATTCCAAGAGCAAAAGGAAGGTCTTAAGCAGTGGGTAAAATGATCCAATTTGTGTGGCAAGCTTGTTTGAGGGGGCCC
+TAGTGCAAGTGATTATCCACTAGGATAACGTGAGGATCCAGCCTTGCCCACATAAATGATGAGAATGCTTTTGCCAAGGA
+CACGGTGAGAATGGGGGAGAGGGTGAGTCAGATGTTGGGGTGAGGGTCAGGCGTTGAGGTCCAAGAAACTGGTGGATGGG
+AAGGGTGACAGTGAACATTGTTTTCCTGTAAGGACATGTGCTGTTGAGTATAAGGAGTACCTTCATTTCTACCACGGATA
+GAATGGGTGACCCTCTGGATGAGAAAGAAGGGAAGGATTTTGAGGTTCTACTATATGGTGTTTAATATGTTTTCTAACAT
+TAAATCCGCTCACCAAATCTGAGACGTAAATTCTAGTATTTATTTATGTGAACAGGGTTCTCAGAAAGGAGAACTTACCT
+GCCAGAGGTCATGGCTGGGAAGAGGTTAAGCCGCCGCTAGCCTCCCTTCTTTAAAAAAAAAAAAAAAAAAAAAAAAAGGC
+AAAACAACTTATTTCATTCTACTCAGTGAGCTGATAATTGAGGGGAAAGTTTTTGGCAAGAAGGGAAAGTGGCGGGGGGA
+GGACCTGGAAGAACTCCCTGCTCTGGAAGAATGCGGGAGGCTGGGACCATGTCCCTGAGGAGCGCCGGGCATCCCTCCAA
+CTGCAGGGCTGACCCGGTGTGGTCTTGACCCGAGCCAGAGGCCGGCTCTCCCCGTCTTTTCACCTCCCACCTCTTGCTCC
+TGGGACGTCCTTCGACCCTCCTGGATCTAACCTCAGTCTTCCTGCTCCTGTGCCTGTTGTCATAGCTCACAGCTCACAGG
+GAGATCCAAGCCACCTGGCCGCTCCCTCTCCCCGCTGGGCCAGCTGCCTGCCACCTGCCCTTCAGCCCTTGGTGGGCTCC
+CAGGCTCCTGCAGCCTGTAACCAGACCCTGTTTGCTCCCAGCAGGCACCCCTGAGCCGCACTCCGCACGCTGTTCCTGAA
+TCTCCCCTCCAGAACCGGTGCAGTGTCTCTACCCAGTTCAGTGACCTTCGTCTGTCTGAGCCCTGGTTAATTTTTGCCCA
+GTCTGCAGGCTGTGGGGCTCCTCCCCTTCAGGGATATAAGCCTGGTCCGAAGCTGCCCTGTCCCCTGCCCGTCCTGAGCC
+TCCCCGAGCTCCCTTCTCACCCTCACCATGGCCAAGGGATTCTACATTTCCAAGGCCCTGGGCATCCTGGGCATCCTCCT
+CGGCGTGGCGGCCGTGGCCACCATCATCGCTCTGTCTGTGGTGTACGCCCAGGAGAAGAACAAGAATGCCGAGCATGTCC
+CCCAGGCCCCCACGTCGCCCACCATCACCACCACAGCCGCCATCACCTTGGACCAGAGCAAGCCGTGGAACCGGTACCGC
+CTACCCACAACGCTGTTGCCTGATTCCTACTTCGTGACGCTGAGACCCTACCTCACTCCCAACGCGGATGGCCTGTACAT
+CTTCAAGGGCAAAAGCATCGTCCGCTTACTCTGCCAGGAGCCCACCGATGTCATCATCATCCATAGCAAGAAGCTCAACT
+ACACCACCCAGGGGCACATGGTGGTCCTGCGGGGCGTGGGGGACTCCCAGGTCCCAGAGATCGACAGGACTGAGCTGGTA
+GAGCTCACTGAGTACCTGGTGGTCCACCTCAAGGGCTCGCTGCAGCCCGGCCACATGTACGAGATGGAGAGTGAATTCCA
+GGGGGAACTTGCCGACGACCTGGCAGGCTTCTACCGCAGCGAGTACATGGAGGGCAACGTCAAAAAGTAAGTCAGGTGGG
+GGCACACCCTAGATGCTGAGGCAGAGCTGGATCCTGGGGGCCAAGGAAGGGCTTGGATTCGGGACCTTGGAACCTTCTGG
+AGACTTTGGCTGGCCCGTCGCTCCATCCGCAGCTCTGGTAGAGAAGCTATCTAGACAATCAGCCCTTTCCCGGAGAGCCC
+CCCTAACCTTAGGGAGTCAGGGGTGAGTGATCCAAGTGCCCCCTTGGTAGAAAGGAAAACAGGCTCTGAGGACAGAAATT
+TGCCCAAGGTCTCCCAGCTAATTCAGGGGTGGAGCCTGCCCGGACTTTGACCCCAAGTCCAGAAGGAGCTCTGCTCTCCC
+AAGTCAGCTGGCCTGTCAGCCTGGACGGGCCTGGGGGAGGCGGGGAGGGACGGATGGGGCTGTGCACCCCTTTCCATGCC
+CAGCCAGCCATGGCCTACACCCCCCACCCCCGGCCACCCCATGGGCACAGGCATTTTGCTGGCATACCTTCTAACCCCCT
+GCTTCGGGCAGGGTGCTGGCCACGACACAGATGCAGTCTACAGATGCCCGGAAATCCTTCCCATGCTTTGACGAGCCAGC
+CATGAAGGCCACGTTCAACATCACTCTCATCCACCCTAACAACCTCACGGCCCTGTCCAATATGCCGCCCAAAGGTGAGC
+GGGCTGGCGGGGACCACACGGCCTGGGAAAGCAGGTCCCTGGGGCTGGGGTGCAGGTCCCTGTTGCTGGGGTGCAGGCCC
+AGGAAGAGGGCACCCCTCCACGCCTGCGTGTCGCACCCAGGTTCCAGCACCCCACTTGCAGAAGACCCCAACTGGTCTGT
+CACTGAGTTCGAAACCACACCTGTGATGTCCACGTACCTTCTGGCCTACATCGTGAGCGAGTTCCAGAGCGTGAATGAAA
+CGGCCCAAAATGGCGTCCTGGTAAGGGCTGAGCCCACCTGCCCTTCCCCACATTGGCCCTGGCCTGGGAAGTATTCCCAT
+TTATCCTCATCCTTGTCCCTGTGCTTAGATCGTGAGGCAGTGAAAGAATTC
+>ref|ref|X69478.1|| S.scrofa gene for apolipoprotein A1, exons 1-3
+CGCAGCTTGCTGTTTGCCCAATGTATTTGCCCGGCCCCAGGGACAAAGCTGATCCTTGAACTCTAAGTTCCACATCTCCA
+GGACCAGTGAGCGGCGGCAAGGCCTGGGCTGGGCTTATCAGCCTCCCAGCCCAGCCCCTGCTTGGCAGCATAAATAGGCT
+GGAGGAGACCGGGCAGTCAGAGACCGCTGGCGCATCGAGGTGAGTGCTGCTACTTGCTCAGGTTACCCTAGCTTCCCCCA
+GCTCTAGGCACTGGAAGCTCAGGCCCTGGGATCCCAGCTCCAGCCTCTGCCCTGGGGCACTGGACCCCTGGCCCTCTCCC
+TCTCTGTGCCCCGCCTCCTGCACTCAGCCGGCCCCTCTTCTCCTCCAGGTCACCCACGTCCCTTCAGGATGAAAGCCGTG
+GTGCTGACCTTGGCTGTGCTCTTCCTCACAGGTAGGTGCCCCCAACCTAGGGAGCCAACCTTCGGGGGTGTCTTCTGCCT
+GAACCCCTGCAGTCCACCCTCCTGAGCATGGGAGCAGAATTTCTCCCTCCTGCCCTTCTCCGCTGCCTGGCATTTCAGCT
+CAGATCCTGACCCGGAGCTGGCCTGATCTGGGTCTTCCCTCCCACCCCCAGGGAGCCAGGCTCGGCATTTCTGGCAGCAA
+GATGACCCGCAGTCACCCTGGGATCGGGTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGTGGCAGAGA
+TTATGTGGCCCAGTTTGAAGCCTCCGCTTTGGGAAAACACCTCAAGTAAGGACCCTGGGGCCTAGGGCAGAGGTAGGGGG
+TACCGGTGCTGGGGATGGGGTGGAGAGGCCTGTGGGAAGAAGCAGCCAGATTGGCCG
+>ref|ref|X69479.1|| S.scrofa gene for apolipoprotein A1, exon 4
+CTGCAGGTGCAATGGGGTCCATTCGTCCTAACTTCCCTCCTCTGCTCCTGCCAGTAGCAGGGACAGCTGTCTTCAGAGAG
+GAGAATGGGGCTGGAAGGGTAGAGACCAGGTCCTTAAAAGGACTGGCTTCAGGGACAGACAGGACTGGGCACCAAACGCA
+GCTCCTTGGTCTATCTGGTCGATGGGGTGCAGTGTGGTGGTGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCTC
+GNNNCGTGCACAATGATGGAGAGAAGCTAGGCTGAGGGTCTGGCCCCAGCAACCACACTTTCAGGGGCACATGTGCCCGG
+TCCCACCCCAGACCAAGCTGGGTGCTGGGTTGCAGCTCCAGAGGTGTCCACGGTGCCACCCGGGAGGCCTGCCCTGAGCC
+CTCCTCTCTCTCTTCCCTTTAGCCTGAAACTCCTGGACAACTGGGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAG
+CAGCTGGGCCCAGTGACCCAGGAGTTCTGGGACAACCTGGAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGA
+CCTGGAGGAGGTGAAGAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACC
+GCCAGAAGATGCCGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCG
+CTGGCCGAGGAGCTCCGCGACCGCCTGCGCGCCCACGTGGCAGCGCTGCGCCAGCACGTGGCGCCCTACAGCGACGACCT
+GCGCCAGCGCATGGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGACAGCCTAGCCGAGTACCAGGCCAAGGCCCAGG
+AGCAGCTGAAAGCGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAAC
+CTCAAGGTCAGCATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCCCCCCCCCCCCCT
+CGCCATCAGTTCGGCTTCTTGGAATAAG
+>ref|ref|Z14124.1|| S.scrofa apoAI gene
+TTAGAATATATTATTTATTATTTTTGACAGACACGCGACAGTGAGTTCCCAGCCAGAATTGAACCCGAGCCATAGCAGTG
+ACAATGCAGAATACCAAGGTCACCAGGAACTCCCAGAGACCAACTTTTTTGATTGGGTGTCCTGTGGATTAAAATTTTGA
+AGTATGTATTCTCAATATTTGGGTATTTATTAAATGACACCCTGGTACTTCTGTATTTGTATGTTTTAGTCATCATAAAT
+GAAACAGCAAAAAATAGAAATAACAGAGGGCAAGCTTAACAATAAATAGAAATGGAACTTCCAGCATTTTCTTACCTGCC
+CCTAACTCACCAGGTGCCCTCCCCAGGGTGTGTGTATCTTTTTAGAGACCACTGCTCTCTGTTCATATTTGTACCCCCTA
+TGCCTTGCTCAGGGCCTAGCACACAGTAGGTACGGGATAGATGAATAAAAATGAAGTCATAGGGGAGTTCCTGTCATGGC
+TCAGTGGTTAACGAATCCAGCTGGGAACCATGAGGTCGGGGGTTCGATCCCTGGCCTTGCTCAGTGGGTCAAAGATCTGG
+CCTTGCCGTGAGCTGTGGTGTAGGTCACAGACGTGGCTTGGATCCCACATTGCTGTGGCTCTGGCTAGGCTGGTGGCTAT
+AGCTCTGATTAGACCCCTAGCCTGGAAACCTCCATATGCCATGGATGTGGCTTTAGAAAAGACAAAAAAAGACACACACA
+GAAAAAAAGTGAAGTCATAGGAGTTCCCCTTGTGGCTCAGTGATAATGAACCTGACTAGGATCCGCATTGCCATGAGCCG
+TGGTGTAGGTCACAGCTCTCAGCTCAGATCCAGGAAGGAGGTCGAGGGCCTGGGAGGAGGTGGGGACGGGAGCTGGGACA
+CGACTGGTGAGAGGACCGACTGCCGCTGTGTGAGATGGGGGCAGGGTGGGGGTGAGATAATCTCCCTGGAATCCGAGGGG
+ACCGCAGGGAGGACATGGCCTGAGCCGAGGAGTCCCGGCCATCCCTGGCAGCTCGTGCTTTTTCTTCCTTCCTGCCTCTC
+CGCTCGTGGGCTGGCACAATGGACAATGGCGGGAACACAGCCACCACCGAGAAGGGGCCAGCTGACCCCGACTCTGGGGA
+CCTGCAAGCCCGGACCCACCCCCTCCCACCCCCGCCTGAACCCTTGATCCCTGCGCCTGCAGCCCCCACAGCTTCCTGTT
+TGCCCCGATGTATTTGCCCGGCCCCAGGGACAAAGCTGATCCTTGAACTCTAAGTTCCACATCTCCAGGACCAGTGAGCG
+GCGGCAAGGCTGGGCTGGGCTTATCAGCCTCCCAGCCCAGCCCCTGCTTGGCAGCATAAATAGGCTGGAGGAGACCGCGG
+TCAGAGACCGTGGCGCATCGAGGTGAGTGCTGCTACTTGCTCAGGTTACCCTGGCTTCCCCCAGCTCTAGGCACTGGAAG
+CTCAGGCCCTGGGATCCCAGCTCCAGCCTCTGCCCTGGGGCACTGGACCCCTGGCCCTCTCCCTCTCTGTGCCCCGCCTC
+CTGCACTCAGCCGGCCCCTCTTCTCCTCCAGGTCACCCACGTCCCTTCAGGATGAAAGCCGTGGTGCTGACCTTGGCTGT
+GCTCTTCCTCACAGGTAGGTGCCCCCAACCTAGGGAGCCAACCTTCGGGGGTGTCTTCTGCCTGAACCCCTGCAGTCCAC
+CCTCCTGAGCATGGGGAGCAGAATTTCTCCCTCCTGCCCTTCTCCGCTGCCTGGCATTTCAGCTCAGATCCTGACCCGGA
+GCTGGCCTGATCTGGGTCTTCCCTCCCACCCCCAGGGAGCCAGGCTCGGCATTTCTGGCAGCAAGATGACCCGCAGTCAC
+CCTGGGATCGGGTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGCGGTAGAGATTATGTGGCCCAGTTT
+GAAGCCTCCGCTTTGGGAAAACACCTCAAGTAAGGACCCTGGGGCCTAGGGCAGAGGTAGGGGGTACCGGTGCTGGGGAT
+GGGGTGGAGAGGCCTGTGGGAAGAAGCAGCCAGATTGGCCGAATCCCCACCTGCTATTTGATGGGCCCCATAGAAGACCT
+GGATGGAAGAGAGGAGTGGGCTCCCCATGCAGGGTCACCTCCGCTTAGCAGGGCTGCCCAGTCAGTATCTACAGCACCTC
+ACTGCTCGCTGCAGGTGCAATGGGTCCATTCGTCCTAACTTCCCTCCTCTGCTCCTGCCAGTAGCAGGGACAGCTGTCTT
+CAGAGAGGAGAATGGGCTGGAAGGGTAGAGACCAGGTCCTTAAAAGGACTGGCTTCAGGGACAGACAGGACTGGGCACCA
+AACGCAGCTCCTCGGTCTATCTGGTCGATGGGGTGCAGTGTGGTGGCGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
+GTGCGCTCGCTGCACAATGATGGAGAGAGCTAGGCTGAGGTCTGCCCAGCAACCACACTTTCAGGGCACATGTGCGGTCC
+ACCCAGCAGCTGTCTGGGTTGCAGCTCAGAGTGTCACGTGCACCCCGGGAGGCCTGCCCTGAGCCCTCCTCTCTCTCTTC
+CCTTTAGCCTGAAACTCCTGGACAACTGGGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAGCAGCTGGGCCCAGTG
+ACCCAGGAGTTCTGGGACAACCTGTAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGACCTGGAGGAGGTGAA
+GAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACCGCCAGAAGATGGCGC
+CGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCGCTGGCCGAGGAG
+CTCCGCGACCGCCTGCGCGCCCACGTGGAGGCGCTGCGGCAGCACGTGGCGCCCTACAGCGACGACCTGCGCCAGCGCAT
+GGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGGCAGCCTGGCCGAGTACCAGGCCAAGGCCCAGGAGCAGCTGAAAG
+CGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAACCTCAAGGTCAGC
+ATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCTCGCCCGCGCTCCCCTCGCCATCAG
+TTCGGCTTCTTGGAATAAGCAGTTCCGGAGCAGGACGCTTGTGATGGGTTGTATTTTTTTGTGAAGCTTCGATGTTGATT
+TTTAAACAATAAAAAGTTCTCCAAAACCCAGAAAATTGTCTTTGGGGAGACTGGGGTGGGGAGGGGGTGCTTTGGCGAAG
+TAGCCCGGGGCGCGCCCAGCGGGGCAGGAACTTCCCGGTCCATGATCCAGTGGAGGCATCAGCTCTGAAGCCAAGTCTCT
+CAGAGCTTTAATGGTGGAGGACCTGCTAGCCCCCGGGCTCAGGGGTGAGGCAGTGGGCTCTCTCTCCTAAGGAGGCCAGA
+ACAGAAGGGAAATAATAGAGAAGCAGGCAAAGTTACAGATAATGCAGTGCAGTCGGAAACTAGACTGAGTACTGACTGAG
+TCGTGTGCTCAGCAACGATCTGACTGACTACTGAGACCAGA
+>ref|ref|X17057.1|| Pig brain mRNA for truncated apolipoprotein A-1
+GTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGCGGTAGAGATTATGTGGCCCAGTTTGAAGCCTCCGC
+TTTGGGAAAACACCTCAACCTGAAACTCCTGGACAACTAGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAGCAGCT
+GGGCCCAGTGACCCAGGAGTTCTGGGACAACCTGGAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGACCTGG
+AGGAGGTGAAGAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACCGCCAG
+AAGATGCCGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCGCTGGC
+CGAGGAGCTCCGCGACCGCCTGCGCGCCCACGTGGCAGCGCTGCGCCAGCACGTGGCGCCCTACAGCGACGACCTGCGCC
+AGCGCATGGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGACAGCCTAGCCGAGTACCAGGCCAAGGCCCAGGAGCAG
+CTGAAAGCGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAACCTCAA
+GGTCAGCATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCCCCCCCCCCCCCTCGCCA
+TCAGTTCGGCTTCTTGGAATAAG
+>ref|ref|X03937.1|| Pig mRNA for (Na+,K+)-ATPase beta-subunit
+CCGCAGCGGCAGGCGGTGCCAGCCTGCGGAGAAGCCAGGCAGGGGACACTGATTGGCAGGAGAGGACGCAAGACGCACGC
+GGCAATCACCCATCTTCAATCCCCGCAGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAGC
+TGGAAGAAATTCATCTGGAACTCCGAAAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTTTAAGATCCTTCTATT
+CTACGTTATATTTTATGGCTGCCTGGCTGGCATCTTCATTGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTTA
+AGCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGAGCCAAAAGACTGAAATTTCTTTTCGT
+CCTAATGATCCCCAAAGCTATGAATCCTATGTGGTAAGCATAGTGAGGTTCCTGGAGAAGTACAAAGATTTGGCGCAGAA
+GGATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGAACGAGGAGAATATAACAACGAACGAGGAG
+AGCGAAAAGTGTGCAGGTCCAGGCTCGAATGGTTGGGAAACTGCTCTGGATTAAATGATGAAACCTATGGCTACAAAGAT
+GGCAAACCCTGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGAC
+TTACCCAGTGATGAAGTATAATCCATATGTCCTGCCCGTTCATTGCACTGGCAAGCGTGACGAAGATAAGGAGAAAGTTG
+GAACCATGGAGTATTTTGGCCTGGGCGGCTACCCTGGTTTTCCTCTACAGTATTACCCTTACTACGGCAAGCTCCTGCAG
+CCCAAGTACCTGCAGCCCCTGATGGCTGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGGC
+GTATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGAT
+CACAAGCTCTTTCCCACTAGCCATTTAAAGAGTTTAAAAGATTCAGAAACAAAAACCTACTAGTCTTGAACAAACTGTCA
+TACGTAGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAATTTAAAGTGT
+AGCAATAGCAACAAAATATTTATTCTA
+>ref|ref|X04635.1|| Pig mRNA for ATPase beta-subunit (EC 3.6.1.3) (Na(+),K(+)-activated adenosine triphosphatase)
+CCGCAGCGGCAGGCGGTGCCAGCCTGCGGAGAGCCAGGCAGGGGACACTGATTGGCAGGAGAGGACGCAAGACGCACGCG
+GCAATCACCCATCTTCAATCCCCGCAGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAGCT
+GGAAGAAATTCATCTGGAACTCCGAAAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTTTAAGATCCTTCTATTC
+TACGTTATATTTTATGGCTGCCTGGCTGGCATCTTCATTGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTTAA
+GCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGAGCCAAAAGACTGAAATTTCTTTTCGTC
+CTAATGATCCCCAAAGCTATGAATCCTATGTGGTAAGCATAGTGAGGTTCCTGGAGAAGTACAAAGATTTGGCGCAGAAG
+GATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGAACGAGGAGAATATAACAACGAACGAGGAGA
+GCGAAAAGTGTGCAGGTTCAGGCTCGAATGGTTGGGAAACTGCTCTGGATTAAATGATGAAACCTATGGCTACAAAGATG
+GCAAACCCTGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGACT
+TACCCAGTGATGAAGTATAATCCATATGTCCTGCCCGTTCATTGCACTGGCAAGCGTGACGAAGATAAGGAGAAAGTTGG
+AACCATGGAGTATTTTGGCCTGGGCGGCTACCCTGGTTTTCCTCTACAGTATTACCCTTACTACGGCAAGCTCCTGCAGC
+CCAAGTACCTGCAGCCCCTGATGGCTGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGGCG
+TATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGATC
+ACAAGCTCTTTCCCACTAGCCATTTAAAGAGTTTAAAAGATTCAGAAACAAAAACCTACTAGTCTTGAACAAACTGTCAT
+ACGTAGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAATTTAAAGTGTA
+GCAATAGCAACAAAATATTTATTCTACTG
+>ref|ref|X07617.1|| Porcine mRNA for cAMP-dependent protein kinase catalytic (C)-alpha subunit (CAT4)
+CGCACCTGGACTTTGTGTGGGACACCCGAGTACCTGGCCCCTGAGATCATCCTGAGTAAAGGCTACAACAAGGCTGTGGA
+CTGGTGGGCCCTGGGGGTTCTCATCTATGAGATGGCCGCTGGCTACCCGCCCTTCTTCGCTGACCAGCCCATCCAGATCT
+ACGAGAAGATTGTCTCCGGGAAGGTGCGGTTCCCGTCCCACTTCAGCTCCGACCTGAAGGATCTGCTTCGGAACCTCCTG
+CAGGTGGACCTCACCAAACGCTTTGGGAACCTTAAGAACGGAGTCAATGACATCAAGAACCACAAGTGGTTTGCCACGAC
+TGACTGGATTGCCATCTACCAGAGGAAGGTGGAAGCTCCCTTCATACCAAAGTTTAAAGGCCCTGGGGACACGAGTAACT
+TTGATGACTATGAGGAAGAAGAGATCCGAGTCTCCATCAATGAGAAATGTGGCAAGGAGTTTTCTGAGTTTTAGGGGTGT
+GTGCCTGTGCCCCCAAGGGTTTTCTTTCCTTTTTTTTTTTTTTTTTTTTTGATGGGGGGGGTGGGGTGGGAGGATTGGAT
+TGAACAGCCAGAGGGCCCCAGAGTTCCTTGCATCTAATTTCATCCTGCCCCCACCCGCCTCCAGGGTAGGGGGAGCAGGG
+AGCCCAGATATTTGAGAACAGAAACACCAGCTGCTCCCCCTCACCCCTTTTGCCATCCTTCCCCCCCCTCACTTTTGCCT
+TCCTCCTCCCCCACGGCCCGCACCCCAGCCCACTTCTGCCTGTTTTAAATGAGTTTCTCAGTTCTTCCAGTCAGACCAGG
+TCTTGCTGGTGTGTCAGGGACAGCATGTGGGAAGAGGGGCCCAAATGTAACTCTAGTGCCAACCCCCCCCAAACTACAAA
+CACCACTCTCTAAGGGCAAATGAATGAGAGCAGTCCTGTCAGGGAAGGAGACATTTTAGTGTTCAATGGGCTGCTTGGCT
+AGAATTTAAAAAAAAAAAAAACAATTTACAATCTTATTTAAGTTCCACCAATGCCTCCCTCCCTCCTTCCTCTCCCACCC
+CTTCCCATGCCCCTCTGCCCCAAATCCATTTTAACAAAGCTGGGAAGCAGACTGACTTTGTAAAGGAAGAAGCTGGGGTT
+CCAACCTCTTCCCCAAGCTGCTAATCCCACCCCCTGCTCCCCTGTCAAGCCTGGACCGGTCTCCGGCCCTTTAGGAAGCC
+CCTTGTACCCCAACAGACCTGCTTCACCCTTGGGCTTCGGGACCCAGACAAAGCAGCTGCCCCTCTCCCTGCCAAAGAGG
+AGTTGTCCCTGAAAAGATAGAGGGGGAGCCCCAAGCCCAGGGTCTTTCCTCTCAGTAACATTTCCCCAAACTCCTTACTT
+TTATTCTCAGCTAGATGTTACTGTCCAGCCTCCTTTCAGTTAGGAAGGCAACCCCCCCCGCCCCCCCGCAATCCCCCTGA
+TGGTCCCTGGTTCAAGGCCGGGATTGCTGGGGAGGGACTGCCTGTTTTTTTCACCCAGCAGCCCCGCCCCCTCCCCATCC
+TGGGCACTCTTCCTCTGCTTAGCTGTCAGCTGTCAATCACCCGTTCTCAACCCCCCCCATTTGTGGGTTTTTTTTTTTTT
+CCTCTTAATAGAAAAGTCGAGTGCCACCCCATTGATCCCCATGTTTGTCTCATAATTTCTCCCCATCCCAGGAGGAGTTC
+TCAGGCCTGGGGTGGGGCCCCGGGTGGGCGCGGGGTCGATTCAACCTGTGTGCTGCGAAGGACGCAACTTCCTCTTGAAC
+AGTGTGCTGTTGTAAACATATTTGAAAACTATTATCAATAAAGTTTTGTTT
+>ref|ref|X16951.1|| Pig mRNA for endoplasmic-reticulum Ca(2+)-transport ATPase (class 3 non-muscle transcript)
+CAACTACCTGGAACCTGGTAAAGAGTGTGTGCAGCCTGCCACCAAATCCTGCTCGTTCTCGGCATGTACCGATGGGATTT
+CCTGGCCCTTTGTGCTGCTCATAATGCCGCTGGTGATCTGGGTCTATAGCACAGACACTAACTTTAGTGATATGTTCTGG
+TCTTGACTGACAGTTTTACATAAAGATGTTTAACTTAATCAATTAATTTTTTTATTGTTTAAAGCAACTGTCTATTTCTG
+CTGAATTTTCACATGAACATATTGGCTGGTAAAGGAGGTTTCATACTCTAGATTTTGTTTTGCTTTTTCTGACTCCAGTG
+GGGCAAGATTTTCCTTTTTTATACACATAATTAAAGTGTCCATTGACATGTACAGAGAACTAACACTATTTTATGCAAAT
+ATTTTTTTGTAGATGAAAAAGCATGTACAGTGTTCTGTTTAATACTCATCCTTGTATAAAAAAAAAAAGAGTTGAGCCAG
+CAGACATTGTCAGCAAATTAATTGGCAGCAGATTTTAGGAAATGAATGTGTGTGGTTTTTTCTAAGACTAAATAGCATGT
+ATTGTGTCTTCTGCATGATCATCTGGATTTAATCTGAGATCACAGTCTAATTTTTATTCATAAGCCAATTTTTCTGCACT
+GAGCAGAGTACTGCTACCTCAGTCAGTATTTTTTGGTTTGCCACCCCCCCGTCACCCTTCTCAGCCCTTGTCACCTCCAC
+CCCATCCTCCACCCCCGCCCTGCTCGGCTGCTTCTCCTGTAGGGTTTTGATGGTTCTGTTTACATCAGTCTTAACAAGAG
+GTATGCCTGTTCTCGCTTGTGCAGAAAACATTGTTCCAGATTCAATCAACTGGGTTCGTGTCCCCTCATGTAGTTTTTAA
+GGTTATTTATTTAAATGTCTAATGTATTTTATTGTAACAGACATTGTTTTGCCAACATTGCCTATTTCAGTGGCACTTCA
+CAATCTAGTTTAAAAAGGAAAATAAACATTTTAAATGGACAGAGAAAAATAACTGTCTTGTTTTTAACTCTTATGTGGCT
+TAGTTTGAACTAATATGTCCAACTTTCTCTTAAGTTCTTAGCTCAGAAATTTTAGTTTTATTGTGCTTGAGGGGAAGAAG
+GATCCTGTTCTGCTGCATAGGGAGCTGTAGGGATTTTATTTTTAATGTATAGGCACCAGTTGTCATCTGTGATACATTTT
+ATGCAAGTTTCTGCTGGCCTGTTTTTAAAGCCTATGTAGAGGACATAAGGGCAAGTGTGTGTGCGTGTGTGTGTGTGTGT
+GTGTGTTTTGTAAAATCTGTAAATAGCACATGACCAAATGAACATATTGTATAGAACTATTTTTATTTGAATGTGGCACT
+AACCACCACCATCATTACTATGATAAATGTTTGTGCATGTTCGAGATCAGTCTTACCAACAGTGTATAAGTCATTAACAG
+TCCTAACTGTGGTGTTTTCCTCCAATGCCTTCCAACATCCATCAACTAACGTGAGTATCCCCTGGAATTTGGATGCTTTA
+GCCTAAAGGTGACTGCCACTAAGTGACCTGGCTATACGAACACTAACGAATAAGCCCCTTGTGTCGGGCACCCTGAGAGC
+AGCAAGGGCACAACCTTGCTGGGTGAGCCACTATGGACACCACACACTGCATAGGACAGTGGCACAGCCAGGTGTCAGGC
+AAGGGCCTGGGGGAAGAGAAACTCCTGCTTTGGTCAGACGACAAGTGCCTTCACAAGTGCTGAGGTATGGAGTCACAAAA
+ACTTGTCATGGTTCCCTTTAACTTTGTTAGCTTAAAGGACTCATTCCAGAATCTTGTTAGCTGGTTCATTAAAAAGCAAA
+AGGCAAGTGAAAGCAATTAACTGAACCAGGAAACTCAGGCCTCCATTCATTCCTCTTAAATAGGCTGCCTCTTTTCACCT
+TCTAGGTCATATCCTTTGTGGCTGAGACTTGTTTTTTCTCTCCAGGGTACATTTAAAGCACAGTTACTGGGCCATTGTTC
+TGCTCAGCCAGCAAACAACCAGCCTAGTAGTTAGGGAGCAAGAGGGCCCAGGCAGCTGCTTGTATTCAGGCTGGCAGCTC
+CTCCGTGAATGAAGCCCCGAGTGTTCACATGAAGGTTCTCGGGTTACCGGGCCAGCCAGAAATGCTGGGAGTCTGGGGCA
+AGGTTCCTGTTTAAGAGGATAGAAGAGGCACATGGAAACGGATTCTTAATGCAGAGTCCGGGCTTGGCTCACTGAGGCCT
+CTCAGAGGATGGGGGAGGCTGTTTTGCTTGGCAGAAAAATGTAGGGGTAGGTTTTGCCAGTGTTAGTTAGCATTATGAGG
+TATAGACAGAAACAGGTTGGGTAGATCAAATGCAAGGAGTGTCTGGGCTGCAAACCAAAACAGGACGTCTGAGCTTGTTG
+GGTGGAGTGCAGTTCAATCCCAGACTAACCAAATGTTCGACTTTTTCCTGACTCAGTTCTTTGATTTATTGGCTTTTACA
+AAGTTGAGTGGGACGGGCTGCTCGAGGAGCCATGCACAGCCCCAGGTGGCCCCGGGAGGTTGTTGCCTTGTGGTTTTTCA
+GCCTGTCCAGCCCACAGAGGCAGTTTGGATGCCCACTTCCCTCAACCCAGACAGCTGGGAGTGGGGAAGACGCAGTGCCG
+CCCTGAGCAGGATCCCTTTGTTCTGCTCCAGGCTTTGCCACAGAAAAACATGTCTGCACTGGCATCTCCTTAGCAGTTAT
+GCTGCTCTGTCTTATCGGGAGTGGCGGGTGCCTGCAGGAAGGCACTGTCAGCCTCTCGACTTTTGTCTCCATCAGTAACT
+GGATGGAGTGGTGCCATGCTCAGACCTACCGGGGCAGACCTCAGGGATAGCCGAGACCACGAGCATTAGCTCAGTGTCTG
+CCGAGCCCACTGTGTCCGCACCACATTCAGTCAGAACCACCAGCCTGCGGTGAACAGTGAGGGTAATCTGCAGCCTTCTT
+TCCTGAAAGAGAATGGTGACAAACAGCTCCTCTTCTAGGATTGAGCAGGGCTGGGCCCCAGGGAAGGAACGGGAGGGCGC
+TGGAGGCTTGGCGCTGATTACTACGCTGCTCACTGCTTTGCCTTCCTTATCCTCTGCACTGCTCACCCAAAACTCTTCCT
+GCTCAGCTTCTGTTACACCTGAAAATGATTAAATTCCTGTGAGCCAGGGGTGACCTTTGCTCTGTGAGCTAGTCAGTATG
+GGGGTCTGTGTGGCCGAGCCAGTGCTTCAAGATGCTACCCTGCGTGGGCAGCAGCTCAGGGACAGTTAATCAGAAATGCT
+GGTCTTACTCTTAAAAAATCAAACTGAATATTCCTTTTCATCTGTCACTATTAATCTTAAATAGTTATTCTAACATTTCC
+TTCTTGTATTTCATAAAGGTGATTTCCTCTCTCTTTCCTTTTCAGCAATACTGGAGTAACCGCTTCCTAAACCATTTTGC
+AGAAATATAAGGGTGTTCGGTTGCGTGCATGTGCGTTTTTAGCAACACATCTACCAGCCCTCTGCATGATTGATGTTGGG
+GGTAAAAGAAAATTAGAAAAAAGTCCCCAATTCATTGTGTGTTACGTGGAGGAAACGTGTATTACCAGTGGGGTTTTTTA
+GCTTTTAAATCAAAATAATAATTACAAATGTACAATTTAGCTTAATGGATCAGAAATCCTCTCCAGAGAAGTTTGGTTTC
+TTTGCTGCAAGAAGAATGAGGTTCTGAAACCTTACCCAAGAACTTAGAAGCCATCAGCCAAGTATCCATGTTTCTCTGTG
+CAAAATGTCATAGCTTAAATAAATGTACAATATTCAATTGTAATGCATGCCTTCAAGTTGTAAGTAGCCAGATTTCTCTA
+TGATGTCATTGAAACATGCTACTTTTTAATTGGCCCTGTACAGTTTGCTTATTTATAAATTTATTGAAAACACTACAGGT
+GTTGGTTAAAATGTAGGCTTCTAGCTCATAACTTCAGTTATTTTTTGAGTGTGCAAACAGCTATTTTGCACTGTATTAAA
+TGTAACTTATTTAATGAAATCAAAAGCAGTAGACAGATGTTGGTGCAATACGAATATTGTGATGCATTTATATTAATAAA
+ATGCTAAACGTCAATTTATCACAACGCATGTTTGACTTTAGACTGTAAATAGAGATCAGTTTATTTCTGTGCTGGTAAAA
+AGTATTGCACAGACATGGTTTCAGGTAAATAAATCTATTCTATGATAAGTT
+>ref|ref|X66274.1|| S.scrofa mRNA for cardiac alpha tropomyosin
+CGAATTCGGGGCCTGTTCTATAATCGATAAACCCCGATAGACCTTACCAACCCTTGCCAATCCAGCTCGGCCGCTCCACC
+GCGCGCTGGCCTCCCCGCTTCTGCCGCAGCCCCAGGGCCCCTTACCGCCGCCACCATGGACGCCATCAAGAAGAAGATGC
+AAATGCTCAAGCTCGACAAGGAGAACGCCTTGGATCGAGCGGACGAGGCGGAGGCCGATAAGAAGGCGGCAGAGGACAGG
+AGCAAGCAGCTGGAAGATGAGCTGGTGTCGCTGCAAAAGAAGCTCAAGGCCACCGAAGATGAACTGGACAAATATTCCGA
+GGCTCTCAAAGATGCCCAGGAGAAGCTGGAGCTGGCGGAGAAAAAGGCCACCGATGCTGAAGCCGATGTAGCTTCTCTGA
+ACAGACGCATCCAACTGTTTGAGGAAGAGCTGGACCGTGCCCAGGAGCGACTGGCAACAGCTTTACAGAAACTTGAGGAG
+GCTGAGAAGGCAGCAGATGAGAGTGAGAGAGGCATGAAAGTCATTGAAAGCCGAGCCCAAAAGGATGAGGAGAAAATGGA
+AATTCAGGAGATCCAGCTGAAAGAAGCCAAGCACATTGCTGAGGATGCCGACCGCAAGTATGAAGAGGTGGCCCGTAAGC
+TGGTCATCATTGAGAGTGACCTGGAACGTGCCGAGGAGCGGGCTGAACTCTCAGAAGGCAAATGTGCCGAGCTTGAAGAA
+GAGTTGAAAACTGTGACGAACAACTTGAAGTCACTGGAGGCTCAGGCTGAGAAGTACTCACAGAAGGAAGACAAATATGA
+AGAAGAGATCAAGGTCCTTTCTGACAAGCTGAAGGAGGCTGAAACTCGGGCCGAGTTTGCAGAGAGGTCAGTAACTAAAT
+TGGAGAAAAGCATTGATGACTTAGAAGACGAGCTGTACGCTCAGAAACTGAAGTACAAAGCCATCAGCGAGGAGCTGGAC
+CACGCTCTCAACGATATGACTTCCATATAAGTTTCTTTGCTTCACTTCTCCCAAGACCCCCTCATCGAGCTGGATATCCC
+ACCTCTCTGAGCTCTGCAGTTTGTCTCTTCTCCAGCTGACCCTGGTTTATTCTTTCACATCCATCCTTAGGGCCAGGCAC
+ACACTGTGCTTTCTATTGTACAGAAGCTCCTCAATTCAGTGTAAAATAAACACTGTGTAAGCTAAAAAAAAAAAAAAACC
+CGAATTC
+>ref|ref|X56503.1|| Porcine CKII beta mRNA for casein kinase II beta subunit
+GAATTCTTCTGTGAAGTGGATGAAGACTACATCCAGGACAAATTCAATCTCACTGGACTCAACGAGCAGGTGCCTCATTA
+TCGACAAGCCCTAGACATGATCTTGGACCTGGAACCTGATGAGGAGCTGGAAGACAACCCCAACCAGAGTGACCTGATTG
+AGCAGGCAGCCGAAATGCTCTATGGATTGATCCACGCCCGCTATATCCTCACCAACCGTGGCATCGCCCAGATGTTGGAA
+AAGTACCAGCAGGGAGACTTTGGCTACTGTCCCCGTGTGTACTGTGAGAACCAGCCAATGCTTCCCATCGGCCTTTCGGA
+CATCCCAGGCGAGGCCATGGTGAAGCTCTACTGCCCCAAGTGCATGGACGTGTACACGCCCAAGTCATCGAGGCACCACC
+ACACGGATGGCGCCTACTTCGGCACCGGTTTCCCTCACATGCTCTTCATGGTGCACCCCGAGTACCGGCCCAAACGGCCT
+GCCAACCAGTTTGTGCCCAGGCTCTACGGTTTCAAGATCCATCCAATGGCCTACCAGCTGCAGCTCCAAGCCGCCAGCAA
+CTTCAAGAGCCCGGTCAAGACAATTCGCTGATTCCCCATCCCACCCGTCCCTCAGTCTTTGACACTTTCGTTCTTTCGCT
+GCCACCCTTTCAGGAACCCTCTATGGTTTTTAGTTTAAATTAAAGGAGTCGTTATTGTGGTGGGAACATGAAATAAAGTG
+TAAGAAAAGGCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|ref|X68247.1|| S.scrofa CRC (RYR1) gene for calcium release channel (partial)
+CTGCAGGTGCGGTCCTAAAAAGCAAAAAAAAAAAAAAAAAAAAAAAGATAGGGAGCTACCTGGGGATACACGGCTGCCAC
+TAGTTGTTGAAGGAATGTGAATTGGCCAACCTAAGAAAAGCCAGGAAGGGAGGTCCTGGGATTCTGGGGATGACGCCTCT
+GTTTTTCCCACCTCAGGGGATGCTCTCCCTGGTCCTGAATTGCATTGACCGCCTAAATGTCTACACCACTGCTGCCCACT
+TTGCTGAGTTTGCAGGAGAGGAGGCAGCCGAGTCCTGGAAAGAGATTGTGAACCTGCTGTATGAGATCCTGGGTAAGGGG
+CCTCAGTCTTGACTCCCCCAGAATAGCCCAGGCTTCCAGTCCTGTTGGGTCTGACCCCTCTTTCCACCCTCAGCCTCTCT
+GATCCGTGGCAATCGTGCCAACTGTGCCCTTTTCTCCAACAACTTGGATTGGCTGGTCAGCAAGCTGGATCGACTGGAGG
+CCTCCTCAGGTAGGAGAACCCAGGGGGAGGGGACAGGGGACAGGGGCGGGGAGGGCAGGGCTTCAGCCATCTCACCTCTC
+ACTCTGATCCCTGGGCAGGGATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAG
+GAGAACCACATCAAGTCCATCATCTCCCTTCTGGACAAGCATGGGAGGAACCACAAGGTGGGCCTCTCATCCCCTCAATT
+CTGCACTTGATCTTTCCCCACCCCCCCTCTTCACTCTTACCTGGACTCCTCTGCCACATGCTTCTAGCTCAATACAAAGG
+TCTCAAACTCCTTGTTTTTGTTTTTGTTTTTATGGCTGAACCTGTGGCAAATGGAAGTTTCCAGGCAAGGGGGTGAACCA
+GAGCTATAGCTGCTGGCCTACACCACAGCCTCATCAACAACGCCAGATCCGAGCCGTGTCTGCCACCTACACCACAGCTC
+ATGGCAATACCAGATCCTTAACCCACTGAGCGAGGCCAGGGATCGAACCTGCAACCTCACGAATACTAGTTGGGTTTGTA
+ACCCACTGAAGCCACAATGGGAACTCCTCAAAGTCATTCTTAAATGGATTCTGGGCCCCCGATATGCTTCCTTAGATCTT
+TGAAGTGTTTTCTAAATGTCTAATGTAAATGCAGGCGGCTGCATATACACGCTCCAGTTTGCCACAGGTCCTACCAGTCC
+CCACTGAATTAATTATTTCTAACCACCTCATGTATGGACAACATCCACCTGGCCCCGAAGATGCACGTTGGTGACCCCCG
+CCCATCCAGAACCTCGTCTTGGTCTCCGTGCTCTCGCACTGACCCGGGCTTTCACTCTTGCCTCCGACTTCTCACCCCTT
+GCTCCCGTCTCTCCTTTCCTCCTCTGCTGATGCCCGATCCCATCCCTCACAGCCCCCTGCGTCTCACCAGACCTTTCTCT
+TTGACCTTGATCTCCCTGTGTCATCCCTGACCTTCCCGCTTTCACCACCTCTTCTCAGTCACATCCCCACCTCCCACCCT
+GGGACATCATCCTTCTGGCTTCCCACCCTGGGTCTTCCATGGACCACACCCTCCCCGCAAGTGCCCTCACACCTTGACCT
+CTGACCTTGACCCCTAGGTGCTGGATGTCCTGTGTTCCCTGTGTGTGTGCAATGGTGTGGCCGTGCGCTCCAACCAAGAT
+CTCATTACTGAGAACTTGCTCCCTGGCCGCGAGCTTCTGCTGCAGACAAACCTCATCAACTATGTCACCAGGTCTGGCCC
+CCCAACCTTTGACCCCAGAGCTTAGAACCCTCCACCACCCCGCCCCGACTCAGAGACTCCACTCCGGTGAATGGCCCTTC
+CTCCGTCCCCCACCCCCGGACTTAATGCCAGTCCCCACCCCTGTCGTGCTTGTCCCAAGCTTGTCCCTGGCTTCTTACTT
+CTCTTACCCTTCTTCCCCAAACTCTTTCTCCCTCTGTCTCTTCCTCTTTCTCTCTTTCTGTGTTTGCTCTCTTTGTCTGT
+CTATCTATTTCTCCTCCATCTCTTTTTCCAGGTCTTTCTCTCATCTCTCTTCTCTGTCTTTTGACGTCTCTCTGTCTGTC
+TCTGCCTCTGCTTTCTCTCTCTGTGTCTCTGTCTCCATGGCTCTGCCTTTCCGTTTTTCCTGCGTATGTGTCTCTTTGTC
+TTTTTCCCTCTCCCCCCCAGCCTTCCCTCCAGCCTGGCTCTCTTCTCCAGCCCTCCTCATCCTCCTCTTCTGTCCCATTT
+CTCCTGCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCACACAGTACAGCAAATGGTACTTTGAGGTCA
+TGGTGGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGGGTGGGCTGGGCCCTCACCGAAGGCTACAGC
+CCCTACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGACCTCTATTCCTACGGCTTTGACGGGCTGCA
+TCTCTGGACAGGTACCTGGACCTTGCAGGG
+>ref|ref|X62880.1|| S.scrofa mRNA for calcium release channel (CRC)
+GGTGACGGAGGAGAGGGCGAAGATGAGGTCCAGTTTCTGCGGACAGACGACGAGGTGGTCCTGCAGTGCAACGCCACGGT
+GCTCAAGGAGCAGCTCAAGCTCTGCCTGGCCGCCGAGGGCTTCGGCAACCGCCTCTGCTTCCTGGAACCCACCAGCAACG
+CCCAGAATGTGCCCCCCGATCTGGCCATCTGCTGCTTCGTCCTGGAGCAGTCCCTGTCCGTCCGAGCCCTGCAGGAGATG
+CTGGCCAACACCGTGGAGGCCGGCGTGGAGTCCTCCCAGGGTGGGGGCCATAGGACGCTCTTGTACGGCCACGCCATCCT
+GCTCCGGCACGCGCACAGTGGCATGTATCTGAGCTGCCTCACCACCTCCCGTTCCATGACTGACAAGCTGGCCTTCGACG
+TGGGACTGCAGGAGGATGCGACAGGAGAGGCCTGTTGGTGGACTACACACCCGGCCTCCAAGCAGAGGTCGGAAGGAGAG
+AAGGTTCGAGTAGGGGATGACCTCATCCTCGTCAGTGTCTCCTCTGAGCGTTACCTGCACCTGTCGACAGCCAGTGGGGA
+GCTCCAGGTTGACGCCTCCTTCATGCAGACACTGTGGAACATGAACCCCATCTGCTCTGGCTGTGAAGAAGGCTATGTGA
+CTGGGGGTCACGTCCTCCGCCTCTTTCACGGACACATGGATGAGTGCCTGACCATCTCCCCCGCTGACAGTGATGACCAG
+CGCAGACTTGTCTACTACGAGGGTGGATCTGTGTGCACCCACGCCCGCTCCCTCTGGAGACTGGAACCGCTGAGAATCAG
+CTGGAGTGGGAGCCACCTGCGCTGGGGCCAGCCGCTTCGCATCCGGCATGTCACCACCGGGAGGTACCTGGCGCTCATCG
+AGGACCAGGGCCTGGTGGTGGTTGATGCCAGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGCATTTCCAAGGAG
+AAGCTGGATACGGCCCCCAAGCGGGACGTGGAGGGCATGGGCCCCCCTGAGATCAAGTATGGGGAGTCACTGTGCTTCGT
+GCAGCATGTGGCCTCGGGCCTGTGGCTTACCTATGCTGCCCCAGACCCCAAGGCCCTGCGGCTCGGCGTGCTCAAGAAGA
+AGGCCATTCTGCACCAGGAAGGCCACATGGACGATGCACTGTCACTGACCCGCTGTCAGCAGGAGGAGTCCCAGGCGGCC
+CGCATGATCTATAGCACTGCTGGCCTCTACAACCACTTCATCAAGGGCCTGGACAGCTTCAGCGGAAAGCCACGGGGCTC
+TGGGGCCCCGGCTGGCACAGCGCTACCCCTCGAGGGCGTCATCCTGAGCCTGCAGGACCTCATCGGCTACTTTGAGCCGC
+CCTCGGAAGAGCTGCAGCACGAGGAGAAGCAGAGCAAGCTGCGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAG
+GGGATGCTCTCCCTGGTCCTGAATTGCATTGACCGCCTAAATGTCTACACCACTGCTGCCCACTTTGCTGAGTTTGCAGG
+AGAGGAGGCAGCCGAGTCCTGGAAAGAGATTGTGAACCTGCTGTATGAGATCCTGGCCTCTCTGATCCGTGGCAATCGTG
+CCAACTGTGCCCTTTTCTCCAACAACTTGGATTGGCTGGTCAGCAAGCTGGATCGACTGGAGGCCTCCTCAGGGATCCTG
+GAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAGGAGAACCACATCAAGTCCATCATCTC
+CCTTCTGGACAAGCATGGGAGGAACCACAAGGTGCTGGATGTCCTGTGTTCCCTGTGTGTGTGCAATGGTGTGGCCGTGC
+GCTCCAACCAAGATCTCATTACTGAGAACTTGCTCCCTGGCCGCGAGCTTCTGCTGCAGACAAACCTCATCAACTATGTC
+ACCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCACACAGTACAGCAAATGGTACTTTGAGGTCATGGT
+GGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGGGTGGGCTGGGCCCTCACCGAAGGCTACAGCCCCT
+ACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGACCTCTATTCCTACGGCTTTGACGGGCTGCATCTC
+TGGACAGGACACGTGCCACGCCTGGTGACTTCCCCAGGGCAGCACCTTCTGGCCCCCGAGGACGTGGTCAGCTGCTGCCT
+GGACCTCAGCGTGCCGTCCATCTCCTTCCGCATCAACGGCTGCCCCGTGCAGGGCGTCTTCGAGGCCTTCAACCTCAACG
+GGCTCTTCTTCCCCGTCGTCAGCTTCTCGGCCGGTGTCAAGGTGCGGTTCCTCCTTGGGGGCCGCCACGGCGAATTCAAG
+TTCCTCCCTCCGCCTGGCTACGCCCCTTGCCACGAGGCTGTGCTCCCACGAGAGCGACTCCGTCTGGAACCCATCAAGGA
+GTATCGGCGAGAAGGGCCCCGGGGACCCCACCTGGTGGGCCCCAGCCGCTGCCTCTCACACACCGACTTTGTGCCCTGCC
+CGGTGGACACTGTCCAGATTGTCCTGCCTCCCCATCTGGAGCGTATCCGGGAGAAGCTGGCAGAGAACATCCATGAACTC
+TGGGCGCTGACGCGCATCGAGCAGGGCTGGACCTATGGCCCGGTTCGGGATGACAATAAGCGGCTGCACCCGTGTCTCGT
+GGACTTCCACAGCCTCCCGGAGCCCGAGAGGAATTACAACCTGCAGATGTCGGGGGAGACGCTCAAGACTCTGCTGGCGC
+TGGGCTGCCACGTGGGCATGGCGGACGAGAAGGCAGAGGACAACCTGAGGAAGACGAAACTCCCCAAGACGTACATGATG
+AGCAATGGGTACAAGCCAGCGCCACTGGACCTGAGCCATGTGAGACTGACGCCTGCGCAGACCACGCTGGTGGACCGGCT
+GGCGGAGAACGGGCACAACGTGTGGGCCCGAGACCGAGTGGCCCAGGGCTGGAGCTACAGTGCTGTGCAGGACATCCCAG
+CGCGCCGCAACCCTCGCCTCGTGCCCTACCGCCTGCTAGACGAGGCCACCAAGCGCAGCAACCGGGACAGCCTTTGCCAG
+GCTGTGCGCACCCTGCTGGGCTACGGCTACAACATCGAGCCGCCCGACCAGGAGCCCAGTCAGGTGGAGAGCCAGTCTCG
+CTGGGACCGTGTGCGCATCTTCCGGGCTGAGAAGTCCTATGCGGTGCAGAGCGGCCGCTGGTACTTCGAGTTCGAGGCCG
+TCACCACGGGCGAGATGCGAGTGGGCTGGGCGCGGCCTGAGCTGCGGCCTGATGTGGAGCTGGGAGCCGATGAGCTGGCC
+TATGTCTTCAATGGGCACCGGGGTCAGCGCTGGCACTTGGGCAGCGAACTGTTTGGGCGTCCCTGGCAGTCGGGTGATGT
+GGTGGGCTGCATGATCGACCTCACAGAGAACACCATTATCTTCACGCTCAACGGCGAGGTCCTCATGTCCGACTCGGGCT
+CTGAAACCGCCTTCCGGGATATCGAGGTTGGGGATGGCTTCCTGCCCGTCTGCAGCTTGGGACCTGGCCAGGTGGGCCAC
+CTGAACCTGGGCCAGGATGTGAGCTCCCTGCGGTTCTTTGCCATCTGCGGCCTCCAGGAAGGTTTTGAGCCATTCGCCAT
+CAACATGCAGCGTCCCGTCACTACCTGGTTCAGCAAAAGCCTTCCCCAGTTTGAGGCCGTGCCCCTCGAGCATCCCCACT
+ACGAGGTGTCTCGTGTGGACGGCACCGTGGACACGCCCCCCTGCCTGCGCCTGACCCACCGCACCTGGGGCTCCCAGAAC
+AGTCTGGTGGAGATGCTCTTTCTCCGGCTGAGCCTCCCTGTCCAGTTCCACCAGCACTTCCGCTGCACCGCAGGGGCCAC
+CCCCCTGGCACCACCTGGCCTGCAGCCCCCTGCTGAGGATGAGGCCCGGGCAGCAGAACCTGATCCCGACTATGAAAACC
+TGCGCCGCTCAGCTGGGCGCTGGGGCGAGGCTGAGGGCGGCAAAGAAGGAACTGCCAAGGAGGGGGCACCCGGGGGCACT
+GCCCAGGCTGGGGTAGAGGCCCAGCCTCCCAGGGCAGAAAATGAGAAGGATGCTACCACAGAGAAGAACAAGAAGAGAGG
+GTTCCTATTCAAGGCCAAGAAGGCTGCCATGATGACCCAGCCACCGGCCACCCCGACTCTGCCCAGACTCCCTCACGAGG
+TGGTGCCTGCTGATGACCGCGATGACCCTGACATCATCCTCAACACCACCACGTACTATTACTCGGTGAGGGTCTTCGCT
+GGCCAGGAGCCCAGCTGCGTGTGGGTGGGCTGGGTCACCCCTGACTACCACCAGCACGACATGAACTTCGACCTCACCAA
+GGTCCGGGCGGTGACGGTGACCATGGGGGATGAGCAGGGCAACATCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGG
+TGTGGGGTGGAGACTTTGTGAGCCCCGGGCAGCAGGGCCGGATCAGCCACACAGACCTTGTCATCGGCTGCCTGGTGGAC
+TTGGCTACTGGGCTTATGACCTTCACCGCCAACGGCAAAGAGAGCAACACCTTTTTCCAGGTGGAACCCAACACAAAGCT
+GTTTCCAGCCGTCTTTGTCCTGCCCACACACCAGAACGTCATCCAGTTTGAGCTGGGGAAGCAGAAGAACATCATGCCGC
+TGTCCGCTGCCATGTTTCTGAGCGAGCGCAAGAACCCGGCCCCGCAGTGCCCGCCCCGGCTCGAGATGCAGATGCTGATG
+CCCGTGTCGTGGAGCCGCATGCCCAACCACTTCCTGCGGGTGGAGACGCGCCGTGCCGGCGAGCGGCTTGGCTGGGCGGT
+GCAGTGTCAGGAGCCACTGACCATGATGGCACTGCACATCCCTGAAGAGAACCGATGCATGGACATCCTGGAGCTGTCCG
+AGCGCTTGGACCTGCAGCAGTTCCACTCGCACACCCTCCGCCTCTACCGCGCTGTGTGCGCCCTGGGCAACAACCGCGTG
+GCGCATGCGCTGTGCAGCCACGTGGACCAGGCGCAGCTGCTGCACGCCCTGGAGGACGCGCACCTGCCCGGCCCTCTGCG
+CGCAGGTTACTACGACCTCCTCATCAGCATCCACCTGGAAAGCGCCTGCCGCAGCCGCCGCTCCATGCTCTCTGAGTACA
+TCGTCCCCCTCACGCCGGAGACCCGCGCCATCACTCTCTTCCCGCCTGGAAAAAGGACGGAAAACGGTCCCCGCCGCCAC
+GGCCTGCCCGGTGTCGGCGTCACCACCTCGCTGAGGCCTCCGCACCATTTCTCAGCCCCCTGTTTTGTGGCAGCCCTGCC
+AGCTGTTGGAGCGGCCGAAGCCCCGGCCCGCCTCAGCCCCAGCATCCCTCTGGAGGCTCTGCGGGACAAAGCACTAAGAA
+TGCTGGGGGAGGCGGTACGAGACGGTGGGCAGCACGCACGCGACCCTGTCGGGGGCTCTGTGGAGTTCCAGTTTGTGCCC
+GTGCTCAAGCTCGTGTCCACCCTGCTGGTGATGGGCATCTTTGGTGATGAGGACGTGAAGCAGATCTTGAAGATGATTGA
+GCCCGAAGTATTCACTGAGGAAGAAGAGGAGGAGGAGGAGGAAGAAGAGGAGGAAGAAGAAGATGAGGAGGAGAAGGAGG
+AGGATGAGGAGGAGGAGGCACGGGAGAAGGAGGATGAGGAAAAAGAGGAAGAGGAGACAGCAGAAGGGGAAAAAGAAGAA
+TACTTGGAGGAAGGGCTGCTCCAGATGAAGTTACCAGAGTCTGTGAAGTTACAGATGTGTAATCTGTTGGAGTATTTCTG
+TGACCAAGAGCTGCAGCACCGTGTGGAGTCCCTGGCAGCCTTTGCAGAACGCTACGTGGACAAGCTCCAGGCCAACCAGA
+GGGACCGCTATGGCATCCTCATGAAGGCCTTCACCATGACCGCTGCCGAGACTGCCCGACGTACTCGCGAGTTCCGCTCC
+CCACCCCAGGAGCAGATCAACATGCTATTGCACTTCAAAGATGGCGAGGATGAGGAAGATTGTCCTCTTCCTGATGAGAT
+CCGGCAGGATTTGCTGGAATTCCATCAAGACCTGTTGACTCACTGTGGAATTCAGCTGGAGGGGGAGGAGGAAGAACCAG
+AGGAAGAAGCCACCCTGGGCAGCCGCTTGATGAGCCTGTTGGAGAAGGTGCGGCTGGTGAAGAAGAAGGAGGAGAAATCC
+GAGGAGGAGCCACCTGCCGAGGAGAGCAAAGCCCAGTCACTGCAGGAGCTGGTGTCTCACACAGTGGTGCGCTGGGCCCA
+AGAGGACTTTGTGCAGAGCCCGGAGCTGGTACGGGCCATGTTCAGCCTCCTGCACCGGCAGTACGACGGGCTCGGGGAGC
+TGCTGCGTGCCCTGCCCCGCGCCTACACCATCTCCCCCTCCTCTGTGGAGGACACCATGAGCCTACTCGAGTGCCTCGGC
+CAGATCCGGTCACTGCTCATCGTGCAGATGGGCCCCCAGGAGGAAAACCTCATGATCCAGAGCATTGGGAACATCATGAA
+CAACAAAGTCTTCTACCAACACCCGAACTTGATGCGGGCACTGGGCATGCACGAGACAGTCATGGAGGTCATGGTGAATG
+TCCTCGGCGGCGGGGAGTCCAAGGAGATCCGCTTCCCCAAGATGGTGACGAGCTGCTGCCGCTTCCTCTGCTACTTCTGC
+CGCATCAGCCGGCAGAACCAGCGCTCCATGTTTGACCACCTGAGCTACCTGCTGGAGAACAGTGGCATTGGCCTGGGCAT
+GCAGGGCTCCACGCCCCTGGATGTGGCCGCTGCCTCCGTCATTGACAACAACGAGCTGGCTTTGGCATTGCAGGAGCAGG
+ACCTGGAGAAGGTGGTGTCCTACCTGGCAGGCTGTGGCCTCCAAAGCTGCCCCATGCTCCTGGCCAAAGGGTACCCGGAC
+ATCGGCTGGAACCCCTGCGGTGGTGAGCGCTACCTGGACTTCCTGCGCTTTGCTGTCTTTGTCAATGGTGAGAGCGTGGA
+GGAGAACGCCAACGTGGTGGTGCGGCTGCTGATCCGCAAGCCCGAGTGCTTCGGGCCTGCCCTGCGGGGCGAGGGCGGCT
+CGGGGCTGCTGGCCACCATCGAGGAGGCCATCCGCATCTCCGAGGACCCCGCGCGGGACGGCCCTGGCGTCCGCAGGGAC
+CGGCGGCGAGAGCACTTCGGGGAGGAGCCCCCTGAAGAAAACCGGGTGCACCTGGGACACGCCATCATGTCCTTCTATGC
+TGCCTTGATTGACCTGCTGGGACGCTGTGCACCAGAGATGCATCTGATCCAAGCCGGCAAGGGCGAGGCCCTGCGGATCC
+GTGCCATCCTGCGCTCCCTCGTGCCCCTGGACGATCTCGTGGGCATCATCAGCCTCCCACTGCAGATACCCACCCTGGGC
+AAAGACGGGGCTCTAGTACAGCCAAAGATGTCAGCATCCTTCGTGCCGGACCACAAGGCGTCGATGGTGCTCTTCCTGGA
+CCGTGTGTACGGCATCGAGAACCAGGACTTCTTGCTGCACGTGCTGGACGTGGGGTTCCTGCCTGATATGAGGGCGGCCG
+CCTCGCTGGACACGGCCACTTTCAGCACCACGGAAATGGCACTGGCGCTGAACCGCTACCTATGCCTGGCCGTGCTGCCA
+CTCATCACCAAGTGTGCGCCACTCTTCGCGGGAACCGAGCATCGTGCCATCATGGTGGACTCTATGCTTCACACGGTGTA
+CCGCCTGTCCCGTGGCCGCTCGCTCACCAAGGCGCAGCGCGACGTTATCGAGGAATGCCTGATGGCGCTCTGCAGGTACA
+TCCGCCCGTCCATGCTACAGCACCTGCTTCGGCGCCTGGTGTTCGACGTGCCCATCCTTAACGAGTTCGCCAAGATGCCC
+CTCAAGCTCCTCACCAACCACTATGAGCGTTGCTGGAAGTACTACTGCCTCCCCACAGGCTGGGCCAACTTCGGAGTCAC
+CTCGGAGGAAGAGCTGCACCTCACTCGCAAACTCTTCTGGGGCATCTTTGACTCGCTGGCCCATAAGAAATATGACCCAG
+AGCTGTACCGCATGGCTATGCCCTGCCTGTGTGCCATCGCAGGGGCCCTGCCCCCCGACTACGTGGACGCCTCATACTCA
+TCCAAGGCTGAGAAAAAGGCTACCGTGGACGCTGAAGGCAACTTCGATCCTCGGCCTGTGGAGACTCTCAACGTGATCAT
+CCCAGAGAAGCTGGACTCCTTCATCAACAAGTTTGCCGAGTACACGCATGAGAAGTGGGCCTTCGACAAGATCCAGAACA
+ACTGGTCCTATGGGGAGAACATAGATGAGGAGCTGAAGACCCATCCCATGCTGAGGCCCTACAAGACCTTTTCAGAGAAG
+GACAAAGAGATTTATCGCTGGCCCATCAAAGAGTCCTTGAAGGCCATGATTGCCTGGGAATGGACGATAGAGAAAGCCAG
+GGAGGGTGAGGAGGAGAAGACGGAGAAGAAAAAAACACGGAAGATATCCCAAAGTGCCCAGACCTATGATGCTCGAGAAG
+GCTACAACCCCCAGCCCCCTGACCTCAGCGGCGTTACCCTGTCCCGGGAGCTGCAGGCTATGGCAGAACAACTGGCGGAA
+AATTACCACAACACGTGGGGACGGAAGAAGAAGCAGGAGCTGGAAGCCAAGGGTGGTGGGACCCACCCCTTGCTGGTTCC
+CTACGACACTCTCACGGCCAAGGAGAAGGCACGAGATAGAGAGAAGGCCCAGGAGCTGCTGAAGTTCCTGCAGATGAATG
+GCTATGCAGTCACCAGGGGCCTTAAGGACATGGAACTGGACACATCTTCCATTGAGAAACGGTTTGCCTTTGGCTTCCTG
+CAGCAGTTGCTGCGCTGGATGGACATTTCTCAGGAGTTTATCGCCCACCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGA
+AAAGTCCCCCCATGAACAGGAGATAAAATTCTTTGCCAAGATCCTGCTCCCTTTGATCAACCAGTACTTCACCAACCACT
+GCCTCTATTTTCTGTCCACACCGGCCAAAGTGCTGGGCAGCGGCGGCCACGCCTCCAACAAGGAGAAGGAAATGATCACC
+AGCCTCTTCTGCAAGCTGGCCGCTCTTGTCCGTCACCGAGTCTCTCTCTTTGGGACGGATGCCCCAGCCGTGGTCAACTG
+CCTTCACATCCTGGCACGTTCCCTGGACGCGAGGACAGTGATGAAGTCTGGCCCCGAGATTGTGAAGGCCGGCCTCCGTT
+CCTTCTTCGAGAGCGCCTCGGAGGACATCGAGAAGATGGTGGAGAACCTGCGCCTGGGCAAGGTGTCACAGGCGCGCACG
+CAGGTCAAGGGCGTGGGCCAGAACCTCACCTACACCACCGTGGCCCTGCTGCCTGTGCTAACCACCCTCTTCCAGCACAT
+CGCCCAGCACCAGTTTGGAGACGACGTAATCCTGGATGACGTTCAGGTCTCTTGCTATCGAACGCTGTGCAGTATCTACT
+CTCTGGGAACCACCAGGAACCCTTACGTGGAAAAGCTGCGGCCAGCCCTCGGTGAGTGCCTGGCCCGCCTGGCAGCAGCC
+ATGCCAGTGGCATTCCTGGAGCCCCAGCTGAACGAGTACAATGCCTGCTCAGTGTACACCACCAAGTCTCCCCGGGAGCG
+GGCCATCCTGGGGCTCCCCAACAGCGTGGAGGAGATGTGCCCGGATATTCCGGTGCTGGAGCGGCTCATGGCAGACATCG
+GGGGGCTGGCCGAGTCGGGGGCCCGCTACACGGAGATGCCACACGTCATTGAGATCACGCTGCCCATGCTGTGCAGCTAC
+CTGCCCCGCTGGTGGGAACGCGGGCCCGAGGCGCCCCCACCCGCCCTGCCCGCGGGAGCCCCTCCGCCCTGCACAGCTGT
+CACTTCCGACCACCTCAACTCCCTGCTGGGAAACATCCTGCGGATCATCGTCAACAACCTGGGCATCGACGAGGCCTCAT
+GGATGAAGCGGCTGGCCGTGTTCGCCCAGCCCATCGTGAGCCGGGCCCGGCCCGAGCTCCTGCACTCACACTTCATCCCC
+ACCATCGGGCGGCTGCGCAAACGGGCCGGGAAGGTGGTGGCCGAGGAGGAGCAGCTGCGCCTGGAGGCCAAGGCAGAAGC
+CGAGGAAGGGGAGCTCCTGGTGCGGGATGAGTTCTCTGTGCTCTGCCGGGACCTGTATGCCCTCTACCCACTGCTCATCC
+GCTACGTGGACAACAACAGGGCACACTGGCTGACGGAACCCAATCCCAGCGCGGAGGAGTTGTTCCGGATGGTGGGCGAG
+ATCTTCATCTACTGGTCCAAGTCCCACAACTTCAAGCGCGAGGAGCAGAACTTTGTGGTCCAGAATGAGATCAACAACAT
+GTCATTTCTGACCGCCGACAACAAGAGCAAAATGGCCAAGTCGGGTGGCTCAGACCAGGAACGCACCAAGAAGAAGCGCC
+TGGGGGACCGGTACTCTGTGCAGACATCGCTGATCGTGGCCACACTCAAGAAGATGCTGCCCATCGGCCTGAACATGTGT
+GCGCCCACCGACCAGGAACTCATCACGCTGGCCAAGACCCGCTATGCCCTGAAAGACACAGATGAGGAGGTCCGGGAATT
+TCTGCAAAACAACCTTCACCTTCAGGGAAAGGTCGAAGGTTCCCCGTCTCTGCGCTGGCAGATGGCCCTGTACCGGGGCC
+TCCCGGGCCGCGAGGAGGACGCTGACGACCCGGAGAAAATCGTGCGCAGAGTCCAGGAAGTGTCTGCGGTGCTCTATCAT
+CTGGAGCAGATGGAGCACCCTTACAAGTCCAAGAAGGCCGTGTGGCACAAGCTCTTGTCTAAGCAGCGCCGGAGGGCCGT
+GGTCGCCTGTTTCCGTATGACCCCGCTGTACAACCTGCCCACGCACCGGGCCTGTAATATGTTCCTGGAAAGCTACAAGG
+CTGCGTGGATCCTGACCGAAGACCACAGTTTTGAGGACCGCATGATAGATGACCTTTCAAAAGCTGGTGAGCAGGAGGAG
+GAGGAGGAAGAGGTGGAGGAGAAGAAGCCGGACCCCCTGCACCAGCTCGTCCTGCACTTCAGCCGCACCGCCCTGACTGA
+AAAGAGCAAACTGGATGAAGATTACTTATATATGGCGTATGCTGACATCATGGCAAAGAGCTGCCACCTGGAGGAGGGAG
+GGGAGAACGGCGAAGCTCAAGAAGAGGTTGAGGTTTCCTTTGAGGAGAAGGAGATGGAGAAGCAGAGGCTCCTGTACCAG
+CAGGCACGGCTGCACAACCGTGGGGCCGCGGAGATGGTGCTGCAGATGATCAGTGCCTGCAAAGGAGAGACAGGCGCCAT
+GGTATCGTCCACCCTGAAGCTGGGCATCTCCATCCTGAACGGAGGCAATGCCGATGTGCAGCAGAAAATGCTGGATTACC
+TGAAGGACAAGAAGGAAGTTGGCTTCTTCCAGAGTATCCAGGCACTGATGCAAACCTGCAGCGTCCTGGATCTCAATGCC
+TTTGAGAGACAGAACAAGGCAGAGGGGCTGGGCATGGTGAACGAGGACGGAACCGTCATCAACCGCCAGAACGGAGAGAA
+GGTCATGGCAGATGATGAATTCACCCAAGACCTGTTCCGATTCCTGCAATTGCTCTGCGAGGGCCACAATAATGATTTCC
+AAAACTACCTACGGACACAGACAGGGAACACAACCACTATTAACATCATCATCTGTACTGTGGACTACCTCCTGCGGCTG
+CAGGAGTCCATCAGTGATTTCTACTGGTACTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGAAACTTTTCCAA
+GGCCATGTCGGTGGCTAAACAGGTGTTCAATAGCCTCACAGAATACATCCAGGGTCCCTGCACCGGGAACCAGCAGAGCC
+TAGCGCACAGTCGCCTCTGGGACGCCGTGGTGGGATTCCTGCACGTGTTCGCCCACATGATGATGAAGCTCGCTCAGGAC
+TCGAGCCAGATCGAGCTGTTGAAGGAGCTGCTGGATCTACAGAAGGACATGGTGGTGATGTTGCTGTCGCTACTAGAAGG
+GAACGTGGTGAACGGCATGATTGCCCGGCAGATGGTGGACATGCTTGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCA
+AGTTCTTCGACATGTTCCTGAAACTCAAGGACATCGTGGGCTCTGAGGCCTTCCAGGACTATGTCACTGACCCCCGGGGT
+CTCATCTCCAAGAAGGACTTCCAGAAGGCCATGGACAGCCAGAAGCAGTTCACCGGTCCGGAAATCCAGTTCCTGCTTTC
+GTGCTCTGAAGCGGATGAGAACGAGATGATCGACTGCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGTGACATTG
+GCTTCAACGTAGCTGTGCTGCTGACCAACCTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTCGAGCTG
+GCGGAGAGCATCCTCGAGTACTTCCGGCCCTACCTGGGCCGCATCGAGATCATGGGCGCCTCGCGCCGCATCGAGCGTAT
+CTACTTTGAGATATCGGAGACCAACCGCGCCCAGTGGGAGATGCCCCAGGTGAAGGAGTCGAAGCGTCAGTTCATCTTCG
+ACGTGGTGAACGAGGGTGGCGAGTCGGAGAAGATGGAGCTCTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAG
+ATCGCTGCACAGATCTCGGAGCCCGAGGGCGAGCCGGAGGAGGATGAGGACGAGGGCGCGGGCCTGGCGGAGGCGGGCGC
+TGAGGGCGCGGAGGAGGGCGCGGTGGGGCCCGAGGGCGCGGCGGGGACCGCGGCGGCCGGCTTGACGGCGCGGCTGGCAG
+CGGCCACGAGCCGGGCTCTGCGCGGCCTCAGCTACCGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACAGCG
+CGGGAGGCGGCCACGGCGCTGGCCGCGCTGCTCTGGGCGGCGCTGGCGCACGCAGGGGCGGCGGGCGCCGGGGCGGCGGC
+GGGCGCGCTGCGCCTGCTCTGGGGCTCGCTCTTTGGTGGCGGCCTGGTGGAGGGTGCCAAGAAGGTGACGGTGACCGAGC
+TCCTGGCGGGCATGCCCGATCCCACGGGCGACGAGGTGCACGGCGAGCAGCCGGCTGGGCCCGGCGGCGAGGCGGACGGC
+GAGGGCGCGGGCGAGGGCGCGGGCGAAGCCTGGGAGGGCGCGGGCGACGAGGAGGTGGCGGTGCAGGAGGCCGGCCCGGG
+AGGCGCAGACGGGGCTGTGGCCGTGGCCGAAGGGGGCCCCTTCCGGCCCGAAGGGGCTGGCGGCCTCGGGGACATGGGTG
+ACACGACGCCTGCGGAGCCGCCCACGCCCGAGGGCTCCCCTATCATCAAGAGGAAGCTGGGGGTGGATGGAGAGGAAGAG
+GAGCTGCCGCCGGAGCCGGAACCGGAGCCGGAGCCAGAGCCTGAGAAAGCTGATGCTGAGAATGGGGAGAAGGAAGAAGT
+CCCCAAGCCCCCACCAGAGCCCCCCAAGAAGACAGCTCCTCCTCCACCCCCTCCAAAGAAGGAGGAGGGTGGAAGCGGGG
+GCCTGGAATTCTGGGGAGAACTGGAAGTACAGAGGGTGAAGTTCTTGAACTACCTCTCCCGGAACTTTTACACTCTGCGA
+TTCCTTGCTCTCTTCTTGGCATTTGCCATCAACTTCATCTTGCTGTTTTATAAGGTCTCGGACTCTCCACCAGGGGAGGA
+TGACATGGAGGGCTCAGCAGCCGGGGACCTGTCAGGTGCAGGCTCTGGTGGCGGCTCTGGTTGGGGCTCCGGGGCCGGAG
+AGGAGGTGGAAGGCGACGAGGACGAGAACATGGTGTACTACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCCGCCTTG
+CGCTGCCTGAGCCTGCTGCACACGCTGGTGGCCTTTCTCTGCATCATAGGCTACAACTGCCTCAAGGTGCCCCTGGTGAT
+CTTTAAGCGGGAGAAGGAACTGGCCCGGAAGCTGGAGTTTGACGGCCTCTACATCACGGAGCAGCCCGAGGATGATGACG
+TGAAGGGGCAGTGGGACCGGCTGGTGCTCAACACACCGTCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAG
+GTCCTGGACAAGCACGGGGACATCTACGGGCGGGAGCGGATCGCCGAGCTGCTGGGTATGGATCTGGCCACGCTGGAGAT
+CACAGCCCACAACGAGCGCAAGCCTGAACCACCGCCAGGGCTGCTCACCTGGCTCATGTCCATCGATGTCAAGTACCAGA
+TCTGGAAGTTTGGGGTCATCTTCACAGACAACTCGTTCCTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGTCAC
+TACAACAACTTCTTCTTCGCTGCCCACCTCCTGGACATTGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCGTCCGT
+CACCCACAATGGCAAACAGCTGGTGATGACCGTGGGCCTCCTGGCGGTTGTGGTCTACCTGTACACCGTGGTGGCCTTCA
+ACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAGGACGAGCCTGACATGAAGTGTGATGACATGATGACGTGTTAC
+CTGTTTCACATGTATGTGGGTGTCCGCGCTGGTGGGGGCATTGGGGACGAGATCGAGGACCCAGCAGGAGATGAATATGA
+GCTCTACCGGGTGGTCTTTGACATCACCTTCTTCTTCTTCGTCATCGTCATCCTGTTGGCCATCATCCAGGGTCTGATCA
+TTGATGCTTTTGGCGAGCTCCGAGACCAACAAGAGCAAGTGAGAGAAGATATGGAGACCAAGTGCTTCATCTGTGGCATC
+GGCAGCGATTACTTTGATACGACACCACACAGGTTCGAGACCCACACGCTAGAGGAGCACAACCTGGCCAATTACATGTT
+TTTCCTGATGTATCTGATAAACAAGGACGAGACAGAACACACGGGTCAGGAGTCTTATGTCTGGAAGATGTACCAAGAGA
+GATGCTGGGATTTCTTCCCGGCTGGCGATTGTTTCCGCAAGCAGTATGAGGACCAGCTTAGCTGAGACACCCCCAGCTGG
+CCCCGCACCCCCACCTCAAGTGCCTTGTTTTCACAGCAAGCCCCTTAGCCCCCCAAACCCTCCCCCCAAGGCAGCTAGGG
+GAGAGGTGACCATGCAGTGGAGAAATAAAGTCTGTGCTACACCCCTGAAAAAA
+>ref|ref|X04036.1|| Sus scrofa pre-mRNA for pancreatic prepro-elastase 1 (ELS-1)
+AGTGGTCTTCTCAGCTAGCAACATGCTGCGCTTGCTGGTGGTGGCCTCCCTGGTCCTTTATGGACACAGCACCCAGGACT
+TTCCAGAAACCAACGCCCGGGTAGTTGGAGGGACCGAGGCTCAGAGGAATTCTTGGCCATCTCAGATTTCCCTCCAGTAC
+CGGTCTGGAAGTTCGTGGGCTCACACCTGTGGAGGGACCCTCATCAGGCAGAACTGGGTGATGACAGCCGCTCACTGCGT
+GGACAGAGAGTTGACCTTCCGTGTGGTGGTTGGAGAGCACAACCTGAACCAGAACGATGGCACCGAGCAGTACGTGGGGG
+TGCAGAAGATCGTGGTGCATCCCTACTGGAACACCGACGACGTGGCTGCAGGCTATGACATCGCCCTGCTGCGCTTGGCC
+CAGAGTGTAACCCTCAACAGCTACGTCCAGCTGGGTGTTCTGCCAAGGGCGGGGACCATCTTGGCTAACAACAGTCCCTG
+CTACATCACAGGCTGGGGCCTGACCAGGACCAATGGGCAGCTGGCCCAGACCCTGCAGCAGGCTTACCTGCCCACCGTGG
+ACTACGCCATCTGCTCCAGCTCCTCGTACTGGGGCTCCACCGTGAAGAACAGCATGGTGTGCGCCGGAGGGGACGGAGTT
+CGCTCTGGATGTCAGGGTGATTCTGGGGGCCCCCTTCATTGCTTGGTGAATGGCCAGTATGCTGTCCACGGTGTAACCAG
+CTTCGTGTCCCGCTTGGGCTGTAATGTCACTAGGAAGCCCACAGTCTTCACTAGGGTCTCTGCTTACATCTCTTGGATAA
+ACAACGTCATTGCCAGCAACTGAACATTTTCCGGAGTCCAACGGCCTTCCCGAGGTGATTCTTAGATGCTCAGCAGGACT
+TGAGGCCACCAAAGAAATTACATTCTAAGAGACTATTGAGTCAGATACAGAAAAGCAAATAAAACCGAATATACATATC
+>ref|ref|X17058.1|| Sus scrofa mRNA for glucose transporte protein
+GAATTCTACAACCAGACGTGGCTCCACCGCTATGGGGAGAGCATCTCGCCCGCCACGCTGACCACACTCTGGTCCCTCTC
+CGTGGCCATATTCTCCGTGGGGGGCATGATCGGCTCCTTCTCTGTGGGCCTGTTTGTGAACCGCTTTGGCCGGCGGAATT
+CCATGCTGATGATGAACCTGCTGGCCTTCATATCTGCTGTGCTCATGGGCTTCTCCAAACTGGGCAAATCCTTTGAGATG
+CTGATCCTGGGTCGCTTCATCATCGGTGTGTACTGCGGCCTGACCACGGGCTTCGTGCCCATGTATGTGGGGGAGGTGTC
+CCCGACGGCCCTTCGAGGGGCCCTGGGCACCCTGCACCAGCTGGGCATCGTCGTCGGCATCCTCATCGCCCAGGTATTTG
+GCCTGGACTCCATCATGGGCAACGAGGAGCTGTGGCCCCTGCTCCTGAGCGTCATCTTCATCCCGGCCCTGCTGCAGTGC
+GTCCTGCTGCCCTTCTGCCCCGAGAGCCCCCGCTTCCTGCTCATCAACCGCAATGAGGAGAACCGGGCCAAGAGCGTGCT
+GAAGAAGCTGCGCGGAACGGCAGACGTGACCCGAGACCTGCAGGAGATGAAGGAGGAGAGCCGGCAGATGATGCGGGAGA
+AGAAGGTCACCATCCTGGAGCTGTTCCGCTCGGCCGCCTACCGCCAGCCCATCCTCATCGCCGTGGTGCTGCAGCTGTCC
+CAGCAGCTGTCGGGCATCAACGCGGTTTTCTATTACTCCACAAGCATCTTCGAGAAGGCGGGGGTGCAGCAGCCTGTGTA
+TGCCACCATCGGCTCCGGCATCGTCAACACGGCCTTCACTGTCGTGTCGCTGTTCGTGGTGGAACGAGCCGGCCGGCGGA
+CCCTGCACCTCATAGGCCTGGCTGGCATGGCGGGTTGCGCGGTGCTCATGACCATCGCCTTGGCACTGCTGGAGCAGCTA
+CCCTGGATGTCCTACCTGAGCATCGTGGCCATCTTTGGCTTCGTGGCCTTCTTTGAAGTGGGCCCTGGCCCCATCCCATG
+GTTCATTGTGGCCGAACTCTTCAGCCAGGGCCCTCGCCCGGCTGCCATTGCCGTCGCTGGCTTCTCCAACTGGACCTCGA
+ATTTCATTGTGGGCATGTGCTTCCAGTATGTGGAGCAACTGTGCGGCCCCTACGTCTTCATCATCTTCACGGTGCTCCTG
+GTCCTGTTCTTCATCTTCACCTACTTCAAAGTTCCCGAGACCAAAGGCCGGACCTTCGATGAGATTGCTTCCGGCTTCCG
+GCAGGGGGGAGCGAGCCAAAGCGACAAGACACCCGAGGAGCTGTTCCACCCCCTGGGGGCCGATTCCCAAGTGTGAGTGC
+CCCGCACCCCCAGCCCGGCCTGCTCCCAGCAGCCCAAAGGATCTCTCGGAGCACAGGCAGCTGAATGAGACTCAAACTGA
+CAGATCTCAGCAGAGACGGGCCCCGGGCTCCTTCCTTCAGCCAGCAGTGATGTCCAGAAGAATATTCAGGGCTCTGCGGC
+TCCAGGATTTTTAACAAAAGCAGGACTGTTGCTCAGTCCATTCAGACAAGCAACAGGTTTTATAATTTTTTTATTACTGA
+TTTTGCTATTATTTTTGTATCACCAAGTCTCCTTTACCCACATCCCACGCTTCACCTTGGAGGGCTCAGTGCCTGACGAC
+GGGGACCGAGCCCTGCCTAGACACTTGCCTTCTCCGCCAAGCTAATCCGTAGGGCTGGACCTGCGACCCCAGGACACACT
+AATCGAACTATGAACTCAGTCTTCTACCCCAAGAGGTGGCCCTGGCCACTCCCTTCCGCGGGTCTGAGTCTTCCCACCCA
+GGGGGCCAGGCTCCATTAGGATTCGCCCGCTCCCGTCCCTCCCTGCTCAAACACTCTGATTAATCTTCCCTTGCCTGAGA
+CCAGTTGGGAGCACTGGGGTGCAGGGAGGGGAGGGGAAGGGCCAGGGCTGCCAGGTTCCAGGCTCCCTTGCACTGAGGGC
+CAGACGATCACCATGGGAGGCTGAGAACTCACTACTACTCAAGAAGACACGGACACTCCTGCCCTGCTGTGTGTATAGAC
+GGAAGATATTTATATATATTTTTTGGTTGTCAATATTAAATACAGACACTAAGTTATAGTATATCCGGACAAACCAACTT
+GTAAATACACCACCTTCCTCACTCTGTAACCCACCTAAGTAGATAAAAATGGCTGGTTTTTTTAAAAAAA
+>ref|ref|X52566.1|| Pig mRNA for haptocorrin (partial)
+CGACAATCACACCAGCTGCCCCTCGTGGGGCTCCTATTGTTCTCTCTCATTCCAAGCCAACTATGCCAGAGCTGTGTGGT
+AAGCGAGAAAGACTACTCCCATCTAAGGCTGCTGATAAGCGCAATGGACAATTTAGAACAAATCAGAGGAATCTATGGAG
+CCAGCATCCTGTTGTCGCAAAGACTTGCCGGGATTCAGAACCCAAGCCTCGAAGAAGAGCTGAGTCAGCGAATCCAAGAC
+GATATGAACAGGAGAGACATGTCCAATTTAACCTCGGGACAGCTTGCCTTGATTATTCTGGCTTTTGGAGCATGCAAAAC
+CCCTGATGTCAGGTTTATACATGATCATCACCTTGTTGAGAAACTAGGGGAAAAGTTCAAAGAAGAAATTAAGAACATGG
+AAATACACAACAGCAATCCGCTGACTAACTATTACCAGCTCAGCTTCGACGTTTTGACCTTGTGTCTGTTCAGAGGGAAC
+TATTCAATCAGCAATGTCACTCATTACTTCAATCCTGAAAATAAAAACTTTAATCTTAGCGGCCATTTCTCAGTGGATAC
+TGGAGCCGTGGCTGTTCTTGCTCTGACCTGTGTGAAGAGGAGTATAAGCAATGGGAAGATTAAAGCAGCTATTAAGGATT
+CAGACACAATCCAAAAATATATAGAGTCACTGGTACATAAGATCCAGTCTGAGAAAATGGTGGTCTCTTTGGAAACGCGT
+ATAGCACAGGAGAAGCTATGCAGGCTCTCTTTGTCGCATCAGACTATTACCAAAATGAATCAAATTGCCAAGAAACTCTG
+GACGCGGTGTTTAACACATTCTCAGGGAGTATTCCGTCTACCAATCGCTGCAGCCCAGATCTTACCTGCCCTGTTGGGAA
+AGACCTACCTGGACGTAACAAAACTGCTACTTGTCCCCAAAGTCCAAGTTAACATCACTGATGAGCCTGTACCTGTGGTA
+CCTACTCTCTCACCTGAAAATATCTCAGTCATTTACTGTGTGAAAATCAATGAAATATCAAATTGCATCAACATCACTGT
+CTTCCTCGATGTGATGAAGGCGGCTCAGGAAAAAAACAGCACTATATATGGTTTCACCATGACGGAGACCCCATGGGGCC
+CCTACATCACCTCTGTTCAGGGCATATGGGCCAATAATAATGAGAGAACCTACTGGGAACATTCTGAGCAACAACAAATC
+ACTAAGCCAAGGAGCATGGGAATTATGTTGTCAAAAATGGAGAGCATTTAGAGATTCGTTGGGCCACATACTAAGAAACT
+CAAACCCTCCTCCGTGGGTCTAATCTTCTTGGAATGGAATTACGTGTGGAAATTGATTTTCATATTTTCCTTTTCATTTA
+GCTCAATCCCAATAACACAGTCAATAACCTTGGCTTCTCTCTTTGCACATTCAATAAAGTATCA
+>ref|ref|X61436.1|| Pig HKA gene intron 1 for H+-K+-ATPase alpha subunit
+GTGAGAGGGGTCAGGGACGGGGGATGGAGGTTGGAGGCAGGGGTTCCAGTGGGATCTGATGCCTTCCTGTCCCCTCCCCA
+CCCATTCCCAG
+>ref|ref|X61437.1|| Pig HKA gene intron 2 for H+-K+-ATPase alpha subunit
+GTGAGCCGGGGCCGGTCCAGGGCTAGGGGTGGGGTGGGGGTGGGGAGCATGGGGGGCCAGGCAAGGGCAGGGCTGGGTGC
+CCCCGTGAGAGCCGGACAGTGAGTGTCATGCCCCCACCATATAG
+>ref|ref|X15410.1|| Pig hox2.4 gene 3'end and L1Ss repeat 5'end
+AATTGTTAAAAGTGTTCTTAGGTTTATTGTGAAGCGAATGTATCCTGTATCTGTGAATTGCTTTATTGCGGGGAAGGGGG
+GCTAATTACATATTTTGTTGTTCCTGTATACTTTGTTGTCTGTGCCCGAAAAGNGGAAGAGTTACAATAAAGTTTACAAG
+CGAGAACCCCCCCAAAAAAAATAATAATTACCTTAAATGTCAGTGGACTGAATGCTCCAAACAAAAGACAAAGTGTGGCA
+TTAGAGACCCACCTTAAGGCAAAGAGGCATAAATTGAAAGTAAGGGGGTGGAAAAGACATTCATGAGAATGTAAATGATA
+CAAAAGCAGGAGTCACAGTACTCATATAAGGCCAAGTAGGCTAAAACAAAGGGCGTAAAGAAAGAATGACACTATTAATG
+ATAAAAGGATCAATTCAAGATGAGGATATTACATTTGTGAATATATATGTCCCTAATATGTGAGCACCCAAATACAAACA
+ACTAATATATTCATAGATATAAAAGAGAATTTGATGGGAACAAAATAATAGGATACTTTAACACTCCACTCACATCAATG
+AACAGATCCTCTAGA
+>ref|ref|X64400.1|| Sus scrofa partial IGF-I gene encoding insulin-like growth factor I
+CTGCAGATGCCTCCCGGTCTACCTCTCGAAGAGGCATATTTGCAGATGCTTCAGGTTAAATCACATCCCCTGAAACTTCC
+CACCTTTGTACCCCAAAGCCTCTCATGGCACACTCCACCCCCTCCATTCTGGATTTTCAATAGGGTTTCACTTCCTTATC
+TTTCTGGAGAAAGTGTACACTTTTCTTATTTTAAAAAGGGCATATAGCCACCACATGACAGTGACGTTTTCTTCTCTGTC
+TCTAGCACTTGCTGCAAGCCCCTATGGCCTTGACTGTGATATGCGTGGTTGGGCACGTAGTAGGTACACACTGACGGATG
+CTGAAGGCGGGCACCATTGAAATGGCAAAACTCCGGACGCTAACTTGTCTTTCTTGAAAGTAAACAGTGCCACAAGTGAT
+TAACTACAGAAGACTTGAGCAAACTCAACACCCTTTCAAAACCAACTGGGTTTTCCTCCAAGGACACTCACCTCAGCAAA
+CAGCTTTCTGGCCACAAGACAACATAAAGGCCCAGACGAGAGTTTCTAGCAGACCTCTGTTTTCAGTTGATGCATCAGTG
+TGTCTGGGTCCCCTGAGAATCAAGAGAGAGAGAAATACAAAGTCAGGCATTTCCACCATCCCTGAGAAATCATGCCTGGA
+TAGACCTCCAGGGAGAGTGGTATGTCTGACCTGAGCTTTTGCAATCTTATTTCATAATCCACTTTCTTATCTCCTACTTC
+GCAAAACCAAAGAGAAACTGGTACAAACTGTATCGGCAAAAGATCAGGACTTGATTTTCAATGGTGAAGGCAAGTATACA
+TTATTAATAGCAAAACAGCCTGGCTTGGATGGACCATGTTGCCGGCCACTCATCCAGTTGAGAGATTTGAATGACATCAT
+AACCCTTGAGAGGGTATTGCTAGCCAGCTGGTGTTATTTAGAATACACAAAAATTGGAGAAAGAAAATGCACTCACGTGA
+ACACACACACACACACACACACACACACACACACACACACACAGGTTCAAGTTATGCAGAAAAATATGAACAATGGAAAA
+TCATTTGCCCCTCAAGTGCCCTTCCCCTGGGGTGGGGGGACGGGGGGAGATAAGCAGCCTAGTAGAGGAAGGAAGAAAAA
+GATTTTATTTTATTTTTTCAGTTGGCTTTACAGCTCAGCAGAATCTTTGCCCTGTCGTGGGCAAAAAGAATGAGACAGTC
+TCCTAAAGGGAGCCAATTGCAAAGCTGCCTGCCCTTTTCCAGTTTCTAGGAAATGAGATGGATTCCCCTCGCTTGGCAAC
+TAGGATGAGGGGGTCATCCAGACTGGCTTCCGAAGCTAGTTTATCCTGGTCATTTGAGGGTTAAAATTGTAGGGTATGCT
+TGAGATGGTCTTTTCTTCATTTTTTTTTTTTCTCAATTTTGCGTTGGCTCTGGAATATAAAATTGCTCGCCATCCTCCAC
+GTATATTCTTTTCATACGGGTAAGGTGTATTAGCAGATGTGTGTGTCTTCCTGCCCAATAGAAAGTTAATCAGAGGACAG
+CATCAGTATTTTAATGTCTGCTCACCCTGTCACTAACACACATTCTTTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTT
+TAAAATGCAAAGGTATGATGTTATTTGTCACCATGCCCAAAAAAGTCCTTACTCGATAACTTTGCCAGAAGAGGGAGAGA
+GAGAGAAGGCAAGCGTTCCCCCAGCTGTTTCCTGTCTACAGTGTCTGTGTTTTGTAGATAAATGTGAGGATTTTCTCTAA
+ATCCCTCTTCTGTTTGCTAAATCTCACTGTCACTGCTAAATTCAGAGCAGATAGAGCCTGCGCAATGGAATAAAGTCCTC
+AAAATTGAAATGTGACATTGCTCTCAACATCTCCCATCTCCCTGGATTTCTTTTTGCCTCATTATTCCTGCTAACCAATT
+CATTTCCAGACTTTGCACTTCAGAAGCAATGGGAAAAATCAGCAGTCTTCCAACCCAATTATTTAAGTGCTGCTTTTGTG
+ATTTCTTGAAGGTAAATATTTCTTACTCTTTGAAGTCATTGGGGAATTTTCTTTAAATTGTGTACTGTTTGCTTCTGCCT
+AGAAATGTTCTTCACTTTAGAATTTTCATTGTTTCGGCACTGGGAGTTATTTATAAATTGCTGAATATGCAATTCTGTGG
+GATCTGAAAAAATAGCTCCGGGAGATAAATGCCTTTGCACAGATATCTGTGTGAGTAGAAACTATTGCAAGGTACTTATG
+CTAAATCCTCCACTTCTGCAGGGCTTGAGTGCTGTCATTATAGAAGATTCCTTTAAATCCTGTCTATGGTTAAGGGCTAT
+AGAGCATGGATATGAACTTTTGGATTTTTTTTTTTTTTTTTTTTTTTTGCAGGTGCAGATGTTTTATTTTTAAGACCATG
+TTCGTGGGGGGGGGGGTGCTGTGTGTGTATGTATATGTGTGTGTGTGACTTGTCAGGACTTTTATTACAAGGCATGTCAC
+AGAGTTACATTTTAAATGATATTAAAGCTTTTAAATATGATCTTTGGAGCTAAGGTCCCGGAACTCTCTGCACTTATGCC
+CAGAGAGCCAAAGTTAGAGCGAAGTTTAATTTGCTCTTCTGAAAAAGAACTCCTTAAGAACTCTTGCTGACCTTGCATAT
+TCGTATAATTTAAACAAATGCATACTGTATATGGAAAGCGGAAACTTTCTAGCAACTGCTATTCCAAGTTTTTTTCTTTT
+GAAGAGGACTCTCACAGGCAAAGTTTGGACTTGGGGTTTCGTGTTGTTAAACTCTGATTTTATGCTCGGTGTTGTAAAGT
+CTCTTTAGGTAAATTTGGCCAGTGCTGTCAATGCACCGACTTCTCGTTTCCAATCACTGGCCCTAGTTCAAGTTTCCATT
+CTCAGCAAAATTATATCCTTCAAGACTTGTGTTTTTCCAATTTGCAAGCACTTTTAAGCCGCTGTCACTGGCTCCCCGAT
+GCAATTGCCTCAGGGCTCAATTCATAAAACGTCCCTACCACTAGGTATGGTACTCATTTGCTGCTTTTAAATACTCCACC
+ACTAGGACTTTTCTCAGGCAAGTAAGTGGCTCAGGAGTTAAGGATACGTCCTTGTCAGGCACCTGATTCCGCTGCCCTTG
+AGATGCCAAGGTGCACGCTGGGTACCTTGCTTTTAAAGAAATGAAGTCAATGTACACATACACCCTGAGCCTCAGACAGC
+TGGGAGTTTTGTGTCCCTGGTTAGATGACCCTAAAAGAGGCTGTGGAGTGTGATCTCTGCATTAATTACAAGTTTGGAAA
+ACTCCGAATGGACTTTCCATTGCCGTGTATGCTGAACTTTTCAGAAGCAAAGCTAGCCATAAGTTGTTGCTTTTTCCTGT
+ACTTGGAGCAGGAAGTGGTTTGAGGGAGCTATGTGGTCTTTCAAATGTAATTCAATGAGTAAAGGTGTCTGCCAGGCAGA
+ACTCACAAGCTGATTGTACTCTGAGTCTCAAGATTTATTTCCAAGTGTTTGAGTCAGAGGGAAGAGAGCAAGGGAGAGGA
+CTGGAGCTGGGGTCACTGTTCAGGGTGGCTACAATAGGTGCACAATGGAAATTGGTGGCTTAATTGGGAGGAAAAGATTG
+ACTCAAATCCCAGCTGTGCAATTTGTTCATTGTCTGAATGGACAAAAGGCAGTTTACCCAGGCTCATAGCATACCTGCCC
+GGGTGTCCCAATGTAACTAGATGCTTTCACAAACCCCACCCACAAAGCAGCACATGTTTTTAAATCCTCAGTATTCTATT
+CACATCAGTCTCTTAATACCCACCCTGACCTGCTGTAAAAGATCTGGAACAAACAAAAATGGTTACACCTACAGTGAGTA
+TTTTCTTATGACTATTGCCCTCGAATTTTGCTGGGCATTTTTATTGTAGCCCAGACATTTGGAATCAATTGATATTCCAG
+TTATTTAAGATAAAAAGAAAGGTCTTTTAAATTTTGAATTTGTGAATGATTTTTGAGGAAAAAGTGCTCTGCATTTTTTT
+TTCCTTTTTTCTCTTTTCTTTCTGGTCCTTCTTTCCTTTCTCTCTCTCAGATTTTTCCTTTCTCTATCTTCATTTCTTTT
+GTGTTTGGCAAAATAAAAGGCCAAGTAAAGGATGAACATATGGGGCCACTTGTTTTGAACTTTTAACTCCCAAGCAAATT
+CCTTATTGTTTTCTTTTGGGGGAACATAATGTGATAAATTCTCTGGTTCTCTGTGGGTGTACTGGACTGTTCCCTGAACT
+AAAGAAAAATGCACTAGAGGTTCTATCTTGTCCTAGAACTGTAAGTGCTGATATTTA
+>ref|ref|X52731.1|| Pig mRNA for interleukin 1-alpha
+GAGTCATCTCTTTGTCGCTCCAGCCAGCACAGAAGTGAAGATGGCCAAAGTCCCTGACCTCTTTGAAGACCTGAAGAACT
+GCTACAGTGAAAATGAAGAATACAGTTCTGATATCGACCATCTCTCTCTGAATCAGAAGTCCTTCTATGATGCCAGCTAT
+GAGCCACTTCCTGGGGACGGCATGGATAAATTTATGCCTCTGAGTACCTCTAAAACCTCTAAGACATCCAGGCTAAACTT
+CAAGGACAGTGTGGTGATGGCAGCAGCCAACGGGAAGATTCTGAAGAAGAGACGGTTGAGTTTAAATCAGTTCATCACCG
+ATGACGACCTGGAAGCCATTGCCAATGACACAGAAGAAGAAATCATCAAGCCCAGATCAGCAACATACAGCTTCCAGAGC
+AACATGAAATACAACTTCATGAGGGTCATCAACCACCAGTGCATCCTGAATGATGCCCGCAATCAAAGCATCATTCGAGA
+CCCGTCAGGTCAATACCTCATGGCTGCTGTGCTAAATAACCTGGATGAGGCAGTGAAATTTGACATGGCTGCTTATACAT
+CAAATGATGATTCGCAACTTCCTGTGACTCTAAGAATCTCAGAAACCCGACTGTTTGTGAGTGCTCAAAACGAAGACGAA
+CCCGTGTTGCTGAAGGAGCTGCCTGAGACACCCAAAACCATCAAAGATGAGACCAGTCTCCTCTTCTTCTGGGAAAAGCA
+TGGCAATATGGACTACTTCAAATCAGCCGCCCATCCAAAGTTGTTTATTGCCACAAGGCAGGAAAAACTGGTGCACATGG
+CACCGGGGCTGCCCTCTGTCACTGACTTTCAGATACTGGAAAACCAGTCTTGACTCTGGTGTCTACTTACCTGTGAAGTG
+TTGACAGGCCGTATGTACCATGTACATGAAGGAGTTAAATCTTTCACTCTTAGTCACTCGCTGAGCATGTGCTGAGCCTT
+TGTAATTCTAAATGAATGTTTACTCTCTTTGTAAGAGAGGGAGCGAAGTCTGGTAGAACCAACACTAACAAATAACATCG
+CTTAGTATTTAAAAAACACACTGTCATTTACAAACTACCAATCATTTTAATTATTATTCTGCATAACAATCTTGGGAGGA
+CCAGGGTTACTGACTATGGCTACCAAAAAGGTTCTACCCATATTACAGATGGGTTAACTAAGGCCTGAGGATATTAAGAA
+GTATCCACAATAGCAGCTGGAATGAGAAGCTATGGACCCAGGATTTCATTCCACCTGCTTACCTTTTGCCTTTAAGTTGC
+TGATGGACCCTATATAACATTGTAAGTTTCTGGAACCTCAATTTAATCTTAAAAATATATATATATACATATATATACAC
+ACACACATACATAGCATATACATGTACATTATGTATATAATATTTATTATTATATCTATTATATCTATGTAATAGATTAT
+ATCTCCTTCCTGCCTCAACAGTATTCTATGACAGTGAGCTTGTTTTAGTAAAATGCTTCTTGAAGCTGAGCCTCCAGAAG
+AAGGCAAAGCCTGAAATGTTATTTTAAGTTATTATTTATATATACATATGTATTTATAATATTATTTCTAATATAAGTAG
+AACATATTATTATATTTATGTCCAACTCCTTGTGATCTCTGAGTATGACCAGTCATCTTCAATGATAGCAGACAGTGTTT
+TCCAGGTTGAATGAGTTGGAGGTACTAAGGCATTTTGGGCCAAGTTGTTGTACTTTTTTTATGGCCATGAAGGTCTGTAT
+GGTAGTAGCTGGGAGCCCTGTAATTATGATAATAAATTTACATAATTAAAAAAAAAAAAA
+>ref|ref|NM_213861.1|| Sus scrofa interleukin 2 (IL2), mRNA
X56750.1 Sus scrofa mRNA for interleukin-2
+ATGTATAAGATGCAGCTCTTGTGTTGCATTGCACTAACCCTTGCACTCATGGCAAACGGTGCACCTACTTCAAGCTCTAC
+AAAGAACACAAAGAAACAACTGGAGCCATTGCTGCTGGATTTACAGTTGCTTTTGAAGGAAGTTAAGAATTACGAGAATG
+CTGATCTCTCCAGGATGCTCACATTTAAATTTTACATGCCCAAGCAGGCTACAGAATTGAAACACCTTCAGTGTTTAGTA
+GAAGAACTCAAAGCTCTGGAGGGAGTGCTAAATTTAGGTCAAAGCAAAAACTCTGACTCAGCAAATATCAAGGAATCAAT
+GAACAATATCAACGTAACAGTTTTGGAACTAAAGGGATCTGAAACAAGTTTCAAATGTGAATATGATGATGAGACAGTAA
+CTGCTGTTGAATTTCTGAACAAATGGATTACCTTTTGTCAAAGCATCTACTCAACACTGACTTGATAATTAAGTGCCTCT
+CATGTTAAATGTATCAGGCTTTCTATTTATTTAAATATTTAAATTTTATATTTATTTTTTGATGCATGGTGTTCTAACTT
+TTGTAATACTAGT
+>ref|ref|X03265.1|| Porcine mRNA for inhibin alpha-subunit
+TGTGGGGCAGACCCTGACAGAAGGGGCACAGGGCTGGGTGTGGGTTCACCGTTGGCAGGGCCAGGTGAGCTATGTGGCCT
+CAGCTGCTCCTCTTGCTGTTGGCCCCACGGAGTGGGCATGGCTGCCAGGGCCCGGAGCTGGACCGGGAGCTTGTCCTGGC
+CAAGGTGAGGGCTCTGTTCCTGGATGCCTTGGGACCCCCGGCAGTGACTGGGGAAGGTGGGGATCCTGGAGTCAGGCGTC
+TGCCCCGAAGACATGCTGTGGGGGGCTTCATGCGCAGGGGCTCTGAGCCCGAGGAGGAGGATGTCTCCCAGGCCATCCTT
+TTCCCGGCTACAGGTGCCCGCTGTGGGGACGAGCCAGCTGCTGGAGAGCTGGCCCGGGAGGCTGAGGAGGGCCTCTTCAC
+ATATGTATTCCGGCCGTCCCAGCACACACACAGCCGCCAGGTGACTTCAGCTCAGCTGTGGTTCCACACGGGACTGGACA
+GACAGGGGATGGCAGCCGCCAATAGCTCTGGGCCCCTGCTGGACCTGCTGGCACTATCATCCAGGGGTCCTGTGGCTGTG
+CCCATGTCACTGGGCCAGGCGCCCCCTCGCTGGGCTGTGCTGCACCTGGCCGCCTCTGCCCTCCCTTTGTTGACCCACCC
+AGTCCTGGTGCTGCTGCTGCGCTGTCCTCTCTGTTCCTGCTCAGCCCGGCCCGAGGCCACCCCCTTCCTGGTGGCCCACA
+CTCGGGCCAGGCCACCCAGCGGAGGGGAGAGGGCCCGACGCTCCACCGCCCCTCTGCCCTGGCCTTGGTCCCCCGCCGCG
+CTGCGCCTGCTGCAGAGGCCCCCGGAGGAACCCGCTGTGCACGCCGACTGCCACAGAGCTTCCCTCAACATCTCCTTCCA
+GGAGCTGGGCTGGGACCGGTGGATCGTGCACCCTCCCAGTTTCATCTTCCACTACTGTCACGGGGGCTGCGGGCTGCCGA
+CCCTGCCCAACCTGCCCCTGTCTGTCCCTGGGGCCCCCCCTACCCCTGTCCAGCCCCTGTTGTTGGTGCCAGGGGCTCAG
+CCCTGCTGCGCTGCTCTCCCGGGGACCATGAGGTCCCTACGCGTTCGCACCACCTCGGATGGAGGTTACTCTTTCAAGTA
+CGAGACGGTGCCCAACCTTCTCACCCAGCACTGTGCCTGCATCTAAGGGTGTCCCGCTGGTGGCCGAGCTCCCACAGGCA
+CCAGCCTGGAGGAAGGCAGAGTTCCCACCTCCCCTTTCCTTCCGCCTCTCCGCCTGGAGGCTCCCCTCCCTGTCCGCCCC
+TGTCCCATGGGTAATGTGACAATAAACAGCATAGTGCAGATGACTCGGTGCGC
+>ref|ref|X15411.1|| Pig part of truncated L1 repeat sequence L1Ss
+AATCAATCAATGGAAAAATGGGCAAAAGACCTGAATAGACATTTCTCCAAGGAAGATACACAGATGGCCAANAAACACAT
+GAAAAAATGCTCAACATCGCTGATTATAAGAGAAATGCAAATCAAAACTACCATGAGATACCACCTCACACCAGTCAGAA
+TGGCCATCATTAATAAATCCACAAATAACAAGTGCTGGAGTGGCTGTGGAGAAAAGGAAACCCTCCTGCACTGCTGGTGG
+GAATGTAAACTGGTACAACCACTATGGAGACAGTTTGGAGATACCTTAGAAATCATATCATAGATCTTCCATATGACCCC
+ACAATCCCACTCTTGGGCATCTATCCGGACAACAAAACTCTACTTAAAAGAGACACATGCACCCGCATGTTCATTGCAGN
+ACTATTCACAATAGCCAGGACATGGAAACAATCCAAATGTCCATCGACAGATGATTGGATTCGNNAGAGGTGGTATATAT
+ACACAATGGAATACTCCTCAGCCATAAAAAAGAATGACATAATGCCATTTACAGCAA
+>ref|ref|X67188.1|| S.scrofa promoter region of LPH-gene for lactase-phlorizin hydrolase
+AAAAAGTTTGGTAAGGACCTAACCTGTGTTCCGCTATGTAAACAAATTTTAAGATAATTTGTAAGTAAGACAAAAATGTG
+GAACAAGTTTTTTCCTTCAGATGCTTTCCATTTCCTCTGCTTAAATTGTGTGAGAAGTTTTGAGGTTTTTGTGCTATCTT
+TTATGGTTTTTAAATTTTTTGATATTTCATTGAACTATGTACTAATTTTATTATCACAGATAACCCAGTTACATATTAAG
+TGTTAAAAATCACCTAGTATTTTACAACCTCAGTTGTAGTTATAAAGTAAGTATTCCACATACCTCCTAACAGTTCC
+>ref|ref|X54724.1|| Porcine mmp1 mRNA for matrix metalloproteinase (type I collagenase) (EC 3.4.24.7)
+AGAAACACAAGAGCAAGATGTGGAGATAGTGCAGAAATACCTGAAAAACTACTACAACCTGAATAGTGATGGGGTGCCAG
+TGGAAAAGAAAAGGAACAGTGGCCTCGTAGTTGAAAAACTAAAGCAAATGCAACAATTCTTTGGGCTGAAAGTAACGGGG
+AAACCAGACGCTGAAACTCTGAATGTGATGAAGCAGCCCAGATGTGGAGTTCCTGACGTGGCTGAGTTTGTTCTCACTCC
+AGGGAACCCTCGGTGGGAGAACACACACCTGACCTACAGGATTGAAAATTACACACCAGATCTGTCAAGAGAAGATGTGG
+ACCGTGCCATTGAGAAAGCCTTTCAACTCTGGAGCAATGTCTCACCCTTGACCTTCACCAAGGTCTCCGAGGGTCAAGCA
+GACATAATGATATCCTTTGTCAGGGGAGATCATCGTGACAATTCTCCCTTTGATGGACCTGGAGGAAACCTTGCTCATGC
+TTTTCAGCCAGGCCCAGGTATTGGAGGGGATGCTCATTTTGATGAAGATGAAAGGTGGACCAAAAATTTCAGAGATTATA
+ACTTGTATCGTGTGGCTGCTCATGAACTGGGCCATTCCCTTGGCCTTTCTCATTCCACTGACATTGGGGCTTTGATGTAC
+CCCAACTACATCTACACTGGTGATGTTCAGCTGTCCCAAGATGACATTGATGGCATCCAGGCCATCTATGGACCTTCCGA
+AAACCCCGTTCAGCCAAGTGGCCCACAAACCCCACAAGTGTGTGATAGTAAGCTAACTTTTGATGCTATAACTACACTTC
+GGGGAGAACTAATGTTCTTTAAAGACAGGTTCTACATGCGCACAAATTCCTTCTACCCTGAAGTGGAGCTCAATTTCATT
+TCTGTGTTCTGGCCACAAGTGCCAAATGGACTTCAAGCTGCTTATGAGATTGCCGATAGAGATGAAGTCCGGTTTTTCAA
+AGGTAACAAGTACTGGGCTGTTAGGGGGCAGGATGTGCTATACGGATACCCCAAGGACATCCACAGATCCTTTGGCTTCC
+CTAGTACTGTGAAGAATATCGATGCTGCTGTTTTTGAGGAAGATACTGGGAAAACATACTTCTTTGTTGCTCACGAATGC
+TGGAGGTATGATGAATATAAACAATCCATGGATACAGGTTATCCCAAAATGATAGCAGAAGAATTTCCTGGGATTGGCAA
+CAAAGTTGATGCTGTTTTCCAGAAAGACGGATTTCTATATTTCTTCCATGGAACAAGGCAGTACCAATTTGATTTCAAAA
+CGAAGAGAATTTTGACTCTCCAAAAAGCTAATAGCTGGTTCAACTGCAGGAAAAAT
+>ref|ref|X54328.1|| S.scrofa Mx1 gene (exon3 and intron2)
+GGATCCTTAACCCACTGAGCGAGGCCAGGGATGGAGCCTGCAGCCTCATGGAGACTAGTCGGGTTCATTACCGCTGTGCC
+ACAGTGGGAACTCCTAGAAGTCGTCCGTCTCTGATGGAACGTGACCTGCAGGCCATGACAAGTCTCCCATTCTGCCTCCC
+CAGGGCCCTGAGAACAACCTGTACAGCCAGTACGAGGAGAAGCTGCGGCCCTGCATCGACCTCATCGACTCACTGCGGGC
+CCTGGGCGTGGAGCAGGACCTGCCCCTGCCC
+>ref|ref|X54330.1|| S.scrofa Mx2 gene (exon3 and intron2)
+CCCGGGCACTTCCAACGAAGACAGGGACAGACGGTCTCCAGGGCAGCAGTGACCTCCCAGGAGTCTGGGGTCTCCTTCTG
+GGAGCTCCCCCCCACACCCCCGCTGTGACGGCCACTGTCCCGCCCAACCCCCACCCCAGCTCGGTAGCCCTGGGGCCGGC
+TCCCCTCCCCGCTCTGGCTGGGAGCGTCCACCCTTGGTGCCGTCTCCCTGCTCAGCCAGACACCCCAACCCTCCCAGCCA
+GATGTTCCCCTCAGCTGCAGAGAAAGCCGCACTGGGCCATAGCGACCTCCTTCTCGAAGGCACAGCAGATCCCCCACCCT
+GCTGCCTGCACGTCCGTGCATCTGTGCTGCCACAAATCCCCACGGTGGTGGGAGCCCCCTCGGAGGTCATGACTGAAGTT
+GCGGTGCCTCCCCAGGGGCCCGAGAACAACCTGTACAGCCCGTTCGAGGAGAAGGTGCGGCCCTGCATCGACCTCATCGA
+CTCGCTGCGGGCCCTGGGCGTGGAGCAGGACCTGCCCCTGCCCACCATCGCCGTCATCGGGGACCAGAGTTCGGGGAAGA
+GCTC
+>ref|ref|X54329.1|| S.scrofa Mx2 gene (exon6 and intron5)
+GAGCTCTGGAGGCTAAGTAGGACATCCGTAAGGCAGGTGGGGCGGGCACTCCAGCGGAACCCCGAAGTGTGAGCCCCGCG
+TCCTGCTCTGGAGGGCGCGTCCGTCTACAGGGGCTCTTGGCTGACCAGGTGTGCTTGCTCTCCCTCTGCGACTCCCTGGC
+GACAGATCAAGGCGCTCATCAGGAAGTACATCCAGGAGCAGCAGACCATCAACTTGGTGGTGGTCCCTTGCAACGTGGAC
+ATTGCCACCACGGAGG
+>ref|ref|X12764.1|| Porcine NFI gene for nuclear factor I (partial)
+CTAGTCGGGTTGGTTAACCCCCATGACAGGAAGTCCCCAGTGCTCGTCTTTATCAATAAAGTTTTATTGGAACACTGTCA
+CAGCCATCACTTACATGTCCTCTGTGACCAGTCTTACACTACAGTGCAGAGTGGAGCGGTTGCAACAGAGACTGAAATAC
+TCATTATTTGATTCTTTATGGTACTTTTAAAGTTTGCTGACCCCAGTTCTAGAAGGCAGAGAATGGGTCCATGCTACCCC
+CATTCTACTATCCTCAGTTTTCCCCATCTGGACAATGGGTCCCCATCAGACTCTACCTGGGACCCTCATCTTGTCCTACC
+TGTATATTGGGGTTCAGGACAGTCCATAAACGGCTGCCTTGGCCCGCGCCTGCCATGTGGTCCAAGCCTCTTGTTTCCCC
+ATCTGGACAATGGGCTCTCGTCTGACCCAGTGAACTTCGGCGGGGCCCCTTCTGGCCTCATTTTCCCCAAGAGGTAGAGG
+GCTCTGCAGAGGCCCCCTGAACACCTCTGCCCTCCCTCCCTCTAGTGGGTCTGCATGGGGCCCCTGCGGCCTCAGTCTTC
+TGGGCCGGGCAGTGGGTCCACGGACCCAGCACCTCCTGACCTCTGGCTTCTCGCGCCCGCAGGATGAGTTCCACCCATTC
+ATCGAGGCGCTGCTGCCTCACGTCCGCGCCTTCGCCTACACCTGGTTCAACCTGCAGGCGCGGAAGCGCAAGTACTTCAA
+GAAGCATGAGAAGCGGATGTCAAAAGATGAGGAGCGGGCGGTGAAGGACGAGCTGCTGGGCGAGAAGGCCGAGGTCAAGC
+AGAAGTGGGCGTCGCGGCTGCTGGCCAAGCTGCGCAAGGACATCCGGCCCGAATGCCGCGAGGACTTTGTGCTGGCCATC
+ACCGGCAAGAAGGCGCCAGGCTGCGTGCTCTCCAACCCCGACCAGAAGGGCAAGATGCGCCGCATCGACTGCCTGCGCCA
+GGCCGACAAGGTGTGGCGGCTGGACCTGGTCATGGTCATCCTCTTCAAGGGCATCCCGCTGGAGAGCACCGACGGCGAGC
+GCCTGGTCAAGGCGGCACAGTGCGGCCACCCGGTGCTCTGCGTGCAGCCACACCACATTGGGGTGGCGGTCAAGGAGCTG
+GATCTCTACCTGGCCTACTTCGTGCGCGAGCGAGGTGAGGCGGGGCGTGCACGTGGACGCGGGTCTGACGGCCGAGAGGG
+GATGCGCCGGGCATCGCAGAGCGGACGTCCTGGGGAAAGTGGACCCGCAGGCCTGAGGGACCAGGCTGGCACGCGCAGCC
+TGGGGTGGGCAGGCTGACCTATAAGAGGTCTGAGGGCGGAGGCTTGTCCACCCAAGGTGGTCTACCCAGCGGGGAGGCTT
+GCTCACACAAGGTACCAGCAAGGAGGCAGGTCTGAGGGAGGAGGCTGGTGCAGGTTGTCTGAGGGGGGAAGAAGCTGCAC
+TGAGAGGGTCAGAGCAGGGAAGTGGGCCTATGCTGGGGTCGGAAGG
+>ref|ref|X51559.1|| S. scrofa Mc1 satellite DNA (clone pAL7.1)
+CTGAGAACTAGGGAAGCGCTGTGACCCCTGAGCCAGGCAACATTGGGGCTGAGGTTTGTTCCCCGAAGCAACAATACCCC
+TTTGCTGAATGCAGCTGGCTATGGGTGGGTTGCTAGGGCAGTGCAAACAGGGCTTCTTCAGGCCAAATCACCTTCTCGCG
+AAGGAGAACACGTTTGGAGTTGGTTTCAAG
+>ref|ref|X51560.1|| S. scrofa Mc1 satellite DNA (clone pAL7.4)
+CTAGGTGAGACTAGGGAAGCGCTGTGACCCTGAGCCAGGCAACATTGGGGCTGAGGTTTGTTCCCCGAGCACAATACCCT
+TTGCAGAATGCAGCTGGCTATGGGTGGGTTGCTAGGGCCAGTGCAAACAGGGCTTCTTCAGGCCAAATCACCTTCTCGGC
+GAAGGAGAACCACGTTTGGAGTTGGTTTCAAG
+>ref|ref|X51558.1|| S. scrofa Mc1 satellite DNA (clone pAL7.5)
+CTAGCAAAGGGTGAAGGTGCTTGGGACACTGCACCACAAGCCTATTCAGGCCGCATCCGCCCTTTCTCCCAAATGAGAGC
+ACGTTTGTATTTGGTTTCCAGCTGGCTATGGGGGGGTTGCTAGGGCCAGTGAAACAAGGCCTTTCCTAGCCAATCAGCGT
+TGACTGCCAAGGAGAACACTTTTGCAGTTCTTTTTCCAGCTGCCTAACGGTGGGTTGCTAGGGCCAGTGCACACAGGGCT
+TTCTCAGGCCAAATCAGCCTTCTCCGCGAAGGAGGACATTTGGTGTTCCTTCAG
+>ref|ref|X51556.1|| S. scrofa Mc1 satellite DNA (clone pAv1.6)
+CCCGAGCTTCCCTCCGGCGCCCATGCTCCCATGCTCCCGGCGCCAGGCTCTGGGACCGGCTGGGCGCACCACGGATCCCA
+GACCAGAATCAGCGCGGCGGATGCACGGGGAGATGATGGCCGGCCCAGGTGTGGCTGCGGATCCCTCCCTGCACACCTAC
+CGAGCTGGGCACACGTAGCAGGGCAGGTGGGACTGAGGAAGGGGCCACGGAGGGGTGGGGTTGGGCAGGAGCGGGCCCAC
+ACAGAGGCCTAGGCCCTTGTCCTAGCCCAGGGTTGCTGTTGGGTCTAGCGGTCACTCTGATGAGA
+>ref|ref|X51555.1|| S. scrofa Mc1 satellite DNA (clone pAv1.5)
+GAGGAAAGTTGCACTTTCACGGACGCAGCCTCCCAGATGGGCCCTAGCTGGGTCCCTCCCTACCTGTAGAAAGGTGAGGT
+GGTGGGGCCACTTGCCACACAAGGCATATTCTGGCCCCATCCGCCTCCTCCCTGAAGTAGAGCACGTTTGGAGTTGGTTT
+CCAGCTCTAGCAATGACCTGCAAAGCACCAGTGCACAGGGAGCAGGAGGCAGCCCAGACCCTCCTTGTTCCTATGGCGAG
+CAATGGGCTAGGGGAGAAACCAGAAAGCGCTGCTTTCCTGACGAAACACGCATTGGGCTGAGCTTGGTTTCCC
+>ref|ref|NM_213864.1|| Sus scrofa serine peptidase inhibitor, Kazal type 4 (SPINK4), mRNA
X67109.1 S.scrofa PEC-60 mRNA
S46866.1 PEC-60=gastrointestinal peptide [swine, duodenum, mRNA, 364 nt]
+CCGCCGCCAGCCCAGGATCAGCATGGCTGTCCGCCTGTGGGTGGTCGCCCTGGCCTTGGCTGCCCTCTTCATTGTGGACA
+GAGAAGTGCCAGTGTCGGCAGAAAAGCAGGTTTTCTCAAGAATGCCCATCTGTGAGCACATGACGGAGTCCCCAGACTGC
+TCCCGGATATACGACCCAGTCTGTGGCACAGATGGGGTCACATACGAGAGTGAATGCAAGCTCTGCTTGGCTCGGATAGA
+AAACAAACAGGACATCCAGATCGTGAAGGATGGCGAATGCTGACTCCACAGGAGCCCCTTAAGCCATGAAGCTTCGGGCT
+GGAGGACAGCTCTGGGTGTGGAGAAGATGTGACATTAAATAAAA
+>ref|ref|Z14130.1|| S.scrofa pepsinogen A gene, 5'-flanking region and exon 1 (untranslated region)
+CCCTACCCTGAGCCACATTCCCAAGCTGCTCTTAACTAGCGGCGCTGACATGGGATTAATTAAAACACTGTCTTGAACAC
+TTCTGCGCGCCATATAACTCACAGAGGGAGATGAAAGATGAATAAGATACACGCAATGTTCTTCACGGCTCATTCCCCAC
+CTCCCAATCCGGAGGGTTCCCAGACTCACCCTGTTCCACCAAGTCCGCTCCTCCATTTCCAAGTTGAAAAGTATGCCCAT
+ACCCTCCTTGCCTTCTTTTTTTTTTTTTCAGTATTATGAACAGTTTTATTTATGCATCACATATACATAACGTGTAAGGA
+ATAATCATGAGCACCCATAAGCCCAGCGTAAGACCCCAAGTACTTTTGAAGACCCTGGTGACCCGCCCTCCAGGAGGAAG
+CCTGGAGCCAGGGTTTCCATCTGCTGCTCCCAGGACCTCGGCCAGCATCCTGAGGGCCATCCGCTCCTCCACAGAAATGC
+TGATATCTGCCCAAAGTTGATGGCCAAGGAAGCAGGCACCAAAAGATGTGAAAATGGGACACAAAGATGTCCTAAGGGGT
+GAATTTGAAAGGCAAATATGATTTTTTACTAACAATCACGGGTCCTAAACTGATATGCCCTGCCCACCGCTCCTCCAGAG
+GCCTGGGGAAATTTGCAACTTGTGTAGAATCTGTGTCTCCTTTGGTTGGAAAAACCAGGGGTGGCCCAGGGACTCCAATT
+TCAGAACAAGACCCAGAGACATGGCCGGCTACCTACTGGTGACTTCCCGCTCACATACCCTCTCTTCCACAACTCCTGAA
+TCAAAGTTCCCACTCCACTTTGTTGAATAACCCCACAAAGGGAAGGATCCATCGGGTTGGAAAGTCTCCTCTTTTCAGAA
+GAGAACTTTTTTAAGTCCTTCACACTCTAGTATGAATTTGCCCAGATTGCTTTGCTCCACTGCAGCTGATCCAGCCCAGT
+TTTAAGCATGGAACACCTAGAGGTCTGATCCAGAAGGGGTCTCAACGGTGGAGGCTGAGAGTGTGGGAGAGGAGCAGAAA
+GAAGAAAGAGGGTATAGAAAGCAAGGGGCACAGATCAGAAAGGCAAACTGGGCCTGTTTCAAGTTTGCTTCCTCCAGGAA
+AGGAAACCTTCCTCCATGTGCTCCCCACTCTGTCCCCTTCCTCTGTGCTACACACACCACTTTCCGAAGACTCAACCCAA
+CTGCCATGAGAAGCAAGAGCAAAGTAAGTCCCATAGGCTAATTAGGCACCCAACAACCCCATATGATGACCTTTCTATGG
+GAAATGAGTCTTGAGTCCCAAATCACCGACCTACCAATATGCTTGGGGGCAGCAGCTACAGGAACATGGCCCATCACTGA
+AAGGAGAGCTGCTCTCTGAAAATCCCAACCGGGACACATCAAGGGTACCCAGAGCCCCTCTGACATCTGTTCAATGTAAG
+GGGCACTTTGGACCACTTTAGTCTAAAGAGTCAGCTTGTCAGTTTTAATGCATTGCATCATTTAAGGAATAAGCCCACTT
+TCCCAGCACGCGCTCTCTGCAGGGACCATTCCCAACTGCGGGAGGTGACTACAGTGGAAAGCTACCCAACTGGAAACTTC
+CCAGAACATGGCTCAGGGCAGGGACCATCTTATCAGGAAATTTTCTGTTTGGGGTAAGGGTAAAGGGTGACGTTTGGTGG
+CTGATAAGGCCATTCCCAAGGACTCGAACTGTATAAAAGGAGCAGCTCTTGCCTCCTGCTGCATACCTTCCATCCATCTT
+CCCTTCTCTGGAGACTTGGGAGCCAGGAAGAACC
+>ref|ref|NM_214330.1|| Sus scrofa glucose-6-phosphate isomerase (GPI), mRNA
X07382.1 Pig mRNA for muscle phosphohexose isomerase (PHI; E.C. 5.3.1.9)
+TTTTTTTTTTTGTAGTGTTTCCAGCCGCTTTCGCCATGGCTGCACTCACCCAGAACCCGCAGTTCAAGAAGCTGCAGACC
+TGGTACCACGAGCACCGCTCTGACCTCAACTTGCGCCGCCTTTTCGAAGGGGACAAGGACCGCTTCAACCACTTCAGCTT
+GAACCTCAACACCAACCATGGCCGTATTCTGTTGGATTACTCCAAGAATCTTGTGACGGAGGCTGTGATGCAGATGCTGG
+TGGACCTGGCCAAGTCCAGGGGTGTGGAGGCTGCCCGGGAGCGCATGTTCAATGGTGAGAAGATCAACTTCACCGAGGAT
+CGGGCAGTGTTGCACGTGGCCCTGAGGAACCGGTCAAACACACCCATTCTAGTGGACGGCAAGGATGTGATGCCAGAGGT
+CAACAGGGTCCTGGAGAAGATGAAGTCTTTCTGCAAGCGTGTCCGGAGTGGCGAATGGAAAGGGTACTCGGGCAAGTCCA
+TCACGGACGTCATCAACATCGGCATCGGCGGCTCTGACCTGGGACCCCTCATGGTGACGGAAGCCCTCAAGCCGTACTCT
+GCAGAAGGCCCCCGGGTCTGGTTCGTCTCCAACATTGATGGGACCCACATTGCCAAAACGCTGGCCACCCTGAACCCCGA
+GTCGTCCCTGTTCATCATTGCCTCCAAGACCTTCACCACCCAGGAGACCATCACAAATGCAGAGACGGCGAAGGAGTGGT
+TTCTTCAGTCAGCCAAGGATCCCTCTGCAGTCGCAAAGCACTTTGTCGCCCTGTCTACCAACACTACCAAAGTGAAGGAA
+TTTGGAATTGATCCTCAAAACATGTTCGAGTTCTGGGATTGGGTGGGAGGCCGCTACTCGCTCTGGTCAGCCATCGGACT
+CTCCATTGCCCTGCACGTGGGGTTTGACAACTTCGAGCAGCTGCTCTCGGGGGCTCACTGGATGGACCAGCACTTCCGCA
+CGACACCCCTGGAGAAGAACGCCCCCGTCCTGCTGGCTCTGCTGGGTATCTGGTACATCAACTTCTTTGGGTGTGAGACG
+CACGCCATGCTGCCATATGACCAGTACCTGCACCGCTTTGCTGCCTACTTCCAGCAGGGTGACATGGAGTCCAACGGGAA
+GTACATCACCAAGTCCGGCACCCGTGTGGACCACCAGACGGGCCCCATTGTGTGGGGGGAGCCAGGGACCAATGGCCAGC
+ATGCCTTCTACCAGCTCATCCACCAAGGTACCAAGATGATACCCTGTGACTTCCTTATCCCGGTCCAGACACAGCACCCG
+ATACGGAAGGGTTTGCATCACAAGATCCTCCTGGCGAACTTCTTGGCCCAGACTGAGGCCCTAATGAAGGGGAAGTCGAC
+GGAAGAGGCCCGGAAGGAGCTGCAGGCCGCTGGGAAGAGTCCAGAGGACTTTGAGAAACTGCTGCCCCACAAGGTCTTTG
+AAGGAAATCGCCCCACCAACTCTATTGTGTTCACCAAGCTCACGCCGTTCATCCTTGGAGCCTTGATTGCCATGTACGAG
+CACAAGATCTTCGTCCAGGGCGTCATCTGGGACATCAACAGCTTTGACCAGTGGGGAGTGGAGCTGGGAAAGCAGCTGGC
+TAAGAAAATTGAACCGGAGCTTGATGGCAGCAGCCCAGTGACTTCTCATGATTCTTCCACCAATGGGCTGATCAACTTCA
+TCAAGCAGGAGCGTGAGGCCAGAAGCCAATAAACTGGTGCCCCACTGCAGTCCCCACTGTGACTGGTCCTTCTTGTCCCT
+TCTGCCCAGAGTCTGCACTGCATGGTCCTGCCCTCTGGTTTTGGGTTTGGACCATAAGACCTTTGGGGGAAGCTGGTCTG
+GAATTGCCACCCCTGCCCTCTCCATGTTCATGCCCCCTCTGTTTTAAAGTTGGCTGAAGTGTTTCGGTGCAGCTGAATTT
+TCTGACCCATGTTCACTGTTCATATACCAGGTAGAAAAATAAAGATGCCATAAAGGAG
+>ref|ref|X51564.1|| S. scrofa Ac2 satellite DNA (clone pHi4.2)
+CATTCATGAAGCGTGGCCCTATGGTACCCGATTCGAATGCACTGGTTGCCAATGAAGCATGATTGAATGCCAGTGGATTA
+TTCCATGCAGCATGGAGAAATTGAACCCTATTAAATGCAGGGGATTTTATGCAGCATGATTGAATGCAGTGGATTG
+>ref|ref|X51565.1|| S. scrofa Ac2 satellite DNA (clone pHi4.5)
+CTTCCATGCATTGTATTGAATGCAGTGTACTCCATGCAGCGAGGTAAAATGCAACCGTATTGAATGCAATGGACTG
+>ref|ref|X05943.1|| Porcine gene exon 1 for cAMP-dependent protein kinase I regulatory subunit
+GGATCCGCCGGGGGCGCCACCTCCTCCTGGGCCTGGAAACGGCTGGAATCTCCCCTCCCCCGCCCAACGTCCCCCTCCGG
+CAGGGGCCACTGGGCGGAGTCGCCCACCTGTCATCCGAGACTCCCTAAGTGGGCTGGCCTGGGTGGGGGAAGGGGGTTGA
+GGGGAGGGAGAAAAGGCCGAGGCGGCGAGGGAGGTAGGAGTGAGGGTGGGAGGAGAAGAGAGAAGAGGAGGAGGAGAGGG
+GAGCTCCCGATAGTCGCTCAGAGAAGGAGCGAAGAGCAGAAGAATAAAGGGGACCTGAGGCGTCCAGAGAGGAACAGGTA
+AGGGGCGGCAGGTGAACAGAGGAGGAGAGCCCCAGGCTAGAGAGAGTGGGGGAGAGACAAAAGGCAAGCGTGGGGAAAGG
+GTGCAGATGAGGGACGATGTAAGACAAAAAAGCAGAAAAGGAACGCTCCTAGAGAGGAGAGGCGAGGGTCCTTCAAGGAG
+CGGCGGGGGCGGACGGGGCCCCGCTGCACCTTTAAGGTTGCCAAGGCAACGGCTCTGGCCAGAGCGAGGCGCATTGACGT
+CAGCAGCCGGGCGTTGATTGGCTGTGGCTAGCCGTTTCCGGTGGAGTCGCCGCGGAGCGCTATCGCTGTGTGCAGCCGGG
+CTGGGAGGGAAACGCTGAGGGAGCTCAGCAAGCCGTCACCTCACACCGGTAATCCCGTGCCCGCCGCCGTCTGTCCCCAG
+GTGAGTGGGGTCGGCGGAGGGCCTCAGTGCGGCCAGCTTCGCCGCCCCGCCGCCCGTTTGGGGGCGCTGGACCGATCCAA
+GATGGCGTCACGGGGAGCGACCTGCAGGGGGACGGCCGCACCCCGTGCCCCTCCCGGCGGCGCTCCCGCAGCCTGGGCCG
+GGGCGGGCCCGGCGGGAGTCTGGCACTGTCTAGGGCTCCGGGCGTGTGCTCGTAGCAGGGCT
+>ref|ref|X06158.1|| Porcine gene exon 2 for cAMP-dependent protein kinase I regulatory subunit
+AGACCGGCCGCTGGCAGGGGATAGTGGCTCCTACTGCCGCCCTGGGAGCTGGAGCCTGGCACTGTCGCTGCCTGCGGAGC
+CAAGATCCTGTGCAGCAGGACCTAAATGAAACACTTTGAGAGAATGCTGTTTCTCTTCGTGTTTTACTCCCTAGCTCTCA
+CCTCCCAGTTTAAACACAAACAAACAAAAAAACCACCTAGGAAAAAAATGCGCTGTGAATCAGTTGCCTAGTGAATTTGT
+TAAGTCAAAGGCCAAACTGGGGTTTGCTCTTTATGAAGGGTTTTTCACAAAGCATCTGTGTGTTTTTCCTGTAGGGAACC
+ATGGCGTCTGGCAGCACCGCCAGTGAGGAGGAGCGTAGCCTCCGGGAATGTGAGCTCTACGTCCAGAAGCACAACATTCA
+GGCCCTGCTCAAGGATTCTATCGTGCAGTTGTGCACTGCGCGGCCCGAGAGACCCATGGCATTCCTCAGGGAATACTTCG
+AGAGGTTGGAGAAGGTAAATAAATCGGCTGGTCAGGCGGAGCTGACCCTGACCATTTTT
+>ref|ref|NM_214213.1|| Sus scrofa phospholamban (PLN), mRNA
X15075.1 Pig mRNA for phospholamban
+CTTTCCAGCTAAACACCGATAAGACTTCATACAACTCACAATATTCTATACTGTGATCATCATAAACAGCCAAGGCTGCC
+TAAAAGAAGACAGTGATCTCATATTTGGCTGGTAGCTTTTTCAGCTTTCTCTTGACGGCTTAAAACTTCAGGCTTCCTGC
+CTTCCTGGTATCATGGATAAAGTCCAATACCTCACTCGCTCTGCTATTAGAAGAGCTTCAACCATTGAAATGCCTCAACA
+AGCACGTCAAAACCTTCAGAACCTATTTATCAATTTCTGTCTCATCTTAATATGCCTCTTGCTGATTTGCATCATCGTGA
+TGCTTCTCTGAAGTTCTGCCACAATCTCCAGTGCTACAATTTATCACCATCAGCTTAAAATCTGTCATCCCATGAAGAAG
+GGAAACAATACTATATAAGAGACCACTTCCTCAGCAGAAGAAGTTCTTTATGAAAAGGTCAAGATTTGGAATGAAACAAA
+TTGTTAGCAAATGTATTCATCTGCTGGATCTTGTAAACATGAAAAGGGCTTTATTTTCAGAAACTAACTTTAAAATGACT
+ATAAGTGTGCATAATGCAACTGTTGATTTTCTCAACAGAGCTTATAAATTTCTATCCCAAATCTTTTCTGAGGATGAACT
+AGGGGTTTAGTTTGGAAACTGCACTGCTAACTAGTTCACGTCATATATAAAGCATTAGCTTCACTCTTTGGGGTAAATAT
+AATTTATACTGTACTGT
+>ref|ref|X51563.1|| S. scrofa Ac2 satellite DNA (clone pMb2.3)
+GATTGAATTCAGTGGATTCCATGCGGCGTGTTTCAATGCAGTGGATTCAATGCAGAGTGGTGCATTGTATCTCGATTGAA
+TGAAGTGGATTAATGCAGCTTGGTGTAATTGTTACCGATTGAATGCAGTGGATTCCATGCAGTGTGATTGAATGCACTGG
+ATTCCATGCAGCAGTGTGAAATCCCATGCAGAGTGAATGCAGTGGATTGCCATTCAGCTTGGCCACAATGGATCG
+>ref|ref|X51561.1|| S. scrofa Ac2 satellite DNA (clone pMb3.4)
+AATTGAATGCAGTGAATTCCATGCAGCGTGATTGAATGCAGTATATTCCATGCAGCGTGGTAAAATGCATCCCGATTAAA
+TGCAGTGGATTCCATCCAGCTTGATTGAATGCAGTTGATTCCATGGAGCGTGGCCCAATGCTATCCCGATTAAATGCAGT
+GGAGTTTATGCAGCATGGCCCAAAGCATCCCGATTGAATGTAGTGCATTCCATGCAGCATCACTGAATGCAGTGGATTCC
+ATGCAGCATGGTAAATGCATCCCGATTAAACGCAGTGGATTACATGCAGCATGGCCTAAATGGATCGGG
+>ref|ref|X51562.1|| S. scrofa Ac2 satellite DNA (clone pMb3.5)
+TCAGATCTATTTAGCCATGCTTCATGGAATAAATTGCGTATCAGTCTGGATGCATTTTACCTATGGCCTGCCATGGAATA
+CCACGTGCCATTCAGTGATGCCTGCATGGAATGCAGCTAGCCTGTCAATCGGGATGGCTTTGGGCGCCATGCTGCATACA
+ACTCCATCTGCCATTTAATGGGTATGGCATTCGGGCCACGTCCATGGATACTCATTCAATTCATGCTCGATCATCGATTA
+ATCGGTCGGATTACCGATGCGTGCATGGATGTACTGCCATTCAAGGTCATGGCTGTCATTGGATTCATCACCGGATTCAA
+TTGGGATC
+>ref|ref|X00135.1|| Porcine pro-opiomelanocortin messenger RNA (POMC)
+AAGGCAGCGAGAGGGAAGAGCAAGAGGGGAAGAAGAGTGACCAAGAAACCGCCGAGTTTCCTGCCTCGGCGCAGCGGGAG
+TCGCCCCGAGAGCGGCCTCCCCGCGACAGAGCCTCAGCCTGCGTGGGAGATGCCGAGATTGTGCGGCAGTCGCTCGGGGG
+CCCTGCTGCTGACCTTGCTGCTCCAGGCCTCCATGGGAGTGCGCGGCTGGTGCTTGGAGAGCAGCCAGTGTCAGGACCTC
+TCCACGGAAAGTAACTTGTTGGCGTGCATCCGGGCCTGCAAACCAGATCTCTCTGCGGAGACGCCCGTGTTTCCCGGCAA
+CGGCGACGCGCAACCGCTGACCGAGAACCCCCGGAAGTACGTCATGGGCCACTTCCGCTGGGACCGCTTCGGCCGCCGGA
+ATGGCAGCAGCAGCGGCGGCGGTGGCGGTGGCGGCGGCGCGGGCCAGAAGCGCGAGGAGGAGGAGGTGGCGGCGGGCGAA
+GGCCCCGGGCCCCGCGGAGATGGCGTCGCGCCGGGCCCGCGCCAGGACAAGCGCTCCTACTCCATGGAGCACTTCCGCTG
+GGGCAAGCCCGTGGGCAAGAAGCGGCGCCCGGTGAAGGTGTATCCCAACGGCGCCGAGGACGAGTTGGCCGAGGCCTTCC
+CCCTCGAGTTCAGGAGGGAGCTGGCCGGGGCGCCCCCCGAGCCGGCACGGGACCCCGAGGCCCCGGCCGAGGGCGCGGCC
+GCCCGGGCCGAGCTGGAGTACGGGCTGGTGGCCGAGGCCGAGGCGGCCGAGAAGAAGGACGAAGGGCCCTATAAGATGGA
+GCACTTCCGCTGGGGCAGCCCGCCCAAGGACAAGCGCTACGGCGGCTTCATGACCTCCGAGAAGAGCCAGACGCCCCTGG
+TCACGCTGTTCAAAAACGCCATCGTCAAGAACGCCCACAAGAAGGGCCAGTGAGGGTTCAGGGGGCAGGCGCCTCTCACC
+CCGGAAGCCGACCCCAAAGCCCCCTCTCCTCGCCTGCCCTCCTGCCCCCCCAGCCCGGGTACGCTCAGGCTGTGTGGGCG
+CCAGATATCCCGCCTCTTACCTGTAGTTAGGAAATAAAACCTTTCAAGTTTCAAAAA
+>ref|ref|X51557.1|| S. scrofa Mc1 satellite DNA (clone pPv15)
+CTGGCAAACCAACTCCAAACGTGTTCTCCTTCGCCGGAGAAGGCTGATTTGGCAGGAAGAAGCCTGTGTGCACTGCCCTA
+GCAACGCACCATAGCCAGCTAGGGAGGGACCCACCTAGGGCCCAGGGTACCGAGCTCGAATTCGTAATCATGGTCATAGC
+TGTTTCCTGTGCTGAAATTGCTTATCCGCTCACACAATTCCACACACATACGAGCCGGAACGATAAATGTGAAAGCCTGG
+GTGCCTAATGAGTGAGCTAACTCACATTAATTGCGTTCGCGTCACGCCGTTCAGCTGGAAG
+>ref|ref|X64127.1|| S.scrofa DNA for SINE sequence SSPRE
+TTGGAGTTCCCGTCGTGGCTCAGTGGTAACGAATCCGACTAGTATCCATGAGGTTGCAGGTTCGATCCCTGGCCTTGCTC
+AGTGGGTTAAGGATCCGGCATTGCCATGAGCTGTGGTGTAGGTCACAGACGCAGCTCGGATCCGGCGTTGCTGTGGCTGT
+GGTGTAGGCCGGCAGCTGCAGCTCCGATTCGACCCCTAGCCTGGGAACCTCCATATGCCGCGGGTGCGGCCCT
+>ref|ref|Y00104.1|| Sus scrofa repetitive dna sequence element PRE-1
+AGGGAGTTCCCATCGTGGCTCAGTGGTAACGAACCTGACTAGTATCCATGAGGATGCAGATTCAATCCCTGGCCTTNCTC
+AGTGGGTTAAGGATCCNGCATTGCTGTGAGNTGTGGTGTAGGTCNCAGATGCGGCTCGGATCCCGTGTTGCTGTGGCTGT
+GGTGTAGGCCGGCAGCTACAGCTCCGATTNGACCCCTAGCCTGGGAACCTCCATATGCCGCGGGTGNGGCCCT
+>ref|ref|NM_214253.1|| Sus scrofa protamine 1 (PRM1), mRNA
X13381.1 Pig mRNA for protamine 1
+CATCCCCGTCTCTGAGCATCAAGACTGAGTCCATCCATCACCATGGCCAGATACAGATGTTGCCGCAGCCATAGCCGGAG
+CAGGTGCCGCCCCCGAAGACGAAGATGTCGCAGACGAAGGAGGAGATGTTGTCCGAGGCGGAGGAGAGCGGTGTGCTGCC
+GCCGCTACACCGTTATAAGGTGTAGAAGATGCTAAACATGCAGTAGCAAGACCACCGCACTCCTGCCTGAAATAGTACCA
+GCCTTCAAGACCCTCTCGCCGCATCTTGAACATGCCACTACTGCAGTGACTGACAGGAGCCTGCTAAGCACAACGCCCCC
+TGCCAATAAATGTTGA
+>ref|ref|NM_214252.1|| Sus scrofa protamine 2 (PRM2), mRNA
X16558.1 Boar mRNA for protamine 2
+GCCGGCGGGCAGGCCTCAGCCTCTCCCCCAAGGCCACTGCAGCCCCGCCTGAGCCGCCTGACCCGCCACCATGGTCCGAT
+GCCGCGTGCGGAGTCCGAGTGAAAGTCCGCAGCAGGGCTCTGGGCAGCAGCGCGAAAACGAGCGCCAGGACCAGGACCAG
+GAGCTGAGGCCGGAGGATGTCCCGGTCTATGGCAGGACCCACAGGGGCCGCTACCACTACAGACACAGGAGCCACACGCG
+GCGGCGCCGCTCCTGCCGGAGGCGCAGGAGACGCGCCTGCCGGCACAGGCGGCACCGCAGAGGCTGCAGACGGATCAGGA
+GGAGGAGAAGATGCAGAAGGAGGCTCTAAGCCTCCCTGGGCCCATCACACCCCTGGTTGGAAATGAAGGAAAAGAAAAAG
+TCACCTGCCAGGAACCACCTCTCGAGACCATAGCAATCCCCCATGGATGCCCAGGCCCTGTGTTTGCAAGGAGGCTGT
+>ref|ref|X57192.1|| S.scrofa domestica psi-PoIFN-alpha II-1 pseudogene
+CATTTGAATGGGCATACCTGGAATTATTGAGAAAATTAAAATTCTTGTGAGATTAAATAGTGTAGATTGAAGATATCTTT
+TAGACCATATTGAGAAGACAAAGGAAAACCAAAAAAAGGGAGTAAAAGTTTAGAGAACTGTTTTTAATAAATGAAAATTA
+CTGTGTTCACTATTTACTGGCCATGCTTAGAGAGAATGGCATCAGAGAACCTACCCCCAAGGTTCCCTCAGACACCCATC
+TCAGCCAGACAAGCAGCTCCCTCATTTCCCCATGGCCTTCGTGCTCTCTCTACCGATGGCCCTGGTGGTGTTCAGCTATG
+GCCCTGGGGGATCTCTGGGCTGTGATCTGTCTCAGGACATGTGCATGTCAGCAGAAGAACCTGGCGCTTCTGTGTCAGAT
+AAGGAGAATCTCCCCTTCCTTCTGTCTGAAGGACAGAAAAGACTTTGGGTTCCCCCAGGAGATGGTGGAAGGCAGCCAGC
+TGCAGAAGGTCCAGGCCATCTCTGTCTTCCATGAGATGCTCCAGCAGACCTTCCTCCTCTTCCACATAGAGCGCTCCTCT
+GCTGCCTGGGACTCCACCCTCCTGGACAAGCTCTGCTCTGGACTCCATCAGCAGCTGGAAGACCTAGACCCCTGCTTGGT
+GCAGGTGATGGGAGAGCAGGCATCCTCCTTGGGAATGGCTGTGAAGAGGTACTTTGAGAGAATCCATCTCTTCCTGAAAG
+AGAAGAAATACAGTGACTGTGTCTGGGAGATTGTCAGAGTGGAAATCATGAAACCCTTGTCTTCCTTAAACAGTTTTGCA
+AGAAAGGTTAAGAATTATGGATGCAGACATGGGGTCACCTTGAAATGACTGTCAGACTAAGAATGCCATCTCACCCTGTA
+CATTGTCTTTGGTCACTTCAAAAGACTCCTATCTTTGGCTACAGAACTTATTGAAATAATTTGAGTAATATTTTTTCAGT
+AGTAATAAGCATTCATATGTCAAAATTACTCAGCTCCAGGGGCATCAGTCTTAGGAGATGACTGTCCTGAGGTGATTTAT
+CTACTGTTTGTTTATGTTTATTCTTGTACCATATAAAATTTCATATAAAATATTTATTATTACATTGTAATTC
+>ref|ref|X57193.1|| S.scrofa domestica psi-PoIFN-alpha II-1 pseudogene
+GGAAAACTAAACCTCTATGACAAAATTAATGGTTTAGAGTAATGACTTTGTCTTATACCATATGGAAAATACATAAATGA
+AAACCAAAAAAGAAGTGAAAGTGTAGAGAAATGTTTAGAAAATGAAAATTACTGTGTTCCCTGTTTAGTGGCCTTGCTTA
+GAGAGAATGGCATCAGAGAACCTACCTGCAAGGTTCCCCCAGACACCCATCTCAGCCAGGCCAGCAGCGCCCTCATTTTC
+CCCATGCCTTTGTGTTCTCTCTACTGATGGCCCTGGTGGTGTTCAACTACGGCCATGGGGGATCTCTGTGAGCTGTGACC
+TGTCTCAGAACCATGTGCACGTCAGCAGGAAGAACCTGGTGCTTCTGTGTCAAATGAGGAGAATCTCCCCTTCCTTCTGT
+CTGAAGGGCAGAAAAGACTTCGGGTTCCCCCAGGAGATGGTGGAACGCAGCCACCTGCAGAAGGCCCAGGCCATCTTTGT
+CCTCCACAAGATGCTCCAGCAGACCTTCCTCCTCTTCCACACAGAGCACTCCTCTGCTGCCTAGGACTCCACCCGCCTAG
+ACAAGCTCTGCTCTGGACTCCATCAGCAGATGGAAGACCTGGACTCCTGCTTGGTGCAGGTGAGGGGAGAGCAGGTATCT
+GCCCTGGGAAGAGGTACTTCCAGGGAATCCACCTCTATCTGAAAGAGAAAAAATACAGGGACTGTGCCTGGGAGAATGTC
+ACAGTGGAAATCTGAGACCCTTGTCGTCATCAACCACTTTGCAAGAAAGGTTGCCCAATGCGGATGGAGACCTGGCATCA
+CCGTAACATGATTCTCATTGATTAAGATGCCAAATCACCTTGTACATTCGACTCTGGTCATTTCACAAAATTCATTTCTG
+TTTTAGTCACAAAACTTATTGAAATAATTCGAGTAATACTTTTTCAGTAGTAAAACTTCCCTGGACATCAGGCCCTAAGA
+GCTGTTTGCTCTGATGTGATTTATTTATTGCTATTTACTAATTTCTATTTATTTAT
+>ref|ref|X51696.1|| S.scrofa pancreatic spasmolytic polypeptide (PSP) mRNA
+GAGCCGCAGCGCCCGGCTCCTGGCCATCCTCCTCCTGCTGGGGCTGTGTGCCTGACGGGGGCCCAGAAGCCCGCCGCCTG
+CCGGTGTTCACGCCAGGACCCCAAGAACCGGGTCAACTGCGGATTCCCGGGCATCACCAGCGACCAGTGCTTCACCTCGG
+GGTGCTGCTTCGACTCCCAAGTGCCTGGGGTCCCCTGGTGTTTCAAACCCCTCCCGGCGCAAGAGTCTGAGGAGTGCGTC
+ATGGAGGTGTCCGCCCGCAAGAACTGTGGCTACCCGGGCATCAGCCCCGAGGACTGCGCACGACGCAATTGCTGCTTCTC
+CGACACCATCCCCGAGGTGCCCTGGTGCTTCTTCCCCATGTCCGTGGAAGACTGTCATTACTAAGAGGCCATGGCTTCAG
+AGAACCCACCAGGCTCCTGGATGTTCTGAAACAAAAGAAGACTATTCATCATCTTATAATTTCAGGTTTTGAGTTTCTGA
+AATTCCTGGGTTTTCTTAATCTGCTTCCCCCTCTGCCCTTTTCAATGGTTTAACACAGAATTTCTTCAAATAAAGAAAAC
+ACTGAAAATCTGCT
+>ref|ref|X16513.1|| Pig gender-neutral repetitive DNA
+GAATTCACTGCATTCATTTGGGATCCATTGCGCCACGATGCATGGAATCCATCGCGTTCAATCAAAATCCATTGCACCAC
+ACTGCATGGAATCCACTGCATTCTCTCGAGATCCATTGGGCCACGCTGCATCGAATCCACTGCATTCAATCGGGATCCAT
+TTAGCCACGCTGCATGGAATACACTGCGTTCAATCGGGATGCATTTAACCATGCTGCATCGAATCCACTGCATTCAGTGA
+CGCTGCATGGAATCCACTGCATTCAATCGGGATGCTTTGGGCCTCGCTGCATAAAATCCACTGCATTTAATCGGGATGCA
+TTGGGCCTCACTGCATGGAATCTACTGCCTTCAATCATGCTGCATGGAATCCACTGCATTCAATCAAGCTGCATAAAATC
+CCCTGCATTTAATAGGGTTCAACTTCTCCATGCTGCATGGAATCCACTGCATTCAATCATGCTTCATTGCAACCAGTGCA
+TTCAATCGGTACCATAGGGCCACGCTTCATGGAATCCACTGCATTCAATCATGCTTCATTGCAACCCCTGCATTCAATCG
+GGAACCATTGGGCCATGCTGCATGGAATCCACTGCATTCAAACACGCTGCATGGAATCCACTGCATTCAATCGGGATGCT
+TTGGGCCATGCTGGATAATATCCACTGCATTCAATCGGGATTCATTGGCCTCACTGCCTGGAATCCACTGCATTCAATCA
+TGCTGCATGGAATCCACTGCATTCAATCATGCTGCATAAAATCCACTGCATTCAATAGGGTTCCATTTCTTCACGCTGCA
+TGGCATACACTGCATTCAAACACGCTGCATGGAATCCACTGCATTCAATTGGGATCCATTGGGCACGCTGCATGGAATCC
+ACTGCATTCATCGGGATCCATTTAACCCCGCTGCATGGAATGCACTTCGTTCAATCGGGATGCATTTTACCATGCTCCGT
+GGTTTTCACTGCATTCAATCATAATGCATGGAAACCACTGCATCAATCGTGATGCATTTTACCATGCTGCATGGAATCCA
+CTGCATTCAGTGATGCTGCATGGAATGCACTACCTTCAATCGGGATGCTTTGGGCCATGCTGCATAAAATCCACTGCATT
+TAATCGGGATGCATTGGGCCACGCTCCATGGAATCAACTGCATTCAATCATGCTGGATGGAATCCACTGCATTCAACCGG
+GATGCATTTTACCATGCTGCATGGAATGTACTGCATTCAATCACGCTGCATGGAATTC
+>ref|ref|X56021.1|| S.scrofa mRNA for fetuin
+GAATTCCGCTCATCCTGTTCTTTTGCCTTGCTCAGCTCTGGGGCTGCCGTGCTGTCCCCCATGGCCCGATTCTGGGTTAC
+AGGGAACCGGCCTGTGATGACGTAGAAACAGAGCAAGCAGCCCTGGCGGCCGTGGACTACATCAATAAGCACCTTCCTCG
+GGGCTACAAGCACACCTTGAACCAGGTTGACAGCGTGAAAGTGTGGCCAAGGCGGCCCGCGGGAGAGGTATTTGACATTG
+AAATAGACACGCTGGAAACCACCTGCCATGTCCTGGACCCCACTCCCCTGGCAAACTGCAGCGTGAGGCAGCTGACAGAG
+CATGCGGTGGAAGGAGACTGCGATTTCCACGTGCTGAAACAGGACGGCCAGTTCTCCGTGTTATTTGCAAAATGTGATTC
+CAGTCCAGACTCAGCTGAGGATGTTCACAAGGTGTGTCCAAACTGCCCCCTGCTGGCCCCGCTTAATGACAGCCGGGTGG
+TGCACGCTGCAGAATCGGCGCTGGCTGCCTTCAACGCCCAGAGCAACGGCTCCTATTTGCAGCTTGTGGAAATTTCTCGG
+GCTCAACTTGTGCCTCTTTCAGCTTCTGTCTCTGTGGAGTTTGCAGTAGCTGTCACTGACTGTGTGGCTAAAGAGGCATA
+TAGCCCAACCAAATGCAACCTGCTGGTGGAAAAGCAATATGGCTTCTGTAAGGGGACAGTCACAGCGAAGGTTAATGAGG
+AAGATGTTGCGGTGACCTGCACGGTGTTCCAAACCCAGCCTGTGGTCCTGCAGCCCCAACCTGCCGGTGCTGATGCGGGG
+GCCACCCCTGTGGTGGATGCAGCTGCAACTGCATCTCCTCTAGCTGACGTGCCCGCAGCTTCCCTGGTGGTGGGACCCAT
+GGTGGTGGCAGTTCCTCCGGGCATCCCGCCAGTGCACCGATCACACTACGACCTGCGCCACTCTTTCTCGGGTGTGGCCT
+CAGTGGAGTCAGCCTCCGGAGAAGCATTCCACGTGGGGAAAACACCCAAGGGGGCACAGCCTAGCATTCCTGCTGCTGAT
+GGCTCAGTTCCAGTGGTCCGCCCTTGCCCTGGGAGAATCAGACACTTCAAGATCTAGAAGATGGTCAGAGATGAGGTTTG
+GCACAGAGAACATTGCCGCCATTGTCCAAGTATGGGTGTGGGTGGGGGCCTTGTCTGCTGTCAAAGCAAGTGCTGTGTGG
+TCTATCTTAATGTCAAGTCTTGTACCCTGACTTCTCATCCTTTAGAGGACAGAAGCAGGGGGGTACTAGTTATGTTTGAT
+GGAAGGCATAAGGTCAGCAATTTGATTCACTGTTTTGAGGCCAGGCCACCACCATTGTGTTCTCTGCCTTCTCTTGACCT
+CTCAAAAATAATTGGGACTGTGACTCTGAAAGGTGCTCTTGACAAGTTTATATCTGCTTATTAATAAAAATGTCTGAAGA
+CCATTACTTATAAAGAAAGTTCCGGAATTC
+>ref|ref|X12696.1|| Pig DNA for male-specific repeat 1
+GAATTCTCATTAGGTCCCTTATGTGTAGGTGGTGGAAAAGATGTTGATCTCGGAGTCAAATGTGTGATCATGTAGAACGC
+AGTGGCAATGGGATGGTTATCTGTCAGTGTGAAGGGCTGAGAATGGTAAGGTATGGGTGCACGGTGTAAGGTGAAATATC
+TCCATACAAGAAGCGGAGTTACTTCCTGCGCAAAGAATTTGTAGTTGATAGGAGTTTGGAAGACTGATGGAGAATCTCGG
+TTAAAGAATTTGACTGCTCTCCTGGCTGAGATTTGCCAACCTGGACCAGCACAGATAACCTTGGCTGAGGAGGATTCGAG
+AGAATGTGAAGGAGGAAGAAGCCGAGAGAGAGAGAGAGATGAAATTTGGATACAAGCCACATTCCAGGGCACAGTTTCAT
+TCCCAAGCCCTTGTCTGTGTTTCCGGGGACTATTAGACACGAAGGCTGTATCAGGACTCTTGCATGAGATTTTCACTCGT
+TCTTGGCCTTTCTCTAGAAGTACGTCGATTGCCAGCAGTCCGTGCTTGGCACCCATGTCTTCTCAAAGTACACGAGGTGT
+GGGTCAGTTAAATGACACCCTATATTTTCCCTAAGCGGCAAAGACACTGCCTATTGAAATGGCAGCTCATAGGGTGTCCT
+TCCTCAGTCGTTCCTTGATTTCATTGTCCAGGGGCCTTTAGTTTGGGTGTTTGGAATGATATCTTTTCTCTCCAAAAGAG
+ATTCTATACTGTGTATTCGTGTGAAGCAGTGACTGAGAAAGCACTTGACCCTGAAGTGCTGCACATGTTATCAGATATCC
+ATCATGATAGAGAAAATTGGGCTCCCCAGTGTGTGGAGTTGCCTTCCTTCGGAAAGGTGCAGTCCCAGAGGTGGCCATGG
+TTCTGATATCATGCCCATGGAGCCTTGTGCCCAAACAACCTCTCTGTGAGAAAAGAGGTGTGTGATGGGCCATATGTGGG
+AAAGTCTCACCCTCAAACCTTGAGAGTTAAAGGATGGACACCCTGAGCTCTTGCTCTGGAGGTCTGTCGAAGTTGATGGA
+AAGGAGGATCCATCAGATGGGTGGTCCTTTTGGATGAACACTATTATCGCCATCTGTAGACTCATAGCCACCACTCTCAT
+CAGGCTCCCAAGCTCAATGTGGATTCTAGAGGCTTGGTGTTTGAACATGTGATATCTTCAGGGGATCCGTGGGCAGAATA
+CCTCACGGGAGTTCCTCCATGTGAAAAAAGAGTTGTGCTTCAGGGCCATTTGAAACAATACCTCCCGCGGCACAAAGAAG
+GAATCCATGCCCGAATGCTCTCCACCAAGCGTGAGGCCCTGGATGTAACCCCTCAAAGAGACTTTCCCAATGGGGCATTT
+TCAGCTCCACACTTCTGAATCCATATTTCCATAGCCTAAGCCACAGGGGAGCCCTCCAAACAGAGGCCTTTAAACCAAGA
+TGTATCCGGTCTATTTCAGGTGCCTTTTCCACAGGTGGATAAGAACAAGCCCTCCCACTCATTGAGTGACTTACTGGGAG
+TGTGGTGCCTGGGGCCAGGGCCAGTGTGTTTGTTCTATCTACAGTCATAAGGAAGGAAGCTGGGACGATGATCTGATCTT
+CCAGGAGCGCTGTGATGATGCCTGCAATGTGAGGGTATTGAAAGTTCCCTCCTGGAAGGGAGTGGGCTCTGTCCCTGACA
+CTCCTGAGGCTAGAGAATGAGGAGGTCTAATCCATAGAGACTGGTTTTTGTTGACAGACATCTTGCACTCTGGGCTCTTG
+TTGGCCAGCCCACTCGCCAAGGATGCTCAGACCATTGTTTGGATGCCCAGTCATTGAGACATGAAGAGTCCTAGACATCA
+TATTCTATATCCCCTAAGAACGAGTCCAGAGATCCTCACATGAGCAAATCCACCATACCTCATGGACCAGGTAGGGAATG
+CTGCAGATCAGCACTTTCTTGGGAGAGCACTCATGGGAACGTTGTTTCAAGTGCGTTGCACTCTGCGTCCAATATGGGAC
+CCTCGAGACCGAAGTACATATGAAGTGGTCAGCGTGTCCATAGGAAGGGATGACTATGGGAAGTATGGTTTAAGGCTGAC
+CTAGTTGGGGTGTCTCCACACAGCACAGGAAGTCTTTCAGGACCACGGAATTTATATGCGATCAGACCTAGGATGACAGG
+GAGAAAAGGCTGGGGGATAACTTGGACGATTCTCTTGGCAAATATATTTGATCCATTATTACCCCAGGTCGAATTGTAGC
+AGGAGGATACAGGAGAAATTGAAGGGGGGCAAAGGGGAGAGTGAGAGAGCTAGAGAGAAGGAGATGAAAAGAAGGCGAGA
+GAGAGGTAAAGGAGCTGTTGTTTCAAGCAACTGTCAATGGCAGGATAATTTCTCCAAGGACGTGTCTTTCTTTAAGGTGG
+CTAGCACACAAATGGGACAAACCAGCACACTTGTCCCAGAGTCTTCTCTCCTTCAAGGCCTGACGCCCACATTGTGTCTA
+TTACAATCCCTGCTCCATCCTGGAAGACAGGTTTGAAAGCCTTGCTGTGGTCCCTCTATCTTCTCCAATGGCATGGGGTG
+GAAATCAGAGTAAGAGATATTCCATAGTTTCCTTCAGGGGAAAAGCCTCCTCCCATGGAAAGAGATGCTCGTGTGTTGTT
+CTTCCTCCATCGGCCATTGTTTTCCTGTTCAGGCTCCGTGGGGAGTGGGTCTTTTTCAATGCCATATTTTCTTTCCTAAT
+GAGGTTGTAGACTGTGTATTCCTGGGAAGCAGTTTTGGAACCACCGTGTTGAGCCTGACACACGTTCAGGGGAAGAGGCA
+TCCTTCTGTAGAGAGCAGGTGGGCACAGAGGAGGTGGAGTTGCCTTCCATCTAGAAGTTCAGGCCCAATGGTTGCCATGG
+CAAGGGCATGTTGCGCACCAAGTATTGTGACACAACACACCGTATGTGAGAAGAGAGGCGAGGGATGGGCCCAAAGTGGG
+AAGCTCTCACCGTCACCCCCAATTGGTTGTACCTCGGGCAGCCTGATCTCATGATCTGGAGGTATGTTGATACTAAATGA
+AACGAGGATCCATTGGATGTATTGGACAATTGGATGATAAGTAGTATTTCCAGCATTCTTCTCATGGCCACCATTCTCAT
+CAGGCTGCTGAGGAAATAGGCACTGCTCAGGCTTGCTTTTGGATGATGATCCATTTGAAAGGGACCAGTGAGCCTATCCC
+TTCCAGTCTTTTCCAACAGGGAAAAAAAGACTCCTAAGTATGACCGGGATGAGAAATCTCATTCCAGATCTCAAAGCCTG
+AAAATTGGCCACTCAGCCTTCCAAAAAAGACGAGGCCCTCAACATCAACCCTTACGAAATACTGGAATGGGGGCAAGGAC
+CATTCCTTGCTTCGGAACGTACACGTCCATAGATGAAATCACAAACTAGCTCTCCACAGTAACAAATTTCCCAAGAATGA
+AGCTGGGATATGTCTGGTGGGTATTTCACAGGTTGATAAGAATAAGTCCTGTCTAAAGGGGTGCTGGATGGAAGTGGGGT
+GACTAGTTCCACTGCTGGCTGTTTGTGGGGTACACAGTTGTCAGGAATTTAAGGAGTCTCTCTTGTTATCTTCCGTGAGC
+CCTGTGGTGAGGGCTCCCCTTGGGCAGGACTTGAGGTTTCGCTCTTGGACGAGAGGGGCCTCTGGCCTGCCAATGGAGGG
+TCTAGAGAAGGAGGAGGATTGTCCCAAATGGAGACTGGTTTGAGGGGACCGAATCCTGGAACTCTGTCCCATTGTCATTC
+AGACCCTGCTGAAGGGTGCTCAGACCCCTTCTTAGATGCCAAATCACTGAGACATGGAGAGGCAGAGAATTC
+>ref|ref|X65498.1|| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.1.2)
+CCCCGGCTGACAAGTGTGCGGTCCCACAGGGGCCTGGACAGCTTCAGCGGAAAGCCACGGGGCTCTGGGGCCCCGGCTGG
+CACAGCGCTACCCCTCGAGGGCGTCATCCTGAGCCTGCAGGACCTCATCGGCTACTTTGAGCCGCCCTCGGAAGAGCTGC
+AGCACGAGGAGAAGCAGAGCAAGCTCGGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGTGAGGCCAGGGCCC
+GGGAGGGCGGGGTCTTTGGCCGGGGGGGGGGGGGAGGGGGGGCTGTCACAGCAGCCGCGTCTGCCTGGACCCAAGGGAGA
+AGTGGTCTGAGATTCAGGATGGATGAAGAGACCTGAGGAAGGATCC
+>ref|ref|X65499.1|| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.17)
+GGATCCTTAGACCCTCAAACTTAGATCCCAAGTCTCATGCCCCCACTCCAGCCTCACCCTGAGCCCAAATCTGAGGCTAC
+CACTTCGTACCCTGAAACTCACATATCCAGCTGCGGACCCCGCCACCAGCCCCCGCAACCAGCCCCCAGCCTCCTGCAGG
+GGAGAAGCAGGGCTCCCAGGCTCCACATTGGCTCCGGGCCCTTCTGCAACCCCAGCTCCCCTGTGACCACCGTCCCTTGC
+TCTGTCCAGGCTATGTGACTGGGGGTCACGTCCTCCGCCTCTTTCACGGACACATGGATGAGTGCCTGACCATCTCCCCC
+GCTGACAGTGATGACCAGCGCAGGTCTGGGCTGGGGGCAAGAGGGCCTGGGGTCTTGTGTTTGGGGGCGGTGTGGCAAAG
+GCTGGCGGGGGGGCAGCCTGGCACCCTGTGGGGGGATTAGGGAGCAGACTCTGGGTGCCTGGAGCCTGAACCCCTGCCCT
+CGCTCTCTTCCACGTGCACAGACTTGTCTACTACGAGGGTGGATCTGTGTGCACCCACGCCCGCTCCCTCTGGAGACTGG
+AACCGCTGAGAATCAGGTAGGGGGGCAGGAGGCAGGCTGGGGAGGGGCTAGAAGTTCCTGGGGGGCCTGGGAGGAGAAGA
+GGATCTTTTTTTTTTAAGGCCACTCCTGTGGCCTATGGAGGTTCCCAGGCTAGGGGTCCACTCGGAGCTGCAGCGGCCGG
+CCTACACCCCAGCCACAGCAACGCTGGATCC
+>ref|ref|X65500.1|| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.5)
+GGGAAAACTGGGACACTGGAAACATCTGGGGCGCCCTGAGGAAGTGGTGAGGGCCTAAGAGGAGACTGGGTTCCTAAATG
+AGGACTGGGGGGTCCTAAGAAAGATCTGAGGGCTTCGAGGGGGGGGGCACCCTGGAAGAGGGCTAAGGGCTTTCACCCGA
+GACTGTGGTGTCCATGGGAGACCTGGGGGCCTCGGACCCCTCCTTATCACCCTCTGCAGCTGGAGTGGGAGCCACCTGCG
+CTGGGGCCAGCCGCTTCGCATCCGGCATGTCACCACCGGGAGGTACCTGGCGCTCATCGAGGACCAGGGCCTGGTGGTGG
+TTGATGCCAGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGCATTTCCAAGGTTCGGTGGGGGTCAAATATCCTC
+CCTCAGCTGGAGGCCCCAAATCCCACCCCAGCCGCCCCCTGCCGTCTCTCAGCTCCTGTGCCGGCTGACCTCTGTCCCCT
+ACCCCTGCAGGAGAAGCTGGATACGGCCCCCAAGCGGGACGTGGAGGGCATGGGCCCCCCTGAGATCAAGTATGGGGAGT
+CACTGTGCTTCGTGCAGCATGTGGCCTCGGGCCTGTGGCTTACCTATGCTGCCCCAGACCCCAAGGCCCTGCGGCTCGGC
+GTGCTCAAGAAGAAGGTGGGTGTCTGGCCAGGGGAGGTGTGGGGTGTAGGCAGGGCAGGAAGGGGACTGGGGCTGGTCAT
+GCTTGAGCCTTCAGGAGGTTGAGGATGGGATTGAGAAAAAGACAATGACTGAGAGAGAAACTAAGGTTGAAAGAATGGAG
+TTCCTGTTGAGGCTCAGTGGTAATGAACCTGACTAGTATCCATGAGGATGCAAGTTCAATCCTTGGCCTTGCTCAGTGGG
+TTAAGGATCC
+>ref|ref|X65501.1|| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.8)
+GCCATTCTGCACCAGGAAGGCCACATGGACGATGCACTGTCACTGACCCGCTGTCAGCAGGAGGAGTCCCAGGCGGCCCG
+CATGATCTATAGCACTGCTGGCCTCTACAACCACTTCATCAAGTGAGCCACCTGGCCACTCTGCTGTGGGGGGCTGGGGG
+CGGCCACAGCTTGACCCCCGTGCTCCTGGTGTTCATGCCCCTGACCTCTGACATCTCTGCCTCTGACATCCGCACCTCTA
+ACAAACACAACCTCTTGACCTCTATACGCTTGATCCCTAACCTGAATGCCACAACCATGCCTTTGACTTCACCTCCCTGA
+TCACCACCTAATCTCACACCCCTGACACCCAGACCCTCGGATCC
+>ref|ref|X65502.1|| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9 (3'))
+TTCTCTGTCTTTGACGTCTCTCTGTCTGTCTCTGCCTCTGCTTTCTCTCTCTGTGTCTCTGTCTCCATGGCTCTGCCTTT
+CCGTTTTTCCTGCGTATGTGTCTCTTTGTCTTTTTCCCTCTCCCCCCCAGCCTTCCCTCCAGCCTGGCTCTCTTCTCCAG
+CCCTCCTCATCCTCCTCTTCTGTCCCATTTCTCCTGCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCA
+CACAGTACAGCAAATGGTACTTTGAGGTCATGGTGGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGG
+GTGGGCTGGGCCCTCACCGAAGGCTACAGCCCCTACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGA
+CCTCTATTCCTACGGCTTTGACGGGCTGCATCTCTGGACAGGTACCTGGACCCTTGCAGGGGACCCTTGACCCCAGGGTT
+TCGAAGGCTCTCACTGCACGCTTTGGGGTTCTTGGGATCT
+>ref|ref|X65504.1|| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9.2/9.1)
+GGCTTTCACCACCTCTTCTCAGTCACATCCCCACCTCCCACCCTGGGACATCATCCTTCTGGCTTTCCCACCCTGGGTCT
+TCCATGGACCACACCCTCCCCGGCAAGTGCCCTCACACCTTGACCTCTGACCTTGACCCCTAGGTGCTGGATGTCCTGTG
+TTCCCTGTGTGTGTGCAATGGTGTGGCCGTGCGCTCCAACCAAGATCTCATTACTGAGAACTTGCTCCCTGGCCGCGAGC
+TTCTGCTGCAGACAAACCTCATCAACTATGTCACCAGGTCTGGCCCCCCAACCTTTGACCCCAGAGCTTAGAACCCTCCA
+CCACCCCGCCCCGACTCAGAGACTCCACTCCGGTGAATGGCCCTTCCTCCGTCCCCCACCCCCGGACTTAATGCCAGTCC
+CCACCCCTGTGGTGCTTGTCCCAGCTTGTCCCTGGCTTCTTACTTCTCTTACCCTTCTTCCCCAAACTCTTTCTCCCCTC
+TGTCCTCTT
+>ref|ref|X65503.1|| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9 (5'))
+GGATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAGGAGAACCACATCAAGTCC
+ATCATCTCCCTTCTGGACAAGCATGGGAGGAACCACAAGGTGGGCCTGTGATCCCCTCAATTCTGCACTTGATCTTTCCC
+CACCCCCCCTCTTCACTCTTACCTGGACTCCTCTGCCACATGCTTCTAGCTCAATACAAAGGTCTCAAACTCCTTGTTTT
+TGTTTTTGTTTTTATGGCTGAACCTGTGGCAAATGGAGTTCAGGCAAGGGGTGAACCAGAGCTATAGCTGCTGGCCTACA
+CCACAGCCTCATCAACAACGCAGAT
+>ref|ref|Z15155.1|| S.scrofa RYR1 gene for ryanodine receptor
+ACCCGCAGGAAGTCCTGAGTCCTGANCCCCGGAACACCTCTGCTCCCAGNCCCCTGGNNCCCCAGAATGCTCTTCAATTC
+CCAGGACACTCTTCTGCAGAGGGTCCCCCAACNCCCCCAGGATGGTTTCTCACCCAGAATGCCCCATGGTTCTAGAATGT
+TCCCGATCCTTCAAATAACCCCTAACCAGAGACCCCGGCNCCTTGNCCCCAGCNCACCCAGCACTCTTGAATACTCCTGG
+GCCCCCTGAGTGACCCCTGACCCCGTGTGCCGGCAGTCGTTCCTGTACCTGGGCTGGTACATGGTTGATTGTCCCTCCTG
+GGTCACTACAACAACTTCTTCTTNNCTTGCCCACCTCCTGGACATTGCCATGGGGGTCAAGACGCTGCGTACCATCCTCT
+CGTCCGTCACCCACAATGGCAAACAGGTGTGGAGAGGACCGGCCTGGGGGCGGGCGCCAGTGGACGTGGGCGGCGGGCAG
+CTAAGGTGAGGAGGGGCAAGGCCGGTGGGCGCGGGCCACCCGGGGGGGGGAGTCGAACTGGCACAGAGAGAGAGACAGAG
+AGACAGAGAGAGACAGAGAGACAGAGACAGAGACAGAGAGACAGAGACAGAGAGACAGACAGAGACAGAGACACACACAG
+CTGGGAAGGTGAGGGGTGAGCCGAGCGAGGCGCTGACCTGCTCCCCGCCCCGCCCCCAGCTGGTGATGACCGTGGGCCTC
+CTGGCGGTTGTGGTCTACCTGTACACCGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAGCC
+TGACATGAAGTGTGATGACATGATGACGGTGAGCCCCTGCCCCCAACACTCTTGGGCATGCTGTTGACCATTCCTGACCC
+TCAGTTTTCCCATCCGGAAAGGGGGTGAGTAATAGCACCCACCTTGTCGACTTACTGGGAGGATTCAGTGAGGCACTTGG
+AATAGTGCCCGGTAAATGTGAGCCACTACTGTTATTTGAGATTTGTTTGTTTGTTTTTGTTTTTTGTTTTGCTGTCCATG
+CATGTGGAGTCCGGCAGGATCAGATCTGAGCACAG
+>ref|ref|Z15156.1|| S.scrofa RYR1 gene for ryanodine receptor
+TGCCTGAGCCCTCCATCTACAACCCTGATCGTTTCTGGGCTGTCACTATCTGATGCCAAGCTTGTGAGCCCTGTGAGTGC
+AGGGTTCAGGGNTGTCTCAGTCATTGCCATGCGAGNGGCGCCCCAGGCAGCTCAGGGCCTTGTGGGTACTCAGTGAGTCG
+TCGAGTGATTGAATGTGTGACTAACGTGCTTCTTGCCCTGCTTTGCAGTGTTACCTGTTTCACATGTATGTGGGTGTCCG
+CGCTGGTGGGGGNATTGGGGACGAGATCGAGGACCCAGCAGGAGATGAATATGAGCTCTACCGGGTGGTCTTTGACATCA
+CCTTCTTCTTCTTCGTCATCGTCATCCTGTTGGCCATCATCCAGGGTCAGTGCCTTGCCGGGGCTGTGGGGAGTGGGGGC
+TCCGTGGCCAGACGNACCAGCTCCTTTTAGCGTGCAGGCCCAGGATCCACTTGGCATGAAATGCAAACCTGGTTCTGCCT
+CTCCCTACTGTGACACATGGGGCAAGTCACCTCTCTGAGCCTGTTTCTCCGTCTGTAACATGGGGTTATTAATTATCTAG
+CTGTGAGAATTCAGTCAGTTCATAGGGGGTAAGTGGCTGGCTCATGATAAGTGCTCAGGAAGGGCATGGTGTTATTATTT
+TAGAAGCAGGTGCATTAGGAGATGATGGAGGCGAGGTAGGTAACCAGGAGAGGGAGGATGCTGAACTGGGTCAGAGGTTG
+GACGCCGACTTGCACCCTGCCACCTCAGGTCTGATCATTGATGCTTTTGGCGAGCTCCGAGACCAACAAGAGCAAGTGAG
+AGAAGATATGGAGGTAGGTCATGTCTAAGGGTGACCCACAGGGGTTATGGGACCGGTTCAGGGTAGGGGTGGGGGGTCGA
+ATGGGCCTCGACTCTGATGTCTCCTGCCATCTGCAGACCAAGTGCTTCATCTGTGGCATCGGCAGCGATTACTTTGATAC
+GACACCACACAGGTTCGAGACCCACACGCTAGAGGAGCACAACCTGGCCAATTACATGTGAGTGTGGACCGCTGGCCAAT
+CAGGAGGGTGGGCGTGGCCACTGACAGCAGCCAGGGGCTGGATCCTGGGCATCTGCTGGTTAGGGAAGGGGGTGTGGTGT
+CCATGGGGGTGGATTCCCAGCCAGCCAATCAGGAGAAGGTAAGGGTGGTCCTCACCTGTCTCCCGCTGCCCTCCCACCCC
+TAGGTTTTTCCTGATGTATCTGATAAACAAGGACGAGACAGAACACACGGGTCAGGTAAAGGGGTGTTAACGGGAGGCCA
+ATGGGCAGGGACGTGGAGAATTATAATATAAGGGTAATCAGCAGGGGGCAGTAAAAAGCTCATATCAATATCAAGCGTTT
+GAAAATGTGACCAACTGACTCTTCCCCATCCCCCACCCCTAGGAGTCTTATGTCTGGAAGATGTACCAAGAGAGATGCTG
+GGATTTCTTCCCGGCTGGCGATTGTTTCCGCAAGCAGTATGAGGACCAGCTTAGCTGAGACACCCCCAGCTGGCCGGCAC
+CCCCACCTCAAGTGCCTTGTTTTCAC
+>ref|ref|NM_214023.1|| Sus scrofa secreted phosphoprotein 1 (SPP1), mRNA
X16575.1 Porcine Spp1 gene for SPPI (osteopontin)
+AGCGAGCGGAGGCCAGAGGGCAGCACTGACAGCCGCATCAGCATTGCTCCCGGGACTGGACTCTTCGCGGGGCTGCAGAC
+CAAGGAAAATCATTACCATGAGAATTGCAGTGATAGCCTTCTGCCTCTGGGGCTTCGCCTCTGCCCTTCCAGTTAAACAG
+ACTAATTCTGGCAGCTCGGAGGAAAAGCTGCTTTCCAACAAATACACAGATGCTGTAGCCACATTGCTAAAGCCTGACCC
+ATCTCAGAAGCAGACTTTCCTAGCGCCACAGAATACTATTTCCTCGGAGGAAACGGACGACTTCAAACAAGAGACCCTGC
+CAAGCAAGTCCAACGAAAGCCCTGAGCAAACAGACGATGTGGACGACGACGACGACGAAGACCACGTGGACAGCAGGGAC
+ACGGACTCCGAGGAAGCTGATCACGCTGACGACGCTGACCGATCCGACGAGTCTCATCACTCCGATGAATCCGATGAGCT
+GGTCACCGATTTCCCCACCGACACCCCAGCAACCGACGTCACTCCGGCTGTCCCCACGGGAGACCCCAATGATGGCCGCG
+GGGATAGTGTGGTCTATGGACTGAGGTCAAAATCTAAGAAGTTCCGCAGATCCGAAGCCCAGCAGCTGGATGCCACAGAG
+GAAGACCTCACGTCACATGTGGAAAGTGAGGAGACGGATGGTACCCCCAAGGCCATCCTCGTTGCCCAGCGCCTGCACGT
+GGCTTCTGACTTGGACAGCCAAGAGAAGGACAGTCAGGAGACGAGTCAGCCGGATGACCGCAGTGTGGAAACCCGCAGCC
+AGGAGCAGTCCAAAGAATACACGATCAAGACCTATGATGGGAGCAATGAGCATTCCAATGTGATTGAGAGTCAGGAAAAT
+CCCAAAGTCAGCCAAGAATTCCACAGCCATGAAGACAAGCTGGTCCCAGACTCTAAGAGCGAAGAAGACAAACACCTGAA
+ACTTCGAGTTTCTCATGAATTAGAGAGTGCGTCTTCTGAGATCAACTGAGAGAAATACAATGTCTTACTTTGCTTTTAGT
+AAAAAGAAAAAAAAACACATTGTAGCGAGGTGGGAGAAAATATGAAAGGCTTATTTCTCAGCTTAGTTGGTGAATGTATA
+TGTGTGTGGCTCTGGAAACAAATAATATTTTTGATCATTAGTTTAGTGTGTGGCTTCATGGTAACACCCTTGTCAACTAA
+AAGCTTCAGGGTTTAGTCGACGGTCTTTCCGTATAAGAAATACAAGCCGTCACTGATTTGTAATGTTTGCTATCCTTTTA
+TGAATAGAAATTTATGTAGAAGCAAACAAAACACTGACACACTTATAAGAGAGGATATAAAATTTCATGTCACTCTGATC
+TTTTGTTTTTTAAATTAGTGTATATTTTGTTGATTATTTTTGTTGGTGTGAATAAAATATCTCGAATGTA
+>ref|ref|X12386.1|| Porcine mRNA for transferrin
+CGGTCGCCCAAAAAACTGTAAGATGGTGCACCATTTCAAATCAGGAGGCCAATAAGTGCTCCAGTTTCCGTGAAAACATG
+AGTAAAGCCGTTAAGAATGGTCCTCTTGTCTCCTGTGTGAAAAAATCCTCCTACCTGGATTGCATCAAAGCCATCAGGGA
+TAAAGAAGCAGATGCTGTGACACTGGATGCGGGTTTGGTATTTGAGGCAGGCCTGGCCCCCTACAACCTGAAGCCTGTTG
+TGGCAGAGTTCTATGGGCAGAAAGATAATCCACAAACCCATTATTACGCGGTGGCCGTGGTGAAGAAGGGCAGCAACTTC
+CAGTGGAACCAGCTCCAAGGCAAGAGGTCCTGCCACACAGGCCTCGGCCGTTCTGCTGGATGGATCATCCCCATGGGATT
+ACTTTACGATCAACTGCCTGAGCCACGGAAACCTATTGAGAAAGCAGTGGCCAGTTTCTTCTCCAGCAGCTGCGTCCCCT
+GTGCGGATCCGGTGAACTTCCCCAAACTGTGCCAACAGTGTGCTGGGAAAGGGGCTGAAAAGTGTGCCTGCTCCAACCAT
+GAACCGTACTTCGGCTACGCGGGTGCCTTCAATTGCCTGAAGGAGGATGCTGGGGACGTGGCCTTTGTCAAGCACTCAAC
+AGTATTGGAGAACCTGCCTGACAAGGCNGACAGGGACCAGTACGAGCTGCTCTGCAGGGACAACACCAGGAGGCCTGTGG
+ATGACTACGAGAACTGCTACCTGGCACAGGTCCCTTCCCACGCCGTCGTGGCCCGAAGCGTGGATGGNCAGGAGGACTCA
+ATCTGGGAGCTTCTCAACCAGGCCCAGGAGCATTTTGGCAGAGATAAATCTCCAGACTTCCAGCTTTTCAGCTCCTCTCA
+TGGGAAGGACCTGCTGTTTAAGGATTCTGCCAATGGGTTCTTAANGATTCCCTCTAAGATGGACTCCTCGCTGTACCTGG
+GGTATCAGTATGTCACTGCTCTTCGGAATCTAAGAGAAGAAATAAGCCCTGATAGCTCAAAGAATGAATGCAAGAAGGTG
+AGGTGGTGTGCCATAGGCCACGAGGAGACGCAAAAATGCGATGCGTGGAGCATAAACAGTGGTGGGAAAATAGAGTGTGT
+ATCCGCAGAAAACACCGAAGACTGTATCGCCAAGATCGTGAAAGGAGAGGCTGATGCCATGAGCTTGGATGGAGGCTACA
+TCTACATTGCGGGCAAGTGTGGTCTGGTGCCTGTCCTGGCAGAGAACTACAAAACTGAGGGTGAAAACTGTGTAAACACA
+CCAGAGAAAGGGTATTTGGCTGTGGCTGTGGTTAAGAAATCATCAGGTCCTGATCTCAACTGGAACAATCTAAAGGGCAA
+GAAGTCCTGCCACACTGCAGTAGATAGAACTGCTGGCTGGAACATCCCCATGGGTCTGCTCTACAACAAGATTAACAGTT
+GTAAATTTGATCAGTTTTTCGGTGAAGGCTGTGCCCCTGGGTCTCAGCGAAATTCCAGTCTCTGTGCTCTGTGTATCGGC
+TCGGAACGTGCGCCTGGAAGGGAATGCTTAGCCAACAACCATGAGAGATACTATGGCTACACAGGGGCTTTCAGGTGTCT
+GGTTGAGAAGGGAGATGTGGCCTTTGTGAAGGATCAGGTTGTCCAGCAGAACACTGACGGAAAAAACAAGGATGATTGGG
+CAAAAGATCTGAAGCAGATGGATTTTGAGCTGCTGTGCCAGAACGGCGCCAGGGAGCCTGTGGATAATGCTGAGAACTGC
+CACCTGGCCAGAGCCCCAAACCATGCTGTGGTTGCACGGGATGATAAAGTGACCTGTGTTGCTGAGGAGTTACTTAAACA
+GCAGGCTCAATTTGGAAGACATGTAACCGACTGCTCAAGCAGCTTTTGCATGTTCAAGTCAAATACCAAGGACCTCCTCT
+TCAGGGATGACACCCAATGTTTGGCCAGAGTTGGCAAAACTACGTATGAATCCTACTTAGGAGCCGACTACATCACGGCT
+GTGGCTAACCTGAGAAAATGCTCAACCTCAAAACTCCTGGAAGCCTGTACTTTCCACAGTGCTAAAAATCCAAGAGTGGA
+GACTACCACCTGATGGAGACGGGAGCTCACGGGACCCATAAGCTTCCCTCTGGTTGTGCTGGCCTGAGTGGTTTGGTTGC
+CTTCACACTTTCGTGGTGGCACCTCTGCAGGACAAAAAAAAAAAATAAAAATTATTATCATTTTTGTCTTTTAAAAAAAA
+AAAAAAAAAAAAAACCGG
+>ref|ref|X16170.1|| Pig mRNA for transition protein 1 (TP1)
+AAAAAAAAGCCCCTCATTTTGGCAGAAAGTACAATGTCGACCAGCCGCAAGTTAAAGAGCCATGGCATGAGGAGGGGCAA
+GAACCGCGCTCCTCACAAGGGAGTTAAGAGAGGTGGCAGCAAAAGAAAATACCGGAAGGGCAGCCTGAAGAGTAGAAAAC
+GGTGCGATGATGCCAATCGCAATTACCGCTCCCACTTGTGATCTCCACCAGCTTTCTCTCTCCTGGTAGACTTCAAGGAC
+ACCAGGCAGCAACAGAGAACAGAAGGAGGACTACCAAGGAGACCTGAAGTTAGGTCAATTGCCAGAGAAGAGCCTATCAT
+GTGGGTAAAATTGCCAGTTT
+>ref|ref|X62846.1|| S.scrofa UABP-2 gene exon 2
+TGTCCTCCATAGATTTAGCTAGCATCCGCCAATCCAGGACTAATGGCAACCCCACCCAGGTGAACTGCACAGAGAGAAGA
+CTGAGTCCTTTTCAATCCCCTCCACACTGAGAACCCAGTCCATCGAATGTTCACATCTATACCTCTTCCTTCCAATAACA
+GCTCTCTGGATTGTTGCAGAAATGTCCCACGGGAAAATGCCTCTGGTGCTTTCTCTGGTTCTCATCCTCTGTGGCCTTTT
+TAATAGCATCTCCTGTGAAAAGCAGCAAACCTCCCCAAAGACTATTACCCCAGTCTCATTCAAGAGAATTGCAGCTCTCT
+CCCAGAAGATGGAAGCTAACTACAAGGCTTTTGCCCAAGAATTGTTCAAGACTCTGTTAATCGAGGATCCCAGAAAGAAT
+ATGATCTTCTCCCCTGTGAGCATCTCCATTTCCCTGGCCACCCTCTCCCTGGGGCTCAGATCCGCAACACGCACCAACGC
+CATTGACGTCCTGGAACGTGACCTCAGAAACCTCCGAGTGTGGGACAAGCACCAGGCTTTACAGCATCTTGTTGAGATGC
+TGCACGAGCTAGAAAAGAAGAAACAGCTAAAGCACAAGGATATTTTCTTTATCGATAGGAACAAGAAGATGAACCAGATG
+TTTCTGAAGGAGATAGACAGGGTATATAAAGTGGACATCCAGATGATCGACTTTAAAGATAAAGAAAAAACTAAGAAGGC
+CATCAACCAATTTGTGGCTGACAAAATAGATAAGAAAGCCAAAAACTTAATCACCCACCTGGACCCTCAGACCCTCCTAT
+GTCTTGTCAACTACGTTTTTTTCAAAGGTGAGGTTTATTAAGTGCAATTCCCGATTTGAGGTAATCTTTGCGCTTGTGTT
+TCCTAAAAGGTTTGTGTCAGAAAAAAAAAAGTAGTTTATGTGAGTATATCCCGATTTTCCCGAGAAACCAGTAGATCCAA
+AAAGCTTTTTCGTTGTCTTTGATATCATTGTTGGCCAGCATTTTGCAGTTTTTCTCCTCTTAATCCTTTTTAATCATCTT
+GTTTGCCTTGCATTATGGTATTTTGGAGTAAAAGGCAATGACTCTTGCTGGTAAAAAGGAAAAAAGAAA
+>ref|ref|X62847.1|| S.scrofa UABP-2 gene exon 3
+TTTCCCAAATCCTTTTGATCTTCCTTCCTGATTCCCCCCAGGCATTTTGGAAAGAGCTTTCCAAACCAACCTCACAAAGA
+AGGAGGACTTCTTTGTGAATGAAAAGACCATAGTGCAGGTGGACATGATGAGGAAGACAGAACGAATGATTTACAGCCGG
+TCAGAGGAACTGCTGGCTACGATGGTTAAAATGCCTTGCAAAGAAAACGCGTCCATAATTCTTGTCCTCCCTGACACAGG
+AAAATTTGACTTTGCTTTAAAAGAGATGGCTGCTAAGAGAGCTAGACTTCAGAAAACCAATGAGCTTCAGGTATGCTATT
+CTGGAAGAACATTCTAGAATATTGTTTTTTTCCTCCAATCCCTCTTCCGTCGTAG
+>ref|ref|X62848.1|| S.scrofa UABP-2 gene exon 4
+TTGGGGGGGGGCCTTTCCCCAGGACCCTGGGAAAGGCCATAGTCCAAGCTCCATGTTATGATTAATGACGAACAGATTGG
+TGCACTTAGTTGTGCCCAAGATCAAGATCACCTCCAAGATAGATTTAAACATCTGCTTCCAAAGATTGGCATCAATGACA
+TATTCACTACCAAGGCCGTCACCTGGAACACCACCAGGACTTCAACTATCCTGGAGGTGAGTAGGGTCTCTGTCAAAATT
+TCTGTCTTATCCAGGACAGTCTTCATCGAAAAACAACTTTCTATACATCAGTTCCAGCTCTTCTCTGGCGTGGGTTCATG
+GGATTTAGGGTTCTTTCTTCATTCGTTCATTGAAAAGTCACTGCATCAAGCACATTTGGAGTCAATGGGGATAAAGTTGT
+GAGCGAGCCAGACAAAATCTTACTCTCACTGCAGGCATGCAAGCTTTTGTTCCCTTTAGTGAGGGTTAATTTCGAGCTTG
+GCGGAA
+>ref|ref|X62849.1|| S.scrofa UABP-2 gene exon 5
+CCAAACCCCTTGTGGGGGTTCAATGGTGAAAATGCTGGGAGCCTGGTTTTCTGGAATGGAACCGGTTTTCCTCCACCTGC
+CATCAGCCAGGGAGTGAGGTTTCCTCCCTGACCTTGACCATGGAAGATCACTGGGCACACCGCCCTGGCTTGTCCTCCGG
+CCAGCCAGGTGAGTTCACACCCAGTGCTGAGAGACCTATCTCCCCTAGGCCGTGCATCATGCTGTGATAGAGGTGAAGGA
+GGATGGCTTGACCAAGAATGCAGCCAAGGACAAGGACTTTTGGAAGGTCCCCGTGGACAAGAAGGAGGTCCCCGTGGTCG
+TGAAGTTTGACAGACCCTTCTTCCTGTTTGTAGAGGATGAGATAACTCGAAGAGACCTCTTCGTGGCCAAAGTCTTCAAC
+CCCAAAACTGAGTAGAGGTGGGGCCAGGCTGTGCTGAGCAGGAACTTTGGTCATGAATAAAATGAATATAATTCACCACC
+TGTGCATTAAAAGAGGCTGAGACTGAGAAGTGTCGCTCGAGCATGGCATGGGGATGGGTCATTGCTGTTCTTCTGTCTGG
+GAACAGAGGGAACAGAGGGAGTTTGAGGGCCTGCC
+>ref|ref|X51428.1|| Pig DNA for urokinase-type plasminogen activator
+CAGCCATGGTTAGGAAGGCAAGGCAGGCACTCGAGGTAGGAATTATAGTTTACAAACAAGGTTCATTCTTGTGTCTCTAC
+CATGTAGAACTGTGCCTGACGCACAGGAGGCCCATGACGAACACTGGGTGAATGAATAAAGGAATAAATGAATGATTTCA
+CACGCATGATCTCAATGCATGATCACAACGCATGATCTCATTCAATCTGCACAGTGAGTTAGGGGCAGGGTAGGCATTGC
+GTCTTTTTGC
+>ref|ref|Z11810.1|| T.bidens interphotoreceptor retinoid binding protein gene, exon 1
+GGCCCATGTCCTGACAGTTGGGGTGCAGAGCTCCTTGAATGACCCTCGTCTGGTCATCTCCTATGAGCCCAGTGCCCTCA
+CAGCTCCTCAGAAAATCACAGCACTCACCAACCTCACACAAGAGGAACTGCTTGCCCAGTTGCAAAAGGGCATCCACTAC
+GACATCCTGGAGAGCAATGTGGGCTACTTGCGGGTGGATGACATACCGAGCCAGGAGGTGGTGAGCAAACTTGGGGACTT
+CCTGGTGGCCAATATCTGGAGGAAGCTCCTAGGCACCTCCGCCTTGGTGCTAGACCTCCGACACTGCACTGGAGGCCATG
+TTTCTGGCATCCCCTATGTCATCTCCTACTTGCATCCGGGAAACACGGTCCTGCATGTGGACACCATCTATGACCGCCCC
+TCCAATACGACCACTGAGATCTGGACCCTGCCTCAGGTCCTGGGAGAGAGATACAGTGCTGACAAGGATGTTGTGGTCCT
+CACTAGTGGCCACACCGGAGGAGTGGCTGAGGACATTGCTTACATCCTCAAACAGATACGCAGGGCCATCGTGGTGGGTG
+AGCAGACCATGGGGGGTGCCCTGGACCTCCAGAAACTGAGGATAGGCCACTCTGATTTTTTCCTCACTGTACCTGTGTCC
+AGGTCCTTAGGGCCCCTTGGTGGGGGCAGCCAGATGTGGGAGGGCAGTGGGGTGCTTCCCTCTGTGGGGATACCAGCTGA
+GCAGGCCCTAGAGAAGGCCCTGGCCATGCTCACACTGCGCAGGGCCCTGCCAGAAGTCATGCAGCACCTGCAGGAGGCCC
+TGCAGGACTACTACACCCTGGTGGACCACGTGCCTGCCCTCCTGCACCACCTGGCCAGCATGGACTTCACCATGGTGGTC
+TCTGAGGAGGATCTGATCACGAAGCTCAACGCTGGTTTGCAGGCTGTGTCTGAGGACCCTAGGCTCCTGGTACGGCCCAT
+CAGGCCCAAAGAAACCTCTTTTGGGCCTGAGCCTGGAGCCGATGACCTACCAGAGGAGGCCCCAGCAGTGCCAGAGGATG
+AGGTTGCCCGGCAGACCCTGGTGGATTCTGTGTTTCAGGTGTCAGTGCTGCCGGGTAATGTGGGTTACCTGCGCTTTGAC
+AGATTTGTTGATGCCTCTGTGCTGGAGGCACTG
diff --git a/databases/fake_human.fa b/databases/fake_human.fa
new file mode 100644
index 0000000..74d9b09
--- /dev/null
+++ b/databases/fake_human.fa
@@ -0,0 +1,12000 @@
+>chrY
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+ctaaccctaaccctaaccctaaccctaaccctaaccctCTGaaagtggac
+ctatcagcaggatgtgggtgggagcagattagagaataaaagcagactgc
+ctgagccagcagtggcaacccaatggggtccctttccatactgtggaagc
+ttcgttctttcactctttgcaataaatcttgctattgctcactctttggg
+tccacactgcctttatgagctgtgacactcaccgcaaaggtctgcagctt
+cactcctgagccagtgagaccacaaccccaccagaaagaagaaactcaga
+acacatctgaacatcagaagaaacaaactccggacgcgccacctttaaga
+actgtaacactcaccgcgaggttccgcgtcttcattcttgaagtcagtga
+gaccaagaacccaccaattccagacacactaggaccctgagacaacCCCT
+AGAAGAGCACCTGGTTGATAACCCAGTTCCCATCTGGGATTTAGGGGACC
+TGGACAGCCCGGAAAATGAGCTCCTCATCTCTAACCCAGTTCCCCTGTGG
+GGATTTAGGGGACCAGGGACAGCCCGTTGCATGAGCCCCTGGACTCTAAC
+CCAGTTCCCTTCTGGAATTTAGGGGCCCTGGGACAGCCCTGTACATGAGC
+TCCTGGTCTGTAACACAGTTCCCCTGTGGGGATTTAGGGACTTGGGCCTT
+CTGTCTTTGGGATCTACTCTCTATGGGCCACACAGATATGTCTTCCAACT
+TCCCTACACAGGGGGGACTTCAAAGAGTGCCTTGAGCTGATCTGGTGATT
+GCTTTTTTGTACTGTTATTTATCTTATTCTTTTCATTGTGAGGTACTGAT
+GCAAACACTTTGTACGAAAAGGTCTTTCTCATCTCGGGAGTCCCCGTCTA
+TTTGTCCCGGTCCCTGTTAACCCAGTCCCCGACAGGAGCCCCTTCTGCAC
+CTTGAGCTCTCACCACTCACCGTCCATCCAGCCCCAGCTCTGCCTGCAAC
+CCACCCATCCCTGGGACTCGGGCCTCCCCTCTCTAGTGGTCTGGTCATCA
+GGCCAGGGGCACGTGGAAGAAGCTATCGTGGCAAAGGGAGCAGTCATATC
+CCCAAAATCTGTGGTTGGTTTACCACCACCATGGAAACCCCAGGGTGGGA
+CTCTAGTTTCAGGTTGGAGCTGAGCCCTGTCGGGAATGAGCTTTCCCCAG
+CTATGGCTTCTTGGGGCCCCTGTGCCCTGAGCTGTGTCTCCCAGCATCGG
+GTCCCCACCATGCATATGGCCCACTCAGGCACAGTGCCGCGATGGCTGCA
+TGCGTGAGGGGGGCCTGGGCCCAGGGCTGGGAGTCCTTTGTGTCTCATGG
+CCATGATTGTCCTTCCGAGTATGATATGGTGGCCAATTTCTTTTATTCTG
+TCGTTCAGAGTGAGTAAATGATGTAGAGTTCATGCAGAAAAAAATACAAC
+AAAAACCAAGGGAACATAGAATTGGAAAACGCGTCACAGCAATGAGTTAA
+ATAGGTAACAAATTTCATCATTTGAAGAAAGACTTAGAGTGCCAAAAGTG
+CCTCTTAAGTCTCCTTTAAAAAGTAGCAAAATTCATCCCTGAAGAAGCAT
+CTTGGCCTTTTTCATGTACTCAGAGTGCTGGTGAAGAACAAAGATTGCTG
+AAACATTATGTACCTAACAGCGTTACAGGGTGTAGATAACACACTGGAAA
+ACCTGGTCGTTACAGTGGACATATTCCAGGAAGTCCTTGCCTGAGGTTTT
+CCAAGTTATGGAATTGCTTGAGATTGGAAGAGGCGATGGAGGGTACAACt
+gtaatgcccaacctcatttttgctaaccctgtttttagactctccctttc
+cttcaatcacctagccttctttccacctgaaaggactctcccttaactga
+gagaaccggacagactccatcttggctctttcactggcagccccttcctc
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+aactgacaacctactgtggcgagctacatccgcagtccccaggaattcgt
+ccgattgataacgcccaattacccgcgtctatcaccttgtaatagtctta
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+tcccctttctaaacaaaagtataaaagaaaatctagccccttctttggga
+ctgagacaattttgaggttaacGCAGGGTGCCTGTAATCCtaagggagga
+gaccgccacttctgctgcccttcccttccccacacccccttctctagttt
+atgaaacagggaaaaagggagaaagcaaaaagataaaaaaaacagaagta
+agataaatagctagacgaccttggcagcaccacccggcactggtggttaa
+aataataataataataatattaacccctgacctaaactacttgtgttatc
+tgtaaattccagacactgtatgaggaagccctgcaaaactttctgttctg
+ttatctgatgcgtgtagcccccagtcacgttccgatgcttgctcgatcta
+tcacgaccctttcaagtgaaccccttagagtcgtaaacccttaaaagggc
+caggaatttcgttttcggggagctcggctcttcaggcccaagtaaacctg
+ccgTATCTCACCTGAGACCAACCCCCAACTACAAAACTCAACCTGGAATT
+TTCCCAGGACCAAACCCATCTATATTCTGtaacccgaaacctcaaagcct
+aaccctaaccctaacccCTACAGTTGAGGTCCCCCCGCCCCTGTGGTTCC
+AGCTCAAGACAACCTGCCCCTCCGTGGGTTTGCAGGCCCTCTGGTGGGGG
+TGGGAGCTGGGGGCCACATACAGCTCTCTGAGCTTAAGCCATtttcttcc
+ttcattccttccttcctccctcccttcccttccttcctccctccctccct
+ccttccctccctcccttttttttttcagggtcttgctctgtcacccaggc
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+tcaagttatcttccctcctcagcctccagagtaggtgggactacaggagt
+gtgccatcgcacccagcgaatttcttaatttttattttgtagagatgagg
+cctctcgatattgtccaggctTGGAAGTAGTTCTTGAAATTCAAGAGGAT
+CTTGAAGTTCTGACCTCCTGTCAATATCCCTTCCCCTCACCTTGACCCTC
+CCATTCTGCCCCACCTGTCAGGATCACAAGGACCCCCAGATCAGCAGATG
+GGAACCGGACCAAAAAGAGAAATAGTGCTGTCCCGCCCATAAGTACCACC
+CCCAGACTCCCTGCTCCACCCTCTGGACCACAGGGAGGCCCCATGCTCCA
+TCCCTGAAAACCACCCCCAGACCCCCTGCTCCTCCCCACGGGACCGCCCC
+CAGATCCACTGTTCCTGTCCTCCGGACCACACCGGACAGCTCCTTCCCTC
+GGCGCCATCCCCAGACCCCAGCTCCTCCCCTCAGGATCATCCCCAGACCC
+CCGCTCCTCCCATCAGGACCGCCCCCAGAACCCCCTGCTCCTCCCCACAG
+GACCACCCCCAGACCCCCGCTCCTCCCCTAAGGACCACCCACAGACCCCC
+ACGCTTCCCCTCGGGACCACCCCCAGACCCCCGCTCCTCCCCTCAGGACC
+ACCCCCAGATCCACTGTTCCTGTCCTCCGGACCACACCAGACAGCTCCTT
+CCCTCGGCGCCATCCCCAGACCCCCACGCTTCCCCTCGGGACCACCCCCA
+GACCCCCGCTCCTGCCCTCGGGACCACGCCCAGACCCCCTGCTCCTCCCC
+ACGAAACCACGCCCAGTAACCCCCCTCTTCTCCCCTCAGGACCACCCCCA
+GACCCCCGCTCCTCCCCTGGGAACCACCCCCAGACCCCCTGCTCCTCCCC
+ACGAAACCACCCCCAGACTCCCTGCTCCTGTCCTCCGGACCACGCGACTG
+CTCCTTCCCTCAGCGCCACCCCCAGACTGCCGCTCCTCCTGTCGGGACCC
+CCTGAGGCTTTCTCCACCCGGAGTGCGGGGTAGGGAGCAgacggagagtg
+acggagggtgacggagagtgacgAAAGTAGACGATGTCTGACGGAGAAGA
+GCCGAGCGGAGCTGAAGGGCGGCGGAGAGTGACGGAAAGTGGCGAGAATT
+GACGGAAAGTGACGGGGACTGACGGACAGTGACGAAGAGTCACGAAATTT
+ATCAGAGGGCGACAAAGAGGAAAGCGAAATGGTGAGATGCAGCCGGCCGA
+GCCTAATCGGAGATGACGGAAAGTGACGGAGAGGAACGAGGAGTAAAGAG
+GGGTGACGAAAAGAGCCGAAGCTGGTGGAGGCGAAGAACTGAGTGAGGGA
+AGATAGCCGAGATTAGCGGGTGGGCTGCAGCCGGGGCAGTCGCCCGAATG
+GGCGGGACCCCACGGAGTTAGCGAGAGGATGCGAACAGCGGCCAGCCGGG
+CAGCACGCGAGCGAGGGAGGGCGTGGAGGGCCGTGGGTCCGCCTGCACTG
+AGGCAGGCATGCGTGGCACCGAGGTGACCCGGGTGGGAGGTGCACCGCCG
+CCCCCTGGCAGTCTCTCCGCGGAGCCCAAGCCCGTCTTCTCCGCCCCTTT
+GCAGACCTCGGCGCCCAGCCTGGCCCCTGACGCCCACCCGCGGCCCCACC
+CAGCGCCCGGGCCCACGAGGCCGAGGAGCGGCGGAGACTAACGGCCCCTG
+GACCCCAGGCAGCACATGGCCCAGAGCATCCCAGCCCAGTGGAGGGCGGC
+ACATGGCGGGAGGGCGGGAGTCCGTGTCCACTCATGGCCGGGGAGGGGAG
+GGCAAGTTCTGGTGGCTGGGGAGGCCTAGAGCATCACAGCCCAGTGGAGG
+GCTGCACATGGCAGGGGAGGGGAGAGCAAGAGTGTGCGGGCGAGGGAGGA
+GAGGGCAAGACtgcgtgtccgctccagtctctcttcctcatcttataaag
+ccacgagtcccatgactggggacccaacctaataacattatctaatccta
+attgcctcccaaaggccatatctccaatcaggacatgaattcggggatta
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+tttttgagacggagtctcgctctgtcgcccaggctggagtgcagtggcgc
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+cctcagcctcctgagtagctgggactacaggcgcccgccaccacgcccag
+gtaatttttttttttttttttttgtatttctttgtagagacggggtttca
+ccatgttagccaggatggtctcgatctcctgacctcgtgatccacccatc
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+gccttgtgcttttaatcccagcactttcagaggccaaggcaggcgatcac
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+tctaatacaaatacaaaaaAAAAacaaaaaacgttagccaggaatgaggc
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+tcccttccccacaccgcttccttagtttataaaacagggaaaaagggaga
+aagcaaaaagcttaaaaaaaaaaaaaaaaaaacagaagtaagataaatag
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+ataataatattaacccctgacctaaactacttgtgttatctgtaaattcc
+agacactgtatgaggaagccctgcaaaactttctgttctgttatctgatg
+cgtgtagcccccagtcacgttccccatgcttcctcgatctatcacaaccc
+tttcacgtaaaccccttagagttgtaaacccttaaaagggccaggaattt
+cgttttcggggagcttggctcttcaggcgcaagtgtgccgatgctcctgg
+cagagtaaagcccttccttctttaacccagtgtctgaggaattttgtctg
+cggcttgtcctgccacaatgccagctaccaggaggctgaggtgtgagaat
+cgctcgaacctgggaggcagaggttgcagcgagccgagatcccacgattg
+cactccagcctgggtgatagatgacagagcaagacaccatgtcaaaaaga
+aaagaaaaaaaattgccaacacatgaaatctggagaacacattcaagcaa
+tagcaCCATATAAATCTGTACATACCTTGCAAACACTGTAAACCTGCCGC
+ATCTCACCTGAGACCAACCCCCAACCGCAAAACCCAGACCTGGAATTTTC
+CCAGGACCAAACCCATCTATATTCTGtaacccgaaatctcaaagcctaac
+cctaaccctaacccCGACAGTTCAGGTCCCCCCGTCCCCGTAGCTCCAGC
+TCAAGACAACCTGCCCCTCCGTGGGTTTGCAGGCCCTTTGGTGGGGGTGG
+GAGCTGGGGGCCACACACAGCTCTCTGAGCTTAAGCCATttccttccttc
+cttcattccttccttcctccctccctccctccttccctccctcccttttt
+tttttcagggtcttgctctgtcacccaggctggagtgcagtggcatgatc
+acagctgactgcagcctcggactcccaagctcaagcgatcttcccgcctc
+agcctccagagtaggtgggactacaggagtgtgccatcgcacgtggcgaa
+tttcttaatttttattttgtagagatgaggcctcccgatattgtccaggc
+tTGGAAGTAGTTCTTGAAATTCAAGAGGATCTGGAAGTTCTGGTCTCCTG
+TCAATATCCCTTTCTAAGATGAAATGTAGAATCCTCTAATCACCCCAGGA
+TACCTTTTCCAGCTATATTACCCTTTCCTTTCAGCCGACTAGAGTGGAAG
+CTCAGCAAAGAACGGATCTATGCCTGCACACAGGCAGCTTTGAACTCACT
+GAGATCTATAGAAGAATTTTTTAAAATTTGCCAGAATGAAAAAGAAGTAT
+CCTCCAGTGAGCCTCAAGGACAGCCAGGGAAGGCAGCTACTGGGACCTGC
+CACTGGCCAGGATTGAGAGAGTCTGAGGTGTCCATTCTCCTATGGATGGG
+TCACACATCAGAACTGAACCACAAACCCTTTCCTGCTCCCTTGGGACCAG
+GCTGCCACTCCTTCCTTCCCCTCACCTTGACCCTCCCATTCGGCCCCACC
+TGTCAGGATCACAAGGACCCCCAGATCAGCAGATGGGAACCGGACCAAAA
+AGAGAAATAGCGCTGTCCCGCCCAAAAGTACCAACCCCAGACCCCCTGCT
+CCACCCTCCGAACCACAGGGAGACCCCATGCTCCACCCCTGAAAACCACA
+TGCAGACCCCCGCTCCTCCTCTTAGGGCCATCCCCAGACCCCCCCTCCTA
+CCCACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGGACCACCCC
+AGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCGCTCCTCCCC
+TCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCC
+CCTGCTCCTCCTCTTAGGACCATCCCCAGACCCCCCCTCCTACCCACGGG
+ACCACACCCAGAACCCCCAGCTCCTCCCCTCGGGACCACCCCAGACCCCC
+GCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCA
+CCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGCTCC
+TCCTCTTAGGACCATCCCCAGACCCCCCCTCCTACCCACGGGACCACACC
+CAGAACCCCCAGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGCTCCT
+CCTCTTAGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAG
+ACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCG
+GGACCACCCCCGACCCCCTGCTCCTCCTCTTAGGACCATCCCCAGACCCC
+CCCTCCTACCCACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGG
+ACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCT
+CCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCC
+CCAGACCCCCTGCTCCTCCTCTTAGGACCATCCCCAGACCCCCCCTCCTA
+CCCACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGGACCACCCC
+AGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCT
+CGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGAACC
+CCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGA
+CCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGC
+TCCTCCTCTTAGGACCATCCCCAGACCCCCCCTCCTACCCACGGGACCAC
+CCCCAGACCCCCCGCTCCTCCCCTCGGGACCACCTCAGACCCCCGCTCCT
+CCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAG
+ACCCCCTGCTCCCATTTTCCAGACCACACCAGACGGCTTCTTCCCTCGGC
+ACCACCCCCAGACTGCCGCTCCTCCTATCGGGACCTCCTCGGGGCCATCT
+CCAGACCCTCCCCCCGCTCCACCCCTCGGGTCCCTCTCGGGACCACCCTC
+AGACCCCCGCTCCTTCCCTCGGGATCACCTCGAGACCTCCCGCTCACCAC
+CATCATTCAGGCCGGGTAGTGGGGAGAGGCCTCTCAGGAGGGACCAGGCC
+ACCCTCCCAGGAGTGAAGGGAGGAGGACAGAGTCACGAGCAGACCAGAAA
+TAACCAGGGACTGACAGACAGCAGGATCGGAGAGGGACGGAAAAGGGCTA
+AGGGCAGGAAAAGTCCCTGAGGCTTTCTCCACCCGGAGTGCGGGGTAGGG
+AGCAGACGGAGAGTGACGAAGGGTGACGGAGAGTGACGAAAGTAGACGAT
+GTCTGACGGAGAAGAGCCGAGCGGAGCTGAAGGGCGGCGGAGAGCGACGG
+AAAGTGGCGAGAATTGACGGAAAGTGACGGGGACTGACGGACAGTGACGA
+AGAGTCACGAAATTTATCAGAGGGCGACAAAGAGGAAAGCGAAATGGTGA
+GATGCAGCCGGCCGAGCCTATTCGGAGATGACGGAAAGTGACGGAGAGGA
+ACGGGGAGTAAAGAGGGGTGACGAAAAGAGCCGAAGCTGGTGGAGGCGAA
+GAACTGAGTGAGGGAAGATAGCCGAGATTAGCGGGTGGGCTGCAGCCGGG
+GCAGTCGCCCGAATGGGCGGGACCCCACGGAGTTAGCGAGAGGATGCGAA
+CAGCGGCCAGCCGGGCAGCACGCGAGCGAGGGAGGGCGTGGAGGGCCGTG
+GGTCCGCCTGCACTGAGGCAGGCATGGGTGGCACCGAGGTGACCCGGGTG
+GGAGGTGCACCGCCGCCCACTCGCAGGTTCTGCGCGGAGCCCAAGCCCGT
+CTTCTCCGCCCCTTTGCAGACCTCGGCGCCCAGCCTGGCCCCTGACGCCC
+Acccgcggccccacccagcgcccgggcccacgaggccgaggagcggcgga
+ggctcgcggcccctggaccgcagaccgcgttcccggagcccgGCCGAGCC
+CCGAGTGGGGCCCTCGCGCGGACTGAGAGGGCGGCGGAGGGGCCACGGGG
+TCCTGCCCAGCCCGCATCGCGCATGCTGCTCGGGACCGGCGGCTGCCTTG
+GGCCAACCCTGTTCCCGCAGCGGCCCAGCCCCGGGCGGGAGCCGACCTGG
+GGGACGCGGGACCCCGCGCGAGCTGCTCGGCCTGTAGggggctgcgcggc
+ggggcggggcggggccggccgcggcgccctcgctcctcgccctccctctc
+tccctccctctctccctAAGACACTTTTTCTTCTTTGTGGCACAATATAC
+AAAACACGGAGTTTGCCATACTGGCCGTTTTCAGGGCGCAGGTCGGTGGG
+ACTGAGCACATCGCGTGGTGCGCTCGGCGCCACCGTCTGTCTGCAGAACG
+TTTGCACCTTTCCAAGCTGaacagctctcctttccgcctcccccagcccg
+tgacaacctcccctctacgtttcgtctctcagtttgacctactaggtacT
+GAGGTCCCCTGGGTACTGAGATCTCCTCGGTACTGAAGTCTCCTCGGTGC
+TGAGGTCGCCTCGGTGCTGAGACCTCCTAGGTATTGAGGTCGCCTCGGTA
+CTGAGGTTGCCTCGGTGCTGAGGTCGCCACGGTGCTGAGACCTCCTAGAT
+ACTGAGGTCTCCTAGGCACGGAGATCTCCTATGTACAGAGACCTCGTCGG
+TACTGAGGTCGCCTAGGTACTGAGACCTTCTAGGTCCTGAGGTCTAGGTA
+CTGAGGCCTTCTCCTGTCGGAGGTGGGAAACTACTCAGTGGTAAAGCAGA
+ACCAAGACCTTCCTCTGAGGGTGGTGGGCTGAGCTGTCTCTTCCTTTCTA
+GGGGCCTTGTATTCACGCCATGAGAGACCCCCCTACTCTTCTGACACGTT
+CCCATTTTGCTGAAGACACTTGGAGCCAGTGTCATCTTTGTGACTGTACC
+GTTGCGTGTTCGGGGTGCACTCTGCCGTATTCTCTTTGCAGAGCACCTAA
+GGAAGCAGgcgtcgtgcctaagaacgtgagtgctgcaaaaagggtggttt
+gttccaatccaaccttgaccgctcctggccctcccacatgggtcaagttc
+actaaacgtctctgtgcctccatttcctcggcagaagaacagggacagta
+aatgtaccCGTCtgtatgagtgttcagggccgccataaggtaccaagact
+ggagggcttcactgaaaattatcttcccacagacctggaggctgaggtcc
+gagagcaaggtgttgtcagcagggctggtttctcctctcctcggcttgcg
+gacgccgtctggtgtacgctcatagggtcttttcactgtgcacaagtatc
+cctatcgtctcttctgtgtgtgtccacacttcctctcatgagaacagcag
+gttgctttagggcccaccctgacagcctcgttctaatactatgaggccaa
+atacactcacgttctgaggcagtgggggttagggcttcaacatCGACAtc
+cgagactgggagatgataaattcctgttgacgaacccacccggtttctgg
+tcactggttatggcagcccccaggaaaccaGCCCACAGAAACAGCAGTCC
+CTCCACTTGGTTCTGATCCAGgatgaagctgttgtagaccgccagcgttt
+ggggaatgtgaatgcctgatacgaaggaattctttgcgccatattgttgc
+cttaatgtaactgtgaagttgcgtcaaaataaaCATTAATggccgggcgc
+ggtggctcacgcctgtaatcccagcactttgggaggccaaggcaggtgga
+tcacgaggtcaggagatcaagaccatcctggccaacacagtgaaacccca
+tctctactaaaaatacaaaaaattctccgggcgcggtggcgggcgcctgt
+agtcccagctactcaggaggctgaggcaggagaacagcgtgagcccggga
+ggtggagcttgcagtgagctgagattgcgccactgcactccggcctgggc
+gacagagcgagactccatctcaaaaaataaaaatagaaaataaaCATTAA
+TGAAAATTCTCAGCAAAAGTCATATATATTCTCGCCAAGGCGACACACCA
+GCTAATTACTGTGTCGACTCCTTTGTTTTGGGCTCGATTTTATGAACTTG
+GTGCAGTAACACCTGCCGTTTACCTCTGGCCTATCCAAAGCCCAGATaag
+cacaggcaacaaaagcacaaatagacaaatggtccaacttcgaggttaaa
+catttctgcacaggaaacaacagtgaaaaggcaagacatggaataagagg
+aaataactgcagattatatgtctggtacgtcggatattcgtccagcacat
+ataaagagctcctgcaactgaacaattgaaaaacaagttaactgattgaa
+aaatgagcaaacgacctgaatagatatttctccagaaaagatatacaagt
+agcaaacaaacatggaaggatcctcaacatcagtaatcattagagaaata
+cacatcaaaaccacagtgatagcacctcacatccatgaaatgctacagtg
+aaacaaaaatagtgttaacaaggatgtgtggaaattggagccctcgtgga
+ttgcctgtaggactagaaaatggtgtggccaccgtggaaaacactatgga
+gcctcctcaaaaaAGCACTAAATATCAggctgggcacagtggctcacacc
+tgtcatcccagcactttgggagcccgaggcaggtggatcacaaagtcagg
+agttcgagaccagcctggccaacatggtgaaactccgtctctactaaaaa
+taaaaaattagccgggcgtggttgtgggtgccaggaatcccagctacccg
+ggaggctgaggcaggagaattgcttgaaccccggaggcagaggttgcatt
+gagccgagatcgcgccactgcactccagcctgggtgacaaaggaagactc
+catctcGGGGGGGCGGGGTGGGGGGAAGCaaacacaaaataattagctaa
+gtgtggtgacagatgcctatagtcccagctactcgggaggctaaggcagg
+agaagcgcctgaaccaggaggtggaggctgcagtgagccgattatgccac
+cgcactccaccctgggcggcacagtgaaactccatctccgcaaaaacaaa
+accagaaaaataacaaCTAAAAATCACTTgggtgtggtgatgtgcagctg
+cactaccggctacttgggaggctgagggaaggggatcactgaagcccagg
+agttcaaggccagcctgggcaacatataaaactctgtctcttaaaaaata
+aataaataaccagaaaTGGaaccacctatgaaccagcaatcacattactt
+ctccgactaaatccaaaaagattgaaagcagagtctggaagggattattg
+cacaaccgtggtcgttacagcagtattcacaatagccaaaagatggaagc
+agcccggtgcccatGATCGCATTATGTTatgacaccaccacttctcctgt
+tgtccttcccactttctccccaacctccccttttccctagtttataagac
+aagagaaaagagagaaagcaaaaagttggaaagaaacaaaagtaagataa
+atagctagacgaccttggtgccaccacctggccctggtgattaaaataat
+aatagtattaaccgctgaccaaaactactggtgctatctgtaaattccag
+acattgtatgagaaagcactgtaaaactttttgttctggccgggcgcggt
+ggctcacgcctgtaatcccaggactttgggaggccgaggtgggaggatca
+tgaggtcaggagattgagaccatcctggctaacacggtgaaaccccatct
+ctactaaaaatacaaaaaattagctgggtgCAggccgggcacggtggctc
+cagcctctaatcccagcactttgggaggccgaggcgggtggatcacaagg
+tcaggagatcgagaccatcctggttaacatgatgaaaccccgtgtctact
+aaaaatacaaaaaattagccgggcgcggtggcgggcgcctgtagtcccag
+ctactggggaggctgaggcaggagaatggtgtgaacccgggaggcggagc
+ttgcagtgagctgagatcacgccactgcactccagcctgggccacagagc
+gagattccgtctcaaaaaaaataaaaaaataaaaactttttgttctctta
+gctgatgtatgtagcccccactcacgttcctcacacttacttgatctatt
+atgactctttcacatagaccccttagagttcttagcccttaaaagggcta
+ggaatttctttttcggggagctcggctcttaagacacgagtctgccgaat
+ctcccggccaaataaaaaaacctcttccttctttaatctggtgtctgagg
+agttttgactgtgactcatcctgttacaGCatgactggaaaaagaaaatg
+tggttcatccatataatgaaatatgaatcagccctaaaaaggaaggaatg
+atgagacaggctaccacatggactcacctgttgttaacaagataagccag
+acaaaaaagtgctgtgtgatcccactcctatgaggtctctggaagagtgg
+aattcatagagacagacagtagaatggtgggtgccaggggccgggggaat
+ggggcaccctggtttgatgtggacacagtttctgttttgtaagatgaaga
+agttgtaaacatctgttatacaacaatgcggatatgatgaacactgctga
+agtgtatccttaaaaatactttaaaggggccgggcgcggtggctcatgcc
+tgtaatcccagcactttgggaggccgaggcaggcggatcacgaggtcagg
+agatcgacaccgtcttggccaacacagtgaaaccccgtctctactaaaat
+acaaaaaatttgccaggtgtggtggcgggtgcctgtgatcccagctactt
+gggaggctgaggcaggggaatcacttgaacccgggaggtagaggttgaag
+tgagctgagattgtgccactgcactccagcctgggcaacagagcaagcct
+ccatctaaaaaaaagaagtagttgaaagggtaaattttatgttatgtggc
+ttttacctccattaaaaaTAAAAATAAAggctgaatgtggtagcttaccc
+ctgtaatccgagcactttgggaggccaaagcaggacgattacttgagctc
+agaagtgtgagaccagcctggacaacttggtgagaccccatctctactag
+aaatttttttttaattggctgagtgtgatggtgtgcacctataatcccca
+gatactcaggaggctgaggcaagaggattgcttgagcctaggagcggggg
+gctgtggtgagccatgatggtaccattgcactccagcctgggtgacagag
+tgagaccctgcctcaaaaaaaaaaaaaaattaaattaagaaaaaTTTAAA
+AGGCCAGGCTAATGATATATTTCTTTTATTAATAAACGTGGGAACCTTAA
+TTTAACATAATGTCAATAAACATGATTATGGTTCTTCCAAATTTGGGGTC
+CCTGGTGAGAGAAAAAGAATAAGATAGggctgggtgtggtggtgcacgcc
+tgtaatcccagcactttgggaggccaaggccagcagctcacctgaggttg
+ggagttcgagaccagcctgaccaacatagagaatccccatctctaaaaat
+acaaaaaattagccaggcgtggtggcgcccacctgtaatcccagctactt
+gggaggctgaggccagagaattgcttgaacccgggaggcggaggttgcgg
+tgagctgatatcacaccattgcactccagcctgggtaacaagagcgaaac
+tccgtctctaataataataataataaataaaGGGCCTCAGGGTGAAGAAT
+TTGGATACTGCTTGACTGGAGGCCACCTGGGGCCACTTCAGCTCTAGTTT
+CTGTGGTTTACGGCCACAGTGGTGTCTTCCCTGCAACGTTCTCGTGGGTG
+CCGTATTGACAAAACATTAAAACGAGATGGGGTCCCTGCGAGACTCCCGA
+GGGAGGGAGCAGGAAGATCCGTGCGGCACCGCGAAGGTACAGCATGTTCT
+CCACAACTCTCCCAGGCCACAAAGAAAGATGAGTCAGTGGGCTCTGAATT
+CTCCAGCACAGACAGGGGACGAGTCAAAGGGCTCCCAATCGGACTTGAAG
+AGATCACGCAGGAAGTCCTGACGTTCACGGCGAGCAGGGCTCTGTGTAGG
+CCAACATGCCAGCACTGTGAGGATAATATTTTTTAATCCCCCGTTTCCTT
+GAGCGGCCCCAGAAAACTTACACACACCCTGTTCTGCAGACTCCTGGGAG
+TGTAGGTCTCATTAAGGGCAGATAGAGACCAGACTGTGCAACCTTTAGAA
+TCTGCATTGGGCCTAGGTCTCATTGAGGGCAGGTAGAGAGCCGACTGTGC
+AACCTTTAGAGTCTGCATTGGGCCAAGGTCTCATTGAGGTCAGATAGAGA
+GCACACTGTGCAACCTTTAGAGACTGCATTGAGCCTGGGTCTCATTGAGG
+ACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTACG
+TCTCATTGAGGGCAGATAGAGAACAGACGGTGCAACCTTTACAGTCTGCA
+TTGGGCCTAGGTCTCATTGAGGGCAGGTAGAGAGCCGACTGTACAACCTT
+TAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGAC
+GGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGAT
+AGAGAGCAGACTGTGCAACCTTTAGAGACTGCATTGAGCCTGAGTCTCAT
+TGAGGACAGATAGAGAGCAGACTGTGCAACCATTAGAGTCTGCATTGGGC
+CTAGGTCTCATTGAGGGCACATAGAGAGCAGACTGTGCAACCTTTAGAGT
+CTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCA
+ACCTTTAGAGTCTGCATTGGGTCTAGGGCCCACTGAGGGCAGACAGAGAG
+CAGACTGTGCAAACTTTAGAGTCAGCATTGGGCCTAGGTCTCATTGAAGA
+CAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCCGAATTGGGCCTCGGT
+CTCATTGAGGACCGATGGAGAGCAGACTGTGCAACCTTTAGAGTCTGCAT
+TGGGCCTGGGTCTCACTGAGGACAAATAGAGAGCAGACTGTGCAACCTTT
+AGGGACTGCATTGGACCTAGGTCTCATTGAGGACAGATAGAGAGCAGACT
+AGGCAACCTTTAGAGTCGGCACTGGGCCTAGGTCTCATTGAGGACACATA
+TAGAGCAGACTGTGCAACCTTTACAGTCTGCATTGGGCCTGGGTCTCATT
+GAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTC
+TGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAA
+CCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGC
+ATACTGTGCAACCTTTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGAC
+AGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGGACAGATAGAGAGCAGACTAGGCAACCATTAGAGTCGGCACT
+GGTCCTAGGTCTCATTGAGGACAGATATAGAGCAGACTGTGCAACCTTTA
+GAGTCTGCATTGTGCCTGGGTCTCATTGAGGACAGATAGAGAGCAGACTG
+TGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAG
+AGAGCAGACTGTGCAACCTCTAGAGTCTGCATTGGGCCTAGGTCTCATTG
+AGGGCATTTAGAGAGCAGACTGCGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAACCACTAGAGTCG
+GCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAA
+CTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCA
+GACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGTGGACC
+GATACAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCT
+CATTGAGGGCAGATAGAGAGCACACTGTGTAACCTTTAGAGTCTGCATAG
+GGCCTCGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAATCTTTAG
+AGTCTGCATTGGGCCTGGGTCTCATTGAAGACAGATAGAGACCAGACTGT
+GCAACCTTTAGAGTTTGCATTGGACCTAGGTCTCATTGAGGGCAGATAGA
+GAGCAAACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGA
+GGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTGGGCCTA
+GGTCTCTTTGAGGACAGACAGAGAGCAGACTGTGCAAACTTTAGAGTCTG
+CACTGGGCCTAGGTGTCATTGAGGACAGAAAGAGACCAGACTGTGCAACC
+TTTAGAGTCTGCATTGGGCCTAGGTCTCCTTGAGGTCAGATAGACAGCAG
+ACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTAATTGCGGACAG
+ATAGAGAGCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTGGGTCTC
+ATTCAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTCTATTGG
+GCCTAGGTCTCATTGAGGACAGATAGAGAGCGGACTGTGCAACCTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGGCTCGG
+CAACCCTTAGAGTCTGCATTGGGCCTAGATCTTATTGAGGACAGATAGAG
+AGCATACTATGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAG
+GACACATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAT
+GTCTCATTGAGGACAGTTAGAGAGCAGACTGTGCAAGCTTTAGAGTCTGC
+ATTTGGCCTAGGTCTCATTGAGGACAGAAACAGACCAGAGTGTGCAACCT
+TTAGAGTCAGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGA
+CTGTAGAAACTTTATAGTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGA
+TAGAGAGCAGACTGTGCAAGCTTTAGAGTCTGCACTTGGCCTAGGTCTCA
+TTGAGGACAGATAGAGAGCAGACTGTGCAAACTCTAGAGTCTGCATTGGG
+CCTAGGTCTCATTGAGGGCAGATAGAGACCAGACTATGCAACGTTTAGAG
+TCTGCATTGGGCCTAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGC
+AACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGA
+GCACACTGTGCCAACTTTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGG
+ACAGATAGAGACCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTACG
+TCTCATTGAGGACAGATAGAGAGCAGACTAGGCAACCATTAGAGTCGGCA
+CTGGTCCTAGGTCTCATTGAGGACAGATATAGAGCAGACTGTGCAACCTT
+TAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGCGACCAGAC
+TGTGCAACCTTTAGAGTCTGCATTGGGCTTAGGTCTCATTGAGGGCAGTT
+AGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCAT
+TGAGAGCAGATAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGGGC
+CTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTTGAAACTTTAGAGT
+CTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCAGACTGTGCA
+ACCTTTAGAGTCTACAATGGGCCTAGGTATCAGTGAGGACAAATAGAGAG
+GAGACTGTGCAACCTTTAGAGTCTGCACTGGCCCTAGGTCTCTTTGAGGA
+CAGACAGAGAGCAGAATGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGT
+CTCATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCAT
+TGGGCCTAGGTCTCCTTGAGGTCAGACAGACAGCAGACTCTGCAACCTTT
+AGAGTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGACAGCAGACT
+GTGCAACGTTTAGAGTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATA
+GAGAGCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATT
+GAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGGGTCTCTATTGGGCC
+TAGGTCTCATTGAGGACAGATAGGGAGCGGACTGTGCAACCTTTAGAGTC
+TGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGGCTCGGCAA
+CCCTTAGAGTCTGCATTGGGCCTAGATATCATTGAGGACAGATAGAGAGC
+ATGCTATGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGAC
+ACATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTATGTC
+TCATTGAGGACAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATT
+TGGCCTAGGTCTCATTGAGGACAGAAAGAGACCAGAGTGTGCAAACTTTA
+GAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTG
+TAGAACCTTTATAGTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAG
+AGAGCAGACTGTGCAAGCTTTAGAGTCTGCACTTGTCCTAGGTCTCATTG
+AGGACAGATAGAGAACAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCAAACTTTAGAGTCT
+GCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAAA
+CTCTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCA
+GACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACA
+GATAGAGGGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCT
+CATTGAGGACAGATAGAGAGCAGACTTTGCAAACTTTAGAGTCTGCACTG
+GGCCTAGGTCTCATTGAGGGCATATAGAGACCATACTGTGCAAACTTTAG
+AGTCTGCATTGGGTCTAGGTCTCACTGAGGAGAGATAGAGAGCAGACTTT
+GCAAACTTCAGAGTCTGCATTAGGTCTAGGTCTCACTGAGGACTGATAGA
+GAGCAGACTATGCAACTTTAGAGTCTGCCTGGCCCTAGGTCTCATTGAGG
+ACAGATAGAGAGCAGACTGCGCAAACTTTAGAGTCTGCATTGGGCCTAGG
+TCTCACTGAGGACAGATAGAGAGCACACTGTGTAACCTTTAGAGTTTGCA
+AAGGGCCTCGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAACCTT
+TAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGAAAAACAGAGAGCAGAC
+TGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGAT
+AGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTAGGGCTAGGTCTCAT
+CGAGGACAGATAGAGAGCAGACTGTGCAACATTTAGAGTCTGCATTGGAC
+CTAGGTCTCACTGAGGACAGATAGAGAGCAGACTATGCAAACTTTACAGT
+CTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCA
+ACCTTTACAGTCTGCATTGGGCCTGGGTCTCATTCAGGAGAGATAGAGAC
+CAGAATGTGCAACCTTTAGAGTTTGCATTGGGCCTAGGTCTCTTGAGAGC
+AGATAGAGAGCAGACTGTGCAACCTTTACAGTCTGCATTGGGCCTAGGTC
+TCATTGAGGGCCGATAGAGAGCAGACTGTGGAAACTTTAGAGTCTGCACT
+GGGCCTAGGTCTGATTGAGGACACATAGAGAGCAGACTGTGCAACCTTTA
+GAGTCTGCATTTGGCCTAGGTCTCATTGAGGACAGATGGAGAGCACACTG
+TGCAACCTTTAGAGTCCGCATTGGGCCTAGGTCTCATTGAGGACAGATAG
+AGACCAGACTGTGCAACCTTTAGAGTTTGCATTGGGCCTAGGTCTCATTG
+AGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAACCTTTAGACTCT
+GCATTGGGCCTGGGTCTCATTGAGGACAAATAGAGAACAGACTGTGCAAC
+CTTTAGAGTCTGCATTGGGCCTAGGTATCAGTGAGGACAGATAGAGAGGA
+GACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCTTTGAGGACA
+GACAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGT
+CATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTG
+GGCCTAGGTCTCCTTGAGGTCAGATAGACAGCAGAATCTGCAACCTTTAG
+AGTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGACAGCAGACTGT
+GCAACGTTTAGAGTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGA
+GAGCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGA
+GGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTCTATTGGGCCTA
+GGTCTCATTGAGGACAGATAGGGAGAGGACTGTGCAACCTTTAGAGTCTG
+CATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGGCTCGGGAACC
+CTTAGAGTCTGCATTGGGCCTAGATCTCATTGAGGACAGATAGAGAGCAT
+ACTATGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAC
+ATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTC
+ATTGAGGACAGTTAGAGAGCAGGCTGTGCAACCTTTACAGTCTGCATTTG
+GCCTAGGTCTCATTGAGGACAGAAAGAGACCAGAGTGCGCAAACTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTA
+GAACCTTTATAGTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAG
+AGCAGACTGTGCAAGCTTTAGAGTCTGCACTTGGCCTAGGTCTCATTGAG
+GACAGATAGAGAACAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAG
+GTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGC
+ATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAACCT
+CTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGA
+CTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGA
+TAGAGGGCAGACTGTGCAACCTTTAGAGTCTGCATTGAGCCTAGGTCTCA
+TTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTCGAGTCTGCACTGGG
+CCTAGGTCTCATTGAGGGCATATAGAGACCATACTGTGCAAACTTTAGAG
+TCTGCATTGGGTCTAGGTCTCACTGAGGAGAGATAGAGAGCAGACTTTGC
+AAACTTTAGAGTCTGCATTAGGTCTAGGTCTCACTGAGGACTGATAGAGA
+GCAGACTATGCAACTTTAGAGTCTGCACTGGCCCTAGGTCTCATTGAGGA
+CAGATAGAGAGCAGACTGCGCAAACTTTAGAGTCTGCATTGGGTCTAGGT
+CTCATTGAGGACAGATAGAGAGCACACTGTGTAACCTTTAGAGTCTGCAT
+AGAGCCTCGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAACCTTT
+AGAATCTGCATTGGGCCTAGGTCTCATTGAGGGCAGGTAGAGAGCCGACT
+GTGCAACCTTTAGAGTCTGCATTGGGCCAAGGTCTCATTGAGGTCAGATA
+GAGAGCACACTGTGCAACCTTTAGAGACTGCATTGAGCCTGGGTCTCATT
+GAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGGCACATAGAGAGCAGACTGCACAACCTTTAGAGTC
+TGCATTGGGCCTACGTCTCATTGAGGGCAGATAGAGAACAGACGGTGCAA
+CCTTTACAGTCTGCATTGGGCCTAGGTCTCAATGAGGGCAGGTAGAGAGC
+CGACTGTACAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGC
+AGATAGAGAGCAGACGGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGACTGCATT
+GAGCCTGAGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACCATTA
+GAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCACATAGAGAGCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAG
+AGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGTCTAGGGCTCATTG
+AGGGCAGACAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAAGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCC
+GAATTGGGCCTCGGTCTCATTGAGGACCGATGGAGAGCAGACTGTGCAAC
+CTTTAGAGTCTGCATTGGGCCTGGGTCTCACTGAGGACAAATAGAGAGCA
+GACTGTGCAACCTTTAGGGACTGCATTGGACCTAGGTCTCATTGAGGACA
+GATAGAGAGCAGACTAGGCAACCTTTAGAGTCGGCACTGGGCCTAGGTCT
+CATTGAGGACACATATAGAGCAGACTGTGCAACCTTTACAGTCTGCATTG
+GGCCTGGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAG
+AGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGT
+GCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGA
+GAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGA
+GAGCAGATAGAGAGCATACTGTGCAACCTTTAGAGTCGGCATTGGGCCTA
+GGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTG
+CATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTAGGCAACC
+ATTAGAGTCGGCACTGGTCCTAGGTCTCATTGAGGACAGATATAGAGCAG
+ACTGTGCAACCTTTAGAGTCTGCATTGTGCCTGGGTCTCATTGAGGACAG
+ATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTC
+ATTGAGGACAGATAGAGAGCAGACTGTGCAACCTCTAGAGTCTGCATTGG
+GCCTAGGTCTCATTGAGGGCATTTAGAGAGCAGACTGCGCAACCTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTG
+CAACCTCTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAG
+ACCAGACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAG
+GACAGATAGAGGGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAG
+GTCTCATTATGGACCGATACAGAGCAGACTGTGCAACCTTTAGAGTCTGC
+ACTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAAACT
+TTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCGGA
+CTGTGCAACCTTTAGAGTCTGCATTGGGCCTACGTCTCATTGAGGACAGA
+TAGAGAGCAGACTAGGCAACCATTAGAGTCGGCACTGGTCCTAGGTCTCA
+TTGAGGACAGATATAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGG
+CCTGGGTCTCATTGAGGACAGATAGCGACCAGACTGTGCAACCTTTAGAG
+TCTGCATTGGGCTTAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGC
+AACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGA
+GCACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGG
+ACAGATAGAGACCAGACTGTTGAAACTTTAGAGTCTGCATTGGGCCTAGG
+TCTCATTGATGACAGATAGAGGGCAGACTGTGCAACCTTTAGAGTCTACA
+ATGGGCCTAGGTATCAGTGAGGACAAATAGAGAGGAGACTGTGCAACCTT
+TAGAGTCTGCACTGGCCCTAGGTCTCTTTGAGGACAGACAGAGAGCAGAA
+TGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTCATTGAGGACAGAT
+AGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCCT
+TGAGGTCAGACAGACAGCAGACTCTGCAACCTTTAGAGTCTGCATTGGGC
+CTAGGTCTAATTGCGGACAGATAGACAGCAGACTGTGCAACGTTTAGAGT
+CTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGAGAGCAGACTATGCA
+ACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGAGAG
+CAGACTGTGCAACCTTTAGGGTCTCTATTGGGCCTAGGTCTCATTGAGGA
+CAGATAGGGAGCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGT
+CTCATTGAGGGCAGATAGAGAGCAGGCTCGGCAACCCTTAGAGTCTGCAT
+TGGGCCTAGATATCATTGAGGACAGATAGAGAGCATGCTATGCAACCTTT
+AGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGACT
+GTGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGACAGTTA
+GAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCCTAGGTCTCATT
+GAGGACAGAAAGAGACCAGAGTGTGCAAACTTTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTAGAACCTTTATAGTC
+TGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAGAGCAGACTGTGCAA
+GCTTTAGAGTCTGCACTTGTCCTAGGTCTCATTGAGGACAGATAGAGAAC
+AGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGC
+AGTTAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGAGCAGATAGAGAGCACACTGTGCAAACTCTAGAGTCGGCATT
+GGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAACTTTA
+GAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAG
+AGAGCAGACTTTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTCTCATTG
+AGGGCATATAGAGACCATACTGTGCAAACTTTAGAGTCTGCATTGGGTCT
+AGGTCTCACTGAGGAGAGATAGAGAGCAGACTTTGCAAACTTCAGAGTCT
+GCATTAGGTCTAGGTCTCACTGAGGACTGATAGAGAGCAGACTATGCAAC
+TTTAGAGTCTGCCTGGCCCTAGGTCTCATTGAGGACAGATAGAGAGCAGA
+CTGCGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCACTGAGGACAGA
+TAGAGAGCACACTGTGTAACCTTTAGAGTTTGCATAGGGCCTCGGTCTCA
+TTGAGGACCGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGG
+CCTGGGTCTCATTGAGGAAAAATGGAGAGCCGACTGTGCAACCTTTAGAG
+TCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGC
+AACCTTTAGAGTCTGCACTAGGGCTAGGTCTCATCGAGGACAGATAGAGA
+GCAGACTGTGCAACATTTAGAGTCTGCATTGGACCTAGGTCTCACTGAGG
+ACAGATAGAGAGCAGACTATGCAAACTTTACAGTCTGCACTGGGCCTAGG
+TCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTACAGTCTGCA
+TTGGGCCTGGGTCTCATTCAGGAGAGATAGAGACCAGAATGTGCAACCTT
+TAGAGTTTGCATTGGGCCTAGGTCTCTTGAGAGCAGATAGAGAGCAGACT
+GTGCAACCTTTACAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCCGATA
+GAGAGCAGACTGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTCTGATT
+GAGGACACATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCC
+TAGGTCTCATTGAGGACAGATGGAGAGCACACTGTGCAACCTTTAGAGTC
+CGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAA
+CCTTTAGAGTTTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGC
+AGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGAC
+CGATAGAGAGCAGACTGTGCAACCTTTAGACTCTGCATTGGGCCTGGGTC
+TCATTGAGGACAAATAGAGAACAGACTGTGCAACCTTTAGAGTCTGCATT
+GGGCCTAGGTATCAGTGAGGACAGATAGAGAGGAGACTGTGCAACCTTTA
+GAGTCTGCACTGGGCCTAGGTCTCTTTGAGGACAGACAGAGAGCAGACTG
+TGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTCATTGAGGACAGATAG
+AGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCCTTG
+AGGTCAGATAGACAGCAGAATCTGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTAATTGCGGACAGATAGACAGCAGACTGTGCAACGTTTAGAGTCT
+GCATTGGGCCTAGGTCTAATTGCGGACAGATAGAGAGCAGACTATGCAAC
+GTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGAGAGCA
+GACTGTGCAACCTTTAGAGTCTCTATTGGGCCTAGGTCTCATTGAGGACA
+GATAGGGAGAGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCT
+CATTGAGGGCAGATAGAGAGCAGGCTCGGGAACCCTTAGAGTCTGCATTG
+GGCCTAGATCTCATTGAGGACAGATAGAGAGCATACTATGCAACCTTTAG
+AGTCTGCACTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGACTGT
+GCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGACAGTTAGA
+GAGCAGGCTGTGCAACCTTTACAGTCTGCATTTGGCCTAGGTCTCATTGA
+GGACAGAAAGAGACCAGAGTGCGCAAACTTTAGAGTCTGCATTGGGCCTA
+GGTCTCATTGAGGACAGATAGAGAGCAGACTGTAGAACCTTTATAGTCTG
+CATTGGGCCTAGGTCTCTTTGAGGTCAGATAGAGAGCAGACTGTGCAAGC
+TTTAGAGTCTGCACTTGGCCTAGGTCTCATTGAGGACAGATAGAGAACAG
+ACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAG
+TTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTC
+ATTGAGAGCAGATAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGG
+GCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAACTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCAGACTGTG
+CAACCTTTAGAGTCTGCATTGAGCCTAGGTCTCATTGAGGACAGATAGAG
+AGCAGACTGTGCAACCTTTCGAGTCTGCACTGGGCCTAGGTCTCATTGAG
+GGCATATAGAGACCATACTGTGCAAACTTTAGAGTCTGCATTGGGTCTAG
+GTCTCACTGAGGAGAGATAGAGAGCAGACTTTGCAAACTTTAGAGTCTGC
+ATTAGGTCTAGGTCTCACTGAGGACTGATAGAGAGCAGACTATGCAACTT
+TAGAGTCTGCACTGGCCCTAGGTCTCATTGAGGACAGATAGAGAGCAGAC
+TGCGCAAACTTTAGAGTCTGCATTGGGTCTGGGTCTCATTGAGGACAGAT
+AGAGAGCACACTGTGTAACCTTTAGAGTCTGCATAGAGCCTCGGTCTCAT
+TGAGGACCGATAGAGAGCAGACTGTGCAACCTTTAGAATCTGCATTGGGC
+CTAGGTCTCATTGAGGGCAGGTAGAGAGCCGACTGTGCAACCTTTAGAGT
+CTGCATTGGGCCAAGGTCTCATTGAGGTCAGATAGAGAGCACACTGTGCA
+ACCTTTAGAGACTGCATTGAGCCTGGGTCTCATTGAGGACAGATAGAGAG
+CAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGG
+CACATAGAGAGCAGACTGCACAACCTTTAGAGTCTGCATTGGGCCTACGT
+CTCATTGAGGGCAGATAGAGAACAGACGGTGCAACCTTTACAGTCTGCAT
+TGGGCCTAGGTCTCAATGAGGGCAGGTAGAGAGCCGACTGTACAACCTTT
+AGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACG
+GTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATA
+GAGAGCAGACTGTGCAACCTTTAGAGACTGCATTGAGCCTGAGTCTCATT
+GAGGACAGATAGAGAGCAGACTGTGCAACCATTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTC
+TGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAA
+CCTTTAGAGTCTGCATTGGGTCTAGGGCTCATTGAGGGCAGACAGAGAGC
+AGACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAAGAC
+AGATAGAGAGCAGACTGTGCAACCTTTAGAGTCCGAATTGGGCCTCGGTC
+TCATTGAGGACCGATGGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATT
+GGGCCTGGGTCTCACTGAGGACAAATAGAGAGCAGACTGTGCAACCTTTA
+GGGACTGCATTGGACCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTA
+GGCAACCTTTAGAGTCGGCACTGGGCCTAGGTCTCATTGAGGACACATAT
+AGAGCAGACTGTGCAACCTTTACAGTCTGCATTGGGCCTGGGTCTCATTG
+AGGACAGATAGAGACCAGACTGTGCAAACTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCT
+GCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAAC
+CTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCA
+TACTGTGCAACCTTTAGAGTCGGCATTGGGCCTAGGTCTCATTCAGGACA
+GATAGAGAGCAGACTAGGCAACCATTAGAGTCGGCACTGGTCCTAGGTCT
+CATTGAGGACAGATATAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTG
+TGCCTGGGTCTCATTGAGGACAGATAGAGAGCAGACTGAGCAACCTTTAG
+AGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGT
+GCAACCTCTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCATTTAGA
+GAGCAGACTGCGCAACCTTTAGAGTCTGCATTGGGCATAGGTCTCATTGA
+GAGCAGATAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTA
+GGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAACTTTAGAGTTTG
+CATTGGACCTAGGTCTCATTGAGGGCAGATAGAGAGCAAACTGTGCAACC
+TTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAG
+ACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCTTTGAGGACAG
+ACAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTC
+ATTGAGGACAGAAAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGG
+GCCTAGGTCTCCTTGAGGTCAGATAGACAGCAGACTGTGCAACCTTTAGA
+GTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGAGAGCAGACTATG
+CAACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTCAGGACAGATAGAG
+AGCAGACTGTGCAACCTTTAGAGTCTCTATTGGGCCTAGGTCTCATTGAG
+GACAGATAGAGAGCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAG
+GTCTCATTGAGGGCAGATAGAGAGCAGGCTCGGCAACCCTTAGAGTCTGC
+ATTGGGCCTAGATCTTATTGAGGACAGATAGAGAGCATACTATGCAACCT
+TTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGA
+CTGTGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGACAGT
+TAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCCTAGGTCTCA
+TTGAGGACAGAAACAGACCAGAGTGTGCAACCTTTAGAGTCAGCATTGGG
+CCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTAGAAACTTTATAG
+TCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAGAGCAGACGGTGC
+AAGCTTTAGAGTCTGCACTTGGCCTAGGTCTCATTGAGGACAGATAGAGA
+GCAGACTGTGCAAACTCTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGG
+GCAGATAGAGACCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTAGG
+TCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCA
+TTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAAACTT
+TAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCGGAC
+TGTGCAACCTTTAGAGTCTGCATTGGGCCTACGTCTCATTGAGGACAGAT
+AGAGAGCAGACTAGGCAACCATTAGAGTCGGCACTGGTCCTAGGTCTCAT
+TGAGGACAGATATAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGC
+CTGGGTCTCATTGAGGACAGATAGCGACCAGACTGTGCAACCTTTAGAGT
+CTGCATTGGGCTTAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCA
+ACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAG
+CACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGA
+CAGATAGAGACCAGACTGTTGAAACTTTAGAGTCTGCATTGGGCCTAGGT
+CTCATTGAGGACAGATAGAGGGCAGACTGTGCAACCTTTAGAGTCTACAA
+TGGGCCTAGGTATCAGTGAGGACAAATAGAGAGGAGACTGTGCAACCTTT
+AGAGTCTGCACTGGCCCTAGGTCTCTTTGAGGACAGACAGAGAGCAGAAT
+GTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTCATTGAGGACAGATA
+GAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCCTT
+GAGGTCAGACAGACAGCAGACTCTGCAACCTTTAGAGTCTGCATTGGGCC
+TAGGTCTAATTGCGGACAGATAGACAGCAGACTGTGCAACGTTTAGAGTC
+TGCATTGGGCCTAGGTCTAATTGCGGACAGATAGAGAGCAGACTATGCAA
+CGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGAGAGC
+AGACTGTGCAACCTTTAGGGTCTCTATTGGGCCTAGGTCTCATTGAGGAC
+AGATAGGGAGCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGGGCAGATAGAGAGCAGGCTCGGCAACCCTTAGAGTCTGCATT
+GGGCCTAGATATCATTGAGGACAGATAGAGAGCATGCTATGCAACCTTTA
+GAGTCTGCACTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGACAGTTAG
+AGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCCTAGGTCTCATTG
+AGGACAGAAAGAGACCAGAGTGTGCAAACTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGACAGATANNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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+tagaattctatttttggtttacCCCACTATCAGGAGGTTGTCTGAGATAA
+GCCAGCCCCTcccacccttgcaggcacagtgtgcaagcataagatctcgt
+gctggccgccattcaggtggcagccacagggatggtccagacgtggctct
+ccaaccgtccttagaccacacaaagtttaggatttctggggtcccaatgc
+agactctaaaggttgcatagtctggtctctATCTGCCCTCAATGAGACCT
+AGGCCCAGTGCAGACTCTAAAGGTTGCATACTCTGGTCCCTATCTGCCCT
+CAATGAGACCTAGGCCCAGTGCAGACTCGAAAGGTTGCACAGTCTGCTCT
+CTATCTGTCCTCAATGAGACTTAGGCACAATGCAGACTCTAAACGTTGCA
+CAGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCATACTC
+TAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCC
+AATGCAGACTCTAAAGGTTGCATAGTCTGGTCTCTATCTGCCCTCAATGA
+GACCTAGGACCAATGAAGACTCTAAAGGTTGCGCAGTCTGCTCTCTATCT
+GTCCTCAATGAGACCTAGGCCCAGTGCAGACTATAAAGGTTGCACAGTCT
+GGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGG
+TTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCAAGTGCA
+GACTCTAAAGCTTGCACAGTCTGCTCTCTATCTGACCTCAATGAGACCTA
+GGCCCAATGCAGACTATAAAGGTTCTACAGTCTGCTCTCTATCTGTCCTC
+AATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACACTCTGGTCTC
+TATCTGTCCTCAATGAGACCTAGGCCCAGTGCAGACTGTAAAGTTTGCAT
+AGTCTGCTTTCTATCTGTCCTCAATGAGACCTAGGTCCAATGCAGACTCT
+AAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCGATGAGACCTAGGCCTA
+GTGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAG
+ACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTG
+TCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTG
+CTCTCTATTTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGT
+TGCACAGTCTGCTCTCTATCGGTCCTCAATGAGACCGAGGCCCTATGCAG
+ACTCTAAAGGTTACACAGTGTGCTCTCTATCTGTCCTCAGTGAGACCTAG
+GCCCAATGCAGACTCTAAAGTTTGCGCAGTCTGCTCTCTATCTGTCCTCA
+ATGAGACCTAGGACCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTCT
+ATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTTAACA
+GTCTGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTA
+GAGGTTGCACAGTGTGCTCTCTATCTGCTCTCAATGAGACCTAGACCCAA
+TGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTAACTGCCCTCAATGAGA
+CCTAAGCCCAAAGCAGACTCTAAAGGTTGCACAGTCTGGTCGCTATCTGT
+CCTCAATGAGACCCAGACCCAATGCAGACTCTAAAGGTTGCACAGTCTGC
+TCTATATCTGTCCTCAATGAGACCTAGGAAAAGTGCCGACTCTAATGGTT
+GCCTAGTCTGCTCTTTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGA
+CTCTAAAGGTTGCACAGTCCGGTCTCTATCTGTCCTCAATGAGACCTAGG
+CCCAATGCCGACTCTAAAGTTTGCACAGTGTGCTCTCTATCTGCTCTCAA
+TGAGACCTAGGCCCAATGCAGACTCTAAAGGTAGCACAGTCTGCTCTCTA
+ACTGCCCTCAATGACACCTAGGCCCAATGCAGACTCTAAACGTTGCATAG
+TCTGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAGACTCTAA
+AGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCAAGT
+GCAGACTCTAAAGCTTGCACAGTCTGCTCTCTATCTGACCTCAATGAGAC
+CTAGGCCCAATGCAGACTATAAAGGTTCTACAGTCTGCTCTCTATCTGTC
+CTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACACTCTGGT
+CTCTTTCTGTCCTCAATGAGACCTAGGCCAAATGCAGACTCTAAAGGTTG
+CACAGTCTGCTCTCTAACTGTCCTCAATGAGACATAGGCCCAATGCAGAC
+TCTAAAGGTTGCACAGTCTGCTCTCTATGTGTCCTCAATGAGACCTAGGC
+CCAGTGCAGACTCTAAAGGTTGCATAGTATGCTCTCTATCTGTCCTCAAT
+GAGATCTAAGCCCAATGCAGACTCTAAGGGTTGCCGAGCCTGCTCTCTAT
+CTGCCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGT
+CCGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATAGAGACTCTAAA
+GGTTGCACAGTCTGCACTCTATCTGTCCTCAATGAGACCCAGGCCCAATG
+CAGACTCTAAACGTTGCATAGTCTGCTCTCTGTCTGTCCGCAATTAGACC
+TAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTGTCTATCTGACC
+TCAAGGAGACTTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGGTC
+TCTATCTGTCCTCAATGACACCTAGGCCCAGTGCAGACTCTAAAGTTTGC
+ACAGTCTGCTCTCTGTCTGTCCTCAAAGAGACCTAGGCACAGTGCAGACT
+CTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCC
+CAGTGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATG
+AGACCTAGGCCCAATGCAGACTCTAAAGTTGCACAGTCTGGTCTCTATCT
+GTCCTCAATGAGACCTAGGCCCAATGCGGACTCTAAAGGTTGCACAGTGT
+GCTCTCCATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGG
+TTGCACAGTCTGCTCTCTATCTCTCCTCAATGAGACCTAGGCCCAATGCA
+GACTCTAAAGTTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAGACCTA
+GGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGCTCTC
+AATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGGTCTC
+TATCTGTCCTGAATGAGGCCCAGATCCAATGCAGACTGTAAAGGTTGCAC
+AGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCTCAGTGCAGCCTCT
+AAAGTTTGCATAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGTCCA
+ATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAG
+ACCTAGGCCTAGTGCAGACTCTAAAGGTTGCACAGTCTGTTCTCTATCTG
+TCCTCAATGAGACCTAGGCCAAGTGCAGACTCTAAAGCTTGCACAGTCTG
+TTCTCTATCTGACCTCAATGAGACCTAGGCCCAATGCAGACTATAAAGTT
+TCTACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAG
+ACTCTAAAGGTTGAACACTCTGGTCTCTATCTGCCCTCAATGAGACCTAG
+GCCCAATGAAGACTCTAAAGGTTGCGCAGTCTGCTCTCTATCTCTCCTCA
+ATGAGACCTAGGCCCAGTGCAGACTATAAAGGTTGCACAGTCTGGTCTCT
+ATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACA
+GTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCAAGTGCAGACTCTA
+AAGCTTGCACAGTCTGCTCTCTATCTGACCTCAATGAGACCTAGGCCCAA
+TGCAGACTATAAAGGTTCTACAGTCTGCTCTCTGTCTGTCCTCAATGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCACACTCTGGTCTCTATCTGT
+CCTCAATGAGACCTAGGCCCAGTGCAGACTGTAAAGTTTGCATAGTCTGC
+TCTCTATCTGTCCTCAATGAGACCTAGGTCCAATGCAGACTCTAAAGGTT
+GCACAGTCTGCTCTCTATCTGTCCTCGATGAGACCTAGGCCCAGTGCAGA
+CTCTAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGG
+CCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAA
+TGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTA
+TTTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTGGCACAG
+TCTGCTCTCTATCGGTCCTCAATGAGACCGAGGCCCTATGCAGACTCTAA
+AGGTTACACAGTGTGCTCTCTATCTGTCCTCAGTGAGACCTAGGCCCAAT
+GCAGACTCTAAAGTTTGCGCAGTCTGCTCTCTATGTGTCCTCAATGAGAC
+CTAGGGCCAGTGCAGACTCTAAAGGTTGCATAGTCTGCTCTCTATCAGTC
+CTCAGTGAGACCTAGACCCAATGGAGACTCTAAAGTTTGCAAAGTCTGCT
+CTCTATCTCTCCTCAGTGAGACCTAGACCCAATGCAGACTCTAAAGGTTG
+CACATTATGGTCTCTATCTGCCCTCAATGAGACCTAGGTTCAGTGCAGAC
+TTTAAAGTTTGCACAGTCTGCTCTGTATCTGTCCTCAATGAGACCTAGGC
+CCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAAT
+TAGACCTAGGCCCAATGCAGACTCTAAAGTTTTAACAGTCTGGTCTCTAT
+CTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAGAGGTTGCACAGT
+GTGCTCTCTATCTGCTGTCGATGAGACCTAGGCCCAATGCAGACTCTAAA
+GGTGGCACAGTCTGCTCTCTAACTGCCCTCAATGAGACCTAGACCCAATG
+CAGACTCTAAAGGTTGCACAGTCTGGTCGCTATCTGTCCTCAATGAGACC
+CAGGCCCAATGCAGACTCTAAAGGTTACACAGTCTCCTCTATATCTGTCC
+TCAATGAGACTTAGGACCAGTGCCGACTCTAATGGTTGCCTAGTCTGCTC
+TTTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGC
+ACAGTCCGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACT
+CTAAAGTTTGCACAGTGTGCTCTCTATCTGCTCTCAATGAGACCTAGGCC
+TAATGCAGACTCTAAAGGTAGCACAGTCTGCTCTCTAACTGCCCTCAATG
+ACACCTAGGCCCAATGCAGACTCTAAACGTTGCATAGTCTGGTCTCTATC
+TGCCCTCAATGACACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTC
+TGCTCTCTATCTGTCCTCAATGAGACCTAGGCCAAGTGCAGACTCTAAAG
+CTTGCACAGTCTGCTCTCTATCTGACCTCAATGAGACCTAGGCCCAATGC
+AGACTATAAAGGTTCTACAGTCTGCTCTCTATCTGTCCTCAATGAGACCT
+AGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTAACTGTCCT
+CATTGAGACATAGGCCCAATGCAGACTCTAAAGGTTCCACAGTCTGCTCT
+CTATGTGTCCTCAATGAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCA
+TAGTATGCTCTCTATCTGTCCTCAATGAGATCTAAGCCCAACGCAGACTC
+TAAGGGTTGCCGAGCCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCC
+AATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGA
+GACCTAGGCCCAATAGAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCT
+GTCCTCAATGAGACCCAGGCCCAATGCAGACTGTAAACTTTGCATAGTCT
+GCTCTCCATCTGTCCGCAATTAGACCTAGACCCAATGCAGACTCTAAAGG
+TTGCACAGTCTGCTGCCTATCTGACCTCAAGGAGACCTAGGCCCAATGCA
+GACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGTCCTCAATGACACCTA
+GGCCCAGTGCAGACTCTAAAGTTTGCACAGTCTGCTCTCTGTCTGTCCTC
+AAAGAGACCTAGGCCCAGTGCAGACTATAAAGGTTGCACAGTCTGCTCTC
+TATCTGTCCTCAATGAGACCTAGGCCCAATGTAGACTCTAAAGGTGGCAC
+AGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAAACTCT
+AAAGGTTGCACAGTCTGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCA
+ATGCAGACTCTAAAGGTTGCACAGTCTGTTCTCTATCTGTCCTCAATGAG
+ACCTAGGCCAAGTGTAGACTCTAAAGCTTGCACAGTCTGCTCTCTATCTG
+ACCTCAATGAGACCTAGGCCCAATGCAGACTATAAAGGTTCTACAGTCTG
+CTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAAACTCTAAAGGT
+TGCACACTCTGGTCTCTTTCTGTCCTCAATGAGACCTAGGCCAAATGCAG
+ACTCTAAAGGTTGCACAGTCTGCTCTCTAACTGTCCTCAATGAGACATAG
+GCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTGTCCTCA
+ATGAGACCTAGGCCCAGTGCAGACTCTCAAGGTTGCATAGTATGCTCTCT
+ATCTGTCCTCAATAAGATCTAGGCCCAATGCAGACTCTAAGGGTTGCCGA
+GCCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAGACTCTA
+AAGGTTGCACAGTCCGCTCCCTATCTGTCCTCAATGAGATCTAGGCCCAA
+TAGAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGA
+CCGAGGCTCTATGCAGACTCTAAAGGTTACACAGTGTGCTCTCTATCTGT
+CCTCAGTGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCGCAGTCTGC
+TCTCTATCTGTCCTCAATGAGACCTAGGGCCAGTGCAGACTCTAAAGGTT
+GCATAGTCTGCTCCTATCAGTCCTCAGTGAGACCTAGACCCAATGGAGAC
+TCTAAAGTTTGCAAAGTCTGCTCTCTATCTCGCCTCAGTGAGACCTAGAC
+CCAATGCAGACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGCCCTCAAT
+GAGACCTAGGCTCAGTGCAGACTTTAAAGTTTGCACAGTCTGCTCCGTAT
+CTGTCCTCAATGAGACCTAGGTCCATTGCAGACTCTAAAGGTTGCACAGT
+CTGCCCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGCCTCTAAA
+GTTTCAACAGTCTGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATG
+CCGACTCTAGAGGTTGCACAGTGTGCTCTCTATCTGCTCTCAATGAGACC
+TAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTAACTGCCC
+TCAATGAGACCTAAGCCCAATGCAGACTCTAAAGGTTGTACAGTCTGGTC
+GCTATCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTTGC
+ACAGTCTGCTCTATATCTGTCCTCAATGAGACCTAGGACCAGTGCGGACT
+CTAATGGTTGCCTAGTGTGCTCTCTATCTGTCCTCAATGAGACCTAGGCC
+CAATGCAGACTCTAAAGGTTGCACAGTCCGGTCTCTATCTGTCCTCAATG
+AGACCTAGGCCCAATGCCGACTCTAAAGTTTGCACAGTGTGCTCTCTATC
+TGCTCTCAATGAGACCTAGGCCCAATGCAGATTCTAAAGGTTGCACAGTC
+TGCTCTCTAACTGCCCTCAATGACACCTAGGCCCAATGCAGACTCTAAAC
+GTTGCATAGTCTGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGC
+AGACTCTAAAGTTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCT
+AGGCCAAGTGCAGACTCTAAAGCTTGCACAGTCTGCTCTCTATCTGACCT
+CAATGAGACCTAGGCCCAATGCAGACTATGAAGGTTCTACAGTCTGCTCT
+CTATCTGTCCTCAATGAGACCGAGTCCCAATGCCGACTCTAAAGGTTGCA
+CACTCTGGTCTCTTTTTGTCCTCAATGAGACGTAGGCCAAATGCAGACTC
+TAAAGTTTGCACAGTCTGCTCTCTAACTGTCCTCAATGAGACATAGGCCC
+AATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTGTCCTCAATGA
+GACCTAGGCCCAGTGCAGACTCTAAAGTTTGCACAGTCTGCTCTCTGTCT
+GTCCTCAAAGAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCACAGTCT
+GCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAGGG
+TTGCACATTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCA
+AACACTAAAGGTTGCACAGTCTGGTCTCTATCTGTCCTCAATGAGACCTA
+GGCCCAATGCGGACTCTAAAGGTTGCACAGTGTGCTCTCCATCTGTCCTC
+AATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTC
+TATCTCTCCTCAATGAGACCTAGGCCCAATGCAAACTCTAAAGTTTGCAC
+AGTCTGCTCTCTATCTGCCCTCAACGAGACCTAGGCCCAATGCAGACTCT
+AAAGGTTGCACAGTCTGCTCTCTATGTGTCCTCAATGAGACCTAGGCCAA
+GTGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAG
+ACCTAGGCCCAATGTAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTA
+CTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCGCAGTCTG
+GTCTCTATCTGTCCTGAATGAGGCCCAGGCCCAATGCAGACTGTAAAGGT
+TGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCTCAGTCCAG
+CCTCTAAAGTTTGCATAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAG
+GTCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTTTCCATCTGTCCTCA
+ATGAGACCTAGGCCCAATGCAGACTCTATAGGTTGCACAGTCTGCTCTCC
+ATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACA
+GTCTGCTCTCTATTTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTA
+AAGGTGGCACAGTCTGCTCTCTATCGGTCCTCAATGAGACCGAGGCCCTA
+TGCAGTCTCTAAAGGTTACACAGTGTGCTCTCTATCTCTCCTCAGTGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTATGGTCTCTATCTGC
+CCTCAATGAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCACAGTCTGC
+TCTCTATCGGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTT
+GCACAGTCTGCCCTCTATCTGTCCTCAATGAGACCTAGGCCCAGTGCAGC
+CTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCCAGG
+CCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTATATCTGTCCTCAA
+TGAGACCTAGGACCAGTGCCGACTCTAATGGTTGCCTACTCTGCTCTCTA
+TCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTTCACAG
+TCTGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAA
+AGGTTGCACTGTATGCTCTCTATCTTCTCTCAATGAGACCTAGGCCCAAT
+GCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTGCCCTCAATGAGAC
+CTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCCATCTGTC
+CTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCT
+CTCTATTTCTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTGG
+CACAGTCTGCTCTCTATCGGTCCTCAATGAGACCGAGGCCCTATGCAGAC
+TCTAAAGGTTACACAGTGTGCTCTCTATCTGTCCTCAATGAGACCTAGGC
+CCAATGCAGACTCTAAAGTTTGCGCAGTCTGCTCTCTATCTGTCCTCAAT
+GAGACCTAGGGCCAGTGCAGACTCTAAAGGTTGCATAATCTGCTCTCTAT
+CAGTCCTCAGTGAGACCTAGACCTAATGCAGACTCTAAAGTTTGCAAAGT
+CTGCTCTCTATCTCTCCTCAGTGAGACCTAGACCCAATGCAGACTCTAAA
+GGTTGCACAGTATGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAGTG
+CAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGACCTCAATGAGACC
+TAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTGTATCTGTCC
+TCAATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCACAGTCTGGTC
+TCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAGAGGTTGC
+ACAGTGTGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACT
+CTAAAGGTTGCACAGTCTGCTCTCTAACTGCCCTCAATGAGACCTAGGCC
+GAATGCAGACTCTAAAGGTTGCACAGTCTGTTCTCTATCTGTCCTCAATG
+AGACCTAGGCCAAGTGCAGACTCTAAAGCTTGCCCAGTCTGCTCCCTATC
+TGACCTCAATGAGACCTAGGCCCAATGCAGACTATAAAGGTTCTACAGTC
+TCCTCTCTATCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAG
+GTTGCACACTCTGGTCTCTTTCTGTACTCAATGAGACCTAGGCCAAATGC
+AGACTCTAAAGGTAGCACAGTCTGCTCTCTAACTGTCCTCAATGAGACAT
+AGGCCTAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTTTCCT
+CAATGAGAACTAAGCCCAGTGCAGACTCTAAAGGTTGCATAGTATGCTCT
+CTATCTGTCCTCAATGAGATCTAGGCCCAATGCAGACTCTAAGGGTTGCC
+GAGCCTGCTCTCTGTCTGCCGTCAATGAGACCTAGGCCCAATGCAGACTC
+TAAAGGTTGCACAGTCCGCTCCCTATCTGTCCTCAATGAGACCTAGGCCC
+AATAGAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGA
+GACCCAGGCCCAATGCAGACTCTAAACGTTGCATAGTCTGCTCTCTATCT
+GTCCGCAATTAGACCTAGGCCCAATGCAGACTCTAAACGTTGCACAGTCT
+GCTGTCTATCTGTCCGCAATTAGACCTAGGCCCAATGCAGACTCTAAAGG
+TTGCAGAGTCTGCTGTCTATCTGACCTCAAGGAGACCTAGGCCCAATGCA
+GACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGTCCTCAATGACACCTA
+GGCCCAATGCGGACTCTAAAGGTTGCACAGTGTGCTCTCCATCTGTCCTC
+AATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTC
+TATCTCTCCTCAATGAGACCTAGGCTCAATGCAGACTCTAAAGGTTGCAC
+AGTCTGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTCT
+AAAGGTTGCACAGTCTGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCA
+ATGCAGACTCTAAAGGTTGCACACTCTGCTCTCTATCTGCTCTCAATGAG
+ACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCCATCTC
+TCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTG
+CTCTCTATTTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGT
+TGCACAGTCTGCTCTCTATCGGTCCTCATAGAGACCGAGGCCCTATGCAG
+ACTCTAAAGGTTACACAGTGTGCTCTCTATCTGTCCTCAATGAGACCTAG
+GCCCAATGCAGACTCTAAAGTTTGCGCAGTCTGCTCTGTATCTGTCCTCA
+ATGAGACCTAGTGCCAGTGCAGACTCTAAAGGTTGCATAGTCTGCTCTCT
+ATCAGTCCTCAGTGAGACCTAGACCCAATGCAGACTCTAAAGTTTGCAAA
+GTCTGCTCTCTATCTCTCCTCAGTGAGACCTAGACCCAATGCAGATTCTA
+AAGGTTGCACAGTATGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAG
+TGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGT
+CCTCAATGAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCACAGTCTGG
+TCTCTATCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTT
+GCACAGTCTGCACTATATCTGTCCTCAATTAGACCTAGGACCAGTGTCGA
+CTCTAATGGTTGCCTAGTCTGCTCTCTATCTGTCCTCAATGAGACCCATG
+CACAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTATATCTGTCCTCAA
+TGAGACCTAGGACCAGTGTCGACTCTAATGGTTGCATAGTCTGCTCTCTA
+TCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAG
+TCTGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAA
+AGGTTGCACAGTATGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAAT
+GCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAGAC
+CTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCCATCTGTC
+CTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCT
+CTCTATTTCTCCTCAGTGAGACCCAGGCCCAATGCAGACTCTAAAGGTGG
+CACAGTCTGCTCTCTATCGGTCCTCAATGAGACCGAGGCTCTATGCAGAC
+TCTAAAGGTTACACAGTGTGCTCTCTATCTGTCCTCAATGAGACCTAGAC
+CCAATGCAGACTCTAAAGTTTGCGCAGTCTGCTCTCTATCTGTCCTCAAT
+GAGACCTAGGGCCAGTGCAGACTCTAAAGTTGCATAGTCTGCTCTCTATC
+AGTCCTCAGTGAGACCTAGACCTAATGCAGACTCTAAAGTTTGCAAAGTC
+TGCTCTCTATCTCTCCTCAGTGAGACCTAGACCCAATGCAGACTCTAAAG
+TTTGCACAGTATGGTCTCTATATGCCCTCAATGAGACCTAGGCCCAGTGC
+AGACTCGAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCT
+AGGCTCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGTCCT
+CAATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCACAGTCTGGTCT
+CTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAGAGGTTGCA
+CAGTGTGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTC
+TAAAGGTTGCACAGTCTGCTCTCTAACTGCCCTCAATGAGACCTAGGCCC
+AATGCAGACTCTAAAGGTTGCACAGTCTGTTCTCTATCTGTCCTCAATGA
+GACCTAGGCCAAGTGCAGACTCTAAAGCTTGCACAGTCTGCTCTCTATCT
+GACCTCAATGAGACCTAGGCCCAATGCAGACTATAAAGGTTCTACAGTCT
+GCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGT
+TTGCGCACTCTGGTCTCTTTCTGTCCTCAATGAGACCTAGGCCAAATGCA
+GACTGTAAAGGTTGCACAGCCTGCTCTCTAACTGTCCTCAATGAGACATA
+GGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTGCTCTC
+AATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCATAGTATGCTCTC
+TATCTGTCCTCAATGAGATCTAGGCCCAATGCAGACTCTAAGGGTTCCCG
+AGCCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAGACTCT
+AAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAATTAGACCTAGGCCCA
+ATGCAGACTCTAAAGTTTTAACAGTCTGGTCTCTATCTGTCCTCAATGAG
+ACCTAGGCCCAATGCCGACTCTAGAGGTTGCACAGTGTGCTCTCTATCTG
+CTGTCGATGAGACCTAGGCCCAATGCAGACTCTAAAGGTGGCACAGTCTG
+CTCTCTAACTGCCCTCAATGAGACCTAGACCCAATGCAGACTCTAAAGGT
+TGCACAGTCTGTTCTCTATCTGTCCTCAATGAGACCCAGGCCCAATGCAG
+ACTCTAAAGGTTACACAGTCTCCTCTATATCTGTCCTCAATGAGACCTAG
+GCCCAGTGCAGACTCTAAAGTTTGCACAGTCTGCTCTCTGTCTGTCCTCA
+AAGAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCACAGTCTGCTCTCT
+ATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAGGGTTGCACA
+TTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAAACACTA
+AAGGTTGCACAGTCTGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAA
+TGCGGACTCTAAAGGTTGCACAGTGTGCTCTCCATCTGTCCTCAATGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTCT
+CCTCAATGAGACCTAGGCCCAATGCAAACTCTAAAGTTTGCACAGTCTGC
+TCTCTATCTGCCCTCAACGAGACCTAGGCCCAATGCAGACTCTAAAGGTT
+GCACAGTCTGCTCTCTATGTGTCCTCAATGAGACCTAGGCCAAGTGCAGA
+CTCTAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGG
+CCCAATGTAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTACTCTCAA
+TGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCGCAGTCTGGTCTCTA
+TCTGTCCTGAATGAGGCCCAGGCCCAATGCAGACTGTAAAGGTTGCACAG
+TCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCTCAGTCCAGCCTCTAA
+AGTTTGCATAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGTCCAAT
+GCAGACTCTAAAGGTTGCACAGTCTGCTTTCCATCTGTCCTCAATGAGAC
+CTAGGCCCAATGCAGACTCTATAGGTTGCACAGTCTGCTCTCCATCTGTC
+CTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCT
+CTCTATTTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTGG
+CACAGTCTGCTCTCTATCGGTCCTCAATGAGACCGAGGCCCTATGCAGTC
+TCTAAAGGTTACACAGTGTGCTCTCTATCTCTCCTCAGTGAGACCTAGGC
+CCAATGCAGACTCTAAAGGTTGCACAGTATGGTCTCTATCTGCCCTCAAT
+GAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTAT
+CGGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGT
+CTGCCCTCTATCTGTCCTCAATGAGACCTAGGCCCAGTGCAGCCTCTAAA
+GGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCCAGGCCCAATG
+CAGACTCTAAAGGTTGCACAGTCTGCTCTATATCTGTCCTCAATGAGACC
+TAGGACCAGTGCCGACTCTAATGGTTGCCTACTCTGCTCTCTATCTGTCC
+TCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTTCACAGTCTGGTC
+TCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAAAGGTTGC
+ACTGTATGCTCTCTATCTTCTCTCAATGAGACCTAGGCCCAATGCAGACT
+CTAAAGGTTGCACAGTCTGCTCTCTATGTGCCCTCAATGAGACCTAGGCC
+CAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCCATCTGTCCTCAATG
+AGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATT
+TCTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTGGCACAGTC
+TGCTCTCTATCGGTCCTCAATGAGACCGAGGCCCTATGCAGACTCTAAAG
+GTTACACAGTGTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGC
+AGACTCTAAAGTTTGCGCAGTCTGCTCTCTATCTGTCCTCAATGAGACCT
+AGGGCCAGTGCAGACTCTAAAGGTTGCATAATCTGCTCTCTATCAGTCCT
+CAGTGAGACCTAGACCTAATGCAGACTCTAAAGTTTGCAAAGTCTGCTCT
+CTATCTCTCCTCAGTGAGACCTAGACCCAATGCAGACTCTAAAGGTTGCA
+CAGTATGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAGTGCAGACTC
+TAAAGGTTGCACAGTCTGCTCTCTATCTGACCTCAATGAGACCTAGGCCC
+AATGCAGACTCTAAAGGTTGCACAGTCTGCCCTGTATCTGTCCTCAATGA
+GACCTAGGCCCAATGCAGACTCTAAAGTTTGCACAGTCTGGTCTCTATCT
+GTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAGAGGTTGCACAGTGT
+GCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGG
+TTGCACAGTCTGCTCTCTAACTGCCCTCAATGAGACCTAGGCCGAATGCA
+GACTCTAAAGGTTGCACAGTCTGTTCTCTATCTGTCCTCAATGAGACCTA
+GGCCAAGTGCAGACTCTAAAGCTTGCCCAGTCTGCTCCCTATCTGACCTC
+AATGAGACCTAGGCCCAATGCAGACTATAAAGGTTCTACAGTCTCCTCTC
+TATCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTTGCAC
+ACTCTGGTCTCTTTCTGTACTCAATGAGACCTAGGCCAAATGCAGACTCT
+AAAGGTAGCACAGTCTGCTCTCTAACTGTCCTCAATGAGACATAGGCCTA
+ATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTTTCCTCAATGAG
+AACTAAGCCCAGTGCAGACTCTAAAGGTTGCATAGTATGCTCTCTATCTG
+TCCTCAATGAGATCTAGGCCCAATGCAGACTCTAAGGGTTGCCGAGCCTG
+CTCTCTGTCTGCCGTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGT
+TGCACAGTCCGCTCCCTATCTGTCCTCAATGAGACCTAGGCCCAATAGAG
+ACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCCAG
+GCCCAATGCAGACTCTAAACGTTGCATAGTCTGCTCTCTATCTGTCCGCA
+ATTAGACCTAGGCCCAATGCAGACTCTAAACGTTGCACAGTCTGCTGTCT
+ATCTGTCCGCAATTAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCAGA
+GTCTGCTGTCTATCTGACCTCAAGGAGACCTAGGCCCAATGCAGACTCTA
+AAGGTTGCACAGTCTGGTCTCTATCTGTCCTCAATGACACCTAGGCCCAA
+TGCGGACTCTAAAGGTTGCACAGTGTGCTCTCCATCTGTCCTCAATGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTCT
+CCTCAATGAGACCTAGGCTCAATGCAGACTCTAAAGGTTGCACAGTCTGC
+TCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTT
+GCACAGTCTGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAGA
+CTCTAAAGGTTGCACACTCTGCTCTCTATCTGCTCTCAATGAGACCTAGG
+CCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCCATCTCTCCTCAA
+TGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTA
+TTTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTTGCACAG
+TCTGCTCTCTATCGGTCCTCATAGAGACCGAGGCCCTATGCAGACTCTAA
+AGGTTACACAGTGTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAAT
+GCAGACTCTAAAGTTTGCGCAGTCTGCTCTGTATCTGTCCTCAATGAGAC
+CTAGTGCCAGTGCAGACTCTAAAGGTTGCATAGTCTGCTCTCTATCAGTC
+CTCAGTGAGACCTAGACCCAATGCAGACTCTAAAGTTTGCAAAGTCTGCT
+CTCTATCTCTCCTCAGTGAGACCTAGACCCAATGCAGATTCTAAAGGTTG
+CACAGTATGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAGTGCAGAC
+TCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGC
+CCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAAT
+GAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCACAGTCTGGTCTCTAT
+CTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTTGCACAGT
+CTGCACTATATCTGTCCTCAATTAGACCTAGGACCAGTGTCGACTCTAAT
+GGTTGCCTAGTCTGCTCTCTATCTGTCCTCAATGAGACCCATGCACAATG
+CAGACTCTAAAGGTTGCACAGTCTGCTCTATATCTGTCCTCAATGAGACC
+TAGGACCAGTGTCGACTCTAATGGTTGCATAGTCTGCTCTCTATCTGTCC
+TCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGGTC
+TCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAAAGGTTGC
+ACAGTATGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACT
+CTAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCC
+CAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCCATCTGTCCTCAATG
+AGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATT
+TCTCCTCAGTGAGACCCAGGCCCAATGCAGACTCTAAAGGTGGCACAGTC
+TGCTCTCTATCGGTCCTCAATGAGACCGAGGCTCTATGCAGACTCTAAAG
+GTTACACAGTGTGCTCTCTATCTGTCCTCAATGAGACCTAGACCCAATGC
+AGACTCTAAAGTTTGCGCAGTCTGCTCTCTATCTGTCCTCAATGAGACCT
+AGGGCCAGTGCAGACTCTAAAGTTGCATAGTCTGCTCTCTATCAGTCCTC
+AGTGAGACCTAGACCTAATGCAGACTCTAAAGTTTGCAAAGTCTGCTCTC
+TATCTCTCCTCAGTGAGACCTAGACCCAATGCAGACTCTAAAGTTTGCAC
+AGTATGGTCTCTATATGCCCTCAATGAGACCTAGGCCCAGTGCAGACTCG
+AAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCTCA
+ATGCAGACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAATGAG
+ACCTAGGCCCAATGCAGACTCTAAAGTTTGCACAGTCTGGTCTCTATCTG
+TCCTCAATGAGACCTAGGCCCAATGCCGACTCTAGAGGTTGCACAGTGTG
+CTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGT
+TGCACAGTCTGCTCTCTAACTGCCCTCAATGAGACCTAGGCCCAATGCAG
+ACTCTAAAGGTTGCACAGTCTGTTCTCTATCTGTCCTCAATGAGACCTAG
+GCCAAGTGCAGACTCTAAAGCTTGCACAGTCTGCTCTCTATCTGACCTCA
+ATGAGACCTAGGCCCAATGCAGACTATAAAGGTTCTACAGTCTGCTCTCT
+ATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCGCA
+CTCTGGTCTCTTTCTGTCCTCAATGAGACCTAGGCCAAATGCAGACTGTA
+AAGGTTGCACAGCCTGCTCTCTAACTGTCCTCAATGAGACATAGGCCCAA
+TGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTGCTCTCAATGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCATAGTATGCTCTCTATCTGT
+CCTCAATGAGATCTAGGCCCAATGCAGACTCTAAGGGTTCCCGAGCCTGC
+TCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTT
+GCACAGTCTGCCCTCTATCTGTCCTCAATTAGACCTAGGCCCAATGCAGA
+CTCTAAAGTTTTAACAGTCTGGTCTCTATCTGTCCTCAATGAGACCTAGG
+CCCAATGCCGACTCTAGAGGTTGCACAGTGTGCTCTCTATCTGCTGTCGA
+TGAGACCTAGGCCCAATGCAGACTCTAAAGGTGGCACAGTCTGCTCTCTA
+ACTGCCCTCAATGAGACCTAGACCCAATGCAGACTCTAAAGGTTGCACAG
+TCTGTTCTCTATCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAA
+AGGTTACACAGTCTCCTCTATATCTGTCCTCAATGAGACTTAGGACCAGT
+GCCGACTCTAATGGTTGCCTAGTCTGCTCTTTATCTGTCCTCAATGAGAC
+CTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCCGGTCTCTATCTGTC
+CTCAATGAGACCTAGGCCCAATGCCGACTCTAAAGTTTGCACAGTGTGCT
+CTCTATCTGCTCTCAATGAGACCTAGGCCTAATGCAGACTCTAAAGGTAG
+CACAGTCTGCTCTCTAACTGCCCTCAATGACACCTAGGCCCAATGCAGAC
+TCTAAACGTTGCATAGTCTGGTCTCTATCTGCCCTCAATAAGACCTAGGC
+CCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAAT
+GAGACCTAGGCCAAGTGCAGACTCTAAAGCTTGCACAGTCTGCTCTCTAT
+CTGACCTCAATGAGACCTAGGCCCAATGCAGACTATAAAGGTTCTACAGT
+CTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAA
+GGTTGCACAGTCTGCTCTCTAACTGTCCTCATTGAGACATAGGCCCAATG
+CAGACTCTAAAGGTTCCACAGTCTGCTCTCTATGTGTCCTCAATGAGACC
+TAGGCCCAGTGCAGACTCTAAAGGTTGCATAGTATGCTCTCTATCTGTCC
+TCAATGAGATCTAAGCCCAACGCAGACTCTAAGGGTTGCCGAGCCTGCTC
+TCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGC
+ACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATAGAGACT
+CTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCCAGGCC
+CAATGCAGACTGTAAACTTTGCATAGTCTGCTCTCCATCTGTCCGCAATT
+AGACCTAGACCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTGCCTATC
+TGACCTCAAGGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTC
+TGGTCTCTATCTGTCCTCAATGACACCTAGGCCCAGTGCAGACTCTAAAG
+TTTGCACAGTCTGCTCTCTGTCTGTCCTCAAAGAGACCTAGGCCCAGTGC
+AGACTATAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCT
+AGGCCCAATGTAGACTCTAAAGGTGGCACAGTCTGCTCTCTATCTGCCCT
+CAATGAGACCTAGGCCCAATGCAAACTCTAAAGGTTGCACAGTCTGGTCT
+CTATCTGCCCTCAATGAGACATAGACCCAATGCAGACTCTAAAGGTTGCA
+CAGTCTGCTCTCCATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTC
+TAAAGGTTGCACAGTCTGCTCTCTATTTCTCCTCCATGAGACCCAGGCCC
+AATGCAGACTCTAAAGGTGGCACAGTCTGCTCTCTATCGGTCCTCAATGA
+GACCGAGGCCCTACGCAGACTCTAAAGGTTACACAGTGTGCTCTCTATCT
+GTCCTCAGTGAGACCTAGGCCCAATGCAAACTCTAAAGTTTGCGCAGTCT
+GCTCTCTATGTGTCCTCAATGAGACCTAGGGCCAGTGCAGACTCTAAAGG
+TTGCATAGTCTGCTCTCTATCAGTCCTCAGTGAGACGTAGACCTAATGTA
+GACTCTAAAGTTTGCAAAGTCTGCTCTCTATCTCTCCTCAGTGAGACCTA
+GACCCAATGCAGACTCTAAAGGTTGCACAGTATGGTCTCTATCTGCCCTC
+AATGAGACCTAGGCCCAGTGCAGACTCTAAAGGTTTCACAGTCTGCTCTC
+TATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAACGTTGCAC
+AGTCTGCCCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCT
+AAAGTTTGCACAGTCTGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCA
+ATGCCGACTCTAGAGGTTGCACAGTGTGCTCTCTATCTGCTCTCAATGAG
+ACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTAACTG
+CCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCACAGTCTG
+TTCTCTATCTGTCCTCAATGAGACCTAGGCCAAGTGTAGACTCTAAAGCT
+TGCACAGTCTGCTCTCTATCTGACCTCAATGAGACCTAGGCCCAATGCAG
+ACTATAAAGGTTCTACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAG
+GCCCAATGCAAACTCTAAAGGTTGCACACTCTGGTCTCTTTCTGTCCTCA
+ATGAGACCTAGGCCAAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCT
+AACTGTCCTCAATGAGACATAGGCCCAATGCAGACTCTAAAGGTTGCACA
+GTCTGCTCTCTATGTGTCCTCAATGAGACCTAGGCCCAGTGCAGACTCTC
+AAGGTTGCATAGTATGCTCTCTATCTGTCCTCAATAAGATCTAGGCCCAA
+TGCAGACTCTAAGGGTTGCCGAGCCTGCTCTCTATCTGCCCTCAATGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCCGCTCCCTATCTGT
+CCTCAATGAGATCTAGGCCCAATAGAGACTCTAAAGGTTGCACAGTCTGC
+TCTCTATCTGTCCTCAATGAGACCGAGGCTCTATGCAGACTCTAAAGGTT
+ACACAGTGTGCTCTCTATCTGTCCTCAGTGAGACCTAGGCCCAATGCAGA
+CTCTAAAGTTTGCGCAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGG
+GCCAGTGCAGACTCTAAAGGTTGCATAGTCTGCTCCTATCAGTCCTCAGT
+GAGACCTAGACCCAATGGAGACTCTAAAGTTTGCAAAGTCTGCTCTCTAT
+CTCGCCTCAGTGAGACCTAGACCCAATGCAGACTCTAAAGGTTGCACAGT
+CTGGTCTCTATCTGCCCTCAATGAGACCTAGGCTCAGTGCAGACTTTAAA
+GTTTGCACAGTCTGCTCCGTATCTGTCCTCAATGAGACCTAGGTCCATTG
+CAGACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAATGAGACC
+TAGGCCCAATGCAGCCTCTAAAGTTTCAACAGTCTGGTCTCTATCTGTCC
+TCAATGAGACCTAGGCCCAATGCCGACTCTAGAGGTTGCACAGTGTGCTC
+TCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGC
+ACAGTCTGCTCTCTAACTGCCCTCAATGAGACCTAAGCCCAATGCAGACT
+CTAAAGGTTGTACAGTCTGGTCGCTATCTGTCCTCAATGAGACCCAGGCC
+CAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTATATCTGTCCTCAATG
+AGACCTAGGACCAGTGCGGACTCTAATGGTTGCCTAGTGTGCTCTCTATC
+TGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTC
+CGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAAAG
+TTTGCACAGTGTGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGC
+AGATTCTAAAGGTTGCACAGTCTGCTCTCTAACTGCCCTCAATGACACCT
+AGGCCCAATGCAGACTCTAAACGTTGCATAGTCTGGTCTCTATCTGCCCT
+CAATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCACAGTCTGCTCT
+CTATCTGTCCTCAATGAGACCTAGGCCAAGTGCAGACTCTAAAGCTTGCA
+CAGTCTGCTCTCTATCTGACCTCAATGAGACCTAGGCCCAATGCAGACTA
+TGAAGGTTCTACAGTCTGCTCTCTATCTGTCCTCAATGAGACCGAGTCCC
+AATGCCGACTCTAAAGGTTGCACACTCTGGTCTCTTTTTGTCCTCAATGA
+GACGTAGGCCAAATGCAGACTCTAAAGTTTGCACAGTCTGCTCTCTAACT
+GTCCTCAATGAGACATAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCT
+GCTCTCTATGTGTCCTCAATGAGACCTAGGCCCAGTGCAGACTCTAAAGT
+TTGCACAGTCTGCTCTCTGTCTGTCCTCAAAGAGACCTAGGCCCAGTGCA
+GACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTA
+GGCCCAATGCAGACTCTAAGGGTTGCACATTCTGCTCTCTATCTGCCCTC
+AATGAGACCTAGGCCCAATGCAAACACTAAAGGTTGCACAGTCTGGTCTC
+TATCTGTCCTCAATGAGACCTAGGCCCAATGCGGACTCTAAAGGTTGCAC
+AGTGTGCTCTCCATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCT
+AAAGGTTGCACAGTCTGCTCTCTATCTCTCCTCAATGAGACCTAGGCCCA
+ATGCAAACTCTAAAGTTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAG
+ACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTG
+TCCTCAATGAGACCTAGGCCAAGTGCAGACTCTAAAGGTTGCACAGTCTG
+CTCTCCATCTGCCCTCAATGAGACCTAGGCCCAATGTAGACTCTAAAGGT
+TGCACAGTCTGCTCTCTATCTACTCTCAATGAGACCTAGGCCCAATGCAG
+ACTCTAAAGGTTGCGCAGTCTGGTCTCTATCTGTCCTGAATGAGGCCCAG
+GCCCAATGCAGACTGTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCA
+ATGAGACCTAGGCTCAGTCCAGCCTCTAAAGTTTGCATAGTCTGCTCTCT
+ATCTGTCCTCAATGAGACCTAGGTCCAATGCAGACTCTAAAGGTTGCACA
+GTCTGCTTTCCATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTA
+TAGGTTGCACAGTCTGCTCTCCATCTGTCCTCAATGAGACCTAGGCCCAA
+TGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATTTGTCCTCAATGAGA
+CCCAGGCCCAATGCAGACTCTAAAGGTGGCACAGTCTGCTCTCTATCGGT
+CCTCAATGAGACCGAGGCCCTATGCAGTCTCTAAAGGTTACACAGTGTGC
+TCTCTATCTCTCCTCAGTGAGACCTAGGCCCAATGCAGACTCTAAAGGTT
+GCACAGTATGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAGTGCAGA
+CTCTAAAGGTTGCACAGTCTGCTCTCTATCGGTCCTCAATGAGACCTAGG
+CCCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAA
+TGAGACCTAGGCCCAGTGCAGCCTCTAAAGGTTGCACAGTCTGCTCTCTA
+TCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTTGCACAG
+TCTGCTCTATATCTGTCCTCAATGAGACCTAGGACCAGTGCCGACTCTAA
+TGGTTGCCTACTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAAT
+GCAGACTCTAAAGGTTTCACAGTCTGGTCTCTATCTGTCCTCAATGAGAC
+CTAGGCCCAATGCCGACTCTAAAGGTTGCACTGTATGCTCTCTATCTTCT
+CTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCT
+CTCTATGTGCCCTCAATGAGACCTAGGCCCAATGCCGACTCTAAAGGTTG
+CACTGTATGCTCTCTATCTTCTCTCAATGAGACCTAGGCCCAATGCAGAC
+TCTAAAGGTTGCACAGTCTGCTCTCTATGTGCCCTCAATGAGACCTAGGC
+CCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCCATCTGTCCTCAAT
+GAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCACAGTCTGGTCTCTAT
+CTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAGAGGTTGCACAGT
+GTGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAA
+GGTTGCACAGTCTGCTCTCTAACTGCCCTCAATGAGACCTAGGCCCAATG
+CAGACTCTAAAGGTTGCACAGTCTGTTCTCTATCTGTCCTCAATGAGACC
+TAGGCCAAGTGCAGACTCTAAAGCTTGCCCAGTCTGCTCCCTATCTGACC
+TCAATGAGACCTAGGCCCAATGCAGACTATAAAGGTTCTACAGTCTCCTC
+TCTATCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTTGC
+ACACTCTGGTCTCTTTCTGTACTCAATGAGACCTAGGCCAAATGCAGACT
+CTAAAGGTAGCACAGTCTGCTCTCTAACTGTCCTCAATGAGACATAGGCC
+TAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTTTCCTCAATG
+AGAACTAAGCCCAGTGCAGACTCTAAAGGTTGCATAGTATGCTCTCTATC
+TGTCCTCAATGAGATCTAGGCCCAATGCAGACTCTAAGGGTTGCCGAGCC
+TGCTCTCTGTCTGCCGTCAATGAGACCTAGGCCCAATGCAGACTCTAAAG
+GTTGCACAGTCCGCTCCCTATCTGTCCTCAATGAGACCTAGGCCCAATAG
+AGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCC
+AGGCCCAATGCAGACTCTAAACGTTGCATAGTCTGCTCTCTATCTGTCCG
+CAATTAGACCTAGGCCCAATGCAGACTCTAAACGTTGCACAGTCTGCTGT
+CTATCTGTCCGCAATTAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCA
+GAGTCTGCTGTCTATCTGACCTCAAGGAGACCTAGGCCCAATGCAGACTC
+TAAAGGTTGCACAGTCTGGTCTCTATCTGTCCTCAATGACACCTAGGCCC
+AATGCGGACTCTAAAGGTTGCACAGTGTGCTCTCCATCTGTCCTCAATGA
+GACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCT
+GCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCT
+GGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGG
+TTGCACACTCTGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCA
+GACTCTAAAGGTTGCACAGTCTGCTCTCCATCTCTCCTCAATGAGACCTA
+GGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATTTGTCCTC
+AATGAGACCCAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTC
+TATCGGTCCTCATAGAGACCGAGGCCCTATGCAGACTCTAAAGGTTACAC
+AGTGTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCT
+AAAGTTTGCGCAGTCTGCTCTGTATCTGTCCTCAATGAGACCTAGTGCCA
+GTGCAGACTCTAAAGGTTGCATAGTCTGCTCTCTATCAGTCCTCAGTGAG
+ACCTAGACCCAATGCAGACTCTAAAGTTTGCAAAGTCTGCTCTCTATCTC
+TCCTCAGTGAGACCTAGACCCAATGCAGATTCTAAAGGTTGCACAGTATG
+GTCTCTATCTGCCCTCAATGAGACCTAGGCCCAGTGCAGACTCTAAAGGT
+TGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAG
+ACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAATGAGACCTAG
+GCCCAGTGCAGACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGTCCTCA
+ATAAGACCCAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCACTAT
+ATCTGTCCTCAATTAGACCTAGGACCAGTGTCGACTCTAATGGTTGCCTA
+GTCTGCTCTCTATCTGTCCTCAATGAGACCCAGGCACAATGCAGACTCTA
+AAGGTTGCACAGTCTGCTCTATATCTGTCCTCAATGAGACCTAGGACCAG
+TGTCGACTCTAATGGTTGCATAGTCTGCTCTCTATCTGTCCTCAATGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGT
+CCTCAATGAGACCTAGGCCCAATGCCGACTCTAAAGGTTGCACAGTATGC
+TCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTT
+GCACAGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAGA
+CTCTAAAGGTTGCACAGTCTGCTCTCCATCTGTCCTCAATGAGACCTAGG
+CCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATTTCTCCTCAG
+TGAGACCCAGGCCCAATGCAGACTCTAAAGGTGGCACAGTCTGCTCTCTA
+TCGGTCCTCAATGAGACCGAGGCTCTATGCAGACTCTAAAGGTTACACAG
+TGTGCTCTCTATCTGTCCTCAATGAGACCTAGACCCAATGCAGACTCTAA
+AGTTTGCGCAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGGCCAGT
+GCAGACTCTAAAGTTGCATAGTCTGCTCTCTATCAGTCCTCAGTGAGACC
+TAGACCTAATGCAGACTCTAAAGTTTGCAAAGTCTGCTCTCTATCTCTCC
+TCAGTGAGACCTAGACCCAATGCAGACTCTAAAGTTTGCACAGTATGGTC
+TCTATATGCCCTCAATGAGACCTAGGCCCAGTGCAGACTCGAAAGGTTGC
+ACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCTCAATGCAGACT
+CTAAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAATGAGACCTAGGCC
+CAATGCAGACTCTAAAGTTTGCACAGTCTGGTCTCTATCTGTCCTCAATG
+AGACCTAGGCCCAATGCCGACTCTAGAGGTTGCACAGTGTGCTCTCTATC
+TGCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTC
+TGCTCTCTAACTGCCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAG
+GTTGCACAGTCTGTTCTCTATCTGTCCTCAATGAGACCTAGGCCAAGTGC
+AGACTCTAAAGCTTGCACAGTCTGCTCTCTATCTGACCTCAATGAGACCT
+AGGCCCAATGCAGACTATAAAGGTTCTACAGTCTGCTCTCTATCTGTCCT
+CAATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCGCACTCTGGTCT
+CTTTCTGTCCTCAATGAGACCTAGGCCAAATGCAGACTGTAAAGGTTGCA
+CAGCCTGCTCTCTAACTGTCCTCAATGAGACATAGGCCCAATGCAGACTC
+TAAAGGTTGCACAGTCTGCTCTCTATGTGTCCTCAATGAGACCTAGGCCC
+AGTGCAGACTCTAAAGGTTGCATAGTATGCTCTCTATCTGTCCTCAATGA
+GATCTAGGCCCAATGCAGACTCTAAGGGTTCCCGAGCCTGCTCTCTATCT
+GCCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCC
+TCTCCCTATCTGTCCTCAATGAGACCTAGGCCCAATAGAGACTCTAAAGG
+TTGCACAGTCTGCTCTCTATCTGTCCTCAATGAGACCCAGGCCCAATGCA
+GACTCTAAACGTTGCATAGTCTGCTCTCTATCTGTCCGCAATTAGACCTA
+GGCCCAATGCAGACTCTAAACGTTGCACAGTCTGCTGTCTATCTGTCCGC
+AATTAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCAGATTCTGCTGTC
+TATCTGACCTCAAGGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCAC
+AGTCTGGTCTCTATCTGTCCTCAATGACACCTAGGCCCAGTGCAGACTCT
+AAAGTTTGCACAGTCTGCTCTCTGTCTGTCCTCAAAGAGACCTAGGCCCA
+GTGCAGACTCTAAAGGTTGCACAGTCTCCTCTCTATCTGTCCTCACTGAT
+ACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGTTCTCTATTTG
+TCCTCAATGAGACCCAGGCCCAATGCAGAGTCTAAAGGTTGCACAGTCTG
+CTCTCTATCGGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGT
+TGCACAGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGCAA
+ACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGTCCTCAATGAGACCTAG
+GCCCAATGCGGACTCTAAAGGTTGCACAGTGTGCTCTCCATCTGTCCTCA
+ATGAGACCTAGGCCAAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCT
+ATGTGTCCTCAATCAGACCTAGGCCCAGTGCAGACTCTAAAGTTTGCACA
+GTCTGCTCTCTATCGGCCCTCAATGAGACCTAGGCCCAATGCAGACTGTA
+AAGGTTGCACAGTCTGCTCTCTATCTGCTCTCAAGAGACCTAGGCCCAAT
+GCAAACTCTAAAGGTTGCACATTCTGGTCTCTATCTCTCCTGAATGAGAC
+CCAGGCCCAATGCAGACTGTAAAGGTTGCACAGTCTGCTCTCTATCTGTC
+CTCAATGAGACCTAGGCCCAGTGCAGACTGTAAAGTTTGCATAGTCTGCT
+CTCTATCTGTCCTCAGTGAGACCTAGGTCCAATGCAGACTCTAAATGTTG
+CACAGTCTGCTCTCTATCTGTCCTCGATGAGACCTAGCCCTAGTGCAGAC
+TCTAAAGGTTGCACAGTCTGCTCTCTATCTGCCCTCAATGAGACCTAGGC
+CCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATTTTTCCTCAAT
+GAGACCCAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTAT
+CGGTCCTCAATGAGACCGAGGCCCTATGCAAACTCTAAAGGTTACACAGT
+GTGCTCTCTATCTGTCCTCAGTGAGACCTAGGCCCAATGCAGACTCTAAA
+GTTTGCGCAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGGCCAGGC
+AGACTCTAAAGTTGCATAGTCTGCTCTCTATCAGTCCTCAGTGAGACCTA
+GACCTAATGCAGACTCTGAAGTTTGCAAAGTCTGCTCTCTATCTCTCCTC
+AGTGAGACCTAGACCCAATGCAGACTCTAAAGTTTGCACAGTATGGTCTC
+TATATGCCCTCAATGAGACCTAGGCCCAGTGCAGACTCTAAAGTTTGCAA
+AGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCT
+AAAGGTTGCACAGTCTGCCCTCTATCTGTCCTCAATGAGACCTAGGCCCA
+ATGCAGACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGCCCTCAATGAG
+ACCTAGGCCCAATGCAGACTCTAAAGGTTGCACACTCTGCTCTCTATCTG
+CTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTG
+CTCTCCATCTCTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGT
+TGCACAGTCTGCTCTCTATTTGTCCTCAATGAGACCCAGGCCCAATGCAG
+ACTCTAAAGGTTGCACAGTCTGCTCTCTATCGGTCCTCATAGAGACCGAG
+GCCCTATGCAGACTCTAAAGGTTACACAGTGTGCTCTCTATCTGTCCTCA
+ATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCGCAGTCTGCTCTGT
+ATCTGTCCTCAATGAGACCTAGTGCCAGTGCAGACTCTAAAGGTTGCATA
+GTCTGCTCTCTATCAGTCCTCAGTGAGACCTAGACCCAATGCAGACTCTA
+AAGTTTGCAAAGTCTGCTCTCTATCTCTCCTCAGTGAGACCTAGACCCAA
+TGCAGATTCTAAAGGTTGCACAGTATGGTCTCTATCTGCCCTCAATGAGA
+CCTAGGCCCAGTGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGT
+CCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGC
+CCTCTATCTGTCCTCAATGAGACCTAGGCCCAGTGCAGACTCTAAAGGTT
+GCACAGTCTGGTCTCTATCTGTCCTCAATAAGACCCAGGCCCAATGCAGA
+CTCTAAAGGTTGCACAGTCTGCACTATATCTGTCCTCAATTAGACCTAGG
+ACCAGTGTCGACTCTAATGGTTGCCTAGTCTGCTCTCTATCTGTCCTCAA
+TGAGACCCAGGCACAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTATA
+TCTGTCCTCAATGAGACCTAGGACCAGTGTCGACTCTAATGGTTGCATAG
+TCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAA
+AGGTTGCACAGTCTGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAAT
+GCCGACTCTAAAGGTTGCACAGTATGCTCTCTATCTGCTCTCAATGAGAC
+CTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGCC
+CTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCT
+CTCCATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTG
+CACAGTCTGCTCTCTATTTCTCCTCAGTGAGACCCAGGCCCAATGCAGAC
+TCTAAAGGTGGCACAGTCTGCTCTCTATCGGTCCTCAATGAGACCGAGGC
+TCTATGCAGACTCTAAAGGTTACACAGTGTGCTCTCTATCTGTCCTCAAT
+GAGACCTAGACCCAATGCAGACTCTAAAGTTTGCGCAGTCTGCTCTCTAT
+CTGTCCTCAATGAGACCTAGGGCCAGTGCAGACTCTAAAGTTGCATAGTC
+TGCTCTCTATCAGTCCTCAGTGAGACCTAGACCTAATGCAGACTCTAAAG
+TTTGCAAAGTCTGCTCTCTATCTCTCCTCAGTGAGACCTAGACCCAATGC
+AGACTCTAAAGTTTGCACAGTATGGTCTCTATATGCCCTCAATGAGACCT
+AGGCCCAGTGCAGACTCGAAAGGTTGCACAGTCTGCTCTCTATCTGTCCT
+CAATGAGACCTAGGCTCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCT
+CTATCTGTCCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCA
+CAGTCTGGTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTC
+TAGAGGTTGCACAGTGTGCTCTCTATCTGCTCTCAATGAGACCTAGGCCC
+AATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTAACTGCCCTCAATGA
+GACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGTTCTCTATCT
+GTCCTCAATGAGACCTAGGCCAAGTGCAGACTCTAAAGCTTGCACAGTCT
+GCTCTCTATCTGACCTCAATGAGACCTAGGCCCAATGCAGACTATAAAGG
+TTCTACAGTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCA
+GACTCTAAAGTTTGCGCACTCTGGTCTCTTTCTGTCCTCAATGAGACCTA
+GGCCAAATGCAGACTGTAAAGGTTGCACAGCCTGCTCTCTAACTGTCCTC
+AATGAGACATAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTC
+TATGTGTCCTCAATGAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCAT
+AGTATGCTCTCTATCTGTCCTCAATGAGATCTAGGCCCAATGCAGACTCT
+AAGGGTTCCCGAGCCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCA
+ATGCAGACTCTAAAGGTTGCACAGTCCTCTCCCTATCTGTCCTCAATGAG
+ACCTAGGCCCAATAGAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTG
+TCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAACGTTGCATAGTCTG
+CTCTCTATCTGTCCGCAATTAGACCTAGGCCCAATGCAGACTCTAAACGT
+TGCACAGTCTGCTGTCTATCTGTCCGCAATTAGACCTAGGCCCAATGCAG
+ACTCTAAAGGTTGCAGATTCTGCTGTCTATCTGACCTCAAGGAGACCTAG
+GCCCAATGCAGACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGTCCTCA
+ATGACACCTAGGCCCAGTGCAGACTCTAAAGTTTGCACAGTCTGCTCTCT
+GTCTGTCCTCAAAGAGACCTAGGCCCAGTGCAGACTCTAAAGGTTGCACA
+GTCTCCTCTCTATCTGTCCTCACTGATACCTAGGCCCAATGCAGACTCTA
+AAGGTTGCACAGTCTGTTCTCTATTTGTCCTCAATGAGACCCAGGCCCAA
+TGCAGAGTCTAAAGGTTGCACAGTCTGCTCTCTATCGGTCCTCAATGAGA
+CCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGC
+CCTCAATGAGACCTAGGCCCAATGCAAACTCTAAAGGTTGCACAGTCTGG
+TCTCTATCTGTCCTCAATGAGACCTAGGCCCAATGCGGACTCTAAAGGTT
+GCACAGTGTGCTCTCCATCTGTCCTCAATGAGACCTAGGCCCAATGCAGA
+CTCTAAAGGTTGCACAGTCTGCTCTCTATCTCTCCTCAATGAGACCTAGG
+CCCAATGCAAACTCTAAAGTTTGCACAGTCTGCTCTCTATCTGCCCTCAA
+TGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTA
+TGTGTCCTCAATGAGACCTAGGCCAAGTGCAGACTCTAAAGGTTGCACAG
+TCTGCTCTCTATCTGCCCTCAATGAGACCTAGGCCCAATGTAGACTCTAA
+AGGTTGCACAGTCTGCTCTCTATCTACTCTCAATGAGACCTAGGCCCAAT
+GCAGACTCTAAAGGTTGCACAGTCTGGTCTCTATCTGTCCTGAATGAGGC
+CCAGGCCCAATGCAGACTGTAAAGGTTGCACAGTCTGCTCTCTATCTGTC
+CTCAATGAGACCTAGGCTCAGTCCAGCCTCTAAAGTTTGCATAGTCTGCT
+CTCTATCTGTCCTCAATGAGACCTAGGTCCAATGCAGACTCTAAAGGTTG
+CACAGTCTGCTTTCCATCTGTCCTCAATGAGACCTAGGCCCAATGCAGAC
+TCTATAGGTTGCACAGTCTGCTCTCCATCTGTCCTCAATGAGACCTAGGC
+CCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCTATTTGTCCTCAAT
+GAGACCCAGGCCCAATGCAGACTCTAAAGGTGGCACAGTCTGCTCTCTAT
+CGGTCCTCAATGAGACCGAGGCCCTATGCAGTCTCTAAAGGTTACACAGT
+GTGCTCTCTATCTCTCCTCAGTGAGACCTAGGCCCAATGCAGACTCTAAA
+GGTTGCACAGTATGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAGTG
+CAGACTCTAAAGGTTGCACAGTCTGCTCTCTATCGGTCCTCAATGAGACC
+TAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTCTATCTGTCC
+TCAATGAGACCTAGGCCCAGTGCAGCCTCTAAAGGTTGCACAGTCTGCTC
+TCTATCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTTGC
+ACAGTCTGCTCTATATCTGTCCTCAATGAGACCTAGGACCAGTGCCGACT
+CTAATGGTTGCCTACTCTGCTCTCTATCTGTCCTCAATGAGACCTAGGCC
+CAATGCAGACTCTAAAGGTTTCACAGTCTGGTCTCTATCTGTCCTCAATG
+AGACCTAGGCCCAATGCCGACTCTAAAGGTTGCACTGTATGCTCTCTATC
+TTCTCTCAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTC
+TGCTCTCTATGTGCCCTCAATGAGACCTAGGCCCAATGCCGACTCTAAAG
+GTTGCACTGTATGCTCTCTATCTTCTCTCAATGAGACCTAGGCCCAATGC
+AGACTCTAAAGGTTGCACAGTCTGCTCTCTATGTGCCCTCAATGAGACCT
+AGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCTCCATCTGTCCT
+CAATGAGACCTAGGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCTCT
+CTATTTCTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGTGGCA
+CAGTCTGCTCTCTATCGGTCCTCAATGAGACCGAGGCCCTATGCAGACTC
+TAAAGGTTACACAGTGTGCTCTCTATCTGTCCTCAATGAGACCTAGGCCC
+AATGCAGACTCTAAAGTTTGCGCAGTCTGCTCTCTATCTGTCCTCAATGA
+GACCTAGGGCCAGTGCAGACTCTAAAGGTTGCATAATCTGCTCTCTATCA
+GTCCTCAGTGAGACCTAGACCTAATGCAGACTCTAAAGTTTGCAAAGTCT
+GCTCTCTATCTCTCCTCAGTGAGACCTAGACCCAATGCAGACTCTAAAGG
+TTGCACAGTATGGTCTCTATCTGCCCTCAATGAGACCTAGGCCCAGTGCA
+GACTCTAAAGGTTGCACAGTCTGCTCTCTATCTGACCTCAATGAGACCTA
+GGCCCAATGCAGACTCTAAAGGTTGCACAGTCTGCCCTGTATCTGTCCTC
+AATGAGACCTAGGCCCAATGCAGACTCTAAAGTTTGCACAGTCTGGTCTC
+TATCTGTCCTCAATGAGACCTAGGCCCAATGCCGACTCTAGAGGTTGCAC
+AGTGTGCTCTCTATCTGCTCTCAATGAGACCTAGGCCCAATGCAGACTCT
+AAAGGTTGCACAGTCTGCTCTCTAACTGCCCTCAATGAGACCTAGGCCCA
+ATGCAGACTCTAAAGGTTGCACAGTCTGTTCTCTATCTGTCCTCAATGAG
+ACCTAGGCCAAGTGCAGACTCTAAAGCTTGCCCAGTCTGCTCCCTATCTG
+ACCTCAATGAGACCTAGGCCCAATGCAGACTATAAAGGTTCTACAGTCTC
+CTCTCTATCTGTCCTCAATGAGACCCAGGCCCAATGCAGACTCTAAAGGT
+TGCACACTCTGGTCTCTTTCTGTACTCAATGAGACCTAGGCCAAATGCAG
+ACTCTAAAGGTAGCACAGTCTGCTCTCTAACTGTCCTCAATGAGACATAG
+GCCTAATGCAGACTCTAAAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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+ATttccttccttccttcattccttccttcctccctccctccctccttccc
+tccctccctttttttttttcagggtcttgctctgtcacccaggctggagt
+gcagtggcatgatcacagctgactgcagcctcggactcccaagctcaagc
+gatcttcccgcctcagcctccagagtaggtgggactacaggagtgtgcca
+tcgcacgtggcgaatttcttaatttttattttgtagagatgaggcctccc
+gatattgtccaggctTGGAAGTAGTTCTTGAAATTCAAGAGGATCTGGAA
+GTTCTGGTCTCCTGTCAATATCCCTTTCTAAGATGAAATGTAGAATCCTC
+TAATCACCCCAGGATACCTTTTCCAGCTATATTACCCTTTCCTTTCAGCC
+GACTAGAGTGGAAGCTCAGCAAAGAACGGATCTATGCCTGCACACAGGCA
+GCTTTGAACTCACTGAGATCTATAGAAGAATTTTTTAAAATTTGCCAGAA
+TGAAAAAGAAGTATCCTCCAGTGAGCCTCAAGGACAGCCAGGGAAGGCAG
+CTACTGGGACCTGCCACTGGCCAGGATTGAGAGAGTCTGAGGTGTCCATT
+CTCCTATGGATGGGTCACACATCAGAACTGAACCACAAACCCTTTCCTGC
+TCCCTTGGGACCAGGCTGCCACTCCTTCCTTCCCCTCACCTTGACCCTCC
+CATTCGGCCCCACCTGTCAGGATCACAAGGACCCCCAGATCAGCAGATGG
+GAACCGGACCAAAAAGAGAAATAGCGCTGTCCCGCCCAAAAGTACCAACC
+CCAGACCCCCTGCTCCACCCTCCGAACCACAGGGAGACCCCATGCTCCAC
+CCCTGAAAACCACACGCAGACCCCCGCTCCTCCTCTTAGGGCCATCCCCA
+GACCCCCCCCTCCTACCCACGGGACCACACCCAGAACCCCCAGCTCCTCC
+CCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGA
+CCCCCTGCTCCTCCTCTTAGGACCATCCCCAGACCCCCCCTTCTACCCAC
+GGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGGACCACCCCAGACC
+CCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGCTCCTCCCCTCGG
+GACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGC
+TCCTCCCCTCGGGACCACCCCCAGACCCCCTGCTCCTCCTCTTAGGACCA
+TCCCCAGACCCCCCCTCCTACCCACGGGACCACACCCAGAACCCCCAGCT
+CCTCCCCTCGGGACCACCTCAGACCCCCGCTCCTCCCCTCGGGACCACCC
+CAGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGCTCCTCC
+TCTTAGGACCATCCCCAGACCCCCCCTCCTACCCACGGGACCACACCCAG
+AACCCCCAGCTCCTCCCCTCGGGACCACACCCAGACCCCCCCTCCTACCC
+ACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGGACCACCCCAGA
+CCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGG
+GACCACCCCCAGACCCCCTGCTCCTCCTCTTAGGACCATCCCCAGACCCC
+CCCTCCTACCCACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGG
+ACCACACCCAGACCCCCCCTCCTACCCACGGGACCACACCCAGAACCCCC
+AGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACC
+ACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCT
+CCCCTCGGGACCACCCCCAGACCCCCTGCTCCTCCTCTTAGGACCATCCC
+CAGACCCCCCCTCCTACCCACGGGACCACACCCAGAACCCCCAGCTCCTC
+CCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAGA
+CCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGG
+GACCACCCCCAGACCCCCTGCTCCTCCTCTTAGGACCATCCCCAGACCCC
+CCCTCCTACCCACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGG
+ACCACCTCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCT
+CCTCCCCTCGGGACCACCCCAGACCCCCTGCTCCCATTTTCCAGACCACA
+CCAGACGGCTTCTTCCCTCGGCACCACCCCCAGACTGCCGCTCCTCCTAT
+CGGGACCTCCTCGGGGCCATCTCCAGACCCTCCCCCCGCTCCACCCCTCG
+GGTCCCTCTCGGGACCACCCTCAGACCCCCGCTCCTTCCCTCGGGATCAC
+CTCGAGACCTCCCGCTCACCACCATCATTCAGGCCGGGTAGTGGGGAGAG
+GCCTCTCAGGAGGGACCAGGCCACCCTCCCAGGAGTGAAGGGAGGAGGAC
+AGAGTCACGAGCAGACCAGAAATAACCAGGGACTGACAGACAGCAGGATC
+GGAGAGGGACGGAAAAGGGCTAAGGGCAGGAAAAGTCCCTGAGGCTTTCT
+CCACCCGGAGTGCGGGGTAGGGAGCAgacggagagtgacggagggtgacg
+gagagtgacgAAAGTAGACGATGTCTGACGGAGAAGAGCCGAGCGGAGCT
+GAAGGGCGGCGGAGAGCGACGGAAAGTGGCGAGAATTGACGGAAAGTGAC
+GGGGACTGACGGACAGTGACGAAGAGTCACGAAATTTATCAGAGGGCGAC
+AAAGAGGAAAGCGAAATGGTGAGATGCAGCCGGCCGAGCCTATTCGGAGA
+TGACGGAAAGTGACGGAGAGGAACGGGGAGTAAAGAGGGGTGACGAAAAG
+AGCCGAAGCTGGTGGAGGCGAAGAACTGAGTGAGGGAAGATAGCCGAGAT
+TAGCGGGTGGGCTGCAGCCGGGGCAGTCGCCCGAATGGGCGGGACCCCAC
+GGAGTTAGCGAGAGGATGCGAACAGCGGCCAGCCGGGCAGCACGCGAGCG
+AGGGAGGGCGTGGAGGGCCGTGGGTCCGCCTGCACTGAGGCAGGCATGGG
+TGGCACCGAGGTGACCCGGGTGGGAGGTGCACCGCCGCCCACTCGCAGGT
+TCTGCGCGGAGCCCAAGGCCGTCTTCTCCGCCCCTTTGCAGACCTCGGCG
+CCCAGCCTGGCCCCTGACGCCCAcccgcggccccacccagcgcccgggcc
+cacgaggccgaggagcggcggaggctcgcggcccctggaccgcagaccgc
+gttcccggagcccgGCCGAGCCCCGAGTGGGGCCCTCGCGCGGACTGAGA
+GGGCGGCGGAGGGGCCACGGGGTCCTGCCCAGCCCGCATCGCGCATGCTG
+CTCGGGACCGGCGGCTGCCTTGGGCCAACCCTGTTCCCGCAGCGACCCCC
+CTACTCTTCTGACACGTTCCCATTTTGCTGAAGACACTTGGAGCCAGTGT
+CATCTTTGTGACTGTACCGTTGCGTGTTCGGGGTGCACTCTGCCGTATTC
+TCTTTGCAGAGCACCTAAGGAAGCAGgcgtcgtgcctaagaacgtgagtg
+ctgcaaaaagggtggtttgttccaatccaaccttgaccgctcctggccct
+cccgcatgggtcaagctcactaaacgtctctgtgcctccatttcctcggc
+agaagaacagggacagtaaatgtaccCGTCtgtatgagtgttcagggccg
+ccataaggtaccaagactggagggcttcactgaaaattatcttcccacag
+acctggaggctgaggtccgagagcaaggtgttgtcagcagggctggtttc
+tcctctcctcggcttgcggacgccgtctggtgtacgctcatagggtcttt
+tcactgtgcacaagtatccctatcgtctcttctgtgtgtgtccacacttc
+ctctcatgagaacagcaggttgctttagggcccaccctgacagcctcgtt
+ctaatactatgaggccaaatacactcacgttctgaggcagtgggggttag
+ggcttcaacatCGACAtccgagactgggagatgataaattcctgttgacg
+tacccacccggtttctggtcactggttatggcagcccccaggaaaccaGC
+CCACAGAAACAGCAGTCCCTCCACTTGGTTCTGATCCAGgatgaagccgg
+tgtagaccgccagcgtttggggaatgtgaatgcctgatacgaaggaattc
+tttgtgccatattgttgccttaatgtaactgtgaagttgcgtcaaaataa
+aCATTAATggccgggcgcggtggctcacgcctgtaatcccagcactttgg
+gaggccaaggcaggtggatcacgaggtcaggagatcaagaccatcctggc
+caacacagtgaaaccccatctctactaaaaatacaaaaaattctccgggc
+gcggtggcgggcgcctgtagtcccagctactcgggaggctgaggcaggag
+aacagcgtgagcccgggaggtggagcttgcagtgagctgagattgcacca
+ctgcactccggcctgggcgacagagcgagactccatctcaaaaaataaaa
+atagaaaataaaCATTAATGAAAATTCTCAGCAAAAGTCATATATATTCT
+CGCCAAGGCGACACACCAGCTAATTACTGTGTCGACTCCTTTGTTTTGGG
+CTCGATTTTATGAACTTGGTGCAGTAACACCTGCCGTTTACCTCTGGCCT
+ATCCAAAGCCCAGATaagcacaggcaacaaaagcacaaatagacaaatgg
+tccaacttcgaggttaaacatttctgcacaggaaacaacagtggaaaggc
+aagacatggaataagaggaaataactgcagattatatgtctggtacgtcg
+gatattcgtccagcacatataaagagctcctgcaactgaacaattgaaaa
+acaagttaactgattgaaaaatgagcaaacgacctgaatagatatttctc
+cagaaaagatatacaagtagcaaacaaacatggaaggatcctcaacatca
+gtaatcattagagaaatacacatcaaaaccacagtgatagcacctcacat
+ccatgaaatgctacagtgaaacaaaaatagtgttaacaaggatgtgtgga
+aattggagccctcgtggattgcctgtaggactagaaaatggtgtggccac
+cgtggaaaacactatggagcctcctcaaaaaAGCACTAAATATCAggctg
+ggcacagtggctcacacctgtcatcccagcactttgggagcccgaggcag
+gtggatcacaaagtcaggagttcgagaccagcctggccaacatggtgaaa
+ctccgtctctactaaaaataaaaaattagccgggcgtggttgtgggtgcc
+aggaatcccagctacccgggaggctgaggcaggagaattgcttgaacccc
+ggaggcagaggttgcattgagccgagatcgcgccactgcactccagcctg
+ggtgacaaaggaagactccatctcGGGGGGGCGGGGTGGGGGGAAGCaaa
+cacaaaataattagctgagtgtggtgacagatgcctatagtcccagctac
+tcgggaggctaaggcaggagaagcgcctgaaccaggaggtggaggctgca
+gtgagccgattatgccaccgcactccaccctgggcggcacagtgaaactc
+catctccgcaaaaacaaaaccagaaaaataacaaCTAAAAATCACTTggg
+tgtggtgatgtgcagctgcactaccggctacttgggaggctgagggaagg
+ggatcactgaagcccaggagttcaaggccagcctgggcaacatataaaac
+tctgtctcttaaaaaataaataaataaccagaaaTGGaaccacctatgaa
+ccagcaatcacattacttctccgactaaatccaaaaagattgaaagcaga
+gtctggaagggattattgcacaaccgtggtcgttacagcagtattcacaa
+tagccaaaagatggaagcagcccggtgcccatGATCGCATTATGTTatga
+caccaccacttctcctgttgtcctttccagtttctccccaacctcccctt
+ttccctagtttataagacaagagaaaagagagaaagcaaaaagttggaaa
+gaaacaaaagtaagataaatagctagacgaccttggtgccaccacctggc
+cctggtgattaaaataataatagtattaaccgctgaccaaaactactggt
+gctatctgtaaattccagacattgtatgagaaagcactgtaaaacttttt
+gttctggccgggcgcggtggctcacgcctgtaatcccaggactttgggag
+gccgaggtgggcggatcatgaggtcaggagatggagaccatcctggctaa
+cacggtgaaaccccatctctactaaaaatacaaaaaattagctgggtgCA
+ggccgggcacggtggctccagcctctaatcccagcactttgggaggccga
+ggcgggtggatcacaaggtcaggagatcgagaccatcctggttaacatga
+tgaaaccccgtgtctactaaaaatacaaaaaattagccgggcgcggtggc
+gggcgcctgtagtcccagctactggggaggctgaggcaggagaatgctgt
+gaacccgggaggcggagcttgaagtgagctgagatcacaccactgcactc
+cagcctgggccacagagcgagattccgtctcaaaaaaaataaaaaaataa
+aaactttttgttctcttagctgatgtatgtagcccccactcacgttcctc
+acacttacttgatctattatgactctttcacatagaccccttagagttct
+tagcccttaaaagggctaggaatttctttttcggggagctcggctcttaa
+gacacgagtctgccgaatctcccggccaaataaaaaaacctcttccttct
+ttaatctggtgtctgaggagttttgactgtgactcatcctgttacaGCat
+gactggaaaaagaaaatgtggttcatccatataatgaaatatgaatcagc
+cctaaaaaggaaggaatgatgagacaggctaccacatggactcacctgtt
+gttaacaagataagccagacaaaaaagtgctgtgtgatcccactcctatg
+aggtctctggaagagtggaattcatagagacagacagtagaatggtgggt
+gccaggggccgggggaatggggcaccctggtttgatgtggacacagtttc
+tgttttgtaagatgaagaagttgtaaacatctgttatacaacaatgcgga
+tatgatgaacactgctgaagtgtatccttaaaaatactttaaaggggccg
+ggcgcggtggctcatgcctgtaatcccagcactttgggaggccgaggcag
+gcggatcacgaggtcaggagatcgacaccgtcttggccaacacagtgaaa
+ccccgtctctactaaaatacaaaaaaattgccaggtgtggtggcgggtgc
+ctgtgatcccagctacttgggaggctgaggcaggggaatcacttgaaccc
+gggaggtagaggttgaagtgagctgagattgtgccactgcactccagcct
+gggcaacagagcaagcctccatctaaaaaaaagaagtagttgaaagggta
+aattttatgttatgtggcttttacctccattaaaaaTAAAAATAAAggct
+gaatgtggtagcttacccctgtaatccgagcactttgggaggccaaagca
+ggaggattacttgagctcagaagtgtgagaccagcctggacaacttggtg
+agaccccatctctactagaaatttttttttaattggctgagtgtgatggt
+gtgcacctataatccccagatactcaggaggctgaggcaagaggattgct
+tgagcctaggagcggggggctgtggtgagccatgatggtaccattgcact
+ccagcctgggtgacagagtgagaccctgcctcaaaaaaaaaaaaaattaa
+attaagaaaaaTTTAAAAGGCCAGGCTAATGATATATTTCTTTTATTAAT
+AAACGTGGGAACCTTAATTTAACATGATGTCAATAAACATGATTATGGTT
+CTTCCAAATTTGGGGTCCCTGGTGAGAGAAAAAGAATAAGATAGGGATgg
+gtgtggtggtgcacgcctgtaatcccagcactttgggaggccaaggccag
+cagctcacctgaggttgggagttcgagaccagcctgaccaacatagagaa
+tccccatctctaaaaatacaaaaaattagccaggcgtggtggcgcccacc
+tgtaatcccagctacttgggaggctgaggccggagaattgcttgaacccg
+ggaggcggaggttgcggtgagctgatatcacaccattgcactccagcctg
+ggtaacaagagcgaaactccgtctctaataataataataataaataaaGG
+GCCTCAGGGTGAAGAATTTGGATACCACTTGACTGGAGGCCACCTGGGGC
+CACTTCAGCTCTAGTTTCTGTGGTTTACGGCCACAGTGGTGTCTTCCCTG
+CAACGTTCTCGTGGGTGCCGTATTGACAAAACATTAAAACGAGATGGGGT
+CCCTGCGAGACTCCCGAGGGAGGGAGCAGGAAGATCCGTGCGGCACCGCG
+AAGGTACGGCATGTTCTCCACAACTCTCCCAGGCCACAAAGAAAGATGAG
+TCAGTGGGCTCTGAATTCTCCAGCACAGACAGGGGGCGAGTCAAAGGGCT
+CCCAATCGGACTTGAAGAGATCACGCAGGAAGTCCTGACGTTCACGGCGA
+GCAGGGCTCTGTGTAGGCCAACATGCCAGCACTGTGAGGATAATATTTTT
+TAATCCCCCGTTTCCTTGAGCGGCCCCAGAAAACTTACACACACCCTGTT
+CTGCAGACTCCTGGGAGTGTAGGTCTCATTAAGGGCAGATAGAGACCAGA
+CTGTGCAACCTTTAGAGTCTGCATTGGGTCTAGGTCTCATTGAGAGCAGA
+TAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTAGGTCTCA
+TTGAGGACAGATAGAGACCAGACTGTTGAAACTTTAGAGTCTGCATTGGG
+CCTAGGTCTCATTGAGGACAGATAGAGGGCAGACTGTGCAACCTTTAGAG
+TCTGCAATGGGCCTAGGTCTCATTGAGGACAGATACAGAGCAGACTGTGC
+AAACTTTAAAGTCTGCACTGAGCCTAGGTCTCATTGAGGGCAGATAGAGA
+CCAGACTGTGCAACCTTTAGAGTCTGCATTGGGTCTAGGTCTCACTGAGG
+AGAGATAGAGAGCAGACTTTGCAAACTTTAGAGTCTCCATTGGGTCTAGG
+TCTCACTGAGGACTGATAGAGAGCAGACTATGCAACCTTTAGAGTCTGCA
+CTGGCCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGCGCAAACTT
+TAGAGTCTGCATTGGGCCTAGGTCTCACTGAGGACAGATAGAGAGCACAC
+TGTGTAACCTTTAGAGTCTGCATAGGGCCTCGGTCTCATTGAGGACAGAT
+AGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTGGGTCTCAT
+TGAGGAAAAATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGC
+CTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGT
+CTGCACTAGGCCTAGGTCTCATCGAGGACAGATAGAGAGCAGACTGTGCA
+ACCTTTAGAGTCTGCATTGGACCTAGGTCTCATTGAGGACAGATAGAGAG
+CAGACTATGCAAACTTTACAGTCTGCACTGGGCCTGGGTCTCATTGAGGA
+CAGATAGAGAGCAGACTGTGCAACCTTTACAGTCTGCATTGGGCCTGGGT
+CTCATTCAGGAGAGATAGAGACCAGACTGTGCAACCTTTAGAGTTTGCAT
+TGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCAGACTGTGCAACCTTT
+AGAGTCTGAATTGGGCCTAGGTCTCATTGAGGGCCGATAGAGAGCAGACT
+GTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACACATA
+GAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCCTAGGTCTCATT
+GAGGACTGATGGAGAGCACACTGTGCAACCTTTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGACAGATAGAGACCACACTGTGCAACCTTTAGCGTT
+TGCATAGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAA
+CCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACCGATAGAGAGC
+AGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGAC
+AAATAGAGATCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTA
+TCAGTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACT
+GGGCCTAGGTCTCTTTGAGGACAGACAGAGAGCAGACTGTGCAAACTTTA
+GAGTCTGCACTGGGCCTAGGTGTCATTGAGGACAGATAGAGACCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCCTTGAGGTCAGATAG
+ACAGCAGACTCTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTAATTG
+CGGACAGATAGACAGCAGACTGTGCAACGTTTAGAGTTTGCATTGGGCCT
+AGGTCTAATTGCGGACAGATAGAGAGCAGACTATGCAACGTTTAGAGTCT
+GCATTGGGCCTGGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAAC
+CTTTAGAGTCTCTATTGGGCCTAGGTCTCATTAAGGACAGATAGGGAGCG
+GACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCA
+GATAGAGAGCAGGCTCGGCAACCCTTAGAGTCTGCATTGGGCCTAGATCT
+CATTGAGGACAGATAGAGAGCATACTATGCAACCTTTAGAGTCTGCACTG
+GGCCTAGGTCTCATTGAGGACACATAGAGAGCAGACTGTGCAACCTTTAG
+AGTCTGCATTGGGCCTATGTCTCATTGAGGACAGTTAGAGAGCAGACTGT
+GCAACCTTTAGAGTCTGCATTTGGCCTAGGTCTCATTGAGGACAGAAAGA
+GACCAGAGTGTGCAACCTTTAGAGTTTGCATTGGGCCTAGGTCTCATTGA
+GGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTA
+GGTCTCATTGAGGTCAGATAGAGAGCAGACTGTGCAAGCTTTAGAGTCTG
+CACTTGGCCTAGGTCTCACTGAGGACAGATAGAGAACAGACTGTGCAACC
+TTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGTTAGAGAGCAG
+ACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAG
+ATAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTAGGTCTC
+ATTGAGGACAGATAGAGACCAGACTGTGCAAACTTTAGAGTCTGCATTGG
+GCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGAAACCTTTAGA
+GTCTGCACTGGGCCTAGGTCTCATTGAGGGCAGATAGAGACCATACTGTG
+CAACCTTTAGAGTCTGCATTGGGTCTAGGTCTCACTGAGGAGAGATAGAG
+AGCAGACTTTGCAAACTTTAGAGTCTGCATTAGGTCTAGGTCTCACTGAG
+GACTGATAGAGAGCAGACTATGCAACCTTTAGAGTCTGCACTGGCCCTAG
+GTCTCATTGAGGACAGATAGAGAGCAGACTGCGCAAACTTTAGAGTTTGC
+ATTGGGCCTAGGTCTCACTGAGGACAGATAGAGAGCACACTGTGTAACCT
+TTAGAGTCTGCATAGGGCCTCGGTCTCATTGAGGACCGATAGAGAGCAGA
+CTGTGCCACCTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGAGAAA
+TAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCA
+TTGAGGACAGATGGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGG
+CCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAG
+TCTGCATTGGGCCTATGTCTCATTGAGAGCAGATAGAGAGCATACTGTGC
+AACCTTTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGA
+CCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGTTCTCATTGAGG
+ACAGATAGAGAGCAGACTAGGCAACCATTAGAGTCGGCAGTGGTCCTAGG
+TCTCATTGAGGACAGATATAGAGCAGACTGTGCAACCTTTAGAGTCTGCA
+TTGGGCCTGGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACCTT
+TAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCAGAC
+TGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACCGAT
+AGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCAT
+TGAGGACAGATAGAGACCATACTGTGCAACCTTTAGAGTCTGCATTGGGT
+CTAGGTCTCACTGAGGAGAGATAGAGAGCAGACTTTGCAAACTTTAGAGT
+CTGCATTGGGTCTAGGTCTCACTGAGGACTGATAGAGAGCAGACTATGCA
+ACCTTTAGAGTCTGCACTGGCCCTAGGTCTCATTGAGGACAGATAGAGAG
+CAGACTGCGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGA
+CAGATAGAGAGCACACTGTGTAACCTTTAGAGTCTGCATAGGGCCTCGGT
+CTCATTGAGGACCGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCAT
+TGGGCCTGGGTCTCATTGAGGACAAATAGAGAGCAGACTGTGCAACCTTT
+AGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATGGAGAGCAGACT
+GTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATG
+GAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATT
+GAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTAGGCC
+TAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTC
+TGCATTGGACCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTATGCAA
+ACTTTAGAGGCTGCACTGAGCCTAGGTCTCATTGAGGACAGATAGAGAGC
+AGACTGTGCAACCTTTACAGTCTGCATTGGACCTGGGCCTCATTCAGGAG
+AGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGAGCAGATAGAGAGCAGACTGTGCAACCTTTACAGTCTGCATT
+GGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTA
+GAGTCTGCACTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGTGGGCAGATAG
+AGAGCCGACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTG
+AGGAGAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGACAGATGGAGAGCACACTGTGCAACCTTTAGAGTCC
+GCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAC
+CTTTAGAGTTTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCA
+GACTGTGCCACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACA
+GATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCT
+CTTTGAGGACAGACAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCACTG
+GGCCTAGGTGTCATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAG
+AGTCTGCATTGGGCCTAGGTCTCCTTGACGTCATATAGACAGCAGACTGT
+GCAACCTTTAGAGTCTGCATTGGGTCTAGGTCTAATTGCGGACAGATAGA
+GAGCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGA
+GGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTCTATTGGGCCTA
+GGTCTCATTGAGGACAGATAGAGAGCGGACTGTGCAACCTTTAGAGTCTG
+CATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGGCTCGGCAACC
+CTTAGAGTCTGCATTGGGCTTAGATCTCATTGAGGACAGATAGAGAGCAT
+ACTATGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAC
+ATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTC
+ATTGAGGACAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGG
+GCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTAGAACCTTTATA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAGAGCAGACTGTA
+GAACCTTTATAGTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAG
+AGCAGACTGTGCAAGCTTTAGAGTCTGCACTTGGCCTAGGTCTCATTGAG
+GACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAG
+GTCTCATTGAGGGCAGATAGAGACCAGACTATGCAACGTTTAGAGTCTGC
+ATTGGGCCTAGGTGTCATTGAGGGCAGTTAGAGAGCAGACTGTGCTACCT
+TTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACA
+CTGTGCAAACTTTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGA
+TAGAGACCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCA
+TTGAGGACAGATAAAGAGCAGACTAGGCAACCATTAGAGTCGGCACTGGT
+CCTAGGTCTCATTGAGGACGGATATAGAGCAGACTGTGCAACCTTTAGAG
+TCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGCGACCAGACTGTGC
+AACCTTTAGAGTTTGCATTGGGTCTAGGTCTCATTGAGGGCAGTTAGAGA
+GCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGA
+GCAGATAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTAGG
+TCTCATTGAGGACAGATGGAGAGCACACTGTGCAACCTTTAGAGTCCGCA
+TTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAACTTT
+AGAGTTTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACT
+GTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATA
+GAGAGCAGACTGTGCAACATTTAGAGTCTGCACTGGGCCTAGGTCTCTTT
+GAGGACAGACAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCACTGGGCC
+TAGGTGTCATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTC
+TGCATTGGGCCTAGGTCTCCTTGAGGTCAGATAGACAGCAGACTGTGCAA
+CCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGC
+AGGCTCGGCAACCCTTAGAGTCTGCATTGGGCTTAGATCTCATTGAGGAC
+AGATAGAGAGCATACTATGCAACCTTTAGAGTCTGCACTGAGCCTAGGTC
+TCATTGAGGACACATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATT
+GGGCCTATGTCTCATTGAGGACAGTTAGAGAGCAGACTGTGCAACCTTTA
+GAGTCTGCATTTGGCCTAGGTCTCATTGAGGACAGAAAGAGACCAGAGTG
+TGCAACCTTTAGAGTCTGCATTGGATCTAGGTCTCACTGAGGAGAGATAG
+AGAGCAGACTTTGCAAACTTTAGAGTCTCCATTGGGTCTAGGTCTCACTG
+AGGACTGATAGAGAGCAGACTATGCAACCTTTAGAGTCTGCACTGGCCCT
+AGGTCTCATTGAGGACACATAGAGAGCAGACTGCGCAAACTTTAGAGTCT
+GCATTGGGCCTAGGTCTCACTGAGGACAGATAGAGAGCACACTGTGTAAC
+CTTTAGAGTCTGCATAGGGCCTCGGTCTCATTGAGGACCGATAGAGAGCA
+GACTGTGCCACCTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACA
+AATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCT
+CATTGAGGACAGATAGAGAGCAGACTGTACAACCTTTAGAGTCTGCATTG
+GGCCTAGGTCTCATTGAGGAGAGATAGAGAGCAGACTGCGCAACCTTTAG
+AGTCTTCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGACCAGAGTGT
+GCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGA
+GAGCAGACTGTAGAACCTTTATAGTCTGCATTGGGCCTAGGTCTCATTGA
+GGTCAGATACAGAGCAGACTGTGCAAGCTTTAGAGTCTGCACTTGGCCTA
+GGTCTCATTGAGGACAGATAGAGAACAGACTGTGCAACCTTTAGAGTCTG
+CACTAGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACC
+TTTAGAGTCTGCATTGGACCTAGGTCTCATTGAGGACAGATAGAGAGCAG
+ACTATGCAAACTTTAGAGGCTGCACTGAGCCTAGGTCTCATTGAGGACAG
+ATAGAGAGCAGACTGTGCAACCTTTACAGTCTGCATTGGGCCTGGGCCTC
+ATTCAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGG
+GCCTAGGTCTCATTGAGAGCAGATAGAGAGCAGACTGTGCAACCTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTG
+CAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATGGAG
+AGCACACTGTGCAACCTTTAGAGTCCGCATTGGGCCTAGGTCTCATTGAG
+GACAGATAGAGACCAGACTGTGCAACTTTAGAGTTTGCATTGGGCCTAGG
+TCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCA
+TTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACCTT
+TAGAGTCTGCACTGGGCCTAGGTCTCTTTGAGGACAGACAGAGAGCAGAC
+TGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTCATTGAGGACAGAT
+AGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCCT
+TGAGGTCAGATAGACAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGC
+CTAGGTCTCATTGAGGGCAGATAGAGAGCAGGCTCGGCAACCCTTAGAGT
+CTGCATTGGGCTTAGATCTCATTGAGGACAGATAGAGAGCATACTATGCA
+ACCTTTAGAGTCTGCACTGAGCCTAGGTCTCATTGAGGACACATAGAGAG
+CAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGA
+CAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCCTAGGT
+CTCATTGAGGACAGAAAGAGACCAGAGTGTGCAACCTTTAGAGTCTGCAT
+TGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTAGAACCTTT
+GTAGTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAGAGCAGACT
+GTGCAAGCTTTAGAGTCTGCACTTGGCCTAGGTCTCATTGAGGACAGATA
+GAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATT
+GAGGGCAGGTAGAGACCAGACTATGCAACGTTTAGAGTCTGCATTGGGCC
+TAGGTGTCATTGAGGGCAGTTAGAGAGCAGACTGTGCTACCTGTAGAGTC
+TGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAA
+ACTTTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACC
+GGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGAC
+AGATAAAGAGCAGACTAGGCAACCATTAGAGTCGGCACTTTTCCTAGGTC
+TCATTGAGGACAGATATAGAGCAGACTGTGCAACCTTTAGAGTCTGCATT
+GGGTCTGGGTCTCATTGAGGACAGATAGCGACCAGACTGTGCAACCTTTA
+GAGTCTGCATTGGGCTTAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGTCTAGGTCTCATTGAGAGCAGACAG
+AGAGCACACTGTGCAACCTCTAGATTCGGCATTGGGCCTAGGTCTCATTG
+AGGATAGATAGAGACCAGACTGTTAAAACTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGACAGATAGAGGGCAGACTGTGCAACCTTTAGAGTCT
+GCATTGGGCCTAGGTCTCATTGAGGACAGATACAGAGCAGACTGTGCAAA
+CTTTAAAGTCTGCACTGAGCCTAGGTCTCATTGAGGGCAGATAGAGACCA
+TACTGTGCAACCTTTAGAGTCTGCATTGGGTCTAGGTCTCACTGAGGAGA
+GATAGAGAGCAGACTTTGCAAACTTTAGAGTCTCCATTGGGTCTAGGTCT
+CACTGAGGACTGATAGAGAGCACACTGTGTAACCTTTAGAGTCTGCATAG
+GGCCTCGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAACCTTTAG
+AGTCTGCATTGGGCCTGGGTCTCATTGAGGACAAATAGAGAGCAGACTGT
+GCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGA
+GAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGA
+GAGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTAGGCCTA
+GGTCTCATCGAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTG
+CATTGGACCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTATGCAAAC
+TTTACAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAG
+AGTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAG
+ATAGAGAGCAGACTGTAGAACCTTTATAGTCTGCATTGGGCCTAGGTCTC
+ATTGAGGTCAGATAGAGAGCAGACTGTGCAAGCTTTAGAGTCTGCACTTG
+GCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTG
+CAACCTTTATAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAG
+AGCAGACTGCGCAACCTTTAGAGTCTTCATTGGGCCTAGGTCTCATTGAG
+GGCAGATAGAGACCAGACTATGCAACCTTTAGAGTCTGCATTGGGCCTAG
+GTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTATGC
+ATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACGT
+TTAGAGTCTGCATTGTGCCTAAGTCTCATTGAGGACAGATAGAGAGCAGA
+CTGTGCAACCTTTCGAGTCTGCACTGGGCCTAGGTCTCATTGAGGGCAGA
+TAGGGACCAGACTATGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCA
+TTGAGGGCAGATAGAGACCAGACTATGCAACCTTTAGAGTCTGCATTGGG
+ACCCCAGAAATCCTAAAGCTTTGTGTGGTCTAAGGACGGTTGGAGAGCCA
+CGTCTGGACCATCCCTGTGGCTGCCACCTGAATGGCGGCCAGCACGAGAT
+CTTATGCTTGCACACTGTGCCTGCAAGGGTGGGAGGGGCTGGCTTATCTC
+AGACAACCTCCTGATAGTGGGgtaaaccaaaaatagaattctaagcccct
+cagctgactgagtggacctgtttgtagccaaggggatcccaaagaaacct
+gaaaaacaactcaggccatgacaggaagaggggATCTCGGGCCGTGACCG
+GAAGAGGGAGTCTCGGGCCGTGACAGGAAGAGGGAGTCTCGGGCCGTGAC
+AGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGGTCTCGGGCCGTG
+ACAGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGAGTCTCGGGCCG
+TGACAGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGGTCTCCGGC
+CGTGACAGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGATCTCGG
+GCCGTGACAGGAAGAGGGAGTCTCGGGCCGTGACAGGAAGAGGGGGTCTC
+GGGCCGTGACAGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGGTC
+TCGGGCCGTGACAGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGG
+TCTCGGGCCGTGACAGGAAGAGGGGGTCTCCGGCCGTGACAGGAAGAGGG
+AGTCTCGGGCCGTGACAGGAAGAGGGGATCTCGGGCCGTGACAGGAAGAG
+GGAGTCTCGGGCCGTGACAGGAAGAGCGGGTCTCGGGCCGTGACAGGAAG
+AGCGGGTCTCAGGTTGTGACAGGAAGAGGGAGTCTCGGGCCGTGACAGGA
+AGAGGGAGTCTCGGGCCGTGACAGGAAGAGGGGGTCTCGGGCCGTGACAG
+GAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGGTCTCCGGCCGTGAC
+AGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGATCTCGGGCCGTG
+ACAGGAAGAGGGAGTCTCGGGCCGTGACAGGAAGAGGGGGTCTCGGGCCG
+TGACAGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGGTCTCGGGC
+CGTGACAGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAGGGGGTCTCGG
+GCCGTGACAGGAAGAGGGGGTCTCCGGCCGTGACAGGAAGAGGGAGTCTC
+GGGCCGTGACAGGAAGAGGGGATCTCGGGCCGTGACAGGAAGAGGGAGTC
+TCGGGCCGTGACAGGAAGAGCGGGTCTCGGGCCGTGACAGGAAGAGCGGG
+TCTCAGGTTGTGACAGGAAGAGGGAGTCTCGGGCCGTGACAGGAAGAGGG
+AGTCTCGGGCCGTGACAGGAAGAGGGGGTCTCGGGCCGTGACAGGAAGAG
+GGGGTCTCGGGCCGTGACAGGAAGAGGGTGTCTCGGGCCGTGACAGGAAG
+AGCGGGTCTCAGGTTGTGACAGGAAGGAGTCTCCTGTGTGTAGGGACTCA
+TCCATTCTGTACAACTCATGTGCATCCTCCCATGTGCATCCTCCTCTGTG
+CATCCTTCCATGTGCATCCTtgaaggggtggcctgcccctccacacctgt
+gggcatttctcatcaggaggaacgagagacttgaaaaaagaaagagacac
+agagataaagtagagagaaagaaaaatgggcccaggggaccggcgctcag
+catacagaggacccgcgccggcacctgcctctgagttcccttagtactta
+ttgatcattatcggggagagggggatgtggcaggacaatagggtaatagt
+ggagagagggtcagcaggaaaacgtgaacaaatgtctctgcatcataaac
+aaggtacagaaaaaagtgctgtgctttgatgtgcacatacataaacatct
+caacgccttaaagagcagtgttgccgccagcatgtcccacctccagccat
+aaggcagttttaccctatctcagtagatggaatatacaatcggtttacac
+cgagacattctattgtccagggacgagcaggagacagatgccttcctctt
+atctcaactgcaaagaggccttcctcttttactaatcctcctcagcacag
+accctttatgggtgttgagctgggggatggtcagctctttcccttcccac
+gaggccatatttcagactatcacatggggagaaaccttggacaatacccg
+gctttcaagagcagaggtccctgcggctttccgcagggcactgtgcccct
+ggtttattgagactagaggatggcgatgacttttaccaagtataccgctc
+gtgaacatcttgttaacaaggcacgtcctgcaccgccctggatcccttaa
+accttgatttcatacaacacatgtttttgtgagctccaggttggggcaaa
+gtggctggggcaaagctacaaattaacaacatctcagcaaagcaattgtt
+taaaggacaggtctttttcaaaatggagtctcttatgtctttcctttcta
+catagacacagtgacagtctgatctctctttcttttccctaGAATCTGTG
+CATATCGATGGGGACGAAGTCATCCTGGATGTTGATTGGGACAAGGTCAT
+CTCTGCTTGTTAGTGGGGACAAGTTCATCCCTGGGTGCTTATCAGGACAA
+GGTCAGTCCCGGATGTTGGTGAAGACAAGGTCATTCTGGATGTTGATGGG
+GACAAGATTATCCCCGGACGTTGGCGAGAGCAAGGGGATCTCTGCATGTT
+TGGTGAATGTTGATGGGGACGAGGTCATCTCTGCATGTGGGTGGGGACAA
+GGTCATCCTGATGTTGATTGGTTCAAGGTTAACCTTGGATGTTGGTGGGG
+ACAAGGTGATCTCTACATGTTTGGTGAATGTTGATGGGGACGAGGTCATC
+TCCGCATGTGGGTGGTGGACAAGGTCATCCTGGATGTTGATTGGGACAAG
+GTTATCCCTGGATGTTGGTGGGGACAAGGTGATCTCTGCATGTGGGTGGG
+GACAAGGTCGTCCTGGATGTTGATAGGGACAAGGTCATCCTGGATGTTGA
+TTGGTTCAAGGTTGTTGATTGATTCAAGGTTATCCCCGGATGTTGGTGGG
+AACAAGGTGATCTCTGCATGTGGGTGGGGATGAGGTCATCCTGGATGTTG
+ATTGACTCAAGGTTATCCCTGGATGTTGGTGGGGATAAGGTGATCTCTGC
+ATGTCAGTGGGGACAAGGTCATCCTGGATGTTGATTGGGACAAGGTTATC
+TCTGCTTGTTAGTGGGGACAAGGTCATCCCTGGGTGCTTATCGGGACAAG
+GTCAGTCCTGTATGTTGATGAGGACAAGATTATCCCCGGACGTTGGTGGG
+GACAAGGTGATCTCTGCATGTTTGGTGAATGTTGATGGGGACGAGGTCAC
+CTCCACATGTGGGTGGGGACAAAGTCATCCCTGGATGTTGACTGGGACAA
+GGTTATCCCTGGATGTCGATGGGTTCAAGGTTATCCCTGGATGTTGGTGG
+GGACCAGGTCATCCTGTGGGTGGGTGAGGACTGCCACATCCCGTTTTCCT
+GGTAAAGACATCTTTTTTCTAGCAGGATGGGCCACTGGAGCAGGCATAAC
+TCTCAGTTCCCAGCTGGTGGACAGCCAAGTCCCCAGTTATCTGGTGTCTG
+TCCTTGGGGCCATGTTCTTTCTTCTCATTTCCACCTGAGGAAAGAAAGGC
+CAAGGTACAAGGCCTTCGACCAGGTGTCACTGGGGTTTCTGGGCTGGAAG
+TGCTTCGGGTTGGGAGAGAAGTCTCCCATCTTCCACAAAGTCAACAGGTG
+TACATCAAGGCTTCGTTCATAATCCTCGGTGGGAACTAGGAGAGAGATTG
+GATGCTGTTTAAAGGGTGATGTCCTTGGGCCGGCGTTTGAGGAGGTGTGT
+GCCCTGGTCAGCTGTATTTGGGGACATTAATTTTCAGCCTACAGCTGTTC
+GCCAAACGGGGTCTGTACGCATCAGGATCCAGCCACGTCCAAGGCTCCCA
+ACGAGCTAGGTGCACCTCCTCCAGGCTCCACTCACATCCAGGAGGGTCAC
+GGGCCTGCCTGAGGTCTGCCTGCTCCTGGCACTCAGCAGGGCACTCACCA
+GGGCTGGGAAGGCCCCTGCCCATCCCGGTCCTCTCATTGCAGTGAACCGG
+AGGCTCCTGTACCGGCTGCATCCGGAGCAGGGCATGCCGGCCGGCGTGTG
+CGTGGACGCTGCGGGGAAGCTCTGGGTGGCCTCTGCGTCGATAGAGGCAA
+GGTGATACGCCTTGACCCCGAGACAGGTGTGTGCCGGATGGCGGGGCCGT
+ATGAGGCTTGGCCACATCGGGTGTCCACTGCGTCTGCAGCGTTCTGGCTT
+CAGAAGTCGGGGCCGGGCAGCAATCGCGAATTTGTAGAGACTAAGGGGCC
+TCCGTTTCCCGACGGCACGGACTCCCAGGTTCCCTCTGCAGGTGTGCTAG
+Gtcctggggctgccgcaaccaaggactggctgcctaagaaacaggaagtc
+acctcccccagtcctgcagagcaggagtctgagaccgaggagtttcaggg
+ccgtactccctccaggagctgtagtggagggtccttcctgcctctcccgg
+ctcctgggggctccaggcgtccctgggcttgtggccgcatcactccagtc
+tctgcctccgtctccacgaggcctcatccactgtgtctgtgtctcctctt
+ctgtctctagaaggacacctgtcattgcatttaggatccaccctactcca
+ggatgatctcatctcaagatccttcactaactagatcttgaaacacccta
+tttctatacaaggtctcattcctaggttgtggatattagggtgtagacag
+atctttttgggaaccacagttcaatccaCTTCAATTGTATTGAgactcta
+ggggagggtccttcctgcctctcccagctcctgggggctccaggcatccc
+tgggcttgaggccgcatcactccagtctctgcctccgtctccacgtggcc
+tcctcctctgtgtctgtgtctgctcttctgtctcttagaaggacactggt
+gattggatgtaggacccaccctaacctgctctgacctactaattacctct
+gcaaacaccctatttccaaataatttcccattctgagatcctACTTGGCA
+TGAATCTGGGGAGACTACAGAGCTCACTAGAGCAGGTGCGGCTGGGCCTG
+GCTAGGCAGGTGCCAATCTGGCAGCTCCAGGTGCCACAGAGACACCCATG
+CTGCCCGGGGGTTGGGCCCAGGGTCAGGAGGAACGGCCAGGCAGGCGGCC
+TGGGGTGCTCAGGCTCAGCCCCCACGCTCGCTCACAGGGAAGGTGCTGTG
+CACGGTGGAGCTGCCTGTGTACAGGGTCACCTCCTGCTGCTTCGGGGACC
+CGGCTACGACAACCTCTACGTGACCTCCGCGGCGGACCGCCTGAGTCCGG
+AGCACTTGTTACGGGAGCCCCGGGCTGGACACATCTTCAAGGTTCCGTAA
+GGGTTTTCTGCCGAGAGTCCCTCCTGGGGCCGCGGGCGAGAGCTCATCTT
+TAACCTCGGTGGGAAGCTCGGGCAGGGTGGGCGATGTCTGCAGACAGACG
+GAGGTTATTGTTTCTGTTTCCTAGAAAACAAACGTTTCCAAACttttttt
+ttttgagatggagtttcgctcctgttgcctgggctgcagtgcagtggcgt
+gatctcggctcactgcaacctccgcctcctgggttcaagtgattctctca
+cctcagccgcctgagtagctgggattacagggaggcaccaccacacccgg
+ctaattttgtatttttagtagagacggggtttcaccatgttggtcagact
+ggtctcgaactcccgacctcaggtgatccgccggcctcggcctcccaaag
+tgctgggatgacaggtgcgagccgctgcgcccggccAGTTTCAAAGGTTT
+TATGCCCCCGGGTGTTAGATAGAAATTGTGTTTTTAggccgggcccagtg
+gctcatgcctgtcatctcagcactttgggaggccgaggcaggaggatcat
+gaggtcaggagatcgagaccatcctggctaacctggtgaaaccccgtctc
+tactaaaaaatacaaaaaaaaaattatctgggcgtggtggcacctgcctg
+tagtcccagctactcgggagtctgaggcaggagaatggcatgaacctggg
+aggcggaggttgcagtgagccgagatcgtgccactgcactccagcctggg
+cgacagagcgagactccgtctcaaaacaaacaaacaaacaaaaaTTGTGT
+TTTTAACGTGTGGGTTTTAAAGCCTCCAGCATTGTTCTGGCCTTACTCTG
+CCGGTAACACGGTGTTTCGGCCACAGCCTTGGAACTGATCGCAGCATCCC
+GGCTCCATCCAGGGGTCACGGGCTTTGGGGTGAGAGGAGGCCCCCGTTTA
+CCCCTTCACTGGCTGAGCCGAGAGCCGCTCCCAGGGCAGCTTCGTGCGTT
+GGCCTCCGTGCGGGGGTGCTGGGCCGGCGTCAGCGGCCCCCCGCACGCTC
+ATTCCCGCAGCAGCGTCGGGTTCACAGCGGGCAATAAAGGCAGCCGTTCT
+TCAAAGTCAGCTCGGTTGTGGCTGCCGTGGGGACGTCAGTCACAGCCGAG
+GGACCAAGCACTGGGCCTCTGTGTGGCATAAGTCCTGCCTGGGGCTGTGC
+AGATCCCCCTTACACACCTCATGGCCCCGTAAGCTCACCGGCCCTCCCAG
+AAGTCATCTGTGCGAGACAGAAGGCGTCTCTGCGGAATTCTAACTCCCCG
+CCCAGAAGTGACTGATAGGATGAACAAGGTTTTCTAATTGGCGTAAATAT
+GTATATAATGAGCAttttattttttttgagacggagtctcgctctgtcgc
+ccaggctggagtgcagtggtgtgatctcagctcactgcaagctccgcctc
+ccgggctcacgccgttctcctgcctcagcctcccgagtagctcggactac
+aggcgcccgccaccacgcctggctaattttttgtatttttagtagagacg
+gggtttcactgtgttaaccaggatggtctcaatctcctgaactcatgatc
+cgcccgcctcggcctcccaaagtgctgggatgacaggcgtgagccactgc
+gcccggcGAACAATGTTTCCAAATTGTGGTAAATATATATATAATTAGCA
+Ctttgtgtttttttttttgagacggagtgttgctctgtcacccaggctgg
+agtccagtggcacaaactcagctcactgcaacctccgcctcccgggttct
+agcgattctcctgcctcagcctcccaagtagctggaaccacaggcgcccg
+ccaccacgcccggctaatttttgttcttttagggttttgccatgttggcc
+aggctggtctcgaactcctgacctcccgatccgcccgcctcagcctccca
+aagtgctgggattataggtgtgagccaccacgcccggctaatttttatat
+ttttagtagagatgaggtttcaccgtgttggccaggctgctcttgaactc
+ctgacctcaggtgatccacctgtctcAAGCCAGGCAGGGTGGACAGGAGG
+GTGGGGAGTCTGGGAGCTCGGATGGAGTTGCGACGGGAGGCCCGGCTGGT
+TGCTGCTGCAACTGTGAGGCCAACGCCCAGGTTATTCTATGAATCGAGAT
+GCTTTCACCTGCTGTGAGATTTACCACAAGACAGAGCTTTAAAAAATACT
+TTGCTTggctgggcgcggtggctcacgcccgtaatcccagcactttggga
+ggcagaggcgggtggatcacctgagttcaggagtttgagaccatcctggc
+caacttggcaaaaccccatctgtactaaaaatacaaaaattagctgggcg
+tggtggcgggcacctgtaattcccgctactcgggaggctgaggcaggaga
+atcgcttgaaccggggaggtggaggttgcagtgagccgagatcgctccag
+cctgggcgacaagagtgaaactccatctcaaaaaaaaaaaaaGTACTTTC
+CTTGAGCCGAGGAGCCAGGTTTCCCTCTCCACGTGCCGGAGCCAGTGTGG
+ACGGAGCTCCTTGTATTGTCCAGGACTGCATGGGAAGGCTGAGGGCAGCC
+TGGATGAGTACGGGGAGGCCAGGATCCGGGCAGAGAGGGGTGGAGGGGTG
+CGAGGTGGCATAGGGGCCGGGGCCAGGGCCCTAAAGCAAAAGACTTCTGC
+AAAATCAGTGCTGTAAAAATAAGCGGAAAGTggccgggcacggtggctca
+tgcctgtgatcccggcgctttgggaggctgaggcggttggatcacctgag
+gtcaggagtttgagGGGGGCCTCTGCCTCCCTCCCACCGTGTTGGGGACA
+TCGTGACCCCCCAAGACCGCCTGGGATGGTACAGCCGGCCCCTGCAGCAC
+CCCCTGCATCCACCCCCAGAGCTGGGCTCTGCTGCTGGGACCTGACTGTG
+GCCACTGCCCTCCCAGGGTAATCGGCGGTGGGGGGTGAGCATGGGGATTC
+CACAGACCATCCCGGTCTTCCAACCCTAACCCTGGCCCCTGGCCAGCCTG
+GGAGACGCTGCCTGACCTTGCAGGTCCCTCTGACCTGCTGACTGTGGGTG
+TCCACACCTCACCTCACAGAGCAAACAGGAACCACACACAGGGAAGCTTC
+CTCCCTCCATTCCTGTCCTCAGGTCCCTAAGGGCCCCTGGGGGGCTTCCA
+GCTGCCAACACTGCAATGGTGTATGGGTATGGGGGTGGGGAGCCCTTGAG
+GGACTCCCAGGGAGGGGGTCTCTAGTTGGGGAGAGGCTGCGAACCCCTAG
+GGGAAATGGTGGAGGCTCCCACATCCATGGGGTGGGTGTGGGGGTGTCTG
+TGTGAACCAGCTCATAGAGACCCACCCCATGCTCAGTGCCATTGGCTCAA
+AGGTGCAGCAGGAGGCCCCTCTGGTGACGTGAGCCACCCGGGCACCCAGC
+TGGGCCCCCACAGGGCTGGGCTTGCCCCTCATCTCAGCAACCTGCCTCAT
+CTGTCCTGAACCTCAGCGTGGTCACCCGTGAGGTGGGAGGGGACCTGCTT
+GGGAGCCAGCAGAGGGTCTCTGGGACCTGCCAGGCAATGGCTTTGCACAC
+ACGTCACCTGCATGCATGGTGCATTCAggagagagcacaggccgtcatga
+gaggaagggacacacaaaatgtgctctgtccacagagtggaatagtatgc
+agccatgaaaaggaacggggttctgacacatgGTCTCCTTGTGGAGTCAT
+GAGAATGTGCTGGAGCTAAAGAGAGGGGGGTAGCTAGAGAGAGGTGGGGT
+AGCTACAGAGAGGTGGGGTAGCTAGAGAGTGGGGGTAGCTAGAGAGGGGG
+ATAGCTAGAGAGAGGTGGGGTAGCTAGAGAGAGTGGGGGGAGCTAGAGAC
+AGTGGGGGTAGCTAGAGGGGGTGTAGCTAGAGACAGTGGGGGTAGCTAGA
+GAGGGGGATAGCTAGAGAGAGTGGGGATAGCTAGAGAGGGGGGGGTAGCT
+AGAGAGAGGTGGGGTAGCTAGAGAGGGGGATAGCTAGAGAGAGGTGGGGT
+AGCTAGAGAGGGGGATAGCTAGAGAGAGGTGGGGTAGCTAGAGAGGGGGA
+TAGCTAGAGAGAGGTGGGGTAGCTAGAGAGGGGGATAGCTAGAGAGAGGT
+GGGGTAGCTAGAGAGAGTGGGGGTAGCTGGGGGGGGTAGCTAGAGAGAGG
+TGGGGGTAGCTAGAGAGAGGTGGGGTAGCTAGAGAGGGGGATAGCTAGAG
+AGAGGTGGGGTAGCTAGAGAGAGTGGGGGTAGCTGGGGGGGGTAGCTAGA
+GAGAGGTGGGGGTAGCTAGAGAGAGGTGGGGTAGCTAGAGAGGGGGATAG
+CTAGAGAGAGGTGGGGTAGCTAGAGAGGGGGATAGCTAGAGAGAGGTGGG
+GAGTAGTTAGAGAGGGGGATAGCTAGAGAGAGGCGGGGGTAGCTAGAGAC
+AGTGGGGGGAGCTAGAGACAGTGGGGGTAGCTAGAGGGGGGGATAGCTAG
+AGAGAGGTGGGGTAGCTAGAGACAGTGGGGGGAGCTAGAGACAGTGGGGG
+TAGCTGGGGGGGGTAGCTAGAGAGAGTGGGGGTTGCATCTGACAGTGAGT
+GTTtgtggaagagagagcaactccatctggaatgctgatccacctgttca
+cttctgaccaaccgctgctctgggaaggtctctaagatgattttgctact
+ttctccaatgtgacctcaatagcctggaccataaaccctgccctggggca
+ggtgcacgtggctgtccctgaggcaccttccctgaccgtgagggcccccc
+tccctcccaccaacgttttcctgcatattcctccctggggtgaagccctg
+ggtctgcagggacgaccgggatccactctcctcgcagacacggcttctgt
+tcttacatctctgctaagtatttctttcggagaatctggattagtcagct
+tcttccttcagctctcagcttcctcgacctccggggtgtggtttgcacag
+acccggcccctgcggaaACAGGTGCTAAATGCTAGTGAATGGACCCATTA
+GAATAGTTAATTCTGGCCGGGCACGGTGAAAATGGTTAACTGTggccggg
+cgcggtggctcacacctgtaatccgagcactttgggagaccgaggtgggc
+ggatcatgaggtcaggagtttgagaccagcctggcTGAGGCAGGAGAATT
+GCTTGAACCTGGTGTAATGTGAAAAAAAAACCAGTACGAAGCACAGCTCA
+CAAGGCCTTCCCCCTTTAGGCTTAGAACAATAgcggggcgcagtggctca
+cgcctgtaatcccagcactttgggaggccaaggcaggcggatcacgaggt
+caggaggtcgagaccatcctgactaacctggtgaaaccccgtctctacta
+aaaatacaaaaaattagccgggtgtggtggcgggtgcctgtagtcccagc
+tactcgggaggctgaggcagataaataattgcttgaacccaggaggtgga
+ggttgtggtgagccgagatcacgccactgcactccagcctgggcgacaga
+gcgagactccatctcaaaaaaaaaaaaaaaaaaaaaaaaaTGAAgcctgc
+aatcccagcactttgggaggctgaggcaggtggatcacgaggtcaggagt
+tcaagaccagcctggccaagatggtgaaacgccgtctctactaaaaataa
+aagaaattagccagacatggtggcgggtgcccgtcatcccagctactccg
+gaggctgaggcaggagaatcgcttgaacccgggaggcggagcttgcagtg
+agccgagatggcaccattgcactccagcccgggcaacaagagcgaaactc
+cgtctcaaaacagaaaaaaaTATAGGGTCTCAAACCACACCTCATGAAGC
+CCAGGGATGGGCTTTTGGGGTGGGCCCCACCGTGAGGTATGTGGGTTTCA
+AAGCAGTTCTCTGGGGGCACAGAGCACCTTGGGAATCAGCAGGGAAAATG
+GATCTGGGCAGGCTCCGGCCCTGACATGGACCTGGGGTTCCGGGGACCCC
+TCTTCTGGGCCAGCCAGGCCCCCTTGCGCCTGTGCCCCTCTGGCGACGTA
+CCCCGGCCTTTGCAAGCTGTGTGCGCTCTTCCCACCACCTCCAGGCGGTG
+CACGGCGTCTGCCTGGGACGAGGACTCCAGAGGCTTCTGTGGAATCTGCC
+GCTGCCTTCCAAGGCCGGCACCTCCTGCCCCTGCTATCCTTTGACCTTGG
+GGTTCCCGTCCGAGCCACGGCTGTGACCTCGCGCCCCCAGGAGCTGGCTT
+TTCTTTATCCTCCTTGGTCTTCCtgtcaccgcccaaggggctcacctcgc
+cggctgcgtggacagagtgatttatcactaccacaaagctgcaatcccag
+ccggctgcgtgggaggccggagtttccttattcctcaaatccgtctcccc
+agagaccctgggactggagtttttcaggataatttgctgggtaggaggtc
+agaaagtggggagtgctgattggttgggtcagagatggaatcacagggag
+tcgaagctgtcgtctggcgctgagtcagttcctgggtgggggccgcagac
+cagattagccggttgatcatctgggtggtgccagctgatccgtccagtga
+agggtctgtgacatatctcagcactgattgtaggtttcacaaaagcgatg
+tgagcaggagcaatttgaggagggtcagaaacttgcagcctccagaggcc
+agagtcctaaaccatcatttctaatccaggggataatctcttagtcctgt
+aaacacggcctagtccccaggcaagaaggaggtttgcactgggaaagggc
+tattatcatcttcgtgtcaaagctaaactataaactaagttcctcccaaa
+gatagtgtgggtgacacccatgagtgaagaaggacagcttggagacagct
+tggagacagcttgcagacagcgtggaagttcgaagcaagacggactcagt
+gaggttagctctccttcactgccctaatgttctcacttacaattttatca
+ggccgggcgcggtggctcatgcctgtaatcccaccactctgggaggctga
+ggtgggaggatcacagcgtcaggggtttgagaccagcctggccaatgtgg
+taaaaccccgtctctaataaaaatacgaaaactagccgagtatggtggtg
+ggtgcctgtggtcccagctacccaggagcttgagacaggtgaatggctcg
+aacatgggaggcgaaggttgcagtgagccgagatcgcgccactgccctgc
+agcctgggtgacagagcgagactctgtcttaaaaaaaaaaaaaagaaaga
+aaaattgtttttgcaaaaatggtttcaATCTCAGGGAGTAGAGCCCTTTC
+CTGTGGGACCCGCCTTGCCCAGCTCCCTAGCTCCCTCCCTGCCCGGCCAC
+CCTGCAGGATGCCAGGGTTGGGGGTCTCTGGGGGTTACCAAGGAGGCCCA
+CCTGTTCCTGGGGGCTGCCTAGAGAGCCCCCACCCACGGGGAGCTGAGGG
+CCTCAGAGGAGGAGCAGAGACTCCAGTTCCTGCTAGGGTCAGTTGAGGTT
+ATCTGTAGTTAATTTTTATCTAAAAAGTGATGCAAGCTTATTTTTAAAAT
+GCAAACAggccggtgaagtggctcacgcctgtaatcccagcaccttggga
+ggctgaggttgggggatcgcttgagccccagatttagagaccagccgggg
+caacatagccaggtcctgtctctacaaaaaataATAATTATAAATAAATA
+AAAATAAAAATTCAACTGTAAAGATGTTTATAAAGTAAAAAAGGAAAAAA
+TGTCTTTTTTAACCTCTCCTATTCTTCAGAAAAGGTAACCTATTCATAGT
+CAATACTTATTTGTAATCATTCAATTTGCAATTTAATTAATCATTGAATT
+TTACATACAATTTGCATTTTTGtttttaatcattcaatgtgaaattatat
+aatgtcaacttacccatttcaaagtgtgcactgcagtggcatttagtagt
+cacaaGCTTGGCAGGAtctttttttttttttttttttgagataatctctc
+tctctaggtctgtcacccaggctggagtgcagtggcgtgatctcggctca
+ccacaacctccacctcccgggttcaagtaattctgcctcagcctcccgag
+tagctgggactacaggcgcccgccaccacacccggctgattttttgtatt
+tttagtagagacgaggtttcaccatgttagccaggatggtctccatcctc
+tgacctcgtgatccacccgcctcggcctcccaaagtgctgggatgacagg
+cgtgagccaccgcgcccggccGCGGAGTtttattttttattttatttatt
+tatttatttatttatttatttatttatttttgagatggagtctcgctctt
+tcacccaggctggagtgTCTCAAAAAAGGAAATGAAATATATATATGTGT
+ATATGAAGAAGAGTAAGATGGAATATATTTTACAACAATCAGTGTATATG
+GCCTGTATACCTGAAATAAAAGAGGAAACCAGCTGTGGTCAAAAACTGAA
+TCAGGggccggacgcggtggctcacgcctgtaatcccagcactttgggag
+gccgaggcaggtggatcacatgaggtcaggagttcgagaccagcctggcc
+aacatggtgaaaaacagtctctgctaaaaatacaaaaaattagccgggtg
+tggtggcgggcacctgtaatcccaggtactcacttgggaggctgaggcag
+gagaatcacttgaacctggaaggcggaggttgcagtgagccaagatcgtg
+ccactgcactccagcctgggagacagagtgagactctgtctcaaaaataa
+aagaaaaaagaTCAACCTGAGCCAGCACAGGCTTCTTGTACCCTGAGCTG
+TGGCTTCTTCCCTGCGTGGAAACAACAGGTGTCTGTCGTTGGCTTCAAGG
+TCGGCGGCGTCTGAACCGCCTCTAAGGGGCAGGGTTGGGGACAGTGGGGA
+ATCCAGGTCCGGTCGGGAACGCCCGTGTGGATTTGCAGACGCTGTAGTTT
+TGGGGATGTGGAAGAAAAATAAGTCTTAGgctgggtgcggtggctcatgc
+ctgtaatctcagcactttgggaggctgaggcaggagaatcgcttgaaccc
+aggaggtgaaggttgcagtgagccgagatcgcgccattgcactccagcct
+gggtgacagaccgagattctgtctgaaaaataaaaataaaaaataaaata
+aaGTGggccgggcgcggtggctcaggcctgtcatcccagcactttgggag
+gcctaggtgggtggatcacgaggtcaggagatcgagaccatcctggctaa
+cacagtgaaaccccgtctctactaaaaatacaaaaaattagccgggcatg
+atggctggtgcctgtagtctcagctactcaggaggctgaggcagagaatg
+gcgtgaacccgggaggcggagctggcagtgacccgagatcgcgccattgc
+actccagcctgggtgacagagcgagactctgtttccacaaaaaaaaagaa
+agaaagaaagaagaaagaaagaaaaagaaagagagagagagaaagaaaag
+aaagaaagaaaagaaagaaagaaagaaagaagaaagaaagaaaggaaaga
+aagaaaagaaagaaagaaagaaaaagaaagaaagaaagatagaaagaaag
+aaagaaaaggacaggacacacagaaagcagagaaacagctgcattgggtg
+tgggttggcgtttaccttgtttgaacccggttggaacatttggctgcctt
+tggctgagattcagtgattgccacaagagtaggttctggtctgttgacac
+ctcctgttacgtcacagttcactatgtacagagaaatctttaggccgaac
+ttaaaatatgttgggaggcaacttcaggAACCATCAATATTGTAGACAGA
+AGtttctcttttcaccttttttggtagacacaggatttcactgtgtcccc
+caggctggagtgcagcctcgacctcctagactcaagtgatcctccctcct
+cagcctcctgagtagctgggactacaggaggagggaagaggtctctgtag
+ctggtcctacaagtgcacaccactacgcccagctaatttttatatttttt
+gtagagacagggtcttgccatgttgctcaggctcgtctggaactcctggg
+ctcaagcgatctgcctgcctcggcctctcccaaaagtgctggTTTTTCAA
+TCTCTGTTGACTTGATCAGTGGAAAATGGTAATCGATTTTAACGTTCAAT
+ACCGGTGTGTGGTAGCATATATTTGTATGTGTTTTGACAACTCTATGCAA
+AGTCGAGTGATTCTCCTGCTGTGTGTGATCAGAGGACATTTTGGGACATT
+TAGGGCTGTGTTACAATTTTAAGCGTGGGGACTTGGAGTATGAATGATTA
+GCATGGGACCAGGTGGGCAGGTGCGCCTGGCATCAGGGGTGAGAGGGCCG
+CATACCTGACTCCACTCCTCATCCCTGACTTCCTTCTCCAGCTCAGCTGT
+GGCACGGGCACCCTTGTGCCAGAGGAAACGGGCACTTTTTtctttctctt
+tcttttccttccctccctccctccctctctctctctctctctttcttctt
+tctttttttcttttcttttctttttggagacggagtctattgctgtcccc
+caggctggagtgcaatggcacgatctccactcactgcaagctccgcctcc
+cgggttcacgccattctcctgcctcagcctcccgagtagctgggactaca
+ggcgcccgccaccacgcccggctaattttttgtatttttagtagagacgg
+ggtttcaccgtgttagccaggatggtgtcgatctcctgacctcgtgatcc
+acctgcctcggcctcccaaagtgctgggatgacaggcgtgagccatcgcg
+cccggcTGattcctgttccttctgcccctctctggaggtgtctgcttctg
+gcttctgactctgcttcccaggctgtaggaatagctcccctgcgcctaac
+cccttatgagaaacaaagctgtcctttgcagcctcaccattctttttttg
+ttttgttttttgtttgtttgtttgtttttttgaaacagagtctggttctg
+tcccccacgctggagtgccatggctagatcttggctcactccaacttccg
+ccttccgggttcaagtgattctcctgcctcagcctctcaaggagctagga
+ttacaggtgagcatcaccacacccggctaattttttatatttttggtctc
+gaactcctgacctgaagtgatctgcccgcctcagcctcccaaagtgctga
+gatgacaggcgtgaggcaccgcacctgtccttttttttttttttttttga
+gatggagtttcactattgcagcccaggctggagtgcagtggcacaacctc
+gactcactgcaacctctgcctcctgggttcacgcaattctcccgcctcag
+cctccccagtagctgggattacaggcattcaccactatggctggctaatt
+tttgtatttttagtagagacggggtttcaccatgttggccaggctggtct
+tgaactcccgacctcacggatccacctgcctcagcctcccaaactgctgg
+gatgacaggcgtgagccgctgcacccagccAGCCTTACCATTCTTTAGTC
+GATACTTATAATGCAAAATCGCGCCCTGCTTCCTGAACCCCCAAACCAGC
+AGAGAGAGGAGCTACAGACGTGGAGAATACTTTTTCCAGCGGTGTGATTT
+AGGAAGCCTATACGTGTTGCTCATAAAAATCAGTATCTCTggccgggtgc
+ggtggctcacgcctgtcatcccagcactttgggaggccaaggtgggcgga
+ttgcctgaggtcgggagtttgagaccagcctggccaacatgatgaaaccc
+tgtctctactaaattagccgggcgtggtggcgggtgcctgtaatcccagc
+tacttgggaggctgaggcaggagaatcgcttgaacccgggagatggaggt
+tgcagtgagccgcgattatctcagccttcccggtagatgggattacagac
+gcgtgccaccaggcccagctaaattttgtatttttttttttttggtagag
+acaaggtttcatcatgttggccatccgcccgccttggcctcccaaagtTG
+TGTCTTTTCTCTGGTAAAGGGGTAAGACTCAGCTTCGGAGACACAATTCT
+CTATCCTTTTCATGTCATTTTGCTTCTCGGCAAGGACAGGGGAAAACAGA
+ATTGATGACtttacttttattttttattttttgagacggagaccaagctg
+gagtgcaggggcgcgatctcggctcactgcaacctccgcctccccttttc
+aagcgattctctgcctcagcctctggagtagctgggattacaggcacccg
+ccacctcgcccggctatttttttttttttttttttttttagtagagacgg
+gatttcaccatgttgcccaggctggtctcgaactccagagctcagctcag
+gcaatccacgcgtctgggcctcccagagtgttcggatgacaggcgtgagc
+caccacgcccggccCGGCGACGGTTTTAAACAAGGCAGCTCGGAACAGAG
+CAGCTTCGGGAATCGCACCTGCAGAATGAGATCACGTAGCCTCCGGTCTC
+GGCTCACGCAGGTGTGCTCTGAGCCCGTCACGGCCCGGCCTGAGGCCCCG
+TGAGCCGTGCGGCTGCCCCATGCTGTTGAAACCCGGGTCCGGGGCTCCCA
+GCTTTGTGCCTCTGTTCCCGGCGACGCCCGcacggtgccacctctcagag
+accctccctgctggctctcaaccacccgtgacaactgcgagccggaaaca
+gggtgggataataccttggacccaataaaggtgctggcccagggtccctc
+tctGCTGCATTCCTCACCACCCAGTGTGGGTGGGGCCTGCAGGGCCCGGG
+ACCCATAAATAATCAAATCCTTACCTCCGCCTGGGTGGGACCTGCAGGAC
+CCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGGTGGGGCCTGC
+AGCACCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGGCGGGG
+CCTGCAGGACCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGG
+CGGGGCCTGCAGCACCCGGGACCCATAAATAATCAAATCCTTACCTCCGC
+CTGGGTGGGGCCTGCAGGACCCGGGACCCATAAATAATCAAATCCTTACC
+TCCGCCTGGGCGGGGCCTGCAGCACCCGGGACCCATAAATAATCAAATCC
+TTACCTCCGCCTGGGCGGGGCCTGCAGCACCCGGGACCCATAAATAATCA
+AATCCTTACCTCCGCCTGGGTGGGGCCTGCAGCACCCGGGACCCATAAAT
+AATCAAATCCTTACCTCCGCCTGGGTGGGGCCTGCAGCACCCGGGACCCA
+TAAATAATCAAATCCTTACCTCCGCCTGGGCGGGGCCTGCAGGACCCGGG
+ACCCATAAATAATCAAATCCTTACCTCCGCCTGCGTGGGACCTGCAGGAC
+CCGGGACCCATAAATAATCAAATCCTTAGCTCCGCCTGGGTGGGGCCTGC
+AGGACCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGGTGGGG
+CCTGCAGCGCCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGG
+TGGGGCCTGCAGCACCCGGGATCCATAAATAATCAAATCCTTACCTCCGC
+CTGGGTGGGGCCTGCAGGACCCGGGACCCATAAATAATCAAATCCTTACC
+TCCGCCTGGGCGGGGCCTGCAGGACCCGGGACCCATAAATAATCAAATCC
+TTACCTCCGCCTGGGCGGGGCCTGCAGCACCCGGGACCCATAAATAATCA
+AATCCTTACCTCCGCCTGGGCGGGGCCTGCAGGACCCGGGACCCATAAAT
+AATCAAATCCTTACCTCCGCCTGGGTGGGGACTGCAGCACCCGGGACCCA
+TAAATAATCAAATCCTTACCTCCGCCTGGGCGGGGCCTGCAGGACCCGGG
+ATCCATAAATAATCAAATCCTTACCTCCGCCTGGGCGGGGCCTGCAGGAC
+CCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGGCGGGGCCTGC
+AGGACCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGGTGGGG
+CCTGCAGGACCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGG
+TGGGGCCTGCAGCACCCGGGACCCATAAATAATCAAATCCTTACCTCCGC
+CTGGGCGGGGACTGCAGCACCCGGGACCCATAAATAATCAAATCCTTACC
+TCCGCCTGGGTGGGGCCTGCAGCGCCCGGGACCCATAAATAATCAAATCC
+TTACCTCCGCCTGGGTGGGGCCTGCAGGACCCGGGACCCATAAATAATCA
+AATCCTTACCTCCGCCTGGGCGGGGCCTGCAGGGCCCGGGACCCATAAAT
+AATCAAATCCTTAGCTCCGCCTGGGTGGGGCCTGCAGGACCCGGGACCCA
+TAAATAATCAAATCCTTACCTCCGCCTGGGTGGGGCCTGCAGGACCCGGG
+ACCCATAAATAATCAAATCCTTACCTCCGCCTGGGTGGGGCCTGCAGCAC
+CCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGGCGGGGCCTGC
+AGGACCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGGTGGGG
+CCTGCAGCGCCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGG
+CGGGGCCTGCAGGACCCGGGACCCATAAATAATCAAATCCTTACCTCCGC
+CTGGGTGGGGCCTGCAGCACCCGGGATCCATAAATAATCAAATCCTTACC
+TCCGCCTGGGTGGGGCCTGCAGCGCCCGGGACCCATAAATAATCAAATCC
+TTACCTCCGCCTGGGCGGGGCCTGCAGCACCCGGGACCCATAAATAATCA
+AATCCTTACCTCCGCCTGGGTGGGGCCTGCAGCACCCGGGACCCATAAAT
+AATCAAATCCTTACCTCCGCCTGCGTGGGACCTGCAGCACCCGGGACCCA
+TAAATAATCAAATCCTTACCTCCGCCTGGGTGGGGCCTGCAGCACCCGGG
+ACCCATAAATAATCAAATCCTTACCTCCGCCTGCGTGGGACCTGCAGCAC
+CCGGGACCCATAAATAATCAAACCCTTACCTCCGCCTGGGCGGGGCCTGC
+AGCACCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGGTGGGG
+CCTGCAGCACCCGGGACCCATAAATAATCAAATCCTTACCTCCGCCTGGG
+TGGGGCCTGCAGCACCCGGGACCCATAAATAATCAAATCCTTACCTCCGC
+CTGGGCGGGGCCTGCAGCACCCGGGACCCATAAATAATCAAATCCTTACC
+TCCGCCTGCGTGGGACCTGCAGGACCCGGGACCCATAAATAATCAAATCC
+TTACCTCCGCCTGGGTGGGGCCTGCAGCACCCGGGATCCATAAATAATCA
+AATCCTTACCTCCGCCTGGGTGGGGCCTGCAGGCCGGCCGTGGATGCAGG
+ACTGGTAAATAGTCAAACCTTTATCTCCGCCTGGTGTCTCTCCTAGCCAT
+TGGAGGGGTGCTCCCCATGCTAAATATTCGAAACTCAAACGCGGGGTCAT
+GGGATTTTCTAGTGCAGGAGAGGGTTTTCCATTCCAGGAAGCAGCTGGAC
+CAAGGGCTTCCGTGCCCGGCCTTGGGAGGGGTTTGCAAACACCCCTTGTC
+GGACACAAGGGCACGGTCAACAGGGAAGTCACAGCCATTTACAGGGGCTC
+ACACTTGGCCCACTTCACTCAAGCACCCTTCACAACCCTCGGCTCGCAGA
+ACACAGGCAGCACCGAGGCACGGACGACACGTCCCTCAGCCCACGTGATG
+TCCTCCCCTCGTGTCCAGCCCACACCTGGCCGCCCAGGACACAGAGGGAG
+GAAGGGCTGGGCCCCGAGACCACAGTCCACATCACACCAGGACAGAGGAA
+GGGCCGGGCACTGTGACCTCCGGTCCTCATGACCCTGGGGCACAGCGGGA
+GGAAGGGCCAGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAG
+GAAGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGG
+AAGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGA
+AGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGAA
+GGGCCGGGCCTCATGACCACAGTCCACATCACACCAGGACACAGAGGAAG
+GGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGG
+GCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGG
+CCGGGCCTCATGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGC
+CGGGCCCTGTGACCACAGTCCACATCACACCAGGACACGGAGGAAGGGCC
+GGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCG
+GGCCCTGTGACCACAGTCCACATCACACCAGGACACGGAGGAAGGGCCGG
+GCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGG
+CCTCATGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGC
+CTCATGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCC
+CTGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCT
+CATGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCAGGCCCT
+GTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCTCA
+TGACCACAGTCCACATCACACCAGGACACGGAGGAAGGGCCGGGCCCTGT
+GACCACAGTCCACATCACACCAGGACACGGAGGAAGGGCCGGGCCCCGTG
+ACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCCCGTGA
+CCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGTGAC
+CACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCTCATGACC
+ACAGTCCAGATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGTGACCA
+CAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGTGACCAC
+AGTCCACATCACACCAGGACACAGAGGAAGGGCCAGGCCTCATGACCACA
+GTCCACATCACACCAGGACACAGAGGAAGGGCCAGGCCTCATGACCACAG
+TCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGTGACCACAGT
+CCACATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGTGACCACAGTC
+CACATCACACCAGGACACAGAGGAAGGGCCAGGCCTCATGACCACAGTCC
+ACATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGTGACCACAGTCCA
+CATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGTGACCACAGTCCAC
+ATCACACCAGGACAGAGGAAGGGCCGGGCCCTGTGACCACAGTCCACATC
+ACACCAGGACACAGAGGAAGGGCCAGGCCCTGTGACCACAGTCCACATCA
+CACCAGGACACGGAGGAAGGGCCAGGCCTCATGACCACAGTCCACATCAC
+ACCAGGACACAGAGGAAGGGCCAGGCCCTGTGACCACAGTCCACATCACA
+CCAGGACACAGAGGAAGGGCCGGGCCTCATGACCACAGTCCACATCACAC
+CAGGACACAGAGGAAGGGCCGGGCCCCATGACCACAGTCCACATCACACC
+AGGACACAGAGGAAGGGCCGGGCCCCGTGACCACAGTCCACATCACACCA
+GGACACAGAGGAAGGGCCGGGCCCCGTGACCACAGTCCACATCACACCAG
+GACACAGAGGAAGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGG
+ACACAGAGGAAGGGCCGGGCCTCGTGACCACAGTCCAGATCACACCAGGA
+CACAGAGGAAGGGCCGGGCCCCGTGACCACAGTCCAGATCACACCAGGAC
+ACAGAGGAAGGGCCGGGCCCCGTGACCACAGTCCACATCACACCAGGACA
+CAGAGGAAGGGCCGGGCCCCGTGACCACAGTCCACATCACACCAGGACAC
+AGAGGAAGGGCCGGGCCCCGTGACCACAGTCCACATCACACCAGGACACA
+GAGGAAGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACAG
+AGGAAGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGA
+GGAAGGGCCGGGCCCTGTGACCTCTGGTCCTCATGACTCTGGGGCACAGC
+GGGAGGAAGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACAC
+AGAGGAAGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACG
+GAGGAAGGGCCAGGCCTCATGACCACAGTCCAGATCACACCAGGACACAG
+AGGAAGGGCCGGGCCCTGTGACCACAGTCCAGATCACACCAGGACACAGA
+GGAAGGGCCGGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAG
+GAAGGGCCGGGCCTCGTGACCACAGTCCAGATCACACCAGGACACAGAGG
+AAGGGCCGGGCCCCGTGACCACAGTCCAGATCACACCAGGACACAGAGGA
+AGGGCCGGGCCCCGTGACCACAGTCCACATCACACCAGGACACAGAGGAA
+GGGCCGGGCCCCGTGACCACAGTCCACATCACACCAGGACACAGAGGAAG
+GGCCGGGCCCCGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGG
+GCCGGGCCCCGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGG
+CCAGGCCTCATGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGC
+CGGGCCCTGTGACCACAGTCCACATCACACCAGGACACGGAGGAAGGGCC
+GGGCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCG
+GGCCTCATGACCACAGTCCACATCACACCAGGACACGGAGGAAGGGCCGG
+GCCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGG
+CCCTGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCAGGC
+CTCATGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCC
+CCGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCC
+TGTGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCTC
+ATGACCACAGTCCACATCACACCAGGACACGGAGGAAGGGCCGGGCCCTG
+TGACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGT
+GACCACAGTCCACATCACACCAGGACACAGAGGAAGGGCCGGGCCCTGTG
+ACCTCTGGTCCTCATGACTCTGGGGCACAGCGGGAGGAAGGGCCGGGCCC
+TGTGACTGTGGGAGGAGGCGTGGAAGCCGCTTCCTGCTCCCGTGCCACAC
+CAGGGCACAGGTCATTTTATAGACTCTCCCAGGGCTGTGGAAGGAGGCGG
+GAACCAGGAGGCTGGTGTCCCCGCAGGGCCTCAGTGAagggaggagggag
+gaggaggagggaggagggggagggaggaAACAGATGGGCCAAGAGGAAGC
+CACAGGGGGCTTTGGGCAGAGAGGGGGAGTCTCAATggacaggaagaagg
+agggagaggatggagaaggagcagggggaggaaggaggagggggaggagg
+aGCAGGGGGGAGGGCGGAGTGTGGGGAGGTGACGGGGCCTGAGTTAGGAT
+GGAAAGAGGCGGAGAGGCCGGTGGCCTGTGGCTTGTAGGCCGACCAGATG
+TCCCTGTGCCAGGACAGCAGCCGCCCTCAAGGTACCCCACAGCTGGGGTG
+AGGGAGGAAACAGGGAGCCGGGACAGAAATGGGGTGCAGGGAGAGAAGCC
+CCAGCCGTGGCTATGCGGGAGAATTCCACCCGGGAACATGGGATCCCAAG
+GCAGCCCTTTGAGCCGTCCACTGCGGCCCCCAAACGTTCCGTGCACTCTC
+TGAAGCCCACACTGGCCCTGTCCTGGAGTCCAGCCCGGGGTGGGAGACAG
+CGGGGTGCGTGGGGAGCACCTGCGGGGTGGACCGGAAGCAGCCAGGAGGA
+GGCAGGAACGGGGCCCTGGACAGACCCCTGACCTGGGCTCCTGGTCAGCT
+CCAGGTTGGCTCGGGGGGGGAGATCGCAGGCGTGGGCTGCGCTGGGAGGA
+GCCACTTCCACCGACGGAGGCGGCACGGGCTGCCCAGGGTCCGGGCCACG
+CGGGGCGGGAGAGGTCGGAACCTGCAGGGGGAAGATCCCGGTGGGTTTGC
+TGGCCAAGGCGCTCAGAGCCTGCAGGCTTGGGACTGCCGGCCCCATGCGT
+TGACCCCAGGGCCGAGATGAAAGCACCTGTTCACCCCGTCCTGGGGGCTC
+CGGGAGACCCACCGCAGCCGCGGCCAGTGGCCCGAGTGGGGCCCGTCAGT
+CAGACACCTCAATGTCCCCTGCAAGGGCCCCTCTGACCACAGAGAACCCG
+TGGGCACACACCTCTGGGACGTCCTTGCTGTCTCTAAGCCCCTGACCGGG
+GGACCCCGGGGACACCTTGTTGGGACACACCGTGGGGTCCCCTGGGAGGG
+GTCTTCCGGTCCCCAGTCCTGGTCTGTGGGGTCCCCGTGGGAGTTCAGGG
+CGGTGTTTGCAGCCCAGCCGGTCCCGCTCCTGCGGTGGGGACAGATCCGT
+GGCGGGGGCGGGCTGTCCCTCCTCCTGGTGGCAGGAGTGTCCGCGCCACA
+GCCAATCGCAGCGGACTGGGTGTGTTTTAGGAAGAGTGTCCCGCAGAGAC
+CCGGCGGGAGCTGCCAGGAGCTCTGGGATTCCAGCGGCTGGAAGGTGAGT
+GTGTCTACCCCGTTCTCCTGATGGCAAGTCCCCTACGGGGGACGTGGCGG
+GTGCCGTCTGTGCCTGTTGTGGGCTGGGAATCAGGAACCCGCGCTTCCGT
+CATTGAGGCTCCTTCTCCTCCTCCTGGGACCCTTAGCTGGGGGCACGGGC
+AGGGGGTTCAGGGGGAGGGTCGCCTGGGATCTGTGGCCTGGACGTTGGCA
+GCCACAGGCGGCCTGCACCCCTTGCAGACCGTGAATTCTCTGCCGGGTCA
+GAGCCGCGGAGCCAGTGTGGAAACAGCCCAGGACGGTTATGAAATGAGCC
+CGGGGGCCACGACTTGCTTGGCCGGTTGGACGTCCTCACCCTGCCGCCGG
+GGCCTGCGTGGGGACGGGTCGGGACAGCTGGGACGGTGGGGATGTTGGGG
+CACTGGGAATGCTGGGATCTGAGCACCCCTGTCCTTCCGTTGATTCACCC
+AGCAACCATTCACCCCGTGCGTTGAATGTGCGCGTCACGGCCACTCACGC
+CTCTGGGACGTGAGTCTCCCGAGGACTCAGCGGGCGGGAAGGTGTAGGTG
+TCTCACCCCGCCTGGCGGGTCACCGGGCGTCTGGGCCCGTCCGTCATCTG
+CGCTGTCCCGCCGCGACCGTGAAGGCCAGGGTGGAGAGGACCTCCCCCAG
+GAAGGGTCAGTGCTCCGTGGGACGGCCTCCAGACCCCACTCCGCTGTGCC
+GTCCGGACGAGATGGCAGAGGTGGCTGGGAGTGGGGGCCGCCCCCGGGGC
+TCCTTCCTGCTCCACTTTGTCATGTGTGGGGAAGGCGTCGGGGGACCTGG
+GGACAGGAGGGGGCGCCCCTCAGTGGTCAGGGGACTTGGGATGTGAGGGG
+AGGGGTCAGGGGGAACGTGGGGACAGATGTGGGGATAGGAGGGGACACCC
+CTCAGTGGTCAGGGGACCTGGGATGTGAGGGGAGGGGTTGGGGAACGTGG
+GGACAGGTGTGGGGACAGGAGGGGACACCCCTCAGTGGTCAGGGGACCTG
+GGATGTGAGGGGAGGGGTCAGGGCACGTGGGGACAGGAGTGGACACCCCT
+CAGTGGTCAGGGGACCTGGGATGTGAGGGGAGGGCTCAGGAGGACATGGG
+GACAGGTGTGGGGACAGGAGTGGACACCCCTCAGTGGTCAGGGGACCTGG
+GATGTGAGGGGAGGGGTCAGGGCACGTGGGGACAGGAGTGGACACCCCTC
+AGTGGTCAGGGGACCTGGGATGTGAGGGGAGGGCTCAGGAGGACATGGGG
+ACAGGTGTGGGGACAGGAGTGGACACCCCTCAGTGGTCAGGGGACCTGGG
+ATGTGAGGGGAGGGGTCAGGGCACGTGGGGACAGGAGTGGACACCCCTCA
+GTGGTCAGGGGACCTGGGATGTGAGGGGAGGGGTCAGGGCACGTGGGGAC
+AGGAGTGGACACCCCTCAGTGGTCAGGGGACCTGGGATGTGAGGGGAGGG
+CTCAGGAGGACATGGGGACAGGTGTGGGGACAGGAGTGGACACCCCTCAG
+TGGTCAGGGGACCTGGGATGTGAGGGGAGGGGTCAGGGGGAACGTGGGGA
+CAGGTGTGGGGATAGGAGGGGACACCCCTCAGTGGTCAGGGGACCTGGGA
+TGTGAGGGGAGGGGTCAGGGGGAATGTGGGGACAGGTGTGGGGATAGGAG
+CGGACACCCCTCAGTGGTCAGGGGACCTGGGATGTGAGGGAGGGCTCAGG
+AGGACATGGGGACAGGTGTGGGGACAGGAGTGGACACCCCTCAGTGGTCA
+GGGGACTTGGGATGTGAGGGGAGGGGTCGGGGGACGTGGGGACAGGAGGG
+GACACCCCTCAGTGGTCAGGGGACCTGGGATATGATGAAGGTGACgggag
+gggagggactgtgacgggggaagggactgtgatgggagggagggagTATG
+ACAGTAGCCGGAATGGATGGAATCCGTCATGACACAGAGGATGTGAGTGT
+ACAGCTTTGGGTCCAGCCTGTCCTAGGAGACACTGATTTCCTCGAGTCTT
+Ctgaaccaaaaagtatctgagacaggtctcaggacatttagaaagtgtgt
+tttgctggccgggcacggtggctcacgcctgtcatcccagcactttggga
+ggccaaggcgggcagatcacctgacgtcaggagttcaagaccagcctgac
+caacaaggtgaaaccctgtctctactaaaaatacagaaattacctgggtg
+tggtggtgggcgcctgtagtcccagctacttgggaggctgagataggaga
+attgcttgaacctgggaagcggaggttgcagtgagccgagattgcaccac
+tgcactccagcctgggagacagagcaagactccgtctcaaaaaaaaaaaa
+aaaaaagtgtgttttgctaaggttgaggacgcgcctgtgaccgagcctca
+ggaggtcctgacgacctgtgccctaggtggtcggaggacatcttggtatt
+atgcattttaaggaaacgtcagacatgaatccatacgtgtaagacgaacc
+ttggttctgtcaagcgcgtcggtgcgaagagacccccgaacaggctttgt
+gtgagcgataaagcggttcattcacttgggtgcaagtgggctgagtccga
+agagagagtcagcgaagggagatgggggaggggtggctcaataggagttg
+ggtaggtaatggaaaattacagcaaaaggtggttatctattgtcagcaga
+ggagggattgcaaggtgcgtggtgcacagatcataagactcattgtccag
+aggacgaacggcacaaagtcgattgatcggctaaggtagggcagggagaa
+ctcacgatagtaaaatgttgtaattttagttaaccagttaaggcaggaac
+tggctgttttacttctctgtggtttttccttggctgctccagacttcttg
+gctcctgcaggccacctggacgtatatgtgcaagtcacaggggtgataat
+ggctgagcttcggctcagaggcctgacaggttcaatcggtgaaggtggga
+ctgctccactggtggtgaggcgggcttccaggtcataaggtagattttaa
+aattttctgactggcaattggttgaaagagttattattaggccgggcacg
+gtggctcacgcctgtcatcccagcactttgggaagccaaggcgggcggat
+cacctgaagtcaggagttcgagaccagcctggccaacatggtgagacccc
+cgttgctaccaaaaatacaaaaaattagctgggaatggtggcaagtgctt
+gtaatcccagctgtgctggaggctgaggcaggcgaatagcttgaatccag
+gaggcggaggctgcagtaagctgagatcatgacactgcacaccagtctgc
+gcaacagagcgagaccctgtctctgaaaaaaaaaaaaagaagaaaaaaag
+agttattagtagaaaggaatatctgcattaagataagaggatgtggagac
+gaaggttttttgtttttgaacgggagtctcactctgtctcccaggctgga
+gtgcaatggcgcgatctcggctcactgcaacctccgcctcccgggttcaa
+gcgattctcctgcctcagcctcccagtagctgggactacaggcgcgcgcc
+agcacggctaaatgatttttgtatttttaccagtgatggggttttgccat
+gttggccaggccggtttcgaactcctgacctcaggtgatccgcccgcctc
+ggcctcccaaagtgttgaagtgctcgaattacaggcgtgagccagcgggc
+cccgccCAGACCTGCATTTTAACCTCCCCTCCACCCCGCGGCCCCGGGAC
+CCTGGGCATCCGGAGGCTCACAGCGGCCCTGCTGGGATGCTCCAGGCAGA
+TCACTGCACAGCCCTGCAGGCAGAGGGGAGGCCGTGCAGGAGGAGGGGAG
+GCCGTGCAGGGGGAAGGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGG
+GGGAAGGGGGGCCGTGCAGGGGGAAGGGAGGCCGTGCAGGGGGAAGGGAG
+GCCGTGCAGGCAGAGGGGAAGACGTGCAGGGGGAGGGGAGGCCGTGCAGG
+AGGAGGGGAGGCCGTGCAGGGGGAAGGGAGGCCGTGCAGGCGGAGGGGGG
+TACGTGCAGGGGGCAGCGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGCAG
+GGGGAAGGGGGGCCGTGCAGGGGGAAGGGAGGCCGTGCAGGGGGAAGGGA
+GGCCGTGCAGGCGGAGGGGGGTACGTGCAGGGGGCAGCGGAGGCCGTGCA
+GGGGGAAGGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAAGGG
+GGGCCGTGCAGGGGGAAGGGAGGCCGTGCAGGGGGAAGGGAGGCCGTGCA
+GGCGGAGGGGAAGACGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGGG
+AGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGCA
+GGGGGAAGGGAGGCCGTGCAGGGGGAAGGGAGGCCGTGCAGGCGGAGGGG
+GGTACGTGCAGGGGGCAGCGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGC
+AGGGGGAAGGGGGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGG
+GAGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGGGGGCCGTGCA
+GGGGGAAGGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGGG
+GGGCCGTGCAGGCGGAGGGGGGCCGTGCAGGGGGAGGGGGGGCCGTGCAG
+GCGGAGCGGGGGGCGTGCAGGGGGAGGGGAAGCCGTCCTGGGCCTTTTCC
+AGCTGGCTGCAGAGAAGGGGCCAGCTCCCTCCTGGGGACCCGGAGCCGCG
+GTACAGGTGTGGTTGCTTCTCTTGGAGAAAGAGGCTGAGCTGACATCCCC
+CGGGCTGATAAAGAATGGGCTCCTCCTCCTGGGCCCAGCAGGCTCCCGGG
+AccctccctccctccctccctccctccctccTTCCGGGCAGCAGGGAAGA
+TCTGAGTTCATGTAGCTGGTGTTGGCTTAGGGTCTGGGAGGAAGGCTTTT
+GGGAAGATGTAAATAAGAACAAAATCTGCAGCCACCTGGGAAGCCTGGCC
+TCAGTGTGGAAGAGAAGGCAGCAGGATTATTACAGAACCTTGTGAAGCCA
+ACGCGGGCAGCCGCCAGGAGCTGCAGACCGAGAGGATCTCGTCCTTTCTT
+GCGGCCCAGGGAGACCAGGCCTTTCATTCTGGGCTCGAGACCAACAATTC
+GAATTCCGAACTCCCCCTGCGTGTGGGACTCAAGGTGGGTTTGCAGTTTG
+CAGGCAGCTGAAGTTTGTCTCTTCTCCAGGAGGCCGGGGCTTCTTCCCTT
+CCTCTCTGTCCCAtttcttttttcttgagacagagtctcactttgtcacc
+caggctggagtgcaatggtgtgattgtggctcactacagcccccgcctcc
+cgggttcaagcctcagcctcctgagtagctgggattacaggcgtgcgcca
+ccacggccggctactttttgtacttttagtagaaatggggtttcaccatg
+ttggccaggctggtctcgaacccctgacctcaggtgatccacccacctca
+gcctcccaaagtgatgggatgacaggcgtgagccaccgtgcccggccCCT
+CCAGGTCTCATTTCTAAGAGGAGGCCTCAGGTCCACCAGGAAACATTCCT
+CAGATGTGAAACTGTCAACAGGCTGATTTCTGGGCTCAAGATCAACAATt
+ctaattgatttgattaaatcaattagatctaatgattttaatctaatcag
+ttttaatctaaATGattaaaaatcttacatacattgccgggcgtggtggc
+ggacgcctgtaatcccagctactctggaggctgaggcaggagaattgctt
+gaacctgggaggcggaggttgcagtgagccgagattgcatcattgcactc
+cagcctgggtaacaagagtgaaaccctgtctttaaaaaaaacaaaacaaa
+acaaaaaaaaaaCCGTACATACAgctgggcaccgtggctcacgccagtaa
+tcccagcactttgggaggccgaggcaggcagatcacctgaggtcaggagt
+tcaagactagcctgaccaagatagtgaaaccccgtctctaccaaaaatac
+aaaaattaagcaggtgtggtggcgggcgcctgtaatcccagctactctgg
+aggctgaggcaggagaattgcttgaacctgggaggcggaggttgcagtga
+gccgcgatcgcgccattgcagtccagcctgggcaacgagagggaaactgt
+gtcaaaaaaaaaaaaaaaagaccaaccaaaaaaGttatatacacttcaga
+ggcagagaaagaatttacaagttgtctaaaatgtccttatggaaagggtc
+acttcccttattttcaacagtatattatatatatatacttatatatgtat
+atatagtgatgtatatatgtatatatgttatgtatgtgttatatatgtct
+atattatatatgtatatatgttatacatgtatgttatatatatattatat
+atatattatatatgtatatattatatgtataatatatattatatgtatat
+attatatatgttatatatatgttatgtatataatatgtatatatgtatat
+attCTGTTAtgtgtgtatgtgtgtgtgtgtgtgtgtgtgtAGGcgacacg
+gacacacgtggagtggttttaaggagcggagagtttaataggaaagaagg
+gaggTCCGGGCAGTGGCTCACGCCTGTAATCCCAGCACCgcggaggttgc
+ggtgagccgagatcgcgccatttcactgcagcctgggcaacaagagcgaa
+actgcgtctcaaaaaaaaaaaaaCCaaggcgagaaggcagaaagaagtgg
+ctcccctggactgagacagagggacgggggctccaaaccccaggcaggag
+accagcccgtgttatacggtgcctggaggaggcgtgactcatttgcatag
+cgctgaggggattggtctgaccaggcctgtcattcacgtagcccgcgaaa
+aacctggcccgcccaccccagttccgtaatatgcaaatgtagggcgccat
+gatgttccacacgcctgagggtagtgggggcggccgtggtgtcaggcccg
+ggtggggGCGGCCTTGGTGTCAGGCCCGGGTGGGGGCGGCCGTGGTGCCA
+GGCCCGGGTGGGGGCGGCCGTGTTGCCAGGCCCGGGTGGGGGCGGCCTTG
+GTGTCAGGCCCGGgtgggggcggccttggtgtcaggcacgggtgggggcg
+agggcaagagggcaacggtgggaatcgccatgtgggctggaccagctaaa
+ggctcgcatttgcatattaaaggttgccaagccgggtctaagagccaggg
+ctttcacgctagacaagaaacattttttggagctgcaaaaaatgcttcca
+aggaccccttttcctctctctctctctcttttttttttttcttttttgga
+tatggagtttcactcttgttgcccagcctggagtgcagtggcgggatctc
+cgctcactgtaacctccacctcccgggttcaagcgattctcctgcctcag
+cctcccgagtagctgggatgacaggtgccacaggtgcccaccaccacgcc
+cagctaatttttgtatttttagtagagatggggttttgtcaagttggcca
+ggctggtctcgaactcctgacctgaagtCACCGTAAAAAACCTCTTTTCC
+TCTTCTCCTTCCTCAGGTTGCCCAGGGCTCACCTCTGATGGGTGGGCAGG
+TGAGCGCTTCCAACAGCTTCTCGAGGCTGCACTGCAGAAATGCCAACGAG
+GACTGGATGTCGGCACTGTGTCCCCGGCTCTGGGATGTGCCCCTCCACCA
+CCTCTCCATCCCAGGTGAGGTTGGGGTGGGGCAGGGGCCGTTGCCTCTAT
+CCCAGGTGACGGCAGGGTGGGGCGGGAGCTGTGGCGTCTGCATTCCCCAG
+TGGGGACGCTGGCTGTAGGAGCAATCCTGGGTGTAGGGAAATCCTAGAAA
+GCACACTGATGTGGACACACACATACACACAGTGCACACGTGTGTGCATA
+CACATATGTACATAGTCATGGACATGCACAGACATGCATACACACAGGCA
+TGCACACATGTGCACACATacacaggcatacatgcacacacgcacacacg
+cacacacgcacacatgcacatctgcacacgcacatctgcacacacacatg
+cacatctgcacacacacatgcacatctgcacacATACGCATGTGCATACt
+gtgttggtctgttctcacgctgctaacaaagacatacccgagactgggta
+atttataaaagaggtttaatggactcagttccacctggctggggaggcct
+cacaatcacggcagaaggtgaatgcggagcaaagtcacatgttacatggt
+ggcagccaacagagcgtgtgctggagaactgccctttgtacaaccatcag
+atctcgtgagacttattcacgatcacgagaacagcatgggaaagacccgc
+cccgtgattcggtgacctcccaccaggtccctcccatgacagatgggaat
+tatgggagctacaattcaagatgagatttgggtggggacacagccgagcc
+atatcaCATACATAGGTGCACATAGGCACACATGCAGGCACACACAGACA
+CATACATACACACACACATGCATGCGCACACACATACATGCATGCACACA
+TGCACATCCCCACACATATGCACATGGATGCATATACATGCACACACACA
+GGTGTACACACATGCAGGCACATGTATACATGGATGTAGGCACATACTAA
+TGCACACATGTATACATGCACATAGGCTCATACACACATGGATGCACATA
+CACATGCATGCACATGTGCGGGTGTGTACACATGCACATGCACACGTGTA
+CACATGTACACACATGCACACATGTATATATATATTTGCACCTATGCACA
+CATATATACACCTGCAGATATACACAGGTGTAGACATGTACATGCACAGA
+CACACGTGCACACATAAACATTTGCACCTATGCACGCAGAGACACGTCTA
+TGCAATGCATGTATACACGTGTACACACGTACATGCATGCACACAGACAT
+ACACATGTACACATTTGCACCTATTCACATAGACATACATGAATGCACAT
+ATGCACACGTGTACACAGGCACACATGCACATGCACACGCGTGTACACAC
+ATGCACACACGTAGACACACGTCCATGCACACAGGAACACAGGTACATGT
+TTAAACACAGGCACACACATGCACACTCACATATAGGCATACGGACACAC
+ATACACATGCACACAGATACGTATtgtcaacctaaggaaataaacttaga
+caaaattaatataagtagggggtttccttgagccacatttgaggactgca
+gcccaggaaaccctccaactcgccttaggaagtggctgtggagaacaacg
+tcgagacgggagcttctaaagaaagtgcacatcaggagagggggtgatga
+tgaaagctgtttttcaggaattcatgtgggttactgaagtggcatcgagc
+actgatcgcgttcttccttgcaatgtagggaatgagttatggtgccccag
+tgtgacatcctgaggttaattttttttttttgagacggagttttgctctt
+atcgcccaggctcgagtgcagtggctccacctcagctcatcgcaacctct
+gcctcctgggttcaagcgattctcctgcctcagcctcccgagtagctggg
+attacaggcacgctccactatgcctggctgatttttgtatttttagcaga
+gatggggtttcaccatgttggtcaagctggtctcgaactcccgacctcag
+gcaatccacctgcctcggcctcccaaagtgctggcattgcagacatgagc
+tattgcacccgacatcttaggttaatttgtagagatgcggggcatctgtc
+agtctagagctgacctagtaagtagcttccaggggtgatactgtagcagg
+accagccgcagacaaaactcagacaccggattaaagaaagaagaggtttc
+tttggccgggagcttcggcagactcacatcttaagagccgagctccttaa
+aaaagaaattcttggcctttttaaaggcttacaactctgaggggtccacg
+tgaaggggtcgtgataaatcaagcaagtgtggggaacgtgactgggggct
+acatgtgtcagctaacagaacagaaagttttgtaacgctttttcatacaa
+cgtctggcatttacagataacagaagtggtttaggttatggattgatatt
+attttaactcccagggctgggtggtggtgccaaggttgtctggctattta
+tcttacttctgtttctttccaaccttttgctttctcctgtcttataaact
+aggcaaggtgggggtagggggcagcaggagaagtactggtctccttcctt
+aacaccttagctcaagatcgggggagcaggtgactgtggcttcgttccaa
+tgcctctcggggtctggggatttaaagggggtccacgttcctcagaGGAT
+GTAAAGGGGCTTCACGTTCCTCAGGGGATTTAAAGGGGGAAggccgggcg
+tggtggctcacgcctgtaatcccagcactttgggaagccaaggcaggagg
+atcacttgagtttaggagtttgagagcagcctgggcaacatagtgaggcc
+ccatctctgcaaatatgtatatacacacacacatttatatgtaagtgtac
+atatttatatataaacatacatatttatatttatatataatatataaata
+agtaaatgtaaaatataaaatatatatcatatatttatataaatatatga
+tacataagtacatttatatattatatttataaacataatatgtggatata
+tattttatatatttatataaatacatatttatgcaaaaatatgtatttat
+gtaaatatatactaatatatgtttatatatagatatatatacactatata
+tgtttatatatagaatatatactatatatgtttatatatagatatagata
+ctatatatgtttatatatagatatagatactatatatgtttatatataga
+tatagatactatatatgtttatatatagatatagatactatatatgttta
+tatatagatatagatactatatatgtttatatatagatatagatactata
+tatgtttatggatatagatactatatatctttgtttatagatatagatac
+tatatatgtttatatatagatatatgtcatatatatcttaaatatatata
+tcttaaatatagatatatttatatctatatttaAGAAATAACAACTACGT
+GTCATAGGCAGGAAATGCAAACGTCAGCCATCAGTCAAACTCTACAAAGG
+TCTGTgtttcttgcggttaccataacaagtgagcacacgtcaggaggcgg
+caaagaacagaaatttactctctcccagttctagatacagaaatctgaag
+tcaagatatgggcaggaccacacgtcctcctgaggctctaggggagggtc
+cttcctgcctctcccagctcctgggggctccaggcatccctgggcttgtg
+gccgcatcactccagtctctgcctccatctccacgtggcctcctcctctg
+ggtctgtgtctcctaaggacacctgtcattgcatttaggacccagcacaa
+agccaagatgacttcatcttgagcattttgagagcatgtgtaaagaccct
+atttccaaacaggatcccattcacaggttctgggcagggggttaggactt
+gaacagctcttttggggatcaccactcaagtcatTGAAATTGTATTCAgt
+tccttctagaggctctagagtgggggatccttcctgcctctcccagctcc
+tgggggctccaggcatccctgggcttgtggccgcatcactccagtctctg
+cctccgtctccacgaggcctcctcctctgtgtctgtctcctcctcttgtg
+tcttagacggacacctgtcactggatttgggggcccgccctactccagga
+tgatctcatttcaacctaatgatatctgcagagaccctgtttcaacacgg
+gtcgtgttcccaggttccagtggacgtgagttttgggggTCAGCGTGCAC
+CCCTCCCGCCATACCTGTGCCTGTGCTGTGGGCGGGCAGCAGCCTGTGCT
+GTAGGCGGGCTGTGGAGCGACTCACAGCAGGTGGCGGGGACGGACTCGTG
+GTGACATGTCCGCGTGTGTGCTTTGCTCTCAGGGAGCCACGACACGATGA
+CGTACTGCCTGAACAAGAAGTCCCCCATTTCGCACGAGGAGTCCCGGCTG
+CTGCAGCTGCTGAACAAGGCCTTGCCCTGCATCACGCGCCCTGTCGTGCT
+GAAATGGTCCGTCACCCAGGTACGGTCTGTGCCCCGTGCTGCTGACCTGG
+CCTGTCAGCTATGTGGGGCCCACGGCCCCGTGGTGCTGAAATGGCCCCTC
+ACCCAGGTAGGGTTTGAGTGGTGCCCTGTGGGCTCAGGAGGCAGGTTCCT
+ATCCCAgctgcggagacaggattaaaacaaaacctgctgcccacccagaa
+cccctccccagaggtggaagagaggggaacagtgtttttatttatttatt
+ttttgagacagggtctcactcttcttacccgggctggagtgcagtggcgt
+gatctcggctcactgcaacctccgctgcctgggttcaagcgattctcctg
+cctcatcctcctaagtacctgggtctacaggcacctgtcaccacacctgg
+ctaattttttgtatttttagtagagatggggttttaccgtgttagtcagg
+atggtcttgatctcctgacctcatgatctgcccgccccagcctccgaaag
+tgctgggattacaggcgtgagccaccgcgcccggcccagcattttattaa
+atggcgtaaagctaatgccgtgagcatcgcaggcctccactgagagctgc
+agagggagagggtctcgccctgttgcatcccagcagagacaacacctttc
+tttttctttctttttcttttttttttttttgagacggagtctcactgccg
+cccaggctggagtgcagttggtgccatctcggctcactgcaagctccgcc
+tcccgggttcacgccattctcctgtctcagcctcctgagtagctgggact
+acaggctcccgcgaccacgcccggctaatttttggtattttgagtagagt
+cagggtttcactgtgttagccaggatggtctcgaactcctgacctcgtga
+tccacccgcctcagcctcccaaagtgctgggattacaggcgtcagccacc
+gcgcccggccgagacaacccctttcatgcctgcactcaagacagacaagg
+actCATTTCTCGTGTCTTTAGGACCTGAGGCGGGTCTGCAGTTTGCAGTC
+AGGCATCTGCTAGTCCCTGGGAAACAGGGAGACAGGCCCCTTTCTCCCTA
+ATAATCACATTCATTCAttcctttagagatggagtctcgctctctcaccc
+agactggagtgcggtggtgcgatctcagcttcctgcagcctgggcctccc
+aggatcaaaggatcctccttcctcagcctcccgggcagctgggactacag
+gtgtacaccaccacacccaggctgatttttaaaatttttagtagaggccg
+ggcgcggtggctcacgcctgtaatcccagcactttgggaggccaaggtgg
+gtggatcacgaggtcaggagatcgagaccgtcctggctaacatgttgaaa
+ccacatctctactaaaaatacaaaacaaaattagctgggcgcggtggcgg
+gcgcctgcagtcccagctactggggaggctgaggcaggagaacggcatga
+acccgggaggcggagcttgcagtgagcccagattgcaccactgcactcca
+gcctgggtgacagagcgagactccgtctcaaaaaaaaaaaaaaaaGGCCA
+GGTCCCCGGAGATGAGGTTTTCCAAATGCAGGTCCCCGTGGCTGCAGCGC
+TCCCAGCACATACAAACAGCTGTTGTTACGACATCCACGTCCCAGTGGGC
+AGCAGGACATGCGGGTGGGCCAACCCCACAGCCCATTCCTGAGCCCCCCA
+GACGCGGCGCTCAGCCAGGCAGACATGACAGCAGCCTCTGTCCACAGGCA
+CTGGACGTCACAGAGCAGCTGGATGCCGGGGTGCGGTACCTGGACCTGCG
+GATAGCCCACATGCTGGAGGGCTCGGAGAAGAACCTGCACTTTGTCCATA
+TGGTGTACACAACGGCGCTGGTGGAGGTGCGGCCGGGCTGAGGTGGGACG
+CAATGGGGAGAGTGGGAGGCGGCCGGGCACTGGTGCAGGTGCGGCCGGGC
+TGAGGTGGGAAGCAAGGGGGACAGCGGGAGGCGGCCGGGCACTGGTGCAG
+GTGCGGCCGGGCTGAGGTGGGAAGCAAGGGGGACAGCGGGAGGCGGCCGG
+GCGCTGGTGCAGGTGCGGCCGGGCTGAGGTGGGAAGCAAGGGGGACGGCG
+GGAGGTGGCCAAGCTCCCGTGGGGATGAAACAGCCACATGCAGATGTGGA
+CAGGAAACGCCCGGTCTTTAATGGAAGGGTGACGTCACCTATACACCAGA
+CAGGAGACACTGACCCCGCCAATCCGTTACGGAGAtttcttttttttttg
+ctttttttttttggagatggagtcttgctgtgtcgcccaggctggagtgc
+agtggtgcaatctcagctcactgcaacctctgcctcctgggttcaggcaa
+ttctcctgcctcagccttccaagtagctgggattacagacgccggacacc
+acgcccagctaatttttgtatttttagtagatacggggtttcaccatgtt
+ggctaggctggtctcaaactcctaacctcaggtgatccacccgcctcggc
+ctcccaaattgctgggatgacaggcgtgagccgccacaccccgccTTCCC
+TGTGGTGTTGGAGTCGTGCAGGACTCAGCCCAGCACCCCCCTCCCCAGGA
+CACACTCACGGAAATCTCGGAGTGGCTGGAGCGGCATCCACGCGAGGTGG
+TCATCCTGGCCTGCAGAAACTTCGAGGGGCTGAGCGAGGACCTGCACGAG
+TACCTGGTCGCCTGTATCAAGAACATCTTCGGGGACATGCTGTGTCCTCG
+TGGGGTGAGGAGGGGAAGGATATCCGCACGTCTCTCCCGGGGCAGGGGCA
+TCGTCAGCCTCAGACTCCATTTGCTGTGCCCTGGGTGTGGGTGCTGCCAT
+GATTCCTGTAGCAGGTGAAGCCGTCGAACGGGGGCTGCCTGCTCTCCCGC
+AGTGTGGGGGGCCCTGGCTGACCCGGTGGGGTGGCTCCTGGTGAGATCTG
+CTTCCCTTGACGGGTTTAGAAATGTGTGCAGCGTCAgccgggcgcggtgg
+ctcacgcctgtcatcccagcactttgggaggccgaggcgggtggatcacg
+aggtcaagagatcgagactatcctggccaacatggtgaaacctggtgtct
+actaaaaatacaacaattaggctgggtgtggtggctcacgcttgtcatcc
+caggactttgggaggccgaggcgggcggatcacgaggtcaagagattgag
+actatcctggccaacatggtgaaaccccgtctctactaaaaataccaaaa
+ttatctgggtgtggcggtgggtgTgccggacgcagtggctcacacctgtc
+atcccaggactttgggaggccgaggcgggcggatcatgaggtcaggacat
+cgagaccatcctggctaacacggtgaaaccccgtctctactaacacaaaa
+tacaaacaattagccgggcgtggtggcgggcgcctgtagtcccagctact
+cgggaggctgaggcaggagaatggtgtgaacccggggggtggaggttgca
+gtgagccgagatcgcgccactgcattccagcctgggagacagagcgagat
+ccgtctcaaaaaataaaaaataaaaataaataaaTATATAAAAAtagaga
+cagggtcaccctgtgcagcccaggctcgaattcctggcctcgagtgatcc
+tcccgccgtgtcctcccaaagtgctgggattacaggcatgagcccctgca
+cctggccATACTTAAtttatttatttatttgagagggagtctcggtctgt
+ctcccaggctggagtgcaatagcgaaacctcggctcaccgcaacctctgc
+ctcccaggttcaaacgattctcctacctcagccttctgactagccgggat
+gacaggcgtgcaccaccgcacccggccaatttttgtatttttagtagaga
+tggggtttcaccatgttgcccgggctggtctcaaactcctgacctcaggt
+gatccacccacctcggcctcccaaagtgctgggattacaggcgtcagcca
+ctgcgcccggccAGAATTTCATTTTTGGTTTATACTCGTGTTGGGCCGGT
+GTCCCGACTTCCCAGCCCTCCGCTCTCCCAGGTGCCCCCGGCTCTCCTCT
+CTCCCCTGCACCCCTTAACTCTGGTCCTTTGCAGGAGGTGCCGACACTGC
+GGCAGCTGTGGTCCCGGGGCCAACAGGTCATCGTCTCCTATGAAGACGAG
+AGCTCCTTGCGCCGGCACCACGAGCTGTGGCCAGGAGTCCCCTACTGGTG
+GGGAAACAGGGTGAAGACCGAGGCCCTCATCCGATACCTGGAGACCATGA
+AGAGCTGCGGCCGCCCAGGTACCAGGTCGCCCCTCGTGGGGGTAGATTCC
+ACACAGCCTCCCGTGACGCCCTGCGGCAGGCCGGGTCCACATGGACTTGC
+CTTCACTTTTACGTGAAAACAATTTAAAAGGAATCCATGAgctgggcgtg
+gtaatccctgtacctgtaatcccagcacttcgggaggccgaggcgggtgg
+atcacctgaggtcgggagtttgagaccagcctggccaacatagtgagacc
+ccaactttactagaaataaaacttagcggccgggcgcagtggttcatgcc
+tgtcatcctagcactttgggaggctgaggcgggcagatcacctgaggtcg
+ggagttcgagaccggcctgaccaatgtgatgaaaccctgtctctacttaa
+gaAGCACCCagggagaaagcagtccatgtacattggcggggggagggatc
+aacaaggtgtggtccatccacgcggtggaatattacacagccatgaaaaa
+gaacgaggctctgacaaggatgcagcgggcacaaaccttaagacatcacg
+ctcagtgagagaagccagacacaaaaggacacgtagtgtgtgaatccatt
+tacaggaaatgcccagaacatgccaatccagagacagaaagaggatttgt
+ggttgccgggggctgcggaggggaaatgaggactgactgcttcatggaaa
+cagggtctctccttttaggacgatgagaatgttctggaactagggagagg
+tcggagttgcacaacgtgaatccactTTATTTTttttagttaattctttg
+attagagaaggggtctcactgtgttggccaggctggtctcaaactcctgg
+tgtcagccaggtgcggtggctcacacctgtgatcacagcactttgggagg
+ccaaggtgggtggatcacctgaggtcaggagtttggagaccagcctggcc
+aacatggcgaaacctcttctctagcaaaaatacaaaaattagcgggcaca
+ggccgggcgcggtggctcacgcctgtaatcccagcacttcgggaggccga
+ggcgggcggatcatgaggtcaggagatcgagaccatcccggctaacatgg
+agaaaccccgtctctactaaaaatacaaaaaattagccgggcgtggtggc
+gggcgcctgtaatcccagctactccggaggctgaggtaggagaatggtgt
+gaactcgggaggcggagcttgcagtgagccgagatcacgccactgaactc
+cagcctgggcgacagagtggaactctgtctcaaaaaaaaaaaaaaaatag
+gcacctgtaatcccatctacttgggaggctgaggcaggagaaatgcttga
+atccaggaggcggaggttgctgtgatccatggtcgcgccactgcactcca
+gcctgggcgacaggagcaagactccatctcaaaacaaaacaaaaaagaga
+aaaattagccaggcatggtgatgcgcgcctataatcccagctactcagga
+ggctgaggcaggggaatcacttgaaccaggaaggcggaggttgcagtggg
+ccgagatcgagccagtgtactccagcctgggcaacagagcgagactctgt
+ctcaaaacaaaacaagacaaaaTCAAACTTCTGGGGTCAAGCGATCTGCT
+TGAACCACCATTCCCAGCCGAGTTGTGCAATTTAAAATCGTGAATTTCgg
+tgcagtggctcacgcctgtaatcccaccactttgggaggccgaggcaggt
+ggattaattgagatcaggagtttgcgaccagtctggtgaaaccccatctc
+tagtaaaaatacaaaaagatttagctgggcgtggttgtgtgcacctgtaa
+tcccagctcctcgggaggctgaggcaggagaattgcttgaacccgggggc
+ggaggctgccgtgagccgaaatcgcgccacagcactccagcctgggcaac
+agagcgagactccatcttgggaaaaaaaaaaaaaGGTAACTTTTTTGTAC
+GTGAATTTCACCACAATTTTTGTAAAAAAGCCACCGACGGGGTGTGAGGT
+GCAGACAGCGTCGGCAGCCACGGCCCCGTGTCCTCCggaggcaggagcct
+gagggagggagggaggaaggTCCTCCCCGCGGGGACGGTGGCAGGTGGGG
+CCGTCTCGGTCCTGCAGCCTGCGGCTGGGTTCTCTCAAGGTGATCTTCAC
+GGCCGCGAGGGCTGCTTCCCACAGGGGCAGCATGAAACCCAGTCACGGGC
+CGGGCAAAGGAGCAGGTTTTTTCAACTTGGTCTCTTGCCCTCACACAGGA
+ACGAGGTTTAGAGACTTCAGAAATGtcttttttttttttttgaggtggag
+tctcactcttgttgccccggtcggagtgcagtggcgcgatctcggctcac
+tgcaacctccgtctcccgggttcaagccattctcctgcctcagcctcctg
+agtagctgggactacaggcgcccgccaccacacccggctaattttttttt
+gtatttttagtagagacagggtttcaccatgttggtcgggctggtctcga
+actcctgacctcatgatctgcccgtctcagtctcccaaagtgctgggatg
+acaggcgtgagccacggtgccaggcGGAAAAtttttttgtttgtgtgttt
+gttttttgagacagagttttgctcttgttgcccaggctagagtgcaatgg
+cgcaatcttggctcactgcagccttcgcctcctgggttcgagcaattctc
+ccgcctcagcctcccaccacgcccggctaatttttatttttagtagagat
+ggggtttctccatgttgatcaggctggtctcgaactcccgacctcaggtg
+atctgcccgccttggcctcccaaagtggtgggattacaggcttgagccac
+tgtgcccggcctttttttgtttgttttgttttgtttttgagacagagtct
+tgctctgtcacccaggctggagtgcaatggcgtgatctcggctcactgca
+acctccacctcctggattcaagtgattctcctgcctcagcctcccgagta
+gctgggattacgggcacgtaccaccatgctgagctaatttttggatgtgt
+ttttactagagaaagggtttcagcgtgttggtcaggctggtcttgaactc
+ctgacctcatgatccaccggcctcaacctctcaacgtgctgggatgacag
+gcatgagccaccgtgcccagccTAGAAATACGTGTTAAAAACCACTGAGA
+GAACTTGGCCATAAACGTCTGTTGCCTTTGCCGTCTCTGGCTGTGGAATC
+AGTCCAGCTGGTCAACACAGGGGCACTGGAACCTACCTCTGGGGGAGCTT
+CTTCAAATATGGCTTGCAGgagattccggctcagcagatgtaggtggagc
+ccccaaatttgcatttctaactattgcagggaccccactttgagaatcac
+tgGTCAACGTCAACCCTCTCTATAAGCCTCATAAGAGATGGCACAGACTT
+AGTGCCCAAGACAACAGCATTCTTCCTGTCTATCACATGGGGGATAAGAA
+TGTGGACAAGTTTGGGGCCATATTATTCTGTCTCCCACATgggattagga
+cgtggacatctttggggccattatcctgtctacctcaTggggattaggac
+gtggacatctttggggacattattctgtctcccacaTggggattaggacg
+tggacatctttggggccattattctgtctatcacaTggggattaggacgt
+ggacatctttggggacattattctgtctatcacaTggggattaggacgtg
+gacatctttggggacattatcctgtctatcacaTggggattaggacgtgg
+acatctttggggacattattctgtctcccacaTggggatcaggacgtgga
+catctttggggacattattctgtctatcacaTggggattaggacgtggac
+atctttggggccattattctgtctatcacaTggggattaggacgtggaca
+tctttggggacattattctgtctatcacaTggggattaggacgtggacat
+ctttggggacattattctgtctatcacaTggggatcaggacgtggacatc
+tttggggacattatcctgtctatcacaTggggattaggacgtggacatct
+ttggggccattattctgtctcccacaTggggattaggacgtggacatctt
+tggggccattattctgtctcccacaTggggattaggacgtggacatcttt
+ggggacattattctgtctcccacaTggggattaggacgtggacatctttg
+gggctgttattctgtctcccacaTggggattaggacgtggacatctttgg
+ggacattattctgtctatcacaTggggattaggacgtggacatctttggg
+gctgttattctgtctcccacaTggggattaggacgtggacatctttgggg
+acattattctgtctatcacaTggggattaggacgtggacatctttgggga
+cattattctgtctcccacaTggggattaggacgtggacatctttggggct
+gttattctgtctatcacaTggggattaggacgtggacatctttggggcca
+ttattctgtctatcacaTggggattaggacgtggacatctttggggacat
+tattctgtctatcacaTggggattaggacgtggacatctttggggacatt
+attctgtctatcacaTggggattaggacgtggacatctttggggacatta
+ttctgtctatcacaTggggattaggacgtggacatctttggggacattat
+tctgtctcccacaTggggattaggacgtggacatctttggggacattatt
+ctgtctatcacaTggggattaggacgtggacatctttggggacattattc
+tgtctatcacaTggggattaggacgtggacatctttggggacattattct
+gtctatcacaTggggattaggacgtggacatctttggggacattattctg
+tctcccacaTggggattaggacgtggacatctttggggacattattctgt
+ctatcacaTggggattaggacgtggacatctttggggacattattctgtc
+tcccacaTggggattaggacgtggacatctttggggccattattctgtct
+atcacaTggggattaggacgtggacatctttggggacattattctgtcta
+tcacaTggggattaggacgtggacatctttggggacattattctgtctat
+cacaTggggattaggacgtggacatctttggggacattattctgtctccc
+acaTggggattaggacgtggacatctttggggacattattctgtctatca
+caTggggattaggacgtggacatctttggggccattattctgtctatcac
+aTggggattacgacgtggacatctttggggacattattctgtctcccaca
+TggggattaggacgtggacatctttggggacattattctgtctatcacaT
+ggggatcaggacgtggacatctttggggccattatcctgtctatcacaTg
+gggattaggacgtggacatctttggggacattattctgtctatcacaTgg
+ggattaggacgtggacatctttggggccattattctgtctatcacaTggg
+gattaggatgtggacatctttggggacattattctgtctcccacaCGGTG
+TTACGACGTGAGCATCTTTGGGGTTGTCTACTGCCCACCACGCTTTATAA
+GCAAAGCTCACCCAATTTCCTTGTTGGACATGGTGCTTTCAACTCTTAAT
+TCCTGAGATGCGAACCTCTAATAATGTGACTAGGAGGGAGAAACAGGCGG
+GTGAGGCCCGTGACCGTGTAACCTCTCCCCACCCTCACCGTTGCAGGAGG
+GTTGTTCGTGGCCGGCATCAACCTCACGGAGAACCTGCAGTACGTTCTGG
+CGCACCCGTCCGAGTCCCTGGAGAAGATGACGCTGCCCAACCTTCCGCGG
+CTGAGCGCGTGGGTCCGAGAGCAGTGCCCGGGGCCGGGTTCACGGTGCAC
+CAACATCATCGCGGGGGACTTCATCGGCGCAGACGGCTTCGTCAGTGACG
+TCATCGCGCTCAATCAGAAGCTGCTGTGGTGCTGACGGGACCCTTCTGAA
+GTTCGGGACGCGGCGGCTGCAGTTTCACCCCCGAATTTCCAAGTATTGTG
+ACTTTGTTTGGGCCAAATGTTGGTGATCATAGGACCGATGATAATACGTT
+TTCATTTTCTTTAAAATAGAGATGGGGTggctgggcgtggtgacttcgcc
+tgtcttcccagcactttgggaggccgaggtgggtggatcatgaggtcagg
+agcttgagagcagcctgaccaacatggtgaaatcccatctctactaaaaa
+tacaaaacttagctgggtgtgtggcaggcgcctgtagtcccagttactcg
+ggaggctcaggcaggagaactgcttgaagccgggagatggaggttgcatt
+gagctgacatcgtgccactgcactccagtctgaatgatagaccgagactc
+catctcaaaagaaaaaaaaaCAGCCGAGTgtgcagtgactcacgcctgtc
+atcccagcactttgggaggcgaaggcgggtggaacatgaggtcaggagtt
+cgagaccagcctgaccaacatggtgaaaccccgtctctattaaaaacaca
+aaaactacctgggtgcgtgatgggcacctgtagtgccagctactcaggag
+gctgaggcaggagaatggcgtgaacccgggaggtggaggttgcattgagc
+tgagatcgtgccactgcactccagcctgggcgacagagcgagactccatc
+tcaaaaaaaaaaaaaaaaaaaaagaTggggtctctctatgttggccaggt
+tggtcttgaactcctggcctcaagtgatcctcccacctcagcctcccaga
+gtgctgggatgacagtcaagaaccaccatggcagcccataatatgttttc
+ttatttctgtattctccttgctgtggcgtctggagcccttacagacccag
+ggagacactatcctcccacagctcactaattactaaacacagtgacagcc
+cacttaggagccggcctcccctgtcagccaaccCCTCAGCTAGTTCTCAC
+ACCAAGCCtatagatatatatgtgtgtgtatatatgtgtgtttatgtgtc
+tgtgtgtatatatgtgtatatatcggtgtgtatatatgtatgtatgttta
+tacatgtgtatatgtgtgtgtgtgtgtgtatatgtgtgtatgtgtgtata
+tatgtatatgtgtgcatatgtgtatacgtgtatgcatacatgtatatgtg
+tatgcatgtatatgtgtatgtgtacatgtatatgtgtttatacatgtata
+tgtgtgtatgcgtgtatacgtgtatgtatacatgtatatgtgtgtatgcg
+tgtatatacacacgtatacatatatacgtgcgtgtgtatgtgtatatata
+tatatgtgtatatatatattttttgaggagtctcactctgtcacccaggc
+tggagtgcaacggcgagatctcggctcaccgcaacctccgcctccctggt
+tcaagcaattctcctgcctccgcctcccgagtagctgggatgacaggcat
+gtgccaccacacccgactaatttcatatatttagtagagacggggtttct
+ccgcgttggtcaggccgttctcaaacttctgacctcaggtgatctgcccg
+cctcgacctcccaaagtgctgggatgacaggcatgagccactgtgcccag
+ccGCCGATAtttctttaaattatgtttagggacagggtctttttctgtca
+cccaggctggagggcagtggtacagtcatagctcactgcagcctcaacct
+cctgggctcaagcgatcctctcagctcagcctcccgtgtagctggggctc
+cagggacacacccccactgctggctaatttttgtatttttggtagagtca
+gggtttcaccacatggcacagtctggtctcaaattcctgggctccagtga
+tcctcccaccttagcttccagagtggccaggatcacaggcaggcaccacc
+atgcccagGTAAttttatttttttgtagagacgtggtctggctatgttgt
+ccagggtggtctcaaactcctgggctcaactgatcctcccacctcaacct
+ctgccatagccaggacctcaggtgtcagccaccacacccACAGCTAAttt
+tttttgtagagatggggtctggctctgttgctcaggctggtgtgtagtag
+gggcacagtcatagctcactgtaaccttcaacgcctgggctgaagcaatt
+ctcccgcctcagcttcccaagtaactgggagtataggtgtacaccaccat
+gcccagcTAATTATTTAGTAGTAGTAGGAGGAGTATTATGtttgagatgg
+agtctcgctctgtcgcccaggctggagtgcagtggcgcagtctcagctca
+ctgcaacctctgcctcccaggttcaagcaattcttgtgcctcagcctcct
+gagtagctgggattacaggcgcccgccaccgcgcctggctaacttttgta
+tttttagcagagatggggtttcaccatgttgcccaggctggtcttgaact
+cccgacctcaggtgatccatccgcattggcctcccaaagtgctgggatca
+caggcgtgagccaccgcacctggccTcaagccagtatttccctggcccta
+aatcattcctggctgggtcccagcccagtagagccagccccccagcccgg
+agtgctactgaagtgttcaaaagttgtcaatcctcagccgttccctagtc
+ctgttgcccggttctgccgaagccccttgaaggctgtggcctgggctgtt
+ccctcattcattcctgcctcccgagccaaacccaggtatccgcttgtgcc
+ctgcgtggtgtggcagcgtcttctctcgggaagggtcaggagtaatttct
+tctttcagtggcCTCTCTGTGCTAGTCCCGGTCACCTCCGTGAATTAAAG
+TCCTACAGGTACAAGGGAGACCCCCCCCCCACGGAAGGCGCCCCCAGTCC
+GTGTGGGAGACTCGCACACCGGTTTTCTGCACAGGTTTCTTTCTGCCTCT
+GAAGCGTGAACGGTCCTAGTTTCAGACGCAGATCCTGCAAATACtttttt
+ttgtttttttgagatggattttccctcttgttgttcaggctggagtgcaa
+tggcacgatctcagctcactgcaacctctgcctcccgggttcaagtgatt
+ctcctgcctcagcctcccgaggagctgagattacaggcgcgtgccaccgt
+gcctggttaattttgtatttgtatttttatttatgttttgagacggagtt
+tcgctctcgttgccgaggctggagtgtagtagtgtgatcctggctcactg
+caacctccacctcccgggttccagcaaattctcctgcctcagcctcccaa
+gtagctgggattgcaggcgcccgccaccacgcccggataatttttgtgtg
+tttagcagagacggggtttcaccatgttggccaggctggtctcgatctcc
+tgacctcaggtgatccacccgcctcggcctcccaaagtgctgggatgaca
+ggcgtgagccaccgcgcccggccTATACCTCATTTTCTACATGTCGCTTG
+TTGGAGCTGCTGGTTCAAGTTCCCAGCCAGCCAATGGATGCCAGCACCAT
+TTTTACTCCCCTTTCCCAAGCAAATCGTGCATTTTTGTCTAACGAGAGAC
+ATCAGTTTCTCAGGATGATCCTCAAGAACGTTATGGAGTCCATGTTGCAA
+TAGGTTCTCTTTGGGACCTAATGACTCATTTTCCAAAAATCCGCTTCTAC
+TTTTGGTACCCGGTTGCTACGGTGAAATGAAGGTGCCCCGCATCCAGAAA
+GACGCACTCCTGGACCACAACCGGCGGCTACCTCAGCCCCACGGCTCTGC
+AGGATCAGGGCTCGGGCAGGCCCCGCGGAGATGAAGAATTTGCAGGGAGC
+CTCCCTGACTTCCGTCGGCTGTGAATCCTTGTCTGTCAGGGGCGTATCCA
+CAAAATCACCGAATTCATACAGATCGTTTAAATAAATGAACATCATTAAA
+GTCAAATATGAGTATGAATTTTATTACCACCAATGCAGCCAAGACACCTC
+TGGCAGCTTTCAGGATAGCACGCCAGAAGCATCTTTAGAAAATGTTAATT
+CAGGAggccgggtgcggtggctcacgcctgtaatcccagcactttgggag
+gccgaggtgggcggatcacaaggtcaagagttcgagaccagcctgaccga
+catggtgaaaatacaaaaaattactaaatatacaaaaataatatataaat
+tataaatatataagaatactaaaaatataaaaaattagccaggcatggtg
+gtgggggcctgtagtcccagctactcaagaggctgaggcaggagaatggt
+gtgaacccgggaggcggagcttgcagtgagccgagactgcaccactgcac
+tccagcctggatgacagagtgacactcattccgtctaaaaaaaaaaaaaa
+aaGTTAATTCAggccgggcacagtggctccgcctgtaatcccagcacttt
+gggaggccgagttgggtggatcacctgaggtcaggagtttgagaccagcc
+tgaccgacatgctgaaaacccatctctactaaaaatgcaaaaaattagcc
+gggcgtggtggcgggcgcctgtaatcccagctacttgggaggttgaggca
+ggagaactgtctgaactcaagaggcagaggttgcagtgaactgagatcgc
+accactgtactccagcctgggtgacagagcgagattctgtctcaaaaCAT
+ACAAGGCATTTTGTTTTCCCGTTGATGGAGACGGCTaatgtgcgtgtaac
+ggctgcacagcctggccacacgcaggtgaaattctctctctgcatctctt
+agtggatggtctgtgacacatcaccgtctggtttgtttgttttgagacgg
+agtctcgctctgtcttccaggctggagtgcagtggcgcgatcttggctca
+ctgcaacctccgcctcccgggttcatgccatcctcctgcctcagcctccc
+gagtagctgggactacaggcgcccgccaccacccccggctaattttttgt
+atttttagcagaggtggggtttcaccatgttagccaggatggtctggatc
+tcctgacctcgtgatccacccacctcagcctctcaaagtgctgggattac
+aggcgtgagccaccgtgcccgtcctcacggtctggtttgaagctgcttct
+ttagtaaaactatttgctttcccttctacttttgtggaagggttctctgt
+gctgccgggaaacctgatttttcgtcatttccccgacaCCACCATGGGAA
+ACGAGACCATCTGTGAACACAGACAGCCGGGCGGAGGGGCCGTCGGTGCC
+CACCAGGGCCACGGCTCACGGCAGGTGCAGGAGGAACTGGAAATGCTGCT
+CACGGAAGTAAAATCAAAGGTTTAATGTCCTGTTACGGAAACATTCCGAG
+GGAAAGCAGTTCACAGCAGGCACCGAGGGCCCACTGGAATTGTGTGGATG
+CTCAGGCTTGGAGTGGACGCTCGGGCGGCCCGCTTTGGGGCAGGTGCGGC
+CGTGTCACCGGCCTGCACGGTCATCCCAGCAAATGGCTGGGAGCGAGACG
+GGTGCAGAACCAGACAAGGAGGACCCTGCTGCACCTGACACCAAGCTGCC
+CCCAACACAGCGGTAACGCCTCAGCTCCCCAGGCAGCGATGCCCCCACCC
+CGCAGGCCTCTGTGGGCGTCCGTTCATCCTGGAAAGAGCTTCCGGAATTT
+GCCGTAGGCTGAGTTGCTGATGATGACCCTCACGTCGGCCGCCCCGTCCT
+CAGGGATCACGTCCACCTCCTGAACTGTGGCCTCCTTATACAGCCAGCTG
+GGCACAGATGCGCGTTGTATGGAGACAAGCAGAACCCGTAAGTATTTGCT
+TAGTTTCATGATAAATAATTACGCTAAAAAGAGCTTAGCTCAAACCATTC
+ATCAGACCGTCCTGtttccttttgtttttttttttttttgagacggagtc
+tcactctgtcgcgtaggctggagtgcagtggcgcgatctcagctcactgc
+aagctccacctcccgggttcaagtgattctcctgcctcagcctcccgagt
+agctgggactacaggtgcatgccaccacacctggctaattttttgtgttt
+ttagtagagacggggtttcaccgtgttagccaggatggtctcgatctcct
+gacttcgtgatccacccgcctcggcctcccaaagtgctgggatgacaggc
+atgagccactgcgcccggctttttattttttatttttttttttgagacag
+agtctcgctctgtcgccaggctggggtgcagtggcacgatcttggctcac
+tgcaacctcggcctcctgggttccagcaattctccggccttagcctcccg
+agtagctgggactacaggtgcccgccactgcgcccggctaattttttgta
+tttttattagagacggggtttcaccgtgttagccaggctggtctcgatct
+cctgaccttgtggtccgcccacctcggcctcccaacgtgttgggattaca
+ggtgtgagccaccccacctggGGTGGtaactttttattctttgtagagat
+ggggtctcaccatgttgcccagcctggcctcaaactcctctcagctcaag
+caatcctcctgcctcggcctcccaaagtcttggggttacaggcctgtgcc
+acggcatccagcTGGAGCTTGCTTTCTTATTGGTAGGGAGACCTGTACCC
+CTTGACTGGCAGCACAGATTAGGCACCTGTTGTGCGCACAGTCAGAAATG
+TATTTTGACTGTCAAGTGCAGATTAGGCACCTGTTGTATGCAGTCAGAAA
+TGTACATTTTGACTGTCAAGCGCAGATTAGGCACCTGTTGTATGCAGTCA
+GAAATGTACATTTTGACTGTCAGCACAGATTAGGCACCTGTTGTATGCAC
+AGTCAGAAATGTACATTTTGACTGTCAGTGCAGATTAGGCACCTGTTGTA
+TGCACAGAAATGTACATTTTGGCTGTCAAGCACAGATTAGGCACCTGTTG
+TATGGTCAGAAATGTACATTTTCACTGTCAGCATAATTAGGCACCTGTTG
+TATCCACAGTCAGAAATGTACATTGAGTGTCAGCACACATTAGGCACCTG
+TTGTATGCACAGTCAGAAATGTACATTTTGTCAGCACAGATTAGGCAACT
+GTTGTATGCAGTCAGAAATGTATTTTTACTGTCAAGCACAGATTAGGCAC
+CTGTTGTATGCAGTCAGAAATGTACATTTTGACTGTCAGCACAGATTAGG
+CACCTGTTGTATGCAGTCAGAAATGTACATTTTGACTGTCAGTGCAGATT
+AGGCACCTGTTGTATGCACAGAAATGTACATTTTGGCTGTCAAGCACAGA
+TTAGGCACCTGTTGTATGGTCAGAAATGTACATTTTCACTGTCAGCATAA
+TTAGGCACCTGTTGTATCCACAGTCAGAAATGTATATTTTGAGTGTCAGC
+ACAGATTAGGCACCTGTTGTATGCAGTCAGAAATGTACATTTTGACTGTC
+AGCACAGATTAGGCACCTGTTGTATGCAGTCAGAAATGTACATTTTGACT
+GTCAGCACAGATTAGGCACCTGTTGTATGCAGTCAGAAATGTACATTTTG
+ACTGTCAAGCACAGATTAGGCAACTGTTGTATGCAGTCAGAAATGTATTT
+TTACTGTCAAGCACAGATTAGGCACCCGTTGTATGCAGTCAGAAATGTAC
+ATTTTGACTGTCAGCACAGATTAGGCACCTGTTGTATGCACAGTCACAAA
+TGTAGATTTTGACTCTCAAGCGCAGATTAGGCACCTCTTGTATGCACAGT
+CACAAATGTACATTTGATGCAAACCCATTCATCTCGTCTGTACATCCTAA
+AGCTCTCGGGGATCTCACAGCTCCTTGTGCACCCACGAAGAGCCCGTTTC
+AGAGCCAGAGACAGGCATCCAAAGCACCATCCCGTCTCCTGCCCCTGCAG
+GCCGCTCACCTGAGCTGCGCCCCTGCGAGCCTCACACGGAGAGTGAGGAT
+CTGTCTCCCCGTCGCCTTCAAAACCGCCGCATCGAGCTCAGCTTTCAGCT
+CCTGGAGCCCGTGGCCCCGCAGGGCAGACACGGGCACGACGTTCGGTTCC
+GTGGGGCTGTACCTGCAAGGGTGGGGATGTCACAGGCCCCGCTCAGCGTC
+GGGGCGGCCGGACGAAATCAGGGTCCCCAGGAGTCCACTGCCCACGGGGC
+ACAGTCTGGGGCCACTCCCTGTGTCCTGACTGCCACCGCTGCGGTTCACA
+CGAGGAGACGGGGCATCTCCCCACCCGGCTCCAGCGCGTGCAGGGGAAGG
+AGACGCTTGCGGACCCCAGGGCCGGACTCACCCGGGCACGAGGTCCACCT
+TGTTGTGAACCTCCACCATGGAGTCCAGGAGCGGGGCGGGCAGCTGCAGG
+CCACGCAGCGTGGACAGAACGCTGCATTTCTGGAGCTCCGCCTCGGGGTG
+GCTGACGTCCCTCACGTGCAAGATGAGATCCTGTGGGCCGGGCCGTGGGG
+TCAGAGCTGCGGAGCCTCTGGTCCCTGACCCCAAGCTTGCAGACAGGCCC
+AGGAGAGGGGCTCACACGAGCTCCCAACGACAGGCTGGGCATGGGAGGTA
+CGCCTGTGTGCAGGCCCCTCGGACACCCCAGGACGGGGGCTCCTAGACCA
+ACAGTGGACGCGAGCCCACCCGGCTGCACTTACCCAACCTTCCAAGCCAC
+AGGCAGCAGCTCCGCACCCCCAGACCCACACGCAAGGGGGTGCCATATAT
+GAGcacccaaccaccacccacccacccaGGGGGTCTTCATTCAAAGCTTT
+AGGGCGGCTTCATCCTCCTGTGAAATGTCTTTTAACAGCGGAATTATTTC
+CTCTTTAAAGGATGCTTTTTTTCTCACGTTCAAAAAAAATCTTACAGGCA
+GGCTCCTTACACAAAATTTGAAAAACACAGGGAAAAAAAAATAAAGCCGT
+GTGTAATTCTCCAACTTATACTACCGGGGTATCCACGTCTACTTTTTGTT
+TGTTTGGATGCACTTAATACAAATAATATTTTTcctgtaactgaggcact
+ttgggaggtggcttgagcccagaagtttgagaccagcctgggcaagagag
+tgaggccgtttctacagaaagtacaaaaattagccatggcctggttgtgc
+gtgtctgtggtctcagctactcaggaggctgaggtgggaggatcacttga
+gcccaggaggtcgaggctgcagtgagccgagatcataccactgcggttca
+gtctgggtgacagagcgagaccctgtctctaaagaagaaaagtaaaaaca
+aaaaaaaTAATTTCATCCCAGGAAAGttttactttttttttttttttttt
+tttgagacgagtctcgctctgtcacacaggctggagtgcagtggcgcgat
+ctcagctcactgcaagctccgcctcccgggttcagccattctcctgcctc
+agcctctcttgagtagctgggactacaggcacccgccaccatgcctggct
+aattttttatatttttagtagagacgggatttcgccgtggtctcgatctc
+ctgacctgaagtgatccacccgcctcaacctcccaaagtgctgggattgc
+aggcgtgagccaccacacccggtcCATAATTTATTGTCGGGAGGAGTCGA
+AAGCGGAGTCCAGGCTCCGGGCGGGGTTCAGTCCCATCTCCTCAAGGAGG
+TGGCAGCCGCGTCCGTTCTTTGGGACATTTGCTGCTTCTCCCTCAGGGCA
+AAAAACAAAGCCGTAGCCTGAATGTGACAATCTCACACCTTGTTTTCCTG
+CCTTGTTGCTTGACAATATTTCCCCGTGCTCTTCATGCACTTGGAAAGTC
+TACGGTACGGATGGAGTGTGCAGCTCACTCAGCACCCTACGGCCGGGGGC
+AGTTCCGGAGCCAAACAGCACCCCGCCCCCaaatccacatccaccagcag
+cctcagaatgggaccctacccagaattaagatctctgcggatgcagctgg
+tgaagatgaggtcagggtggagcagagtgggccttaaatccaacgaccga
+ccggtatgtttacgacagaaagaaaGAGATGTGGGGCAGACACAGAAGag
+aaggggaccttgcttggaaatggagtttttgcagatgtagttaagatgag
+gttaccctggatttatctaggtggcccctaaatgcaatgacaggtgtcct
+aggagacacagacacagagaaggccacgtggagatggaggcagagactgg
+agtggtgcggccacaagcccagggacgcctggagcccccaggagctggga
+gaggcaggaaggaccctcacctagagcctccagaaggaacTGGATCCAAC
+TGAAGtgaactgaactgtggccccccacaaaagacctgtccatgtattga
+tcatctggaacctgtgaatgggacattatttggaaacagggtctctgcag
+atgtgattaagtggaagatctgaaatgagatcatcctggattagggtgga
+ccctaaatctaatgactactgtccttctaagagacagaagaggagacaca
+gacacagagaagaaggccacagacagaggcagagactggagtgatgcggc
+cacaagcccagggacgcctggagcccccaggagctgggagaggcaggaag
+gaccctcccctagagcctccagaaggaacTGGATCCAACTGAAGtgaact
+gaactgtggccccccacaaaagacctgtccatgtattgatcatctggaac
+ctgtgaatgggacattatttggaaacagggtctctgcagatgtgattaag
+tggaagatctggagatgagatcatcctggattagggtggaccctaaatct
+aatgacaggtgtccttctaagagacagaagaggagacacagacacagagg
+aggaggccacagacagaggcagagactggagtgatgcggccacaagccca
+gggacgcctggagcccccaggagctgggagaggcaggaaggaccctcccc
+tagagcctccagaaggaacTGGATCCAACTGAAGtgaactgaactgtggc
+cccccacaaaagacctgtccatgtattgatcatctggaacctgtgaatgg
+gacattatttggaaacagggtctctgcagatgtgattaagtggaagatct
+gaaatgagatcatcctggattagggtggaccctaaatctaatgactactg
+tccttctaagagacagaagaggagacacagacacagaggagaaggccaca
+gacagaggcagagactggagtgatgcggcctcaagcccagggacgcctgg
+agcccccaggagctgggagaggcaggaaggaccctcccctagagtcTGTG
+GTCAGCTCCCGCTTTCTGGAACTGTGGTAGAGCTGGTTCCTGTGGTTTCT
+GGCCCCCATTTGTGGCCCCTTTTGCAGTGACAGCCTCAGGACCCCACAGG
+TGTTTCCAGGGTCTCGGTGTTCATCGATCCTCAGGCATCACCGTGCTGTG
+TCCGCCACTGCCCGCACGTCTGTGACACGAACGGTCACTCTGTCTGTCAG
+GGGTCTGTGACGTGGAGCAGGTGCACCCGGGAACACGCTTATGTGTTCAG
+GCACATAAGCCGGGAGAGGACTGACGGCCGACTTCCTATTTCTACACGGG
+CTCACGGCGGCAAGAACATGGCCCTGAGTGTCGGTGAGGCTGGGGCAACC
+GCTCAGCCTCTCGCCCGGGGACGTGGGAGGCTTGGGGGACACTAAGTCTG
+AGCCCCAGGAGGCAGTTGTTGTTCCGGCCCCGAGTTGGGTGGGTGTCTGA
+GGGCCCGGCCCCTGGCTTTGTGTGTGTCTGAGTGCCTGGTCCCCGTGCCC
+AGTGGGTGTCCGAGGGCCTGGCCCCTGGGCTGAGTGGGTGTCCGAGGGCC
+CGGCCCCTGGGCTGAGTGGGTGTCCGAGGGCCCGACCCCTGGCTGTGTGT
+GTCTGAGTGCCCAGCCCCCGTGCCGAATGGGTGTCCGAGCACCCGATCCC
+CGGCCGTCCCACGCTCACCGAGTGGGCCACGTCTTCCAGGGTGGCGGAGA
+AGGACTCGATGAGGCCGTGCGGCAGCTGGGAGAGGAAGCCGATGGTGTCC
+ACGTACAGGACGGTCATGCGTGAGGGCAGCGTGCCCGCGTGGGCCGTGAC
+GTCCAGCGTGGCAAACAGCTGGTCCCGTGGCTGGATGGCGGCATCGCCCG
+TCAGTGCCTTGATCAGCGTGGTCTTTCCTAGGAGGGCGTGGAGGTCAGGG
+CGCTGCAGAGATCCCTGCGTCCCAACTCCTAGCGCCGCAGCCAGGCCCTC
+CAAATGGAGACCACGGCACCCTCTGGGGGGCCGCACCCCGGGCTACACGG
+TCCCTGAGCTCCTCGGGCACCCCGGGCCAGACCCGACGCGTGGGACAAAG
+CCACCGTCGCTGTTCTCGGGCCGATGGAGCGGGGCCGCCGTGCGGACACG
+GGGGAGATGGTGGTGTGGACGGGTGTGCGTGTGAAGGCGTGGATGGGAGT
+GAGGTCGTCTGTGTAGATTTGGCAATGGCGTAGATGGTGGGATGGTGTAG
+GTGGGGTGGTGGTGCTGGTGTGGATGGGAGGATGGTGTAGACACAGGGGA
+GGTGATGGTGTAGATGGGTGGATATAGATACGGCAGTGGTGCCGGTGTTG
+ACAGAAGGATGGTGTAGACAGAGGAGAGGCGATGGTGTAGACAGATGGGT
+GGATTGTATAGACGGGTGGTGGTATAGATGGGGCAGTGGTGCCAGTGTAG
+ACAGGAGGACGGTGCAGACGAAGGGGACATTGTGGTGTACACGGGTGGAT
+TATGTAGACGGGGTGGTGGTATAGCTGGGGCAGTGGTGCCAGTGTAGACA
+GGAGGACGGTGCAGACAAAGGGAACATTGTGGTGTACACGGGTGGATTAT
+GTAGACGGGGTGGTGGTATAGATGGGGTAGTGGTGCTGGTGTAGACAGGA
+GGATGGTATAGACAGAGGAGAGGTGATGGTGTAGATGGGTGGATTGTGTA
+GACAGGGTGGTGGTATAGATAGGGCAGTGGGGATGGTCTAGACAGGAGGA
+TGGTGTAGATGGAGGGGAGATTGTGGTATAGACAGGGTGGTAAAGCTCTG
+GATGGGAGGATGGGGTAGATGACATCCTCACCTTGGCTGCTGTACCCCAC
+ACAGAGACCACAGGAAACCCGTCTCCTGGGTGAGCTCTCACAGCAGCTGG
+TGTACCCCACACGGCGACCATGGGAACCCCCTCTCCTGGGCACGTGCTCA
+CCGCAGCTGTCGTACGGCACCACTGAGACGACAGGGACCCCCTGCCCTCC
+CCCGGGCGAGTCCTCACCGGTGACACGGAGACCGCGGAAGGCCCCTCCCC
+TGGGCGCGTGCTCACCGCAGTTGGTGTACCCCACCACGGAGATCACGGGG
+AACTCCCGCCTCGTCCGCTGCCGGCGGAGCAGGTGCCTCTTCTTGCGAAG
+CCTGTCCAAGGCCTTCCTGATCTTGGCCTCCTTCTCTCTCAGGAGACGCT
+GCTGCAGCTGCATGAAGGATTCTCCTAAAAGACACCCGAGATGGTGAGGC
+GGTGAGCCACGCCGGGAAAGGCACAAGTGCGGGCGGTGCCGCGGAGGGTC
+TGCGGGGGCCCGGGGCCTGCTCCCGCTCCAGCATCTGGGGGCCCGGCTGC
+TTTCCCCAGCAGCGGCCCCGACACGTCCTGTTCCATGAGAAAGGGCTCTG
+CTCGGCGGAACGGGATCTCGCCTCCGGGTGTCCACCCTGTGAGGTCAACG
+AGGGCTTCCCGTGACTCGGGGAGAAAGTAAAGGCCAGATCACTACGGAGG
+CCTCCGAGCGGGACACGGCCCAGGACGTCATCGTGAGCGGGCTCAGTGGG
+GCCCCTTTCACAtccgaagtcccagaacctgggaatgggacctgatttgg
+aaatatggtctttgtagggtctcaaaatatcaccctaggttagggtgggc
+cctaaggcaacgacctgtgtccttctaagaagcagagaccggagtgacga
+ggccacaagcctgggacgcctggagcccccaggagctgggagaggcagga
+aggaccctgccctagagcctccagagggaaGTGGATACAAGtgtagcgga
+ttgaactgtggtcctcctaaaagatctgtccacatcctaattcccagaac
+tggtcaatgggaccttatttgaaaataaggtgtttgtcataactgaagta
+tctagagatgcgacgattctggattagggcgggccataaatgcaatgaca
+tgtgtccttgtaagagacagaagaggagacacagacacagaggaggaggc
+cacgtggagacggaggcagagactggagtgacgcggccacaaacccaggg
+atgcctggagcccccaggagctgggagaggcagaaggagcccctggaggg
+agcgcagccctgtcctcaccttgatctcagagttttggtgtccaggaggg
+gagagcatagatctctgctgtttaaatccccagtttgtggctactGATTT
+AGGCAAAACCTCCAAAAACCACCAGCATCTCCTATCTCCTCAAATGCTAC
+CAGACGGAGCCCCCAGCCAGCCCCCACCCTGTTGGAATCTTCCAGGGCTG
+AGGGTCTCCTATGTCCTCAAATGCTACCAGGAGACGGAGACCCCAGCTGG
+ACCCCACCCTGTTGGAATCTTCCAGGGCTGAGAAGGGTGGCTGCCGCTGA
+CAACCGCATTCCGAGGACCCTCTGGGACGCCGCGCCCGGCCCGAGTTACC
+TGACCCCATGATGTAGCGCGAGCCGACTCCTCGGTACAGGTGGGCGACGT
+CCCTTTTCAAGTTCGACCTGGTGTGGGAACGGGAGTGGCTCGGTCTCTGC
+GGACGCTGTCTCCCTCCCGGCAGAGGTCGAGGTGAAGGTGAAGGGGGCAC
+TGAGCTGGGCCTCTGGGCCGAAGGGAGGAGCCGCTGTTGCGGCCCCGCTC
+CGCGTGTAGCTCACACACTGTGAGTGACGCGTGTCCCGGGCCGAGGGGAC
+CTGCCTAGTGGGGAGCCGGGGGCAGGCAGTGGGGGCAACGGGCCCCGGAG
+AGAGAGCCCACACGGTGCttttcttctttttttttttttttagacggagt
+ctcgctctgtcacccaggctggagtgcagtggcgtgatctcggctcactg
+caagctccacctctggggttcacgccattctcctgcctcagcctcctgag
+tagctgggatttcaggcgcccgccaccacgcccggctaatttttttcttg
+tatttttagtacagacggggtttcaccgtgttggccaggatggtctcgat
+ctcgtgacctcgtgatccgcccacctcggcctcccaaagtgctgggatga
+caggcgtgagccaccgcgcccggccCCCATGGTGCTTTTCTTCCTCACGC
+ACCCCCAGAACGCCCTACAGGTGACTACAGAACGGAGGGGTTCCGGGAGT
+GGACGTGACGCTCGGCGCGGCCCAGGGGCCCCACGATACCTGTGCAGCGG
+CATCTCCGCCAGGGCCACCTGAAGCCGGGCCTCCTTCGTGCGGGCGTTAC
+AGCGGAAGATGTGCAGGACGACCGTGAAGCGGTCAAACACCTCCACGCCC
+CAGGCGGCTTCCAGTTCTTTCTGCAAAAGGAGAGAGCAACTGAGAAGCCA
+CGGGGGAAGGCCGGGCCCTGGTGGCCAATGTGAGAGGAAGGAGGACGTCT
+CTAATGCCTTAACCCCACCGtgtccccatctgtccccatctgtccccCGC
+CTGGCCGGACGCCGTGGCGTCCCCTCCTTCATCGCGTGGAGTGCGGGGAC
+AAACACAGCAAGCCACATCCTGTGGTACCTTGGTCGGGGCAGCCATCCTC
+TCCACGTTCAGGAAGACGCACGTGATGTCTGGAGACCCTCGGATCTTTTC
+TAACAGAAAGAGGGGGTCCCGTCAGAGGCTGGCCGTCCACACCCGTGGAC
+TGTGGGATGAGCCCACCATACCCTTTGTGGGATGCACCGCGGAGAGCTCA
+CTTCACAGGCATCCCCGACTTCCTGAGCACGAGACCCGGGATCCAGGAAG
+TCAGCGTGGGAGGGGGTGTGTCTCTAGGAGTGTGTGTCTCAAAGACATAG
+ACATGCATACGGTGAACACATCCCGGCAGGGacacaaacacatacacacg
+cagacacacacacacacacacacacacacacacacaGTAAATACATCCCG
+ACAGGGACAGACacagacacacagacagacacacagagacacacaCAAAC
+ACAGTAAACACATCCCGGCAGGGACACAAACACATACACACACACACACA
+CACACAGTAAATACATCCCGACAGGGacagacacacacacagacacatac
+acagagacacacacaaacacaGTAAACACATCCCAGCAGGGACACAAACA
+CATACACACGCAGACACACACACACACACACAGTAAACACATCCCGGCAG
+GGACACAAACACATACACATGCAGACACACACACACACACACAGTAAATA
+CATCCCGACAGGGacagacacacacacagacacatacacagagacacaca
+caaacacaGTAAACACATCCCGGCAGGGACACAAACACATACACACGCAG
+ACACACACACACACACACAGTAAATACATCCCGACAGGGACAGACACACA
+CACAGACACATACACAGAGACACACACAAACACAGTAAACACATCCCGGC
+AGGGacacaaacacatacacacgcagacacacacacacacacacacaGTA
+AATACATCCCGACAGGGACAGACACACACACAGACACATACACAGAGACA
+CACACAAACACAGTAAACACATCCCAGCAGGGACACAAACACATACACAC
+GCAGACACACACACAGACACACACACAGTAAATACATCCCGACAGGGACA
+GACACACACACACATGCACCGTGGACACATCCCATTGGGGacacacacac
+acacacacacacacaGGGTGAACACATCCCAGCAGGGGTGAGATGCATCT
+GAGTCAGGCAGGAAAGCTGACCCCCACCTGGGCAGGTGACCCAGGGCAGC
+CGACCCCCACCTGGGCAAGTGAGTAGCGTCTTCCCAACTCTACTGGAAGC
+GGGATGGTCAGAAACCTGGGAAGCGCAAGGATCGCATGCTGGACCCCACC
+CTAAGAGACTGCTGGTGGGGTGGGGGTCACCCAGGAGGAGGATTTGGCTG
+GGGCCTGCAGGGGCAGGTGGGGTTACAGCCGGTCCACCGCCTACCCTGTT
+TGTTGGACTCTATAAACTGCCCCGACCTAATCTTTACCAGTTTAAGTCTC
+TCCAGGGCCCGGTGTGAATCTCGACACAGATAAAGCCTCACCGTCCTCCG
+ACTCCTACTGGCGTGTGCTCCCAGCTCACCTGGGCAATCCGAGAGGCCGC
+TTCCCCTCTGGCCCCGCAAGACCCCCGTACTTCAGCATGTCTCGGTTGGA
+TGTTTTCGGTAGCGGCGGACAGGAAAGGAGGTTTGGGGAAGGAGCAGGTC
+TGGACGGACCCACCTGTCAGGTGCTCAAAGTTCCCTTTGCCAAAGATGAG
+CTTCCTGTCCGGCGTTTTGGTGGACACGACCATTGTCTGCACCACGGACC
+AGCCGTCCAGCGTGTGCACCAGCGCTGTGGCCTCCGCCACCTGCCACTCG
+GCTGCGGGGACACAAGGGCCACCGTGAGAGACGCTTCTGCCCGGGGCCCC
+CGTCCACACCTGCCCGGGGAGGCCTCCTCCTGCCCTTGAGACAATCTCCC
+CGGAGAAGGCACCTTGAGCCGCCGTTTGTCCCCCGATATGACTTCGTCCC
+CCCAGGGCCTCTAAGTAGGAATCTGACGGGAGAAGGACACCGGAGCCACA
+GCGGGACACGAGGGCGACCCTGCCTTACATGGAATTTGGGCTCCAGGCGG
+GCGCAGCAGGGAACCCGGGAGCTGCGGGTGCTCAGGGGATTACTGAGGAA
+CCACCGGCAGGTTTGGGGAGTAGAGAGGCAAGAGGTCTGCGCGCTGTTCT
+GAGCAGTTCGGGGCTTCATCTGTTCCAGGAATTAGCCATTTTGGAAAACA
+CCCGTAAAGAAAAACCACTCATCGACTACAGGAGCTTCCAAGGGAAAAAT
+CAACCTTTATGAGACTCTGACACGTGCAGCGACTTATTCATTTGCATTTC
+CTCCTGGGGGGTGGGGGGTGGGACTAGACACAGATTGGTCCGCTGGACGC
+CCTCCCTTCCCTGACCTCAAACACACCGTGCCTACCTCTAACCCAGAGCA
+AGAGAAACGTAGGTCCCATCGGCGAGAACCGCCCCGGcccacccaacccc
+accccaccccaccccaccccaccccaccccacGGACCCCACGGGccccac
+cccatcccacggactccaccccaTAAGCTCCGCCCCCGCACTTTTACCCC
+ATAGGCCCCTCCCCCGAAGCCCCGCCCACGCACCTCCACCAATGATATCC
+TCCCCTCTTCCCCATAAGCCCCGCCCTTTCACCCATGGGCTCCTCCCCCG
+AACCCCACCCATGCACCTCCACCTATGAGATCCTCCCTTCAGAGCCCCGC
+CCCCGCATCACCATCCATAAGCTCTTCCCCTCAGAGCCCCGCCCCTCAGC
+GCCACGCCCTGGCATCTCCAACCATCAGACCCTCTCCTTAGAGCCTGGCC
+CCCTGAAGCCCCGCCCCTACGTCGCCACCTGAGCTCTTCCCCTCAAAGCC
+CCGCCCTGGGTCTCCACCTATGAGATTCTCAGGTCAGAGCCCCGTCCCTG
+AATCTCTACCTATGAGCCTCCCCAGAGCCCCGCCCTTGCATCGCCAGCTA
+TGATTCTCCCGAGTCCCGCCCCTGAATCTCCACCTATGAAATCCTTCCTG
+CAGAGCCCCGCCCTTGCGCCTCCACCTATGAGATTCTCCCCACAGAACCC
+CGCCCCTGAATCTCCACCTATGAGATCGTCCCTTCAGAGCCCCGCCCCTG
+AATCTCCACCTATGAGCCCCCTCCCCTCAGAGCCCCGCCCCCAGGTCTCC
+AGCTCCTGTTTCTCCCCCGAAAGCCCTGCCGCGGTCACCTCGAGTCATCT
+GCGACTTCCCCGGGCCCCACTTGACGTCAGGGTGAACCAGACACACGCGC
+TGGGTCCCCGCCGGCAGCAGAGGCTCTCCCCGCAGCAGctcctcctcggc
+gttctcgtccgcatcttccggctcctcctcgtcgtctccCGTGCGGCTTC
+GGCCGCCGTCCGCCCGCAGGCCCCGCCCTCCGCCCCACGGCCCCTCCAGA
+TTCCCGGGGCTCCTGCGGCCGACAGCGGCTAGCGCGCGCGCGGGGCAGGA
+CGGCGCGGCTGCCCGCGGAGCCGAGCGGCCGCGGCCCACGCGGGAGAGCC
+GCAGCCCCGGGCGTACGGCGGCCCGCAGGGCCCACATGGCGCGTCTGGAG
+GCTGAACGTTGGGGCGGGGGCTGCCCACAGGCCGCTCCTCATCACGTGCT
+CGTGATTGGCGTGCGGCCGGGGCTGGCTCACCAGCGCCTCTCCCCGGCAC
+AGGCCGTGCTCCTCATTGGTCATCCGGCGTCACGTGCTAGTGATTGGCGT
+GCAGCTGGGGCGTGCTCACCAGCGCCTCTCCGCAGCATAGGGCGTGATCC
+TCATTGGTCATCCCTTGTCACGTGCTGGTGATTGGCGTGCGGCCGGGGCG
+GGCTCCCTAGCGCCGCGCCCCGGCAGGGCGTGCTCCTCATTGGTCGCCCC
+GCATCAGGTGCTGGTGATTGGCACGCGCTGCCGGCGGGGGAGGCGGGACC
+GGGCCGCTTCTTGTTCGGCGTGGGCGGCTCCTGGCAGACCCATCCCGCGG
+TGCAGCCGCCGGCCCGGTAGGCGCCAGGACCCCGAGCCTcggcggcggcg
+gcggcggcggcagcgCTGCCTTCACTCACCTCGTCCTCGCTCCCGTCCTA
+CCCCGTTCCGCGCTGGGTGGAGTCCAAGTCTGATTGCGAGAGTCCGGAAC
+GCCGCCTCGGGGGCTTGACTCCAGCCCCGGGGATCGAGAACGGCGCCCAG
+GGGTCCCTACGTCTGCCTTGGGGGCTCGAGTCCCGCCCTGGGCGTCCGTG
+ACGTCGCCCAGGGGTCTCCACGTCTGCCCTGGAACCTGGAGAGCCGCCGT
+GGGGGCCCCGGAAGCTGCCCCGGAGTCCCCACGTCTGCCCTGGGGGCTCG
+AGTCCAGCTCTCAGGGTCCCGGACGCCACCCAGGGGGTCCCCATGTCTGC
+TTTGGGGGCTCGAGTCCAGCCATGGGGGTCCTGGACGCCGCCTCGGCGTC
+CCCGCGTCTGCCTTGGGGGCCCGAGTCCCGCCCTGGGGGTCCTGGACGCC
+GCCTCGGCATCCCCGCGTCTGCCTTGGGGGCTCGAGTCCCGCCCTGGGGG
+TCCCCGATGCCGCCCGGGGGTCCTCACGTCTACCTTGGAGACTGGAGTTC
+CCCCGTGGGAGTCTCGGACGCCACCCCGGAGTCACCGTGTCTAGCCTTGG
+GGGCTTGAGTCCAGCCCTGGGGGTCCTGGACGTCGCCGAGGAGCCCCCAC
+GTCTGCCTTTGGGGCTTGAGACCTGCTCTGGGGGTCCCGGTCGCCGCCCA
+GGTGGGTCCCCACGTCTAGCCTTGGGGGCTTGAGTCCAGCCCTGGGGGGC
+CCGGATGCCGCCCGGGGGTTCTCCTCGTCTGCCTTGGGGGTTGGGTCCAG
+CCCCAGGCGTCCTGACCACCGCCCAGGGGCCCCCACGTCTGCCTGGGGGC
+CTCAAATTCAGTCCTGGGGGTCCCGGACGCCTCCCAGGGGTCTTCATGTC
+TGCCGTGGGCCTCGAGTCCAGCCGTGAGGGTCCCGAATGCTGCCTTGGAG
+GGTGGAGTCCAGCTCTGAGGGTCCTGAAGTCAGCTTTGGGGGTTCGAACC
+CATCCATCCCAGGGGTCCCTGAGTCTACATTAGGGGCTGGAGTCCAGCCT
+TGAGGGTCTCCACTGCTGCCTTGGGGGCCTGGATGGGATCCAGCGGGTCT
+GAGTCCAGCCTCGGGAGCCCCTGCGGTGGAGCTCTGAGTGGGGCAGGGGC
+CTGGGAGATGCCAGGAGGATGAGAGCGGCGCCCCCCTGGTCCAGGGGACA
+GTAAGAGGCAGCCGGTCTCAGAGAAGCTACCCCAAAACTGTTACCCGTGG
+TGTGCAGAGCGTCCTGCAACCCCAGCCCTCACCAGGATTTCTTGCGTTTT
+TCAGGAAATCGGTTGTGATTGGCATGTTCCTTAAGCGTCTGCAGGAAGCC
+GAGGCCTTTTTGGTATTTCAGGAGGGGTTGCTAACCCCCCTCCTTGTAGG
+ATCGGGGTATCCCAGCTGCTAATTCCCCTCCTAACAGCCCTGCAGCGCCT
+GGATTGGAGGTGTGACAGGTGGCATTTTTGGCCCGAAGTCCCTAGGCAGG
+ACGGGTGGCTGTAGCCTGCGCGTTTGTGTAAATTAACCTCCCTTTTTAGT
+TCTGTGAAGGGAGAACGTGATTAGTTTAAAATCACCTGCGTGAAAGAGGC
+TCTTGATTAGTTTAAAATCACCCACGTGAAAGGGGCTCTTGATTAGCTTA
+AAATCACCTGGGTGTTTCGTTTTATCTCAGTTGGCCTCTGAATGTTTATC
+CTACAGCTTCCTGCAAGCTCCAGTCTACCTTCTAAGGGAATAACGGGGCT
+CGTCTTTCTACGTTACTTTATGTGGGAGTAGTTGTAAAACAGAATGAGGG
+AGACCGCGGGGATTGTGCGGAAATGTAGCCACCGTTTACATGtcgggagg
+ctgaggtgggaggatcgcttgagcccaggagtttgacaccagcctgggca
+acatggtaagaccccttctctaccctcccccccaaaaaaaaaattttagt
+gtggcatggtggtgggtgcctgtggtcccagctactcgggacgctgaggt
+gggaggattgcttgagcccaggagtttgaCACCAGCATGGGCAATATGGT
+AAGACCCCATTATCTACaaaaaaaaaaaaaaaaaaagaaaagaaaaatta
+gccgggcgtggtggtgggtgcctgtggtcccagctgctcgggacgctgag
+gtgggaggattgcttgagcccaggagtttgacaccagcatgggcaatatg
+gtaagaccccattatctacaaaaaaaaaaaaaaaaaagaaaagccgggcg
+tggtggtgggtgcctgtggtcccagctgctcgggacgctgaggtgggagg
+attgcttgagcccaggagtttgacaccagcatgggcaatatggtaagacc
+ccattatctacaaaaaaaaaaaaaaaagaaaAgccgggcgtggtggtggg
+tgcctgtggtcccagctgctcgggacgctgaggtgggaggattgcttgag
+cccaggagtttgacaccagcatgggcaatatggtaagaccccattatcta
+caaaaaaaaaaaaaaaagaaaagccgggcgtggtggtgggtgcctgtggt
+cccagctgctcgggacgctgaggtgggaggattgcttgagcccaggagtt
+tgacaccagcatgggcaatatggtaagaccctattatctacaaaaaaaaa
+aaaaaaaaaaaagaaagaaaaattagcctggtgtggtggtgggtgcctgt
+ggtcccagctgctcgggacgctgaggtgggaggattgcttgagcccagga
+gtttgacgccagcatgggcaatatggtaagaccctattatctacaaaaaa
+aaaaaaaaaaaaaaaagaaagaaaaattagcctggtgtggtggtgggtgc
+ctgtggtcccagctgctcgggacgctgaggtgggaggattgcttgagccc
+aggagtttgacaccagcatgggcaatatggtaagaccccattatctacaa
+aaaaaaaaaaaaaaaagaaaagccgggcgtggtggtgggtgcctgtggtc
+ccagctgctcgggacgctgaggtgggaggattgcttgagcccaggagttt
+gacgccagcatgggcaatatggtaagaccctattatctacaaaaaaaaaa
+aaaaaaaaaaaaaaagaaagaaaaaTTAgcctggtgtggtggtgggtgcc
+tgtggtcccagctgctcgggacgctgaggtgggaggattgcttgagccca
+ggagtttgacgccagcatgggcaatatggtaagaccctattatctacaaa
+aaaaaaaaaaaagaaagaaagaaagaaaaattagcctggtgtggtggtgg
+gtgcctgtggtcccagctgctcgggacgctgaggtgggaggatcacctga
+gcccaggaggtggaggctgcagtgagcttagattgcagcactgtgctcca
+gcctgggtgacagagtgagaccccatctcaaacaagaaGCACCAAAAGGT
+GTCTGAGATcaggcacggtggctcacgcctgtcattccagcactttggga
+ggccgaggtgggtggatcacctgaggtcaggcatttgagaccagcctggc
+caacatggagaaacactgactctactaaatgtgcaaaaattagccgggcg
+tggtggcacacacctgtagtcccagctactccagaggctgaggtaggaga
+attgcttgaacctgggaggtggaggttgcagtgagctgagattgtaccac
+tgcactccagcctgggagctgagattgtaccactgcactccagcctgggc
+cctaaagcgagaGCTTGACGGTGGGGTGGGGGTGTGGGATGGACCTTctg
+tggtcccagctactcgggaggctgaggtgggaggatcgcttgagcccagg
+agtttgacaccagcatgggcaacatggtaagaacccatatctacaaaaaa
+aaaatttaaaaattagccgggtgtggtgtgtgggtgcctgtggtcccagc
+tacACCACGAGTGGAATTGTGACGTGCACAGCCTGGGTAAATGGGGTTAG
+CTATATTCACCCTGAAGGGGGCACATACCCTATTATTTCTAACACCACTG
+AACTCAGAATCGGGACCCAGATTCGCCGGGGCAGCGCGGGACGAGGCCTC
+TCCCGGGCTCCGTCTTCCCTGTTAATAGACTGAGAGACGGAATGAGAGCT
+TCGAAGGTGCTGGGGGAGGAGCATTGGGTGTCCCCAGGTGGTGAGCTTGG
+GTGTGTGTGTGTAGCCGACAGTCTCCCAGGCTCAGTATTCCCTGTTAATA
+GACTGAGAGACGGAATGAGGGCGTCCCCAGGTGGTGAGCTCAGGGACgtg
+tgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtAGCCGTCAA
+TCTCCTGGGCTCCTGGGTTCCGTCTGCCCTGTTCATAGAGACAGAATGAG
+GGCGTCCCCAGGTGGTGAGCTCAGGGACGTtgtgtgtgtgtgtgtgtgtg
+tgtgtgtgtgtgtgtgtgtgtgtAGCCGTCAATCTCCTGGGCTCCTGGGT
+TCCGTCTGCCCTGTTCATAGAGACAGAATGAGGGCGTCCCCAGGTGGTGA
+GCTCAGGGACgtgtgtgtgtgtgtgtgtgtgtgtAACCATCAATCTCCTG
+GGCTCCTGGGTTCCGTCTGCCCTGTTCATAGGGATGGAATGAGGGCGTCC
+CCAGGTGGTGAGCTCAGGGACGTtgtgtgtgtgtgtgtgtgtgtgtgtAA
+CCATCAATCTCCTGGGCTCCTGGGTTCCGTCTGCCCTGTTCATAGAGACG
+GAATGAGGGCGTCCTCAGGTGGTGAGCTCAGGGACGTGTGTGTAGCCATG
+ATTATCCTTTAGTACCTGGTCCCCGTGCCCTCCAAGCCATCCAAGGGCTT
+CAGGAGGCCGCGCAGAAGGAGGGTCGGTAAGCGAGTCCACGGACCACCAC
+GCAGGCCCTGACCCCGCCAGGGGCCCTTTGGAGGGTGAGCCCTGCGTGTT
+GGGGGGATGATGGCTCCGGAGGGTGAGCTCTGGGATGAGAGGGGACGTGC
+AGGTGGCCGCATTGCAGACACAGCTGGCTCGGGACCTGGGCGCCATCTGC
+CGTCGACTCAGCTCGCTCCTGAGCTGTGCCTCTTCCTTGCCTCACGTTGG
+AGATAAAAAGCCATAGATggccgggggcggtggctcaggcctgtcatccc
+agcactgtgggataccagcgcaggagggttgcctcagctcaggggttcga
+gaccagcctggccagcatagcgagaccctcttctctgtaacaattttttt
+ttcttttcttttttttttttttgaaacagagtctcgctctgtcacccagg
+ctggactgtagtggtatgatctcagctcacggaaacctctgcctcccggg
+ttcccgggttcaagtgattctcctgcctcagcctcccgagtagctgggat
+tacaggcagctgccaccatgcctggctaaattctgtatttttagtagaga
+cggggtttctccatgttggtcaggctggtcttgaactcccgacctcaggt
+gatccgcccacctcggcctcccaaagtgctgggatgacaggcgtgagcca
+ccgcgcccggcctctttcaggtttttatatgtaactttgccactcagtcg
+gtactgaagccgttatggaggcctgcctggtgagatgcggctgccacaGT
+GTGGCTGGTATTCGAAACACACAGGAGGCCGCAGCCAGCTTAGCAGAAGC
+ACCAGGGCTTTCGGAACTTGGTTTTGAGAGTTTCCTGTTTTCTTGACTTT
+CATATACCATGGATGGTAATAACTGTTGGGGGGAAAAAGCTATTAAAGAT
+TCCTGTGGATGGTGAGATGACCTTGGTTTCAGAAACACCCAGACACAGAG
+AATTGTGCATTTTAGAATCCAATAAATCTACgctgggcacggtggctcat
+gcctgtcatcccagcactttgggaggccgaggtaggtggatcacctgagg
+tcaggagttcgagaccaacctggccaacatagtgagaacctgtctctact
+aaaaatacaaaaaattagcggggcgttgtggcaggtgcctgtaatcccag
+ctgctctggaggctgaggtgggagaattgcttgaacccgggaggcagagg
+ttgcagtgagctgagaccatgctgctgtactccagcctgggtgacagggc
+gaggctccatcttaaaaaaaaaaaaaTCTGATCATTTACCTGTGCACCTT
+CACAAGTGTTTAAAAAAAAAAAAAAAccgggcacggtggctcacgcctgt
+catcccagcactttgggaggctgaggtgggtggatcacgaggtcaggaga
+tcgagaccatcctggctaattcggtgaaaccccgtctctactaaaaatac
+aaaaaattagctgggtgtggtggaaggtgcctgtagtcccagctgctcag
+gaggctgaggcgggagaatggcgtgaacccaggaggcggagcttgcagtg
+agctgagattgcagcactgcactccagcctgggtgacagagccagactct
+gtctcaaaaaaaaaaaaaaaagaTTGGGTTGATATTTTACCTACTATAAT
+CTTATATGTTTGCAATTTCCTGTCATTGAGTTTTATAACTTTCTGCCCTT
+TGCTGACAAAAACATTTAAAATGTCTCATGGCAGCTTGTGTTCTTAAAAT
+TCAAACTGTTTATCCATAGCCCTTGAGAGAAGGGTTTAATGTGAGTTGGT
+TGGGAGTGACCGttgtctgtttttttgagacagagtgtcgctcgctcgcc
+caggctggagtgtagtggcgcgatctcggctcactgcaaactctgccttc
+caggttcaagtgatccttctgccccagccctccagctagcttggattaca
+aacatgcaccaccacacctggctaacttttgtatttttggtagagacagc
+gttttaccacgttggccaggctggtctcaaaatcctgagctcaagggatc
+cgcctgcctcagcctcccaaagtgctgggattacaggcgtgaggcacgac
+gtcaggccAAGGGGGTGGCTGTTTTATAACAGGTTTGCAAGTttgttttt
+gtttttgtttttctttttttttgaggtggagttttgctcttgttccccag
+gctggagtgcaatggcaagatctcggctcactgcagcctctgcctccggg
+gttcaagggattctcctgcctcagcctctcgagtagctgggattataggc
+acctgccaccatgcctggttaattttgtatttttagtagagataggggtt
+tttccgtgctggccaggctggtctcaaactcccgaactcaggtgatccac
+ccgcctcggcctcccaaagtgctgggattacaggcgtgagcccccgtgcc
+cagccAGGGGGTTGCTGTTTTATAATAGGTTTGCAAGTTTGttttttgtt
+ttgttttgttttgtttttttgagacggagttttgctcttgttgcccaggc
+cggagtgcaatggcacaaccttggctcactgcaacctccgcctcccgggt
+tcaagctattctcctgcctcagtctcctgagtagctgggattacaggcgt
+ccgccaccacacccggccaaGGGGGTGGCTGTTTTATAACCAGTTTGCAA
+GTTTGTTTTTCTCGTGTGTTAGAGGAAAATCTCTTCATGATATGGTGAAG
+CCGTCGTCTGTTTTGGAAGACGGTGGCCAGGAAAATGGTGGTAAGTTCTC
+CTGAAAGCAAACGCAGAAGGAAATAAAAATGACTGACAATTAGATCGTAC
+AAAGATGAGCAttgtttttatttattttttttgagacgaagtcttgttct
+gtcacccaggctggagtgcaatggcacgatcttggctcactgcaacctcc
+gcctcccaggttcaagtgattctactgcctcagcctcctgagaagctaga
+attacaggcatgctccaccactacccagctagtatttgtagttttagtag
+agacgggatttcaccatgttggccaggctggtctcgaactcctgacctca
+ggtgatccacccacctcggcctcccaaagtgctgggatgacaggcgtgag
+ccaccgtgccccggccCCGGATTCTATTTCTTAAACTGCAGGAAATACTA
+AATACTTTACATGCGTATGTTTCTCATTTCATTTTCCTACAGGAATTGGA
+GAGTGAGTTGCTGAGATTTCATTTTTATTCTCTTGGTCCTCATCATGCAA
+ATGGCTAAATGGtttttttttgaaacagggtcttgctctgtcccccaggc
+tggagtgcaatggggcgatctcggctcactgcaacctctgcctcccgggt
+tcaagccattctcctgcctcagcctcccgagtagctgggatcacaggtgc
+gcaccaccgtgtccgtctgattgttaaatttttcctagagacgaggtttt
+gccacgttgcccaggctggtctcaaactcctgagctcaggtgatcccccc
+acctcggcctccgaaggcgctgggcttccaggcgtgCAGAGGGCTCTTTG
+TCTACATCCGTCACTGGATTTTCTACCCACGGGGACATGTGACCCCAGCG
+AGGTGGTCGGGGAGTCGTCGCCGGCCAGCGCTGCAGCCCAGGGATGATGA
+CGGCTCTAGGAGTTTGGTTGTGGAGCACAGATGCCGGCGGTGTGGGCACG
+AGGCCCTGCACCTGCGTTTCTCCTGCACGGGCCCCGGAACCCCGGGATGG
+GATCTCTGTGGAGTGATCACGTCAGTGGGCTCTCGGCGAGGCTGGCGGGT
+GGGAGTCGGCGGCATCCGGGCTGGGCCCCCGAGGCTTGGCTCCCTCTCTG
+CACCCCAGGGGTCCCACAGGCTGGTGACAGCGCGACTGAAGGCCACGCTG
+CAGTCAGGAGGCCGCCCCACGTGTGACCCCGGGTCTTCCCACCCCGCCCT
+GACCCAGGGTCCTGGCCTTCCACGTGTGACCCTGGTTCCGGCACCTGtcc
+ccgcccccccatcctgttcccctcctctctccctgccccccctcccctct
+ccccgccccccctcccctctccccgcccccctcccctctccccgtccccc
+tcccctctccccgtcccccctccctctctccccgtcccccctccctctct
+ccccgtcccccctcccctctccccgcccccccgtcccccctcccctctcc
+ccgtcccccctcccctctccccgtcccccctcccctctccccgtcccccc
+tccctctctccccgtcccccctccctctctccccgtcccccctccctctc
+tccccgtcccccctccctctctccccgtcccccctcccctctccccgccc
+ccccgtcccccctcccctctccccgtcccccctcccctctccccgtcccc
+cctcccctctccccgtcccccctccctctctccccgtcccccctccctct
+ctccccgtcccccctcccctctccccgcccccccatcccccctcccctct
+ccccgccccccctccccgtccccctcccctctccccctcccccctccccg
+cccccctcccctctccccctcccccctccccgcccccctcccctctccct
+gccctcccctctccctgccccccctccctgcccccctcccctctccgccc
+cacctctcccctcccccctccccctcctctctcccccctccccctcctct
+ctccccctccccccctctctccccctccccctcctcctcctctctccccc
+tcccccctccccctcccctctcctctctccccgcccccctccctctctcc
+ccgcccccctccctctctccccgtccccctctcctctctccccgtccccc
+tctcctctctccccgtcccccctcctctctccccgtcccccctcctctct
+ccccgtcccccctcctctccccgtcccccctactctccccgtcccccctc
+cctctctccccgtcccccctctccccgtcccccctccccctctccccgtc
+cccccctccccctctccccgtccccccctccccctctccccgtccccccc
+tccccctctccccgtccccccctccccctctccccgtccccccctccccc
+tctccccgtccccccctccccctctccccgtccccccctccccctctccc
+cgtccccccctccccctctccccgtccccccctccccctctccccgtccc
+atctctcccTTGAGTCCTTGGGTGGTCCTGGCCGCACGCCTACCTGGCGG
+CCCCATCCGTCCCTTCAGGGCAGGGACAGCCGATGCCCCGCACCTCCCCC
+ATCGCTTTTCTGCCTCTGCCCCCTCCCCACATAGGCCTGGCGTCCCCTGG
+ACTCCTGTAGGCCGAGCTGTAGTCTTAAGAAGTGTGTCCCGCAGCCCTAA
+AAGGTTGGGGTACCCTCCGGCCGTCATGTTCTGGGCACCCTATAGTCCTA
+AAGGGTCAGGGCACCCCATGGCTGTCATGTTTAGAGTACCCCGTAGTCCT
+AAAGGATTGGGGCACCCCACATCCCCGGTGTTCAGGGCACGTCATAGTCC
+TAAAAGGTCGGGGTACCCCTGGATGAGGGGCGGTCAGGAGGGTCAGGGCC
+TGGGTGGACATCCTGTCATCCTACCCTGTGGGCTATGCCCTGTGTCCCTG
+ACTCTGACATTGGGTGAGGTGAGGACGGGGCAGGTTTCCATGGTACAttt
+atttattttttgagacggagtctcgctctgtcgcccagcctggagtgcag
+tggtgtgatctcggctccctgcaagctccgcctcccgggttcatgccatt
+ctcctgcctcagcctcccgagtagctgggatcacaggcgcccgccaccac
+gcccggctaattttttgtatttttagtagagacggggtttcaccatgttg
+gccaggctggtctctaactcctgacctcgtgatccgcctgcctcggcctc
+ccaaagtgctgggatgacaggcgtgagcccctgtgcctggTGGGACCCCA
+GTTTTCTATTAAAAAAAggccgggcgcggtggctcacacctgtcatccca
+gcattttgggaggccgaggcgggtggatcacttgaggtcagttgtttgag
+accatcctggccaacatggagaaaccccgtctcaactgaaaatacaaaaa
+ttagccgggcgtggtggtggcgggcgcctgtgatcccagctacgcgggag
+gctgaggcaggagaatcgcttgaacccagaaggcagaggctgcagtgagc
+cgagatcgcaccatggcagtccagcctgggcgacaaACAGAAAACAGGCA
+CAGCATAGAGTCTGCCTTTCTGGAATCGCTATAGCTAGGGGGCTGCCTCC
+CTAAGCCCCACTTCTCTGAGTCTCCTGCAAGGTTTGTGTGAGTGCCTGGG
+GGCCGAGGCCCTGGCGAGGAGGATGGGGGCTCGGGGGCCTCTGTGACCTG
+GGGGAGGGGCTGTCGCGTCCCCCTGTGGTCGCGTCCCCCTGTGGTCGCGT
+CCCCCTGTGGTCGCACCTGTGGGCTGTCGGCCGTAGGTACCGCTCAGGCC
+CGTCCTGGTTGCGGGGCAAGGGCCTGTGTGTTGGGGGCTGAGAGACGGGG
+CCTAGAAGCCCTGTTGTGGGGAGGCCTGTGGGGGGCTTGTCCAAGCGGGA
+CCTCCTATCCCTGCACCACTGGGGTCGTCCCCCCCGACGGGGCCTCGTCC
+CCCCCATGGCTGCTCCGTGAGGTCAGGCAGCGCCGCGCTAGGGAGATGGG
+GTGGCCCTGTCCCCGCAGAGGGGCTGTTCTCTGGGGCAGAGGCGGGCAGG
+ACCCCCCGCCTTGTGGTCAGGACCCCCCTCCTTGTGGTCAGGACCCACTC
+GTGGCGGCCGGGGCTGCTGCGGGAGCTGATACCGGGGTGGAGACAGCTAC
+GCCATGGTGAGGACACGGGGCCGGGGGAGGCTGCAGCCGACGGCCAGGCC
+CCCGTGCGGAAGACCCGGGGCAGCCCCCGCCTAGGAGCTGCGCAGACACG
+TCCTGGGGCCGCTGTTTCACCGAGACCCGAACGGCTGCTCCCCAGGCTCT
+GAGTGGCGTGTGCGGCAGCCAAGGCTGGGGGAGCTGTGACTTCTACACGG
+CGCCAGGGCGCAGGGATCCCTGCTGTGCCAGGGTCTGCCCGTGGGTCATG
+GGGAACGTGGTTCGAGGCCCCTCTGCTGTAGCCACGCAGCAGCGTCTTGC
+CGGGTGCGTGGCCTTGTCTGCAGGCTTGAGACCCAGCGGGGCCGTCTGTG
+CCACGTGGGGTCTGCGCCGGCCCAGGGGCCGCACCGCTGTCAGCCACAGG
+ATGTGTGTCTCGGGGCTGCGGCAGACGGGGCTTCTGTGCCGTGTGGGGTC
+CGACCCCTCGGCCTGGGCAGGGCGGCCCGTGGGCACCGTGCTGGGGACGA
+CCTCCGGCCTCTGCTCCTTCCCCGGCTCTGAGTCATAAAGGCCTCCCGCT
+CCCCCGGGAGCCGTGTCTTCTCTAGGAACTGCTGAGCGCGGCTGGGTCTG
+GCTCTGCCTCATTCCTGCATCTGATGCCCGCCCGTTCTCCCCCAACTCCC
+CTTTCTCCATCTCCTCCCTCCCCTCCGTCTTGCCCGTCTCCATTTCCTCC
+ATCTCTCCCTTCTCCGTCTCCTCCGTCTCGTGGCTGTCCAGACCCCGTCC
+CTCCGCAGGCTGGGTCCCCCCTTGTTCTGGGCGGGGCTCTCGGTGCCGGT
+CTGGTGCCAGTGCTGGGAACCTGTGGTGCCCGTCACCTCTGCTCCCCGTC
+ACCTCGGCTCCACCTCGAGGAGCTGTGTCCTGTCCCACGAGGAGGCGCCC
+CGGGACCTCAGGGCTGCAGGCCATGGCTGGGTCCGGCTTTGCCTCATCCC
+CTGTATCTGAGGCCCCCCAGTTCTCCCCCATCTCCCCCTCTCCATCTCCT
+CTGTCTCCCCCGTCTCATGGCTCTCCGGGCCCCGTCCCCCCCACCAGGCT
+GGGTCCCCTTATTCTGGGTAGCCCGTCTTGCCATCACTGTCCCTGCCGCC
+CCTCAGGACAGCGCTGTGGATGCCGGTCTGGTGCCGGCGGTCACCCCTGC
+TGCGCCTTGAGCAGCTGTGTCTTGTCCCGTGAGGAGGTGCCCCGGGACCT
+CAGGGCTGTGGCTGGCACCTTTCATGGTCCTCCCGGAACAGAGCTCATGC
+TGCTGCTCCTGGGTGGACCCGGGGCTGCCCCTGTGAACACTCTTGGTTCT
+GACACGAAGGCACCCCGTGAGGGAGGGGAGGGGTGGGCTGGGTCGGGTCC
+CTGCTCGGGGATCTCCAAGGGGTGACGGCCACGAAGTGCGGGGGACCCAC
+GATTGTCATTCAGAGGGTGAGGCGCTGAGCCCTGGAACATCCTGGCTTCT
+GGCGGGACGCTGGCCACGGTCAGGGTGCCCCGAGTGCTTGTTTTGTGGGG
+TCCCTGGCCCCCTGCACACGTGAGCCCTCGGGGGAATGGACCCCCAGAAC
+ACGTGGAGGGCATGACTGCTGGGCTCTGGGTCTCCCCGCAGCGCCGCCGT
+CCACGAGGACCCCCGACAGGACCCCCCCACTTCTCCGGCAAAGGTGTCGG
+TGTGCACGCCCGGCCCCGGCACTGCCCGGGGCATCTGGGGTTGTGGCTGG
+GGAAGGACGGGGCACTTGGGGGAATGCATTGGGTACAGGGATGTCGGAGG
+ATGCTCAGTGGCTGTGCAGGGGCCTCACCAGCGTCGTGGGTGGGGGACGC
+TGTCTTTCACGGCCCCAGGGAGGCCTCTCATGTCTCAGCCTTGAACCCTA
+ATTGGGGGGGCTCCCAGTGTCAGTGTGGGGAGGCTGAGGGCGCTGGTCAG
+AGCCCTCCCATGACCATGGGCTCCGGCTCATAGGTGTGTGTGTGTTGGGG
+GGTGGTGTCCGGAGGTGGTGTGGGGCGGACATGGTCTCCCAGACGGGCTC
+CCCGGAGCTGAGGGCAGGGTGGGCCCTGCGGGCCGTGGCTCCCAGTGTCA
+TTTCCCTGCGGCAGAACCTCCTGCCCTGCACCTGTCCTGTTGTTGGGGGT
+CCTGACCCTTCGCAGACCCAGGTGGGGGCATCCGGGAATTCAGGGGAGCA
+CCTGGTGACACTGAGGACACCTTGGGGACAGCAGCATTCCCCCGGGAGGT
+GCTGCCTCGTCTACCCACCACCTGGAGCCCCCGCAGTCTCTCCTCAGGGG
+TCACGGGACCACCCTGTGCGTCCGCCTCCTTCACAGCGACGGCTGCCGGT
+GGATGAACGGGGTGCGTATGCTGCTCTCGGGGTGGTCCCGGCTTGGCCCT
+GCCCTGCCGCGTGGACGCTGCCACCTCCGTTTCCTGGGGGAGAGTTTTGT
+CGTGTGTGAGGACGGGGTTGTTCCCATGGTCACCACCTGTGACCCTCACC
+TGCGTGCAGAGGGAGCACAGCTGGGCCTGGGCTCATCCACGTCGGGTGCC
+CCTGGGGTGCTTGTGGCCTCCCCTGCACAGGGAGCTCCTCCTGGTGGGGC
+CTCCGACCCCCCTCATTTAGGTGTCCCCCAGCTGTGGACGTCCCCACTCT
+GGCGCGGGCTCCTTCCTTCTGGGGTCGTTTGTGGAACGGGGCCTGGGTCC
+GTGGCTCCGGGAGGGAACGGCCCCGAGGGTGGGGTCCCCCTGGCTGGGGA
+GGGGCCCCGCAGAGAGGCCCAGGCTGCACCCCGAGGCGTCTGGCGTGGCT
+GCGGTCCCCCTCCAGCACTGACGCTTGTAAATCCTGGACGGAGCCACGCT
+GTGGCTGAGGGAGCCGAGCCCGTGACTGAAAATCCTCCAAACGTACAAGC
+GTGATCGCCAGAAACGGTTTTGTACGTTTACACAAAACATTCACACAGCC
+TGTGGTGGAGGCTCCTGTCCAGGACTGAGGCGCCCGGGAGCCGCCGGTCA
+CCGTTGTGCGCACACGGACCCTTTCCACAGACGCAGGCCCCGGAACCCAG
+GCTGGGTCGGGAACGGCAAGCGCCAGAGGGTGTCCGTGTGGGAACCCGTC
+CCATTCACGCGCGGCCCTACGTGTCCCCCTGGCACAGAGCTCTGGGCAGG
+TCCAGCCACGAACCCACAGCGGCAATCAACACGCTTCTGTGAATAAATAA
+AAGTTTATCATTCCGTACAAACGCACTCATTTTCCACAACAGTTTTTACA
+CGAGCCGCGGTGGCCCGGTGGTGGCACGTGGGGAGCGGCCCCGCGGCGGC
+GTTCTCGCGGGCGGCGTCACAGCGGCTCCAGGTCCTCGTCCCCGCATGCG
+TACTCGTACAGGTCCACGGCGCCCAGCGGTGAGGGCGCCTCGAAGAAGGG
+CCTCTGGGCCAGCGGGGAGCGCAGCGCACTCAGCTTCTGCTCCACAGGGC
+TGAGCTCGGCCTCGAACCTGCAACGAGGGGATGGCGAAGACGTGGCCAGC
+AGCGCGGAGCAGGCCCTGGGCCGTTTTCCGGGAAACACAGGCTGCTCGGC
+CGCCAACCTCCAGCACGAGACAGTCCCCTGAGCCGACCTTGAGCTCCAGC
+CGCTGAGCCAGCAACGCGCTCCTGGCTGAGGACGCCGGCTCCACGAATGC
+TCCCGGGGGAGGGGCCTGCGGTGCAGGTGAAAACCCACCCAGGACGGGAC
+GGAGCCCCGGGCGTGAGCTACACACAGAGGACCTGGGCGGGCGCGCCTCT
+TCCCCAAAGCGAGCTGCACGGGACCTGTGTTTACAACTGGGTCGTGGTGT
+CCACACAGGACTGGAGAACAAACAGGACCACAGTTTAGACACATTCTCCC
+AAAGCACAGAAGCTCCCAGTGGAGGCTACCACTTCCGTTCTGACCAGAAC
+ACGCAGCAGTGCGAGGACTGGACGCGCGCCTTCCCTTAAGGTCTCGGCAG
+TGACGTCGGGCGCTGCTCCGGGGAACCCAGCGCGGCCACGGACCACACAG
+ACTCTCAGAGATCCTGTGGGGACACCTCTGCTTTCCAAGACGCCCCCGAC
+AGCCTGGCACTGAGCTCCCCGCGGTCACCCCCACGGACCTGAGCTCCCAC
+TGCCGGAGCAGGCGTGGACACGGTGAAGGCAGTCGACCCCAGCGTGCTGC
+TGGCTGTGCCGCAGACACAAAGCCGGGCAGCCGTGGGGGTGGACACTGGT
+CAGGTGGGGAGCAGAGGTGACAGACGGTGGTGGGGACAGGCGCACACCCA
+TCCAGGCTAGGTCTGGGGGCCACAGCTGCCTTAGGGTGTCCGACAGGAGA
+AGGCAGAGACTGGGAAGTTGTGGGGACCCAGAGGTTGGCTGCCAGGTCAG
+AGCCACCGTGCAAACAATGACCACGAGGAGGACGGACACACAGGACAGAC
+GGCCCAGGGTGGGCCGCAGGGGCCCTGTGCTGCTTGGCAGGAATCGGACG
+GGGCGGCTGATGGGGGAGCAGGGGTTAAAATGCACGTCCATGGAACCCAT
+GGGTCGGGAACCCAACGGTAACCAGAAAGTATTTTGAGCTGCACCAAAAT
+CAGAAGGCCGCGGGCTGCGGTGTCCATGGCCCACGTCGCTGCCTGAAGAT
+ACTCAAGGAAAACAGCAGAACAAAGGGGAGAAACACCCGTGGTTCCCTGG
+GAAGAGGAGTGAACCTCGTCGGCCCCTCGCCTCACTGATCACACACAAAG
+TCAGTATCAGGAGCGTGAGAGACGCTATCACTGGATTCTGCAGACATCAG
+AGTCACGAGCAGGAAATACCAACAATAACCCACTGATGGGAACGGGCAAG
+TTTCCGAAACACACAAACCAGCAAAGCTCACTCAAGGCTGGgcaggggct
+cacacctgtaattccggcacgttgggggaccgaggcggggagaaccctcg
+agctcaggcatccaagaccaacctgggcaacacggtgaaaccccatctct
+acaaaaaaatacaaaaaagtagccgggtgtggtggtgcgtgcctggaagc
+ccagctactcggggggctcaggtgcgaggattccttaagcccagcaggtg
+gagggtgcagtgagctgagattgcgccaatgccctccagcctgcgtgaca
+cagccagaccctgtctccaaaaaaataataaaaTActacagataatctct
+gcaaagagaatccagtaatatgtgaggataacacatgactcggcaagatc
+tatcctgggaacacgaggctggctgaaaatgactcggtgtaactcgctgt
+atggacacacagaggaaccacggagcgaaagcatctgaGAAATTCGGCCC
+CCACTGCGAGAAAGCCCCCGCAGACCAGGAAGAGGGAGAACATCCTCGCC
+AATGAGCGTGCTTACCGCTGCGTGAGGGGAGACGTCCCCCAGGACTGGGA
+ACGAGGACGGCACACAAACCAGCAGGGCTCACTCAAGGCTGGCCGTGGTC
+TGCCCTGACATCCACCACATCTCCCTGCGGgttccaggccatgcagcagg
+caagagaaaggaagtaacgtacacagagaggtgaaaaggaagacgagaga
+cggacccactgacagacatgggctgtccacgcagaaaaccccaaagaacc
+gacagagctttgagatccagtaagtgagtttcatgaaggtgcaaaacaca
+aggtcaataaattctatatgctaccaacgaacaactggaaacgggaacct
+taaaagcaccgctgacaacaggaaaacatcaggaaacactcagaagtctc
+acaacattcgcatcaagcgtacacggaaagctacaaaaATCCTGCCGAGA
+GACACGGACGGCGCCCATGGACTGGGCCTCCTGCGGTTATGAAGGCGGCA
+GCTGGGCCCACAGGGATCCATTCACTCAGCGAGATCTCACTCAAAAGTTC
+AGAttgtttgtttttgttttggaaatggagttttgctctcgttgcccggg
+ctggagtgcagtggcgcgatcttggctcactgcaacctgcacctcccgag
+tAGCTGGGATTACAGACGTGTGCCACCATCCCTGGCtttttttttttgga
+gacggagtctcgctctgtcacccaggctggagtgtggtggcgcgatctcg
+gctcactgcaagctccgcctcccagattcacgccattctcttgcctcagc
+ctcccgagtagctgggactacaggcgcccgccaccacgcctggctaattt
+tttttttgtttagtagagacggggtttcaccatgttggccaggatggtct
+cgatctcctgacctcgtgatccgccctcctcagcctcccaaagtgctggg
+atgacaggcgtgagccaccgcgcccggccAGAAGGAGCCTATTCTTATGT
+GTTTTCATACAAAGGCAAAGAAACCAGAATAGCCAACGTAGCGCGGGACA
+GAAGCAGAACTGAGAAGCTCAGCACGGGATGGCAAAAGTGACCACGTCGC
+TCCAGCGTGCACCACGGGAGGCCGGTGGGGGCCACAGTCCACGTGGTCCC
+GGGACCAGCACTCACCACCACGTCAGAGTCCAACACACGTTCCCACAGGA
+CGGCAGAGCAAGGACGGGCTGAGTCTAAGATTCACACACAGGCAGCCCAA
+CACCAGAATGGCCCCGACAGTTCCACACGGCGCCCAAGTCGGAGGCTTCT
+CACCACAGCCAGCTCTGCCGCGGGAACGGACAGACGCGTGCAGCAGTGGG
+ACGGAGGAAGGTTCCGGAACGGAGCCCGCACACGGCACAGTCACGACGCC
+GAGGCAACGCTGCGGCCTGCAAAGCTGATGCTGGGACAGTCggacacccg
+gacacccacgtaccacaaggggaacctcaatccgagcttcacaccccaca
+gggaaggttactcaagaggaccccagaccaaaacacaaaacatcgcagag
+gaaaatcttcgtggctttggattcagaaatgaattcttagatatgacacc
+agaaacaccgctgtaaaaataaccagtcagtgtctcctcctccaaattca
+gaacatctctgagacaccacgtgaagagggggtgaaaacatacgtcacaa
+actgggaaaaaggcgaacacgtcgcaaataaagggtttgtatgctgaaga
+cacgaagaaccctcacGCTCCGTGAGAAAGCAACCAGCCCAGGGCCTCTC
+AGGGCCTCCAAGGCTGGAAGGCCGAAGCGGAGGCTGGAATGGCCACGGGC
+CCTGCAGCCTGCCCAGCAGGTGCCAGCCGTGGGATAAGGACAGACGTCGT
+TGGCGAAACACGACTCGGCCTCCCCGTGCTGGGCCTGATGTGCGAAGCCT
+CGCGCCCAGGATCACAGAACCCCACGCGGGGAATGACGGGCAGACTGCAC
+CGAGGCCCGGCCCTGTCATCGGCTGTCCTTACCTCACCGGCCCCGTGTCA
+GGTCTCACCCCGCCCCTCTGTGTCCGCGCACCCCACCTGACTGACCCCGC
+ATCCCCCGGCTGCACACACACCCGTCCTCCCACTCACCCGTCCTCCCCAC
+TCACCCGTCCTCCCACTGACCCGTCCCCCCACTCACCCGTCCTCCCCACT
+CACCCGTCCTCCCAGGGCTCTCCCGCAGTCTCCTCGGCCACCAGGATGTC
+GTACTCCTCGGCCGCGTACTTCTCCCAGTCCGAGAGCTCGGGGCCGCCGC
+TGTCACCGTCCTGGAGGAAGCACACGGGTTACGTACACGGCGTGGCGCGG
+CCCGGCCCGCGTGCCCGCCGCACTCACCCTGAGCAGGGAGATCTGCTCTT
+TCTGCTCGTGGTCGAGGTACTTCTCGATGTTGAAGAAGGTGTCGAAGAAG
+ACGTTAGCCAGCTTGCAGCGCTTCAGGTCCTGCAGCGTGATCTTCCCTGC
+GGGGAGGGGAGTGCGTCCAAGGCGCGTGAGCCCGGTCTCACCTTCGGGGC
+CTGGGTGTGGGGTGCGCGCGTCCTGTCACACGTGCTTAAGGACGCGGCAC
+GAAGCTCCGGGCTCTCACGCCACGTGTTTGACGTGAAAGGCGGACACGCG
+AGTGTCCTGGTTCTGGGTGGGGACTGAGGCGTGGGAGGCCGTGATGCGGA
+GGCGACTAGGGGCCACCGGTGCCCCAAGGATGCGTGGACTGGGACTAGCG
+CAGGGAGGCGCGGCCAGCAGGGGCGCTGCTGGATCTGAAATTACAGAGAA
+CGGAGCTCCCCGTGCAGGCAGAGGCCAGAGGGTGTCCCGGGGACACTGAG
+CAGCAGGAGGCGCCCCATGGCCGGGGGGGGCAGGGCTGCAGGGCGGTGCC
+CGGGCCTCAGAGCCATTTCCAAAGTGAAAGTCCCAGAGCTGGATTCTGAG
+ATGCAGAAGGAAGCCAGGCGGCGTGGACGGTGGGGCTCCCCTTTGCCTTA
+GAGGGCACGGGGGTGGGTGGGAGGAGCTGGGGAGATGGTGTGGGGGGAAC
+AGGGGTGAGGGGAGGAGCCGGGGGGGGGTGAGAGGGGAGGAGCCGGGGGG
+GTGAGAGGGGAGGAGCCGGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGGG
+TGAGAGGGGAGGAGCCGGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGGAT
+GAGAGGGGAGGAGCCGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGTGAGA
+GGGGAGGAGCCGGGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGGGTGAGA
+GGGGAGGAGCCGGGGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGGTGAGA
+GGGGAGGAGCCGGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGGTGAGAAG
+GGAGGAGCCGGAGGGGGTGAGAGGGGAGGAGCCGGGGGGGGGTGAGAGGG
+GAGGAGCCGGGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGGGTGAGAGGG
+GAGGAGCTGGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGTGAGAGGGGAG
+GAGCCGGGGGGGTGAGAGGGGAGGAGCCGGGGGGGTGAGAGGGGAGGAGA
+TGGGGGGGGTGAGAGGGGAGGAGATGGGGGGGGTGAGAGGGGAGGAGATG
+GGGGGGGTGAGAGGGGAGGAGATGGGGGGGTGAGAGGGGAGGAGATGGGG
+GGGGTGAGAGGGGAGGAGATGGGGGGGGCGAGAGGGGGGGAGGAGCCGGG
+GGGGGTGAGAAGGGAGGAGACGGGGGGGGCGGGGTGAGAGGGGAGGAGAC
+GGGGGGGGGGGGGGTGAGGGGAGGACCGCCTTGTGCGGCATCAGCACGAA
+CGTGGCAACTGCTCCCTCAGCCCAGTGCCAACGTCCCCGGTGAGCTCCGG
+CCCTAGGTTCTCTAGGTCACCCCTCGGGGGGTGTCGACGCCCCGAATAGG
+AGGTTCTTGCACTGTGAGACTAGGCACCTGTGGTGCTGGCCCTCCTCACA
+AACTCAGTAGGACAGCGCCTCACAGGGACGTCCCCTCACCCTGGTCCGTC
+CCCCCTCCCGTCTGTCCCCTCACCCTGGGCCGTCCCCCCTCCCGTCCGTC
+CCCTCACCCTGGGCCGTCCCCCCTCCCGTCCGTCCCCTCACCCTGGGCCG
+TCCCCCCTCCCGTCCGTCCCCTCACCCTGGGCCGTCCTCCCTCCCGTCCG
+TCCCCTCTCCCTGGGCCGTCCTCCCTCCCGTCCGTCCCCTCTCCCTGGGC
+TGTCATCCGTCCCCTCTCCCTGGGCCGTCCTCTCGCCCGTCCGTCCCCTC
+ACCCTGGGCCGTCCTCTCGCCCGTCCGTCCCCTCACCCTGGGCCATGCCC
+TCACGGGGCATCACCTTCAGTCCTCGGCTTGACCAGGTCCAGCATCTGGC
+AGAGGCAGTCCTGGAAGGGCAGGGCCTCGATGGCCATGCTGTCCAGCCTT
+CGGCACTGCTCCTCGTAGAAGTACTCGAGCTCGAACATGGACAGGGCGCC
+GTCCCCGTCCAGGTCCATGCAGCGGAACCAGTACTCGATGCTGCGGCACG
+GCGAGCTCTGTCAGCCCCTGCCCTGGGCCCTCCCAGCCCGTGACCTGCAG
+CCCCTGAGGCAGCCCCCACCGGGGGTGCACGCGTCCCCGCTGTGCCTTGC
+AGCCCCCACCGGGCGTGCAGGCATCCCCTGCCCCCTGCCGCCCCCACCGG
+GCGCGCACGCGTCCCCCTGTGCCGTGCAGCCCCCACCAGGCGTGCACATG
+TCCCCCTGTGCCGTGCAGCCCCCACCGGGCGTGCACATGTCCCCCTGTGC
+CGTGCAGCCCCCACCAGGCGTGCAGGCATCCGCCTGGGGACACATGTCAC
+ATGGGCGGCTCCCGGCCCCTCCACTGGGACAAACGCATGCCGCAGCAGGA
+ACCCACCTGGTCGGTGTTTTTTTGTCTTCCTCAGAGATCAAAAACCAGAC
+AAAGTCGGCATAGCTGATCTTCCCTTCCTTCTGCACTTTTCTGCCTCTAG
+ATCGAAAGCCAGGATGGAGAGACGAAGATGCATGTCAGGGAGAGCTTCAC
+AGGAACGGAGCCCCTGTCCACGCGCCTCGGTGAGGGGAGCCCCCCGGGCC
+CGgccctcctcctgcccccctcctgcccctcctcctgcctctccGGGGAG
+GAGGTGGAGGCCCCGTGGCCAGAGGGTTTTCCCCAGATCCAGGCAGGGTC
+AGGAGTGCACCTTCGTTACTGCTCACTCAGGCCCAGCGCCCGACAAGAAC
+CCCCGACCTGGGGCCTGGGCCACCCCCTTCCTCAGACTTCGCGTGACAGT
+CTTGTGCCACCCCCCCCCACTAGGGATTCACGTGACAGAGACACGTGCCC
+CCCTCGCCAGGGCCTGGGGTGACAACCACTCGCTGTCGGGGCACAAAAAG
+CTCACGTCAGGCAACGATGAGGAGAGGGACCGGGGTCCTCGCAGGGGCAA
+TGGCTGCCGTCAGGCGCCTGAGCCGTACGTACCGTGTGACTGCTCCTGAG
+AAGATCCTGTCTATCATCTTGGTAGAAAGGGCTGGAAAGGAATGCGGTTG
+ATGGGCAGCCCGCACCGTGCCTCGGCCCCGACGTCACCACCCCCCGGAGC
+CGAGACTGGATGCGGTGGGGACCGAAAAGCTGAGAGGACGCCTGGGTCTG
+GGAGAGCCCCGGGGCCCCGATGCCCCTGCACGGCCCATCCTAGGGGCCCA
+CCACGCTTTCCCGTCGAGCAGAGCCAAGTCCAGCATGAAATCCACAGAGC
+GCAAAGCTGACCGCGGCTCCAAGACCGACTTGTAAAGAGCAGAATATTCA
+GGCCTCAAAGGTACAGCTTTCAGACGGAGAGAGAGACCTCGAGTGTGATC
+ACGGAAACAAACACGTTTCAACCAAAGGTTCACCAACGGGAGACGGGAGT
+GAGACCTCAGCAACGGGAGGCGGGAGTGAGACCTCAGCAACGGGAGGCGG
+GAGTGAGACCTCAGCAACGGGAGGCGGGAGTGAGACCTCAGCAACGGGAG
+GCGGGAGTGAGACCTCAGCAACGGGAGGCGGGAGGGAGACCTCAGCAACG
+GGAGGCGGGAGGGAGACCTCAGCAACGGGAGGCGGGAGGGAGACCTCGCC
+AACGGGAGGCGGGAGGGAGACCTCGCCAACGGGAGGCGGGAGGGAGACCT
+CGCCAACGGGAGGCGGGAGTGAGACCTCGCCAACGGGAGGCGGGAGTGAG
+ACCTCGCCAACGGGAGGCGGGAGTGAGACCTCGCCAACGGGAGGCGGGAG
+TGAGACCTCGCCAACGGGAGGCGGGAGTGAGACCTCGCCAACGGGAGGCG
+GGAGTGAGACCTCGCCAACGGGAGGCGGGAGTGAGACCTCGCCAACGGGA
+GGCGGGAGTGAGACCTCGCCAACGGGAGGCGGGAGGGAGACCTCAGCAAC
+GGGAGGCGGGAGGGAGACCTCAGCAACGGGAGGCGGGAGGGAGACCTCAG
+CAACGGGAGGCGGGAGGGAGACCTCAGCAACGGGAGGCGGGAGGGAGACC
+TCAGCAACGGGAGGCGGGAGGGAGACCTCGCCAAGGAGAGGCGGGAGTGA
+GACCTCGCCAACGGGAGGCGGGAGTGAGACCTCGCCAACGGGAGGCGGGA
+GTGAGACCTCAGCAACGGGAGGCGGGAGTGAGACCTCAGCAACGGGAGGC
+GGGAGTGAGACCTCGCCAAGGAGAGGCGGGAGTGAGACCTCGCCAACGGG
+AGGCGGGAGGGAGACCTCGCCAACGGGAGGCGGGAGGGAGACCTCGCCAA
+CGGGAGGCGGGAGGGAGACCTCGCCAACGGGAGGCGGGAGGGAGACCTCG
+CCAACGGGAGGCGGGAGGGAGACCTCGCCAACGGGAGGCGGGAGGGAGAC
+CTCGCCAACGGGAGGCGGGAGGGAGACCTCGCCAACGGGAGGCGGGAGGG
+AGACCTCGCCAACGGGAGGCGGGAGGGAGACCTCGCCAACGGGAGGCGGG
+AGGGAGACCTCGCCAACGGGAGGCGGGAGGGAGACCTCGCCAACGGGAGG
+CGGGAGGGAGACCTCGCCAACGGGAGGCGGGAGGGAGACCTCGCCAACGG
+GAGGCGGGAGGGAGACCTCGCCAACGGGAGGCGGGAGGGAGACCTCGCCA
+ACGGGAGGCGGGAGGGAGACCTCGCCAACGGGAGGCGGGAGTGAGACCTC
+GCCAACGGGAGGCGGGAGTGAGACCTCGCCAACGGGAGGCGGGAGTGAGA
+CCTCGCCAACGGGAGGCGGGAGTGAGACCTCGCCAACGGGAGGCGGGAGT
+GAGACCTCGCCAACGGGAGGCGGGAGGGAGACCTCGCCAACGGGAGGCGG
+GAGTGAGACCTCAGCAACGGGAGGCGGGAGTGAGACCTCACCAAGGAGAC
+GCGGGAGTGAGACCTCAGCAACGGGAGGGGGGGAGGGAGACCTCACCAAG
+GAGACGCGGGAGTGAGACCTCAGCAACGGGAGGCGGTAGGGAGACCTCAC
+CAAGGAGACGCGGGAGTGAGACCTCAGCAACGGGAGGCGGGAGGGAGACC
+TCACCAAGGAGAGGCGGGAGGGAGACCTCAGCAACGGGAGGCGGGAGGGA
+GACCTCAGCAACGGGAGGCGGGAGGGAGACCTCAGCAACGGGAGGCGGGA
+GGGAGACGTCGCCAAGGAGAGGCGGGAGGGAGACGTCGCCAACGGGAGGC
+GGGAGGGAGACGTCGCCAACGGGAGGCGGGAGGGAGACCTCACCAACGGG
+AGGCGGGAGTGAGACCTCACCAACGGGAGGCGGGAGGGAGACCTCAGCAA
+CGGGAGGCGGGAGGGAGACCTCACCAACGGGAGGCGGGAGTGAGACCTCA
+GCAACGGGAGGCGGGATTGAGACCTCACCAACGGGAGGCCGGAGTGAGAC
+CTCACCAAGGAGAGGCGGGAGTGAGACCTCACCAACGGGAGGCCGGAGTG
+AGACCTCACCAACGGGAGGCGGGAGGGAGACCTCACCAACGGGAGGCAGG
+AGTGAAAGCACCGTCGCCGTCAGCTTGGGCCACGAGAAGGTCCCGCAGCC
+TGGGCGGCCATCCCTGCGGTCACCGGTGTCCCTGGGACGCACGAGCCAAG
+GTGCCGCCCCCCGCTTCAGGCCGCAGTGCGTGAGAAACAGCGCAGCCCGG
+CCGCACACGGCATCCTGCCCTGGGACCGAGAGTGGGCTCCAGAGGAACGC
+GGAAAGCTGGGGCCGCGCCGGGCCGGGGGTTCACAGGGACAGTGAGCGCC
+TGGTTCTGGGCCGATTCCCAGCTGTGCAGGTGCTGGCCCAGGCCACACGG
+GCCGGCGCTGTGGAGCTGTGCTCTCCTCGTGGCTAGTTAGGGGCCCAGGG
+CGCAGGTGGCTCCCTGAACTGAGCGCAGGACAAATCCAGGGAATGCTACG
+TCTGCTCAGGTGCGCGTCCGACGCAGGGATCTACTGCGGCCACGCGACCC
+AGGACCAGCCCCGGGAGACGCAGACGGGTGCAGCTCACGTTCGGGGAACC
+AGGCGTATTATGAGTCGACCACACACAACAGATGCCACCGTAATTCGGAA
+ACAGTCTTGGTCATATGGTTTTTTGGGGTAAAAAGCACACTTAAAGGAAT
+CCTTTAGAAAACTCAAGCCCCACAGGCCACAGGCCGCTTTGAGTTCCTGC
+AAGTGTGGATGACTCTTAGAGGGGCCGGGAGGCAGTGGCTGCTGTGAGGA
+CACCTGGGCGGCACCGGCTCCCGCGGAGGTATATGAACGACCGCTAAGCC
+TGGGGCTCCACCTAGCCCGGGATTGGATGGAAACTGCTCCAGGCCTTGGG
+GGCTGGAACCTGGAGCTCCTGAGGGAAGGCGTGTGGCCTGCCCGCCCTTG
+CTCGGGTGTTAACAAGGAAGCCCCACAGCGCTGCTGGCCCTCGGGCCAGG
+AGCTTCAGGACCAGCGGCCCACACTGACCCTGTAGACGCCCCCAGGCAGA
+GGCCTCGGGCAGAGGCGCACGCGGGGACCCAGACACGGGGCAGCGACTGG
+GGAAGGAGAGGCAGCTGCAGACACAGAGCGGCGAGTGCGAAGGAGAGGCA
+GCTGCAGACACAGAGCTGGGAGTGCGGAAGGAGAGGCAGCTGCAGACCCG
+CAGGCCCTGAGAGAAGGGTGTGCTCGGTGTCCGCGCGGCCCGCCCGCCCC
+TGTGCCCCCACGCACCGTGGTCATTGTGCCGCGCCAGGTCGTCCGCGTCG
+ATGAGCAGGTCGTGGTCCGTGTCCAGCTCCCAGAACTTGCAGTAGATGAC
+GTAGAAATGCTCGTACGAGAAGAATTCGGTCAGCTGGTTGATGTCCGCCT
+CCTCCTCCAGCAGCGCCACATTCTGCCAAAGGACCCAGGCGGCCTGAGCG
+CGGGGCCTCTGCGGGGATGCCCCAAGTCCGCCTGGCTGCGGGCGGGGCAG
+GGAAGGCTGGGAGGGTCGGGGCCGCTCCGTGGGTGGGGGGGACTGGGCAG
+CTGGGGCCGGGGGGCACTCCGAGTGGGGGCAACTCTGCGGTGGGGGGAGC
+TCCAGCATGGGGGTGGCTCCCTAGGCGGGTGTGGGGGTGGGGGCAGCTCT
+GGGGGAGTCAGGGCTCGGCTCCCCCTCAGGGTGGTGCCCAGTACGGCCCC
+ACCCGCCTCCTAGATCAACCGTGGACCCCCAACCGCAGGCGGCGGGGTTC
+CAGTGCTCACAGGCCTgggggtgggctgggagcgcggtggaggtgggggt
+gggggtgggggtgggagagggggtgggaggggaggagggaggggggagga
+gggaagggaagggagtggaggtaggaggggtagggacaaggcagggggca
+ggggaCAGGGGGCCGCTCCGCACCTGCAGGAAGGAGCTCCTCCGCAGCTC
+GGCGCAGGTGATCCTGCCGGACCAGGACCGGTTCACGGCGTAGAAGATCC
+GCTGGATGACCTGCGGGGGCGCTGTCAGTGCGGTGGGTGCGCAGAGACCC
+CCAGGAGCCTCGCCCCGCACGGAGACCGGGAGCCGGGAGAGGGGCGCGCC
+CTTGGTCTCAGCCGCACGGGGCCGCCAGGGCACAGGCGGGGGCAGAGGGA
+AGGGCCCTGCGGGAGGCGCCGCCCCAGGCCGCGGAAAGCGGGGAGGGTCT
+GGCCGGGGACGCCCCGGAGCTACACGGGCCCAGGACAGGTGGGAAGGGGG
+TGCGGCCACCCCGGAAAACCAGAGTCCCCCCAACACCGGGCTCCCGGGCG
+GGTGGAGACTCTCCCAGAGCGCGGCCGCCTCCTCCGGAAGCTCAGGAACC
+CCGGGCCCCGCCCGCCCCGTCCGCAGAAGCCCCGCGGCGGCCGCTGCAGA
+AACACCCGCGCCCCGCGCTGGAACCGACGGCCCCTCCGCTGGGGACCCAC
+CGTGGTGATGTAGCGCGAGTGGAACTCGGACGCCTCCTTCAGGAACGACA
+GCCCCGGGTGCGTGTTCACCACGTCCTGCGGGTGGGAAGACACGAGGCGC
+GTGGTGTAGACGCCGGCCCTCCCGTGAGGTGTGCGGTGTGGACGCTGCAG
+ACGCGGACCCTCCCGTGAGCGATGAGGTGTGCGGTGTAGACGCCGGCCCT
+CCCGTGAGGGATGAGGCGTATGGTGTAGACGCCGGCCCTCCCGTGAGGGA
+TGAGGCATGTGGTGTAGACGCGGGCCCTCCCGTGAGGTGTGCAGTGTAGA
+CGCGGACCCTCCCGTGAGCGATGAGGTGTGCGGTGTAGACGCGGACCCTC
+CCATGAGGGATGAGGCATGTGGTGTAGACGCGGGCCCTCCCATGAGGTGT
+GCGGTGTAGACGCGGACCCTCCCGTGAGGGATGAGGCGTGTGGTGTAGAC
+GCCGGCCCTCCCATGAGGCATGCGGTGTAGACGCGGGCCCTCCCGTGAAG
+GATAAGGCCTGTGGTGTAGACGCAGGCTCTCACCTGCAAGAAGGGGACAA
+AGTCCTCCTGCACCAGGTAGTTGCAGCCGGGGCTCATGAGCAGATGGACG
+AACTTGGCCGCGTCGTCGTGGCAGTTCTGGAGGATTCTGGAAGGACAGGA
+TGACTGGGCACCACCCTCACAGGGGGGTGGCTTTCGACCCCGCAGACGCA
+GGGTGGAACACGTGTGTGGTGTTCCACGTGGTGCGTGGCAGGTGGCCACA
+CACGACGGCCAGGCCTGTGCCCGTACAAGGGTTTCTCCTCTCACTGCGGC
+AGCCTCAGGGGGCACCCGTCCTGGCACCACGGGGACCCGGGGACGCCTCC
+GCCCTCCCGACACAGCCCCCTGCCCAGCCCAGGACTCACTTTCTCCACAT
+GGCGACGAACTTGTGGACGGACACGGAGCCCGTGCGCTCCCCGCCGGCGC
+CATAGAAGAGCGGCCCCTTCCAGTAGAGGGGGCAGCCGCAGGCCTGGGGC
+AGAGAGGGCAGGAGTGGGCAGTCAGCAGGGCCTGGACGCCGGCGCTCCTG
+CTGCGTACCTCGCGCCTGACCGACGCCGCCCAGAGACCCTCTGCTGCAGA
+AAGACACAGCACGCTCAGCGCGGCCTGTCTGGGCATCTGCAAACTCAACG
+TGGCTTTCGCTCCAGCCTTCAATCAGTCATGAGAGCTGAGCGTGGGAGTG
+CCGGGCACGCAGTATCCCCTGACCACAGACCACGCGTGGGCACTGTAACC
+AGAGGCGGCTGCatccccagcgtctggaaatcaagcggcacgtactaaga
+accagtaagtacgggaataaatggccccgtcagccaggcaacgcggtgaa
+tcggacggcgacagaaacatctcatggaatgtgtgggacgcacctacagc
+agcgacccatggcaggttcacagccttaaatacacgcgtgaggaaggaaa
+gtttaaaatcgatcgtctacacttctaccccaaaggaacaaatacatggc
+agagatggaacgcaaagtaaatagtaacagaaaatcaacaaaatcaaaac
+tcgatgatttgaaagatttcttaaaaattaattaaccctggctggctggg
+cgtggtggctcatgcctgtaatcccagcactttaggaggccgaggggggt
+ggatcacctgaggtcaggagttcgagaccagcctggccaacatggtgaaa
+cctcgtctctactaaaaacacaaaaattagcctggcatggtggcgggcgc
+ctgtaatcccagctactcgggaggctgaggcaggagaatcacttgatcct
+gggaggtggaggttgcagtaagccacgatcacaccactgcactccagcct
+gggtgacagagagagactctgtctcaaaaaaagagcaaatacagattagc
+catgtcagctgtaactacagatcctacaaacatcagatagtggatgctca
+tgaatcactttatgcctgtaagtcagatgactgctgaaacagactccccg
+atgaacaagtcaaaaaataaactacaatagaaaatctgaaagagctgttt
+ctgcaagaaattgtgtccataatttaaaactgtcccaccaagaaaattcc
+agcccccaaaggctgctcccatgagtcgaccaaacattgaaggaagaaat
+cacacatgcgttcccctggagaagaaaaacgaggggcgtttcccagtgcc
+tgttccgaggctggcacagcctggacgcggtcagggacacaggaagtcac
+aggccagttatcactggagagcagaggcagaaatcccacacagaacacac
+agtagcaagtccaactcggcaataatagaacaggaatatctaataataat
+aatagaccaggaaaccagaatcaggagggacactcttattctcataaagg
+gtgctatggcctgaatgcctgggtccccaagatccacgtgctgaaatcct
+ctcccccgaggcgatggtgttgggaggtggggcctcatgaatgcgatgag
+tccccttctgagggaccccagagagctccctcaccccttccaccccgtga
+ggacgcagcgggaaggcgccgtcgatgaaccaggcaccactctgccacac
+cgagatcttccagcctgcagacctgtgaacagtaaatgtcttgctggtga
+caagctgcccgggctatggtgtttcttgacagcagcctgaatgctcagac
+aaagggcctctacgaaacaccccagctgctcagacagcgatgacacatga
+acacttcttccctgtgctgggaacaagaggacagtgtcaccaccaaggcc
+gcctggacggccgagccagggcagcaggcaagggaaagaccgaaagatac
+gacgacgggtaagaagaggcagaaccgtcatgattcacaagcaacacact
+gtgtagacaatccaaatgcttaccaaatacgggaattaataagtatcttc
+agcaaagttgctggatccaaggactatatgcaaaaataaattatttcaat
+atactggcaacaaacaactaaaaataaaatcttcaataatgccatctatc
+aagagcatgaaaaatcaacctacgaaaaatggaacaaaaatcacacacag
+tgtctacaaagcaaactgcagggcacggctgggtgaaatcaaagacgacc
+tcaaCGTGGTGAGGTGGACCTCACTGCTGAGTTCACAGACTGCAGTTTCC
+TCCAGACGACTCTGTTGACCCAGAGTCCACGCGATCCCCACCCACAGAGT
+CCAGCAATCCCCATCCACATGCACCGAGGGCCTGTTGTTTTGGGGTTTGT
+AGTATACACGGACAGGCTCATGTGAAAACTTACCAGGGAACACAAAAGAA
+CTCACagggggaccaagttggtggatatgagtcccactgcccggtttcaa
+cccttcctgtaaagtcagagtaatgaagacTCAGTCAGTCTCTGTCGGGC
+ACCGGTGGCCTAAGAGAGCAAGGGAAGGAAGTGAGTTGGGACAGAGCCCC
+GTGGAATATCCACAGGCAAAGACACTTCACACAAACTGAATACCAGGGGA
+TCCCAGCCCGAAGGGTGAAAGGCCAAACAGCGGCCCCTCCTGGAAGGAAA
+CGAGGGACGCTGCACGGCTCTGCCGCGGCCAAGGTTTCTTTCACGGGCCA
+CACGTGCGCTCCCTGAAGGAAGGGAGCACCGCTGCACCGCCCCAGCGCAG
+GACTCAGGGTCAGCTACCGGCACGGTGAACACCATGACAGGACATGACAC
+AGAGGGAGAAATGTCTCTGCAAGGCGAGATTCTGACGAGGGACTCAGAGG
+CAGAATTTTAAGCATCAGTGAGAAAGAGGCCCGAACACGACCGAGTGGAC
+ATGCACTGCCCTCCGGAGAGGGGTGCACGGTGGCCGTAGACAAGGGGAAG
+CGCCCAGCACTGGCGCCGGCGAGGGCAGGGTTCACAGGGCATGGAGAGGT
+GGCAACAAGAACATGACACGCGCGGCTGAGACAAAAAGGACTGAAGACGC
+CAGGTCCCGCGAGGCTGCCAGGCAGCTGGGTGTCCTCCGCGTTGCTGGGG
+GAACTGGGACGCCACGCAGCTGCCGGGAAAGCGGCCCACGGGGCGGCTGA
+GCGTAAAGCCCCGTGGCCCGGCCAGGACATCTGTCCTCCCAGAAGCACAC
+CAGTGGGAAGAGGGCCCGTGCCCGTGAGAGCCTGCACAGATGGGGACGTC
+GGCTGCTTGGTTCACGGTGCCCCAGGCGAGAGGAGCCGGACGCCAGAGCA
+GGGACTGGAGGAATAAACTGTGGCAGAGTCGTCCTGACAGGTGCAGGGCG
+GGAGTGACCACGGGGGGGCGTGGGGGACTGCAGAGGGGGCTGCGCGCCAC
+AGCGGGGATTGCAGTGCTGCTATGGGAAAGGACGCGCTCCGGCTGGCGCA
+CCTGTGGATGACTTGAAGGCAGCCGTGTGCGGCTGGAGGGGCCGGGCCCC
+GCAGGACGCACAGGCACGTGCCGGCTCCCGTGATGAGGATCCTGACGGAG
+CTCAGCCCTGGCCACCTGGAAGGGCGTCCCGGTGCGGTGGGAGGGAACGA
+GCCGGGTGCAGCACCGGGTCCTTGGGCTAGTGCTAGTCCCACGCTTTTGA
+CCTCATGAGACCATTCTGGCTCACAGGCCGTGCAGGTTTCAAACCCCAAG
+CGCTCAACACCCAGGGATGGGGGGATGTGTGAGCCTTCACATCTGTGCTC
+CTCACCGCGTGCAAGACACACCGTCATGACCCGGTGGCAGGGATGGAGCA
+TCAGATCTATCCAGCCGTGCAGGATATAGCGTCTCATGTGTCCAGACCTG
+CAGGCTGGAGTGCAGTGTGTGATCACAGCGTGATCCATttttattctact
+tgtttttcgagacacggtcttgctgttgcccaggctggagtgcagtgtgt
+gatcacagcGTGATCCATttttattctacttgtttttcgagacacggtct
+tgctgttgcccaggctggagtgcagtgtgtgatcacagcGTGATCCAttt
+ttattctacttgtttttcgagacacggtcttgctgttgcccaggctggag
+tgcagtgtgtgatcacagctcagtgcagtctcaacttcacgggctcaagc
+aatcctcccaccttagcctcccaagtagctgggaccacaggtgcgcgcta
+tcatgcctgggtaatttttttaatttctacagtgaagtctcactatgttg
+ccgaggctggtctggaacccttggccgcaagccatcctcccgccttggcc
+tctcaaagtgctgggactacagggatgaCACTGCAACCAGAGACAGCTGC
+ACCCCCGGCGTCTGGGGGATGAGAACTGAGCGGGAGAGTGCTGGGCACAC
+AGTCCCCCCACCACACCAAACCCGAAAATTACCTCCAAATGAATTAGCTC
+ATAATTTAAAATAATCCTAAAGTAAATGGAGATAATCAACTCTAAAATGC
+AAAAGATACAAAGGAAAGCAGTTTTACCTGAATGTCACAAAATCCTTATG
+GGAAAGGGAATAAAACATCAGATACCCTGATCTGACTTTTAAAAGTCTTT
+TCGTGATCGACACACAGAAAGACCGACTCCTTGTGGGGCCCGGCAACGCG
+GCGGCACGCCCACCCGCACGGCCAGGACAGGGAACGAGGCCGCCAGCCCT
+GACAGTCCCTTCGGCCCCTCCGCAGTCCGCTACGGCGACGGCCCCCAGGC
+CTCCTCCCCGTGGCTCCAGTTCACCTTTTCCAGGACACGGCAACGGGACC
+CGGCCATCTGCGGACTTTTAGACCTGGCTTCCCTCGCTCAGCACATGCGT
+GTGGGACTCACACACCTTGCTCTGTGTGGATCGTCTGCCCACCTTGCTCT
+GTGTGGATCGTCTGCCTGTGTACTGCTGAACCCTATTCCATTATGGCTCT
+GCTGACCTCAGAGTAGCTCCCTGAGCAGGAAACACCGCCGGCCCCAAGGC
+CCACGTGATGGTGCTGCTGAGGGGGACTCGCGAGGCAGACAAAGTCCCGA
+GCGTCTACAGTCGCACAGGGCACGCCGACACCAACCGACAGGTGTGAGAG
+GAGAAAGGAGGACGCCACAACCACGGCCGGCAAGTTCAGCACGCGTTCCT
+CGGCGGGTGACGGGACAAGAGGACGATCTGCAGACACGTAAAGATGTGAA
+AACGCTGCCAAGCTATGTGAGCGAGTGACATCGCGGAGCCGGAGGAGTCT
+TCAGGGTCACATGAACCAGTGGTGGGCTGtggctcggagcccccacccaa
+gtctcacggggaactgtgatcctgagtgttggagcagggctctgctgggg
+ggtgactgggtgatgagggtggacagcccccttgctggtctcgtaatcct
+gagttcttgtgagatccgatggtctaaaagtgggtggcaGTggccgggtg
+cggtggctcaggcctgtcatcccagcactttgagacgccaaggcgggtgg
+atcacccgaggtcaagagttcgagaccagcatggccaacatggtgaaacc
+ccatctctcctaaaaatacacaaattagccgggtgtggtggcgcatgcct
+gtaatcccagctacccaggaggctgaggcaggagaatggcttgaacccag
+gaggcggaggttgcagtgaggtgagatggtgccattgcactccagcttgg
+gtgacagagcaagactctgtctccaaaaaaaaaagagaaaagaTGATACA
+GACAGcctgtgtttattgaaacaattcatgctgtcattaaaaaccttccc
+acagagaaaactatcccaaatggcttcactgatgagttctaccaaacatt
+caaataaaaataacacccattctaaacaaatggctccagaaaagtgaatt
+ctaaaggacattttccaagcaactctccgaggccagcatccccccgatgc
+taaaccagaccaagctatcacaagaaaaggagaccgcaggccagtccttc
+acgagcgcagacgcaaCCCCTGCGAGGCCTGGCAATGTGGACCCAACACA
+TAGGAGAAGTGTGACACTGTGTGGTGGACCAGGGACCGGGGGCTGGGGGC
+TCACCCAAAGACCGGGGGCTCACCCAAAGACCGGGGCTCACCCAAAGACT
+GGGGCTCACCCAAGGAGCAGGGGCTCGCCCAAAGACCGGGGCTCGCCCAG
+GGACCGGGGGCTCACCCAAAGACCAGGGCTCACCCAAAGACCGGGGGCTC
+ACCCAAAGACTGGGGCTCGCCCAGGGACCGGGGGCTCACCCAGGGAGCAG
+GGGCTCACCCAAAGACCAGGGCTCACCCAAAGACCAGGGCTCATCCAAAG
+ACCGGGGCTCACCCAGGGAGCAGGGGCTCGCCCAGGGACCAGGGGCTCAC
+CCAAAGACCGGGGCTCGCCCAAAGACCGGGGCTCACCCAGGGACCAGGGG
+CTCGCCCAAACACAGGGGGCTCACCCAAAGACTGGGGGCTCACCCAAACA
+CCGGGGGCTCACCCAGGGACTAGGGGCTCACCCAAACACCGGGGGCTCAC
+CCAGGGACCGGGGGCTCACCCAGGGACCGGGGGCTCACCCAAACACTGGG
+GGCTCACCCAAACACCAGGGGCTCACCCAAACACCGGGGCTGCCTTCACA
+CTCAGACGTCAGTCAGGTCAAGACCAGTCCTTCATGACCACAGACGCTAC
+CCCTGCGTGGCCGGGCAATGCACGCTGCGGTGGAACAGGGACCGGGGGCT
+CACCCAAGGACCGGGGCTGCCTTCACACTCAGACGTCAGTCAGGTCCATT
+CACCTTTTACAGGACCAAAGGAAAACCTCACTGCCCTCTCAATACACGCA
+GAAATACACATTTAGCATCCCGGACAAACTTCAAGGCACTTTTATAATTT
+TAAAAAGTAAACTGAggccaggcgtgatggctcatgcctgtcatcatccc
+agcaccatgagaggctgaggcaagaggatccttccagcccaggagttcca
+gaccagcctgggcaacatagcagaaccctgtctctaccaaaaaagaaaaa
+atcagccaggtgtggtggcgggtgccagtagtcacggctactcgggaggg
+ctgaggtgggtggatcactggagcccaggaggtcgaggctgcagtgagct
+gagatcatgccactgcactccagcccgggggcagaatgagaacctgtctc
+aaaaaaaacacaagaGCTCCCAGCAAACAAGAAACCAAAAGGGAAGGGGC
+CTCCTGAGTCTGATGAAGGACGCCAGGCAGGGCCGCTGCGTCACGGACGA
+CTTGAGCCCGAGGCGGGAAGGGGCGTGCtctccacggctctccagcactg
+cactggcaggccgagcctgtgtacagaaagtcagggaggagacaccgatg
+cagacgagaagagaaaggctgaactgtgctcacctgaagatgacctgacc
+gtgcgttagagactctgccggacttaaaggttgagctggtagagccgatg
+actgagttaaacttggtcagaaaatgcaaagtccacatataaaacctaac
+agtgcttctcaacattcacaattgacaatcatattaaagtaaaaaaatac
+cacgtacagtgtcatcagaaacaggaaatgcttgggtatcaatgtgatga
+accgtgaacaagaccaaactacaaggcgtactgaaagaagtgaaagatgc
+ctgaaataagggagagctggaccgcgttcatgagacggaagcctcaatat
+ggtcaagattcttccaagttcatctggagtcaacaggatgcccatgtaat
+cccagcaggctgtcgtagcaacggagggaccggctctaaaattcacacgg
+tgggaacgaacaacggtgcagccactcgggaagacagcgtgcaggttccc
+cagaaagccggaagtggaactgcACGCGCACACGGAACACCACGCGATCC
+GGCCCTCCACACACGCACATGGAACACCGTGCTGTATATGCCACAAACGT
+CTCCGAGTTCTGTGCTCCAAATGGTTACGGTGGTGAattctgttgtgtga
+attttcccataataaaaaaaagtgcctgctgtctgattctgtttacataa
+aattccagaaaattccggctaatctatattgacagaaaggaggcctgagg
+tagcgtgggatgagggcaggTGCGCGTCAGAAAGCAGCAGAGAAAAGTCC
+AGCGCACGTGCCCGCTCAAGCGCAAGGATGCAGGGACGCCTATTGTCTTG
+GTGCTGTGGATAGTTTCATGGGTGGGTACAGACGTCAAAGCTCATTGAAT
+TGTACCTTCCACACGCACCATGCATCCCACATCAGTTATATCTCAACACA
+GCTGCCCCAAAATGAaaaaaaggcaaactgatgagaaagaaacacgtaag
+gtggtcaacacgtacatcagggaaatgaggagtgcagccaggacgggacg
+cctgcacacgcacagaacggctaaaggcaaagcgtgtggccacgtgcccg
+caggggtcaacgctgctgcctggaaatgcgtcactcagggccaccccgga
+agcagggttttttgttttttgtttttttgcgtagagacacagtcttgctc
+agtcgcccaggctggagtgcagtggtgcgatcttggctcactgcaacctc
+cacctcccaggttcaagcgattttcctgtctcagcctcccgagtagctgg
+aatgacaggtgcccgccaccatacctggctaatttttgtatttttagtag
+agatgtggtttcatcatgttggccaggctggcctcgaactcctgacctca
+ggtgatctgcctacctcagcctcccgaagtgctgggattagtggagtgag
+ccaccactcctgggccctggaagcagttttatagcttcttacaaaactaa
+acatgtggccaccagatgaggcagagctcacctctgcggtattaatcacc
+tcaggaaaatgcaagcatgtctgcgtaaatcagtgcacagacacacagca
+gctttactcacaagaagcaaaaaccaaagcaaccagacgtctatcaaccc
+tggaacaggggagagatggagcacacacacagcagaagctactcagtgat
+agaaaagaaACTGCCCATACGGCCAGGGACACATAGTGAGCCCCACAGTA
+TCCACACCCTGGCCAGCCACACGGGAGCCCCACGGTAACCACGCCTTGGC
+CAGCCACACAGCGAGCCCCACAGTATCCACACCCCGCCAGCCACACAGCG
+AGCCCCACGGTAACCACGCCTTCGCCAGCCACACAGCGAGCCCCACAGTA
+TCCACACCACAGgacttaatcagtcctcaacacacacacatagcgaaaca
+tcttgctgtaccctgtatacacaaatattacttgtccattcaaaataaaa
+tttaaaataaagatgctgccaggaagaagttagaaaccacagacaaaatg
+ctccaagagtcctcatgtgaaattctaagagaggcaaagctacagcgacc
+ggaagcacatctgcagctggcccgggccagggagaaaagaggggaatgat
+gaggtgcaaaaggaggcacgtgggacacccgcggcaggtgacaaacggcc
+ggtcctgcctatgaggatggatacccaggtgtgtgctttaccaaaatgga
+tcaaattgtacacttaaaattggtgaatcttagggtgtgtaattatatga
+caatacagctggccaaacaaaaaactattcaataaactaaaaaaaatgac
+agaaggaagtgtatgtaaaaaagatgaccatagatattcatgagagaaag
+aactgaaataatctgtaacactgacagctgctttactgaaagagatatac
+gttagtgtgtagcatgacggatcaagaaaggaaccggaaataaatgattc
+tgtcaagaaagtgtctatgtatgatgcagatacgatcaagattttgtaaa
+tcgtacaagacaaggaaaagctttagagcaagaaatttctaagttacgca
+aaaaatttttagaaaaaatgtaaatcatcaaaatagtctccataaatgaa
+aaccctgaattagccaacaacgtttgaaggaaattaaCAAAGAGAAAAGT
+GTGTTTTCCTGTGGGGGCAGCTGAGGGGGTGGAGTTTGGTGGAGGTGAAG
+GAGCTGATGACTCTGTCTCAAACGGCTTCAGAGAAAACACAGAGGAGTGA
+CAATGATGAAAGGGAGGAAATGATGTATGAGATCAGCCCTGACTCACACA
+GACAGGAAGAACCGGGCCAGGAGAAGGCACACACGGACCTCGCTGCACGG
+CCACGGCTAAGATCCACGGGGGGACCCCCCTCATCAAACTCAAAGTCCCC
+TCAGACGTGAGTTCTCAAGCAGCCGCCGGCCAAAGTCCACCCGCCTGACA
+ACACGCGTGTGGAGCTGTGACTCCAGGCCCTCATTCAGTCACTCACGCGA
+CGGGGAGAACTCGAAACGGCAGTGACACCCCTACTCGTTCGTCCCCTGGG
+CCGGGGGCCCGGCTCACAGAAAACCGTCCCAAAGGCACACGATGGAGACG
+TGGACGGACATCTGCAGGTGGCGGCGAGCTGGGCGCCACCGAGACAGGCT
+CAGCAGCCTTGGCGGGGAAGCTGAAGTTTGCCTGCGGCCCCCACACACGC
+GGGACGCTCACAGGGTTCTGCCGCCACAGCGCAGGTGGATTAAGTCGCGA
+CAGCGCACACCCTGCTGGCCTCTGCCCACAGTCACGGTGGGTGCTCGAGC
+ACCATGCTCTCCGCCTGCAGGGCCGGGTCGGTGCGTGCAGGCACAGTGGG
+GCCTGTGGAGGTGTCTCTCGGACTCCCAGCGGTGCAGACGCTGCAAGCGA
+CACAACTTCAGTCTCAGAGCTCTCCCCTGCCCCGCTGGGTCACACCCAGG
+TCACCCTGCTTCTCTGGGGCGTCGAAGACAACGACAAAACTTGCTTTTTA
+CCACCAAACGTGACATCCAGCCAACGGACCAGGTTCTTTCAAGTCTTAAA
+GCCTCACTACCTTAGACGGCCACCAAGGCCAGTGCCGCTGTGCGTGGAAG
+CGAGGTGACACCGAGAACTGAGTCCTGGAAGGAAAATGACATGAAACGCG
+CACATGAGAACCAGGCGCCGAGGCGGGGAAGCACCGCGGAGGGGGGGTGG
+CCGCTGTGGGGGGCGGCACCACGGTGGGGGGAGGCGCCGTTGGGGAGAAG
+CACCGTGGGGATGAAGCACCGCGTGGGGAGGGGCGCTGTGGCGGGGAAGC
+ACCGTGGGGACGGGCGCCCTGGCGGGGAAGCACCGCGGCGGGGGTAGGGG
+AGGGCGGGGCGGCGCCCTGGCGGGGAAGCACCGCGGCCGGGGAGGGGCAT
+CGTGGCGGGGAAGCACTGAGGGGAATACATGGGTCCCATGCAGGAACCTC
+ACTGGGCTGCGCGAGCGGCTTTGTAGGACCCGAAGCGGACGCAGCGCGTG
+AGCTGCAAAAGAGGTGTCTGACCCAGCCCGAGGCGCGCagagaccctgtg
+ggtggggccgggcgcactccgcgagggtgagttctccacacaacggaggc
+tgtactgaaaaggatgaaggtgtcccagcagacggaatgccagcaaagag
+acctcccagtgaaggaactctcagagataccccacaacttcaagagcacc
+aaggataaaacgcggaagctgagcaaggcgtgttaagtcgagtgagtctg
+ccagggcacggagcaggtgctcactccacacgggacaaggagatggcact
+gctgtaactacttttggcaagtttttactgagagatgaaacaattcttaa
+tgcttctggtgttttaagttacagcatactaggtaaatattagttctttt
+cattcactacatgtttgcaaccgactgtaagaaagtttctaatatttcaa
+caaaaatgattatagAATGATCCTAATTTTTACTGGAAGATGGTTTTGCA
+TGGTTGTGACTTATCTGGTCCTTTCATGGCCCCACACTGCCGTACAAGAC
+AGGGACACCTCTACAAATACGGAGTGACTTAGCaaaaacaaatatgcaag
+tgtacaacagcatgctaatttttctctaagaaatgcaagaagtatgtatg
+ttcatactcatacacatatttgtacataattgctcatattaaaagctaaa
+ataacaataagaggataaaccaaagctatggaaactattacctctggggt
+agaaacagcacagacagggacagaacctggacttacctgaatgtgtctag
+tttgttagtgctcactttgtaaccatggaggtttttacatatttataaaa
+caaaactttttaaaatactttaaaaacacaatccctaatagaaaaagggc
+ggggacacttaatgtgttctttcagacccgtattgccctaaaaccaaaac
+cagacaaaggactcacaagaaaactaccaagcactgtcttctctgtgaat
+ccagttgcaaaattattggaatccagcaacatataaaaaagatgagacac
+agcgaccatgcggaatttatcccaggaatgcaaggttggtttaacatccc
+aaaaccaactcatttaatagactgtattaataagttaaaaaaacaaaacc
+Cggccaggtgcagtggctcatgcctgtaatcccagcactttgggaggccg
+aggcaggcggatcacttgaagtcaggagttcaagaccagcctggccaata
+tggtgaaaccccatgtctactaaaaatataaaaattagccaggcatggtg
+gtgcatgcctatagtcccagctacttgggaggctgaggcaggagaatcac
+ttgaacccagaaggtggaggttgcagtgagccgagattacaccactgcac
+tccagcctgggtgacagagcaagactttgtctcaaacaagcaaacccaaa
+aaacaaaaaCCTGCTCACTCCCGAGGACCCCCTTCACAGCTGCAGAGCTG
+GAGAGGGCTGGGGGGCAGGGGTCTCACCGTGAGGGGCTCACATGTACCGT
+GCACCGAGGCTCTGGGGCTCTGACTTGGAGGGGTGGGAGCATCCACTGGC
+CAGCGACTCCACCTGGAGGGTAGGAGGCTGGAGATGCGGGCACAGGTCCC
+TGGAAACACAACCACCCACCAGGGGTCCAGACACGCATCTCTGGTGTAGG
+CCTTGCCTTGGTAACGGACAGACACTAAACTGAGTGTGCTCCATCTGTGG
+GCGTCCAGGCGGTCAGCCTGGAGAGCATGCAGCTGAGAAGGAAAGCAGGC
+GGCGAATGATGCACGCCGCGCCGCAGCACTCAGGGTGAGTCTAGAAATGG
+GCCCATGGGGCTGCTGCCAGGAGACGGGTCCACAGCTGCCCAGCCTGGGA
+TGGCCGCTCCTCGGGCAGAAAGGGGCAAGGCCAGGAGGGTGCAGAACGGC
+CTCCGAGAGCCACGAGAGCTGGCGCCACTGGCCCCGGAGGGGAGAGAAGG
+GGAGGGTGGCACAGGGCGGGCCTGCGCTCTTCACAGCATCAGGATGAGAA
+TGCAGACGGAATTCCCACTCGCATTTCAGATGCTTAAGAATTCACACAGC
+AGCAACCAGACAGCAAACCTCAGACCACAACTATAACCTCAGAGAAAACC
+TGGGCCGCTCCCGCACACGTGTGAAACGCACCCTCCTCGGCCGTGCCGCC
+TCACTCACGCTCGTGTGACACGCACCCACCACGGCCGCTCCGCCTCACCC
+TCACATGCCCGCAGTACCACCTCGGCTGCTCCACGTCCCACGCGTGACAC
+GTACCTTGGCCACCAGGCCCATGTCATCCATGGTGGCCCTCTCGTGGGGG
+AACCGGGCGAAGGTGCTCTCGATCTTGCTGATGACGGCATCCACGTTGAC
+GGAGTCCTGCGGGCGTCCTCTGGGGAAGTAGAAGGTCGGAATGCTTTGGC
+TCGTGGCCGGGGGCAGAGGCTCTTCTTTCCGTGTCTGAACCTGAAGAGTC
+GACAGACAGCGCTCAGTTAGAACCTGGGAGCATCGAACGCCTTCTTCACC
+CGGACAACACACGGGGCCTCTCTAGGGCCGACAGTGCTGAGGCCACCTGA
+TCCCAGCCGGGAGAGGACACACTGCAATCCCTGCGGGGGACCACACACGT
+ACTCCACTGCAGGGCCCACCTTCACCCAGGAGGCCACACCATGCTGCCAT
+GGACCCCACTCTGGGTGGCGGCTCTGCGCCACTGAGCCCCCATCACACCG
+AGCAGGGCCCTGGGGACAAGGGCAGCTACGTGCCCCAGGCACCTGAGAGC
+CCAGCCAGGACCCACTCCCGATTCCCATGAGCCACACCACTGACCCCACC
+ACACCTGGCAGGGACCTGGGGAAAAGGGCAGCCACGCACCCCAGACGCCT
+GAGAGCTCAGACGTGGAGAGGCACAGGTGCCGTCCACAGGCAACCCTGTC
+CCTGGAGCCCGGAAGACTCACATTCTGAGAGGCAGAGGCAGGGCAGGCAA
+CCACACAGCCAGGAGAAGGGGTCGACCACCAGGTACTGCTGCGGACACGC
+CTCAGCCCCTCACCCGGTGCACAGCCCACGCCCACGGGCTCTTGGCCCCA
+CTCAGCACCAGCACTCTCCTCACCCAGTATATCTGCAGGCCCCAGAACAC
+TCACTCAAGAGTCTCCTGCTTGCATCTCTACACAACCTGCGAGGTGGACA
+TTTGATCTCATCCCGTGATGTTAAAACACCATCTGAAACAGTTAACAGCA
+TCAGCAACCGTACTGCGTCCTCCTCCATCAACTGCCCAAGGGACGGTGCT
+GCGTCCTCCCCCACCATCAACTACTGAAGGGACGGGGCTGCGTCCTCCTC
+CTCCTCCAACTACCCAGGGAACGGGGCTGTGTCCTTCCCCATCAACTACT
+CGGGACGAGGCTTCGTCCTCCCCCATCAACTACTCAGGGGACAGGGCTGT
+GTCCTCCTTGACCAACTACCTAGGGAATGGGGCTGCGTCCTCCTCCTCCT
+CCATCAACTACTCAGGGGACGGGGCTGTGTCCTCCTCAACCAACTGCCAT
+GGAGGAGGGGTCCAGGGAGGAAGTCCGCATACCAGTGGACCACAGCTCAG
+GGCCTTTGCACCCACAATCCTGACTGCCTGGATCAATCCAGGACTGGGTC
+CAAGCTCCAGTGTCCACACAGAGAAAACAGCCCGCCCTGCTACTCCCACA
+GGACCCTCACCCCAGGTCACAAGGGTCCCACAGACAGCACCCCAACTGTC
+CCCACCCTGCTACTGCCACAGTATCCTCACCGCAGGTCACAAGGGTCCCA
+CAGCGCCCCAACTGTCCCCACCCTGCTACTCCCACAGGACCCTCACCCCA
+GGTCACAAGGGTCCCACTGACAGCGCCTCAACTGTGCCCACCCTGCTGTC
+GCTGCAGGACCCTCACCCACGGTGAGACTCAGTTGTTTTTCTCTGATCCC
+CATGTAGGAGGAACAGAGGCCGCCTCCGTGACCTGGGGCAGAGCAGGCTT
+CCCGCAGTAGCTGCCGACTGAGTGCTCCTTCAGCACAGCTTTACCTAAGG
+GCACACCCCTTCCCTGTGATTCAGAACGTGACCTCTGTGTCCTGGGGCAG
+GAGGTCCCTGCATCTCCCCGAGCCCGCGATCCCACAGTGCATCTCCCCGA
+GCCCATGATCCCGCAGTGCATCTCCCCGAGCCCACGATCCCGCAGTGCAT
+CTCCCCGAGCCCACCATCCCACAGTGCATCTCCCCGAGCCCACCATCCCG
+CAGTGCATCTCTCCGAGCCCACCATCCCACAGTGCATCTCCCCGAGCCCG
+CAATCCCACAGTGCATCTCCCCGAGCCCGCGATCCCACAATGCATCTCCC
+CGAGCCCACCATCCCACAATGCATCTCCCCGAGCCCAGCATCCCACAATG
+CATCTCCCCGAGCCCGCGATCCCGCAGTGCATCTCCCCGAGCCCGCGATC
+CCGCAGTGCATCTCCATGAGTCCACGATCCCACAATGCATCTCCCCGTGC
+CCGCAATCCCACAATGCATCTCCCCGAGCCCACCATCCCACAGTCATCTC
+CCTGTGCCCACCATCCCACAATGCATCTCCCCAAGCCCGCGATCCCACAG
+TGCATCTTCCCGAGCCCACAACGCATTCCCGCAGCGGCGCCTTCCCGTCT
+CTCGCTGTGGGGGTCCCACTGTGGAGCCTGCGGCTCTTCCTCCTTCATCA
+CGCTGGGTTCACACAGCTCTGCTATTTGGGGTACGGAACTGACCCCGCGA
+ATATTCTGCAGTGAGCTCTCGGGCTCCTGTGTTTGGCAATATAGCAATGA
+CCTGGGTACACAAACCAACCTTCCTGATGAAAACTGCCAAGAACCCTGGA
+CAGAATAGTTGACAAACGTCTTCTAGACGGCGCCCACAGGCTGGCAGGAA
+AGGAGGACACCTCAGGCCACAGCTGCCTGGAAGGAAGAACCCGGGGAAGC
+CCGTGGAGCCTGAACAGGCTCTGCCTTCAGAAGCGTGGGCCGAGCGGGCT
+CACCCGAAATCTCTCACAGCCTTGCAGAGCTCTGGGGAAGAGGAGGCAAA
+ACGCAGGGTCCTCCGGGGAAGCTCCCAGAACGCGTCACCTTCAGTGGGAA
+GAATGAGCTCCAAGTAAATCCCCAGCGCGCCTCCGGCCCCAGGAATGAAA
+GTAGCAGCCTTCACCTGGAGCTGCTGGTACGAGCTGGGCAGGGGGGAGTT
+CTCCCCCGAGAACTGACGGCTACAGCCGACTCTCCTGCAGGTTTGCAAAC
+CAAACTCACGGTCACCAGGATGCTGCGAAAACCCTCAAACCGGCCGggct
+cgtgcctgcaatcctggcgctttgaaaggaggctgagggggacagactgt
+ctgagctgaggagttcaagaccagcctgggcaacatggcaaaacttcatc
+tctactaaaaaaaaaaaaaacaaaaaaaaaaaaacagaaaacaaaaaaca
+aaaagagtataaaaaaaaTTAgccgggtgtggtggagggtgcctgtactc
+ccagctactcgggaggctgaggcaggagaatcgcttcaacacaggaggcg
+gaggttgcagtgagctgagatcgcaccactgcactccagcctgggcgaca
+gagtgagactctgtctcaaaacaaaacaaacgattaaccaggtgtggtgg
+cgcatgcctgtactcccagctactcgggaggctgaggcaggagaatcgct
+tcaacacaggaggcggaggttgcagtgagctgagatcgcaccactgcact
+ccagcctgggcgacagagtgagactctgtctcaaaacaaaacaaaCGatt
+aaccaggtgtggtggcgcatgcctgtaatcccagctactggagaggctga
+ggcaggagaatcgcttcaacacaggaggcggaggttgcagtgagctgaga
+tcgcaccactgcactccagcctgggcgacagagtgagactctgtctcaaa
+acaaaacaaaCGATTAAccaggtgtggtggcgcatgcctgtaatcccagc
+tacttgagaggctgaggcaggagaatcgcttcaacacaggaggcggaggt
+tgcagtgagctgagatcgcactactgcactccagcctgggcgacagagtg
+agactctgtctcaaaacaaaacaaacgattaaccaggtgtggtggcgcat
+gcctgtactcccagctactcgagaggctgaggcaggagaatcgcttcaac
+acaggaggcggagggtgcagtgagctgagatcgcaccactgcactccagc
+ctgggcgacagagtgagactctgtctcaaaacaaaacaaaCGATTAAcca
+ggtgtggtggcgcatgcctgtactcccagctactcgagaggctgaggcag
+gagaatcgcttcaacacaggaggcggaggttgcagtgagctgagatcgca
+ctactgcactccagcctgggcgacagagtgagactctgtctcaaaacaaa
+acaaacgattaaccaggtgtggtggcgcatgcctgtaatcccagctactc
+gggaggctgaggcaggagaatcgcttcaacacaggaggcggaggttgcag
+tgagctgagatcgcactactgcactccagcctgggcgacagagtgagact
+ctgtctcaaaacaaaacaaaCGATTAAccaggtgtggtggcgcatgcctg
+taatcccagctactggagaggctgaggcaggagaatcgcttcaacacagg
+aggcggaggttgcagtgagctgagatcgcaccactgcactccagcctggg
+cgacagagtgagactctgtctcaaaacaaaacaaacgattaaccaggtgt
+ggtggcgcatgcctgtaatcccagctactcgggaggctgaggcaggagaa
+tcgcttcaacacaggaggcggaggttgcagtgagctgagatcgcaccact
+gcactccagcctgggcgacagagtgagactctgtctcaaaacaaaacaaa
+CGATTAAccaggtgtggtggcacatgcctgtaatcccagctacttgagag
+gctgaggcaggagaatcgcttcaacacaggaggcagaggttgcagtgagc
+tgagatcgcactactgcactccagcctgggcgacagagtgagactctgtc
+tcaaaacaaaacaaacgattaaccaggtgtggtggcgcatgcctgtactc
+ccagctactcgagaggctgaggcaggagaatcgcttcaacacaggaggcg
+gagggtgcagtgagctgagatcgcactactgcactccagcctgggcgaca
+gagtgagactctgtctcaaaacaaaacaaaCGATTAAccaggtgtggtgg
+agggtgcctgtactcccagctactcgagaggctgaggcaggagaatcgct
+tcaacacaggaggcggagggtgcagtgagctgagatcgcactactgcact
+ccagcctgggcgacagagtgagactctgtctcaaaacaaaacaaacgatt
+aaccaggtgtggtggagggtgcctgtactcccagctactcgggaggctga
+ggcaggagaatcgcttcaacacaggaggcagaggttgcagtgagctgaga
+tcgcaccactgcactccagcctgggcgacagagtgagactctgtctcaaa
+acaaaacaaaCGATTAAccaggtgtggtggcgcatgcctgtaatcccagc
+tacttgagaggctgaggcaggagaatcgcttcaacacaggaggcagaggt
+tgcagtgagctgagatcgcactactgcactccagcctgggcgacagagtg
+agactctgtctcaaaacaaaacaaacgattaaccaggtgtggtggcgcat
+gcctgtaatcccagctacttgagaggctgaggcaggagaatcgcttaaac
+ccgggaggcggagggtgcggtgagctgaggtcgcaccactgtcctccagc
+ctgggtgacagagtgagactctgtctcaaaaaaaaaaaaGTGAGATGAAT
+ACTTGgacatttttagccccaaatttacagagcatgcaccccattaacag
+acactctacggggcaaaagctgaggaaatgcagcagggagaagccaagag
+ctcccaaagggaaggttggaattgaaagaagggatgaagagcaggtcagc
+ggtaatgagtgggaaaacctcggcagctgaccacataaatcagtgataac
+aatgtatgttcaatttaaaaaacataaatcagtgaaaACAACGTATGTTC
+AATTAAAAAAAAAAAGTCAATACAACAGCCTGTCAGTGACATGCTGACTG
+GATGAGTGTGAGACGGTTTGTGAGTTGGAGGAAAAGATACTGATTAATAT
+TGGGCTTTGAAAAATTTAGTCGACGTTCCttttttttttctttatagaga
+cggggtctcgctatgttgtgctggctggtcttgaactcctggcctccagc
+gattctcctgcctcagcctcccaaggcgctgggatcacaggtgtgaggcc
+ccgtgcccggccAGCCATTGACATTTGTAGGATAAACAGTGAGCTAGTAG
+GAAGCGTGTACTCCAAACGAGAGAAAAGGCGACCAAGCTGAAAAAGAGCA
+GGAGACAGAGGTGCAGGATGAGACGGTCACAGTCCATCACACGGATGAGC
+AGGCAACATCGACCTCaatgcaccgagtgctctagttacaagacaaaggt
+ctgactgcagaaagaaaacagcattcacgtacatgggagacacagaggac
+agaaagacaggagatatatgtgacttaaggacccagaggctacacatttt
+tttttgagatggaaaaagagcaggcagacagtagagaaagctggtgtcgc
+tgtattaacatccatgaagtgacacaaggtgatggacagacctggagaca
+gacaggccaccaaggaacgctgaagaggtcagtcaggggaagacaggctg
+atgctaactttatccatgcctgacaacgcagcctcggcactgatcaagta
+aaCACCACTGGACACAAACTGAGCCCGCTAGGCAAGGCGGAGCCCACCCA
+CCCCGGGCACAGACACAGGGAAGGCCGGGACCACCCACCCTGGGCACAGA
+CACGGGGAAGGCCGGGACCACCCACCTTGGGCACTGACGGGGGGAAGGCC
+GGGATCACCCACCCCGGGCACTGACGGGGGGAAGGCCGGGACCACCCACC
+CCGGGCACAGACACGGGGAAGGCCGGGACCACCCACCTTGGGCACCGACG
+GGGGGAAGGCCGGGACCACCCACCTTGGGCACCGACACGGGGAAGGCCGG
+GACCACCCACCCCGGGCACCGACGGGGGGAAGGCCGGGACCACCCACCTT
+GGGCACCGACACGGGGAAGGCCGGGACCACCCACCCCGGGCACTGACGGG
+GGGGAAGGCCGGGACCACCCACCCCGGGCACCGACGGGGGGAAGGCCGGG
+ACCACCCACCTTGGGCACCGACGGGGGGAAGGACGGGACCACCCACCCCG
+GGCACCGACGGGGGGAAGGCCGGGACCACCCACCCCGGGCACCGACCGGG
+GGAAGGCCGGGACCACCCACCCTGGGCACCGACGGGGGGAAGGCCGGGAC
+CACCCACCCTGGGCACCGACCGGGGGAAGGCCGGGACCACCCACCCTGGG
+CACCGACGGGGGGAAGGCCGGGACCACCCACCTTGGGCACCGACGGGGGG
+AAGGCCGGGACCACCCACCTTGGGCACCGACACGGGGAAGGCCGGGACCA
+CCCACCCCGGGCACTGACGGGGGGAAGGCCGGGACCACCCACCTTGGGCA
+CCGACCGGGGGAAGGCCAGGACCACCCACCCTGGGCACCGACGGGGGGAA
+AGCCGGGACCACCCACCATGGGCACTAATAGACGAGAGATGGAACAAACA
+ACACAACCACCCCATGCGGGCACAGaagatttacaagcttaatctcatgg
+acagaaatagactcggccccagcacagctgcagagcacacattcttttca
+acacacacagctcacttgggaactggccacctctcgggctgagctgcagg
+tctcagggggttctgaaggaATCACAGGGACTGCTGCCCTGCCCCAAACG
+TAGCCGGTGAGGCCAGGCATCTACGGTAAACACAGAAGGAGCAAAAACAG
+CTGCATGTATGTGGAAGAAGAATTCTAAAGCCAGCCGCCTGTTCATTAAA
+AAGTTCAGACAAACCAGAGGGGCCTGTGGCGGCCAGGTCATCCACTTTAA
+ATCCTCCTCAGTACGTGTACTTTAAAAAGAACTTCGTAAAGAGCCCGTCA
+CCCAAAGCGCACTGATAAAGGCGACACCCTGACTCCCAACAAGCTATTTC
+TGTTGAGGGCACTGAGAAGGCAGCTCCCTGACTCATCACAATTCCAGAAG
+TCACAGATACATGTGTCGCCCTTCCAGAGTACACCCACAGTTTTGCAAAA
+CACGTCCATATACGACCAAAAACAAAGGCTGAGCCTAACACTGAGGCTGC
+CTGTTTTTGCGTAGAAGTGCGTGCGCTTGATGGGTGCAGGTGAGTGTACC
+CCGAGAACACAGGCCACGTGCACCGTGACACATCCTCTCGCGACACCAGC
+CTCGGGCAGACCCCCGCATGTGCAGAGGGTGCGCACAGCAGGCAGGGCGC
+GGTGACCAGCAGAAATGACCCTCGCCCCCACGGCAGCAGGACCGGACACC
+ACGATCAAAGCCACAGAGGAGGTGCCGGAGCAGCAGGGGGCCGGCGGAAG
+GGACGCTCAGTACGGGCTGCAACGCACAGCCGTGCCCCCAGGAGCCCCCG
+CTCTGCAGCGGCCCCCACTCTGCAGCGGGAGGCGGAAGCACGGGAGGCTG
+TGGTATGGAATCAGGGACGGGGGGTTTGGCCGGGACGCACACTCATGGAT
+TCCAGCTGAGCCCCTCGCCCACCCAGATGACGGCCACCCCCTGGAAGGCA
+GGGCCTGCTGCAAGCTCTGAGCATTCTTCTCGGCCCAGCACTTGACTCCC
+AGGGACCCTCTGAGAGGGCTGGTAGAGGGCTGCCAGCTACACCTGCAAAC
+CGCACGCTGGACGGCTAAACACAGGAGTCAAAAAGGTCGGTGTTTACACA
+GAGGAGCCGAACACGGAGATGAGAGGCCCCACGTGTGGGTTTAAAAATCC
+CCTCTCTAGCAAAGAGGGAGAACTGGTGTGGAGGGGTCAACACAGAAACG
+CAGCAGGTGCAGGTGTCTGAGTAGGCCAGAGCTCACGTGGGCTAACATTC
+ACTCAGACACATGACTGCAGCCGAGCAACCGGGCCTCAACGGACGCTGAG
+AGACGTCGGCTGGGGCCTGCACCCACACCTGCAGCCCAGGCACTGGCGCC
+TGCAGCCACGGCTGCAGCGAGGCGTGAGTCTCCACAGAGCTCGGAAGGCT
+GGGCTGGGGGACGTGGGGATCATTCTGTCCACCAGCCAAGGGGTGACGGT
+GGATGCCGCGCAACACAGCGAGGGGAGGATCCGGCACCCTCCCTGCGTCC
+ACAAGCCCCTGGCGGATGCTCCTGAGCTTGGTCTTCTGTGTGGACGTTCC
+CACCCGGGCTTCTGTTTCCCGTTAACCCCCCTTGCTGCAGCTCCCTGCCA
+GGTGGGGAACCCAAGCCCTGCCTTCTCCCTGCCACTGCCCAGGGAGTGGC
+ATCCTGGGCAGCGTCCTGGCCAAACCAAAGGCTGCAAGGGTTTTGGTGAC
+CACTGGCCTTGGGAGGGGAACGGCACGTGCCCTGGCGGTGAGAGCAGGAG
+GTGCGTCAGGGACGCCCAGAGCCCAGGCTGTCACCACGCTGAAGTCAGTT
+CCAAGTACAGCGGGGCTGCCGCGTAGGGGACGGCGCTTTCAGCCATGCGT
+GGTGCCGTGTAGGGTCTGTGCGTCCACCCGAAGGACCCCGTGGGGACGCC
+GGACAGTGTCTGTGTGACCAGGACAGGTGAAGAGGGGCGTCTGTGTGCTG
+AGTCAGTGTGTGGGGAGCGGGAGAGTCACTCCCCAGGCGGGGAGGGCCAG
+GCTAGGCAGCACAGCTGTCCTGGGCTGGGAACAAGGTCTGAGCTGTCCTG
+CTGTTGCCCGGGGACAGAAGGCCCGAGAATCCCTGGGCAGGAGGCGCAGG
+CAGTGGCTCCGGCAAGAAGAGCTCAGCCAAGCAGCTGCACGGCCCCACTC
+CAGGTACATGCTGGGTCCTACAGTGAGAGCATGAGCCGTGTAACACGCCA
+TCGTCACACGGGAGCCTCCCCGGACCCACGGTGAGAGTACGTGTAACACG
+CCATCGTCACACGGGAGCCTCCCCGGACCCACGGCGTGAACGCATGCTGT
+TCCGTTCCCAAGGCCGGCGGTCGCTGAACGCCCCCACCCCCCGAGTTTGG
+TTTGTCAAGGATGCCGGTGACAGGGAAGTGGGCAGTGGCAGGGAGGAGGA
+GGAGCTTGGGTTCACCATCGGGGCAGGCAGCACCCGCCAGGGGGTTAGTG
+GGAACAGAAGCCCAGGTGGGACGTCGCACAGTCAGAAGATCAAGCTCAGG
+AGCACCCGCCAGGGGCTCGTGGGTGCGGCCAACGTTGGCCGTGGAAGGCT
+GTGCCCGTCAGAGGACCCCTGAAAACAGTACCGTGCTGCCCGGCCGGGAG
+CGTCCGAAGGCGGAGGTGCGGCACCCCAACACGTCCAGTGGCTCCAACAC
+GGGTGCTCCCTGACAACCCTGAGGGTGTGTCCAAGTGGGGTGGACCCAAC
+AGACAGAGCCCACACTCATGCGCGGAGTGAAAGCAGCCAGGAAACGTCCC
+CTTCTCCCCCAACACCACCCCCACAAATACCCCCAAATATGCCTGTAATT
+CCTCCACCACCCCTCAGACAACATGCATTTCACACGTCTGTCCTCACTCC
+CTAAAAACGTGGAAACCTATTTTCTGTAAAATGAAGCAAACTTCTGTAAA
+CGGAATTCATGATTTCCCAGAAACTGACTTTTTAAAAATAAACAGTCCTC
+ACAGGTGCATCGTCACCACAGCCCCCCACAGAAGAGCCAGGGCCCCACTG
+CAGGGCTGAAGGGCTTCCTCATCCAGCCACGTGCGAGCTAATCACCTCAT
+TGACTCTGCGACCAGCGAGCCCGCACCGCCCAGCACCTCCCACCATCTAG
+AGCAAATCCCGCACGAGGCTGATCTCGCTCTTCGCAGGTTAAGAGGATTT
+TAAAGACACCAGCCTCGCCCTTACCCACTTACAGGCAAAATGTCAAAACC
+TGGAAGACAGAGGTCAAAAACTCCGAAGGAGTGCAAAAGTTGATGTGAGA
+TCTTACAGAAAAAATTTCAATTAAAATATCAACAGAAAGAAGTGGGTCTT
+CCTCCCCCTTCAAGCAGGATGCCTTGGTTCACCTTGATGTTAGGCCACTA
+GTTCCAGACTCCTGGAACTGAGTTTGAAAAGCGCGTCTGATGTGCCACGT
+GGGTGTGAGGCGCCCGCCACGCACACCCTGTCTGGATGAAATTCGGATCA
+GATTCGGCCGCAGCCAAACCCTAAATTCTCAAATTATACTGGGATTGTCA
+CAGGAAGACTCTTACACGTTTAAATCACATGGTACTCGTAAAACTAACTC
+ATACAATATACACGGGGTACAGACACAAATTTTACTTCCCTGAGCACTTA
+TGAGAACTGAGATTAAATTTCAAAGCCAgctggggtggaggctcacgccc
+ctactcccagcactttggaaggcccaggtgggcgatcacctgaggtcagg
+agttcaagaccagcctggccaacatggtgaaaccccgtccctactaaaaa
+tgcaaaaattagccctactcgggaggctgaagcaggaaaatcacttgaac
+ccaggaggtggaggttgcagtgagccgagatagcgccgctgcactccagc
+ctgggaaacagagaggcttcgtctcaaataaataaatataaataaataaa
+TTTCAAAGCCACTGAGTTACTGAATAAAACCACGCTGCATAAATAGTCCG
+GTATGTGAGTGATATCTCAACCGACTCTTAAGTTAGCCAGTGGGAAGGAA
+TGCTGGGTATTGCAATAACGCCGGGAAAGTTTCACCCACCCGACGCCTTT
+ACGAAGGGTGAAGGAGTTTCCCGATGTTTATTACCAGCAATGCAAGGTAT
+ATTTAAATTAAAAATCTGTCTGCAGCGAACACTCCCAGGCGCTGACGGCT
+CTCACCCGCCTTGGTTGATCACAGCAAGGCGCGCACTCACAGCCAAAACT
+CCCGGGAAAGGAGCGAGTGCTCTTTTCAAAGCCCGGTTTTCCTAACAAGC
+TTGGCACCGCTTCCCACAGAGCAGCACCCGGTTTTCGGCGGCGTGCGGCC
+CGAGCGGGTCCCCTGCGCCCACAACTGGCCCTGTAAATCTGGCGTTTGGG
+CCCCGCCACGCAACAACGGGTGCACGGCCAGCAGCGGCGAGCGGGGGCCC
+ACGCGGGGCCGGGAGGGCAGGGCTCGCCGGGCCGGGAGGCCTCGCCCGGT
+GTCGGGCAGCCGCGGGGCGCGCGGGGCTGACCTGCTGGAAGGCCTTCAGC
+CGCTTCTTGAACCGAGAGGGCAGCACGAAGTCGCAGCCGCGGGCCAGTGA
+GGCCAGCTCCTGGCGCAGGTCGGGGTCCTGGCGCAGCGAGCGCTCGCGGA
+GTCGCATGCCGCCGGCGCGCAGGGCTCTCCGcgggccgggccgggcgccg
+cgctctcggggcagggccgggccggggccggcggggcgctgcaggcgtgg
+cCCGGGCTCAGCGCGCTCCATGCGTCGCCCGCCAGGCGCTCTGGGGCCGG
+GGCCCGCGCCGCGCGCATTCCTCAGGCTGAGGAGGGCGCATGGCGCCGGG
+GGTGGGGGCGGCCGCCTCTCCCGACCCGCGACTGTGCAGACCCGGCTGCT
+CCCGGCGctgctctcctctcctccttctccgctccctgcactgccctccg
+ctccctccggtcctcttctctcctctccCCGTTCGCTCCGGGCTGGGCCG
+TCCGGCCGGGCAAGGGGGCGCTTTCTGCACCGCGGCAGCCGTCACGTGGC
+TCGCCCTGGAGCGCGCATCAACAGGTCCCCGAGAGGAGAGCCTGGGCGGA
+ACGCGCATCAACAGGTCCCCGAGAGGAGAGCCTGGGCGGAACGCGCATCA
+ACAGGTCCCCGAGAAGAGAGCCTGGGGACGGCCTCGGGGACCCAGGCGAA
+GGCGCTCCCCGCGAGAAGTGAGGTCCCCCCCCTCCACGACAACACCAGAG
+CTGGCTGCAGGCTCGGTGCCGACTCCGGCTTGCCCCTCCAGAGCACAGGG
+CACGCCAGGTGCAGCTGCGCCTCCACAAACACGCACGGCAGCCCAGACAT
+CCCGGCAGCCCGGCATCAAAGCGCGCCGGCATCTCCGCCCCTCCCCAAAC
+TTCAGGAGTTTCTAGAATACAGCTAAGCTGCAGTGGGCATCCAGGATCTC
+GTCTTCTCTGCCACTGCTCACTGTGATAACTGCGCTTGTTTGCAATCGTA
+TTTAGAACAAGAAAAGAGGGGCGGTGGAAAAGGGGGACGGGCAACTTTAA
+ATGAGGGTGAGCTGACATTCCGGGGGCCTGCACCTCGATCCCACCGGGAA
+GGAGACAGGATACCTTCGGGCTGAGGGTCAGAAACTGGCCACATCCCTGC
+CAGGCTGAACGCTGTCAGCAGAAAGCCTCCCGGGTCCCCGATCAGGAAGG
+TCCTGCGTGACCGCCtgcatctgttacagtcaataaacctccttggacgg
+gtcactatcaccccgagtcaacagcgtgcactgggctctcccgctgccgc
+acgctctgttgagtctggaaaaacgcaggatgacacggatctaccactgt
+ggggtcacgcagaggagtttccctgccctgaaaaacgtctgtgtggcact
+gacgcacccaacccccgcaagccccgatctgtttcctgtctccatcgttt
+tcctttttccgagtgtcctagacttggaaccagaagtctgcagccatctc
+agactggccttttCTTCTCCTGCAACCTTCCACACCACCTCTGACGCCCA
+CCACAGCCCCCCACCCGCAAGGCCCCTTCCAACTCTTCTTAGGGGTACGC
+ccctctccacttccttctcttccacctccttcccttctccagccatcctc
+ggatccctccatccttctcacttccttactgtccttGAGGATTCAGAAGT
+CGGCCTCTGACCCCCGGTAAGTCTCCAAAGGGAAGCTTTAAGACAGCACC
+AGAGGGAATGTGCTCAAACCACCAGGAGACGATTTAAACAAGTGCACCCA
+GTAACCCACGATGCGGGGCGCAAACTCACAGGGCAGAGGTGCCGCCCAGT
+CACCCACGATGCGGGGCGCAAACTCACAGGGCAGAGGTGCTGCCCAGTCA
+CCCACGATGCAGGATGCAAACTCACAGGGCAGAGGTGCCGCCCAGTCACC
+CACGATGCAGGATGCAAACTCACAGGGCAGAGGTGCGGCCCAGTAACCCA
+TGATGTGGGGCACAAACTCACAGGGCAGAGGTGCCGTCCCGTCACCCACG
+ATGCGGGGCGCAAACTCACAGGACAGAGGTGCCGCCCAGTCACCCACGAT
+GTGGGGCGCAAACTCACAGGGCAGAGGTGCCGCCCCTTCAGTTCATATCA
+GCACTACACACGGACGGCCTCCCAAACGCAGCTAGGGGAACCAGATTGGG
+AGCCAACCTCCTGTGATCTCCCTCCGAAAGTCAAAGATCAAACCCAAAAT
+GCGGGGGAAGCGAGCCAACGGGCGCGATCCTCACACTCAGGCAACATGCC
+CTGTCCTGCCACGCCAGGTGACACACGCCCTGTCCTGCCACGGCGGGTGA
+CACACACCCCTGTGGACTTTACTGCCAGGTTTCCTCTTTCCGTACAAGAC
+TTTTGGAACACAgccaggcacagtggctcatgcctgtaatcccagcactt
+tgggaggtcaaggcaggcagatcatgaggtcaggagttcgagaccagcca
+ggccaacatggtgaaaccctgtctctactaaaaatacaaaattagctggg
+catggtggcgggtgcctgtcatcccagctacttgggaggctgagggagaa
+gaatcgcttgaactcagaaggcagaggttgcagtgagccgagattgcgcc
+actgcactgcagcctgggggacaagagcgagacttcgtctcaaaaaggaa
+aaaaaaaaaaaaaagaCTTTTGGAAAACAGCCTCAAAATCCTGAAGTGCA
+CACATAGGCAGAGATTTAGACTCTGACCTGGAGCCCTCGAACCACCTCTG
+GATGCAGTCCCACTGCCCCCCTGGAGCCCTTGCGTCCTGTCCCGATGCAG
+AACCCGCACCACCCGCCCCCAGTGCAGCCACAGGGCTGTCTACACCGGAT
+GGGGGAGGGACAGGGCTGTCCACACTCGACAGAGCCCCCATGGGGCCATC
+CACTACCGTGTACAGGGACGGGCCGTCCACAGTGGGGCCGCCATGGGGCT
+GTCTATACACTACTGTATGCAGGGACGGGCCGTCCACACCCAGTGGGGCC
+GCCATGGGGCTGTCTATACACTACTGTATGCAGGGACGGGCCGTCCACAC
+CCAGTGGGGCCGCCATGGGGCTGTCTATACACTACTGTATGCAGGGACGG
+GCCATCCACACCCAGTGGGGCCACCATGGGGCTGTCTATACACTACTGTG
+TACAGGGACGGGCCGTCCACACCCAGTGGGGCCACCATGGGGCTGTCTAT
+ACACTACTGTGTACAGGGACGGGCCGTCCACAGTGGGGCCGCCATGGGGC
+TGTCTATACACTACTGTATACAGGGACGGGCCGTCCACAGTGGGGCCGCC
+ATGGGGCTGTCTATACACTACTGTATGCAGGGACGGGCCGTCCACACCCA
+GTGGGGCCGCCATGGGGCTGTCTATACACTACTGTATGCAGGGACGGGCC
+GTCCACACCCAGTGGGGCCGCCATGGGGCTGTCTATACACTACTGTATGC
+AGGGACGGGCCGTCCACACCCAGTGGGGCCGCCATGGGGCTGTCTATACA
+CTACTGTGTACAGGGACGGGCCGTCCACACCCAGTGGGGCCACCATGGGG
+CTGTCTATACACTACTGTATGCAGGGACGGGCCGTCCACAGTGGGGCCGC
+CATGGGGCTGTCTATACACTACTGTGTACAGGGACGGGCCGTCCACACCC
+AGTGGGGCCACCATGGGGCTGTCTATACACTACTGTATGCAGGGACGGGC
+CGTCCACAGTGGGGCCGCCATGGGGCTGTCTATACACTACTGTGTACAGG
+GACGGGCCGTCCACACCCAGTGGGGCCGCCATGGGGCTGTCTATACACTA
+CTGTATGCAGGGACGGGCCGTCCACAGTGGGGCCGCCATGGGGCTGTCTA
+TACACTACTGTGTACAGGGACGGGCCGTCCACACCCAGTGGGGCCACCAT
+GGGGCTGTCTATACACTACTGTGTACAGGGACGGGCCGTCCACAGTGGGG
+CCGCCATGGGGCTGTCTATACACTACTGTGTACAGGGACGGGCCGTCCAC
+ACCCAGTGGGGCCACCATGGGGCTGTCTATACACTACTGTGTACAGGGAC
+GGGCCGTCTACAGTGGGGCCGCCATGGGGCTGTCTATACACTACTGTATG
+CAGGGACGGGCCGTCCACACCCAGTGGGGCCGCCATGGGGCTGTCTATAC
+ACTACTGTGTACAGGGACGGGCCGTCCACACCCAGTGGGGCCACCATGGG
+GCTGTCTATACACTACTGTGTACAGGGACGGGCCGTCCACACCCAGTGGG
+GCCACCATGGGGCTGTCTATACACTACTGTATGCAGGGACGGGCCGTCCA
+CACCCAGTGGGTCCGCCGTGGGGCTGTCTATACACTACTGTGTACAGGGA
+CGGGCCATCCACACCCAGTGGGGCCACCATGGGGCTGTCTATACACTACT
+GTATGCAGGGACGGGCCGTCTACAGTGGGGCCGCCATGGGGCTGTCTATA
+CACTACTGTGTACAGGGACGGGCCGTCCACACTTGACAGGACCACCACAG
+GGCTGTCTATACACTACTGTGTACAGGGACGGGGCCGTCATAGCATTGTT
+TTTGCACCACAGGCCAGCACGGAATCTGCGAGGCCTGTTTTCAGCCTGTT
+CCCCCCAAATTCCTACTCTGAAGAGACAACATTGCCATCTGGGCCGATGA
+AGCCCCTCACGGCACCCGAATCTCCACCGTCCCTCTGCTGTCGGGACACA
+ATCTtaccatcaacctctaaaggctcctaaaatgcccagaagacctttat
+gcaaaattttcataaaaatctcttcacttttcattctcactaaacataca
+tttgttcagacggcttgttttaggataaaAATGTGTCTTCCATGAGCAAA
+CATAATGGCTTTTCTGAAATCCCAGATTTGAAAGGCTTACGAAGGCGACC
+TGCCCTTTGTGAGAAAAAGTTTTTCTGAACATCCAAAGCTAAAAGCATAG
+CTAGTAACAGGCAAGCCTATGAGACAGGAAGATGGCCCAGAATCctgtcc
+tcaccctgcaggtgccgtctgcagagcacggcttcctccctgtttcaaag
+gccctgagaggacaggctccagcggattcaaaacccgtccacctcatctc
+aggaaacggcatggttctctctgtcaacagaaggggagggagggatgaag
+ctctttacacagtttccatggttgcagattctcggaggttgcaagaaggg
+ttttcgacaccttccttcctcctcacaacgagactctcatcggtgcccac
+tatgaaaacgtgaataggtcgttgttacgaagGCAGTGAGAACTGAACGC
+AGACAGGCACGCACCTGTACAAAAGCTACAGTCCCTGGGCAAGCTCAAGG
+CTCCCGCACGAAACCTTCAGAAACCCTGAGCTCCTGCCCTGAGGGTTCTA
+GGTGCTTTTGTCTTACAACATGTTTGTTAAGAACTTCTAATGAAACGTTA
+AGATAACCACACCTGTATGTACATGCACCTGTGTGTGTGTATGCACCTGT
+GTGTTTGTGTGTATGCACCTGTGTGTGTGTATGCACCTACGTGTGtgtgt
+atgcacctgtgtgtgcacctgtgtgtatgcacctatgtgtgTGTATGCAC
+CTATGTGTGCATGTACCTGTGTGTATGGACCTATGTATGTGTGTATGCGt
+gtgtatgcacctgtgtatgcacctgtgtgtatgcacctATGTGTGTGTGT
+GTGTATGGACCTATGTATGTGTATGCACCTGTGTGTATGTATCTGTGTGT
+ATGGACCTATGTATGTGTGTATGCGTGTGTATGCACCTGTTATGCACCTG
+TGTGTATGCACCTATGTGTGTATGTACCTGTGTATGCACCTATGTGTGTA
+TGCACCTATGTGTGTATGCACCTGTGTTTGTGCATATGCACCTGTGTGTG
+TGTATGCACCTGTGTGTTTGTGTGTATGCACCTGTGTGTGTGATGCACAC
+GCACGCCCGTGTTTATCTCCAAATACCCTGTTCTAATGTTCTAGAATGCT
+GGCACCCGGTCTGATAAAAATCACAGGTTAGGTGGACACCAAAACTGAGT
+AGCTTCCAGAAATTAGagaagaactaaataaacagatagaaacttaatca
+aggaggtgcaagaggtgtacccggggaagtacacaacgttgctgaacaaa
+acctaaatgaatggaaagtcctttgtttgtggattggaaaatactgttaa
+ggtatcaattatcctaaattgatccacagattcaaagcaatcccaatcaa
+aattccaacaggcttttcttgctggaaagcaatttttaaagaacaggctt
+ggactcacagtatctgctttcaaaatttgctagaaagttacactaatctg
+gaaagtgccatgaaggtgaggggatgcacatacagcaatgggatggaaat
+aataataaaacagacgtacgtactcaactgactttcaacaacacaattcc
+acggggggagaaaagactgttcaatatacggtgctggggtcatccagata
+cctcacctcataccacgcagaaaaactgacctgaactggatcacaggccg
+aaacgcaaacctaaaaccacactgctttctcaagataaataggagaaaat
+atttgacaccttgtggtatgcaaacattttgtaataagacacaaaaaata
+agagtcataaaagaaaaaagttgaaaaactaaacacttttgctctttgag
+acactgaagaaaacaaaaagcaagccagactcaagagacatatgcacaca
+ccacattgtcttaccaaggacttgccaacagttgtatgtaaagagctctc
+gcaactcagtgataacataacccaatttaaaaagcaaacacacgacctga
+acagacgctcgacagtgggaaccacatgaatggcaaataagcacctgaaa
+attcctcggcgtcaccaggccgcagggaaatgcaatcaaaatcGTGCAGT
+ACTggccgggtgtggttgccctcgtctgtcatcccagcactctgggaggc
+tggggcgggtggatcacctgaggtcaggagttcaagaccagcctgaccaa
+catagtgaaaccccatctctactaaaaatacaaaactagccgggcgtggt
+ggcgggtgcctgtaatcccagctactcgggaggctgaggcaggagactca
+cttgaactgcaggaggtggaggttgtagtgagccgaaattgcgtcattgc
+actgcagcctgggcaacaagagtgaaactccatctcaaaaaaaaaaaaaa
+aaaaaaaaaaaGCAGCTCATCCACATGAGGTTCTTAATTCCCCTTGTAAG
+AACTTACTTTAAAGATGCATTTAGGGTCCCCCCTAGCAGAAGCACCCTGG
+CTTGCAGCATCAGCCCATCGATACTGGCGttttctttctttttttttttt
+ttagagacagagtctcactttgttgccccggcgggagtgcactggcacaa
+acatagctcactgcagcctcgaactcctgggatcttcctgcctcagcctc
+acaagcagctgagacttcaggcatgaaccaccatgcctggctgattttac
+tattttacagagatgggggagtctcgctatgttgcccaggctgggctcaa
+actcctggcctcaagggatcctccctccttggcctcccaaagtgctggga
+ttgagccactgcacccggccAATGCTCACATTTTCTAATTTGTACCAGTT
+TCTCTTCCCCAAAGACGGGAAGGAGCCACTGCAAGCACCCCTTTCAAACA
+CAGAATGCAATCTCTCTGCTCAGTAACGATGAAGGCGTAGGTAACGTAAA
+ACAATGCCGTTCCTTTCACCCTTGGCTGGGGAGTTCAATGGACCTAGCGT
+GAACCCTCCTGACAGCTCATACTCCATTCTGTACATGTGTGGGTGAGAAA
+AAGCTGCTTTATTTATGAAAATCTCTTCCTCTGACCCCAGCATCGCCCCT
+CCCCAGCCAGAGTTTGTAGCATGGAACTGCATCCTTCACTGTTAACGTGG
+CCTCGCGTATTCTGTATATGGGATGGACAGGAACAAGCTCAtcttttttt
+ttttttttttttttttgagacagagtcttgctctgtcacccaggctggag
+tgcagtggcgcgatctcagctcactgcaagctctgccacccaggttcatg
+ccattctcctgcctcagcctccggagtagctgggactacaggcacccgcc
+accacgcccggctaattttctgtatctttagtagagacagggtttcactg
+tgttagccaagatggtctctatctcctgaccttgtgatccgcccgcctcg
+gcctcccaaagtgctgggatcacaggcatgagccaccgtgcccagccCAA
+GCTCATCTTTTTTGTCCCAATGAACAGACACATCTTTCTAAGTTATTCAC
+TTCTTGAGATTCAGCTGAAGTAAGCCATAGGTTCCAAACACGTAGACATG
+TTTAAGGTAAACTTTTAGTCCCAAACAAGGTCAGTCACTGCTTTTTGAAA
+ATTCTTGCCATCTCCTAAGTGCAGAATCCTGCACCCTGCACACCCTGGCC
+GCCATGCCCACGGTCCACACGCATCCTTCCTTCTGCTTCTCCGGTCAGAC
+CACTCCAGTCCCTCAACGTGACCTGAACATCTCAtctttttttttctttt
+ttttttttttttgagacagagtgtctcactcttgtcacccaggctggagt
+gcagtggcacaatttcagctcactgcaatctccgcctcccaggttcaagt
+gattctcctgcctcagcctccagagtagctgggattacaggtgcccacca
+ccacacccagctaatttttgtatttttagtagagacagggtttcaccatg
+ttggccaggttgatctcgaactcctgacctcaggtgatccgtccacctca
+gcctcccaaagtgctaggaattcaggtgtgagcgactgagcctggtcTCA
+TTTTCACCGCCTCCCTTGGTCCTGCCCCCTATACCCAATAAACTCAGTGC
+ATTTCTCAAGTTCCACTACTCACTTCCTCCTCAAAACTTTCTCCAGGAGA
+GAAATGATGTCTCCCTGCTTTGAACACCTTTGGAACTTAATTTCCACTTG
+TTAGAGGCTTCTTGCCTGATTTACAGAATATATCATCCTCTCACATGCAC
+CCAAATGGCCTCGTTTGCACAGACCTGACCTTCCGTCAATATTCCCAGCC
+CTAGGAGAATTCATGCAAAGTCACAATAGTCCCAGCCCTAGGAGAATTCT
+TGCAAAGTCACACAATTCAAGCATTTACCTTAGCGTCTGGCTGTCATTCA
+ACACGTTTAAGGACAAAATGGCAGCTCATTAGCGATCCCACTGAGAAAGC
+AAGTCATGGAGGGGAACCATCATTACTAGCACATGCTTCTTGAGTCCTGG
+CCCTCCTCTCAACCTCCTCAGTAAATGAGGGATTTGGGCAAGAGTTCCTA
+AGGTGCTTCAGGTTTTGCAGCTCACTGGGAAAGTGCACTGGGCCGGAGCT
+CAAGAGATGCGTCCTGGGGCCCTGAGTCCCCTCCTGGATCGGGATCTGGA
+GGGCCTGAGCCAGACGGTCTCCAAGCTGCCTCTAGCTCTAGTTCACATTT
+TCATCGACACGTACTTTTGGAAAATGTTCTAGATCCATCAGAAGACATCG
+GACAACCACCGGTAATTTAGAACGCAAGGAGCTCACCTCAGATTGCCACC
+CACCTCTCACTCAGCAAGTAGAGAGGCTGGTCCATTTTGGCTGGAAAACT
+GTGGTGCTACGTAAATATCACTTTGTGACATGCTTATTAGTGCTGCTGAT
+GGAAAGCTGGTGTTCAGCTGAAAATTTTCAAATGGTATAAACAAGTTCCG
+ACGGAACATTCTGAATATTTCAGGCTTCCGTAGTATTCTCGGGACACCAG
+ACGCACCAGCCATACGTGTTTCTATAACATCTGGAAGCAATGTTTTATCG
+CTTTAAACTGCATAGTATAAAACGACAGAAAGCATTTTTAAAAATACACG
+GCTGTCGGcgggcacggtggctcacacctgtaatcccaaaactttgggag
+gccgaggcgggcggatcacgaggtcaggagatcaagaccatcccggctaa
+cacggtgaaaccccgtctctactaaaaatacaaaaaaattagccgggcgt
+ggtggcgggcgcctgtagtcccagctacttgggaggctgaggcaggagaa
+tggcgtgaacccgggaggcggagcttgcagtgagccgagatcgcgccact
+gcactccagcctgggggacagagcgagactccgtctcaaaaaaaaaaaaa
+aaaaaaaaaaaaaaaaaccaaaaaaacaaaaaaacaactaagttcccagt
+catgactggatgggagtttggacacaccttattatacccctcctgctttg
+gcagtttaaacacaaccaaccagcaaaaaggttaaaatcaacatcgtaag
+actgacagaacagactctgtggcaaacaagaccaagggccacctgaggtg
+agggttaagtcacacaccgcctacacttaaagaataaactacagttccaa
+ctgccaaagcatttctttttctccagcagctaaaTGTCCTTTTAGGTTAT
+TCACTAGAGACCTCTGCAGAAACTCGTTTTTGAGATTCAAGAAGTAAATA
+AAGGATGTTTTTCTTTTTCTCTATTGCTTATCTTGGCCTCAAGCTCGCGC
+ACGCAAGAAGActctctctctctctctctctctATATATATATATATACt
+ttttttttttttttgagacagggccttcctctgttgctcaggctggtgag
+cagtggtgcaatctcagctcacagtaatctccgactcccagcttcaagca
+tttctcctgcctcagcctcctgagtagctgagacttcaggtgcgccacca
+cgcctggctaatttgtgtatttttagcagagatggggtttcgccatgttg
+cccaggctggtctcgaactcctgaactcaagtgatctgcctgcctccaac
+tcccaaatgctggaatcacaggcgtgagtcaccatgcctgaccAATataa
+acaatattaaaacacctgcagcttcctgtcagatcctgatgaacagaccc
+ctctgttccaccagccgtaactacagctttgactgggaaaagactgattc
+caggccaggtgtggtggctcacgcctgtcatcccagcactttgagaggct
+gaggcgggtggatcacctgaggtcaggagtttgagaccagtctagccaac
+aaggtgaaagcctgcctctactaaaaatacaaaaattagccgggggtggt
+ggtgtgcgcctgtaatcacagctactcgggaggctgagggaggagaatcg
+cttgaacccgggaggcggaggttgcagtgagctgagattgcaccattgca
+tctcagcctgggtgagagtgagaatctgtctcaaaaaaaaaaaaaaaaaa
+aaaaaactgattgcaatcactttatcctggtaactactcaccacggactg
+gttctggccggttgacagaggctgcagagttgcttcaccttttgacctag
+ggggcctaaccataatgcatttaaatgttaagtctccgctccaaggtgaa
+ctcgggagtaggtaacatgcatgtttgttcaatacccatgcgtcaggaca
+cccttggtgaatatccatagctcttcctataacttcttgaatatatacac
+ttggccaacccactcagcataaattcccgtctcatcttttcttccctcca
+agtgcTTGTTTTTAGttttcttttttttttttttttttttttttttgaga
+tggagtcttgctctggtgcccaggctggagtgcagcctctgcctcctggg
+ttccagtgattctcctgcctcagcctcccgggtagctgagattacaggta
+cATTAGCCAGAGGCTGCGCTTCTCACCTGCGGTGTATAATCACCTTCTAT
+GAAATAAATGGCGTTTCTTCTAAGAAATACAGTGGGattttgggaggccg
+aagcgggaggattgcttggacccaggaattccagagcactctaggtaaca
+tagcaagacctcgtctctgcaaaaataaataaataaataaataaacaaaa
+attagcctggcgtgatggtgcacgcctgtaatcccagctactggggaggc
+tgaggcaggaagtccaactgtgtttgcgccactgcactccagcctaggag
+acagagcaagaccctgtctccaaagaattgtaaaataaataaaaaaCGga
+ccaggcgcagtgactcacgtctgaaatcccagcactttgggaggccaagg
+cgggaggatcacttgaggtcaggagttcgagaccagcctggcccacatgg
+gggaaacccagtctctactaaaaatacaacatcagccaggcgtggtggca
+cgtgcctgtaagtcccagctcctcgggagcctgaggcaggagaatcgctt
+gaacctgggaggcagaggttgcagtgagccaagatcgcgccatcgtactc
+cagcctgggcaacagagcaaaactctgtctcaaaattaaaacaaattaaa
+ataataaaataaaaTAAAATAGGAAGCCTTTCTACCTTTATAAATTGTGT
+GATTTTTAGGTTAACAACTGTCAATGACGGAATGTTCAGTACGTGGGACT
+TTCTTGTCTGTATGTGTGTGGTGGGGGGGGTCGGGGCGGGGAACAGACTC
+AATATGAAACCGTTTTGGGGTCTGACGCTCGCCCACCAGCCTCCATCGCG
+CAGCCACACGCCCACTATGCGACCAGAGCCACCTGCGCAGTTGTTAGCAG
+AAGGAAGAGTAACTTACTACTCTCGTCCCTGCGGATCTACGGGTGCCTCG
+AACGTGGGGCGCGTTCCTGGGGCTGGAGGCGGCGCCCAGGGGCAGCGCAG
+GGCCCGGCCCGGGGGTTCCCGGGGGTTCGAGCCCGCTGGGCCGGGGGGCG
+GCGAGCGGGGCTGTGGGCCAGGCCCCGGGCTGCTCCCCGTCCCCCGGGGT
+CGGCTGGTCCCGCCCGGGCGCCTTGATCCGGCGCAGGCAGTCCTGCAGCA
+TCCGCTGCGTGCTGGCCTCGCTGAGCCAGTACAGGAACAGCTCGTCCACC
+TTCATCTTCAGGACCGGCTGCAGCACTTTGCCGGGCGGCATGGCGGGGGC
+TGGGCCCGCGGCGCCCCCGGACGCCCGCGCCCCGCCCCGCCCCGGGGGCT
+TCGGTCCGCCCCGGACCGACCTCGGTGATGCGAGCACGGCCCGCTGAGGG
+GGCGCGGCGCAGGGAACAGGGCCCGCGCCTCGGGAACTGCGCGGACTCGC
+GGGGCGCGGGGACCGAGGAGGGGGCGCGGTCCGGCCCGCGCTGCTCAGGG
+CAGCTTCAAAACGGGCGCGCCGGCCGCGCTCCCAAACAAGGGCGCCCGCG
+TTCACGTCACTGCGTCGCGTCATCGCGACGATGTCATCACGAGGCGACGC
+CGCCGCTAGCCACGCGCGCCCCGCGGCCCTCGGAGCTTTTGCAGGAGGCT
+TTGGTGGGGCCGAGCGGCTGCGGTGAGGACGAGGGAGGGGCTGTGGCGGC
+CGTACCGCCCGAGCTCTTTCTGCGTTTAGGATTTTTAGAGGCGCGGCCCA
+TGGCGGCGTGGCAGTCCTAGAGCTGCGGAAATGCGAGCATGCGCAATGCG
+TGCCTGCCAGAGCGAGGAGAGGGTGGAACCTCCGCATGGAGCATGCGCCG
+TGCATAGCGGTGGAGGAGCGGAGTTCGGGAGGCCGGTCGGGTGAGCGTGC
+GCAATGGCTGCCCGCGGGGCGCAAGCCAGAGGCTGGGAGGTGTGTGAGCG
+GGTGGGGCTGGAGGACGGGAGTGCGCCTGCGCAGTGGGAGGCACCGGGAA
+CGAGCGAGCATGCGGGGTGCGCGCCCGCCGAGCTCGGGAGCGAGCGTGCG
+TCCTACGGGAGCGCGCGAGGAAAAGATCAAACTTTTCAATAACAGCGGGC
+TACCTGGGACCCAAAGGGCCCCGTTTACTTTAGCTTTGCTTATCAAACAG
+TAGAGACAGGTTGGAGGAGTTGGACCCCTTTAAACGTTGGTGTTCAGGGA
+TGAGCGTGAAGTGCGTTGAAAATTGCAAAAATCATCCACGTCCAGGGAGG
+TGACATTAGTTAAATAACTTTACCCAATGGTCGTTTTTGTTTCTGCTTTT
+AACAGTATCCATAAAAACACTGCATTATCATCTGTCTGGCACACATGCAC
+CTGTTTCCTTTACATCTTGCCCCGCTTTTTATTCATTTTTTATCAAAATA
+GGGTTTCACCTGGTGTTGCACCCTGTTAGAGAGTAATTTCAAGGTCTTTT
+ATGAGCCAGGTTCTCCTACTTCTGAGCTGCATAAATCGAGCCAGACTCAA
+TAAGTAACCCTTggccgggcgcggtggctcaagtctgtaatcccggcact
+ttgggaggctgaagcgggcagatcacgaagtcaggagttcgagaccagcc
+tggccagcatagtgaaaccgcccccaccatctctactaaaaatagaaaaa
+ttagccgggcatagtagcgtgtgcctgtagtcccagctactcgggaggct
+gtggcgggagaattgcttgaacccaggaggtggaggttgcagtgagctga
+gatcacaccattgcactccagcctgggcgacagagccagactttgtctca
+aaaaaaaaaaaaataaCtctttttttagttttattttttttttgagttgg
+agtctcgctctgtcgcccaggctggagtgcgatggcaagatctcagctca
+ctgtaacctccgcctcccgggttcaagggatcctcctgcctcagcctccc
+gagtagctgggattacaggcgcccgccaccacgcctggctaatttttgta
+tttttggtagagacagggtttcaccgtattagccaggatggtctcgaact
+cctgacctcaagtgatccacccgcctcggcctcccaaagtgctgggatta
+caggcgtgagctaccacgcccggccTAAATAACtctttttgttcgtatga
+gacagggttttgctccgtcacccaggctgcgatcttagctgagtgcagcc
+ttgatctcctggctcaagcgatcctcccacctcagccttccaagcagctg
+ggacaacaggcatgcgccaccatgcctggctcatttttaattttattgtt
+tatagagacgaggtgttgctggtctcacactcctggcctcaagcaatctt
+cctgcctttgcctctgtctctgcctcccaaagcgttgggattacaggcgt
+gagccaccgcacccgATTTAAATCACTCATAAACGATAGTTTTGTGTTGT
+GTACATAATGATTTGAATTTCAGTTTGTGTTTCGTGATTGGATATAAAAA
+TCCGAGTGTACTTGGTCAGAAGAGCGCCATCACGCAGGAATTCTGTGAAG
+TTATTTTTCCTAATTGGGAAGCAACCGTTTGTGTGTGTGTGCGATGCTGT
+GATTTCTGGAGGGAAGTGAATATATTAATACAGTTCTCTGTTTGAGTATG
+TATCGGACACAGACGTCTTTTCAAGGAACAAACGTGCTTTTCATTCTGGG
+TGTTTCGATGAGCTGCGAGTCACTGTTGGAAGCATCACTGCAGTTTTGAG
+GGGAAAGGGTTTCCTTTGAATGCCTGCACAAGAGGCCTTTCTCTGCCAGG
+TTACTGGGGCACAGTGTAGTGAGGCCCAGGGCCAACAGGACAGAAATCAA
+CTCAGGGCAGAAACAGAATGCGCCTTCAGTCTGCGCTGGGGCCCGGGGGC
+CCACTCCGTGCAGGCTTTGCTCTGGGAGAACAAAGAGGTGCTGTCGGGCC
+CCCAAGGCTGGCAGGGCCTGAGGTGTTGCAGAGTTTGCTGGGATGTGGCC
+AGCTGCAATTATCCAAGCTGCTCCACAGCCGGATGGACGCCCTGCCCATT
+CGGGTCTGTCCGTCTTGCAGGGGTGGTGGGTGGCCACCAGAATTGTCCTG
+GGGAGAGAAAGGTGAGGGCAggccgggagattgcagtggctcatgcctgt
+catcccagcactttgggaggccgagacggtggatcacctgaggtcagggg
+ttcaagaccagcctggccaacatggtgaaacccccgtctctacaaaaata
+caaaaattagccaggcacggtggctcacacctgtcatcccagcactttgg
+gaggccgaggtggtggatcacctgaggtcaggagttcgagaccagcctgg
+ccaacatggtgaaaccccgtctctacaaaaatacaaaaaTTAgccaggca
+tggtggctcacacctgtcatcccagcactttgggaggccgaggcaggagg
+attgtttaagcccaggaggtcaagaccagccttggcaacatggcgagccc
+catctctagagaatatttaaaaattagctgagcatcctggcgtgtgcctg
+tggtcccagctactcgggaggctgaggtaggaggatcgtttgagcctggg
+aggttgaggcttcagtgagccgagatctcaccaccgctctccagccgagg
+caggaatgaaagactctgtccctaaaaGCATTAAATTTTAAAAAGCAGCC
+AGATATCgtggctcacacctgttatcccagcactttgggaagctgaggtg
+ggaggatcacctgaggtcaggagttcgagaccagcctgaccaacatgctg
+aaaccccgtctctacaaaaatacaaaaattagccagacgtggtggctcac
+acctgtcatcccagcactttgggaagctgaggcaggcagatcacctgagg
+tcaggagttcgagaccagcctggccaacatggtgaaaccccgtctttaca
+aaaatagaaaaattagctgggcatgatggcgggtgcctgtaatcccagct
+acttgggagactgaggcagaagaatcacttgaacccaggagacagacgtt
+gcagtgagccgagatcacagcattgcactccagcctggacagcagagcga
+gactccctctcgaaaaaataaaaataaaaataaaataaaaaGCGAGAATG
+GGGAGGGAAGAGTAGCGAGGAAGATTCCGGAAGACTCTGCTCCTCTGTGG
+GATGTAGGTCCAGGAACAAAGAGCTGGGTCAGCGCTTCCCAGGGAGGTGA
+GGAAGGAGGGAGCCACAACGGTTGTAGAGGGAGAGAAGCTCCTTCCTTCA
+TCCACCTGAGCCCGGGTCTCCTGTGTGGCCACAGCCTCTGCAGCCTCTGC
+CCCACCTGCAGCTGCTCAGAAATGCAAACTCACCCACTGTATGACATGCT
+CTGGATCTCAGTCGGCCTTCGCCCCGCAGACCTGGGTGGTTGATCGAACA
+CTAAAGCTCCAGACCTGGAGATGCCTCAGAGGAAGCACCTGGCAAGTAGG
+ATCTCCCTGGTCCTGCGCCGACCCAAAGCTCCCAGCTAGGTGCGTGCAGT
+GAGAGGTCAAAGAGGGATCAAGTTTATATCTGCCGCTTGCATTCCGCACG
+ATGACTTAaaacaaacaaacaaaacaaacaaacaaaaaaaaacaaaaaac
+CCAGCCGAGCACAGtgtcatcccagcactttgggaggccgacaggggtgg
+atcacgaggtcaagagatcgaaaccagcctggccaacgtggtgaaacccc
+gtctctactaaaaatacaaatattagctgggcgtggtggcgggcacctgt
+aaccctagcaactcgggaggctgaggcaggagaatcacttgaacccggga
+ggcggagcttgcagtgaacagagatcatgcccctgtactccagcctggcg
+acagagcgagactctgtctcaaaatgaataaataaataggaaaGTAGTGT
+GGGTCTGCATTCTGCAGGTTTTGGAAACACATTTCCGAGTGCATATTTCA
+GGTGAGGAGAGGTGGGGACTCCAGGCAGCGTGCACAGTTTAGACTCTAAC
+CGTGggccgggagtggtggctcactcctataatcccagcactttgggagg
+ccgaggtgggcggatcacaaggtcaggagttcgagaccagcctggccaat
+atggtgaagccccatctgtactaaaaatccaaaaattagccagatgtggt
+ggcgtgcacctgtcatcccagctactggggaggctgaggcaggagaatcg
+cttgaacccggtggaggcggaggttgcagtgagccgagatcgcgctgctg
+tactccagcctgggtgacagagcgagactccctcccaaaaaaagaaaCCA
+CCGTAACTGTGGCAGTAAGAGGCCAGGAACTCTCACAGATACCTCGTCCA
+AAACCGGCAAAGGAGAGGATGGAACATTTGCTGTAGAGGTTTTCCTGCCT
+CTTCATAACTCCTTGAGGCTGTGTCCTCATCCATCTTCCAGAAACCAAAA
+ACCCTTCACACATCGCCCCTTTTGTCCCGAGCGGCGCCCGCTGCCACCTG
+CTTGGCAAAATAAAACGTAAGTGGAAAAATGCTCCCTTTTCCATTTTCCT
+CTCTAATTGAATTCTCTCCTGACCTCTCGGTTCCCCACGGCTGTGTTTCA
+GGTTTTGATGATAAGGAAAAGAACTCTGTATTTGGATAATACGATTTTCA
+GCAACCTTCAACTCAATTTCCTCTCCCCGGAGACAGTGTATCTTATAGGA
+TAGAATGAAATCCCTTATTCATAGGGAAAAAGTTCCAATTTAATCTGAAT
+ATTCAGCGTGCCGCCGTGGCCGGGGTGATGGATGGCGTATGGAAATATCA
+CAGTTCAAGCAATCAGATGTCAGAATGCACTCTGCTACTGGAAGAAATAA
+TGACGCCTATCCAATTTTCTATAAGGCGCAGAAATGCACGTTGCATCGTG
+AGGACCCCGGCTTTCTCCTATTACCTTACTAATCACATCTCCATTTAAAC
+ACAGAACAGAAAAGGAAGCGTGGTCACAAATTAAGAATTAATGGAAGTGA
+GACTCCGCAATGGATTCGGGGCCGAGGGCCAAAGGCGGCCGCCACGTGCC
+GCTATTTACATGAAGTCACAGAGATGACGGGGATGAGCGGGGTCCCCTTG
+TCAGAAGCTGCTGGGCCAGATGAACCTGACAAGTATCTCCTAAGAAGGAT
+TTAGAAAAGGGGAAGATGAAATCTTTGGAGGTAATGGAGAATTAGAAGCA
+TGTCATTACCTATAAATCCTGCGGCCCTGCACACGCTGTTGACAGCCCGG
+AAGATGAGACTGGCTGAGAGGAAAAAGATTCTGAGCCTGGAACAAGCGGA
+CCCAGATTCTAGGTGGCCAGGCTGTGTGGTTGCTTTTATCATTCCGGGAG
+ACTTTCGGGAGGAAATGTTTGCAAAGAGCACGCAGATGGGGAAATGTTTG
+CAAAGAGCACGCAGATGGCAttttcttttctctctatttttttttttttg
+agacgtagtttttgctcttgtcgcccaggttggagccgcctcccgggttc
+aagcgattctcctgcctcagcctcccaagtagctgggattacaggcacct
+gccaccacgcccggctaccttttatatttttagtagagactgggttttgc
+cgcgttggccaggctggtctcgaactcccgacctcaggagatctgcccgt
+ctcggcctccgaaaagtgctgggattacagatgtgagtcaccgcgcctgg
+ccAGCATTTTGTATCACCCCTAACTGCATCTATTTTGGTGTTGTTCATGA
+TAATAATAAATGTCATGCATATCTCTGATTGAACTTGGCCCGTGCTTGAG
+CTCATTAGAAACAGGTTTTCCTATGTGTCATCTCTTATTTTTCTTGGTAA
+TACTTGGAGCTGAGATTTCTTTTTCTCTCTCTTTCTTCCTCTCTCTTTCT
+CTCTTTCTTCCTCTCTCTTTCTCTCttccttcctctctctttctctcttc
+cttccgagacagggtctcactccgttacccaggctggagtgcggttgtac
+gatcacagctgctgtcttgacctcctaggctcaagtgatcctccaccctc
+agcctcccgagtagctgagactgcaggcatgcaccgccatgcccgcctaa
+tttttttatttttttctagagatggggtctgactatgttgcccaggctgg
+tctcaaactcttggcctcaagcaatcctcctgcctcgacctcccaaagtg
+ctgggattacaggcgtgagctaccgcacgcagccTTGAATCCTTTTAATA
+AGTACTTTCCTCTTATCCACGACCCAGAACATCACACTGTAGACAGTTGT
+TTAGGGTTTTGAAAGAtttatatttttaattttttttttttttttgagac
+agtcttgctcttttgcccaggccggactgcagtggcacaatctcggctca
+ctgcaagctccacctcccgggttcacgccattctcctgcctcagcctccc
+gagtagctgggaccacaggtgcccaccaccacgcccggctaattttttgt
+atttttagtagaggtgggatttcaccgtgttagtcaggatggtctcgatc
+tcctagccttgtgatccgcccgcctcagcctcacgaagtgctgggatgac
+aggcgtgagccaccgcgcccggccAAttttttttttgagctaggatctca
+ctctgtcaccaggttggagtgcagtggtgcgatctcagctcactgcaacc
+tccgcctcccaggctcaagcgatcctcccacctcagcctcccaattagct
+gggaccacaggcacctgccaccacacctggctaattttttttgtagagac
+ggggttttgacatgttgtccaggctggtctcaaactcctgagctcaagca
+atctactggtctcggcctcccaaagtgcggagatgaccaccatgagtgac
+cgtgccaggccTCTGTTTTTAAttttgtaattgagatacattccacataa
+cataaaaggaaccgttttaaagtgaacaggggcatttaaaacatccacaa
+tggcgtaccaccacctctgtctagttccggaacacttgcgctgggcatgg
+tggttcacgcctgtcatcccagcactttgggaggccgaggcgggcggatc
+acctgaggtcaggagttcaaaaccagcctggccaacatgacgaaacccca
+tctctactaaaaatacagaagttagctgggtttggtggctggtgcctgta
+atcccagatacttgggaggctgaggcaggagaatcacttgagcctgggag
+gcggaggttgcagtgagccgagatcacgccactgcgctccaggctgggcc
+acagagcgagacccggtctcaaaaataaacaaacaaaccaacaacaacaa
+aaggtctggagcattttcttcaccccaaaagtaaaccctgtccccattaa
+cagtcattcgtccccctccccatcccctggcaaccacccatccactttct
+gcctccatggatttgcctgttctggacctttcctagaaatggaatcttac
+tctatgtggccttttgtgtctggcttctctcacggagtgtgacatcctca
+aggctcatccacattgcagcctgtgtcacagcctcgttccttttcatggc
+tgcatactattccaccatgtggatggaccacattgtgctaatccacccat
+ccactggtggacacttgagtggtttctgcttttgggccgttacgaaatcc
+agctactgtgaaACAGTTCACttttattttattttatttatttatttttt
+tgagatggagtctcgctatctcgcctgtgctatagtggcagaatctcggc
+tcactgcaagctccgcctcccaggttcaagtgactctcctgcctcagcct
+cccgagtagctgggattacagtcacccaccagcatgcccagctaattttt
+gtagttttagtagagacagggtttcaccatgttggccgggctggtctcga
+actcctgacctcaggtgatccacccgtctcagtctcccaaagtgctggga
+tgttgcaggcgtgagccaccgcgcTGGCCTCTAGGTGATTCTTTAACTAG
+AACGATAGATATCGGACTTTTGCTATGGGGTGGATTTTCCTCCTAATCTG
+AAATGAGGCAAAAAGTCTTAGCATGTCAGATGTGACGCCTTCTTTTATTT
+CGCTCAGCATAAATTTTAAGCAAATTGAGAATGGAGCCTGGGTACCCATT
+TCGGTAAAAGCTTTGTTTTTTTTTTTCTGCGTAAGACCTACATTTGACTC
+AGAGTGTAGTTGGTGAAATGCACATTTTTCTTAATGACAGAAGGACGTAT
+ttctttctttctttctttctttttttttttgagacagactgtcactctgt
+cgcccaggctggaatgcagtgtcgtgatctcagctcactgcaagctccgc
+ctcccgggttcacgccattctcctgcctcagcctccctagtagctgggac
+tacaggcacccgccaccacgcccggctaattttttgtatttttaatagag
+acagggtttcaccatgttagccaggatggtctcgatctcctgacctcgtg
+atccgcctgcctcagtctcccacagtgctgggattacaggcgtgagttac
+cgtgcccggccGAAATGCACATTTTTCTGAATGACAGAAGGATGTAtttc
+tttttttttttctttttttgagacagagtctcgctctgtcacccaggctg
+gagtgcagtggcgcgatctcggctcactgcaagctccacctcccgggttc
+atgccattctcctgcctcagccgcctgagtagctgggactacaggcgccc
+gccaccacgcccggctaatttttttgtatttttagtagagacggggtttc
+accgtgttagccaggatggtctcgatctcctgacctcgtgagccgcccac
+ctcggcctcctaaagtgctgggatttacaggcgtgagccactgcgcccgg
+ccAGAAGGACGTATTTCTGATAGCCAGGGGTAGTGATTTACAGCACTGTA
+GTACAGAAAACTGtttttttcctctttgtaaaaggagtagttgctgattg
+gagaaaacttgggaagtacagagagtattcaaaaaTCAGGGCTGGGcttt
+gggaggctgaggcaggcggatcacaaggtcaggagttcgtgaccagcctg
+accaacatggtgaaaccccgtctctactaaaaatacaaaattagctgggt
+ggggtggtgggcacctgtaatcccagctactcaggaggctgaggcaggag
+aaccacttgaacccaggaggcggaggttgcaatgagccgagattgcacca
+ctgcactccagcctgggcaacagagcgagatgccatctgaaaaaaaaaaa
+aaaaaaaaaaaagccgggccggatggctcctgcctgtaatcccagtactt
+tgggaggctgaggtgagaggatcactggagcctaggaatttgagatgagc
+ttgggcaacatagcaagaccccatctctaccaaaaagcaaaaTTAgctgg
+gcatggtggcccatgctgtagtcccagctactcgggaggctgaggcaggc
+ggattacttgatcccaggagtttgaaactagtctgggcaacgtagtgaga
+tgccatctctaccccccccccaaaaaaaattagcccagcatggtggtgtg
+cacctgtagtcctagctactcgggaggctgaggtgggaggatcacttgag
+cccaggaggtcaaggctgcagtgagccgagatcacaccattgcattccag
+cctgggcaacagagcaagaccctgtctcacataaaataaaataaaTAggc
+cgggcgcagtggctcatgcctgtcatcccacactttgtgaggccgaggcg
+ggcggatcacgaggtcaggagtttgagaccatcctggccaacatggtgaa
+accccgtctctactaaaaatacaaaaaaaaaaaaatagccgggcatggtg
+gcgggcgcctgtagtcccagctactcgggaggacgaggcaggagaatggc
+gtgaacccgggagacggagcgtgcagtgagccgagatcgtgccactgcac
+tccagcctgggcgacagagcgagactccgtctcaaaaaaaaaaaaaaaGT
+CCAGACATGGTTGTTCAACAGCACAGAGGGACGTCTTGCTGAGAAGTGGC
+CGGACGAGGCTGCCCCAGACACCGCAGCCCTCTCCTCCTGCCCCCCACAC
+CCTCCAGGACTGAAGAGGCCGTAGGCTCGGCCGGCAGCATCTGCTCCCTT
+TGTCCTCCAAAGGAACCCGTGTGTGGAAGGAATGCCTCCGGGGAGAACAG
+CTGACGTCCGGTGCCGTTTTGGCAGCACGGAACCCCAGTTATTTTCAGAT
+GTCTTGTTCGTGCCCCAGAGGTCAGGGACCAGCAGCTTTCAGGAAGCCTC
+GGCCAGGCACTGCGTTAACTCCGCGATGACTTTCTGGCTGCAGAATCCCA
+ACTATGCAATTCACTCTTAATCCCCAGCTTCAAGGCACTGTCAGGCGTTT
+CCGTGACAAAAACTCTCTCttttttttttcttttcttcttttgttttttt
+tttttttttttttgaaatggagtcttgctctgtcacccaggctggagtgc
+agtggtgttatctctgctcacagcaacctccgcctcccgggttcaagcga
+ttctcctgcctcagcctcccgagtagctgggactacaggcacccgccacc
+acgcccggctaatattttgtattccttgtagagatggggtttcagcatct
+ctacgctatttccaaataaggtcccaggctgggggcggtggctcacacct
+ataatgttggccaggctggtctcgacctcctgacctcaagcgatccaccc
+gcctcggcctcccaaaatgccgggatgacaggcgtaagccaacgcgcccg
+gccAGAAACCTGCTATATTCTGCACCGTTTTTCCGGGTCCAGGCAGACGT
+GGGTCCCTGTGGTTTCAGAGCACAAGTGGTGTTTTATGGAATCATCTTCG
+CTGTGGCAAGCACACTATGGTAGATGGGATAGGGTGGGTGTTGGTGGTGA
+GGAAGAGGTCGTGCCCGTCCGTGGATGACGTGGGAAGCTCTCGAAGAGTT
+GCTGGCATTTGTACCTGTTTGCACGCAGCAGCGCTCTGAGTGGCAGAGAC
+AGGATGTCCCCCAGATCCCACGTCCCCGCAGTTGTTAGTGAGACGGATGC
+CTCGGGATGTGCCTTGGTCTCTGGTTTGAGAACGTTTCTGTTGACTTGCC
+ATTTTCTAACCACGGGGCGCACAGCAGAGTCAGAACTGGGTTACAGAACG
+TGGGCTATGGACTCCAGTTGCCTTTCTGACCTACTTTATTTTGTTTTGTT
+Attttattttatttatttatttattttttgagacggagtctcgctctgtc
+gcccaggctggagtgcagtggtgcgatctcggctcactgcaagctccgcc
+tcccgggttcacaccattctcctgcctcagcctcccgagtagctgggact
+acaggcgcccgccaccacacccggctaattttttgtatttttagtagaga
+cggggtttcaccgtgttggccaggctggtctcaaactcctgacctcaagt
+gatcggcccaccttggcctcccaaagtgctgggattacaggcgtgagcca
+tcacgtccggccTTCaagtacactttctgttgaatgcatactgctttctc
+tccagcataaagttaaaaaatcctgaattgcaccattggaagctggggac
+tgtctgTATGCAATATTATGTATAGTTTGAtttctttttttgcatttttt
+ttttaaatttttttgagacagagttacactcttgttgcccaggctggagt
+gcagtggcacgatctcagctcactgcaacctccacctcccgggttcaagc
+aattctcctgcctcagtctcccaagtagctgggatgacaggcgtgagcca
+ccacgcccggctaattttgtatttttagtggagatggggtttctccatgt
+tggccaggctggtctcgaactcctgacctcgtgatccgctcgcctcagcc
+acccaaagtgctgagataacaggcgtgagccaccgtgcctggcTAAtttt
+gtatttttagtggagatggggtttctccatgttggccaggctggtctcga
+actcctgacctcgtgatccgctcgcctcagccacccaaagtgctgagata
+acaggcgtgagccaccgtgccgggctaactttgtatttttagtggagatg
+gggtttctccatgttgtccaggctggtctcgaactcctgacctcatgacc
+cgctcgcctcggccacccaaagtgctgagatgacaggcgtgagccaccgt
+gcccggcTAAttttgtatttttagtggagatggggtttctccatgttgtc
+caggctggtctcgaactcctgacctcatgacccgctcgcctcggccaccc
+aaagtgctgagatgacaggcgtgagccaccgcgcccggctaattttgtat
+ttttagtggagacggggtttctccatgttggccaggctggtctcgaactc
+ctgacctcatgacccgctcgcctcggccacccaaagtgctgggatgacag
+gcgtgagccaccgcgcccggccACAGTTACACACGGACACAGAGCCAAGG
+GGCCACCTGAACTCCCTCTCAGCCCTGGAATGAAAGACCATAGgaccagg
+cgcggcggctcatgcccacaatcccagcacagtgggaggccgaggcagga
+ggatcgcttgaggcctggagttcgagaccaacctgggccacctagcaaga
+ccctgcccctaccaaaaaATGTAAACAATAAAAATAAATGAAAAGCAACA
+ATAAAAGAAGGTAGACCACGTGTTGCGGGACCTTCCTCTCCTGGGGCGCC
+TTGTGGGTGTGGGCAGGGGAGGCTATTCCCGGCCTTTCACGTTCTAAAAA
+CATCCCGTGGAAAGTGTACAGACGGCATCTGTGGGGCTCACCTCTGTGCC
+CGTCACTCGATCGTGGGCCTGCTGAGTGGCGCTATTTTTGGAGGGCAGCT
+GGGGGAGGGAGGAATTGGTACGATTTTGCTATTATAGGAAGGAAGACTAA
+GGGATTCCTAGGCTTGCTTACATGCtttttttttttttgagacggagtct
+cgctgtgtcgcccaggctggagagcagtggccccatctcatctgactgca
+agctctgcctcccgggttcacgccattctccagcctcagcctcctagaga
+gtagctggggctacaggcgcccgccaccaacacccggctaattttttgta
+tgtttagtagagacagggggtctcaccgtgttagcccggatggtctcaag
+atctcctgaacttgtgatccgcccgcctcggcctcccaaagtgctgggat
+tagaggcgtgagccaccgcgcccggccGCCTACATGATTGTTATAAGCCA
+TGACCCTTTCGGCATATGAGAGAGTGTGTGAATCCTGTCAGTTCAGGGTT
+AGAAGCCCAGGATGCATGATTGAGGTGGCTGTCTGCAATAGCAACTTGCT
+TTCTCATGGCAGAAAATTAGAttttttttttttctttttgagacagactc
+tttctctgtcactcagactggagtgcaatggcacgatcacagctcactgc
+agcctcaaactcctgggctccagcaatcctcccacctcagcctcctgagc
+accagggaccacaggcgtgcaccaccatacccagctaatttttaaatttc
+tttagaaatgagatctcgctatgttgcccaggctggtctcaaactcctgg
+gcttaagccatcctcctgcttcagcctcccaaagtgctgggattacaggc
+gtgagccactgcacctggccCATGTATGCATTTTAATATATATTAAAgag
+acggagtttcgctcttgtcacccaggctggagggcagtggtgcgatcttg
+gctcactgcaacctccgcctcccaggttcaagccattctcctgcctcagt
+ctcccaagtagctgggattacaggtgctcaccaccatgtcTTCTATCCTT
+AAAGAACGGGGAAATTTGGGTGCAGAtgtgtgtgtgtgtgtgtgtgtgtg
+tgtatgtgtgtgtgtgtatatatctgtgtgtgtgtatatatgtgtgtgtC
+TGTAtatatatgtgtgtatgtgtgtatatatataaaatacaatataaatt
+ttttaaaaaatatagtttataaaattatgttttataaaaaattttaaaat
+atagaaacaaaattatagtttgtaaaaacatttttacacatatgacaata
+tgtaaaattgtattttataaaaagttttaaaatatgaaaatatataaaat
+tacattttataaaaacataagcccttCACCCTTCTTCTGTATTAAATTAG
+CAACCTGCAAAGCTGACCTCCGGGAGTCTCAGAGAGGCTGGCTTGTTTAA
+TGGAACCGTGTAttcttttttgtttgtttgttttttgaggcggagtcccg
+ctctgtcgcctgggctggagtgcagtggtgcaatctgggctcactgcaag
+ctccgcctcccgggttcacgccatcctcctgcctcagcctcccgagtagc
+tgggatgacaggtgcccgccaccacgcccggctcattttttgtagttttg
+gtagagacggggtttcactgtgttacccaggatggtctcgatctcctgaa
+ctcgtgatccacccgcctcggcctcccatagtgctgggatgacaggcgtg
+agccaccgtgcccggccAGAAGAAAGCCTTTATGGAGAAGAATGTTGACA
+CTATGACAGCGAATTGTGTGCCTGCTGGCTGTCTGGGTTTAACCCACCCC
+TCACAGCCCCACCCAgcccccaccaatcagaacgtgagccgccgaggaca
+ggaaggtttctccttggtctgtttctctcactacagggaccccgggaaat
+agaatggcacctgtcacacggtagCTTTCAGACAGACACattcagagtcc
+agaatgttcaccattacaccatggaacTGTCTTCACGGTAGCTTCCTAAT
+ACATGTTTGTTCCCTCGATAAATGAAACAAgggcgtcggggctccagcct
+gtcatcccagcactttgggaagtagaggtgggtaggttccttgagttcag
+gagtctgagaccagcctggacaacacagcaagatccagtctctgcaaaaa
+aaaaaaaaatacactaaattagccgggcatggtggcacctgcctgtaggc
+ccagctacaaggagataggaggatcacttTAAATGttttgagtcaccaac
+ttggaaacattctttttgtagaatctccaaagtgacgtttctgagtccat
+cgaggcttgtaaggaaacatagaatatccaatgataaaagctagaaacaa
+gctatctatgaaaatgctttgatgtgtgACTGAGTATGTGTGTGTGAGGG
+TATGTGTGAGTGCGTGAGTGTGAACGTATGAGTATGTGTGTGTGTGTGAG
+GGTGTGTGTGTGAGGGTATGTGTGTGTGATTCAGCATTTGGCTCTGTGAG
+GGTACGTGTGAGTGTGAGCACGTGGCTATTTGTGTGTGTGTGAGGGTATG
+TGTGAGTGCGTGTGTGATTGAGCACGTGACTGTATGTGTGTGCATGTGTG
+TGAGGGTACGTGTGAGTGCGTGAGCCTGTGACTGAGCACGTGGTTCTGTG
+TGTGCGTGTGTGTCCTTGCAGCTGGCAGGGGGTGTTGCCCAGGGAAGAAC
+TGGGGGAAGCAGCTTTCTCCCCACTCAGGAGAGGGCCCGCACAGGGGAGC
+GGCCACGCAGGCCGCGCAGGAGCTTGTCCTCCTGACTTGGAGTCCCTGGC
+AGGAACCTGATGCTGGAGTGAAGAATATGCCTCGTTTAGGGGGCACCGTG
+GTTCCCACTTCCCAGCTGAGGAAGCCCCTTGGAGACAGTGGGGCTGAGAT
+TCAGAGCCCGCCCTGGGACCCACAGTCGGATCGCTGCTCTCCCTAGGAGA
+CCTCCTGGGCTCCCATTTTCCCTTCTCTGCCACAGTTGCCACCTGCGTGC
+TGGGGCGGCAAAGCGTAAAGGCTGGCAGGTCCTTCCTCAACCCCGGAAGG
+TGGGAACCACAGCACGGTCATTGCCGGCGTAAAACCCCAGGGCCGTCAGG
+TGCTGTGTGCAGATTGAACAGCTTCATGCTTCTACGCTCACCTGCAACGG
+AATAGGTCGGCCCCTGGGACCACATTGTGAAATGCAATCTGAGCATTCTC
+TGGGCAATGACGGTGCAACCTGGACAGGCTCGGGGGGTCCCCAGCGCAGA
+CATTGAACCTCCTCTTTGTCATTTTCCTAAAGGTTGGAAGTAGAAATCGT
+CCTAAATCATAGCCACGCGATTTCTCTCCGGAAAGGACGACATTTGGGTC
+ATGTAGGGTTCACGTCTGCAAACTCTGAACTTCtttttttttcttttctt
+ttctttttcttttttttttttttttttttttttttgagatggagtcttgc
+gctgttgcccaggctggagtgcagtggtacgatctcaggtcaccacaacc
+tccgcctctctggttcaagcgattctcctgcctcagcctcccgagtagct
+gggattacaggcacctgccatcatgcccagctaattattattattattat
+tttttgagacggcgtctctctccgtctcccaggctggaatgcagtggcac
+gatctcggctcaccgcaacctccacctcccagttcaagcgattctcctgc
+ctcagcctcccgagtagctgggattacaggtgtgcaccatcatgcctggc
+taatttttgtatttttagtagagacgggggtttcaccttgttggccaggc
+tggtctcgaactcctgacctcaggggatgcacccacctcagcctcccaaa
+gtgctgggattataggcataagccaccgcacccggccACCCCTGCACTTC
+TTTGTGTCCTTTCTTTCAAGGAAAGGACACAATGCTGGAATTATTAAATA
+AGTCCTCTTTGAGATAAACGGGAATGGTTCGTGTCTTGACAGTGAGCATT
+TGCAGTAGAAATCACGCACACTCAGCAGAGGGCTGCACAAGGCCAGCCGT
+GCTCCACCTGCCCCCCTCAAAAATCGGCCTCCGCACCTGCTGCGGCCATT
+TCATTACATCTCAAAACAACGTCAACTTATTTAATAAATAGGAGAATTTT
+TAAATCAAGTCCCGAGGCAGGATGTATAAACTTTAGTATTGATTATGCGT
+CCCTAAAAGCGCTCTCAGTAAAGGGACTTTGCTTCCTTTTCCTCAGGTTC
+CTATGAAGTCGTTTAATCCGTCTAACTCTTATTTTATGTTGTTTTCCCCG
+TTTTTATTACTTTATATGACAGTACATCTTTGTAGCCACAAACTCAATAG
+CATAATTGTGTGTTTTTTTTTCCCTGAGACAACAATGTGCTTTTTGTTCG
+AGGAGGTAATAATTCTTGACAAAATCTGTTTTAATGTCGTACCGAAAAAA
+AAAACAAACCCCACAAAACCCTTAACGGACATTTGTAGTCCCCATTGGAT
+CTAAAACACTGTGATATTGTTTGTGTAATCTGCTTTTAAAGTCACCAAAA
+GTGCTTTGTTGTAAATACTCTGTGATAACATTTGCTTTGTTAACGTATTT
+TAAATGAAATATAGTTATAATTTCCCTCATGACATTTTCATTTAAATTTA
+AATGTCATGAGGGAAATTATAATTTAATTTAAAAAACGATTTAAATTTAT
+Ttaataaatttaattaataaataataatatataataaatatataataata
+aataaataatcaaatttgtttaaatttaaatttatttaaatttattcatt
+tatttatttatgtattcatttagatagttatttaaatttatttaaattta
+ttattatttatttttattttatttcattttatttattttattttatttta
+ttttagagacagggtctccttctgttgcccagcttggagcgcacctgtgt
+gatctcggctcactgcagactccgcctcctgggttcaagagatcctcctg
+cctcagcGTGCATGCACCACCAAGCCTGGCTCATATTTTTTAGACATTTT
+AATTTTATTCAGGGTCACAAAGTTACCttttttttttttttttttttttg
+agacagagtcttgctctgtcgcccaggctggagtgcagaggtgcaatctc
+ggctcgccgcaacctccgcctcccgggttcaagcgattctcctgcctcag
+cctcccgagtagctgggatgacaggcacccgccaccacgcccggctactt
+tttgtatttttagtggagacgcggtttcaccatgttggccaggctggtct
+cgaactcccgacctcgagtgatcctcccgcctcggcctcccaaagtgctg
+ggatgacaggcatgagccacctcgcccggccACACAGTCACCTTTTTATG
+TGACGCGCATCGTGTAGATGGAAGAGAAATCAAACGGCACCGTCTGCCGG
+GGCGGGATTGCAGCCCGTTCCAATGTCTCATTTATTCCCCGGGTGCTGGG
+AGAGTCTCTGGGATGACAAGACTGATGGTTCCTAACCCAGGCCGGGGCAA
+CGCATGACTTTTGACGCCTCGGAGAAGCCCTTCCTTCCTGGACTGTATTC
+TGACAGGGAGTGCGTCTCACGCTTTACCCGACGGCGCCCAGAGCGACCTT
+CATCGCGGCCCACCGGCCAGGGCCGTCTTCTGGATcttcagcggcttgag
+gaactttctgtccccttctgggttgactgaatttttatcgcgaaaaggca
+ctgcctttgctcaaatgcttttcctgcatttctgcaaatggtcatgtgag
+tttggccccttagccatgaatacggtgcgtcacattcactggttttcCAG
+AAaagagctgtatagagagagaatttacacagctgacaatgtgtccgttt
+aaactcttccaacccgtggctttctgtatgcagagacttgtgccaccatc
+accacagtctattttaTTGCTTTACTTATATTTGtttttttttttttttt
+tgagacagggtctcgctcctgtagccttggactctcaggctcaagggatc
+ctccctcctcagctccccaagtagccgggCAACGTGGCTTCTCCCGAGTA
+GCTGGGTGACGCTGTTTCTCCAGAGTAGCTGGGTGACGCGGTTCCTCCCG
+AGTATCTGGGTGACGCGGCTTCTCCAGAGTTTCTGGGTGACGCGGCTTCT
+CCAGAGTAGCTGGAGGATGCTGTTTCTCCCGAGTAGCTGGGTGACGCTGT
+TTCTCCAGAGTAGCTGGGTGACGCGGTTTCTCCCGAGTATCTGGGTGAGG
+CGGCTTCTCCAGAGTTTCTGGGTGACGTGGCTTCTCCAGAGTAGCTGGAG
+GATGCTGTTTCTCCCGAGTAGCTGGGTGACGCCGTTTCTCCCGAGTAGCT
+GGGTGACGCTGTTTCTCCCGAGTAGCTGGGTGACGCTGTTTCTCCCGAGT
+AGCTGGGTGATGTTGTTTCTCCGGAGTAGCTGGTGACGCCGTTTCTCCCG
+AGTAGCTGGGTGACGCCGTTTCTCCCGAGTAGCTGGGTGACGCTGTTTCT
+CCCGAGTAGCTGGGTGATGTTGTTTCTCCGGAGTAGCTGGTGACGCTGTT
+TCTCCGGAGTAGCTGGTGATGCCGTTTCTCCAGAGTAGCTGGTGATGCCG
+TTTCTCCCGAGTAGCTGGGTGATGCTGTTTCTCCAGAGTAGCTGGTGACG
+CTGTTTCTCCAGAGTAGCTGGTGACGCTGTTTCTCCCGAGTAGCTGGGTG
+AAGCCGTTTCTCCAGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGG
+TGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCT
+GGTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCAGAGTAG
+CTGAGTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAG
+TAGCTGGTGACGCTGTTTCTCCCGAGTAGCTGAGTGACGCCGTTTCTCCC
+GAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTGATGCTGTTTCTC
+CCGAGTAGCTGGTGATGCTGTTTCTCCCGAGTAGCTGGGTGACGCCGTTT
+CTCCCGAGTAGCTGAGTGACGCCGTTTCTCCCGAGTAGCTGAGTGACGCC
+GTTTCTCCCGAGTAGCTGGTGACGCCATTTCTCCTGAGTAGCTGAGTGAC
+GCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTG
+ACGCCGTTTCTCCCGAGTAGCTGGGTGACGCCGTTTCTCCCGAGTAGCTG
+GTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCTGTTTCTCCAGAGTAGC
+TGGTGACGCTGTTTCTCCCGAGTAGCTGAGTGACGCCGTTTCTCCCGAGT
+AGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGA
+GTAGCTGGTGACGCTGTTTCTCCAGAGTAGCTGGTGACGCCGTTTCTCCC
+GAGTAGCTGGGTGAAGCCGTTTCTCCAGAGTAGCTGGTGACGCCGTTTCT
+CCCGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTT
+CTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGT
+TTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCC
+GTTTCTCCAGAGTAGCTGAGTGACGCCGTTTCTCCAGAGTAGCTGGTGAC
+GCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTG
+ACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGG
+TGACGCCGTTTCTCCAGAGTAGCTGGTGACGCTGTTTCTCCAGAGTAGCT
+GGTGACGCCGTTTCTCCCGAGTAGCTGGGTGATGTTGTTTCTCCGGAGTA
+GCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAG
+TAGCTGAGTGACGCCGTTTCTCCAGAGTAGCTGAGTGACGCCGTTTCTCC
+CGAGTAGCTGAATGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTTTC
+TCCCGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGTGACGCCGTT
+TCTCCCGAGTAGCTGGTGACGCCGTTTCTCCAGAGTAGCTGGTGACGCCG
+TTTCTCCCGAGTAGCTGGGTGACGCCGTTTCTCCCGAGTAGCTGGTGACG
+CCGTTTCTCCGGAGTAGCTGGTGACGCCGTTTCTCCCGAGTAGCTGGGTG
+ACGCGGCTTCTCCCGAGTAGCTGGGTGACGCGGCTTCTCCCGAGTAGCTG
+GGTGACGCGGTTTCTCCAGAGTAGCTGGGTGATGCGGTTTCTCCCGAGTA
+GCTGGGTGACGCGGTTTTTCCTGAGTAGCTGGGtgacatggtttggctat
+gtcccctcccaaggtttaccttgaacggttatcatccccacgtgtcaagg
+gcagggccaggtggagagaattgaatcatagggtcagtttcccccagact
+gttctcgtggtagtgaataggtctcatgagatctgatttttttttttttt
+tttttttttgagacagagtctcgctcttgtcacccaggctggagtgcaat
+atcatgatctcggctcactgcaacctctgcctcccaagtagctgggatta
+caagcacccgccaccacacctggctaattttttgtatttttaatagaaac
+gaggtttcaccatgttggccacgttgatctcaaactcctcacctcaggtg
+atctaccctcctcagcctcccaaagtgctgggatgacaggcgtgagccac
+cgtgcccggccaagatctgatggttttataaatgggagcacccctctata
+cgccctttttttgcctgccgccatgtaagatgtgactttgctccttcttc
+gtcttccgccatgattgtgaggcctccccagccatgcggaaatgtgagtc
+cattaaacctctttcctttataaattaccccatcttcgttatgcctttat
+tagcagcctgagaacagactagtacaCTTGGACTGTAGGTGCACAACACC
+ATCCCCAGTTAAGTTTTTTTGGTTTGTttttttgtagagagaggttctcc
+ctatatgcccaggctggttttgaactcctggcctcaagtgatcctcctgt
+cccagcctccaaaactgctgggattatgggtatgaaccatggtgtccagA
+CATCAGAATACATTTTATTTTAtttttgttttactttattttattttttt
+ttgaggcagagtctcgctctgtcgcccaggctggagtgcagtggcacgat
+ctcggctcactgcaacctccggcttccaggttcaagcgattctcctgcct
+cagcctcctgagtagctgggatgacagtcacctgccaccatgcccgggct
+aatttttgtatttttagtagagatggggtttcaccatgttggccagtctg
+gtctcaaactcctgacctcaagtgatccacccgccttcgcctcccatagt
+gctgggatgacaggcgtgagccaccgcAGCAGGCTGGGGTGCAGCTAACT
+TGAAAGCAGGACACTCAGTGGGAGCCTTCAGGCttttttttttttttgag
+atggagtcttgctctgtcacccaggctggagtgcagtggtgtgatctcgg
+ctcactgaaacctccgcctcccgggttcaaacgattctcctgcctcagcc
+tcctgagtagccgggattacaggtgcccgccaccacacctgggtaatttt
+gtatttttagtagaaatggggtttctccatgttggccaggctggtcttga
+actcttgacctcaggtgatccacacgcctcggcctcccaaagtgctggga
+tgacaggcgggagccaccgcgcctggcTGCCTTCGGACCTCTCGGTGGGA
+GGAACGTGTGGGTCCTATCCAAGCATCAGCTCTGTCTCCTACCTGCTCTC
+ACCTCCGTGGGCACGCCTGGTTCTCGGCACCCGTGGCAGCCGGGCTGTTG
+AGCCTCGGCTGGGGTTTGCAGAGGTTTTCTGGGAAGAGCTACTCCAATTC
+AGGCGGACTGGCAGATCTGGAGAATTCCATGACCCCGGGGACCCAGGGCA
+GCTGTCGTGACTGTGGGGTGCAAGGACCTGGTGGCCAGGTGGATCCCAGG
+CATTGCGATGGGCTCCACGGTGAGCTGTGGAAAAGAGCCTGGGTCCTGGA
+TTTTATGTCTGGGAATCTGCTGACCACACTTGCCCAACTGCTTTACTCAT
+AGTGGTAAAAGCAGCTACTTTTAggctgggcacggtggctcacgcctgta
+atcccagcactttgggaggctgaggcgggtgcatcccctgaggtcaggag
+ttcgagaccagcctggccaacatggcgaaaccctgtctctactaaaaata
+caaaaatcaCCTAggcatggtggcatgcgcctgtaatcccagcactttgg
+gaggctgaggcgggcggatcacccgaggtcaggagttcgagaccagcctg
+gctaacgtgtcgaaaccctgtctctactaaaaatacaaaaatcacctggg
+catggtggcatgtgcctgtaatcccagctactcaggagtctgaggcagga
+gaattgcttgaacccaagaggccgaggtggcaatgagctgagatcgcgac
+atttcactccagcctgggtgacaaagactgaaactccgactcaaaaaaaa
+aaaaaaagaaTGTTGTTGATGTCTGCCCCAAAGCAGCTTGCTTTAGTTAT
+AGTGTTAAAAGTGGCTACTTTTAggccgggcatgttggctcacacctgtc
+atcccagcgctttgagaggccgaggtgggcggatcacctgaggtcaggag
+tttgagaccagcctggccaacatggtgaaaccccatctctactaaaaata
+caaaaatcacctggtcacggtggtgggcacctgtaattgcagctactcgg
+aaggctgaggcaggagaattgcttgaacccgggaggcggaggttgcagtg
+agccgagatcacaccattgcactccagcctcggtggcagagtgagactgt
+gtctaaataaataaataaataaataaataaataaataaataaataaTTTG
+Gggccgggcgcggtggctcacacctgtaatcccagcactttgggaggccg
+aggcgggtggatcacgaggtcaggagatcaagaccatcctggctaacacg
+gtgaaaccccgtctctactaaaaatacaaaaaaaattagccgggcgtggt
+ggcggcgcctgtagtcccagctactcgggaggctgaggcaggagaatggc
+gtgaacccgggaagcggagcttgcagtgaaccgagatcgcgccactgcac
+tccagcctgggcgacagagcgagactccatctcaaaacaaagaaacaagc
+aaacaaacaaaaaaaAACTTAAAAATTAgccagctgtggtggtgcacacc
+tatagtcccagctactcaggaggctgaggcaggagaatggggtgaacccg
+ggaggccgagcttgcagtgagctgagatggcaccactgcactccaggctg
+ggcgacagagcgagactccgtctcaaaaaaaaaaaacaaacttaaaaatt
+agccagctgtggcggtgcacacctatagtcccagctactcaggaggctga
+ggcaggaggattgcctgagcctaggaggtcgaggctgcagttagctgtga
+tcgcaccactgcactccagcctgggcaacagaccaaaacctcgtctccaa
+aaaaaaagtaaataaaTAAAGTTGCAATGACTCCCATTGCCGATTCAAAG
+AGCTTTTATGAATGTCTCAATATACTTGCCTAGCCTGTTTTTGGATTCAA
+ACGCAAAGTTTTGTTCACCGTAGGTGGGAGATCAAGTTGGCAACAATAGT
+GTTCCAAGGTAATACACCCTGTATCTCAGAGAAATTGAAATATAACCATC
+TCAGAGGTTTTTTGTTTCTTTGGTTTTTTGAGACTGTCTCAAAGAAAAAA
+ATTGAAACCCTGCTCCAGGGCTAGGAACCCACAAATTTGAGCACAGCTGT
+CACTGTCGGTATCAAACttgtctttattttttcagctgaggtcttgctct
+gttgcccaggctggagtgcagtgttgggatctcagctccttgcagcctca
+accctctgggctccaccaatcctcctgcatcagcctcccgagtagctggg
+actacaggtgtgcgccaccatgcctggccaattttaaatttgttttttga
+gagatgggggtcttgcaatattgtccaggctggtttcaaactcctggcct
+caagcgatgctctcatatcggcctcctgagtggttgggactacgagcgtg
+agccaccatgctcggcTGATTTTATTTTTAAATTGTTTGTAGAggccagg
+tgcagtgggtcttgcctgtaatcccagcactttgggaggccgaggccggt
+ggattgcttgagcccaggagttcaagaccagccttgccagtatggcaaaa
+cctcatctctactaaaaaaaaaaatacaaaaaaaaaaattagccaggtgt
+gatggtgtgtgcctgttatcccagctactcgggagagtaaggcaggagaa
+ttgcttgaacctgggaggcggacgttgcagtgagctgagatcgtgggtga
+cagcgaaagtctgtctcaaaaagaaaaaaaaaaaTCAATGGTTTGTGAAA
+ATACAGCCGGTGACCATGGACCCCCCTAGGCACAGCCTCAAGCCACCCAG
+AAGAAGATGGAAAAGGATTTTCTTTTAAATCAGCGAGATTTAAATAAGCA
+TGGCGAGCACAGCTGGGAGGCCCCGCCAGGAATTCCGAAGGTTGAAAGGG
+GCCCTGTCCGCTCCCCCATCCTGGAAATAGTGTCCATGGAGCTGCGGAGT
+CCGGGTGGGCGCCGGGGACGAGCTTTCAACAGCTCACCCGGCCCCAACAT
+TCCGTCCACACATTCCACGGCCAAGACAGTCACCCCCTGCCAGGGATTAA
+CCGAGGGCCACGCTTAGTGGCAGGAATGCACGCGCCCGATTTAGACATCC
+CGCTTGGCATCGGCGGTCAGGGTGGCTTGCAAAGGCCCGGGGTGGGTGGA
+TGCCGGAGACGCTGGAGCTCTGAGGTCTACAGGAGGAATTGCTTTTCCGA
+TGGGCTGGTCAGGGAGGAAGGAAGCTGGGGAGAAGCCGGGAGTCCCAGCC
+TCCACAATGCCTGCCCTTCCAAGACGAGCCAGGCCCCCCGGACAGGATGG
+CAGCCCCCCTCCAGGCCAGCATGACTTCAGGCCTGGGGAATGTGCCACCT
+TCCGAATTAGAAGGGCACTGGTTCCCACCCGCGGGGAACCGTAACACAGC
+GTCTCCCTCCTTCCTCCAGGACCCACGGCTGAGCTCGGAGCTGCCCGAGA
+GCTCGGGATGTGGGGTGCAGAGCAGAGGAGAAACCTCCCCCGACCCCGGG
+TCCTTGGGGCATAGGGTCTTTTTCAGGGCCATCTGCGGAAAGAGGACCTG
+CGTCTTTACCACCCGGGGGCCCTTGTCTTTGCTGCTCAGCTGTGTTTAGG
+TCCCCGTTGCTGGGTGATACTGGGGAGACGTAAACAGACCTCGGTCAGCC
+GGGGCTGGGGCAGGAGCAGGTGCAGCTGGACTCCAGGGCAGGGGCCGACT
+GCTGTACACAGTCATGCTGAAAAGCATGTCAAAAATAAAAGGAGCAGGGG
+AAATGGCACCTTTTAttttttattttattattattattatcatttttgag
+atggagttttgctcttgttacccaggctggagtgcaatggtgtgatctcg
+gctcactgcaacctccgcctcccgggttcaacggattctcctgcctcagc
+ctcccgagtagctgggatgacaggtgcccacaccacgcccagctaatttt
+tgtatttttagtggagatggggtctcgccgtgtcggccaggctgttcttg
+aactcctgacctcaggtgatccgccagcctcggcctcccaaagtgctggg
+actacaggcgtgagccaccgcgcccggccTAttttttatttattttatta
+ttaatatttttgaggcggagtttcactcttgttgcccaggctggagtgcg
+gtggcgggatctcggctcactgcaacctccgcctcccgggttcaagtgat
+tctcctgcctcagtctcccaaagtgctgagattacaggcgtgcaccacca
+cgctcggctaattttgtgtttttagtagagacggggtttcaccatgttgg
+tcaggctggtctcgaactcctgacctcaggtgatccaccctcctctgcct
+cccagagtgctgggatgacaggtgtgagccacctcacctggccCTATTTT
+ATTTTTATTTTTTgcaaggaaggaatgaagggatttattgaaaatggaag
+taccctccacagcgcgggaggagaccgagaagaggagctcaaagacTAAA
+GGGACGGGCTTTTAAAGACATTTAATTAAAAGGAATTAAGTTTCCCTTAT
+GACATTTAGAAAAAAGTCAAGTCCAAATGGTACAAAACGGTCAGCTTGCT
+TTGTGCCTTGGCGGCCGCGTATGAAACATCATTAGAATAGAACCGGAAGC
+GTCTAGATTTTCACTTTTCACCCTGAAAGATGAAACAGAGATGAAAGCAG
+TCACCAATTTTCTCTAATTATTTTGCAATTAAGCGTCCGAGCACCCCAGG
+TAGCGTGGACTCCCACAGCTCTTAAACCAAATACCTGACTGTCTGAAATT
+AATTATAAAAATGGATCAAGGGGTGGTTTTCACGTGGTGGCTGATGAATG
+CTTTCTGAGTCTTGTTTTCCTGTTTGTTTACCGTGGCACGTAAGACGTAC
+AGAACATAAAATTCACCGTGTGAGCCAtttttcgtttgtttgtttttgag
+acggagtctcgctctgtcacccaggctggagtgcagtggtgtgatctcgg
+atcactgcaacctccgcctcctggttcaagcgattctcctgcctcagcct
+cttgaggagctgggactgcagacatacaccatcacacctggccaatattt
+aattttttttgtagagacagggtcttgctctgtggcccaggctggagtgc
+actggtgcaatctccgctcactgcagcctccacctcctgggctcaggtga
+tcctcccacctcagcctcctgaggagctgggactacagacatacaccatc
+acacctggccAATATTTAAttttgttgtagggacaggctcttgctctgtg
+gcccaggctggagtgcagtggtgcaatctcagctcactgcagcgtccacc
+tcctgggctcaggtgatcctcctgcctcagcttcctgaggagctgggact
+acagacaggtgccaccactcccagctaatttttaaatttttttgtaggga
+cagactcttgctctgttgcccatggtgatcttgaacacctgggcttgatg
+tatctgcccgccCAAATCCCGCCTTTCATTTACACTGCCCCCACCCCTGC
+CCACCCCAGGGAAGGTCTTTATTCTTAAATCTGCCTTTCTGACCTCTCTT
+CCCAAATGTGTGTATTTCTAACAGATCTCCGAGTCCAGATCACGCACACC
+GTTTTCCATAATCCAGGGATTTGGAGCCGCCGGAGGGGTGAGGAGGGGAG
+GCGGCCGTGACTGCTAGGTGGAGGTGGGCTCTCGTAAACGTCGTTTTACG
+GGCAGGTGGAAACCTTTATAAGCCCACAAATACTTCAAGCCTGTTCCTGC
+CCCTGGGGCCCTGGAGACTTCTCAGAGGACCTAACGGGACCTGGCGAAAG
+GCCTTCATCACCAGCCCACTAGGAACTGTTCACCGTGTGCCCGGGGCTGC
+GTCTGGCACGGAGGTGAACGCTGAAGCCATCCCCCCACCCCCAGATCCCC
+AAGACGAGAGAGCGTTCCGTGAGGTCCAAATAAACGTCCCTCCTGGCACC
+TTCAAGGATGTGGtttttcttttcttttttttcgaggcagggtcttggtc
+tgttgcccaggctggggtgcagtggcatgatcttggctcactgcagcctc
+caatccttgggctcaagcgatcctcctgcctcagcctcccgagtagctgg
+gaccacaggcatgcaccactgtgccagcctcattttgtattttctgtaga
+gatagggtctccctatgtagcccaggctggggtgcagtggcatgatcttg
+gctcactgcagcctccaatccttgggctcaagcgatcctcctgcctcagc
+ctcccgagtagctgggaccacaggcatgcaccactgtgccAGCCTCATTT
+CGTAttttctgtagagatagggtctccctatgtagcccaggctggggtgc
+agtggcatgatcttggctcactgcagcctccaatccttgggctcaagcga
+tcctcctgcctcagcctcccgagtagctgggaccacaggcatgcaccacc
+gtgccagcctcattttgtattttctgtagagatagggcctccctatgttg
+cccacgctgctctgaaactctgggctccagcgatcctcccatctcggcct
+cccaaagtgctgggattacaggtgtgcagtacggctcccagccCTGATGT
+TGGGTTTGGAGAACAAGAGGGTGATACGTCGCCAAATTCAAACTCACGTC
+CTCCTGCTTCTGAGCATGTAGGGAGCTGGTGGGCGGGGAGGTGGGTGTGG
+GGCTGCGGCTCTGGGCTCCCCGGGTGCCCACGCTGAGCTGTCCAGGAGGC
+TGACAGGGAGGACGTCCCTTCGGTATCCCCCTTTTGCCACAGAAGAGCCC
+GTGTGGACCCCTGAGTCCCGGACCACCGGGCAGCCAACGCCATCTTgggg
+tctccggattgagaccccaagagagggtacctggatctcgtgcaagaaag
+aattcacggcaagtttgcagtgcaaaataaaagcaagtttatttagaaag
+taaaatggggccgggcgcggtgtttcacgcctgtcatcccagcagtttgg
+gaggccagggcgggtggatcacgaggtcaggagatcgagaccagcctggc
+cagcacgatgaaactccatctctactaaaaatacaaaaaattagccggac
+gtggtggtgggcacctgtagtcccagctactcgggagaccgaggcaggag
+gatggcgtgaacccgggaggcggaggttgcagtgagctgagatcgcgcca
+ctgcactccagcctgggcgacagagcgagactctgtctcaaaaaaaaaaa
+aaaaagaaagaaagaattgtctatacgggtacacgtgctctgctacaaag
+gttcgtgataaaggattaattttcttaattactatattttgcaagaatca
+gtattatagttattattttttgagatggagtctcgctctgtcgcccaggc
+tggagtgcggtggcgcgatctcggctcactgcaacctccacctcccgggt
+tcaagccattctcctgcctcagcctcctgagtagctgggactacaggcac
+ccgccacacccggctaatcgttgtacttttaatagacacgggttttacca
+tattggccaggctggtctcgaacccctgactacctgatccgcccgcctcg
+gcctcccaaagtgctgggatgacaggcgtgaaacaccgcgcccggccgag
+aattggtattatgtttagagcaaacttaggaaaatgcctttgttctccag
+atattaagatacctggacactcccaagtctggggctgtttagtaaatact
+ttttttttttttttgagatggagtttcgctcttgttgcccaggctggagt
+gcagtggtgcgatctcagctcacctcaacctccgcctcccgggttcaagg
+aattctcctgcctcagcctcccgagtagctgggatgacaggcgcccgcca
+ccacgcccggctaattttgtattttttttagtagagacggggtttctcca
+tgttggtcaggctggcctcgaactgccaacctcatgtgatccacccacct
+cagccttccaacgtgctgggattacaggcgtgagccaccgtgccagtaaa
+cattatcaatttcttcctttttttttttttttctgagatggagtctcact
+ctgtccccaggctggagtgcagtggtgccatctctgctcaccgcaacctc
+cacctcccgggttcaagtgattctcccgcctcagcctcctgagcagctgc
+gattacaggcacccgccaccacgcccggctaatttttgtgtttttagtag
+agacggggtttcaccgtgttggccaggctggtctcgaactcctgacctcg
+tgatccgcccgcctcggcctcccagagcgctgggattccaggcgtgagcc
+gcattcgttcccttgaccgtaaacgtctgcaggcgaggaatCAGCCGTCA
+GTCAAGAGGGAGTCACTGCGGTTCATTCGCCTCTGACAACGGGTCCTCCC
+GGACGCCGCGTGGCTTGTTCTGAAGCCGGGCCGGAGACACCGTCTGGACC
+CCACGCTGCTCCCCAGGGCCGCCTCCAAGAGGATGCCCCACCGCAGGGAG
+CCGTGCAAACACCATAAATCCTGCTAATTGCCACCTTCCCGGCAGCCAGC
+ATCCGTGGTCTCTCTATAGTGGCCTCACGGTCTCCAGCCAGGAGCTCGAT
+CTTTGCTTCTGCACAAACATTACCGAGAAACGTCTGCAAACCCCGGGCGC
+CCGGCTCCCACATCACAGGCGCTGCGCCTCAGAACACAACTTGTTTCTGC
+CGATCCACCCCCCACCGCCGCCTCCCCGGGCACCTCGCCACGCAGGACGC
+TCCGGGCTTCCCGTAAGAACACCCGTGTCTGTGACCTGCGGGTGGGGTCA
+CCTCCCCGGCCTGCATGCCAGGTGAGGCGGGGGGGGCTCACCTGGGGCTC
+TCACCTGCCCGAGGGGGTCCTGCCCACGGCTCTGCGACAGAATAGAATGA
+TCAGGGCGATGCGTGGCAGTGCCCTCTCCCTGCCCCAGCCCGAGGGCACC
+TGTTCCCCTCCTATCTCAGCCACTCTGCCCACGTCTGTCCCCACAAAACG
+CGGTCGGTGCAGCCCTGGGGCCCGGTCACCGTACCGCATCCTCCTGACAA
+AGACAGAAAGAAACCGGCTCTTTGATTCTAACATTAAAAAAAAAAGGGCT
+GCCTTCTGCTTGCAAAAGAAATGCACGCAGGCTGCTGGCAGAAAGTTCTG
+GAAGATGATAAAGGAAAAAAATAAATTAATTCGAGAAAACTTTGAGACGC
+CTAACAGCACAAATACCCTCAGTCTTTAGAGAACAGCTGGGGATACACAT
+ATTCTGGCTCATTTCCCCATGGAACttttatttttattttttgagatgag
+tctctctgtgtcgccgaggctggagtgcaatggtgcgatctcagctcact
+gcaacctccgcctcccgggttcaagcgatcctcctgcctcagcctcccaa
+tagctgagacgacaggcgcctgccaccacgcccggctaatttttgtatat
+ttactagagacggggtttcaccgtgttggccaggctggtctcaagctcct
+gaccccaggtgatccgcccgcctcggcctcccagagtgctgggattatgg
+gtgggagccaccgcgcccggccCCTcttccttccttcccttccttccttc
+ccttccttccttcccttccttccttcccttccttccttcccttccttcct
+tcccttccttccttccttccctcccttccctccctcccttacctcccttc
+cctccctcctttcctttccttcccttcctttccttccttccttctttctt
+tttccttttctttttgagatgtagtctcactctgtggcccaggctggagt
+gcagtggtgtgatctcggctcactgcaacctccgcctcccaggttcaagc
+gattctcctgcctcagcctcctgagtagctgggacgacagacgcccgcca
+ccatgcccggctaatttttgtgtttttttaggtagacatgaggtttcacc
+acatcggccaggccggtctcaagctcctgacctccagtgatccgcccgcc
+tccgcctcccaaagtgctgggatgacaggcgtgagccaccgcgcTTGTCC
+TGCTCTGTAAATTTTGTTTTGggccaggcgtggtggctcacacctgcagt
+cccagcactacgggaggccgaggcacgagggtcgctggaggccacgagtt
+tgagtcccccagcctgggtaacgtaacgagaccgtgtctttaaaaatcat
+aaaagacagatcagctgggcgtagtgacacgggtgcctgtcgccccggct
+cctgaagaggctgaggtgggaggatcgctttagcccaggagttggaggct
+gtagcgagctgtgatctcaccaccgcactccagcctgggcgacagagcaa
+gatcttgtctcgaaaacaaaacaaaacaaaacacaaaaaTTTAAAAAACA
+GATTGAGAACCCTTGGCCCCCACCTCTTACCAGCTCGGTCACAATTGCAA
+ACCAGAggccgggcacggtggctcacgcctgtcatcccagcgcttcggga
+ggccgaggcgggtggatcatgaggtcaggagctcgagaacatcctggcca
+acatggagaaaccccatctctactgaaaatacaaacttagccgggcgtgg
+tggctcacgcctgtcatccgagcactttgggaggccgaggcgggcggatc
+acgaggtcaggagctcaaaagcagcctgaccaacatggagaaagcctgtc
+tctactaaaaataccaaCTTAgccgggcatggtggtgcacgcctgtcatc
+ccagcgcttcgggaggccgaggcgggcggatcatgaggtagggagctcga
+gaccagcctgaccaacatggagaaaccctgtctctactaaaaatacaaaa
+ttagccgggcgtggtggtggcaggtgcctgcaatcccagttactcaggag
+aggctgaggcaggagaatcgcttgaacccgggaggcggaggttgcagtga
+gccgagatcgcacccctgcactccaggctgggcaacagagcaaaaactct
+gtctcaaaaataatataataataataataataataataataataataaAA
+ACAACTGTTTTCATGCTGCAGACAGCACACAGGCCAGGACGTCAGGGTCT
+CGTGAGGGGCCGTCGGAGAACGTCTAAGGGACGTCCCTGCATTCCTGGCT
+GGAGGTCCTGCGCCAGCGCCCTCCTTGTGAGAACACTTTCGCTCTGCAAA
+CTCTCAGAGCCCCCACCTGCTCCCGCCTCCCGTCTGTCCTGGTTCTTGGG
+ACCCCGGAGCCTTCTCTGTCCAGACCTCCCAGGTCCTGACGGGAATCCGG
+ATaaactccttggggcgaaggtgttaacggcagggcccctgtctaatgta
+tttcgccacccagataaaatgagtgttttcacagctgccgttaatttctt
+accctgaggaagaaaggaaggactttgaGGCACCTGCGGCCGGGTTGGGG
+TGGGGCAGGGGGATTTCTGGACGCGGACGGCGTGTggggagttcctgggg
+tccccagagccacaccacgtaggtggcagccggctccgtcctgcaaagcc
+CCGGCTTCGGTGAAAGATTTATCACCTGCTCGGCCTCGGAGACGGGGAAG
+AAAAACACAGCCTGGAAGTGGTCCTGGCTGATGGACGGGCCCCTGGGGAG
+CTGTCCCCAAATGCGCGTCTTCTTTCTCCTTTCTGTCACAGCCTCCCGGC
+CCTGCCCTGGCTGAGTGGGGCTTTCAGTGAACGCTTGTTGAGTGTCCACG
+GAGCTGTGAGTGCTGTTCCGGGTGCTGGGTACGTGGTGGGGTGTGTGAGG
+TTCCCTCCTCTCTAGTGCAGAGATCAGGAGTGAGTAGACAAAGAAAATAG
+CATCTAACTGCTGCTTGTGATGAGttttttttttttttttttttgagaca
+gagtcttgctcttgttacccaggctggagagcaatggcgtgatcttggct
+cacggcaacctctgcttccgggttcaaggcatcctcctgcctcagtctcc
+cgagtagctgggagtacaggcacctgccaccacgcctgggtaattttgta
+tttttagtagagacggggtttcaccatgttggtcagcctggtctggaact
+cctgacctcaggtgatccatccatctcggcctcttaaagtgctgggatta
+caggcgtgagccgccatgtctggcctttttcttttttttttttttttttt
+tgagatggtcttgctctcattgcccaggctggagtgcaatggtgcaatct
+tggctcactgcaacttctgcttccgggttcaaggcatcctcctgcctcag
+cctcccgagtagctgggattacacgtgtgcaccaccatgcccggctaatt
+ttgtatttttagtagagactgggtttcactatcttagttaggctggtctc
+gaactcccaacctcatgatctgcccgcctcagcctcccaaagtgctggga
+tgacaggcatgagccaccgcacctggccTAtttttttttttttttttgag
+acagagtcttgctcttactgtgtaggctggagtacagtgggcgaactcgg
+ctcactgcaacctctgctccggggttcaaggcatcctcctgcctcagcct
+cccgagtagctgggattacaggcgcccaccaccactcctgggtaattttg
+tattgttagtagagactgggtttcactatgttagtcaggctggtctcgaa
+ctcctgacctcaggtgatccacccacctcggcctcccaaagtgctgcgat
+gacaggcgtgagccaccgtgcgtggcctttttttttttttttttgagatg
+gagtcttgctctcattgcccaggctagagtgcaatgggcgaactcggctc
+actgcaacctccactcccgggttcaagggatcctcctgcctcagcctcct
+gagtagctggaatggcaggtgcatgtcaccatgtttggctaatttttttt
+tttttttttcataaagacagagtcttgctaggtttcccaggctggtctca
+aactcctggcctcaagtcatcctcccacctcagcctcccgaagtgctggg
+attccaggcgtgagccaccgtacctggccCCTTCAGCATTTTTAAAATAT
+CATTACCCCTTCAAAGACACCTCCAGGAGCAGCCAAAGTTGGTACCCTTG
+TTATTCCCCATCTCAACACCCCGTGAATTCATTTCTCCAAAAGAACTCAT
+CACAAGCAggccacgtgcggtggctcacaccagtcatcccagcactttgg
+gaggacaaggcgggtggatcatctgaggtcaagagttcgagaccagcctg
+gctaacacggtgaaaccccatctctactaaaaatacaaaaaattagccgg
+gcatggtggcgggcacctgtagtcccagctactcgggaggctgaggcagg
+agaatcacttgaacccgggaggcagaggttgcagtgagccaagatcgtgc
+cactgccctccagcctgggcaacagagcgagactccgtctccaaaaaaaa
+aaaaaaGTgctgaaaagaagcaagaaggaggagctggctgtgcgcaggga
+aaagcaatgcaggaagaaggatcagcgtgtgcaaagactctgagctggga
+aaaacctctgtgtattccgagaaccgagacagggaggcaggcttagggtg
+gagaggaggatggcaaggtggagggttgaaggGTTTCCCAGCAGCCTGCA
+GGGCTGATTGGGAGCTCAGATACTCCATGACAAGGACAAAGGGAAGGGGT
+CTGTATGCAGCTGTGTCTCCGCTCTCTTTCTTGCTCAGAGCATGGAGACC
+TCGAGTCCAGCTTCctttgcgtgcgtaggggcctctctgggtgatggagc
+cctcccgagtggtaggttgggagaaccacagaattaaccgcaccctccag
+agtctctcccaaccaagggctgtcgacggtgggtgcataaataccTGGGA
+GGggccgggtgcggtggttcacgcctgtcatcccagcactttgggaggac
+aaggcgggcggatcacctgaggtcaagagttcgagaccagcctggtcaac
+atggtgcaacccccccgcctctgctaaaaatacaaaaaattagctgggtg
+tggtggcgggcgcctgtaatcccagctagtcgagaggctgaggcaggaga
+atcgcttgaacccgggaggcagaggttgcagtgagctgagatggcaccac
+tgcactccagcctgggtgagagaaagaaactgtctaaaataaacagggaa
+aaCACCTCTGGGGCTTATGTCTTTCCCGCCTGCATCCGATGAACCTTAGG
+TGACCGCTGGGGACGGTACTGAGGGTTCCAGGCAGAGGAAAGCCACATCT
+GCATGCAGAGAAAACTCCAGTGGGGACAGAGGGGGTGCATCGTGTTTAGA
+AGCCACGTGGGGGGTGGGGGGGCAGGTGTGTCTCATCGCACACGTGTGAA
+CGGAGTGCCGGGGGCCCCTCTTCTCCTGAGCCCCCAAAGGCACGAGCCGG
+TGGGTCTCGGGAGTTGTGGGGCGATTCCTGGAGGTGGCTCTGTGCAAAGT
+GTTGTCATATCAGCCAGGAAAACACCCCCTTGCCACAGCCTCAAGTCAAC
+CCAATCTCGTCTGAAAGGTTTGGATGGAGGTGGGGGGGTCCCTGGCTTCC
+GTCGCTGGAGCGGTGGCCGCAGGGCTGGTCTTCACTGTCATCGTGATGTC
+ACCATCGTCCTCACGTTGGGTGTCTCCCTGGATTCTCGGCTCTCCAGGGA
+GGCGGCGACGGCCCATCCCACCAGCTGCCCACGGAGGCGGGGTCCCCGGG
+ATGCAGGCTTGACCTCAGAGGAAAACCCACCTGAGCCATTCTAGGGGGAG
+GGGACACCAGGACCCCCCAAAGGCCTGGTCGGCTGAGGTCATGGTTCATC
+CCGGGGTTGGGGGAGGGGACACCAGGACCCCCCAAAGGCCTGGTCGGCTG
+AGGTCATGGTTCATCCCGGGGTTGGGGGAGGGGACACCAGGACCCCCCAA
+AGGCCTGGTCGGCTGAGGTCATGGTTTATCCCGGGGTTGGGGGAGGGGAC
+ACCAGGACCCCCCAAAGGCCCGGTCAGCTGAGGTCATGGTTCATCCCGGG
+GTTGGAGCAGAACGGGCCGTGGAGGATGGGCTCAGGGAGTGTTTGTTCAT
+GGCGTGAATTCACACGGAATcttcctgcctccctccttccttccttcttt
+cctccctccctccgtcctttcgttccctccttccttccaatttcctccct
+ctctccctccctgcctTTCTTTGTGGACAGCCTGGCATCTGCACcgtgtc
+ctggctgagcctcctgccagctctgcggcctcgttgaggggggcggggtg
+cgtgtctcaccatctttgcacctcagcttccccatctgtgacgcagggac
+ggcaacaggcacccctcgaggtCACCCCTCCAGCATTTGTTTACAGCTGT
+CTCACATGAACTTAGATCCATGGAAGAGCGTCACCCTGACTCGTCAACCT
+GCAAAAACGGCCCAGGACAGAGAGGGGGGCCCTTGGGATGGTGGCGGCCG
+GGACCCGAGGCTGTTGTCCGGTCGTAGAGCCTTAGAGGCTGTTGGCGGTG
+TAGACGCGGGTCCCAGGCTGCAAGCTGCCTCTCTCCTCTGCCTCAGGCtc
+ttcttttctatttatttatttttaagacagggtctcgctctgtcacccag
+gctggagtgcagtggtgccatctcggctcacagcagcctccaactcctgg
+gctcaagccgtcctcccgcctcagcctcccgagcagcggagaccacaggc
+atgtgccgggctaattttctaatgttttgtagagatgacgtctttgctac
+gttgcccaggctggtgttgaactcctgggctcaaggcctcctctcgctct
+ggtctcccaaagtgctgggattagaggtgtgagccaccgcgtctggccAA
+GACGTCTTTTGGGGGGGACATAATTCTCAACCAAATTGCctctgtctctc
+cttctcactctctctctctccacacacacacacacacacacacacacaca
+cacaGCTtgtatgtatatacgcatttatacaggtgtggaggtgtttgtgc
+atatatagatatatatgatatatacgtatatttaAGCCATTAGAACATGA
+TTTCCATTGCTAATATTTCAGTGAATATCTCTTTTCTAGCTCTAACTCca
+cacacacacacagacacacagacacaTCCCTTGtatgtatatatgcattt
+atacaggtgtggaggtatttgtgcatatagagatatatatgatctagatg
+tatatttaACCCATTAGAAAATGATTTTCATGCTGATAGTACTTCAGTGA
+ATATCTCTTAAAAATATTGATCGCACACGTCCCTCATGAAAAGCAATGGT
+TCCCTAAACACAGACTGTCTGGTCCATCTCGGAGTTTCCACAGTCGTGAC
+TCACATGCAAGCAATGTACAACTATGGCAGGGCTGGGCTCCTTCCCTCCC
+AGACAGGCTCAAGGTTATGCTCCCTGTGCCGGGATCAGAATCTGGAATCA
+GGACGGCCACTCCAGTGACATGAAAGGCACACGGGTGACAGGACGGACAC
+CCCAGAGACAGGACGGACGCCCCAGAGACAGGACGGACGCCCCAGAGACA
+GCACGGAGACCCCAGAGACAGCACGGACACCCCCAGAGACAGGACGGACA
+CCCCAGAGACAGGACTGATGCCCCAGAGACAGGACGGACGCCCCCAGAGA
+CAGCACGGAGACCCCAGAGACAGGACGGACGCCCCAGAGACAGGACTGAT
+GCCCCAGAGACAGGACGGACGCCCCCAGAGACAGCACAGAGACCCCAGAG
+ACAGGACGGACGCCCCAGAGACAGGACGGAGACCCCAGAGACAGCACGGA
+TGCCCCAGAGACAGGACGGAGGCCCCAGAGACAGCACGGACGCCCCAGAG
+ACAGGACGGACGCCCCAGAGACAGGACGGACACCCCAGAGACAGCACGGA
+CGCCCCAGAGACAGGACGGACGCCCCAGAGACAGGATGGAGGCCCCAGAG
+ACAGCACGGACGCCCCAGAGACAGGACGGACGCCCCAGAGACAGCACGGA
+CGCCCCAGAGACAGGACGGACGCCCCAGAGACAGGACGGGCGCCCCAGAG
+ACAGGACGGACGCCCCAGAGACAGGACGGACACCCCAGAGACAGCACGGA
+CGCCCCAGAGACAGGACGGCCGCCCCGGCCCCGCGTTTTCCATGACATAT
+TTTCTCTTCGGCCACAGGATGGCAGTGCCAGCTACGGAAACGGTGGACCG
+TTGTCGGACCCTTTGCTGAGTTTTGAAACACGTCACTGCCTTCAGCCTTG
+TGGGTCCCCGGGCTGCGAACCCCGGGACCGCCTTCCCGCCTCGTGGGCCG
+GGGCTCAGGTCTTTACATTCATCCCAAACCGGGTTCAAGCCCCATCCCTC
+CCCCGGCTGCCAACCCCGTGCCGTTCAGGCCCCGTAACCGGCTACTTCGG
+AACTGACGTCGTGAAACCTTTGCTCGACTGTGTTTCTGACGCTCCCGTCA
+CAGAACAGAAGCTGTCGGGAGTGAGCAATGGTCTAGCCCAGGAGAGGAAA
+ATCAGCCGCGTTTCACTTTGCACCGTCATCTCCTCAGCCGCCCCGTTCCC
+TCCCACACTTGCAAGATTCCGAGGGAGGAAGCCGCTTCTCGGACCCGGGT
+CCCAAGCTGTGCAGAAAAGGCCAAGGACACATTTCCGTGTCTGTAGACGC
+AGCAGGCGGCCGCCAGGGCCTCTTGGGCAAAAGACTCCCATTCCCGGCTT
+TGCCTGCAGACACCCCTCCTCACACGGGCTCTGGAGGTCTGTTGGGGTTT
+TCCTCAAAAAGtttattttttttgtggtttgcttttctagacagggtctc
+attctgtcatccgggggctggagcacggcgggaatgatctcggctcagag
+cagcctccggctactgtggcctcaagtgatcctcccgcctcagcctcccg
+agtagccgggaccagaggcacctgccaccacgcccaactcatttttttgt
+atttttttgtattttttgtagagacggggtttctccatgttgcctgggct
+ggtcttgaactcctgggatcaagccgtccagcacctcagcctcccaacgt
+gccgggatgacgggtgtgagccaccgcaccgggccTATTTTATTTTATTA
+TTTCTTTTGTAGAAATTGTTTAAGTGGCTACAAAAGTCCACAAACATCCT
+CCCTGAGATTCTCCCTTAGAATAATCGTCTTCGTGGGCACACAGCATGTG
+CTGCTGCTGACCTGAGTGGCCTCGGCTCGACGTCTAGACGGCTCAGCGTT
+TGGACAGTTTCCAATCAGGGtctgtcacccaggctggagtctgggtgtga
+tctcggctcactgcagcctGTttcctccctcccttcctttcctccctcct
+tcctttcctccgtccctcctttcctccctccttcctttcctccctccctg
+cctctcttccttcctttcttcctGGACAGCCTGGCATCTGCACcgtgtcc
+tggctgagcctcctgccagctctgtggcctcgttgaggggggcgtgtctc
+accatctttgcaccccagtttccccatctgtgaggcagggacggaaacag
+gcacccctcgaggtCACCCCTCCAGCATTTGTTTACAGCTGTCTCACATG
+AACTTAGATCCATGGAAAAGCGTCACCCTGACTCGTCGAGCTGCAAAAAC
+GGCCCAGGACAGAGAGGGGGGCCCTTGGGATGGTGGCGGCCGGGACCCGA
+GGCTGTTGTCCAGTCATAGAACCTCAGAGCCTGTTCAAATcagggtctcg
+ctctgtcacccaggctggagtctgggtgtgatgtcggctcaccgcagcct
+ccacctcctgggctcgagcgattctcctgcctcagcctccggaggagctg
+ggaccacaggtgcccgccaccacgctgggccgatttttacagtttttgta
+gagatggggcctcactgtgttgtccaggctggtcttgaactgttaacctc
+aagcgatcctcctgcctcggccatccagggtcctgcaatgatgggcgtga
+gccactgtgcctggccTATTTTTTATTGCTGAGGGTTTTGCAGAAATCAT
+GTAAGAAGTggccggacgcagtgactcacgcctgtcatcccagcactctg
+ggaggccgaggcgggtggatcaccagaagtcaggagttcgagaccagcct
+gggcaacatggcgaaaccccgtctctactaaaatacgaaagaaattggct
+gggagtggtggcaggtgcctgtagttccagctactcaggaggttgaggca
+ggagaattgcttgaacctgggaggtggaggttgcagtgagctgagatcgc
+accattgcactccagcctgggcaacgagagtgaaactccatctcaaaaaa
+agaaaaaaaggctggacacagtggctcacgcctgtcatcccagcactttg
+ggaggctgaggcggacagattgcctgagctcaggagttcgagaccagcct
+ggccaacatgttgaaaccccgtctctactaaaatacaaaagaaattagct
+gggagtggtggcaggtgcctgtaatcccagctactcaggaggctgaggca
+ggagaattgcttgaacctgggacacggaggttgcagtgagacgagattgc
+cccatcgcactccagcctgcaacagagcgagactccttaacaagggaggc
+tattctgacacctgctaccatgtggaagaagcttgacaatattgaccaat
+cagccagacacagaaagacaagtcctgtgtgattccacttcgaggaggtc
+cctcgagtcaccagagtcacagagacagaaagtataacggtgggtgccgg
+gggctgaggagggcgaatggagctgtcgttgaaggggggggtcgcagttt
+cgggtttagaagtggaattttggagacaaatcacggggatggttgcagaa
+aagtgtgagcgtgcttgttaccccggaactgtgcacataaagatgTCTCA
+CCTGTTggccgggcgcggtggctcacgcctgtcatcccagcacttgggga
+ggccgaggtgggtggatcacttgaggtcaggagatcaagaccagcctggc
+taacatggtgaaaccccgtctctactaaaaatacaagaaaaaaattagcc
+gggtgtggtggcgggcacctgtagtcccagctgctcgggaggctgaggca
+ggagaatggcatgaacccgggaggcggaggttgcagtgagctgagatcgc
+accactgcactccagcctgggcgacagagcgagactccatctcaaacaaa
+caaaaaaGGGCTCGTGTGTATGAGGCTGGGGACGCAGGAGAGGGTCTCTC
+CCCCTGAAACTCGGGGGGTCCTGGGAAAGAATCCAGCCTCCAGCCTGGCC
+CTGGGAACCCTGGACCAGGCAGGGGGTCACTGCCCCCTTCCTGGGGAGTC
+TCAGCTGAAAATAGCTCATCTCACAGGGGACCCGCACGGCTGACGTCCAG
+GACGAGCCCGAGACTCCTCAAGAAAAGCCTCGTGTTAAACACACGTGTGT
+CTCCTCGCCTGCCGGTTTAATGCCCAGTCGTGGGGTCCTGGGTTGTGGCC
+ACGAAGTCCTATTCCTCTGTCGCCAGGGTGAGAAGGTGGCTGTCGGCAGG
+GATTTTGGGATCAGGCAGGTGACTTCTCACGAAGGCTGGTTTCTCAGCCT
+CACATCTGCCGACATCGGGGGCTGGAGGATTCTCCGTCGTGGGGCGTCCT
+GTGCCCTGTGGGGTGTCGGGGACATGTTCTCACTCGGAGGACACATTGAT
+TCAAACCATAGGATACACAGTTGATTCATACATGTATGATTGATAGGTGA
+TTGGTTGACAGATAGTTGATGGATAGATATTGATATAGATGCATGATTAA
+TAGGTGATTGACAGATGATAGACATTAATATAAATGTATGATTGATTGGT
+TGACAGATGATAGATAATTGATATAGATGCATGATTAATAGGTGATTGAC
+AGATAATTGATAGGCATTAATATAAATGTATGATTGATAGATGATTGGTT
+GACAGATAATTGATATAGACACATGATTAATAGGTGATTGACAGATAATT
+GATAGACATTAATAGAAATGTATGATTGATGATTGGTTGACAGATGATTG
+ATAATTGATATAGATGCATGATTAATAGATGGTTGATAATTGACAGATAA
+TTGGTATAGATGCATGATTGATAGATGATTTATTGACAGACAATTGATAC
+ATAAGCGATACAGATGCATGATTGATAGGGAATTGATTGACAGATGATTG
+ATAATTTATATAGATGTATGACTGATCAGTGATTGGTTGATAGGTAATTG
+ATATAGATGCATGATTGACAGATGATTGGTTGTCAGATAATTGACCGATA
+GTAATGGATAGCTGATTAATAGATAGATAATTGATTAATCAATAATTGAT
+AGATGATAGATAAAGAATCTCTCATGCCCAGGCAGCTTTCTCAGCTCTGG
+CACTGCTGATGTTTGGGACTGGAGGACTCTCTGTCTTGGGGCCACCCTGG
+GTGCTGCAGGGTGCTAACTCTCTTGATGAGGCCGTCCTGGGTACTGTAGG
+GTACTGAGTCTCTGTGATGAAGCCGTCCTGGGCTCTGTAGGGTGTTGAGT
+CTGAGTCTCTGTGATGAGGCCGTCCTGGGCCCTGTAGGATGCTGAGTCTC
+TGTGATGAGGCCGTCCTGGACACTGTAGGGTGCTGAGTCTGAGTCTCTGT
+GATGAGGCCGTCCTGGGCCCTGTAGGGTGTTAAGTCTCTGTGATGAGGCC
+GTCCTGGACACTGTAGGGTGCTGAGTCTCTGTGATGAGGCCGTCCTGGGC
+ACTGTAGGGTGTTGAGTCTGAGTCTCTGTGATGAGGCCGTCCTGGGCCCT
+GTAGGGTGTTGAGTGTCTGTGATGAGGCCGTCCTGGGAGCTGTAGGGTGT
+TGACTCTGTGGTGGGGCCGTCCTGGGCGCTGTAGGGTGCTGAGTCTCTGT
+GATGAGACCGTCCTGGGAGCTGTAGGGTGTTGACTCTGTGGTGGGGCCAT
+CCTGGGCGCTGTAGGGTGCTGAGTCTCTGTGATGAGACCGTCCTGGGAGC
+TGTAGGGTGTTGACTCTGTGGTGGGGCCGTCCTGGGCGCTGTAGGGTGCT
+GAGTCTCTGTGATGAGGCCGTCCTGGGAGCTGTAGGGTGTTGACTCTGTG
+GTGGGGCCGTCCTGGGCGCTGTAGGGTGTTGAGTCTCTGTGATGAGGCCG
+TCCTGGGAGCTGTAGGGTGTTGACTCtgtggtggggccgtcctgggcgct
+gtagggtgctgaggagcgtccctgggctccacccagcagatgccagttca
+cccccatgttgtgacatgcagacatgtcccctgatattgctgagtgtgtc
+cggggagggggcaggatgtcccctggctgagaaccacACTGCACTAAGGA
+ATTAAGAGGACGGCCGCACTTAGAGACACAGTTGCCCATGAGCTCATACC
+GGCTTCTCCAAGCAGGTCACTCTGAAATCTTGttttttttttgttttttt
+ttttttttttttttttttttgagacaaagtcgtgctcttgtcgcccaggc
+tggagtgcggtggtgccatctcggctcactgcaagctccgcctcccgagt
+tcacaccattctcctgcctcagcctcccgagtagctgggactacaggtgc
+ccgccaccacgcccggatacttttttgtatttttagtagagaccgggttt
+caccgtgttagccaggatggtctcgatctcctgacctcgtgatccgcctg
+cctcggcctcccaaagtgctgggatgacaggcgtcagccactgcgcccgg
+ccCAACAGCTCTTTAAGTGGCTTGATTATGACCCTTGCACGCTGGCACCT
+GTCTTTGGGATCTTGGCATGGGCATGGACCCATGGATTAGTCAAACACCA
+ACAGGGGCTCAGAAGGAAGGAGAGAATCTATATGGGAGGCTGGCACCTGG
+CAAGGGATGATCCCTTCATTGCTGCAaaggcaatgaagaaggaagaagga
+ggcaatgaacaaaggaagaaaggaagggaggagtgatggaacgaaggaag
+gaaggggaaggagggagggaaggacgaaaggaaggaaggagggagggaag
+gaaggaaggaaggaagCTTCCATTCTTCCATTGTAGCAGCAGCGTACACT
+GCCCAGCCCGGGCTTCGTTTCCACTTTCTGTGACCTGGTGTGGCGGTGAG
+TCTTACTCAGCGTGCTTGAGCCGAAATGTCACCAGCTGCCCGCCGACCTG
+GGATGACACCTTGGGCCGTTCTGTTTTCTCCCGTTCACCGGTCAAGACGC
+TGAAACTCGGGAGCTTTTGGCGGCCGAGCTGCGTGAAGGGACTTCAAGAG
+ACGAGGAGACGGACCCCGTGGAAACCTCTCCCACCTGGCGATTGGTGAGG
+AGGACAGAGGCGACGGCAGAGGCGGTTTCATTTTGTGCTTTGAGACGGCC
+GTTTTGAGGTTGGGAGGCAGCCGCGATGGGAGTTGGGTTTGTCAATGGCA
+TTTTTTTTTttttacttttttattattatactttaagttcgagggtacat
+gtgcacaaagcgcaggttagttacatacgtatacatgtgccatgctggtg
+tgctgcacccattaactcgtcatttacattgggtatgtctcctaatgctg
+tccctcccctctcccccaggaaacaacaggtgctggagaggatgtggaga
+agtaggaacacttttacactgttggtgggactgtcaactagttcaaccat
+tgtggaagtcagtgtggcgattcctcagggatctagaactagaaatacca
+tttgacccagccatcccattgctgggtatatacccaaaggactataaatc
+atgctgctataaagacacatgcacacgtatgtttattgcggcactgtcca
+caatagcaaagacttggaaccaacccaaatgtccaacaacgatagactgg
+atgaagaaaatgtggcacatatacaccatggaatactatgcagccatgaa
+aaaggatgagttcatgtcctttgtagggacgtggatggaattggaaatca
+tcattctcagtaaactatcgcaaggactaaaaaccaaacatattctcact
+cataggtgggaattgaaccatgagaacacttggacacaggaaggggaaca
+tcacacaccggggactgttgtggggtggggggaagggggaggaatagcgt
+taggagatatacctaatgctacaccaacatggcacatgtatacgtatgta
+acaaacctgcacattgtccacatgtaccctaaaacttaaagtataataat
+aataataataataataataataatagtaataataaGCTGACCAGGATTTC
+CCCTCAGAAGGGCCCTTTCCCTGAGGGTCTTCGCTCCCCGAGGCGGACCC
+TACAGTGATCCGTGTGGGGGTTCCTGGGGCGGCGGTCGTCCCCTCCCGGG
+GGGTCTCCTGGCACCGATCTCACCTGCGGGAGCCTCTCCGGCCTGGCTCT
+TTGATGTGCAGAGATGGCGAAGAAGAAAATAACTTTAAAAATGGTGAGAA
+GCCGTCATTGAAGTTAACATAAAAGAGGATGACGCGGGGTGTTAATTGGT
+CTGTCTCTGGCATAATTTGGGCCCGGGAGACGGGGTCCCTGGGCCCCTCG
+CCCGAGAGCGGAGACTCACATCTTTAATTCAGCAATCTTTGTATTAATTA
+CCTCCGCATAGGTACGCTTTGATTGGGAGCGCTTTCTTATAAAATCACAG
+CGATCGTCTGCCTTAAGATAAATAGATGAGAGTTGAGCTGGGGGAAGAAA
+AAAAAAAAAAAACAGTTCATTCGACTCTGAATATCAAATTCAGGATAAAA
+CACCACTGATTCTCGGTCATTCTCAGTAGGGGAAGGAGCTTCTATTCTTG
+ACCCAGCCCACGACACGTGCCGGGGCTGTCAGCGCCGTGAGAGGCACCTG
+TGTCTCCCCGAGCTGAGGACGGATGACATTTGTACCTACAGGTTTGTATA
+CGGTCCTGGGAGGTGCCTCCTTGCCAGTGAAGGACCAGAACTCACGGCCG
+GCCATGGGTGCCCGGCGCCGGGATGGGCAGGAGCGGTGGCCCCAGGTCCC
+GGGTGTGGGTGAGGCCCCAGGAAAGAGGAGAATTCACTGGGAAAATGCAG
+AGCTGAGGGAAAAGACAGGGGTGTCCCGGGGACCCGTCCagaccgcagga
+tggtgtgaggccgggaggtggacgcggcggtgagctgtgattgcgccact
+gcactccagcctgggtgacagggcaacaccctgtctctctctctctctct
+ctctctcttttttgtttttggagatagagtctcgctctgtcacccaggct
+ggagtgcaggggcgtgatctcggctctctgcaacctccgcctcccgggtt
+caagccattctcctgcttcagcctcccgagtagctgggatgacaggcacc
+tgccagcacgcccggctgattttgtatttttagtagagatggggtttcac
+catgttggtcaggctggtctcgaactcatgagctcaggggatccgcctgc
+ctcagcctcccagagtgctgggatgacaggtgtgagccactgcgcccggc
+cAGGAATCAGTTTTTATTACGCTCAAAATCCCCTAAAAACTAGGCACCAG
+GGGAGGATGAACTGGCTCagagagaaagagagagagacacagagacagag
+acaaagagagaggcagagagacagagacaaagagaaagagagatagagag
+agagaaagagagacagacgcagagagacaaagagagatggagagacagag
+aaagagacacagagagaggcagagacagagaaagaaagagaggcagagac
+agacggagagatacaaagatggagagacagagagagacagagagggacag
+agagatacagatacagagagagacgtagagacacagagagagacaaagac
+ggagagacagagagagacagagagatacacacagagagacagagacagag
+acagcagacggagagagagagagatggagatggagagagacagagacaca
+gagagagacagacacagagagagacagagagacaaagatggagagacaga
+gacagagagacagagacacacagagagacagagacagagagacacagaga
+gagacagacagagagatggagagacagagagacacagagagaggcagaga
+cagagacagaaagacagagaggcagagacagagggagagatacaaagatg
+gagagacagagagagacagagagggacagagagatacagatacagagaga
+cgtagagacacagagagagacaaagacagagagacagagagagacagaga
+gatacacacagagagacagagacacagagacagcagacggagagagacag
+atggagatggagagagacagagacacagagagagacagagacacagagag
+agacagagagacaaagatggagagacagagacagagagacagatacacac
+agagagacagagacagacacagagagagacagacagagagatggagagac
+agagagacacagagagaggcagagacagagaaacagagagacagagagac
+agagacacagacagagacagagacagggaaggaaggaagggagggaggga
+aggaggaaatgaaaccaaagaaaggaaagaaaAACCCCCAAGAGTCACAA
+TCAATATACGTCCTGCACAAATTCCTGCAGTTTCCAGGAGGTTCCCGCAG
+CTCCCCGGGGCCCGCCACCCCCCGCCACCCCCCACCCACTCCCAGAGCCG
+CCTCCTTCAACACCCCGACGTGCTTCATCTACCACGAGGCCCACGGCGGC
+TTCCGGAATATGCGGCAACtttttattttttttttatttttatttttttt
+AAGGGGTAAAAAAAGATAAAGCAAACACGGAACAGCACACTCCTCCCGGC
+CTTCCTTCTTCTGACACCGTTTTCCTTTAGAAGATCTGAAACTACAAGTC
+AGGACATGACACGTGGAGCGTCCCAGGCACGCGCAGCCTCTGCTGTTTGA
+TTTCCGACGTGAGTCTATAGGTGAGGCTGACAGGTTTCAGATGGAAGAGG
+CAGGGCAGACGCCTTTCAAGAGAGGCGCGTTGTCTGGGTAAATCCATCAA
+GGGTGCGTCCTGGGAGACGACGGGCCGCCTTTGTAGACAACGCCACGGCA
+CGGGGGCCCCCCACGCTGGGCGCCCACCCCGGCTGGCTGACAGGCGGCCC
+CCGTTTCACCGTGATCACGAGTAAAAGCCAGTTCCCTGCAGGTTACGGGG
+CTGCTGTGTTTTGACATTGACCTTAATGCATAATTTAACCACAAAGCATA
+TGAGGTACGTGCAACCAGATGAGGAAAGGCCACAGGACTGGCAGGTAACG
+TGATGCTGAATCAGAAAGGATGTTTGTTCCCGATCGTGCGGACGTGGGGG
+CCTCTGCCgaagaggcggagaggggaggagggggaggaggaggCCGCGGT
+CGTGTCTGTCCCAGGGCTGTCGAGGAGAAGTCGGTCTGGGGTCCTGGATG
+AGGAGCAGAGCTCGGGGAGCTGTTAACATTTCCTGGGACAGCGATGGGCT
+TGGAGAGCCTCACTGTGCACACATGTGGCCTGttttttttatttttattt
+ttagtttttgagatggagtctcgctctgttgcccaggctggagtgcaggg
+gtgtgatctcggctcactgcaacctccacctcccgggttcaagccattct
+cctgcctcagcctcccgagtagctgggactacaggcgcccgccgccacgc
+ccagctaattttttgtatttttagtagagacggggtttcaccatgttggc
+caggctggtctcgaactcctgacctccggatcagcccgcctcggcctccc
+aaagtgctgggatgacaggcgtgagccaccgcgcccggcTATGTGGCCTG
+TTTGCTGGGACGGAGCCGCTGGCATCCTGGCGGCAGCTTCAAAACACAGT
+CACAGTCTCAGGGGAGCAAAAGCACCCGGTCCCCATCACTGTCCCCAAGA
+AAGGGAGCAGCAGGGGGTTCCCGCGGCTGGCCAGGAAGCTGGGGACAAAC
+GGTGGCGTACCTGAGCACCTGCATTCCCGCAGTGAAGGACAGGTCGACAC
+GGGCAGCTTTGCTTCTCTCCTGGCCAGCTCGGTCAAGCTTCCTGCCTCTG
+GTGCCTGGAATGCAGAGTCCTGGGTGCGCAACAGGCATTGCCTGGGTGGG
+CTGGCGtttttgatttgttttgtttttttgagacagagtctcactctgtt
+gcccaggctggagtgcagtggcgtgatctcagctcactgcaacctccgcc
+tcctggatccaagtcattctcctgcctcagcctcccgaatagctgggatt
+acaagcacctgccaccgcaccgggctaattttgtatttgtagtagagacg
+gggtttcaccgtgttggccaggctggtctcgaactcctgacctcaggtga
+tccacccacctcggcctcccaaagtgctgggaGGGTTGGTGTTTTTATGA
+CCTTCACACAGACCCCAGAGCTGGTGTTGGAGGAGGGTGCAGAGACCCCA
+GGAGGTACCCTGGAAAGGAGCCCAATAGGAAGACCCAGGACTCTAGGGCA
+GCAGGTTCAAGCCTGCTCAGCTGGGAAGACCGTTTCCTTCAGGAGTGTGG
+CGGGTTCCACACGGCGGGTTGGAGACATGCACCTGCCCAGGCTGGGCCAC
+TCAGGGTTCACGCCGGGGCACTGAGTATTTTGGGGGTGCAATGAACTCTG
+CACAACGCACCAGGGTGGGGGCAGAGATGAATCAAAGAAGACAGCTGTTT
+GTGTGTGAGCTTCCCTGGCCTGTGcacacagagacagacatacacaccca
+cacacacacaggcacacagatgcctgtacacatacattcacacccagaca
+cacatatgcattcgtacgcacctacacacacatctgtacacacacattca
+caccaacacacagacatacattcatacacacctgcacacacacacacgta
+cacacactcctatacacatacattcacacccacacacagacatacgcacc
+cacacacacattcatacacacctgcaccacacacaggcgcacacactcct
+gtacacacacattcacaaccccacacgtacacaccaggacacacacattc
+atatacacctgaacacaggtgcacacacacgcctgtacacatccattcac
+acccacacacagacatacacacctgtacacacacattcatacacgcacac
+acacacgggtacacacgcctgtacacgttcacacccacagacatatacac
+agacacacctgcacacacacacacagaggcacatgcacacacacacctgt
+acacatacattcacatgcacacacagacacagccccccacacacacaggt
+gcacacacacgcctgtacacatacattcacacctacacacagacacacac
+ctgtacacacacattcatacacacatgcacacacacacgggtacacacgc
+ctgtacacgttcacacccacagacatatacagacacacctgcacacacac
+acacagaggcacatgcacacacacacctgtacacatacattcacatgcac
+acacagacacaccccccacacacaggtgcacacacatgcctgtacacata
+cattcacacctacacacagacatacacacctgtacacacacacacacaga
+cacaccccccccacacaggtgcacatacacgcctgtacacatacattcac
+acctacacacagacatacacatctgtacacacacacattcatacacacac
+agatacacacccacgcacacacaggtgcacacacacgcttgtacacatac
+attcacacccacacacagacatatacacacagacattcatacacacctgc
+acagacacacacatacacaggcccatgcacgcacacctgtacacacacac
+acccacacacagacatacacaTCTGCGTGGCAAACATTGACCCCTTCCTC
+AGgctgctgctgctgctgcAAATGTTACTCAGCGATCGTCCAGCCCAGGC
+TGCAGGCCGACCCTGAGGGCCCTGGAGGCCTCATAAACCACACGTCCGGC
+CTCGGCTGATTCCACAAGGCTCCGTGGAGCTACCTGTGCAGGGGGGAGAG
+GCGTGAGGCTCAAAGGGGCCCTGGACGCAGGGACAGACGTTTCTTTACAG
+ACACCCACGTGAGGCAGACAAACCACACATATGTCTCCAACCACACATGG
+TAATTCGTGAGGATGAAGAGATGAAGGCCCCAGGCCATATTCCCTTTGTG
+CTGTCCTGGTCTAGCGTGAAATGTTAATTTTTGCCTTTTTTCGTGTACAA
+AGGGGCCCTTAGGTTGTTAGATGTTCCTGCTTTCATAGTAGACGCATGTG
+GACTTTTCGTGGTATTTTGTTGTGTTTCTACTGCTTGTTGGAGGCAGAAA
+AAGCGACTCGTCAATGTTTTATAATGAAAATGAAAAGTATGAAAGGTGAG
+TGTGAAGTTGTAACAGACATACTTTTGTGAATTTTGGTGATTTTTTTTGT
+TTGTTGGTTTCAGTCTTTGGAAAAAATCTGTGGTTggccgggcgcggtgg
+ctcacgcctggcatcccagcactttgggaggccgaggtgagtggatcatg
+aggtcaggagatcgagaccatcttggccaacgtggtaaaactccatctct
+actaagaatacaaaaaattagcggggtatggtggcgggcacctgtagtcc
+cacctacttgggaggctgaggcaggagaatcgcttgaacctgggaggtgg
+agcctCCCCAGATGCACGGCTGTGTCCCAGTCCAGGTTCCAAAGGGGCTT
+TGTGGATCTTTTTCTGCAGACCGAAtgaatgctttgtcctgccaagtcct
+acgttgaaaccctgaaccccaaggtcagagtgttactagtggggggtctt
+tgggaggtgaggaggtcgtgatggtagagtctcacgaatgggattagtat
+ccccataaaagggacaccagagcttcctctctctctgtctctctctctgt
+ctctttctctccaccccgcaccatggaatgacacagcaagaaggttgccg
+tctgcaagccaggaagggagtcctcaccaggagctgagatgttgctactt
+tgatcttggacctccagtcttcatgtgtgtgagaaatcaatgtctgttgt
+ttaagccctgtggtttgtggtactttgctgtagAttttctttctttcttt
+ctttctttttgagactgagtctcactctgtcgcccaggctggagtgcagt
+ggtgtgatcttggctcactgcaacctctgccttctgggttcaagtgattc
+tcctgcctcagcctcctgagtagctgggactacaggcacctgccaccaca
+cctggctgatttttatatttttagtagagacggggtttcaccatgttggc
+caggatggtctcaatctcctgacctcgtgatccacccgcgtcaacctgcc
+caagtgctgggattataggcatgagccaccgtgcccggcAATtctatcta
+tctgtctgtctgtctgtctgtctgtctgtttgtctgtctatctatctatc
+tgtctatccatccatccatctaatccatccatccatctatcatctatcta
+tccatctatctTTTGGGTTTTTTTTGAGACAGAGGAGCTGAAACATAGTG
+AGAGGTTTCTATACCCAGAGAGCTCAACCTCTAGGGTGGAGAAGTTTAAA
+CATTCACTAAACTGGCTTTCATTTAGTAATTGGTGCAGAGCAAAGAGAGA
+CATTtgtgtatgtgtgtgtgtgtgtTTTCACATCACAATATATCATTCTC
+TTCTCTTCATTTTGTCTCATTTTTCAGAAGCAACAAAAAGGAGAAGATAA
+GTTTATTTCCATGCAGAGAAGGGAGAGTTTGCTTTCCAttttattttatt
+ttatttttcagatagagtttcacccttgtcgctcaggctggcgtgcaatg
+gcgcaatctcggctcactgcaacctccacctctggggttcaagcgattct
+cctgcctcagtctcccaagtagctgggattacagacacccgccaccacac
+cAcactgcaacctctgccttctgggttcaagtgattctcctgcctcagcc
+tcctgaatagctgggactacaggtgtctgccaccacacccggctgatttt
+tgtatttttagtagagacgggtttttaccatgttggccaggctggtcttg
+aacccctgacctcaggtgatcctcccgccttggcctcccaaaatgctgag
+atgacaggcatgagccaccatgctcggcTGAGTTTGCTTTCTTTGGAGAG
+CAAACAGATAGCCCCACCAGAAATGTACTTATTTACTTAGTTGCTTGCAT
+GTTTGGAGTGGATGTTGGAGTTTTTCTCAGCCAGGGAGGTGAGAAAGTCT
+CCATCAAGTACtcattcattcattcattcattcgttcattcaattcaACT
+TTGAATTTAAAAGTGGAGAGTTCCCCTCCGTCTGACCACAAAGTGATGTG
+CAGAAGTAGCTTCATTTTAAACCTGCAGATAAGATGGATCGGTCTCTGAT
+TTGTAATTAGAAGTGCAGCAGATAACGAGACAATCTGAATGTCCTACCAA
+GTCTTTGACCTGTTCTTTGGGAGGTGGCATAACCTTATCTTCAATCATCA
+AGGCTGCACGTGGAGGAGTTATTCAGGCAGCTGAAAATATCACCCCAGAT
+CTTGCAGAGGAAGCAACCTAGGAGTCGGAGTGTCCCTGCAGATGCTCCAC
+ACACGGGTGGGATATAGAAGGAGTGGAGGTGGACGAGGTCTAAGGAGAAC
+AAGGAAAAGGACATGAGAGGATCAGAGAAGACCTCAATAGCTTAGCCAGG
+GAAGGAATTCATGGGAAAAACATTAGGGGAATTTATAGTCTTGGCAGGGA
+ACCCAAAGATGGAGACTCAGACAACAGGGCAGAACCCAAGGGAGGAAGGT
+GGTCGGGGAGGACTCTCCAAGCTGCCTCTGGGCTCTGGAGATGTTGCTGT
+GGTCATGAGGAATTTCTGTCCTGCAGCTGATTTCCTTTATTCTCTCAAGG
+TTCCAAGTGCTGGGCAGAAAGTCCAGCTCCCTGGATGCCAGGATGGGGGG
+GATAGAGAATGTATGAGGCTCCAGGATGCCAAAGAGGGAGGTGACGCTGG
+TTCCCACTGAGACGTGTGAGGCAGGAATGACCCCAAAATGACAAGGCTCC
+GAGTCCCAGCACGATGATTCAGCTTCCCCATCTCACGTGTTCATGGAAGG
+AGCATGAGGAACTCAGGCATCAGGAAGAAAGTGCCCTCGGTTTGGGGTGG
+GGCGAGCTTTGGGAACCTCAGGAAACATTTCACGATGACCAACAGGATCA
+GCCAGTGGGAGAGGAAGAGGAGATTTGTTGCAACCTTGAGGTGGGTTCAC
+TGTGGACACAAATCAGAGGCAGGACAGCCACAGAGAGGACCAACTATTGG
+CCACGTGTGGGTAAGAGGAAAGAATTGTGACTGGGTTCACAGTGCAGGGG
+GCATGGATTGAAAAGCAGGACACATCTTCCTCTCTTCTGGTTTCATTGAG
+CCTTTGCTAAATAGAAGCTAGAATCTCATAGACCTGGTGGCAGCtgtctt
+actcccttggtgttgatatggcagaatgccatagactgcatggcttagaa
+acaataagaatttactgctcacagctctagaggctgggaagtctcagatc
+aacgcgtggtagatttggtgtttggtggggaaagtcccagatcaaggcgt
+ggtagattttgtgtttgatggggacctgtttgctcattcatagacggtgc
+catcaggctgtgtcctcatatggtgaaaggggtgagggagctctctgagg
+tcccccctttttttgagatggagttatgctcttgtaccccaggctggagt
+gcgatggcacgatcttggctcgctgcaacctctgcctcctgggttcaact
+gactctcccgcctcagcctcccaagtagctgggattataggtgtccacca
+ccaagcctggctaattcttgtatttttagtacatatggggtttcaccatg
+ttggccaagctggtctcgaactcctgacctcaggtgatcctcctgccttg
+gcctcccaaaatgctgggattacaggcatgagccaccgtgcctggcctgg
+ggtcccccactccttttttttttttttttccttttttagatggaattttg
+ctctgttgccaggctggagtgcagtggtgcgatctcagctcactgcaacc
+tctgccacccgcattcaagggattctcctgcctcagcctcccaagtagct
+gggattacaggtgtccaccaccacgcctggctaatttttgtatttttagg
+agagacagggtttcaccattgttggccaggctggtctcgatctcttgact
+ttgtgatctgccagcctcggcctcccaaagtgctgggattacaggcctgg
+ggtctgtaatttttataaaggcactaatcccattcatgaggcttcatcct
+cacaatctcatcaccttccaaaactctacttcctaacaccatcaccttag
+cggttagggattcaacatagcaatttgtcgggggaacacgacattcagtg
+tataCTGACCGTTGTTCTTCAAACACCTGCTAAATTATAATTAATATCAT
+TATGGGAGAACACCCTTACCATAGAATATTCCCACCACCAGGATCTCCGT
+GATATACCTTCCAACTCTGCAAAATAACAAAACAGCAAAACAACACAACG
+CAAACGGAATAAAACCCTTTTCTTTTGACTGAGTGCAGGGCAAGTTAGAA
+AACTCCCCAAAGATGAGTTTCTCCTCCtttttttttttttttttttGAGT
+TATGAGCAGAAAAAGTTTGGACACTTTCGCAGAACTCAGAAACATATTAA
+TTTTTCACGGCCTCGTAAGTCAAAAATGGCTTGTCCAATTTGCTTCAAAC
+TTCGCAGCCTGATAGAAAGCCCCAGAACTTTCCAGCCAGAGAAGATATTT
+TGTCAGAGTTGGAAGGAGGTCAGAAGAGGGCATTAATGTGGAGGATGTGA
+AGACCTGGGCCCCGACCCTTGATGGGCCTATCTGTAATTAGCTGGAGCCC
+TCCCCCGGATTTGGGGTTGACAGACGCTCAGGACAGCACGATGATCTCAA
+GGGCGTCAAAGGGCAAAGCTTCCCCATCAATGGCTCTGTTTGGAGAGGGA
+GTAGCTGGGGGAGTCAGGGACTCAGCGTGGGGCTCACACCCTCTTTTACC
+GAGCACTTCTGATTTATATTATAAAAATCTCATTTTCAGAAAAGAAGGGA
+GTTTTACATGGGATAGGGTGGTGTGAAATCAGCAAATCAGCAAAAAGAAA
+ACAAAACAAAAACGCTTTTCAGGAAAACGATGATGGATTTGGGTGGGGAG
+AGGGCAGAGCTCCTGGGACCTGATTACTGTTAATTTGTAATCCAGGGAGG
+TCCTGAGCCTGGTGAAATATTAATGCTTGAGAAAGGCCACTGTCTTCTGA
+TTCTTTCTGTGCTTTTGGGACAATCCCAATGGATGCAACACACCCCCGCG
+TTGATTTATTTATGTTCACAGCATGGCCGAGGCAGCAGGAGACCCCAAGT
+TGTATTCAAAATATCCAAAAGGGGCTTTTCTTTTTCCCTTTGTTTATTCA
+AAATATTCAAAAAGGGCTTTTCTTTTTCCCTTTGTTTCCGCGATTTCTGC
+GCTGTTGGCTGAAAGTGCTCTGAGTTCACGCGCTACGGGGGGTGACTTCC
+ATTTCTGCAGACAGCAGCCTTGGGGATGGCCTGGCGAGGGCTAGGAATAC
+CACACCCTGATCCCATTCTTCCTGGCTCAGTCCTGACTGTGAGAGTCACG
+GTGGACTCTGGGTTTTTCGgtttttttgtttgtttgtttttttgtttttt
+gttttttttttttgacagggagtctcgctctgtcgtccaggctggagtgc
+agtggtgcaccctaggctcactgcaacctccgactcctgggttcgattct
+actgcctcagcctcccgagtagctgagactacaggcaccggccaccacgc
+ctggctaattttttttattttttaaatagagatgtggttttgccgtgttg
+gccaggctggtctcgatctcctgatctcaggtgatccacctgcctcggcc
+tcctaaagtgctgggattataggcgtgagacaccatgcctggccTCTGAA
+CTCTGTTTTAAGTTTTTTTTtttttttaattgaggtgagtttcacgaaac
+atgcaatcaaccattttatttttattacttatgtatttattttgagacag
+ggtctcgctctgctgcccaggctagggtgcactggtgcaatcacagctca
+ctgcagcctcaatgtcctgggctcaggtgatcctcctgcctcagcctcct
+gagtaggtgagaccgtgggcatgccccaccatgcctggctaatttttgta
+ttattactattttcttggtagagacagggtctcactgtgttgcccaggcc
+catcttgtactcctggtctcaagcgatcctcctgcctcggcctcccaaag
+tgctgcaattacacaggtgaggcaacgcagccagcaaccctttcaagcag
+aaggatttgttggtatttactgaattcaccttgttgtggtagcatatcat
+ctacataataccagaatattgtcatccctcaaaaacagagccaggagaag
+aactgcccattttccctccccattcccaggcaactcaaaatcttccttct
+gtctctatgggtttgcctgttctacacatttcgtatatgatgggaATAGG
+Cttttttttttttttttttttttttagaaagagtctcgctctgtcagcca
+gcctggagtgcaacggtgtaatctcggctcagtgcaacctccacctcctg
+ggttcaagcgattctcctgcctcagcctcctgagtagctgggattacggg
+caccccccaccacactcagctaattttcttttcttttttctttctttctt
+tcttttttttgagatggagtctcgctctgttgcccaggctggagtgcagt
+ggcacgatctcagctcactgcaatctccgcctcctgaggtcaagtgattc
+tcctgcctcagcctcccaagtagctgagattacaggtgcccaccatgcca
+ggctaattttctttttttgagatggagtcttgctctgtcgcccaggctgg
+agtgcaatggtgagatctcggctcactgcaacctccacctcctgggttta
+agtgattctcctgcctcagcctcctgagtagctgagattacaggtgccca
+ccatgccAGACTAAttttcttttttcttttttctttttttttttttttga
+gatggagtcttgctctgtcgcccaggctggagtgcagtggtgtgatctca
+gctcactgcaacctctgcctcctgggtttaagtgattctcctgcctctgc
+ctcctgagtagctgggattacaggtgcccgccaccatgcccagctaattt
+tctttctggttttttttttttttttttttttgagacagaatcttactctg
+ttgcacaggctggagtgcaatggcataatcttggctcagtgcaacctctg
+cctcctgggttcaagcgattctgctgccttagcctcctgaatagctggga
+tgacaggcacccatcaccacgctcagctaatttttgtgtttttagtagag
+atggggtttctccatgttggccaggctggtctcgaactcctgacctcagg
+tgatccacccgcctcagcctcccaaagtgctgggattacaggtgtgagcc
+actgctcctggccaaaaaattattttttatagacctggggttttgctatg
+ttgctccgggtgctctccaattgctgggctcaagcaatccttccacctca
+gcctcccaaagtgctgggattacaggcacgaaccgtagcacccgaccGGC
+CTCTTTATACTATTTTGCAGGAACATTACCTTGCTTTCAGTGAGTGCAGT
+TCCCACGAAAAAGCCGCGAGTATGGAGAAGTTTGCCTAGAAAACTTAGGC
+AGTTACTCCTTTTAGATAATTTAACTTCAAAGTCGAAACAGGGCATCGCA
+GAAAGGATCTGAATTTAGAGGTATGTTTTATTGAATCACTCAAGGCCTAG
+AAATAGAAATGATCAAAGGGTGTTTGCGAGCGTGCTTTCCAGCTTCTGAG
+GAGCTGAGCCCAGCTCACTAATGATGGCAATTGTGGTCATAGGTGACTCG
+CCCCCGAGCTGGGGGTGCCTCTGAGCGCCTCTGCCTTCCACCCTACTGGG
+GAGCAAGGCTGTGGGGCCACCTCTAATGATTGGTTGTTATTGTCTGAGGA
+TATCTAGAAATTCAAGAGAGATCTACTTTATACTCTGGAAATGAAGAGCC
+TTTTGTATTCAGCAAAGGGATCGGTGTTGAGAGGGGGCTTCACGGGTGTA
+CACCGTGGGGAGTATCCCTCCTGGGTTCCAAGCTCAGACAGGTGGCCCAA
+GACAAGATGTCTGGCTTTTTAaattttaatttaatttaatttaattttaa
+tttaattttaatttaattttaatttaatttaattttaatttaatttaatt
+ttaattttaattttaattttaattaattaattaatttattttcgagacag
+agtctctctctgtcgcccaggctggagtgcagtggcgcaatctcggctca
+ctgcaagctccgcctcccgggttcacgccattctcctgcctcggcctcca
+gagtagctgggactacaggcgcccgccaccacgcccggctaattttttgt
+atttttagtagtagagacggggtttcaccgtgttggccaggatggtctcg
+atctcctgaccttgtgatccacccacctcggcctcccaaagtgctgggat
+gacaggtgtgagccgccacgcccggccCGttatttttatttttagtacag
+atgaggcttttctctgttgcccaggctgaagtgcagtgacgtgatcaggg
+tccttgcattttttgttttgagacagggtcttgctctgtcgctcaggatg
+gactgcagggatgtgatcccagctcactgcagcctcagcctcctgggctc
+aagccatactcctgcctcagcctcctgagtagctggactacaggtgtgtg
+ccagtatgcctggctgtttttttctaaatgattttttttggtagagatgg
+ggtctcactatgtctcccaggctgaagctctgtggtgtgatcatagctca
+ctgcagcctcgaactcctgagctcaactgatcctcccacctcagcctcct
+gaagtgctgggattaggggggtgagccactgcactcagccAACAGATAga
+gatggggtctcgctatgtctcccaggctgaagctctgtggtgtcatcata
+gctcactgtagcctcgaactcctgggctcaactgatcctcccacctcagc
+ctcctgaagtgctggggttaggggggtgagccactgcactcagcCAACAG
+ATAgagatggggtctcgctatgtctcccaggctgaagctctgtggtgtca
+tcatagctcactgtagcctcgaactcctgggctcaactgatcctcccgcc
+tcagcctcctgaagtgctgggattaggggggtgagccactgcactcagcc
+aacagatagagatggggtctcgctatgtctcccaggctgaagctctgtgg
+tgtcatcatagctcactgcagcctcgaactcctgagctcaactgatcctc
+ccacctcagcctcctgaagtgctgggattaggggggtgagccactgcact
+cagccAACAGATAgagatggggtctcgctatgtctcccaggctgaagctc
+tgtggtgtcatcatagctcactgcagcctcgaactcctgggctcaactga
+tcctcccgcctcagactcctgaagtgctgggattaggggggtgagccact
+gcactcagcCAACACATCTGTAAATATGCCTAAGGCATCTATACCGTAGT
+AGGTTTGCTACAAGGATCAAGCAAGATAGTGTTCTGGAAATACAAGCCTC
+ACCCTTACGAAGCTGTTTCAGCAGGTGTAACAAATGGCCGTTCACAGAGT
+GGCTCAAAAAAACACACATTTggccaggcgtggtggctcatgcctgtaat
+cctaccactttgggaggctgaggtcggaggattgcttgagaccagaagtt
+tgagactatagcctgagcaacagagtgacgtagtgatactttgtttctag
+aaaaataaaaaaaaaaataattagccgggtgtagatggggggggggggtg
+gtctgtagtcccagctactcgggaggctgaggcaggaggatcctttgagc
+ccgggagtccgaggccgtactgagctaggattgcaccactgcactccagc
+ctgggcgacagggcgagactctgtctcaaaacagaaaacaacaagaacaa
+gaaGCCCCCCGAAAAAACAAGAAGTCCTGCCCACTCtttttttttgagac
+agttttcctcttgttgcccagggtggagtgcaatggcgtgatctcggctc
+actgcattttctgcctcccgggttcaagagattctcctgcctcagcctcc
+tgagtagctgggagtacaggcacctgccaccacgcctggctaattttgca
+tttttagtagagatggggtttcaccatgttggccaggctggtctcgaact
+cctgacctcatgtgatccacctgcctcggcctcccaaagtgctgggatga
+caggcgtgagccaccCTGTCTGTCCCCTTTCCTTTATCTTTTACAACTCC
+AGGACTTTAGCATAAGCCTACAAGTCCTCCCCCTTCTTTTAAGATTTTTT
+TCCTCTTCGATTTCACTCAGCTGAGAGAAAGGGGAGACCTCCCCCCCTCC
+CTTTTCACCAAACACCTACTCATTTTCCCAAGCTGTACCCACCATACTCA
+CAGCAAATTTCATTTAGGATAGACATTTTAttttatttattttttttttc
+atttttttgagacagagtctcgctgtgtcgcccaggctggagtacagtgg
+cacgatctcggctcactacaacctccgcctcccgagttcaagtgattctc
+ctgcctcagcctccggagtagctgggatgacaggtgcacgtcaACCTCAG
+CCCACAAGGTGGCCCAAGGCACACGGAGTTCACATTGTACCCACCATGGG
+TCGAAGGTGGGCGTCTGATTCCTCCTGAAGGGTGGGGAGCTGTGATGTGA
+ACAGGCCACTTCAATGGGACAGGCGTGATCTCCATTTGGGACTAAATACA
+AGCCCATGGAGGGTCCACAGAGCACCAAGGGAAGCTGGCATTTCAAAACA
+TCTGCCTCGTTTGTCTAAACCACACCACACCACACACCACTCTGGGGTCT
+GTTTGGCCacagagaatcctctagccccaaatgtcagcagagctgaggct
+gagagacactgACTGAGGGACtctatctatcatctgtcaatcaatcaatc
+aatcatctatctgtctatccattatctatctatttatccacctatcatct
+atctatctatcatctatctctctctcatccgtccatccatcgtctattct
+atctgtcatctatgtatctatccatctagtcatccatctatctatcctgt
+gtgtatttatccattctatgtatctatctatgtatctatctatgtatcta
+tctatgtatctatctatctatctatctatctatctatctatctatctgtc
+atctatgtatctatccatctattcatccatctatcctgtatgtatttgtc
+catccatccatccatctattctatcatctatcttcatctatgtatctatc
+catctattcatccatctatcctgcatgtatttatctatccatcatccatc
+tattctatcatctatcatctatgtatctatccatctattcatccatctat
+cctgcatgtatttatctatccatccatccatctattctatcatctatcta
+tcatctatgtatctatccacctattcatccatctatcttgtatgtattca
+tccatccatccatctattctattatctatctatcatctattcatccatct
+atctatcctgcatgtatttatctatccatccatccatccatctattctat
+catctatctgtcttctatgtatctatccatctattcatccatcttgtatg
+tatttatccatccatgcatctactcaaccatccctcctctatttatcatc
+tctatcatctgtaagtcaatcagtttatccatcatctatcaatcacccac
+atctatctttattatctatcacctgtctatttatctatctatcctgtatg
+tatttatccatccatccatccctccatccatccattccctgtctatctct
+atcatatAGAGAAAAATGGCAGCCGCGTCCACACTGGCCTCAGAACTCTC
+TGGTGAGGTTGCACCAATGAAGCAACAGATTGTGAGGATGTCACttttct
+ggttttttttttttcaagatggaatctcactctgtcacccaggctggagt
+gcagtggcacgatctcagctcactgcaacctccacctcctgggttcaagt
+gattctcctgcctccgcctcttgaggagctgggactacaggtgctcacca
+ccacgcctggctaatttttgtatttttagtagagatggggtctcaccgtg
+ttggccaggctggtcttgaactagtgaccacaggtgatctgtctgcctcg
+gcctcccaaagtgctgggattacaggcatgagccaccgtgcccagTGACG
+TCACTTTTCTTTGAATAGTTTAGATCAAACCGCACCAACTGTATGTGACT
+TTGTTATATCTTTTATTATATGTATAACAGAAATACATAGTTATATGTGT
+TGTATTTGGAAGTGTATCACTGAATGTGGTTCTGAGGACCTTGGGGAATT
+ATTTAATTtaatttaattaatttattgtagagatggggtgtcatgaggtt
+gctcagactgatctcaaacttctgggctcaagggatcctccctcccttct
+cggcctcctaaagtgctgggattacaagtgggagccactgtgcctggcAG
+GGGGATTATTTTAAATGCTTCCTAAGCAAAATAAATAATGCATGAGACAC
+TTACTGCATCTGCTCCTCAAATTCCTTCCAAAAGTGCTTTGGggccgggt
+gcagtggctcacgcctgcaatcccagcactttgggaggctgaggtgggag
+gatcgctggagccaggagtttgagaccagtctgggcaacatagcaagacc
+ccagctctataaaaaaaatatcttgggaggccgaggcgggcagatcatga
+ggtcaggagatcgagaccatcctggctgacacggtgaaaccccgtctcta
+ctaaaaatacaaaaaattagctgggcgcggtggcgggcgcctgtagtccc
+agctactcgggaggctgaggcaggagagtggcgtgaacccgggaggcaga
+gcttgcagtgagccgagatcacgccactgcactccagcctgggcgacaga
+gtgagactctgtctcaaaaaaaaaaaaaaaaaaatcaggtagatgtggtg
+gtttccacctgtagtcccagctcctggggagactaaggtgggagcattcc
+ttgagcccaggacgtcgaggctgcagtgagccaagatcgtaccacagctc
+tccagtctgggcaatagagttagcttctcatctctgcaaaaataaagatt
+aaaaaaaaTACtctcattgttcaactcccacttaggagtaagaacttgcg
+gtgtttggttttctgttcctgtgtgagtttgctgagaatgatggtttcca
+gcttcgtccatgtccctgcaaatgacaggagctcaccctttttcatggct
+gcatagtattccatggtgtctgtgtgccacattttctttatccagtctat
+cattgatgggcatttgggttggtcccaagtcttttgctattCCCAGCAGG
+TTTTCAAAGCCCGTCGTCTTTGCTTAGCGTGCACCATGATGTCGGCTCTC
+TGAATTCACCGTCTTTCTAGATGAGTCCCAGAGTTTTTCTTCATCACTCA
+GTATTTGGCAACAGGGAAGTTTTTCTAAGCAAGTCAAcccatcaatgata
+gactggataaagaaaatgtggcacatagacaccatggaatactatgcagc
+catcaaaaaggatgagttcatgtcgttcgcagggacatggatgaatctgg
+aatccatcattctcagcaaactcacacaggaacagaaaaccaaacactgc
+atgttctcactcctaagtgggagttgaacaatgagaacacatggacacag
+gaaggggaacatcacacacccgggcctgtcgagggctgtggggctgtgga
+agggattgcattaggagaaatTctcaccatctatgaacccctcatttcct
+catcgggaaaaatgtacctgaaaatagcgcctgcctctgagtgttgtggt
+aaggaagcaatgccattatttatgtCTCATGCTGTGGCTTGAGACTGTGT
+CTGTTTATGCTGCTCTGGTTTGTGGTGGAGGCTGCCGTCTGTCAGCCTCT
+GCACCTGCCGTCTGTCAGCCTCTGCACCTGCTCTGAAGTTTTCCTCTCGG
+TGGTACCCACCCATCATCCTGCTGCCCTTGAGTTCCCAGGAGCCCACAGG
+AGCTGCACTTTCTCCAGGCCTTTTGCCGGTGGAGCTGCCTCTTGGATTGT
+GCGTCTCCATCCgatgcactctgttttcatgtgaaaatccatgggaataa
+aaaggctcttttcgtgctgaaaaattgagcccaggggttcagcCAGCAGA
+GGACTCTGTGGGTATAAATATGAATGGAGAGGATTCTAAATATATAGCAG
+AGCAGAAGTCAGATGTTTGTGGAGAGGTGAAACGGCCTGGCCAGGTTCTT
+GGAACTTTAGAAATGAGGATGGCTTCCGGGGGAACTGGGGAGCGACCgtt
+ctcaactggggatgaacatgcaccccgacggacactcggcactgtctggg
+gcggttctgggtgtggtaactgggaggggggtgctcctggcacctggttt
+gtggagcccggggatgctgctcaccaccttacagtgaccacagagaatcc
+tccagccccaaatgtcagcagaggtgaggctgagagacactATCTGAGGG
+ACtctatcatctgtcaatcaatcaatcaatctctcaatctattatgcatc
+tatctatctatctatctatctatctacccacctatcatctatcatttatc
+tatgtatctatgtatctatgtatctatctacctatcatctatctatcatc
+tatctatgtatctatctatgtatctattatctatctatccacctatcatc
+tatctataatctctctctctcccaaccatccatctatccatccatccatc
+catctatccatctatccattatctatcatacatctatctattcatccatc
+catcatctatcatctctatcatctataaatcaatttatccatcatctgtc
+attcatccatccatcacccatctttattatctatcatctatctatccatc
+tatcattcatctatcatctacccatccattacctatctatctctatcata
+tataaatcaatcaatctatcatctatcatccaccaatctacctatttatc
+tagatctgcctatctacctttatctattatctatcatcaatctttattat
+ctatctatcatctatctacagatctatttattgacccattatctatctat
+catctatctacctatctatctaatctgtgcttttcagctgctgccgattg
+tctcctctgaggacactttgtcagtctctggggacacttttggttgtctg
+gattgtggagtgagggtgcttctggtcgctggtgggtgaagcccagggac
+actgctcaacaccctacagtgcacagatcagccccaccagagagaatcgt
+ccagtcccatgtgtcggaagtaccagggctgaaagacactgCCTGAGGCT
+GAGACAATCtctgtttgtctatctatcacctatcagtgatctatcagtca
+attatctacctattaactgtctatatcaattatctgtcatacctatcaat
+cagctatcattaatcatctgtctatatcaattatccatcatacctatcaa
+tcaactatctatcatcaatcatctatctatactaattatccatcatacat
+atcaatcaactaacaatcatcaatcatcaagcatctatatcaattatcca
+tcaaacctatcaatcatatatcatcaatcatctatctgtgtgaattatcc
+atcatacctatcaatcagctatcaatcgtcaatcatatatcaattatcca
+tcatacctatcaatcaaccatctatcaatcatcaatctatatcaattatc
+tgtcatacctatcaatcatcaatcatctatctatatcaattatccatcat
+acttatcaatcaaccatctatctatatgaattatccatcatatctatcaa
+tcaactacctatcatcaatctatatcaattatccgtcacacctttcgatc
+agctatctatcaatcatcaatcatctatatcaattatccatcaaacctat
+caatcaactatttgtcaattatcaatcatctatatcaattatgcatcata
+cctatcaactatcatcaatcatctatctatatgaattatccatcatacct
+atcaatcaactacctatcaatctatatcaattatccatcacacctatcaa
+tcaactatttatcaattatcatctatatcaattatgcatcatacctatca
+actatcatcaatcatctatctatatcaattatccatcatacctatcaatc
+agctatcaatcatcaatccttgatctatatcatttatgcatcaatcatca
+atcatctgtatcaattatcaatcatctatttacctatcaaatcaactatg
+tatcatctttcatcatatctatcaattgtccatcagtcagttatctacct
+gtctatTCAATGGTTTGCAAACAGGATGATTTTCTTTTTCTGAGAAGAGG
+TCTCAAAACTTTGTTTTGggctgggcacggtggctcacacctgtaatccc
+agcactgtgggaggccaaggcggaccgatcacctgaggtctggagttcga
+ggccagcctggccaacatggtgaaaccccgtctctactaaaaatacaaaa
+actagctgggcgtggtggcgggtgcctgtaatcccagctactcgggaggc
+tgaggcaggatagttgcttgaacctgggaggcggaggttgcagtgagccg
+agattttgcactccagcctgggcaacaagtgtgaaaattcgtctcaaaaa
+ttaaaaataaaaaataaaaTCTTCATTTTGTCCTGAGTTGAAACTGAAGG
+GCCGGCATCGTGCTTCCCAAAGATGTCCTGTtttatgctggaggtggcag
+tttcttgtatttgcagatatgtgtgaaaaaccagaccttggcaatgactt
+tgacaataggcggtaaataactgccagatgcttagcgttccaataatgga
+atgctaggcatcgatagGTTTAAGCCCCCTATGATTTTAGCACTGATATG
+GAAGTACGGGATTCCTTCATGGAGAAAATAAGACACTGGTTTTGCTTTCT
+Gttttcttttctttcttttttttttttgagaaggagtcttgctcttgtac
+ccccaggctggagtgcaatggtactatctcggctcactgcaacctccgcc
+tcccaggttcaagtgattctcatgcctcaacctccaaagtagctggggtt
+acaggtgcacgccatatctgtgcaccatgctggccaggctggtctcgaac
+tcctgaccgcaggttacctgcccgAGCCACCACGCCTGGCCGCAAACACC
+GCATTTCAAATATACTGAGTCCTTCAGCTCGGAGGTCAGAAATGGCCAAG
+GGCggccgggccggtggctcacgcctgcaatcctgcaatcctagcatttt
+gagaggccaaggtgggaggattgcttgacgccaaggagtttaagaccagc
+ctgggcaacatagcaagaccccgatttctacacaaaataaaaaaaaaatt
+agtcaggcgtggtggctcacgtctgtagtcccagacactgggaagtccga
+ggagggaggatcgcctgagtccaggcgtccgaggctgcagtgagccatga
+ttgagctactgcactccagcctgggcaacagagccagaccctgtcttaaa
+aataaaataataattcaaaaaaTAggccaggcgcgttggctcatgcctgt
+aatcccaggactttgggaggcagaggtgggcagatcacctgaggtcggga
+gttcaagaccagcctggctaacacggtgaacccccgtctctactaaaaat
+actaaaatcagctgggcgtggtggcaggtgcctgtaatcccagctactcg
+ggaggctgaggcaggagaatggcttgaacccgggaggcggaggtttcagt
+gagccgagactgcgccattgcaccccagcctgggcagcaagagcgaaact
+ccgtctcaagaaaagaaaagaaaaaaaaTGCTCAGGTACATTTTTGCTTT
+ATTTCAGGATTTCTTTACGTTGCTGTGAAAACCTGGATGTTGGGGGCTCT
+GTCTGTGTATCGTAGACGGAGTTTTGAATTGCTCCAGTGAAACACAAGTA
+TTTTACCTTACGCTGTCAACCTGCTGGGGGAAGCGTGAAGACAGTTTAAC
+CTTCTGGCTCCGGTAATCATCTTGTCTCAGAGACCTCGGAGAGCTCCCAG
+AGCCTGGCTGCCACGGTGGTTCTATATACCCTCCAGCCCTGGCCTGCCTT
+GGGACACCCCTCTCCGCCTGCCGGCCCCAGAATTTCCCCACACACGCGGT
+CATCACAGCCCGAGATGTTTAATGACGGCTTCATGCACCAGGCTATTGCC
+CTAAACACGGGTGACAGGCCAAACACACACTAATTACCTAACTCAATTCA
+AGCCCGCCTGGCCCCGTGGAAAGGCTGAGCTGGGGATGCACGCAGGTGCC
+CCGTCGTTACCTCCGGATGTCAAATTGAAGTGAGGTTTTCCCGCATGAGC
+GGGGAGAGCTGTTTCTACGCACCAAGATTTCCACGGTTTGCAGGAGAAAG
+AGTTTTGTGTCTGCCCTCTGGACAGCCCTGTCAGTTTTATCAAGCGTGTC
+TGATTAAGGAATATTTAAAGGTATGTGTTCAGAAGCGTTTCTCCCCTTCT
+TTTGTGTGTGTGTGTGGCCATGTTTAAAAAAAACAAATGTAAAACCAGTT
+ACAGGCAAAGTAGGCTAGTTTGGTGCTGAAATAACGCCGTCGTTCATGAG
+CCGGCTTAAATAATGCAGTTGTTAGAAACCAGCTCTCAAAGCTGTGGGTT
+GGCTGAGGAGGGTTAGTACGAGGTCCTGACCCCAAACCTGTGTGTATCTG
+GAGCCGGCGGGAGACATTTGGCCTGGAGTATGAGGCTGGCTGGACCTGGA
+AGGTCCTCAGCGTTAGAGGGACTGTTTCGGGAAGGTTTTCTGGCAGCTGA
+GTCCCAATTCCAGGAGGAAGTAGGCATTGAGTAGATAATTTCAGCTCCCC
+CATTGAAGCCGTCCAGCCTGCAGAGAAAGATAGCAGTGGCCCCCTGCCCT
+ATCCCGGCAAAGCTGACCCCGAGAATGCCCGGGTCACAAGCCCAGGTGGA
+CAGTGTCTCCTTGTGCCTCGGAAGAGAATTCTGCATTAGGAAGGAATCCA
+GGGGGAATGGGGAGAAAAGGCCCGAGATACGTGAGCAGAGGTGAGAGCCG
+TGCCAGGGCTGAGCCACGCTTCAGGAGAGACCAGCTATGTCTCTCTCTGT
+GTTGGGAGCCGTTGGGTAAAGCGGGGACTTCTGGGTGAGCCAACATTACA
+GACTTATATGGGAATTTAAGGCTCGGTTAAATATGCCCCTCAAAAAAGTT
+TCCTGACTTTTTTTTGATACGCCAGTTTCATTATCAGGGGGCTCATCAGC
+CGGGGACGCGGTGCAGGACGGATGGAAGCCGTGGGCCGTGTCAACTCTAC
+AGGGCTGTATTTCTTTTTTTTTTTCGTGCTCATTACGATTCTTGGATGTG
+TGTAATTTACATCTAAATGCACTGACTAATTTTGATCCAATCATGTCAAA
+AATGATAGGTACTGTGTGGGAGGAGATGACAGCCGTACCAGCGCGCGTTG
+CCAGAGTGAGAGTCCCTCGGGGCAATGATTTAATGCCCCCAGTCAGCCGG
+GCCTGTCAGCTTCGGAGGCCAAATTATGACACATCATGTCGACGACCGGT
+CCACACGGAGGCTGCGGTGGGGGGAGCCCTGGTTCACCCAGCACCGTCCT
+GGCCGACCCCCGGCCCCGGCTGCCGCCCCGTGCCCCGTCACACACGCAAG
+ATGCAGAGTGGGGAGAAATGATGCGCTAACCCCCCTGTAAAAGAGTCATT
+TGCATCTGTATTTTTTACTCCAGCAAGGGCATGTCAGGTGTTTGCGGGAA
+GGGCAGGCTGGACGGCCTCCATGCAGCgtgagcgtgtccgcgtgtgtgtg
+tgcacgtgtgtccacatgtgtgtgtggtgtctgcgtgcctctgtgtgtgt
+ccgtgtgtgcgcacgcgcccgtgtgtgtgcatctgtgtgtggcgtcagca
+tgtgtctatgtgtgtccatgtgtgtatgtatgtgtgcatgcatgcacctg
+tatgtgtgtctgtgtgcatgcatgtgagtgtatgtgtgtgtgtctgagtg
+tgagcgtgcctatgcacgtgtgtgtgtgcatgtttctgtgtgtgcatacg
+cccatgtgtgtctgtgtgcatgcgtgtgtgtgtatgttagtgtgagggtg
+gacgtgtgcctatgcacctatgtgtgtatgtgtttctgcatgtctgtgca
+tgcatgcacctgtatgcgtgtctgagtgcatgcgtgggagtgtatgtgcg
+tgtctcagtgtgggcatgcctatgcacatatgtgtgcacatgtttctgtg
+tgcatatgcttgcatgtgtgtgtgcatgcatgtgagtggatgtgtgtgtg
+agtgtgggcatgcctatgcacgtgtgtgtgtgcatgtttctgtgtgtctg
+tatacgcctgtgtcttgagtgtgtgaatgtgcctatggacatgtgtatac
+atgtttctgcatgtctgtgcatgcatatgcctgtgtgtctctgtgtgcat
+gcgtgtgagtgtgtgtgtatgttagtgtgagggtggacgtgtgcctatgc
+acctatgtgtgtatgtgtttctgcatgtctgtgcatgcatgcacctgtat
+gcgtgtctgagtgcatgcgtgggagtgtatgtgcgtgtctcagtgtggac
+atgcctatgcacatatgtgtgcacatgtttctgtgtgcatatgcttgcat
+gtgtgtgtgcgtgcatgtgagtggatgtgtgtgtgagtgtgggcatgcct
+atgcacgtgtgtgtgtgcatgtttctgtgtgtctgcgtatacgcctgtgt
+cttgagtgtgtgaatgtgcctatggacatgtgtgtacatgtttctgcatg
+tctgtgcatgcatatgcctgtgtgtctctgtgtgtatgcgtgtgagtggc
+attcatgtgtgtgtatttgcgtgaggtgggcatgcctatgcacgtatatg
+tgtacatgtttctgtatgtctgtgcatgcatatgcctgtatatgtgtctg
+tgtgcacatgtgttcatatatgtgtgtctgtgtgagtgtacatatgccta
+tgtacgtacgtgtgtacgtttctgtgtatctgtgtgtctgtgcgtgcatc
+tgcctgtatatgtgtgtgtgtgtgcaaatgtgtctgtatgtgtgtgtctg
+tgtgaatgtgggtgtgccttgtacgtatgtgtgtacatgtttctgtgtat
+ctgtgtacctgtgtgtgcattcgcctgcatgtctgtgtgtgtgCATGCAT
+GTCAGTGAACGTTGGCGGCCTCTCCTCAGAGCCCCTCTTGCCTGAAGGAA
+GTGCCACCTCCAGCCCCCCTTTGCTTTGTTTTGCGTCTCGGGAGTGACGT
+CACTGTCGGCTCCGCAGGATCCTCCCATCCTTGTTCGTCCTGGGCTTGCG
+GGATGAGTCTGTCAGGAGCAGACACGCCGTGGTGGGCCGTGCACACGTTT
+GCACCTGCTCTCAGAAGTCCTTTCCCCGAGGAGGAGGCTCTGTTGGAGAG
+AGAGACCCTTGGGCACCTGTGGGCCCTCACTGCTCTCTTCTGAGACTGTG
+GTACCGGCCATCTCCAGCCCTGGCCCTGGCCCGGTGACTTCCCCAGGGCA
+CCCCAGGGATGTGCCAAAGGAGGACTCCCCGGGGAGGGTGGGTGAGGTGC
+GTGCCCGCCGTGCCGAGACGCTCCTGAAGGCAGAGGCTGCTCAGGAAAGT
+CGGCTGCTTCCTAATCTCCGTCCGTGCTCACGCAAAGTCCTCGGTCGCCG
+TCTGCCACACGCTTATTTTATTTGGCAGAAGTTACAGCTCAGGCAATTTC
+GTTAGGAAACCTGTTGGGGTTTCTTGGTTCTATGCAGGATGGCTGGTGCT
+TTAGGAGGAGGTGGGGATTAGAAAGAGTCTTGAggccggacgtggtggct
+cacgcctgcaatcccagcactttgggaggctgaggcgggtggatcacgag
+gtcagcagttcgagaccagcctgaccaacatggtgaaaccccatctctac
+taaaaatacaaaaaaatcagccaggtatggtggtgggcacctgtagttcc
+agctagtcgggaggctgaggcaggagaatcacttaaacctgggaggtgga
+ggttgcagtgagccgagatcgcaccaatgtactccagcctgggtgacagt
+gtgagactccatctcaaaaaaaaaaaaaaaGttagccaggcgtggtggca
+ggtgcctgtaatcccagctgcttgagatgctgaggcaggagaatcactta
+aacccgggaggtggaggttgcagtgagccaagatcatgccattgcactcc
+agcctgggtgacaaaagtgagactacggctcaaaaaaagaaaaaaaaata
+caaaTAGTAgccaagcctggtggtgaacacctggaaccctggctacttcg
+gaggctgaggcgggagaatcgtttgaacccgggaggcggaggttgcagcg
+agctgaggtcgcgcctgggaggcagaggttgcaagattctgtctcggaaa
+aaaaaaaaagaaaatatgatccatctgtaacattgaatgctacacagcca
+tgaaaaagaatcaaatcatgtcctttgcagaaatacggatgcagctggag
+gcGCttcttcttcttcttttttttttttttttttagacggattctcactc
+tgtcgcccaggctggagtgcagtggcgcggtctcggctcactgcaagctc
+cgcctccttggttcacgccattctcttgcctcagTGGAGGCCCACataag
+agggagctaaaattgggtacaaatagtcatagaaatgggaacaatagatg
+ctggcgtctgctagacgggggagggaaggatggaggcaaaggcggaaaaa
+tcatacgttgggtcccatgctcagtacttggatggcacaatccttcatgc
+cccaaacttcagcatcacacattatactcaagcaacaaatgtgcacatga
+gcctcctgaatccgaaataaaagttgCCATGATTTAAAAAAGAAATAAAG
+ATGATGATTGAAATATGTGtttttattttttgagacagagtctcgctgtg
+tcacccaggctggagtgcagtggcgtgatctcagctcactgcaacctcca
+cctcctgggttcaagcaattctcctgcctcagcctcccgagtagctggga
+agacaggcgcctgccaccatgcctgactaatttttgtatttttagtagag
+acggggtttctccatattggccaggctggtctcgaactcccgacctcagg
+tgatccacctgccttggcctcccaaactgctgggattacaggtgggagcc
+actgcgcgcagcATTTGTCTGTTGTTTATAAGTTGCCACATCTGACATTT
+GGTGGTGTTGGATTTTCTCTGAAGGTCtttttttttgagatggagtcttg
+ctctgtcgcccaggctggagtgcagtggtgcaatctcggctcactgcaac
+ctccgcctcctgagttcaagtgattctcctgcctcagcctcccgagtagc
+tgggattgcaggcacccaccaccacgcctgcctaatttttgtgtttttag
+tagagacagggtttcaccatgttggccaggatggtctcaaactcctgacc
+tggtgatccgcctgccttggcctcccaaagtgctgggattacaggcatga
+gcctccacacctggcctttttttttttctgagactgagtcttactctgtc
+gcccaggctggagtgcaatggcacgatctcggctcaccgcaacctccacc
+tcctggattcaagcgattctcctgcctcagcctcccgagcagctgggatg
+acaggcccccgccaccacacctgcctaatttttttttgtattttcagtag
+aggtggggtttcaccatgtgagtcaggctggtctccaactcctgacctca
+agtgatcctcccgcctcggcctcccaaagtgctgggatcgcggacgtgag
+ccaccacaccggccAACATTCACGCGATTTTCAGAATTAGCAGCCACCCG
+TCTGGGTCCCCACAGTGTTTGGGGAAAGGGATTTGGGGGTGTGGTACGCC
+CTGTGTTCCCCGGCGGGCAGCTGGGGCCGGACTCCCTTGCCGACATCCTG
+TGTGTTCTCTGCATCTCGAAGTTGTCACGAACTCTCATGGCAACCCCCTT
+CTCGTGCTATGGGTTCCGTTTAGCCTCCCTCAGAATTAGCTAAAAACCCA
+CCGGCTTGATTTCTGGCATTTGCAACGGCCGCGCTCAGGAAACCTCCTGC
+CTCCTGAAAATGCTCATGCTGGCGGAACGGGAAGGCAAATAGGAATCCGT
+GGATGATAAATGGGCGTTTTAAGCAGCAGTTTACTTAATATCCCTATTAA
+ACGAGACTCTTTGCATTAATCACTTCATTCTCCAGCAGTCTATAAGGCCC
+TTTAATTGCTTCTTAAATGAGGACTGAGTTTCCGTCCAAACTCAATCTTG
+GATGGGGAGAGAGAGATGCTAGCCAGGGCTCAGCTGCCCGGCTGCCAAGA
+ACTGTCAGAATTGATCACGTATGTGTTCACGTTTCCTACAGTCTCATTGG
+AGTTCTCTGAGATTGACAGGAGAAAGTATCACATACTTtgtgtgtgtgtg
+tgtgtgtgtgtgtctgtgtgtgtCAGAGACAGAGGGACACAGAGGCCGGG
+AGCAGGGGTGTGTAAGTGTGAGGTTCTGAACGCAAAGACAGGCCGTTCTG
+CTCACAATCCACAGGCCAGCGACCTTGTGGACCATTGCATTATGTATTAG
+CAATAtttattttcattttatgattttatttatttgagacagcttcttgg
+tctgtcgcccatgctggagggcagtggtgcaatcatagctcactgcagcc
+ttgatcttccaggctcaagaaatcttccctcctcagcctcccaactagct
+gggactacaggtgcatgccaccatgcctgtctatttttttttttttggag
+gcagggtcagtcacccaggctggagagcagcggtgtgatcttggcttacc
+acaacctccgcctcccaggttcaagcgattctcctgtgtcagcctcccga
+gtagctgggatgacaggcacccgccaccacgtctggctaatttttgtatt
+ttcagtagagacagggtttcaccaagctggccacgctggactcgaactcc
+tgacctcaggtgatccacctgcctcggcctcccaaagtgctgggattata
+ggcgtgagccaccacgccgggccCATACCTGGCtatatatatatatatat
+atatatatatatatatatatatattttaatgttttgtagagatgggggtc
+tcactatattgcaaaccaggctggtctcaaacccttgggctcaagtgatc
+ctcccacatcagcctcccaaagtgctgggattataTATTTATCTACtttt
+gagatggagtctcgcgctgtcgcccaggctggagtgcagtggcatgagct
+cggctcaccgcaaactccgcctcccgggttcaagcgatcctcctgcctca
+gcctcccgaggagctgggattacaggcgcccgccaccacgcccggctaat
+tttgtatttttagtagagacggggtttctccatgttggtcaggctggtct
+cgaactcctgatctcatgatccacccacctcagcctcccgaagtgctggg
+atgagaggtgtgagccaccgcacctggcTACttttgtattttgagtagag
+atggaatttcaccatgttggtctggctggtctcgaactcctgacctctag
+tgatccacctgccttggcctcccaaactgctgggatgacaggcatgagcc
+accgtgccctgccTGGGATTATTATCACAAATAACACCTATTCATTTTTA
+CAAACCATATTTATGTAGTTATTCAAACCTAGGGCTAAAAATGATGTGGC
+TGCTGGGGTGACCTTTGGGGTAGGATCGGGAATTGGGGTGTAGCCCTCCT
+CCAGGCTCCATAGACCTCAGCCCCCCCAAGTTCTGTTTCTGACTTGTTCA
+TGCTCAGAAAGTTGTCAGGGACGGCCTGGGTTTCTTTCCCACCTTCCTTG
+TTTGGGAGGAAGGTTCTGGAATCCtttttttttttttttttagatggaat
+tttgctcttgttgcccaggctggagtgcaatggtgccaactcagctcact
+ccaacctccacctcccgggttcaagccattctcctgcctcagcctcccga
+gtagctggaattacaggcatgagccaccacacccggctaatgtttgtatt
+tttagtagagacgggatttcaccacgttggccaggctggtctcgaactcg
+cgacctcaggtgatcttcccgcctcggtctcccaaagtgttggggttaca
+ggcgtgagcctccgcgcccagccGGGTTCTGGAATCTTGAAGCTCCCCAG
+ACACCAAGGCTGGATGGAAAGTTAGGCCATCAGAAAGCAAATGGGGAGAG
+GCTCGTGGGAATAGCGTGGGCCTCATGTAGTGTTTTGCTTTATGTGAAAT
+GGGGCAGCAAAAAACAGCTGTTCCCTCCACCCCCCAGGCTGGAAAATTTA
+TCTCCAGTATTCATTCTGGTAAATGAATGCCTGTGTGTTAGTAAGAGGGG
+AAGGAGCTGCTAGTCCTTGAGGTCAGCTGAAACCTCCTTCAGAGCCTCCA
+GCCTGGCCTTGAGACCGGCTCACCACATGTGAGCAGCCAGGAGCCCCGCC
+AAGACCTGCTGTTGCCCCTCCTTCCTGCCCTGCCCCAGTGCCGGGGTCCT
+GTGGATGTAGAttttttctttttttttttttgagatggagtttcgctctt
+gtcccttaggctggacagcaatggcgcgatctctgctcaccacaacctcc
+gcctcccaggttcaagccattctcctgcctcagcctccggagtagctggg
+attacaggcacccgccaccacttgtaaattttgtatttttagtagagatg
+gggtttcaccctgttggccaggctggtctcgaactcctgacctcaggtga
+tccacctgccttggcctcccaaagtgctgggattacaggcgtgagccgct
+gtgccgggccTGTTGATTCTTATCTGGCTTTCATGGGACCACAGGggctc
+ctgaaagtgtgaaacagagaatttccatagaacccagtaataccccagct
+aagtatgtacctaaaagaatagaaaggaggggccgggaacagtgactcac
+gcctgtaatcccagcactttgggaggccgaggcaggtggatcacctcagg
+tcgggagttggagaccagcctgaccaacatggagaaaccccgtctctact
+aaacatacaaaattagccaagggcgtggaggtgcctgcctgtaatttcag
+ctactgaggaggctgaggcaagagaatcccttgaacccgggaggcggacg
+ttgtggtgagccgagatggcgccatttcactccatcctgggcaacaagag
+tgaaactccgtctcaaaaaaaagaaagagggactggaagagatatctgct
+cgctcacgtttgtaggagcacacacatggaaaccatccaggtgtccctca
+gtggatgaatcgataaacaaacagtggttcactcactttgtgcccaccca
+gtggagtactatacagccatgaaaaagaatgaggctgtgacctaggctgc
+aacgtggatacaccctgaagaagtcacactcagcgatatttcctttggct
+tattgtacaatccccttacgtcaactgtccggaagcggccaatgcacaga
+gagagagctcagatgagtggttgccacaggctgtggggagggaatgagga
+ggaactgcttcctggggagggggtctccttttatggggagaaggatgttc
+tggaagtagacagagggggtggttacacggcgcagtgatgttctcaatgc
+cactgagattttcacggcggttaaagtggtgagttttatgttgtgaaatt
+tATGGTGAATTTCATATAATACGTTTTATGTCATTGCAGTGAAAAACAAC
+ACAATCCCGGCCCTCCTACGGCCCCCGCCTTCCCTCTGTGTCTGCGGTCT
+GTACCCTACGAACGCCTAGGACGCTAGACGGGATCCCTCCCCACGGAGCT
+ATATAGGAAGGTGAACCCAGTCTGGGGTTCCTGAGCTGCTACGGCTCACT
+GCTTCCTTTCGGAAATTGGTGTATTGTCTTTGGAAAATGACTTCACACAA
+ACCTGCTCACAGATATACCCGGTCCCAGATATGCCTAAGTGAGCGGAGAC
+TACCGTGTCCTGAAACAGCATCTTCTCTTTTAAAAAATGTTGTGtttttt
+gttttgtcttttttcttttttttgagataggatctcactgtgttgcccag
+gctggagtgcaacagtgtaatcatagctcactgcagcctcaacttcccag
+gctcaagcgatcctcctgcctcagcctcccaaggagctgggattacatgt
+gtgcaccaccatgcctggctaattttttgatcttttgtatagatgagacc
+tcactatgttgcccaggctggagtgcatcagtgtaatcatagctcactgc
+agcctcaacttcccaggctcaagcgatcctcctgcctcagcctcccaagt
+agctgggactacatgtgtgcgccaccacgcccggcTAAGtttttgatctt
+ttgtggagatcaggcctcactatgttgcccaggctggagtgcagtggtgt
+aatcatagctcactgcagcctcaacttcccaggctcaagcgatcctccca
+cctcagccttctaagtatgtgggattacagacatgcaccatcacgcccag
+ctaagtttttgatttcttttggtacatacagggtctcactatgttgccca
+ggctggtcttgaattcctgggctcaagtgatcctcactcctcggcctccc
+aaagtgctgagattacaggcgtgagccaccatgcctggccTCTTTTTTTG
+TTTTTGAGACAAGGTCTGAAATAACAACTATCTGTAAAAAAAAAAatata
+tatatatatatggttttaatgttatatatataaggttttaatgttatata
+taaatgttttatatttatatatgacatatataacattttaatgctatata
+catataatgttttaatgttatatatacatacaaatatataaatatatata
+tttttaaacagggtcttgctctgtcacctgggctggagtaccctggtgtg
+atcacagctcacggttgcttcgacctcctggtctccagcgatcctcctgt
+ctcagcctccccaaaatgctgggattacaggtgtgagccgccgctcctgg
+ccaGCACCTTCTCTTATGCGGTACCTGGAAAGTCCCACATCATGCGAACG
+TCTCCACCAGGTACCCGGGAGGTGGCATTCGGGGAATGAGGGGGACCAGG
+GCTCAGAGCATCCCCAAAGTGGCTTCCTTGCCTCATAGGGTCACCCCCTT
+AGCCCAGAGCTGGAGGTGAGTGGGGGCGTGAAAGAGGCATCTTCCCTTCC
+AGAGGGCGGCAGTGGGGTTGAATGGATAACTTTAATCCTGACACACGTAT
+TTCAGAAGACCTACCGCCAACTTTCCAGCTATGGGCAGCAGGTGTGATGA
+ACACACGGGCCCCGGTGAGGGCTGAATGGGCCCAGATGGCAGGGGCAGAG
+AGGTTTGCATTCATTTTAATGTTCTCAGAAACTAGGATAAGCACTGGCAG
+CGGATGGAATGAGGAGAGCTGCATATTCGGTGAACTGTGTTGAAAGCACA
+GGGTTTTCACGGAAAATAAATAATGTCCAATGCAGCTAAAATACCGTGCG
+CCACCCGTAAGCCGGCGTTTATCCAGAGCTCCGAGTGTCTGTGAGATTTT
+AAGGAAAAGAAAGGAAGCTGGAAAAAAAAATAATAATCCAAATGAATCAC
+AGACCAACGATCCCTAAAAGGTTTGCTTTAATAAtttttttttttttttt
+tttGTGGCTGTGGAAGATGACTCGGATTCAAAATAATGAGGATGTTTATG
+TCTGCAGTCTGTTCCTCTCTTGAAGATTCAATTCTAAATAATGCAGGTCT
+CCTAAATGCTAGCAAATAGTGTCATACACTCCTTTTCACAAAATAGCTTT
+GACTTTGGGGAAGGCAACTATCATTAACTGGGCACCGGCACCTTTAAGCA
+AAGGTTTCCTGGAATAACAGTCAGCTAAGGAAATATAATGAGAGCTATTT
+CTTGCCCTTCCTGCTCGAAACCGTTGGCTGGAACTCAGCCTGCCCCTCAG
+CTGAAGCACGTCTGGTTTAAATTCATACGGCATAGATTTACAATTTTTAA
+ACGACTGGATATGTATTTTTTTTTTTCTACGCTGTTTGCAGACCTGGTGG
+ACACCTGTTGTTTCTGGTTAGGAAAGGAGGAGATAATTGGATACCAGAGA
+GAGCCTGACTTCTTGAGCCACCATTTAACCGGCTGATTTCAGCAATAAAT
+TGGAGGGGGGCGGGGATGGGGAAAAAATAACACCCAAGAAACATTCAGAC
+AGATTTGCAACCACAAAGTCTGTCTCCTttattattttaattttattatt
+attattacttttgctttGTTTAACATAAAAACGATCTAGGCGAGTCCTTC
+TGGGCTGATGTGTATGTGCTTTTTCCTGCCTGGCTATCCTGTAGCTTTAT
+CTAAGGCAAATCGGAGTACGTGTAAAtaaattagttcaaccattgtggaa
+gacagcgtggcgattcctcaaggatgtagaactagaaataccgtttgacc
+cagccatcccgttactgggtatatacccaaaggattataaatcactctac
+cataaagacacatgcacacgtatgtttattgaggcactgttcacaacagc
+aaagacttggaaccaacccaaatgcccatcaatgatagactggatacaga
+gaatgtggcacacagacaccatggaatactatgcagccacgaaaaaggat
+gggttcatgtcctttgcagggacatggatgaagctggaaaccatcattct
+cagcaaactcgcacaggaacagaaaaccacacaccgcatgttctcactcc
+taagtgggagctgaacgatgagaacacagggacgcagggaggggaacatc
+acacaccggggcctgtcagtgggttgcgggccaaggagtgggattgcatt
+aggatgctatcctaatgctaacaaatatctaatccatccagggcttaaca
+cctagataagggACCTCCTCTGAATAATTAATATACTCCTGGTGATAGAT
+GATCCGCACGGTCTGGATATTAGGTTATCAATCACGACCCACTTGTTTTA
+ACGTAATCCTATTGAACACGTGTCAGGAGCTGTTTACCCAGAGGTGACAG
+CTACACAGCACCCCCATTTCCAGCCAGAAAATCGTACCATTTCCTTTCCT
+TCGACTGCCGCTTCCCGACCCCTTTCCCCGTTTCCGGCCAGAAAATCGTA
+CCATTTCCTTTCCTTAACCTGCCGCTTCCTGACACTTTCCCCCCAGTGtt
+ttagtacagatggagtttcaccatgttggccaggctggtcttcgatgggt
+gacttcaggtgatccgcctgcttcagcctcccaaagtgctgggatgacag
+gcgtgagccactgtgcccggccTCCAGTGtttttcaaattgtggtaaaac
+gcacataacacaaagtctagagcattaaccatgtattttgttttaagaca
+gagtttcactcttgtcgcccaggttggagtgcaatggcatgatctcggct
+cactgcaaactctgcctcttgggttcaagcgattctcctgcctcagtctc
+ccgagtagctgagattacaggcgcccgccaccacgcccggctaatttttt
+gtatttttagtagagaccgggtttccccatgttggtgaggctggtcttga
+actcctgacctcaggtgatccacctgcctcagcctcccaaagtgctggga
+tgacaggcgtgagccaccgtgcccggccggcattcaccgtgtgtaaatgt
+acacagcagtttgaactgcagttggcttctgcagccatcaccaccatccg
+tatctccagaagtttctcatcttcccaaacagaaaccctgttccccttac
+acactcactccctttccccggctgccatcaacctcctctccatctccatg
+actctgaggactccagggacctcctgtaaatggaatcccacagtgtgtat
+ctttttttttttttttttttttttttttgagatggagtcttgctctgtcg
+cccaggctggagtgcagtggcgcgatctcggctcactgcaagctccgcct
+cccgggttcacgccattctcctgcctcagcctcccgagtagctgggacta
+caggcgcccgccaccacatctggttaatttttttgtatttttagtagaga
+cgggctttcaccgtgttagccgagatggtctcgatctcctgacctcatga
+tccgcctgcctcggcctcccaaagtgctgggattacaggcgtgagccacg
+gcgcccggccccacagtgtttatctttctgtgtctggcttcgtcactgct
+ccaagactcacgtttgttgtagcaagcgccaaattttcttccttttggct
+gGCTTATGAGGATTTTaggagggacttcagtctcccagtttgttatttat
+tttctacgtgctttctacgtcacgcgtttcctgtgtttctgtcctcttgt
+gtgtttcattgatttatttttaTTTTTGTAGACACGAAGTCTTGCTCTGT
+CACCCAGTGagactccaactcctgggctcaagcaatcctcctgcctcagc
+ctcccgagtagctgggagcacaggcatgcaccaccacgcctggctaattt
+ttttttttttttttttttggtagggacaggCTCCTGGGGAAGAGGGGGAA
+GGAAAGGAGTGGTCTTGGGCCCTGTATTGTAGGAGTTTCTGggcttctaa
+caacagcaacttgttttctcccagtcccggtgtccaggagtctgagatca
+aggtgtaggcaggaccacagtccctccagaggttctaggggagggtcctt
+cctgcctctcccagctcccgggggctccaggcttcctgggcttgtggccg
+cgtcactccagtctctgcctccgttctccacgtggccttcttctctgtgt
+ctgtgtcttctcttctgtctcttacaaggacacctgccattgcatttagg
+gcccagcctactccaggatgacctcatctcaaacttcttgagttaactgt
+gtctgcaaagaccctattttcaaataagttctcattcacagatactggga
+gcttaaaacaacagaaatttatcctctcccagtcctgcagaccaggagtc
+tgagatgaagcggtctcagggctgagctccctccagaggccctaggggag
+ggtccttcctgcctctcccagctcctgggggctccaggcttcctgggctt
+gtggccgcatcactccagtctctgcctctgttctccacgtggccttctcc
+tctgtgtctgtgtctcctcttctgtctcttagaaggacacctgtcaatgg
+atttaggactcacctaatccaggatcatctcatttcgaaatccttgactt
+agttacatctgtaaagacctcatatccgaataagattccattcatgggtt
+gagggagttaggatgtagacatagcttttcggggagactatggttcaacc
+catTCCGATTGTATCCAgttccttctggaggttctaggggagggtccttc
+ctgcctctcccagctcctgggggctccaggcatccctgggcttgtggccg
+cctcactccagtctctgcctccgtctccacgtggacttctcctctgtgtc
+tgtgtctcctcttctgtctcttagaaagtcacctgtcattgcatttaggg
+tccaccctcattcatgatcatctcatctcaagatccttcacttaatcaca
+tttgcagagaccctatttccaaacgatatctcattctaggttctgggctt
+taggatgtggacagatctttctgggggccactgttcaatccattacaATT
+GTATCCACttccttgtagaggttctagggcaggatccttcctgcctctcc
+cagctcctgggggctccaggtgtccctgggcttgtggccgcatcactcca
+gtctctgcctccgtctccacgtggacttctcctctgtgtctgtgtgtcct
+cttctgtctcttacaaggacacctgtcattgcatttagagctcacctaat
+ccaggatgatctcacctcaagatcctcaacttaattacatctgcaTGTGT
+GAGTGGCTTCCCGGAGACACCCCTTTTCTCTCCCATTCCTTTTTCTTTTT
+CCCTACCATGGAGGACGAGGACACGCACGCACGGGAACTCAAGTTTCACC
+CCGTGAGTATTTTAGGCGTGGGGCACTTTCAGCCCAGGTGTATGAAAATG
+GTCTCATTAAGGGGACTGCTCGGATGACACATCCAGTGAGGGTGGCATTG
+CCTGTGTGGCAGTTCAAAGAATCGGAGACAAGCTCTAGAGAGAGCGAGGa
+cacacacaggtgcacgcatcacacacacacacgtgcacacgcgggcacgc
+acacacaGGTGCACACGGCCATCACCCCGGCCGCGTGAGAGTGTTGCTTA
+TATCGAAACCGTCTTCAGCCCAGAAGGTCACTCGTGGCAATAATGGTCTC
+GTTAGACACGCCATCCATCATTCAAATAATCGCAATTTAGAGCCCGCGTT
+TCATGCCGGGCTGGTTTAATCACCAGCAGCAGTTTGTGAAGGGCCTCATT
+CGCCTGGGATTCGGGGATATTGCGTGATTTAGCAGACGTGACCCCTGACC
+TCTGCGGGGGGCGGAGAGCCTGCCTTGGAGGCAAAAGCGGAACAGCGAGG
+GTGACTCACTCAGGGACAATTATTATGCTTAACAGCCTCACTGTCATCTT
+AGAAGGAAAAAGAGCCAAAAAAAAAAAAAAAATCCATAGGATGCTGAGCA
+TTCCTTCCAGATCCTTCAGCATTCCTTCCAGATCCTTCAGCATTCCTTCC
+AGATCCTTCAGCATTCCTTCCAGATCCTTCAGCATTCCTTCCAGATCCTT
+CAGCATTCCTTCCAGATCCCAGTTTAGAAGAAGGCAGTGGGGTCGGTTTA
+AATGCACCCAGCGTGCTCCCGAAGATAATGTTTTTGTTTCTGTAGACGCG
+GTGGCAGCTTTCTGGCGATTTCTAGGCAATGTACAGGAGGAAAGAAAGAA
+GGAAGGGGAGGGCACGGAGAAGCTCCGGAaggctggatgcttggggaagg
+aggtcaggaggcaggaCCGGCCGGCCGCCCTCCAGACGTCCAGATGTCCA
+GACGTCCAGCCAGCCGGACACCGGTCTGCACCTGTCACAGGTGAGCAGCA
+TTTGTTAGCGACGTCTGCACAGGCATCAGTTGGGTAAAGGATGTTCCCGt
+gttgtacctggagcgagttagagaaaacgccacactttgagacgaattaa
+gagtccgtttatttagccggcggccaagagacggctaacgctcaaagttc
+tctcggccccgaagaaggggctagattttttttttatactttggtttaga
+aaggggagggggatctagcgaaaaccattttacagaaataaagtaggcaa
+aaaagttaaaaggataaatggttacagggaagtaaacaggtgcagggcct
+ttaagactattacaaggtgatagacgcagggcttcgggcgttagtaatca
+gacgaattcctgggaattgcggatatagctcgccacagtatcttatcagt
+taattgcattcttggatgtgctgggagtcagcttgcacgagttcagtcct
+tgaggaaggggctgccagtgaaagagccatgatggagtctgtctggttct
+cttagctaagggtgagtccattcaggtggaaacaaggctaggtgattgaa
+ggaaaagggagagtctaaaaacagggttagtaaaaaggaggttgggcatt
+acaGGTGAAACCCCGTCTGCCCGAGCCAGCAAACGCTGCTCACCCGTGAC
+AGGTGCAGACCCGGTCTCCGGCTGGTCCTGCCTCCTGGCCTCCTTCCCGA
+AGCATCCAGCCTTCCGGAGCACAGGCAGACGGGTACAGGATGGTCCCCAG
+GCCCTCATTCACTTGGAAGCAACAGGAGAAAATCCTCTATTGCATTTCTG
+CAGCCGTCCGCATTTCTGCGCACAGAGACGGTTAAATGCTTGTCATTTAA
+CTTGTCATTCTCTCCATAACACAGTGTTCTATTTTTATTTCCATCGGTGC
+AAAGCTCATCACTCTCCGTCCCCTCCTGCCTGGGATGCTTGCAGCCCCCT
+TCCTGAGACGGTGGCGATCCCCCAGTACCAGATTTTTGGTGATCCCAGGG
+GGCCACGGGCTGTGCCTGGCATCTCTCTCATGAAACATCTCTTTTTCTTG
+TGATCATTTAAAATTCATCCTCGCTCCAAAGAAGGTATCTGTGTAGCAGT
+GTTGCCTCCGTGAGCCGTCCTGATTTTTTTTTTCCGGTATTTCAAAGGGA
+GGTTAGGGGATCGGGTTATTTTTGGTGAGAACAGCGGGAAACCAAGCCTT
+GACTTCTCGAGTCCCTGGGGTGCAGGAGAGGGGTCTCTGAGGACCATGCT
+GGGAAAATAACTCATCCCTCCTTTGGTCATCTTTGGAGATGAGCTGAAAC
+CAGGCGGGGCTCTAGTCACTTATTTATCTGCTTCTTAAAttttattttat
+ttatttattttttttgagacagagtcttgctctgtcacccaggctggagt
+gcaatggtgcgatcttggctcactgcaacctccgcctctcgggttcaagc
+gattctcctgcctcagcctcccgagtagctgggactgcaggcacccacca
+ccacgcccggctaattttttgtatttttagtagagacggggtttcaccgt
+gttagccaggatggtctcgatctcctgacctcgtgatccgcccgcctcgg
+cctcctaaagtgctgggatgacaagcgtgagccaccgtgcccggccCAAA
+GATGCCTTTTAATAAACAAGGTAtttgggaggctgaagagggtggatgac
+ctgaggtcaggagttcgagaccagcctggGATGACAGGCGTGAGCCACCG
+CGCCCGGCCTCATGcctcctgtttttaggacatacagggtaacttcctgc
+gtggctatgacatctgtaaatggtcctggtgctggtgggagtgtctttta
+gcagcaaatgaattacagttagtgtaaggtacaattagtgcggtgaggac
+aacctgaggtcactttcgttgccatcttggttttggcgggatttggccgg
+cttcttcactgcgagctgttttatcagcaactctttatgacctctgtctt
+gtgccaacctcctatctcaacctgtaggttagaatgcctTAacctgggga
+ggccgaggcaggtggatcacctgaggttgggagttccagatcagcctgac
+caacatagcgagaccccgtctctactaaaaatacaaaaTTAgccaggcgt
+ggaggtgcatgcctgtaatcccagaactttcggaggccaaggcgggcgga
+tcacctgaggtcgggagtttgagaccagcctgaccaacatggcgaaaccc
+cgtctctactaaaaatacaaaaTTAgccgggcgtggaggctcgcacctgc
+aatcccagaactttgggaggccaaggtgggtggatcacgaggtcaggagt
+tcaagaccagcctggccagcacggtgaaaccccgtctgtaataaaaatac
+aaaaattagccgggcgtgtggtggcgcgtgcctgtaatcccagctactca
+ggaggctgaggcaggagaatcgcttgaacccgggaggcggagcttgcagt
+ggagctgagattgcaccactgcactctagcctgggtgagagagcgagact
+ctgtcttaaaaaaaagaaaaaaaaaaaTCTGaaccttctgagaatgcagc
+ccagaaggtctcagcctcattttacccagcccctgttgaaagtggagttg
+ctttacttccaacacctctgacaCTGCTGTTTGGGAATCTTCCGAATGAT
+TAGAGAGTTATAGAAAGTTAAGGCGCCTTGATCCGGAGAAGCTGGTGCCG
+TCTCTCTCATGGCGTCTGTGGGACAATTGTCCGGGAAGAGGGCGGCTCTG
+GGCACTCCGGGGGGCTGGAGGTGGGAGCTTCGTATCCTGGAGGTGGCTGT
+GTGTTTTGGAGACTCATTGTACCACATAAAACACCCTTAAATATCCTTGC
+CTTCCCCTGCTATTTTGTataataataatataattatattttataattaa
+taaaatattattttataataataaatactattttataataataaaatatt
+gctttataataaataaaatattttaataattaataaaatattatttttaa
+taattaataaaataattgtataaatataacgtataacaaaatattctata
+gtaataaaataattatataataatataattaataaaataatttataataa
+attttataaattttataataaataattttataataaatataacttgtaat
+aaaaattccataataattaataaaataattatgtaataatataattaata
+aaataattttataatataatttgtaataaaaattctataataataaaata
+attatatattatgtgatattactacaataataattatattaatatataat
+tatgtatatatatgttttttgagacggagtttcgctcttgttgcccaggt
+tggagtgcaggggagcgatctcagctcaccacaacctctgcttcccgggt
+tcaagcgattctcctgcctcagcctccggagtagctgggatgacaggcat
+gcgccatcacacccggctaattttgtatttttagtagagacagagtttct
+ccatgttggtcaggctggtctcaaactcctgacctcaggtgatccgcctg
+cctcagcctcccaaagtgctgagattacaggtgttagccactgcgtttgg
+ccaatatataataataatcgcatattattaattaatatattataattaat
+atattatatataatataattacatattttactatgttaatatataatata
+aaacattatatgattaatatgtaattatattaatatattaatatatttat
+tatattttatataacatttacattatattatataacatttatgtattgta
+tttaatatataatgatatataatatttaatacataataatatatatttat
+gtattatattatacattataatatggtatctattttataatatagtagta
+ataatatactccctgggaagtataatactaATGATTATTATTATTAAgag
+acagggtcttgctctattgcccaggctggagtgcagtggcaggatcatag
+ctcactgcagcctcaacctctcaggctcaagcaatcctcccgttttagcc
+tcctgagtcactgggactaccggtgtacaccaccatgcccagctaatttt
+ttaattttttgcctagaaggggagtctcactatgttgcctggcctggttg
+ggaacccctaggctcaagcactcttcccagcttccaaagtgctgtggtga
+cagctgtgagccaccgtgcccggccAGGTTGGACAAGTGCTAACATACTG
+TCCATAACATAAGCTGTATGCCGGATGCATACGGCCGGCCTATAGTTTCT
+GCAAATCCAGAAAAGCTTACTGCAACTGCAgaaagaaaaaaaaaagaaag
+agagaaagagagagagagaaggagggagggagggaggaaggaaggagagg
+gagggagggaaggaaggaaggaaagaaggaaggaaggagagggaggaagg
+aaagaaggaaggagacggaggaaggagagggaggaaggaaggagagggag
+gaaggaaagaaggaaggagacagagggaggaaggagagggaggaaggaag
+gagagggagggaggaaggaaggaaggagacggaggaaggagagggaggga
+ggaaggagagggagggaggaaggaaggaaggagacggaggaaggagaggg
+agggaggaaggagagggagggaggaaggaaggaaggagacggaggaagga
+gagggaggaaggaaggagagggaggaaggaaggagagggaggaaggagac
+agggaggaaggagagggaggaaggaaggagagggagggaggaaggagagg
+gagggaggaaggagagggagggaggaaggagacggaggaaggaaggagag
+ggaggaaggaaggagagggaggaaggaaagaaggaaggagacagggagga
+aggagagggaggaaggaaggagagggagggaggaaggaaggaaggagacg
+gaggaaggagagggaggaaggagagggagggaggaaggagaggaaggaag
+gagatggaggaaggaaggagagggaggaaggaaggagggaagggagggag
+gaaggaaggagagggagggaggaaggaaggagggaagggagggaggaaag
+aaagaaggaaggaagATTCTAATTCAAATCAGTTGCTTAAGAGGGAGAGA
+TCAGGAAGTTCCCAActaaagtgctggggtgacaggtgtgagccaccatg
+cccggccAGGTTCCCCAGCTGTTTGGACAAGTAGTAACAAGTAGCCAACT
+GCAAATGCACaaagaaagaaggaggaaagaaagaaagagagagagagaag
+gaagaaaggaaagagaaagaagaaaagaaaaaaccaattctaattcaaat
+cagttgcttaagagggagagatcaggaagaaagaaagaaggaaagagaaa
+gaaaggaaaagaagagagaaagagagagagaaagaaagaaagaaagaaag
+aaagaaagacagaaagaaaAACAAATCCTAATTCAAATCACTTGCTTAAG
+AGGGAGAAATAAGGCAATTTCCCACCAGGAGGATGCCGTCTAGATCGGAC
+GGTGTTGTTGGTACGGGACCTGACTCTGAAGTCACTAACAAAACTCCCAG
+GCTTTGTGCAAAGGAGAACCTCTAAGCCCCCGGGAACGGCGTTTTCTCGC
+TCGCCACCATGAGTCTGGCTGGCTCGCCTCCTTGTAGAACGAGGTGGCCG
+CAAGTTTGGCGGCCTCTGGAGAAACGGCGGTGCATTTGTTGACGTAAGAA
+GTAATGTAGAGGGTGGGGGAGTGTCTGTTCCATGATAATTTCTGAATAGT
+GCGTTTCTCCGGAGCCATACATCATTGTCAACTCAGAAGATTACACGTAC
+CGTTGCCTTTGTGAACCGGGGACTCGGGGTGGGGGCAAATGTCCCCAAAT
+GCAAATCCGCCTGGTAGATAGAGTGAGATAGATATGAATGTAGACACCAC
+GGGTCTCCTTCCCCGACAACCCACCTTTTTTTGTTTGTTTGTTTTAGGTG
+ATTCAGGGACAAAGCTTTCCTGGAACAACAAGGCTGAAATTACATCATCA
+TTGCAGACGTCCGTCGGCAAGCGGCGTTTTATTTCAAGGCTAGGAGCTGA
+AATGATCGTGTTCAGTCACGCACACCGTCTATGATAAGGTAGGTCTGGGC
+GGGAAGGGAGGTGCAGAATACATGCAATCATTCATCGAGATGAAAATAAA
+GTCAATCGAGCGCTCTCCCCCTGGAGGGAACAGGAAGGCAAACGTTTGTC
+TGGCTGAAAACACAGGCAAAAAAATTTAGACGTTGTCTATAGCTGCAACC
+AGATTTGGAGACAGAGGCCAAGCACCTGAATCGTTGCCCCAACTTTCTAG
+TTTTAACCTGATATTCGGTGTGTCATGTTATTTTGTTTTACTGTCAtttt
+attttatttcattttttttgagatggagtctcgctctgtcaccaggccgg
+agtgcagtggcgcgatctcggctcactgcaacctccgcctcccgggttca
+agcgattctcctgcctcagcctcccaggtagctgggactacaggcgcccg
+ccaccacgcccggctaatgtttgtatttttagtagagacgggatttcacc
+ccgttggccaggctggtctgaaactcctgacctcgtgatccacccacttc
+ggcctcccaaagtgctgggatgacaggcgtgagccaccgcatccggccTC
+TACACACACGTTTATATACACACATACCTGACCATATATATGCATACATC
+TATATTTATCACACATACGTACATAGATGTATGGATTTTGTTACAGACAG
+AAACTTAATTTAACCATCTCTGACACATTGCTTCTTAAATTATAAAGCCA
+CTTTCCCACTTTCCCAATATCCACTGGTGGCACACTGAATCTGAGTTAGT
+TCTAAATGTTTCAATGCGATTGTGTGTATATATGCCTTCCTAGAATGGGA
+TGTATACAGCTGGCCTGTGGTCTCTCCCTCCCTAGAGTGAGATGTATACG
+GTTGGCCTGCAGTCTGTCTTTCTAGTGTGGGATGTATACAGCTGGTCTGT
+TGTCTCCCTCTGTAGAGTGGGATGTATACAGCCGGCCTGCGGTTTCTTTC
+TTCCTAGAGTGGGATGTATACAGCCGGCCTGTGGTCTGTCTCTCTAGTGT
+GGGATGTATACAGTTGGCCTGTGGTGTTTCTCCCTAGAGGGGGATGTATA
+TAGTCAGCCCGTGGTTTCTTTCTTCCTAGTGTGGGATGTATACAGCCGGC
+CTATGGTCTGTCTCTCTAGTGTGGGATGTATACAGCTGGCCTGTGGCCTC
+CCTCTCTAGAGTGGGATGTATACAGTTGGTCTGTGGTCTCTTCCTCCCTA
+GAGTGGAATGTATACAGCCGGCCTGTGGTCTCTCTTTCTAGAGAAGGATG
+TATACAGCCGGCCTGTGGTCTCCCTCCCAGGAGTGGAATGTATACAGTCG
+GCCTGCGGTCTCCCTCCCAGGGGTGGGATGTATACAGCCGGCCTGTGGTC
+TCTCTTTCTAGAGAAGGATGTATACAGCAGCCTGCAGTCTCCCTCCCAGG
+AGTGGAATGTATACAGCCGGCCTGTGCTCTCCCTCCTAGGAGTGATATGT
+ATACAGCCGGCCTGTGGTCTCCCTCCCTAGAGTGATATGTATACAGTTGG
+CCTGTGGTCTCCCTCCCAGGAGTGGGATGTATACAGCCGGCCTGTGGTCT
+CTCTTTCTAGAGAAGGATGTATACAGCCGGCCTGTGGTCTCCCTCCCAGG
+AGTGGGATGTATACAGTCGGCCTGCGGTCTCCCTCCCAGGAGTGGAATGT
+ATACAGCCGGCCTGTGGTCTCTCTTTCTAGAGAAGGATGTATACAGCCGG
+CCTGTGGTCTCCCTCCCAGGAGTGGGATGTATACAGCAGCCTGTGGTCTC
+CCTCCCAGGAGTGGAATGTATACAGCCGGCCTGTGGTCTCTCTTTCTAGA
+GAAGGATGTATACAGCAGCCTGCAGTCTCCCTCCCAGGAGTGGGATGTAT
+ACAGTCAGCCTGTGGTCTCCCTCCCAGGAGTGGGATGTATACAGCCGGCC
+TGTGGTCTCCCTCCCAGGAGTGGAATGTATACAGCCGGCCTGTGGTCTCT
+CTTTCTAGAGAAGGATGTATACAGCAGCCTGCAGTCTCCCTCCCAGGAGT
+GGGATGTATACAGTCGGCCTGTGGTCTCCCTCCCAGGAGTGGGATGTATA
+CAGTCGGCCTGTGGTCTCTCTTTCTAGAGAAGGATGTATACAGCAGCCTG
+CGGTCTCCCTCCCAGGAGTGATATGTATACAGTTGGCCTGTGGTCTCCCT
+CCCAGGAGTGGGATGTATACAGCCGGCCTGTGGTCTCCCTCCCTAGAGTG
+ATATGTATACAGTCGGCCTGTGGTCTCCCTCCCTAGAGTGATATGTATAC
+AGTTGGCCTGTGGTCTCCCTCCCAGGAGTGGGATGTATACAGTCGGCCTG
+TGGCCTTCCTGCCTGGTGTGTATACAGCAGGCCTGTAATGCTCACCTCAA
+CAGGCAGTATTCCTTGGACTCCTGGTCTGCAGACATCCTGGTTCCTCATT
+CCCTGAAATTCTGCGTGGGACGTTTTTCCGCCTGGGCCTGAGTGACACTG
+GCTTTGACGTAGCTTCTAGGTGAAGATCAATGAAGGCCTCGGTGGGGCCC
+AATTTCTTGGTGGAAACTCATCCCGTTTCTGATAAAGGATGGCCCGGGAA
+GACCTAGAATACGGTGACACCGCGTCCCTCTCCCCCGTGGGTCCCCGAAC
+CTGCAGATGACCACATTTTAGGAACCTTGTATCAGGAGCATGTCTTAATG
+TTATTACGTCTTTCTCAAAAACAAGATTTTGGATTCCTACGTGACACGGA
+TCCTTCTAGGTCCGCCGGCAGCTATTTGACCAGGCTGTTATTTAAGAGAA
+TGTAGATGATTCCCTAAACCTTCTAGCTCATAAAACGTGGATTGTTAAGA
+TTGACTCCTTCAGGTAAAATTATTGGATTTCATATACCAACTGCTAAAAG
+GCACTATTCATAGTCTCAAACGGCTTGCGGGAAAAGCTGTTCTAATTTAC
+GTTCCTGCCGGCAGAGCAAGAGGTCGCCCGGGACTTACGCTGTGATGAAC
+ATTGAGGTTCATTTTAAAAAGAAAATGAGGAAttctgcaaatttcatagt
+ttcaaaacggcatccattgttttgacttggcatttaaagacgacttttta
+gtgggggacaattctttttcatgtttacaagccatgtgtgtttctctttt
+gtaaattacttgagatgtttgcttatttttccaGTGTTTACCAGTTCTTA
+GGGCCCTgaacttcagagtcacacagaactgggtttgaatccaaacacaa
+cacgacaatttactagctccgtttctccggagaagttaatttatgccttt
+aattttcactttctccgtctgtagcaaattgcctagagtttttatgacat
+ttaaaccagataatatatgtacattgagtagcacagaattttaatgcaca
+gaaagcattcaataaatagcaATCAttcttgttgatttgtaagagctctt
+tatatattaaggacaCAGGCTCTTTTATCATTGGCATATTTTATCAATAT
+TTTTCAACTTCTTTTATGCTACTTGAAATTGTTTTTTAAACCTAAAGAGT
+TTTAAAATTGAATGTAGTCAAATTGATCAGTCTTGTTCATATAATTTCTT
+CCATTGTTTTTATTCTTGGAAAGTACTTCTGAATGTAGAGATGTAATATT
+CACCTACAttttttttgttttttttgggacagggtcttgctctgtcaccc
+aggctggagtgcagtggcgtgatcttggctcactgcaacctctgcctccc
+gggttcaagccttgcctcagcctcccaagtagctggaattacaggcatgc
+accatcatgcccagctaatttttgtatttttagtaaagatggggtttcac
+catgttggtcaggctggtctcgaactgctgacctcaggtgatttgcctgc
+ctcggcctcccaaagtgctgggattacaggcatgagccaccgcgcccggc
+cCTTCATGTACATTTGAAGCTACATTTCATGACTTAAtttttatttattt
+attttgagatggagtctggctctgttgtccaggctgaagtgcagtggtac
+aatctcggctcactgcaacctctgcctccctggttcacgccattctcctg
+cctcagtctcctgagtagctgggactacaggcgcccaccaccacgtccag
+ataattttttgtattatttagtagagacggggtttcaccgcattagccag
+gatggtctcaatctcctgacctcgtgatccacctgtctcagcttcccaaa
+gcgctgggattacaggcatgagccactgtgtgctgggattacaggcatga
+gccactgtgtctggccATGTACTTTTAAAACACAGTAATTggccaggcat
+ggtggctcatgcctgtaatcccagcactttgggaggccaaggcaggagga
+ttgccagaggccaggcattcaagaccagcctgggcaacttagggagaccc
+tatctttacaaaaaataaaaataaaaaaagtagccaggtgtggtgtccct
+tgtctgtggtctcagctactcagggaggcagaggttgcagtgagctgtgg
+tctcagcttgtctgtggtctcagctactcagggaggctgaagtgggagga
+ttgcttgagcccaggagttggaggctgcaatgagccaagattgcaccacc
+gccctccagcctgggcagcagacagagaccctgtaagaaacacaaagaga
+aagaGaagaaagagacaggatggaaggaaggaaggaaggaaggaaggaag
+gaaggaaggaaggaaggaaaaagaagaaagaaagaaagaaagaagaaaag
+gaaggaaggaaaaagaaagagacagaggggaagaaaggaatgaaagaaga
+aaaaagaaagtaagagaaagaaaagaaagaaagaggaagaaaggaaggaa
+ggaaaaaagaaagaaagagacaggaagaaaggaaggaaagaaggaaaaaa
+gaaagacaagaaaaagaaacgaagggaaaggaagaaaggaaggaaggaag
+aaagaaaagaaagacaaagacagaaaggaagaaaggaaggaaggaaggaa
+aaagaaatgaaagaaaagaaagagaaaagagagacaaaaaggctgtaaga
+aaggaaAAGCAATGATGCCTCATACTGGATTAAGTTACCCATGAAATCTA
+AGCTTGGTTCCTTAAGCCTCGCCTCTTTGAAGAGGAATCCAATTCTGAAA
+TGAATGACACTTTTGGGGGGCCTCATGCCGTGGGGAGCTTAGATTGTCTT
+TGAAACTGGCCTCTGAGTTGAAATTCCAGGTCCTACCCTTTCCTGCTCAG
+TCCTCAGACAATTTATAAAACTTGCCTAAACTCACATTTTTATCTGGTAA
+TTTGTGACTTGCAGAATGAACGCAAGAAAACAGAGACGACATTGTAAAGT
+AGCTGGCCATCGTATTTTTCTTGGAAGAGACAGTATCCTTAAATTAATGC
+TAATATTTTAAACACTGGCCCACTGATCATGAACACCCAATTCCTGGGTT
+CCTTGAAATATTTTTGGAAGGGGCGGCCAACCCGTGCCTTCATTCTTGCC
+CAACACCAGTGGGCTGGATGGGATgttcgccgcagtctccactgctcccc
+gatgtctctctcacatcaggcctgccttactgacctgacctgcctcctcc
+tgcaagcatttgagtctgGAATTTTTTTGATGTGCAGAAACAATGCCTGT
+AAAACACCCAGTACAGGGGTGCTGAAGACATGTTCGTTCAACATGAGCTG
+AAGCATTCTTAGAGGCAGGTGCTGGTACACCCACATGCACTGGAGACTCT
+GAGATGAGCATTGCAGACTCTGAGATGTGCACTGGAGATTCTGAATGGGC
+ATTGGAGACTCTGAGATGGACACTGGAGGCTCTGAGCTGTGCTTTGGAGA
+TTCTGAGATGCGCATTGGAGACTCTGAGGTGTGCATTGGAGACTCTGAGA
+TGGACACTGGAGGCTCTGAGCTGTGCTTTGGAGATTCTGAGATGTGCATT
+GGAGACTCTGAGCTGTGCTTTGGAGATTCTGAGATGTGCATTGGAGACTC
+TGAGATGGGCACTGGAGACTAAGATGTGCATTGGAGACTCTGAGGTGTGC
+TTTGGAGACTCTGAGATGTGCTTTGGAGACTCTGAGATGTGCTTTGGAGA
+CTCTGAGGTGTCCATTGGAGACTCTCAGATGTGCATTGGAGACTCTGAGA
+TGGGCATTGGAGATTCTGAGCTGTGCTTTGGAGACTCTGAGATGGGCACT
+GGAGATTCTGAGATGTGCATTGGAGACTCTGAGATGGGCACTGGAGACTA
+AGATGTGCATTGGAGACTCTGAGGTGTGCTTTGGAGACTCTGAGATGTGC
+TTTGGAGACTCTGAGGTGTCCATTGGAGACTCTCAGATGTGCATTGGAGA
+CTCTGAGATGGGCATTGGAGATTCTGAGCTGTGCTTTGGAGACTCTGAGA
+TGGGCACTGGAGACTCTGAGATGTGCATTGGAGACTCTGAGATGGGCACT
+GGAGACTCTGACGTGTGCTTTGGAGACTCTGAGATGGGCATTGGAGACCC
+TGAGGTGTGCATTGGAGACTCTGACGTGGGCATTGGAGACTGAGATGGGC
+ATTGGAGACTCTGAGATGTGCTTTGGAGATTCCGATATGTGCATTGGAGA
+CCCTGAGGTGTGCACTGCAGACACTGAGGTGTGCATTGGACACTCTGACG
+TGGGCACTGGAGACTGAGATGGGTACGGGAGACTCTGAGGTGTGCATTGC
+AGACTCTGAGGTGTGCTTTAGAGACTGTGAGATGGGCACTGCAGAGGCTG
+AGGTGTGCTTTGGACACTCTGGTGTTCCAGTATGATGTGATTGCTTTTCA
+GAGCGGCAGACAGGATGTCCAGCTGGAGCCGGCCAGCAGCAGGACGCTGA
+CTGCGTGAGTGATGCAGCCGCGATTGGTGTTGACGGCCGGCGCGGAACAC
+TCCATCTACATGCAGGTGCTAAGTGAGCCCTGGGGAGAAGGTGACCTGAA
+TACTTGCCAACTGTTCTTTAGAAATTTCTTTAAATGGAAAATATGATTTA
+GGCAATGTTAAAAAAAAAAAACAAAACCAGACAGAGTCCCAGGATATTAG
+CACATGGCTCAGAAGACCGGACGCAGAAGGAGGAAAAGTCATGCTCTTTG
+CCAAGCCCAGTGCTAACTAGACCTTAAACCTGGGCGAATGCACCCATAAC
+GTGGGTGTCTCCACGCCTTCCGTGCAAACTGTGTGTATTTGACAGATGAA
+TGGTTTGTCTCTGGGATGATACTTTTCTGACAGTGCAGCCTGCAGATAAC
+ATCTAACGAGGGGAGAAGGATTATGTGAGCAGTGGTGGCTGAGGtctctc
+tctctctctctctctttttttttttttttttgagatggagtttcactctt
+gttgtccaagctggagttcactggcgtgatctcggctcacagcaacctct
+gcctcccgggttcaagcgattctcttgcctcagcctcccaagtagctggg
+attacaagcatgtgccaccatgcccaactaattttgtattttgtattttt
+ctttctttctttcttttttttttgagatggagtctcgctctgtcgcccag
+gctggagtgcagtggcgcgatctcggctaactgcaacctctgcctcccgg
+gttcacaccattctcctgcctcagcctcccgagtcgctgggactacaggt
+acccgccactgcacccggctaattttttgtatttttagaagagacggggt
+ttcaccgtgttagccaggatggtctcgatctcctgacctcgtgatccgcc
+cgcctcggcctctcagagtgctgggactacaggcgtgagccaccgtgccc
+gacttttttttttttttttttttttttttagtaaagacagggtttctcca
+tattggccaggctggtcttgaactcttgacctcaggtgatgcacctgcct
+tggcctcccaaagtgctgggattacaagcgtgagtcactgcgcccggccC
+GAGGTGTCTTATGAGTGGGCAGTGGACTGTGGCTCAGCTCTGGCCCACCT
+GAAGGTGAAGAGAGGTGGCTTTCTGGCCCTGGGATTAGTCCTGCCTTGTA
+CAAATCTCCACCTCCGAAGGAAGGAAGAACAAGGGATTTATAGAGATGCC
+TTTGGGAGCTTCAGAAGAAAGAGGGTGTAATCTTGCTGGTTGATATAATT
+TTGGATGAAGGCACTGTCCTCCAAGCTCACAAACACACAGGACCAGAGAG
+AAGGACGGAGGAGATGGGGTTTCAGCGAGGGAGGTGGGAGAACAGGCCTG
+GCCTGTTGGGGGTAGAACGTAGAAGAAAAGGGCAATCTGAGAGATGAACA
+GGGGACGGTATTAAGTGCGTGCCCCCACACACATGCGCACATGTCCGGAA
+GGCAAGCACACACCCACCGTCATGAGCCCTCACGTGCAGGTGCATGCACG
+CATTCTTGCAAACCCCACACATGCACACAAGCCCATATGCATATATGTGT
+ACAGAAGGCAAGCACACATTCACAGTCATGAGCCCTCACGTGCAGGTGCA
+TGCACGCATTCTTGCAAGCCCCACACATGCACACAAGTGCATATGCATAT
+ACATGTACAGAAGGCAAGCACACACAGCCATGAGCCCTCACGTGCAGGTG
+CATGCATGCATTCTTGCAAACCCCACACATGCACACAAGCCCATATGCAT
+ATATGTGTACAGAAGTCAAGCACACACTGATAGTCATGAGCGCTCACATA
+CAACTGCATGCATGCATTCATTCAAGCTCCCACATGCACAGATGCACACA
+GGTATCTCTGCACAGAGGTGTACAGAAGGCAAGCACACATTCAGTCATGA
+GCCCTCACGTGCAGGTGCATGCACGCATTCTTGCAAACCCCACACATGCA
+CACAAGCCCATATGCATATATGTGTACAGAAGGCAAGCACACACCCACAG
+CCATGAGCCCTCACGTGCAGGTGCATGCATGCATTCATTCAAGCCTCCAC
+ATGCACACAAGCCCATATGCATATATGTGTACAGAAGGCAAGCACACATT
+CACAGTCATGAGCCCTCACGTGCAGGTGCATGCACGCATTCTTGCAAGCC
+CCACACATGCACACAAGCCCATATGCATATATGTGTACAGAAGGCAAGCA
+CACACTGATAGTCATGAGCGCTCACATACAACTGCATGCATGCATTCATT
+CAAGCCCCCACATGCACAGATGCACACAGGTATCTCTGCACAGAGGTGTA
+CAGAAGGCAAGCACACATTCACAGTCATGAGCCCTCACGTGCAGGTGCAT
+GCACGCATTCTTGCAAACCCCACACATGCACACAAGCTCATATGCATATA
+CGTGTACAGAAGGCAAGCACACACCCACAGCCATGAGCCCTCACGTGCAG
+GTGCATGCATGCATTCTTGCAAACCTCACACATGCACCCAAGCCCATATG
+CATATATGTGTACAGAAGGCAAGCACACATTCACAGTCATGAGCCCTCAT
+GTGCAGGTGCATGCACGCATTCTTGCAAGCCTCACACATGCACACAAGCA
+CATATGCATATACGTGTACAGAAGGCAAGCACACATTCACAGTCATGAGC
+CCTCACATGCAGGCGCATGCACGCATTCTTGCAAGCCCCACACATGCACA
+CAAGCACATATGCATATACATGTACAGAAGGCAAGCACACACAGCCATGA
+GCCCTCACGTGCAGGTGCATGCATGCATTCTTGCAAACCCCACACATGCA
+CACAAGCCCATATGCATATATTTGTACAGAAGTCAAGCACACACTGATAG
+TCATGAGCGCTCACATACAACTGCATGCATGCATTCATTCAAGCTCCCAC
+ATGCACAGATGCACACAAGTATCTCTGCACAGAGGTGTACAGAAGGCAAG
+CACACATTCAGTCATGAGCCCTCACGTGCAGGTGCATGCACGCATTCTTG
+CAAACCCCACACATGCACACAAGCCCATATGCATATATGTGTACAGAAGG
+CAAGCACACATTCACAGTCATGAGCCCTCACGTGCAGGTGCATGCACGCA
+TTCTTGCAAGCCTCACACATGCACACAAGCCCATATGCATATACGTGTAC
+AGAAGGCAAGCACACACAGCCATGAGCCCTcacatgcaaatgcacatgca
+catacacgcacaatgcaaagcacaCACTCCTAGTTTtgtgcattcactgt
+gtatgtgtgtctgcatgtgctcatgcgccctgatccatgtgtgactgtgt
+atgtgtgtgtctgtgtgttgtgcgcactgatctgtgttactgtttatgtg
+tgtgagtctgCAGACACACACATACACAGTCGCACAGGGATCAGTGCGCA
+TGAGTACACAGACACACACATACACAGTCACACACATGTGCACACACCCA
+CAGGTAGAAACGTGCACCCACACACATCTATTTTCATGGCAACAGTCACA
+CACAGATCAGTGCATGTGAGTATAGATACAGACTCACACACATACACAGA
+CACACACGGATCAGTGCGCATGAGCACACACAGACTCACACACATTAACA
+GTCGCACAcagatcacctgaggccaggagttggagaccagtctggccaac
+acggcaaaacctgcctctacaaaaaatacaaaagttagccaggtgcgttg
+gcgtgcacctgtcatcccagctactcaggaggctgaaacaggagaaacgc
+ttgaacccaggaggtggaggttgcagtgagctgagatcacaccactgcac
+tcaagcctgggcgacaaagcgagactccgtctcaaagaaaaaaaaaaaga
+aagaaaaagaaaaAAGGGACGCGCTGGGCAAGGGGAAGTTGTTAGAAGCC
+CTGAGTCCCACACATGAGGGTCCTGACAACTTTTCTTCGTGATTCCGTAT
+TTTAAAAGTAAATCTCCTTTCTGGGAACTTTTAATACCATTTTGGTTACG
+CGTCTAATCCACCTGCTCCTTAACCAGAAATGGTAATCACGTGGAAATCA
+CTGCCAAACTATGATGTCCAATTAAAATTCAGGTTATTTTGTGGGAGGCA
+AACGCACCCCCCAGCCTCTCTCTTTTTAAACCGTCATCTTACAAATCCTC
+TGATAGAAAGTTCGGGCTGTTTTGAGGGAGAGCTTGTCATCAAGAGCCAT
+CTGGCTTCCTCAGTCATGACAGATTAAAATAGGATACAGTATGAAAGCTT
+TGCCACCCCTCCAGGGGCGAAAGAAGTCACTGGGGGAAAGAGGTAATTAA
+AAGATCCCCTTGCAGAGACGGGCTCTGAGAGGGACCCTGGCACTCACCAA
+CGGCAAAAAACTCATTTTCCAGAAGAGAGCAGGCCCCGGCCGGCCGGACA
+TCGATGGCCTCGGAGCCACTCTGTCTCCTTTGGGGACGAAGGTGGGCTGG
+CTCTCGTAACCCCTTAGCTTTGTCTGGCCAGCACCCTTGGCTTTGTCTGG
+CCAGCACCCTTCTCTCCGTCTGGCCAGCACCCTTCTCTCCTCCTGTCCAT
+GGCCATCAAGCGGCCAGGACTTGATAGCCGTGGAAATTGCACCTGATGAA
+ATGGACGTAATGAGTGTCATGAAGAAACAGGATTGTTTCTCCCCAAAACA
+GGAGGTCGCAAGGATGTCTCGATTTTCAAAGCCTGCAAGGAAAAAAGGTG
+ACATTCCCCGTCGTGGGACATCCCCTCGCAAGGAGCCGACTCATGATTCC
+CACCTAGATAGTAAATACCActcacgcctgtcatcccagagctttgggag
+gcggaggcgggcggatcatgaggtcaggagatcgagaccatcctggctaa
+tacggtgaaaccccgtctctactaaaaatacaaaaattagctgggtgtgg
+tggtgggtgcctgtaatcccagctactcgggaggccgaggcaggagaatc
+gcttgaacctgggaggtggacaatgcagtgagccgagatctcaccactgc
+actccagcctgggtgacagggcgagactccatctcaaacaaacaaaCCAC
+TCTGGGGTCTGCGTGTGCTGCCTGCGTAGGAAACACTTCCCCATTGTGAA
+TGGGCACCTGTCACACCGTCCCGGTTACCGCTCCGTAACTGACACGAACG
+ATGCCGGAGAGCTGGGAGCTGGGAGCTGGGTGCCCAGCCTTGGAGGCGTG
+CTCCAAACCACACCTCCCTTTTGAGCTTGGCTGGTATGTAAACGATTGGA
+AGGATAGTTAATCAAGCAATTCCTCCATCTCACCTAAGTGAACCCAGAGA
+TATTTATTTTCTCTCTCTATAAAGGTGTTCACTCCCCAACTGtttttttt
+tcttaaaatgcagatgggatcttgctacgtggcacaggctggtctcaaac
+tcctgggcttaagagatcatctcaccttggcctcccaagtagctggaact
+gcaggggcacgccaccacacctggcTAatatgtatatattttatatatta
+catacatattatatatgacacatattatatatactacagatatatatgtt
+atattacatacataatataccatatacattatattgcatatataatatac
+attatactacacataatatgtaatatattacatatataaaatataaaata
+tataatgtacacatacataacttacatatcacatatataacacatatata
+atatgcaatataatatacatgtaatatctaatatatgtaatatatgcaat
+atttatatacatgtaatatatgcaatatatattttcatattatattttta
+tatataaacctatatttataatatatataaacctatatttatatataata
+tataaacctatatttatattaatatataaacatatttatatatattttta
+tattatatataaacctacaaatatatatttatatatatatatattttttt
+cagatggagactccctctgtcacccaggctggagtgcaatggcgtggtct
+tggttcactgcaacctccacctcccaggttagagattttATATATAAAAA
+ATATATAGCTGGAACTGcaggttcgagtgattctcttgcctcagcctccc
+cagtagctgggattacaggcgcccgccaccacgcccaactcatttttgta
+tttttagtagagatggggtttcaccatgttggccaggctggtctcgaact
+cctgacctcaggggatccacccgcctcagcctcccaaagtgctgggatta
+caggcgtgagccaccgtgcccagccCAAAGTGATTTTTTTTTTAACTGTC
+TCTGCCAGCAGACAACCGTTTTAGAGAAATTCGGtgtttttttgtttttt
+tgttttttttgatggagtttcgctcttgttgcccaggctggagtgcagtg
+gtgagatctcggttcactgcaacctccgcctcccgggttcaggcgattct
+cctgcctcagcctcccgagtagctggaattacaggcgcccgccaccacgc
+ctggctcatttttgtatttttagtagagacggggtttcaccatgttggcc
+aggatggtctggagctcctggcctcaggggatccacccgcctcggcctcc
+caaagtgctgggatgacaggcatgagccaccatgcgcagccCAAAGTGAC
+TTTTTTTAACCGTCTCTGCCAGCAGACAACCGTTTTAGAGAAATTCAGTT
+TTTTTAAATTTTTTTTGAGCGCGTTACATTCCTGAGCTGCTGTCTGGGGC
+TGTCAAAGCCACGTTGCTCACCTGACCAGGTAAGTCTTGGCTTGGACTGT
+TTCCCAGGACAAATAACAGGTGTTTTCTCCCATTCCCTGCCCTGAGACAT
+GGGAGTGTCTTTGCTGGAATTATAGCAACTGTGAGCCTCTTCCTGGCCGT
+CCTGTCGCCTTGGAGTCTTAAGGGAAGGCGCACACGTTATCACAAAGCAT
+ATGCATTTGCCCCTGGGCCCCAGAGGTGCTGGATTATGGGGGTACAGGGA
+AAAGTCTGTCCACACCCCAGTCTTCTGGGATCCATAGGCCAGGGAGAAAT
+CCTCCTTCTGTCTCCGAGAGTCTGACAGAGACAGCATGTCATTATCTTAA
+CAGCTGTAAATCCCAATTATTTCTGAGGCAGAAAATGCACTCTAAAATAT
+GCATGCTTATTTaaaaaaagagaaagaaaaaaaaaaCCCTCAAAGATTGC
+AGTCGTGTTGCTATAATTTAGAGCCCTAAACCTCAGAACCTCCGGATGAG
+TCTTCGGCTTGATATTGTGAGACCGGCTCTTTCAATCTTGGAGGGATATC
+TCAGCAAATGCTCCTCTTCCCGTTCTCTGCAAGTGGGGGGAAACCGCCGC
+TGACCCACGGGGTGACACGCAGCTGAATCATTCCAAAGGGAACCGGGGGC
+CGGATTGATCTGCGTTGGTCGCTAACGAAGGCTCGTAGGCAAAGCTCAGC
+GAAGTGGGCTCGGCGGACACAGGGTGGGCTCGGGGCCCCGGGGCCGGGCC
+TGCTGGTGGAGGCTGGGGATGTCTTTTTGATTTTGTCGTTAGGAAGCCGT
+ACCGTAGTCTCTCCGAGGCGTTGGGTGAAATTCACAGATTTCATCTTCCG
+TGAACTGTGGCTCACTTTTTGATATATATATATATATTTTTTCCCCCGAT
+TGCTTGATGTCACCCTGTGCTTTTTCCATAAGACAAATGCAAATGAGCCA
+GGCATTCTAACGAGGCGAGCCCTCGGAGGTGACCTCTTTCTGGGGAAGCT
+CCGGTCTGCAAAACCACGATGAGAGAGGAAAACGTTTTTTTTTTTTTTTG
+CAGAGAAAACTCAGGCCTGCTGTTTAATCAGGGCCTTTGCTGCGGCCGCT
+GCTCCTGCAGACACAGAGGCGTTAATGAGGCAAGACTAGTCCCCATGTCC
+CCACGTTGGAGGCCTGGGATGAGGATCCCTTCTCTGTCCCCCATGTCTGC
+ATCCCAGGACGCAGGTGGATCCGAGTCTGCTGCATAGACGGCCATTAGGT
+CCCAGGATGGAGCTGGATTCGAGCCTGCTGTGTAGACGGCCATTAGGTCC
+CAGTCCCAGGATGGAGCCGGATTCAAGCCTGCTATGTAGATGGCTATTAG
+GTCCCAGGATGCAGGTGGATCTGAGTCTGCTGCATAGAAGGCCATTAGGT
+CCCAGGATGGAGCTGGATTCGAGCCTGCTGTGTAGACAGCCATTAGGTCC
+CGGGATGCAGCTACATCTGAGCCTGCTGCATAGATGGCCATTAGGTCCTG
+GGATGGAGCTGCATTGGACCCTGCTGTGTAGACAGCCATTAGGTCCCAGG
+ATGCAGCTACATCTGAGCCTGCTGCATAGATGGCCATTAGGTCCTGGGAC
+GGAGCTGCATTGGACCCTGCTGTGTAGAGAGCCATTAGGTCCTGGGATGT
+AGCTGCATCCGAGTCTGCTGTGTAGACGGCCATTAGGTCCCAGTCCCAGG
+ATGGAGCTGGAGTTGAGCCTGCTATGTAGATGGCTATTAGGTCCCAGGAC
+GCAGGTGGATCCGAGTCTGCTGCATAGATGGCCATTAGGTCCCAGGATGG
+AGCTGGATTCGAGCCTGCTGTGTAGACGGCCATTAGGTCCCAGTCCCAGG
+ATGGAGCTGGAGTGGAGCCTGCTATGTAGATGGCTATTAGGTCCCAGGAC
+GCAGGTGGATCCGAGTCTGCTGCATAGATGGCCATTAGGTCCCAGGATGG
+AGCTGGATTCGAGCCTGCTATGTAGATGGCTATTAGGTCTCGGGATGCAG
+CTACATCTGAGCCTGCTGCATAGACGGCCATTAGGTCCTGGGACAGAGCT
+GCATTGGACCCTGCTGTGTAGACAGCCATTAGGTCCCAGGATGTAGCTGC
+ATCCGAGTCTGCTGCATAGATGGCCATTAGGTCCCAGTCCCAGGATGGAG
+CTGGATTCGAGCCTGCTGTGTAGACGGCCATTAGGTCCCAGTCCCAGGAT
+GGAGCTGGAGTCGAGCCTGCTGTGTAGACGGCCATTAGGTCCCAGTCCCA
+GGATGGAGCTGGATTCGAGCCTGCTATGTAGATGGCTATTAGGTCCCGGG
+ATGCAGCTACATCTGAGCCTGCTGCATAGACGGCCATTAAGTCCTGGGAC
+GGAGCTGCATTGGACCCTGCTGTGTAGACAGCTATTAGGTCCCGGGATGC
+AGCTACATCTGAGCCTGCTGCATGGACGGCCATTAGGTCCTGGGATGGAG
+CTGCATTGGACCCTGCTGTGTAGACAGCCATTAGGTCCCGGGATGCAGCT
+GCATCTGAGTCTGCTGCATAGATGGCCATTAGATCCTGGGACGGAGCTGC
+ATTGGACCCTGCTGTGTAGACAGCCATTAGGTCCCAGGATGTGGCTGCAT
+CTGAGCCTGCTGTGTAGACGGCCAAAATAAATAACAAAACTGTGTTGGCA
+GGCGGTGACCGACAGACGAACCACTGGGCTCTCATCCCGGCCGGCCCTTT
+GAGTTGTTTAAGTTCCTCTTGTACTTGAATTGTTTCCCCAGAACGAGGTG
+GATCAAAGTGTCATACAGTAACAGCCCAGACAGACGATAGGTATGGCAGa
+aaagaaaaaaactaaaaaaaaaaaaaaaaaaaaaaaTCGCATGGGAAGTT
+TCCCCGCCTCCTCTTTGGCCATTCTGTGCCCGGAGATCAAAGTTCTCATT
+TCAGCTCTAATTAAGAAAAACTAACACAGAGCCAAGGCCTTCTGGCTCCG
+AAGAGGGCCTTTGGTGGATCACTGCTGAAATCTTCCCGAGATTTAAATAA
+TTAATATGACACCTTGAGCTCTGCACGGAGAAATTaaaaaaaaaaaaaac
+aaaaaaGGGAAAGGGAAAGGGGAGGAAGGGGGCCCCGTGTCGGAGCGGGG
+AACAATGGGATTGAGGATATGGCAGAGCATTTGTACCCCTGGATGCGTGC
+>chrX
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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+ctatcagcaggatgtgggtgggagcagattagagaataaaagcagactgc
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+AGAAGAGCACCTGGTTGATAACCCAGTTCCCATCTGGGATTTAGGGGACC
+TGGACAGCCCGGAAAATGAGCTCCTCATCTCTAACCCAGTTCCCCTGTGG
+GGATTTAGGGGACCAGGGACAGCCCGTTGCATGAGCCCCTGGACTCTAAC
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+TCCTGGTCTGTAACACAGTTCCCCTGTGGGGATTTAGGGACTTGGGCCTT
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+TCCCTACACAGGGGGGACTTCAAAGAGTGCCTTGAGCTGATCTGGTGATT
+GCTTTTTTGTACTGTTATTTATCTTATTCTTTTCATTGTGAGGTACTGAT
+GCAAACACTTTGTACGAAAAGGTCTTTCTCATCTCGGGAGTCCCCGTCTA
+TTTGTCCCGGTCCCTGTTAACCCAGTCCCCGACAGGAGCCCCTTCTGCAC
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+CTCTAGTTTCAGGTTGGAGCTGAGCCCTGTCGGGAATGAGCTTTCCCCAG
+CTATGGCTTCTTGGGGCCCCTGTGCCCTGAGCTGTGTCTCCCAGCATCGG
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+TGCGTGAGGGGGGCCTGGGCCCAGGGCTGGGAGTCCTTTGTGTCTCATGG
+CCATGATTGTCCTTCCGAGTATGATATGGTGGCCAATTTCTTTTATTCTG
+TCGTTCAGAGTGAGTAAATGATGTAGAGTTCATGCAGAAAAAAATACAAC
+AAAAACCAAGGGAACATAGAATTGGAAAACGCGTCACAGCAATGAGTTAA
+ATAGGTAACAAATTTCATCATTTGAAGAAAGACTTAGAGTGCCAAAAGTG
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+CCATTCTGCCCCACCTGTCAGGATCACAAGGACCCCCAGATCAGCAGATG
+GGAACCGGACCAAAAAGAGAAATAGTGCTGTCCCGCCCATAAGTACCACC
+CCCAGACTCCCTGCTCCACCCTCTGGACCACAGGGAGGCCCCATGCTCCA
+TCCCTGAAAACCACCCCCAGACCCCCTGCTCCTCCCCACGGGACCGCCCC
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+GGCGCCATCCCCAGACCCCAGCTCCTCCCCTCAGGATCATCCCCAGACCC
+CCGCTCCTCCCATCAGGACCGCCCCCAGAACCCCCTGCTCCTCCCCACAG
+GACCACCCCCAGACCCCCGCTCCTCCCCTAAGGACCACCCACAGACCCCC
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+ACCCCCAGATCCACTGTTCCTGTCCTCCGGACCACACCAGACAGCTCCTT
+CCCTCGGCGCCATCCCCAGACCCCCACGCTTCCCCTCGGGACCACCCCCA
+GACCCCCGCTCCTGCCCTCGGGACCACGCCCAGACCCCCTGCTCCTCCCC
+ACGAAACCACGCCCAGTAACCCCCCTCTTCTCCCCTCAGGACCACCCCCA
+GACCCCCGCTCCTCCCCTGGGAACCACCCCCAGACCCCCTGCTCCTCCCC
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+CTCCTTCCCTCAGCGCCACCCCCAGACTGCCGCTCCTCCTGTCGGGACCC
+CCTGAGGCTTTCTCCACCCGGAGTGCGGGGTAGGGAGCAgacggagagtg
+acggagggtgacggagagtgacgAAAGTAGACGATGTCTGACGGAGAAGA
+GCCGAGCGGAGCTGAAGGGCGGCGGAGAGTGACGGAAAGTGGCGAGAATT
+GACGGAAAGTGACGGGGACTGACGGACAGTGACGAAGAGTCACGAAATTT
+ATCAGAGGGCGACAAAGAGGAAAGCGAAATGGTGAGATGCAGCCGGCCGA
+GCCTAATCGGAGATGACGGAAAGTGACGGAGAGGAACGAGGAGTAAAGAG
+GGGTGACGAAAAGAGCCGAAGCTGGTGGAGGCGAAGAACTGAGTGAGGGA
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+GGCGGGACCCCACGGAGTTAGCGAGAGGATGCGAACAGCGGCCAGCCGGG
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+AGGCAGGCATGCGTGGCACCGAGGTGACCCGGGTGGGAGGTGCACCGCCG
+CCCCCTGGCAGTCTCTCCGCGGAGCCCAAGCCCGTCTTCTCCGCCCCTTT
+GCAGACCTCGGCGCCCAGCCTGGCCCCTGACGCCCACCCGCGGCCCCACC
+CAGCGCCCGGGCCCACGAGGCCGAGGAGCGGCGGAGACTAACGGCCCCTG
+GACCCCAGGCAGCACATGGCCCAGAGCATCCCAGCCCAGTGGAGGGCGGC
+ACATGGCGGGAGGGCGGGAGTCCGTGTCCACTCATGGCCGGGGAGGGGAG
+GGCAAGTTCTGGTGGCTGGGGAGGCCTAGAGCATCACAGCCCAGTGGAGG
+GCTGCACATGGCAGGGGAGGGGAGAGCAAGAGTGTGCGGGCGAGGGAGGA
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+ATCTCACCTGAGACCAACCCCCAACCGCAAAACCCAGACCTGGAATTTTC
+CCAGGACCAAACCCATCTATATTCTGtaacccgaaatctcaaagcctaac
+cctaaccctaacccCGACAGTTCAGGTCCCCCCGTCCCCGTAGCTCCAGC
+TCAAGACAACCTGCCCCTCCGTGGGTTTGCAGGCCCTTTGGTGGGGGTGG
+GAGCTGGGGGCCACACACAGCTCTCTGAGCTTAAGCCATttccttccttc
+cttcattccttccttcctccctccctccctccttccctccctcccttttt
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+tTGGAAGTAGTTCTTGAAATTCAAGAGGATCTGGAAGTTCTGGTCTCCTG
+TCAATATCCCTTTCTAAGATGAAATGTAGAATCCTCTAATCACCCCAGGA
+TACCTTTTCCAGCTATATTACCCTTTCCTTTCAGCCGACTAGAGTGGAAG
+CTCAGCAAAGAACGGATCTATGCCTGCACACAGGCAGCTTTGAACTCACT
+GAGATCTATAGAAGAATTTTTTAAAATTTGCCAGAATGAAAAAGAAGTAT
+CCTCCAGTGAGCCTCAAGGACAGCCAGGGAAGGCAGCTACTGGGACCTGC
+CACTGGCCAGGATTGAGAGAGTCTGAGGTGTCCATTCTCCTATGGATGGG
+TCACACATCAGAACTGAACCACAAACCCTTTCCTGCTCCCTTGGGACCAG
+GCTGCCACTCCTTCCTTCCCCTCACCTTGACCCTCCCATTCGGCCCCACC
+TGTCAGGATCACAAGGACCCCCAGATCAGCAGATGGGAACCGGACCAAAA
+AGAGAAATAGCGCTGTCCCGCCCAAAAGTACCAACCCCAGACCCCCTGCT
+CCACCCTCCGAACCACAGGGAGACCCCATGCTCCACCCCTGAAAACCACA
+TGCAGACCCCCGCTCCTCCTCTTAGGGCCATCCCCAGACCCCCCCTCCTA
+CCCACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGGACCACCCC
+AGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCGCTCCTCCCC
+TCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCC
+CCTGCTCCTCCTCTTAGGACCATCCCCAGACCCCCCCTCCTACCCACGGG
+ACCACACCCAGAACCCCCAGCTCCTCCCCTCGGGACCACCCCAGACCCCC
+GCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCA
+CCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGCTCC
+TCCTCTTAGGACCATCCCCAGACCCCCCCTCCTACCCACGGGACCACACC
+CAGAACCCCCAGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGCTCCT
+CCTCTTAGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAG
+ACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCG
+GGACCACCCCCGACCCCCTGCTCCTCCTCTTAGGACCATCCCCAGACCCC
+CCCTCCTACCCACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGG
+ACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCT
+CCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCC
+CCAGACCCCCTGCTCCTCCTCTTAGGACCATCCCCAGACCCCCCCTCCTA
+CCCACGGGACCACACCCAGAACCCCCAGCTCCTCCCCTCGGGACCACCCC
+AGACCCCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCT
+CGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGAACC
+CCCGCTCCTCCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGA
+CCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGC
+TCCTCCTCTTAGGACCATCCCCAGACCCCCCCTCCTACCCACGGGACCAC
+CCCCAGACCCCCCGCTCCTCCCCTCGGGACCACCTCAGACCCCCGCTCCT
+CCCCTCGGGACCACCCCAGACCCCCGCTCCTCCCCTCGGGACCACCCCAG
+ACCCCCTGCTCCCATTTTCCAGACCACACCAGACGGCTTCTTCCCTCGGC
+ACCACCCCCAGACTGCCGCTCCTCCTATCGGGACCTCCTCGGGGCCATCT
+CCAGACCCTCCCCCCGCTCCACCCCTCGGGTCCCTCTCGGGACCACCCTC
+AGACCCCCGCTCCTTCCCTCGGGATCACCTCGAGACCTCCCGCTCACCAC
+CATCATTCAGGCCGGGTAGTGGGGAGAGGCCTCTCAGGAGGGACCAGGCC
+ACCCTCCCAGGAGTGAAGGGAGGAGGACAGAGTCACGAGCAGACCAGAAA
+TAACCAGGGACTGACAGACAGCAGGATCGGAGAGGGACGGAAAAGGGCTA
+AGGGCAGGAAAAGTCCCTGAGGCTTTCTCCACCCGGAGTGCGGGGTAGGG
+AGCAGACGGAGAGTGACGAAGGGTGACGGAGAGTGACGAAAGTAGACGAT
+GTCTGACGGAGAAGAGCCGAGCGGAGCTGAAGGGCGGCGGAGAGCGACGG
+AAAGTGGCGAGAATTGACGGAAAGTGACGGGGACTGACGGACAGTGACGA
+AGAGTCACGAAATTTATCAGAGGGCGACAAAGAGGAAAGCGAAATGGTGA
+GATGCAGCCGGCCGAGCCTATTCGGAGATGACGGAAAGTGACGGAGAGGA
+ACGGGGAGTAAAGAGGGGTGACGAAAAGAGCCGAAGCTGGTGGAGGCGAA
+GAACTGAGTGAGGGAAGATAGCCGAGATTAGCGGGTGGGCTGCAGCCGGG
+GCAGTCGCCCGAATGGGCGGGACCCCACGGAGTTAGCGAGAGGATGCGAA
+CAGCGGCCAGCCGGGCAGCACGCGAGCGAGGGAGGGCGTGGAGGGCCGTG
+GGTCCGCCTGCACTGAGGCAGGCATGGGTGGCACCGAGGTGACCCGGGTG
+GGAGGTGCACCGCCGCCCACTCGCAGGTTCTGCGCGGAGCCCAAGCCCGT
+CTTCTCCGCCCCTTTGCAGACCTCGGCGCCCAGCCTGGCCCCTGACGCCC
+Acccgcggccccacccagcgcccgggcccacgaggccgaggagcggcgga
+ggctcgcggcccctggaccgcagaccgcgttcccggagcccgGCCGAGCC
+CCGAGTGGGGCCCTCGCGCGGACTGAGAGGGCGGCGGAGGGGCCACGGGG
+TCCTGCCCAGCCCGCATCGCGCATGCTGCTCGGGACCGGCGGCTGCCTTG
+GGCCAACCCTGTTCCCGCAGCGGCCCAGCCCCGGGCGGGAGCCGACCTGG
+GGGACGCGGGACCCCGCGCGAGCTGCTCGGCCTGTAGggggctgcgcggc
+ggggcggggcggggccggccgcggcgccctcgctcctcgccctccctctc
+tccctccctctctccctAAGACACTTTTTCTTCTTTGTGGCACAATATAC
+AAAACACGGAGTTTGCCATACTGGCCGTTTTCAGGGCGCAGGTCGGTGGG
+ACTGAGCACATCGCGTGGTGCGCTCGGCGCCACCGTCTGTCTGCAGAACG
+TTTGCACCTTTCCAAGCTGaacagctctcctttccgcctcccccagcccg
+tgacaacctcccctctacgtttcgtctctcagtttgacctactaggtacT
+GAGGTCCCCTGGGTACTGAGATCTCCTCGGTACTGAAGTCTCCTCGGTGC
+TGAGGTCGCCTCGGTGCTGAGACCTCCTAGGTATTGAGGTCGCCTCGGTA
+CTGAGGTTGCCTCGGTGCTGAGGTCGCCACGGTGCTGAGACCTCCTAGAT
+ACTGAGGTCTCCTAGGCACGGAGATCTCCTATGTACAGAGACCTCGTCGG
+TACTGAGGTCGCCTAGGTACTGAGACCTTCTAGGTCCTGAGGTCTAGGTA
+CTGAGGCCTTCTCCTGTCGGAGGTGGGAAACTACTCAGTGGTAAAGCAGA
+ACCAAGACCTTCCTCTGAGGGTGGTGGGCTGAGCTGTCTCTTCCTTTCTA
+GGGGCCTTGTATTCACGCCATGAGAGACCCCCCTACTCTTCTGACACGTT
+CCCATTTTGCTGAAGACACTTGGAGCCAGTGTCATCTTTGTGACTGTACC
+GTTGCGTGTTCGGGGTGCACTCTGCCGTATTCTCTTTGCAGAGCACCTAA
+GGAAGCAGgcgtcgtgcctaagaacgtgagtgctgcaaaaagggtggttt
+gttccaatccaaccttgaccgctcctggccctcccacatgggtcaagttc
+actaaacgtctctgtgcctccatttcctcggcagaagaacagggacagta
+aatgtaccCGTCtgtatgagtgttcagggccgccataaggtaccaagact
+ggagggcttcactgaaaattatcttcccacagacctggaggctgaggtcc
+gagagcaaggtgttgtcagcagggctggtttctcctctcctcggcttgcg
+gacgccgtctggtgtacgctcatagggtcttttcactgtgcacaagtatc
+cctatcgtctcttctgtgtgtgtccacacttcctctcatgagaacagcag
+gttgctttagggcccaccctgacagcctcgttctaatactatgaggccaa
+atacactcacgttctgaggcagtgggggttagggcttcaacatCGACAtc
+cgagactgggagatgataaattcctgttgacgaacccacccggtttctgg
+tcactggttatggcagcccccaggaaaccaGCCCACAGAAACAGCAGTCC
+CTCCACTTGGTTCTGATCCAGgatgaagctgttgtagaccgccagcgttt
+ggggaatgtgaatgcctgatacgaaggaattctttgcgccatattgttgc
+cttaatgtaactgtgaagttgcgtcaaaataaaCATTAATggccgggcgc
+ggtggctcacgcctgtaatcccagcactttgggaggccaaggcaggtgga
+tcacgaggtcaggagatcaagaccatcctggccaacacagtgaaacccca
+tctctactaaaaatacaaaaaattctccgggcgcggtggcgggcgcctgt
+agtcccagctactcaggaggctgaggcaggagaacagcgtgagcccggga
+ggtggagcttgcagtgagctgagattgcgccactgcactccggcctgggc
+gacagagcgagactccatctcaaaaaataaaaatagaaaataaaCATTAA
+TGAAAATTCTCAGCAAAAGTCATATATATTCTCGCCAAGGCGACACACCA
+GCTAATTACTGTGTCGACTCCTTTGTTTTGGGCTCGATTTTATGAACTTG
+GTGCAGTAACACCTGCCGTTTACCTCTGGCCTATCCAAAGCCCAGATaag
+cacaggcaacaaaagcacaaatagacaaatggtccaacttcgaggttaaa
+catttctgcacaggaaacaacagtgaaaaggcaagacatggaataagagg
+aaataactgcagattatatgtctggtacgtcggatattcgtccagcacat
+ataaagagctcctgcaactgaacaattgaaaaacaagttaactgattgaa
+aaatgagcaaacgacctgaatagatatttctccagaaaagatatacaagt
+agcaaacaaacatggaaggatcctcaacatcagtaatcattagagaaata
+cacatcaaaaccacagtgatagcacctcacatccatgaaatgctacagtg
+aaacaaaaatagtgttaacaaggatgtgtggaaattggagccctcgtgga
+ttgcctgtaggactagaaaatggtgtggccaccgtggaaaacactatgga
+gcctcctcaaaaaAGCACTAAATATCAggctgggcacagtggctcacacc
+tgtcatcccagcactttgggagcccgaggcaggtggatcacaaagtcagg
+agttcgagaccagcctggccaacatggtgaaactccgtctctactaaaaa
+taaaaaattagccgggcgtggttgtgggtgccaggaatcccagctacccg
+ggaggctgaggcaggagaattgcttgaaccccggaggcagaggttgcatt
+gagccgagatcgcgccactgcactccagcctgggtgacaaaggaagactc
+catctcGGGGGGGCGGGGTGGGGGGAAGCaaacacaaaataattagctaa
+gtgtggtgacagatgcctatagtcccagctactcgggaggctaaggcagg
+agaagcgcctgaaccaggaggtggaggctgcagtgagccgattatgccac
+cgcactccaccctgggcggcacagtgaaactccatctccgcaaaaacaaa
+accagaaaaataacaaCTAAAAATCACTTgggtgtggtgatgtgcagctg
+cactaccggctacttgggaggctgagggaaggggatcactgaagcccagg
+agttcaaggccagcctgggcaacatataaaactctgtctcttaaaaaata
+aataaataaccagaaaTGGaaccacctatgaaccagcaatcacattactt
+ctccgactaaatccaaaaagattgaaagcagagtctggaagggattattg
+cacaaccgtggtcgttacagcagtattcacaatagccaaaagatggaagc
+agcccggtgcccatGATCGCATTATGTTatgacaccaccacttctcctgt
+tgtccttcccactttctccccaacctccccttttccctagtttataagac
+aagagaaaagagagaaagcaaaaagttggaaagaaacaaaagtaagataa
+atagctagacgaccttggtgccaccacctggccctggtgattaaaataat
+aatagtattaaccgctgaccaaaactactggtgctatctgtaaattccag
+acattgtatgagaaagcactgtaaaactttttgttctggccgggcgcggt
+ggctcacgcctgtaatcccaggactttgggaggccgaggtgggaggatca
+tgaggtcaggagattgagaccatcctggctaacacggtgaaaccccatct
+ctactaaaaatacaaaaaattagctgggtgCAggccgggcacggtggctc
+cagcctctaatcccagcactttgggaggccgaggcgggtggatcacaagg
+tcaggagatcgagaccatcctggttaacatgatgaaaccccgtgtctact
+aaaaatacaaaaaattagccgggcgcggtggcgggcgcctgtagtcccag
+ctactggggaggctgaggcaggagaatggtgtgaacccgggaggcggagc
+ttgcagtgagctgagatcacgccactgcactccagcctgggccacagagc
+gagattccgtctcaaaaaaaataaaaaaataaaaactttttgttctctta
+gctgatgtatgtagcccccactcacgttcctcacacttacttgatctatt
+atgactctttcacatagaccccttagagttcttagcccttaaaagggcta
+ggaatttctttttcggggagctcggctcttaagacacgagtctgccgaat
+ctcccggccaaataaaaaaacctcttccttctttaatctggtgtctgagg
+agttttgactgtgactcatcctgttacaGCatgactggaaaaagaaaatg
+tggttcatccatataatgaaatatgaatcagccctaaaaaggaaggaatg
+atgagacaggctaccacatggactcacctgttgttaacaagataagccag
+acaaaaaagtgctgtgtgatcccactcctatgaggtctctggaagagtgg
+aattcatagagacagacagtagaatggtgggtgccaggggccgggggaat
+ggggcaccctggtttgatgtggacacagtttctgttttgtaagatgaaga
+agttgtaaacatctgttatacaacaatgcggatatgatgaacactgctga
+agtgtatccttaaaaatactttaaaggggccgggcgcggtggctcatgcc
+tgtaatcccagcactttgggaggccgaggcaggcggatcacgaggtcagg
+agatcgacaccgtcttggccaacacagtgaaaccccgtctctactaaaat
+acaaaaaatttgccaggtgtggtggcgggtgcctgtgatcccagctactt
+gggaggctgaggcaggggaatcacttgaacccgggaggtagaggttgaag
+tgagctgagattgtgccactgcactccagcctgggcaacagagcaagcct
+ccatctaaaaaaaagaagtagttgaaagggtaaattttatgttatgtggc
+ttttacctccattaaaaaTAAAAATAAAggctgaatgtggtagcttaccc
+ctgtaatccgagcactttgggaggccaaagcaggacgattacttgagctc
+agaagtgtgagaccagcctggacaacttggtgagaccccatctctactag
+aaatttttttttaattggctgagtgtgatggtgtgcacctataatcccca
+gatactcaggaggctgaggcaagaggattgcttgagcctaggagcggggg
+gctgtggtgagccatgatggtaccattgcactccagcctgggtgacagag
+tgagaccctgcctcaaaaaaaaaaaaaaattaaattaagaaaaaTTTAAA
+AGGCCAGGCTAATGATATATTTCTTTTATTAATAAACGTGGGAACCTTAA
+TTTAACATAATGTCAATAAACATGATTATGGTTCTTCCAAATTTGGGGTC
+CCTGGTGAGAGAAAAAGAATAAGATAGggctgggtgtggtggtgcacgcc
+tgtaatcccagcactttgggaggccaaggccagcagctcacctgaggttg
+ggagttcgagaccagcctgaccaacatagagaatccccatctctaaaaat
+acaaaaaattagccaggcgtggtggcgcccacctgtaatcccagctactt
+gggaggctgaggccagagaattgcttgaacccgggaggcggaggttgcgg
+tgagctgatatcacaccattgcactccagcctgggtaacaagagcgaaac
+tccgtctctaataataataataataaataaaGGGCCTCAGGGTGAAGAAT
+TTGGATACTGCTTGACTGGAGGCCACCTGGGGCCACTTCAGCTCTAGTTT
+CTGTGGTTTACGGCCACAGTGGTGTCTTCCCTGCAACGTTCTCGTGGGTG
+CCGTATTGACAAAACATTAAAACGAGATGGGGTCCCTGCGAGACTCCCGA
+GGGAGGGAGCAGGAAGATCCGTGCGGCACCGCGAAGGTACAGCATGTTCT
+CCACAACTCTCCCAGGCCACAAAGAAAGATGAGTCAGTGGGCTCTGAATT
+CTCCAGCACAGACAGGGGACGAGTCAAAGGGCTCCCAATCGGACTTGAAG
+AGATCACGCAGGAAGTCCTGACGTTCACGGCGAGCAGGGCTCTGTGTAGG
+CCAACATGCCAGCACTGTGAGGATAATATTTTTTAATCCCCCGTTTCCTT
+GAGCGGCCCCAGAAAACTTACACACACCCTGTTCTGCAGACTCCTGGGAG
+TGTAGGTCTCATTAAGGGCAGATAGAGACCAGACTGTGCAACCTTTAGAA
+TCTGCATTGGGCCTAGGTCTCATTGAGGGCAGGTAGAGAGCCGACTGTGC
+AACCTTTAGAGTCTGCATTGGGCCAAGGTCTCATTGAGGTCAGATAGAGA
+GCACACTGTGCAACCTTTAGAGACTGCATTGAGCCTGGGTCTCATTGAGG
+ACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTACG
+TCTCATTGAGGGCAGATAGAGAACAGACGGTGCAACCTTTACAGTCTGCA
+TTGGGCCTAGGTCTCATTGAGGGCAGGTAGAGAGCCGACTGTACAACCTT
+TAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGAC
+GGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGAT
+AGAGAGCAGACTGTGCAACCTTTAGAGACTGCATTGAGCCTGAGTCTCAT
+TGAGGACAGATAGAGAGCAGACTGTGCAACCATTAGAGTCTGCATTGGGC
+CTAGGTCTCATTGAGGGCACATAGAGAGCAGACTGTGCAACCTTTAGAGT
+CTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCA
+ACCTTTAGAGTCTGCATTGGGTCTAGGGCCCACTGAGGGCAGACAGAGAG
+CAGACTGTGCAAACTTTAGAGTCAGCATTGGGCCTAGGTCTCATTGAAGA
+CAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCCGAATTGGGCCTCGGT
+CTCATTGAGGACCGATGGAGAGCAGACTGTGCAACCTTTAGAGTCTGCAT
+TGGGCCTGGGTCTCACTGAGGACAAATAGAGAGCAGACTGTGCAACCTTT
+AGGGACTGCATTGGACCTAGGTCTCATTGAGGACAGATAGAGAGCAGACT
+AGGCAACCTTTAGAGTCGGCACTGGGCCTAGGTCTCATTGAGGACACATA
+TAGAGCAGACTGTGCAACCTTTACAGTCTGCATTGGGCCTGGGTCTCATT
+GAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTC
+TGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAA
+CCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGC
+ATACTGTGCAACCTTTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGAC
+AGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGGACAGATAGAGAGCAGACTAGGCAACCATTAGAGTCGGCACT
+GGTCCTAGGTCTCATTGAGGACAGATATAGAGCAGACTGTGCAACCTTTA
+GAGTCTGCATTGTGCCTGGGTCTCATTGAGGACAGATAGAGAGCAGACTG
+TGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAG
+AGAGCAGACTGTGCAACCTCTAGAGTCTGCATTGGGCCTAGGTCTCATTG
+AGGGCATTTAGAGAGCAGACTGCGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAACCACTAGAGTCG
+GCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAA
+CTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCA
+GACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGTGGACC
+GATACAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCT
+CATTGAGGGCAGATAGAGAGCACACTGTGTAACCTTTAGAGTCTGCATAG
+GGCCTCGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAATCTTTAG
+AGTCTGCATTGGGCCTGGGTCTCATTGAAGACAGATAGAGACCAGACTGT
+GCAACCTTTAGAGTTTGCATTGGACCTAGGTCTCATTGAGGGCAGATAGA
+GAGCAAACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGA
+GGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTGGGCCTA
+GGTCTCTTTGAGGACAGACAGAGAGCAGACTGTGCAAACTTTAGAGTCTG
+CACTGGGCCTAGGTGTCATTGAGGACAGAAAGAGACCAGACTGTGCAACC
+TTTAGAGTCTGCATTGGGCCTAGGTCTCCTTGAGGTCAGATAGACAGCAG
+ACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTAATTGCGGACAG
+ATAGAGAGCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTGGGTCTC
+ATTCAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTCTATTGG
+GCCTAGGTCTCATTGAGGACAGATAGAGAGCGGACTGTGCAACCTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGGCTCGG
+CAACCCTTAGAGTCTGCATTGGGCCTAGATCTTATTGAGGACAGATAGAG
+AGCATACTATGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAG
+GACACATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAT
+GTCTCATTGAGGACAGTTAGAGAGCAGACTGTGCAAGCTTTAGAGTCTGC
+ATTTGGCCTAGGTCTCATTGAGGACAGAAACAGACCAGAGTGTGCAACCT
+TTAGAGTCAGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGA
+CTGTAGAAACTTTATAGTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGA
+TAGAGAGCAGACTGTGCAAGCTTTAGAGTCTGCACTTGGCCTAGGTCTCA
+TTGAGGACAGATAGAGAGCAGACTGTGCAAACTCTAGAGTCTGCATTGGG
+CCTAGGTCTCATTGAGGGCAGATAGAGACCAGACTATGCAACGTTTAGAG
+TCTGCATTGGGCCTAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGC
+AACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGA
+GCACACTGTGCCAACTTTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGG
+ACAGATAGAGACCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTACG
+TCTCATTGAGGACAGATAGAGAGCAGACTAGGCAACCATTAGAGTCGGCA
+CTGGTCCTAGGTCTCATTGAGGACAGATATAGAGCAGACTGTGCAACCTT
+TAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGCGACCAGAC
+TGTGCAACCTTTAGAGTCTGCATTGGGCTTAGGTCTCATTGAGGGCAGTT
+AGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCAT
+TGAGAGCAGATAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGGGC
+CTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTTGAAACTTTAGAGT
+CTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCAGACTGTGCA
+ACCTTTAGAGTCTACAATGGGCCTAGGTATCAGTGAGGACAAATAGAGAG
+GAGACTGTGCAACCTTTAGAGTCTGCACTGGCCCTAGGTCTCTTTGAGGA
+CAGACAGAGAGCAGAATGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGT
+CTCATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCAT
+TGGGCCTAGGTCTCCTTGAGGTCAGACAGACAGCAGACTCTGCAACCTTT
+AGAGTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGACAGCAGACT
+GTGCAACGTTTAGAGTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATA
+GAGAGCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATT
+GAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGGGTCTCTATTGGGCC
+TAGGTCTCATTGAGGACAGATAGGGAGCGGACTGTGCAACCTTTAGAGTC
+TGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGGCTCGGCAA
+CCCTTAGAGTCTGCATTGGGCCTAGATATCATTGAGGACAGATAGAGAGC
+ATGCTATGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGAC
+ACATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTATGTC
+TCATTGAGGACAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATT
+TGGCCTAGGTCTCATTGAGGACAGAAAGAGACCAGAGTGTGCAAACTTTA
+GAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTG
+TAGAACCTTTATAGTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAG
+AGAGCAGACTGTGCAAGCTTTAGAGTCTGCACTTGTCCTAGGTCTCATTG
+AGGACAGATAGAGAACAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCAAACTTTAGAGTCT
+GCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAAA
+CTCTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCA
+GACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACA
+GATAGAGGGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCT
+CATTGAGGACAGATAGAGAGCAGACTTTGCAAACTTTAGAGTCTGCACTG
+GGCCTAGGTCTCATTGAGGGCATATAGAGACCATACTGTGCAAACTTTAG
+AGTCTGCATTGGGTCTAGGTCTCACTGAGGAGAGATAGAGAGCAGACTTT
+GCAAACTTCAGAGTCTGCATTAGGTCTAGGTCTCACTGAGGACTGATAGA
+GAGCAGACTATGCAACTTTAGAGTCTGCCTGGCCCTAGGTCTCATTGAGG
+ACAGATAGAGAGCAGACTGCGCAAACTTTAGAGTCTGCATTGGGCCTAGG
+TCTCACTGAGGACAGATAGAGAGCACACTGTGTAACCTTTAGAGTTTGCA
+AAGGGCCTCGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAACCTT
+TAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGAAAAACAGAGAGCAGAC
+TGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGAT
+AGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTAGGGCTAGGTCTCAT
+CGAGGACAGATAGAGAGCAGACTGTGCAACATTTAGAGTCTGCATTGGAC
+CTAGGTCTCACTGAGGACAGATAGAGAGCAGACTATGCAAACTTTACAGT
+CTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCA
+ACCTTTACAGTCTGCATTGGGCCTGGGTCTCATTCAGGAGAGATAGAGAC
+CAGAATGTGCAACCTTTAGAGTTTGCATTGGGCCTAGGTCTCTTGAGAGC
+AGATAGAGAGCAGACTGTGCAACCTTTACAGTCTGCATTGGGCCTAGGTC
+TCATTGAGGGCCGATAGAGAGCAGACTGTGGAAACTTTAGAGTCTGCACT
+GGGCCTAGGTCTGATTGAGGACACATAGAGAGCAGACTGTGCAACCTTTA
+GAGTCTGCATTTGGCCTAGGTCTCATTGAGGACAGATGGAGAGCACACTG
+TGCAACCTTTAGAGTCCGCATTGGGCCTAGGTCTCATTGAGGACAGATAG
+AGACCAGACTGTGCAACCTTTAGAGTTTGCATTGGGCCTAGGTCTCATTG
+AGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAACCTTTAGACTCT
+GCATTGGGCCTGGGTCTCATTGAGGACAAATAGAGAACAGACTGTGCAAC
+CTTTAGAGTCTGCATTGGGCCTAGGTATCAGTGAGGACAGATAGAGAGGA
+GACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCTTTGAGGACA
+GACAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGT
+CATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTG
+GGCCTAGGTCTCCTTGAGGTCAGATAGACAGCAGAATCTGCAACCTTTAG
+AGTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGACAGCAGACTGT
+GCAACGTTTAGAGTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGA
+GAGCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGA
+GGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTCTATTGGGCCTA
+GGTCTCATTGAGGACAGATAGGGAGAGGACTGTGCAACCTTTAGAGTCTG
+CATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGGCTCGGGAACC
+CTTAGAGTCTGCATTGGGCCTAGATCTCATTGAGGACAGATAGAGAGCAT
+ACTATGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAC
+ATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTC
+ATTGAGGACAGTTAGAGAGCAGGCTGTGCAACCTTTACAGTCTGCATTTG
+GCCTAGGTCTCATTGAGGACAGAAAGAGACCAGAGTGCGCAAACTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTA
+GAACCTTTATAGTCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAG
+AGCAGACTGTGCAAGCTTTAGAGTCTGCACTTGGCCTAGGTCTCATTGAG
+GACAGATAGAGAACAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAG
+GTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGC
+ATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAACCT
+CTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGA
+CTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGA
+TAGAGGGCAGACTGTGCAACCTTTAGAGTCTGCATTGAGCCTAGGTCTCA
+TTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTCGAGTCTGCACTGGG
+CCTAGGTCTCATTGAGGGCATATAGAGACCATACTGTGCAAACTTTAGAG
+TCTGCATTGGGTCTAGGTCTCACTGAGGAGAGATAGAGAGCAGACTTTGC
+AAACTTTAGAGTCTGCATTAGGTCTAGGTCTCACTGAGGACTGATAGAGA
+GCAGACTATGCAACTTTAGAGTCTGCACTGGCCCTAGGTCTCATTGAGGA
+CAGATAGAGAGCAGACTGCGCAAACTTTAGAGTCTGCATTGGGTCTAGGT
+CTCATTGAGGACAGATAGAGAGCACACTGTGTAACCTTTAGAGTCTGCAT
+AGAGCCTCGGTCTCATTGAGGACCGATAGAGAGCAGACTGTGCAACCTTT
+AGAATCTGCATTGGGCCTAGGTCTCATTGAGGGCAGGTAGAGAGCCGACT
+GTGCAACCTTTAGAGTCTGCATTGGGCCAAGGTCTCATTGAGGTCAGATA
+GAGAGCACACTGTGCAACCTTTAGAGACTGCATTGAGCCTGGGTCTCATT
+GAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGGCACATAGAGAGCAGACTGCACAACCTTTAGAGTC
+TGCATTGGGCCTACGTCTCATTGAGGGCAGATAGAGAACAGACGGTGCAA
+CCTTTACAGTCTGCATTGGGCCTAGGTCTCAATGAGGGCAGGTAGAGAGC
+CGACTGTACAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGC
+AGATAGAGAGCAGACGGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGACTGCATT
+GAGCCTGAGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACCATTA
+GAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCACATAGAGAGCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAG
+AGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGTCTAGGGCTCATTG
+AGGGCAGACAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAAGACAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCC
+GAATTGGGCCTCGGTCTCATTGAGGACCGATGGAGAGCAGACTGTGCAAC
+CTTTAGAGTCTGCATTGGGCCTGGGTCTCACTGAGGACAAATAGAGAGCA
+GACTGTGCAACCTTTAGGGACTGCATTGGACCTAGGTCTCATTGAGGACA
+GATAGAGAGCAGACTAGGCAACCTTTAGAGTCGGCACTGGGCCTAGGTCT
+CATTGAGGACACATATAGAGCAGACTGTGCAACCTTTACAGTCTGCATTG
+GGCCTGGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAG
+AGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGT
+GCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGA
+GAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGA
+GAGCAGATAGAGAGCATACTGTGCAACCTTTAGAGTCGGCATTGGGCCTA
+GGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAACCTTTAGAGTCTG
+CATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTAGGCAACC
+ATTAGAGTCGGCACTGGTCCTAGGTCTCATTGAGGACAGATATAGAGCAG
+ACTGTGCAACCTTTAGAGTCTGCATTGTGCCTGGGTCTCATTGAGGACAG
+ATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTC
+ATTGAGGACAGATAGAGAGCAGACTGTGCAACCTCTAGAGTCTGCATTGG
+GCCTAGGTCTCATTGAGGGCATTTAGAGAGCAGACTGCGCAACCTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTG
+CAACCTCTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAG
+ACCAGACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAG
+GACAGATAGAGGGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAG
+GTCTCATTATGGACCGATACAGAGCAGACTGTGCAACCTTTAGAGTCTGC
+ACTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAAACT
+TTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCGGA
+CTGTGCAACCTTTAGAGTCTGCATTGGGCCTACGTCTCATTGAGGACAGA
+TAGAGAGCAGACTAGGCAACCATTAGAGTCGGCACTGGTCCTAGGTCTCA
+TTGAGGACAGATATAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGG
+CCTGGGTCTCATTGAGGACAGATAGCGACCAGACTGTGCAACCTTTAGAG
+TCTGCATTGGGCTTAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGC
+AACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGA
+GCACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGG
+ACAGATAGAGACCAGACTGTTGAAACTTTAGAGTCTGCATTGGGCCTAGG
+TCTCATTGATGACAGATAGAGGGCAGACTGTGCAACCTTTAGAGTCTACA
+ATGGGCCTAGGTATCAGTGAGGACAAATAGAGAGGAGACTGTGCAACCTT
+TAGAGTCTGCACTGGCCCTAGGTCTCTTTGAGGACAGACAGAGAGCAGAA
+TGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTCATTGAGGACAGAT
+AGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCCT
+TGAGGTCAGACAGACAGCAGACTCTGCAACCTTTAGAGTCTGCATTGGGC
+CTAGGTCTAATTGCGGACAGATAGACAGCAGACTGTGCAACGTTTAGAGT
+CTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGAGAGCAGACTATGCA
+ACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGAGAG
+CAGACTGTGCAACCTTTAGGGTCTCTATTGGGCCTAGGTCTCATTGAGGA
+CAGATAGGGAGCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGT
+CTCATTGAGGGCAGATAGAGAGCAGGCTCGGCAACCCTTAGAGTCTGCAT
+TGGGCCTAGATATCATTGAGGACAGATAGAGAGCATGCTATGCAACCTTT
+AGAGTCTGCACTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGACT
+GTGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGACAGTTA
+GAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCCTAGGTCTCATT
+GAGGACAGAAAGAGACCAGAGTGTGCAAACTTTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTAGAACCTTTATAGTC
+TGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAGAGCAGACTGTGCAA
+GCTTTAGAGTCTGCACTTGTCCTAGGTCTCATTGAGGACAGATAGAGAAC
+AGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGC
+AGTTAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGAGCAGATAGAGAGCACACTGTGCAAACTCTAGAGTCGGCATT
+GGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAACTTTA
+GAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAG
+AGAGCAGACTTTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTCTCATTG
+AGGGCATATAGAGACCATACTGTGCAAACTTTAGAGTCTGCATTGGGTCT
+AGGTCTCACTGAGGAGAGATAGAGAGCAGACTTTGCAAACTTCAGAGTCT
+GCATTAGGTCTAGGTCTCACTGAGGACTGATAGAGAGCAGACTATGCAAC
+TTTAGAGTCTGCCTGGCCCTAGGTCTCATTGAGGACAGATAGAGAGCAGA
+CTGCGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCACTGAGGACAGA
+TAGAGAGCACACTGTGTAACCTTTAGAGTTTGCATAGGGCCTCGGTCTCA
+TTGAGGACCGATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGG
+CCTGGGTCTCATTGAGGAAAAATGGAGAGCCGACTGTGCAACCTTTAGAG
+TCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGC
+AACCTTTAGAGTCTGCACTAGGGCTAGGTCTCATCGAGGACAGATAGAGA
+GCAGACTGTGCAACATTTAGAGTCTGCATTGGACCTAGGTCTCACTGAGG
+ACAGATAGAGAGCAGACTATGCAAACTTTACAGTCTGCACTGGGCCTAGG
+TCTCATTGAGGACAGATAGAGAGCAGACTGTGCAACCTTTACAGTCTGCA
+TTGGGCCTGGGTCTCATTCAGGAGAGATAGAGACCAGAATGTGCAACCTT
+TAGAGTTTGCATTGGGCCTAGGTCTCTTGAGAGCAGATAGAGAGCAGACT
+GTGCAACCTTTACAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCCGATA
+GAGAGCAGACTGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTCTGATT
+GAGGACACATAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCC
+TAGGTCTCATTGAGGACAGATGGAGAGCACACTGTGCAACCTTTAGAGTC
+CGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAA
+CCTTTAGAGTTTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGC
+AGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGAC
+CGATAGAGAGCAGACTGTGCAACCTTTAGACTCTGCATTGGGCCTGGGTC
+TCATTGAGGACAAATAGAGAACAGACTGTGCAACCTTTAGAGTCTGCATT
+GGGCCTAGGTATCAGTGAGGACAGATAGAGAGGAGACTGTGCAACCTTTA
+GAGTCTGCACTGGGCCTAGGTCTCTTTGAGGACAGACAGAGAGCAGACTG
+TGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTCATTGAGGACAGATAG
+AGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCCTTG
+AGGTCAGATAGACAGCAGAATCTGCAACCTTTAGAGTCTGCATTGGGCCT
+AGGTCTAATTGCGGACAGATAGACAGCAGACTGTGCAACGTTTAGAGTCT
+GCATTGGGCCTAGGTCTAATTGCGGACAGATAGAGAGCAGACTATGCAAC
+GTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGAGAGCA
+GACTGTGCAACCTTTAGAGTCTCTATTGGGCCTAGGTCTCATTGAGGACA
+GATAGGGAGAGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCT
+CATTGAGGGCAGATAGAGAGCAGGCTCGGGAACCCTTAGAGTCTGCATTG
+GGCCTAGATCTCATTGAGGACAGATAGAGAGCATACTATGCAACCTTTAG
+AGTCTGCACTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGACTGT
+GCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGACAGTTAGA
+GAGCAGGCTGTGCAACCTTTACAGTCTGCATTTGGCCTAGGTCTCATTGA
+GGACAGAAAGAGACCAGAGTGCGCAAACTTTAGAGTCTGCATTGGGCCTA
+GGTCTCATTGAGGACAGATAGAGAGCAGACTGTAGAACCTTTATAGTCTG
+CATTGGGCCTAGGTCTCTTTGAGGTCAGATAGAGAGCAGACTGTGCAAGC
+TTTAGAGTCTGCACTTGGCCTAGGTCTCATTGAGGACAGATAGAGAACAG
+ACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAG
+TTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTC
+ATTGAGAGCAGATAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGG
+GCCTAGGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAACTTTAGA
+GTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGGGCAGACTGTG
+CAACCTTTAGAGTCTGCATTGAGCCTAGGTCTCATTGAGGACAGATAGAG
+AGCAGACTGTGCAACCTTTCGAGTCTGCACTGGGCCTAGGTCTCATTGAG
+GGCATATAGAGACCATACTGTGCAAACTTTAGAGTCTGCATTGGGTCTAG
+GTCTCACTGAGGAGAGATAGAGAGCAGACTTTGCAAACTTTAGAGTCTGC
+ATTAGGTCTAGGTCTCACTGAGGACTGATAGAGAGCAGACTATGCAACTT
+TAGAGTCTGCACTGGCCCTAGGTCTCATTGAGGACAGATAGAGAGCAGAC
+TGCGCAAACTTTAGAGTCTGCATTGGGTCTGGGTCTCATTGAGGACAGAT
+AGAGAGCACACTGTGTAACCTTTAGAGTCTGCATAGAGCCTCGGTCTCAT
+TGAGGACCGATAGAGAGCAGACTGTGCAACCTTTAGAATCTGCATTGGGC
+CTAGGTCTCATTGAGGGCAGGTAGAGAGCCGACTGTGCAACCTTTAGAGT
+CTGCATTGGGCCAAGGTCTCATTGAGGTCAGATAGAGAGCACACTGTGCA
+ACCTTTAGAGACTGCATTGAGCCTGGGTCTCATTGAGGACAGATAGAGAG
+CAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGG
+CACATAGAGAGCAGACTGCACAACCTTTAGAGTCTGCATTGGGCCTACGT
+CTCATTGAGGGCAGATAGAGAACAGACGGTGCAACCTTTACAGTCTGCAT
+TGGGCCTAGGTCTCAATGAGGGCAGGTAGAGAGCCGACTGTACAACCTTT
+AGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCAGATAGAGAGCAGACG
+GTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATA
+GAGAGCAGACTGTGCAACCTTTAGAGACTGCATTGAGCCTGAGTCTCATT
+GAGGACAGATAGAGAGCAGACTGTGCAACCATTAGAGTCTGCATTGGGCC
+TAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTC
+TGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAA
+CCTTTAGAGTCTGCATTGGGTCTAGGGCTCATTGAGGGCAGACAGAGAGC
+AGACTGTGCAAACTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAAGAC
+AGATAGAGAGCAGACTGTGCAACCTTTAGAGTCCGAATTGGGCCTCGGTC
+TCATTGAGGACCGATGGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATT
+GGGCCTGGGTCTCACTGAGGACAAATAGAGAGCAGACTGTGCAACCTTTA
+GGGACTGCATTGGACCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTA
+GGCAACCTTTAGAGTCGGCACTGGGCCTAGGTCTCATTGAGGACACATAT
+AGAGCAGACTGTGCAACCTTTACAGTCTGCATTGGGCCTGGGTCTCATTG
+AGGACAGATAGAGACCAGACTGTGCAAACTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGGCAGATAGAGAGCAGACTGTGCAACCTTTAGAGTCT
+GCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTGCAAC
+CTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCA
+TACTGTGCAACCTTTAGAGTCGGCATTGGGCCTAGGTCTCATTCAGGACA
+GATAGAGAGCAGACTAGGCAACCATTAGAGTCGGCACTGGTCCTAGGTCT
+CATTGAGGACAGATATAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTG
+TGCCTGGGTCTCATTGAGGACAGATAGAGAGCAGACTGAGCAACCTTTAG
+AGTCTGCACTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGT
+GCAACCTCTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGGCATTTAGA
+GAGCAGACTGCGCAACCTTTAGAGTCTGCATTGGGCATAGGTCTCATTGA
+GAGCAGATAGAGAGCACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTA
+GGTCTCATTGAGGACAGATAGAGACCAGACTGTGCAAACTTTAGAGTTTG
+CATTGGACCTAGGTCTCATTGAGGGCAGATAGAGAGCAAACTGTGCAACC
+TTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGAGCAG
+ACTGTGCAACCTTTAGAGTCTGCACTGGGCCTAGGTCTCTTTGAGGACAG
+ACAGAGAGCAGACTGTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTC
+ATTGAGGACAGAAAGAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGG
+GCCTAGGTCTCCTTGAGGTCAGATAGACAGCAGACTGTGCAACCTTTAGA
+GTCTGCATTGGGCCTAGGTCTAATTGCGGACAGATAGAGAGCAGACTATG
+CAACGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTCAGGACAGATAGAG
+AGCAGACTGTGCAACCTTTAGAGTCTCTATTGGGCCTAGGTCTCATTGAG
+GACAGATAGAGAGCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAG
+GTCTCATTGAGGGCAGATAGAGAGCAGGCTCGGCAACCCTTAGAGTCTGC
+ATTGGGCCTAGATCTTATTGAGGACAGATAGAGAGCATACTATGCAACCT
+TTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGA
+CTGTGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGACAGT
+TAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCCTAGGTCTCA
+TTGAGGACAGAAACAGACCAGAGTGTGCAACCTTTAGAGTCAGCATTGGG
+CCTAGGTCTCATTGAGGACAGATAGAGAGCAGACTGTAGAAACTTTATAG
+TCTGCATTGGGCCTAGGTCTCATTGAGGTCAGATAGAGAGCAGACGGTGC
+AAGCTTTAGAGTCTGCACTTGGCCTAGGTCTCATTGAGGACAGATAGAGA
+GCAGACTGTGCAAACTCTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGG
+GCAGATAGAGACCAGACTATGCAACGTTTAGAGTCTGCATTGGGCCTAGG
+TCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCAACCTTTAGAGTCTGCA
+TTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAGCACACTGTGCAAACTT
+TAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGACAGATAGAGACCGGAC
+TGTGCAACCTTTAGAGTCTGCATTGGGCCTACGTCTCATTGAGGACAGAT
+AGAGAGCAGACTAGGCAACCATTAGAGTCGGCACTGGTCCTAGGTCTCAT
+TGAGGACAGATATAGAGCAGACTGTGCAACCTTTAGAGTCTGCATTGGGC
+CTGGGTCTCATTGAGGACAGATAGCGACCAGACTGTGCAACCTTTAGAGT
+CTGCATTGGGCTTAGGTCTCATTGAGGGCAGTTAGAGAGCAGACTGTGCA
+ACCTTTAGAGTCTGCATTGGGCCTAGGTCTCATTGAGAGCAGATAGAGAG
+CACACTGTGCAACCTCTAGAGTCGGCATTGGGCCTAGGTCTCATTGAGGA
+CAGATAGAGACCAGACTGTTGAAACTTTAGAGTCTGCATTGGGCCTAGGT
+CTCATTGAGGACAGATAGAGGGCAGACTGTGCAACCTTTAGAGTCTACAA
+TGGGCCTAGGTATCAGTGAGGACAAATAGAGAGGAGACTGTGCAACCTTT
+AGAGTCTGCACTGGCCCTAGGTCTCTTTGAGGACAGACAGAGAGCAGAAT
+GTGCAAACTTTAGAGTCTGCACTGGGCCTAGGTGTCATTGAGGACAGATA
+GAGACCAGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTCTCCTT
+GAGGTCAGACAGACAGCAGACTCTGCAACCTTTAGAGTCTGCATTGGGCC
+TAGGTCTAATTGCGGACAGATAGACAGCAGACTGTGCAACGTTTAGAGTC
+TGCATTGGGCCTAGGTCTAATTGCGGACAGATAGAGAGCAGACTATGCAA
+CGTTTAGAGTCTGCATTGGGCCTGGGTCTCATTGAGGACAGATAGAGAGC
+AGACTGTGCAACCTTTAGGGTCTCTATTGGGCCTAGGTCTCATTGAGGAC
+AGATAGGGAGCGGACTGTGCAACCTTTAGAGTCTGCATTGGGCCTAGGTC
+TCATTGAGGGCAGATAGAGAGCAGGCTCGGCAACCCTTAGAGTCTGCATT
+GGGCCTAGATATCATTGAGGACAGATAGAGAGCATGCTATGCAACCTTTA
+GAGTCTGCACTGGGCCTAGGTCTCATTGAGGACACATAGAGAGCAGACTG
+TGCAACCTTTAGAGTCTGCATTGGGCCTATGTCTCATTGAGGACAGTTAG
+AGAGCAGACTGTGCAACCTTTAGAGTCTGCATTTGGCCTAGGTCTCATTG
+AGGACAGAAAGAGACCAGAGTGTGCAAACTTTAGAGTCTGCATTGGGCCT
+AGGTCTCATTGAGGACAGATANNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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+CGACGATGTGGGGAGCTGGTGACAGAGCCTGAGCTGGCCCAATGTTGCAC
+GGTGGGGACAGATTCGAGGTACAGTGGGGACTGGTGACCTCAGTTCCCAG
+TGTCCCAGCCTGGCCTCCCAGTCCACCCAGCAATTAGTGGGTGCTGCCCT
+GCAAAGACTCTGGGGGTGCCTCAGCCCTCCTCATCACACGTGACTGGTGA
+CTTCTGTGTCCACCCGCACAATAAGAGGGATCTTCTCTCACTTTCAGGCA
+AGCCCAAGAAAGTCAGGGGCCTATGTGAGCCAAAGAGGAGAGAAGGTGAT
+GCCTCAGCCCAGTGTTTCTGCCCCACCTCGCTTGTGGCCTTCGGAACTTG
+ATTTGCACCGCAGGAAAATGGGCAATGAAAACCCCTCCCTAACTGGCTTC
+TCAGTCCACTCTGACCAGCCCACTGCACAGCGCCCACCCTGCAGCTCCAG
+GTACAGAGGCTGGGATGGCTCTGGGCTGACCTAAGGGCCTTCTGATGGCT
+CCAACCCTCGGGATGCCTCATGCTCACCCTTTGGCACCCACCTGACAGCT
+CAGCATCTCTGCTCTCTGCCATCCTCAATGCCTGCTCTAGACAAGCCCAA
+GTCCCCCAGGAGTGGCAGAGGGAACTGAGCCGAAAACTAAGTCTCGGCTC
+ACTGAACCCCAAGTGGGCTGTCCAGCCTCGCCCTTCAGTTCACAACCCCA
+GGCAGGTTCCCTCCAGGGATGTGATCCCAGGGGCCACAGCAGCACATTCT
+GGCCTAACCTATCCACTATTTAAACAGTTACTGAAAAGGCCAGGATGGCC
+GTGGGCCCTGACATTAATCCCCTTTCTCTGTGAGGGGGCTGGGTTGGGTT
+TGCCATCCTGATGTCTTTGTGGAAAGAGCTGGCAGGTGAAGCAAGTCTCA
+GGGGCCAGCCATGGGACAAGGAACCTAGGACTGGCCTCTGCTGGAACCCT
+CTGAGGCCCCTGCGGACAGGAGGATCCAATGGAGGTCTAGCCACCCCTCC
+CAGGTTGGTGCTCACAGCCCCTCCCTGGCCCACTCCCTGCACACCTGCAC
+CTGCTGGTCTCTGGGAGAGGAGCATCCATCCATCTTGTGCGCATAGCTTT
+CGGCTCCATTTTCATGAGGATGGTCTCCTTGGCAGAAATGCCCATTAGGG
+GATCCTGAGCCTGTGCTAGCTCTTCTCTAAGTGCCAAAGCCAGTGAGAGG
+GACTTGAAAACTCAAGACTTATTAACAGTATTTTCTGCATTTTGTGCTTT
+CAGGGTTGTTTTTTCCTTAAAATGTGTAAAAACAAACATTGAGATTTCTA
+TCTTTTATATAATTTGGATTCTGTTATCACACGGACTTTTCCTGAAATTT
+ATTTTTATGTATGTATATCAAACATTGAATTTCTGTTTTCTTCTTTACTG
+GAATTGTTAACTGTTTTATAGGCCAAATCTTTTAAAAAAAACACATCTCT
+CTAATTTCTCTAAACATTTCTAATTACATATATATTTACTATACCTAATA
+CACTACTTTGGAATTCCTTGAGGCCTAAATGCATCGGGGTGCTCTGGTTT
+TGTTGTTGTTATTTCTGAATGACATTTACTTTGGTGCTCTTTATTTTGCG
+TATTTAAAACTATTAGATCGTGTGATTATATTTGACAGGTCTTAATTGAC
+GCGCTGTTCAGCCCTTTGAGTTCGGTTGAGTTTTGGGTTGGAGAATTTTC
+TTCCACAAGGGATTGTCTTGGATTTTTCTGTTTCTCCCTCAATATCCACC
+TGGAAAACATTTCAATTAATTTATATTTACTTAAATATTTCTGTGCAAAA
+ACTGTGTACAAAAGCCCCAAAGCATAATTTGTGCAGTTGAGCGCATGTTC
+TGTTGTTCAGCATTTATGGTGGTTGGTAGTGGAAAAGATTTTTAGAATAT
+GTGGATTTTCGGGATATTCCCAGAAGCCCAGATAGCGACACTTTACCTTT
+GGAGGAATTACTTCTCAGAATATTGCACACAATCAATCGCCTTTGGAAGG
+AGCATATATCCCCAGCAAAAGCTCTGGTTTTTTGAAGTCTGTATTGTGTG
+TTACTTCCAGGAGAATATGCAATGATGACAATGTTATTAGATGATTCAAA
+TATGAAGTGCTGTTATGCCAAACAATGAATCTTTGTGTTATACATTATGC
+CTAACTATAAATCTTTGTGTTATACATTTTAATGTCATTGGAGAGTACTC
+CTGTCTTCTTGGCATTATTGATAATTAGATTCTAATTGCTAATAAGTCAG
+AAAAATTAGGAACACCAAATTTCAGTTGTCTCAAAAGCACTCCTCTTATT
+AAATTTGGATGTTTACCTTTATCACATCAAAAGAAATATTGTTAGAAAGG
+TGTTTAATGTTTTGCAGATGGATAGATTACTGTTATTAGTTCTCATTTCA
+TTGTTAATTTTTAAAACCATAAGGTTGGAAGTATCAATATGCCTTTCAAT
+ATACCTTAGTGGAATTTATTAAAttttcatggatgtcctttagggggttc
+aggaagttatttctattgctagatttctggaagatttatcaggaatgagt
+gtcagacattgtcagacgtccattgaaatcatcatggtcttttcctttat
+tctattaatatgatgtattacactgattgatttttaaatttgtattggta
+ggataattccacttggttatattgtctaacttttttctaattttctttca
+tttttattacagatgaggcctcactctgtcacccaggttggggtggagtg
+gcacagtcacagctcactataacctcaagctcctgggctcaagtgatcct
+gccacctcagcctcctaagtagctggaactacagatgtgcactgccatgc
+caggcttgtctaacatttttatgtgttgcttcatccagtttgctagagtt
+tttggagatttctgtcttcattcatgagggataatagtctgcacttttat
+tttcttgtgatacttttgtctgatttgttatctgggtaatactggccttg
+aaaatgaattgatgttttcctgcttctctgctttgcaagtgtttgtgaag
+gattggttattcattaagtgtttaatagaattcactagtgaagctatgtg
+agccagggctagactgatgaagagttttcattagtctaatctgtttactt
+gctgtataagtacgcatatattctctttcttcttgatttaattttacact
+ttgtgtatagcagggaatctgtGTCTAATTTGTAGTATTTCATGCTTCTA
+GGTTTTCATGGCAGTTGAGATGTAAGAATAACAATAATGTTGGGAGAAGG
+AAGTTGTGGACAATCCATGAATATCCCAACATCTGTTGTAGGAAGGTTAA
+GATTACTTTTTTTTTTTTTGCTGTACTGAACTGAATACTCTTATTTATAA
+TGTCAGACAAATGTAATGTTGTATATAAATAGAACTAGGAAAATGTGCCA
+TTTGTCTTAGTATTTAATCAAGATGGAAGTCTGGGCCTACCTCCTCTCTT
+TTATTAATATGTAGACAGGACACCAACACAAATTAGAATGAAGACAAACA
+AAATGTTAGCAAATGAAGAATGGTATCAATTGGTTAAAATGTGATGAAAT
+AGAGTGGTGAATATTTACATAGAATCCATGATGTGTTAGGTGCTATTTCA
+AGCTATTTGCACATATAGTTTTAATACCAATGACGTTAAAATGTATAACA
+CAAAGATTCATATAAATAAAAATTACAACATTGTAAATAATATTAGGTGA
+CACTAAAACTGTCATAGAAATACACATTTATATAAAACATAAAGTAACAT
+GAAGTATTAAATTTTAGAAACTTTGATTACTAATCAGATGAACAACTGAT
+TAGCCTTTTTATCCAGTAAAAAAGGCATACATATTATTTTCAAATTCCAG
+AGACAAATATTTTAAATATTGAAGTTGAAGACCTAAAAATGTGTCACTGA
+CCTCATGGAAGTAGATATTCACTAGGTGATATTTTCTAGGCTCTCTGAAA
+TTATATCAGAAAAATGTGAATTAGAATATAACCCATAAATAATATCTGGC
+CACATACAAAGTAATTGAAGATCAATTTAAATGGCTATTGGATTAAGAAA
+TAGGGACTGAGGTAAATTTGCAGTGTCAGGGAGGATCTAAGGAGGAAGCA
+TTGACACTGGAGCCCAAGGACCTGGGATCACAGAACAGATTCTACCAGTG
+CTAACTTACTGCTCCACAGAAAACATCAATTCTGCTCATGCGCAGGTACA
+ATTCATCAAGAAAGGAATTACAACTTCAGAAATGTGTTCAAAATATATCC
+ATACTTTGACATATTAATGAAGTAATCACATTCTACACATAACTACTCCA
+TATGGAATACTGGGGAGGAGGTGTTCCAAATAAAGAGACTGAGGATTTCT
+CATGAGAACTCAGTGTCTGCTAGAAAATATCTAAGTAAAATATTTTACTT
+ATGTGGAAAGTGTGGATGTTTGTGCATCAAAAGTTTCAAGAATCCCTAAA
+ATTTACAATGGAGATGAGGAGAAAATATCAGAATTTCCCAGCACCAGAAA
+TAAGGCAAGAAAAAATTCAGAGGGGTTGTAAATGTGAAAAGCCAATGGCT
+GGTCACACAGCAACATTGATAACCTTGTGCCTGGACAACTAGAATAAATA
+CATAAACATACACATTGAAAATATTTCCAATATTAGATCTCCCTCATGTG
+AGAACTAAATTATAAAGATTGAAGCATAGAAGAAAATAAGCTACCAGAAT
+AAATTTGATTACACATAAATTTCTGATATTGAAACTGTCACAAATGTTTA
+AGTtggtagtggaagacaaaggacatataatcttgggagtcctaaggccc
+tgcccactgccagtccctccacactactacagctgatgctttctggaaat
+caccacctcctggcaggagcccaaccagcacaaatatagagcattaaacc
+accaaagctaaggaggctcacagagtctattgcacccttcaccacctcca
+ctggaacaggcgctggtatccatggctcagagacccaaagatggttcaca
+tcacagggctctatgcagacaacccccagtaccagcccaaagccacgtag
+acctgctgggtggctagacccagaagagagacaacaatcaatgcactttg
+gcttacaggaagccatgcccataggaaaaaggggagagtactacgtcaag
+ggaacaccccgtgggatgaaagagtctgaacaacagtcttcagccctaga
+cctttcctctgacagagtctaccaaaatgagaaggaaccagaaaaccaac
+cctggtaatctgacaaaacaagaatcttcaacaccccccaaaaaatcaca
+ccagttcatcaccaatggatccaaacaaagaagaaatcactgattcatct
+aaaaaaaaattcaggttagttattaagctaatcagggaggggccagagaa
+agatgaagcccaatgcaagaaaatccaaaaaatgatacaatacgtgaagg
+gagaattattcaaggaaatagatagcttaaataaaaaaataaaaaatcag
+gaaactttggacgtacttttagaaatgtgaaatgctctggaaagtctcag
+caatagaattgaacaagtagaagaaagaaattcagaattcgaagacaagg
+tctttgatttaacccaatccaataaagacaaagaaaaaagaataagaaaa
+tatgagcaaagtctccaaggagtctggcattctgttaaatgatgaaacct
+aacactaattggtgtacctgaggaagaagtgaattctaaaagccaggaaa
+acatatttgggagaataatctaggaaaacttccatggccttgtgagagac
+ctagacatccaaatacaagaaccacaaataacacctgggaaattcatcac
+aaaaagatcttagcctaggcacattgtcattaggttatccaaagttaaga
+caaaggaaagaatcttaagagctgtgagacagaagcactaggtaacctat
+aaaggaaaacctgtcaaattaacagcagatttcacagcaggaaccttaca
+agctagatgggattggggccctttcttcagcctcctcaaacaaaacaatt
+atcagccaagaattttgtatccagcaaaactaaacatcatatatgaagga
+aagatacagtcattttcagacaaacaaatgctgacagaatttgccattac
+caagccaggactctaagaactgctaaaaggagctctaaatcatgaaacaa
+atcctggaaacacatcaaaacagaacttcattaacgcataaatcacacag
+gacctataaaacaaaaatacaagttaaaaaacaaaaacaaagtacagagg
+caacaaagagcatgatgaaagcaatggtacctcactttttaatactaatg
+ttggttgtaaatggcttaaatgctccacttacaagatacagaaccacaga
+atggataacaactcaccaactaactatctgctgccttcaggagactcacc
+taacacataacgacttacataaacttaaggaaagtggtagaaaaaggcat
+ttcatgcaaatggacaccaaaagcaagcagcagtaactattctcatatga
+gacaaaacaaactttaaagcaacagtagctaaaagagacaaagagagaca
+gtatatcatctgtcacctgacagtctcatccaacagaaaaatatgacaat
+cctaaacatatgtgaacctaacactggagctcccaaatttataaaacaat
+tactagtagacataagaaataagatagacagcaacacaataatagtgggg
+gacttcaatactccactgacagcactagacaggtcatcaagacagaaagt
+caacaaagaaacaatggatttaaactatactttggaacaaatggacttaa
+cagatatatatagaacatttcatccaacaaccacagaatacacattctat
+tcaacagcacatggaattttctccaagatagaccatatgataggccataa
+aatgagtctcaataaatttaagaaaattgaaattgtatcacgcactctct
+cacatcacaatggaataaaactgaaaatcaactccaaaaggaatcttcga
+aaccatgcaaatacatggaaattaaataacctgctcctgaatgagcattg
+ggtgaaaaacgaaatcaagatggaaatgtaaaaaatttcttcgaactgga
+tgacacaacctatcaagacctctgggatacagcaaaggcagtgctaagag
+gaaagtttatagcactaaacacctacgtcgaaaagtctgaaagagcacag
+acaatctaagttcacatctcagggaactagagaaggaggaacaagccaaa
+cccaatcccagcaaacaaaggaaataaccaagatcagagcagaactaaat
+gaaattgacacaacaacaacaacaacaaaaatacaaaacataaataaaac
+aaaaatttggttatttgaaaagataaaattgataaaccattagcaagatt
+aaccaagaaaaggagagaaaatccaaataacctcactaagaaatgaaaca
+ggggatattacaactgacaccactgaaatattaaagattattcaagggta
+ctatgaacaccttttagcacataaactagaaaacctagaagagttggata
+aattcctggaaaaatacaaccctcctagcttaaatcaggaagaattagat
+accccaagcagaccaataaagcaagcagcaagattgatagggtaatttaa
+aaattaccaacaaaaaaagccaaggaccagacggattcacagcagaattc
+taccagacattcaaagaagaaatgataccaatcctttcacactattccac
+aagacagagaaagaagaaacccttccaattcattctatgaagccagcatc
+agcctaataccaaaaccatgaaaggacataaccagaaaagaaaactacag
+accaatatccttaatgaacgcagatgccaaaatccttaacaaaatactat
+ctaactgaatccaacaacatatcaaaaagataatccaccaagatcaagtg
+ggtttcataccagtgatacaggaatggtttaacatatgcaagtcaataaa
+tgtgatacaccaaataaacagaatttaaaaaaaactcacatgattatatc
+aacagatgcagaaaaagcattcaacaaaatctagcattgctttatgatta
+aagctctcagcaaaataggcatacaagggacataccttaatgtaataaaa
+gccatctatgacaaacccacagccaacataatactgaatggggaaaaggt
+gaaagcattccctttgagaattggaacaagacgaggagactactctcacc
+actcctcttcaacatagtactggaagtcctagccagagcaatcatacaaa
+ggaaggaaatagaggaaatccaaatcggtaaagaggaagtcaaactgtca
+ctgcttgctgacaatatgatctttcaccttgaaaaccctacagactcctc
+tagaaagctcctagaactgataaaagaattcagcaaagtttccagataca
+agataaatgtacacaaatcagtaactcttctatacatcaacagctaccaa
+gcagagaatcacatcaagaactcaaccccttttacaatagctgcaaaaaa
+aaaaaaaaaaaaaaaaaaaaaaaaaaaacttaggaatatacctagcaaag
+gaatcaaaagacctctacaatgaaaattacaaaacactgctgaaagaaat
+catagatggagccaagcatggtggcgcatgcctataatcccagctactcg
+ggaagctgaggcaggagaatcgcttgaacccaggaggcagaagttgtagt
+gagccgagatcacaccattgcactcccacctcagcgacaagagcgaaact
+ccctctgaaaaaaaaaaaaaaaaaaaaaaaaaaaaaacaagaaagaaaag
+aaatcatagatgacacaaacaaatggaaacgcacccccatgctcatggat
+gggtagaaccaatattgtgaaaattaccattctgttaaaggcaatctaca
+aattcaatgcaatccccatctgaacaccaccatcattcttcacagaatta
+caaaaacgattctaacattaatatggaaccaaaagagagccatgtagcca
+aaccaaggctaagcaaaaagaacaaacctggaggcatcacactacttgat
+ttcaaactgtacaataaggccacagttaccaaaacagcatggtactggtt
+taaaaataggcatatacaccaatggaacagaagagagaacccagaaatta
+acccaaatacttacagccaactgatcttcaacaaagtaaacaaaaacata
+aagtggggaaaggacacccttttcaacacatgatgttgggataattggtg
+agccacatgtaggggaataaaattggattctcatctctcaccttatataa
+aaatcgactcaagatggattaagaacttaaacctaatacctgagctataa
+aaattctagaaaataacactggataaacccttctagacattggcataggc
+aaggatttcatgatgaagaacccaaatgcaaatgcaataaaaacaaagat
+aaatagttgggacttaattaaactaaagagcttttgcatggcaaagggaa
+cagtcagcagagtaaacagacaacccacagagtgggagaaaatcttcata
+atctatacatctgacagaggactaatatccagaatccacaacaaactcaa
+acaaatcagtatgaaagaaaaaaacaaccccatcaaaaaatgggctaagg
+acatgaatggacagttctcaaaagaagatatgcaaatggccaacaaacat
+aaataaaaatgcttaatatcactaatgatcagggaaatgcaaatcaaaac
+cacaatgcaataccaccttacctcctgcaacccaaaaataaaaaaacagt
+agatgttgccgtggatgcagtaaacagggaacacttctacactgctggag
+ggaatgtaaactagtatgccactatcaaaaataatgtggagattccttaa
+ataactaaaagtagaaccaccatttgatccagcaatcccactactaggta
+tctacccagaggaaaataaatcattattcaaaaaagatacttgcacacgc
+aagtttatagcagtacaattcacaattgcaaaatcgtgtaaccaacccaa
+gtgcccatcagtcaacaagtggataaagaaactgtgagatagatatatat
+agatagatatatagatatatatatatagatagatagatagatatagataa
+atatatatagatatctatagatatatagatatagatatatataatggaat
+actatgtagccatagaaaggaatgaattaacagcatttcctgtgacctgg
+acgagattggagactattgttctaagtgatgtaacccaggaatggaaaac
+tcaacattgtatgttctcactgatatgtaggagctaagctatgaggacac
+aaaggcataagaatgatgcaacggactttggggacttgggaggaagagtg
+ggagggaggcgagcaataaaagactacgaatatggtgcagtctatacggc
+ttgggtaatgggtgcaccataatctcacaaatcaccgctaaggaacttac
+ttatgtaaccaaataccatctgtaccccgataacttatgaaaaaattaaa
+taaaAATAATAAATGAAAaataaagtataacacaccaagaaagtgaagag
+ataacccacagaatgggaaaaaatgattgcaaactatccatctgacaaag
+gattaataactgcaatatgtaagaagctcaaacaactctacaagaaaaaa
+tctaataacctggtcaaaaatggccaaaaagatttgaagatatatttctc
+aaaagaagacatacacatggcaaacaggcatatgaaaaggtgctcaaaat
+cattgatagagaaatgcaaatcgaaactgaagtgtgacatcatctcactg
+gagttaaaatggcttatatgcaaaatacaggaaataacaaatgctagcga
+gaatttggagaaaagggaaccctcatttactgttggtgggaatgtaaatt
+agtacaaccactataaacaacagtttggaggttcctcaagaaactaaaaa
+ttaagctaccacattatccaacaatcctactgttgggtatatacccaaaa
+gaaaggaaatcagtatgttgagatatctgtactcctgtgtttgttgcagc
+actatttacaatagctaagatttggaagcaacctgagtgtccatcaagaa
+tggattaaaaaatgtggtacatacacaccatggagtactattcagcccta
+aaaaagaatgagaaccagtcatctgcaaggccatggatggaactggaaat
+cattgtgttaagcaaaatagccagccacagaaagacaaacatcatatgtt
+ctcacttatttgtgggatctcaaaatcaacccacttgaactcatgaacat
+agagagaaggatgattaccaaaggctgggaaggatagtggggagctaggg
+tgaggtgggcattgctcatgggtacaaaaaataattagaatgaatgagag
+tcactatttgatagcacaatagggtgacaatggtcaataataacataatt
+gtacattttaaaataacttaaagtgtaattagattgttcacaactcgaaa
+aataaatgcttgagaggatggatgtcccattctttgtgatgtgattattt
+aattttgtatgtctgtatcaaaacatctcatttatgttataaatatatac
+acctatgtacccacaaaaattaaaaATTAAAAAATTATAAGACAGTTGAC
+TCAATTTGAATTTTGGGTAATGTTATTATTTGTATAAATATCTTCCAATA
+CTTGCTTAAACACATTACACataaatatgcaaatattgcttagctatact
+aaaatgttattcattgctcatcccaattttaaactttactgtgttcctta
+tattttctttcagtaaatctgacaCATTCATTTTAAAAGTATCATAGGAT
+TTACAATAACATAGTACAGATGTGAGGAAAAAAGAATAAAATAAAAATCC
+TTAGAGGTCATATGGGTTGGTAAGAGTATAAAAGAAAACTGAGTCCCATA
+TGATACATTAAAAACATAAATCAGGATGTACATCTCAGCTCTCACCAGGA
+GACGTGGCAACCAGAATGTCCTTGGGCTGAGGGTGAAGTCCCTGACCACT
+CTCAGAGACAGACAATGCAAATCAAGTTCATTCTAACTGTGCTTGATTAA
+CCTTCAAAATTGTGTAAGTCCCTAAGCATATATATAATCATGAGTAGTTG
+TGGGGAAAATAACACCATTAAATGTACCAAAACAAAAGACCGATCACAAA
+CACTGCCGATGTTTAGATCAGATGTGTGAAGCAAAGAAAGAGAGTATAAT
+AAAAAATAATTTAAAGAAAATAGAGCTTGATAAATCTGTTTCTTCATCTT
+CATAATAATGTCAAATTTGTTGAGATTTTTTTTAAATGGCACGATTTGTC
+TACAGATCTTTGTACTCTGGCTTAAATTAAATGTATATACAACTTATATA
+ATAAAATACTGGGCTGTTTTATTATTATATTGACAATTTCTTAGTCACCA
+CTACTTTGATCATATTCTATAAATGGCACTGTGAGACCTATCACTGGTTA
+TCAACAACATAAAGTGTTTATGACAATTTCATGTGACAGATGAAGGAAGT
+TTGGTTAGTGCAGTGGCAATAGTTGGCAACCGAGAAACTGAGCTCACAAT
+TTTAGAAAAGTATTATTCTTTCTAACTAGATATTTCCATGAAAAGAACCT
+TGTGAAATGCAGAAATGCCAAAAGAATAATTATAAGATAATAACCAAATA
+ACTAAAATACATCTCAATTTCTCTGACAATCTAACTTAATGCAGGGTACA
+GCCAGAATCATGATGTTTACAAACATAGACATTTACGATCTCGAGACATT
+TAATTATTAGCTGGTTGAGGAAAACAGTAGTAGAACTGTTATTGCAGAGA
+TAAAAGACAGAAAACAGTGGAAGGGCTTGATCACAAGTCATATGTTCCAG
+TTTTGGAAACCTCTAAAAATCCTGCCTGGTGATAGGTTTTTCTTATCTCA
+TTATTGAAGAATATATGAGCAggcagggcacggtggctcaaacctgtaat
+cccagcactttgggaggccagtgttggaggatcacttgaggccaggagct
+caagactagcctgggcaacataggaagaccctgtctctacaattttttta
+aactagccgactgtggcggcatatgcctgtagtcccagccactagggagg
+atgaggtgggagaatggcttgaccttaggtgtttgaatctggagtgatct
+gtgattgtgccactgcactccagcaagaatgacagagctagatcctgCGT
+ACAAATATACACATATTGTATATATTGTCAATGACCAGTCACAGGTCTTA
+CAATGCTGTTTATACAACATGGtaaaaataatgttgacaaagaaattatc
+acaataataataataaAAGCCCTGTGTGTTATTATTTAACTTGTTCATAA
+ATTTAATGTAAATGAGGTAGAGTAATAAAGATCTGTAGACAAATCATGTC
+ATTTATTTTTTTTAATCTCAACATAATATAACttttttttttttttttaa
+acagagtctcactctgtcacccaggctggaatgctgtggctagatctcgg
+ctcactgcaacctccaccaccctggttcaagcgattcctctgcctcagcc
+tcccaagtaacggggattacaggttcctgccaccgtgcctggctaatttc
+tgtatttttagtagagagggggtttcaccatcttgactaggctggtctta
+aactcctgacctcgtgatccaccggctcggcctcccaaagtgctgggatt
+acagaagtgagccaccgcgcccagccAACGTTTCTTTTTTAAAGTGTGCA
+AGCTCTTTGACCATCATGTCTCTGTGCATCACTGCAATAAGATAACCAGA
+GCAACTGTTTCCACCGTGGAGTTGGGAGGAGATAAAGACACATCCTTTGT
+GCTTTGGGCGCTCTTATCAGGATCAGGGAGGCCCCTGCCCTCTGATTTTC
+TCTCTCTTAAATGTACAAAGTACAGAGATTTTTATCATGAATAATTTTAA
+GAGAAATTAAAAATTCTATATTGTTCAAGGACATGCAGGTTTTCTATTGA
+TCATGTTTCCTCTTGATATTATTAGGCCCTGGCCAGCCGCAAATGAACAA
+TCTCTATCATCAACATTGTGTTCCTTTGCGTTTTAACCTTTCCTGATTCC
+ATTCTCTCTACCTTTTATTTTGAAGAAGCATAGACACCAGAAAACCCTAT
+CCCTACCAAATGCCAAAAAAAAAAACCCTAAAATTGTAAATATTAACATT
+TACAAGTCACATTTGGGAATATATAATTTAATTAGAAAATTACAATTTTA
+AACTTTCAGAGGAAGTGGTAGTAATATAAAACAGAGGACATTTTTATAAT
+AAGGAACTCTTATATTTTGCAAATTATTATTCTCTCATCACCAAATAGTG
+CTACCTAAAGTAATATACAACCAATTTAATAAGTTTAGTTTTAAAAAACA
+CAAAATTACAAAACAATTAATACAATATTTGAAATTATGATGCATATTGC
+CAGCCTCCCTTCAGGTAAAATTCTATTAACTCTACAAAAATTTTCTAAAT
+GGCAGATGTTACATTTCCAGAAAGCTTTGTGGTAACCAAAAAAGAATTGA
+TTTATTAGCAATTTTTATATCACACTGAGACAAAATATTATTTGTGATAA
+ATATTGTTATGTATTTAAAACATCTCATGTATTAAGAAATCATACTTTAG
+ATGGGGCcaagctggcctattagaagcagctgtggcctgcggctctcacg
+gagagcagtaaaaactgcgagtgaattctgcaccttcagttgaggtatcc
+aggttcttgcattgggactgactaggcagacagctcgacccacagagagc
+gaggaaaacaagtggggcgatggcccacccaggtgtggcacggagctagg
+ggcgcccccactcgcagccaagggaggcggtgagggattgtgcgactctg
+cccgggaaaccgtgcttctcccacggatctttgcaacctgcagatcagga
+ggtcccctggtgagctcagccatggccttgggtctgaagcacagagctgt
+gtggagtctgggcggaatgctcgctggctcactggggcatgcgtgaaagc
+ccaggagttttgcatcctctgccccgagaattccagcaaagcggaagata
+catccgtgcattcccctaggaagggggctgaatccagggagccaagtgac
+atcattctgaggccccactcccacagcacctcacaagtcccattggcttg
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+TCTAATTTATAAAACTCCCACACAAGAAAAGTAGATACTGACTTCACAAA
+TCTCCTTACAAGTCCCACAGCAAGGGCTGTCTGGGAAAGCAGAGGTGGAA
+AAAGTCACATAAACTTGAGATCAGTGTGAGACCTCCCATCCCCCACTCTG
+GAATCAGATGGAGGAAGGCAGGCATGCAGGCTGAGCTGGAGAGATGAGCT
+GGGGTGGGCAGAACTGTCTTCCCATGAGCCTAGACCTTAAGTGCTCCCAC
+ATGATCTCAGGCATGTATCAAACCAAGAAAGCGGCTAGGAGGGCAACACA
+TCTACCTGTATACAGGGAGCTATGAAATACGTGAGCTGCGCAAGTGATGC
+ACAAGGAAACGGAAGCAGTATGACCTTTACACAGTGACCTGGCTCAAATA
+ATTTCAGGCTGTCATTAACCAGGCGAGCTCCACTTTCTCTCTGAGGTAGG
+TAAAATTGAGGGGGTAAAGTGGGAGTTGGGGAAAATGGAAAAGAAAGCCT
+GGTAGTATTTCTTCTAACTCTGTCATAAATAAAAAGTAAAACATAGATGC
+CATTTCTCAGGGCCCAAATGTTAGGTGAAAAAATGTTTGTCATCTCAGTC
+ATGTGATGTGGACTTCAGCAGAGCAGTACACACATGGTCATTTATCCTTT
+CCCTCTGCATGTTGTGTGCTTTTTCAGTTTATAATGTACCTGATCCACTT
+GTCTCATCACACTAGCTGCAAACAAGGCCACTGAATGTCACAGCAGGTGG
+CCGGCATGTCTGTGAAGGGCAGAAACTGGGGCAGCCAAACAGCTGGCAGA
+GGCCAGCTAGGAAGTACCTGATGCCCACTCCATAGAGGACTCCACACTTA
+AAAGACAAGATCAGCAAGTGTCAGGCTGCCTCACTAGTTATCCCCCCAAA
+TAAAAAAATAAAAGTAACCCCTCCAGGGAACGTGTATGTGTACACACAAA
+AGTACATGCACACAGCTATATGCAAATGGGAAAGGCTTGGAAGGAACCAA
+ATCCACCTCTGAACACTAGTTACTTGTGGGGAAGGGGCAGGTGAAGCCAA
+CTGTCAGCATTACTCACCTTTTCAACTGATGAGCTTACATCAATTTTGGC
+AATTTCTCATAAAAAGGCAATTTTCACTCCTTGGGTGATCACCCAGGTCC
+TGCAGAACTGAGCCACCAACAACCACCTGCACCACTTCCCATGAGGCCAA
+ATAATGGCTTCCCTCAAAGCTCAGCCCTCCCACCCACCTCCCAGTCCTCT
+CCCATGCAGGGGGCTGCCGGCCTCCTGGGGTACAGGGGTCCAGGCCAAAC
+CCAATCCACGCATGGTTGGTGAAACCAGCACGTATCCAAGGGCCTTTCCC
+CCACCTGGGCCATGTGCCCACTGCATAGATAGGCCTGTGCTTGCTCCCCT
+AGGACAGAGACTCCCTTTTCTTCCATTGGAATGAGGAGTGGGGAGATTTG
+ATGGTGTCCTGTACAGGTTGGGTGTTAATCTGATGTGGTGCTCTTGGAGA
+AGCTTGCTTGAGTTCGGCGCTTTCTCAGCACGTGGTGTGTGCTGCCCCTT
+CAAGCTGCAGGAGTCCCAGAAGGTAAGTGCTGCTGCAACCCCCATTTACT
+GGTGAACAGAGGTCAGGTGATCTGCAGCCAACCAAGCAGCTGCTAAGTGG
+CCAACAGGCTGGATCTGCATCTAACTTGCAGAGGCCCTGCCTGGATGCTG
+GGGCTGTCCTGAGACTCcctcctcctcctcctcttccctccACAGCTCTC
+CTGGCTTCTATCCAAAGCTGTGTTCCAGGTGGGGAACACCTATGGATGCA
+CCAGGGTGCAACTACTCAGAGTCCAGTGTGCAGAAGGGCCCCTGCTCTAT
+GCTGTTTCCGTATCCAAGCCCAAGCTCTTCTAGAGCTTCAGCAAATCCAA
+GCCTCCCTGAATTCCCTGCAAGACCAAACTGAGCCCTACAACCCCCACCA
+CTCTGGTTAGCTGCCAGTCCCAGCCCCTGTTCCCTCCTGGGCCCCTGTCT
+GTACAGTTCTGAAGTCCTACAAGAATGTTGAGATCCTAAGCCGACTCTCA
+CCCAAAGAGGTAAACAACCAGGGGCCTCCAGGTTGAGAGAATATACCCAG
+ACAGGTTCTGCTGCCTGTAGGCTTGATGTCTTTCCCCTACAACACGCCTT
+GCTTGCCAGGCTGGAAGAGGGGCTCCAGAAACTTGGGAAACCTGGGCCTG
+TAGCTGGCATGTGGAAAAGAGGCCTGGAAAAGCACCATTCCTGTCCATGA
+AGCCCCCAGATGGAACCAGGTAATTGGGAAATACATGGGCACCAAGCCTG
+AACCCCCCTCAGACCCAGGTGGGAACTGCAGTGGTGACTTGCCCCCTCTG
+CCAGTCTGGCTGTACCACTACAGGAGGGAGGAACATCTAGCCCCACACGT
+GAGTGGAGACACCAGGTGTGGGCAGGTTCCAGTGGTTGCTGCAGCTGAAC
+CTTCCTAACCAGGTCCATGCGAGACCATCTCAGATGGGTGTGCACCTGGG
+TTGGGCAAGGACACCCCTCAGACAGTGAGAGCCACTGAGGAGGGCTGTCA
+CAGAGGCCCCTTTTCCTGCTCTTAGAACAGGTtgggcgagtatgggggag
+tgtgggggagtatgggggagtatgggggaCCTCTCCCACCTCCCAGCTGC
+TTCCAGGAGCCACTTCTTTCGAGATGAGACTCTCCTGCCTGCCTGTTCCC
+ATTTGGCTGCAATAGACCATTGACAACATTCAGAGAACAAGAAGGGGCCT
+CACCTGTTTTCCCTGACACGTAGGAGGCAGATGGGCATTCCCAGGGGACC
+TGGGGTAGAGCCTGTTCATCTGCCCACCCCCAAGGCTATGCTGGCTTCAT
+CTTATCTGTGCGATAGGGCTGGGGGTGGGGGTGGGAATTACCAGGAGACC
+ATCACACAGGCCGTGGACAAGTTCTACAAGAGCCAGGGAGAACACTGTCC
+GTGCATGCGTCCCAGCACCCAGCTCACACATCTCTCATTTGACAGCTTCC
+CCAAAGCAGGCTTTGCAGTCCAGGCTCCCCAAGAAGCCAGGGGAGGAGAC
+TCTGCCAGGCTGAAGGGTCTGTCCCCAAAGGTGCCACCCTCACCAGGCTC
+ATCCTGACAATCTTGGATTATTTTTGCCCTGAAGTTTTGGAGTGGGGGAC
+AGGGAGAGAGCAGACAGTACACATTAGCCACCTTTCCAGAGAGCATCAGC
+CCTCCAGACTGGGGCAGGTCAGACCTCCACTCAGGCATTTTTCTCACTGG
+TTGCCAGTTGGGGGAAGCAGTATTTGTGAGCACCTGCCTGTCTCCCCAGC
+TCCTGTTCAGAAACCCCATCTGTGCCTTTGGAGGGACTGCCCTGCGCACA
+CAGGCCCAGCAACCACCATCTACGGCCCCCAGGACCTAATCCCCTTCTAC
+TTGGGATTCAGTGCATGTTAGCAGACACTGGGCTTGATTCCTGCCTAGTC
+CCTGCCAGACATCCCATGCCCACCTCATTAAGAGAATGAGGCCACACAAA
+CACACCCAGGCCATCGTGATGATGGAGTGCCTGGGGTCCCACTTGCCCAC
+CCTTCATTGCTGGTTCAGAGCCAGCTCTGACCACATTCCTACCCTGAGAT
+GGGACTCTGGGGACATTGTCCACCAGGGTCACTGACCCCTTTTAACGTTC
+CAGAAACATGGCCAGCTGGTCCCCTAGAAGTTTGGTATATGGGATAAGCC
+AAGGCTTGCCTTCAGCAACAGGTTTTCCACCACGTCACTGCCCAAGGCCC
+AGGGCATCCCCAAGTTCATGTGAAGCCTGCCTGCCATGTCCACAGCCCAT
+ACCGACCCCTCCTGGAGCCACTGGAATGCTTGTTCCTGGGCATGTGATGA
+ACCCAGACAGCTTCCGCCTTGCAGGACAACTATGCGCATCTGGCAGCAGT
+AGCCAGAGGGCCCATAGAAAGAAGATGGAGGCAAAACCAGATGCTGTGAG
+AATACTTTATTAGTCAAAACCGCATACTATAAAAATGCTTTAAAACGCAG
+CAGGAGATGTGAAGACACAAATTAACAAGCGTATAGTGACACATGGCTGT
+CAGAACACAGTAAAGAATCCACACTGCTTCCCCCCTTTACCTAGAAAAGG
+AGAGTTCTAGGccacctcctcctcggcatactcctcatcctcctcctcct
+cGGCCGTGGCATCCTGATATTGCTGATATTCAGACACCAGGTCGTTCATG
+TTGCTCTCGGCCTCGGTGAATTCCATCTCATCCATGCCCTCGCCCGTGTA
+CCAGTGGAGGAAGGCCTTGCGCCTGAACATTGCTGTAAACTGCTCTGAGA
+CACGCTTGAAGAGTTCCTGGATGGCCGTATTATTCCCAATGAAGGTGGCT
+GACATTTTTAGCCCCCGGGGTGGGATGTCACAGACGGCTGTTTTTACGTT
+GTTGGGGAGCCAGTCAGCAAAGTAACTGCTGTTCTTATCTTGAATGTTGA
+ACATTTGTTCATCCACCTCCCTCATGGGCATGCGACCCCTGAAAATGGCA
+GCCGCCGTTAGGTAGCGGCCGTGACGGGGGTCACAGGCAGCCATCATGTT
+CTTAGCATCAAACATCTGCTGGGTAAGCTCAGCCACAGTCAAGGCCCGGT
+ACTGCTGGCTGCCCCGGCTGGTCAGTGGGGCAAAGCCGGGCATGAAGAAA
+TGCAGCCGGGGAAACGGGACCATGTTCACGGCCAGCTTCCGCAGGTCAGC
+ATTCAGCTGGCCCGGGAAGCGCAGGCACGTGGTGACCCCACTCATGGTAG
+CAGACACCAGGTGGTTCAGGTCACCATAGGTGGGTGTGGGCAGTTTTAGG
+GTCTTGGAACATATGTCATACAGAGCTTCGTTATCTATGCAAAAGGTCTC
+ATCTGCGTTTTCTATGAGCTGGTGGACTGAGAGGGTGGCGTTGTAGGGCT
+CCACCACGGTGTCCGACACCTTGGGCGAGGGCAGGATGCTGAATGTGTTT
+ATGATCCTGTCTGGGTACTCCTCCCGGATCTTACTGAGCAGAAGGGTACC
+CATCCCAGACCCAGTCCCCCCACCCAGGGAGTGGGTCAGCTGGAAACCCT
+GCAGGCAGTCACAGCTCTCAGCCTCCTTTCTGACAACGTCCATCACTGAC
+TCCATCAGCTCCGCGCCTTCGGTGTAGTGTCCCTTGGCCCAGTTGTTTCC
+GGCCCCACACTGACCTGTAAGACAGCACAGCCGGTCACTCGACGGCCAGG
+TATACGGTCATCAGTGGTCACCACCATAATGCAGAAAGAGCCAAGCGTCA
+CACGTGAGGTGAGAGCACCGTTCGCCCTGCAGGTGGAGCAGATGAAACCC
+CCTCCCCCAGAGTTACAGGACAGCAGCTTCCCCTGTTAGGAATTAAGACA
+GGAGTCAAACCTGAGACGGGTTCACAGACCTCGCTGCAGGTGGCTCCTGC
+CCATTCTCAGGAAAGGCAGTAGCCACGGCCCCAGCTCAGGTTCTTGCAGG
+GAGTTTACATCAGTAACTCCTCACCTTGAGGAGACACCAGGGCCTTCCTC
+CCGAAGCCCATTTAGGAGAGGCAGATTGAGCGACTCGACTCGGAGGATAG
+GAGGGTGTTCAGGGGCCCTAGCTCCACAGTTCCCAGAGGATGACCTTAGC
+ACACTCCTGGATTTTGAGCTGCCCTGGCTAAGGAGCCGCACCCCAGTCCT
+CGCCCGCAGCTCACCGAAGATGAAGTTGTCTGGCCTGAAGACCTGCCCGA
+AGGGCCCCGAGCGCACAGAGTCCATGGTGCCCGGCTCCAGATCCACGAGC
+ACAGCGCGGGGCACGTACCTGCCACCTGCGTGGGGCGGGAGGGCATGAGC
+GAGGGGAGGGCCGCGTTCCCAGGAGGGCGGTGGGGGAAGGACGGGGGTCT
+CACCGCTGGCCTCGTTGTAGTACACGTTGATGCGCTCCAGCTGCAGGTGG
+CTGTCCCCGTGGTAGGTGCCAGCGGAGTCGATGGCATGTTCATCAGAGAT
+CACCTCCCAGAACTGCAAGAGACGGGAGGAGACAGACAGGCCGGGGCTGA
+GTCAGGGAGGCGccccagccgctctcccacccccaccctcatccgcaccc
+ccatcccTAGGCCGCCCTGTCCCTGGGGTCCACCCCGGCCGCCTCGCCAG
+CCACCCGGTTCCACCGTCCCCGGCAGGGAGCCCAGGGGCCGCAATGCATG
+GGCACCGCCCCCGCCACTGCCAACACCTTCCCCGGCCACCCGGCAGGCCC
+GGGCTAGGCCCTCAGAGCCCCGGCTGCCAACCTTGGCGCCGATCTGATTC
+CCGCACTGCCCGATCTGCGTGAGCACGATCTCCCTCATGGCCAAGGCGGG
+ATTAGGACGGCAGGAGAAACGTGAGAAGGAGGAGCAGACGCGCAGCGACC
+CAGCCCGCCCTCCGCCAACGTTTAAATAGCCCCGCGCCCACCTCCCTCCG
+CCTCGGATTCGGCTCCCAGAataagcaacagctttacttccacacaggtg
+cacccacctgtggatcccctggcgctgaacatctgttggaaagctcaggt
+gtccttgcgtggtcctttccacgttggggaaagctgctcgctggagaact
+tcctcccgcgtctttagtaagactaaatccctagctgagctgaaactgaa
+ttttcctcccatgtgggaggggaagactcttgtttccatatgcacggagt
+gcctttgcacctgtcctagattgatgacatatttttgtaattgatgagtc
+ttttcatctattaggagatctgtggttaggaaaggccttccacatgtgaa
+ctcaacaggactcaattatacgttttactttggagcagttctaacccaca
+ataagctatgggtgttagagacagtcaggcctctgatttagctggagtct
+tctttagagtagggttagccctttcacctttccagaggactgtggtctcc
+agcagagtgaaggtcatattggattcttaaagctgaggacaggttttggg
+atacgcctgctgtgaaagatgggccattgtcactttgcaggcttttggat
diff --git a/databases/taxid_map.txt b/databases/taxid_map.txt
new file mode 100644
index 0000000..e69de29
diff --git a/databases/test-setup.sh b/databases/test-setup.sh
new file mode 100644
index 0000000..c86a2d4
--- /dev/null
+++ b/databases/test-setup.sh
@@ -0,0 +1,11 @@
+HUM_STAR=test/star-index-dir
+HUM_BOWTIE_DIR=test/human-bowtie
+FAKE_HUMAN=fake_human.fa
+mkdir test/
+mkdir -p $HUM_STAR
+STAR --runMode genomeGenerate --runThreadN 24 --genomeFastaFiles $FAKE_HUMAN --genomeDir $HUM_STAR  2>&1 > star-build.log 
+
+mkdir -p $HUM_BOWTIE_DIR
+bowtie2-build  $FAKE_HUMAN $HUM_BOWTIE_DIR 2>&1 > bowtie-build.log 
+
+mkdir -p test/nt && cd test/nt && makeblastdb -taxid_map ../../taxid_map.txt  -in ../../cut_10k.fa  -dbtype nucl -parse_seqids -out ./nt
diff --git a/databases/test_local_setup/head_nt_10k.fa b/databases/test_local_setup/head_nt_10k.fa
new file mode 100644
index 0000000..e32925e
--- /dev/null
+++ b/databases/test_local_setup/head_nt_10k.fa
@@ -0,0 +1,9992 @@
+>ref|X17276.1| Giant Panda satellite 1 DNA
+GATCCTCCCCAGGCCCCTACACCCAATGTGGAACCGGGGTCCCGAATGAAAATGCTGCTGTTCCCTGGAGGTGTTTTCCT
+GGACGCTCTGCTTTGTTACCAATGAGAAGGGCGCTGAATCCTCGAAAATCCTGACCCTTTTAATTCATGCTCCCTTACTC
+ACGAGAGATGATGATCGTTGATATTTCCCTGGACTGTGTGGGGTCTCAGAGACCACTATGGGGCACTCTCGTCAGGCTTC
+CGCGACCACGTTCCCTCATGTTTCCCTATTAACGAAGGGTGATGATAGTGCTAAGACGGTCCCTGTACGGTGTTGTTTCT
+GACAGACGTGTTTTGGGCCTTTTCGTTCCATTGCCGCCAGCAGTTTTGACAGGATTTCCCCAGGGAGCAAACTTTTCGAT
+GGAAACGGGTTTTGGCCGAATTGTCTTTCTCAGTGCTGTGTTCGTCGTGTTTCACTCACGGTACCAAAACACCTTGATTA
+TTGTTCCACCCTCCATAAGGCCGTCGTGACTTCAAGGGCTTTCCCCTCAAACTTTGTTTCTTGGTTCTACGGGCTG
+>ref|X51700.1| Bos taurus mRNA for bone Gla protein
+GTCCACGCAGCCGCTGACAGACACACCATGAGAACCCCCATGCTGCTCGCCCTGCTGGCCCTGGCCACACTCTGCCTCGC
+TGGCCGGGCAGATGCAAAGCCTGGTGATGCAGAGTCGGGCAAAGGCGCAGCCTTCGTGTCCAAGCAGGAGGGCAGCGAGG
+TGGTGAAGAGACTCAGGCGCTACCTGGACCACTGGCTGGGAGCCCCAGCCCCCTACCCAGATCCGCTGGAGCCCAAGAGG
+GAGGTGTGTGAGCTCAACCCTGACTGTGACGAGCTAGCTGACCACATCGGCTTCCAGGAAGCCTATCGGCGCTTCTACGG
+CCCAGTCTAGAGCTTGCAGCCCTGCCCACCTGGCTGGCAGCCCCCAGCTCTGGCTTCTCTCCAGGACCCCTCCCCTCCCC
+GTCATCCCCGCTGCTCTAGAATAAACTCCAGAAGAGG
+>ref|X68321.1| B.taurus mRNA for cyclin A
+GAATTCCAGGAGGACCAGGAGAACGTCAATCCCGAGAAGGCGGCGCCCGCCCAGCAGCCCCGGACCCGGGCTGGACTGGC
+GGTACTGAGGGCCGGAAACTCGCGGGGTCCAGCTCCCCAGAGGCCTAAGACGCGACGGGTTGCACCTCTTAAGGATCTTC
+CTATAAATGATGAGTATGTCCCTGTTCCTCCCTGGAAAGCAAACAATAAACAGCCTGCATTTACCATACATGTGGATGAA
+GCAGAAGAAATTCAAAAGAGGCCAACTGAATCTAAAAAATCAGAAAGTGAAGATGTCTTGGCCTTTAATTCAGCTGTTAC
+TTTACCAGGACCAAGAAAGCCACTGGCACCTCTTGATTACCCAATGGATGGTAGTTTTGAGTCTCCACATACTATGGAAA
+TGTCAGTTGTATTGGAAGATGAAAAGCCAGTGAGTGTTAATGAAGTACCAGACTACCATGAGGACATTCACACGTACCTT
+AGGGAAATGGAGGTTAAATGTAAGCCTAAAGTGGGTTACATGAAGAAACAGCCAGACATTACTAACAGTATGAGGGCTAT
+CCTCGTGGACTGGTTAGTTGAAGTAGGAGAAGAATATAAACTGCAGAACGAGACCCTGCATTTGGCTGTGAACTACATTG
+ATAGGTTTCTTTCATCCATGTCTGTGTTGAGAGGAAAACTTCAACTTGTGGGCACTGCTGCTATGCTTTTAGCCTCAAAG
+TTTGAAGAGATATACCCGCCAGAAGTAGCAGAGTTTGTATACATTACAGATGACACTTATACCAAGAAACAAGTTCTAAG
+GATGGAGCACCTAGTCTTGAAAGTCCTGGCTTTTGACTTAGCTGCACCAACAATAAATCAGTTTCTTACCCAGTACTTTT
+TGCATCAGCAGCCTGCAAACTGCAAAGTTGAAAGTTTAGCAATGTTTTTGGGAGAGTTAAGTTTGATAGATGCTGACCCA
+TATCTAAAGTATTTGCCGTCAGTTATCGCTGCAGCAGCCTTTCATTTAGCACTCTACACAGTCACAGGACAAAGCTGGCC
+TGAATCATTAGTACAGAAGACTGGATATACTCTGGAAACTCTAAAGCCTTGTCTCCTGGACCTTCACCAGACCTACCTCA
+GAGCACCACAGCACGCACAACAGTCAATAAGAGAGAAGTACAAAAATTCAAAGTATCATGGTGTTTCTCTCCTCAACCCA
+CCAGAGACACTAAATGTGTAACAGTGAAAAGACTGCCTTTGTTTTCTAAGACTGTAAATCACATGCAATGTATATGGTGT
+ACAGATTTTATCTTAGGTTTTAATTTTACAACATTTCTGAATAAGAAGAGTTATGGTCCAGTACAAATTATGGTATCTAT
+TACTTTTTAAATGGTTTTAATTTGTATATCTTTTGTAAATGTAACTATCTTAGATATTTGGCTAATTTTAAGTGGTTTCT
+GTTAAAGTATTAATGATGTCAGCTGTCAGGATAATAATTAATAAATTGATTTGGAAAAAAAAAAAAAAAAAA
+>ref|X55027.1| Bovine mRNA for chromogranin B
+TCACACCGCGGGGACCAGGATACAAGGTTGTTTTCCCACAGCATCTTCATCTCGCCTTCCGTCCCCTTCTCATTCACCCT
+TCCGACTGATATCCTCTTCTCCGCGCAGATTTGGACGAGCGAGGCCATGCAGCCGGCCGCCCTTCTCGGCCTTCTGGGAG
+CCACGGTGGTTGCAGCCGTCAGCTCTATGCCAGTGGACATCAGGAACCACAATGAAGAAGTGGTGACTCACTGCATCATC
+GAGGTCCTCTCAAATGCCCTATTGAAGTCCAGCGCTCCACCCATCACCCCCGAGTGCCGACAAGTCCTGAAGAAGAGTGG
+AAAAGAGCTCAAAAATGAAGAGAAAAGTGAAAATGAAAACACAAGGTTTGAAGTGAGATTGTTGAGAGACCCAGCTGACA
+CCTCAGAAGCCCCCGGGCTCTCCAGTAGGGAGGACTCAGGGGAGGGGGATGCCCAAGTCCCAACAGTAGCAGACACGGAG
+AGCGGTGGGCATAGCCGAGAGCGGGCAGGTGAGCCCCCGGGAAGTCAAGTGGCCAAAGAAGCAAAGACACGCTATTCTAA
+GAGCGAGGGACAGAACAGGGAGGAAGAAATGGTGAAATACCAGAAAAGGGAACGTGGGGAAGTTGGCAGTGAGGAGAGAC
+TGTCTGAAGGGCCGGGAAAGGCACAAACGGCTTTTCTCAACCAAAGAAACCAGACTCCGGCTAAGAAAGAGGAGTTAGTG
+TCCAGATATGATACACAGTCTGCCAGGGGCCTTGAGAAGTCGCACAGCCGGGAAAGGAGCAGCCAGGAGAGTGGAGAGGA
+GACCAAGAGCCAGGAGAACTGGCCCCAAGAGCTGCAACGTCATCCGGAGGGCCAGGAAGCACCCGGAGAAAGCGAAGAGG
+ATGCCAGCCCCGAGGTGGACAAACGGCACTCGAGGCCAAGACACCACCACGGGAGGAGCAGGCCCGACAGGTCCTCTCAG
+GAGGGGAATCCTCCCCTCGAGGAGGAGTCACACGTGGGCACGGGCAACTCAGACGAAGAGAAAGCCCGCCATCCAGCCCA
+CTTTAGGGCTTTGGAGGAGGGAGCCGAATATGGGGAGGAAGTGAGGAGACACTCAGCTGCCCAGGCTCCTGGAGACTTGC
+AGGGGGCACGATTCGGGGGCAGAGGACGTGGAGAGCACCAGGCTCTAAGGCGTCCCAGCGAGGAGAGCCTAGAGCAGGAA
+AACAAGAGACATGGCCTCAGCCCGGATCTAAACATGGCGCAGGGATACAGCGAGGAAAGCGAGGAAGAGAGGGGTCCGGC
+CCCGGGACCCAGCTACAGAGCCCGGGGAGGGGAGGCGGCGGCCTACTCCACACTAGGCCAAACAGATGAGAAACGGTTCT
+TGGGTGAAACGCACCACCGTGTTCAGGAAAGCCAGAGGGACAAGGCGAGGCGCCGCCTACCAGGCGAGCTGAGAAATTAC
+CTCGACTATGGTGAGGAAAAGGGTGAGGAAGCAGCCAGAGGGAAGTGGCAGCCGCAGGGAGACCCGCGAGACGCTGACGA
+GAACAGGGAAGAGGCTAGGCTTCGAGGCAAACAGTATGCTCCCCATCACATCACTGAAAAGAGATTAGGGGAGCTACTCA
+ATCCATTTTACGACCCTTCCCAGTGGAAGAGCAGCCGTTTTGAGAGAAAAGACCCCATGGATGACAGTTTTCTTGAGGGT
+GAAGAGGAAAACGGGCTGACCTTGAATGAGAAAAATTTCTTCCCAGAATACAACTATGACTGGTGGGAGAAAAAGCCCTT
+TGAAGAGGATGTAAACTGGGGGTATGAGAAGAGAAACCCGGTCCCCAAACTGGATCTAAAAAGGCAGTATGACCGAGTGG
+CCGAACTGGACCAGCTCCTTCACTACAGGAAGAAGTCAGCTGAGTTCCCAGACTTCTATGACTCCGAGGAGCAGATGAGC
+CCACAACACACAGCAGAAAATGAAGAGGAGAAGGCTGGCCAAGGAGTTCTGACGGAGGAAGAGGAAAAAGAACTTGAAAA
+CTTGGCTGCGATGGATTTGGAACTACAGAAAATAGCTGAGAAGTTCAGTGGTACCCGAAGGGGCTAATGGTCATTAGAGT
+AAAGGGCAGATTTTAAGACAGCCTTCACATGATCTGTTATCCACCACTTCACTGAAAGACCCCATTTATTTATCCAAAGG
+CAGAAAGTAGAATTTACTCATCCAATGTTTGACACAATTGGAAATGTCTTTGATTTTTGCCAGAGTGCTATTGGAAATAT
+AAATAGCATGACTTGTAGTATACTCTTTATAAAAAAGTAGATATATTAACATGCTTGTGACAATGACTGTGCTACTGTCC
+TTGAAAAAATGTCTTAGTTTGAAGTAATAAAAGATTCACCTGAGGCC
+>ref|Z12029.1| B.indicus gene for alpha-lactalbumin
+TTCTACTCCTGACCACTCAACAAGGAACCAAGATATCAAGGGACACTTCTTTTGTTTCATGCCTGGGTTGAGTGGACCAT
+GACATATGATGATGTACAGTCCTTTCCCATATTCTGTATGTCTCTAAGGGGAAGGAGGAGTTGGCCGTGGACCCTTTGTG
+CATTTTCTGATTGCTTCACTTGTATTACCCCTGAGGCCCCCTTTGTTCCTGAAATAGGTTGGGCACATCTTGCTTCCTAG
+AACCAACACTACCAGAAACAGCATAAATAAAGCCAAATGGGAAACAGGATCATGTTTGTAACACTCTTTGGGCAGGTAAC
+AATACCTAGTATGGACTAGAGATTCTGGGGAGGAAAGGAAAAGTGGGGTGAAATTACTGAAGGAAGCTCAATGTTTCTTT
+GTTGGTTTTACTGGCCTCTCTGGTCATCCTCTTCCTGGATGTAAGGCTTGATGCCAGGGCCCCTGAGGCTTTTTCCACAA
+ATAAAAGGAGGTGAGCAGTGTGGTGACCCCATTTCAGAATCTTGGGGAGTAACCAAAATG
+>ref|X52700.1| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTGGATGAGACATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGACCAAACGC
+AGACCCTTTAAAGTAATACTGCGTGGTACCCATCTCATGGTTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATTGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTCGCCATTCCAGCCACTTTACTAGCAATCTCCCTACTTGGAGCATGAGCACCTTTAACCTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAATGGGAAGACGGGGAAACAATGAGAGACTAGCTCTTGGTGTTGGGACAGCA
+CAGGTCACTCTATTTTCCCATCAGGAAGAAGAATTAACCACAGGCTCATCCTGCCCCCCGGCACCAGAACAGGGCCTGAA
+TCCATCCTGCGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAAATGGAGCTTCAGGGCACTGCAATTCACAAACCT
+GCAGAGTTATAAATGATAACTCTCGTCCACAAATATATTGAGGGAAGGCAAAGAAGAGGATTTGAAATCAAGGCAGAACT
+GCAGGAAACAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCAGCAAAATGTTGACAATGATGCCC
+TTGTCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCAA
+CCTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCAGTCAAAAGGGCCATGCTGAAAAAAGTGTCAAAAC
+CAGAAATGCAGGCCAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGCGGGATGTAAATTGCCAACAGCCACTCT
+GGAGAAGTGTACGGTGTGTCCTGAAACATCTAAAACACACAGCTTAGAGAGCATAGGGCACTTCCACTCATGGGGGTATA
+AATTGGGAAAATTAAAAATCAGCAAGACACAAGCACCTCAAAATTTAGGGCTGCTTTGTTGACAAGGACCTCCACTTCAT
+TCCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTTCCTATGTACAATGGAATAACACTCAGCCA
+TGAAATCAATGTCATAAGGCTAGTAGCAGCATGATGAGTGGATTTAGGTAGGACGATTCTAAGTGAAATAAGTCACACAG
+AAAAGGACACTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAACCCGTTACACTTGAACTGAATTACAAAATAGAAC
+AGAGTCACAGATGCAGAAAACACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCA
+AATTAGCTCAGATACCGTTCCATAAACCCAATATATAATAGACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACAC
+CCCCTCTTCAACGCCCAAGAATATATCTGACTAGTAATAATCTAAAAACCTATGCATTGATATCTCTCTGTTAGTGTGTC
+AAGTGGGTGTAAAGGGGCATAAACACAGCAGTGAAAAGCAGCTAAATCCCATTATTAAAATAAATTACTTTTAAAAACCC
+ATGAAACAAAGACAGTGAATGAGAGAGAAATTCTTTCACAATTCGTTCAGGGGCTCTGATGCAAGCTGGATTGACCATA
+>ref|X52701.1| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTAGATGAGACATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGAGCAAACGC
+AGACCCTTTAAAGTAATACTGCGTGGTACCCATCCCATGGGTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATCGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTTGCCATTCCACCCACTTTACTAGCAATCTCCTTAGTTGGAGCATCAGCACCTTTAACCTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAACGGGAAGATGGGGAACCAATGAGAGACAAGCTCTTGGTGTTGGGACAAGC
+ACAGGTCACTCTATTTTCCCATCAGGAAGAAGAATTAACCACAGGCTCAGCCTGCCCCCCGGAACCAGAACAGGGCCTGA
+AGCCATCCTGTGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAATTGGAGGTTCAGGGCACTGCAATTCACAAACC
+TGCAGAGTTATAAATGATAACTCTCGCCCACAAATATTTTGAGGGTAGGCAAAGAAGAGGATTTCAAATCAAGGCAGAAT
+TGCAGGAAACAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCGGCAAAACAGTGACAATGATGCC
+CGGCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCAAC
+CTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCGGTCAAAAGGGCCATGCTGAAAAACGTGTCAAAACC
+AGAAATGCAGGACAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGCGGGATGTAAATTGCCAACAGCCACTCTG
+GAGAAGTGTACGGTGTGTCCTGAAACATCTAAAAAACACACCTTAGAGAACATAGGGCACTTCCACTCATGGGGGTATAA
+ATTGGGAAAATTAAAAATCAGCAAGACACAAGCACCCCAAAGTTTAGGGCAGCTCTGTTGCCAAGGATCTCCACTTCATT
+CCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTCCTTAAGTACAATGGAATATCACTCAGCCAT
+GAAATCAATGTCATGAGTCTAGTAGCAGCATGATGAGTGGATTTAGGTACGACGATTCTAAGTGAAATAAGTAACACAGA
+AAAGGACATTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAAACCGTTACACTGGAACTGAATAACAAAACAGAATA
+CAGTCACACATGCAGAAAACACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCAA
+ATTAGCTCAGATACCGTTCCATAAACCCAATATGTAATAGACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACACG
+CCCTATTCACCGCACAAGATTATATCTGACTAGTAATAATCTTAAAACATATGTATTGATATCTCTCTGTTAGTGTGTCA
+AGTGGGTGTAAAGCGGCATAAGCACAGCAGTGAAAAGCAGCTAAACCCCATTATAAAAATAAATTACTTTTAAAAACCCA
+TGAAACAAAGACAGTGAAAGAGAGAGAAATTCTTACACAATTCGTTCAGGGGCTGTGATGCACCCTGGATTAACCATA
+>ref|X52702.1| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTGGATGAGATATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGAGCAAACGC
+AGACCCTTTAAAGTAATACTGTGTGGTACCCATCCCATGGGTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATCGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTCGCCATTCCACCCACTTTACTAGCAATCTCCTTACTTGGAGCATCAGCACCTTTAACTTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAACGGGAAGACGGGGAACCAATGAGAGACTAGCTCTTGGTGTTGGGACAGGC
+ACAGGCCACTCTATCTTCCCATCAGGAAGAAGAATTAACGACAGGCTCTGCCTGCCCCCCGGAACCAGAACAGGGCCTGA
+AGCCATCCTGTGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAAATGGATCTTCAGGGCACTGCAATTCACAAACC
+TGCAGAGTTATAAATGATAACTCTCGCCCACAAATATATTGCGGGAAGGCAAAGAAGAGGATTTCAAATCAAGGCAGAAT
+TGCAGGAATCAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCGGCAAAACGTTGACAATGATGCC
+CTTGTCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCA
+ACCTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCGGTCAAAAGGGCCATGCTGAAAAAAGTTTCAAAA
+GGAGAAATGCAGGAAAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGTGGGATGTAAATTGCCAACAGCCACTC
+TGGAGAAGTGTACGGTGTGTCCTGAAACATCTAAAAAACACACCTTAGAGAGCATAGGGCACTTCCACTCAGGGGGTATA
+AATTGGGAAAACTAAAAATCAGCATGACACAAGCACCCTAAAGTTTAGGGCTGCTCTGTTGCCAAGGATCTCCACTTCAT
+TCCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTCCTTAAGTACAATGGAATATCACTCAGCCA
+TGAAATCAATGTCATGAGGCTAGTAGCAGCATGATGAGTGGATTTAGGTACGACGATTCTAAGTGAAATAAGTAACACAG
+AAAAGGACATTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAAACCGTTACACTGGAACTGAATAACAAAACAGAAT
+ACAGTCACACATGCAGCAATCACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCA
+AATTAGCTCAGATACCGTTTCATAAACCCAATATGTAATACACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACAC
+GCCCTATTCACCGCACAAGAATATATCTGACTAGTAATAATCTTAAAACCTATGTATTGATATCTCTCTGTTAGTGTGTC
+AAGTGGGTGTAAAGCGGCATAACCACAGCAGTGAAAAGCACCTAAACCCCATTATAAAAATAAATTATTTTAATAACCCA
+TGAAACAAAGACAGTGAAAGAGAGAGAAATTCTTACACAATTCCTTCAGGGGCTGTGATGCAACCTGGATTGACCATA
+>ref|X52706.1| B.musculus heavy satellite DNA
+TAGATATTAAACCTATCCCGCTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGATCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTTCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGTTTAGGATTAGGGTACGTGTTAGGTTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|X52703.1| Blue Whale heavy satellite DNA
+TTGTTATTAAACCTATCCCACTCTCTAGATACCCCGTAGCACGTAAAGGAATATTATTTGGGGGTCCAGTCATGGAGAAG
+AGTTTAGACACTAGGATAAGATTAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATGTATTGGAGGCAGAAGCACTCAAGGGTAGCCTAAGGTTATGGTTAGGCTTAGGGTTAG
+CTGTAGGGTACGGCTTAAGGTACGGGTTTGGGGAGGGGTTCGGGTACGGCGTAGCGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTTAGGGTACGCGTT
+AGGGTTAGGG
+>ref|X52704.1| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTGTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTCGGGTTAGGT
+>ref|X52705.1| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATTCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTAATTGGGGGTGCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTATGGTGTTTCTT
+AAAACACTAGTGCTCAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGTGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGATTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|X53811.1| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCACTAGATACCCCTTAGCACATAAAGGAGTATTATTTGGGGGTCCAGCCATGGAGAAG
+AATTTAGACACTAGGATAAGATAAGGAACACACCCATCCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCACAGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTACGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTACGGTACGTGTAAGGGTTAGGGTTGGGGTTAGGGTT
+AGGGTACGCGCTAGGGTTAGGG
+>ref|X53812.1| Blue Whale heavy satellite DNA
+TAGTTATTCAACCTATCCCACTCTCTAGATACCCCTTAGCACGGAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTACG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGCTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTCAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|X53813.1| Blue Whale heavy satellite DNA
+TAGTTATTCAACCTATCCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAT
+AGTTTAGACACTAGGATGAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGAGTCTTAGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GGTTAGGGTACGGCTTAGGGTACTGTTTCGGGGAGGGGTTCAGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGCTTAGGGTT
+AGGGTACGTGTTAGGGTTAGGG
+>ref|X53814.1| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCTCTAGATACACCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGACATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACTCTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTATGGTTAG
+GGCTAGGGTACGGCTTAGGGTACGGATTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGCGTTAGTG
+TTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTTAGGGTA
+CGCGTTAGGGTTAGGG
+>ref|Z18633.1| B.physalus gene for large subunit rRNA
U13103.1 Balaenoptera physalus mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGCACTGCCTGCCCGGTGACTAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAATTAGGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA
+CCTCTCCGTGAAGAGGCGGAGATAACAAAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAAAAACCATA
+ACCTTAAACCACCAAGGGATAACAAAACCTTATATGGGCTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCCACTAGCCAAAGTACAATATCACTTATTGATCCAATCCTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCTGCTATTAAGGGTTCGTTTGTT
+>ref|Z18632.1| B.physalus gene for small subunit rRNA
U13080.1 Balaenoptera physalus mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACCCCAATAGTCACAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCG
+GTGCCTCATACCCATCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAGGGAGCAAAAGTAAGCATAACCATCCTACATAAAAACGTTAGGTCAAGGT
+GTAACCCATGGGTTGGGAAGTAATGGGCTACATTTTCTAAGCTAAGAACATCCCCTATACTCACACGAAAGTTTTTATGA
+AACTTAAAAACTAAAGGAGGATTTAGTAGTAAATCAAGAGCAGAGTGCTTGATTGAATAAGGCCA
+>ref|X60495.1| B.taurus exon 1 for bovine seminal vesicle secretory protein SVSP109 signal peptide
+TCTTTGCTGCTCCTCTTCACTAAAGCAGACACCCACACCCTTTCTCTCTGGTTGTGTGTCTCTGCCTTGCTTCTATCTTA
+ACTAAACTGTTTTTCCGTGTGCTCTCCCACTTGTTGTGCTGTGTCTCTAACAATAAACTTTGTATTGCATTCAAAGTTTT
+TGCCTCCATGACAAATGCATTTTTCACTGGGAGCAAAGATCCAGGGAAAAATTGCTTCTAGAGTCTACCCTTTGCTGGCA
+GATGGCTAGGATTCCTGGTTCTCATCCAGGCTCCCCAGGTTCAAGTCCTGGGCAGAGAATTAAGACCTCGCTTCCTGCTA
+TCGCTCACTGCTGCCTCGTTAAATTCATAACCACTGGACCTAGGTCTCCTTTTAAATGCCTTTCAAACCACTGAGGCTTG
+GAGACATTAAACTGCCAGCCAATGTCCTGTAGTTTCCATCTGAGAGATAAACTTGAACTTCATGCTCTCAGGCTGGGGAA
+TGATCAAGCATCATCCAGGTGAGCTTGATTCTTATCAGGTTGAAGGATGTTGAGGTCACCGGTTACAAAAGGAGCAGATG
+GATGCTGGTCAGTCTCAGGAGAGCAAGCTACCATGGCACTGCAGTTGGGGCTCTTTCTGATTTGGGCTGGCGTGTCTGTG
+TTTCTACAACTGGACCCTGTGAATGGAGGTGAGAGAAGGGAGATGAGGCTAGAATTGGTGAGAGAGAGCCTGTCCCCAGA
+CGTGGATTGTGTGTAAAAGTTATGATAATAATAATAGTGGTTACAAATATGTCTCGCATTTCTTGAGTATATCCCAAGGG
+CAAGACGCTATGAAGAGTTTCACATTTTATTAATTTTCCACCAACTCCGTGACACTGAAACCCAGGTGAGTTTCGCAGTA
+AAGCCAAAGCCTTTTT
+>ref|X60496.1| B.taurus exon 2 for bovine seminal vesicle secretory protein SVSP109
+ATCCCCACTGGCTATCTATTTTACACACGGTGGTGTATATATGTCCACGCTACTCTCTCAATTTGTCCCACCAAACCCTG
+ACCCTGCTTTGTTCCTGCTCCTCCTCCAGCAGTCTCCTTTTCTCCTGCTTTTCTTCCAGATCAGGACGAAGGTGTTTCTA
+CTGAACCTACCCAAGACGGTCCTGCTGAATTACCTGAAGGTAGTGTTCCTCGGGCAGATACCCAAGACAATCAACAAGGG
+GAGAGAATGACAACAAAAGGACAGTCCAGTGCAACAAGCTAACGTGTGTGGCAGGGGAACCGTGACGGGGATTCTCCAAA
+GATACACTACAAGCAGGAGCTAACGCTACCCTCAGTCGCACACATACTCCC
+>ref|X60497.1| B.taurus exon 3 for bovine seminal vesicle secretory protein SVSP109
+AGAGGGCTCTGTACACAGCAGGTTTGGGGCTGATGGGCAGGCTTGGATGGAGATTTGCCAGAGTTACCACAGACGTCATG
+AAGCCCTAAGTGCGAAAGAAGGGAACGATGCCTTTCTTCTTTCAGACGAAGAATGCGTTTTCCCATTCGTCTATAGAAAC
+AGAAAGCATTTTGACTGCACAGTGCATGGTTCCTTATTCCCGTGGTGTTCCCTCGATGCAGACTATGTAGGAAGATGGAA
+ATACTGTGCTCAGAGAGGTAAGTGTGCAGCCTGTCCTCGGGTGAGAAGCACCTGGCTTCCCAGATGAAGGGGGAAAGTCC
+AAATTGCCTCCTAGAGGGAAGCCTTGGACACCAGTATGAGCAAGCTCTGGGAGTTGGTGATGAACAGGGAAGCCTGGCAT
+GTGGCAGTCCAAGGGGTCGCAAAGAGTCAAACACGACTGAGTGACTGAACTGAACTGAACTGAACTGAGAGGGTAGTCTC
+AGGTGTCTCCTGAT
+>ref|X60498.1| B.taurus exon 4 for bovine seminal vesicle secretory protein SVSP109
+TCTTTCAGACCAGGGTTTGAACCCATGTCCTTTGCGTTGCAAGGCATTCTCTACCATGCACCACCAGGGAAGCCCCCTTT
+TCTCTTGATATGATTAAAAATAACCCTCCCGCAATTAATGTTTCACCCATTCCTTCTGTTTTTCAGACTATGCTAAATGT
+GTCTTCCCCTTTATCTATGGAGGCAAGAAATATGAGACTTGCACAAAAATTGGGAGTATGTGGATGTCTTGGTGCTCACT
+CTCTCCAAACTACGACAAGGACAGAGCTTGGAAGTATTGCTAGCCATAAAAAGAGGTAAGAGTATCTGGGGAGGGTGGGA
+AGAGACAGGGGTGAGCAGGGAAGAGACAGAGCTGGATAAAGAGGTGGAGTCAGATGCCCATTGAGGAGAGAGGAGGCAGG
+TGGAGGGAGGGGATGAGGGAGAAAAACGCAGGAGGAAGAGTGAGGAGCAGAGTTTCACGAGGAGAAGCTTGCAGAGAGGA
+TGAAGAGGAGAAAGGGGACAAAAGATGGAAACAGAGGGAGAGACAAAGGCAAACTGCAAACAATGGAGAGA
+>ref|Z11996.1| B.taurus 5'-region of gene for beta-lactoglobulin
+TAGAGGATCCTTGCCCCCTCCGCCGCCGCCTCCAGCTCCTGGTGCCGCACCCTTGGGCCCGATCTCGTAGACGCCTCAGT
+CCAGTCTCTGCCTCCGTGTGCACTGGCATTCTCCCCATGTCCCCCTGTGTCCCCGTTTTCTCTCCCAAGGACACCGGACA
+TCCGATTCGCCCCCGTTCCAGCACCCCGAACAGTCAGGAGCCGACCCGCTAGGCCCCGCTATCAGGAGACACCCCAACCT
+TGCTCCTGTTCCCCTACCCCAGTACGCCCACCCCGACCCCTGAGATGAGTGGTTTACTTGCTTAGAATGTCAATTGAAGG
+ACTTTTGTACCCCCTTTGCCAGTGGCACAGGGCACCCACAGCCCGCTGGGTACTGATGCCCATGTGAACTCAGCTAGGAG
+GACTGTCCTGCGCCCTCCCTGCCCGGGTCAGGGCACTGAACACCTGAACACCTGAACACCCAGAGCTTGAACACCTTGGC
+AGCAGAGCTTGAACACTTGGCAGCCACGTTGAACCCAGAGCTTGAACACCTTGGCAGCCACGTTGAACCCAGAGCTCTTC
+CTGCTTGGCCTCGAATGCGGACATCCGATTCGCCACTCAGTTGAACCCAGAGCTTGTTGAACCCAGAGCTTGAACACAGA
+GCTTGAACACCTGCCAGTGGCACAGGGCACCCGCCTAACAGAGCCACCCCTGAACTCAGTTTGAACCCAGAGCTTGAACA
+GCCACCCCTGAACTCAGCAGAGCTTGAACACCTGCCAGTGGCACAGGGCACCCCTGAGATGAGTGGTTTACTTGCTTCAC
+CCCCTGCGCCACCCCTGAACTCAGTTGAACCCAGAGCTTGAACAGACCCCTGAGATGGTACGCCCACCCCTGAACTCAGC
+TAGGGACCCCTGAGATGAGTAAAAGTGTTCTTGGCGCTTGGCAGCCACGTTGAACCCAGAGCTTGAACACCCCCTGCGCC
+CCCACTTCTGGGGCGTACTAGGAACCGTCTTAGGCCCAGAGGGGGCCTTCCTGCTTGGCCTCGAATGGAAGAAGGCCTCC
+TATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGCTCGGCCAGGGGGGATTCGGGGAACCGCGTGGCTGGGGGCCC
+GGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTGTCTCAGCACTCCACTCCCTGCAGAGCTC
+AGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCCTGCCCTGGCCCTCACCTGTGGCGCCCAGGCCATCATCGT
+CACCCAGACCATGAAAGGCCTGGACATCCAGAAGGTTCGAGGGTGCCCGGGTGGGTGGTGAGTTGCAGGGCGGGCAGGGG
+AGCTGGGCCTCAGAGACCAAGGGAGGTGTGACGTCTGGGATTCCCATCAGTCAGCTAGAGCCGCCTGACAAATGCCCCGC
+CAGGGCAGCTTCAAGGAGGCGTTTAGTGTCTTGCATTGTGGAGGCTGGAAGCCTGCAATCCGGGCATCGGCCCAGCTGGC
+TTCTCCTGCGGCCACTCTCCGGGGAGCAGACAGCCTTCTTCTCCCTGCGTCCTTTGCGTGCCCTTGGTTTCCTCTTCCTG
+TTGAGGTCACCAGGCCTGCTGGATCCCCGGGCG
+>ref|X57170.1| B.taurus 5S rRNA gene
4W1Z_7 Chain 7, Structure Of The Mammalian 60s Ribosomal Subunit (this Entry Contains The Large Ribosomal Subunit Rna)
4W21_7 Chain 7, Structure Of The 80s Mammalian Ribosome Bound To Eef2 (this Entry Contains The Large Ribosomal Subunit Rna)
4W24_7 Chain 7, Structure Of The Idle Mammalian Ribosome-sec61 Complex (this Entry Contains The Large Ribosomal Subunit Rna)
4W26_7 Chain 7, Structure Of The Translating Mammalian Ribosome-sec61 Complex (this Entry Contains The Large Ribosomal Subunit Rna)
+GTCTACGGCCATACCACCCTGAACGCGCCCGATCTCGTCTGATCTCGGAAGCTAAGCAGGGTCGGGCCTGGTTAGTACTT
+GGATGGGAGACCGCCTGGGAATACCGGGTGCTGTAGGCTT
+>ref|X60960.1| B.taurus exon 5 for bovine seminal vesicle secretory protein SVSP109
+CAACATAATCTTGGAGCAGGCATGAGACAGCAGGAATCGAGATAGAAAGAGGCAGAGAGGCAAAGGAGACATAGACCTTT
+GCCCTCCGTGGGACTGACTGAGAAACAAAACTGACTCGTTAACCTTGACCCCAAAGCTATGTTCAGTCACTGTCCAGTGC
+ATCCACCCTTGGCCATGGATGCAATCCAGCCTTTGAAACCTCAGTGAAGAAAATCAAGAACTCTCAAGCATGAAGATGAT
+GCTCTGAAAGCCAGAGGTGAAATCCTTTCCCTACATCTCCACCATGTTCCCCCTATGCGTGGATCCAATCAATAAACCAC
+TTTCTCAGCAGGGGTGGTCTTTCTTTTTTTTTCGTCCACAAAGAAACCTGATTGGGAGGGTCTCAACGTGCTCAGGTTAA
+CCAGGCAGGATCTTCTTGTTTTCCTTTCCGTTCCTTGGGGTCCCAGTGGAAAATCAATACACATCACAATTGTCCTTCCT
+GGG
+>ref|NM_174233.2| Bos taurus angiotensin II receptor type 1 (AGTR1), mRNA
X62294.1 B.taurus mRNA for adrenal angiotensin II type-1 receptor
+GGAGGAGAGAGTGCAAAACACAGCCTCGCCCCTGGAACCCTCGAAGAAGCAACGTCCCTCGCTATAAATTTGGAGCTGCC
+TCAGAGAGGACGATTCCAGCGCCAGTCAGCCAAGGGCCTGAGGCGACTGAGCGCCCGGGCAGACGCGCGACTAGCAGCTC
+TGCCTACCCGAGACGGCGATCCACGAGGAGGAACCCAAGCGGACCCCAGGAGTGAGGGCGCACCCTGAGCCGGCGCCGCC
+AGCTCGGCCCGACGCCGGCGCAGCGTCCCGAGTGAGAGCGGACTGATGTATGATAAGCTGATCTAAAATGACAGGTTTTA
+TCTGACTAAGTCATTGAAGCCATTCCAGAAGGTCTGCATCCAGGTGCATTTGGCATAGTGTCTGAGACTGACTAACCCAA
+GAGATCAAAATGATCCTCAACTCTTCCACTGAAGATGGTATTAAAAGAATCCAAGATGATTGTCCCAAAGCTGGAAGGCA
+CAATTACATATTTATCATGATCCCTACTTTATACAGTATTATCTTTGTGGTGGGGATATTTGGAAACAGCTTGGTGGTGA
+TTGTCATTTACTTTTACATGAAACTGAAGACTGTGGCCAGTGTTTTTCTTTTGAATTTAGCTCTGGCTGACTTATGCTTT
+TTACTGACTTTGCCACTGTGGGCTGTCTACACTGCTATGGAATACCGCTGGCCCTTCGGCAATTACCTATGTAAGATCGC
+TTCAGCCAGTGTCAGTTTCAACCTCTATGCCAGCGTGTTTCTACTTACATGTCTAAGCATTGACCGCTACCTGGCTATTG
+TTCACCCAATGAAGTCCCGCCTCCGGCGCACAATGCTTGTGGCCAAAGTCACCTGCATCATTATTTGGCTGCTGGCAGGT
+TTGGCCAGTTTGCCAACTATAATCCACCGCAACGTATTTTTCATCGAGAATACCAATATCACCGTTTGCGCTTTCCATTA
+CGAATCCCAAAATTCTACCCTCCCGGTAGGGCTGGGCCTCACCAAGAATATATTGGGATTCTTGTTTCCTTTTCTGATCA
+TTCTTACAAGCTACACTCTTATTTGGAAGACCCTCAAGAAGGCTTATGAAATTCAGAAGAACAAACCAAGAAAAGATGAT
+ATTTTCAAGATAATTTTGGCAATCGTGCTTTTCTTTTTCTTTTCCTGGGTTCCCCACCAGATATTCACTTTTATGGATGT
+GTTAATTCAGTTGGGCCTCATCCGTGACTGTAAAATTGAAGATATTGTTGACACTGCCATGCCCATCACTATTTGCTTGG
+CTTATTTTAACAATTGCCTGAATCCTCTCTTTTATGGCTTTCTAGGAAAAAAATTTAAAAAATATTTTCTACAGCTTCTG
+AAATACATTCCCCCAAAGGCCAAATCCCACTCAAACCTGTCGACAAAAATGAGCACACTCTCCTACCGCCCCTCAGAAAA
+TGGAAACTCCTCTACCAAGAAGCCTGCCCCATGCATTGAGGTTGAGTAACACACTTGAAACCTGTCTGTGAAGTCACCTT
+AAAGAAGGAGAAGAAAAACATTCTTGTACAACACCTCACTACCAAATGAGCATGGGCTGCATTTCAGAATTAAAGGAGAA
+AATAGATTATGTGGACTGAACTGACTTGTCTACAGCTCTGAACAAAAGCTCTTTCCCTTTGCAACTCAACAAAGCAAAGC
+CACATTCTCCATGTTTTGCATTAGGTAGATGATGCCCACTCAAAGAACTGATGTCAGAAACTGGATGAAAGTGTTGATTT
+GGAAAATTTTACTGGGAAAAATGTCCTCTCCCTAGTCTGCTCTTGTTCTGTTATTTTTGATTTCCACATGAAAGTACTTC
+AGTTCAGTTCAGTCACTCAGTCGTGTCCAACTCTTTGCGACCCCATGAATCGCAGCATGCCAGGCTTCCTGTCCATCACC
+AACTCCCGGAGTTTACCCAAACTCATGTGCTCTGAGTCGGTGATGCCATCCAGCCATCTCATCCTCTGTCGTCCCCTTCT
+CCTCCTGCCCCCAATCCCTCTCAGCATCAGGGTCTTTTCCAATGAGTCAACTCTTCGCATGAGGTGGCCAAAGTATTGGA
+GTTTCAGCTTCAGCATCAGTCCTTCCAATGAACACCCAGGACTGATCTCCTTTAGGATGGACTGGTTGGATCTCCTTGCA
+GTCCAAGGGATGCTCAAGTCTTCTCCAACACCACAGTTCAAAAGCATCAATTCTTTGGCACTCAGCTTTCTTCACAGTCC
+AACTCTCACATCCATACATGACCACAGGAAAAACCATAGCCTTGACTAGATGGACCTTTGTTGGCAAAGTAATGTCTCTG
+CTTTTGAATATTCTATCTAGGCTGGTTATAACTTTCCTTCCAAGGAGTAAGCGTCTTTTAATTTCATGGCTGCAGTCACC
+ATCTGCAGTGATTTTGGAGCGCAAAAAAAATAAAATCTGACACTGTTTCCATGTTTCCCCATCTATTTCCCATGAGGTAC
+TTAGAATATATTAAACCTCAAGAGGAGCAACAGGAGAGAAGAGCTTAAGACTGCCATGCCCAATTTCCAAAGGGCAGCAA
+AGCTTTCGTGCCTATTTAGCTATTAGCAACTGCGGCCCACTTGTACCTGCTACTGCGCATTTCATACAAAGACTCGCTAA
+GCAGTAGTTGTCAGGTTCCAGAAGCTGTTGTGAAACCCAACCCGTGTCTTATAGATTCACACTGCCGAAATATGCCAGCT
+GAGTGGCCTATTTGTATAATGATGTCTCTGTAGTCATGTATAAAAATTATATTACTTGTAAAGGTGTTATTCCAGTCCCA
+GGTAGTCATGTTACTTTTATTTCAGATCTGAGAAGTATATATATTTTGTGGTGAAAGATTATATATCATAAAATATTCCT
+TACTGTTTTAAAAAGTATATATTCAACCTGTGCATGTATCTCTCTAAACTGCTATCTTATTAAAATTTGGCAAAGTTATA
+TTCACATTAAATAATGTTATTGCAATGTATTTAATCTTCATTACTTAAAATAAATGTTGGTTTATTTTT
+>ref|X67213.1| B.taurus mRNA for adrenergic receptor beta 2
+GCGGACGGGTCTAGGACAACGCAGGACCTCCAAGTTCTACTTGAAGGAACACAAAGCCCCCAAGACTTTAGGCATTATCA
+TGGGCACTTTCACCCTGTGCTGGCTGCCCTTCTTCATTGTCAACATTGTGCACGTGATCAAGGATAACCTCATCCGTAAG
+GAAATATACATCCTTCTAAACTGGTTGGGCTACATCAACTCCGCTTTCAATCCCCTTATCTACTGCCGGAGCCCAGATTT
+CAGGATTGCCTTCCAGGAGCTTCTCTGCCTGCGCAGGTCTTCATTGAAGGCCTATGGGAATGGCTGCTCCAGCAACAGCA
+ATGACAGGACTGACTACACAGGGGAACAGAGTGGATATCACCTGGGGGAGGAGAAA
+>ref|X67214.1| B.taurus gene for adrenergic receptor beta 3
+TGGCCTCACGAGAACAGCTCTCTGACCCCGTGGCCAGATATCCCCACCCTGGCACCCAATACTGCCAACGCGAGTGGGCT
+GCCAGGGGTGCCCTGGGCGGTGGCGCTGGCGGGGGCGCTGTTGGCGCTAGCGGTGCTGGCCACCGTGGGAGGCAACCTGC
+TGGTAATCGTGGCCATCGCCCGGACGCCGAGACTCCAGACCATGACCAACGTGTTCGTGACTTCGCTGGCCACAGCCGAC
+CTGGTGGTGGGGCTCCTGGTCGTGCCCCCGGGGGCCACGTTGGCGCTGACTGGCCACTGGCCGTTGGG
+>ref|X13736.1| Bovine mRNA for adrenodoxin reductase C-term. (EC 1.18.1.2)
+GGCCCGGGCCTTTGTGGGCTGGTACAATGGGCTTCCTGAGAACCGGGAGCTGGCCCCGGACCTGAGCTGTGACACAGCCG
+TGATTCTGGGGCAGGGGAATGTGGCTCTGGACGTGGCCCGGATCCTGCTGACCCCCCCCGACCACCTGGAGAAAACGGAC
+ATCACTGAGGCCGCCCTGGGAGCCCTGAGACAGAGTCGGGTGAAGACGGTGTGGATCGTGGGCCGACGTGGACCCCTACA
+AGTGGCCTTCACCATAAAGGAGCTTCGGGAGATGATTCAGTTACCAGGAACTCGGCCCATGTTGGATCCTGCGGATTTCT
+TGGGTCTCCAGGACAGAATCAAGGAGGCCGCTCGCCCGAGGAAGCGGCTGATGGAACTGCTGCTTCGAACAGCCACGGAG
+AAGCCAGGGGTGGAGGAGGCTGCCCGCCGGGCATCAGCCTCCCGTGCCTGGGGCCTCCGCTTCTTCCGAAGCCCGCAGCA
+GGTCCTGCCCTCGCCAGATGGGCGGCGGGCGGCAGGCATCCGCCTGGCAGTCACCAGACTGGAGGGCATTGGAGAGGCCA
+CCCGGGCAGTGCCCACTGGGGATGTGGAGGACCTCCCCTGTGGGCTGGTGCTGAGCAGCATTGGGTATAAGAGCCGCCCC
+ATCGACCCCAGTGTGCCCTTTGACCCCAAGCTCGGGGTTGTCCCCAATATGGAGGGCCGGGTTGTGGATGTGCCAGGCCT
+CTACTGCAGCGGCTGGGTGAAGCGGGGACCCACAGGTGTCATCACCACCACCATGACCGACAGCTTCCTCACCGGCCAGA
+TTCTGCTACAGGACCTGAAGGCCGGGCACCTGCCGTCTGGCCCCAGGCCGGGCTCTGCATTCATCAAGGCCCTGCTGGAC
+AGCCGAGGGGTCTGGCCCGTGTCTTTCTCGGACTGGGAGAAACTGGATGCTGAGGAGGTGTCCCGGGGCCAGGCCTCGGG
+GAAGCCCAGAGAGAAGCTGCTGGATCCTCAGGAGATGCTGCGGCTGCTGGGGCACTGAGCCTAGATCCCAGCCCCGCTGG
+GTGCAGAGAGAAGAGGAGGGTGAGCCCAGATCCCAGCCCAGCTCAGAGAAGAGAGGAGGCGCGCTGGACAGCGGAGAGGC
+GTCGGGGTCAGCCTGAGCGGGACTCTGCACCCCAGCTGCGTCGTCTGCCCGTCCTGGCATACAGCCCTGGCTGCCTCTTC
+TCCAGGGGCGTGGGAGCACTTTCTGGAGCTAGGTCACTGCTGCCAGTGTGGGTACCTTTCAGCAAGGAGATAACCTTAGT
+TAGGGATGGAGGCAGGTACAGGCTGACCTCCGTCCCTCCTGTCTCTCTCCTGCTGGACTGTGGAGGGTCCCCAGGTCAGG
+AATATGCTGGAAATAAAGCACCGGCCACCTAG
+>ref|X05087.1| Cow Alu-type art2 sequence 7kb 5' of fetal globin gene
+TTAAGTTCAGTTCAGTCACTCAGTCATGTCCGACTCTTTGCGACCCCATGAATCACAGCACGCCAGGCCTCCCTGTCCAT
+CTCCTCCCGGAGTTCACCCAACGTCACGTCCATCGAGTCGGTGATGCCATCCAGCCATCTCATCCTCTGTCGTCCCCTTT
+TCCTCCTGCCCCCAATCCCTCCCAGCATCAGGGTCTTTTCCAGTGAGTCAACTCTTCACATGAGGTGGCCAAAGTACTGG
+AGTTTCAGTTTTAGCATCATTCCTTCCAAACAACACCCCAGGGCTTATCTCCTTTAGAATGGACTGGTTGGATCTCCCTG
+CAGTCCAAGGGGCTCGCAAGAATCTTCTCCAACACCACAGTTCAAAAGCATCAATTCTTCGGCACTCAGCTTTCTTCACA
+GTCCAACTCTCACATCCGTACATGACCACTGGAAAAACCATAGCCTTGACTAGACGGACCTTTGTTGGAACGTAATGTCT
+CTGCTTTTCAATATGCTATCTAGGTTGGTCATAGCTTTCCTTCCAAGGAGTAAGCA
+>ref|X05090.1| Cow alu-like art2 repetitive sequence 1kb 3' to fetal globin gene
+TTCTGTTCAGTCCAGTGGCTCAGTTGTGTACAATTCTTTGCAACCCCATGGACTGCAGCATGCCAGGCTTCCCTGTCCAT
+CACCAACTCCTGGAGCTTGCTCAAATTCATGCCCATTGAGTTGGTGATGCCATTCAACCATCTCATCCTCTGTTATCCCC
+TTCTCTTGCCTTCAATCTTTCCCAGCATCAGGGTCTTTTCCAATGAGTCAGTTCTTCACATCACGTGTCCAAAGTATTGA
+AGCTTCACGTTCGGTATCAGTCCTTCCAATGAATATTCAGGACTAATATCCTTCAGGTTTGATTGGTTTGATCTCCTTGC
+AGTCCAAGGGACTCTCAGGAGTCTTCTCCAACATCACAGTTCAAAAGCATCAATTCTTCAGCGGTCACCTTTCTTCATTG
+TCCAACTCTCACATCCACACATGACTACTGGAAAAACCATAGCCTTGACTAGATGGACATTTGTTGATAAAGTAGTGTCT
+CTGCTTTTTAATATGCTGTCTAGATTTGTGATAGCTTTTCTTCCAAGAAGCAAGCATC
+>ref|X63475.1| B.taurus Alu-like repeat DNA
+CATGGACAGAGGAGCCTGGCAGGCTACAGTCCTTGGGGTCACAAAGAGTTGGACACAACTGAGTGACTCCATGGTGCATT
+CTCCTGCGTCCCATTGATCCAGACAATCAGGAGAGGCTTCACAGAAATCGGGTGGTGGCATGAGAGGTATCTGAATT
+>ref|X63474.1| B.taurus Alu-like repeat DNA
+GAATTCTGCATAGAGACTGGTTGATCCTGCTGGAGATCCCTGAGAGGAAGCTACCATATCAGTATTCTGGCTGAGATCAT
+GTTAACCAGTCATCCTGGCACTTACTGTCACTTTAGAGCTGGTCTTGGGTCACTATGTAGGTGTATTTGTCTTTTCCTAT
+CATTCTTCTTGTCATGAGTACAGGTTAGTTAAAATGAAGTTTGCAGATGGCCTGGGCTTCCCTTGTGGTTCAGCTGGTAA
+AGAATATGCCTGCAATGAGGGAGACCTGGGTTTGATCCCTGGCTTGGGAAGATCCCCTGGAGAAGGGAAAGGCTACCCAC
+TCCAGTATTCTGGCCTGGAG
+>ref|X03454.1| Bovine retinal mRNA for S-antigen C-terminus
+AAGAAGAGCTCCGTGCGTTTGCTGATCCGGAAGGTACAGCACGCGCCACGCGATATGGGTCCCCAGCCCCGAGCCGAGGC
+CTCCTGGCAGTTCTTCATGTCGGACAAGCCCCTGCGCCTCGCCGTCTCGCTCAGCAAAGAGATCTATTACCACGGGGAAC
+CCATTCCTGTGACCGTGGCCGTGACCAACAGCACAGAGAAGACAGTGAAGAAGATTAAAGTGCTAGTGGAGCAAGTGACC
+AACGTGGTTCTCTACTCGAGTGATTATTACATCAAGACGGTGGCTGCCGAGGAAGCACAGGAAAAAGTGCCGCCAAACAG
+CTCGCTGACCAAGACGCTGACGCTGGTGCCCTTGCTGGCCAACAACCGTGAGAGAAGGGGCATCGCCCTGGATGGGAAAA
+TCAAGCACGAGGACACGAACCTGGCCTCCAGCACCATCATAAAGGAGGGAATAGACAAGACCGTCATGGGGATCCTGGTG
+TCTTACCAGATCAAGGTGAAGCTCACGGTGTCAGGCCTTCTGGGAGAGCTCACATCCAGTGAAGTGGCCACTGAGGTGCC
+GTTCCGCCTCATGCATCCCCAGCCAGAGGACCCAGATACCGCCAAGGAAAGTTTTCAGGATGAAAATTTTGTTTTTGAGG
+AGTTTGCTCGCCAAAATCTGAAAGATGCAGGAGAATATAAGGAAGAGAAGACAGACCAGGAGGCGGCTATGGATGAGTGA
+AGAGGCGACTCAGGA
+>ref|X56933.1| B.taurus mRNA, alternative polyadenylation signals
+GGCGGAGGGGCAGGTCCTGGTGCTCGATGGCCGAGGCCATCTCCTGGGCCGCCTGGCGGCCATTGTGGCCAAGCAGGTGC
+TTCTGGGCCGCAAGGTTGTGGTCGTGCGCTGTGAGGGCATCAACATTTCTGGCAATTTCTACAGAAATAAGTTGAAATAC
+CTGGCCTTTCTCCGCAAGCGGATGAACACCAACCCCTCCCGTGGCCCCTACCACTTCCGAGCCCCCAGCCGCATCTTCTG
+GCGGACAGTGCGAGGCATGCTGCCCCACAAGACCAAGCGGGGCCAGGCTGCTCTGGAGCGCCTCAAGGTGTTTGATGGGA
+TCCCACCACCCTATGACAAGAAAAAGCGAATGGTGGTTCCTGCTGCCCTCAAGGTTGTGCGTCTGAAGCCTACTCGCAAG
+TTTGCCTACCTAGGGCGCCTGGCTCATGAGGTTGGCTGGAAGTACCAGGCAGTAACGGCCACCCTGGAGGAGAAGAGAAA
+GGAGAAGGCCAAGATCCACTATCGGAAAAAGAAGCAGCTCATGAGGCTACGGAAGCAGGCCGAAAAGAACATCGAGAAGA
+AAATTGGCAAATTCACAGAGGTCCTCAAGACTCATGGATTCCTAGTCTGAGCCAAATAAAATTGACTGTTTATTCTTCAT
+GCTTGGCCTGGCCTGCCCTTCCTCGATCGCCACCCTAGGATGTGGGGGGGCCCAGGGGCTGCCGTGCATGTGCCACAGGC
+AGACGGGTATAGCCGAGGGGCATTAGTCAGTGTAGGCGGGTCCAGGGGCTGTGCAGGCATCGTTGGTCTGCAGCCTGTTT
+GTTCGTGAGACCTTTAAGACATGAACAGTTGGAACAACCAGTCCAGTTGCAGTATTGGCAGACGTGAGCTGGAAGACTAT
+TGGAAGGGATTGGCATGACTTAAAGGGAGTCTGTTCATGCTTCCCACGTGGTCGGATACTATACTCTGCAGCTGTTAGGA
+TGTGAGAGAATGCCCAAAAAGTATCTCTGGAAGAGAAGTTCCAGCCAAGGGATCACAGGCTTCGCCCTCGTGTCTTCCCT
+ATATTTTGTGATCCAAAACCAATAAATTATTTTGTTAAAGAAAAAAAAAAAAAAAAAAAAA
+>ref|X63592.1| B.taurus mRNA for adenosine A1 receptor
+TGCTGATGTGCCCAGCCTGTGCCCACCATGCCGCCCTCCATCTCGGCCTTCCAGGCCGCATATATTGGCATCGAGGTGCT
+CATCGCCCTGGTCTCTGTGCCTGGGAACGTGCTGGTGATCTGGGCGGTGAAGGTGAATCAGGCCTTGCGGGATGCCACCT
+TCTGCTTCATCGTGTCACTGGCAGTGGCTGATGTGGCGGTGGGCGCTCTGGTCATCCCGCTCGCCATCCTCATCAACATT
+GGGCCACGGACCTACTTCCACACCTGCCTCAAGGTCGCCTGCCCTGTCCTCATCCTCACTCAGAGCTCCATCCTGGCCCT
+GCTGGCAATTGCTGTTGACCGCTACCTCCGTGTCAAGATCCCACTCAGGTACAAGACAGTGGTGACTCCTCGAAGGGCTG
+TGGTGGCCATCACTGGCTGCTGGATTCTCTCCTTCGTGGTGGGCCTGACGCCCATGTTCGGCTGGAACAACCTGAGCGCG
+GTGGAGCGGGACTGGCTGGCCAATGGCAGCGTGGGCGAGCCTGTGATTGAATGCCAGTTCGAGAAGGTCATCAGCATGGA
+GTACATGGTCTACTTCAACTTCTTCGTGTGGGTGCTGCCCCCGCTGCTGCTCATGGTCCTCATCTACATGGAGGTCTTCT
+ATCTGATCCGCAAGCAGCTCAGCAAGAAGGTGTCGGCCTCCTCCGGAGACCCGCAGAAGTACTATGGGAAGGAGCTGAAG
+ATCGCCAAGTCGCTGGCCCTCATCCTCTTCCTCTTCGCCCTCAGCTGGCTGCCCTTGCACATCCTCAACTGTATCACCCT
+CTTCTGCCCTTCCTGCCACATGCCCAGGATCCTCATATACATCGCCATCTTCCTCTCACACGGCAACTCGGCCATGAACC
+CCATCGTCTACGCCTTCCGCATCCAGAAGTTCCGAGTGACCTTCCTTAAGATCTGGAATGACCACTTCCGCTGCCAGCCT
+GCGCCCCCCATTGATGAGGATGCCCCAGCAGAGAGACCCGATGACTAGACTCCGCCCGCCACGCCCCCTTG
+>ref|X15802.1| Bovine derived synthetic gene bpr for pancreatic ribonuclease A (EC 3.1.27.5)
+GAATTCATCGATGAAAGAGACAGCAGCCGCAAAGTTTGAGCGTCAGCATATGGATAGTAGCACCAGTGCTGCCAGTTCTT
+CCAACTACTGTAACCAGATGATGAAGTCTAGAAACTTGACCAAGGACAGATGTAAGCCAGTTAACACATTTGTCCACGAG
+AGTTTGGCTGATGTCCAAGCCGTCTGCAGTCAGAAAAACGTTGCATGCAAGAACGGTCAAACGAACTGTTACCAGAGTTA
+CAGCACCATGTCCATCACTGACTGTCGTGAGACAGGCTCGAGCAAGTATCCTAATTGTGCTTACAAGACCACACAGGCGA
+ACAAACACATCATTGTTGCTTGTGAAGGTAACCCTTACGTTCCTGTCCACTTTGACGCCAGTGTTTAACTAGATAAGCTT
+>ref|X05218.1| B.taurus mRNA for mit-ATP synthase proteolipid P1 subunit precursor
+CCAATGGATTTTTTTTTCCCCCCCTCTGCAGACTGAAAAAAATGCAGACCACCGGGGCACTACTCATTTCTCCTGCTCTG
+ATCCGTTCTTGTACCAGGGGTCTGATCAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAGAGATCCAATCTGTACAGCC
+TTCCTACAGCAGTGGCCCACTGCAGGTGGCCCGGCGGGAATTCCAGACCAGTGTTGTCTCCCGGGACATTGACACAGCGG
+CCAAGTTTATTGGCGCTGGGGCTGCCACAGTTGGTGTGGCGGGTTCAGGGGCTGGTATTGGAACAGTGTTTGGCAGCTTG
+ATCATTGGCTATGCCAGGAACCCGTCTCTGAAGCAGCAGCTCTTCTCCTATGCCATTCTGGGCTTTGCCCTGTCTGAGGC
+TATGGGGCTCTTCTGTTTGATGGTCGCCTTCCTCATCCTCTTCGCCATGTGAGGCTCCGTGGAAGTCACCTACCCACCCC
+TGCTGCTTCGACTCCAGGCCATGCCCGGTGCTGGAGTGTGCTAACCTTTACCATTAAACACAATGTTTCTCTAAAAAA
+>ref|NM_176613.2| Bos taurus ATP synthase membrane subunit c locus 2 (ATP5MC2), mRNA
X05219.1 B.taurus mRNA for mit-ATP synthase proteolipid P2 subunit precursor
+TGCCGTAGCCCTTCATCCCCTGAAAATGTACACTTGCGCCAAGTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTA
+CAGTATTGAGCCGATCACTGTCTGCAGTGGTGGTAAGACGACCGGAAACACTGACGGATGAGAGCCACAGCAGCTTGGCA
+GTAGTTCCCCGTCCCCTGACCACCTCACTTACTCCTAGCCGCAGCTTCCAAACCAGTGCCATTTCAAGGGACATTGACAC
+AGCAGCCAAGTTCATTGGAGCTGGGGCTGCCACAGTAGGGGTGGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGA
+GTCTCATCATTGGTTATGCCAGGAACCCTTCTCTGAAGCAGCAGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCG
+GAGGCCATGGGGCTCTTTTGCCTGATGGTGGCCTTTCTCATCCTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATA
+GTTCTTCTCCCGTGTCTCATCTGCCCTGTATGTTTCTTTTCCTGTACCTCCCCAGGCAACCTGGGGAAAGTAGTTGGCTC
+AGGGCTTGACAGAAGGAAGACAAATAAATACTGTATTAATAAGAAAAAAACAAAA
+>ref|X05605.1| Bovine mRNA fragment for ATP synthetase beta-subunit
+GAATTCGTGGAGATGAGTGTTGAACAAGAAATTCTGGTTACTGGTATTAAGGTTGTAGATCTGCTGGCTCCAATTGCCAA
+GGGTGGCAAAATTGGGCTTTTTGGTGGTGCTGGAGTCGGCAAGACAGTACTGATCATGGAGTTAATCAACAATGTTGCCA
+AAGCCCATGGTGGTTACTCTGTGTTTGCTGGTGTTGGTGAAAGGACCCGTGAGGGCAATGACTTATACCATGAAATGATT
+GAGTCTGGTGTTATCAACTTAAAAGATGCTACCTCTAAGGTAGCGCTGGTGTACGGTCAAATGAATGAACCACCTGGTGC
+TCGGGCCCGGGTTGCTCTGACTGGGCTGACTGTAGCTGAGTACTTCAGAGACCAAGAAGGTCAAGATGTGTTGCTGTTTA
+TTGATAACATCTTTCGCTTCACCCAGGCTGGCTCAGAGGTGTCTGCTTTGTTGGGCAGAATCCCTTCTGCTGTGGGTTAT
+CAGCCTACCCTGGCCACTGACATGGGTACCATGCAGGAAAGAATCACCACCACCAAAAAGGGATCTATCACCTCTGTACA
+GGCTATCTATGTGCCTGCTGATGACTTGACGGATCCTGCCCCGGCCACTACCTTTGCCCATTTGGATGCTACCACTGTGT
+TGTCCCGTGCTATTGCTGAGCTGGGCATCTATCCAGCTGTGGATCCTTTGGACTCCACGTCTCGCATCATGGATCCCAAC
+ATTGTTGGCAGTGAGCATTATGATGTTGCCCGTGGGGTGCAAAAGATTCTGCAGGACTACAAATCCCTCCAGGACATCAT
+TGCTATCCTGGGTATGGATGAACTTTCTGAAGAAGATAAGTTAACTGTGTCTCGTGCACGGAAAATCCAGCGTTTCTTGT
+CTCAGCCATTCCAGGTGGCTGAGGTCTTTACTGGTCATTTGGGGAAGCTGGTACCCCTCAAGGAGACCATCAAAGGATTC
+CAGCAGATTTTGGCAGGTGAATATGACCATCTCCCAGAACAGGCCTTCTATATGGTGGGACCCATTGAAGAAGCTGTGGC
+AAAAGCTGATAAGTTGGCTGAAGAGCACTCATGAGGGGGTCCTTTTGGCAAATTAAGCACTCATCCTCCATGGTGTCCCT
+CTCCTCGCCCCTAATCCGGAAGTCGCAGTTTCTCTGTAGCCACGTGAGGGCCTTGATTGAAGACATTGTGTTCTGACTTT
+TAGAGTTTATTAAATAAAAAAACTGTCGATTTGAACAGGAGGAGAAAAGGAGGTTATTTTAAAAAAATAACACCCACAGG
+AAAAGAGCACAAAAGGCATCTACTAGTGTGTGTTACA
+>ref|X16978.1| B.taurus mRNA for mitochondrial ATP synthetase epsilon-subunit (EC 3.6.1.34)
+GGCGCGACGCGCCCCCTCTCGCGACATCATGGTGGCGTACTGGCGACAGGCTGGACTCAGCTACATCCGATACTCCCAGA
+TCTGTGCAAAAGCAGTCAGAGATGCACTGAAGACTGAATTCAAAGCAAACGCCATGAAGACTTCTGGCAGCACCATAAAA
+ATTGTGAAAGTGAAAAAGGAATAATCTACCCTGAGTACAGCCTGAATGCTGCATGTTCAAGGTGAAGCTGTGGGCACATA
+TTATAGCAGATTGGAAACCATCTCCCTTCATGGAAAAAAAAACAAAATAATACCTGTCTTGTTCATAGATTGACAATGCC
+AGTGAATTAAAGTACAGTTCACTCT
+>ref|NM_176670.2| Bos taurus ATP synthase F1 subunit delta (ATP5F1D), mRNA
X17019.1 B.taurus mRNA for delta subunit of ATP synthase
+GGAGTGAGCTCGCCTCTGCGTCGCCTTCCGCTGTCCGCCAGCCGTCATGCTCCCCTCCGCGTTGCTCCGCCGTCCGGGTT
+TGGGCCGCCTCGTTCGCCAGGTCCGCCTCTACGCCGAGGCTGCCGCTGCTCAGGCCCCTGCCGCGGGTCCGGGACAGATG
+TCCTTCACCTTCGCCTCACCCACGCAGGTGTTCTTCAACAGCGCCAACGTCCGCCAGGTGGACGTGCCCACGCAGACCGG
+CGCCTTTGGCATCCTTGCAGCCCATGTGCCCACTTTGCAGGTCCTGCGGCCAGGCCTAGTTGTGGTCCACGCTGAGGATG
+GCACCACCTCCAAATACTTCGTGAGTAGCGGCTCTGTCACAGTGAATGCTGACTCCTCCGTGCAGTTACTGGCTGAGGAA
+GCTGTCACCTTGGACATGCTGGATCTGGGGGCAGCCAAAGCGAACCTGGAGAAGGCACAGTCGGAGCTGTTGGGGGCAGC
+AGACGAGGCCACTCGGGCTGAGATCCAAATCCGCATCGAGGCCAACGAGGCCTTGGTGAAGGCTCTGGAGTAGGCGGTGC
+CTGCCTCACACTGGTCCAGCTGGGAGACCTGGCCGGAGCTGGGCAAGGGTGGCCTGGCATGAAGACCCAGCTCCCCATGG
+GTGCAGGCTGACAGGGAGCGGGCCTGCGGGAAGCTGTCCTGTTAATAAGCCACTAGGGGGCAGCACAGTGCCAGTTTCTG
+CCCAGAGCGCCCCTTGGGGCCCTGCCCCTTTACGCTAAATAAACCCAGGTAAACAAGCCAGCTCTGGCAGGTTGGGTGGC
+TGGGGGCAAGCTGGGACACTTGCCCTGCCCGCGAGGAATGCTGTCCCCCTGGGGGGGTCTCCTGCCATCTGCACCACTGC
+TCTGCCCCTGCAGTGTCTGCTGCAGAGACCGCTGCTCCTAGCCACCGCCAGCGGCCTGCCCCCTGCCCAGCCCATATTAA
+AGACCTAGGATCC
+>ref|NM_175822.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B4 (NDUFB4), mRNA
X64898.1 B.taurus mRNA for B15 subunit of NADH: ubiquinone oxidoreductase complex
+AAGCGCGGTTTTGCGCCGGGTCGTCAAGATGTCGTTCCCCAAGTACGAGGCATCGCGCTTGTCCAGCCTACCTACTACCC
+TCGACCCAGCTGAATACGACATATCTTCTGAAACCCGGAAAGCACAAGCCGAGCGGTTGGCCATAAGATCCCGGCTTAAA
+CGGGAATACCAGCTTCAGTACTACGACCCTAGTCGCCGAGGGGTTATCGAAGATCCTGCCTTGGTTCGTTGGACCTACGC
+AAGATCAGCAAATATCTATCCCAATTTCAGACCCAATACCAAGACCTCCCTCTTAGGGGCTCTGTTTGGAATTGGGCCCC
+TCGTCTTCTGGTATTATGTTTTCAAAACTGACAGAGATAGGAAAGAAAAACTTATCCAGGAAGGAAAATTGGATCGAACA
+TTTAACATCTCCTATTAAGTCTGACAGTGATGTCTGTATGTCCTATTGTTTAAATAAATCAATTAATCATTAAAAAAAAA
+AAAAAAAAAAAA
+>ref|X69084.1| B.taurus mRNA for beta 2-microglobulin
+CGCTGCAAGGATGGCTCGCTTCGTGGCCTTGGTCCTTCTCGGGCTGCTGTCGCTGTCTGGACTGGACGCCATCCAGCGTC
+CTCCAAAGATTCAAGTGTACTCAAGACACCCACCAGAAGATGGAAAGCCAAATTACCTGAACTGCTATGTGTATGGGTTC
+CATCCACCCCAGATTGAAATCGATTTGCTGAAGAATGGGGAGAAGATTAAATCGGAGCAGTCAGACCTGTCTTTCAGCAA
+GGACTGGTCTTTCTACCTGCTGTCCCACGCTGAGTTCACTCCCAACAGCAAGGATCAGTACAGCTGCCGAGTGAAACACG
+TTACTTTGGAACAACCCCGGATAGTTAAGTGGGATCGAGACCTGTAAGCAGCACCATCGAGATTTGAACATTCTTCATTT
+GGTATAATATCTGGAAAATTCTGTTTCCCTGCTCTTTAATACTGATATGCTTTTATGCTTTATGCACATAATCAGAAGTC
+ATATTCATGTTACCATAAATACCTTCTTTATA
+>ref|X56685.1| Bovine BAP 1 mRNA
+GTTAAGGAGGAGGCATACGGGGCCGCAGCAGGTCAGCTAAAGGGCAGCGCGATCAAAATACTGCTTCAGTGGGCGAAGTG
+GAACTGGTGCAGAAGGGCATACATTACAGTGATGCCGAAACGTGGGAAAAAGGGAGCGGTGGTCGAAGACGCGGAAGAGC
+CCAAGACTGAGCCAGAGGCGAAGAAGAGTAAGGCAGGAGCGAAAAAGAACGAAAAAGAGGCAGTAGGAGAGGGCGCAGTT
+CTGTATGAAGACCCCCCAGATCAGAAAACCTCACCCAGTGGCAAATCAGCCACACTCAAGATCTGCTCGTGGAATGTGGA
+TGGGCTTCGAGCCTGGATTAAGAAGAAAGGTTTAGATTGGGTAAAGGAAGAAGCCCCAGACATCCTGTGCCTCCAAGAGA
+CGAAATGTTCAGAGAACAAACTACCAGTTGAACTTCAAGAACTGTCTGGATTGTCCCATCAGTACTGGTCAGCTCCTTCA
+GACAAGGAAGGGTACAGTGGTGTGGGCCTCCTCTCCCGCCAGTGCCCACTCAAAGTCTCTTATGGCATTGGTGAGGAAGA
+ACATGATCAGGAAGGCCGAGTGATTGTGGCTGAATATGACGCATTTGTGCTGGTGACAGCCTATGTGCCTAATGCAGGCC
+GAGGTCTGGTGCGCCTGGAGTATCGCCAGCGCTGGGATGAAGCTTTTCGCAAATTCCTGAAGGGTTTGGCATCCCGCAAG
+CCCCTTGTGCTATGTGGGGACCTCAATGTGGCTCATGAAGAAATTGACCTTCGCAACCCGAAGGGAAATAAAAAGAATGC
+TGGCTTCACTCCACAAGAGCGGCAGGGCTTCGGGGAATTGCTGCAGGCTGTGCCACTCACTGACAGTTTCCGGCATCTCT
+ACCCCAACACCGCCTATGCCTACACCTTCTGGACCTATATGATGAATGCGCGATCCAAAAACGTTGGTTGGCGCCTTGAT
+TATTTTTTGTTATCTCAGTCTGTGTTGCCTGCATTGTGTGACAGTAAAATCCGTTCCAAGGCTCTGGGCAGTGACCACTG
+TCCCATTACCCTATACCTAGCTCTGTGACAACCTCTTCCAAATCACATTGAGCCTGGGAAATAAGCCCACCAAGCTAGCT
+TTAAAATTCTTACCCCCAAACTTCTTTAATAATTGCTATCTAGAGACATCTGCATTGTATTTCCCTTCTAAACTATGAAT
+CCTTAACCAGGTTTCTAATAACAGATGTAAGTTCTCAAGAAGGGTGTTTGTGTAGGGGTAGTGCTTTTTTCTTTTTCTTT
+TTTTTACATTAATCAAAAGCTACTGATACTTCCTTTGAACTGTCCCTGTGAAAATAAAGAGCCATAGTTTCAAAAAAAAA
+AAAAAAA
+>ref|X56119.1| B.Taurus BC1.2 Y-specific DNA
+GATCAAGCAGCCGATAAACACTCCTTGGAGCACATCTCGGTCCCTGCACTGATC
+>ref|X14711.1| Bovine beta-casein gene
M55158.1 Bovine beta-casein gene, complete cds
+TCGAATCCATCTCTATCAATTAATGTAATTCAAAATTGGTGAGAGACAGTCATTAGGAAATTCTCTGTTTATTGCACAAT
+ATGTAAAGCATCTTCCTGAGAAAAGGGAAATGTTGAATGGGAAGGACATGCTTTCTTTTGTATTCCTTTTCTCAGAAATC
+ACACTTTTTTGCCTGTGGCCTTGGCAACCAAAAGCTAACACATAAAGAAAGGCATATGAAGTAGCCAAGGCCTTTTCTAG
+TTATATCTATGACACTGAGTTCATTTCATCATTTATTTTCCTGACTTCCTCCTGGGCCATATGAGCAGTCTTAGAATGAA
+TATTAGCTGAATAATCCAAATGCATAGTAGATGTTGATTTGGGTTTTCTAAGCAATACAAGACTTCTATGACAGTGAGAT
+GTATTACCATCCAACACACATCTCAGCATGATATAAATGTAAGGTATATTGTGAAGAAAAATTATCAATTATGTCAAAGT
+GCTTACTTTAGAAGATCATCTATCTGTCCCAAAGCTGTGAATATATATATTGAACATAATTAATAGACGAAACAAACCTT
+GTAAAAATGAGTAGTGTAAAATACAACTACATTTATGAACATCTATCACTAAAGAGGCAAAGAAAGTTGAGGACTGCTTT
+TGTAAATGGGCTCTTATTAATGAAAAGTACTTTTGAGGTCTGGCTTAGACTCTATTGTAGTACTTATGGTAAGACCCTCC
+TCTTGTCTGGGCTTTCATTTTCTTTCTTCCTTCCCTCATTTGCCCTTCCATGAATACTAGCTGATAAACATTGACTCACT
+ATAAAAGATATGAGGCCAAACTTGAGCTGTCCATTTTAATAAATCTGTATAAATAATATTTGTTCTACAGAAGTATCTCT
+AAATAAATGTACTTTCTCTCTTAAAATCCCTCAACAAATCCCCACTATCTAGAGAATAAGATTGACATTCCCTGGAGTCA
+CAGCATGCTTTGTCTGCCATTATCTGACCCCTTTCTCTTTCTCTCTTCTCACCTCCATCTACTCCTTTTTCCTTGCAATA
+CATGACCCAGATTCACTGTTTGATTTGGCTTGCATGTGTGTGTGCTGAGTTGTGTCTCACTCTTGTCAACCCCATGAATG
+ACAGTCCACCAGGCTCCACTATTTCCAGTTAAGAATACTGGAGTGGATTGTGTTTCCTACTTCATTTGATTAATTTAGTG
+ACTTTTTAAATTTTTTTCCATATTCAGGAGGCTATTCTTTCCTTTTAGTCTATACTGTCTTCGCTCTTCAGGTCTAAGCT
+ATCATCATGTGCTTGTTAGCTTGTTTCTTTCTCCATTATAGCATAAACACTAACAACTATTCAGGTTAGCATGAGATTGT
+GTTCTTTGTGTGGCCTGTGTATTTCTGGTGTGTATTAGAATTTACCCCAAGATCTCAAAGACCCACCGAATACTAAAGAG
+ACCTCATTGTAGTTACAATAATTTGGGGACTGGGCCAAAACTTCCGTGTGTCCCAGCCAAGGTCTGTAGCTACTGGACAA
+TTTAATTTCCTTTATCAGATTGTGAATTATTCCCTTTAAAATGCTCCCCAGAATTTTTGGGGACAGAAAAATAGGAAGAA
+TTCATTTTCTAATCATGCAGATTTCTAGGAATTCAAATCCACTATTGGTTTTATTTCAAACCACAAAATTAGCATGCCAT
+TAAATACTATATATAAACAACCACAAAATCAGATCATTATCCATTCAGCTCCTCCTTCACTTCTTGTCCTCTACTTTGGA
+AAAAAGGTAAGAATCTCAGATATAATTTCATTGTATCTGCTACTCATCTTTATTTCAGACTAGGTTAAAATGTAGAAAGA
+ACATAATTGCTTAAAATAGATCTTAAAAATAAGGATGTTTAAGATAAAGTTTACAGTATTTTCAGCAAATTTGTTAAAAA
+ATAGAAGCAACTATAAAGATTTGTAACAGTGGTTGCTATTTTCTTTACCACGAGACTAGTTAACAGGCTGTATTAAAAGA
+TCTTTTCTTGAATTAAATATTTTCAATTTGATTAAACATACCTCAGCCATAAAGGCAAGCACATTTAATTTATACTATGG
+GAATTTGAATAATTGTTACTGAAGAAGCTCTACCAACAAAAAGTTTATAGAGCTAGCATATTTAGTCAAGAGATAAAGAG
+GGTTGTTAGGATACATGTGCTATTTGAAAGGTATTTATAAAAGAAGAGTATATTTATTAAAATTGCTCAGAACATCCAAA
+TTTCAAGTTTATCATTTATCTTACAATATTTCAAAAATATTAAAATAGATACATGAAATACAGAAGTAAATTAAAGAGAA
+AGTATTTTATTTTGTAAAAAAAAATTCTAGGTTGGACAGGGAGTACCAGGAAACAAAAAACAATGAAAAATGTGATCTGA
+CAGAAATTATAGCTCAAAGTATAGTAGTCAGTAATGAAATGGCTTAAAAATTGGCATATAAAATGCTAATTATAAAATAA
+ACAAAATGTAATAATACCCTCCCTACATGTAATGAACTCTGAGTATTATACTCTTTTTTGAAGTCTTGACAATGAAAATT
+TATTTAGACTTTTATAGACATCTTGGATAAAGTAAAACAAATTACGAATTAGCATCCATGAGAAAAATATAGAAAAATTT
+CTTAATGTAGTTTGCAAATCTGGGGATTGAAGATGTGTGTCAAGAGATTGTGATGGCAGACATTTTTTTTCAGACTATAA
+AATGCACAAACAACCATTTAATACATTTTGGTCAAAAATAGTATGTATTTTATTTTATGCTACAGGAGAGTAGTCTAAAG
+TAGGACTGGGCAGAGATCTGACACCCTGGTAATCACCGAGAGATAGTACACAGTCTCTGTAGAGAAAATAAGCATAGTGT
+ATGATCTCTAAAATTATGTGGACAAAGGGGAGATAACATTAGGCATGTGGGGATGAAGACTGAGTACAGAAGAACAATCT
+AGTCAGTCCAAGAAAACATGTGGATCAATGGAACAAATAGAAGAAATGCTAAAATGAAACAGAAGTCTTACTGGAAATAA
+AAGATATGAGGAAGACAAACATTCATGAAAATCACTTAGTTTAGTAGAGAAAAGATAAAAATAAAGTATTACCTTCTTCT
+TCATATACATTGTTTGATCAGATGCCCCTCAATAAAACTGAGTCTCCAACAGAACTGAAACTTTAATATTTTGTTCACTG
+CTCTAATCCCAGAATCTAAGACATATCTGGCAATAAAAATTAATAAATAAATATTTTTAATAAGTAAATCAATCACTTAA
+TTTTTCTGTAAGTATCTGTAACTTCTCTTCTGTCTTTCCAAAAAACACTCATAAGTACTGTGAATAAGATGAAAAGAGTG
+AAATAAGATATAGGCTGTTAGCTGAAAACATCTGGATGGCTGGCAGTGAAACATTAACTTGAAATGTAAGATTAATGAGT
+AATAGTAAATTTTAACCTTGGCCGTATGATAAAATGTCTATTAATATTTTTCTAAAATACAGGGCTTTTTGTTTTTGCCA
+TGAGGTTTGCAGGATCTTGGTTCCCTGATGAGGGATCAAACCTGGGCTCCCCTGGAAGCACGGAGTCTTAGATATTTGTA
+TTATACACTATCTTTGGTTTCTTTTAAAGGGAAGTAATTCTACTTAAATAAGAAAATAGATTGACAAGTAATACACTATT
+TCCTCATCTTCCCATTCCCAGGAATTGAGAGCCATGAAGGTCCTCATCCTTGCCTGCCTGGTGGCTCTGGCCCTTGCAAG
+AGAGGTAAATACAGAAAAAATGTTGAAATAAATAAGACTAGTACTATCTGCTATGTGTAGAAAATTCATTACCAACATTG
+TAAATGTATAAATAATGCACAATCTCAGATTTTTTTTGAATGCTAAGAAAGTCATTTACGTTCATCCACTATCTCAGTAG
+TATCCTATGGGACCACAAGTCTGAGTCTAGTGCTTTCTATAGTATTGTACCATCTGTACCATCAATCCCTAAAGAAAAAA
+GAAAATAAACCAATAAGCAACAGACTAACAAGAAGGAACACAGATAAGAACAAAAAGTGAGTAATATTGCATAAATACAA
+TTGCATGCATATACAATCTAGATAAATATATCTTATTCCAGTGATGAAATATTTGTATCCCTTACTGTAGAGTGCTAGGT
+TTAGCTGTGTCTATTCAACACAGGATGATACTCCAGAGGATGGTATATCAGACAACAATAATAAATATGTTCATAATTAT
+AATAAAAAGTGTTCAGTAAAAATTAAAATAACTCCTTTTCTGTTACCCATAAAAACTCTTCATTAAAGTAAAACAAAAAT
+ATACTAATGAAAGTTACTAAATTTAAAAGACTCTCAAAAGACATATAACATTTTTATTTTTCAGATTTGTGAAATAGATA
+GCTCTGAATAAAGCAAGTAAAAATTAGGTAGGAAAATATTTAATAATGAGTTGACTGTGGGAACTAAAGTGTTTTTTTTT
+CTCTTTAGCTGGAAGAACTCAATGTACCTGGTGAGGTAAGATATTTTTATACAAAGAAAAAAATTAATTTAACTGTAAAA
+TAGTAACAGTCTCTAATGATCTGGCAGAAGACTCAGCTAATTGTCAATTTTTATTTTTCCTTTATAGATTGTGGAAAGCC
+TTTCAAGCAGTGAGGTAAGATAGTGTTCATTCAGAGGCAATTTCCCAAATTTAGAGCAATAAAATGCTGTATTATCTTTT
+TGTGTTACATTAATGGCAACCCACTCCAGTATTCTTGCCTGGAAAATCCCATAGAGGAGGAGCCTGGTAGGCTGCAGTCC
+ACGGGGTCGCTAAGAGTCGGACAGGACTGAGCGACTTCCCTTTCACTTTTCACTTTCATGCCTTGGAGAAGGAAATGGCA
+ACCCACTCCAGTTTTCTTGCCGGGAGAATCCCAGGGACGGGGGAGCCTGGTGGGCTGCCGTCTATGGGGGTCGCACAGAG
+TTGGACACGACTGAAGCGACTTAGCAGTAGCAGCAGCAGGACAGTTAAGGTTTCTCTAATAGCTCAGTTGGTAAAGAATC
+TGCCTGCAGTGCAGGAGGACCCTGGGTTCGATTCCTCAAGATCTGCAGGAGAAGGGATAGGCTACCCATTCCAGTGTTCT
+TTAAGCCAATGTGGCTATGTACTGACGGGTAACTATTGTCAATTTCCACTCTGTATATTTAAAGGAATAAATGTGTAGAA
+GGTTTAATATTCTAGTAATTTCTAAATGGGTTTGTTATTTGAAATTGTGTCATTGTGCCCTGCTTTTTTTCCTTAATGAA
+CTGTACAGTCCTCTTTTCTGTCTTGAACTTTCTATGTTAACCTCCTTCCATGCTTTGGCATTTATTGAGCACTTTCTGTT
+TCAGACTTTGACTAGGAACTGCAGTACAAACTAGAAAGAGGGATGCCCTTTGTAAAGTGTGAGCAGACATGCAAATGGAC
+ATATTTTATTATTATACAAGCAATCCAGTACACAAGAGGCAGTGAGAATGAGTGTAGTCCTAAATCTGCCTGGTGGAATG
+AGGTAGATAATAACCCTATGCCACTCTTTTTGGCTCTGTCATCAGCTGTTGGTTAAATAGTGCATCAATATACTTTGTCT
+CTTCACAAAGGTCAAAAGATGCTGCTGCTGCTGCTAAGTCGCTTCAGTCATGTCCGACTCTGTGCGACCTCATAGATGGC
+AGCCTGCCAGGCTCCCCCATCCCTGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCCATTTCCTATTCCAATGCATA
+AAAGTGAAAAGTGAAAGTGAAGTCGCTCAGTCGTGTCCGACTCCTAGTGACCCCGTGGACTGCAGCCTACCAGGCTCCTC
+CATCCATGGGATTTTCCAGGCAAGAGTACTGGAGTGGGTTGCCATTGCCATCTCCAAAGATCCTTATAGGAGGGTATGTA
+TTTCTTATAATTCATTAGAAGCCTAAACATAACCAGGGAACTAAGAATGATTAACAAGTTCATGCGTGGTTATTATTATA
+TATTTTCAATGACTATTATTCTTTTAGAACCAGATGAAAATATTAGAGATCATTTGTTGTCCTAAGGAGAGAACAGGATG
+ATTGAGAGACATGTATGCATGCAAAGTTACTTCAGCCCTTTCCAACTCTGTATGACCCTATGGACTGTAACCTGCCAGGT
+TCCTCTGTCTATGGGATTCTCCAGGCAAGAATACAGGAGTGGGTTGTCATCTCCTCCAGGGCCTAGGAATTGACCTGCAT
+CTCTTACGTCTCCTGCATTGGCAGGCAGGTTCTTTACCACTAGCACCACCTGGAAGCCCGATTAGTATCTGTTAAATGCC
+TCTTTGAGTACTATGCTCTCTAATCCTCTTTTTCTTGATTGCATCATCTTTCTTTTTATACAACAGCCTTATTCAGAAGA
+GTGGAACATAAACTTTCAGCCATAAAATAATGATATTATCAAATGAGCTGTCCATATTAATCTATTAAATTTCTTCATTT
+TCTGATTTATGTTGACAAATAAGAATTTTTTTTAAAGCTAGACCTGATTTTATTTTTATTTTTCCAAAGGAATCTATTAC
+ACGCATCAATAAGGTAAAACCCCTCATATTTAAATGTACATTTTTTTAAATTTCATGTTTGATTTTTATAAACAGCATTT
+CTTTATGTATTTTTTTTTTAACCAGAAAATTGAGAAGTTTCAGAGTGAGGAACAGCAGCAAACAGAGGTAATTTGTTCAC
+TATGAGTATATTTTGAGAAGTATTATGAAACATAACACATAAAAAGATTTATAATAATTATGTTCAGTCTAAGAATGGTA
+ATATAAATGTCAGTGCAAGAAATAAAAACTTTGACAAAATGAAAATATTTTAAAAATATAAACGCATTTTAAAACACATA
+ATCAAATTTCACAGTATAGAATAAATAGCTAAGAATAATTATTGATGTATTCATTTTACTAATGGTATACCTGGTTTTAA
+TAACTGCATATTAGTAGGAACATTTCCAGACTAGGGACTGTGATCCCCTTATTCTAATGATGGATATGCTGATGAAAGAC
+AGTAGGGTGACAGTGTGGCACTAATCCTCATCTGATCATTTATCAGCTGTATAACCTTGGCTCCATGTTTCTCTGTACAT
+CATTTTCTTCACCTGTAAATTGAGAATATTCATAATTACCCAGAGTTGATGAACTGACACACAATGAATATTCAGTGGTT
+TTATATTATATTTGATAGCTTTTATACTCACATTTATGGATGTGTGGAGTTCTAAAAAGTATTTCCATTGCCCAGATGAG
+AGAAGTGAGGTACAGGACAATTGAGTATGCAAATGTGTGACCATACCACATAGTTATTAAATAGCAGAACTTGCTTAAAA
+ACAAGGATTTGCGGACAATGTAAAATTCTTTCATTATATTACTCTTGTGGTAACATATTTATCTAATTATGATATTTAAG
+CTTTCCTCTTTTATAATTGAAGTTTGATTGTTTGGCACTTAGGCCAAATTCTAAATCAAAATGAATTTACAACTTGATGC
+CTTTGAAGACTCAAGATTACCACCTTCTACCAAGAGAAGTAGTGCTAGAAGTTGGCCATTGTTAAGGAACTCCTTGAATT
+AAAAAAACACATATTAAGACTTAGTTTTCATTAAAACAAACAAAAATAAACCTCAGAGTAACTTTTAAAGTCTTTTTAAA
+ATGGATCTTTCTTTGTTATATGAAACCAGTTTGGACTATTATCCAAAGTATGTAGCTACCACTCTGCAGGAACTCAGGAA
+GAGGTGGAATAAGTGTTGAAATCTCCAAACCCTGATTTCACTTGACTCTCTGATTTCACCTGTGAAGAAAGTGGGTTAAT
+GAGAAATCCTTCAGTGAGCATTTTACTCATTAGTCTTCATATGACCCCAATTTCTTAACCAAACCAAATGGAAGATTTTC
+TTTCTCTCTCTTCACTGAATTATGTTTTAAAAAGAGGAGGATAATTCATCATGAATAACAATTATAACTGGATTATGGAC
+TCAAAGATTTGTTTTCCTTCTTTCCAGGATGAACTCCAGGATAAAATCCACCCCTTTGCCCAGACACAGTCTCTAGTCTA
+TCCCTTCCCTGGACCCATCCATAACAGCCTCCCACAAAACATCCCTCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTT
+TCCTTCAGCCTGAAGTAATGGGAGTCTCCAAAGTGAAGGAGGCTATGGCTCCTAAGCACAAAGAAATGCCCTTCCCTAAA
+TATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTGACTCTCACTGATGTTGAAAATCTGCACCTTCCTCTGCCTCTGCT
+CCAGTCTTGGATGCACCAGCCTCACCAGCCTCTTCCTCCAACTGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTC
+AGTCCAAAGTCCTGCCTGTTCCCCAGAAAGCAGTGCCCTATCCCCAGAGAGATATGCCCATTCAGGCCTTTCTGCTGTAC
+CAGGAGCCTGTACTCGGTCCTGTCCGGGGACCCTTCCCTATTATTGTAAGTCTAAATTTACTAACTGTGCCTGTTTAACT
+TCTGATGTTTGTATGATATTCGAGTAATTAAGAGTCCTATAAAAAAATGAATAATGAATGGTTCCAAAATAAGCATAGCT
+GAGATTAATGATTGTCAGCATTAGTTATAAATAGAATAAGCTGGAGAACCTTCACCTCCCCTCCACCACCAGATCTCAAT
+GTCTAGGCTTACCCGTGGAGATTCTGATGTAATTGTTCTTTCTATGTAGAAGAAACTTATTGGGAAGAAATAATATAATG
+GACTATGATTTAATTGGTCTGTTGAGAACCAATTAAATTAGATGAAAGCGATTAAGTACAATAAAGCCAAAATTGAATTT
+GATAATCTCATTTGGCTAAGAATAACAAACCTAAGAAGGTTTGCTATTTTCTACAATTTTGAAGTTCTCCTTATGCACAA
+TTATTTCACCACATGACTCATTTCACATCGTGTTTTTGATATATGAGCATATGAGGGAAAAATACTGAGATGCTTATTTC
+AATACTCAGGGAAAATTTATTGCCAAAAGGCAAGAAATGTATAATTCATTCACTTATTTTATTTTATTATTTTTTTTATT
+TTTAAGGTCTAAGAGGATTTCAAAGTGAATGCCCCCTCCTCACTTTTGGTAAGCTTTAGGATATTGGAGGCAGACTGATC
+ATTTTTATAGTTAATATCTTTTACATTTCATTTTCCTGGATAAGCCCCAATAGTAGCAATTTCCATCAGTGTACCAGCTT
+AAAGATTAATTATAAATTTATTTTCAATGATTGACTGTTATTTACTGGCCTGAAATTATGTATCTGTTATATTTCAAATA
+ATGCAAAACTGTATATATATGGTGTTTACAGATTTGATTGGTTTTCTTTCAATAGCCTATATCCTTATTATTGATTGTCA
+TCATTTATAGAAAAAACTGAAAATAATTTCTTATACTTTTATGTAAACCTGTTAGAGCTTATTTTAAAGATCAACTGCAT
+TCACATTTCTAATCTAGTCATTATGAGCTTCAATAGTTTTATCTCACTTAAAATATATATATTGTCTTTTAATTCATGAG
+TCAAAATACAATCTCACAGTCCAGATATGGGACTTAAAAGGGGGATAGAATATAGTTTTGATATTCTTAACAATACACAT
+CCTTTTGTGATCATGATTCAGCAGACATTTAATAAAATGATTCCAAGTAAGCCGATGTTTGGTCCTAGAGGAATTTTTAT
+AACCTTTAAGAGAAGGCATAGCATGGTGTTTTTGTAATAAGATTTCTTTTATGAAAAAGTCACACCAAAATTGCAAATGG
+GGGTGAGATGAAGAGTTATAACATATAACTAAATCTATGTTTGTTCTCTATTCCACAGAATTGACTGCGACTGGAAATAT
+GGCAACTTTTCAATCCTTGCATCATGTTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATT
+CCTTTATTTATTTTATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACTATATATTTCAAAATTTTAATTCAACATT
+AGCATAAAAGTTCAATTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATT
+ATTATTTCTTTAAGAATCTATTTCCTAACCAGTCATTTCAATAAATTAATCCTTAGGCATATTTAAGTTTTCTTGTCTTT
+ATTATATTTTTTTTAATGAAATTGGTCTCTTTATTGTTAACTTAAATTTATCTTTGATGTTAAAAAGAGCTGTGGAAAAT
+TAAAATTGGATAGAATTC
+>ref|X57765.1| Bovine mRNA for endothelin receptor
+GAATTCGGCACGAGCTCGCCGCCCCAGAGTGGAGTAGATCTGGGAGCTTTGGGAGGAGAAGGGGAGCACAGACGCGAGGC
+GCGTTCCTTCGGAGTTTTCTTTTTCTTGAGAACCCTCGCGCGCGCGCACAGCCAGCCCTTTGGTCTGGAGATTGCGGACC
+AGAGGTGGAGAAGCTCCATCCCCCCTCGGTGGCTGAAGCCTGGCGGCTCGGGGAGGACCTCCCCAGAGAAGCCGTGCCTA
+GGAAGTTTTCCGAAGCGGAGGCAACGGTGCCACCCGGGCCGCCGCCGCGCCGGATCCCGGGACATTCGCCATTCACCTTC
+GCCGGCTCGGCTTCAACTTGCCCGGGCGCCGCACACAGACCGGGCAGCCGTCTGAGCCCGCGGAGCTCCACGGTGGAGAA
+AGAAAAAAAAAAAAAAGAGGGTGTCAAATCAACAGATTAAGTGACATTTCCTGAAATTTGCATCGAGATGGAAACCTTTT
+GGCTCAGGTTGTCCTTCTGGGTGGCTCTGGTTGGAGGTGTCATCAGTGATAACCCTGAAAGCTACAGCACAAACCTAAGC
+ATCCATGTGGACAGTGTCGCCACTTTCCATGGGACAGAACTCAGCTTCGTGGTCACCACACATCAACCCACGAATTTGGC
+CCTCCCCAGCAATGGCTCAATGCACAACTATTGCCCACAACAGACTAAGATTACTTCAGCTTTCAAATACATTAACACTG
+TGATATCATGTACTATTTTCATCGTGGGAATGGTGGGGAATGCAACCCTGCTCAGGATCATTTACCAGAACAAGTGCATG
+AGGAATGGCCCCAACGCGCTGATAGCCAGCCTTGCCCTGGGAGACCTTATCTATGTGGTCATTGATCTCCCTATCAATGT
+ATTTAAGCTGCTGGCTGGGCGCTGGCCTTTTGAACAAAATGACTTTGGCGTTTTCCTCTGCAAGTTGTTCCCCTTTTTGC
+AGAAGTCCTCAGTGGGGATCACCGTCCTTAATCTCTGCGCCCTAAGCGTTGACAGGTACAGAGCAGTTGCCTCCTGGAGT
+CGTGTTCAGGGAATTGGGATTCCCTTGGTCACAGCCATTGAGATTGTCTCCATCTGGATCCTTTCTTTTATCCTGGCCAT
+CCCTGAAGCCATCGGCTTTGTCATGGTACCTTTTGAATACAAGGGTGCACAGCACAGAACCTGTATGCTCAATGCCACGT
+CGAAATTCATGGAGTTCTATCAGGATGTTAAGGACTGGTGGCTGTTCGGGTTCTACTTCTGCATGCCCCTGGTGTGCACT
+GCGATCTTTTACACCCTCATGACTTGTGAGATGTTAAACCGAAGGAACGGCAGCCTGAGAATTGCCCTCAGTGAGCATCT
+GAAACAGCGTCGAGAAGTGGCAAAAACAGTTTTCTGCTTGGTTGTAATTTTTGCTCTGTGCTGGTTCCCTCTTCATTTAA
+GCCGCATTTTGAAGAAAACCGTGTATGATGAAATGGACACGAACCGATGTGAATTACTTAGTTTCTTGCTGCTCATGGAT
+TACATCGGTATTAACTTGGCAACCATGAATTCATGTATCAACCCAATAGCTCTATATTTTGTGAGCAAGAAATTTAAAAA
+TTGTTTCCAGTCTTGCCTCTGCTGCTGCTGTTACCAGTCCAAGAGCCTGATGACTTCGGTGCCCATGAATGGCACCAGCA
+TCCAGTGGAAGAACCATGAACAAAACAACCATAACACAGAGAGGAGCAGCCACAAGGACAGTATCAACTAAACTGAAGGA
+ACAGTTATCAGTGTGCTTCAAGCCCGACTGGAGGAAAAAATCAACACAGCACTGTTTCCCCAGGAATCTGTTCCATCCTT
+CTCTCACGACTCAGCCCCACCCCCTGGAAAAATGCTTTCCAAAACGTTGAAGGGTTGACTGGTTTATACCCACAAATTCA
+ACGAATCTTACGTCTTTGATTTATCTGATTTACCTATTCTGCATGTTATATTCAGCCCTAAAAAATGGTGGGAGTTGGCA
+GGGGGAAAGGAGATTGTTCAGTTAAACCAGAAGGATATTTACCACCTTTCCGTGAAAATAGATTTTTTCGAGTACATGGC
+AAACTTTCATGGTGGTTCTGTAGAATGTTCAATAAGACCAGTCACCGTGAAAAAGTTATAGAGACTGTAACAAGATTTTT
+TTTTTTTTTAAGTAATTTTGGTTTTTTGGCCAAACACAGTATGAGCTGAAGTCTCCTTTATTTGAAATATAATTCAGTGC
+CAGTATTTTTTAACTGCACAGTAGCCTACAGATGATTTGAGCTCATTTACACATATTTTTGCCCCCCAAAACAAATAAAA
+CGGAATTCAGGTGAGAAGTTAGGTTAGTGTTTCTCATGTCACTGGCTTATTTTTTAAAACATAAATTCTCAAGCTTCAGG
+AGCTTACAGGACTTTAAAGCACAGACTGATATCCATATATGGCAGTTTAATAGCTGCTATGCAAACTTTTTGGGAACCTA
+TATTTTCTTTTTTAATGGGGTTTCATATTAGGAGATCTTGTGCCTATTCTGTTAAATTGAAAAATAATGCTTGACTCCAA
+CAGTTCTGTTTTTCACAAGCCTAGTTTTTTAATGGAAGCATTTTATGTAAAATCAAAATACCATTTACTAAAATTTAAAT
+GTTTGTATCGTTTAACTATGTCCAAGACTTTTGGTGAAATGCATAGAAGTCCAGAACAAACCAAGAAAGAAAGGATTGCG
+TATTTTCAGAGGATTTGGAAATTCTCATTGAGGTTTATTTTTGGTAATAGTAACGTGTATATGTGTGTGTGCAGATATAC
+ACATATGTATCGTGTACATATATACATGCATATACATATATACATGTATGTATATATTCCTTTGCTTCCTTTTAAAATGT
+TAACTGGCAGTGAGACTTTTTTGGTCATTCCTTTTCCACGGAGGAATATGGAAAACATAATTTCAAAGTGGCCAGCTGAG
+TTTATTGTGTCAATGAAATATAATTACTCCCAGATGCCGCCATGAACTTAAGGTTCTTCATGTCCCTGGGTTTTCAGTAT
+GAACCTAAATGCCTTCCCTACCCACACTCCTCACATGGTCACCATTTCAAAAGGCCCGCAGTGACTTCTGCTGGGCGTTT
+TCCACGATGTTTACAAACTGTGATTGCAGCAGCAAATCTTTTACTGTGTGTATATAAATATATGTATATATAAACAACTG
+TAAATTTCTTTTAGCC
+>ref|X63139.1| B.taurus beta-lactoglobulin gene 5'-region and partial exon 1
+AGCAACACACCCAGCACCAGCATTCCCACCGCTCCTGAGGTCTGAAGGCAGCTCGCTGTGGTCTGAGCGGTGCGGAGGGA
+AGTGCCCTGGGAGATTTAAAATGTGAGAGGTGGGAGGTGGGAGGTTGGGTCCTCTAGGCCTTCCCATCCCACGTGCCTGC
+ATGGAGCCCTAGTGCTACTCAGTCATGCCCCCGCCGCAGGGGTCAGGTCACTTTCCCATCCTGGGGGTTATTATGACTGT
+TGTCATTGTTGTTGCCATTTTTGCTACCCTAACTGGGCAGCGGGTGCTTGCAGAGCCCTCGATACTGACCAGGTTCCCCC
+CTCGGAGCTCGACGTGAACCCCATGTCACCCTCGCCCCAGGCTGCAGAGGGTGGGGTGACTGCAGAGATCCCTTTACCCA
+AGGCCACAGTCACATGGTTTGGAGGAGACGGTGCCCAAGGCAGAAGCCACCCTCCAGGACACACCTGCCCCCAGTGCTGG
+CTCTGACCTGTCCTTGTCTAAGAGGCTGACCCCAGAAGTGTTCCTGGCGCTGGCAGCCAGCCTGGACCCAGAGCCTGGAC
+ACCCCCTGCGCCCCTACTTCTGGGGCCTACCAGGAACCGTCCAGGCCCAGAGGGGGCCTTCCTGCTTGGCCTCGAATGGA
+AGAAGGCCTCCTATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATACGCCAGGGGGGATTCGGGGAACCGCGTG
+GCTGGGGGCCCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTGTCTCAGCCCTCCACTCC
+CTGCAGAGCTCAGAAGCGTGATCCCGGCTGCAGCCATGAAGTGCCTCCTGCTTG
+>ref|X52582.1| Bovine 3' DNA for beta-lactoglobulin
+ATAAACCTGTGCTCTCCCTTCTGAAGTCTTTCCTGGATGATGGGCCGGGGGTGGAGAAGGCCCGGGACAGGGTGGGGAGT
+GGTCTGGCTCAGAAGGAATGAATGGTAGGGCTGGGATCCAGGGCGTCTGCATTACAGTCTTGTGACATCTGGGGCCCACA
+CACATCACTACGCTCTT
+>ref|X52581.1| Bovine 5' DNA for beta-lactoglobulin
+GCTTGGCCTCGAATGGAAGAAGGCCTCCTATTGTCCTTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATAGGCCAGGGGG
+GATTCGGGGAACCGCGTGGCTGGGGCGCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTG
+TCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGGCCC
+TCACCTGTGGCGCCCAGGCCCTCATCGTCACC
+>ref|X14710.1| B.taurus beta-lactoglobulin gene
+GCGCTTGGAAAAGATTGTCCAGCCTCCCTCCCATAGTGGTCAGTGCCAGCTGCCCCAGGCCAGAGGTGCTTTATTTCCGT
+CTCTCTCTCTGGATGGTATTCTCTGGAAGCTGAAGGTTCCTGGAAGTTATGAATAGCTTTGCCATGAAGGGCATGGTTTG
+TGGTCATGGTTCACAGGAACTTGGGAGACCCTGCAGCTCGGACGTTCCTGAGGTTGGTGGCACCCTGATTTCCTAAGCTC
+GCTGGGGAACGGGGTGCTACTTCTCCCTGGCTGACCTCCCTCTGCTCTCGATCACCCAGTTCTGAGAGCAGAGTGGTGCT
+GGGGGCACAGCCTCTCGCATCTGACACTTGTGTTCAAACCACCCATGCTGGTGTTCGGGGGGCCACCTATGGGGAAGGCT
+CCTCACTGCAGGGGTGCCCCTGTCCCCTGAGAGATCAGAAGTCCCAGTCTGGATGTCGAATGGCCGAGCTCCCTCCAGAG
+GCTCCAGGGAGGGATCCTTGCCCCCTCCGCCGCCGCCTCCAGCTCCTGGTGCCGCACCCTTGGGCCCGATCTCGTAGACG
+CCTCAGTCCAGTCTCTGCCTCCGTGTTCACTGGCATTCTCCCCATGTCCCCTCTGTGTCCCCGTTTTCTCTCACAAGGAC
+ACCGGACATAAGATTAGCCCCCGTTCCAGCATCACCTGAACAGCTCACATCTGTAAAGACCTAGATTCCAAACAAGATTC
+CATCCTGAAGTTCCTGGTGGACGTGAGTTCTGGAGCGACGCCCTTCAACCCCATCACAGCTTGCGGTTCATCGCAAAACA
+CGGAACCTGGGATTTATCGTAAAACCCAGGTTCTTCGTGAAACACTGAGCTTCGAGGCTTGTTGCAAGAATTAAAGGTGC
+TAATACAGATCAGGGCAAGGACCGAAGCTGGCCAAGCCTCCTCTTTCCATCACAGGAAAGGGAGGTCTGGGGGCGGCCGG
+GGGTCTGCTCCCGTGGGTGGGCTCTTTCTGGTACAGTCACCAACAGTCTCTCCGGGAAGGAAACCAGAGGCCAGAGAGCA
+AGCCAGAGCTAGTCTAGGAGATCCCTGAGCCTCCACCCAAGATGCCGACCAGCCAGCGGGCCCCCTGGAAAGACCCTACA
+GTCTAGGGGGGGAACAGGAGCCGACCCGCCAGGCCCCCGCTATCAGGAGACACCCCAACCTTGCTCCTGTTCCCCTACCC
+CAGTACGCCCACCCGACCCCTGAGATGAGTGGTTTACTTGCTTAGAATGTCAATTGAAGGCTTTTGTACCCCCTTTGCCA
+GTGGCACAGGGCACCCACAGCCCGCTGGGTACTGATGCCCATGTGGACTCAGCCAGGAGGACTGTCCTGCGCCCTCCCTG
+CTCGGGCCCCCTCCATACTCAGCGACACACCCAGCACCAGCATTCCCACCACTCCTGAGGTCTGAAGGCAGCTCGCTGTG
+GTCTGAGCGGTGCGGAGGGAAGTGCCCTGGGAGATTTAAAATGTGAGAGGTGGGAGGTGGGAGGTTGGGTCCTGTAGGCC
+TTCCCATCCCACGTGCCTGCACGGAGCCCTAGTGCTACTCAGTCATGCCCCCGCAGCACCCCTCAGGTCACTTTCCCATC
+CTGGGGGTTATTATGACTGTTGTCATTGTTGTTGCCTTTTTGCTACCCTAACTGGGCAGCGGGTGCTTGCAGAGCCCTCG
+ATACTGACCAGGTTCCCCCCTCGGAGCTCGACCTGAACCCCATGTCACCCTCGCCCCAGCCTGCAGAGGGTGAGGTGACT
+GCAGAGATACCCTTTACCCAAGGCCACAGTCACATGGTTTGGAGGAGATGGTGCCCAAGGCAGAAGCCACCCTCCAGGAC
+ACACCTGCCCCCAGTGCTGGCTCTGACCTGTCCTTGTCTAAGAGGCTGACCCCAGAAGTGTTCCTGGCGCTGGCAGCCAG
+CCTGGACCCAGAGCCTGGACACCCCCTGCGCCCCCACTTCTGGGGCGTACCAGGAACCGTCCAGGCCCAGAGGGGGCCTT
+CCTGCTTGGCCTCGAATGGAAGAAGGCCTCCTATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATAGGCCAGGG
+GGGATTCGGGGAACCGCGTGGCTGGGGGCCCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCG
+CTGTCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGG
+CCCTCACTTGTGGCGCCCAGGCCCTCATTGTCACCCAGACCATGAAGGGCCTGGATATCCAGAAGGTTCGAGGGTGCCCG
+GGTGGGTGGTGAGTTCGAGGGCTGGCTGGGGAGCTGGGCCTCAGAGACCAAGGGAGGCTGTGACGTCTGGGATTCCCATC
+AGTCAGCTAGAGCCGCCTGACAAATCGCCCGCCACAGGCTTCAACCAGGCCTTTAGTGTCTTGCATTCTGGAGGCTGGAA
+GCTGCAATCCGGGCATCGGCCCAGCTGGCTTCTCCTGCGGCCACTCTCCGGGGAGCAGACAGCCATCTTCTCCCTGTGTC
+CTTTGCGTGCCCTGGTTTCCTCTTCCTGTGAGGTCACCAGGCCTGCTGGATCCACGCCCGCCCACACAGCCTCACGTAAC
+CTTTGTCATCTCTTTAAAGGCCGTGTCTCCAGTCCTGTGTTGAGGTTCTGGGGGTTAATGGGACACAGTTCAGCCCCTAA
+AAGAGTCCGCTCTGCCCCTCAAATTTTCCCCACCTCCAGCTATGGTCTCCCCAAGATCCAAATGTTGCCACGTGTGCGGG
+GGCTCATCTGGGTCCCTCTTTGGGCTCAGAGTGAGTCTGGGGAGAGCATTCCTCAGGGTGCCGAGTTGGGGGGAGGCATC
+TCAGGGCTGCCCAGGCCAGGGTGGGACAGAGAGCCCACTGTGGGGCTGGGGGCCCCTTCCCGCCCCTGGAGTGCAGCTCA
+AGGTCCCTCCCCAGGTGGCGGGGACTTGGTACTCCTTGGCCATGGCGGCCAGCGACATCTCCCTGCTGGACGCCCAGAGT
+GCCCCCCTGAGAGTGTATGTGGAGGAGCTGAAGCCCACCCCTGAGGGCGACCTGGAGATCCTGCTGCAGAAATGGTGGGC
+GTCCCCCCCAAAAAAAGCATGGAACCCCCACTCCCCAGGGATATGGACCCCCCGGGGTGGGGTGCAGGAGGGACCAGGGC
+CCCAGGGCTGGGGAACGGGGCTTGGAGTTTCCTGGTACCCCTGGAGGTCCACCCAAGGCTGCTTATCCAGGGCTTTCTCT
+TTCTTTTTTTCCCCCAACTTTTATTAATTTGATGCTTCAGAACATCATCAAACAAATGAACACAAAACATCATTTTCGTT
+AACTTGGAAGGGGAGATAAAATCCACTGAAGTGGAAATGCATAGGAAAGATACATACAGTAAGGCAGGTATTCTGAATTC
+GCTGTTAGTTTGAGGATTACAAATGCACTTGAGCAACAGAGAGACGTTTTCATTATTTCTCGGTCTGAACAGCTCAGTAT
+CTAAAATGAACAAGATGTCATGGAGACAAAGCCGGCGGGGGAGAGGCCCGTGTGAAGGCCGCTGGGCGTGCAGACCTGGG
+TCCTCGGGGCCCAGGCAGTTCCCACTACCAGCCCTGTCCACCCTCAGACGGGGGTCAGAGTGCAGGAGAGAGCTGGGTGG
+GTGTGGGGCAGAGATGGGGACCTGAACCCCAGGACTGCCTTTTGGGGTGCCTGTGGTCAAGGCTCTCCCCAACCTTTTCT
+CCCTGGCTCCATCTGACTTCTCCTGGCCCATCCACCCGGTCACCTGTGGCCCCAGAGGTGACAGTGAGTGCAGCCAAGGC
+CGGTTGGCCAGCCGGCCCCCTATGCCCACGCCACCCGCCTCCAGCCCCTCCTGGGGCCGCCTTCTGCCCCTGGCCCTCAG
+TTCATCCTGATGAAAATGGTCCATGCCCGTGGCTCAGAAAGCAGCTGTCTTTCAGGGAGAACGGTGAGTGTGCTCAGAAG
+AAGATCATTGCAGAAAAAACCAAGATCCCTGCGGTGTTCAAGATCGATGGTGAGTGCTGGGTCCCCAGGGGACGCCCACC
+ACCCCCCAGGGACTGTGGGCAGGTGCAGGGGGCTGGCGTCAGGCCCCGAGATGCTAAGGGGCTGGTGGTGATGAAGACAC
+TGCCGTGCCACCTGCTTCCCTGGCCTCCCTGCCACCTGCCCGGGGCCTTGGGCCGGTGGCCGTGGGCAGGTCCCGGCTGG
+GCAGGTCTGACACCCCAGGGTGACACCCGAGCTCTCTTTGCTGAGGGTGGGGTGGTGCTCGGGGCCCTCAGGCTGAGCTC
+AGGAGGTCCCTGTGCCCACCCAGGGGTAACCGAGAGCCGCTGCCCGCTCCAGGGGTCCAGGTGCCCCACGATCCCAGCCC
+ACCCCACGGCTCCTTCATCTCCTGAAGACGAACTCTGTCCGCCCTCGCTCATTCACTTGTTTGTCCTAAATCCAAGATGA
+GAAAGCTTCGAGGTGGGGTTGGGGTTCCATCAGGGCCTGCCCTTCCGCCGGGCAGCCTGGGCCACATCTGCCCTTGGCCT
+CTTCAGGACTCACTCTGACTGGAGGCCCTGCACTGACTGATGCCAGGGTGCCCAGCCCAGGGTCTCCTGTGCCATCCGGC
+TGCACGGGGTTTGGATGCTGGTCCTGCCCCCAAGCTGCCCAGACACTGCAGGGCAGCTGGGGCCACCCGCAGGCCTCGGT
+CAGGGAGAGCCCCAGCTGCCCCCGCTCAGCGCTGCCCCCCAACAATTCCCCAGTCCTCAGGACGCATCCCTCTTCCCTTG
+CTGGGCAGTGTTCAGCCCCACCCGAGATCGGGGAAGCCCTATTTCTTGACCACTCCGGTCCCTGGGGAGGGCGGCCTCAG
+ACTCAGTGGTGAGTGTTCCCAAGTCCAGGAGGTGGTGGAGGGTCCCTGGCGGATCCAGAGTTGGGCTTCCAGAGTGAGGG
+CTTCCTGGGCCCCATGTGCCTGGCAGTGGCAGCAGGGAAGGGGCCACACCATTTTGGGGCTGGGGGATGCCAGAGGGCGC
+TCCCCACCCCGTCCTCACCAAGTGGTGACCCCGGGGGAGCCCCGCTGGTTGTGGGGGGTGCTGGGGGCTGACCAGAAACC
+CCCCTCCTGCTGGAACTCACTTTCCTCCCGTCTTGATCTCTTCCAGCCTTGAATGAGAACAAAGTCCTTGTGCTGGACAC
+CGACTACAAAAAGTACCTGCTCTTCTGCATGGAGAACAGTGCTGAGCCCGAGCAAAGCCTGGCCTGCCAGTGCCTGGGTG
+GGTGCCAACCCTGGCTGCCCAGGGAGACCAGCTGTGTGGTCCTCGCTGCAACGGGGCCGGGGGGGACGGTGGGAGCAGGG
+AGCTTGATTCCCAGGAGGAGGAGGGATGGGGGGTCCCCGAGTCCCGCCAGGAGAGGGTGGTCATATACCGGGAGCCGGTG
+TCCTGGGGGCCTGTGGGTGACTGGGGACGGGGGCCAGACACACAGGCTGGGAGACGGGGGGCTGCAGCGCTCTGGTGTGA
+CCATCACGATGGAGCCGGCGGTCACTATGAATCTAACAGCCTTTGTTACCGGGGAGTTTCAATTATTTCATCAAATAAGA
+ACTCAGGCACAAAGCTGTCTTTCAACTGTCACGTCCTGAAAACAAATGGCAGGTGACATTTTCCATGCCATAGCAGTGCC
+ACTGGGCATTTTCAGGGCCCATGTGCCAGGAGGGCGTGGGCATCGGCGAGTGGAGGCTCCTGGCCGTGTCAGCTGGCCCA
+GGGGGAGGAGGGGACCCAGACAGCCAGAGGTGGGGAGCAGGCTTTCCCCCTGTGACGCTGCAGACCCACCGCACTGCCCT
+GGGAGGAAGGGGAGGGAACTGGGCCAAGGGGGAAGGGCAGGTGTGCTGGAGGCCAAGGCAGACCTGCACACCACCCTGGA
+GAGCAGGGGTTGACCCCGTCCCGGCCCCACAGTCAGGACCCCGGAGGTGGACGACGAGGCCCTGGAGAAATTCGACAAAG
+CCCTCAAGGCCCTGCCCATGCACATCCGGCTGTCCTTCAACCCAACCCAGCTGGAGGGTGAGCACCCAGGCCCCACCCTG
+CTCCTGGGGCAGGAAGCCACCCGGCCCAGGACCACCTCCTCCCATGGTGACCCCCAGCTCCCCAGGCCTCCCGGGAGGAT
+GGAGACGGGGTGCAGGGCCCCGAGGTGGCCCCCTCCCCACCCCCTCCCCAGCTCCCTCTGTCCTGGGGTGTCCAGTCCCA
+TCCTGACGCTCCCCCGCCACGGCTCTCCCTCCCCCACAGAGCAGTGCCACATCTAGGTGAGCCCCTGCCGGCGCCTCTGG
+GGTAAGCTGCCTGCCCTGCCCCACGTCCTGGGCACACACATGGGGTAGGGGTTCTTGGTTGGGCCCGGGAGCCCCCATTA
+GGCCCTGGGGTCCCCCGTAGGAATGGCTGGAAGCTGGGGTCCTTCCTGGAGACTACAGAGCCGGCTGGCCACATGCTCGC
+TCTTGTGGGGTGACCTGTGTCCTGGCCTCACTCACACGCTGATCTCCTCCACCTCCTTCCTGGCAGACCTAAGGGCCAAG
+GTGGAGGGCTCAGGAAGTGACACCTAAGGGGGAGGCTAGGGGGGTCCTTCTCCCAAAGGAGGGGCCGTCCTGAATCCCCA
+GCCACGGACAGGCTGGCAAGGGTCTGGCAGGTACCCCAGGAATCACAGGGGAGCCCCATGTCCATTTCAGAGCCCGGGAG
+CCTTGGCCCCTCTGGGGACAGACGATGTCATCCCCGCCTGCCCCATCAGGGGACCAGGAGGAACCGGGACCACATTCACC
+CCTCCTGGGACCCAGGCCCCTCCAGGCCCCTCCTGGGGCCTCCTGCTTGGGGCCGCTCCTCCTTCAGCAATAAAGGCATA
+AACCTGTGCTCTCCCTTCTGAGTCTTTCCTGGATGATGGGCCGGGGGTGGAGAAGGCCCGGGACAGGGTGGGGAGTGGTC
+TGGCTCAGAGGATGATGGTAGGGCTGGGATCCAGGGCGTCTGCATTACAGTCTTGTGACATCTGGGGGCCCACACACATC
+TACGGCTCTTTGAAACTTTCAGGAACCAGGTAGGGAGTCGGCAGAGACATCTGCCAGTTAACTTGGAGTGTTCAGTCAAC
+ACCCAAACTCGACAAAGGACAGGAAGTGGAAAATGGCTGCTCTTAGTCTAATAAATATTGATATGAAAACTCAAGTTGCT
+CATGGATCAAATTATGCCTTTTTATGAATCCAGCCACTACAGTCGGTATCAAACTTCATGTACTCAAAACGCACTGATCT
+TTTCTGTGCTAAAATGAAATAAAGAGATTTCCCCAAGATACAGGAGCTGGGCAAAAGAGGTCACGGTTGGAAGGGGACTT
+GTTCTGCACACACAGCAAGGAGATCCAGCCAGTCCATCCTAAAGGAGATCAGTCCTGGGTGTTCATTGGAGGGACTGATG
+TTGAAGCTGAAACTCCAATACTTTGGCCACATGATGCGGAGAGCTGACTCATTTGAAAAGACCCTGATACTGGGAAAGAT
+TGAGGGCAGGAGGAGAAGGGGATGACAGAGGATGAGATGGTTGGATGGCATCACCGACAAAATGGACATGGGTTTGGGTG
+GACTCCAGGAGTTGGTGATGGACAGAAAGGCCTGGCATGCTGCGGTCCATGGGGTCACAAAGAGTCGGACACGACTGAGC
+GACTGAACTGAACTGAACTGAATGGAAAAGAGGTATACAGCAACGTGGGGATTTTTTAGATAATAAGAATAATTTACGCA
+TAACATAGTGTATACTCATATTTATATATATACGTGAATGCTCAGTCACACTCAGTCATATCTGACTCTGTGACCCATGG
+ACTGTAGCCCTCCAGGCTCCTTCTGTCCACAGAATTC
+>ref|X64126.1| B.taurus DNA for SINE sequence Bov-1D
AF327250.1 Bos taurus clone BOVA2 SINE Bov-A2 repeat sequence
+GGAGAAGGCAATGGCACCCCACTCCAGTACTCTTGCCTGGAAAATCCCATGGACGGAGGAGCCTGGTAGGCTGCAGTCCA
+TGGGGTCGCTAAGAGTCGGACACGACTGAGCGACTTCACTTTCACTTTTCACTTTCATGCATTGGAGAAGGAAATGGCAA
+CCCACTCCAGTGTTCTTGCCTGGAGAATCCCAGGGACGGGGGAGCCTGGTGGGCTGCCGTCTATGGGGTCGCACAGAGTC
+GGACACGACTGAAGCGACTT
+>ref|X64125.1| B.taurus DNA for SINE sequence Bov-2
+CTGCAGCCATGAAATTAAAAGACGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTAAAAAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCATCTAGTCAAGGCTATGGTTTTTCCAGTAGTCATGTATGGATGTGAGAGTTGGACT
+ATAAAGAAAGCTGAGCGCTGAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCCTTGGACTGC
+AAGGAGATCCAACCAGTCAATCCTAAAGGAGATCAGTCCTGGGTATTCATTGGAAGGACTGATGCTGAAGCTGAAACTCC
+AGTACTTTGGCCACCTGATGTGAAGAGCTGACTCATTGGAAAAGACCCTGATGCTGGGAAAGATTGAGGGCAGGAGGAGA
+AGGGGACGACAGAGGATGAGATGGTTGGATGGCATCACCGACTCAATGGACATGAGTTTGAGTAAACTCCAGGAGTTGGT
+GATGGACAGGGAGGCCTGGCGTGCTGCAGTCCATGGGGTCGAAAGAGTCGGACATGACTGAGCGACTGAACTGAACTGAA
+>ref|X05274.1| B.taurus mRNA for pancreatic trypsin inhibitor (BpTI)
+CTCCGTAGCCCTTCTGGTCCTCCTGGGCACCCTGGCGGCCAGCACTCCAGGGTGTGACACCAGCAACCAGGCCAAAGCCC
+AGCGGCCTGACTTCTGCCTAGAGCCTCCATATACGGGTCCCTGCAAGGCCAGAATTATCAGATACTTCTACAACGCCAAG
+GCTGGGCTCTGCCAGACCTTTGTATATGGCGGCTGCAGAGCTAAAAGAAACAATTTCAAGAGCGCAGAGGACTGCATGAG
+GACCTGTGGTGGTGCTATTGGGCCCTGGGAGAACCTGTGAACTGTGCTCCCCTGAGATGCTGAAGTATGAGGAGGACCCA
+CCCAAGGCTGGCCTCTATCTGCTTCTGAAAAATTTCAGCCTCCTTTTATTTCTTCTCAACCCTCCCCTCCTCAGCAGAAA
+TCTGTCTCTTTCCTTCCTCCACAGGTCCACTTACTTTAGCCCTATCTCATCCAGTTTGCTCTAAGCACCATGAAAGCAAA
+TCTTCCCTTTGTCCCTCACACTTCCCACAATTTCTGGCACAAAGGAGAAGGTCCAGAAATATTGGAGGAAGGAAGGAATG
+AAGTTCCCCATGACTGGAGCATCTGTAGAGTCTGAGATTTAAATCTGGATTCTTGTCCTAATCTTCCTCCTCACGGCATC
+CTTACCTTCATCCTCCACCCCACCATCACTGCTCTCCCTCTACTGGCGAAAGTAGAATTTCCATCATCGAGTTTTCAGCT
+CAGTGGTGGGAGAGGTCTTTTCATGAACGAAACCTCCTCCTCACATTGATTTGAAGGTCTGTGGCTTCAAAGAGTCTGGC
+CTTATCTTTAAATAAATTCATATTTTAATTAAA
+>ref|NM_174292.2| Bos taurus crystallin gamma S (CRYGS), mRNA
X03006.1 Bovine mRNA for lens beta-s-crystallin
+TGCACCAAACATGTCTAAAGCTGGAACCAAAATTACTTTCTTTGAAGACAAAAACTTTCAAGGCCGCCACTATGACAGCG
+ATTGCGACTGTGCAGATTTCCACATGTACCTGAGCCGCTGCAACTCCATCAGAGTGGAAGGAGGCACCTGGGCTGTGTAT
+GAAAGGCCCAATTTTGCTGGGTACATGTACATCCTACCCCGGGGCGAGTATCCTGAGTACCAGCACTGGATGGGCCTCAA
+CGACCGCCTCAGCTCCTGCAGGGCTGTTCACCTGTCTAGTGGAGGCCAGTATAAGCTTCAGATCTTTGAGAAAGGGGATT
+TTAATGGTCAGATGCATGAGACCACGGAAGACTGCCCTTCCATCATGGAGCAGTTCCACATGCGGGAGGTCCACTCCTGT
+AAGGTGCTGGAGGGCGCCTGGATCTTCTATGAGCTGCCCAACTACCGAGGCAGGCAGTACCTGCTGGACAAGAAGGAGTA
+CCGGAAGCCCGTCGACTGGGGTGCAGCTTCCCCAGCTGTCCAGTCTTTCCGCCGCATTGTGGAGTGATGATACAGATGCG
+GCCAAACGCTGGCTGGCCTTGTCATCCAAATAAGCATTATAAATAAAACAATTGGCATGC
+>ref|X63681.1| B.taurus BTDS1 mRNA for T cell receptor delta chain
+CGCCGCTGAAATCCATGCCTCATGCTGCTGTCCAGTCTGCTCTGGGTGTTCATGGCCATCGCCTTCTCTCGTAGGGATGC
+TTCCAAACACGAGTGCGAGTGTTCAGGGTGAAAGGATCTGGTGTGGCCCAGAAAGTTACTCAAGACCAGTTAGATGTATC
+CAGCCAACTGGGGCAGTCAGTCACCCTGAAGTGTCGGTATGAAACAAGTTTGAATACTTACTACCTTTACTGGTACAAGC
+AACTTCCCAGTGGACAGATGACTTACGTTATTCGTCAGGGTTCAGAAGTGACAAATGCAAAGGAAGACCGCTACTCTGTA
+AACTTTAAGAAAGCAGATAAATCCATCAGCCTCATCATTTCAGCCTTACAACTGGAAGACTCTGCAAAGTACTTCTGTGC
+TCTCCGTGACTCTGGCCGGCTGGGGGCGTACAGCTGCGGATTTACTCCACTAATATTTGGCAAAGGAACCTATCTGAACG
+TGGAACCAGAAAGTCAACCTGCTGCCAGCCCATCTGTTTTTGTCATGAAAAATGGGACAAACGTCGCTTGTTTGGTGAAG
+GAGTTCTACCCCAAAGATGTAACTATAAGTCTGCAATCATCCAAGAAAATAATAGAATATGACCCGGCTATTGCCATCTC
+ACCTGGGGGGAAGTACAGTGCTGTCAAGCTTGGTCAATATGGAGACCCCGATTCAGTGACATGTTCGGTTGAACACAACA
+AGCAAACCTGGCACTCTACTGACTTTGAACCAAAGAAAACTATTCCAGAAACAACTCCAAAACCGATGGCATATGAAAAC
+AGCACAAAAGCTGAAGCTCCAGTGACCTGCCAAGAGCCCCAAGTGGAACCCGGGAAGGTGAACATGATGTCCCTCTCGGT
+GCTGGGGCTCCGAATGCTGTTTGCCAAGAGTGTCGCCGTCAATTTTCTCTTGACTGCCAAGTTATTTTTCTTTTAA
+>ref|X63683.1| B.taurus BTGC8 mRNA for T cell receptor gamma chain
+GAATTCAGATCAAACTGCCAGGATGAAGTTTTTTGACTTCTAGTCACTTTATAAAGGTAGAAAAAGGCTGGATTATTGTA
+GGAGCTTTTACCATTGTGACAGCTCAGGCTGGAGGAAGATATTTGGAGAAGGAGCTAACATCATAGTAACTCCTCCTGAG
+AGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTTTCTTCCTTCAATTGCTGAAATCAACCATGATAATGCTGG
+AACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTATTACAGTTTCTTGGAGAGCAAAAAATGACAAAAGAGCTC
+TGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACCTACATGAAGTTCAGCTGGCTGACCATGACCGAAAACTCT
+ATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAATATAGGAGGAATTGATCAAGAGATTATTTTTCCTTCAAT
+AAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTCCTACTACTAAGCCTCCTACTACTGAGCCTCCTACTACTG
+AGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACAGGTACTGGTTCTAAAAAAGCTTGTCTGAAAGATGGAAGT
+GATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAGTACCCTGCAGCTGCAGCTCATGAACACCTCTGCAGCCTA
+TTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACTTTGTTGTCATCATTTCCTGTGTGTTTAGAAGAACAGGCG
+TCTGCTGAGACGGGAAGATCTCGTAA
+>ref|X63680.1| B.taurus BTGT1 mRNA for T cell receptor gamma chain
+TTGGGCTCAGGCAGGACTGGGTGGATCTGCCATGGACATGGGAATCTCAGGGCCTGTCCTGTATGGATTCTGGCAGCCGG
+ACAGTTCATCTGTGCTCAGAGAAGCACTCAGTTGCTTCTGGATATTTCTTTTTCTCCTGATCTAAGATAGAAACCTTGCT
+ACAGACATTTCACCCAAGCCCACTATTTTTCTTCCTTCAATTGCTGAAATCAATCACAGTAAGACTGGAACATACCTTTG
+TCTTCTGGAGAAATTTTTCCCTGATATTATTAAGGTTTATTGGAAAGAAAAGGATGGCAACAAAGCTCTGCCATCCCAGC
+AGGGAAATACCATGAAGACTACTGACACATACATGAAGCTCAGCTGGCTGACCGTGACTGAAAACTCCATGGACAAAGAA
+CATATCTGTGTCGTACAACACGAGAGAAATATAGGAGGAATTAATCAAGAGATTCTTTTTCCTTCAATAAATGAAGTTGT
+CAGCTCAATTGTCCCTACCACTGAGTCTCCCAGTGACTGTTTAAACCATGACAGCAAAGTTACCGGTACTGGTTCTAAAA
+AAGCTTGTCTGAAAGATGAAAGTGAAGTCACTGCTGATAATAATTCTACAAAAGTGTGTCTGAAAGATGAAAGCAATACC
+CTGCAGCTGCAGCTCATGAACACCTCTGCCTATTACACCTACCTCCTTCTCCTCCTCAAGAGTGTGGTCTACTGTATCAT
+CATCACCTCCTGTGTGTTTCGGAGAACAGGCATCTGCTGTGACGGGAAGAACTTGTGATAGAGCGTCCCCGAAGGAGTCA
+GCTTTCCTTAATCATCTGTTGATACTGAAATTCTCTGCTTGCTTTTTGGATTTGGGTTATCTCAGTGTATATGTGTTTTT
+TCCCCTATTATGTCATTATTGTGTAACAATTTTTCAAACACTGGGCAAACAGACAGTTCTACCCTGAAACAAGGAATTCT
+GTTATTACTCAGGGAGCAAGGCCCAGGGCGGGTCCAGGGGAGCCTCTCCCACCACTGTCCCCACCGCATCAGCTCCTTCC
+ACCCCAAGTCCCCGTGCCTCCAGGGTGCACTAAGTGGGCAGCTCCCCATCTCCTCCGTCAGCATCTTCCCCAAGACCATG
+GTCTTGAACCTCCCTGTTACACATCCTGGGGCAGCCAGCTTTGCTACTTGAACTCTGTACTTTCTTTTTCATAATAGGCA
+CAATAAGTAAAAAAATAAATAAAAAGTCCA
+>ref|X63684.1| B.taurus BTGT2 mRNA for T cell receptor gamma chain
+AAGATTCCCTGGAGAAGGAAATGGCAACCCACTCCAGTATTCTTCCCTGGGAAATCCCATGGCAGGCTACAGTCCAAGGG
+GTTGCAAAGGAGTCAAACACATCCTAGTGACTGAATAATAACAACTAATCTGAGGAAAACTTATAAAACATTGGATGCTG
+TGAAACCTATATCCAAGGACTTCCAAAAGAATTCAGATCAAACCGCCAGTATGAAGTTTTTTGACTTCTAGTCACTTTAT
+AAAGGTAGAAAAAGGCTGGGTTATTGTAGGAGCTTTTACCATTGTGACAGCTCAGGCTGGAGGAAGATATTTGGAGAAGG
+AGCTAACATCATAGTAACTCCTCCTGAGAGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTTTCTTCCTTCAA
+TTGCTGAAATCAACCATGATAATGCTGGAACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTATTACAGTTTCT
+TGGAGAGCAAAAAATGACAAAAGAGCTCTGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACCTACATGAAGTT
+CAGCTGGCTGACCATGACCGAAAACTCTATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAATATAGGAGGAA
+TTGATCAAGAGATTATTTTTCCTTCAATAAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTCCTACTACTAAG
+CCTCCTACTACTGAGCCTCCTACTACTGAGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACAGGTACTGGTTC
+TAAAAAAGCTTGTCTGAAAGATGGAAGTGATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAGTACCCTGCAGC
+TGCAGCTCATGAACACCTCTGCAGCCTATTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACTTTGTTGTCATC
+ATTTCCTGTGTGTTTAGAAGAACAGGCGTCTGCTGAGACGGGAAGATCTCGTAA
+>ref|X63682.1| B.taurus BTGT4 mRNA for T cell receptor gamma chain
+GCCGCTCACAGAGCTTGTTAGGAGCGAAATGAACCAGGACCAGAAGCCTAGTGTCTTGAATTCCAAGTCATCATAGTTCT
+ACTAGAATTTGAAGAAATCAGAGAAGCTAATTAGTCTAAAGTTTTTGATATGACTTGAATCACTGTGGAATAATTACATA
+AAAAACTTCAATGTTGGAGCAAAACTCATTGTCACAGAGAGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTT
+TCTTCCTTCAATTGCTGAAATCAACCATGATAATGCTGGAACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTA
+TTACAGTTTCTTGGAGAGCAAAAAATGACAAAAGAGCTCTGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACC
+TACATGAAGTTCAGCTGGCTGACCATGACCGAAAACTCTATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAA
+TATAGGAGGAATTGATCAAGAGATTATTTTTCCTTCAATAAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTC
+CTACTACTAAGCCTCCTACTACTGAGCCTCCTACTACTGAGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACA
+GGTACTGGTTCTAAAAAAGCTTGTCTGAAAGATGGAAGTGATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAG
+TACCCTGCAGCTGCAGCTCATGAACACCTCTGCAGCCTATTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACT
+TTGTTGTCATCATTTCCTGTGTGTTTAGAAGAACAGGCGTCTGCTGAGACGGGAAGATCTCGTAA
+>ref|X67333.1| B.taurus mRNA for calpastatin
+GTTTCCCAAACCCCAGCTCCAACCACCCAGGCAGCCGGTCCACCCCCCAGCACTGCGCACGGTGACAACAAAGAACTTGA
+CGATGCCCTGGATCAACTTTCTGACAGTCTCGGGCAAAGACAGCCTGATCCAGATGAGAATAAACCTGTAGAGGATAAAG
+TCAAGGAAAAAGCCAAAGCTGAACACAGAGACAAGCTGGGAGAAAGAGATGACACCATCCCACCTAAATACCAACATCTT
+TTGGATGACAACAAGGAGGGCACACCCGGGAAGCCAAAGGCATCAGAGAAGCCCAAGGCATCAGAGAAACCTGCAGGTGC
+CCAGGACCCCATTGATGCCCTCTCAGGGGACTTTGACAGCTGTCCCTCGACTACAGAAACCTCGACAGACACACCAAAGG
+ACAAAGACAAGAAGCCTGCTTCCAGTGCCGAAGCACCTAGGAATGGCGGG
+>ref|X03590.1| Bovine gene for alpha-S1-casein 5'-flanking region and exon 1
+CTGCAGTCCATGGGGGTCACAAAGAACTGGACACGACTTAGAAACTAAACAACAACAATTTATATCAGAATGAATGAACT
+AGTTACCACAACTAGTACACCCAAAATGAACAAAAAATAGCTTGGTGGTATAATTAAAATGCCACCAAAATTTATACAAT
+AATTATATTTTCTTTTTGCAGGAAAAAGATTAGACCACATATAATGTAACTTATTTCACAAGGTAAATAATTATAATAAA
+TAATATGGATTAACTGAGTTTTAAAAGGTGAAATAAATAATGAATTCTTCTCATGGTCTTGTATGTTAATAAAAATTGAA
+AAATTTTGAAGACCCCATTTTGTCCCAAGAATTTCATTTACAGGTATTGAATTTTTCAAAGGTTACAAAGGAAATTTTAT
+TGATATAATAAATGCATGTTCTCATAATAACCATAAATCTAGGGTTTTGTTGGGGTTTTTTTTGTTTGTTAATTTAGAAC
+AATGCCATTCCATTTCCTGTATAATGAGTCACTTCTTTGTTGTAAACTCTCCTTAGAATTTCTTGGGAGAGGAACTGAAC
+AGAACATTGATTTCCTATGTGAGAGAATTCTTAGAATTTAAATAAACCTGGTTGGTTAAACTGAAACCACAAAATTAGCA
+TTTTACTAATCAGTAGGTTTAAATAGCTTGGAAGCAAAAGTCTGCCATCACCTTGATCATCAACCCAGCTTGCTGCTTCT
+TCCCAGTCTTGGGTTCAAGGTATTATGTATACATATAACAAAATTTCTATGATTTTCCTCTGTCTCATCTTTCATTCTTC
+ACTAATACGCAGTTGTAACTTTTCTATGTGATTGCAAGTATTGGTACTTTCCTATGATATACTGTTAGCTTAAAAATATA
+TTTGCAAATGTTGATACTATCTATCTCAGAGCTATAGGTGAAAAATTAAATACTTTTATAAAGACCAAATTGATCATTTT
+TTAAACGAAAATTTCTTATATACTGAAAATGTAGATACATAACT
+>ref|X00565.1| Bos taurus mRNA for pre-kappa-casein A
+TTCACTTACAGTGGAAAGGCCAACTGAACCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTGCAATGATGAAGA
+GTTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAAGAACAACCAATA
+CGCTGTGAGAAAGATGAAAGATTCTTCAGTGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGCAGGTATCC
+TAGTTATGGACTCAATTACTACCAACAGAAACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAA
+AGCCAGCTGCAGTTAGGTCACCTGCCCAAATTCTTCAATGGCAAGTTTTGTCAAATACTGTGCCTGCCAAGTCCTGCCAA
+GCCCAGCCAACTACCATGGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAAATCAGGATAA
+AACAGAAATCCCTACCATCAATACCATTGCTAGTGGCGAGCCTACAAGTACACCTACCACCGAAGCAGTAGAGAGCACTG
+TAGCTACTCTAGAAGATTCTCCAGAAGTTATTGAGAGCCCACCTGAGATCAACACAGTCCAAGTTACTTCAACTGCAGTC
+TAAAAACTCTAAGGAGACATCAAAGAAGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCC
+AGTTGTCTGCCTTCGGTGAACAGAGAATATGATTTTCACAGATCTGGCTCCTTCCTCGTCTCCTCTTACATTTTACTTTT
+ATGCCAGATTTAATTTTTTGATTCCTGCATAATAAAGCCAATCAAATGCA
+>ref|X06359.1| Bovine mRNA for beta-casein
+ATCCATTCAGCTCCTCCTTCACTTCTTGTCCTCTACTTTGGAAAAAAGGAGTTGAGAGCCATGAAGGTCCTCATCCTTGC
+CTGCCTGGTGGCTCTGGCCCTTGCAAGAGAGCTGGAAGAACTCAATGTACCTGGTGAGATTGTGGAAAGCCTTTCAAGCA
+GTGAGGAATCTATTACACGCATCAATAAGAAAATTGAGAAGTTTCAGAGTGAGGAACAGCAGCAAACAGAGGATGAACTC
+CAGGATAAAATCCACCCCTTTGCCCAGACACAGTCTCTAGTCTATCCCTTCCCTGGGCCCATCCATAACAGCCTCCCACA
+AAACATCCCTCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTTTCCTTCAGCCTGAAGTAATGGGAGTCTCCAAAGTGA
+AGGAGGCTATGGCTCCTAAGCACAAAGAAATGCCCTTCCCTAAATATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTG
+ACTCTCACTGATGTTGAAAATCTGCACCTTCCTCTGCCTCTGCTCCAGTCTTGGATGCACCAGCCTCACCAGCCTCTTCC
+TCCAACTGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTCAGTCCAAAGTCCTGCCTGTTCCCCAGAAAGCAGTGC
+CCTATCCCCAGAGAGATATGCCCATTCAGGCCTTTCTGCTGTACCAGGAGCCTGTACTCGGTCCTGTCCGGGGACCCTTC
+CCTATTATTGTCTAAGAGGATTTCAAAGTGAATGCCCCCTCCTCACTTTTGAATTGACTGCGACTGGAAATATGGCAACT
+TTTCAATCCTTGCATCATGTTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATTCCTTTAT
+TTATTTTATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACTATATATTTCAAAATTTTAATTCAACATTAGCATAA
+AAGTTCAATTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATTATTATTT
+CTTTAAGAATCTATTTCCTAACCAGTCATTTCAATAAATTAATCCTTAGGCATA
+>ref|NM_181029.2| Bos taurus casein alpha s1 (CSN1S1), mRNA
X00564.1 Bovine mRNA for pre-alpha S1-casein B
+AGTAGGTTTAAATAGCTTGGAAGCAAAAGTCTGCCATCACCTTGATCATCAACCCAGCTTGCTGCTTCTTCCCAGTCTTG
+GGTTCAAGATCTTGACAACCATGAAACTTCTCATCCTTACCTGTCTTGTGGCTGTTGCTCTTGCTAGGCCTAAACATCCT
+ATCAAGCACCAAGGACTCCCTCAAGAAGTCCTCAATGAAAATTTACTCAGGTTTTTTGTGGCACCTTTTCCAGAAGTGTT
+TGGAAAGGAGAAGGTCAATGAACTGAGCAAGGATATTGGGAGTGAATCAACTGAGGATCAAGCCATGGAAGATATTAAGC
+AAATGGAAGCTGAAAGCATTTCGTCAAGTGAGGAAATTGTTCCCAATAGTGTTGAGCAGAAGCACATTCAAAAGGAAGAT
+GTGCCCTCTGAGCGTTACCTGGGTTATCTGGAACAGCTTCTCAGACTGAAAAAATACAAAGTACCCCAGCTGGAAATTGT
+TCCCAATAGTGCTGAGGAACGACTTCACAGTATGAAAGAGGGAATCCATGCCCAACAGAAAGAACCTATGATAGGAGTGA
+ATCAGGAACTGGCCTACTTCTACCCTGAGCTTTTCAGACAATTCTACCAGCTGGATGCCTATCCATCTGGTGCCTGGTAT
+TACGTTCCACTAGGCACACAATACACTGATGCCCCATCATTCTCTGACATCCCTAATCCTATTGGCTCTGAGAACAGTGA
+AAAGACTACTATGCCACTGTGGTGAGGAGTCAAGTGAATTCTGAGGGACTCCACAGTTATGGTCTTTGATGGTTCTGAAA
+ATTCCATGCTCTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCCAAAGGCTTCAACTGCTGTTTTAGAATAGGG
+CAATCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCTACTGTATTTTAGATAGTGTAACATCCTTAAGTGAAATTGT
+CCTAACAGCTTGTTACCTAAATTCCAGTAGTATCATGCTGGTATAAAGGCCACTGAGTCAAAGGGATTAAAGTCTTCATT
+AAATTTCTGTATGGAAAATGTTTTAAAAGCCTTTGAATCACTTCTCCTGTAAGTGCCATCATATCAAATAATTGTGTGCA
+TTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGCACT
+>ref|X14906.1| Bovine gene for kappa-casein exon 1 (and joined mRNA)
+GGATCCCTACTTTATATTGATTAATATTTCATATTTTGATTTAACATAAATTATTCTTGGGCATATAAAAGATGGTCAGT
+TTTCTAATTGGTTAAATACTGATGGCTGTAATTCTAGAAAGAGGATGATCAACCACAGCCCATAATATATGTAGAATTAC
+TTCATACTCAGGTTCTTGAAATAATAAGAAACATTTGAAATGTAAAAGTGCTATGGCTAGATACTTTTCATTTAATAATA
+GCTTTAAATTCAAATAGGTGGAATTAGTTGATTAAAATGCAATTAATATTCTTAAAAATCCTCTATATCTTTTCATAAAC
+ATAAAAGTTCAGTCTTACAAAAGTGTGAATAATCTGTTTTCAAATCTTATGAATGACAACTCTATTTCCTCCTCTGCATT
+CCATTAACCGAGACTGATGTAAAGATGGCCCTGCTATCGTCAGATCTTTCCTTTCTGTCATCTTCCTATTGGTGCAATGT
+AAAAGGAAGATAAATCTCATGACGCAAGACACTAACACCCTTTAATTAGTCTCTGGTTAATTACCTTGGGTGTTCCTTAA
+CAGTGGAAAGGCCAACTGAACCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTAATCACATTAAAACATTCAAA
+GAGAATAATTCTTATTCACAGCAGACTGTAATTATTACACCACCAAAGTTATTTTAGAAGAACATTTTCTTCCTTTTGGC
+TTTTATTGTTAAGCTTGGATATCCTTTGTCATGATTATGATATTAGTTTCTAATCTAAATCTTAGATTCTGTATAATGTT
+ATGATAAAATTTATTTTTAACTTCACTTTCGGGTTAAAGTCAAGATTTGATACTTGCTAAAGTACTGAAGACAATGTAGA
+TCCTTAAAAAAAAAA
+>ref|X14907.1| Bovine kappa-casein gene exon 2 (and joined CDS)
+CTAATTGTTTAATTTAATTTAGGTGCAATGATGAAGAGTTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATT
+TTTGGTGAGTTAATTTCATCTAATCAGTTTTGTATCAAATTTTTTTTTTTTAATTTATTGAAGGGCTTTAATTGTGTAAA
+TTTCTAATACAGTTATATTTATAGAACAAAGTAGCTGCATAAGTAATTTATTTTTACATTTATTTTTCTTATTAAAGTCA
+TATTCTTCTGGATATTCTTCTGGTTTCTAGGAATAAAGAAATCACACTTTATCATCTAAAGAAAACCTTTAAAATTCTTA
+TATGATAGAGAAAATACATTTGGGGGGAAAAATCCTGAAAATATTTTTAAATTATAATATGCACTTAAAATAATTCACAA
+AAAATAAATATATAAACCATAGAGGGAAGATCAGAAATGTTTTTAGTTAAATTCCTATTTCATGCAAACTCCAATTTGTT
+TCGAAACTAAATCCTTAAAATATTAGGAACTTGTTTAAGCTTTTTTACCAATTTCAAATAACTTGACATGTACTTTTAAT
+ATTTAAGTGTATTGTAACTTTTGTTATAATATTTCCATTGTGTCAACTCCCTCTCAGGGATTATATCCATAAACACCTCT
+TTGATTTTTAGGCAAACATCTGAAACTATCATATGTTTTATTTCCTGTTCTTACTGTTAACAAATAAGTGCCTCATCCCC
+>ref|X14908.1| Bovine gene for kappa-casein exons 3-5
+AGATCTGACATGACTGAGCGACTGAACTGAATTGATGACCTCCTCTTAAACTGTAAAATTTGGAACAGCACTAGTCCTTG
+TTTCATAATTCATTTATTATTAAATTTAGTTTTGCTTTCAAGTTAATATCTCTTAAATAATTCTATTTGGTAAATTTTTA
+GAATCTTTTTAAAAATTTGAATTACTATGACCTTCATATTTCTTCCTTTCTTCTTTGAAATTTGATTTTATTGTGGTCAC
+CTGCATATTTAGAACTTGGGCTTTCTCTTGAGGGATAGAGGTTAAAGTTTAAATCAGAAAGTGATTCACAACTGCTTGAC
+CTCTGAAAACATCTTCTTGAACTATTTAAGCCAGTGCTATCCCCAAACTCTCCTTCCTGTCTTCACAAAGCTACAAGCCC
+CATGGATATAAACAAATAATTCAAAAGAAGAATGAAAATTTATATAATTTTTACCATCCAATCTTATACAATCTTACTTA
+CCCAATCAAAATCATACAACTTAATACAGCAATCGGAGAAGGCAATGGCACCCCACTCCAGTACTCTTGCCTGAAAGATC
+CCATGGACTGAGGAGCCTGGTAGACTGCAGTCCATGGGGTCACTAAGAGCTCAGACACGACTGTGTAACTTTCAAGTAGA
+CATCCTGAGCGACTTCACTTTCACTTTTCACTTTCATGCATTGGAGAAGGAAATGGCAAGCCACTCCAGTGTTCTTGCCT
+GGAGAATCCCAGGGACGGGGAAGCCTGGTGCGGCTGCCCGTCTCTGGGGTCACACAGAGTCAGACACGACTGAAGTGACT
+TAGCAGCAGCAGCAGCAATACAGCAATGTTGTAGCATCTTTTATGTGCTAAATGTATTCCTTCTCTCCAAAATATAAATA
+ACTAAGATAACACTTATTACTAGCAATTACAAGATGAACTGCACACTCTTATAGTCTACTGATGACATTATAAATTGGTA
+TATCTTTACTGTACAGAAGTTTAATAATTTCTGTATTTTCCCCCCAAAATCATATTTTTGATGGACTGTTTTAAGAAATC
+ACTGAAAACTATTTAAAAGGCCATTGACATCTGGGCTTCCCTGGTGTCTCAGAAAGTAAAGAATCTGCCTGCATGCAGGA
+GACCTAGTTTTCATCCTTGGATTGGGAAGATTTCCCCGGAGAAGGGAATGGCTACCCACTCAAGTATCTTACCTGGAGAA
+TTCATGGACAGGGGAGCCTCATGGGCTACAGTTCATAGGTCATTTTAAAAGTCCGTTGATATCTATCCAGATGTTATCCA
+TGCCTGTATTTATAATAAAAACATTTTTTGATAAACCTTTAAAAGTTAACAGTAAAGAACAAACATTTCATGACATAACC
+ATTGATTGTTTTTCAACTTTGAATATGCAAGTATGAAAACTGAGGTGATGGAAAAAATGATATGAGATCATATGCCTTTA
+AAAAATTTAAGATACAAGATACTAAAATGAACATATACCAGGAATACATAATGCATGTAGACTGATATTATATAAAATCT
+ATATCTAAATTTTCAGGATTTTTTAGTGTAGGCAAACTTTCAATATTAATATAACTTTTTAAATTTTAAACTAATGACTT
+AATAAATTTAGAGGTAAATAAGTCCCTGTCTTAACACACCCTGTATTTTATTATTTTTTTTAAAATCTCTGATATCCTAT
+ACCAACAACTTCCTAAAGGTTTATAGGATCTTTTATATCCCAGGGGATATGTGTGAAAGTCTTAAACTAAAACTGTCATC
+TTAAAACTATTTACCATTATGAACTCACCTTTTGTAAGTTTTAAAGCTTCATATAGATATGCCTGGAAACTACTTTCTCA
+CTCCTGATTTCCTATGCATGTTACAATCCAGAACTAAGAAAAGTACTATAAATACATGATAATTTTTTAAATGCTATTAT
+TTATATAACATTTATATACCAGTGTTATGCTAGAGGCAATTTTTTAATCAAGCACTGGATGGATGGATTTTTAATCAACC
+AGATGGATGATCCGGGGAGGGAGGAGGGAGAGGGATTCAGGATGGGGAACATGTGTACACCTGTAGTGGATTCATGTTGA
+TGTATGGCAAAACCAATACAATATTGTAAAGTAATTAGCCTCCAATTAAAATTAAAAAATTATATTAAAAAAAAGAAAAC
+CTCATAAATCATCTTAGAGCAGAAACAGAAAAATATGCTAAATTCTCCTCTTATTTTTAGCAATATATATTCAATACAAA
+TTGAATATAGGTTGTTCATGTTCTTCATTTAAGCAATATCATATATAGTTGTTGGTACAGAGATCAAATGATCATATTCT
+TTTCAATCTTAAATTTTTCTCCCTAAATAGTGATTTTTAAGAACAACTTAACCATGGGGCTCATTATTGCTATTTAAGTT
+AGCATGTATCTGTCATTTCTTGAGGGTTTCACAGACTATCTGCTAAGTCACTTCAGTCGTGTCCAGCTCTGTGCGACCCC
+ATAGACGGCAGCCCACCAGGCTCTCCCGTCTCTGGGATTCTCCAGGCAAGAACACTGGAGTGGGTTGCCATTTCCTTCTC
+CAATGCATGAAAGTGAAAAGTGAAAGTGAAGTCACTCAGTCATGTTCGACACTTAGTGATCCCATGGACTGCAGCCCACC
+AGGCTCCTCCATGCATGGGATTTTCCAGGCAAGAGTACTGGAGTGGGGTGCCATTGCCTTCTCTGTCACAGACTATAGAT
+AACCTAGAAAAGTGCTTTATAATATTTTACAATACTAAAATAAAAGCAACAAAAACATGTTTTATCTTTTTTATAAAAGA
+TATTTTTAAATCACAAAAACTAGACTCTATCATGCTTTTTTTCTTCTAACTTCTTCTTTCTGATTCTTTCTCTGAATCTC
+AACAGGGTGCCCAGGAGCAAAACCAAGAACAACCAATAGTAAGTTTGTTTCCAGTAGAGATATGAATCCAAAGAATAAAA
+TTCTGCAAAGTTTAATGATATTAAAATGCCTTCTATCAAAAGACTAAGTAAATATTTAAACTACATAAAATAGTTGAATA
+ATCTTTGTAAAAATAATCATTTCAGCAACCACTCATATGAATCCACATCAATGTTTATCTAAAATCTTGGTATCACTTTA
+CAGGCCAAGTCGTGTTGATTTTCATGAGTATTTAGCAACATGAGAAAACCTTCTCAGAATTTAATACTGGGAAAACAATG
+AAAACAAAAGCAAAGCTTAATATTTCTTCTGTCTACTTTTTAAGAAATGGGGAATGATCCCTCTCTGAAACATCTTCAGA
+TGCTTCTCATACAATTGTATTCATTCCCCCAGTTTGTTTGAATGAATACCTTTAAATATGTCTCCTTTCATGAGGAAGCC
+TTGCTTTGAGGTATAATTTCATTAATTTGTTTCTATTCATAAGGAAAGATCTAATGATTTTGTATTTTATAACTGCACCT
+AATTAATATTAATTAATAGAACTAATCAATTATTATAATTAGTTAATTATAATATAATATTATATATATCACATGATGTG
+ATGTGATGTGGAATATATATATTTATCATATAATGTGATATTATGTGATATATATCACATTATATCACAATATATCACAT
+GATGTGATGTGGAATATATATTATTATATAGTTTTATATAATATATATTAATAATTGATTAGTTCTATTACTTTGGCCAC
+CTGATGTGAAGAGCTGACTCATTTGAAAAGACCCTGATGCTAGGAAAGATTGAGGGCAGGAGGAGAAGGGGACGACAGAG
+GATGAGATGGTTGGATGGCATCATGGACTCAATGGACATGGGTCTGGGTGGACTCCAGGAATTGGTGATGGACAGGGTGG
+CCTAGTGTGCTGCAGTTCATGGGGTCAGAAAGAGTTGGACATGACTGAGCGACTGAACTGAACTGAACTGAATATATAAT
+ATATAAATATTATAATATTATATATAATATATATTATAAAATTTTATAAATTATATAAAAAATATATAAACCCAAGAATC
+CATATCACATCACATCATTACATATAATATATAATATAATGTATAATATAATTTATAATATTAGATGATTATATAATATA
+CAGTATTAATATATTAGTATATAATATAATTGTATATAGTTAACTGCACCTAATTAATGTATTTTATGACTGCACCTAAT
+TGATAGAACTGTGGCAAATAAAGATGGAAAATTTCCGTAACTGATTTTTAACGGATAAAACTAAGCAGAAAAAAAACCCC
+AACATATAAACCCAGGAATCCACATCACATTATTTTTACTATTTTGCTTGAATTAGTTTAGATAAAATGCACCCTTAACC
+TAATCCCTAGATAAATAAAATAAAAAACAGTTACAAACATGTGGTGAGAATAAACATATATATATATATATATATACACA
+CACACACATATACACACTCATATATATGGAAAGAGATATACAGTTTTTTTTCTTTGTGTGTAGTATGCTTGTGTATTGTA
+TGTCAAAGCTCTCTATGAAACTGGTCTAGCTGTGGTGCTTATAAAGTGCAACATTTACTGAGGCACTTTTTATATATGCC
+AAGCTCTGGGCAAAGTGGTTTACATTATGAGCTATCTCATCTAATTTTTTTTGAAACTAATGTTATTTTTAATATTTGCT
+GAAAATCAAGAAGTGGAAGGAAAATGTACAAATCCATATTTTATAAAATAATATGGTTTCTGGGTTCACTATTCCCAATG
+TTGTACTTTCTTAACATCAAATACTGTAACAATTTGTTTCAAAAAATTCTGATTTAAGATATCTCTTCACTCTGCTTCTG
+CTGCTGCTAAGTCGCTTCAGTCCTGGCTGACTCTTGCGACCCCATAGATGGCAGCCCACTAGGCTCCCCAGTCCCTGGGA
+TTCTCCAGGCAAGAAATAATACCATTCTGCATAATTTATTTTTTTACAGCGCTGTGAGAAAGATGAAAGATTCTTCAGTG
+ACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCTAGTTATGGACTCAATTACTACCAACAGAAA
+CCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAAAGCCAGCTGCAGTTAGGTCACCTGCCCAAAT
+TCTTCAATGGCAAGTTTTGTCAAATACTGTGCCTGCCAAGTCCTGCCAAGCCCAGCCAACTACCATGGCACGTCACCCAC
+ACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAAATCAGGATAAAACAGAAATCCCTACCATCAATACCATTGCT
+AGTGGTGAGCCTACAAGTACACCTACCACCGAAGCAGTAGAGAGCACTGTAGCTACTCTAGAAGATTCTCCAGAAGTTAT
+TGAGAGCCCACCTGAGATCAACACAGTCCAAGTTACTTCAACTGCAGTCTAAAAACTCTAAGGAGACATCAAAGAAGACA
+ACGCAGGTAAATAAGGCAAAATGAATAACAGCCAAGATTCATGGACTTATTAATAAAATCGTAACATCTAAACTAGCGTA
+GATGGATAAATTAAATCTGTTACAGAGAAGGCGAAATGGGCTAATTATAACTTACATTTGCTGGTTCTTTATCATGTATA
+TACTAGATTCTTTCCCAACAAGAAAGTTTTAAAATATTTTACAAAATGAGTAAAAATTGCAGATTTTATTATTAAACCTT
+TTTCAACAATTGGTATACTCCTTGAATCTATTAGTTTTATTTTACTTCTGTTCACACACAAAAACAGTAAAGTACAGTGT
+CAACTCATGATTTTTCTTATCTCAAAAATATGTTTTCTTAGAAAAAAATCATATAGGATATGAGTTTAAATATATTTTAA
+TTGTATACCAGTGTTGTTGCACTCTACTTTTGGTAAGAATAGAATGAAAGGAAACAATGTTTCACTCATAGCATTTTATC
+TCAGGCATCACTTCCGAAAGGCTGTATAAGGTTAGGCACCCAAATTTCTCCCTATTGTAAGGTAATCCCACAGAAAAAAT
+TCTAATTTTTTAACTTGAAAAGCACCTACTTATTAAGAGGAAACTTTCAGAACTTTAAATATAATGTAAAATATGTCTAT
+TTATTATTTGAATCAATGGATAATGGCAGAGTCCAAAATAATTTAAAACACATGAAGAGGTTAAACAGAAAGATCAATAA
+GATAGAAAATAACTAAAGATTGTGAAATAATTTAGGAAGAAAGTGCAACATTTTGAGATTCTAGGCAACAAATACTTTCA
+TCACACTGTCTACATGAGTTTTTGGTCTAAAATGAACTCAGCAATGATATAATGGTAATAGCAATAGATCAGAGAAGCCT
+GGTTCTTCTGTTGTGTGACTTTAAGCAATTCATTACTCTCTCTAAAGAGTCATCACTCTCATTTTCTCATAATTTTAAGG
+TTGCTATGAGATTCAAGTGAGAAAGCATATTGTGAATGAGGTGTAAAAAGCAATCAATCTGTGAAATATAATGCTCTAGA
+AAAGAAGTATAATTAGTAAATATTAAAATTTACTTTCAACTAAAATATCAAGTCCTTACTAAATTATCAAAACTACATAA
+CAATCTCAGTTTAATCCTGTAGCAGCCGTATGGAATGGATTATATTACCATCTTAAATCCACAAATGAAAGCTATGGATC
+GGAAATTGCTACAGGCTGGAAAGTTCAAAACTGGAAACCAAATCAAACTTGCTTGATTTCAGATAGTAAGGCTTAATTAG
+TACGTCTGCTATTTCCATATGGGCTATTTGTTAAAAAAAAATAAAAATAAAAACAGAAAACATACTCTAATTTTCCAAGA
+TCAGCATATGTGTAAATTTTATTACTGAGATTGTGTTTAATAGGACATCTGGTAAGAAAGAGAAGACAATAAGCTGATAA
+ATCTTTGACTCATTAAAATTTCAAAAAGTAAAATGAAAACAAGTAATTGAGTTTGCAACTATCTATTTTATTGATATGAA
+ATACATTATATTTACATGATTGTTTTTAATAAATAATCATTATCTCATAGTCACATTTGTTCAAAACTCAAGAACCTAGA
+TTCCTAAGTTAAAACCACACACTACTTATAAAAAAAGAATGTATAGGACTGTGTCTTTCTGTGAATATTAGATGAAGACA
+ATTGTATAAGATCATCAGTTCACTATGTGGTGAATTTAAATATTTAAATTTATATATTTAGTTAGATAAACTACTTGGAT
+ACAGACATGAAGCAAATCACAGAAGCTAAATAAAATACATATCATGAGAACTGTTAGCACATTGTGAACTAAATCTCTAA
+ACTGTCATTTTTATAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCCAGTTGTCTGCTTCGGTGAACA
+GAGAATATGATTTTCACAGATCTGGCTCCTTCCTCGTCTCCTCTTACATTTTACTTTTATGCCAGATTTAATTTTTTGAT
+TCCTGCATAATAAAGCCAATCAAATGCAATGGATCTCTTTTCTTTTTTAATTTATTTATTTTAATTGGAGGCTAATTACT
+TTACAATATTGTATTGGTTCTACCACACATCAACGTGAATCTGCCACGGGATACACGTGTTCCCCATCCTGAACC
+>ref|NM_173899.2| Bos taurus CD5 molecule (CD5), mRNA
X53061.1 Bovine mRNA for CD5 antigen
+GAGCTTGCGGAGGCTGAGGCGGGAGGAGGCCGCGCCCATGGGGTCTCAGCATCTGCCACTGGCCGCCCTGTACCTTCTGG
+AGCTGCTGGTCACTTCCTGCCTCGGAGGGCTCAAGGTGGAGGTGCAAGGGCTCACCATGAGACTGAGCGGCTCCGGCTCA
+CGGTGTCAGGGCCGTCTGGAGGTCAGCAACGGGACAGAGTGGTACGCGGTGCACAGCCAGAGCTGGGGCCAGCTTTCGCT
+CTACCAGGTGGCTCCCAGGCAGTTCTTGAAGCTGTGCCAGGAGCTGCAGTGCCGGGACCCTTTGTTACTCTCTTCCTCGC
+GTTACTTCAAAGAGGTGCAATTCCAGAAATTGATAATCTGCCATGGACAGCTGGGATCCTTCTCCAACTGCAGCCTCAAC
+AGGGGACGCCAGGTGGACTCTCTGGCCCTGATCTGCTTAGAGCCACCGAGGACAACAGCTCCTCCCACGACCTCACCGCC
+CACAACCACTCCGGAGCCCACAGCACCTCCCAGGTTTCAGCTGGTGGCAGAGCCCGGGGGCCTGCGGTGTGCTGGCGTGG
+TGGAGTTCTACAGTGGTGGCCTGGGCGGCACCATCGGCATCGAGCCCCAGAATGATATCAAGGACCTGGGGCAACTCATC
+TGTGCAGCCCTCCAGTGTGGCTCCTTCCTGAAGCCCCTGCCAGAGACCGAGGAAGCCCAGACACAAAAGCCAGAAGGCCA
+AAGGCCTTTGCCAATCCGCTGGGAGATCCAGAACCCAAAATGCACCTCCCTGGAGCAGTGCTTCCGAAAAGTGCAGCCCT
+GGGTGGGTGGCCAAGCTCTTGGCCTCATCTGTTCTGATTTCCAGCCCAAGGTGCAGAGCCGCCTGGTTGGGGGCAGCGAC
+GTGTGCGAAGGCTCCGTGGAAGTGCGCAGTGGGAAGGGCCAGAAGTGGGACACGCTATGTGACGATTCCTGGGCCAAGGG
+CACGGCACGGCGGGTGGAGGTGTGCCGGGAGCAGCAGTGCGGCAACGTCAGCTCCTACCGGGGGCTGGACCCCAGCGAGA
+AGACCTTGGGGGGCTTCTACTGTCCCCCGGGGATACTGTCCCGGTGCCACAAGCTTGAGGAGAAAAAGTCGCACTGCAAG
+AGGGTGTTTGTCACATGCCAGAACTCCAGCCGAGCGGGCCTGGGCGCGGGGCCGGTGATGAGCATTATTTTGGCCCTCTT
+GCTTCTGGCGGTGCTGCTGGTCGTGTGTGGCCCCCTGGCCTACAAGAAGGTGGTGAAGAAATTCCGCCAGAAGAAGCAGC
+GCCAGTGGATTGGCCCAACGGGAATGAACCAGAACATGTCTTTCCATCGCAACCACACGGTGACTGTCCGGTCCCAGGTT
+GAGAACGCCACGGCCTCCCACGTGGAGAACGAATACAGTCAGCCTCCCAGGAACTCCCAGATCTCAGCTTATCCAGCTCT
+GGAAGGGGCCCTGCACCGCATCTCCACCCAGCCTGATAACTCCTCCGACAGTGACTATGAGCTACACGGGGCTCAGAGGC
+TGTAAGAGATCTGTGACCCGGGAACAAATATTAAGAGCCAGACTTTTTATCCCGAGAATCCTCTGCAGTCACCACTTGGA
+TGCCACGTCCCACTTCCTGCCCGGCAGACCACGGATGGGACTTCCCAACACATCCCACTGCCCTGCAGAGGCAGGTCCAC
+TCCGACATCTCCTCACATCCTCACCAGCCCAGGGAAGACCCCAGCATGGCTCAGCTGGCCCCTCCATGGGTGGAAGCTGT
+GAAAGGGCAGAGGCAAGCAGCCCCCTCCCTTGTCTGTGGACATCGGCTCTCTCTTCAGACTCTGACCCCCAGAAGGGCCC
+CACAGGAAAGCCTGCACCTGGAGCGGGGCGGTGGGAGGGAGGGCTGATTTCTCTCATGTATTTTTAATATTTTTTTTGTA
+AATAATGCTTTTTTCTGCTTCCTGGAAAAAAAA
+>ref|X00673.1| Bovine mRNA for blood coagulation factor X
+AGCCTGGGCGAGCGGACCTTGCCCTGGAGGCCTGTTGCGGCAGGGACTCACGGCTGTCCTCGGAAGGGCCCCACCATGGC
+GGGCCTGCTGCATCTCGTTCTGCTCAGCACCGCCCTGGGCGGCCTCCTGCGGCCGGCGGGGAGCGTGTTCCTGCCCCGGG
+ACCAGGCCCACCGTGTCCTGCAGAGAGCCCGCAGGGCCAACTCATTCTTGGAGGAGGTGAAGCAGGGAAACCTGGAGCGA
+GAGTGCCTGGAGGAGGCCTGCTCACTAGAGGAGGCCCGCGAGGTCTTCGAGGACGCAGAGCAGACGGATGAATTCTGGAG
+TAAATACAAAGATGGAGACCAGTGTGAAGGCCACCCGTGCCTGAATCAGGGCCACTGTAAAGACGGCATCGGAGACTACA
+CCTGCACCTGTGCGGAAGGGTTTGAAGGCAAAAACTGCGAGTTCTCCACGCGTGAGATCTGCAGCCTGGACAATGGAGGC
+TGCGACCAGTTCTGCAGGGAGGAGCGCAGCGAGGTGCGGTGCTCCTGCGCGCACGGCTACGTGCTGGGCGACGACAGCAA
+GTCCTGCGTGTCCACAGAGCGCTTCCCCTGTGGGAAGTTCACGCAGGGACGCAGCCGGCGGTGGGCCATCCACACCAGCG
+AGGACGCGCTTGACGCCAGCGAGCTGGAGCACTACGACCCTGCAGACCTGAGCCCCACAGAGAGCTCCTTGGACCTGCTG
+GGCCTCAACAGGACCGAGCCCAGCGCCGGGGAGGACGGCAGCCAGGTGGTCCGGATAGTGGGCGGCAGGGACTGCGCGGA
+GGGCGAGTGCCCATGGCAGGCTCTGCTGGTCAACGAAGAGAACGAGGGATTCTGCGGGGGCACCATCCTGAACGAGTTCT
+ACGTCCTCACGGCTGCCCACTGCCTGCACCAGGCCAAGAGGTTCACGGTGAGGGTCGGCGACCGGAACACAGAGCAGGAG
+GAGGGCAACGAGATGGCACACGAGGTGGAGATGACTGTGAAGCACAGCCGCTTTGTCAAGGAGACCTACGACTTCGACAT
+CGCGGTGCTGAGGCTCAAGACGCCCATCCGGTTCCGCCGGAACGTGGCGCCCGCCTGCCTGCCCGAGAAGGACTGGGCGG
+AGGCCACGCTGATGACCCAGAAGACGGGCATCGTCAGCGGCTTCGGGCGCACGCACGAGAAGGGCCGCCTGTCGTCCACG
+CTCAAGATGCTGGAGGTGCCCTACGTGGACCGCAGCACCTGTAAGCTGTCCAGCAGCTTCACCATTACGCCCAACATGTT
+CTGCGCCGGCTACGACACCCAGCCCGAGGACGCCTGCCAGGGCGACAGTGGCGGCCCCCACGTCACCCGCTTCAAGGACA
+CCTACTTCGTCACAGGCATCGTCAGCTGGGGAGAAGGGTGCGCGCGCAAGGGCAAGTTCGGCGTCTACACCAAGGTCTCC
+AACTTCCTCAAGTGGATCGACAAGATCATGAAGGCCAGGGCAGGGGCCGCGGGCAGCCGCGGCCACAGTGAAGCCCCTGC
+CACCTGGACGGTCCCGC
+>ref|X04012.1| B.taurus mRNA for chromogranin A
+CCGAGCTCAGTGCGGAGGGCGGATCGACAGACAGACGCACACGGAGACCTTGCACCACCAAACCCCATCCCCGCGCTGGT
+GTCGCCGCAGCTTGCCTGGAGCGAGCAGTCCAGCCGCCCCTCGCCCGAGCGCGCGCCGTGGCCCGCCCCAGACCACCAGC
+TGCTCGGCGCCCCGGCTTCGCCATGCGCTCCGCCGCGGTCCTGGCGCTTCTGCTCTGCGCGGGGCAAGTCATTGCCCTGC
+CTGTGAACAGCCCCATGAATAAAGGGGACACTGAGGTGATGAAGTGTATCGTCGAGGTCATCTCTGACACACTCTCCAAG
+CCCAGCCCCATGCCAGTCAGCAAGGAGTGTTTTGAGACACTCCGAGGAGATGAACGGATCCTCTCAATCCTGCGACATCA
+GAATTTGCTGAAAGAGCTCCAAGACCTCGCTCTCCAAGGAGCCAAGGAGCGGACACATCAGCAGAAGAAGCACAGCAGTT
+ACGAGGATGAACTCTCAGAGGTGCTTGAGAAGCCGAACGACCAGGCCGAGCCAAAAGAGGTGACAGAAGAGGTGTCCTCC
+AAGGATGCTGCAGAAAAAAGAGACGATTCTAAAGAGGTGGAGAAGAGTGATGAAGACTCGGACGGAGACAGGCCTCAGGC
+CTCCCCAGGGCTTGGGCCGGGGCCCAAGGTTGAGGAGGACAACCAGGCCCCTGGGGAGGAGGAGGAGGCCCCCTCCAACG
+CCCACCCCCTAGCCAGCCTCCCCAGCCCGAAATACCCAGGCCCACAGGCCAAGGAGGACAGCGAGGGTCCCTCCCAGGGT
+CCAGCCAGCAGGGAGAAGGGCCTGAGTGCAGAGCAAGGGAGGCAGACAGAGAGAGAAGAGGAGGAGGAGAAGTGGGAGGA
+GGCGGAGGCTAGAGAGAAGGCCGTCCCGGAGGAAGAAAGCCCGCCCACCGCAGCGTTTAAACCCCCACCGAGCCTCGGCA
+ACAAGGAGACGCAGAGGGCTGCTCCAGGTTGGCCCGAGGATGGAGCCGGGAAGATGGGGGCTGAGGAGGCCAAGCCCCCC
+GAGGGGAAGGGGGAGTGGGCACACTCCCGGCAGGAGGAAGAGGAGATGGCAAGGGCCCCTCAAGTCCTCTTCCATGGTGG
+GAAGAGCGGGGAGCCCAAGCAGGAGGAGCAGCTCTCCAAGGAGTGGGAGGACGCCAAGCGATGGAGCAAGATGGACCAGC
+TGGCCAAGGAGCTGACGGCCGAGAAGCGGCTGGAGGGGGAGGAGGAGGAAGAGGAGGACCCGGACCGCTCCATGAGGCTC
+TCCTTCCGGGCCCGGGGCTACGGCTTCAGGGGTCCCGGGCTGCAGCTGCGGCGAGGCTGGAGGCCGAACTCCCAGGAGGA
+CAGCGTGGAGGCCGGCCTGCCCCTCCAGGTGCGCGGCTACCCGGAAGAGAAGAAGGAGGAGGAGGGCAGCGCCAACCGCA
+GACCAGAGGACCAGGAGCTGGAGAGCTTGTCGGCCATCGAGGCAGAGCTGGAGAAGGTGGCCCACCAGCTGGAGGAGCTG
+CGGCGGGGCTGAGGCGCCGACTGACCCCACCAGCCAGGGCCCCGAGACACCTCGTGGTCCCGGCTCTGTTGCCCCCCCTG
+CAGGCCTGGCCAGACAAGCCCCGGGCACTGCTTCCGGGAGGGAGGCCGCCCCCAGCCGGCCCAAGCCCAGCCCACCCCAT
+TGCCCCCCTGCAGGGCAGACCCCTTGCCTTTCAACGATTATCCTGTCTCTGAACACAGGCAGCCTTCTCAAAGTTTCCCT
+TCCACCATTAGAGCCACTGGGCCTAACTGCAATAAGTACTGACCTTTAGGTGAAAGCTGAGGACTCCTGACTATATTGTG
+TATGAAGATTTATCTAACGGAAAATAAATCTGCTCTGGGCA
+>ref|X55489.1| B.taurus mRNA for chromogranin B
+CAGGATACAAGGTTGTTTTCCCACAGCATCTTCATCTCGCCTTCCGTCCCCTTCTCATTCACCCTTCCGACTGATATCCT
+CTTCTCCGCGCAGATTTGGACGAGCGAGGCCATGCAGCCGGCCGCCCTTCTCGGCCTTCTGGGAGCCACGGTGGTTGCAG
+CCGTCAGCTCTATGCCAGTGGACATCAGGAACCACAATGAAGAAGTGGTGACTCACTGCATCATCGAGGTCCTCTCAAAT
+GCCCTATTGAAGTCCAGCGCTCCACCCATCACCCCCGAGTGCCGACAAGTCCTGAAGAAGAATGGAAAAGAGCTCAAAAA
+TGAAGAGAAAAGTGAAAATGAAAACACAAGGTTTGAAGTGAGATTGTTGAGAGACCCAGCTGACACCTTCAGAAGCCCCC
+GGGCTTCTTCCAGTAGGGAGGACTCAGGGGAGGGGGATGCCCAAGTCCCAACAGTAGCAGACACGGAGAGCGGTGGGCAT
+AGCCGAGAGCGGGCAGGTGAGCCCCCGGGAAGTCAAGTGGCCAAAGAAGCAAAGACACGCTATTCTAAGAGCGAGGGACA
+GAACAGGGAGGAAGAAATGGTGAAATACCAGAAAAGGGAACGTGGGGAAGTTGGCAGTGAGGAGAGACTGTCTGAAGGGC
+CGGGAAAGGCACAAACGGCTTTTCTCAACCAAAGAAACCAGACTCCGGCTAAGAAAGAGGAGTTAGTGTCCAGATATGAT
+ACACAGTCTGCCAGGGGCCTTGAGAAGTCGCACAGCCGGGAAAGGAGCAGCCAGGAGAGTGGAGAGGAGACCAAGAGCCA
+GGAGAACTGGCCCCAAGAGCTGCAACGTCATCCGGAGGGCCAGGAAGCACCCGGAGAAAGCGAAGAGGATGCCAGCCCCG
+AGGTGGACAAACGGCACTCGAGGCCAAGACACCACCACGGGAGGAGCAGGCCCGACAGGTCCTCTCAGGAGGGGAATCCT
+CCCCTCGAGGAGGAGTCACACGTGGGCACGGGCAACTCAGACGAAGAGAAAGCCCGCCATCCAGCCCACTTTAGGGCTTT
+GGAGGAGGGAGCCGAATATGGGGAGGAAGTGAGGAGACACTCAGCTGCCCAGGCTCCTGGAGACTTGCAGGGGGCACGAT
+TCGGGGGCAGAGGACGTGGAGAGCACCAGGCTCTAAGGCGTCCCAGCGAGGAGAGCCTAGAGCAGGAAAACAAGAGACAT
+GGCCTCAGCCCGGATCTAAACATGGCGCAGGGATACAGCGAGGAAAGCGAGGAAGAGAGGGGTCCGGCCCCGGGACCCAG
+CTACAGAGCCCGGGGAGGGGAGGCGGCGGCCTACTCCACACTAGGCCAAACAGATGAGAAACGGTTCTTGGGTGAAACGC
+ACCACCGTGTTCAGGAAAGCCAGAGGGACAAGGCGAGGCGCCGCCTACCAGGCGAGCTGAGAAATTACCTCGACTATGGT
+GAGGAAAAGGGTGAGGAAGCAGCCAGAGGGAAGTGGCAGCCGCAGGGAGACCCGCGAGACGCTGACGAGAACAGGGAAGA
+GGCTAGGCTTCGAGGCAAACAGTATGCTCCCCATCTCATCACTGAAAAGAGATTAGGGGAGCTACTCAATCCATTTTACG
+ACCCTTCCCAGTGGAAGAGCAGCCGTTTTGAGAGAAAAGACCCCATGGATGACAGTTTTCTTGAGGGTGAAGAGGAAAAC
+GGGCTGACCTTGAATGAGAAAAATTTCTTCCCAGAATACAACTATGACTGGTGGGAGAAAAAGCCCTTTGAAGAGGATGT
+AAACTGGGGGTATGAGAAGAGAAACCCGGTCCCCAAACTGGATCTAAAAAGGCAGTATGACCGAGTGGCCGAACTGGACC
+AGCTCCTTCACTACAGGAAGAAGTCAGCTGAGTTCCCAGACTTCTATGACTCCGAGGAGCAGATGAGCCCACAACACACA
+GCAGAAAATGAAGAGGAGAAGGCTGGCCAAGGAGTTCTGACGGAGGAAGAGGAAAAAGAACTTGAAAACTTGGCTGCGAT
+GGATTTGGAACTACAGAAAATAGCTGAGAAGTTCAGTGGTACCCGAAGGGGCTAATGGTCATTAGAGTAAAGGGCAGATT
+TTAAGACAGCCTTCACATGATCTGTTATCCACCACTTCACTGAAAGACCCCATTTATTTATCCAAAGGCAGAAAGTAGAA
+TTTACTCATCCAATGTTTGACACAATTGGAAATGTCTTTGATTTTTGCCAGAGTGCTATTGGAAATATAAATAGCATGAC
+TTGTAGTATACTCTTTATAAAAAAGTAGATATATTAACATGCTTGTGACAATGACTGTGCTACTGTCCTTCGAAAAAATG
+TCTTAGTTTGAAGTAATAAAAGATTCACCTGAGGCAAAAAA
+>ref|X04823.1| Bovine retina mRNA for cyclic GMP phosphodiesterase gamma-subunit
+GCGTGAGGGAGTCCAGAAGCTGAAGGTCACTGCGGGATCTCTGCCAACCTGGCCATGAACCTGGAGCCACCCAAGGCCGA
+GATCCGGTCGGCCACCAGGGTGATGGGGGGACCCGTCACTCCCAGGAAAGGGCCCCCGAAATTTAAGCAGCGGCAAACCA
+GGCAGTTCAAGAGCAAGCCCCCCAAGAAAGGTGTCCAAGGGTTTGGTGATGACATCCCTGGAATGGAAGGCCTGGGAACA
+GACATCACCGTCATCTGCCCGTGGGAGGCCTTCAACCACCTGGAGCTGCACGAGCTGGCCCAGTACGGCATCATCTAGCC
+CTGGACCCCCGCCCTCAGCCCCTCTACTCCGCTGCCCACCCTGACCCCCTGCTCAAGATTCCTGTGAGCAGAGCTGTGCC
+CCGGGAGGTCCAGAGTGTCTGGATTGTGTCTGGAGACCCTCACAGGGCGGCAGCCTGGAGCCTCCTGAATGCTAGTTACC
+AGGAGCCCACCAGTTCCCTTCAGGACACCCTCTCGGGGCAGCCAGGCTCTGCTTAACTTCCAGAAACACTGGTCCACAGA
+CCCTCTCCTCCCCAGGCTGGAAAGCTAGGGCAGGCCTCCCAGTGGTGTCTGCCACACCCCGCCTCCTGGCCTGACTGTCT
+GGGGGTGAGAACGGGCTCCCCTCACTAGCCTTTCCCAGTTGAAGCCGTTGGGCCAGCAGGTGGATGCCAGGAGTCCTGCA
+GGCGTCAGACAATGAGAACCCCCTGGACCAGTCACACCAGTAGGAAGCTTGTCCTTTCCAACGTGGCCCATGCTCGCTGT
+CCTGTTTCAAATAAAGTTAGCCGTGCTCCCCAA
+>ref|NM_174421.2| Bos taurus phosphodiesterase 6G (PDE6G), mRNA
X04270.1 Bovine retina mRNA for cyclic GMP phosphodiesterase gamma subunit
+GCGTGAGGGAGTCCAGAAGCTGAAGGTCACTGCGGGATCTCTGCCAACCTGGCCATGAACCTGGAGCCACCCAAGGCCGA
+GATCCGGTCGGCCACCAGGGTGATGGGGGGACCCGTCACTCCCAGGAAAGGGCCCCCGAAATTTAAGCAGCGGCAAACCA
+GGCAGTTCAAGAGCAAGCCCCCCAAGAAAGGTGTCCAAGGGTTTGGTGATGACATCCCTGGAATGGAAGGCCTGGGAACA
+GACATCACCGTCATCTGCCCGTGGGAGGCCTTCAACCACCTGGAGCTGCACGAGCTGGCCCAGTACGGCATCATCTAGCC
+CTGGACCCCCGCCCTCAGCCCCTCTACTCCGCTGCCCACCCTGACCCCCTGCTCAAGATTCCTGTGAGGAGAGCTGTGCC
+CCGGGAGGTCCAGAGTGTCTGGATTGTGTCTGGAGACCCTCACAGGGCGGCAGCCTGGAGCCTCCTGAATGCTAGTTACC
+AGGAGCCCACCAGTTCCCTTCAGGACACCCTCTCGGGGCAGCCAGGCTCTGCTTAACTTCCAGAAACACTGGTCCACAGA
+CCCTCTCCTCCCCAGGCTGGAAAGCTAGGGCAGGCCTCCCAGTGGTGTCTGCCACACCCCGCCTCCTGGCCTGACTGTCT
+GGGGGTGAGAACGGGCTCCCCTCACTAGCCTTTCCCAGTTGAAGCCGTTGGGCCAGCAGGTGGATGCCAGGAGTCCTGCA
+GGCGTCAGACAATGAGAACCCCCTGGACCAGTCACACCAGTAGGAAGCTTGTCCTTTCCAACGTGGCCCATGCTCGCTGT
+CCTGTTTCAAATAAAGTTAGCCGTGCTCCCCAA
+>ref|NM_001001440.2| Bos taurus annexin A4 (ANXA4), mRNA
X13627.1 Bovine mRNA for endonexin (chromobindin 4)
M22248.1 Bovine endonexin (chromobindin 4) mRNA, complete cds
+CGGGGCGCCGTCCCATCTCGGCCTCTGGGGAACTTCTGCTTGACTGACCGACCGTGACCCTGACATAGCGTCATAGTCAT
+GGCAGCCAAGGGAGGCACTGTCAAAGCCGCTTCAGGCTTCAACGCTGCCGAAGATGCCCAGACCCTGAGGAAGGCCATGA
+AAGGGCTTGGCACAGATGAAGATGCCATCATCAACGTCCTGGCCTATCGCAGCACGGCCCAGCGCCAGGAAATCCGGACA
+GCCTACAAGACCACCATCGGCAGGGACCTGATGGACGACTTGAAGTCAGAACTGAGTGGCAACTTCGAGCAGGTGATCCT
+GGGGATGATGACACCCACGGTGCTGTACGATGTGCAGGAGCTGCGAAAGGCCATGAAGGGAGCTGGCACAGATGAAGGCT
+GCTTGATTGAGATCCTGGCCTCCCGGACACCCGAGGAGATCCGGCGCATAAACCAGACCTACCAGCTGCAATATGGGCGG
+AGCCTTGAAGATGATATTCGCTCTGACACGTCATTCATGTTCCAGCGCGTGCTGGTGTCTCTGTCCGCTGGAGGCAGGGA
+TGAAAGCAATTATCTGGATGATGCTCTCATGAGACAGGATGCCCAGGACCTGTATGAGGCTGGAGAGAAGAAATGGGGGA
+CAGATGAGGTGAAATTTCTAACTGTTCTCTGTTCTCGCAATCGAAATCATCTGTTGCATGTGTTTGATGAATACAAAAGG
+ATAGCACAAAAGGATATTGAACAGAGTATTAAATCTGAAACATCTGGCAGCTTTGAAGATGCTCTGCTGGCCATAGTAAA
+GTGCATGAGGAACAAATCTGCATATTTTGCTGAAAGGCTTTATAAATCCATGAAGGGCTTGGGCACCGATGACGACACCC
+TTATCAGAGTGATGGTTTCTCGAGCGGAGATTGACATGTTGGACATCCGGGCAAACTTCAAGAGACTCTATGGAAAGTCT
+CTATACTCCTTCATCAAGGGTGACACATCCGGAGACTACAGGAAGGTGCTGCTCATTCTCTGTGGAGGAGATGATTAAAA
+TCCAGAAAGCCCAGGAAGATTCCCTACACTTTGAATTCCTTTTTTAACTTAATTTTCTACACTGCTATTAGCATTATCTC
+AGAATGCTTATTTCCAATTAAAACGCCTACAGATGCCTCCTAGGATATAGCCTGTATTATTATTCATCTATAATTACCCA
+CTATGATGCTTTAAAGCTGTACTTGCATTTCAAAGCTCATAAAACCTAAAAGGAGATTTCAGATTAGAAATAAGAATGTG
+CTCCATGTTTTCAACAGATCTCTTCCTGTTTGTGTTTCACAGAAATTGGGATATATTACATTATTTCATATTTTCTTTTT
+GGAGAAAACTATTGAAGTGGGAGACTGTTCTAAAATCTCTTTTATTCCCTCATTCTATTATTAAGAGTGGCTAGTAATTT
+CTTGATTTGAAATTGTCATCGTCTAGTTAGTAAGAATAGCTAACCAGTTTGATATTTTACATAATCATTGTTTGAAAGCG
+TCTACACATCTGCTTTTGCTTGTTTAGGTTTTCATATAAAGTGCTAGTTGATTTAGTACTAAGTTCAGCATTGGAGACTC
+CCTCCATCACATCTTACATTAAGGTCAGGTAGACTCTCCAGGTTGAAGTATAACAAATTTACTGACTTGTCTGAACAAAT
+TCAACTCTGTGGTTATACAGATCATATATGTCTGACTACCAAACATAAATGCTGAACATTCCACAATATCAGGGTTAATA
+TAATAATAATAATGGTCTTAAGCCAGCTTGAAGATGAATGTGAAAAAATTAAATGTCAAACTACATATTCTGGTGATGGT
+GTAGTGCTCTGAATTTACATTTTTGTGCTAAAAATAATTTTTTAAATCATTTTTAATTGTGTTGATTTGAATACTTGCAT
+TTGTTGATTTACACTTGCACTGTGGCTTTCAACTCTAGAATTATTGTAAAGGTGTACTTGGATTTAATTTAAAAGTTCAG
+TTTGCATACAACACAGAAAAATAATTCCAATAAAAATATGGTGTCTTTCAAATCG
+>ref|X04298.1| Bovine mRNA for chromogranin A
+ACGGAGACCTTGCACCACCAAACCCCATCCCCGCGCTGGTGTCGCCGCAGCTTGCCTGGAGCGAGCAGTCCAGCCGCCCC
+TCGCCCGAGCGCGCGCCGTGGCCCGCCCCAGACCACCAGCTGCTCGGCGCCCCGGCTTCGCCATGCGCTCCGCCGCGGTC
+CTGGCGCTTCTGCTCTGCGCGGGGCAAGTCATTGCCCTGCCTGTGAACAGCCCCATGAATAAAGGGGACACTGAGGTGAT
+GAAGTGTATCGTCGAGGTCATCTCTGACACACTCTCCAAGCCCAGCCCCATGCCAGTCAGCAAGGAGTGTTTTGAGACAC
+TCCGAGGAGATGAACGGATCCTCTCAATCCTGCGACATCAGAATTTGCTGAAAGAGCTCCAAGACCTCGCTCTCCAAGGA
+GCCAAGGAGCGGACACATCAGCAGAAGAAGCACAGCAGTTACGAGGATGAACTCTCAGAGGTGCTTGAGAAGCCGAACGA
+CCAGGCCGAGCCGAAAGAGGTGACAGAAGAGGTGTCCTCCAAGGATGCTGCAGAAAAAAGAGACGATTTTAAAGAGGTGG
+AGAAGAGTGATGAAGACTCGGACGGAGACAGGCCTCAGGCTCCCCAGGGCTTGGGCCGGGGCCCCAAGGTTGAGGAGGAC
+AACCAGGCCCCTGGGGAGGAGGAGGAGGCCCCCTCCAACGCCCACCCCCTAGCCAGCCTCCCCAGCCCGAAATACCCAGG
+CCCACAGGCCAAGGAGGACAGCGAGGGTCCCTCCCAGGGTCCAGCCAGCAGGGAGAAGGGCCTGAGTGCAGAGCAAGGGA
+GGCAGACAGAGAGAGAAGAGGAGGAGGAGAAGTGGGAGGAGGCGGAGGCTAGAGAGAAGGCCGTCCCGGAGGAAGAAAGC
+CCGCCCACCGCAGCGTTTAAACCCCCACCGAGCCTCGGCAACAAGGAGACGCAGAGGGCTGCTCCAGGTTGGCCCGAGGA
+TGGAGCCGGGAAGATGGGGGCTGAGGAGGCCAAGCCCCCTGAGGGGAAGGGGGAGTGGGCACACTCCCGGCAGGAGGAAG
+AGGAGATGGCAAGGGCCCCTCAAGTCCTCTTCCGTGGTGGGAAGAGCGGGGAGCCCGAGCAGGAGGAGCAGCTCTCCAAG
+GAGTGGGAGGACGCCAAGCGATGGAGCAAGATGGACCAGCTGGCCAAGGAGCTGACGGCCGAGAAGCGGCTGGAGGGGGA
+GGAGGAGGAAGAGGAGGACCCCGACCGCTCCATGAGGCTCTCCTTCCGGGCCCGGGGCTACGGCTTCAGGGGTCCCGGGC
+TGCAGCTGCGGCGAGGCTGGAGGCCGAACTCCCGGGAGGACAGCGTGGAGGCCGGCCTGCCCCTCCAGGTGCGCGGCTAC
+CCGGAAGAGAAGAAGGAGGAGGAGGGCAGCGCCAACCGCAGACCAGAGGACCAGGAGCTGGAGAGCTTGTCAGCCATCGA
+GGCAGAGCTGGAGAAGGTGGCCCACCAGCTGGAGGAGCTTCGGCGGGGCTGAGGCACTGACTGGCCCCACCAGCCAGGGC
+CCCGAGACACCTCGTGGTCCCGGCTCTGTTGCCCCCTCTGCAGGTCCTGGCCAGACGGCCCCAGGCACTGCTTCCGGGAG
+GGAGGCCGCCCCCAGCCTGCCCAAGCCCAGCCCACCCCATTGCCCCACGCTCTTTTCCTCCTGCTCCTGACCCCTGCCCA
+GTGCGCCCCCCTGCAGGGCAGACCCCTTGCCTTTCAACGATTATCTTGTCTCTGAACACAGGCAGCCTTCTCAAAGTTTC
+CCTTCCACCATTAGAGCCACTGGGCCTAACTGCAATAAGTACTGACCTTTAGGTGAAAGCTGAGGACTCCTGACTATATT
+GTGTATGAAGTTTATCTAAGGAAAATAAATCTGCTCTGGGCTC
+>ref|NM_175830.1| Bos taurus NADH:ubiquinone oxidoreductase subunit V3 (NDUFV3), mRNA
X59048.1 Bovine mRNA for a 10kD subunit of heart mitochondrial NADH-ubiquinone oxidoreductase
+GGGTCGTCCTGTCTGCGCCCGAGTCACAGCCATGGCGGCCTCGCTTCTGCTGCGGCAAGGACGAGCCGGGGCGCTGAAGA
+CTGTGCTTCTGGAAGCAGGCGTGTTTCGAGGAGTTGCTCCTGCAGTTTCTCTCTCTGCAGAATCAGGAAAGAATGAAAAG
+GGATTACCACCGAACCCCAAGAAGCAGAGCCCACCAAAGAAGCCTGTGTCGGCTGCTCCCACAGAGCCGTTTGACAACAC
+CACCTACAAGAACCTTCAGCATCATGACTACAGCACATACACCTTCTTAGACCTAAACCTGGACCTCTCCAAGTTCAGGA
+TGCCCCAGCCCTCTTCAGGACGGGAGTCCCCCCGCCACTGAGAGCCCAGTTTAAAGATTACCCTTGCTGTGTCTGTCTGC
+ATTCTTGCCTGCAGTCCTCTCGGCGGTCACAAGACCCAGCGTGTAGAATCCTAGCGAGTAGTGAATTAGCAGCACCCCTC
+TGATGGTTCAGTCTCCATGTGTTTAGAGACATCTGCTGCGGGGATTTCTCTCTAACGATAGAGTATGGCTCAGTGGACAG
+ATCCATGCAATTAGAGAATCGGAGGTGCCTTCCGTCTGTGTGGTTCCACTGTGCTGAGCCCCGGTCAGCTTGGTGTTCTC
+TGGTTCACCAGTGTGGAGTCGATGAGTGTAGTGGGCCTTCTGATAAGACCTAGTTCTTGATGAATCAGATATAGGAGTTG
+TCTACATTGTAACTAACTACTGCACTGCAGAGAAATTATAATAAATTATGGCATTTTATGATCAAAAAAAAAAAAAA
+>ref|NM_175810.2| Bos taurus NADH:ubiquinone oxidoreductase subunit S6 (NDUFS6), mRNA
X63221.1 B.taurus CI-13 (IP) mRNA for ubiquinone oxidoreductase complex
+AAGCCAGCCCGCAAGATGGCGGCGGTCCTGACCTTCCTCAGGTTCCTGGGCCGGGGCGGCGCGGTGACGCGCGGCCTGCC
+CGGGGGCGCCAGGTGCTTTGGGGTGCGGACCTCGCCGACCGGGGAGAAGGTCACGCACACCGGCCAGGTTTATGACGATG
+GAGACTACAGGAAAGTTCGATTTGTAGGTCGTCAGAAAGAGGTGAACGAGAACTTTGCCATCGATCTGATAGCGGAGCAG
+CCCGTGAGCCAAGTTGGGAGTCGGGTGATATCGTGCGACGGCGGCGGGGGGGCCCTGGGCCACCCCCGAGTGTACATAAA
+CCTGGACAAGGAAACGAAGACGGGGACGTGCGGCTACTGCGGCCTGCAGTTCCGGCAGCAGCACCACTAGGGCGGCCGCG
+TGGCCGGGGCCCAGTGCAGGGCGAGCTGGAGGACCCGGGTGTGCAGAGCGCGTCTCTCAGTCACTGAGGCCCGGCCCTCC
+AGGGCCCGGCCGCCTGCTCCTTCCTCCCGGGGGAGCGTGGTGGGCGCGGGAGAAGTGGCGGGGCCATCCGGCCGGCTCAG
+CTCAGCTCCGCTCCGCCCGGCACTCTGCCCCTCCCGCTCCTCAGCCGCCTGGTCTGAAATCCCACAAAGTTAAGTACTGT
+TTGAAGGTGTTAACAGTCACATGTGGACTGATTTAAATACTCTGTGTGTATTTAAGAGAGTAATGGCTATGATGTATTGT
+TCCACGAAAATAAATTCAGGAGGGGAGAAAAAAAAAAAAA
+>ref|NM_176652.2| Bos taurus NADH:ubiquinone oxidoreductase subunit S5 (NDUFS5), mRNA
X63220.1 B.taurus CI-15 (IP) mRNA for ubiquinone oxidoreductase complex
+GGCGGCCAGCGAGGAGAAAAGGACACAGCGGCCGGACGCCATGCCTTTCTTTGATGTGCAGAAAAGGCTGGGTGTTGACC
+TAGATCGCTGGATGACAATCCAGAGTGCTGAGCAGCCTCACAAGATCCCATCCCGATGCCATGCTTTTGAGAAGGAATGG
+ATAGAGTGTGCACATGGAATCGGCAGTATCCGAGCAGAGAAGGAGTGCAAAATAGAATTTGAGGATTTCAGAGAGTGTCT
+GCTTCGACAGAAAACGATGAAACGTCTGCATGCCATCAGGAGACAGCGGGAAAAGCTAATCAAGGAAGGGAAGTACACAC
+CCCCACCTCACCACTCAGGCCAGGAGGAACCTCGGTCCTGAGCGGAGCAGCTGCCAGTGGCTGGAGGCTGATTCTCACGT
+TCTCTCTTCTCCGCTGGAAACTCTACGTACTAAAAACCCCTTTGTGAGAGTGTCTAAAAATAAAGGATTGCTCCATCCTA
+AAAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_175800.2| Bos taurus NADH:ubiquinone oxidoreductase subunit S4 (NDUFS4), mRNA
X63215.1 B.taurus CI-18(IP) mRNA for ubiquinone oxidoreductase complex
+AGTGTCTGCCTGTAGCAAGATGGCGGCGGTCTCAATGTCAGTGGCGCTGAGGCAAGCGTTGTGGGGGAGAAGGGTAGCGA
+CTGTAGCTGCCGTTTCCGTTTCCAAGGTTTCGACCAGGTCGTTGAGCACTTCCACATGGAGGCTGGCACAGGACCAAACT
+CGAGACACGCAACTCATAACAGTTGATGAAAAATTGGATATTACTACTATAACTGGTGTTCCAGAAGAGCATATCAAAAC
+TAGAAAAGCCAGGATCTTTGTTCCTGCTCGCAATAACATGCAGTCTGGAGTAAACAACACAAAGAAATGGAAGATGGAGT
+TTGATACCAGAGAGAGATGGGAAAATCCTTTGATGGGTTGGGCGTCAACGGCTGATCCCTTATCCAACCTGGTTCTGACT
+TTTAGTACTAAAGAAGATGCAGTTGCCTTTGCAGAAAAAAATGGATGGAGCTATGATGTTGAGGAGAGAAAGGTTCCAAA
+GCCTAAGTCCAAGTCTTATGGCGCAAACTTTTCTTGGAATAAAAGAACAAGAGTATCCACAAAATAGGTTGGCACGGACT
+GTATCTCTATGCTTGACTGTGAATAAAGTCAGCTGTGCAGTATTTATAGTCTGTGTATAATACACCTCTTAATCTCCTAA
+TAAATTTGACCTTTAAACTACAGAAAAAAAAAAAAAAA
+>ref|NM_205817.1| Bos taurus NADH:ubiquinone oxidoreductase subunit A9 (NDUFA9), mRNA
X59418.1 B.taurus mRNA for heart mitochondrial NADH dehydrogenase (ubiquinone) 39 kDa subunit
+GATTCTGGGAGAATATGGCGGCCGCCGTTCACCCCCGAGTTGTCCGGGTCCTGCCAATGTCACGTTCTTCTGTTCCTGCC
+CTAGCCGCCTCTGTGTTTCACAGCCCACCCCAGCGCCAGCTTCATCATGCAGTCATACCACATGGGAAAGGTGGGCGTTC
+CTCCGTCAGTGGAATTGTGGCCACTGTGTTTGGAGCAACGGGATTCCTGGGCCGCTATGTCGTCAACCACCTTGGTCGCA
+TGGGGTCACAGGTGATTGTCCCCCACCGCTGCGAGCCATATGACACCATGCACCTTCGTCCCATGGGTGACCTGGGCCAG
+ATCATCTTTATGGACTGGAACGGGAGAGACAAGGACTCAATCCGAAGAGCTGTGGAGCACAGCAGCGTGGTCATCAATCT
+GGTCGGGCGAGAGTGGGAGACCCAAAACTTTGACTTTGAGGATGTTTTTGTCAAGATTCCCCAAGCCATTGCTCAAGTGT
+CCAAAGAAGCTGGAGTTGAAAAATTTATTCACATTTCACATCTGAATGCTGATATTAAGAGCTCTTCTAAGTATCTGAGA
+AGCAAGGCTGTTGGAGAGAAGGAAGTGAGAGAGACGTTTCCAGAAGCCACCATCATAAAGCCGGCTGAAATCTTTGGCAG
+AGAGGACAGATTCCTCAATTATTTTGCAAATATCCGCTGGTTTGGTGGCGTCCCTCTTATTTCCCTGGGCAAGAAGACTG
+TGAAACAACCAGTATATATTGTGGATGTCACCAAAGGAATTATTAATGCAATTAAAGACCCGGATGCCAGAGGGAAAACT
+TTTGCCTTTGTTGGGCCCAGTCGGTACCTGCTGTTCGACCTCGTGCAGTACGTCTTTGCTGTGGCTCACAGGCCCTTCCT
+GCCGTACCCTCTGCCACACTTTGCCTATCGATGGATCGGTCGGCTCTTTGAAATTAGTCCATTTGAACCCTGGACCACGA
+GGGATAAAGTGGAGCGGATTCACACCACAGACAAGATCCTGCCTCACCTGCCAGGCTTGGAAGACCTGGGCGTTGAGGCC
+ACGCCCCTGGAACTCAAGGCCATCGAGGTGCTGCGGCGTCACCGCACCTACCGCTGGCTGTCTTCTGAGATCGAGGACGT
+GCAGCCGGCCAAGACGATTCCCACTAGTGGCCCCTGAGCTGCCCGCGGCTTTTGGTGGTGTTTGGGTTGCTACCAACCAG
+GCCACCTTTGGCGGAGAATCCTGTATATAGTGAATGAGAGCCTCTATTAAAACCTGAGATGACAAAAAAA
+>ref|NM_176655.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A10 (NDUFA10), mRNA
X59419.1 B.taurus mRNA for heart mitochondrial NADH dehydrogenase (ubiquinone) 42 kDa subunit
+GGTCCTTGAGCCGGTGCAGACAGCGGAGCCATGGCCTTGAGGCTGCTGAGACTTGTCCCACCGCGCGTGGGAGGAATTCA
+TACAAGTGTCCAGTTCAAGCTGCAGTATGGCCCGTTGGCGTACATACTTGGTGAAAAAGCAACCAAAAAGATGACAGAAA
+AGAGCAAACTGATAACTGTAGATGGCAATATATGTTCTGGAAAAAGCAAGCTTGCGAAAGAAATAGCAGAGAAACTAGGC
+CTGAAGCACTTTCCCGAGGCGGGAATCCACTATGTGGACAGCACCACAGGGGACGGGAAGCCCCTGCCTGTGCAGTTCAG
+TGGCAACTGCAGTTTGGAGAAGTTTTACGACGACCCGAAAAGCAACGATGGCAACAGCTACCGCCTGCAGGCCTGGCTGT
+ACGCCAGCCGCCTGCTGCAGTACGCGGATGCCCTGGAGCACCTGCTGAGCACAGGACAGGGTGTGGTGTTGGAGCGCTCC
+ATCTACAGTGACTTTGTCTTCCTGGAGGCAATGTACCGACAAGGCTTCATCCGGAAGCAATGTGTGGACCACTACAACCA
+GGTGAAGAAGGTCACCATCTGTGAGTACCTGCCCCCCCACGTGGTCGTCTACGTGGACGTGCCGGTCCCCGAGGTCCAGA
+GCCGGATCCAGAAGAAGGGAAACCCACACGAGATGAAGATCACCTCCGCCTACCTTCAGGACATCGAGAATGCCTATAAG
+GGGACCTTCCTGCCTGAGATGAGTGAGAAATGTGAGGTTCTACAGTACAGTGCATGGGAAGCTCAGGATGCAGAAAAGGT
+GGTCGAGGATATTGAGTACCTGAAGTACGACAAAGGGCCGTGGCTGGATCAGAACGACCGCAATTTGCACAAACTGAGGA
+TGCTGGTTCAGGATAAGTTGGAGGTGCTGAATTACACATCCATCCCTGTCTTCCTCCCAGAGGTCACCGTTGGTGCCCAC
+CAGAGTGACCAGGTCTTCCAGGAGTTCACAGAGCTGCCAGGCCGCAAGTACCGCGCCGGGTACAACGAGGACGTGGGGGA
+CAAGTGGATCTGGCTGAAGTGACGCCTCCCGGAGGCCGCCTTGCAGGGACGAAGACACGCCCAGGCCCCCAGCTCCTGCA
+CTCCGCTAGCCTCACGCTGGGGGGCAGGGGTGCAGACAGAAGCCCCCCAGTTAGGGGGCCCAGCTTCCTTCTACAGCGCT
+TGTCCCTGGGCAAGCAGCATCCGATGTGAGAGAGCAGGCACCGCCTGGAGCGTCTCCTTCCCCACAGCCCGGCTGTGTCG
+GGCCCAGTCTGCGCCTGTGTCTTCAGACTTCGAGAAATAAAACTGTTTCTGTGGCAAAAAAAAAA
+>ref|NM_175828.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B2 (NDUFB2), mRNA
X63216.1 B.taurus CI-AGGG mRNA for ubiquinone oxidoreductase complex
+AGCGGCGGTGCGGTCTGGGTAACGGCCGGGCTAACGATGGCTGGCATGTCGGCTCTGAAGCGACTGGCGCCGTTCGCTCA
+CGTTGGAGGCCACCTCTTCAGAGGCCGCTGCGCGAGGGCGGCTGGAGCCCGTGGCGTCCGTCGGGCTGGCGGAGGTGCGC
+ACATTGAGCCCCGGTACAGACAGTTCCCGCAGCTGACCAGATCCCAGGTGATCCAGGCCGAGTTCTTCAGTGCGACCATG
+TGGTTCTGGATTCTCTGGCGCTTCTGGCACGACTCAGATGCTGTGCTGGGTCACTTTCCTTATCCCGACCCTTCCCAGTG
+GACAGATGAGGAATTGGGTATCCCTCCGGATGATGAAGACTGAAAACAGAGGCTCAGCTCTTGCCAAATGGGTGCACCCC
+ATGTTTCTTGTTATGTTTATTTGTCTGTAAACATGTTTTGACTTTGCACCTATGGTGATTCTGAAGAAACAGTGCATTTT
+ATAACAGTATAAAGAATAATTAACACAAAAAAAAAAAAAAAA
+>ref|X63209.1| B.taurus CI-ASHI mRNA for ubiquinone oxidoreductase complex
+GGCATGTGCGGGGTGAAACTGAAAGAAGGTGAAGATGGCGGCGGCCAGGGCGGGGGTCCTGGGAGTCCGATGGCTGCAAA
+AGGCAGCCCGAAACGTGGTGCCGCTGGGTGCACGGACAGCCTCCCACATTACCAAGGACATGCTCCCGGGACCCTATCCC
+AAGACCCCAGAAGAACGGGCTGCCGCCGCCAAGAAGTATAATATGCGGGTGGAAGACTACGAGCCGTACCCAGATGATGG
+CACGGGGTATGGTGACTATCCGAAACTGCCTGACCGCTCACAGCAGGAGAGGGATCCATGGTATGACTGGGACCACCCAG
+ACCTGCGGTTGAACTGGGGTGAACCGATGCACTGGGACYTGGACATGTATATCAGGAACCGTGTGGACACGTCCCCGACT
+CCTGTTAATTGGAACCTCATGTGTAAGCACCTCTTCGGCTTCGTCGCCTTCATGCTGTTCATGTTTTGGGTAGGGGAAAC
+TTACCCCGCCTACCAGCCTGTGGGGCCAAAGCAGTATCCTTACAATAATCTGTACCTGGAACGAGGCGGCGATCCCAACA
+AAGAACCTGAGCCAGTGGTTCACTATGAGATCTGAGGAGGCTTCATGAGCTTTGTGYTCCCTAACTGACTCCTTCAATCC
+TAGAAATTTAACTTTAATGAAATCCCCAATAAAACTTAGTGCTGTGGTAAAAAAAAAAAAAAAAAA
+>ref|NM_176667.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B3 (NDUFB3), mRNA
X63213.1 B.taurus CI-B12 mRNA for ubiquinone oxidoreductase complex
+AGGGGTGAATCTTGAGTGTCCTGAGAGGTCAGATTGCTGTCAGACATGGCCCACGGACATGGACATGAACATGGTCCTAG
+TAAAATGGAACTTCCAGATTATAAACAATGGAAGATAGAAGGGACACCATTAGAAACTGTCCAAGAGAAACTGGCCGCAC
+GAGGACTAAGGGATCCATGGGGCCGCAATGAAGCTTGGAGATACATGGGTGGCTTTGCAAATAATGTTTCCTTTGTTGGA
+GCATTATTAAAAGGATTCAAGTGGGGATTTGCTGCATTTGTGGTAGCTATAGGGGCTGAATATTACCTGGAGTCCCAGAA
+AAAAGATAAGAAACATCACTGAAGATAATACCTGGAAATATCTTTTAATGTCTTAACTTTCTTATAAAAAGATTTCTTCA
+CTGTAGCCTACTCACCTGTGTGTTTATTCCTTAAGGAATACTAGTAAGATTTAATAAAATAAGAAAACATGTAAAAAAAA
+AAAAAAA
+>ref|NM_175829.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A5 (NDUFA5), mRNA
X63218.1 B.taurus CI-B13 mRNA for ubiquinone oxidoreductase complex
+GTCATGGCGGGCTTGCTGAAGAAGACCACTGGCCTGGTGGGATTGGCTGTTTGTGAAACTCCACATGAGAGGCTAAAAAT
+ATTGTATACAAAAATTCTTGATGTTCTTGGACACATCCCTAAAAATGCAGCATATAGAAAGTATACAGAACAGATTACAA
+ATGAGAAGCTGAGTATGGTTAAAGCGGAACCTGATGTTAAAAAACTAGAAGAGCGACTGCAGGGTGGCCAAATAGAAGAG
+GTTATTCTTCAGGCTGAAAACGAACTAAGTCTGGCAAGAAAAATGATCCAGTGGAAACCATGGGAGCCTTTAGTGGAAGA
+GCCTCCAGCCAGCCAATGGAAATGGCCAATATAAACAGCATTAACTAACTTATCTGTTGATAGGAGACTGATGTAATTAA
+ATATTCTGTTATATGTTAAAAAATGTTTCCTTATTATCTTATCATCAAGATAACTGATACAAAACACATTTAAGCGACTT
+GTTAAAGTTGATGATGGTAATTTGTGAATTCAGTTTTTGATTTGTAGAGCATTCAAGTTATTTCAAAGGTAAAAAAAAAA
+AAAAAAAA
+>ref|NM_175791.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A6 (NDUFA6), mRNA
X63211.1 B.taurus CI-B14 mRNA for ubiquinone oxidoreductase complex
+GCAAGATGGCGGCGAGCGGACTCCGCCAGGCTGCCGTTGCGGCCAGCACCTCGGTGAAGCCCATTTTCAGTCGGGACATG
+AACGAGGCCAAGCGGAGGGTGCGCGAACTCTACCGCGCCTGGTATCGGGAGGTGCCGAACACTGTGCATTTATTCCAGCT
+AGACATCTCTGTGAAACAGGGACGGGATAAAGTCCGGGAAATGTTTAAGAAGAATGCGCACATCACAGACCCCAGGGTGG
+TTGATCTTCTGGTAATTAAGGGAAAGATGGAACTGGAAGAAACAATTAAAGTGTGGAAGCAGCGGACACATGTTATGCGG
+TTTTTCCATGAAACAGAAGCACCGAGGCCAAAGGATTTCCTCTCCAAGTTCTATGTTGGGCACGACCCGTGAAATCACTC
+AGTGGAAAAGGTGCATGTTGATATTTAAATATTTTAAAGCAAAAATAAACTCAATATATGTCGGTCAAAAAAAAAAAAAA
+>ref|NM_175787.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B6 (NDUFB6), mRNA
X63212.1 B.taurus CI-B17 mRNA for ubiquinone oxidoreductase complex
+AGGTCGCTTTGCAGAGCGGGAGCGCGCGTAAGTGACAAGACCCTGGTTCGGGTGCGCGCCGTCTCTTGCTGCCTTGGTAT
+CAGCAGCGACATGTCGGGGTATACGCCCGAGGAGAAACTGCGGCTGCAGCAGCTTCGAGAGCTAAGAAGGCGATGGCTGA
+AAGATCAGGAGCTGAGCCCCCGGGAACCCGTGCTGCCTCCGCAGAGGGTGTCGCCTGTGGAGCGATTCTGGAATAAATTT
+TTGCAAGACGGAGCTCTCTGGAAGAACGTGATCTATAAGACATATCGACACAGTATCTTTGCTTTTACTCATGTACTTAT
+TCCTGTCTGGATTATTCATTATTATCTCAAGTATCACGTGACTACAAAACCATATACCATCGTTGAAAAGAAGCCCAGAA
+TATTTCCAGGTGATACAATTCTGGAGACTGGAGAAGTAATCCCACCCATGAAAGAATTTCCCGATCAACATCATTGAAGA
+TTACTTTAAAATTTCAAAGGTGTATGGGCCTAAGTTTGTTGCTACATTACCAACTTATTTAAAGTATTTTCTGGAAAAGT
+AATAAAGTTTACTCACATAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_176660.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B7 (NDUFB7), mRNA
X63210.1 B.taurus CI-B18 mRNA for ubiquinone oxidoreductase complex
+GAACCTGCGGTGACAGCAGCCATGGGGGCTCACCTGGCCCGGAGATACCTGGGCGATGCATCGGTGGAGCCCGATCCCCT
+GCGGATGCCCACTTTCCCGCCCGACTACGGCTTCCCCGAGCGCAAGGAACGCGAGATGGTGGCCACTCAGCAGGAGATGA
+ACGACGCCCAGCTGGTGCTCCAGCAACGCGACTACTGCGCCCACTACCTCATCCGGTTTCTCAAGTGCAAGCGCGACAGC
+TTCCCCAACTTCCTGGCCTGCAAGCACGAGCGGCACGACTGGGACTACTGCGAGCACCTCGACTATGTGAAGCGCATGAA
+GGAGTTTGAGCGCGAGCGGCGGCTGCTCCAGCGGAAGAAGAGACGGGAGCAGAGGGAGGCGGACATGGCCAAAGGCCTGG
+GGCCCGGCGAGGTGGCCCCCGAGGTGGCCCTGTAGCGAACCTGCCCACCACTCTGTGGACCAGTCAAGAAATAAAAGCCT
+CCAGGCCCCTCGGCCCAAAAAAAAAAAAAAAAAAAA
+>ref|NM_175815.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A2 (NDUFA2), mRNA
X63219.1 B.taurus CI-B8 mRNA for ubiquinone oxidoreductase complex
+AGGTCTAGGGCGGATGATTGAGTACTAGCCGAGATGGCGGCGGCTGCAGCGATTCGTGGGGTCCGAGGCAAATTGGGTCT
+TCGTGAAATTCGTATCCATTTGTGCCAGCGCTCGCCCGGCAGCCAGGGCGTCAGGGACTTCATTGAGAAACGCTATGTGG
+AGCTGAAGAAAGCGAATCCCGACCTGCCCATCCTAATCCGCGAGTGCTCGGATGTGCAGCCCAAGCTCTGGGCCCGCTAC
+GCATTTGGCCAAGAGAAGAATGTCTCTCTGAACAATTTCAGTGCTGATCAGGTAACTAGAGCCCTGGAGAACGTGCTAAG
+TAGCAAAGCCTGAAGTCTCCACTGAGGATTAAAAACAACAGCCCCAGAGTCTGGGCTCTGCTGGACTGAGAACAATGTGG
+AGAAATGTATTTTGTTCTGTATAAAGATTGTGCTGAAAATGCTGTCTAAAAATGATCTGATTCGCATCCCACCAACTACC
+CATTATTGTGCAACCATCTGAGGGAAAGCAGTTGAATATAAAAATAAAACTTATTTTATTCTGCCCATCAAAAAAAAAAA
+AAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_176659.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A3 (NDUFA3), mRNA
X63217.1 B.taurus CI-B9 mRNA for ubiquinone oxidoreductase complex
+GCCGAGACCAAGATGGCTGAGAGAGTCGCAGCCTTCCTCAAGAATGTCTGGGCCAAGGAACCGGTGCTAGTGGCATCCTT
+CGCCATTGCGGGCCTCGCTGTAATCCTGCCCACACTCAGCCCCTACACCAAGTACTCGCTCATGATCAACCGGGCCACAC
+CCTACAACTACCCAGTGCCCCTCCGAGACGACGGGAACATGCCCGACGTGCCCAGCCACCCCCAGGACCCCCAGGGCCCA
+AGCCTGGAGTGGCTGAAGAGACTGTGAACGCCTCTGTTAACAGGGAGCAGCCCCCGCCCCAATGGCCCCAATAAATGCGT
+GAAAACCAAAAAAAAAAAAAAAAAAA
+>ref|NM_174564.2| Bos taurus NADH:ubiquinone oxidoreductase subunit C1 (NDUFC1), mRNA
X63214.1 B.taurus CI-KFYI mRNA for ubiquinone oxidoreductase complex
+CCCAGGAAGCCAGGCAAGATGGCGCCGTCCGCGTTGTTGCGGCCATTCTGGAAGCTGCTGGCCCCGGCTAGGTTCCCGAG
+TGTCTCTTCATCTCGGTCAAAGTTCTACATTCAGGAACCGCCACATGGCAGTCCCAACTGGCTGAAAGTTGGCTTGACCT
+TGGGCACCTCCGTTTTTTTGTGGATCTATCTCATCAAACAACATAACGAAGATGTTTTAGAGTATAAAAGAAGAAATGGG
+TTGGAATAAACTTTTGAAATACTAAAACAGTGTGTTCCGTAAAGTGATTATAGCAGTTCCTCTGGATTCACGAATCTGTT
+GAGTTGTAAACGTGAGAGAAAGAATTACGTGTGAATATATGTCAAGTCAGCATTTGTGTTTTACATGATTAAATTAAAAA
+TACTTCTGTATTCTTCAAAAAAAAAAA
+>ref|X63223.1| B.taurus CI-MNLL mRNA for ubiquinone oxidoreductase complex
+CGTGTTGGCTCCGAGGCCGCAGCATTCATGATGAACTTACTTCAGGTTGTGCGTGACCACTGGGTACATGTACTTGTCCC
+TATGGGATTTGTCTTTGGATATTATCTGGACAGAAAGAATGATGAAAAGCTAACTGCCTTCCGGAACAAGAGTCTGTTAT
+ATAAAAGGGAATTGAAACCTAATGAAGAAGTCACCTGGAAGTAATGGCTACAGCTGAATTACAGAATGTTCACTTTTTTA
+AAATTATAATAGAAATAAAAACACTCATTATTTAATTTGAGAAAAAAAAAAAAA
+>ref|X63224.1| B.taurus CI-PDSW mRNA for ubiquinone oxidoreductase complex
+GCAGCCATGCCGGACAGCTGGGACAAGGACGTGTACCCCGAGCCCCCGCGCCGCACGCCGGCGCCCTCGCCGCAGACCTC
+GCTGCCCAACCCTATCACCTACCTTACGAAAGCCTTTGACCTCCTCGTGGACCGGCCGGTGACCCTCGTGAGAGAGTTTA
+TCGAGCGGCAGCATGCCAAGAACAAGTATTACTACTACCACCGTGAGTTCCGCCGCGTGCCAGACATCACAGAGTGCCAG
+GAGAAGGACGTCTTGTGCATGTTTGAAGCAGAAATGCAGTGGAGAAGAGATTACAAAGTTGATCAAGAAATCGTCAACAT
+TATCCAGGAAAGGCTCAAGGCCTGTCAGCAGAGGGAAGGTGAGAGCCACAGGCAGAACTGTGCCAAGGAGCTGGAGCAGT
+TCACCCAGGTGGTCAAGGCCTACCAGGACCGCTATCACGACCTGGGAGCCCATTATTCTGCCAGGAAGTGCCTGGCAAAG
+CAGAAGCAGAGGATGCTGGCAGAGAGAAAAGCCGCCAAAGAGGCTGCTGCTGCCTGAGGCAGCAGTGTCAGCTTTGTCAC
+TGTTGCTAAAATAAAGAGTAATGGAGCCTGAAAAAAAAAAAAAAAAAAAAA
+>ref|X63208.1| B.taurus CI-SGDH mRNA for ubiquinone oxidoreductase complex
+ACCCGTAGTAGCCATGGCGGCCATGAGTCTTTTGCATCGGGCTTCGGTTTCTGCAGTGGCCGCTCTGTCCGGCCGCCGTC
+TTGGCACCCGACTTGGATTCGGAGGCTTCCTCACCCGTGACTTTCCGAAGACTGTCGCTCCTGTGCGACACAGTGGAGAC
+CATGGGAAAAGACTGTTTATTATCAAGCCTTCCGGATTCTATGACAAACGTTTTTTGAAATTACTGAGATTCTACATTTT
+ATTGACTGGGATTCCAGTAGCAATTGGCATAACTTTGATAAATGTATTCATTGGTGAAGCTGAGTTAGCAGAAATTCCAG
+AAGGCTACGTCCCAGAACACTGGGAATATTTCAAGCATCCTATATCAAGATGGATTGCCCGAACTTTCTTTGATGGTCCT
+GAAAAGAATTATGAAAGAACAATGGCTATCCTTCAAATTGAAGCTGAAAAGGCTGAATTACGATTAAAGGAGCTGGAAGT
+ACGAAGATTAATGAGAGCAAGAGGTGATGGCCCCTGGTTTCACTATCCAACCATCGATAAGGAACTTATTGATCATTCTC
+CAAAAGCAACCCCTGACAACTAATCTTTTGTTTCTCTAAGTACAAAGTATATTGTCTTTAGGTGAAAATAAATTACTAAA
+TATATTCTGTAAAAAAAAAAAAAA
+>ref|X02420.1| Bovine mRNA 3' fragment for type II collagen pro-alpha 1 chain
+ACCCTGGATGCCATGAAGGTTTTCTGCAACATGGAGACTGGCGAGACCTGCGTCTACCCCAACCCGGCCAGCGTCCCCAA
+GAAGAACTGGTGGAGCAGCAAGAGCAAGGACAAGAAACACATCTGGTTTGGAGAAACCATCAACGGTGGCTTCCACTTCA
+GCTATGGAGATGACAACCTGGCTCCCAACACCGCCGACGTCCAGATGACCTTCCTGCGCCTGCTGTCCACCGAGGGCTCT
+CAGAACATCACCTACCACTGCAAGAACAGCATTGCCTACCTGGACGAAGCTGCTGGCAACCTCAAGAAGGCTCTGCTCAT
+CCAGGGCTCCAACGACGTGGAGATCCGGGCTGAGGGCAACAGCAGGTTCACATATACCGTTCTGAAGGATGGCTGCACGA
+AACACACCGGTAAGTGGGGCAAGACTATGATCGAGTACCGGTCACAGAAGACCTCCCGTCTGCCCATCATTGACATTGCA
+CCCATGGACATAGGAGGGCCCGAGCAGGAATTCGGTGTGGACATAGGGCCTGTCTGCTTCTTGTAAAAACCCGAACCCAG
+AACCAACACAATCCATTGCAAACCCAAAGGACCCAAGAACTTTCCAATCCCAGTCACTCTAGGACTCTGCACTGAATGGC
+TGACCTGACCTGACGCCCATTCATCCCACCCTCTCACAGTTCGGACTTTGCTCCCCTCTCTAAGAGACCTGAACTGGGCA
+GACTGCAAAATCAAATCTCGGTGTTCTATTTATTTATTGTCTTCCTGTAGGACCTTTGGGTCAAGGCAGAGACAGGAAAC
+TAACTGGAGTGAGTCAAACGCCCCCTGAGTAACTACCCCCCGGCCCAAGCAAGGGGCCCCTGCAGGTGCCGGGCGCAGGG
+ACTGCGCGCGTCCTACACAACGGCGCTATTCTGTGTCAAACACCTCTGTATTTTTTAAAACGTCAATTGATATTAAAAAC
+AAAAAAATTATTGGAAAGT
+>ref|X15112.1| Bovine mRNA for cytochrome c oxidase subunit VIb (AED)
+TCAGCACTATGGCAGAAGACATCCAGGCCAAAATCAAGAACTACCAGACTGCTCCTTTTGACAGCCGCTTCCCCAACCAG
+AACCAGACCAGGAACTGCTGGCAGAACTACCTGGACTTCCACCGCTGTGAGAAGGCAATGACCGCTAAAGGAGGTGATGT
+CTCCGTGTGTGAATGGTACCGGCGTGTGTACAAGTCCCTCTGCCCCATATCCTGGGTCTCAACTTGGGACGATCGCCGGG
+CAGAAGGCACGTTTCCTGGGAAGATCTGAACTGGCTCCATCCCACCTCTTCTGTCCTCCGTCCTTCTCCCCAGGGTGGTT
+AAGGGGGACCGGGGTACATGGTTGATCTCCCACCCTAGG
+>ref|X56857.1| Bovine COX6A mRNA for cytochrome c oxidase subunit VIa
+CCCAGCTTCTGCCATACATGGCTTTGCCTCTGAAGTCCTTGAGTCGGGGCTTGGCCAGTGCGGCCAAGGGAGACCATGGT
+GGGACAGGAGCCCGCACCTGGCGCTTCCTGACTTTCGGGCTGGCGCTCCCGAGCGTGGCCCTCTGCACCCTCAACTCCTG
+GCTCCACTCGGGCCACCGCGAGCGCCCGGCATTCATCCCTTACCATCACCTCCGGATCCGCACCAAGCCCTTCTCATGGG
+GAGACGGCAACCACACTTTTTTCCACAATCCCCGGGTCAACCCTCTGCCCACGGGCTACGAAAAGCCTTGAGGCTTGGCT
+GATGCCCCCCAGACACAATAAAAT
+>ref|NM_176674.2| Bos taurus cytochrome c oxidase subunit 7A1 (COX7A1), mRNA
X56739.1 B.taurus COX7a mRNA for cytochrome oxidase c subunit VIIa (heart isoform)
+GAATTCGGGCAGAGAGAGGTAGTGGGGGAGAGCCCGGCCGAAGACGAGGACACAGGATGAGGGCCCTGCGGGTCTCCCAA
+GCGCTGGTCCGCTCCTTTAGCTCAACCGCCCGGAACCGCTTCGAGAACCGAGTAGCTGAGAAACAGAAACTCTTCCAGGA
+GGACAATGGCCTCCCGGTGCACTTGAAGGGCGGTGCAACAGACAACATCCTGTATCGAGTGACGATGACTCTGTGTCTGG
+GGGGCACTCTCTACAGCCTGTACTGCCTTGGCTGGGCCTCCTTCCCTCACAAGAAGTGAAACCAAGAAGTCTGCAGGACC
+CGAACAGGCATCAATAAATGTGCTGGTTTCCTGGGGAACACAGCCCAGCTCCATGCTCCCTAAAAAAAAAAAAAAAAAAA
+AAAAAAAAAAAGGAATTC
+>ref|X15235.1| B.taurus mRNA for cytochrome c oxidase subunit VIIa (EC 1.9.3.1)
+GAATTCCGATAAGAGGTTGGTGGGTAGTAACTGAGCCAAGATGCTACGGAATCTTCTGGCTCTCCGTCAGATTGCTAAGA
+GGACCATAAGTACTTCTTCACGCAGGCAGTTTGAAAATAAGGTTCCAGAGAAACAAAAGCTGTTTCAGGAGGATAATGGA
+ATTCCAGTGCATCTGAAGGGTGGGATAGCTGATGCCCGCCTGTATAGAGCCACCCTGATTCTTACAGTTGGTGGAACGGC
+ATATGCCATGTATGAACTGGCTGTGGCTTCATTTCCCAAGAAGCAGGATTGACTTGAGTTTATCCTCCCAGCAATCAGTT
+GGGTCAATTCCATTCAGCTCTCTGTGGACCAGTAATCTGATACGTAACTGAGTTCTTTGGGGATCAATATTTATTGACTT
+GTATTAGCTGCCCGGAATTC
+>ref|X15725.1| Bovine COX7cl mRNA for cytochrome c oxidase subunit VIIc (EC 1.9.3.1)
+GAATTCCCGCCATTTCTTCCGCCTCCGGTCTCTGGATCTTTCGTAGAGCGTCCAACAGCGCTATGTTGGGACAGAGCATC
+CGGAGGTTCACAACCTCAGTGGTTCGTCGGAGCCACTATGAGGAGGGTCCAGGGAAGAATATACCATTTTCAGTGGAAAA
+CAAGTGGAGATTACTAGCTATGATGACTTTGTTCTTTGGGTCTGGATTTGCTGCACCTTTCTTTATAGTAAGACACCAAC
+TGCTTAAAAAGTAATCCATGAGACAGATAGGAAGAGGAGCATATTAAGAGGTGCAGTCTCTTAAAAGGATCAATCCCTTG
+AATTC
+>ref|X58823.1| Bovine COX7cP1 retroposed pseudogene for cytochrome c oxidase subunit VIIc
+GATCTTTTGTAGAGTGTCCAACAGCGCTATGCTGGGACAGAGCATCCGGAGGTTCACAACCTCAGTGGTTCGTCGGAGCC
+ACTATGAGGAGGGTCCAGGGAAGAATATACCATTTTCAGTAGAAAACAAGTGGAGATTACTAGCTATGATGACTTTGTTC
+TTTGGGTCTGGATTTGCTGCACCTTTCTTTATAGTAAGACACCAACTGCTTAAAAAGTAATCCATAAGACAGATAGAAAG
+AGGAGCATATTAAGAGGTGCAGTCTCTTAAAAGGATCAATCCCTTGAACTCAGCATCCTAGATATGTTTGTAAATAAACT
+TATAGCGTAAATCCTTAATGCCTCTTCTCTGAAATATGGAACATGATAATTGAACATGTGCTTACATTTTGTTTGGGTAA
+TATTGCATTATTAGTTTCTTAATTAAATATGTATTTGATTTAGCTTGTTTAAAAAAAAAAAAGCTGAGACACACAATGGG
+CATTCTTCATGTTTAGAATCCTACACACTCATTACAACAGAAACTACAAGTATACCCCCATCCTCCACTGTTCAGGACCA
+AGCTGTGGCCAGGGCCTGCCAGATC
+>ref|X07436.1| Bos taurus mRNA for cellular retinoic-acid-binding protein (CRABP gene)
+GGGGCTTGGAGTGTGCCCGCTGTGCCGCAGCTGTCCGTGCCTGCCGCCGCCTTCCCGCCGCCGCCACCGCTGCCACCATG
+CCCAACTTCGCTGGCACCTGGAAGATGCGCAGCAGCGAGAATTTCGACGAGCTGCTCAAGGCGCTGGGTGTGAACGCCAT
+GCTGAGGAAAGTGGCCGTGGCGGCTGCGTCCAAGCCGCACGTGGAGATCCGCCAGGACGGGGACCAGTTCTACATCAAGA
+CGTCCACCACGGTGCGCACGACCGAGATCAACTTCAAGGTCGGAGAAGGCTTTGAGGAGGAGACCGTGGACGGACGCAAG
+TGCAGGAGCTTACCCACTTGGGAGAATGAGAACAAGATCCACTGCACACAAACTCTTCTGGAGGGGGACGGCCCCAAAAC
+CTACTGGACCCGCGAGCTGGCCAACGACGAACTCATCCTGACGTTCGGCGCCGATGACGTGGTCTGCACGAGGATTTATG
+TTCGGGAATGAAGGCGGCCAGCTTGCTCCAGCTTTGGGGGTGGGATGCATGTTCCCCCAAGGAATGTCATAGCTCTGAGC
+CGCCAGTGGACCTCCTCTTCCCCGGTATTAACGTTAGGTGATCCCGATGTCCCCCCAGTAATGCTGTAGTGTTTTCCCCA
+AGGCTTTGTGCCTCTGTCTCCCTGGCGCTCCATAGTCTGGCATCTGTATGGTTTCATCAGTCATTAAACTGGGTGTACAC
+ACCTC
+>ref|X01036.1| Calf lens mRNA for gamma-crystallin
+CACCACCTCCTGCTGCCTTTCGCCAACATGGGGAAGATCACTTTTTACGAGGACCGGGGCTTCCAGGGCCACTGCTACGA
+GTGCAGCAGCGACTGCCCCAACCTGCAACCCTATTTCAGCCGCTGTAACTCCATCCGCGTGGACAGCGGCTGCTGGATGC
+TGTATGAGCGCCCCAACTACCAGGGCCACCAGTACTTCCTGCGGCGCGGCGACTACCCCGATTACCAGCAGTGGATGGGC
+TTCAACGACTCCATCCGCTCCTGCCGCCTCATCCCGCAACACACCGGCACTTTCAGAATGAGAATCTACGAGAGAGATGA
+CTTCAGAGGACAGATGTCAGAGATCACAGATGATTGTCCCTCACTTCAAGACCGCTTCCACCTCAGTGAGGTTCACTCCC
+TCAACGTGCTGGAGGGTTCCTGGGTCCTCTATGAGATGCCAAGCTACAGGGGAAGGCAGTACCTGCTGAGGCCAGGGGAG
+TACAGGAGATATCTTGACTGGGGGGCAATGAATGCCAAAGTTGGTTCTTTAAGACGGGTGATGGATTTTTATTGAAGTTT
+TAAATTCCCCACTTTTCTCCTTTAGAATCTAATAAAAGATTTAGCTTGTGTTTCTGGCA
+>ref|NM_174837.2| Bos taurus cytochrome b561 (CYB561), mRNA
X12783.1 Bovine cytochrome b561 mRNA
+TCTCTGTATTTCACCCATGAACCCGACCTGAGAAAACCCAGGGCCTCGTGAAACAAAGCACTGCCGTGGGGCCCTCCTGC
+TCTCCTCAGAATGTGGAGGACCTTGACTTGCACCCTCACTGCAGGTGGAAGTGCAGCCAGTAGCCGCCTCAGCATGGAGG
+GCCCTGCCAGCCCAGCACGTGCCCCCGGGGCGCTGCCCTACTACGTGGCCTTCTCCCAGCTGCTGGGCCTGATCGTGGTG
+GCCATGACTGGCGCCTGGCTTGGTATGTACCGAGGCGGCATTGCCTGGGAGAGTGCCCTGCAGTTCAACGTGCACCCCCT
+CTGCATGATCATAGGCCTGGTCTTCCTGCAGGGAGATGCCCTGCTGGTTTACCGCGTCTTCAGGAATGAGGCCAAACGCA
+CCACCAAAGTCCTGCACGGGCTGCTGCACGTCTTCGCCTTCGTCATCGCCTTGGTGGGCCTGGTGGCGGTGTTCGAGCAC
+CACAGGAAGAAGGGCTACGCCGACCTGTACAGCCTGCACAGCTGGTGCGGCATCCTGGTCTTCGCGCTCTTCTTTGCGCA
+GTGGCTCGTGGGCTTTAGCTTCTTCCTGTTCCCGGGCGCCTCGTTTTCTCTGCGGAGCCGCTACCGCCCGCAGCACGTCT
+TCTTCGGCGCCGCCATCTTCCTGCTCTCGGTGGCCACCGCCCTGCTGGGCCTGAAGGAGGCGCTGCTGTTCGAGCTCGGG
+ACCAAGTACAGCATGTTCGAGCCCGAGGGCGTCCTGGCCAACGTGCTGGGCCTGCTGCTGGCCACCTTTGCCACGGTCAT
+ACTCTACATCCTGACCCGCGCCGACTGGAAGCGGCCCCTCCAGGCGGAAGAGCAAGCGCTCTCCATGGACTTCAAGACGC
+TGACGGAGGGCGACAGCCCCAGCTCCCAGTGACGGGCGCCCCATCCTGGCCCCTCCTGTTCCGGGGGCCCAGGCAGGTGT
+CCGTCCCGCAACCGGCAACCGCCGCTGAGGGTCCGGGCAGGGCTGGGCACAGCGGAGGTAGGGGGGAAGTCCTCTCTGAG
+CGCAGATTTTTGGGATTCAGGCCCCCTCCGCTTCCCGCTCCTCGCTGCTGCTGCTGTCGGTTGTTAGTCCTGAGCACGCG
+TTCCGGCCCCCCCGCCCCTGTTGCCACCCGACTTCCTCCCCAAGATGGAGCAGCTTTGGGAAAGGCTCTGGGCCTAAATG
+GGTACGAGAGTTGGGGGCGCTCCCTTCTCGAGGCCGCAGCGAACGTGAGACTTGCTTTGTGTGACCCCGAACTCCTGCCA
+GGAGTCTTGCGGCCCGAAGGACCGGCTCTCTGAAAGGGCCCAGCCTTTGGCAGCGGAGCTAGTGACATTATATGTGAAAT
+ATGCTGGTGTCAGGGCCAGGTTCCCCAGGAGAGGGGAGGGACTCCCTGGGACTCTCTGGACCCAGGCTTTGGCACAGCTG
+CGTTCTGGAGCCTTCCCTTTCTTTAACCCTTTAGCCCCGAGGCGGCTTTGCCTTGGGGGCCGTAGACTTGGGACAGACTT
+GCCGTGAGCCGCTTCAGAGGGCAGCCCAGAGAAGAGGCTGGAGGTGGGCCTGGGTGGGCGCTGGGCCACCTGCAGGGGCT
+TCTGTCCCCACTGGGCCAGGCCTCCGCTCCTGACCCTCAGAGCTCACGGGAGGCTGCTCTGACAAGAGGGCACAGGCCTT
+TTCTCATTAAACAAAAGGCTGCCACTAGAAAAGGATAAGGTGCCCCCTTTCGATTTCCATGAGGAGGGTTCGGGAGGACA
+GTCTCCTCTCCTACCTGCGGCCGGTCTTTGCAGGAAATTGGGACCAAGACGGAATCAGATTAATCCCCCCACAACCCTGT
+GAGTGTGTAACGCTGTTAGCTGAGTGCTGTTTGCTTCGGTCTAGAGATAACGTGATTAGAGCATTGATCTGCGCTTCTTG
+GACTTGGCAAATGCTCTCTCCTTGTTTTCCTCATTTTCCGGGCTTTGAGGAACATGACGCAGTTTCAGACAAGACAGAGT
+CGACTTAAGACATTAATAAAATTTCCAGTTCTGACTACCGTTTTTCAGCAGCTGCCTCTCCCAGCTAAATGCTGCCTTCG
+AGAAAAGGGGCTCATCTCCTCTAATACTCGGATTCCTACAACTCGGCCTTTGCCGTGGGTCCCGCCTCAGGCGATGCTGC
+TCCTCAGGGCAGGTGGCGGAGGTGGGCGCCCTCCCCAGCAAGGCTGCCTGCTCCCCATCCCACCCCGTGGCCGCTCTGAG
+CTCTGCTGCGGCTGGCCACCCCCGCACACCACCGCAAGCCGTTTACACTGTTCTTTGATCGCCTGGTATAGTTGATGTTT
+ACACGTGGGAAACTCCACCTTAGACAAACGACCAGAGTAGGATTGTGTATCTCTCTTGCCAGAAGGGCACAGAGAGAAAC
+AGAACCTTGGATTTGCAAAGAAAAAAAAAAAAAGTCTGAACACTGGCCTGTTTGCCAAATCATATGCTGGATAACTAATA
+AGCCAAAAAGGCACCCCCCTCCCCACCTGCCCCAGCCAAGCTGATCCGTGGTGGCTTGTTTTGCCTGTGGCCAATCTTCG
+ATGAAGTCCAGTGTAGTGCTGGTACAACAGATGATTCAATAAAT
+>ref|X13617.1| Bovine mRNA for cytochrome b5
+CGGCGAGCCTAAGGCCCTAAAGGCAGCAGGAGAGCTGAGTTAAGAAATGGCCGAGGAGTCCAGCAAAGCCGTTAAGTACT
+ACACCCTGGAAGAGATCCAGAAGCACAACAACAGCAAGAGCACCTGGCTGATCCTGCACTACAAAGTGTACGATTTGACC
+AAATTTTTGGAGGAGCATCCTGGTGGGGAGGAAGTCTTAAGGGAACAAGCTGGAGGTGATGCCACTGAAAACTTTGAGGA
+TGTTGGACACTCTACAGATGCTCGAGAATTGTCCAAAACGTTCATCATTGGGGAGCTGCACCCGGATGACAGATCAAAGA
+TAACCAAGCCTTCGGAAAGTATTATTACTACCATTGATTCAAATCCCAGCTGGTGGACCAACTGGCTGATCCCAGCTATC
+TCAGCGCTGTTTGTAGCCCTGATATATCACCTCTACACTTCGGAGAACTAAACACATTCTCAGAAGCCAATGGAAGAAAA
+GACTGCTTTGGTCCAGGGAGAAAGAAGCCACCACTCTTAACTTCAACGGACAAACCCTTCACCTGAAAATAATCTGAATA
+CACCTATTTTCCTTTCCTCCTACATTAGACACAAAACAAACCATAACTGTTCCATTCTTTGGACTATTGAACTTCTAAAG
+TGTGCCTTCTTATTCACCAACTTTGTTTTGCTGTTCCATCACTACATCATTTGCTTATGGTGGTATGTTTTAAAA
+>ref|X59693.1| B.taurus mRNA for ubiquinol-cytrochrome-c reductase (subunit II)
+GCACGAGGCCGCTGTCTGCCACCATCTTGCTTTCCTCTAAGGCGGCAGTGACCGAGGTTCAGAACAATCTTGAGCAATGA
+AGCTGTTAACCAGAGCCGGGTCCCTCTCGAGATTTTATTCCCTCAAAGTTGCTCCTAAAGTTAAAGCCACAGAAGCCCCT
+GCAGGAGTGCCTCCACATCCTCAGGACCTTGAGTTTACCAGGTTACCAAATGGTTTAGTGATTGCTTCTCTCGAAAACTA
+TGCTCCTGCATCAAGAATTGGTTTGTTCATTAAAGCAGGCAGCAGATATGAGAACTCCAACAATTTAGGAACTTCTCATT
+TGCTTCGTCTTGCATCCAGTTTGACTACAAAAGGAGCTTCATCTTTCAAGATAACCCGTGGAATTGAAGCAGTTGGTGGT
+AAATTAAGCGTGACGTCAACAAGGGAAAACATGGCCTATACTGTGGAATGCCTGCGGGATGATGTTGATATTCTAATGGA
+GTTCCTGCTCAATGTCACCACAGCACCAGAATTTCGACGCTGGGAGGTAGCTGCCCTTCAGCCTCAGCTAAGGATTGACA
+AAGCTGTGGCTCTTCAGAATCCACAGGCTCACGTCATTGAAAATTTGCATGCTGCCGCTTACAGAAATGCCTTGGCTAAT
+TCCTTATATTGTCCTGATTATAGGATTGGAAAAGTGACACCAGTTGAGTTACATGACTATGTACAAAATCATTTTACAAG
+TGCAAGAATGGCTTTGATTGGACTTGGTGTGAGTCATCCTGTCCTAAAGCAAGTTGCTGAACAGTTTCTTAACATAAGGG
+GTGGCCTTGGTTTATCTGGTGCAAAAGCCAAGTACCATGGAGGTGAAATTCGAGAACAGAATGGAGACAGTCTCGTCCAT
+GCCGCTCTTGTAGCAGAGAGTGCAGCCATAGGAAGTGCAGAAGCAAACGCGTTCAGTGTTCTCCAGCACGTCCTTGGTGC
+TGGACCACACGTTAAGAGGGGCAGCAATGCCACCAGCTCTCTGTACCAGGCTGTTGCCAAGGGAGTTCACCAACCATTTG
+ATGTTTCTGCTTTTAATGCCAGTTACTCAGACTCTGGACTCTTTGGGTTCTACACTATCTCACAAGCTGCATCTGCTGGA
+GACGTTATCAAGGCTGCTTATAACCAAGTAAAAACAATTGCTCAAGGAAACCTTTCTAATCCAGATGTCCAAGCTGCCAA
+GAACAAGCTGAAAGCTGGGTACCTGATGTCAGTGGAGTCTTCTGAGGGTTTCCTGGATGAAGTTGGGTCCCAGGCTCTAG
+CTGCTGGTTCATACACGCCGCCATCCACAGTCCTTCAGCAGATTGATGCAGTAGCTGACGCTGATGTCATAAATGCTGCA
+AAGAAGTTTGTTTCTGGCCGGAAGTCAATGGCAGCAAGTGGAAATTTGGGGCATACACCTTTCATTGATGAGTTGTAATA
+CTGAATCCCATATTGCAGGAAAGAACTGAACGTTTTGTGAACCCAGAGCAGCAAATAACATGAAAGTGAAAAGTCCTAAT
+GTAACATTTATCTTTTCTTCCAGTGAGAGGAAATATAAAGCATAAATATAGGTAATTGTTCCCAACTGACCTAAAGTCAA
+TAAAGCATTCTATTTAAATGTT
+>ref|X14478.1| B.taurus cytokeratin IV gene upstream region
+AAGCTTGTTCTTATGCTGTAAAAACTCATCTCCTTTGTCCCTCTTGCCTTTCAAAGGAGTGTCATGTCCCCAGAGTAGCC
+CCCAATTCCCAGGCCAGGCCACCAGGAAGGCAGTCAGGAGATCCAGAAGGACATGTTCAAACATGGCCCAAAACCACCGC
+AAGCCACTTTCTTGCTCAGACCACAGGCAAATGCCTATTAACCCTCAGAGACGTTCAACCTGAATGGGAAGGGTGGTGTG
+AGTGGAGAAGAAAACTTGTGTGGGAAGGGGGCAAGAGAAGAGTGTCTGAGTAAGCAGAAGGAGGGGACAATTATCACAGA
+TCAGCTCCTTGTCTCCTTTGTTTGAGAGCATGACTAACCCATGACTTCAGTGAATTTACATCCAGTGGTATTGTGTTGGG
+ATCAAGTCAAGGCTAGAAGCCAGAAGAATTTCTCCATGACTAAAGGAAACCAAAGAAGCAATATTCATACTTCATACCTT
+TCTAGAGGCAGGGGGTGATCTCACTATTTGTAAAGCCCAGCCCTTTCTAATCTGCAGGCTCACCTTCCAGGACTGAGCCC
+GGCCCATTTTTTCCATATATAAGCTGCTGCCGGGCCGCCCTCTATAGATCTGTTCTTTAGCTCTGCTTTCCACCTCTCAC
+ACCCTTCTCAACCTATTCTTCTTCAGGAACCATGTCTTACAAATCCACTGTGAAGACCCA
+>ref|NM_174043.2| Bos taurus dopamine receptor D2 (DRD2), mRNA
X51657.1 B.taurus dopamine D2 receptor mRNA
+CCCATGGATCCGCTGAACCTGTCCTGGTATGATGATGATCCAGAGAGCCGGAACTGGAGCCGGCCCTTCAATGGGTCCGA
+AGGGAAGGCTGACAGGCCCCCCTACAACTACTATGCCATGCTGCTCACCCTGCTCATCTTCGTCATCGTCTTTGGCAACG
+TGCTGGTGTGCATGGCTGTGTCCCGCGAGAAGGCGCTGCAGACCACCACCAACTACCTGATCGTCAGCCTCGCTGTGGCT
+GACCTCCTGGTGGCCACGCTGGTCATGCCCTGGGTGGTCTACCTGGAGGTGGTGGGCGAGTGGAAATTCAGCAGGATTCA
+CTGTGACATCTTTGTCACCCTGGATGTCATGATGTGCACAGCCAGCATCCTGAACCTGTGTGCCATCAGCATTGACAGGT
+ACACAGCCGTGGCCATGCCCATGCTCTACAACACACGTTACAGCTCCAAGCGCCGGGTCACGGTCATGATCGCCATCGTC
+TGGGTCCTGTCCTTCACCATCTCCTGCCCGATGCTCTTCGGACTCAACAACACAGACCAGAACGAGTGCATCATCGCCAA
+CCCCGCCTTCGTGGTCTACTCCTCCATCGTCTCCTTCTACGTGCCCTTCATCGTCACCCTGCTGGTCTACATCAAGATCT
+ACATCGTCCTCCGCAGGCGGCGCAAGCGCGTCAACACCAAGCGCAGCAGCCGGGCTTTCCGGGCCAACCTGAAGGCCCCG
+CTCAAGGGCAACTGTACTCACCCCGAGGACATGAAACTCTGCACCGTTATCATGAAGTCTAATGGGAGTTTCCCAGTGAA
+CAGGCGGAGAGTGGAGGCCGCCCGCCGAGCCCAGGAGCTAGAGATGGAGATGCTCTCCAGCACCAGCCCGCCTGAGAGGA
+CCCGATACAGCCCCATCCCTCCCAGCCACCACCAGCTGACCCTCCCCGACCCATCCCACCACGGCCTGCATAGCACACCC
+GACAGTCCCGCCAAACCAGAGAAGAACGGGCATGCCAAGACCGTCAATCCCAAGATTGCCAAGATCTTTGAGATCCAGTC
+CATGCCCAATGGCAAAACCCGGACCTCTCTCAAGACCATGAGCCGCAGAAAGCTCTCCCAGCAGAAGGAGAAGAAGGCCA
+CCCAGATGCTCGCCATTGTTCTCGGCGTGTTCATCATCTGCTGGCTGCCCTTCTTCATCACCCACATCCTGAACATACAC
+TGTGACTGCAACATCCCGCCCGTGCTGTACAGCGCCTTCACGTGGCTGGGCTACGTCAACAGCGCCGTGAACCCCATCAT
+CTACACCACCTTCAACATCGAGTTCCGCAAGGCCTTCCTGAAGATCCTACACTGCTGACCCTGCTGCCTACCTGCACAGC
+AGCCCGCCTCTCCCTCCCCTGCCCCGCGGCCCCGCCTGGGCCCGGGAGCCGCGGGCAAGGGGGGCGCAGGGCAGCCTGGG
+CCATGTCCATCAGCCCAGAGGGCCCTGCAGTGTTAGCTTGGCTCCTGCCCGCACCATCCGCGCACCTTGGAGCAGCGGGG
+GCAGCGCTGGAGAGCAGGCGCCACGGGCACCCCCGGGCTCAGGGGCAGCTCAAGGGGGCCCCCGCCACTCCCAGACCCTC
+TCTCTTTGGCACCAAAGACGCAGCTGCCTTCTCCGACCTTTCTCTGGGGCTTTGGGGCTCTGCGGCTGCGGGGCCAGTAT
+CGAGGCTCGGAGGCTGGTTTTCACAGGCATGCGAGCTGGTGGTGGGGAGGAGTGGACAGTCACAGCCACCCAGGGCCCAC
+ACCTGAGAAGCCAGAGCTCTGGCCACGACCCCAGGCAGTGTTCAAGCCTGGGAGACCCGGGTACACCCCAGGTCTGGATG
+GACCCCAGAGAAGCAGAAGCCCAAACTCCTCACCCCTTCTCCCACCTGGCCTGGCAGGAGCTGCTCAGTTATCACAGCAG
+TGGTCCTGATCCACCCGCTCACCAGGAGGTTTCCATGCCCCTGAGATGGAGGATCCTGGGTCTCCAAGGACCTGGGGCAG
+GGGTGGAGGTGGGGGTCCTGTGTGACAGACTCCCCCATCCCAAGCCCACTTTGCTGACGACATGGTACAGCCCTTTTCTT
+AGCAAATGCTGGGCTAGTGGGGGCTCTGGCAGAGAAGGTGGGCTCGTCACATGTCTGGGGCCGGGGTTGGAGGTGTCTGG
+GTCCTTGCAGGGGACCTGCCACCCTCTGCCGCAAACCACTGTCCTTTTCTCTTCCTCTCGCCTTTTCGCAGTCCTGTCCC
+CTTTCTCTGTTGCCTCTGCCTTAGAGGAGCCCACGGCTGAGCAGCTGCTGAGGGGAGAGGGGAAGCCTCTCCTCAGGCCC
+CACACTCTGTAACATCACTACACATGCTCCACACTAATAAAACTTTGACAAGAGAAAAA
+>ref|Z18244.1| Bos taurus displacement-loop region
+CGGCTAAGAGGGCCACCAGTTACTATCTCTGAGTGACCTTGAGCAACTGACAACCTCTTCACTGGGTTGTTGAAGGACTA
+AATGTAATGGTTACTATTTAAAATTAACCAAGGGCCCTTCACATCTATTACCTCGCGGGATGCTTTAACTAACCCCATCA
+TGTTGGAAGTCAGGGAACTCCTGTCTTCATTTTACAAAATGACGGGAAAACGTGTCTTGTTCTTGGTACCTGGGTGTGCC
+GGCGGTCGGGGCTGCGGCGGTCTCCGAGCACCTCGGGCAGCGCAGACACAAGTAGCAGCCCCAGCGTACCCGCAAGCGAC
+ACCACGCTCGCCATAGCAGGCCAACACGGGAGACCGCGGGAGACGCCGGCGTTGTCGGACGCACCGGTGCACGCGCACGC
+AGGCGCGTCCCCCAGCCCCAGCTATTCCCACCCCGGGCCTCCCAGGGAGGTCACGCCCACCTAGCGTGTGGGCGGGGCCA
+GGCCTTATTTGCATAGGACTAGGGCTTAGCTTAGTTCATTTGTGAAACTAGTTCATTTCTTATCTCTATATAGGTGTTCT
+GTTAGCCAGAATGCCTCCAGAAGACTACATTCTTAGAACGTTATACAGGGAAGTGGTTTTTAATATGCCACACCACCAAT
+CTCCTCACCCTAACTTAAAATAAATGTCCTCCTCGAGCTATAAAGGGCTTGAATGCCCCGGTAAAAGGGAAGTTCGTGCT
+GAAGGCCTGTTTCCTAGGCTACATACGGAGGACTAGTTCCTTGTTTGCGCCTAGGGGAAAGTCCCCGGACCGTGGGCAGA
+GAGTGCCACGTGCCCGTGCACGTAGACTTCCCCTGCTTCTCACGACTAAACCCGCCAAGAAGCGATCCTACCCTGGGGGT
+GGGGAAGCCGAGCGGCGTGTTGCGGGGTGTCATCCGTCAGCTTCTAATAGTTACGCAGGCAGTGCCTCCATGCGCACCAA
+CCTCACGGGGCTCATTCTCAGCACGTCTCATTTTAACTTGAGCGACTATATAGCCAGACTGTCTATTAGCTGTCTCCGGG
+ACGTTTCGAAGTCACTCTGTTTCTGCACAGCTAACATCCATATACAACTTTCAGATCTCACTTTCCTCCTGTATGTGCGT
+GTTCCCTTCATAAGTGGAAGTGAAAGTCGTTCAGTCGTGT
+>ref|V00108.1| Bovine messenger RNA for preproenkephalin
+GCTTGCACTCTGGAATGTGAGGGGAAACTACCTTCTCTCAAGACCTGGGAAACCTGCAAGGAGCTTCTGCAGCTGACCAA
+ACTAGAACTTCCTCCAGATGCCACCAGTGCCCTCAGCAAACAGGAGGAGAGCCACCTGCTTGCTAAGAAGTACGGGGGCT
+TCATGAAGCGGTATGGGGGCTTCATGAAGAAAATGGATGAGCTGTACCCCCTGGAAGTGGAAGAAGAGGCAAATGGAGGT
+GAGGTCCTTGGCAAGAGATATGGGGGCTTCATGAAGAAGGATGCAGAGGAAGATGACGGCCTGGGCAACTCCTCCAACCT
+GCTCAAGGAGCTGCTGGGAGCCGGGGACCAGCGAGAGGGGAGCCTCCACCAGGAGGGCAGTGATGCTGAAGACGTGAGCA
+AGAGATACGGGGGCTTCATGAGAGGCTTAAAGAGAAGCCCCCACCTAGAAGATGAAACCAAAGAGCTGCAGAAGCGATAC
+GGGGGTTTCATGAGAAGAGTGGGTCGTCCAGAGTGGTGGATGGACTACCAGAAAAGGTACGGTGGCTTCCTCAAGCGCTT
+CGCCGAGCCCCTACCCTCCGAGGAAGAAGGCGAAAGTTACTCCAAGGAAGTTCCTGAAATGGAGAAAAGATATGGAGGAT
+TTATGAGATTTTAATCCCCTTTCCCATCAGTGACCTGAAGCCCCAGCAAGCCTTCCTCTGCCCCCAGTGAAAGACTGCTG
+CGCTGGTGTGTTGTATTGTCCCGAGTCGCTTGCATTATATAGTTGACTTGAGAGTCCAGATAATTAACTATACAACCTGA
+AAGCTGTGATCCCAGGTTCTGTGTTCTGAGAATCTTTAAGCTTTTAAATATTGGTCTGTTGCAGCTGTCTTGTTTCCATG
+CTCAGTTTTTTGTTATCACTTTGTCCTTTATTTTTGACATAATGCCAATAAATGCCTACTTGTGTGTAGATATAACT
+>ref|V00109.1| Bovine messenger RNA for preproenkephalin
+AGGACCGCGAGAGTGAGGCCCGCCCGCTTTCCTGGCTCTCCCCTCGCCGAGAGTCGCCCCGGACCGGGTTTCCACGACCG
+ACCTGCGTGCCCCGAACAGCGGCAACCCCATGGCGCGGTTCCTGGGACTCTGCACTTGGCTGCTGGCGCTCGGCCCCGGG
+CTCCTGGCGACCGTCAGGGCAGAATGCAGCCAGGACTGCGCCACGTGCAGCTACCGCCTGGCGCGCCCGACTGACCTCAA
+CCCGCTGGCTTGCACTCTGGAATGTGAGGGGAAACTACCTTCTCTCAAGACCTGGGAAACCTGCAAGGAGCTTCTGCAGC
+TGACCAAACTAGAACTTCCTCCAGATGCCACCAGTGCCCTCAGCAAACAGGAGGAAAGCCACCTGCTTGCTAAGAAGTAC
+GGGGGCTTCATGAAGCGGTATGGGGGCTTCATGAAGAAAATGGATGAGCTGTACCCCCTGGAAGTGGAAGAAGAGGCAAA
+TGGAGGTGAGGTCCTTGGCAAGAGATATGGGGGCTTCATGAAGAAGGATGCAGAGGAAGATGACGGCCTGGGCAACTCCT
+CCAACCTGCTCAAGGAGCTGCTGGGAGCCGGGGACCAGCGAGAGGGGAGCCTCCACCAGGAGGGCAGTGATGCTGAAGAC
+GTGAGCAAGAGATACGGGGGCTTCATGAGAGGCTTAAAGAGAAGCCCCCACCTAGAAGATGAAACCAAAGAGCTGCAGAA
+GCGATACGGGGGTTTCATGAGAAGAGTGGGTCGTCCAGAGTGGTGGATGGACTACCAGAAAAGGTACGGTGGCTTCCTCA
+AGCGCTTCGCCGAGCCCCTACCCTCCGAGGAAGAAGGCGAAAGTTACTCCAAGGAAGTTCCTGAAATGGAGAAAAGATAT
+GGAGGATTTATGAGATTTTAATCCCCTTTCCCATCAGTGACCTGAAGCCCCAGCAAGCCTTCCTCTGCCCCCAGTGAAAG
+ACTGCTGCGCTGGTGTGTTGTATTGTCCCGTGTCGCTTGCATTATATAGTTGACTTGAGAGTCCAGATAATTAACTATAC
+AACCTGAAAGCTGTGATCCCAGGTTCTGTGTTCTGAGAATCTTTAAGCTTTTAAATATTGGTCTGTTGCAGCTGTCTTGT
+TTCCATGCTCAGTTTTTGTTATCACTTTGTCCTTTATTTTTGACACAATGCCAATAAATGCCTACTTGTGTGTAGATATA
+ATAAACCCATTACCCCAACTGC
+>ref|NM_174313.2| Bos taurus fatty acid binding protein 3 (FABP3), mRNA
X12710.1 Bovine mRNA for fatty-acid-binding protein (H-FABP)
+TTGTACGCGTTCTCTGTCGTCTTTCCCAACCTAGCCCAGCTTCACCATGGTGGACGCCTTCGTGGGTACCTGGAAGTTAG
+TGGACAGCAAGAATTTCGATGACTACATGAAGTCACTCGGTGTCGGTTTTGCTACCAGGCAGGTGGGCAATATGACCAAG
+CCTACCACAATCATCGAAGTGAATGGGGACACAGTCATCATAAAAACACAAAGCACCTTCAAGAACACAGAGATCAGCTT
+CAAGCTGGGAGTCGAGTTCGATGAGACCACAGCAGATGACAGGAAAGTCAAGTCCATCGTGACGCTGGATGGCGGCAAAC
+TTGTCCACGTGCAGAAGTGGAATGGACAAGAGACATCACTTGTGCGGGAGATGGTTGACGGGAAACTCATTCTGACACTC
+ACCCATGGCACTGCAGTTTGCACTCGTACTTACGAGAAACAGGCATGACCTGCCCTCTCCTTCCACTGACTGCTCTTCTG
+TCAGTGGGCTACTCCTGGACTCGGCACCAGATTGCCTCATTTTTCTCCTCTGGCATTTTGTATAAATCCACCTTGACTGG
+GGAAATTCTCCTGGGGTCAGGTGGCACCAGCCTGGATCCAGTTCCGTTCTCATTGTGTCTGTTTGTTTTTTTAACTGCAT
+CCAAAGGGTGCTCTGAGGTCAATAAAGCAGAGCCAAGGCCACCC
+>ref|X16577.1| B.taurus mRNA for fetuin
+GTGAAGCCACCATGAAATCCTTCGTTCTGCTCTTTTGCCTGGCTCAGCTCTGGGGCTGCCACTCGATCCCGCTTGACCCG
+GTTGCAGGTTATAAGGAACCGGCCTGTGATGACCCAGACACAGAGCAAGCAGCCTTGGCTGCCGTGGACTACATCAACAA
+GCACCTTCCTCGGGGCTACAAGCACACCTTGAACCAGATTGACAGTGTGAAGGTGTGGCCGAGGCGGCCCACGGGAGAGG
+TGTATGACATTGAAATAGATACCCTGGAAACCACCTGCCACGTACTGGACCCCACGCCCCTGGCGAACTGCAGCGTGAGG
+CAGCAGACGCAGCACGCGGTGGAAGGAGACTGCGATATCCACGTGCTGAAACAAGATGGCCAGTTTTCCGTGCTGTTTAC
+AAAATGTGATTCCAGTCCAGATTCCGCCGAGGACGTGCGCAAGTTGTGCCCAGACTGCCCCCTGCTGGCGCCACTCAACG
+ACAGCCGGGTGGTGCACGCAGTGGAGGTCGCGCTGGCTACCTTCAATGCCGAGAGCAACGGCTCCTACTTACAGCTGGTG
+GAAATTTCTCGGGCTCAATTTGTGCCTCTTCCAGTTTCTGTCTCTGTGGAGTTTGCAGTGGCTGCTACTGACTGTATTGC
+TAAAGAAGTCGTAGATCCAACCAAGTGCAACCTACTGGCAGAAAAGCAATATGGCTTCTGTAAGGGGTCAGTCATTCAGA
+AAGCTCTTGGTGGGGAGGACGTCAGAGTGACTTGCACGTTGTTCCAAACGCAGCCTGTGATTCCGCAGCCCCAGCCCGAC
+GGCGCCGAGGCTGAGGCCCCAAGCGCTGTGCCGGACGCAGCTGGGCCTACGCCTTCTGCAGCTGGCCCGCCCGTGGCCTC
+CGTGGTGGTGGGGCCAAGCGTGGTAGCAGTTCCCCTGCCGCTGCACCGAGCACACTACGACTTGCGCCACACTTTCTCCG
+GGGTGGCCTCAGTGGAGTCATCCTCGGGAGAAGCGTTCCACGTGGGCAAAACACCCATAGTGGGGCAGCCTAGCATTCCT
+GGAGGTCCAGTCCGCCTTTGCCCAGGGAGAATCAGATACTTCAAGATCTAGAAGATGGTCGGAGATGAGATGGTTTGGCA
+CAGAGAATACAGCTATCATTTTGTCCAAGTCATGGGTATGGGTAGGGGCTTTGTCTGCTCTGGAAGCAAGTGCTGCCTAT
+GGTCTAGATTAATGTCAGGTCTTGAGTCCCAACTTCTCATCCTTCCAAGGACAGGAGCAGAGGAGGTGCTAGTGATGTTT
+GATGGAACATAAAGTCAGCAGCTTGATTGTCATGGCTTTGATGTAAGCCACCACCACTGTGTTCTCTACCTTCTCTTGAC
+CTCACAAAAGTAATTGGAACTGTGACTTTGAAAGGTGCTCTTGCCAAGTTTATATCTACTTGTCATTAAAAATGCTCTAA
+TAAAGAAGGTTCTAAGCTG
+>ref|NM_173911.2| Bos taurus fibrinogen gamma chain (FGG), mRNA
X15556.1 B.taurus mRNA for fibrinogen gamma'-chain (gamma B)
+GGCCCCGGGCCCGCCGACACCATGAGTTGGTCCTCGCACCCTCCGAGTGTAATCTTCTACATTCTTTCATTGCTTTCTTC
+AGCATGCCTGGCATATGTTGCTACCCGAGACAACTGCTGCATCTTAGATGAAAGATTTGGTAGTTATTGCCCAACTACCT
+GTGGAATTGCAGATTTCCTGAATAATTACCAAACCAGTGTAGACAAAGATCTACGAACTTTGGAAGGCATCTTATATCAG
+GTTGAGAACAAAACATCAGAAGCCAGAGAGCTGGTCAAAGCAATCCAAATCAGCTATAACCCTGATCAACCATCAAAGCC
+AAATAACATAGAGAGTGCTACCAAGAATTCCAAGAGTATGATGGAAGAAATTATGAAATATGAAACACTGATATCAACAC
+ATGAATCAACAATTCGATTTTTGCAAGAGGTATATAACTCAAATAGTCAAAAAATCGTTAACCTAAGAGATAAAGTGGTC
+CAGCTTGAAGCAAACTGTCAAGAGCCTTGTCAAGATACAGTGAAAATACATGATGTAACTGGGAGAGATTGCCAAGATGT
+TGCCAATAAGGGGGCCAAAGAGAGTGGACTTTACTTTATCAGACCTCTGAAAGCTAAGCAGTTCTTAGTCTACTGTGAAA
+TTGATGGGTCTGGAAATGGATGGACTGTGTTTCAGAAGAGGCTTGATGGCAGTCTGGATTTCAAGAAAAACTGGATTCAA
+TATAAAGAAGGGTTTGGACATCTGTCTCCTACTGGTACTGGAAACACAGAATTTTGGCTGGGAAATGAGAAGATTCATTT
+GATAAGCACACAGTCATCCATCCCTTATGTATTAAGAATACAGTTGGAGGACTGGAATGGCAGAACCAGCACTGCAGATT
+ATGCTTCATTCAAGGTGACAGGTGAAAATGACAAATACCGCCTGACATATGCTTACTTCATTGGTGGAGATGCTGGAGAT
+GCATTTGATGGCTACGATTTTGGCGATGATTCTAGTGACAAGTTTTTCACATCCCATAATGGCATGCAGTTCAGTACTTG
+GGACAGTGACAATGATAAGTATGATGGCAACTGTGCTGAACAGGTAGGTATCGGTTGGTGGATGAACAAATGTCACGCTG
+GCCACCTCAATGGAGTTTATTATCAAGGTGGCACTTACTCAAAAACATCTACTCCTAATGGTTATGATAATGGCATTATT
+TGGGCCACATGGAAATCCCGGTGGTATTCCATGAAGAAAACCACCATGAAGATAATCCCACTTAACAGACTTGCCATCGG
+AGAAGGACAGCAGCACCAACTGGGGGGAGCCAAACAGGTCGGAGTAGAACATCACGTTGAAATAGAATATGACTAAGTCA
+TTTTGCCCTGAGCTGTTCATTCTGTTAACACACAAACTTTCCTGAAATTTTCTTCTCGTTTTCTCTTACCGTATTTATTA
+ATTTTAAGTCTTTCTTTAAGGATATTTAGCTCTGAATGGCAATTAAAACTCACTTTGGACTGTATTCCCAAGTTACTAAA
+CACAGAGTTATTATAAATTTGTCTATTTGATGAGATAATATTTTAGCTTATTTCCTAAATATATAATAAATTGTGATATT
+TAAAAA
+>ref|V00110.1| Bovine messenger RNA for the beta-chain of fibrinogen
+TCAGCGGAGGTGGCTATCGGGCTCGTCCCGCCACAGCAACTGTGGGCCAGAAGAAAGTGGAGAGAAAGCCCCCTGACGCT
+GATGGCTGCCTGCACGCGGACCCGGATCTGGGTGTGTTGTGTCCTACAGGATGTAAGTTGCAAGATACTTTGGTAAGACA
+GGAGAGACCAATCCGAAAGAGTATAGAAGATTTACGTAATACTGTGGACTCTGTTTCCCGGACCTCTTCTTCCACCTTTC
+AATATATAACTCTGCTAAAAAACATGTGGAAAGGAAGGCAGAATCAAGTGCAAGATAATGAAAATGTAGTAAACGAGTAC
+TCCTCACATCTGGAAAAGCACCAGTTATATATAGATGAGACTGTGAAGAATAATATCCCAACTAAGCTTCGTGTGCTCCG
+TTCAATTCTGGAGAATTTGAGAAGCAAAATACAAAAATTAGAATCGGATGTCTCAACTCAGATGGAATACTGCCGCACCC
+CGTGTACTGTTACTTGCAATATTCCTGTGGTGTCTGGCAAAGAATGTGAGAAAATCATCAGGAATGAAGGTGAAACATCT
+GAAATGTACCTCATTCAGCCTGAGGATTCTAGCAAACCATATAGAGTATACTGTGATATGAAAACGGAAAAAGGAGGATG
+GACAGTAATTCAGAACCGTCAAGATGGTAGTGTTGACTTTGGCAGGAAATGGGATCCATATAAACAAGGATTTGGAAATA
+TTGCAACCAATGCAGAAGGGAAGAAATACTGTGGTGTACCAGGTGAGTATTGGCTTGGAAATGACAGAATTAGCCAGCTT
+ACCAATATGGGACCCACAAAGCTTTTGATTGAAATGGAGGACTGGAAAGGCGATAAGGTGACGGCACTCTATGAAGGATT
+TACTGTACAGAATGAGGCCAACAAATATCAACTGTCAGTGAGCAAATACAAAGGAACAGCTGGCAATGCCCTCATAGAAG
+GGGCTTCTCAACTGGTGGGAGAAAACCGGACCATGACCATCCACAACAGCATGTTCTTCAGCACGTACGACAGAGACAAC
+GACGGCTGGAAAACTACAGATCCCAGAAAGCAGTGTTCTAAAGAAGATGGTGGTGGATGGTGGTATAACCGATGCCATGC
+AGCCAATCCCAATGGCAGATACTACTGGGGTGGAGCGTACACCTGGGACATGGCAAAGCACGGCACAGACGATGGAGTGG
+TGTGGATGAACTGGCAGGGCTCCTGGTACTCAATGAAGAAGATGTCCATGAAGATCAGGCCTTACTTCCCAGAGCAATAG
+TACCCCCCACACAGAGTATTATTCTTCCACATGTAATAACATTTTTATA
+>ref|NM_173914.2| Bos taurus galanin and GMAP prepropeptide (GAL), mRNA
X12582.1 Bovine preprogalanin mRNA
+CTTCCGCGTCCCCGAGGCCGCGCCATGCGGTGAGCGTCCCCGGCCCTGCCCCGACCCGACTCGACGGACGCGCGGCCCCG
+CCGACACAGGACCTGCAGACACCCCAGGACCCGCAGACATCCCCCGACCCTCCGGGCCCCGCTCAAGATGCCCAGAGGCT
+CCGTCCTGCTGCTCGCCTCCCTGCTCCTCGCAGCGGCCCTTTCAGCCACCCTGGGCCTCGGGTCACCGGTGAAGGAGAAG
+AGAGGCTGGACCCTGAACAGCGCTGGGTACCTTCTCGGACCACATGCGCTCGACAGCCACAGGTCATTTCAAGACAAGCA
+TGGCCTCGCCGGCAAGCGGGAACTCGAGCCTGAAGACGAAGCCCGGCCAGGAAGCTTTGACAGACCACTGGCGGAGAACA
+ACGTCGTGCGCACGATAATCGAGTTTCTGACTTTCCTGCATCTCAAAGACGCCGGCGCCCTGGAGCGCCTGCCCAGTCTC
+CCCACAGCAGAGTCCGCAGAAGACGCCGAGAGGTCCTGAGCGGGCTCCCGCGCGTCGGTCTCCCTGTGTCACGCGCAGTC
+GTGCTCCCAGGAGGATGCCCATCGCATGGCAACCGCCCCATCCCCGCTGCCCTGATGCTGTGTCCGTACCATTTCAGGTT
+TTTCCCCTTTGGTCATAAGTTTCAGTGGCAAAATT
+>ref|NM_177512.2| Bos taurus beta-1,4-galactosyltransferase 1 (B4GALT1), mRNA
X14558.1 Bovine GalT mRNA for beta-1,4-galactosyltransferase (EC 2.4.1.38)
+CGGGCTGCTGAGCCGGCCAGAGTCGCCGAGATCCGCCGCCTCCCCGCCGGTGCCGCTCCTTCGCCCCCCCCCGCCTCCCG
+TCCCTCCCCCGTTGCTGCGGTCTGGCAGTGCCTGGCTGGCGGCCCGCGGGCGGGCCGCCTTCCTCGCGGTAGCCCACCCC
+CCTCTTAAAGCGGCGGCGGGAAGATGAAGTTTCGGGAGCCGCTCCTGGGCGGCAGTGCCGCGATGCCGGGCGCGTCCCTG
+CAGCGGGCCTGCCGCCTCCTCGTGGCTGTCTGCGCCCTGCATCTTGGCGTCACCCTCGTCTATTACCTGGCCGGCCGAGA
+CCTAAGACGCCTGCCTCAGCTGGTCGGAGTCCACCCACCGCTTCAGGGAAGCTCTCACGGCGCCGCCGCTATCGGGCAGC
+CCTCCGGGGAGCTCCGGCTGCGAGGGGTCGCACCGCCGCCGCCTTTGCAGAACTCTTCCAAGCCGCGCTCGCGGGCCCCC
+TCCAACCTAGACGCGTACTCTCACCCCGGCCCTGGCCCGGGCCCGGGGAGCAACTTGACTTCGGCCCCAGTGCCCTCCAC
+CACAACACGCTCGCTGACCGCATGCCCTGAGGAGTCCCCGCTGCTCGTCGGCCCCATGCTGATTGAGTTTAACATACCTG
+TGGACCTGAAGCTTATCGAGCAGCAGAACCCGAAGGTGAAGTTGGGTGGTCGCTACACCCCCATGGACTGCATCTCTCCT
+CACAAGGTGGCCATCATCATTCTATTCCGCAACCGGCAGGAACACCTCAAGTACTGGCTGTATTACTTGCACCCAATGGT
+ACAGCGTCAGCAGTTAGACTATGGCATCTATGTTATCAACCAGGCTGGAGAGTCCATGTTCAACCGCGCAAAGCTCCTCA
+ATGTTGGCTTTAAAGAGGCCTTGAAGGACTATGACTACAACTGCTTTGTGTTTAGCGATGTGGACCTCATCCCAATGAAC
+GACCATAACACCTACAGGTGCTTTTCACAGCCACGGCACATTTCTGTAGCAATGGATAAGTTTGGATTTAGCCTACCTTA
+CGTGCAGTATTTTGGAGGTGTCTCTGCTCTAAGTAAACAACAGTTTCTCAGCATCAATGGATTTCCTAATAACTACTGGG
+GCTGGGGAGGTGAAGATGATGACATTTATAACAGATTAGCTTTTAGAGGCATGTCTGTGTCTCGCCCAAATGCTGTGATC
+GGGAAGTGTCGGATGATCCGCCACTCGAGAGACAAGAAAAATGAACCTAATCCTCAGAGGTTTGACCGAATTGCACATAC
+AAAGGAGACAATGCTCTCTGATGGTTTGAACTCACTCACCTACATGGTGTTAGAGGTCCAGAGGTACCCGTTGTATACCA
+AAATCACAGTGGACATCGGGACGCCGAGCTAGCATTTTGGTGCACTGATCAGAGACCTGAAAATGGCCAGGGACCTCTGC
+TGTGTCTCTGCCTGTGTGCTGGGCTGGTCCCTCTCATTCTCACAATCAGTGATAGGCCCTCTCTGCTCATCATTCAGACG
+CCTTTCCGGACGACCAGGACAAGTGGGATATATTGCCCCCAACTTGGCTCAGCATGTGACTTGTCAGCCCCACGAGGTGT
+ATGTAAGCATAGAAACCATCAGCCTTTGGAGGCTCTCGGCATGTTCATGGTTCACCCCAAAGAATCAAAGCTGTGCACAG
+CTCCAAATCTGGTGACTGTGGGACTCATCCCCAGCAAAAAAAAAAAAA
+>ref|NM_174324.2| Bos taurus G protein subunit alpha i1 (GNAI1), mRNA
X03642.1 Bovine mRNA for alpha-subunit of G(i) protein (Gi=adenylate cyclase-inhibiting G-protein)
+TGGCCGGCGTCAGGAGGAATTCGAACGCCTGCATCCAGAAAGAAAGAATTCACCTGTGTTTCGAGGCAGCGCGCCGGACT
+TCGAGGGAGCGGCAGCCAGCTTTCGCTCCTGGCACAATGGGCTGTACGCTGAGCGCCGAGGACAAGGCGGCGGTGGAGCG
+GAGTAAGATGATCGACCGGAACCTCCGCGAGGATGGCGAGAAGGCGGCGCGCGAGGTCAAGCTGCTGCTGCTCGGTGCTG
+GTGAATCTGGGAAAAGTACAATTGTGAAGCAAATGAAAATTATCCATGAAGCTGGTTATTCAGAAGAGGAATGTAAGCAG
+TACAAAGCTGTGGTCTACAGTAACACCATCCAGTCAATTATCGCTATCATTAGGGCCATGGGGAGATTGAAGATTGACTT
+CGGTGACTCAGCCCGGGCGGATGATGCCCGCCAACTCTTTGTGCTTGCTGGCGCTGCAGAGGAAGGTTTTATGACTGCAG
+AACTTGCTGGAGTTATAAAGAGACTTTGGAAAGACAGTGGTGTACAAGCCTGCTTCAACAGATCCCGAGAGTACCAGCTT
+AATGATTCTGCAGCATACTATTTGAATGATTTGGACAGAATTGCACAACCAAATTATATTCCAACTCAACAAGATGTTCT
+CAGAACTCGAGTGAAAACCACAGGAATTGTTGAGACCCATTTTACTTTCAAAGATCTTCATTTTAAAATGTTTGATGTGG
+GAGGACAGAGATCTGAGCGGAAGAAATGGATTCATTGCTTCGAAGGAGTGACCGCCATCATCTTCTGTGTGGCGCTGAGT
+GACTATGACCTGGTTCTAGCTGAAGATGAAGAAATGAACCGAATGCATGAAAGCATGAAGTTATTCGACAGCATATGTAA
+CAACAAATGGTTTACAGATACATCTATTATACTTTTTCTGAACAAGAAGGATCTCTTTGAAGAAAAAATCAAGAAGAGCC
+CTCTCACTATATGCTATCCAGAATATGCAGGCTCAAACACATATGAAGAGGCAGCTGCGTACATTCAGTGTCAGTTTGAA
+GACCTCAATAAGAGAAAGGACACAAAGGAAATATACACCCACTTCACGTGCGCCACGGACACCAAGAACGTGCAGTTCGT
+CTTTGATGCCGTAACAGACGTCATCATAAAAAATAACCTAAAAGACTGTGGTCTCTTCTGAGTGTTGGCGGCAAATGGTA
+AAATGCATTTTCAAACCAAATGAGTACTTACATGTGGATCTCTCTAGACTAGAGTCTTGCAGCAACACAGAATGTAGTAT
+ATGGCGAGTGCATCTGGGACCTGACCAAAGCTGTTCTATTTGTTTTTTTTTTAACTGAAAGTAATGGAAGGACCTTTCGT
+AAGTGTGAGAGGTGGTCCTGCAGTGTGAAACTAAGGGCAGTGTTAAAGCTGGGCTCTAGTGTACGGATGACTTCTACATA
+CATGTAAATATGCAAATGTATGTATACATGTATTTATGACTTTAGTTTTCCACATTACTTTTAGACATTCAGTAAGCGGC
+AACTTATAATTTTAGCGTGGTGGCTTTGGAAATAACAGAAATATTAAGTACTTTGTACTGAATGACAGACTATTGTCATG
+TTTGCCAGTTCTAAACAGCTTTATTTATGTTTCTGTCCTGTAAATTTTTAAGTACAATGATTAATATTGGGACACATTGC
+AGCTCTTGTCTTGATTATATGTAGTATACTTGTAATCATAAATGTTATTTGTACAAACATTGCACAGACTATTTTAATAA
+CATGATTTGTTCTTTAAATTTATGTGTTTTATTGAAATGTTCTTGAAGAAGATGACTATACCTGCCTTTGGATCAGTTAA
+ACACTGTATGCATTTCAGTTTTTCTTTTAAGGGTGCATGCTAATCTGATTCTACATTAGATTTGGTTTAAAAACTGTAAA
+ATGCAGGTTTCTGAGGATATACATATAGACTTATAAACACTTAATTTTTATTCAGTTGGTTTGTTTTCACTTTGAATTTT
+AATATTTGGATGGTATTCATGCATTGCCTTAAAGGTGATGCCAAGTTAATTTTTATACACTTCAAATAACTACATTTTTA
+TTTATAAGTAAGTTTAGGTGGGTGCAAGAGCATTTTTGTGGGTAAAAAATAAGTTAGCATAATGAATTTTGAGACATTCA
+TTTGTGTATTTCCTTTGGGAAATCCCTTGTACGTACCATACATGACAGCTCTTTGTTCGGAAGGTAACAGGAAAGACCTC
+GAAGATTCTGCTACCGATAAAATGCAGCCTTTAAATTCACATATGTAAGTAACTAGTTTCAAATTTAATTATCACACTAT
+ATTAAAATTACTTTTTTCCCTGAGATTATTCAAATTTCCTCCACTTGCTTGAGTTTGTATTATTTCTTTAAACTGTGCTA
+TTATCTCTGAGAATGAAATGGGCAATTACACTTAGGAAAATGAGTAATCGTATTTAATTAAGTTAGCAATTGTATGTATT
+CTCAAGTAAGTATTACATTTTTGCTAGATATTAAAATTTTGATAGTCACTTTTGTTTTAATTATTCACAGTATCTCTCTA
+TGACCTTGTTTTCAGCAAAGTGAACAGCATTCCATACCTTACTTCTCTTTTTTTACTCATCTTAAAAACATTATGTAGTG
+TTTCAATAAACTTTGTGGGTAAGTAGTTTCTAAATTTAGTTGTGTGTTATCATTTTGTTGAGGTCTATTTGTTGCAGTGT
+GTGTGTGTTTGTGTGTGTGTATGTAACCAGAAACTACATTTACATCTGTTTCATTTGGGGGATTTTTCCTTTTTGTAATG
+TAAAGAAGTTCAAAGTTATCAGAATTCTTTAAATAAATGTGTTAGTTTAGATTCTTTATGTGCCTTTCATGAAAGAAATG
+TTTTCATTAATTTTATGGATAGAAGACCTGTTGTATTCATCTTATGAAGCTATGTATGAAATTCAACTGTCCTGTGAATC
+GATTTGAATCATGAGAAATAACAGCTTAAAAAGCCACAAAGAAGCACATATTGGTGACCACCATTGATGAATTCCTGAAC
+TTTACTCTGTGTAATTGTGTTACTAATAAAATCTAATAAATTCGGATTTTTAAAATTTT
+>ref|X00376.1| Bovine adult beta-globin gene
+TTTAATAGCAATTTGTATTGCTGGAATGACTGTGATCTAGAGATGCCCAGAAAGAGGGCTGATGGTCTAAAGTCAGTGCC
+AGGAAGACCAAGGAGAGCTATGACTATCATCGTTCAAGCCTCACCCTGTGGAACCACAACTTGGCATGAGCAATCTGCTC
+ACAGAAGCAGGGAGGGCAGGAGGCAGGGCTGGGCATAAAAGGAAGAGCTGGGCCAGCTGCTGCTTACACTTGCTTCTGAC
+ACAACCGTGTTCACTAGCAACTACACAAACAGACACCATGCTGACTGCTGAGGAGAAGGCTGCCGTCACCGCCTTTTGGG
+GCAAGGTGAAAGTGGATGAAGTTGGTGGTGAGGCCCTGGGCAGGTAGGTATCCCACTTACAAGGCAGGTTTAAGGAGAGT
+GAAATGCACCTGGGCGTGTGAGGACAGAGCCGTCCCTGAGATTCAGAGAGCTGCTGGCTTCCTCTGACCTTGTGCTGTTT
+TCTCCCCCTAGGCTGCTGGTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGGACTTGTCCACTGCTGATGC
+TGTTATGAACAACCCTAAGGTGAAGGCCCATGGCAAGAAGGTGCTAGATTCCTTTAGTAATGGCATGAAGCATCTCGATG
+ACCTCAAGGGCACCTTTGCTGCGCTGAGTGAGCTGCACTGTGATAAGCTGCATGTGGATCCTGAGAACTTCAAGGTGAGT
+TTGTGGAATCCTCAGTGTTCTCCTTCTTCTTTTTATGGTCAAGCTCATGTCATGAGGAGAAAGCTGAATGGCAGGACACA
+GTTTAGAATGGAGAAGAGGTATTCTGGTTAGATTACTAAGGACTCCTCAGAACCGTTTAGACTCTTTTAACCTCTTTGTT
+CACAACCAGTATTTCCTCTGATTCATTCTTGTTCTCTGTTGTCTGCAATGTCCTCTTTTTAATTATATTTTTTATTTTGA
+GGGTTTAATTTGAAAAAAAAATTATATATCAACTTTAAAAATTGTATCTAATATTTCCCCCTTATCTGTTCCTTTCAAGG
+AATAAGATGTTCTATTGCTTTTTGAAATGATTCAAAATAATAAAAATAATAACAAGTTCTGGATTAAGTTAGAAAGAGAG
+AAACATTTCTAAATATATATTCGGGAAGATATAGGTAGATTCACATCAGTAGTAACAACTTCACTTCAGTCATCTTTGTG
+CTTATATCTACGGTCACAGCTTGGGATAAGACTGAAATACCCTGAATCTAACCTTGGATTTCCCTCATAGCTCAGTTGGT
+TAAGCATCTGCCTGCAATGCAAGAGATCCCAGTTCGATTCCTGGGTCGGGAAGGATGGCTGGAGAAGGGATAGGCACCCA
+CTCCAGTATTCTTGGGTTTCCCTTGTGGCTCAGCTGGTAAAGAATCTGCCTGCAATGTGGGAGACCCAGCTTCTATCCCT
+GAGTTTGGAAGATCCCCTGGAGAAGGGAAAGGCTACCCACTCCAGTATTCTGGCCTGGAGAAATCTATGGACTGTAGAGT
+CATGGGGTTGCAAAGAATCAGACACGATTGAGAGACTCTCACTTCACTCACCTGCACTAACCCTGCCCTTGCTTAATGTC
+TTTTCCACACAGCTCCTGGGCAACGTGCTAGTGGTTGTGCTGGCTCGCAATTTTGGCAAGGAATTCACCCCGGTGCTGCA
+GGCTGACTTTCAGAAGGTGGTGGCTGGTGTGGCCAATGCCCTGGCCCACAGATATCATTAAGCTCCCTTTCCTGCTTTCC
+AGGAAAGGTTTTTTCATCCTCAGAGCCCAAAGATTGAATATGGAAAAATTATGAAGTGTTTTGAGCATCTGGCCTCTGCC
+TAATAAAGACATTTATTTTCATTGCACTGGTGTATTTAAATTATTTCACTGTCTCTTACTCAGATGGGCACATGGGAGGG
+CAAAACACTGAAGACATAAAGAAATGAAGGGCTAGTCGAGACCTTGAGAAAATATATCAGTATCTTGGACCCCATGACAG
+CAGTGGTTGTAAATAGCTGATGTTATGGAAAACAGGCTTTGCTCCTTAGCCTTACTCTCCCTTAAAGAATTC
+>ref|X70059.1| B.taurus mRNA for gamma subunit of sodium potassium ATPase
+ATGGTGGCTGTGCAGGGGACCGAGGACCCATTCTACTATGACTACGAGACCGTCCGTAATGGGGGCCTGATCTTCGCCGC
+CCTGGCCTTCATCGTGGGGCTCGTCATCATCCTCAGCAAAAGATTCCGCTGCGGGGCCAAGAGGCAGCACCGGCAAATTC
+CTGAAGATGGGCTCTAAGGAGAGAGCCAGCAGTGCC
+>ref|X13684.1| Bovine gpx1 mRNA for glutathione peroxidase
+GCGCTCTGCTCTGGATTCGGAAACGGATACCATGTGCGCCGCTCAGCGCTCGGCGGCCGCCCTGGCGGCGGCAGCCCCGC
+GCACAGTGTACGCCTTCTCCGCGCGCCCTCTGGCCGGCGGGGAGCCCTTCAACCTGTCCTCCCTGCGGGGCAAGGTGCTG
+CTCATTGAGAACGTAGCATCGCTCTGAGGCACAACGGTGCGGGACTACACCCAGATGAATGACCTGCAGCGGCGCCTTGG
+ACCCCGGGGCCTGGTCGTGCTCGGCTTCCCCTGCAACCAGTTTGGGCATCAGGAAAACGCCAAGAACGAGGAGATCCTGA
+ATTGCCTGAAGTACGTCCGACCAGGCGGCGGGTTCGAGCCCAACTTTATGCTCTTCGAAAAGTGCGAGGTGAATGGCGAG
+AAGGCGCATCCGCTCTTCGCCTTCCTTCGGGAGGTTCTGCCCACGCCAAGTGACGACGCCACTGCTCTCATGACCGACCC
+TAAGTTCATCACCTGGTCCCCGGTGTGCCGCAACGACGTCTCCTGGAACTTCGAGAAGTTCCTGGTGGGCCCAGACGGTG
+TGCCCGTGCGCAGGTACAGCCGCCGCTTTCTGACCATCGACATCGAGCCTGACATTGAAACCCTGCTGTCCCAGGGGGCC
+TCTGCCTAGGGTGCCCCTCCCACCCTTGCTGCTTGGCGGTCAGCGCTGCTCTCCAGGGATTTTGCCCATGAAGGTGTTCC
+CTCTAAACCTACGTGGAGGAATGCCTGATGTCCAGGAAAATCCCCTGAGGTGGGCGCTGGTCCTATCCATCCCAGCCTCC
+CCTTTCCCAGACCACAGCTCCTCATGAC
+>ref|V00111.1| Bovine mRNA for growth hormone
+ACGGCTCAGGGTCCGTGACAGCTCACCAGCTATGATGGCTGCAGGCCCCCGGACCTCCCTGCTCCTGGCTTTCGCCCTGC
+TCTGCCTGCCCTGGACTCAGGTGGTGGGCGCCTTCCCAGCCATGTCCTTGTCCGGCCTGTTTGCCAACGCTGTGCTCCGG
+GCTCAGCACCTGCACCAGCTGGCTGCTGACACCTTCAAAGAGTTTGAGCGTACCTACATCCCGGAGGGACAGAGATACTC
+CATCCAGAACACCCAGGTTGCCTTCTGCTTCTCCGAAACCATCCCGGCCCCCACGGGCAAGAATGAGGCCCAGCAGAAAT
+CAGACTTGGAGCTGCTTCGCATCTCACTGCTCCTCATCCAGTCGTGGCTTGGGCCCCTGCAGTTTCTCAGCAGAGTCTTC
+ACCAACAGCTTGGTGTTTGGCACCTCGGACCGTGTCTATGAGAAGCTGAAGGACCTGGAGGAAGGCATCTTGGCCCTGAT
+GCGGGAGCTGGAAGATGGCACCCCCCGGGCTGGGCAGATCCTCAAGCAGACCTATGACAAATTTGACACAAACATGCGCA
+GTGACGACGCGCTGCTCAAGAACTACGGTCTGCTCTCCTGCTTCCGGAAGGACCTGCATAAGACGGAGACGTACCTGAGG
+GTCATGAAGTGCCGCCGCTTCGGGGAGGCCAGCTGTGCCTTCTAGTTGCCAGCCATCTGTTGTTTGCCCCTCCCCCGTGC
+CTTCCTTGACCCTGGAAGGTGCCACTCCCACTGTCCTTTCCTAATAAAATGAGGAAATTGCATCGC
+>ref|X03404.1| Bovine mRNA for adenylate cyclase-stimulation G-protein alpha subunit
+TCTCGGCCCGCGTGAGGCCGCCCGCGCCGGCCCCGCCGCCGCCGCCGCCGCCATGGGCTGTCTCGGAAACAGCAAGACCG
+AGGACCAGCGCAACGAGGAGAAGGCGCAGCGCGAGGCCAACAAGAAGATCGAGAAGCAGCTGCAGAAGGACAAGCAGGTC
+TACCGGGCCACGCACCGTCTGCTGCTGCTGGGTGCTGGAGAATCTGGTAAAAGCACCATTGTGAAGCAAATGAGGATCCT
+GCATGTTAATGGGTTTAATGGAGAGGGCGGCGAAGAGGACCCGCAGGCTGCAAGGAGCAACAGCGATGGTGAGAAGGCCA
+CCAAAGTGCAGGACATCAAAAACAACCTGAAAGAGGCCATTGAAACCATCGTGGCCGCCATGAGCAACCTGGTGCCCCCT
+GTGGAGCTGGCCAACCCAGAGAACCAGTTCAGAGTGGATTACATTCTGAGCGTGATGAACGTGCCGGACTTTGATTTCCC
+TCCCGAATTCTACGAGCATGCCAAGGCTCTCTGGGAGGATGAAGGGGTGCGTGCCTGCTATGAGCGCTCCAACGAGTACC
+AGCTGATTGACTGCGCCCAGTACTTCCTGGACAAGATTGATGTCATCAAGCAGGATGACTACGTGCCCAGCGACCAGGAT
+CTGCTCCGCTGCCGTGTCCTGACTTCTGGAATCTTTGAGACCAAGTTCCAGGTGGACAAAGTCAACTTCCACATGTTTGA
+CGTGGGCGGCCAGCGCGATGAACGCCGCAAATGGATCCAATGCTTCAATGATGTGACTGCCATCATCTTCGTGGTTGCCA
+GCAGCAGCTACAACATGGTCATTCGGGAGGACAACCAGACCAACCGCCTGCAGGAGGCTCTGAACCTCTTCAAGAGCATC
+TGGAATAACAGATGGCTGCGCACCATCTCTGTGATTCTGTTCCTCAACAAGCAAGATCTGCTGGCTGAGAAAGTCCTTGC
+TGGAAAATCGAAGATTGAGGACTACTTTCCAGAATTTGCTCGCTACACTACTCCTGAGGATGCGACTCCCGAGCCCGGAG
+AGGACCCACGCGTGACCCGGGCCAAGTACTTCATTCGAGATGAATTTCTGAGAATCAGCACTGCTAGTGGAGACGGGCGC
+CACTACTGCTACCCTCACTTCACCTGCGCTGTGGACACCGAGAACATCCGCCGTGTGTTCAACGACTGCCGTGACATCAT
+CCAGCGCATGCACCTCCGTCAGTATGAGCTGCTCTAAGAAGGGAACCTCCAGATTTAATTAAGGCCTTAAGCGCAATTAA
+TTAAAAGTAAGATATAATTGTACACGCAGTTGATCACCCACCATAGGGCATGATTAACAAAGCAACCTTTCCTTTCCCTC
+AAGTGATTTTGCGAAACCCCCTTCACCTTACAGCTTGCTTAAATATTCCAAATTTAGAAAGCTTAAGGCAGCCTATAGAT
+TAAGATTAAGAAAAAAAGGCCACAAATGTTCCCTTCTCTCTTTAAGTAACTACAATAATAGCAGCAAACAGAAATAAATA
+AATGAAATAAATGAAGCAAATGAAATAAATATCGTGTTGTGCAGCATTAAAAAAATCAAAATAAAAATTAAATGTGAGC
+>ref|NM_177516.1| Bos taurus glutathione S-transferase pi 1 (GSTP1), mRNA
X61233.1 Bovine GST mRNA for gluthathione S-transferase, class-pi
+CGGCTCAGGCCGCCGCCGAGCGCGCTGGAACTTTGCTGCCGCCGCCACCTTTACCGACTTCCCCGACTCCAGGATGCCTC
+CCTACACCATCGTCTACTTCCCGGTTCAAGGGCGCTGCGAGGCCATGCGCATGCTGCTGGCCGACCAGGGCCAGAGCTGG
+AAGGAGGAGGTCGTAGCCATGCAGAGCTGGCTGCAGGGCCCACTCAAGGCCTCCTGCCTGTACGGGCAGCTCCCCAAGTT
+CCAGGACGGAGACCTCACGCTGTACCAGTCCAATGCCATCCTGCGGCACCTGGGCCGCACCCTCGGGCTGTATGGGAAGG
+ACCAGCAGGAGGCGGCCCTGGTGGACATGGTGAATGACGGTGTAGAGGACCTTCGCTGCAAATACGTCTCCCTCATTTAC
+ACCAACTACGAGGCGGGCAAGGAGGACTATGTGAAGGCGCTGCCCCAGCACCTGAAGCCTTTCGAGACCCTGCTGTCCCA
+GAACAAGGGTGGCCAGGCCTTCATCGTGGGCGACCAGATCTCCTTTGCGGACTACAACCTGCTGGACCTGCTTCGGATTC
+ACCAGGTCCTGGCCCCCAGCTGTCTGGACTCCTTCCCCCTGCTCTCAGCCTACGTGGCCCGTCTCAACTCCCGGCCCAAG
+CTCAAGGCCTTCCTGGCCTCCCCCGAGCACATGAACCGGCCCATCAACGGCAATGGGAAACAGTGAGGGCTTGCAGCACT
+CTCTGCTCGAGGCAGGGGGCTGCCTGCTCTTCCCTTTCCCCAGGACCAATAAAACTTCCAAGAGAGAAAAAAAAAAAAAA
+AAAAAAAAA
+>ref|NM_175778.2| Bos taurus guanylate cyclase 1 soluble subunit alpha 1 (GUCY1A1), mRNA
X54014.1 Bovine mRNA for large subunit of guanylate cyclase (EC 4.6.1.2)
+AGCTGTAAGGGATCCTTGGGGCGGGGGGAGAGAGAGAGAGAGAAAGAGATGGAGACGCTGGGAGAGACCCAGGCTGGAGC
+TGGCTGAGCGTGGGCGCAGCGCGGGAACCGGGTCTGCAGCGCTTTGCGCCTGCCCCGCCTGTTGAGCAGGAGCCGAGAAT
+ACAGAGTCACTCCTCTTTCTCCTCTGACCTTCTGCAGCCCCTGGACTCCCTGGTCATCAGCATCTCTGGTCCGCTAGTGG
+CTTCTGTGTGTCCATCCTGGTAAGAAGAACCAAGCCCAGGAGCAATCACCATGTTTTGCGCGAAGCTGAAGGACCTGCAG
+ATCACGGGGGACTGCCCTTTCTCCCTGCTGGCCCCGGGGCAGGTCCCCAGAGAGCCCTTGGGGGAAGCCACAGGGAGTGG
+GCCAGCATCGACCCCAGGGCAGCCAGGCGTCTGTCCAGGTGTCCCCGACAAGAACCCTCCCGGAAGGCTTCCCCGGAGGA
+AGACCAGCCGCAGCCGGGTCTATCTTCACACTTTGGCAGAGAGTATTTGCAAACTGATTTTCCCAGAGTTTGAGCGTCTG
+AACCTTGCCCTTCAGAGAACATTGGCAAAACACAAAATAAAGGAAAACAGGAAATCTTTGGAAAGAGAAGACTTTGAAAA
+AATAGTTGTGGACCAAGCAATTGCAGCAGGAGTTCCAGTGGAGATCATCAAAGAATCTCTTGGTGAGGAGCTTTTTAAAA
+TATGTTATGAAGAAGATGAATACATCCTAGGTGTGGTTGGAGGAACCCTGAAAGATTTTTTAAATAGCTTCAGCACCCTC
+CTGAAACAGAGCAGCCACTGTCAAGAAGCAGAAAAGAAGGGCAGGTTTGAGGACGCATCCATCCTATGCCTGGATAAAGA
+TCCCGATGTCTTATATGTTTACTATTTCTTCCCCAAGAGGATCACTTCCCTGATTCTCCCCGGCATCATTAAGGCAGCTG
+CTCGCATACTGTATGAGACGGAAGTGGAGGTTTCTTCGACGCCTTCTCGCTTCCACCAGGACTGCCGTGAGTTCGTGGAC
+CAGCCCTGCGAGCTCTACTCCGTCCACATCAGGAGCGCCCGGCCGCACCCGCCCCCTGGGAAACCCGTGTCCTCGCTGGT
+CATCCCCGCCTCGCTCTTCTGCAAGACCTTCCCTTTCCACTTCATGCTTGACAGAGATATGAGCATCCTGCAGCTCGGCC
+ACGGCATCAGGCGGCTGATGAGCAGGAGAGACGTGCAAGGGAAGCCTCATTTTGATGAGTACTTTGAGATCCTGACCCCC
+AAAATCAGCCAGACGTTCAGCGGCATTATGACCATGCTGAACATGCAGTTCCTGGTGCGAGTGAGGAGGTGGGACAACTC
+CATGAAGAAATCTTCCAGGGTGATGGACCTCAAAGGCCAGATGATCTACATGGTGGAGTCCAGCTCCATCCTGTTCCTGG
+GCTCACCCTGCGTGGACAGACTGGAAGACTTCACAGGCCGAGGGCTGTACCTCTCCGACATCCCCATCCACAACGCGCTG
+CGGGATGTGGTGCTGATTGGGGAGCAGGCCAGGGCCCAGGATGGCCTGAAGAAGAGGCTGGGCAAGCTGAAGGCCACGCT
+GGAGCAGGCCCACCAGGCCCTGGAGGAGGAGAAGCGGAAGACGGTGGACCTGCTGTGTTCCATCTTCCCCAGTGAGGTGG
+CGCGGCAGCTGTGGCAGGGCCACGCTGTGCAGGCCAAGCGCTTCGGCAATGTCACCATGCTCTTCTCGGACATCGTGGGG
+TTCACGGCCATCTGTTCCCAGTGCTCCCCGCTGCAGGTCATCACCATGCTCAACGCACTCTACACCCGCTTTGACCGGCA
+GTGTGGAGAGCTGGATGTCTACAAGGTGGAGACGATTGGCGATGCGTACTGTGTGGCTGGGGGCTTACATAAAGAGAGTG
+ACACCCACGCTGTTCAGATCGCGCTGATGGCCCTCAAGATGATGGAACTCTCTCATGAAGTCGTGTCTCCCCACGGAGAA
+CCCATCAAGATGCGCATTGGGCTGCATTCTGGGTCAGTTTTTGCTGGAGTTGTTGGAGTTAAAATGCCTCGTTACTGCCT
+TTTTGGAAACAATGTCACCCTGGCTAACAAATTTGAATCGTGCAGTGTTCCCCGGAAAATCAACGTCAGCCCAACCACTT
+ACAGATTACTCAAGGACTGTCCTGGTTTTGTGTTTACACCTCGATCAAGGGAAGAACTTCCACCAAACTTTCCTAGTGAC
+ATTCCTGGGATCTGTCATTTTCTGGAAGCATATCAACAAGGAACAACTTCAAAGCCATGGTTCCAGAAAAAAGATGTTGA
+GGAAGCCAATGCCAATTTTTTAGGCAAAGCATCAGGAATAGATTAACCAAACACACACCTGATTGTTAGCCTTTGGGGTT
+TGACTCCTTGGAACGTGAGTGGACCCTCTGAGAGCACACTGGCATGGTGGTGAGCTGAGGAGCAGTATTAACATTTCAGG
+AGCCAAGTCACCATCTACTTGTCCTTCCACTTAACATGACAAAAATGTATTCACTTCAATATTCAATTTTTCAGTGAAAA
+ACAAAGAAACCTCAAAAAGTGACTTTGAGGGGATGTAATATACTTATTACCTGTGCTCAAAACTCAGCACCTTGTATATA
+CATCAGGTAATGTAGTGACCTGTACCACCTGGTGAGCTGTCTGCGTGTCCTGCCCTGGCCGAATGCCCTGGTTATCAAAG
+TGCTTGTGGTAGTGTTGGTTGCCTTAAAGATGCTTGTTGAATAGAAACAATAGTCTTGATACCATAAGCTCTTTGAACCT
+TTCAACTGGTACATTTTGTTACATTTCCTCATTTAACAGTTAGCATATATAATAAGATAGACTGAGTTTTTTTTTTCCTG
+TTGCACTTTTTTCTTTTTCCTTTTCTTAAAGAAAATAAGCCATTATGGGTTAGATGCAATATGAATCTAAAGTAGTTCTC
+CTGTAAATATCAAGATGATTTTATAAAAATATTCTCTACAACATAATATGTCATAAAAATAAGTATTTCCTTTTTTGACA
+TTTGTAAAAGTCTATACATGGTAAAGGCTATTTTAATTCATAATAGCAATTTCATTTCTATTAATTCATTTTTATGTCAT
+CTTCAGGGTAAAAGAGGGTTATGGCCTATATTAAAATGCAATAATATCATTATGATTTACTTTAATTGAAGCAACATGGA
+GTAAAGGCAGCATTCAGGGAGCGAGCCATAAAGTCAGAAGCAAAGTACTTACACACACCGA
+>ref|X52318.1| Bovine mRNA for histone H2A.Z
+ATGGCTGGCGGTAAGGCTGGGAAGGACTCCGGAAAGGCCAAGACAAAGGCGGTTTCCCGCTCGCAGAGAGCCGGTTTGCA
+GTTCCCGGTGGGCCGTATTCATCGACACCTGAAATCTAGGACGACTAGCCATGGACGTGTGGGCGCGACTGCCGCTGTGT
+ACAGCGCAGCCATCCTGGAGTACCTCACCGCAGAGGTACTTGAATTGGCAGGAAATGCATCGAAAGACTTGAAGGTAAAG
+CGTATTACCCCTCGTCACTTGCAACTTGCTATTCGTGGAGATGAAGAATTGGACTCTCTCATCAAGGCTACAATTGCTGG
+TGGTGGTGTCATTCCACACATCCACAAATCTCTGATTGGAAAGAAAGGACAACAGAAGACTGTCTAAAGGATGCCTGGAT
+TCCTTATTATCTCAGGACTCTAAATACTCTAACAGCTGTCCAGTGTTGGTGATTCCAGTGGACTGTATCTCTGTGAAAAA
+CACAATTTTGCCTTTTTGTAATTCTATTTAAGAAAGTTGGAAGTTTAATTAGCTTTCCAACCAACCAAATTTCTGCATTT
+GAGTCTTAACCATATTTAAGTGTTACTGTGGCTTCAAAGAAGCTATTGATGCTGAAGTAGTGGGTTTTGATTGAGTTGAC
+TGTTTTTAAAAAACTGTTTGGATTTTAATTGTGATGCAGAAGTTATAGTAACAAACATTTGGTTTTGTACAGACATTATT
+TCCACTCTGGTGGATAAGCTCAATAAAGGTCATATCCCAAACTAGTTGTGTATAAAATTTGCTTGATTATAGTAGGAACA
+GCTTTGTTGAATAGGTATCTTACCTAGCAATAACTTAAGCACATTTCTTCCCTTTAAATTACTGTTAATTCTGTCTGTAG
+ATCAACAAAGTTAAAAGGCCCAAGTG
+>ref|X00502.1| Bovine prepro-oxytocin-neurophysin I gene
+AAGCAGCACTCGCTATCATCTCCCGGACCATTAGCCATTAGCCGACATAACCTTGACCCGGCACAGCCTCTGCAAATGAG
+GGGGCGCGCCGGGGGCGCAGGGCCTGACCCGCAGCGGCGCGCTGTGACCAGTCATGCGGCTGCCCTCTTAGACACCGTTC
+CGCCCACGCGGCCGCCGGGCTTAAAAGGCCAGACCCGAGAGACGGCCGCAGTCCCCGGCCCGGAGACCAGCGCGTCTGCA
+CCATGGCAGGTTCCAGCCTCGCCTGCTGCCTGCTCGGCCTCCTGGCGTTGACCTCCGCCTGCTACATTCAGAACTGCCCC
+CTGGGCGGCAAACGCGCGGTGCTGGACCTCGACGTGCGCACGGTGAGAGCCCCGCCCTCGACCCGTGGCTCTCCGGGCTG
+CCCGGCCCGCTGCCACAGGGTCGCCCCCGCCGCCCCCTTTCCCGCGCTGACCGCGTACCGGCCCCACCTAGCCTGGGAAT
+CGAGGGAGCGGAGGAGCTTTTGACTGCCCTCCTTCGACCGCTTTTGAGCCCAAAGAGAGAGCCAGGGAGACCCGCCACCT
+CCCGCGCTCCTCCGGCCGCCCTCGCCCGCCCGGCTCAGCCCCCCGCCCCACAGGGTCTCCCTCCCCGGCCGCTCCCCTCC
+CGCCCCCGGCTCATCCCTTCCCTCCCACCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCA
+TCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCG
+CCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAGCCCGGGTGAGTC
+GGGCAGGGGTCGAGACGGGACCGGGGCTCCAGGACCAGGCGGGCTGGGCCAGGGCGGCCCTGACTCGGCGTCTCTCTGTG
+CAGACGGCTGCCACGAGGACCCCGCCTGCGACCCTGAGGCCGCCTTCTCCCAGCACTGAGACCGGCCGGCCCCCGATACC
+GTCGGAGCGCAGCCCTCACTCCCTCTGTAATCATCCCCAGGAATTATGACAATGAAATAAAGCCGGTTTTTTCCCCCTCC
+AACAAGCCTCGCATCTGAGTGTCAGAACGGGGAGGGGAGGGCTTTAG
+>ref|X00503.1| Bovine prepro arginine vasopressin-neurophysin II gene
+GGAGACAGTTTCCAGGTGACCCCCCCTCATTCCCCGTCTGTCCACCTCCCCAAGTCTAGAGAGCCGCAATCATAGCCGCA
+GCAGCTCCTGTCACACCGCAGCCACACCGCTGCCTATGACAGCCTGGAGGCCAGCATCCCTCCCCCACCGTCCCCTGCAC
+AGGTCCACGTGCGTCCCCAGATGCCTGAATCACTGCTGACGCCTGGGGACCTGGAGGCCACGGGCTCCTGGGGAGCCACT
+GGGGAGGGGGTGGCGGCCACGTCACTTCAGAGGGAACACCTGCAGACATAAATAGGCAGCCAGCGAAGACATCGCAGCAC
+AGTCCACAGAGCAGCACTGCGCACTGTGCCCACCCGTGCCAGGATGCCCGACGCCACACTGCCCGCCTGCTTCCTCAGCC
+TGCTGGCCTTCACCTCTGCTTGCTACTTCCAGAACTGCCCAAGGGGCGGCAAGAGGGCCATGTCCGACCTGGAGCTGAGA
+CAGGTATGACCATGACCGCTCTCAGAGCTGCAGGGAAGGGGCAGAGGCCCAGGGACGGCACCACCGTGCAGGGGCTAGCA
+AGGGAAGTCGTGGGAGAGGCAGGCTTTAGGGGAAGTGCCCAGCAGAAGAAGGGAGGCTTGGCATGGCCAAAGGGGACCAG
+GCTGTCAGGCAGGCTAGGACAGGTTGCAGGACTTCCGGAACATTGTCCCTACCAGAGAAGGGATGCTGGCAAGAGGTTTC
+CCTAGTTCCTGGGCTTGGAGCTGCAGCAGGGAGAATGGGCAAGGCCTTCTCTGTGCCCATGGGGCCTCTCCTCTAGGACC
+AGCTGGAGCTTCAGAGGCTCTGTCCTCCCAGCACTCTAAGCCTTCCCCGATCAGCGTCCAGCTTCTCCTAGCCATGGGCC
+CCAGCATTCACCCCGGCCCCGAAGCCTGGCCATTGCCCTGAGCTTGCCCGAGTGACAGGTGCCACTCAAGCATCCTGTAA
+AGAAGTTCTTCTGGGTACCTAGCCCAATTCTTTCATGCTGCATGTCCAATGAGTCCCTCTTAATCCATCTTCAGCAGCAC
+TAAAGGAAACCCAATCACCGTGCTCAATTCTGCCATGGTCAAAAGTGGCCAGTTTTGAGCTGCTGAACAAACTTTTGGGA
+AGGTGGGCAGCCCCCACTGACGGCCCTTCCTCTGCTCGGCAGCTTTGGAAGCTGGAGTCACCTAGGTGCCTCATACCCTC
+CTCTAGGGCTCAGATCCTTGCCACTCAGGGTCAGTCCTTAGACGGACTAGCAGAAGTCAAGGTCCCAGTGAGACCCACTG
+GCTTGAGGGGCAGGGCAAGGGCAGAGAGGGGACAGAACAGGATAAGGAGGGGCGGGGGAGGGAGGGCAGAAGGAAGGTCT
+GCTTCAAGGGGAGGGTAGTGGGCAGCTGAGAGAAGGGTGGACACCAGGAGGCCCCAGAGCTGAGGGGGAAATTCTCCCCC
+AAATAGCGCATGAGGGTTCCCTTTGACAAAGCGGGAGGACGCTGAAGGGTGTGACTGACAGCTGTTCCTCAAACATCTGA
+AAACCGAGGGAGCGGAGAAGCTTTTTTTTGACTGCTCTCCTTCGACCAATTTTGGGCCCAAAGAGAGCCAGGGAGACCCG
+CCACCTCCCGCGCTCCTCCGGCCGCCCTCGCCCGCCCGGCTCAGCCCCCCGCCCCACAGGGTCTCCCTCCCCGGCCGCTC
+CCCTCCCGCCCCCGGCTCATCCCTTCCCTCCCACCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGC
+CCAGCATCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTG
+CCGTCGCCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAACGATGG
+TGCGCGGCCCGGGCGGTGGGGCGGGGGCGGGGAGGGGGGCGAGGAGGGGGCGGGGCCGGGGCCGGGGCGGGGCGGGGGCC
+GGGTTGATCTGGGTCCGGGTCTGGAGGGGGTGGGAAGCGGGGCCCGGTCCCCGAGACGCGCCCGCCAGCTGCGCGCTCAG
+CCCGTGCTCCCCGCAGAGAGCTGCGTGACCGAGCCCGAGTGCCGGGAAGGTGTCGGCTTCCCCCGCCGCGTTCGCGCCAA
+CGACCGGAGCAACGCGACCCTGCTGGACGGGCCGAGCGGGGCCTTGTTGCTGCGGCTGGTGCAGCTGGCGGGGGCGCCGG
+AGCCCGCGGAGCCCGCCCAGCCCGGCGTCTACTGAGGCGCGCCCCCCCCTCCCCACCCCTGCCCTCGCAGCACGAAAAAT
+AAACGTTTTAAAGGCACTGCTAGTGTGCGTCTCTGCCTCTGGGGGTGGAGAGGGGAGACGAAGGGAGGGCGGGGGATCAG
+TTCCTGACCCGAAGCCGCGCGCAGATC
+>ref|X53827.1| Bovine mRNA for 7O KDa heat shock cognate protein
+CTCTTTCAGCAGCCGGGCCTACGCTTTTGCAACCATGTCTAAAGGACCTGCAGTTGGCATTGATCTTGGCACCACCTATT
+CTTGTGTGGGTGTCTTCCAGCACGGAAAGGTGGAAATAATTGCCAATGATCAGGGGAACCGAACCACCCCAAGCTATGTC
+GCCTTTACTGATACCGAACGGTTAATCGGTGATGCAGCAAAGAACCAAGTCGCAATGAATCCCACCAACACGGTTTTTGA
+TGCCAAACGACTTATTGGACGTAGATTTGATGATGCTGTTGTCCAGTCTGATATGAAACATTGGCCCTTCATGGTGGTGA
+ATGATGCTGGCAGGCCTAAGGTTCAAGTAGAATACAAGGGAGAGACAAAGAGTTTTTACCCAGAGGAGGTGTCATCCATG
+GTCCTGACAAAGATGAAGGAAATCGCAGAAGCCTACCTTGGGAAGACGGTTACCAACGCTGTCGTCACAGTACCTGCCTA
+TTTTAATGACTCTCAGCGTCAGGCTACCAAAGATGCTGGAACTATTGCTGGTCTCAACGTACTTCGAATCATCAATGAGC
+CAACTGCTGCTGCTATTGCCTATGGCTTAGACAAAAAGGTTGGAGCAGAAAGAAACGTGCTGATCTTTGATTTAGGGGGT
+GGCACTTTTGATGTGTCAATCCTCACTATTGAGGATGGAATCTTTGAGGTCAAATCTACAGCTGGAGATACTCACTTGGG
+TGGAGAAGACTTTGACAACCGCATGGTTAACCATTTTATTGCGGAGTTCAAGCGTAAACACAAGAAGGATATCAGTGAAA
+ACAAGAGGGCTGTCCGTCGTCTCCGTACTGCTTGTGAGCGTGCTAAGCGCACTCTCTCTTCCAGCACCCAGGCCAGTATT
+GAGATTGATTCCCTCTATGAAGGAATCGACTTCTATACCTCTATTACCCGTGCCCGATTTGAAGAATTGAATGCTGACTT
+GTTCCGTGGCACCCTGGACCCTGTGGAGAAGGCCCTTAGGGATGCCAAACTGGACAAGTCTCAGATTCATGATATTGTCT
+TGGTTGGTGGCTCAACCCGTATCCCCAAGATTCAGAAACTTCTCCAGGACTTCTTCAACGGGAAAGAACTGAATAAGAGC
+ATCAACCCTGATGAGGCTGTTGCATATGGTGCAGCTGTCCAGGCAGCCATTTTGTCTGGAGACAAATCTGAAAATGTTCA
+AGACTTGCTGCTGTTGGATGTCACTCCTCTTTCCCTTGGAATTGAAACTGCTGGTGGAGTCATGACTGTCCTCATCAAGC
+GCAATACTACCATTCCTACCAAGCAGACGCAGACTTTCACCACCTACTCTGACAACCAGCCTGGTGTGCTCATTCAGGTT
+TATGAAGGTGAGCGTGCCATGACCAAGGATAACAACCTGCTTGGCAAGTTTGAACTCACGGGCATTCCTCCTGCCCCCCG
+TGGTGTTCCTCAGATTGAAGTCACTTTTGATATTGATGCCAATGGCATCCTCAATGTTTCTGCTGTGGATAAGAGCACAG
+GAAAAGAGAACAAGATTACCATCACTAATGACAAGGGCCGCTTGAGCAAAGAAGACATTGAACGCATGGTTCAAGAAGCA
+GAGAAGTACAAAGCTGAAGATGAGAAGCAGCGGGACAAGGTGTCTTCAAAGAATTCGCTTAAATCCTACGCCTTCAACAT
+GAAAGCTACTGTTGAGGATGAGAAACTTCAGGGCAAGATTAATGATGAAGACAAACAGAAGATTCTTGACAAGTGTAATG
+AAATAATCAACTGGCTGGATAAGAACCAGACTGCAGAGAAGGAAGAATTTGAACATCAGCAGAAGGAGCTGGAAAAAGTC
+TGCAACCCCATCATTACCAAGCTGTACCAGAGTGCAGGAGGCATGCCTGGGGGAATGCCAGGAGGAATGCCTGGGGGCTT
+CCCTGGTGGTGGAGCTCCTCCATCAGGTGGTGCCTCCTCTGGGCCCACCATTGAAGAGGTTGATTAAGCCAGCCTAGCAT
+AGATTGAGCATTGTTCCACACAAAAACATGGAAGGACCCAAATTGT
+>ref|X68443.1| B.taurus IFNAR mRNA for interferon receptor type I
+AGCGGCGCTGGCCTTGGCGGGACGGCCTGGGTGCCTCAGTCTCCGTCGCGCCGCCGCGCGGTGCCTGCCGCGGTAGTGGG
+TGGCCGAAAGATGTGACTGGAGGGCTACCGGCGGCCCGCGGACGATGCTCGCTCTCCTGGGCGCGACGACCCTGATGCTG
+GTCGCTGGGAGATGGGTGCTGCCCGCCGCCTCAGGGGAAGCAAATCTGAAGCCTGAAAATGTCGAGATCCACATCATTGA
+TGACAATTTTTTCCTGAAGTGGAACAGCAGCAGTGAGTCTGTCAAGAATGTGACTTTTTCAGCAGATTATCAAATACTAG
+GAACGGATAACTGGAAGAAATTGTCTGGATGTCAACATATTACTAGTACCAAATGCAACTTTTCTTCAGTCGAGCTTGAA
+AATGTTTTTGAAAAAATTGAATTGCGCATAAGAGCAGAAGAAGGAAACAACACTTCCACATGGTATGAGGTTGAGCCATT
+TGTACCATTTCTAGAAGCTCAGATTGGTCCCCCAGATGTGCATTTAGAAGCTGAAGATAAGGCAATAATACTGAGTATCT
+CTCCCCCTGGAACAAAAGATAGTATCATGTGGGCTATGGATCGTTCAAGCTTTAGGTATAGCGTCGTTATCTGGAAAAAC
+TCTTCAAGTCTAGAAGAAAGAACGGAAACTGTTTATCCCGAAGATAAAATTTATAAACTGTCACCAGAGATTACTTATTG
+TTTAAAAGTTAAAGCAGAACTGCGTTTACAAAGTAGAGTTGGTTGCTATAGTCCAGTGTATTGTATAAATACCACAGAGA
+GACATAAAGTACCTTCACCAGAAAATATACAAATCAATGCTGACAACCAGATCTATGTTCTTAAGTGGGATTACCCATAT
+GAAAACGCAACTTTTCAAGCTCAGTGGCTCCGTGCCTTTTTTAAAAAGATTCCTGGGAATCATTCAGACAAATGGAAACA
+AATACCGAACTGTGAAAATGTCACAAGTACCCACTGTGTCTTTCCTCGAGAGGTTTCCTCAAGGGGAATTTACTATGTCC
+GTGTACGAGCATCTAATGGAAATGGTACCTCTTTTTGGTCTGAAGAGAAGGAATTTAATACTGAAATGAAAACTATCATA
+TTTCCTCCAGTCATCAGCGTGAAATCCGTTACTGATGATTCACTGCATGTCAGTGTTGGTGCTTCAGAAGAGTCTGAAAA
+CATGTCTGTGAATCAGCTCTACCCGCTAATTTATGAAGTAATTTTTTGGGAAAACACTTCAAATGCTGAGAGAAAAGTTC
+TAGAGAAAAGAACCAATTTTATCTTTCCTGACTTGAAACCGCTGACTGTGTATTGTGTCAAAGCCAGAGCACTCATTGAA
+AATGACAGGCGGAATAAAGGGAGCAGTTTTAGTGATACTGTGTGTGAGAAAACAAAACCAGGAAATACTTCCAAAACCTG
+GCTTATAGTTGGAACTTGCACTGCATTGTTTTCTATTCCTGTGGTCATTTATGTTGTGAGCGTCTTCTTGAGATGTGTCA
+AGTATGTGTTCTTTCCATCAAGTAAACCTCCTTCCTCTGTTGACGAGTATTTCTCCGATCAGCCACTAAGGAATCTACTC
+CTTTCCACTTCTGAGGAACAAACGGAAAGATGTTTTATAATTGAAAATGCAAGCATTATTACTGAAATAGAAGAGACTGA
+TGAAATTGATGAAGTTCACAAAAAGTACAGTTCCCAAACTAGTCAAGATTCAGGAAACTATTCAAACGAAGATGAAAACA
+GTGGAAGCAAAATAAGCGAAGAGTTTCCGCAACAGGACAGTGTGTGACCAGGAATGACCCTGAAACATTAGGGAGTCTTG
+CAAGAGTCAGAGTGGGAGCCTGGGCTTTTTGCTCTTCTCAGTAACTGTCAAAAGAAGATTGTCCGTGTCGGGGAAGAAAA
+AGCGTCTTCAGATCGCAGGTCCAAAAAATACAGGCAAGCACTTCACTATTTAAAATGAATTTCAAGAAGTTTTCTGCGTC
+CTTTGCCACGTGTCAAGTCTTGAAAGGCCTGTCATTGGACCTGCCTTGGATGAGAGGCGTTAAGTCCAGAAGATACCCTC
+TGTCTCCCTCACGCTACTGTAAGCAGCCCTGTGCTGGCGTGGGGTTTGGGGGTGCTTGTGTTCCCATCAGCTGGTGCTGT
+CGCTGTGTAACGCTGCGCTGCTCCCTCTCCCCCACAGCATTATAGTTCACTATTTTTCAGGAGATATTCAGAACATTTGG
+TCTTCTTCAAAGAAGAACCTGAATACCACCATCACTTGATTTTCTGAAAAAGTAGCTTACTCTGGAAAACAGCTGCAGAT
+GCCAGAAACGAGGTTCTTATAGATTTTTCAGGGGGATTCTCTCTGTTTATACCAATCACATTTATACCAGTTGCAAGAAA
+TGTGGGTTCAGTCCTTGGGTCGGGAAGATCCTCTAGAGGAGGGCATGGCAACTCACTCCAGTATTCATGCCTGGAAAATC
+CCATAGGCGGAGAAGCCTGGCGGGCTACAGTCCACGAGGTCACAGAGAGTCGGACACTGAAGCGACTGAACGTGCATACA
+CGCGTACCAATTACATTGGCCTTTGCATCACAGTTACCCATCCCTTCTACAGTTTAGAATTAAAACCATGTCATCTTTTA
+CTATATGTACATTAAGGCTTCCTGTTTCAGAACATTAGGACACTAGCTTCTGATTAGAAGGCATAATCCCTAAAATTACA
+GAGAAATGGGGAACAGGCTGAGTAGAGAAGTTACTGTTATCTCTTAGGATATGGGAGTGTGGAACGTTAGTGGCAGTGTA
+TGTAAAGTCTTGGGATCAGAAAATGCTACTGAGAAACAGTAAGTAGTGTGAGTCAGTGGGAAAGAAGCAGGTAGCTTTAG
+TGAAAAATAAGAATAATGTGCATCGTCAGCTTCTGATTACTAACATCCTGAGGGGTGGCATTTGTTTTCACGGCTCATCT
+GTGTCACTTCTTAACATAAGCTGGCCGGCTTCTGTCCACTGTGGGGCAATATTCACAGGCATGCAGGTATCGCTTCCGCT
+CAGCCTGCATGCACTCAAGGAAATGCAAGTTATTTATCATCAGAGTGTGGGAGGAAATGAACTAGGAAGGAAACCTGAGT
+TTTTAAAATTATGTAAAACCTCTCAAAGGCATCTATAATTTATGTTTAAATGATTTTGCTGTTTGGGCTTATTCATGGAG
+TTCCTGCAGAGAAAGGAAGTGTAGGAATTC
+>ref|X16701.1| Bovine Ig germline heavy chain gamma-1-chain gene C-region, 3' end
+AAGCTGTGTCCAGACACCCCAACTGCAGTACAGTACAGAGAGCCGGGTGGCCACCATGCCGGCCGGTCATCAGACCCTGG
+AAGCAGGTGGTGGCTGGGCTCAGAGGTGCCCCAGGCCTGGCTCCTGAGGTCCTGCTGGACCCACATTCACCCAGCCTCCT
+CTCTCACAGCCTCCACCACAGCCCCGAAAGTCTACCCTCTGAGTTCTTGCTGCGGGGACAAGTCCAGCTCCACCGTGACC
+CTGGGCTGCCTGGTCTCCAGCTACATGCCCGAGCCGGTGACCGTGACCTGGAACTCGGGTGCCCTGAAGAGCGGCGTGCA
+CACCTTCCCGGCCGTCCTTCAGTCCTCCGGGCTGTACTCTCTCAGCAGCATGGTGACCGTGCCCGGCAGCACCTCAGGAC
+AGACCTTCACCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGGTGGACAAGGCTGTTGGTGAGAAGATGGTCCCCGGG
+GAGGTGTCCACTCCAGGAGACCAGGGTCAGCCCCACTGCCTGCAGGGGCCCCACCCCCGGGGTGCTGTGAACCAGGCCCA
+GTGTGTCAGGGGAGGCCCTGTCTGTCTCTCTCCTACAGTCTTGCAGGCTTGGGGAGGGGGTTGTCTGGAGTTTCCGCCAG
+GTCCACGGTGGGCAGGCAGGGTCAACGTCCACACAGCCTGGACCCACAGAGACGGGCCCTGGGCTCAGACCTGCTAAAAC
+CCGTCCCTGCCCTAAGCCCAGCCCATGGCTTCCTGCCCCTGGTAACCCCCAGTCTGCTCTCTCTGCAGATCCCACATGCA
+AACCATCACCCTGTGACTGTTGCCCACGTAAGTCACCCAGTCTCCCCATCACACCCCAGATGTGGACAGGGCCCAGGAGG
+GCCACAGGTGAGGCTGTGGGGGCCCAAGAGTGAGTCTGCCCAGGGGCTGACAACTGTTATGTCTTCCCCAAAGCCCCTGA
+GCTCCCCGGAGGACCCTCTGTCTTCATCTTCCCACCGAAACCCAAGGACACCCTCACAATCTCGGGAACGCCCGAGGTCA
+CGTGTGTGGTGGTGGACGTGGGCCACGATGACCCCGAGGTGAAGTTCTCCTGGTTCGTGGACGACGTGGAGGTAAACACA
+GCCACGACGAAGCCGAGAGAGGAGCAGTTCAACAGCACCTACCGCGTGGTCAGCGCCCTGCGCATCCAGCACCAGGACTG
+GACTGGAGGAAAGGAGTTCAAGTGCAAGGTCCACAACGAAGGCCTCCCGGCCCCCATCGTGAGGACCATCTCCAGGACCA
+AAGGTGGGCCAGGTGGACGGGACCGGGAGGCCCATGGGCCAATCAGAGTGACCGCTGTGCTAACAGCCTTCCTGTCCCCA
+CAGGGCCGGCCCGGGAGCCGCAGGTGTATGTCCTGGCCCCACCCCAGGAAGAGCTCAGCAAAAGCACGGTCAGCCTCACC
+TGCATGGTCACCAGCTTCTACCCAGACTACATCGCCGTGGAGTGGCAGAGAAACGGGCAGCCTGAGTCGGAGGACAAGTA
+CGGCACGACCCCGCCCCAGCTGGACGCCGACAGCTCCTACTTCCTGTACAGCAAGCTCAGGGTGGACAGGAACAGCTGGC
+AGGAAGGAGACACCTACACGTGTGTGGTGATGCACGAGGCCCTGCACAATCACTACACGCAGAAGTCCACCTCTAAGTCT
+GCGGGTAAATGAGCCTCACGTCCCTGCACCAGCAAGCCCTCACCCAGCCCACCCTCCCCGGGCTCCAGGTCCAGCCAGGA
+CGCCCTAGCCCCTCCCTGTGTGCATTCCTCCTGGGCCGCCGTGAATAAAGCACCCAGGCCGCCCTGGACC
+>ref|X16702.1| Bovine Ig germline heavy chain gamma-2-chain gene C-region, 3' end
+CCACCATGCCGGCCGGTCATCAGACCCTGGAAGCAGGTGGTGGCTGGGCTCGGAGGTGCCCCAGGCCTGGGCACCTGAGG
+TCCTGCTGGACCCCGCATTCACCCAGCCTCCTCTCTCACAGCCTCCACCACAGCCCCGAAAGTCTACCCTCTGAGTTCTT
+GCTGCGGGGACAAGTCCAGCTCGGGGGTGACCCTGGGCTGCCTGGTCTCCAGCTACATGCCCGAGCCGGTGACCGTGACC
+TGGAACTCGGGTGCCCTGAAGAGCGGCGTGCACACCTTCCCGGCCGTCCTTCAGTCCTCCGGGCTCTACTCTCTCAGCAG
+CATGGTGACCGTGCCCGCCAGCAGCTCAGGAACCCAGACCTTCACCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGG
+TGGACAAGGCTGTTGGTGAGAAGATGGTCCCCGGGGAGGTGTCCACTCCAGGAGACCAGGGTCAGCCCCACTGCCTGCAG
+GGGCCCCACCCCCGGGGTGCTGTGAACCAGGCCCAGTGTGTCAGGGGAGGCCCTGTCTGTCTCTCTCCTGACAGTCTTGC
+AGGCTTGGGGAGGGGGTTGTCTGGAGTTTCCGCCAGGTCCAGGGTGGCCGCAAGTGGGTCGATGTCCACACGCCTGGACC
+CACAGAGACGGGCCCTGGGCTCAGACCTGCTAAAACCCGTCCCTGCCCTAAGCCCAGCCCATGCTTCCTGCCCCTGGTAA
+CCCCCAGTCTGCTCTCTCTGCAGGGGTCTCCAGTGACTGCTCCAAGCCTAATAACCAGCATTGTAAGTCGGGAAACCTTT
+TCTCCATCCAGCGGATGTGAACAGCACCAGGAGGACTCAGGGTGTGCGGGTGGAGGGGGATGGCTGCCTTGGATGAGTGA
+GACCCCGATACTAATCTCCTGCCATGTCTCTGCCATTAGGCGTGAGGGAACCATCTGTCTTCATCTTCCCACCGAAACCC
+AAAGACACCCTGATGATCACAGGAACGCCCGAGGTCACGTGTGTGGTGGTGAACGTGGGCCACGATAACCCCGAGGTGCA
+GTTCTCCTGGTTCGTGGACGACGTGGAGGTGCACACGGCCAGGACGAAGCCGAGAGAGGAGCAGTTCAACAGCACGTACC
+GCGTGGTCAGCGCCCTGCCCATCCAGCACCAGGACTGGACTGGAGGAAAGGAGTTCAAGTGCAAGGTCAACATCAAAGGC
+CTCTCGGCCTCCATCGTGAGGATCATCTCCAGGAGCAAAGGTGGGCCAGGTGGACGGGACCGGGAGGCCATGGGCCAATC
+AGAGTGACCGCTGTGCTAACAGCCTTCCTGTCCCCACAGGGCCGGCCCGGGAGCCGCAGGTGTATGTCCTGGACCCACCC
+AAGGAAGAGCTCAGCAAAAGCACGGTCAGCCTCACCTGCATGGTCATCGGCTTCTACCCAGAAGATGTAGACGTGGAGTG
+GCAGAGAGACCGGCAGACTGAGTCGGAGGACAAGTACCGCACGACCCCGCCCCAGCTGGACGCCGACCGCTCCTACTTCC
+TGTACAGCAAGCTCAGGGTGGACAGGAACAGCTGGCAGAGAGGAGACACCTACACGTGTGTGGTGATGCACGAGGCCCTG
+CACAATCACTACATGCAGAAGTCCACCTCTAAGTCTGCGGGTAAATGAGCCTCACGTCCCTGCACCAGCAAGCCCTCACC
+CAGCCCACCCTCCCCGGGCTCCAGGTCCAGCCAGGACGCCCTAGCCCCTCCCTGTGTGCATTCCTCCTGGGCCCGCCGTG
+AATAAAGCACCAGGCCGCCCTGGACCCTGCAACGCTGTGCTGGTTCTTTCCGAGGTAGAGCCCTGGTGCCGCCAGGCTGC
+GGGGGTGGGCTGAGCCGACTCTGGGCCACTTTGTTCAGCATCTGTGGGGGAGCTGACCCCACTCCGGGCCAGACACACAG
+TGAGTGGGTCCAGCAGGCCACCTGGGGGCTGCCCAAGGCCACAGAGGGGCTTGGGGGCG
+>ref|NM_174827.2| Bos taurus cathelicidin 4 (CATHL4), mRNA
X67340.1 Bos taurus mRNA for cathelicidin (CATHL4 gene)
+AGACTGGGGACCATGCAGACCCAGAGGGCCAGCCTCTCACTGGGGCGGTGGTCGCTGTGGCTACTGCTGCTGGGACTAGT
+GGTGCCCTCGGCCAGCGCCCAAGCCCTCAGCTACAGGGAGGCCGTGCTTCGTGCTGTGGATCAGCTCAATGAGCTGTCCT
+CAGAAGCTAATCTCTACCGCCTCCTGGAGCTAGACCCACCTCCCAAGGATAATGAAGATCTGGGCACTCGAAAGCCTGTG
+AGCTTCACGGTGAAGGAGACTGTGTGCCCCAGGACGATTCAGCAGCCCGCGGAGCAGTGTGACTTCAAGGAGAAAGGGCG
+GGTGAAACAGTGTGTGGGGACAGTCACCCTGGACCCATCCAATGACCAGTTTGACCTAAACTGTAATGAGCTCCAGAGTG
+TCATCCTACCCTGGAAATGGCCATGGTGGCCTTGGCGCAGAGGTTGATGGAGAAGAGCTGTCAGATCCTGAGCCTCGGGA
+AGAGTCTTAAGTGTCTGATTTGTTCAGATTCGGGCTTCTGGACAGTGAAAATAAATTCTTGTGAAAACGG
+>ref|Z11749.1| B.taurus DNA for interleukin 6 gene 5' flank (promoter)
+AGATCTTCTGCATGAAACCAAGGACCCTCTTGCAAAAGATATTGTAAGAACCGAGGAAGCCTCTACTAGCTCAACCCAAC
+ATGGAAGCCTGAGGCATTGGAGGGGAAGTGTGATTCCAAACCCAGAGTCCTGTTCTATCAGTAGATTTCTTCTCAGTTGC
+CTCTGGATTCAAATCAAGTCATACAGCTATGAACACAAGCTCCAGAAAATGCCACAAGATCCTCCTCTGACATACTACCA
+AAGAGGTGAGTGGTATTCTCCCTACTTCTACCCTGAACCCAGTGGGTGTCAGTAAATTGAGGACACCAGCAGACCCAGAC
+CCAGGGTCCTCCCAGTGGGAGCAGGATCACCCTATAGCCAGTGGTAGGGATAGCACCAGCATCACAAGACAACCTCCTTG
+GACAGAGATCAGGGTCTTCACGGGGAACATCCCCAAAAGGCCACTAGGGAATGAGCAGGGCTGTGACGGATCTGGCCCAA
+GTGAGCAGGCGCAGGTGAGGAGGAAGCTGGCAGATGCCTCGTGGCGGCATTTATGTGTGAACCCCCACTGCACCTGGAGA
+CTCCTAGAGAACGTCCACAAGATGTGGGGGGAGTCAGGAGGTTCTGCAACAGCTGGCCACAGTGAGAGCCAGGAAATAAC
+AGTACTGCTGAGGGCTCACAGTATCCTTTTTGAGGGAGTGGAGGGATGGAGAGGCTCATAGTATATTATTTGTAATCCCA
+GGCCAGCAGGCTGTGGAGTGGTCTGAGGAAACTGAGGTCAGAACATCTTAGGTTTTTTACAAATACAAATAAACTGGAAT
+ACTAAAGCCTAACCAGTGGTAATTAAAGTATTTTTAAAATCAGTCAGCCTTAGCTTCTCCCCACCCGCTACCCCTCTAAA
+ACTCTGTGCATGATTTCAGCTTTACTTTTTCTCAAGACATGCTAATGTGCTGAGTCACTAAAAAAAAAAAGTAAAGAAAG
+AGTGATCCAGCTTCTGAGGACTAGCTTTAGTAATGATCTAAGCTTCTACGCGGCACTTTTTGCCCTGGTTTGATTCCTGT
+GATGCTAAAGGACGTCACATTGAGCAATCTTAATAAGGTTTCCAATCAGCCCCACCCGCTCTGGCCCCACCCCCACCCTC
+CAACAAAGATTTATCAAATGTGGGATTTTCCCATGAGTCTCAATATTAGAGTCTCAACCCCCAATAAATATGAGACCGGG
+GATGTCTGAGACTCAGTCTGCCCTCGGGCCCACCAGGAACGAAAGAGAGCTC
+>ref|X04152.1| B.taursu cytokeratin 19 gene 5'-flank and exon 1 (and joined CDS)
+CCATGGTCAGTATGAGCCCCTTCCTGGCAATCCATCTATTCATCCGGGTACTAGGACAGGACAAACAGACTCAAGAGGAT
+TCGGCCTTTGACACCCTGCTTGGAGATGCTCACAAGGACAGAGGGATTCTATCCTGTCTCTGGGCAGCAGGTGCTAAAAG
+TCTCCTGAGTGAGTTGCTTGACTAGCTTAGGCTCAGAATGTATGCCTTTGGAGTTGGAGGTAGAGGGTTGTCCTGGTAGA
+GGGGTGAGTAGGAGGAGGAGGCGCGAACAGGGGTCAGCCCTCAGGTTGGGGGTCCAGGGTAATTGTGCTTTAACGAATCC
+AGTTGCAGATACCCTCCCAACAGCTGAAGGCCCGGGAGCCTCTTGTCACCCTGGGGCCCTGTCCAGCCATAATAGGGTGG
+GGTGGCTTTGTCTCAGGAGGCCTGGGAGGTTGCAGCTCAGAGTACCTCCATCTGGGGTACTTGAGGGGGGGCCAAGGCAT
+GGGCGAGCCCAAGGGTCAGCTTCAGAGAGGTGGTAATTCCCAGGGGGATGTAGGAATCAGGAGAATGTACTTTTGGGGGG
+GGTTAATTTTGCTTATAAGTAAGGGGGTCGGAGTATGATGGGGAAGGGGACTCTGAGTGAGTGATCTGTACTCTCAGAAG
+GACTGTAATTCCTGGGGGGTGTCAAACTCAGGGTGATCTTAATGGGGGGCAGCATGTGAACTGCGGGGGTGTCTAAGTGT
+GAGTGTGCTAGCGGGACTGGGGCTCGGAATGGGCTAAGGCAGCTGTCGGGAGGGCAGGAGCCTCTGGCCCCTGGGAGGGG
+AGAGGAGGAAGCTGAGCCGCCAAGAACTGACCAATGGGGAGAGCGCCCTTATTTGCAATCAGGAGCCTGCAAATTCCAGG
+GCGCTCAGATAGTCCGTCCTGACACCGTCCCCCCTCCCCCTCCCCCGCCCGCCCAGGGCATAAAAGGCGCCAGGTGAGGG
+CCTCTCGCCACTCCTCCTGCGGACGGACCGCAGCCACTCCGACCGGTGCCGCCTCGTCCTGCTTCGCCATGACTTCCTAC
+AGCTATCGCCAGTCGTCGTCCACCTCGTCCTTCGGGGGTATGGGCGGCGGCTCCATGCGCTTCGGGGCTGGAGGCGCCTT
+CCGCGCGCCCAGCATCCATGGGGGCTCAGGTGGCCGCGGCGTGTCGGTGTCCTCCGCCCGCTTCGTGTCCTCGTCCTCCG
+GGGGCTACGGCGGCGGCTATGGGGGCGCCCTGGCCACCTCCGACGGGCTGCTGGCGGGCAACGAGAAGCTCACCATGCAG
+AACCTCAACGACCGCCTGGCCTCCTACCTGGAGAAGGTGCGCGCCCTGGAGGAGGCCAACGGCGACTTGGAGGTGAAGAT
+CCGCGACTGGTACCAGAAGCAGGGGCCCGGGCCCGCCCGCGACTACAGCCACTACTTCAAGACCATAGAGGACCTGCGGG
+ACCAGGTGGGCGGTGGTCCGGCTTGGGGAAGTGCACCTGCCGCGGAAACCCAGCCCCGCGGGCGGGCGAGGCCGGGCGGG
+GGCGGCGGGTGCCCGAGCCACCTTCCGGCGGGGCGGGAGCGAGCCCGTTAGGATGTGGGAGGCCCACAGGGTGGGGCTGA
+ACGAAGCCGGCAGGTGAGGAGGGGCAGGGCGGTGGGCCTAGGAAGTGAGGCTTGGAGGGCGGGG
+>ref|X04198.1| B.taurus cytokeratin 19 gene exons 2-6 and 3'-flank
+TTCTCCTGTTCCAGCTCTCAGGCCTGGACTGATTTTAAGGCTGCCCAGAGAGAGCAGGCAGCCTGGGGTTGCTGGAGCTT
+TGGTCTCCAGGGGCCCGGGGACACACACACTCCTTTGCTTCTCTGGGAAGAAAGTGGGTGGGCATTGCCCATATGCTGAG
+CTGGTGCCAACCTCTTGCATTCTGCCTCCCAGATTCTCGGTGCCACCATTGAGAACTCCAAGATAGTCCTGCAGATCGAC
+AATGCCCGTCTGGCTGCAGATGACTTCCGCACCAAGTGAGTGTCTCTACTTTGGGGGCTGCAGAAGCCAGAGCAGGGGAG
+GGGAGGCAGTCCCTTCGGGGGCTCAGAGCCATGGAGGGAAATGGATGCCTCCCTCACCAACCCTAGCTGGTCTAAAGCAC
+TCTCCATCCCCCATGGGACCTTGAGCCCTGGGGAGGTGGGGAGATCTTCAGAGGTGCAGAGGAAATGCTGGCATGACTAT
+GACTATTTTCTCTGAAAGGTTTGAGACGGAGCAAGCTTTGCGCATGAGTGTGGAGGCTGACATCAATGGCCTGCGCCGGG
+TGCTGGATGAGCTGACCCTGGCCAGGACTGACCTGGAGATGCAGATTGAAGGCCTGAAGGAGGAGCTGGCCTACCTGAAG
+AAGAACCACGAGGAGGTGGGTTTCATGCTGGGCATCCCATCCACCCTAGCCCAGTTCCCCAGATAAGGACATTTTTAGCC
+TGTACCCTCTGACTGCGGCCACATTTGTGGCCCTCTTGACCTGACCCTGAGTGTGGATTGTGGCTCTCAAGAGTTCTAAC
+AGCAGATGGTGGTGACTCCGTCTGTCCCCCGGTGCTGGGTCCTAGGTCTGCACCTGAAAACCGGCCTCTCCCGCCATGGC
+CTGGGGTACTGAGGAGTGACCTGGCTCAGGGCCAGCAGGCTCTGGGCCCTGACATGCCCATCTCTGCTGTATCTTTCCAG
+GAAATGAGTGTGCTGAAGGGCCAGGTGGGTGGCCAGGTCAGTGTGGAGGTGGATTCTGCTCCGGGCATCGACCTAGCCAA
+GATCCTGAGTGACATGAGAAGCCAATATGAGGTCATTGCTGAGAAGAACCGGAAGGATGCTGAGGCCTGGTTCATCAGCC
+AGGTATGGAGGGGGAGGCAGGTGCTCCCTGGAGGGGTGGCAAGGAGAGGAGGCTTAATGCTCCCGGGCAAGGGTCTGATT
+CAGTGCTATTCCCTTTGCCTCCTTTCATTGCAGACCGAGGAGCTGAACAGGGAGGTCGCTGGCCACACGGAGCAGCTGCA
+GATCAGCAAGACGGAGGTCACCGACCTGCGGCGCACCCTCCAGGGTCTGGAGATCGAGCTGCAGTCTCAGCTCAGCATGG
+TAGGTGCCCTCTGCCCTGTGGGATTCACACTTATGTCCTTGTAGCCTTGGGCAGCCTGGGCGGTGGCTCTGCCTGGACCC
+TTTCTGGGCACCAGGCTCTGCTGAGCCTTCTTCCCTCTCTCTGCGTTCAGAAAGCCGCCCTGGAAGGCACACTGGCGGAA
+ACGGAGGCTCGCTTCGGAGCCCAGCTGGCGCAGATCCAGGCGCTGATCAGTGGTATCGAAGCCCAGCTGAGTGACGTGCG
+AGCTGACACCGAGCGGCAGAACCAGGAGTACCAACACCTCATGGACATCAAGACCCGGCTGGAGCAGGAGATTGCCACCT
+ACCGAAACCTGCTGGAGGGCCAGGATGCCTACTTCAACGACCTGTCACTCGCGAAGGCCCTCTGAGTCTGGCGGCCTCCT
+GGCTTTCCCGCTCTGCTGCAGAAGGAATTCTCCTGGGTAGAGGCATGGGAGGGGAGGGACCCTTACCCTTGCCTCTCCCC
+CTGACCTGCCAATAAAACTTTATGGCCCAAAGGAAGATGGATGTTGGGTTTTTTATTTCAGTCCATGGAGGTGGGCCCGG
+CTTTGGCACTGTTTAGATTTTATTGTCTTGGTTTCATTTGAACCAGAATCCACCGTGTCCCAGGAAAGGGAAGGGAGGGC
+TATCACAAAGTGTAGCTATTACCATAATTTCACTTTCCAGAGGTCTTCACTTATCTCACCGTACCCTAAAACAAGCTT
+>ref|X05048.1| Bovine gene (5' region) for epidermal cytokeratin IV
+TCACAGATCAGCTCCTTGTCTCCTTTGTTTGAGAGCATGACTAACCCATGACTTCAGTGAATTTACATCCAGTGGTATTG
+TGTTGGGATCAAGTCAAGGCTAGAAGCCAGAAGAATTTCTCCATGACTAAAGGAAACCAAAGAAGCAATATTCATACTTC
+ATACCTTTCTAGAGGCAGGGGGTGATCTCACTATTTGTAAAGCCCAGCCCTTTCTAATCTGCAGGCTCACCTTCCAGGAC
+TGAGCCCGGCCCATTTTTTCCATATATAAGCTGCTGCCGGGCCGCCCTCTATAGATCTGTTCTTTAGCTCTGCTTTCCAC
+CTCTCACACCCTTCTCAACCTATTCTTCTTCAGGAACCATG
+>ref|X05131.1| Bovine gene (5' region) for epidermal cytokeratin Ib
+CACTTTCACCATTTCAGATTATTTTTAAGGTGTGTTTAGTAGCCCAAAACTAACATTGCCTGGAAGGCAAACCCAACCCA
+TGACTACTTGAGATTAATTATCTCTCCTTCGTTTGAGCCCAGCAGCCTCCTAGATGTATATAAAGGGATTTATCCTGCAC
+AGGTCTTCAGTTTGCTTCTCTCTTCCTCTGGCTCTGAGTGGCCCTGCTTAACTCTTGCACTTTCCCTTCACCGACTTCAC
+TCACCATG
+>ref|X05127.1| Bovine gene (5' region) for epidermal cytokeratin
+CAATTTGGAAATTTGGAGTGATTACCAAGGTGTGTTTTGAGTTTCGGACTTGACCTCTTTCTGCCAGGCAAACCAAAAGC
+TGATAATACCTCAATTAGTTGGTTGGCACCGCCAGCCAGCCAAGCTCCCAGCCCTATATAAGCGCCACCTCTGGCCCAGA
+GCTTCAGAAGGTCTCCGCGTTTCCGCCAACCTCCCGGTCCGCTCTCCTTTTGAATAACTTGCCGTCCACCATG
+>ref|X01460.1| Bovine mRNA 3' region for epidermal keratin VIb
+GGTGATGTGAATGTGGAAATGAATGCTGCCCCAGGTGTTGATCTCACTGAACTTCTGAATAACATGAGAAGCCAATATGA
+ACAACTTGCCGAGAAAAATCGCAGAGACGCCGAAGCCTGGTTCAATGAAAAGAGCAAGGAACTCACTACGGAAATCAACA
+GTAACCTTGAACAAGTATCGAGCCATAAATCTGAGATTACTGAGTTGAGACGCACTATTCAAGGCCTGGAGATTGAGCTA
+CAGTCCCAACTAGCCCTAAAACAATCCCTGGAAGCCTCCTTGGCAGAGACAGAAGGTCGCTATTGTGTGCAGCTCTCTCA
+GATTCAGTCCCAGATCTCCTCTCTGGAAGAACAACTGCAACAGATTCGAGCTGAGACTGAGTGCCAGAATGCCGAGTACC
+AACAACTCCTGGATATTAAGATACGACTGGAGAATGAAATTCAAACCTACCGCAGCCTGCTAGAAGGAGAGGGAAGTTCC
+GGCGGCGGCTCCTACGGCGGCGGGCGCGGCTATGGCGGAAGTTCCGGCGGCGGCGGCGGCGGCTACGGCGGCGGAAGTCC
+AGCGGCGGCTACGGCGGCGGAAGTCCAGCGGTGGCGGCCACGGCGGTAGTTCCGGCGGCAGTACGGCGGCGGAAGTCCAG
+TGGCGGTGGCCAGGCGGCGGAAGTCCAGCGGAGGCCACAAATCCACCACTACAGGGTCCGTTGGAGAGTCCTCATCTAAG
+GGACCAAGATACTAACAAAACCAGAGTGATCAAGACAATTATTGAGGAGTTGGCACCTGATGGTAGAGTCCTTTCATCTA
+TGGTTGAATCGGAAACCAAGAAACACTACTATTAAGCCGCATTAAGAGGAAAGAGTCTCCCCTCACACAGGCCATTATGC
+ATAGATGCATGAAAAAAAATCTCCAAGAAAACACTTCAGTCTTAATGGCCTATGGAAATAGGTCCACTCCTTGATCATAA
+GGTGTCTAAACGGTGTTTTGTGGTTTCTGTATTTCTCCTTTTCACTTTACCAAAAAGTATTCTTTACTTTTTGGAAAAAA
+AGAAAAAACTTTCTATTCTCATTTACTAATGAATTTCAATAAACTTTCTTACTGATGCACT
+>ref|X01461.1| Bovine mRNA 3'-region for epidermal keratin VII
+AGCGTGGAAGAGCAGCTCGCCCAGCTGCGCTGCGAGATGGAGCAGCAGAACCAGGAGTACAAGATCCTGCTGGACGTGAA
+GACCCGGCTGGAGCAGGAGATCGCCACCTACCGCCGCCTGCTGGAGGGCGAGGACGCCCACCTCTCCTCTTCCCAGTTCT
+CCTCTGGCTCTCAGTCATCCAGAGATGTATCCTCCAGTCGCCAGGTTCGCACCAAAGTCGTGGATGTACACGATGGCAAG
+GTGGTGTTCACACACGAGCAGATCGTTCGCACCAAGAACTAAGGCTTCTCCTGCTCATGCCTAGAAAGCACCCCCCAAGT
+GGACACAGATTTCCCTAGGGCATCCCTTCTCCTGTCCCCGCCTCCCCCAAGCACTTGACTCGTGAGCCCTGTTTCACCCT
+TGCCCCTTCCAGCAATCAATAAAGCTTCATTAGCTGAGTTGCCCA
+>ref|V00426.1| Bovine mRNA for low molecular weight kininogen I precursor
+AGAGGAGACAGAGGCTGAAGCTAGTTAACATCAGTGTCTTGGCTCCCAACTGGCTCCCAATTCCTGGTGAAACTCCTAAA
+GGGAGACTGTTAAATCATGAAATTAATCACCATCCTTTTCCTTTGTTCCAGGCTGCTACCAAGTTTAACCCAAGAGTCCT
+CTCAAGAAATCGACTGCAATGACCAGGATGTATTTAAAGCTGTGGACGCTGCTCTGACAAAATACAACAGTGAAAACAAG
+AGTGGCAACCAGTTTGTATTGTACCGCATAACCGAGGTCGCCAGAATGGATAATCCTGACACATTTTATTCCTTGAAGTA
+CCAAATCAAGGAGGGCGACTGTCCTTTTCAAAGTAACAAAACTTGGCAGGACTGTGACTACAAGGACTCTGCACAAGCTG
+CCACAGGAGAGTGCACAGCGACCGTGGCCAAGAGAGGGAATATGAAGTTCTCCGTGGCTATCCAGACCTGCCTGATCACT
+CCAGCCGAGGGCCCCGTGGTGACAGCCCAGTATGAGTGCCTTGGCTGTGTGCATCCCATATCTACCAAGAGCCCCGACTT
+GGAGCCTGTTCTGAGATATGCCATCCAATATTTTAACAACAACACCAGTCATTCCCACCTCTTTGATCTGAAAGAAGTAA
+AAAGAGCCCAAAGACAGGTGGTGTCTGGATGGAACTATGAAGTTAATTACTCAATTGCACAAACTAATTGTTCCAAGGAG
+GAATTTTCATTCTTAACTCCAGACTGCAAGTCCCTTTCAAGTGGTGATACTGGTGAATGTACAGATAAAGCACATGTAGA
+TGTCAAGCTAAGAATTTCTTCCTTCTCGCAGAAATGTGACCTTTATCCAGTGAAGGATTTTGTACAACCACCCACCAGGC
+TTTGTGCCGGCTGCCCCAAACCTATACCTGTTGACAGCCCAGACCTGGAGGAGCCTCTGAGCCATTCCATCGCAAAGCTT
+AATGCAGAGCATGATGGAACCTTCTATTTCAAGATTGACACTGTGAAAAAAGCAACAGTACAGGTGGTAGCTGGATTGAA
+GTATTCTATTGTGTTCATAGCAAGGGAAACCACATGTTCTAAGGGAAGTAATGAAGAGCTGACCAAGAGTTGTGAGATCA
+ATATACATGGTCAAATTCTACACTGTGATGCTAATGTCTATGTGGTGCCTTGGGAGGAAAAAGTTTACCCTACTGTCAAC
+TGTCAACCACTTGGACAGACCTCACTCATGAAAAGGCCTCCGGGTTTTTCACCTTTCCGATCAGTTCAAGTGATGAAAAC
+TGAAGGAAGCACAACTACGCACGTAAAGTCCTGCGAGTACAAGGGCCGACCTCAAGAGGCAGGGGCAGAGCCAGCACCTC
+AGGGTGAGGTCAGTTTACCGGCAGAATCTCCACAGTTGGCACGATAGACCCAATAACCTCTGTCAGCAGCCCTGCGTGGA
+AGGACGAGAAGATGGGGTAGAATTTAAATAGAGAAGAATGCTGTTTTATCCCTCTGTGACTGACTGAAATAAAGTTCTGT
+CTTTATGTTC
+>ref|X06366.1| Bovine gene for alpha-lactalbumin
+AAGCTTATATATTTATGAACACATTTATTGCAAGTTGTTAGTTTTAGATTTACAATGTGGTATCTGGCTATTTAGTGGTA
+TTGGTGGTTGGGGATGGGGAGGCTGATAGCATCTCAGAGGGCAGCTAGATACTGTCATACACACTTTTCAAGTTCTCCAT
+TTTTGTGAAATAGAAAGTCTCTGGATCTAAGTTATATGTGATTCTCAGTCTCTGTGGTCATATTCTATTTCTACTCCTGA
+CCACTCAACAAGGAACCAAGATATCAAGGGACACTTGTTTTGTTTCATGCCTGGGTTGAGTGGGCCATGACATATGATGA
+TGTACAGTCCTTTTCCATATTCTGTATGTCTCTAAGAGGAAGGAGGAGTTGGCCGTGGACCCTTTGTGCATTTTCTGATT
+GCTTCACTTGTATTACCCCTGAGGCCCCCTTTGTTCCTGAAATAGGTTGGGCACATCTTGCTTCCTAGAACCAACACTAC
+CAGAAACAACATAAATAAAGCCAAATGGGAAACAGGATCATGTTTGTAACACTCTTTGGGCAGGTAACAATACCTAGTAT
+GGACTAGAGATTCTGGGGAGGAAAGGAAAAGTGGGGTGAAATTACTGAAGGAAGCTCAATGTTTCTTTGTTGGTTTTACT
+GGCCTCTCTTGTCATCCTCTTCCTGGATGTAAGGCTTGATGCCAGGGCCCCTAAGGCTTTTTCCACAAATAAAAGGAGGT
+GAGCAGTGTGGTGACCCCATTTCAGAATCTTGGGGGGTCACCAAAATGATGTCCTTTGTCTCTCTGCTCCTAGTAGGCAT
+CCTATTCCATGCCACCCAGGCTGAACAGTTAACAAAATGTGAGGTGTTCCGGGAGCTGAAAGACTTGAAGGGCTACGGAG
+GTGTCAGTTTGCCTGAATGTGAGTTCCCTGCTATTTTGCTTTGTCCCATAATTCATCCTCTTCACTCTTTCCCTCCATTC
+TCTTCATCCTCTTTTCCCCCTCTACTTTTAATTATCAAACAATTCTCTTATTTGTTTACTCTTTTATTACATTTATTTAT
+CTGCCTCTCCTTTTTCCCATTGTCTGATCCTTTGGAACTCTTTTCACCTTAACAAGATACTCTGTGGTCTGCCATATTTG
+GAGATTGGTTGGAGAGCCTTTTTCGGTCTGGGAATACAGGTCCTCATTTATGCTATACATGAACATCCTTGTGAAATCTC
+TTTTTCGTCTTTCTTTCAGGGGTCTGTACCGCGTTTCATACCAGTGGTTATGACACACAAGCCATAGTACAAAACAATGA
+CAGCACAGAATATGGACTCTTCCAGATAAATAATAAAATTTGGTGCAAAGACGACCAGAACCCTCACTCAAGCAACATCT
+GTAACATCTCCTGTGACAGTGAGTAACTTCTTTTTACTCTGTTCCTGTGTTTTTCTGAAACCTACTCCTGGGATAACCTC
+CTTTTTTTTGGTGTGAAGCACACCTCTGGCTTCACTGCCTTGGACTCCAAATTAACTGTGGGACTTGATAATACCGAGTA
+AGAGGCTCTTAGAATTTTTCATTAACACTAAATCCCCAGACAGTTTCTTAAAGTTCCTGGGTAGGTGACCTGAGCTGTTT
+GGGGATCTTGATGTATAATACCCTGTATTTTCAGACTAAGTTGGTTGATGAAGTTGATAATTCCTAAGGAGCTGCCCCAG
+AGAAGAGAAGGGAGTCCTTACCTAGGGATAGGCATTACTGTATTAAATTTCTCACCCAGAAGGCAACAGGCATAAGCCTC
+TAGTTCAGAGAAAACCAGAGAAGAGGGAAATTCATTATCCTTCTGGGTAATACTTAGCTCTCTCATTTTTTCCACCAGAG
+GCTCCTGCCAGAGTTCCTGGATGATGATCTTACTGATGACATTATGTGTGTCAAGAAGATTCTGGATAAAGTAGGAATTA
+ACTACTGGTGAGTCACCTCTCTATTTTTCACTTAATCTTTCCTCTCTTTCTTCTCAGTCCTTTCGTCCCAGCACTATACT
+CCTTTCTCTCTATTTCTTGGTCTTTTAAGCTAGAATGTAATCTTAAAAACAAAAATCATCAAGCAGACTCCGGTTTCCAA
+TTTTGAAGCTTCACTTACTTCACTCCCGTTAGCAATTTTCCTACCTAAGGGTCCCTAATAGAGGGCTGAGATCCAGGATT
+TCCTTCACCAGGACTTGAACATCTAATTCTACTTGTTCAGTCCTACATCCTAAGGCACGCCCTTTGACCACTGCCCCGCA
+ATTTTCTTGGAGTTTTAAAAAATGGACCTTACTCCACTAAGTGGCTCAGTGTCTCTAGCCATGTGGCTAGGAAAGTCTGT
+CTGTAATTTTAACCCACAGTCTTCCACCTCAGCCTTCCTGGGGATAAAGCTAGATGTAAATCTAACCAAGATCCTGTCAG
+TAATTTGCCTTGTCTCCTTCTTCATGATCAGGTTGGCCCATAAAGCACTCTGTTCTGAGAAGCTGGATCAGTGGCTCTGT
+GAGAAGTTGTGAACACCTGCTGTCTTTGCTGCTTCTGTCCTCTTTCTGTTCCTGGAACTCCTCTGCCCCGTGGCTACCTC
+GTTTTGCTTCTTTGTACCCCCTTGAAGCTAACTCGTCTCTGAGCCCTGGGCCCTGTAGTGACAATGGACATGTAAGGACT
+AATCTCCAGGTGTGCATGAATGGCGCTCTGGACTTTTGACCCTTGCTCGATGTCCCTGATGGCGCTTTTAATGCAACAGT
+ACATATTCCACTTTTGTCCCGAATAAAAAGCCTGATTTTGAGTGGCTGGCTGTATTTTCTTCCTGGTGGGAGAGGGAGGA
+AATAGGGTGAGTAGGTAGACCTGGCCATGGGTCACAGACCCCTTCATCTCTACTAAAGAGGATAGAGAGGCTGAACTTAT
+AACAACTCAAAGATGGAGATTACTTTCTGTATTAATTCAATTCAACAGAGTTTTATTGATCACCTAGCATAATTTAAAGA
+GCTATGGAGGGGATCTAAAGTTGACTAAAAGCATCTCTTACCTAAACTGCTGCTAAGTCACTTCAGTTGTGTCCGACTCT
+GTGTGACCCCATAGACGGTAGCCCACAAGGCTCCCATGTCCCTGGAATTC
+>ref|X57084.1| Bovine mRNA for lactotransferrin
+CTTCGTTCCGGAGTCGCCCCAGGACGCCAGCCATGAAGCTCTTCGTCCCCGCCCTGCTGTCCCTTGGAGCCCTTGGACTG
+TGTCTGGCTGCCCCGAGGAAAAACGTTCGATGGTGTACCATCTCCCAACCCGAGTGGTTCAAATGCCGCCGATGGCAGTG
+GAGGATGAAGAAGCTGGGTGCTCCCTCTATCACCTGTGTGAGGAGGGCCTTTGCCTTGGAATGTATCCGGGCCATCGCGG
+AGAAAAAGGCGGATGCTGTGACCCTGGATGGTGGCATGGTGTTTGAGGCGGGCCGGGACCCCTACAAACTGCGGCCAGTA
+GCAGCAGAGATCTATGGGACGAAAGAGTCTCCCCAAACCCACTATTATGCTGTGGCCGTCGTGAAGAAGGGCAGCAACTT
+TCAGCTGGACCAGCTGCAAGGCCGGAAGTCCTGCCATACGGGCCTTGGCAGGTCCGCTGGGTGGGTCATCCCTATGGGAA
+TCCTTCGCCCGTACTTGAGCTGGACAGAGTCACTCGAGCCCCCTCCAGGAGCTGTGGCTAAATTCTTCTCTGCCAGCTGT
+GTTCCCTGCATTGATAGACAAGCATACCCCAACCTGTGTCAACTGTGCAAGGGGGAGGGGGAGAACCAGTGTGCCTGCTC
+CTCCCGGGAACCATACTTCGGTTATTCTGGTGCCTTCAAGTGTCTGCAGGACGGGGCTGGAGACGTGGCTTTTGTTAAAG
+AGACGACAGTGTTTGAGAACTTGCCAGAGAAGGCTGACAGGGACCAGTATGAGCTTCTCTGCCTGAACAACAGTCGGGCG
+CCAGTGGATGCGTTCAAGGAGTGCCACCTGGCCCAGGTCCCTTCTCATGCTGTCGTGGCCCGAAGTGTGGATGGCAAGGA
+AGACTTGATCTGGAAGCTTCTCAGCAAGGCGCAGGAGAAATTTGGAAAAAACAAGTCTCGGAGCTTCCAGCTCTTTGGCT
+CTCCACCCGGCCAGAGGGACCTGCTGTTCAAAGACTCTGCTCTTGGGTTTTTGAGGATCCCCTCGAAGGTAGATTCGGCG
+CTGTACCTTGCGTCCCGCTACTTGACCACCTTGAAGAACCTCAGGGAAACTGCGGAGGAGGTGAAGGCGCGGTACACCAG
+GGTCGTGTGGTGTGCCGTGGGACCCGAGGAGCAGAAGAAGTGCCAGCAGTGGAGCCAGCAGAGCGGCCAGAACGTGACCT
+GTGCCACGGCGTCCACCACCGACGACTGCATCGTCCTGGTGCTGAAAGGGGAAGCAGATGCCCTGAACTTGGATGGAGGA
+TATATCTACACTGCGGGCAAGTGTGGCCTGGTGCCTGTCCTGGCAGAGAACCGGAAATCCTCCAAATACAGTAGCCTAGA
+TTGTGTGCTGAGACCAACAGAAGGGTACCTTGCCGTGGCAGTTGTCAAGAAAGCAAATGAGGGGCTCACATGGAATTCTC
+TGAAAGACAAGAAGTCGTGCCACACCGCCGTGGACAGGACTGCAGGCTGGAACATCCCCATGGGCCTGATCGTCAACCAG
+ACAGGCTCCTGCGCATTTGATGAATTCTTTAGTCAGAGCTGTGCCCCTGGGCGTGACCCGAAATCCAGACTCTGTGCCTT
+GTGTGCTGGCGATGACCAGGGCCTGGACAAGTGTGTGCCCAACTCTAAGGAGAAGTACTATGGCTATACCGGGGCTTTCA
+GGTGCCTGGCTGAGGACGTTGGGGACGTTGCCTTTGTGAAAAACGACACAGTCTGGGAGAACACGAATGGAGAGAGCACT
+GCAGACTGGGCTAAGAACTTGAATCGTGAGGACTTCAGGTTGCTCTGCCTCGATGGCACCAGGAAGCCTGTGACGGAGGC
+TCAGAGCTGCCACCTGGCGGTCGCCCCGAATCACGCTGTGGTGTCTCGGAGCGATAGGGCAGCACACGTGAAACAGGTGC
+TGCTCCACCAGCAGGCTCTGTTTGGGAAAAATGGAAAAAACTGCCCGGACAAGTTTTGTTTGTTCAAATCTGAAACCAAA
+AACCTTCTGTTCAATGACAACACTGAGTGTCTGGCCAAACTTGGAGGCAGACCAACGTATGAAGAATATTTGGGGACAGA
+GTATGTCACGGCCATTGCCAACCTGAAAAAATGCTCAACCTCCCCGCTTCTGGAAGCCTGCGCCTTCCTGACGAGGTAAA
+GCCTGCAAAGAAGCTAGCCTGCCTCCCTGGGCCTCAGCTCCTCCCTGCTCTCAGCCCCAATCTCCAGGCGCGAGGGACCT
+TCCTCTCCCTTCCTGAAGTCGGATTTTTGCCAAGCTCATCAGTATTTACAATTCCCTGCTGTCATTTTAGCAAGAAATAA
+AATTAGAAATGCTGTTGATTTTCATTCCCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+AAAAA
+>ref|NM_175782.1| Bos taurus galectin 1 (LGALS1), mRNA
X14330.1 Bovine mRNA for galactose-binding lectin
+AGCTGGTGCCGAAGTTTCAGGAACATCCTCCTCTCTCCAATCATGGCTTGTGGTCTGGTCGCCAGCAACCTGAATCTCAA
+ACCTGGGGAGTGCCTCAGAGTGCGGGGCGAGGTGGCCGCAGACGCCAAGAGCTTCTTGCTGAACCTGGGCAAAGACGACA
+ACAACCTGTGCCTCCACTTCAACCCTCGTTTCAACGCGCATGGGGACGTCAACACCATCGTGTGTAACAGCAAGGACGCT
+GGGGCCTGGGGGGCCGAGCAGAGGGAATCTGCCTTCCCCTTCCAGCCTGGAAGTGTCGTGGAGGTATGCATCTCCTTCAA
+CCAGACGGACCTAACCATCAAGCTGCCTGATGGATACGAATTCAAGTTCCCCAACCGCCTCAACCTGGAGGCCATCAACT
+ACCTGTCTGCAGGTGGTGACTTCAAGATCAAGTGTGTGGCCTTTGAGTGACATATGGGCCAGCCAGCCCATGGCCCCAAT
+AAAGGCAGCTGCCTGTGCTCCCCCTG
+>ref|X14712.1| Bovine mRNA for beta-lactoglobulin
+ACTCCACTCCCTGCAGAGCTCAGAAGCGTGATCCCGGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGGCCCTCACCTG
+TGGCGCCCAGGCCCTCATCGTCACCCAGACCATGAAGGGCCTGGATATCCAGAAGGTGGCGGGGACTTGGTACTCCTTGG
+CCATGGCGGCCAGCGACATCTCCCTGCTGGACGCCCAGAGTGCCCCCCTGAGAGTGTATGTGGAGGAGCTGAAGCCCACC
+CCTGAGGGCGACCTGGAGATCCTGCTGCAGAAATGGGAGAATGATGAGTGTGCTCAGAAGAAGATCATTGCAGAAAAAAC
+CAAGATCCCTGCGGTGTTCAAGATCGATGCCTTGAACGAGAACAAAGTCCTTGTGCTGGACACCGACTACAAAAAGTACC
+TGCTCGTCTGCATGGAGAACAGTGCTGAGCCCGAGCAAAGCCTGGTCTGCCAGTGCCTGGTCAGGACCCCGGAGGTGGAC
+GACGAGGCCCTGGAGAAATTCGACAAAGCCCTCAAGGCCCTGCCCATGCACATCCGGCTGTCCTTCAACCCAACCCAGCT
+GGAGGAGCAGTGCCACATCTAGGTGAGCCCCTGCCGGCGCCTCTGGGAGCCCGGGAGCCTTGGCCCCTCTGGGGACAGAC
+GATGTCATCCCCGCCTGCCCCATCAGGGGACCAGGAGGAACCGGGACCACATTCACCCCTCCTGGGACCCAGGCCCCTCC
+AGGCCCCTCCTGGGGCCTCCTGCTTGGGGCCGCTCCTCCTTCAGCAATAAAGGCATAAACCTGTGCTCTC
+>ref|X51933.1| Bovine mRNA for mammary derived growth inhibitor
+TTCTCTGTCGTCTTTCCCAACCTAGCCCAGCTTCACCATGGTGGACGCCTTCGTGGGTACCTGGAAGTTAGTGGACAGCA
+AGAATTTCGATGACTACATGAAGTCACTCGGTGTCGGTTTTGCTACCAGGCAGGTGGGCAATATGACCAAGCCTACCACA
+ATCATCGAAGTGAATGGGGACACAGTCATCATAAAAACACAAAGCACCTTCAAGAACACAGAGATCAGCTTCAAGCTGGG
+AGTCGAGTTCGATGAGACCACAGCAGATGACAGGAAAGTCAAGTCCATCGTGACGCTGGATGGCGGCAAACTTGTCCACG
+TGCAGAAGTGGAATGGACAAGAGACATCACTTGTGCGGGAAATGGTTGACGGGAAACTCATTCTGACACTCACCCATGGC
+ACTGCAGTTTGCACTCGTACTTACGAGAAACAGGCATGACCTGCCCTCTCCTTCCACTGACTGCTCTTCTGCCAGTGGGC
+TACTCCTGGACTCGGCACCAGATTGCCTCATTTTTCTCCTCTGGCATTTTGTATAAATCCACCTTGACTGGGGAAATTCT
+CCTGGGGTCAGGTGGCACCAGCCTGGATCCAGTTCCGTTCTCATTGTGTCTGTTTGTTTTTTTAACTGCATCCAAAGGGT
+GCTCTGAGGTCAATAAAGCAGAGCCAAGGCC
+>ref|X07363.1| Bovine mRNA for matrix Gla protein (MGP)
+ACACCATGAAGAGCCTGCTCCTTCTCTCCATCCTGGCTGCCTTGGCCGTGGCAGCTCTGTGTTATGAATCTCACGAAAGC
+CTGGAATCCTATGAAATCAATCCCTTCATTAACAGGAGAAACGCTAACAGCTTTATATCACCACAACAGAGATGGAGAGC
+AAAAGCCCAAGAGAGAATCCGAGAACTCAACAAGCCTCAATACGAGCTCAACCGGGAAGCTTGTGATGACTTCAAACTTT
+GCGAACGCTATGCCATGGTGTATGGATACAATGCTGCCTACGACCGTTATTTCCGGCAGCGCCGAGGGGCCAAATGAGAC
+TGGACAAAAGTCTCTTTCCAGAGCCTGGTGCCTGGTTTTGTATTCCCTTGCAGTAGCATTACTGAACTATATAGAAACAT
+ATGAATCGCTTAATTGTTCCTTAAACGTTCTTGTCTGGCTGCATCCCTCTTTCCTGCCCACAGGTTGAAAAGTAATGAAT
+ATGAAACGAAGTGAAGGTC
+>ref|X67825.1| B.taurus microsatellite DNA (295 bp)
+TAGAATTCTTTTGACAGAGAATTCTTGTGTGTGTGTGTGTGTGTGTGTATACATTTGGTCTCTCAGTCGAGACCAACTCT
+TTGCGACCTCATAGACTGTAGCCCGCCATTCTCCTCTGCCCATGGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCC
+ATGCCCTCCTCCAGGGGAATCTTCCCAACTCAGGGATTAAACATAGGTCTCTGGCATTGAAGGTGGATTCTTTACCATCT
+GAGTCACCAGGGAAGCCCATGAATACTGGAGTGGGTAGGCTATCCTTTTGCAAGG
+>ref|X67824.1| B.taurus microsatellite DNA (247 bp)
+TGTCGACTTGTCTCTTTCCACTTGGAGAAGGTTTCCTGTATGAACCCAGGAGAAACAGGAAGCTGGTGATTATCAGGATA
+GTATCTGTCTCCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCAGTCACGTCCAGCTCTTTGCAACCCTATGGACC
+GTAGCCCACCAGGCTCCTCTGTCCATGAATTTCCAGGCAAGCAATACTGGAGCTGGTTGCCATTTCCTACTCCATCTCTC
+TCCCTTT
+>ref|X67823.1| B.taurus microsatellite DNA (549 bp)
+GATCTGTAGAGCATCTCCATGAAGAATTCAGCAGAAGAGTGACCATTCACAGCATCAACATTGGCAACTCACGAGACAGT
+TTTTCTTCCCTGGAAAACTGTATTCTCTAATAGCTACTACTAGAAGATTTAGAAAACTTGCCTTTTCCATCACACATACA
+CACACACGCACATGACGCACGTGACACACACACACACACATACACACACACACACACACACACACACACTCTTTCCTAGT
+ATACTATAATTTACAAAGGAATGGAGATATGTCTTGCTATTTTTTGAGCAGCCAATGGTTCCTACTGTTTGTACAGAGTA
+TATGCCAAATAAATGCATTCCTGGAGTTGAATAGTAACATTCTATTAATATACCACTTGGTTTATATATATTCCCAGTCT
+CTGGTGTTTAGTATTTAATTTACTGTATGCAGTGACTTCCTTCTTGCACAGAAAGGTGTCATTATTAGTTATTTGTTTCT
+TTCTGAGATGATACTAATGATACAAACTAATACAGCATATCAAATATTGTATCAAAAGCAAATCTGATC
+>ref|X67822.1| B.taurus microsatellite DNA (271 bp)
+AAAACCAGGTGATTAATGCAAATCTGCTACATCACCTATACAGAAAAGAGTCACATTTGTAGGGGTGTGTGTGTGTGTGT
+GTGTGTGTGTACACGCATGTGTGCATGCTGAAATAGCTGACTAACTGAAATGCCAGAGACGAACTAAAATCCAGGAGATC
+TGGATGTGAGAGTTGGGCCATAAAGAAAGCTGAGCACAGAATTGATGCTTTTGAACTGTGGTGTTAGAGAAGACTCCTGA
+GAGTCCCTCAGACTGCAAGGAGATCCTCTAG
+>ref|X68049.1| B.taurus microsatellite DNA
+GATCCTTTGCAGCCTCCACATTGTCTTCTCAGGCTGATTTCTGATGCATAATGAATGTGTGTGTGTGTGTGTGTGTGTGT
+GTGTGTGAGTTCCCGGATAGTGTCATAAAGCACAAGCGCAACTCTGTTCTAGTCTTGGAGATGTCAACTT
+>ref|X67826.1| B.taurus microsatellite DNA (292 bp)
+CTCTGCACAGATGCCTATAAGTGTTTCAATCAGGGTTCAGTCAGAAAAGAAGATTCTGAGTTAAGCATTCCAAAATATTT
+GAGAGACAATTTTAAATTTGTTTTATATATATGTATGAACATACAAATATTTATTTGTGATTACATATATAATATATAAT
+TCATATAATTATAAATGTGTATTTGTATGTATGTATATAGGCATGTATGTGTGTGTGTGTGTGTGTGTGTGTAGAGAGTC
+AGCCGCCTGCCCCTTCTCCCATCAGTGAACCACCCACAATTATCAGTGGATC
+>ref|X67828.1| B.taurus microsatellite DNA (408 bp)
+TGTCCACGGGGCGGAGGGTGAGCCCTCCTCTAGGTTGCAGACTTCTTTCTCATGTGTCCTCATGTGATAGAGGGAAGAGC
+TCGAGAGACAGGTCTCTTTAATAAGGGCTCCAATCACCTCCCAAATATCCCACCTCCTAATGCCGTCAACCTTGGGCACT
+AGGTTTTCAACATAGGGATTTGGGGGTAGGGACAGAAACACGCAGACCTTAGCATAGGAGAACTACAAAGGTGATTCACC
+TCCAGGATGACTTTCCACTCTTTCAACACTCGTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATTAGTTGCTC
+CGTTGTGTCCAACTCATTGCGACCCTGTGGACTGTACTGCCAGGCTCCTCCTATTCATAGAATTCTCCAGGCAAGAATAC
+TGGAGTGG
+>ref|X60511.1| B.taurus KTN minisatellite DNA
+CTGCAGTTATTCGTCTTTAGCCTCATCTCTTCGGCACCATGTTTTTGCAGCTTGAGAGGCTTCTTCTTTGAATTTTGGTC
+CCATGTGTTTCAAGCATTTGCTCAACCGCTGCGTGACGCCTGGTCTGCCCTGCGGTCTGTCCTGAGTGTCCCTGGTCTGC
+CCTACAGTCTCTCCTGAGTGTCCCTGGTCTGCCCTTGGGTCTGTCCTGAGTGTCCCTGGTCTGCCCTGGGGTCTGTCCTG
+AGTGTCCCTGGTCTGCCCTGGGGTCTGTGCTGGGTGTTCCTGGTCTGTCCTGGGTCTGTGCTGGGTGTC
+>ref|X67827.1| B.taurus microsatellite DNA (313 bp)
+CCTGGCTCTTCGGGTTTAGTTTCACAACAAGAAAAATGGATTTGCAGAGTATTTCGTAAAAACCGATGAAAATTGTGGTA
+ATAACATACATTAAATACTAAAAAGAAAAGTGGCTCAGAGAAAAAGACTTTATTTCTAATAGTATCATTAAGGTGATTCA
+TTATATAGTAAATGAGATGCAGTTTCACACCCTGTCAACTTAGGTTTAAGATATGGCGTGTGTGTGTGTGTGTGTGTGTG
+AGAGAGAGAGAGAGAGAGAGAGAGACTTTACTACAAGAAAATGGGGTAATTTTAAACCATAAAAAAGTCTTGG
+>ref|X67830.1| B.taurus microsatellite DNA (362 bp)
+TTACAAATCTAACTGATATAGTGTACCTCCTCTAATCCCTAAACTTGGCAAATGACTAGTAAACACCAACATACAATGGG
+TGCAGAGTAGAGCTACAAGATAAACTTCCAGAAAGAAAATGCCAATGAGACCAGAAAGACTTGATGGTAAATGAATTTAC
+ACACACACACACACACACACACACACACACACACACACACATACAGGAAGTACCAGTCAGAAGGGAAATTAGAAACTGAA
+GCAGAAGGAAGGGGAATTAGCCAGGTAAAAGCAACAGAGTTCATCTAACACCCTGTAGTTATTGGGAGGAACAAATTCGT
+CGTCAGGTGAAGCCCAATTATTGAGACGAGTATGGCAGGATC
+>ref|X65202.1| B.taurus microsatellite DNA (499bp)
+GCACCGTAAGGGGAACTCATGACAGTGAGATTTGTTTCTTTNTTTTGTTTGCTTTTTGTTACCAGAAGCATAACTAAGGG
+AATGTCTTGCAAGATCTTCTCTGTTCTGTGGTCCAGGGCATGAGCTCATCTTCAGGGTCTAGGTGATCCTGCCAGAAGCC
+CAACAGTAACCAGTATAGTGCCTAGGNTTCCCAGGTGGTGCTAGTGGTAAAGAGCCACCTGCCAATGCAGGAGACTTAAG
+AGACNCAGGTTTGATCCCTGGGTTGAGAAGATCCCTGGAGAAGGAAACGGCAACCCATTCCAGTATTCTTGCCTGGAGAA
+TCCCATGGACAGCGGGGCCTGGCAGGCTACAGTCCATGGGATTGAAAGAGTTGGACACGACAGAAGCAACTTAGCGCACA
+CACACACACACACACACACACACACACACCAAGTCCTTGTTAAATAGCTGTTGAATAAAAGAATGAATGACTGAGAAGCA
+AATTATTTAACAGACCTAA
+>ref|X65203.1| B.taurus microsatellite DNA (375bp)
+CCAAGTGGTAGAGTAGTAAAGAATCCACCTGCCAATGCAGGAGACACATGAGACGTGGGTTTGATCCCTGGGTTGGGAAG
+ATCCCGTGGAGCAGGAAACGGCTACCTGCTCCAATATTCTTGCCTGGAAAATTCCATGGACAGAGGAGCCCTGGTAGGCT
+ATATAGTCCATGGGGTCGCAAAGAGTTGGACATGACTGAGTGCGTGCACACACACACACACATACACACACACAGGAATA
+CAACAAAGCAAAGTGCAATAAAATGAGGTATGCCTATATATAAATACCTGCAAACAGCAGCAGCTGCACCCACTAAGTTA
+CACATATTTTGTTCTCAATGGGAAAAAATAAAATTGAATAACCATATACAAAGGT
+>ref|X65204.1| B.taurus microsatellite DNA (608bp)
+ACCTGCAGTGCAGGAGACCTGGGTTCGATTCCTGGGTTGGGAAGGTCCTTGAAGGAGAGGATGGCATCCCACTCCAGGCT
+GTATTCTTGCCTGGAGAATCCCCATGGGCAGAGGAGCCTAACAGACTACACAGTCCATGGGGTTGCAAAGAGTCGGACAT
+GACAGAGACTAGGCGCAACGCAACATGTATCTGGATATTATCCTAAGGTAATGGTTTTCAGACGTTAGTGTACATTAACA
+TTCCTCAAGCAGACATTAAAATTCAGTAAGTCTAGTGTGAAGTCTCATAATCTGAGCTTTAACAGGCATGCCCTACACAC
+ACACACACACACACACACACACACACACACACACACACAATCCCTAACAAGTGATCCTGCTACTGTTAGTCCAAGGAACG
+NNAAAGTTTAAAAAATGGTTCTACTTCATCCACACAAAACATGTTAAATGCTTACTATGTGTAAGGAAAGATATCCAGAG
+ACTACTATATATGTAAGGTAAGTTTCTTTCTTCCCCTTTTATCTAAGGAAACGAACTCAAAACAGGATGTGGTAATCCAT
+CGTCAATGGCATTTGAAAACTAGAAAACCCATCTCAGGAGATTTGAAA
+>ref|X65205.1| B.taurus microsatellite DNA (359bp)
+GAGCTGAGTTACCTAACTCCAGAGGAGATGGGAACATGGGCGTGACAGCAATGGGGTTTTTGATTCAGGGGTTGGCAGAG
+AACACCGAAGTCCTGGAACAGACTGACTCTTCGTTCTTTCTGTGGGGACATCCTCCACGTCAGAAATGGGGACTGCCAAG
+TGTTGGGCCAGGAAGCTCCCCTGGAGAACGAAATGGCAACCTACTCTAGTATTCACGCAGGGAAAACCTCATGGACAGAG
+GAGCCTGGCAGGCTGTAGTCCATGGGGTCGCAAAGAGTCAGACATGACTGAAGTGACTGACACACACACACACAAGCATA
+TTGTATTGCAGCCTCTACCCTGGGGTGCACACAGTAGCT
+>ref|X65206.1| B.taurus microsatellite DNA (497bp)
+TGATCTAGAGACCCTGGAGAAGGGAATGGTTATCCACTCCAGTATTNNNNNGCCTAGAGAATCACATAAACAGAAGAGCC
+TAGTGGGCTGTAATTCCATGGGGTCTCAAAGAGTCGGACACGACTGAGCAAGTAACACTTTCAATTTTTGTTTAACTTAA
+ATACTCAGGTAACCAACAATTCATCTAGTTGGAGATTTACAATTTGTTTTTTTTTTGGCTGGTTGGTTTGTCTGCTTATT
+GGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTAAGAGGCNGAAAGAATTATTTTTATTACCA
+GTATTTTTACATATGGGCTTCCCAGGGGATGCTAGTGGTAATGTATCTGCCTGCCAAAGCAGGAGACACAAGAGACACGG
+GTGCAATCTCTGAGTTGGAAGGTCCCTGGGAAGAGGAAATGGCAATCCACTCCAGTACTCTTGCCTGGAGAATCCATGGA
+CAGAGGAGCCTGGTGGG
+>ref|X65207.1| B.taurus microsatellite DNA (502bp)
+TTTTCCCATGTAATATTATCTTACTTGGAAAAAGAATCTTTGCAGATGCAATTAAGTTAAGGACTTGAGATAAGGAGGTT
+GTCTTGAATCATCTCNNTNAGCTCTGAATGCTAGCAAGTGTTCTTGTAAGAGAGAAACAAAGGGGCATTAGAGAGAGACA
+CACACACATACACACACACACACACACACACACACACACACACACAGGGAGGAAGCAAAGAGGAGGGAATAAGATGTTAA
+GATGGAGGTAGATGGTGCAGTGATTCAGCTACGGGATTCAAGCCACTGATTGCCAGAAGCCCCCCGAAAGCTGTAAGAGG
+CAAGGAACAGCTCCTCACATGGAGCCCTGAAACAATTAACCTGGGATTCCTGGCCTCCAGAACTGTGTGAGAACAAATTT
+TTGCTGTTTTAAACCATTCAGTCTGTGGCCATTTGTTTCAGCAGCCACGGGAAACAAATACGCTGGCAAACGGTTTCCGT
+GGTGATGACAGCTTCTCCCCCC
+>ref|X65208.1| B.taurus microsatellite DNA (467bp)
+GGACAGAGAAGTCTGGTGGGCTATATNTTGTGGGGTCTCAAAGAGTCGGACACGACTGAATGACCAACACACACACACAC
+ACACACACACACTCCCTGAGCCTTCAGGGATGCTTAATCTAGACAACTGAACACACACACACACTCTCTGAGCCTTTAGG
+GGTGCTGAATCAAGACACCTGAACACACACACACACACACACACACACAGGNNNATCTCTCTCTGGTAAACCACATCTTG
+GGTTTATAAGACCAAGGTTTAACACTGGCAGGTGTCAATTTTATTNACCCTCCAACTCACCAATAACCCCCAGGTGCCTC
+TCATACAGGATACATGCTCCATATTTCAACTTTTAATTCCATCTAATTTATATAAAAAAGGCACACATTTGCTGACCAAC
+AATGTAAGATTTGAACAGCCTCTTTGGCGATCTTGGGTTCTCTCCAAACCAGTTCAATTGCTACCCC
+>ref|X65209.1| B.taurus microsatellite DNA (532bp)
+CCATCACTTTTTTCTTTGATNATCTTTTGTTGATCGATTGATTTGCTATGTGGCACATGGGATCTTAATTCCCCAACCAG
+GGTTTGAACTGACACCCCTTGCACTGGAAGCACAGTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTTGAGGATAGCTAATTTAACAATATTGTGAACAGTTTCAGGAGGACAGTGAAAGGACTCAGCCATACATATGCACATG
+TCCACTCTCCCCNAAACTCCCTTCCNATCAATACTGCCACATAACACATAACCAAAATAATTAAGAGTGATAATTAAAGG
+AGNCAAATAGATAATGCTCAGTAACCATATGGTAATCTGCATGTGCAAAATCAGACACCCTCAAGTGATCAAGGGCTTAC
+AAGATTATCTGCTGCTGTCCTTCTATGTAGAAAGCAAATATTTTATTATTTGGACTNAAAATATTTTTTTTCAATTTATT
+TTTTGGCTGTGCTGGGTCTTAGTTGTGACACTCAGGACCTTTCCTGCCATGT
+>ref|X65210.1| B.taurus microsatellite DNA (516bp)
+ATGTTACTGCAAGTGACATTATTTTATTCTTTTTATGACTGAGTAGTATTTCATTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTATGCTGTGCTTAGTCTCTCAGTCATATCTAATTCTTTGTGACCCCATGGACTGTAGC
+ATATATATATATATATATATATATATATATATATATGTATGTATAAATATATATATATATATAAGCTTCCCTGGTAAAGA
+AAGGTAAAGGATAAGAATTCAGCTGGTAAAGAATCTGCCTGCAATGCAGNATACCCNATTCAATTCCTGAGTTGGGCAGA
+TCACCTAGAGAAGGTTTAGGCCACCCATTCCAATATTCTTGGTCTTCCCTGGTGGCTCAGATGGTAAAGAATTTGCCTGC
+AATGCAGGAGACCTGGGTTCGATCCCTGGGTTGGGAAGATCGCCTGGAGGAGGGCATGGCAACCCACTCCTGTATCCTTG
+CCTGGAGAATCCCCATGGACAGAGGAGACTAGTGAG
+>ref|X65211.1| B.taurus microsatellite DNA (508bp)
+TACATTCTGAAAGGTAGCCAACTTTCCCAGTATGCCTCAAAACATTTCTCCATGGACTATGTGGAGCTGCATATAAAAGT
+GAGACTGTGTGTCAGGATGGGAGTGAGAGCAGGAGATCACATGCCCTGTCAATCTGATGGGGACAGCTGAAATCACCTCC
+AATCAAATTTTAACTATTGCTTACTTTTCAAAGATCCTGGATATTTGGGTTGTNNNAACATGGAAACATGTAGACAAGCA
+TACACACACACTGTGTGTCACCTTCACAGTCAAACACACCACTGAGTCGTCCAATTTGGGCCTTATGTCATGCATTAGGT
+TCTCCAGAGAAATGGAACCAATTGTGACTGTGTAAATAAAATGATAATAACATATATTATACATATATAATATACATATA
+TATATATATATATAGAGAGAGAGAGAGAGAGAGAGAGCACTTTATGATATGGAGTCTGACAAGTCTGAAATATACAGAGC
+TTCTGTCTCATGAAAAGATCAGTAGGCC
+>ref|X65212.1| B.taurus microsatellite DNA (392bp)
+CCAGCTCACGTGTAACACGCCAGTGAATGTATCACTCACTATAGGCTATTCGAGCGTCGGTACCCGGGTCTCTAGNACCT
+GCAGGTCACTCTAGAGGATCCTTAATTGGCCAACATCATCACGGCCATTTAAAAATTATTATCATCATTCCCTGAGGTCC
+ATCTCTAAGCCTCCATTAGGATCAGGCACAAATATCTGCCTGAAGCCAGTCACCTCTGGAAATGTGGGATGTGTGTGTGT
+GTGTGTGTGTGTGTTGGGAGAGGGAGGGAGGAGGCCTCATGCAGGTGCAGGAAACCCCACTGAGGAGAATCACAAATGCC
+TTTTGTTTAAAAAGGCAGGGCAGATGCCCAAAGAGCATGCCGGCCATTCATTTTCAAGAGACAAGGTTATTT
+>ref|X65213.1| B.taurus microsatellite DNA (430bp)
+GGATGCATTGCNAGCCATATAGTATNCTCTGTNATGTAACTGTTTTATAAGCTCCAGCCCAGGTTGAATCATGCCTTNCT
+CAGAAAGCCTTTTTCTCCCCATCCCTGGCTCCACACATACCTACCCTTCAAACTCATTCTAGTTTACATTAGTCAGGTTG
+ACTACTTAATCATTTTTAACAGCTTTTTCATTCTTTGTATATTTGCAAGAAGGGTTGGCTGGCATCTCTCTCTCTCTCTC
+TCTCTCTCTCGCTCTCAGATGCTTGCCCACTTGAAGTCCCCNAAGACCTAGGNAAGGGCTTTCCAGGTGGCATGAATGAT
+GAAGAACCTGCTGCAATGCAGGAGACATAAGAGATGCAAGTTCAATCCCTAGGTTGCGAAGANNCCCCGGAGGAGGGCAT
+GGCAACTNACNCCAGNATTCTTGCCTGGAG
+>ref|X65214.1| B.taurus microsatellite DNA (482bp)
+TCTAGAGTCGACCTGCAGCTGGTGTGACCCAGGATTTGTAGGCCCACAATGTGGAGGAATTCAGGAGTTGTGTCTGTGCC
+TCAGTTCTGCTCTGATGCAGTAAGGAGGATATGTCACCTTTCGTGGCCCATTCAGTCTTCAGAGGTGTGTGCAGAGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGCACATGCATGCATTTGTTAAGTCGTGTGCTGT
+AGTGTGCTCCAAGGCCAGGTGCCCTGTGCCCCGTGGTGGTGAGAACATGGATGTGGCTCATGCCTTTGCCACCACGACTG
+GGTGCCCTACTGAATAATCTGGGGTCGGGGAGTTGGGTTCTCAGACATGCTCAGTGTTTCCAGCGATCTGCTTGTCTCTG
+TGACTGTGACTGTCCGGGTGAAGGCTGGGCTAGACAGCAGGCTGGGTGATCCCCTGGCAGTGCCAATAGTCCCTGTGTCT
+CT
+>ref|X65215.1| B.taurus microsatellite DNA (624bp)
+ACCTCCACTAGCTTTGTTTGTAGTGATGCTCTGTAGCACCACTGGGAAGCCCTTTAATGAATGTGCCTTTCCGCAAATCA
+CACACACACAAATACACTTATAGAAACAAGGTGATTTTCTTGAAATAATAAAACAAAATTTGGAAGAAGATTTTTACTGT
+CTTAGGAAAAGTAAGGCATTGGAAGGTGGCTAGGTATGACATATGAAGTTGCATTTTAAAACTGGAATTGGACAACTGAT
+ATTCAGTGATATTTATGCTACTACCTTCTAGAATCGAGAGCATGCACCCCACTCTGTACTCTTGCCTGGAGAATCCATGA
+TGAGAGCCTGGTAGGCTGCAGTCCATGGGGTCACACAGAGTCGGACATGACTGAGCGACTTCACTTTCACTTTTCAATTT
+CATGCATTGGAGCCGGAAATGGCAACCCACTCCAGTGTTCTTGCCTGGAGAATCCCAGGGATGGGGAAGCCTGGTGGGCT
+GCTGTCTATGGGGTCGCAGAGAGTCAGACACGACTGAAGTGACTTAGCAGCAACCTTCTGGAATAAACGCCTCAGGCTTT
+AAACTCTGGCTTGACCATTCACTAGCCATGGGATCCACTAGAGTCGACCTGCAGGCATGCAAGC
+>ref|X65216.1| B.taurus microsatellite DNA (310bp)
+AGAGTTAGACCAGGTAGTCTTGNNTTAGGCAAGGTGTCCTTTGTCTTATAACAAATCAGATACTTTATTTTGAAGAACAG
+CAGCTTTGTGGAAGGCTAAGATGGNAAGNNCAAAAATGGAAATGGAAGNGTTCAAGNTTTTTTCCTGGGTATTAAGGAGA
+GAGAGATATATATATATATACACACACACATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTTC
+CTTTTTTTTTGGTTGCACCATACATCATGTGGGATATTAGCTTCTCAAACAGGGAAAAAACCCATACCCT
+>ref|X65217.1| B.taurus microsatellite DNA (489bp)
+TGCATTCCTGCACCTCGACTCTAGAGGATCCAGACAAGCCCCTGGAGAAGGAAATNCCAACTCACTCCAGTATTCTTGCC
+TGGAGAATCCCATGCACAGAAAAGCCTGGTGGGCTACAATCCATGGGCCGCAGAGTCTGACACAACTGAGCGACCAACAC
+ACACACACACACAGGCACATGTTTCATATTATTGTTAGAGACCAGAGTCTCACAGCCCTGCTGCCTCATGTTTGGGTGCT
+AAGTGCTGTATTTGAAGGCACAGAAGAGAGGGGGTGAAAATGAAGGGCTAGCCACTGTCCATGGAGGTCACCATGGTTAT
+CAGTTTCCTAGGGCTCCCACAGCACATGAACCCACATGGGGTGGCTTAAAACCGGTGTATTCTCTGACAGTCCTGGGGGC
+TGGAAATCAAGGTGCTGGCAGNGCCATAATTCCTCCAAAGGCTCTAAAGGGNTTGTCTATCTCTTTTAGTGTCTGGTGAC
+TCCTGGGCC
+>ref|X67832.1| B.taurus microsatellite DNA (268 bp)
+ACTCTAGAGGACATAGGAAAGAGTAGGAAGAACTAGTCCCAGAAACAACTAGTTCCAATGAGACACGAACACACACACAC
+ACACACACACACACACACACACACACACACAAATGGGTTGCCCATGCTTCTGTTTTACCTCCGTGCTCCTAATACTTTAT
+TTATTTATTTATTTGGCTGTGTCTGTTCTTAGTTACAGCACAGGGCTCTTTAGTTGTAGAGCATGGGCTCAGTTGCTCTG
+AGGCATGTAGGTGCTTATCTCCCCAGCT
+>ref|X64897.1| B.taurus mRNA for MLRQ subunit of NADH: ubiquinone oxidoreductase complex
+GGTGAGTGCTTAACCTCCGGTCTTGCGGCTTAGCTTTTCTCTCGGTTTGGACTCGAGGCCTCTGTTGCAACCATGCTCCG
+CCAGATCATCGGTCAGGCCAAGAGGCATCCTAGCTTGATCCCCCTCTTCATATTTATTGGAGCAGGAGGGACTGGAGCAG
+CACTGTATGTCACGCGCCTGGCATTGTTCAATCCCGATGTCAGTTGGGACAGAAAGAATAACCCAGAACCCTGGAACAAA
+CTAGGTCCTAATGATCAGTACAAGTTCTACTCTGTGAATGTAGATTACAGCAAACTGAAGAAAGAAGGTCCAGACTTCTA
+AATGAAATATTTCACTGTAAAGCTGATTTGAATGAAGGTCTTCCAGAAGCCATCCGCACAATTTTCCACTTAACCAGGAA
+ATATTTCCCCTCTAAATGCACGAAATCACGTTGGTGTATTGTGGTGGGGTTTACACTGATGAATAAATAGTCTGAAACTT
+GAAAAAAAAAAAAAAAAA
+>ref|X66277.1| B.taurus mRNA for retinal pigment epithelial membrane receptor p63
+GAGAAAATGTCCAGCCAAGTTGAACATCCAGCTGGTGGTTACAAGAAACTGTTTGAAACTGTGGAGGAACTATCCTCACC
+GCTCACAGCCCATGTTACAGGCAGGATCCCCCTCTGGCTAACCGGCAGTCTCCTTCGATGTGGGCCAGGACTCTTTGAGG
+TTGGATCGGAACCATTTTACCACCTGTTTGATGGGCAAGCCCTCCTACACAAGTTTGACTTTAAAGAAGGACATGTCACA
+TACCACAGAAGGTTCATCCGCACTGATGCTTACGTACGGGCAATGACTGAGAAAAGGATCGTCATAACAGAATTTGGCAC
+CTGTGCTTTCCCAGATCCCTGCAAGAATATATTTTCCAGGTTTTTTTCTTACTTCCGAGGAGTGGAGGTTACTGACAATG
+CCCTTGTTAATATCTACCCAGTGGGGGAAGATTACTATGCCTGCACAGAGACCAACTTCATTACAAAGGTTAATCCTGAG
+ACCTTGGAAACAATTAAGCAGGTTGACCTTTGCAACTATGTCTCAGTCAATGGAGCCACTGCTCACCCCCACATTGAAAA
+TGATGGGACTGTTTACAACATTGGTAATTGCTTTGGGAAAAATTTTTCAATTGCCTACAATATTGTAAAGATCCCACCAC
+TACAAGCAGACAAGGAAGATCCAATAAGCAAGTCAGAGATCGTTGTACAATTCCCCTGCAGTGACCGATTCAAGCCATCT
+TACGTCCATAGTTTTGGTTTGACTCCCAACTATATTGTTTTTGTGGAGACACCAGTCAAAATTAATCTGTTCAAGTTTCT
+TTCTTCATGGAGTCTTTGGGGAGCCAATTACATGGATTGTTTTGAATCCAATGAAACCATGGGGGTTTGGCTTCATATTG
+CTGACAAAAAAAGAAAAAAGTATATCAATAATAAATACAGGACCTCTCCTTTTAACCTCTTTCATCACATCAATACCTAT
+GAAGACCATGAGTTTCTGATTGTGGATCTCTGTTGCTGGAAAGGATTTGAATTTGTTTATAATTATTTATATTTAGCCAA
+TTTACGTGAGAACTGGGAAGAGGTGAAAAAAAATGCCAGAAAGGCTCCTCAGCCTGAAGTTAGGAGATACGTACTTCCTT
+TGAATATTGACAAGGCTGACACAGGCAAGAATTTAGTCACACTCCCCAACACAACTGCCACTGCAATTCTGTGCAGTGAC
+GAGACCATCTGGCTGGAACCTGAGGTTCTCTTTTCAGGGCCTCGCCAAGCATTTGAGTTTCCTCAAATCAATTACCAGAA
+GTATGGTGGGAAACCTTACACATATGCATATGGACTTGGCTTGAATCACTTTGTTCCAGACAGGCTCTGTAAGCTGAACG
+TCAAAACTAAAGAAACCTGGGTATGGCAAGAGCCTGATTCATACCCCTCAGAACCTATCTTTGTTTCTCACCCAGATGCC
+TTGGAGGAAGATGACGGTGTAGTTCTGAGTGTGGTGGTGAGCCCTGGGGCAGGACAAAAGCCTGCTTATCTTCTGATTCT
+GAATGCCAAGGACTTGAGTGAAGTTGCCAGGGCTGAAGTGGAGATTAACATCCCCGTCACCTTTCATGGACTGTTCAAAA
+AATCCTGAGCACATTCTAGCATGACATGTTTCTGGTGACAAAACACAGAGAAACGTAGTTAGGTCTGCAATCAAATTCTG
+TTTAGCTTTAGCCTGCTGTCTATAAGGGTTTTAACTTGCAGATGCACACCGTTTTGCAGTATTTTACAGAAAGCACAGAG
+TTGAGTAAGGAATTCCTTTTAAAAAAGTGCTTATTTAGATAATCGTACTTCGTGAGACAGGCACATCATAACTAAAAACT
+CTTTATATATTTACAATCAAATAGAAAATGAATGTGAATTTATTAAACTGTTTTTCATTCCTATTATAAAAGTGTATTTT
+AGGCACCCATCTACTCCTATTACTTTTTAACATTTAAAAGCCAAAGTCCTCTACAGCTGATATGTATATAGCTTTGCTGT
+GTCAAGGCAGCATCTTGGAAAAAGGCTTAGTTACTAAATGTCAAATCAAACTTCTTCTCAAACCAGGGACTTTGATCTAA
+GACAATCATTGTAATTGTATGCACATATGTATTATTATTCAAAGATTCTCATGGTTTAAACTTTAATATTTCCATTTAAT
+ATAGGCAATTATTACTATTTCTGATTTCACAGTAAGGAAGCCTGTTTCTAAGTCACTGAGGGCTGTCAACCAAATACCTT
+CTCAGAGATTACATTATCTATTAGAAACTTATATAACATAAAAGCAATTACATATAGTAGTGACTATTTTTTTTAAATAG
+CATAAAATACTTACAAACATAATTGCTGTTTAAAATCAGATTATGGGGATAATAATGTGTATGGGGGGGGTTATACTTTG
+TTGCCTCTTCTGCTTAATTACATTTAAGCACTGTGCACCTGACTGAAGAGAAAATGAGAAAATAGAAAATACTGTCATTA
+ATGTTCAGATATGAATATAGTTTAAGCACTTTTGTTTTTAAAATTATTCTTTTCTGAGATACATGTTGCAAAAAAAATGA
+AGATTGACAAAAATTTTTATTCTATATCTTAATCCTGTTTGACTAAGTAAAAACA
+>ref|Z14036.1| B.taurus microsatellite (ETH1112)
+GATCCTGCATGTTATGCCGCACAGCCAAAAAAAAAGTATATGTGTATATATATATATATATATATATATCACACACACAC
+ACACACACACACACACACACACACCTTATTTTTTTTTGGCTCAAAATCACTGCAGATGGTGACTGCAGCCATGAAATTAA
+AAGATGCTTGCTCCTTGGAAGAAAAGCTATGACCAACCTAGACAGCATATTAAAAAGCAGAGACATTACTTTGCCCACAA
+AGGTCCGTCTGGTTAAAGCTATGGTTTTTCCAGTAGTCATGTATGGATGTGAGAGTTGGACTATAAAGAAAGCTGAGAGC
+CAAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCC
+>ref|Z14037.1| B.taurus microsatellite (ETH121)
+GATCTTGGGGCTTCTTAGTTTCTATAATGTAAACCAACTCCTTACAGGAAATGTCTACATACACACACAAGCACACACAT
+ACATGGATGCATACATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCATCTACATACCTAAATA
+TGTTCCTATTGAATCTGTTTCCCTGGAAGACCCTGATGGGTATCCCCACCCACCTCCACTTACCAGCCAGCTCTAAATTA
+GCCAGCTAAAAGGCACAGTGCTTGCAATTTAAATGCAGCTTCAAAAGTCCTTCTGCACAAAATTTCTGGAGTTGTCACTG
+GTCACAAGGACTGTGTTAATTAGTGTACAACAGTATCATGGACTTGAGAATACTTTATATTCCTTAAATAAAGATTCCCC
+GGGCTGCAGGAATTCGATATCAAGCTTATCGAT
+>ref|Z14038.1| B.taurus microsatellite (ETH123)
+GATCACTTGGAGAAGAGAATGGCAACCCACTCCAGTATTCTGGCTGGGGAAATCCCATGGACAGAGGAGCCTGGTGTACT
+ACAGTCCATGGGGCCACAAAGAGTCAGACATGACTGAGTGACTCACACTCACACACACACACACACACACACACAGGGGT
+TATGGGGTTATAATTTTCACTGTCCAGTCCAGTGCCCTTCCTCCTATACCTCTATAGCAGGTATACCCTTGGAGGGGCAA
+TGGATTTAAGGTAGTCTTGCTTTATATAGAGCTTTGAAAATGCCATTGAAAAGCTTCAAGTTGTGATC
+>ref|Z14039.1| B.taurus microsatellite (ETH131)
+CCTGGAGGAGGACATGACAACCCACTCCAGTATTCTTGCCTGAAAAACCTCATGGACAAAGGAGCCCGGTGGACTATAGA
+CCATAAGGTCACAAAGAGTCAGACACAAATGAAACGACTTAGCGCGCGCGCGCCACACACACACACACACACACACACAC
+ACACACACACAGAATGAGAATGAGGGGTGGGTAGAATTTGGATGAGTCATTCGTAGACCATCACAGCGTGCTTGGCAAAC
+AGACAGCACTGACCATCACTGGTTGAAATGTAAAAAGAAGTTAGGTT
+>ref|Z14040.1| B.taurus microsatellite (ETH152)
+GATCTTGTACTCGTAGGGCAGGCTGCCTGCAGAGCCAACACACACACACACACACACACACACACACACACAGGGGGCAC
+TGCTGTTGGCTTCCGGAGGCCACAGGGCAGTTGGGGGAAGGGGGGCAGGCAAGAGCCCCTGGGAGCCCTGGCAGAGGTGA
+CCCTCCCTCCAGACAGGTGCCCTCTGATC
+>ref|Z14041.1| B.taurus microsatellite (ETH153)
+ATTCTTGCGTGGAGAATTCCATGGACAGAGGAGCCCAGAGCGGTATAGTCCATGGGGTTGCAGAGAGTAGGAGATGACTG
+AGCAACTGAGCATACACACACACACACACACACACACTAGGAGTATAGAGAGAATATATCAGCCTCAGGGGTAAAGGTTA
+GAATATTTTAAGAGCAAACTTATCACTTTGACTCTGCGTTATCATTCTCAGA
+>ref|Z14042.1| B.taurus microsatellite (ETH185)
+GGCTGGAAAATTGCATGGACAGAGCAGCCTGGCGGGCTACAGTCCATGGGGGTTGCAAAGAGTCGGACATGACTGAACAC
+ACACACACACACACACACACACACACACACACACACACACAAAGAGTGCTGCAAATATGTTTTAATTAGTGATACAGCTA
+TTTTTTTTTAATATTTATTTGGCTGTATCAGGTCTTAGTTGCCAAGTGGAATATTGTTGCTTCCTCTGGGAGCTTTCGTT
+GGGGTGC
+>ref|Z14043.1| B.taurus microsatellite (ETH225)
+GATCACCTTGCCACTATTTCCTCCAACATATGTGTGTGCGTGCACACACACACACACACACACACACACACACACACATG
+ATAGCCACTCCTTTCTCTAATGCCACAGAATTACACAGTCAACTCTCTAGTAGCAGCTGGCTGTCATGTGTCATTTGGCA
+ATATCCATATCTTCCCCCCTTGCTGTAAA
+>ref|X67829.1| B.taurus microsatellite DNA (287 bp)
+AGACCTTACCTTTTAGCTAAAGGTGGTCTCACGACTTACTCGACCACAACAACCCGAAATCCGAGTAAAAAGAACATCGT
+TGTGATTTTGTAAAGTCAAGTCGATCTCACGAAGTCCAGAGGGGTGATCCTTGAGACATAGATGTGTGTGTTTATGTAGT
+CGACGAGTAGGACCGACAGGGACACTCTCCTCTACACACACACACACACACACACACACACTACTACACACCTCTCACTC
+ATACTCACACACACACAATCACCCCTCCCTACGTCACTCTAGGAGAT
+>ref|X67831.1| B.taurus microsatellite DNA (448 bp)
+ATTAACTGTATATAATATTAACTTAAATAGAGGAAATTTCAGGAAATCAGGGCATTTTGTCTATTATATTCAATGTTGTG
+TCTCCAGTAGTACTAATCAGTAATGGTATCTAACAGACACTGAGATATAGAAATACGAATACAAAATATACATGTATAAT
+AAATAAGTGGATGAAAAATAATAGACTATAAATAAGGAATTCCAATATAAAGAATTGGGATACCCCCATACACACACACA
+CACACACACACACACACATATATGTTGTGTGCGTGGAATGGCACCAGGATGCACCTACTCCAGTATCTATAGAGCAGAAA
+TTCATGGACAGAGGAGCCAAATGGGCTACAGTCTACGGGGTCATAAAAAATCAGATATGACTGTGCACACACATACACAC
+ACACACACCCACAAATTCAAGAGTGAACGAACGAGGACTAGTAAGATC
+>ref|V00113.1| Bos taurus mRNA of vasopressin neurophysin II precursor
+GCACAGTCTACAGAGCAGCACTGCGCACGTGTGCCCACGCGTGCCAGGATGCCCGACGCCACACTGCCCGCCTGCTTCCT
+CAGCCTGCTGGCCTTCACCTCTGCTTGCTACTTCCAGAACTGCCCAAGGGGCGGCAAGAGGGCCATGTCCGACCTGGAGC
+TGAGACAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGGACGAGCTGGGC
+TGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCCGGCCAGAAGCC
+CTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAACGATGAGAGCTGCGTGACCGAGCCCGAGTGCCGGG
+AAGGTGTCGGCTTCCCCCGCCGCGTTCGCGCCAACGACCGGAGCAACGCGACCCTGCTGGACGGGCCGAGCGGGGCCTTG
+TTGCTGCGGCTGGTGCAGCTGGCGGGGGCGCCGGAGCCCGCGGAGCCCGCCCAGCCCGGCGTCTACTGAGGCGCGCCCCC
+CCCCTCCCCACCCCTGCCCTCGCAGCACGAAAAATAAACGTTTTAAAGGC
+>ref|X15600.1| Bovine processed pseudogene P1
+CCTGCAATGCAGGGTAAAGAATCTGCTTGTGCTTAAAGCTAAAGCCGGGACGTGAGTCAGTCATCTTAGCTGGGTGAGTG
+CTATGGTCTGAGCAGGGGCAGCAGGACAGTGGGAATAGACTGAAAAAAATGTAGACCTCCGGAGCACTACTCAGTCCTCC
+CGCTCTGATGTGCTCTTGTACCAGGGGTCTGATCAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAAAGAGCCCATCTG
+AACAGCCTTCCTACAGCAGTGTCTCACTCCGGGTGGCTTGACGGAAATTCCAGACCAGTGTTGTCTCCTGGCACACTGAC
+ACAGTGGCCAAGTTTACTGGCGCTGGGGCTGCCACAGTTGGGATGGCTGGTTCAGGGGCTGGCATTGGAACAGTGTTTGG
+CAGCTTGGTCCTTGGCTATGCAAGGAACCCATCTCTGAAGCAGCAGCTCTTCTCCAGCACCATTCTGGGCTTTGTCCTGT
+CTGAGGGGCTTTTCTGTTTATGGCCACCCTCCTCATCCTCTTCACCACATGAGGCTCCATGGAGGTCACCTACCCGCCGC
+TGCTGCTTTGACTCCAGGCCATGCTCAGTGCTGGAGCGTGCTAACTTCTACCATTAAACACAATGTTTCTCTTTAAAAAA
+AAAAAAAAAAATTGACTTGCAATGCAGAAG
+>ref|X52907.1| Bovine PAI-1 mRNA for plasminogen activtor inhibitor (3' end)
+TGTTTTGTTTTGTTTTTCTTTTTTCTTGATGCACTGGACAGTGACAGCCACACTCAGTACCCCCACGTGTGGGGTCCATG
+GCTCTTGAAATTGCTTTTTCACTTTTGATATAGAAGCAAGTAAAAAAAAATGTTTTTTAAAAATTAATAATAAATAAATA
+AAAAGAATATTCCAAAATAAAAAAAAAAAAAAA
+>ref|NM_176647.2| Bos taurus poly(A) polymerase alpha (PAPOLA), mRNA
X61585.1 B.taurus mRNA for poly(A)polymerase
+GCGGTTGCGGGGGGGAAGTGACTGGGCGGTGCGGCGCAGGAGACGATGCCGTTTCCAGTTACAACACAGGGATCACAGCA
+AACACAGCCGCCACAGAAGCACTATGGCATTACTTCTCCCATCAGCTTAGCAGCCCCCAAGGAGACTGACTGCCTGCTCA
+CACAGAAGCTGGTGGAGACTCTGAAGCCCTTCGGGGTTTTTGAAGAGGAAGAGGAACTGCAGCGCAGGATTTTAATTTTG
+GGAAAATTAAATAACCTGGTAAAAGAGTGGATACGAGAAATCAGTGAAAGCAAGAATCTTCCACAATCTGTAATTGAAAA
+TGTTGGTGGGAAAATTTTTACATTTGGATCTTATAGATTAGGAGTACATACAAAAGGTGCTGATATTGATGCATTGTGTG
+TTGCACCAAGACATGTTGATCGAAGTGATTTTTTCACCTCATTCTATGATAAGTTGAAATTACAGGAAGAAGTAAAAGAT
+TTAAGAGCTGTTGAAGAGGCATTTGTACCAGTTATCAAACTGTGTTTTGATGGGATAGAGATTGATATTTTGTTTGCAAG
+ATTAGCACTGCAGACTATTCCAGAAGACTTGGACTTAAGAGATGACAGTCTGCTTAAAAATTTAGATATAAGATGTATAA
+GAAGTCTTAACGGTTGCAGGGTAACCGATGAAATTTTACATCTAGTACCAAACATTGACAACTTCAGGTTAACCCTGAGA
+GCTATCAAACTGTGGGCCAAACGCCACAACATCTATTCCAATATATTAGGTTTCCTCGGTGGTGTTTCCTGGGCTATGCT
+AGTAGCAAGAACTTGCCAGCTTTATCCAAATGCAATAGCATCAACTCTTGTACATAAATTTTTCTTGGTATTTTCTAAAT
+GGGAATGGCCAAATCCAGTCCTATTGAAACAGCCTGAAGAATGCAATCTTAATTTGCCTGTATGGGACCCAAGGGTAAAC
+CCCAGTGATAGGTACCATCTTATGCCTATAATTACACCAGCATACCCACAACAGAACTCCACGTACAATGTGTCCGTTTC
+AACACGGATGGTCATGGTTGAGGAGTTTAAACAAGGTCTTGCTATCACAGATGAAATTTTGCTGAGTAAGGCAGAGTGGT
+CCAAACTTTTTGAAGCTCCAAACTTCTTTCAAAAGTACAAGCATTATATTGTACTTCTAGCAAGTGCACCAACTGAAAAA
+CAACGCCTAGAATGGGTGGGCTTGGTGGAATCAAAAATCCGAATCCTGGTTGGAAGTTTGGAGAAGAATGAGTTTATTAC
+ACTGGCTCATGTGAATCCCCAGTCATTTCCAGCACCCAAAGAAAATCCCGACAAGGAAGAATTTCGCACTATGTGGGTGA
+TTGGGTTAGTGTTTAAAAAAACAGAAAACTCTGAAAATCTCAGTGTTGATCTCACCTATGATATTCAGTCTTTCACAGAT
+ACAGTTTATAGGCAAGCAATAAACAGCAAGATGTTTGAGGTGGACATGAAAATTGCTGCGATGCATGTAAAAAGAAAGCA
+ACTCCATCAACTACTGCCTAGTCATGTGCTTCAGAAAAAGAAAAAGCATTCAACAGAAGGCGTCAAGTTGACACCTCTGA
+ATGATAGCAGCCTCGACTTGTCTATGGACAGTGACAACAGCATGTCTGTGCCTTCACCTACTAGTGCTATGAAGACCAGT
+CCGTTGAACAGTTCTGGCAGCTCTCAGGGCAGAAACAGTCCTGCTCCAGCTGTAACAGCAGCATCTGTGACCAACATACA
+GGCTACTGAAGTTTCTCTGCCACAAATAAATTCCAGTGAAAGCTCAGGGGGTACATCGAGTGAAAGCATTCCTCAAACTG
+CCACACAACCAGCCATTTCATCACCGCCAAAGCCTACGGTCTCCAGAGTTGTTTCCTCAACACGTTTGGTAAACCCACCA
+CCAAGACCTTCAGGAAATGCAGCAGCAAAGATACCTAATCCTATAGTAGGAGTCAAGAGGACATCCTCACCTCATAAAGA
+AGAGAGCCCCAAGAAAACCAAAACAGAAGAGGATGAAACAAGTGAAGATGCTAACTGTCTTGCTTTGAGTGGACATGATA
+AAACAGAAACAAAGGAACAACTTGATACAGAGACAAGTACAACTCAATCAGAAACCATTCAGACAGCGACTTCTCTGTTG
+GCCTCTCAGAAAACATCCAGTACAGACCTTTCTGATATCCCTGCTCTCCCTGCAAACCCTATTCCTGTTATCAAGAATTC
+AATAAAACTGAGATTGAATCGGTAAAAACAACCTCAGGGGTCCAGAAACAGTGTCTGCCAACTCAACCTGTTGTCTTCAA
+ATGCTAAAAAAGGAGAACGGAGGGTGCAAGACTAGACGTGACTGAAAGTGGATTGAGGGTTTTTTTGTGACCTCCCTTAC
+TGGGCTAATCAGCACTTGATCGGAAGTCCAGGTTAGTATGTGAAGCCAGGAGTACTATTATTATTGTGTTAGCAACAGTT
+GCA
+>ref|X54962.1| B.taurus pCK1 mRNA for casein kinase II alpha subunit
+GCCGTGTGTCTCCTCCTCCGCCGCCGCCATATTGTCTGTGTGAGGAGAGGGGAGAGCGGCCGCCGCCGTGCCGTTCCACC
+CCTGTTTTGAAGAAAATAGGTCTGAAACAAGGTCTTACTCCCCAGCTGCCTCTCAACATAGTGACTACCATCTCTCCAGA
+TACCAAGTCCAGCTTTGTCCGCCAACCTGTCTGACATGTCGGGACCCGTGCCAAGCAGAGCCAGAGTTTACACAGATGTT
+AATACACACAGACCCCGAGAGTACTGGGATTACGAGTCACATGTGGTGGAATGGGGAAATCAAGATGACTACCAGCTGGT
+TAGAAAATTAGGTCGGGGTAAATACAGTGAAGTATTTGAAGCCATCAACATCACAAATAATGAAAAAGTTGTTGTTAAAA
+TTCTCAAGCCAGTAAAGAAGAAGAAAATCAAGCGTGAAATAAAGATTTTGGAGAATTTGCGAGGCGGTCCCAACATCATC
+ACACTGGCAGACATTGTAAAAGACCCTGTGTCACGAACTCCCGCCTTGGTTTTTGAACACGTAAACAACACAGACTTCAA
+GCAATTGTACCAGACGTTAACAGACTATGATATTCGATTTTACATGTATGAGATTCTAAAGGCCCTTGATTACTGCCATA
+GCATGGGGATTATGCACAGAGATGTCAAGCCCCATAATGTCATGATTGATCATGAGCACAGAAAGCTACGGCTAATAGAC
+TGGGGTTTGGCTGAGTTTTACCATCCTGGCCAAGAATATAATGTCCGAGTTGCTTCCCGATATTTCAAAGGTCCTGAGCT
+ACTTGTAGACTATCAGATGTACGATTATAGTTTGGATATGTGGAGCTTGGGTTGTATGCTGGCAAGTATGATCTTCCGGA
+AGGAGCCATTTTTCCACGGACATGACAATTATGATCAGTTGGTGAGGATAGCCAAGGTTCTGGGGACAGAAGATTTATAT
+GACTATATTGACAAATACAACATTGAATTAGATCCACGTTTCAATGATATCTTGGGCAGACATTCCCGTAAGCGATGGGA
+ACGCTTTGTCCACAGTGAAAACCAGCACCTTGTCAGTCCTGAGGCCTTGGATTTCCTGGACAAGCTGCTGCGATACGACC
+ACCAATCACGGCTCACTGCAAGAGAGGCCATGGAGCACCCTTATTTCTACACTGTTGTGAAGGACCAGGCTCGAATGGGC
+TCATCTAGCATGCCAGGGGGCAGTACGCCAGTCAGCAGCGCCAATATGATGTCAGGGATTTCTTCAGTGCCAACCCCTTC
+ACCCCTTGGACCTCTGGCGGGCTCACCAGTGATTGCTGCTGCCAACCCCCTTGGGATGCCTGTTCCAGCTGCCGCCGGCG
+CTCAGCAGTAATGGCCCCTTCTGTCTCCTGATGCCTGAGCAGAGGTTGGGGAGTCCACTCTCTCCCTTGATGCAGCTTGC
+GCCTGGTGGGGAGGGGTGAAATACTTCAGAAGCACCGTGTCTGAACCGTTGCTTGTGGATTTATAGTAGTTCAGTCATAA
+AAAAAAAAATTATAATAGGAAAAAA
+>ref|NM_174657.2| Bos taurus solute carrier family 25 member 3 (SLC25A3), mRNA
X05340.1 Bovine mRNA for mitochondrial phosphate carrier protein precursor
+GGCCTCTGTGAGCTGCAGCCTTTCTGAGAGACCGGTTGTGTGTTCGCCATCTTAGGGAGAAGATGTACTCGTCCGTGGTG
+CACCTAGCGCGGGCGAACCCCTTCAACGCGCCTCACCTGCAGTTGGTGCACGATGGTCTCGCGGGGCCCCGCAGCGACCC
+CGCCGGGCCCCCGGGCCCACCCCGCCGCTCTCGCAACCTGGCAGCCGCCGCTGTAGAAGAGCAGTATAGCTGTGACTATG
+GATCTGGCAGATTCTTTATCCTTTGTGGACTTGGAGGAATTATTAGCTGTGGCACAACACATACAGCATTGGTTCCTCTA
+GATCTGGTTAAATGCAGGATGCAGGTGGACCCACAAAAGTACAAGAGCATATTTAATGGATTTTCAGTTACACTCAAAGA
+GGATGGTTTTCGTGGTTTGGCCAAAGGATGGGCTCCGACTTTCATTGGCTACTCCCTGCAGGGACTCTGCAAGTTTGGCT
+TTTATGAAGTCTTCAAAGTTTTGTACAGCAACATGCTTGGAGAGGAGAATGCCTATCTGTGGCGCACATCACTGTATTTG
+GCTGCCTCTGCCAGTGCTGAATTCTTTGCTGACATTGCTCTGGCTCCTATGGAAGCTGCTAAGGTTCGAATTCAAACCCA
+GCCAGGTTATGCTAACACTCTGAGGGATGCAGCTCCCAAAATGTATAAGGAAGAAGGCTTAAAGGCGTTCTACAAGGGGG
+TTGCCCCTCTCTGGATGAGGCAGATACCATACACCATGATGAAGTTTGCCTGCTTTGAACGTACTGTTGAAGCATTGTAC
+AAGTTTGTGGTTCCCAAGCCCCGAAGTGAATGTTCAAAGCCAGAGCAGCTGGTTGTCACATTTGTGGCAGGTTACATAGC
+TGGAGTCTTCTGTGCCATTGTTTCTCACCCTGCTGATTCCGTGGTGTCTGTGTTGAATAAAGAGAAGGGTAGCAGTGCCT
+CTGAGGTCCTGAAGAGGCTTGGATTTAGAGGTGTATGGAAGGGACTCTTTGCCCGTATCATCATGATCGGCACTCTGACT
+GCACTACAGTGGTTTATCTATGACTCTGTGAAGGTCTACTTCAGGCTCCCTCGCCCTCCTCCACCTGAGATGCCAGAATC
+TCTGAAGAAAAAGCTTGGGTACACTCAATAGATAAATGAAAGCAAATATGGACTGAATCTGCGTGTTGATCAGTGTTTGA
+GGAAAATGCAGAAGGAACTTTTATATATTTGACAGTGTAGGAAGTTGTCTATTCCTAATATAATTACTGTAGTACTCTTG
+TCAAAAGCAAGAGTTTCAAACTTAATGTGGAAATAAACCCAACTGTACATGA
+>ref|X00002.1| B.taurus gene encoding pituitary glycoprotein hormone alpha subunit, exon 1
+AGATCTTGTTTATAGGAAAGTGTCAACTTTCAGGATGTTGTGTATAAATCTTGAAAAAATTATGTAGAAAATAACAGAGT
+TCTCTTGTCTCATAGGCTGACCTTGCAGTCAACACCATCTGAAAATGGCTCAAAACAAAAAATAATCTAAGGGCTGAAAC
+AAGATAAGATAAAATTGATGTCATGGTAATTATGTGAAGTACCATTCAATCATTGGGTGGAATTTACTGTTGATCCCTGG
+ACTTAGATGTAGGTGGGAACATGCAGCTTTTATGACTCTGCTGGTATATAAGACAGGTGAGGACTTTATTAAAAGCAGTT
+GCTGAGAAATCACAAGACAAAACTAAAATTCTTCTTCAGATCCACAGTCAACTGCCCTGACTACATTCTGCAAAAATCCA
+GAGGACGGTAAAATGAATGAAATAATTTGGGGGATTTTAATTGAGGGGTAAAATATTTGAGGATACAAGGGAGCTGGTTG
+TGCATAAACCCTAGTAAGAAGAGAGACAGGCATTTATGCATTCTCCTTTCAGCACTCATGATTGAATTGGGAGGAAGTCT
+GCAAAACTGTGGTCTGTGATC
+>ref|X00003.1| B.taurus gene encoding pituitary glycoprotein hormone alpha subunit, exon 2, and joined CDS
+AGCAATGTTAAAACTACTGGTTGTTGTTATGCCTGTTAAGCCAATTTTATAGTAACTTTTTTTCCCTATGTCTGTTTTGC
+AGAAGAGCCATGGATTACTACAGAAAATATGCAGCTGTCATTCTGGCCATTTTGTCTCTGTTTCTGCAAATTCTCCATTC
+CTTTCCTGATGGAGAGTTTACAATGCAGGGTATGTGCCCAACTTGGGTCTGCAG
+>ref|X00004.1| .taurus gene encoding pituitary glycoprotein hormone alpha subunit, exons 3 & 4
+CTGTAGTCAGGACAAACAGATATTGTGTGTGAAGATGAACATACAACCAAAAAGTATTTATTTATTTTAACTGCCAATAG
+AAAAAAAGAATATTTGTTGTCCAATAATAAGGAATCATTCACAGTTTTTTTTTAAAAAATTCTTTTTGGATTATTTTACT
+CTTTGCCTTTTTCTTTCTTTCTTTTTCTTTCTCTCTCTTTTTTAAATTTGTTTTTTTTTTTTGGTGATAGGCTGTCCTGA
+ATGCAAGCTAAAAGAAAACAAATACTTCTCCAAGCCAGATGCTCCAATCTATCAGTGCATGGGGTGCTGCTTCTCCAGGG
+CATACCCCACTCCAGCGAGGTCTAAGAAGACAATGTTGGTCCCCAAGAACATCACCTCGGAAGCTACATGCTGTGTGGCC
+AAAGCATTTACCAAGGTGAGGACCTAAAGGGCCCCAGAAACTTTCTAACAGTTCAACCAGAGAAATGTCCTCACAGCACA
+TCCATGGCTTCACGCCAGAGGTAGCTAATGACCAGTCTTTCAATGGGCATTTGTAGAGCAAAGGGCTGAGCTTGTCTGCT
+TTAACCAAGACAGTCAGCCACCTTGTGGGCAGAGGCTGGATCTATCCAGAATGAAGACAGTGGACAGAGGTGATAAGGGG
+CAGGTTGGGAGAAAACATAGAATACTTATACAGTGCAAATCTAAGCTTTAGGAATGAAAATATCAGCTGAAAAGGAGACT
+ATGTGAATACAACCAGCATCTGTTTTTTAAAGTACTTATGTATTTGTTTGGCTGCACAGGGTCTTAGTTGTAGCACTCAG
+TATGTGGGATCTTTAGTTGTGGCAGGCGGGATCTAGTTCTCTGACCAGGGATGGAACCTGGGTCCCCTGCACTGAGAGCT
+AGAGACCTAGCCACTGGACCAGCACAGAAGTCCCATATAGCAAGCATTTATTCAGTTCAGCTGGCTACAGACTATTTTAC
+TGAACAGTTTTCAATTTTGCTAGCCTGCCTATCTATCCATCTGCCTCTGTCTATCATCTATCTTTCTTCCCTTCCGTTTA
+GGCCACAGTGATGGGAAATGTCAGAGTGGAGAACCACACCGAGTGCCACTGCAGCACTTGTTATTATCACAAATCCTAAT
+AGTTTGCAGTGGGCCTTGCTGATGATGGCTGACTTGCTCAAAAGGAAAATTAATTTGTCCAGTGTCTATGGCTTTGTGAG
+ATAAAACCCTCCTTTTCCTTGCCATACCATTTTTAACCTGCTTTGAGAATATACTGCAGCTTTATTGCTTTTCTCCTTAT
+CCTACAATATAATCAGTAGTCTTGATCTTTTCATTTGGAATGAAATATGGCATTTAGCATGACCATAAAAAGCTGATTCC
+ACTGGAAATAAAGTCTTTTAAATCATCACTCTATCACTGAATTC
+>ref|X03098.1| Bovine mRNA fragment for lipophilin (aa 129-276) (myelin proteolipid protein)
+CATCAAGCTCATTCTTTGGAGCGGGTGTGTCATTGTTTGGGAAAATGGCTAGGACATCCCGACAAGTTTGTGGGCATCAC
+CTATGCCCTGACCGTTGTGTGGCTCCTNGTGTTTGCCTGCTCTGCTGTGCCTGTATACATTTATTTCAACACCTGGACCA
+CCTGCCAGTCTATTGCTGCCCCCAGCAAGACCTCTGCAAGTATAGGCACTCTCTGTGCTGATGCCAGAATGTATGGTGTT
+CTCCCATGGAATGCTTTCCCTGGCAAGGTGTGTGGCTCCAACCTTCTGTCCATCTGCAAAACAGCTGAGTTCCAAATGAC
+CTTCCATCTGTTTATTGCTGCGTTTGTGGGGGCTGCAGCCACACTGGTGTCCCTGCTCACCTTCATGATTGCTGCCACTT
+ACAACTTTGCCGTCCTGAAACTCATGGGCCGAGGCACCAAGTTCTGATCTCCTGTAGAAATTTCCCTTTCTCTAATAGCG
+AGGCTCTAACCACACAGTCCACAGTGCTGCGTCTCCCATGTTAACTCTTTGCCTTTGCTACTGACTGGCCCTCTTCTTAC
+TTGACGAGTGTAACAAGAAAGGAGAGTCTCACGGTGATTAATGTCTCTGCGGACTCTCCCCTCTTACGTACCTCTTTTAG
+TCATTTTGCTTCATAGCTGGTTCCTGCTAGAAATGGGAAATGCTTAAAGATGGTGACTCCCCAACTGCAAGTCACAAAGA
+AGTGGAGGCTCTCATTCAATTTTCAAGCATCTCCCGAGGACNAGGAAGTGTTTTCTTCTCAAAGGGCACTTCCACTGATG
+AAAACAAAGTGGAAAGAAAGATGTTCAGGTAGAGAGAAGGGAGGCACCTGTCCCTGTTGCCATCTTGGGAGCCAAATATA
+TTCTCTTTGGTGTACAAAACCGAGAACTCACTCCAGTCTCCCTAGTACC
+>ref|X63436.1| B.taurus mRNA for poly(A) polymerase
+GGGGAAGCGCTTAAAGCGGCGGGACGGGTGCGGAGTGGGGTAGGACCCAGGGCTAAGGCAGGCCCCCGCCCCCCTCCCTC
+CCGCCTCAGTGGATCATGCCCAGGGCGGCAGTGGCGGCGGTTGCAGGGGGGAAGTGACTGGGCGGTGCGGCACAGGAGAC
+GATGCCGTTTCCAGTTACAACACAGGGATCACAGCAAACACAGCCGCCACAGAAGCACTATGGCATTACTTCTCCCATCA
+GCTTAGCAGCCCCCAAGGAGACTGACTGCCTGCTCACACAGAAGCTGGTGGAGACTCTGAAGCCCTTCGGGGTTTTTGAA
+GAGGAAGAGGAACTGCAGCGCAGGATTTTAATTTTGGGAAAATTAAATAACCTGGTAAAAGAGTGGATACGAGAAATCAG
+AGAAAGCAAGAATCTTCCACAATCTGTAATTGAAAATGTTGGTGGGAAAATTTTTACATTTGGATCTTATAGATTAGGAG
+TACATACAAAAGGTGCTGATATTGATGCATTGTGTGTTGCACCAAGACATGTTGATCGAAGTGATTTTTTCACCTCATTC
+TATGATAAGTTGAAATTACAGGAAGAAGTAAAAGATTTAAGAGCTGTTGAAGAGGCATTTGTACCAGTTATCAAACTGTG
+TTTTGATGGGATAGAGATTGATATTTTGTTTGCAAGATTAGCACTGCAGACTATTCCAGAAGACTTGGACTTAAGAGATG
+ACAGTCTGCTTAAAAATTTAGATATAAGATGTATAAGAAGTCTTAACGGTTGCAGGGTAACCGATGAAATTTTACATCTA
+GTACCAAACATTGACAACTTCAGGTTAACCCTGAGAGCTATCAAACTGTGGGCCAAACGCCACAACATCTATTCCAATAT
+ATTAGGTTTCCTCGGTGGTGTTTCCTGGGCTATGCTAGTAGCAAGAACTTGCCAGCTTTATCCAAATGCAATAGCATCAA
+CTCTTGTACATAAATTTTTCTTGGTATTTTCTAAATGGGAATGGCCAAATCCAGTCCTATTGAAACAGCCTGAAGAATGC
+AATCTTAATTTGCCTGTATGGGACCCAAGGGTAAACCCCAGTGATAGGTACCATCTTATGCCTATAATTACACCAGCATA
+CCCACAACAGAACTCCACGTACAATGTGTCCGTTTCAACACGGATGGTCATGGTTGAGGAGTTTAAACAAGGTCTTGCTA
+TCACAGATGAAATTTTGCTGAGTAAGGCAGAGTGGTCCAAACTTTTTGAAGCTCCAAACTTCTTTCAAAAGTACAAGCAT
+TATATTGTACTTCTAGCAAGTGCACCAACTGAAAAACAACGCCTAGAATGGGTGGGCTTGGTGGAATCAAAAATCCGAAT
+CCTGGTTGGAAGTTTGGAGAAGAATGAGTTTATTACACTGGCTCATGTGAATCCCCAGTCATTTCCAGCACCCAAAGAAA
+ATCCCGACAAGGAAGAATTTCGCACGATGTGGGTGATTGGGTTAGTGTTTAAAAAAACAGAAAACTCTGAAAATCTCAGT
+GTTGATCTCACCTATGATATTCAGTCTTTCACAGATACAGTTTATAGGCAAGCAATAAACAGCAAGATGTTTGAGGTGGA
+CATGAAAATTGCTGCGATGCATGTAAAAAGAAAGCAACTCCATCAACTACTGCCTAGTCATGTGCTTCAGAAAAAGAAAA
+AGCATTCAACAGAAGGCGTCAAGTTGACACCTCTGAATGATAGCAGCCTCGACTTGTCTATGGACAGTGACAACAGCATG
+TCTGTGCCTTCACCTACTAGTGCTATGAAGACCAGTCCGTTGAACAGTTCTGGCAGCTCTCAGGGCAGAAACAGTCCTGC
+TCCAGCTGTAACAGCAGCATCTGTGACCAACATACAGGCTACTGAAGTTTCTCTGCCACAAATAAATTCCAGTGAAAGCT
+CAGGGGGTACATCGAGTGAAAGCATTCCTCAAACTGCCACACAACCAGCCATTTCATCACCACCAAAGCCTACGGTCTCC
+AGAGTTGTTTCCTCAACACGTTTGGTAAACCCACCACCAAGACCTTCAGGAAATGCAGCAGCAAAGATACCTAATCCTAT
+AGTAGGAGTCAAGAGGACATCCTCACCTCATAAAGAAGAGAGCCCCAAGAAAACCAAAACAGAAGAGGAACAACTTGATA
+CAGAGACAAGTACAACTCAATCAGAAACCATTCAGACAGCGACTTCTCTGTTGGCCTCTCAGATCATTTAAATCCTCACT
+GCACAATATGCCGTCTTCACCTGGAGGTTTTGTTATAAGTCAGAGAGTGAACTTTAAATTAGAACTTAAAATCCTTCTTC
+ATGGATTGCTTTTCAAATGTTTTATTTTCAAAATGTGTTTCTGCTTCACTTTTCACCTCTGCTTTTCAGTTATTTATTTA
+GTGTAATGCATAGTTCTTTAAAGCTATTTTTTCATTTGTCCTAGAAATTCTGCTGTGACAGTACCTTGTGTACAGTAGAC
+ACTTGGACTCTTTTCATTAATTTGTGAACCTTCATTTTGTTTGTGAAATAATTGTTTTCTTCTCGAATCCTTTTAAACTG
+AATATACTCCAAAGCTAAGTCAGGCTCTGACATAAAGTAAATACTTCCTTTAAGTAGACATTAAACTGGTTAACTTCCAC
+AAAGCTACTGCCAGTGACGCTGCTTTACTGACGAGACAGTGGAACTACGCTGCTTTGTGGCTCAGAGTTATTTTAATGTG
+ATAATTTTAAGATGAGTTTTTGCTGGCTGTTAACCTTCATAGTTCCTCTTGATATATAAATGCTATGATTACTTTCTGAA
+ATGTTTTATTTTCATAGCCTTTAGCTAATAAAAATTTTGTGGGGTGGCGTGGAGTAATTCCAACAACATTAGGAAGTGTT
+GTACTTGATACTGATACACAGACAAACTTATTTATCAAAATTCAGTTCTGTGATTGTGACTGCATGCATTTAGGCCAGCC
+ACATTAATCTCTAGGGAACTGTTTTCATAGTTTGTTTTGTTGACTTCATTCCTCTAGTGATTCATACCCTTGGGTGTTTG
+CCTTTTAGATATTTTTATAAGGAATTAGAATTTTCTTTGTAATGAAAAGATCCCTAGAACCGTTGAGAGAAAAATCACCA
+GGTTATATATATAATATAAAAAGTTATGTCGATTAAAAAAATTTTTTTTAATCTCTTTATTTGGTGATAGAAGGGAGGTA
+TTAATGTTGTGACTGTGTCTAACAATGAATCTTTGAGATAAACTTGAAATATTTACAGAAGAAATGATAGGCTCTCTGGG
+ATTTGCTTCAGAATAATCTGGGAGTAAAGGTGGGAGAACAGTGGATTGGCTTTGACGAAGTCGGTAATGAATACACGAGC
+CATTCATTATATAAGGCTCTACTTCTGTGTATGTTGGAATTTTCCATAATAAAACAATTAAAAATGCCCCC
+>ref|NM_174133.2| Bos taurus ubiquitin B (UBB), mRNA
Z18245.1 Bos taurus gene for polyubiquitin
+CTGGCATTGTTGGGTTCCTGTGTCGTCTTGGAGGTGACTCGGCGTGATTGAATTTGCGGCATCTTCGCATTCATTCACAG
+GTCAAAATGCAGATCTTCGTGAAAACCCTGACCGGCAAGACCATCACCCTGGAGGTGGAGCCCAGTGACACCATCGAGAA
+CGTGAAGGCCAAGATCCAGGATAAGGAAGGCATTCCCCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAG
+ATGGCCGCACTCTTTCTGATTACAACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAG
+ATTTTCGTGAAGACCCTGACCGGCAAGACCATCACCCTGGAAGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAA
+GATCCAGGATAAGGAGGGCATTCCCCCCGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTC
+TTTTTGATTACAACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAGATCTTCGTGAAG
+ACCCTGACCGGCAAGACCATCACCCTGGAGGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAAGATCCAGGATAA
+GGAAGGCATTCCCCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTCTTTCTGATTACA
+ACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAGATCTTCGTGAAGACCCTGACCGGC
+AAGACCATCACCCTGGAAGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAAGATCCAGGATAAGGAAGGCATTCC
+CCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTCTTTCTGATTACAACATCCAGAAAG
+AGTCGACCCTGCACCTGGTCCTTCGTCTGAGGGGTGGCTGTTAATTCTTCAGTCTTCTATTCATAATGTTCAATGATGAC
+ATCCTTCTGCACTCTAGCCATTTACCCCAATTTAAGTTTAGAAATTACCAGTTTCAGTAATAGCTGAACCTGTTCAAAAT
+ATTAATAAAAGTTTTGTTGCATGC
+>ref|NM_173915.2| Bos taurus gastrin (GAST), mRNA
X16581.1 Bovine mRNA for preprogastrin
+CAGGCTCCAGGCCAACAGCAGCGTCACCCACCTCCCAGCTTCACAGACAAGATGCAGCGACTGTGTGCACATGTGCTGAT
+CTTGGTGCTGGCTCTGGCCGCCTTCTGCGAAGCTTCTTGGAAGCCCCACTCCCACCTGCAAGACGCGCCCGTCGCTCCAG
+GGGCCAATAGGGGCCAGGAGCCGCTCAGGATGAACCGGCTGGGCCCAGCCTCGAACCCCCGGAGGCAGCTGGGGCTTCAG
+GATCCGCCACACATGGTCGCAGACCTGTCCAAGAAGCAGGGGCCATGGGTGGAGGAAGAGGAAGCAGCATATGGATGGAT
+GGACTTCGGCCGCCGCAGTGCTGAGGAAGGGGACCAACATCCCTGAGAACAAGCTTTGGAGCCCAGTCACCTCCCAGCCC
+AGCCCAGCCCCATGAAACACACATCAAAATAAACTAGCTTCCAATGG
+>ref|X01395.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 1
+GAGTCGCTTTGCTTTGATGAGTAATCTTAGGTGTCATGGAACCTCGTTCCGAAGAAAGAGGGGAGGGGGCGTCAGATATG
+CCTACGGAAGAAGACAGGCCGCTGGGTTATTGGATGGCGAGAACTCGATATTCCTATAATTGCGTCATTTCGAACCCAAT
+TGGGTCCAGATGTTATGCGCACCGACGGATTACCGTCTCGGAAACTCTCAATCAGACGCAAGCGAAAGGAGAGGAGGCGG
+TTAATTAAATATTGAGCAGAAAGTCGCGTGGGGAGCGCGTCACGTGGGTCCCGAGACTCGGCGAGCCTGGGATAAATACC
+GCGCGGCAGCCAGCAGGCAAAAGAGCGCGCTGCTGACCTCCTCCATCCTTGCTGCGACCGAGAGAGTGCGCAGCGCCCCG
+CGAGTGCTCAGACCAGCAGAGGAACCTCCCGGGCGGGTCAGCTGCGGTAAGTGCCCGCGCGCTGTAGTGCGCGCTTTCCG
+CACCGCGCACCGCTCG
+>ref|X02351.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 2 (and joined CDS)
+TCAAAAATTCTTTTTTTTCCCCCTCTGCCTTTTCTCCCTACTCTTCCCAGAAATCCAACATGAAAATCCTCGTGGCCGTG
+GCAGTGATTTTTTTCATCTCCACTCAACTGTCTGCAGAAGAAATCGGAGCCAACGATGATTTCAATTATTGGTCCGACTG
+GTCCGACAGCGACCAGATCAAGGTGAGACCCGTTCCCTAGATGGCCTGCGCCCTTCTTCACGGGTTTAGGAGCTGTCACT
+TA
+>ref|X01396.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 3
+CCTCGAACTGGTTGCCTTCAGGCCCGATAATCCGTGTGTTTGTCCTCTAGGAGGAAATGCCCGAGCCCTTTGAGCATCTT
+CTGCAGAGAATCGCTCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTGATGGGCAAACGGGATGCTGGTGAGATGGGCAG
+TCGTCCCTCCCTGTCTCTCTGGGCAACCCACACACAT
+>ref|X01397.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 4
+ATCACACCATCAGTGGAATGTGTGGTTAACGTCAATTTGTCTCTTGTCAGATTCCTCAATTGAAAAGCAAGTGGCCCTGT
+TAAAGGCCCTTTATGGTAAACATTTCTATAAATCTTTATTTTACTATTGTGAATGCACATGTGTG
+>ref|X01398.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 5
+CTCCTTTTAAACAAATCTATTGTTTGCTAATTTTATCTTTCTTTCTATAGGACATGGCCAGCTTTCTCACAAAAGTAAGT
+TCCAAATTATTTTGACATTTATCAAATGCAAATATAAATTATAT
+>ref|X01399.1| B.taurus gene fragment for beta preprotachykinin (PPT) exon 6
+ATTTCCTCAGATATATACATATTAAAATACCCCTAAATGTATTTTTCCAGGGCATAAAACAGATTCCTTTGTTGGACTAA
+TGGGCAAAAGAGCTTTAAATTCTGGTATGTATAAAACCATGACTGGACATAAACAGTATCTTAAATCTACTCTA
+>ref|X01400.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 7 part 1
+CTGTGTCAGTGATCCTCTTAACAAACCCTTTACCTTCTCTTTGTTCTCAGTGGCTTATGAAAGGAGTGTGATGCAGGATT
+ATGAAAGAAGACGTAAATAGACTACCTAACATATTTATTGAGCTTCATTTGTGTCAGTGGTCAAGGAAAGGTAAAATGAG
+ACATGCACTATGAGGAATAATTATTTATTTAATAATTGTTGTTTTGAGTTT
+>ref|X01401.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 7 part 2
+CCTGCAGCATGTTTCATGTTTTGTGACTATATAGAGACATTTAAAAAGTTTTACTGTGATTCTAAGGTATTTTATTGTAC
+AATGTGTTGTAATAGTTAACATTTTAAATAAAAGAAAAAGTATCTTAAATTGGGCCTTATTCTTTCATTAACCTTTACAT
+CTAATGGCAACCTTTCTTTTAGAGGATATGTTCCAACCTGTTTTGGATGTAAAATAATGAAACATAAAGCTACTAAATTT
+CTTTTTCTTAAGGAAAATGATTAAATGTAATCAGAGTTTCTCTTTCCCACACACGTGCGCCTGTTGTTCAGTCATTGGCA
+TGGGATCC
+>ref|X07283.1| Bovine DNA for pancreatic ribonuclease (EC 3.1.27.5.)
+TCCAGGCCAGAATACTGGAGTGGATAGCCTTTCCCTTCTCCAGGGATCTTCCCATCCCAGGTCTCCCACATTGCAGGCAG
+ATTCTTTACCAGCTGAGCCGCAAGGAAGCCCAAGAATACTGGAGTGGGTAGCCTATCACTTCTCCAGAGGATCTTCCTGA
+TCTAGGAATTGAACCGGGGTCTCCTGCACTGTAGGCGGATTCTTTACCAACTGAGCTATCAGGGTCACAAAGAGTCAGAT
+ACAACTGAAGCCACTTAGCACACATGCCTGGGCTATTTAGTATGGAACATGGATTTGGTTGGAGTTTGAGCATCAATACT
+ATAGTGGCTTTCTCTGCTGCTTTATAGAGAGAAAAGTTCTTATCAGCAAAGGCTCACTATCCCCAGCAGTCCCCCCAAAA
+GGGTGTGCGTGTATGCTCAATTGTGTCTGGACTGTGCCTGCCAGGCTTCTCTGTCCATGGAATTTCCTAGGCAAGATCTG
+GAGTGGGTTGGTATTTCCTTCTCCAAAGGATCTTCCCACCCCAGGGACAGAACCGGAGTCTGATGAATAGGCAGGCATAC
+TACCAGGCCAGGTGTCCTGGGCAATTCCCCAACCTTTCCTCGCTTGACCTTGTTTTCCTGTGGACTGAGACCAAGATGCC
+CCTCCCACCCTTCTTGGAAGCCAAGCCCCCTTTCACCAGTATAAGGTCCACACCTCTGGAAGAGAATGATTGCAGAAACT
+GCCTTCTCTCTCTCAGACATCAAACTAGAGACCCAGGTAAGCAGCCCAAGAAGTGGTCTCAGGAGCTGCTTCTGCTTGAG
+GGTTTGAGAGGGAGGATCCTAGGTGAGTGAGACTAGCCTGAGAATTGGGCTGGGCAGACAGGGGCAGGGAGCAGAGCTGG
+GGTCAGGAATGGAGCACACAGGCTGCAGAGAGCCCACAGGGTTGGAGAAGGAGAAGCCTCCAGGTTGGGGGAGGCTTGAA
+TCTCTCATAGGAATACAATGGTGTCCTTTATGGTATGGGGTCAGACACAGGACAGGGACTGAGTTTCCCTTGTGCTGGAG
+GACAACAGGGCTCTGTCAACTGTGATCCGGATGAATACTGGTGGTTATTTTGGGGGTACAACTTAGCTTATTCAAAATCT
+GACTTTTTTATTTAGTGGTTTATTCAAAAGGATCCCCTAATGAGCTGCATGAGTGCTGGGTACAAAAGTATTTTATTTTC
+CAAATGTATTTCATATCAAAAGACTTTCTGTATTCAAAGACAGGACTGCTAGGATTTTAGATCATTTTGGGGGTCACCAC
+CCAAAGGGGAGGACGACACCTCTGTAGGGAGTGGGAGTCAAATGTTTGTGGGAAGAGTATATGTGTCTCCTTACCTAGGA
+AAGCTCTTAGGAACAGGGACATCTTTCTGGTTGACCGGCAGGGAGACTGTAAGCCAGGGAGGCTACAGGTGGGAGCTGGG
+GTTCTTTTCGAAGGCGATGCTTTTCCTCTTCTCCCCCTTTTCTCATTCAGGTTTCTCCAGGGGAGTGCGGTCATCATGGC
+TCTGAAGTCCCTGGTCCTGTTGTCGCTGTTGGTCCTGGTGCTGCTGCTGGTGCGGGTCCAGCCTTCCCTGGGCAAGGAAA
+CTGCAGCAGCCAAGTTTGAGCGGCAGCACATGGACTCCAGCACTTCCGCTGCCAGCAGCTCCAACTACTGTAACCAGATG
+ATGAAGAGCCGGAACCTGACCAAAGATCGATGCAAGCCAGTGAACACCTTTGTGCACGAGTCCCTGGCTGATGTCCAGGC
+CGTGTGCTCCCAGAAAAATGTTGCCTGCAAGAATGGGCAGACCAATTGCTACCAGAGCTACTCCACCATGAGCATCACCG
+ACTGCCGTGAGACCGGCAGCTCCAAGTACCCCAACTGTGCCTACAAGACCACCCAGGCGAATAAACACATCATTGTGGCT
+TGTGAGGGAAACCCGTACGTGCCAGTCCACTTTGATGCTTCAGTGTAGGTCTCTACCTAAGGCCAGAGCAGCAAGATGCA
+CCACTTCATCACAAAGGCACCTGCCTCTCCCCTCATGTTTCCTTGTCCTGGGGGCAATAGCTCAAGTTAGTTAGGGCTCT
+TATCTCTGCGCACCTTACCAGAAACACACACACAGGATTCCCTGGCATGAAAGCAATAACTCAAGCTAGTTAAGTCTTCT
+ATCCAACCCACACTTGCTCCCCTGGCCTGAGTCTTGCCCCTGGTGGTTTGGGGGGTGAGGAGTGGGTTGTGAGGTGGGAC
+CTGTGTTAACCAAATCACTGCTTCTTTCAATAAACATACTTGCAACCACCTGAATTCCTGATGCTGTCCTCACCTGGGTA
+TTGTTCATGTGATTGCTCTCTTGCCAGGGGTGAGAAGCGTGAATCAGGTTATCTGTGGTAAGAAGGGAATGCAATCCTTA
+AATGCCACCTCTTCTGACTTTTGGTTTTCAGTGCCCTAAGATAATTCCTCTCTTTGTAGGTTCCTTGACACCCAGTATAA
+ATGTGTGGGTGATTTTAAGATCTATAGTCTGGGACACTGTCATGCTGGGTGAGCTGACAGAGGGTGAAGCTCACATACAA
+AAATCTCTGGCACAGAAGAAAAGATCATGTGATCCAGGAGAGACCCTGTTTGGCCTCAGGAGCAGAAGAAGACTATGAAA
+TTATGACCTAAGATTTCCATTTTCCTTTTTTTGAGGGAGCTATTACTAAATCAGAAAGATGGTCC
+>ref|X16641.1| Bovine DNA for prolactin 5'flanking regulatory region
+GATCTGGGTCGACCTGCAGGTCAACGGATCTGCAAAAGAGCACATACAAAAATTAAGGTAGATAGGCAGTGACATATGAG
+AAAGACAGATAAGACAGTTATGACATTTTATATAAAATAAGCCTTTTACATTATTTCAACCCACTCCAGGTCTCTTGCCT
+GGAAAATCCCATGGATGGAGGAGACTGGTAGGCTGCAGTCCATGGGGTCACTAGGAGTCAGACGTGACTGAGCGACTTCA
+CTTTCCCTTTTCAGTTTCATGCATTGGAGAAGGAAATGGCAACCCACTCCAGTATTCTTGCCTGGAGAAACCCAGGGATG
+GGAGAGCCTGGAGGGCTGCCGTCTATGGGGTCGCCCAGAGTCAGATACGACTGAAGCGACTTAGCAGCAGCAGCAGTTTG
+CATTATTTAGCTATGGCAGTATCCTTTTAACAGGAAATATAGGGCTGTGAATCAGCAAGAAAGCACACAAGAAATTTTAC
+AGAGAAACATGGACCTCTTCGGAATCAAATAGATCAGTTGGCCTCCATTGAATAAACAACTTAGGCTTTTTAAATTACTT
+TTTTCCTCGCTATCTACAAAAGGTAAAGCACCTTTAAATTTTAAGATTAAGTTGTCAATTCTTAGGGCAGATTTTCCTAT
+TATTAAGTTTCAGGAAAGGAGGGGAAATTGGGGCAGCATTAATTTCTTTACAAATGGCACTGTTCTCAACAACTCAGACT
+TTCACTGTCCAGGGAAAAACAGATACCAAGCATGGCATTTTGACCCAGCTTTAAGTTGACGGAGTCTATGTAGCATCATA
+CTTGATTCATTTGATGCAAAATCAGTATTGATTAAGCTAAGGCAGTTAGGAGGATAGTTTTTAAGTGGCGTTAGTCTTTG
+TTATGATTTCTAAGTCCCCATAAGCACACTTGGATAATTGCTAAAGCAAAATACAGCAGGAGAAACTATAGAAAATATGA
+ATGCAATAAAAAGAGATTATTTTCTTAATGCAGCTCACTTGTCAATTTACTCTGAGAGACATATGGTAAAATTGAAACTA
+AAGGTCACAGGCTGCTTGAGATGCATGAACTTAAAAATTAAAGAAAGTCATCAGCAACTTGGTCTATATTCATTACCATC
+ATCTCATTCAGGAAATCTCTAAAAGGCAAGTGGAACTTTAGAGCCCATGAAAGATGAATTTTTGTCACCTTGGCCCTAGA
+GTGGCTTGAGGTCAGAGAATTAAAGCTATCATAAGTTAATAACAGTTTGTGTAACCTTACCCTTAAGGAAAGTGAACATG
+ACTGTCTAGAATTTTGTTTTACTGCATTTACCAGAGTTTGTGTGTGTGTGTATGTGTGTGTGTGCCCTTGAAAACCACTG
+TCACTTCCCCAGTATGAACTCCCTAAAGTTAGGGGTGAGTTTTGTGTTCATTGTAGAAGAGAGGGCAACGTATGTTGGAG
+GATTCATTTTCCAGCCCTCTTCACATCCCTCCTGATTTCTCTTGAAGTGATAAACATTTCGGTATCTAACTTGACTAATT
+CTATATCCTTGACATTTAAACTCCCCATCCCACTGTTTCTCAATCTGGGGACGAAAGATATAACTTTACATACATGTTAA
+AATCAAAAGACTTATGTGAAAATGCACATTTTACCACAGAGATATATCCTTTTAGAAAGGACAAAACAGAATGTGTAAAA
+ATCAAGAAAAAAAAAATGAGGAAAATGTATTGAGAGTATAACAGGAACTGAAAATCTTACTTACTCATCCTTATTCTATA
+TTTCTTAGTATTTAGTGTGTAAATTTTGAAATCTTGACTTCAGCCAGCAATTTTGAATGAGAATAAAATACTCTTTGATA
+ATACATGAGACACCTAAGTGAAAGATAATGCTATATTCAAGAAACTGCAGAGAAATAAAGGCAAATGTTACAAGAAATGA
+CTGCTATAATTTTATAGTTCCTCTAACTCAAACTAGTCTCCAGATCTCACCATCATTATCTCTCTCATTTCCTTTCAGTC
+TAATTAATCAAAATCCTTCCTAGATGTTCATTTCTGGTCAGTATGTCTTCCTGAATATGAATAAGAAATAGAATACCATT
+CAATGTTTGAAATTATGGGGGTAATCTCAATGACGGAAATAGATGACTGGCAAAAGGGAAGGGAATGCCTGATTAAATAT
+ATTCATGAAGATGTCAAAGCCTTATAAAGCCAACATCTGGGGAAGAGAA
+>ref|X16559.1| Bull mRNA for protamine 2
+AGGTCGACGAATTCAATTCCGTTAACAGCAAGAGCAGGGGGCAGGCCTCAGCCTCCTCCCCGCCCCCCCAAGGCCAGCTG
+CCGTCTCAGCCCGAGTCGCCCACCCGTGACCCCTCCATCACGATGGTCCGATGCCACGTGAAGAGTCCAACTGAAAGTCC
+ACCCGGGCAGCAGGGCTCCGGGCAGCAGGGCGAGACGGAGCACCCGGATCAGGCACGGGAGCTGAGGCCGGAAGACATCC
+CGGTCTACGGGAGGACTCACAGAGGCCGCTACCACTACAGACACAGGAGCCACACGCGCGCCTACCGGAGGCGCCGGAGA
+AGGGCCTGCAGGCACAGGAGCCGCAGAGGTGCGGCGGGCCCCCCCTGCGCTCCCATCCCAGGCACCCCCCAGGCCTCCAG
+GCAGGGCTCAGGCTGCCGAAGGATGAGGAGGAGGAGGAGGAGATGCGGAAGGCAGCTCTAAGTTCCCTGGGCCACCAGAA
+AGAGTCACCTGCCAGGAAGCCCTCGAAGACCATACCACATCCCCCTTGGAGCCCACGAGATCTTGAGTAAATGAGAAAGT
+ATCTGTCAATAAGTTGAGATAAGAAACTGAAAA
+>ref|X12516.1| Bovine parathyroid hormone gene downstream DNA fragment
+ATACTCCCTTTTCTTCTTATTACCTCAACCCCATTCACATATCAGGCTTAGATTTCTTAGAGAAGTATCATGCTGGAATT
+TCTTTTTTCCAGAAGGATAAAGGATAAATAATTCTAGAACTTGACAGTTGTCATTAAAGTAACAACCAGGTGAATTAAAT
+AACCCCTTGATAGCTCAGTTGGTATAGAATCACCTTCAATGCAGGAGACCCTGGTTCAATTCCTGGGTTGGGACGATCCA
+CTGGATAAGGGATAGGCTACCCACTCCAGTATTCTTGGACTTTCCTTGTGTCTCAG
+>ref|X17364.1| Bovine Harvey-ras 2 put. pseudogene, exons 1-3
+CCCGGGCAGCCTGGCCCAGGAGCTCAGTGGGCGTGCGAGTGGGGTCAGTGGGACAGGAAACCACAGTAGTGCCTGGTGTT
+GGGGTCCTTGAGGAGTGATGACGGAGGATAAGCTCGTGGTGGTGGGCGCCATGGTATGGAGGAAGAGTGCCCTGACCATC
+CAGCTCATCGAGAAGCACCCCGTGGAGGACAACTCCACCATGGAGGTGAGCCGACTCTGGTCCACAGCCTGGCTCCTGAC
+AGGGGCTTGTCCTCCACCTGCTCTGCAGAGGGGTCCTATTGTCCTAGGTCCTGGGGGCACAAGAGGAGCGAGGGAGGGTC
+CCCTCCCAGGAAGGTTGGCTGTCTCTAAGTTCCTACTGGAAGCAAGTGGTCACTGATGGGGAGACCTACCTACTGGACAC
+AGCAGGCCAGGAGAGTCAGCGTCATGGAGACCAGTACATGAGCACCAGCGAGGGCTTTCCTCTGGGTGTTTGCATCAACA
+ATACCGAGTCCTTCAAGGGCATCCACCAGCCCTGGTGAGCTGACCACTGACCTCAGGGCTCCTGTCCTCTCTCTGTGACG
+CCAAGTGCAGGCCCAGCCCGCAGCCTGCCCACTGGATCACGACTTCCCCTTGTAGGGAGCAGATCAAGTGGGTGAAGGAC
+TCAGATGGCATACCTGTGGTGCTGGTGGGAACGAGTGTGACCTGGTCATGGTACCGTCGAGTCTCAGCAGGCCAGAACCT
+CACCCAAAACTGCAGCGTCCCCTGCAGTGATGTGTTGGCCCAGATGCACCAGGTGGAAGCCCCCCTCCCTGCCCCCCATC
+CAGCCAGGGCCCTGTGCACCCCCACTGCCTGGGAGCAGCACTCACTGCCCCTTCTCCCTCCATCCAGGGCAGCTGCTCGA
+CCTCTGGCTTCAGCTAAGGGACCCCCTGGAACCCACTTCGATTCCCCTGACCCAGCAGCCCCTCAAGCTGTGAGTCTCCC
+CGGG
+>ref|X17365.1| Bovine Harvey-ras 2 put. pseudogene, exons 4
+TTTGAGTATGCCAAGCCTCCTTCCTCATGACCTTTGCCACAGGCGGAACTCGCTCCTGGCAGGAAGGGTCTGGGATTCTG
+CTCGAGCAGAGGCAGTGTTCCCCTTGAGCCGGTGCCCTCTTCCTTCCACTGGTGCGTGAGATCCGGCAGCACGCCCACCC
+AAGGAGGGGCCCCTAGGCTGCCTGAGCTCAGGTGCTGCTCCCCTGACAGGTGTGGAGGGGCACGGAGGTGTCCAGTGTGA
+TGTGGGAAAGGGTGTGCGAGATGGGTGTGGGGAGGAGGAGGCAGGGAAGAAAGGAAGTGCCACTGGAGCCTGGCCAGCCC
+AGGTTGGTGGACAGAGTGACTGAACTGATGCTCCCTGCCCGCCAGCTGTTGCTCTCCTGGAGCCCAGTCCTGGCCCACCG
+GACACAGGCTGAGTCACAGTCATCCGATGGTCTTGATCCTGGGGTTTGGTTGAAGCTCGGAGTCTGTAGTGCCTGTGGCT
+CCCACGAGGCAGATGGGAACCTCAGTTTTGTCCAGCTGGTGCTCCCTTTGCCTCTGGGGGCCCTGAGGGCATCCTTCGGA
+GATGTCTAGGTGCTACAAGAACCAGCCAGTCTAGCACTTAAAGCGGGAAAATGTATTAACCTTTAACCAGCAAGGGGGGA
+AACTGAAACCAAAGTCTGTCCATCCCTGGAGGGAGACCTTCATAGGGAATGGTGGGGGGCAGGGTACCGCAGTTGGGTCC
+CGGG
+>ref|V00115.1| Bos taurus 1.711a satellite DNA with insert INS-1.711A. (extends from base 501 to 1151)
+GATCACGTGACTCTGCAGGCACTGATCACGTGGCTGATCAAGTCCAGATCACGTGACTGAGCATGCACTGATCACGTGGC
+TATCATGCACTGATGACGTGACTGCGCATGCACTGATGACGTGGCTGATCGGGCACTGATCACATGGCTCATCATGCACT
+GATCACGTGTTTATCAGGCAATGATCAGTGACTGACAGGCGCTGATCATGGGACTGTGCACGCACTGATCACGTGGCTCT
+CATGCACTGATCACGTGACTGCGCATGCACTGATGACGTGGCTGTTCGGGCACTGATCACGTGTTTATCAGGCAGTGATC
+AGTGACTGACTGGCGCTGATCAGGGGACTGTGCACGCGCTGATCAGGTGGCTGATCAGGAACTGAACACCTGACCGCGCA
+TGCAGTGATCACGTGGCTGGTCGTTCACTGATCACGTGTTTATCATACGGTGATCACGTGACTGAGAGGCGCTGATCACG
+TGACTGTGCCGTCAGTGATCACGTGGCTGAGCAGGCACTGATATCGTGACTGAGCATGCACTGATCATGTGCCGGGAGCC
+GGGGAGGCATTCCACTCTGGACAAAGGTCATGAGGAAGGAGGCTCGGCATACGCAAATGCGGGATCGAGCCTCAGGAGTC
+CACCCGGATATTCTCGAGCATCTCCCCCCCAAAAAAACCGGAGTCCGCCTACTGTATTGCTTTGTGCTCTCACCTGTGAT
+TTCACTGGGGGCTGTCCCCCACCACCATCTCGCTCTCTCTGTCAAAGATGTAACTTACAGCTCCAATTCATAAAGTTCCT
+TGTCATTCTTCCCTTTAACTTCCAGCTGAGTCTCCATCTGGAGCGCGGAACCCACCACGCTTACTAATTATGCCTGGGCT
+GCTAAGACCCACTCGAGAAGGTGTCTAGGGTGAGGCACCTTTCGCTATTCGAGAGGGCGCCTGCGGCCTACGTAAGTGGT
+GCAAACTTCTTGTCTTGAAGTTTGATTGGTCTTCCGCGTAAACCAAGCTACTCAGTCTCTTTTCTCCACCGAATTTTCCT
+ACTGAGCTCTCCTCATACTATTATTCTTGACATCTCTGATTAGCATATAAATAGTCGCCTAGGCCATCTCTCCTTCGAAT
+ACCCTGGATCAGTTGGGGCTGGTCCCCGGCAGGTGGCGACCGAACAGGGACCTCAGGAGGCAATACTCAAAGAGCTGAGC
+AGACACGAACCACGCAATCAGCAGGCAATAAGCATGGAGCTCAGCAGTGACGAATCATGCTGCTCAACTGGCAATAATCA
+AGCACGTGACCAGGCAGGAATCACGCAGCTCAGCTGGCAATTGTCAAGCAGATGAGCCGACAGGAATCACGCAGCTCAGC
+TGGCAATTGTCATGCAGATGAGCCGGCAGGAATCACACAGCTCAGCAGGCCCT
+>ref|V00116.1| Bos taurus repetitive sequence element (insertion sequence like). Designation is INS-1.711 B, isolated from satellite DNA of density 1.711 g/ml
+TGCGTGAGCCGGCATATTGCATATTGAGTGCATATTGCATATTGCATATTGAGTGCAGCACTTTCCACAGCATCATCTTT
+CAGGATCTGGAATAGCTCCACTGGAATTCTATCACTGCTGGGAGCCAGTGAGGAACTCCGCCTATGATAAAGGTTATGAG
+GAAGGAGGCTCGGCATACGCAAAGGCGGGATCGAGCTTCAGGAGTCCCCCTGGAAATTCTCGAGCATATACCCCCAAAAC
+CAGAGTCTGCCTACTTTCTGCTTGTGCTTTCACCTAAACCTCTGACTTTACGGGGGGCTCTCCCCCACTACCTCTCTCTG
+AAAAAAGAGTTAGCTTACAGTTCCAGTTAATAATTCCTGGGTGTGACAGTGTTTAACCTACAAACTCCTTTGGAAATCCT
+CTAGCCTGCCTGAATAGGTTTTTTCGGCCACATGGGATTGTTCAGAGCCTCCCAACTGTGAGAGGCAGGAGATGTTCTAA
+ACTGTCTAAACACAGATTCTTTTGAGTAGTTACAAGATTGATTAGAAATTGTATTGGTGAATGGTTTTTCACTTGTTGGG
+CCATTGTTTGCTGCTAAGTTTCCATATCCCTTACCTGCTGTGTCCCTGGCAGTGTATTGATTAATATAATTGGTGTAAGT
+AGTAGCTTTAATGTTTGTAACCTGGGACCCTTGAGTTAATTCTTTTTCTTGTTATAGCCCACCACACCTTTGCTCTGTAG
+GAATGCAACTTTATCTAATGCTTTTTTGGAGGGTGGCTCCTGACCAACCACCTTTAGAGAAAAATAAGTTTTCTGAAGAA
+AAGGTCTTAAAATGTTAACAGGCCTCCGGGCCAGAAGATGATGCAAATCACCTAAGCTTTTGCATATGATAAGTTTGCAG
+GAAGAAAGCCTGGTTTGCTGCAAGACTCGACCCCTTCCCCCATTATCCTCTATGCATAACTTAAGGTATAAAAACTACTT
+TGAAAAATAAAGTGCGGGCCTTGTTCACCGAAACTTGGTCTCACCATGTCGTTCTTTCTCTTACCTTCTGGCTGAATTAT
+TCAGCCTCTTTTCTCCACTGAATTTCCTCACTGAGCTATCCTCATTCTATTACTCTTTATATCCTTAATTAACATTTAAT
+TAAGCAGTGGTTTCCTGATCTTCGCCTACGCCGTCTCTCCTTCGAATACCCTGGATCAGCCGGGGCTGGTCCCCGGCA
+>ref|V00118.1| Bovine satellite DNA fragment
+GATCATGCACTGTTCACGTGACT
+>ref|V00119.1| Bovine satellite DNA fragment
+CAGGCCCGGATCACGTGACTGAGCATGCACTGTTCACGTGGCT
+>ref|V00123.1| Bovine satellite DNA fragment
+GATCATGTGCCTCTCGAGGCAATGAACATAGAGCTGAGTAGGCAGGAATCAGTCAGCAGGCTATAATCATGGAACTCACC
+TCTGAGAAATCATGCTGCTCAGCTGGCAATAATCAAGTAGATGAGCAGGCAGGAATTACGCAGCACAGGTGGCAATTGTC
+AAGGAGATGACAGGCAGGAATCGTGCAGCTAAGCTGGAAATTGTCAAGCAGATGAGCAGACAGTAATCACGCAGCTCAGC
+AGGCCCA
+>ref|V00124.1| Primary structure of bovine 1.715 satellite DNA
+AGGCTGCCTCTTGTGTTGGCCCAGGCAAGTCCAATCTTCCATTCGAGTTGCGAAGGAAAGCTGGGGATTGCTCTCGAGTG
+ACTGCAGGGCCAATAGACCTCATCTAGGCTTGTGTCCAGAAGCCAGTGTTCCTCTCCAGGGGCGACAGGGATCTCGGGGT
+TGCATTCCAGACGCACCCGGGGAGACAGGCATTCATCTCGAGTGGAAGCAAAGAACGTCCGCTCTGCTCTCGAATCGCGA
+CGGGTATCTCTTGGAGCTCACTGGGTGGACTCAAGGGAGTCAAGCCTCCTGAGGCGTTTGGAGAGAGGTCGCGAGATTGG
+TCTCTAGGCCACGCAGGAGACGAAGGCCCTCATCTCTCGATGACGGGGGAATCTCGGGGTTGTTCTCGAGCGGCGGCCCC
+AGTGTGCGGTTTCTCACGAGGTACGACGGCGAGGTCAGTGAGCCTCTCGTGGGGCGCCAGGGAAGTCGGGTCTCCATGCG
+AGTGGCGAGGGGGAGCGCGTCATTGCTCCCGAGCCATGGTAGGGGAATGTGGCCTCGAGACGTGTTGAAGAAGGTCTCTC
+GAGGTCTTTCTCGGGTTGAGGCAGGAAACCCTGGGTTCCCTCGACTTGTGCAGGTGACCTCAGGGGGCTTCTCATGGTGG
+CTCTGAGAAGCCAGGGAAACTGGAGGTGGGAGGGGCCTCTCGGGACTCCACTGGGCTTGGTGCATTGGAAGAGGGCCTCA
+TCTCCAGTTGAGGCAGGAACCGCAGGGTACCTCTGATTTCAGACTCCGATCGCAGGGTCCCTGCAGACTGGGGACAGGAG
+AGTCAGGCCTCGTCTTGGGTTGAGGCATGGAACTCCGCTTGCCTCTCGAGATGTCCCCGGGGAGAGAGGCCGCTTGTCGA
+GCTGTATTTGGAACCTGGGGTTTTTTCCGAACGATGCACGGAAAAACTGCCCCTTCGTGTTGACTTCATTCACAGGCTGG
+AGTTCGGAGAGGTGTCCGGGCATCGGGTTCTTATCAAGAGGGGACCGGGAAATCGGGGTCCTACGGAATGTGGAACCACC
+CACGAGGCCACGTCTGGAATGTCTTCGTGAGACCGGCCTCATCCTGAGGTGCGACCGGAAGGATCGGGAACCCCTTCCAG
+ACAAAGCAGGGGAGTCGACCCTCCTGTCCAGATCAGGAGGGGAGAAAGGGCTCAGAGGAGGGGGTGCCGGAAAACCTCAG
+TGTTCCTCTCGAGGGAGACCGGGATTTCGGGGAACTTTGTGGGTCGCATCAAGGGTGCCAAGGGCCCTTTCGACCTCCAA
+TTCCTAACGTGGGACTTCTCCTGAGGCGCAGTAGCGGGAAAGGGCTTCATCTTGCGATGACGGGGGAGCCACGTGGTTTT
+TCTCGAGTTACGGCGGGATTCTCGAGTTACGACGGGGAATTC
+>ref|V00125.1| The 1399 bp repeated unit of bovine 1.715 satellite DNA (consensus sequence)
+AATTCAGGCTGCCTCTTGTGTTGGCCCAGGCAAGTCCAATCTTCCATTCGAGTTGCGAAGGAAAGCTGGGGATTGCTCTC
+GAGTGACTGCAGGGCCAATAGACCTCATCTAGGCTTGTGTCCAGAAGCCAATGTTCCTCTCCAGGGGCGACAGGGATCTC
+GGGGTTGCATTCCAGACGCACCCGGGGAGACAGGCATTCATCTCGAGTGGAAGCAAAGAACCCCGCTCTGCTCTCGAATT
+GTGACGGGTATCTCTTGGAGCTCACTGGGTGGACTCAAGGGAGTCAAGCCTCCTGAGGCGTTTGGAGAGAGGTCGCGAGA
+TTGGTCTCTAGGCCATGCAGGAGACGAAGGCCCTCATCTCTCGATGACGGCCCAATCTCGGGGTTGTTCTCGAGCGGCGG
+CCCCAGTGTGCGGTTTCTCACGAGGTACAACGGCGAGGTCAGTGAGCCTCTCGTGGGGCGCCAGGGAAGTCGGGTCTCCA
+TGCGAGTGGCGAGGGGGAGCGCGTCATTGCTCCCGAGCCATGGTAGGGGAATCTGGCCTCGAGACGTGTTGAAGAAGGTC
+TCTCGAGGGCTTTCCCGGGTTGAGGCAGGAAACCCTGGGTTCCCTCGACTTGTGCAGGTGACCTCAGGGGGCTTCTCACG
+GTGGCTCTGAGAAGCCAGGGAAACTGGAGGTGGGAGGGGCCTCTTGGGACTCCACTGGGCTTGGTGCATTGGAAGAGGGC
+CTCATCTCCAGTGGAGGCAGGAACCGCAGGTACCTCTGATTTCAGACTCCGATCGCAGGGTCCCTGCAGACTGGGGACAG
+GAGAGTCAGGCCTCGTCTTGGGTTGAGGCATGGAACTCCGCTTGCCTCTCGAGATGTCCCCGGGGAGAGAGGCCGCTTGT
+CGAGCTGTATTTGGAACCTGGGGTTTTTTCCGAACGATGCACGGAAAAACTGCCCCCTCGTGTTGACTTCATTCACAGGC
+TGGAGTTCGGAGAGGTGTCCGGGCATCGGGTTCTTATCAAGAGGGGACCGGGAAATCGGGGTCCTACGGAATGTGGAACC
+ACCCACGAGGCCACGTCTGGAATGTCTTCGTGAGACCGGCCTCATCCTGAGGTGCGACCGGAAGGTCGGGAACCCCTTCC
+AGACAAAGCAGGGGAGTCGACCCTCCTGTCCAGATCAGGAGGGGAGAAAGGGCTCAGAGGAGGGGGTGCCGGAAAACCTC
+AGTGTTCCTCTCGAGGGAGACCGGGATTTCGGGGAACTTTGTGGGTCGCATCAAGGGTGCCAAGTGCCCTTTCGACCTCC
+AATTCCTAACGTGGGACTTCTCCTGAGGCGCTGTAGCCCCAAAGGGCTTCATCTTGCGATGACGGGGGAGCCACGTGGTT
+TTTCTCGAGTTACGGCGGGATTCTCAAGTTGCGACGGGG
+>ref|X03116.1| Bovine satellite II DNA repeat unit
+CTCCGTTTGTGCCCAGAAACCGCCTGCCAGACCGGGCCTTCCCTGGAGCTGTCCTCCCGCCTAGAGGCAGGTGGATGTGC
+TGTGCGGGCTTCCCCTGGGCGTTTGGGCTCCCTAGCAGAGCCGCAGCGCAGGGGAACCAGCCCATGATCAGTGAGCTCCG
+GGCAGTTACTTTGGTCCCAGGTTGGGAGCCCAAAGCCCGGAACGCGGGAGAGAAGAGGCTGGCTGCCGGCGGGTGCTTGC
+CACGCCTGTACTGGGAGGACCGAGTGAGCTTCCACACCGGCGGAGCTCCAGCTCTGCGCCCAGGCGCGATAGCACAGAGC
+CCCGGCCGAGAGGCTGCTCTGGCCGGGGCGAGCCTCCCCACGCCCTGCCCAGCTTCTAGCGTTCGCGCCCGGGAAGGAGC
+AGGCTGCGGGAGTGTGGGAGCTGTGAGTGGTGCCTGACTGCTGCCTCAGCTCAGCTCTCGCCTTCCCTTCGGACCTAGGA
+GCCAGGCGTCCTTGCAGAGGGCTTAGGGGCTGGGGGTGTGCACACTGCCAAAGCCTCCCGCGGGGAGAGCTCTTTCCGAG
+GGAAAGGAAGCGCCCCAGGCTGCATTCCCAAGCTGGTGCTTCCCCGCCCAGACTAAGCGCCGCACGGAGGGAATCAGGGT
+CCCGGTGCCCCTGGCTTGGGGAGGCAGCTCCACAGCCAGAGTGTTG
+>ref|V00126.1| Bovine satellite DNA fragment
+GATCATACACTGCTCACGTAACTGATGATGCACTGACTACGTGGCTATCATGCACT
+>ref|V00127.1| Bovine satellite DNA fragment
+GATCATTCACTGATCACGTGACTGACCATGCACGGATCACGTGACT
+>ref|V00128.1| Bovine satellite DNA fragment
+GATCCTGCACTGATCACATGGCTCATCACGCACTGATCACGTGAGTAATCATGCACTCTTCACGTGCATGATCATGCACT
+GATCACGTGGCTATCATGCACTGCTCACGTGGCT
+>ref|V00129.1| Bovine satellite DNA fragment
+GATCACGTGACTTAATGGCGCTGATCACGTGGCTATCATGCACTGATCACGTGGATATCATGCACT
+>ref|V00130.1| Bovine satellite DNA fragment
+GATCATGCACTGATACCGTGACTGAGCATGGACGGATCACGTGGCTATCCTGCACT
+>ref|V00131.1| Bovine satellite DNA fragment
+GATCACGTCTATATCATGCACTGATCACATGACTGCCCATGCACTGATCACGTGAT
+>ref|V00132.1| Bovine satellite DNA fragment
+GATCATGCACTGATCACGTGGCTATCATGCACTGCTCACGTGGCTGATCATGCAATGATCACGTAGCTACCATGCACTGG
+TCACGTGACTGATCGTGCACTGCTCAGGTAATTGATCATGCACTGATCACGTGACT
+>ref|V00133.1| Bovine satellite DNA fragment
+CAGGCCCTGATCACGTGACTGAGCATGCACTGATCACGTGGATGATCACACACCTATCACGTGACTGATCATGCACTGAT
+CATGTGACTGATCATGCACTGATGACGTGGCTATTAATGCACTGATCACTTGGCTGGACATACACT
+>ref|X15543.1| B.taurus mRNA for RF-36-DNA-binding protein
+CGACCCCGACTTCGTAGTGGTGGATGGCGTGCTGTCATGCTCCCGTCCTATGATGAGGCTGTGAGCGGCGGCTTCAGTGC
+CTTAGGCCCCGGGTACCTGGCCTCTGTGGGCCAGGCTGCCCCTTACCTGTGGACGACCAGAGCCCCCCAGCATACCCTGG
+CTCAGGGGACACAGACACGGGCCCGGGGGAGTCAGAGACCTGTGACAGTGTCTCAGGCTCTTCGGAGTTGCTCCAGAGTC
+TATATTCACCTCCCACATGCCAAGGGGGCACCACCCCGCGTTCCAACAACCCTGACACAGCTCCCAGCACGGTGGGGGAG
+GTTGGCATCCACCAGCCCAGGCATCGACATTGCAGATGAGATCCCTCTAATGGAAGAAGATCCATAATTGGAAAAAGTCC
+TGATGATTCTGCTACCCCTTTGGGAATGGGAACCGCTGTACTTTGGAGTGAGGCTCTGGAGGACAGAGCTTGGGGGGATG
+GAGCAAGTTTTCTAATCTATCAACAACACGGGACAGTGACTCATATTGTGCATCTCGGATTCAAGAGTGAGGCTGATAAA
+CGGCAGCGGCAGTGCTTTAAAAGGAGACTTGAGAATTTGCCAAGACCAGTGAGGAACAGAAGGATAAGGGGGAACCCTGA
+GCAGTCCTGGATGAAGGTATTAAGGGCATCTCGTGCTGCCGAACATGGGACAGACGGTTCCACGCATATATCCACCAAAT
+ATCACCGCCCACCGACTTACGAGTACTACCCGCCTCCTCTGAAAGCATGGAATT
+>ref|X52689.1| Bovine rho GDI mRNA for GDP dissociation inhibitor for the rho protein
+GAATTCCCGATCCTCCGGTGTCTCACATCCAGCTAGAGGTGAGTATGGCTGAGCAGGAGCCCACAGCTGAGCAGTTGGCA
+CAGATTGCGGCAGAGAACGAGGAGGACGAGCACTCAGTCAACTATAAGCCCCCGGCCCAGAAGAGCATTCAGGAGATCCA
+GGAGCTGGACAAGGACGACGAGAGTCTGCGCAAGTACAAGGAGGCCCTTCTGGGCCGTGTGGCTGTGTCTGCTGACCCCA
+ATGTCCCCAATGTTGTGGTGACCCGACTAACCCTGGTGTGTAGTACTGCCCCGGGCCCCCTGGAGCTGGACCTGACAGGT
+GATCTGGAGAGCTTCAAGAAGCAGTCCTTTGTGCTGAAGGAGGGTGTGGAATATCGGATAAAAATCTCCTTCCGGGTGAA
+CCGAGAGATTGTGTCTGGCATGAAGTACATCCAGCACACGTACAGGAAAGGCGTGAAGATTGACAAGACCGACTACATGG
+TGGGGAGCTATGGGCCCCGGGCGGAGGAGTATGAGTTCCTGACCCCCATGGAGGAGGCGCCCAAGGGCATGCTGGCTCGA
+GGCAGCTACAACATCAAGTCCCGCTTCACAGACGACGACAGGACCGACCACCTGTCCTGGGAGTGGAATCTCACCATCAA
+GAAGGAGTGGAAGGACTGAGCCTCCTGCCGGGAGCGGGGCAGGGCAGGCGGACGGAAGGACGGACGCGCCCCACCCCACC
+ACCCCAACCCCCTGACCCCAAACCAAAGTGCTGACAGGGCCCCGCCACGTGCCACCACTA
+>ref|V00134.1| Bos taurus arginine specific tRNA (from liver)
+GACCCAGTGGCCTAATGGATAAGGCATCAGCCTCCGGAGCTGGGGATTGTGGGTTCGAGTCCCATCTGGGTCGCCA
+>ref|X00950.1| Bovine mRNA for oxytocin precursor and neurophysin I
+CGTTGACCTCCGCCTGCTACATTCAGAACTGCCCCCTGGGCGGCAAACGCGCGGTGCTGGACCTCGACGTGCGCACGTGT
+CTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGG
+CACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCG
+GGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAGCCCGGACGGCTGCCACGAGGACCCCGCCTGCGACCCTGAGGCCGCC
+TTCTCCCAGCACTGAGACCGGCCGGCCCCCGATACCGTCGGAGCGCAGCCCTCACTCCCTCTGTAATCATCCCTAGGAAT
+TATGACAATGAAATAAAGCCGGTTTTTTCCCCCTCC
+>ref|X61612.1| B.taurus mRNA for vacuolar H+ATPase Mr 70000 subunit
+CGGGATCGGTACGGTTTCTGCACCTCGCGCCCCGGCAGGTAAATTAACATGATGGATTTCTCCAAGCTCCCCAAAATACG
+TGATGAAGATAAAGAAAGCACGTTTGGTTATGTGCATGGGGTCTCAGGACCTGTGGTTACCGCCTGTGACATGGCAGGCG
+CAGCCATGTACGAGCTGGTGAGAGTGGGCCACAGCGAGTTGGTTGGAGAGATTATCCGATTAGAGGGCGACATGGCTACT
+ATCCAGGTGTATGAAGAAACTTCTGGTGTGTCTGTTGGAGACCCTGTACTTCGCACTGGTAAACCCCTCTCAGTTGAGCT
+TGGTCCAGGCATTATGGGAGCCATTTTTGATGGTATTCAAAGACCTTTGTCGGATATCAGCAGTCAGACTCAAAGTATTT
+ACATTCCCAGAGGAGTAAATGTGTCTGCTCTTAGCAGAGATGTCAAATGGGATTTCACACCTTGCAAAAACCTACGGGTT
+GGTAGTCACATCACTGGTGGAGATATTTACGGAATTGTCAATGAGAACTCTCTCATCAAACACAAAATCATGTTGCCTCC
+ACGAAACAGAGGAACTGTCACCTACATCGCTCCACCTGGAAATTACGATACCTCTGATGTCGTGTTGGAGCTTGAATTTG
+AAGGTATAAAGGAGAAGTTCAGCATGGTCCAAGTATGGCCTGTACGTCAGGTTCGGCCTGTCACTGAGAAGTTGCCAGCT
+AATCATCCTCTGTTGACTGGCCAGAGAGTCCTTGATGCCCTTTTTCCATGTGTACAGGGAGGAACTACTGCAATCCCTGG
+GGCCTTTGGCTGTGGGAAGACAGTGATATCACAGTCTCTATCCAAGTATTCCAACAGTGATGTGATCATCTACGTAGGAT
+GTGGTGAGAGAGGAAACGAGATGTCTGAAGTCCTCCGGGACTTCCCAGAGCTCACGATGGAAGTCGATGGTAAGGTAGAG
+TCAATTATGAAGAGAACAGCATTGGTAGCCAATACATCCAATATGCCTGTGGCTGCTAGAGAAGCCTCTATTTATACTGG
+AATTACACTGTCAGAATATTTCCGTGACATGGGCTATCATGTCAGTATGATGGCTGACTCCACCTCTCGATGGGCTGAGG
+CTCTTAGAGAAATCTCTGGTCGTTTGGCTGAAATGCCTGCAGATAGTGGATATCCTGCATATCTTGGTGCCCGTTTGGCC
+TCTTTCTATGAGCGAGCCGGCAGAGTGAAGTGTCTTGGAAATCCTGAGAGGGAAGGGAGTGTCAGCATTGTAGGAGCAGT
+TTCTCCACCTGGTGGTGACTTTTCTGATCCAGTTACATCTGCTACTCTTGGTATTGTTCAGGTGTTCTGGGGCTTAGATA
+AGAAACTAGCTCAACGTAAGCATTTCCCTTCTGTCAATTGGCTGATCAGCTACAGCAAGTACATGCGTGCCTTGGATGAG
+TACTACGACAAACACTTCACAGAGTTCGTCCCTCTGAGGACCAAAGCTAAGGAGATTCTGCAGGAAGAAGAAGACTTGGC
+AGAAATCGTACAGCTGGTGGGAAAGGCTTCTCTAGCAGAAACAGATAAAATCACTCTGGAGGTAGCAAAACTTATCAAAG
+ATGATTTCCTTCAACAAAATGGATATACTCCTTATGACAGGTTCTGCCCATTCTACAAGACAGTGGGGATGCTGTCCAAC
+ATGATTGCATTTTATGATATGGCCCGCAGAGCTGTTGAAACCACTGCCCAGAGTGACAATAAAATCACATGGTCCATTAT
+CCGTGAGCACATGGGGGAGATCCTCTATAAGCTTTCCTCCATGAAATTCAAGGATCCAGTGAAAGATGGTGAGGCGAAGA
+TCAAGGCCGACTATGCACAACTTCTTGAAGATATGCAGAATGCATTCCGTAGCCTTGAAGATTAGAACTGTGATCTCTCT
+CCTCCTTTTCCTCAGCAAGCTCTCATACGTGTATATTTTCCTAAATTTCTCATCTTGGACCCTTTGCTTCTTTACTGTGC
+AGGTTTGAGACTAGTGCCTCTGTGTGTAATCATTTGTTTCCCCATTTATTTGATAGGTCTTATATAAAACAAACATTCCT
+TTGTTCCAGTGTTTGAAGGGCCCCCCCTGAACATTTCTCCGAAGTGGTGAATGTAGTAAATTTGATACACGATGGCTACA
+CTACTGTAAACGTGTATGTGACGTCTCTCCTCGTCCTAGGTTTACCCTTTCCTCATCACTATTAAATTGTAAACAGGACT
+GCTGCATGTTACTCTCTTTGCAGTGGATTTGGAATGGAAGGCCAGACTTCTATACATTTTGACAGGACTTGTGAATGACT
+TTACTTGCAGCTTAGCATTTTGCTAAGTAACTGCTTACAGGAAATAATTGCTTTTTTTAAAACATGAATGATTAATGTTT
+TGATTATGTGTTGCTTCCCCCAGTATAAATCAAGAACATTTATGGGAAACTGTTGAAAACTATACTGTTTTTAAAGCAGA
+CATCTGTGGGACTCAGGACAATAGATGAAATCAGTGCCCTCTAAAAAGGTAAAAAGGAGCCAGATGGTCAAACTTAGGTT
+AACATCACCTTGTTAAAGCCTATTTTATTTCACTGGGAAAAATTCAATATCAAGTACTGTTCTACTACATTACTAGACAA
+TTCTTTTTAAATTACATTTAAAACAATCACGAGCACTTGATTCACATCACACCTTTTTTTTCCTCAAACATCTTAGAAGG
+CTAAGCTTCTGAGAATCATGTGGCAGAGTGATGGGGAGAAAAATGCCACAGATAATATGTTTTGTAGTGCTTAAAGGCTG
+TTTGCACCTCTAAGGACCAGTTGGGCTTTGGTGATTCTTGGGGCCAGAGTGGCATTATGTTTTTACAAGATAATAACATG
+TGTCACATGTTTGCATGTTTGCTTTTGAACAACCAGGTTCCTGATTGTAGAAAACACTGTTCTTTCATGTGATTTATGAT
+TCACTGGCTCGAAAGATTTCCCAGAATATCTGTAGCTGTAGCAGCATAACAGTTCCAATTCTCTTTCATAGGAATGAAGT
+TAATTCTAAAATCAGCAGGTGCAAGATAATAGAATTTGGGTTATGTGAAAA
+>ref|NM_174249.2| Bos taurus bone gamma-carboxyglutamate protein (BGLAP), mRNA
X53699.1 Bovine bone mRNA for Gla protein (BGP, osteocalcin)
+GTCCACGCAGCCGCTGACAGACACACCATGAGAACCCCCATGCTGCTCGCCCTGCTGGCCCTGGCCACACTCTGCCTCGC
+TGGCCGGGCAGATGCAAAGCCTGGTGATGCAGAGTCGGGCAAAGGCGCAGCCTTCGTGTCCAAGCAGGAGGGCAGCGAGG
+TGGTGAAGAGACTCAGGCGCTACCTGGACCACTGGCTGGGAGCCCCAGCCCCCTACCCAGATCCGCTGGAGCCCAAGAGG
+GAGGTGTGTGAGCTCAACCCTGACTGTGACGAGCTAGCTGACCACATCGGCTTCCAGGAAGCCTATCGGCGCTTCTACGG
+CCCAGTCTAGAGCTTGCAGCCCTGCCCACCTGGCTGGCAGCCCCCAGCTCTGGCTTCTCTCCAGGACCCCTCCCCTCCCC
+GTCATCCCCGCTGCTCTAGAATAAACTCCAGAAGAGGAAAAAAAAAAAAAAAAAAA
+>ref|X13767.1| Bovine tRNA-Ser(UGA) gene
+CTGCGGAGGGCTCCTGTCTTTCCGCACTCCTCTCTGTCTTTCCGCACTCCTCTCTGTCTTTCCACAAAAAGAGGAGCGCT
+CAACACAATCACCGCGGTCAAAGAGTCCAAGATGCAGAACTTTTCCAGGACGCGGGCCCGCAACACTGAAGGAGAGAGTT
+ATTTGTTTCAGCTCTCTCTCTGTGGACCTAATGAGGAAGCGGGAGGGCAAACAGCCGGCTCGAGACCAGAAGCTAAGCTA
+AGTAGGGTGGCGATTTTCGATTTTCCAAGCGCATGGAAGGGAAGGATTTCTAAGATACTTCCTTAAAGGCGTTTACTTAA
+ACTACTTAAGGGAGATTTTATTATTCCTCGCGTTAACAGGTAGCTCCTGCAACTTGAGCAGTAAGCCCCGGCCGCCTCCC
+ACAGCAGACCTCCGGAAGATTATAGGCCCCGCCCACTAGGGTGTGTGGTGCGCATGTGCTCAGTTTTAACACTAAAGTGT
+CTCCGCCTTCCTTTTCTCTACGTGGCAGCGATGGCCGAGTGGTTAAGGCGTTGGACTTGAAATCCAATGGGGTCTCCCCG
+CGCAGGTTCGAACCCTGCTCGCTGCGGAAGCGGTTGGCTTCACTCTTTTTTTACCGATTTCTAATAAATACCCTCAATTG
+ATAATCCGCATTCTTCAG
+>ref|X06737.1| Bovine Pst family repetitive sequence 1
+CTGCAGATGGTGACTGGAGTCATGAAATTAAAAGACATTTGCTCCTTGGAGAAAAGCCATGACCACCCTAGACAGCAAAT
+TAAAAAGCAGAGACATTGCTTTGCCAACAAAATCCATCTAGTCAAAGCTATGGTTTTTCCAATAGTCATGTATGGATATG
+AGAGTTGGACCATAAAGAAACCTGGGCACTAAAGAATTGATGCTTTTGAACTTTTTTTGGAGAAGACTCTTGAGTCCCTT
+GGACTGCAAGGAATTCAAACCAGTCAATCCTAAAGGAAATCAACCTTGAATATTCATTGGAAGGACTGATGCTGAGGCTG
+AAGCTCCAATGCTTTGGCCACATGATACGAAGAACTGACTCATTAGAAAGGACCCTGATGCTGGGAAAGATTGAAAGCAG
+GAGGAGAAGGGGATGACAGAGGATGAGATGGTTGATGGCATCACCAACTCAATGGACATGAATTTGAGGAAGCTCTGGGT
+GTTGGTGATGGACAGGGAACCCTTGTGTGCTGCAG
+>ref|X06738.1| Bovine Pst family repetitive sequence 2
+CTGCAGCCATGAAATTAAAAGATGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTAAAAAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCATCTAGTCAAAACTGTGTTTTTTTCCAGTAGTCATGTATGGATATGAGAGTTGGAC
+TATAAAGAAAGCTGAGCACTGAAGAATTGATGCTTTTGAGCTGTGGTATTGGAGAATTCGCTTGAGAGTCCCTTGGACTG
+CAAGGAGATCCAAGGAGTCCATCCTAAAGAGATCAGTCCTGAGTGTTCATTGGAAGGACTGATGTTGAACCTGAAACTCC
+AATACTTTGGCCACCTGATGCGAAGAGCTGACTCATTTGAAAAGTCCCTCATGATGGGAAAGATTGAAGGTGGGAGGAGA
+AAGGAACAACAGGATGAGATGGTTGGATGGCATCACCCACTCAATGGACATGAGTTTGGGTAAACTCAGGAGTTGGTGAT
+GGACAGGGAGACCTGGCATGCTGCAG
+>ref|X06739.1| Bovine Pst family repetitive sequence
+CTGCAGCCATGAAATTAAAAGACGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATCGCATATTAAATAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCGTCTAGTCAAGGCTATGGTTTTTCCAGTGGTCATGTATGGATGTGAGAGTTGGACT
+ATAAAGAAAGCTGAGCTCCAAAGAACTGATGCTTTTGAACTGTGGTTGGAGAAGACTCTTGCAAGTCCCTTGGACTGCAA
+GGAGATCCAACCAGTCCATCCTAAAGGAGATCAGTTCTGGGTGTTCATTGGTGGAACTGATGCTGAAGCTGAAACTCCAG
+TACTTTGGCCACCTGATATGAAGAGCTGACTCCTTGGAAAAGACCCTGATGCAGGGAAAGATTGAGGGCAGGAGAAAGGG
+ACAGCAGCAGAGGACGAGATGGTTGGATGGCGTCACCAACTCAATGGATATGGGTTTGGGTGGACTCAGGAGTTGGTGAT
+AGACAGGGAGGCCTGGCGTCCTGCAG
+>ref|X06740.1| Bovine Pst amily repetitive sequence
+CTGCAGCCATGAAATTAAAAGACACTTACTCCTTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTGAAAAGCAGA
+GACATTACTTTGCCAACAAGGTCAAGGCTATGGTTTTTCCAGTTGTGTGTACGGATGTGAGAGTTGGACTATGAAGAAAG
+CTGAGTGCCGAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCCTTGGACTGCAAGGAGATCC
+AACCAGTCCATTCTAAAGGAGATCAGTCCTGGGTGTTCATTGGAAGGACTGATGCTGAAGCTGAAACTCCAGTACTTTAG
+CCACCTCATGCGAAAAGTTGACTCCTTGGAAAAGACTCTGATGCTGGGAGGGATTGGGGGCAGGAGGAGAAGGGGACGAT
+AGAGGATGAGATGGCTGGATGGCATCACTGACTCGATGGACATGAGTTTGGGTGAACTCTGGGAGTTGGTGATGGACAGG
+CGCCTGGCATGCTGTGA
+>ref|X00979.1| Bovine genomic fragment for 1.709 satellite DNA
+AAGCTTGTGACAGATAGAACGATATAGCAATTTTTACCTTAGAACAAACCGAGGCACTATGAACATTTTGTGCTTCATGT
+TGATGACTCTTAGACATGTCTACAGTAGAGGAGCAAAAACAAAACTACTAGATATTTCATATTGACTAGTTCCCAGTTCA
+CGGGACTCTGACATTCCCTGAGGTCCAAGTTTTCTTGTATTGGAAGCAGTTGGGGTTGCAAGGGCTGCCTTGTCTTGAGA
+CCATTGAAATAAGAACTCAGAACTTGAGCACTATTATCAAAAATCACAAGGCTCACACTGACACAGACATCAATCCAGAC
+AGACAAGACAAGACATCTTCCAGTTTTCCGCCTGAGATGGAAAAGATTTCTTTGAGCCGTTTTTTCTGGGGAGTGGGGGG
+TGGGGCTGGCGGCCAGGCAGGCTTTGGGAAGGAGCTCAGGGTTTGGAATTGCATATGAAAAGAACCAGCTTTCCGGGTTC
+CAAGGAATCAAGTTTCCTTGGAAACCAACTTTGTCCGGTTCTGTAGAATATCATGGCCCTCCCAGGTCAGGTCATCTTTC
+CTTTCCGTAGCCCTCGTTTGATCCCTGAATTCTAGACAGCTTGGATTGCCTCTGTGGGCTGGATGGATTGTCCTCCCGTT
+TCACCGGGCGGCGGGAGCGAGGTCCCAGAGGCTCTCCTGGAACCGGGCGTGGGGGCGGGGCTCACCGGGAGCCCGTGGTG
+AAGGTGGGCAGCGCACCGGGAGCGCGCCCGGGGCGGGCGAAGCCGGGCGGCGCGGGTCGGGAATCGGGTCGTGGCGGGGA
+TGGGGGGCGGTCCCGATTGTGCTCCGGGGATCCCCACTGCGGCTGGGAAGGCACCGGGAGCATGGCAGGGGCGGGGCGGC
+GCGGGGCAGGGGGCGCTCCTGGCGGGGGTAGGGGAGGGGTTCCCCGTTGTCCTCTCGGGGGTCGCCGTGGCGGCTTGGAA
+CGCCCATTGCGTGCGCTCCTGTGTCCCCAAGGGTCGGCATCCAGTGGGCGCGGCGGAGGGGTGCGGACCACAGGTCAGGG
+AACTGGGACTGCGTGGAGCAGGGAACCACGTAGTCCGCCCTCTGTTGGCACAACCTGGCGGTCGCAGAAAGGCCTCGCCT
+TTGGGCTCAAGGCCTTGACCGCTCCACCCCTTTGCTGAAAGGTCAGAGCCGCGCGGTTTTCCCAAGCAGCCGAGTGTCCG
+CTGCAAGTCCAAGGGCCAGAACCCTGAACTCTGGCCGGCTGGCCAGCCCTGCTTCTGGCACTTTGGAGGCCAGCGGGCCT
+TGACCACCTGCTGGGATGGGAAAGGGAAGGGTCCACGAATTGCACCCTAGAAACTTAGTAGGGTGCATGGGTTTCAAAAC
+CCGGTGGCCGCCCAGGCAGCAAACAAGGGAGGAGGGCACCCTGCTGCCCTTTCATGGCAGCATCTGTGGCTGTCCTGCTG
+AGGGGGCCTTTCCATGGGGACCGTGTGCGGTACAAGTTTTGGGTGTTTTGGAACCGAATAATTAGAACGTGTAAAACTTT
+TAAATGATGTGGTGGTTTGATTCAAACAAAACAAAACCAAACAAAACAAAAAACCAAGCTCAAGTTTTTTGCAAATTTAG
+GTCTTAATATTGAAGGCCTGTGTTCCTTCCACTGTGGCATTGTACGAAGAAATGTGCGGGTTTATTTTTTTTTTTTAATT
+TGCTTTTTGTTTTTCTTTTTTTTTAGAAAAGATTCCGAAAAATGAGGGAAACAGGAAGCCCAGAGGTGCCCCTGTAGTTT
+GGCGAAGGCCTTAGGAGGCCACTTGGAAATGCTGCTGGCTGTGAGGGGGGGAGGGTGCAGATGTGCACAGAGCTGTGCAG
+GCTTGTCCTTTGCATTGATGTTCTTTGTAGAAATCCACCTCGGAGCCATCTCCTGATGTGTAAGCATTTCCCAGACAAAC
+CTTGAGCTAAGCAATGCGTTTTTTCCTTAGGAAATGTTGGTCTTCAGCGATGTTCAAAGCCTGTGTATTTCGGCTAGACT
+CTGGCTTCAGGTCGGTTCCCCCAAAAGGCTCAGAAGCGACCTGAACCAAACAGTAAGTTTTCCTCCTACCTTGTTCTCCT
+CATCTACGTTAAGAGTATACTTTAAGAGTATCCTGGCACATACATGTACTGCCTCACCCCTAGCCTCAGTCATGTGTTCC
+AAGAACTTCTGTCCGTTTATTTATTTGTTTTTGGTAACATTGAATTCGTTTTGACTATGCTGGGTCTTTGCCGCTCGCTG
+GAAGTTGCTAGGACCTCTGGACTGCAGTCTCCCATCTCTTGCTGACCTCAGGTTGACCTCTGCAGAATCCTGGTTGGTGG
+GAGCTTTTTAGTTCCTTGTTCCTTACCCGGACCTCCTGTGGTAAGTGTTTTCTCTCCTCTGGGGCCTGCTAAGGGTGGGT
+GGGCATTGGCATGCCAAAGGTGGCTAGAAGTCAATGATTTAGGCAGGCTTGTGAATAGATATGGGAGGAGGCAATGGCAC
+CCCACTCCAGTACTCTTGCCTGGAAAATCTCATGGACGGAAGAGCCTGGTAGGCTGCAGTCCATGGGGTCGCTCAGAGTC
+GGGCACGACTGAGCGACTTCACTTTCACATTTCACTTTCATGCATTGGAGGAGGACATGGCAACCCACTCCAGTGTTCTT
+GCCTGGAGAACCCCAGGGACTGCGGGGCCTGGTGGGCTGCCGTCCATGGGGTCACACAGACTCGGAAACGACTGAAACGA
+CTTCGCAGCAGCAGCAGCAGCAGCAGCAGCAGTGCATAAATATCAAAAGGGTTTAGAACAGTCAGGTAGGATCACACAAG
+TCACCGTGAAGCAATACTTCTCCACTTAGTCAAAGCTAACAAAAGATTTCTCTTCTAGGTCAACCTAGAAGAGATCACGG
+AAGAGGTAAAGAAACTTAAAATCCATTAGCAAAGGCAGTTCAACCTCTCAAGAAACCTTGTGCTAGGCACAACACTCTTT
+TCTGGGGGTCCACGTTCCCTACAACCTCCTGATCCCATTCTGTACCCATTCCTTTGCTTCTCCCATCCTGAAACTGCCAC
+CTGGAAGAAAGAACGACGTCGTTTTCCTTCAGAAAATGCGATTTCATGCCACATACCTTCTTTTAATACCAAGTCATACA
+TTTCACTTCAGCAACCAAGAACTGACTTTTATATTGGCATTCGACAGATTGGTGAACATACCTATCAGTGATAGTAGCGC
+CCCTCCCCTCCCCCGCACGCACGCACACACACACACACACACACACACACACACACCCAAGATCAGAACCAAACAAAACA
+AAAAAAAATTGCTTTCTTACGTTTCACATGTCAGGATGGTGCCAGACACTCTTATTGGATAGTCAAAAATCTCTTTTGTT
+TCTGTGTAAAAGGGAGGTCCTTTCAAGGCGTGAATGTTTCAGAACTTGAATTTATTTGGAAATGACCCAGCTCTTCAGTA
+CACTGTCGTCACTTAGTTTAGCACAGGATAGAAACTCGGGTAACCAAAACACCTGGAGAAACGATTGTATGTTCAGTTCA
+GTTCAGTGGCTCAGTCGTGTCTGACTCTTTGGGACCCCGTGGCCTGCAGGACGCTGGGCTTCCGTGTCCATCACCAACTC
+CAGGGGCTTGCTCAAACTCATGTCCATCGAATCAGTGATGCCATCCAACCATCTTAGCCTCTGTCGTCCCCTTCTCCTCT
+GCCTTCAATCAAGACTCTCATAGGCAGATATTTTCGAGTGTAATTAGTGTTCATAGTTTATCTAAAAGCTCATATCACAT
+TTAATTTTTCGTTTTGTTCCTGTTCTTTCGAGGTACTTTCTTGTTGAC
+>ref|X03160.1| Bovine satellite DNA I repeat (B)
+CGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTGCATGGGCCAACACAAGAGGCCGCCTGAAT
+TCCCCGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAAACACGTGGCTCCCCCGTCATCGCAAGATGAAGCCCTTT
+CCGGCTACAGCGCCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAAGGGCCCTTGGCACCCTTGATGCGACCCAC
+AAAGTTCCCCGAAATCCCGGTCTCCCTCGAGAGGAACACTGAGGTTTTCCGCCACCCCCTCCTCTGAGCCCTTTCTCCCC
+TCCTGA
+>ref|X03161.1| Bovine satellite DNA I repeat (C)
+CACTCGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCCCTGGGCCAACACAAGAGGCACCCT
+GAATTCCCCGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAACCCACGTGGTTCCCCCGTCATCGCAAGATGAAGCC
+CTTTCCTGCTAGAGCGTCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCC
+CGACAAAGTTCCCCGGCATCCCGGTCTCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCACTTCCTCTGAGCCCCTTCG
+ACCCTCCTGA
+>ref|X03162.1| Bovine satellite DNA I repeat (D)
+CGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTGCATGGGCCAACACAAGAGGCATCCTGAAT
+TCCCCGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAAACACGTGGCTCCCCCGTCATCGCAAGATGAAGCCCTTT
+CCCACTACAGCATCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGACCCAC
+AAAGTTCCCCGAAATCCCGGTCTCCCTCGAGAGGAACACTGAGGTTTTCCGCCACCCCCTCCTCTG
+>ref|X03163.1| Bovine satellite DNA I repeat (E)
+AGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCCCTGGGCCAACACAAGAGGCATCCCGAATTCCC
+TGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAAACCACGTGGTTCCCCCGTCATCGCAAGATGAAGCCCTTTCCCG
+CTACAGCGTCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCCCCCACAAA
+GTTCCCCGGAATCCCGGTATCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCACTTCCTCTGAGCCCTTATACCCCTCC
+TGA
+>ref|X03164.1| Bovine satellite DNA I repeat (F)
+CACTCGAGAGCAATGCCCAGCTTTCCTTCGCAACTCGAGTGGAAGATTGCAATTGCCTGGGCCAACACAAGAGGCATCCT
+GAATTCCCCGTCGTAACTCGAGAACCCCGCCGTAACTCGAGAAAAACCACGTGGCTCCCCCGTCATCGCAAGATGAAGCC
+CTTTCCCGCTACAGCGCCTCAGGAGAAGACCCACGTTAGGAATTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGAC
+CCGCAAAGTTCCCCGAAATCCCGGTATCCCTCGAGAGGAACGCTGAGGTTTTCCGCCACC
+>ref|X03165.1| Bovine satellite DNA I repeat (G)
+AGCAATCCCCAACTTTCCTTCGCAACTCGACTGGAAGATTGCACTTGCCTGGGCCAACACAAGAGGCAGCCTGAATTCCC
+CGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAACCACGTGGCTCCCCCGGCATCGCAAGATGAAGCCCTTTCCCG
+CTACAGCGCCTCAGGAGAAGTCCCACGTTAGGAACTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGACCCACAAAG
+TTCCCCGAAATCCCGGTATCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCCCCTCCTCTGAGCCCTTTCTCCCCTCCT
+GA
+>ref|X03166.1| Bovine satellite DNA I repeat (H)
+AGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCGCTTGGGCCAACACAAGAGGCATCCCGAATT
+CCCCGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAAACCACGTGGTTCCCCCGTCATCGCAAGATGAAGCCCTTTC
+CCGCTACAGCGTCTCAGGAGAAGTGCCACGTGAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCCCCCAC
+AAAGTTCCCCGGAATCCCGGTCTCCC
+>ref|X54551.1| Bovine gene for transfer-RNA(Ser)(Sec) (selenocysteine inserting tRNA)
+GAATTCAGATTTTTCAGGAAAGAAGCTTCTGAATCCCGAATTATGAATCTTTTTTGTTTTAAAAAAATTAATGGACTTCT
+CTCTTGGATAAAAGGGGCTTCAGTCTCTTTAACAGCTAGACACGAGGGGGCCACGTCCTGTACCACCGTTTCCCAGAATG
+CGCGGCGCTATGCAAATGAGACAGTTTCCAAAGAGACGTGATTCAATTCATAGGAGGCAAACGCAGCATTTTGGGAGGAT
+GTCTGTCGTAATAATATTGGTAGAGTTTATAGATGTTGAAATCGACAGTTTCACAGTCTCGCAAACTATATCACCATAAC
+TGTAAAAAAGTAGAAATTTCTGGCTTTTATATAGCTGTACGGGTAAGTTTTTATGTTGCCCGGATGATCCTCAGTGGTCT
+GGGGTGCAGGCTTCAAACCTGTAGCTGTCTAGCGACAGAGTGGTTCAATTCCACCTTTCGGGCGAGGTGGTTTCTCTTTT
+TCTTCTTCCAAACTGGACATTAGAATGCGAGTTGGCCCAGAGGACCTCGGACCCGCGTCTGGAGATATCGCTGCAG
+>ref|NM_174469.2| Bos taurus tachykinin receptor 2 (TACR2), mRNA
X06295.1 Bovine mRNA for substance-K receptor (SKR)
+CTGATCCCTAATGTCTCCTGAACCACATTAGGAGGGACCTGGGTTTGAGTTTATCACCAACTTACTACATGACCTGGGCT
+GGTCCCCACTTGGAATGTTTTTCCATTTCTGCAGTGAAGATGCAGGCTGATGATTTAGAAGGATGCCTCTTACTCTGAGA
+CCACGTCTTGGATTCTAGATATCCACGTGACGTTGGAGAAGGCTGGCCAGGACATGGGAATCTGAAGTGCCTAGGGCTCT
+GGACCCGGCTGTCTGCTCAGCCTAACTCATCTCTGTTTGAGACTTGGGAGTGACCCCCCAGCTCCCTGGACGCGCCTGGC
+TCGGCACCTACTCCTCCTGCTCCCCGCACTCAGAGAGGATTTGTGTGCTCCCACAGGGCACCAGGGCCTGGAGGGAGCCA
+AGGAGCCTTACCTCTTGTGCCAGACTCAGAGGCGGCCATGGGGGCCTGTGTCGTGATGACCGATATCAACATCTCGTCTG
+GCCTTGACAGCAATGCCACGGGCATCACAGCCTTCTCCATGCCCGGCTGGCAGCTGGCACTGTGGACCGCAGCCTACCTG
+GCCCTGGTGCTGGTGGCTGTGATGGGCAATGCCACAGTCATCTGGATCATTCTGGCCCATCAGAGGATGCGCACGGTGAC
+CAACTACTTCATCGTCAACCTGGCCCTGGCCGACCTCTGCATGGCTGCCTTCAACGCTGCCTTCAACTTCGTCTACGCCA
+GCCACAACATCTGGTACTTTGGCCGTGCCTTCTGCTACTTCCAAAACCTCTTCCCCATCACAGCCATGTTCGTCAGTATC
+TACTCCATGACTGCCATTGCTGCTGACAGGTACATGGCCATCGTCCACCCCTTCCAGCCCCGGCTCTCAGCTCCTGGCAC
+CAGAGCGGTCATTGCTGGCATCTGGCTGGTGGCCCTGGCCCTCGCCTTCCCCCAATGCTTCTATTCCACCATCACCACGG
+ATGAGGGTGCCACCAAGTGCGTGGTGGCCTGGCCTGAAGACAGCGGTGGCAAGATGCTCCTTTTGTACCACCTCATAGTG
+ATCGCCCTCATTTACTTCCTGCCTCTCGTGGTGATGTTCGTCGCCTACAGTGTCATCGGACTCACGCTCTGGAGACGCTC
+TGTCCCGGGGCACCAGGCTCATGGTGCCAACTTGCGCCACCTGCAGGCCAAGAAGAAGTTCGTGAAGACCATGGTGCTGG
+TGGTGGTGACGTTTGCCATCTGCTGGCTGCCCTACCACCTCTACTTCATCCTGGGCACCTTCCAGGAGGACATCTACTGC
+CACAAGTTCATCCAGCAGGTCTACCTGGCGCTCTTCTGGCTGGCCATGAGCTCCACCATGTACAATCCCATCATTTACTG
+CTGCCTCAACCACAGGTTTCGCTCTGGATTCCGGCTTGCTTTCCGTTGCTGTCCATGGGTCACACCAACCGAGGAGGACA
+AGATGGAGCTGACCTACACTCCATCCCTCTCCACGAGGGTCAACAGGTGTCACACTAAAGAGATTTTTTTCATGTCTGGG
+GATGTGGCCCCCTCTGAGGCTGTCAACGGGCAGGCTGAAAGCCCCCAGGCTGGAGTGTCTACTGAACCCTAAAGCCTAGT
+GCCTGGCTGCAGGGAGAGGCGTCCGCACCCTTGAGAAGTAGCCAGTCGAAAGGACCACCTCTGAAAGTTTGGCCCGTGCC
+TCACCCTTCAGTACATCAATGGAAAGATGAGATGGGGCCAGGAACTCTGCAGTGGGTCCTGCCTCTCCCAGCCAGCCCCT
+CAGACAGTGCTTCAGGGGATCCAATAATTCAAAGAAGACAGGGTGAGCTAACACTTATCTAATCCAGGAGTTGCAAGGTC
+GAATGCCTTCCTGGGGCATACAACATAGAGTAAATTGAACCCGGTATGAAAGAAAAATTGTAGATATATTGATAAAAGAT
+AACTGACTTCAGTGTCGGGCCAATAGGGAATGGTGGGGACTGGCAAACTGGAGGGCATAGGAATCCAAAGGGGAGAGTAG
+CTGATCAGCTCTGGGCAAATGCTGCCATGTGACTGATCCTCTACATCTTTCAAGAGAAGCCAGAAATCCAAATTTGTGAA
+ACTTCCAGAATTGTTAAATTTGGCTCACATTGTTATAAATGTTGTGCGAACCAAACAAAACACACCAGTGGGCAGTACTC
+AACCATGACACTGATTTATTATCAGGATAAAGACTCAAGGAAAGAAGCTGCTTAATTCTGCAAAGCCCCTAACCTGTGAG
+CCAATCCAGGGCTTCTCTGCTTTAGCATCTAAGAACCCAGGTCCACCCCAGGGGAGATGGTGGTTAAGGGTCAAAAGAAG
+CCTCAGCTGGGTGGTCTCAAGACAATGACCTTCACATTGCCTTCCTCTTTCAGTTGCAAAACTACTTTGCAGGGAGGCTG
+AGGATGATGGGAGAGATGCCTATAAATTAGCAAGTCCAATACATGTTAAGTGCTTCAT
+>ref|X51337.1| Bovine mRNA for seminal ribonuclease
+TCCTCCAGTGGAGTGAGGTCATCATGGCTCTGAAGTCTCTAGTCGTGTTGCCACTGCTGGTCCTGGTGCTGCTGCTGGTG
+CGGGTCCAGCCTTCCCTGGGCAAGGAATCTGCAGCTGCCAAGTTCGAGCGGCAGCACATGGACTCTGGCAACTCCCCCAG
+CAGCAGCTCCAACTACTGCAACCTGATGATGTGCTGCCGGAAGATGACCCAGGGGAAATGCAAGCCAGTGAACACCTTTG
+TGCATGAGTCCCTGGCCGATGTTAAGGCCGTGTGCTCCCAGAAGAAAGTCACTTGCAAGAATGGGCAGACCAACTGCTAC
+CAGAGCAAATCCACCATGCGCATCACAGACTGCCGCGAGACTGGCAGCTCCAAGTACCCCAACTGCGCCTACAAGACCAC
+CCAGGTGGAGAAACACATCATAGTGGCTTGTGGCGGTAAACCGTCCGTGCCAGTCCACTTCGATGCTTCAGTGTAGATCT
+CCACCTGAGGCCAGAACAGTGAGATGCACCGCTTCATCACAAAGGCATCTGCCTCTCCCTCTTGTTTCCTTACCCTGAGG
+GCAATAACTCAAGTTAGTTAAGGTTTTTATCCCTGCAACCCCCACCACACACACCCACCCCCACACACACACCCATGTTT
+CCCTGGCATGAGGGCAATAACTCAAGCTAGTTAGGGCTCTTATCCAACATACACATGCTCCCCTGGCCTGAGGCTTGCCC
+CTGTGTAGTTTGGGAATTGAGAAGTGGGTTGTAATATGGGACCCATGTTAACCTAATCACTGCTACTTTCAATAAAACAC
+ACTTGCAA
+>ref|X03029.1| Bovine mRNA fragment for seminal ribonuclease
+GTGCATGAGTCCCTGGCCGATGTTAAGGCCGTGTGCTCCCAGAAGAAAGTCACTTGCAAGAATGGGCAGACCAACTGCTA
+CCAGAGCAAATCCACCATGCGCATCACAGACTGCCGCGAGACTGGCAGCTCCAAGTACCCCAACTGCGCCTACAAGACCA
+CCCAGGTGGAGAAACACATCATAGTGGCTTGTGGCGGTAAACCGTCCGTGCCAGTCCACTTCGATGCTTCAGTGTAGATC
+TCCACCTGAGGCCAGAACAGTGAGATGCACCGCTTCATCACAAAGGCATCTGCCTCTCCCTCTTGTTTCCTTACCCTGAG
+GGCAATAACTCAAGTTAGTTAAGGTTTTTATCCCTGCAACCCCCACCACACACACCCACCCACACACACACACCCATGTT
+TCCCTGGTATGAGGGCAATAACTCAAGCTAGTTAGGGCTCTTATCCAACATACACATGCTCCCCTGGCCTGAGGCTTGCC
+CCTGTGTAGTTTGGGAATTGAGAAGTGGGTTGTAATATGGGACCCATGTTAACCTAATCACTGCTACTTTCAATAAAACA
+CACTTGCAA
+>ref|X54799.1| Bovine mRNA for Cu-Zn superoxide dismutase (EC 1.15.1.1)
+GCGACGAAGGCCGTCTGCGTGCTGAAGGGCGACGGCCCGGTGCAAGGCACCATCCACTTCGAGGCAAAGGGAGATACAGT
+CGTGGTAACTGGATCCATTACAGGATTGACTGAAGGTGATCATGGATTCCACGTCCATCAGTTTGGAGACAATACACAAG
+GCTGTACCAGTGCAGGTCCTCACTTTAATCCTCTGTCCAAAAAACACGGTGGGCCAAAAGATGAAGAGAGGCATGTTGGA
+GACCTGGGCAATGTGACAGCTGACAAAAACGGTGTTGCCATCGTGGATATTGTAGATCCTCTGATTTCACTCTCAGGAGA
+ATATTCCATCATTGGCCGCACGATGGTGGTCCATGAAAAACCAGATGACTTGGGCAGAGGTGGAAATGAAGAAAGTACAA
+AGACTGGAAACGCTGGAAGTCGTTTGGCCTGTGGTGTAATTGGAATTGCCAAG
+>ref|XM_019959549.1| PREDICTED: Bos indicus tachykinin precursor 1 (TAC1), transcript variant X3, mRNA
X00076.1 Bovine mRNA coding for the substance P precursor alpha-preprotachykinin including a single substance P sequence
+AAAAGAGCGCGCTGCTGACCTCCTCCATCCTTGCTGCGACCGAGAGAGTGCGCAGCGCCCCGCGAGTGCTCAGACCAGCA
+GAGGAACCTCCCGGGCGGGTCAGCTGCGAAATCCAACATGAAAATCCTCGTGGCCGTGGCAGTGATTTTTTTCATCTCCA
+CTCAACTGTCTGCAGAAGAAATCGGAGCCAACGATGATTTCAATTATTGGTCCGACTGGTCCGACAGCGACCAGATCAAG
+GAGGAAATGCCCGAGCCCTTTGAGCATCTTCTGCAGAGAATCGCTCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTGAT
+GGGCAAACGGGATGCTGATTCCTCAATTGAAAAGCAAGTGGCCCTGTTAAAGGCCCTTTATGGACATGGCCAGCTTTCTC
+ACAAAATGGCTTATGAAAGGAGTGTGATGCAGGATTATGAAAGAAGACGTAAATAGACTACCTAACATATTTATTGAGCT
+TCATTTGTGTCAGTGGTCAAGGAAAGGTAAAATGAGACATGCACTATGAGGAATAATTATTTATTTAATAATTGTTGTTT
+TGAGTTTAAAACTCAAGAAGTATTTATTTTTCATATTGTGGCAATATATGTTGTAAAAAAAATGTGTTGTAATTCTAATC
+TGACAACTCAGTCAGAAGTAGAAATCAGTGGTAATTTCTCCCCAAAGCACAGTGTTCAATGAAGTTGTAAAAACCTATCG
+AAGATATATTCTCCAAACAAAGGAATCATTTCTGTTTCTTGGAAGCAGTCACATCAGCTACTACTAAGGAAAAGAAATTC
+ACATATAGGCTGTGCTTCTCCATTTGTTTTCATGGTGAAAATGTGCTGAGAGTTGGTATCAAACTGTGTTTGTATCCCTG
+CAGCATGTTTCATGTTTTGTGACTATATAGAGACATTTAAAAAGTTTTACTGTGATTCTAAGGTATTTTATTGTACAATG
+TGTTGTAATAGTTAACATTTTAAATAAAAGAAAAAGTATCTT
+>ref|V00135.1| Messenger RNA for bovine prothrombin
+AATCGCCCTGCTGAAGCTCAAGAGGCCCATCGAGTTATCCGACTACATCCACCCCGTGTGCCTGCCCGACAAGCAGACAG
+CAGCCAAGCTGCTCCACGCTGGGTTCAAAGGGCGGGTGACGGGCTGGGGCAACCGGAGGGAGACGTGGACCACCAGCGTG
+GCCGAGGTGCAGCCCAGCGTCCTCCAGGTGGTCAACCTGCCTCTCGTGGAGCGGCCCGTGTGCAAGGCCTCCACCCGGAT
+CCGCATCACCGACAACATGTTCTGTGCCGGTTACAAGCCTGGTGAAGGCAAACGAGGGGACGCTTGTGAGGGCGACAGCG
+GAGGACCCTTCGTCATGAAGAGCCCCTATAACAACCGCTGGTATCAAATGGGCATCGTCTCATGGGGTGAAGGCTGTGAC
+AGGAATGGAAAATATGGCTTCTACACACACGTCTTCCGCCTGAAGAAGTGGATACAGAAGGTCATTGATCGGTTAGGAAG
+TTAGGGAGCCACCCACATTCCAAGGCTCCTCACTGCAAAATCTCAGAGGCCAATCCAGTGAATGAATTATTTTTGTGGTT
+TGTTCCTAAAACTATCTTTCTCAATAAAGTGACTCTATCAACG
+>ref|X06071.1| Bovine thyroglobulin gene exon 12 (and joined CDS)
+TCTGAAGGAGGAACAGTGATTCCTTCAAACTTGGCTGACATTTTTTACTTCTTTGGTTGCATAATGTTGCTTGTGGGATC
+TTAGTTCCCTGACCAGGGATCAAACCTGTGCCCCCTGCAGTGGAAGCGTGGCAGTCCCAACCCCTGGACTGCCAGGGACT
+TCCCATCAGCCGGCATTTTAATTTTTTTCATTTTAATTTTAAAGGGCAATCTGGTGAGGGCCTACCTGCTCCTCGATGAG
+CCTCTGTCTTGTTTTGGGGTGGAAATGTTTGTTACAGAAATCGAAAGGCCGCCTATGTTGGGAAAGGACGAGGTGGCTGT
+TCTCAGGACAGAGTCCGCTTGGCCTGGGCTTTGAGAGTCCAGGGCTCACCTCTCTCTTCCTCTCTCCCGACTCCAGCCTT
+TGACTTCTACCAGAGACGCCTGGTGACCCTGGCCGAATCCCCACGAGCACCCAGCCCTGTGTGGTCCAGCGCGTACCTGC
+CACAGTGTGATGCCTTCGGAGGCTGGGAGCCTGTGCAGTGCCATGCCGCGACGGGTGAGGCGGGCAGGCACCCTGGGGAG
+GCTGAGGGACACCCCTCCTTTTCATGTGCAGAAAAGAGCCCTAAAAAGAGAGAAAGGAAAGAGCCCTGCACTATTAGGGC
+AAAGCAACGTGA
+>ref|X06072.1| Bovine thyroglobulin gene exon 13
+ACAACAAAGTGAGTAGATTATACCTAAACCCACTCTTTTTCAGATTCTTTTCCCATATAGGCCACTACGGAGTATTAAGT
+AGAGTTTCCTGTGCTATACAGCAAGTCCTTATTTGTTATCTCTTTTATGTATGGTAGTGTGTATTGCAGGACCCTCAGCA
+GGGCCCTTGGGCACTTCCTGAACTTCTGGCCGGGGCTTTTTTCCAGGGCACTGCTGGTGTGTGGACGGGAAGGGAGAGTA
+CGTCCCCACTTCGCTGACCGCCCGCTCCCGGCAGATCCCGCAGTGTAAGTGGGGCCGCTGGACCAGCCGGCGGGCCTTCT
+AGCGGGCGCCCTGCCTGGGGAGGCTCCGTGGGCCAGCGCTTCAGACCAACTCCCAAGAGCAGGCAGACCACATACCCCCA
+AGTCCCCAGGCCTGGAAGAGTTCCCTGACCTTGGTTGT
+>ref|X06073.1| Bovine thyroglobulin gene exon 14
+AAGCGCTCACTTTATGTCTCAGAGGTGAAATGTCCCACGTGGGTCTTTGTCCCTGACCCTCAGCCTGCTTCTCTGGGGTC
+CCAGCTCTCTGCATAAGGGCACCTCCACCCACCCAGATGCATGGCTCCAACACTCGGGGCCAGCCTGGGCTCCCCACCTG
+CCCTCAGCGCCCACGGCCAGCCTGTTGAGAGCTCCCCTCTCTCCCCACCCAGGCCCCACCAGCTGCGAGAGATTGCGAGC
+CAGTGGGCTGCTTTCCAGCTGGAAACAGGCTGGTGTCCAAGCAGAACCATCTCCTAAAGACCTGTTCATCCCAACCTGCT
+TAGAGGTAAGTCTCTGAAGGCCCAAGAAGGTTCCAGAAGCCAGAACTTTCTGGATGGCGAATTTTCTAGTTTTCAATAAA
+CTTGTTTTAATTGAAAACTCACAAG
+>ref|X06074.1| Bovine thyroglobulin gene exon 15
+CCTGATGTCTGGCTCCCGACTTATCAGTTTACAGAAGCATCTTCGCTGGGTGACACCACCTCGGTTTTGTCTCAGACAGG
+AGAGTTTGCCAGGCTGCAGGCGTCGGAGGCTGGCACCTGGTGTGTGGATCCGGCCTCAGGAGAGGGCGTGCCCCCTGGCA
+CAAACAGCAGTGCCCAGTGTGAGTACTGGCCCTTCCCCATCATCTCAGCCCCCACCCCGTGAGATGAGGTAGGAGCC
+>ref|X06075.1| Bovine thyroglobulin gene exon 16
+ATTTTTTTTTTTTTTTTTTCACGTGCATGGAGTGGAGAGGGGAATACAAAGCCAGTGTCTGAGTGCAACACCCTAGTAGG
+GAGGCCACCCCAGACCCCAGGGGCCCTGTAGGCAGGTGGCAGTGGGTGGTGGGTGGTGACAAGGGCTGTGACAGCCACGC
+AGGCAGAGAACACATGTGGCTTGTCTTTGCGTCAAGGCCCGAGCCTCTGTGAAGTGCTCCAGAGTGGAGTCCCCTCCAGG
+AGAACCAGCCCTGGCTACAGCCCGGCCTGCAGGGCAGAGGATGGAGGCTTCTCCCCAGTGCAGTGCGACCCGGCCCAGGG
+CAGCTGCTGGTGCGTCCTGGGCAGTGGAGAGGAGGTACCCGGGACCCGCGTGGCCGGGAGGCAGCCGGCCTGTGAGAGTA
+AGTGGTGATGCCCCAGAGTGGCCCCGGGCTGGTGGGGGTCCTGTCATCCCTTGCCTTGGCCCTGGCTGGG
+>ref|X14324.1| Bovine thyroglobulin gene 5'end
+TGCTCCCCTACAGCCTCCACAAGATTTTCACCCCACACTGGCCACATGAGTGTCCTCCAGGGGAACAGACGCAGGTGGAG
+GACCTCCTTGTGACCAGCAGAGAAAACAGGGTGGGCACTGCTTCCCTGAGTGCCTGTGGGTGGGGGCTAAGTACCCACAG
+CAGTGCTATAAAGGCTCCTTGGCCAGAGCCCTAAGGTGGGCAGCAGCTTCTAACCCTTCTCCCTGGAAGGCTCCCAAGAT
+GGCCCTGGCCCTATGGGTCTTCGGTCTGCTGGACTTAATCTGCTTGGCATCCGCCAACAT
+>ref|X05381.1| Bovine thyroglobulin gene exon 2 and flanks
+GATCAGGAGAGTGATGTCAAACTGTGAGTAGCTGCAAAAGCTGCGAGTTGAAATATACTTGCCGATGGTGGTAGAAATAA
+AACCCGGAAGAGCGTCTGTGTCTTCAGCGAGCCCGTCTCCGTTACTGGAATCCAGGCAGCAGATTCTCTCTCATGAGCGG
+CATCACTTCCTTTGTGCAGAGTACCAGGTGGATGCCCAGCCTCTCCGCCCATGTGAGCTGCAGAGGGAGAGGGCTTTTCT
+GAAGCGAGAAGACTACGTCCCCCAGTGCGCCGAGGATGGCAGCTTCCAGTAAGGCCTCCTCCAGCCATGCGACCCAGGGG
+CCTCCTTAAAACCCATCTTCTTCCTGTCCCCGCCCCCCTCCTTGAAACTGACCCTGTGACCATGTATCGGAGCATCCCAG
+ACCCGTAACACGAGTCATCTGACCTCTGTTGCCCCAATCCATCGTTCCTTCCAGCCAGAACCAAAGAGTTCCCTTCCTTT
+CCTGCCAAAATTTTTTACTGTAATTGTTTTAACAAGGGTGAATGGGGTGGTTGGCCGGCCGGCCAGTATTTACCTTTCCA
+ATGATC
+>ref|X14325.1| Bovine thyroglobulin gene upstream region
+GGATCCAGGAGGGAGAGGTGAGAGGGCCAGAGGTGAGGAGCCTGCAGAGAGGATGGAGACCCAAGCCAGGAGCGGGCTCA
+CGGAGGCCAGACCAAGGAGTTGGTGCTGAGTTTCCGTAGAGCATCCTCCTGGCTCACGAGGCATCAGATGATGGTAGGAG
+CTGAGTCATCGTAGAAAGAGTTTTCACGGTTGAGGCAGCGCCTGGCATGGCTCTCTCCAAGCTCATCGCTTCATTGCTGG
+ATGGAGAGAAGCACCTCTCCTTCCAGGTACACTGTTTTGACTCAGAAGGAAGCCCGGGCGGCTCTCACCCTCACTGACTC
+TGCTGTGCCTCTTCCCAGGGGCCAGGCCAGGGAGAATGACTCAGCACACAAGCTGGCCTGTGCAAGACCCTGCCTGCATG
+CATGGGTGGGGGAAGCATGAGGAGTGGGCTTTCTGGTAGG
+>ref|X56400.1| B.taurus tnp2 gene for transition protein 2
+CTGCAGGCTGGCCCAAGGAAGGGGTAGGTGTGCTATGCCCCGTTCTACAAAAGCAGGGAAACTGGGACTAGAGAGGCGGA
+TGCCGGGGGGAAGAGATCAGAAGGAAAAGCAGCAGCAGGCCCAGGTGTGGGCCAGCTCCACCCGACCTGAGGGGCTGCTC
+TCAACCCACAGACACGCCCTTTGAAAGCTGCCCCACCCTGCGTGTTAGGATGAGGGCAGAGGGCTTTGTTCCCGTTGGGC
+CACATCTGTTACATACCCCCCTGTGGCCAGTGCCATCACAATCGGGCCCAACTATATAACCAGGGGCTGCCAGGGCCTCT
+GTGAAGCTGGGTCTGCCAGAAGAGGAGGAGGAGGCGGCGGCCCCTGCCCCTCTAAGCGAGGCCGCCCCCCACCCATGGAC
+ACCAAGACACAGAGCCTTCCCAACACCCACGCCCAGCCCCACAGCAACTCTCGGCCCCAAAGCCACGCCTGCCACCACTG
+CAGCTGCAGCCAGCACTGCCAGAGCCGCAGCCGCAGCCGCAGCTGCCGCAGCCGCAGCTCCAGCCGGCGCCCGAGGAGCC
+ACCGCAGCCCCACTGGCCACCAGGGCAGAGCCAGGCCCCAGCCCTCCTCTGAGGCGCCACAGACACACCATGCACTCCCA
+CCAGTGTCCTCGCGGCCCGTCACCCACTCTTGCAGCCACTCCAAGAACAGAAAGAACTTGGAGGGAAAGGTGATCAAGAG
+GAAGCAGGTCAAGAGGAGCAAGCAGGTGTACAAAAGAAAGAGGCAGAGCTCAGGTACCTGTCAAGCTGGTGGCCTTTCAC
+AGGACTCCCCCAGAGAAGGGCGCGCCCCAGCAGGGCTGTAGAGGCGGTGAGGTGAAGGCTGCCTCCGCCAAGTCAGAGGC
+ACAGAGGACCCACAGGCAAGGGTTTAAGAGGGAGAGGGAACTATGACAGTTGTATATACATGATGCATTGATGGAATAGC
+TCTTTAATTGGATGGGTTGATTGGAAGGATGGACGAACGGCAGATTAGCTAGGTGGAAGCATGGAGAGGTGAATAAGGCT
+GGGTAGATGAATAATTAGGAGGCCTGTTAGATAGGGAATGGGGAGAAGAGTTAGATGGTTGCTTGAGTGGATGGGTAAGA
+AGGATGAGGGGAAGGAATGAATCCATTAAGTGACTGAGAATCAGAAGGGATGTGATTAGATTTCTAGATTGGGCTGATGC
+ATTGGGAGGGTGAATGAATTGGTTGGCTGGGCAGATGGCTGAGTAGATAAGGGTTTGAACACAATTGGATATCTGGAGGC
+ATGACTATTGAGAGGATATGAATTGGTTAAATAATGGTGGTCTAGGTGGGTGGAGGATCAGGTTGGTGGATGGATAAATG
+AACTGATAGATGAACTGACTGGATGGCAAGCTGGCTGAATGGACTAACTGGACCAATGAACGAAAGACAGACAGTGGGAT
+TGGTGGACTGGATGTGTAGCCTGACGTGGTTTAAAGAATGAAATGATGTTGGACTGGGTTGAATTCACGGGTGCATGATA
+AATGGATGGATTCCCAAGTCAAAAGGACCCTGATGATTGTGTCAGTTCTAGCCATGCCCCATATCTGATTACACACGAGC
+ATCCAAAAACCCAAAGGAGAGGGTTAAGTGACCTTAGGAAGCACTCAGTTATTAAAGGCTCCCTTTCCCATTTCTATCCC
+TTAGGACGGAAGTACAACTGAGATGACACCCCACGGTTTGTTCCTGTGTCTGTTTCATCCAGATAAGAAACGCCATCACA
+CGTTGAATGCTAGAAGGAAGAAGTAAACTTTGCAGGAACATGTTACTACAGTGATTTCTATGCAACATTGATTAAAGCTT
+GTACACTGG
+>ref|X56401.1| B.taurus tnp2 mRNA for transition protein 2
+CCCTCTAAGCGAGGCCGCCCCCCACCCATGGACACCAAGACACAGAGCCTTCCCAACACCCACGCCCAGCCCCACAGCAA
+CTCTCGGCCCCAAAGCCACGCCTGCCACCACTGCAGCTGCAGCCAGCACTGCCAGAGCCGCAGCCGCAGCCGCAGCTGCC
+GCAGCCGCAGCTCCAGCCGGCGCCCGAGGAGCCACCGCAGCCCCACTGGCCACCAGGGCAGAGCCAGGCCCCAGCCCTCC
+TCTGAGGCGCCACAGACACACCATGCACTCCCACCAGTGTCCTCGCGGCCCGTCACCCACTCTTGCAGCCACTCCAAGAA
+CAGAAAGAACTTGGAGGGAAAGGTGATCAAGAGGAAGCAGGTCAAGAGGAGCAAGCAGGTGTACAAAAGAAAGAGGCAGA
+GCTCAGGACGGAAGTACAACTGAGATGACACCCCACGGTTTGTTCCTGTGTCTGTTTCATCCAGATAAGAAACGCCATCA
+CACGTTGAATGCTAGAAGGAAGAAGTAAACTTTGCAGGAACATGTTACTACAGTGATTTCTATGCAACATTGATTAAAGC
+TTGTACACTGGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_174199.2| Bos taurus transition protein 1 (TNP1), mRNA
X16171.1 B.taurus mRNA for transition protein 1 (TP1)
+CGTTAATGTCGACCAGCCGCAAATTAAAGAGTCAGGGCATGAGGAGGGGCAAGAACAGAACTCCTCACAAGGGAGTCAAA
+AGAAGTGGCAGCAAAAGAAAATATCGGAAGAGCAGCCTGAAGAGTAGAAAACGCTGTGACGATGCCAATCGCAATTTGCG
+CTCCCACTTGTGACTCCAGCAGCGGCTCCTGCCTGGTGGACTTTGAACGACACCAGGCAGCAACCGAACAGAAGGGGACT
+GCCAAGGAGACCTGAAGTTAGACCAAAGCCAGAGAAGAACTTATCATGTGGATAAAATGCCAATCATGACAAAATGAGGC
+ATGTATATGTTGGCTGTTTCTCCCTAACATCTCAATAAAAATTTTGAAAGCTG
+>ref|X65041.1| B.taurus TNP1 gene for transition protein 1
+AGCAGGAGGATGGAAGACTTCCATCGCCCAGCAACAAGCCCGGCCAATGAAAAGGGCCTCAGCTTAGCCAATGAGAAGAC
+TTCATCACCTGAACTTTCACTTTCCTCCAATGAACCCTCATTATTGCCTTACTGATGACTTCCTTTCCTTGTCCACCTCC
+CCCTACTATAAAAGCCTTCCACGTGGTGTAGCCCTTGGAGCATCTCTCTGTCCACCAGGTGAGATGGCTGCCTGATTCAT
+GAATCATTTAACAAAGCTAATTAGATCTTCAAATTTACTCAGTGAAATTTTGTTTTTTTAGCAATGATAGTCCCACGTAT
+TTAGCCAACAGTGTCAGCAGTGCTTGGGTTGAGAAAATTTGATTTAGATGAAGAGAAGAATATTATGTTTAGTCATATGA
+TGATTGCTAGAGTCAGTCTTATAGACATTGTCAATTCCCAATGCCATAAGAGAGACTTAAATATGATGCATATACACACC
+AACTATTAAATTCCCTACAGGCAGGAGATAGCTTTTTTGATGCCTCTTGTACTCTCCAGGTGCCCAACATAGGATTGGAA
+TTTAGGTACTCAGTAACACCTATCTGGAAAACCTCATTTATCATTAAAAAAAAAAAAAAAGACTACAACATTGAGGGTAG
+CCTTGAGCTGCATTGGAGGGATCACCTAATTTCATATATATTACCCAACTGTAACAAAGCCTAGTGACATCACAATGGAG
+CCCTGCCCATCTGCTAAGCCCCGCCCTCTTCACAGTCATAATGGCTAAGGCCTTAAATAGCCAGACTCTGGCCCCTGGGT
+CCTGCAAAGCCCCTCATCTTGGCAGAAAGTACAATGTCGACCAGCCGCAAATTAAAGAGTCAGGGCATGAGGAGGGGCAA
+GAACAGAACTCCTCACAAGGGAGTCAAAAGAAGTGGCAGCAAAAGAAAATATCGGAAGAGCAGCCTGAAGAGTAGAAAAC
+GCTGTGACGATGGTGAGTTAGGGATGAGTGGGAGAGGAGTTAAACAGGGACCTTGTTGTCCTGAGGGCCTTTCTTCTTGA
+AGTTAGCTCTCATAGGACCCTGAAACCTCAGCCTGAGAATTTCGTTCTCAACCAGGTTCCCATCTGGGCAGGAAGAGGAT
+GAATGGGGTTCATGAATCTTCAGTGAATATTCTAACTGGTGTTCCTGTTGCATACTTGTCCCTTCCCTACAGCCAATCGC
+AATTTGCGCTCCCACTTGTGACTCCAGCAGCGGGCTCTGCCCTGGTGGACTTTGAACGACACCAGGCAGCAACCGAACAG
+AAGGGGACTGCCAAGGAGACCTGAAGTTAGACCAAAGCCAGAGAAGAACTTATCATGTGGATAAAATGCCAATCATGACA
+AAATGAGGCATGTATATGTTGGCTGTTTCTCCCTAACATCTCAATAAAAATTTTGAAAGCTGAATTTCAGTGTCGTTTGA
+TCTTTTGGTTGGAAACTGGGTTCCTGAGCTGGGCAGGCTTAGGGG
+>ref|X56626.1| Bovine tRNA-pro (anticodon UGG)
X57443.1 Chicken tRNA-pro (anticodon UGG)
K00360.1 Mouse Pro-tRNA-2
+GGCTCGTTGGTCTAGGGGTATGATTCTCGCTTTGGGTGCGAGAGGTCCCGGGTTCAAATCCCGGACGAGCCCCCA
+>ref|X56627.1| Bovine tRNA-pro (anticodon IGG [inosine])
X57444.1 Chicken tRNA-pro (anticodon IGG [inosine])
+GGCTCGTTGGTCTAGGGGTATGATTCTCGCTTAGGGTGCGAGAGGTCCCGGGTTCAAATCCCGGACGAGCCCCCA
+>ref|X03073.1| Bovine retinal mRNA for transducin beta-subunit
+AGAGAAGGAGCCTAGGCCACGTAACTGATGGTGGGCTTCCTGGAGGCTCTGGGGGACTGAGGACAGTGAGGAGAGCAACA
+GAGACGTCACATATCTCAGATTCTTTGAGGTGGCTTTGAAGAGCACTAAGATTAGAAGATGAGTGAACTTGACCAGTTAC
+GGCAGGAGGCCGAACAGCTTAAAAACCAAATTAGAGATGCTCGGAAGGCGTGTGCAGATGCGACTCTCTCTCAGATCACA
+AACAACATCGACCCTGTGGGAAGAATCCAGATGCGCACCAGGAGGACGCTGAGGGGACACTTGGCCAAGATCTATGCCAT
+GCACTGGGGCACCGACTCCAGGCTTCTACTCAGTGCCTCGCAGGATGGTAAACTTATTATCTGGGACAGCTACACCACAA
+ACAAGGTCCATGCCATCCCTCTGCGCTCCTCGTGGGTCATGACGTGCGCTTATGCCCCTTCTGGGAACTACGTGGCCTGT
+GGAGGCCTGGATAACATCTGCTCCATTTACAATCTGAAAACTCGTGAAGGGAATGTACGTGTGAGTCGTGAGCTGGCTGG
+ACACACAGGTTACCTGTCCTGCTGCCGTTTTCTGGATGACAATCAGATTGTTACCAGCTCTGGAGACACCACCTGTGCCC
+TGTGGGACATCGAGACTGGCCAGCAGACGACCACATTCACTGGACACACCGGAGACGTCATGAGCCTTTCACTCGCTCCG
+GACACCAGACTGTTTGTCTCTGGTGCTTGTGACGCTTCAGCCAAACTCTGGGACGTGCGAGAAGGGATGTGCCGGCAAAC
+CTTCACCGGCCATGAGTCCGATATCAATGCCATCTGTTTCTTCCCGAACGGCAATGCATTTGCCACTGGCTCAGACGATG
+CCACCTGCCGGCTGTTCGACCTCCGTGCGGACCAGGAGCTCATGACCTACTCCCATGACAACATCATCTGCGGGATCACC
+TCCGTCTCCTTCTCCAAGAGCGGGCGCCTCCTTCTCGCAGGGTACGACGACTTCAACTGCAACGTCTGGGACGCCCTCAA
+GGCCGACAGGGCAGGGGTCTTGGCCGGGCATGACAACCGCGTGAGCTGCCTGGGGGTAACTGATGACGGGATGGCCGTGG
+CGACGGGATCCTGGGACAGCTTCCTCAAAATCTGGAACTAACCCTGACAGCAGGTGGACGCCACAGTGACTGGAAGACCA
+TTCCAGCCTTGGAGCGTTGCAGATAGCATTTCCCATCTACCCCTACTAACGCGGACGCCCTGCACCCCTCAGAACTTCAA
+AAGGGCAAGACCTTCCCCTCACTTATTGCTGAAACCAAGAGCACAATTCCCACTGAGAGAAGAATCTCTGTGCTGTAACT
+AAAACGAATCGTGCATTCCTTCCGGGACCATTGTCTTTGTTTTCTTTTTTTGTTTGTTTTGAATGAATTTAAAAGGAAAT
+ACTATAATAAAAATGTTAACAAGAAGGTAAACTTGAGTGTAATTGTAAGACAGACACACCTTTTTACTAGTTTATTTGAA
+ATCTTGATCAATAATCCTGTTTGGTGATGTTCATGCAAAACAATTTGAGGACTTCATCTTGTAATTGACTCTGAATTCTA
+GATTGTGTTTGTAACAGGATTTTGCAGACATGATTCATATTTCCTTCTTAAAATATATTTCTTTCTGCTCGTAGTTAAAC
+AGAGAAGGAGGGTCTGGTGTGGCCTCTCTGAGATTGTTAATGATGTAAATTTAGTCCCTGGTTTTTTTTACTTCCGTCTC
+GTGTCACATGACCGTCGTGCGCATGGTGTAGAAGGATGATGCTGAGAAGTCAAGGAACTGAGCACGCGGACGAACAGTGG
+CCGCGTCAGGCGCCTTTCCCCCAACCCACCCTCTCCCCTCAGTTTGGTTTTTAGTCTCACCCAGTCTCCTTGTGAAGTTG
+GAGGGAGGCTGACACAACAGCGCGACACTACCCTGTGCCCCGCCCGGCCATCACGAGCCTCCGTCCTCAAGAGCGGTGCC
+GTCCTGTGCGTGGAGAGTCAGTCAGTTATTTGTGTATGAAACAATGTACAAATCAATGTTTTGAAAATAATGATCTCAAA
+CTTTCTAAGTTAAATTTTAAAAAACCTGATCGTTTGCCATATGGGGTGGGTTTGCTCTTAGAACCGCATGCTGTAGAAAT
+GCTCACAGTGCATATAGGACTCAGTCCTTAGATGTTCCTTTTCTTTTAAGAAATAACCTCTTTGAAGTTGTGACGTCGCG
+CTCTGTCCACTTCGCGTCGCCCCTCTGTGCACACGCATCGCATTGGAGGCCGTGCAGTTAGCGGCTCTACACGCTCGCCT
+GGCGAGATGTCACTGTTTTCTTTCTTTAAAAAAACAAGTCCTGTTCCAAAATCGTTGTTGGATGGGGTGGGGGGTGTACA
+GGGAACGGAGTCCCTGGCCTCCCTTATGGATTCCTCACGGCCCACCTCTCCCGGGAACCAGCCTTTGTGCTGAGGCAGAC
+CACTTTTCTAACACGCAGATGTCCCTGGTTCCGTGCGCGTCCAGTGTTGGGCAGCGGTGCTGGGACAATGCGGGCCTCCT
+CCCCGTACCAGCGCCCCCGTAGCGGCAGCAGTGGCTTCTCCACCTGTGTTTGCACCATCCTGTGCGCCCTGTGCCCTGGA
+CCCGCAGAGAGTGGGATGAGCCCCCGCCCCCGTCGGCACCTCTGTAGAGCTCTCTGCACCCTGTCCCTCACCTTTTGTAT
+TTAATTTTAAAGTCAATGTACTGCAAGGAAGCTGGATGCAAGATAGATCCTATATTCAACTGTACTGTTATTTAAGATGT
+AATAAAGCAGTTTGACATGAGG
+>ref|Z18292.1| Bos taurus transcription factor sequence
+TGGCCGGGGGCAACCCCGGCGGCCCCAACCCCGCAGCGCAGGCGGCCCACGGCGGCGGCGGCGGCGCCGGCGAGCAGCAG
+CAGCAGCAGGCGGGCTCGGGCGCGCCGCACACGCCGCAGACCCCGGGCCAGCCCGGAGCACCCGCCACCCCCGGTACGGC
+AGGGGACAAGGGCCAGGGCCCGCCCGGCTCGGGCCAGAGCCAGCAGCACATCGAGTGCGTGGTGTGCGGGGACAAGTCGA
+GCGGCAAGCACTACGGC
+>ref|X04540.1| Bovin liver transfer RNA-Arg (CCU)
+GCCCCAGTGGCCTAATGGATAAGGCATTGGCCTCCTGAGCCAGGGATTGTGGGTTCGAGTCCCATCTGGGGTCCCA
+>ref|X04541.1| Bovine liver transfer RNA-Arg (U9CF)
+GGCTCCGTGGCGCAATGGATAGCGCATTGGACTTCTGATTCAAAGGTTCCGGGTTTCGAGTCCCGGCGGAGTCGCCA
+>ref|X04542.1| Bovine transfer RNA-Gln (CUG)
V01265.1 Rat major tRNA GlN from liver
M16251.1 Mouse Gln-tRNA-CTG
+GGTTCCATGGTGTAATGGTTAGCACTCTGGACTCTGAATCCAGCGATCCGAGTTCAAATCTCGGTGGAACCTCCA
+>ref|X14338.1| Bovine mRNA fragment for 49 kDa subunit of mitochondrial NADH:ubiquinone oxidoreductase (EC 1.6.5.3)
+GCAGTGGCAGCCAGATGTGGAATGGGCAGAGCAGTATGGGGGTGCTGTCATGTACCCCACCAAGGAAACAGCCCACTGGA
+AACCTCCCCCTTGGAATGATGTGGACCCTCCAAAGGACACACTGGTGTCGAACCTGACCCTGAACTTTGGGCCCCAGCAC
+CCAGCAGCCCATGGAGTCCTGCGGCTAGTGATGGAGCTGAGTGGGGAGATGGTGCGGAAGTGCGACCCCCACATCGGGCT
+GCTGCACCGGGGCACTGAGAAGCTAATTGAATACAAGACCTATCTGCAGGCCCTTCCATACTTTGACCGGCTGGACTATG
+TATCCATGATGTGTAATGAACAGGCCTACTCACTGGCCGTGGAGAAGCTGCTCAACATCCGGCCTCCTCCTCGTGCACAA
+TGGATCCGAGTGCTATTTGGAGAAATCACTCGACTTTTGAACCACATCATGGCTGTGACCACACATGCCCTGGACATTGG
+GGCTATGACCCCTTTCTTCTGGATGTTTGAAGAAAGGGAGAAGATGTTCGAGTTCTACGAGCGCGTGTCTGGGGCTCGGA
+TGCATGCTGCTTACGTCCGGCCAGGAGGTGTGCACCAGGACCTACCCCTTGGGCTTATGGATGACATTTATGAGTTTTCT
+AAGAACTTTTCTCTTCGGATTGACGAGCTGGAGGAGATGCTGACCAACAATAGGATCTGGCGAAATCGGACAGTCGACAT
+TGGGATTGTAACAGCAGAAGACGCACTGAACTATGGTTTTAGTGGGGTGATGCTCCGGGGCTCAGGTATCCAGTGGGACC
+TGCGGAAGACCCAGCCCTACGATGTCTACGACCAGGTGGAGTTTGATGTGCCTATTGGCTCTCGAGGGGACTGCTATGAT
+AGATACCTGTGTCGGGTGGAGGAGATGCGCCAGTCCATTCGAATCATCTCACAGTGTCTGAACAAGATGCCTCCTGGGGA
+GATCAAGGTTGATGATGCCAAAGTGTCTCCACCAAAACGAGCAGAAATGAAGACGTCTATGGAGTCACTGATCCATCACT
+TTAAGCTGTACACTGAGGGCTACCAAGTTCCCCCAGGAGCCACATACACAGCCATCGAGGCGCCCAAGGGAGAGTTTGGC
+GTGTACCTGGTGTCTGATGGTAGCAGCCGCCCTTACCGATGCAAGATCAAGGCTCCTGGTTTTGCTCACCTGGCTGGTCT
+GGACAAGATGTCTAAGGGACACATGTTGGCGGACGTCGTTGCCATCATAGGTACCCAAGATATTGTGTTTGGAGAAGTAG
+ACCGGTGAGCGGGGGATCAGTGTCGGATCTCCCTGCCCTCTGTGCAGCCTCTCCATCGTTGCAAATGGGCCTGTGCGTGC
+GTGCGTGTGTGTGTACACGTCCATGAATGCTTAGCTGTCAGGCTTTCTGTGCATGTACTAGAAAAGGAGAAATCACAATA
+AATTAGCCACGTCTGGCCCCACAAAAAAAAAAAAAAAAAAAA
+>ref|X02312.1| Goat repetitive sequence 8 kb 5' to beta-A-globin gene
+AGAAAGATGAATTGTTTTGTGAAGTGAAGTCACTCAGTCATGTCCAACTCTTTGTGACCCCATGGACTGTAGTTTACAAG
+GCTCTTCTCTCCATGGAATTTTCCAGGCAAGGGTACTGGAGTGGGTTGCCATTTCCTTCTCCAGGGGATTTTCCCACCCA
+GGGATCGAACCTGGGTCTCCCACACTGCAGGCAGACACTTTAGCATCTGAGCTACCAGGGAAGCCATGGTAGAAGG
+>ref|NM_001003288.1| Canis lupus familiaris chloride nucleotide-sensitive channel 1A (CLNS1A), mRNA
X65450.1 C.canis mRNA for chloride channel
+GGCGAGGCGAGCGGCTGGGGTCGCCGCGCGGCAGCTCGCTCCCGGCCTGTGTCTCCGCGCTCCCTGCTGCAATGAGCTTC
+CTCAAAAGTTTCCCGCCGCCCGGCTCGGCCGAGGGGCTTCGGCAGCAGCAGCCCGAGACCGAGGCCGTGCTGAACGGCAA
+GGGCCTCGGCACCGGCACGCTCTACATCGCGGAGAGCCGCCTGTCTTGGTTAGATGGCTCTGGATTAGGATTCTCACTGG
+AATACCCCACCATTAGCTTGCATGCGGTGTCCAGGGACCTAAATGCCTATCCACGAGAGCATTTGTATGTTATGGTGAAT
+GCTAAATTTGGAGAAGAATCAAAAGAATCTGTTGCTGAAGAAGAAGACAGTGATGATGATGTTGAACCTATTGCTGAATT
+TAGATTTGTGCCTAGTGATAAATCAGCATTGGAGGCAATGTTCACTGCAATGTGTGAATGCCAGGCTTTGCATCCTGATC
+CTGAGGATGAAGATTCAGATGATTACGATGGAGAAGAATATGATGTGGAAGCACATGAACAAGGGCAGGGGGACATCCCT
+ACATTTTATACCTATGAAGAAGGATTATCCCATTTAACAGCAGAAGGCCAAGCCACCTTGGAGAGATTAGAAGGAATGCT
+TTCTCAGTCTGTGAGCAGCCAATATAACATGGCTGGAGTCCGGACAGAAGATTCAACCAGAGATTATGAAGATGGGATGG
+AGGTAGACACTACACCAACAGTTGCTGGACAGTTTGAGGATGCAGATGTTGATCACTGAAGATGATTTATGCTGCTGTGG
+GATTCTGCTCATAACTAGGAAAGGACTAAAGAACTTGGTGCCTCTTCTACTGTGGAGTGGGTGTTGATGAAAGTCTTTTT
+CCTTCTCCAAAATTTACCTGAACCAGTTCTTTTTTTGAGACAGACTATATACTGAGACAAAAAGTTGTCACCAGCAGAAG
+AAACTATGACCTTTATTAACAAAGGTGAATTAACTTAACCAAGAGGGTATTTGTAGTTTATCATCTACCCAAAACTTTTG
+TGTATAGGTATCCTCTGAGTAGGCCTATAGTTCCTGCTTTCACTATATGCATCTTCTGTAACCTGGCAGGCCTATGTGGT
+GAGAATGCGCAGGTGCTTGAAGACATAGGTAGACTGGATGGGAAGGAAGGAGGCTGAATCTAAGATATATCCTTTAGAGC
+CTAAGGATTCCCTTACCCCTTAGAAAGAAAGACAAAGAGATCTCAGAGAAATCCTGGCCACTGCTTGTTCTTCACAGGGA
+TTAGGGTCTTTTTACTAATTTGGGATCCAGGTTAATTCATTTAGGCATCTTTAGAGAGCCTCTTGGAAATATCCTAGCCA
+CATGAAATACCACTAATATGGATGCTTCTGATTAGCTTTTACTCTTTCACCATGTTTCACCAGTCTGTTTTGTTATAACC
+TCTTAGGTTATAGCCTTTAATTTCTAACCTCTTAGGTCAGTTTCCATAACAAATGAAATTGGGATGAAGTCCTCACAGTA
+CTTCAATGATACTTGTTTTGTCTTTGTAATAGTTTAACAAATAAATCTAGGTTTTCTAT
+>ref|X53591.1| Dog mRNA for glycoprotein gp25H
+TCGAATTCCCACAAATCTTCTCACTATTTTGCTACATAGATGAGTTGATCCTTTTAGATTGTTTATGGGTAGCTCTTCCG
+GTCTCGGTGGTCCCCTGAAAGACTGTGGGGTGCGCGCGATGAGGCTTCTGGCTTCTGTGCTGTTGGCCCTGTTTGCTGTC
+AGTCATGCGGAGGAAGGAGCCCGGCTTCTGGCCTCCAAGTCACTGCTGAACAGATACGCCGTGGAGGGGCGAGACCTGAC
+CTTGCAGTACAACATCTACAATGTTGGCTCAAGTGCTGCATTAGACGTGGAGTTATCTGATGATTCCTTTCCCCCAGAGG
+ACTTTGGCATTGTGTCTGGAATGCTCAATGTCAAATGGGACCGGATTGCCCCTGCTAGCAATGTCTCCCACACCGTGGTC
+CTGCGCCCGCTCAAGGCTGGCTATTTCAACTTTACTTCGGCTACTGTTACTTACCTGGCTCAGGAGGATGGGCCTGTCGT
+GATTGGCTTTACCAGCGCCCCTGGACAGGGAGGGATCCTGGCCCAGCGGGAGTTTGATAGGAGATTCTCCCCGCATTTTC
+TGGACTGGGCAGCCTTCGGAGTCATGACCCTGCCCTCCATCGGCATCCCCCTGCTGCTGTGGTACTCCAGCAAGAGGAAA
+TATGACACTCCCAAGTCCAAGAAGAACTGAGGGGCTTCCGAGGCCGCTGCCTAGGAGATCCAGGTGCTTTCCAGACTCCG
+GAGGGCCTCTGGAGTGCGGTCTCTCATCCCCAGCCCCTGCCACCTTCTCCAGGATCCTGCCTGCTCTCAACCAGAGTCGG
+ACAGCCTCGGTGTCTGTGAAAGCCTCCTCCTTCTGTCCCAAAGCCATATGAGCAAGAACGAGCAGGAATGCCTCCAGCAA
+CAATCCTCGGGACCTCATCTGTGTGCCTTGTGGTGCTGCAGTGTGAACTGAGGGGCCAGGAGGGGGCACTAAGGAAACTG
+CCTGACTCTACCCCCATCCCCTGCTCTCGCCTCTCGGAAGAGGGTGGAGAGGATCAGATGAAGGCCAAGTGACTCGGAGG
+CTACCCAATCTCTGTTGTGGGTCAGGGGAGCTCTAACCAAATGGAGTTTTCTAATAAAAACATGCCACACGGAATTCCTG
+CAGCCCGGGGGATCCACGAGTCTA
+>ref|NM_001003286.1| Canis lupus familiaris glycoprotein 25L (TMED11), mRNA
X53592.1 Dog mRNA for glycoprotein gp25L
+CAGAAATGCCAATGCTGGCATTTGCTTTAAGTTTTTATTTTTCTCTTTCAACTGCTTTCTACTTCCACGTAGGGGAACGA
+GAGGAGAAATGCATCATAGAAGACATTCCAAGTGACACGCTGGTAACAGGGACTTTCAAGACACAGCAGTGGGACTTCCG
+CAGGCAGGATTTCCTCGAATCTGCTCCGGGCCTGGGGATGTTTGTGACTGTCACAACCTACAACGATGAGGTATTATTGT
+CCAAGTTATATGGCCCACAAGGAAGATTCTATTTTACTTCACATTCACCTGGCGAACACATCATTTGCTTGGAATCTAAT
+TCTACGAGGCTTGTGTCCTTCGGTGGGAGTAAGCTGCGGATCCACTTAGAGATTCGAGTTGGACAACATGACCTTGATGC
+GGCCATTGCTCAAGCAAAGGACAAAGTTAATGAAGTTAGCTTTAAGCTGGAACATCTAATTGAGCAAATTGAGCAAATAG
+TCAAAGAACAGAACTATCAAAGGGACCGTGAAGAAAATTTTCGGATGATCAGTGAAGATACAAATAGCAATGTTTTATGG
+TGGGCATTTGCACAAACATTGATCTTTATTGCAATCGGAATTTTCCAAATGAAATCCCTTAAAAACTTCTTTATAGCTAA
+GAAACTCGTTTAAAATGTTAATACAAACAGCTACCTGCTAATTTGTAGAATGTCTGAGTTAATAAATCAAAATACATTCA
+CAAAAAAAAAAAAATAATACAAACAGCTACCTGCTAATTTGTAGAATGT
+>ref|NM_001003285.1| Canis lupus familiaris thyroid stimulating hormone receptor (TSHR), mRNA
X17146.1 Canine mRNA for thyrotropin (TSH) receptor
M29957.1 Canine thyrotropin receptor (TSH) mRNA, complete cds
+CAGGCGCAGAGGGGCCCAGACGACCGTGGAGGATGAAGAAATAGCCTTGGGACCCTTGGAAAATGAGGCCGCCGCCCCTG
+CTGCACCTGGCGCTGCTTCTCGCCCTGCCCAGGAGCCTGGGGGGGAAGGGGTGTCCTTCTCCCCCCTGTGAGTGCCACCA
+GGAGGATGACTTCAGAGTCACCTGCAAGGATATCCACCGCATCCCCACCCTACCACCCAGCACGCAGACTCTGAAGTTTA
+TAGAGACTCAGCTGAAAACCATTCCCAGTCGTGCATTTTCAAATCTGCCCAATATTTCCAGGATCTACTTGTCAATAGAT
+GCAACTCTGCAGCGGCTGGAATCACATTCCTTCTACAATTTAAGTAAAATGACTCACATAGAGATTCGGAATACCAGAAG
+CTTAACATCCATAGACCCTGACGCCCTAAAAGAGCTCCCACTCCTGAAGTTCCTTGGCATTTTCAACACTGGACTTGGAG
+TATTCCCTGATGTGACCAAAGTTTATTCCACTGATGTATTCTTTATACTTGAAATCACAGACAACCCTTACATGGCTTCC
+ATCCCTGCCAATGCTTTCCAGGGGCTGTGCAATGAAACCCTGACACTGAAACTATACAACAATGGCTTTACTTCAATCCA
+AGGACATGCTTTCAATGGGACAAAACTGGATGCTGTTTACCTGAACAAGAATAAATACCTGTCAGCTATCGACAAAGATG
+CATTTGGAGGAGTGTACAGTGGACCAACCTTGCTGGATGTCTCTTACACCAGTGTTACTGCCCTGCCATCCAAAGGCCTG
+GAGCATCTAAAGGAGCTGATAGCAAGAAACACTTGGACTCTAAAGAAACTCCCACTTTCCTTGAGTTTCCTTCACCTTAC
+ACGGGCTGACCTTTCTTATCCAAGCCACTGCTGTGCTTTTAAGAATCAGAAGAAAATCAGAGGAATCCTTGAGTCCTTAA
+TGTGTAATGAAAGCAGTATTCGGAGCCTGCGCCAGAGAAAATCTGTGAATACTTTGAATGGCCCCTTTGACCAGGAATAT
+GAAGAGTATCTGGGTGACAGCCATGCTGGGTACAAGGACAACTCTCAGTTCCAGGATACCGATAGCAATTCTCATTATTA
+TGTCTTCTTCGAAGAACAAGAAGATGAGATCCTCGGTTTTGGGCAGGAGCTTAAAAACCCACAGGAAGAGACCCTCCAGG
+CCTTTGATAGCCATTATGACTACACTGTGTGTGGTGGCAATGAAGACATGGTGTGTACTCCTAAGTCAGATGAGTTCAAC
+CCCTGTGAAGACATAATGGGCTACAAGTTCCTGAGGATTGTGGTGTGGTTTGTTAGTCTGCTGGCTCTCCTGGGCAATGT
+CTTTGTCCTGATCGTCCTCCTTACCAGTCACTACAAATTGACTGTCCCACGCTTTCTCATGTGCAACTTGGCCTTTGCAG
+ATTTCTGCATGGGGATGTATCTGCTCCTCATCGCCTCCGTAGACCTCTACACTCATTCTGAGTACTACAACCATGCCATC
+GACTGGCAGACAGGCCCTGGGTGTAACACAGCTGGTTTCTTCACTGTCTTTGCCAGTGAATTATCAGTGTATACACTGAC
+AGTCATCACCCTGGAGCGCTGGTATGCCATTACCTTCGCCATGCGCCTGGACAGGAAGATCCGCCTCAGGCATGCATATG
+CCATCATGGTTGGGGGCTGGGTTTGCTGCTTCCTGCTCGCCCTGCTCCCTCTGGTGGGAATAAGCAGCTATGCCAAGGTC
+AGCATCTGCCTGCCCATGGACACTGAGACACCTCTTGCCCTGGCATATATTATCCTTGTTCTGTTGCTCAACATAGTTGC
+CTTTATCATTGTCTGCTCCTGTTATGTGAAGATCTACATCACAGTCCGAAATCCCCAGTACAACCCGGGGGACAAAGACA
+CCAAAATTGCCAAAAGGATGGCTGTATTGATCTTCACTGACTTCATGTGCATGGCCCCAATCTCATTCTACGCTCTGTCA
+GCACTTATGAACAAGCCTCTCATCACTGTTACCAACTCCAAAATCTTGCTGGTTCTCTTCTATCCACTTAACTCCTGTGC
+CAATCCATTTCTCTATGCTATTTTCACGAAAGCCTTCCAGAGGGATGTATTTATCCTGCTCAGCAAGTTTGGCATCTGTA
+AACGCCAGGCTCAGGCATACCGGGGCCAGAGGGTTTCTCCAAAGAATAGTGCTGGTATTCAGATCCAAAAGGTTACCCGG
+GACATGAGGCAAAGTCTCCCCAACATGCAGGATGAGTATGAACTGCTTGAAAACTCCCATCTAACCCCAAATAAGCAGGG
+CCAAATCTCAAAAGAGTATAACCAAACAGTTCTGTAAGCAGACCCTATACTACTCGCAGTGGCAGGTGGACTTCTAAAAA
+TCTAGTTTCTTGAACACGTATTCCAAATTCATTATATACACAAGACAGCTGACCTAACCCTTTGCAGGTGATGTTTCATG
+GGGCAAATTTCATCTCCAAAAAGGGGGTAGCTCTACCACCTAATCATTACCTCCCAGAAGGAAGAGAGGCTACCAGCACT
+TCTGAACCCTGGTGATATCAAGATAACTGACACTTTCTAGAAAACTTGTTTGATGCTAACTGCTTTAACAACATTGTATA
+AGATGTCCAACAGATATTAACTGAACCAGGTCAACATTGAGCTTCTCACTTTCAAATAGCATTTCATAGTAAAGATTCTG
+CAAATGGCAAATGCTATTAACTGAGTTGGTGACCACAAGATAGAATTAGCCCCATGTTGGCTTGGTCCACCTTCATGTTC
+TTGGATACAACCAAAGAGAATGTGAATTCCTCGAAACTGAAAAGTCCAGCAGGATACATGCATGAAGCAGCTATTATGAG
+GTGGAAGGAGGGGAAAGGCTTAGCTTAGTTGTTATTTCAGCCTCTGAAACTATATCATCTCTTCACAAGGACCTACCTGA
+TGTGACCCAACTGTTAGGTGTTGCCCAGGGGGGAAAAAAACTGGCAAGATTTCAGCTTATGTGGCTGAGCAAAGTAAGAA
+TTGTTCTTCTTGGCTAGTCTTATAGCATAAAATACGTGAACCCTAGAAATATTTCTAAGTAGCAGCAAGTGGGAATTATG
+AGCAGGGCACACTAAATCACACACTGATTAATAAAGCAGGGCCACAAGGTAACTGTTGGAGCTTGGGCAAATCACTGGGC
+CACTTCTAAGTCTAGAAATGAGAGAGCCTGATTGCTTCTTCAGTTTCAAAACTCTATGTATATCCCTTCCCCTTAAAATA
+TGTTTCCATGACAAAAAAGAAAAGCACTAAAAAAGAAAAGAAAAGAAAAGCACTAAGAAAGAAAAATTTATTTTTCCTAT
+CTTGTAGTGCAGCCACCTCTTTCTCTTTGGAGGCTGGATATATGACCCAGGACATTTCTTTCTTTTTTTTATTTTTTTTT
+TCATTTTTGATTATAATGTCTGATCCATGTTGGGCTGGATCTAAATCACTCAACTAATTACTAGATCTCTACAGCTACAA
+TTATCAGGCCAAAAACAGACTCATATTCACATAACAGAATAAAAGGTGGTTTTGCAAATTTTGGTTATTCAGAGTTACTA
+CTTCACTGTATAGATTAACTTGAAAACATTTAACTTGTCCAGGGATTGGAAGCTATCAAACACTCAGGCAAAGCAACACT
+AAAGCTATCAAGAGAAGTTTCTTCTCTCCAAAACTGCTAGCCTTTTCCAACCTGTTGATCATTGGACATAATCTCTATTG
+CCCAATAGTGTTCTCTTACTTAAAATGGTTAGGATCAATCTTTTAATATAGACGTACTCTTCAGATTACCTGTCAAAACA
+GTCCCTTAATTTCCTCCCAAGCAGAGATGGCATTTGCTTCTCAATGTTCATGAAGCACACCAAGGAATTAGAAGCATTTG
+TTGTTTCAAGTCTGTGGAGTAGGGTTACTGGGCCCAATGCCCCCCCCCCCACAGAGATGGTCCCCCAACCCACCTAGGAT
+ATCCCAATAGCAATACCCATTTCTGATTATCATTGAGATTGGACATCTTAGTAGAAATATTATACACACTCGAAATCATG
+ACTTATCCACCAGTTCACTTGTAACTAATAACTAAACAGTTGTGTTATCGTTTGGCATGTGTTTCTCACCTGTGACATTT
+TGAAATAGTACATCCTGATAATGTATTTTATCTTAAGTAGTTGAAATAACACTTTGGAAACCGTCCTAGAAAAGTAACTT
+CAACACAATTGTTACTAAAATTTGCATTCACAACATGAAATAAATTTTCTTCCTATGAAATGATTGTGCTGAGTCCTACA
+GTATGGCATTTTGTAATTTGTGAGCTTCTTTTAATGTTACCGTTATATGTGTTACAACTGAAGACAGGGAAAAAAAAACA
+ACTGGCAAATTTGCTAA
+>ref|X17147.1| Canine mRNA for thyrotropin (TSH) receptor variant
M90047.1 Dog thyrotropin receptor variant (TSH) mRNA
+CAGGCGCAGAGGGGCCCAGACGACCGTGGAGGATGAAGAAATAGCCTTGGGACCCTTGGAAAATGAGGCCGCCGCCCCTG
+CTGCACCTGGCGCTGCTTCTCGCCCTGCCCAGGAGCCTGGGGGGGAAGGGGTGTCCTTCTCCCCCCTGTGAGTGCCACCA
+GGAGGATGACTTCAGAGTCACCTGCAAGGATATCCACCGCATCCCCACCCTACCACCCAGCACGCAGACTCTGAAGTTTA
+TAGAGACTCAGCTGAAAACCATTCCCAGTCGTGCATTTTCAAATCTGCCCAATATTTCCAGGATAGAGATTCGGAATACC
+AGAAGCTTAACATCCATAGACCCTGACGCCCTAAAAGAGCTCCCACTCCTGAAGTTCCTTGGCATTTTCAACACTGGACT
+TGGAGTATTCCCTGATGTGACCAAAGTTTATTCCACTGATGTATTCTTTATACTTGAAATCACAGACAACCCTTACATGG
+CTTCCATCCCTGCCAATGCTTTCCAGGGGCTGTGCAATGAAACCCTGACACTGAAACTATACAACAATGGCTTTACTTCA
+ATCCAAGGACATGCTTTCAATGGGACAAAACTGGATGCTGTTTACCTGAACAAGAATAAATACCTGTCAGCTATCGACAA
+AGATGCATTTGGAGGAGTGTACAGTGGACCAACCTTGCTGGATGTCTCTTACACCAGTGTTACTGCCCTGCCATCCAAAG
+GCCTGGAGCATCTAAAGGAGCTGATAGCAAGAAACACTTGGACTCTAAAGAAACTCCCACTTTCCTTGAGTTTCCTTCAC
+CTTACACGGGCTGACCTTTCTTATCCAAGCCACTGCTGTGCTTTTAAGAATCAGAAGAAAATCAGAGGAATCCTTGAGTC
+CTTAATGTGTAATGAAAGCAGTATTCGGAGCCTGCGCCAGAGAAAATCTGTGAATACTTTGAATGGCCCCTTTGACCAGG
+AATATGAAGAGTATCTGGGTGACAGCCATGCTGGGTACAAGGACAACTCTCAGTTCCAGGATACCGATAGCAATTCTCAT
+TATTATGTCTTCTTCGAAGAACAAGAAGATGAGATCCTCGGTTTTGGGCAGGAGCTTAAAAACCCACAGGAAGAGACCCT
+CCAGGCCTTTGATAGCCATTATGACTACACTGTGTGTGGTGGCAATGAAGACATGGTGTGTACTCCTAAGTCAGATGAGT
+TCAACCCCTGTGAAGACATAATGGGCTACAAGTTCCTGAGGATTGTGGTGTGGTTTGTTAGTCTGCTGGCTCTCCTGGGC
+AATGTCTTTGTCCTGATCGTCCTCCTTACCAGTCACTACAAATTGACTGTCCCACGCTTTCTCATGTGCAACTTGGCCTT
+TGCAGATTTCTGCATGGGGATGTATCTGCTCCTCATCGCCTCCGTAGACCTCTACACTCATTCTGAGTACTACAACCATG
+CCATCGACTGGCAGACAGGCCCTGGGTGTAACACAGCTGGTTTCTTCACTGTCTTTGCCAGTGAATTATCAGTGTATACA
+CTGACAGTCATCACCCTGGAGCGCTGGTATGCCATTACCTTCGCCATGCGCCTGGACAGGAAGATCCGCCTCAGGCATGC
+ATATGCCATCATGGTTGGGGGCTGGGTTTGCTGCTTCCTGCTCGCCCTGCTCCCTCTGGTGGGAATAAGCAGCTATGCCA
+AGGTCAGCATCTGCCTGCCCATGGACACTGAGACACCTCTTGCCCTGGCATATATTATCCTTGTTCTGTTGCTCAACATA
+GTTGCCTTTATCATTGTCTGCTCCTGTTATGTGAAGATCTACATCACAGTCCGAAATCCCCAGTACAACCCGGGGGACAA
+AGACACCAAAATTGCCAAAAGGATGGCTGTATTGATCTTCACTGACTTCATGTGCATGGCCCCAATCTCATTCTACGCTC
+TGTCAGCACTTATGAACAAGCCTCTCATCACTGTTACCAACTCCAAAATCTTGCTGGTTCTCTTCTATCCACTTAACTCC
+TGTGCCAATCCATTTCTCTATGCTATTTTCACGAAAGCCTTCCAGAGGGATGTATTTATCCTGCTCAGCAAGTTTGGCAT
+CTGTAAACGCCAGGCTCAGGCATACCGGGGCCAGAGGGTTTCTCCAAAGAATAGTGCTGGTATTCAGATCCAAAAGGTTA
+CCCGGGACATGAGGCAAAGTCTCCCCAACATGCAGGATGAGTATGAACTGCTTGAAAACTCCCATCTAACCCCAAATAAG
+CAGGGCCAAATCTCAAAAGAGTATAACCAAACAGTTCTGTAAGCAGACCCTATACTACTCGCAGTGGCAGGTGGACTTCT
+AAAAATCTAGTTTCTTGAACACGTATTCCAAATTCATTATATACACAAGACAGCTGACCTAACCCTTTGCAGGTGATGTT
+TCATGGGGCAAATTTCATCTCCAAAAAGGGGGTAGCACTACCACCTAATCATTACCTCCCAGAAGGAAGAGAGGCTACCA
+GCACTTCTGAACCCTGGTGATATCAAGATAACTGACACTTTCTAGAAAACTTGTTTGATGCTAACTGCTTTAACAACATT
+GTATAAGATGTCCAACAGATATTAACTGAACCAGGTCAACATTGAGCTTCTCACTTTCAAATAGCATTTCATAGTAAAGA
+TTCAGCAAATGGCAAATGCTATTAACTGAGTTGGTGACCACAAGATAGAATTAGCCCCATGTTGGCTTGGTCCACCTTCA
+TGTTCTTGGATACAACCAAAGAGAATGTGAATTCCTCGAAACTGAAAAGTCCAGCAGGATACATGCATGAAGCAGCTATT
+ATGAGGTGGAAGGAGGGGAAAGGCTTAGCTTAGTTGTTATTTCAGCCTCTGAAACTATATCATCTCTTCACAAGGACCTA
+CCTGATGTGACCCAACTGTTAGGTGTTGCCCAGGGGGGGAAAAAAACTGGCAAGATTTCAGCTTATGTGGCTGAGCAAAG
+TAAGAATTGTTCTTCTTGGCTAGTCTTATAGCATAAAATACGTGAACCCTAGAAATATTTCTAAGTAGCAGCAAGTGGGA
+ATTATGAGCAGGGCACACTAAATCACACACTGATTAATAAAGCAGGGCCACAAGGTAACTGTTGGAGCTTGGGCAAATCA
+CTGGGCCACTTCTAAGTCTAGAAATGAGAGAGCCTGATTGCTTCTTCAGTTTCAAAACTCTATGTATATCCCTTCCCCTT
+AAAATATGTTTCCATGACAAAAAAGAAAAGCACTAAAAAAGAAAAGAAAAGAAAAGAAAAGCACTAAGAAAGAAAAATTT
+ATTTTTCCTATCTTGTAGTGCAGCCACCTCTTTCTCTTTGGAGGCTGGATATATGACCCAGGACATTTCTTTCTTTTTTT
+TATTTTTTTTTTCATTTTTGATTATAATGTCTGATCCATGTTGGGCTGGATCTAAATCACTCAACTAATTACTAGATCTC
+TACAGCTACAATTATCAGGCCAAAAACAGACTCATATTCACATAACAGAATAAAAGGTGGTTTTGCAAATTTTGGTTATT
+CAGAGTTACTACTTCACTGTATAGATTAACTTGAAAACATTTAACTTGTCCAGGGATTGGAAGCTATCAAACACTCAGGC
+AAAGCAACACTAAAGCTATCAAGAGAAGTTTCTTCTCTCCAAAACTGCTAGCCTTTTCCAACCTGTTGATCATTGGACAT
+AATCTCTATTGCCCAATAGTGTTCTCTTACTTAAAATGGTTAGGATCAATCTTTTAATATAGACGTACTCTTCAGATTAC
+CTGTCAAAACAGTCCCTTAATTTCCTCCCAAGCAGAGATGGCATTTGCTTCTCAATGTTCATGAAGCACACCAAGGAATT
+AGAAGCATTTGTTGTTTCAAGTCTGTGGAGTAGGGTTACTGGGCCCAATGCCCCCCCCCCCACAGAGATGGTCCCCCAAC
+CCACCTAGGATATCCCAATAGCAATACCCATTTCTGATTATCATTGAGATTGGACATCTTAGTAGAAATATTATACACAC
+TCGAAATCATGACTTATCCACCAGTTCACTTGTAACTAATAACTAAACAGTTGTGTTATCGTTTGGCATGTGTTTCTCAC
+CTGTGACATTTTGAAATAGTACATCCTGATAATGTATTTTATCTTAAGTAGTTGAAATAACACTTTGGAAACCGTCCTAG
+AAAAGTAACTTCAACACAATTGTTACTAAAATTTGCATTCACAACATGAAATAAATTTTCTTCCTATGAAATGATTGTGC
+TGAGTCCTACAGTATGGCATTTTGTAATTTGTGAGCTTCTTTTAATGTTACCGTTATATGTGTTACAACTGAAGACAGGG
+AAAAAAAACAACTGGCAAATTTGCTAA
+>ref|X55317.1| C.domesticus gene for proteolipid protein
+AGAGGACCGAAGAAGGAGACTGGAGAGACCAGGATCCTTCCAGCTGAACAAAGTCAGCAGCAAAGCAGACTAGCCAGCTG
+GCTACAATTGGAGTCAGAGTTCCAAAGACATGGGCTTGTTAGAGTGCTGTGCAAGATGTCTTGTAGGGGCCCCCTTTGCT
+TCCTTGGTGGCCACTGGATTATGTTTCTTTGGGGTGGCACTGTTCTGTGGCTGTGGACATGAAGCATTAACTGGTACAGA
+AAAGCTAATTGAGACCTATTTCTCCAAAAACTACCAGGACTATGAGTATCTCATCAATGTGATCCATGCCTTCCAGTATG
+TCATCTATGGAACTGCCTCTTTCTTCTTCCTTTATGGGGCCCTCCTGCTGGCTGAGGGCTTCTACACCACCGGTGCAGTC
+AGGCAGATCTTTGGCGACTACAAGACCACCATCTGCGGCAAGGGCCTGAGCGCAACGGTAACAGGGGGCCAGAAGGGGAG
+GGGTTCCAGAGGCCAACATCAAGCTCATTCTTTGGAGCGGGTGTGTCATTGTTTGGGAAAATGGCTAGGACATCCCGACA
+AGTTTGTGGGCATCACCTATGCCTTGACCATTGTGTGGCTCCTGGTGTTTGCCTGCTCTGCTGTGCCTGTGTACATTTAC
+TTCAATACCTGGACCACCTGCCAGTCAATTGCCTTCCCCAGCAAGACTTCTGCCAGTATAGGCAGTCTCTGTGCTGATGC
+CAGAATGTATGGTGTTCTCCCATGGAATGCTTTCCCAGGCAAAGTGTGTGGCTCCAACCTTCTGTCCATCTGCAAAACAG
+CTGAGTTCCAAATGACGTTCCACCTGTTTATTGCTGCATTCGTGGGGGCTGCAGCCACACTGGTTTCCCTGCTCACCTTC
+ATGATTGCTGCCACTTACAACTTTGCCGTCCTTAAACTCATGGGCCGAGGCACCAAGTTCTGATCTCCTGTAGAAATGTC
+CCTTTCTCTAATAGCGAGGCTCTAACCACACAGCCTACAATGCTGCGTCTCCCATGTTAACTCTTTGCCTTTGCCATCTA
+TTGGCCCTTTCTTACTTGACGAGTGTAACAAGAAAGGAGAGTCTTGTGGTGATTAATGTCTCTCTGTGGACTCTCCCCCT
+TACATACCTCTTTTAGTCATTTTGCTTCACAGCTGGTTCCTGCTAGAAATGGG
+>ref|Z18635.1| C.eutropia gene for large subunit rRNA
+AGTATTAGAGGCACTGCCTGCCCAGTGACAATGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCACTT
+GTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCTCC
+CCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAATA
+ATACCACCAAGGGATAACAAAGCTTTACATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCCTCCGA
+GTGATTAAAACTTAGGCCTACCAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTACCC
+TAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCT
+AATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18634.1| C.eutropia gene for small subunit rRNA
U13082.1 Cephalorhynchus eutropia mitochondrion 12S rRNA gene, partial sequence
+CCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACCACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCATAAACTTACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|X59998.1| C.familiaris mRNA for amylin
+CCTCTGATATACTGACACTGAAACATTAAAAGTAAATTTGAGAAACAATGTGTCTCCTGAAGCTGCCAGTAGTTCTCATC
+ATACTCTCGGTTGCATTAAACCATCTGAAGGCTACTCCCATTAAAAGTCACCAGATGGAAAAGCGGAAATGCAACACTGC
+CACGTGTGCGACTCAACGCCTGGCAAATTTCTTGGTTCGTACTAGCAATAATCTTGGTGCCATTCTCTCGCCTACCAATG
+TGGGATCCAATACATATGGCAAGAGAAACACAATTGAGATTTTAAACAGGGGACCATTGAATTACTTACCACTTTAGAGG
+TCAACGCACCCCTATCATTCTTACTTTCATGTATAAAAATATTCTAGTGATTTCTTGTGTAAGTTAACATTAGCATGAAC
+ATAAGTTTTTATGTACTATGTTTGTTAGTAGTACATATAAATTGTTATGGTAAGAATTGTTTTAACTTTAATGCTAATTA
+AGACCCCATCATAAAAAGTCAATGTCTTTAAAAATGAAATGTTCTTGCTATAGATATTTATTTTGAAAACATATTAAAAA
+GTCATTCTTTTGCCTATATCTTTATGATCTGAGTTTGAGAACAAAAGAGAAAATAGTATTTGGAAACTTGGTAAATTGTA
+AACAGCGGAGAGTGAAGTTAAGCACATTAAAAAGGGCATTGAGGACCGCAGGTGAGGAGAGCTTGATGAGCATGATGTCA
+TTGTCCAGGATCCAGCTGTTATAGTTGGGATGGCGGATGACCTTGGCGGAGTTGATGAACTGCTACAAGTCCCGCATCCA
+AGTGAGACTCGGAGAGTACAACATCGATGTCCTGGAGGGGAATGAGCAGTTCATCAACTCCGCCAAGGTCAT
+>ref|X05297.1| Dog kidney mRNA for (Na+/K+)-ATPase beta-subunit
+GGTTGTGTAGTCCGTAAGTGTCAACTTTTGAAACTGTCCTTTCACTTCACACGGAAGCCCAGCGATGCTCTGATAGTAGC
+TTATGAACCAGCCTTATGCTGGTGGGAGGTTTTTTTGTTTTTGTTTTTGTTTTTTGTTTTTTTTGGTAGCCCATCCACAC
+ATGCTATTAACTCTGATTTTCATTGAGCATCTAAAGTATAAGATCTAAGATGTTTCATGCAAAGATAGTCTTATTAACGT
+TTTTTGGTTTGACACTCTTCCCCCAAGGTGGTGTGGTGTTCAGGCACCTGCCGTAGTAGGGGTAATATTGCAGAGGAAAG
+CCCGGGTAGCCGCCCAGGCCAAAATACTCCACGTTCCCAATTCTATCCTTGTCTTCGTCTCGCTTGCCAGTGCACTGAAC
+CGGCAGGACGTAAGGACTGTATTTCATCACTGGGTAAGCCTCCAGGGACTCATTCTTGGGAGGCTTAGGTTTGAAGCCCA
+GAACTCGGAGAGCCGCAGCGGCCGCGGCGGGTGCAGCCTGCGGAGAGCGGGGCGCGGGCCGCCGACCAGCAGCCGGGAGG
+ACGCGAGGCGCGCGCCGCACTCACCCACCCTCAGCCCCCGCGGCAGCCGCTGACCCGCCACCATGGCCCGCGGAAAAGCC
+AAGGAGGAGGGCAGCTGGAAGAAATTCATCTGGAACTCGGAGAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTT
+TAAGATCCTTCTGTTCTACGTGATATTTTACGGCTGCTTGGCTGGGATCTTCATTGGGACCATTCAAGTGATGCTGCTCA
+CCATCAGCGAATTCAAGCCCACATACCAGGACCGTGTGGCCCCACCAGGATTAACACAGATTCCTCAGATCCAAAAGACT
+GAAATTTCCTTTCGCCCTAACGATCCCAAGAGCTATGAGGAATATGTGCGCAACATAGTCAGGTTCCTGGAGAAGTACAA
+AGATTCAGCCCAGAAGGATGAAATGATTTTTGAAGATTGTGGCAATATGCCCAGCGAAATCAAAGAACGAGGAGAATTTA
+ACAATGAACGAGGAGAGCGGAAAGTCTGCAGGTTCAAGCTTGAGTGGTTGGGCAATTGCTCCGGAATCAACGATGAGACT
+TATGGCTACAGAGACGGCAAACCGTGTGTCCTAATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAA
+TGAGTCCCTGGAGGCTTACCCAGTGATGAAATACAGTCCTTACGTCCTGCCGGTTCAGTGCACTGGCAAGCGAGACGAAG
+ACAAGGATAGAATTGGGAACGTGGAGTATTTTGGCCTGGGCGGCTACCCGGGCTTTCCTCTGCAATATTACCCCTACTAC
+GGCAAGTTGCTCCAGCCCAAGTATCTGCAGCCCCTGCTCGCCGTGCAGTTCACCAACCTCACCATGGACACTGAAATTCG
+CATCGAGTGTAAGGCTTACGGGGAGAACATTGGTTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTG
+AAGTTAAGAGCTGATCACAAGCACAAATCTTTCCCACTAGCCATTTAAAAAAAGTTAAAAAAAAGATACAAAAAACAAAA
+ACCTACTAGTCTTGGAATAAACTGTCATACGTATGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTT
+AATAGGTTAGAATGTAAATTTAAAGTGTAGCAATAGCAAGAAAATATTTATTCTACTGTAAATGAC
+>ref|X64964.1| C.familiaris mRNA DOPCRH01 for olfactory receptor
+TGTCTGTAACCCTCTAAGGTATCCAGTCCTGATGAACCGCAGGGTGTGTCTCCTGCTGGCTGCTGGTGCCTGGTTTGGTG
+GGTCCCTGGATGGCTTTCTGCTCACCCCCATCACCATGAATGTCCCTTACTGTGGCTCCCACAGTATCAACCATTTTTTC
+TGTGAGATCCCTGCAGTTCTCAGACTAGCCTGTGCTGACACATCCTTGTATGAAACCCTAATGTACATCTGCTGTGTACT
+CATGTTACTCATCCCTATCTCTATCATCTCAACCTCCTACTCTCTCATCTTGTTAACTGTCCACCGAATGCGCTCTGCTG
+AAGGCCGGAAAAAAGCTT
+>ref|X64965.1| C.familiaris mRNA DOPCRH02 for olfactory receptor
+CATCTGTAACCCTCTGCGCTACACAGAGCTCATGGGACACCGGGTGTGTGTGGGACTCGTGGCCACTGCCTGTGCCTGTG
+GCTTGACTATTGCACAGATTATCACCTCCCTGGTGTTTTACCTGCCGTTCCGCTCCTCCAACCAGCTCCATCACTACTTC
+TGCGACATCCCTCCTGTCCTCAAAGTGGCATCTCAACATACCCACTTGAGTCAGATTGTCATTATCATGCTCTGTGCATT
+GGTCCTGGTTATCCCTCTGCTACTGATTTTGGTATCCTATATTCACATCATCTCTGCCATCATCCAATTTCCTTCCACAT
+TAGGCAGATACAAAGCTT
+>ref|X64966.1| C.familiaris mRNA DOPCRH07 for olfactory receptor
+CATTTGCAAGCCCCTGCATTACTTGACCATCATGAACCTGAAGACTTGCTCCTTCCTGGTCACTACCTGCTTCACTTTGG
+CCTTCACTCTCATCACTGGTTTGGTAGTGAAAGTTTCCCAGTTATCCTTCTGTGGCCCCTATGTCATCCCTCACTTTTTC
+TGTGACATTGGCCCCCTGATTCATCTTTCCTGTTCTGACACTAAACCTACTGAAATGTTGGCTTTTGTCCTCGCTTTGTT
+TATCCTTTTGACATCCCTTATCATAACCATCATTGCCTACAGCAACATAATAGTCACAATTGTACAACTCCCATCAGCTA
+GGGAACGACAGAAAGCTT
+>ref|X64967.1| C.familiaris mRNA DOPCRX01 for olfactory receptor
+TGTTTGCCACCCACTGAGGTACCCCGTTCTCATGAGCTGGCAATTATGCCTGAGAATGACCGTGGGGTCCTGGTCCCTGG
+GGGCAGCTGATGGGCTCATGCAGGCTGCTGCCACCCTGAGTTTTCCATTCTGTGGTGCACATGAGATCAATCATTTCTTC
+TGTGAGGCCCCCACTCTGGTGCGTTTGGCTTGTGCTGACACGTTTGTTTTTGAGTATGTCATGTATATCTGCTGTGTATT
+AATGCTGCTGGTTCCGTTTTCTCTCATCCTGATTTCCTATAGTCTCATCCTTGCTGCAGTTCTCCAGATGCATTCTAGAG
+AAGCCCGCAAGAAAGCTT
+>ref|X64968.1| C.familiaris mRNA DOPCRX04 for olfactory receptor
+TATTTGCTTTCCTCTTCACTATCCCATTCGTATGAGCAAAAAAGTATGCATGCTGATGATAACAGGATCTTGGATAATGG
+GCTCAGTCAATGCTTGTGCCCACACTGTATACGCCTTCCATATACCTTACTGTCGATCCAGGAACATCAACCATTTCTTC
+TGTGATGTCCCAGCCATGTTGACTTTAGCCTGCATGGACACCTGGGTCTATGAGTACACAGTGTTTGTGAGCACCATCCT
+CTTCCTTGCATTTCCATTCATTGGCATTGTGTGTTCCTATGGCCGGGTCCTCCTAGCTATCTGCCACATGCAGTCCACAG
+AAGGGAGGAAGAAGGCCTATTCC
+>ref|X64969.1| C.familiaris mRNA DOPCRX07 for olfactory receptor
+CATTTGTCAACCTCTACACTACATGGCCATCATGAACACCAGGCTCTGTGGACTGCTGGTTCTGGTATCCTGGACCACGA
+GTGTCTTGCATTCCTTGTTACAAACCTCAATGGTGTTGCGGCTGTCCTTCTGTACAGAGGTGGAAATCCCCCACTTTTTC
+TGTGAACTCAATCAAATGATCCAACTTGCCTGTTCTGACACCTTTCTTAATAATGTGGTAATGTATTTTGCAGCTATGTT
+GCTGGCTGGTGGTCCCCTCACTGGGATCCTTTACTCGTATTCTAAGATTGTTTCCTCCATTTGTAGAATCTCATCAGCTC
+AGGGCAAGTATAAAGCTT
+>ref|X64970.1| C.familiaris mRNA DOPCRX09 for olfactory receptor
+CATATGCAAACCATTACTTTATCCAGTGATTATGTCTAATACACTGTGCATCCGGCTGTTAGTTTTGTCACTTTTAGGTG
+GACTTCTCCATGCCATAATTCATAGTTCTTTTTTATTCAGATTAACCTTCTGTGATTCCATCATAGTACATCACTTTTAT
+TGTGACATTATACCCCTGCTTAAGATCACCTGTACTGACCCTTCTATTAATTATCTGATAGTATTTATTTTTGCTGGGTC
+AATACAGATGTTCACCATTCTGATAGTTCTTGTCTCCTACACACTAGTGCTCTTCACAATATTAAGAAAGAAGTCTCTAC
+AAGGCATAAAGAAAGCCTTCTCC
+>ref|X64971.1| C.familiaris mRNA DOPCRX16 for olfactory receptor
+CATATGCAAACCATTAACTTATCCAGTGATTATGTCCAATACACTCTGCATCCGGCTGATACTTTTGTCATTTTTAGGAG
+GACTTCTTCATGCCATAATTCACAGTTCTTTTTTATTCAGATTAACCTTCTGCAATTCTATCATAGTACATCATTTTTAC
+TGTGATATTATACCATTGTTTAAGATCTCCTGTACTGATCCTTCTATTAATTATCTGATGGTATTTATTTTCTCTGGGTC
+AATACAAGTCTTCACCATTTTGACTGTTCTTGTCTCCTACACACTAGTGCTCTTTACAATATTAAGAAAGAAGTCGCTGC
+AAGGCATAAAAAAAGCCTTCTCC
+>ref|X64996.1| C.familiaris DTMT gene for olfactory receptor
+GAGCTCTCAGGTGTATGACTTGTGCCTGAGTTTCTTTTACTGATATGTGAGAGATTTGGAGGCACAGATTGGGAGAGGGG
+CAGGGTGAGGGTGAGTTCATGAGCTTCTTTTAGGATTTTCTGAGCTTAAAATACATGTGCTAAGTCTAAAGAAGATAATC
+ATTAAGCAATTACATACACAGTTTTATAGATTAGATAGTCATCTACATCTGACATTTAAATGGTAGTGCAGTCTTTTGGA
+GTAGGTGAGTTTTTCTTTGTGGTATATGTAGCATTATAAGAGAACAGTGTCTAAGAAAAAGCCATGGAACGTCAACATGA
+AGAGACTGACAAAACAGAAAGTAATTAGAGTTAGTGAGGATGTCTGGTCAGTTAGGTATGAGAAAAACCCAATATATATG
+TATCTCAGAGGTAATAGGAGTATTTTATAAAAGGTGGAATATTGATAAAGAGAAGTGAAGAAAAGTCATTTCTGATCATA
+GAGATTCTGATCTTAGAATTTTGGATATAAATGGTAATTATTGTGATGAGAGTGATACCAAGTAACTTTACAGAACACTT
+AACAGATCATGTATCATAGAAATATGTTTATTTTTAAATTCAGGTTTAATGGACACTGTAATTTCTTCTTAAAGATACTG
+AAGACAAAGCATGACAGAAAAGAATCAAACTGTCGTCTCAGAATTTGTCCTCCTTGGCCTGCCCATTGATCCAGATCAGC
+GAGACCTGTTCTACGCCCTGTTCCTGGCCATGTATGTTACCACAATCCTGGGGAACCTACTCATCATTGTCCTCATTCAG
+CTGGACTCGCACCTCCACACACCCATGTATTTGTTTCTCAGCAATTTATCCTTCTCTGACCTCTGCTTCTCTTCTGTCAC
+AATGCCCAAGTTGCTGCAGAACATGCAGAGCCAAGTCCCGTCCATCCCCTATGCTGGCTGCCTGACCCAAATGTACTTCT
+TCCTGTTTTTTGGAGATCTGGAGAGCTTCCTCCTGGTGGCCATGGCCTATGACCGCTATGTGGCCATCTGCTTCCCCCTA
+CACTACACCACCATCATGAGCCCCAAGCTCTGTTTCTCCCTGTTGGTGCTGTCATGGGTGCTGACCATGTTCCATGCTGT
+ATTACACACTCTGTTAATGGCCAGATTGTGTTTTTGTGCCAACACAATCCCCCACTTTTTTTGTGATATGTCTGCTCTGC
+TGAAGCTGGCCTGCTCTGACACTCAAGTTAATGAGTTGGTGATATTTATCATGGGAGGGCTCATTCTCGTGATCCCATTC
+CTGCTCATCATCACGTCTTATGCACGGATTGTGTCCTCCATCCTCAAGGTTCCTTCTGCCATAGGCATCTGCAAGGTCTT
+CTCCACCTGTGGCTCCCACCTCTCAGTGGTGTCTCTCTTCTATGGGACAGTTATTGGTCTCTATTTATGCCCATCAGCTA
+ATAATTCTACTGTTAAGGAGACTATCATGGCTATGATGTACACTGTGGTCACCCCCATGCTGAACCCCTTCATCTACAGC
+CTGAGGAATAAAGACATGAAGGGAGCCCTGAGAAGAGTCATTTGTAGAAAGAAAATTACCTTCTCTGTGTGATGGTAACA
+TTTGATACTTTTACATATTTCTATCTAGGAGATATAATAATATTGGAATACTATTCCAGATGTTTTCTCTTACCCATGGA
+AAGCCTGTAAAAATGGTACGGTAAATAATTATT
+>ref|X64972.1| C.familiaris mRNA DTPCRH02 for olfactory receptor
+TATTTGCCATCCTCTCCGATACAAGGTCATCATGAGCCGCTGGATGTGTCTCCTCATGGTGGGCATCTGTGGAGTTTATG
+GCGTGGTGGGTAGCCTGTGCTACACTTTCTTTGCGATGCGCCTGCCCTACTGTGGCCCTAATGAAATTGACCACTACTTC
+TGTGAGGTCCCTGCCGTCCTGAAGCTGGCCTGTGCAGACACATCCCTCAATGACTTGGTGGACTTCATCACGGGCTTCAA
+TGTCATTGTGGTCCCACTGACCCTGGTTGTCATTGTCTATGCCAACATCTTTGCCACCATCATGAAGATCCGCTCAGCCC
+AGGGACAGATCAAAGCCTTCTCC
+>ref|X64973.1| C.familiaris mRNA DTPCRH09 for olfactory receptor
+CATTGTCAACTCTTTGCTTTACAGTGCAGCCATGTCTAAGAGAACATGTGTAGGGTTGGTCATTGGGTCATTCATAGGTG
+GAATGATTAACTCATTGACACACACAGTAAGTTTAGGCAGACTGTCCTTCTGTGGGTCCAATGTTGTCAGCCACTTCTTC
+TGTGATATTCCCTCACTCCTAAAGCTATCATGTTCTGATACTACCATGAATGAATTGTTGCTCTTAACTTTCTCTGGAGT
+CATTGCCATGGCCACCTTCTTGATTGTGATCATTTCCTACGTGTTTATTGCTGTTGCTATTCTGAGGATCCGCTCAGCAA
+CAGGCAGACAGAAAGCCTTCTCC
+>ref|X14610.1| Canis familiaris partial gene for endothelin
+CACAGGCTTCTATGTGCTCCTCATGATCCCAGGGGAACATGCCCTGCTGACCTGCTCTTTCTCTCCCCAGCGGTCCTGGG
+TGCGGAGCTCAGCACAGGCCCGGACAGCAGGGGGGAGAAGCCTGCTCCCAGTGCACCCTGGCGGCCCCGCCGATCCAAGC
+GCTGCTCCTGCTCTTCCCTGATGGATAAAGAGTGTGTCTACTTCTGCCACCTTGACATCATCTGGGTCAACACTCCTGAG
+TAAGTCCCTAGAGGGCGTCGTAACTCTATTCCTTACCTCTGGCTTCCCCAGACTCTGGAGCCCAGTGACTCTAGCTGCTT
+TTAGGGGAGCTC
+>ref|X14048.1| Canis familiaris RDC1 mRNA for G protein-coupled receptor
+CGAGGCGGGGAGCCGAGGCCGCCGCCAGCGCGCAGGGAGCCCCGAGCCCGAGCCCCGCCGCGAGGCCGTTCGCCGGCTGC
+CCGCAGCACCATGGATCTGCACCTCTTCGACTACGCCGAGCCAGGCAACTTCTCCGACATAAGCTGGCCGTGCAACAGCA
+GCGACTGCATCGTCGTGGACACCGTGCTGTGCCCCAACATGCCCAACAAAAGCGTGCTGCTGTACACGCTGTCCTTCATT
+TACATCTTCATCTTCGTGATCGGCATGATCGCCAACTCCGTGGTGGTCTGGGTGAACATCCAGGCCAAGACCACCGGCTA
+CGACACTCACTGCTACATCCTCAACCTGGCCATCGCCGACCTGTGGGTGGTCGTCACCATCCCCGTCTGGGTGGTCAGCC
+TCGTGCAGCATAACCAGTGGCCCATGGGGGAGCTCACGTGCAAGATCACGCACCTCATCTTCTCCATCAACCTGTTCGGC
+AGCATCTTCTTCCTCACGTGCATGAGCGTGGACCGCTACCTCTCCATCACCTACTTCGCCAGCACGTCGAGCCGCAGGAA
+GAAGGTGGTTCGCCGCGCCGTCTGTGTCCTGGTGTGGCTGCTGGCCTTCTGCGTGTCCCTGCCCGACACCTACTACCTGA
+AGACCGTCACGTCGGCGTCCAACAACGAGACCTACTGCCGCTCCTTCTACCCCGAGCACAGCGTCAAGGAGTGGCTCATC
+AGCATGGAGCTGGTCTCGGTGGTCCTGGGCTTCGCCATCCCCTTCTGCGTCATCGCCGTCTTCTACTGCCTGCTGGCCCG
+CGCCATCTCCGCGTCCAGCGACCAGGAGAAGCAGAGCAGCCGAAAGATCATCTTCTCCTACGTGGTGGTCTTCCTCGTGT
+GCTGGCTCCCCTACCACGTGGTGGTGCTCCTGGACATCTTCTCCATCCTTCACTACATCCCCTTCACCTGCCAGCTGGAG
+AACTTCCTCTTCACGGCTCTGCACGTCACGCAGTGCCTGTCTCTGGTGCACTGCTGCGTCAACCCCGTGCTCTATAGCTT
+CATCAACCGTAACTACAGATACGAGCTGATGAAGGCCTTCATCTTTAAGTACTCGGCCAAGACGGGTCTCACCAAGCTCA
+TCGATGCCTCCAGGGTGTCGGAGACGGAGTACTCCGCCTTGGAGCAAAACGCCAAGTGACAGGCCCCGCGGGGCCTCGGG
+GACAAGCGTGCGCGCTTCCTACACGGCGCTGGGTTGCATCGTCTCCAAGAGTTCAAGCAAGGCGCCTTGGGGCTTGAGGC
+CTGAGTCGCGTGAAGTGGGGAAGCAGGTGCCACCGTGGGCCCTTCTCCTCTTTGTCCGGCTGCCGGGGTGGCTGTCACGG
+GGCCGTCGTGCCTGCAGGCGTGGGCCGTGCTGCGTGACCCTACTACTTACTCGTCCAAGCCGGTTGCCGGCGGGCTCGCC
+TGCACTTCTGTAAAATAGGACTTTCTGTGTTCCCTGGAGGTTTTACTTGGTGACTTGTATTTAAGTTTTAAGACTTTATT
+TTCTCATTATCGGCGTACCTTATAAATGTACTTGAAAGTTTAAATATATTTTATAAAAATCGTATGGGCGCTGTCACATA
+CGATACATATACATACGCTGACATATATTCAGAGCGTTGTAGTTTTAACTAGTTTGATTTCAGTTTTGACTAAGGATGAC
+ATTAATTGTTAGCTGTTTTGAAATTTTATATATATATATAAATATAAATATAAATATATAAATATATAAATATATGCCGG
+TCTGGGCTGAAATGTTTTATTTACGATAGTTTTATATCTGTGTGGTGCTTTGCTACCTGCATGGGATATGGGACAAGAAG
+GACGCTGTAAAGCAGTTTGTGATATTAATTGTATCGTAAAGTTACATTAAAAATGCGAAACGAAGCGGAACCTCTCCAGG
+CTGCAGCGCCGCGCACAAAGTTTTGAACAGTCTTATTTCGGAGAGTTCTCTCAATTTGTAAGTTATTTTTCTTTTTTTTT
+TTTTTTAATAAAGATTTGTTTTTCCTAAAAAAGGCAAAAAAAAAAAAAAAA
+>ref|X14050.1| Canis familiaris RDC5 mRNA for G protein-coupled receptor
+CCGTGCTGCCCTTCTCGGCGGCCCTGGAGGTGCTCGGCTACTGGGTGCTGGGACGGATCTTCTGTGACATCTGGGCCGCC
+GTGGACGTCCTGTGCTGCACGGCCTCCATCCTGAGCCTGTGCGCCATCTCCATCGACCGCTACATCGGGGTGCGCTACTC
+GCTGCAGTACCCCACGCTGGTCACCCGCAGGAAGGCCATCCTGGCGCTCCTCGGCGTCTGGGTCTTGTCTACGGTCATCT
+CCATCGGGCCTCTCCTTGGGTGGAAGGAGCCCGCGCCCAACGATGACAAGGAATGCGGGGTCACCGAGGAACCCTTCTAC
+GCCCTCTTCTCTTCCCTGGGCTCCTTCTACATCCCGCTGGCGGTCATTCTGGTCATGTACTGTCGCGTGTACATCGTCGC
+CAAGAGGACCACCAAGAACCTGGAAGCCGGAGTCATGAAAGAGATGTCTAACTCCAAGGAGCTGACTCTGAGGATCCACT
+CCAAGAACTTCCACGAGGACACCCTCAGCAGTACCAAGGCCAAGGGCCACAACCCCAGGAGTTCCATAGCCGTCAAACTT
+TTTAAGTTCTCCAGGGAGAAGAAAGCAGCCAAGACCTTGGGCATTGTGGTCGGTATGTTCATCTTGTGCTGGCTACCCTT
+CTTCATTGCTCTACCGCTTGGCTCCCTGTTCTCCACCCTGAAGCCCCCCGACGCCGTGTTCAAGGTGGTGTTCTGGCTGG
+GCTACTTCAACAGCTGCCTCAACCCCATCATCTACCCGTGCTCCAGCAAGGAGTTCAAGCGCGCCTTCGTGCGCATCCTC
+GGCTGCCAGTGTCGCGGCCGCCGCCGCCGCCGCCGCCGCCGTCGCCTGGGCGGCTGCGCCTACACCTACCGGCCGTGGAC
+GCGCGGCGGCTCGCTGGAGCGCTCGCAGTCGCGCAAGGACTCGCTGGACGACAGCGGCAGCTGCCTGAGCGGCAGCCAGC
+GGACCCTCCCGTCGGCCTCGCCGAGCCCCGGCTACCTGGGCCGCGCCGCGCCGCCGCCCGTCGAGCTGTGCGCCGTCCCC
+GAGTGGAAGGCGCCGGGCGCGCTGCTGAGCCTGCCCGCGCCCCAGCCCCCCGGCCGCCGCGGCCGCCGGGACTCGGGCCC
+GCTCTTCACCTTCAGGCTCCTGGCGGAGCGCGGGAGCCCCGCGGCCGGAGACGGGGCCTGCCGGCCCGCGCCCGACGCGG
+CCAACGGGCAGCCCGGCTTCAAGACCAACATGCCCCTGGCGCCCGGGCAGTTTTAGGGGGGCCTGCGGGGGGGAGGGGGG
+CGAAACCACCGTGGGGGGAGGGCGGGCGAGGGGGGAGGGCGGCGGCGCCCGGGGGAGGCGGGGGGGCGGGGGGCAGCTGC
+TTTGCTGGCAGGGGCATGGGTGCCAGGTACAGCGGAGGGCTGGGCGAGCATGCCGAGAGCCTGGGGCCCCGACGCCGGCC
+GGGATGTCCGTCTGTCTCTCTGTACATATCCAAACGAGTCCCTGTGTGCACGTATTTAACCGTGGGTACACGTGCGTGTG
+TCTGTGCGGTGTCCGTGTGGTCTGCGTGCGCGCGTGGGTGCGGCCACCGGGGGGGGGGCAGCGGGGGCGCCGTCGGCCCG
+GGACCTCGCGCCCCTCCAGCCGCTCCCCGGCCCTCCCCGAGTGGCGGATGGCCCTGGGCCCGGGTCGGAAACAAATCGGA
+CATTAAAGGTCGTTG
+>ref|NM_001003279.1| Canis lupus familiaris adenosine A1 receptor (ADORA1), mRNA
X14051.1 Canis familiaris RDC7 mRNA for G protein-coupled receptor
+CCTCCCACCCGGGCTTCCCACCACAGGTACCTGTCCCCGAACCCTCCGCGCCCACCTGCTGATGTGCCCGGCCCGCGCCT
+GCCATGCCGCCCGCCATCTCGGCCTTCCAGGCCGCCTACATTGGCATCGAGGTGCTCATCGCCCTGGTCTCTGTGCCCGG
+GAACGTGCTGGTGATCTGGGCAGTGAAGGTGAACCAGGCGCTGCGGGATGCCACCTTCTGCTTCATCGTGTCGCTGGCGG
+TGGCTGACGTGGCGGTGGGCGCCCTGGTCATCCCGCTGGCCATCCTCATCAATATCGGGCCAAGGACCTACTTCCACACC
+TGCCTCATGGTCGCCTGCCCTGTCCTCATCCTCACCCAGAGCTCCATCCTGGCCCTGCTGGCGATTGCCGTGGACCGCTA
+CCTCCGCGTCAAGATCCCACTCCGGTACAAGACGGTGGTGACTCCGCGGAGGGCGGCGGTGGCCATCGCCGGCTGCTGGA
+TCCTGTCCTTCGTGGTGGGCCTGACCCCGCTGTTCGGCTGGAACAGGCTGGGGGAGGCGCAGCGGGCCTGGGCGGCCAAC
+GGCAGCGGCGGCGAGCCCGTGATCAAATGCGAGTTCGAGAAGGTCATCAGCATGGAGTACATGGTCTACTTCAACTTCTT
+CGTGTGGGTGCTGCCCCCGCTGCTGCTCATGGTCCTCATCTACCTGGAGGTCTTCTATCTGATCCGGAGGCAGCTCGGCA
+AGAAGGTGTCGGCCTCCTCTGGCGACCCGCAGAAGTACTACGGGAAGGAGCTGAAGATCGCCAAGTCGCTGGCCCTCATC
+CTCTTCCTCTTCGCCCTCAGCTGGCTGCCCTTGCACATCCTCAACTGCATCACCCTCTTCTGCCCCTCCTGCCGGAAGCC
+CAGCATCCTCATGTACATCGCCATCTTCCTCACGCACGGCAACTCGGCCATGAACCCCATCGTCTACGCCTTCCGCATCC
+AGAAGTTCCGGGTCACCTTCCTTAAGATCTGGAATGACCACTTCCGCTGCCAGCCCACGCCCCCCGTCGACGAGGACCCC
+CCAGAGGAGGCGCCCCACGACTAGACGCCACCTTCTCCCGCCTGCCCACGTCGGGGGCGTCTCCGCCCCGGCCCACCCCC
+CCACTGACCCACTCCTGAGCCCTCCCGGCTGGGCTGCGGGGTGTGGGCGCCTGCACCTTGGGTCCTAGAGGAGGTTTGGG
+AGGACGGCCCACGGCGAAGGAACCGGGTGCCCTGAGGAGACGGAGAAAGTGGCTCGAGCCTCCCCAGCTGTGTGACCGGC
+CCACGGGCAGCCCGGTGCTTCAGGCCAGACGGACCTGGGGACACTGGGGCTGCGGGGGTCCCGTGGGGCCCGGAAGGCAA
+GCTTGGGCTCCCGTGGAGGTCAGGGAGCCGCTTGTCGCTGGTGCTGCTGCTGAAGCCCTGGAACAGAGCCCGAGGACGGG
+GGAGGTCCCCTCCGAGATGCAGGGGATGGAGAGAAGCTGGACATCAAGGTCTTGCTTCCTCTCCTGTTCTGTAGAAGGTG
+GGAGAGCCCCTGGGCAGGAATCAGGGGTCCTCAGCCCCTGCCTCCCGGGACCCTGAGCTCCTAGCCACGCTGGGTGCCGG
+GGGCCTGCCCCTCTTGCCCCAGGGCAACCGGGTTTGCACTTGGGATGGGCGGGAAGAGCGGGTCCAGAAATCATTCCCAA
+CCTTTACTTGATCCTCCACCAGCCCCTGGCCCCTGTCGAAGGGCCTGCCACACACAGCCACCAGGTGGCAGCCCCGCGCC
+GGCTCAGCCGAGCCCCCCAGGAGCGGGAGCAGCGGGGCTGTGAGGGGCCACCTGGGCTACCGCCCCATTAGCCCTAGAGG
+ATGCCTGCACTCTCCTAAGTGACACTGGCTGCTGCTTCTGGGCCGGGGACAGGGGGGCGCAGCCTCCGGCCTTGCGAGCG
+CTGCCCGTGGGCGCTCCCGGTGTGACTTGGCACAGGCTGCACCGCCTGAGGCTGAGGCAGGAAGGTCTTGCTGGCATTTA
+AATACCCTCAGGACCCCTGGCACTTAGCAGTTTCCAGGGCCTTTGGGGCTCTGCACGGTCTAGATGGGCTTTAGCGCATC
+CAGGGAAGGGTCCGCCCTCTGCCAAGCTCAGGGCCCGGGGCCCTTGTCCAGGGGGTGGGGGCGGGGTTCGGAGTGTGAAC
+AGCAGCTCTAGGCCTGGATTCCAGACCCTTCCCTTTCTCAGAGGTAGGCTCTTCCCTGGCTCCCAGGGGGGCCACCTTCT
+AATAAAAGACTGTGGGTCTTGAAAAAAAAAA
+>ref|NM_001003278.1| Canis lupus familiaris adenosine A2a receptor (ADORA2A), mRNA
X14052.1 Canis familiaris RDC8 mRNA for G protein-coupled receptor
+CCGAGCCCGAGCCGCGGCGGAGACAGCGGGAGCCGGCGCGCGAGCCGCAGGTGCCTCGGGGACTATGAAGCCGAGCTGAG
+CCAAGATGCTGCGAGAGCCCCTGAGGAGGGCCCAGTTTCTGGAGACTCAGACTTGGCAGTGAAAACGCCCTTGGGGAGCC
+CCCGTCACAGGCAGGGGCGCTCTTGGCTCCTGTGAAGAAGGGGCTCAGGGGCCTGGGCAGGGCCAGCGGCACTGCAGCTA
+TGGACCGTGAGCTGGCCCGGCCCGTGTCCTTGCTGACCCTGCCCGTCTGCAGCCATGTCCACCATGGGCTCCTGGGTGTA
+CATCACGGTGGAGCTGGCCATCGCTGTGCTGGCCATCCTGGGCAATGTGCTGGTGTGCTGGGCTGTGTGGCTGAACAGCA
+ACCTGCAGAACGTCACCAACTACTTCGTGGTGTCACTGGCGGCAGCCGACATTGCCGTGGGAGTCCTCGCGATCCCCTTC
+GCCATCACCATCAGCACAGGGTTCTGTGCTGCCTGCCACAACTGCCTCTTCTTTGCCTGCTTTGTCCTGGTCCTCACTCA
+GAGCTCCATCTTCAGCCTCCTGGCCATCGCCATTGACCGCTACATCGCCATCCGCATCCCACTCCGGTACAATGGCTTGG
+TGACTGGCACAAGGGCCAAGGGCATCATTGCGGTCTGCTGGGTGCTGTCGTTTGCCATTGGCTTGACTCCCATGCTGGGC
+TGGAACAACTGCAGTCAGCCAAAGGAGGGCAGAAACTACTCACAGGGCTGCGGGGAGGGCCAGGTGGCCTGTCTCTTTGA
+GGATGTGGTGCCCATGAACTACATGGTGTACTACAACTTCTTTGCTTTTGTCCTGGTGCCGCTGCTGCTCATGCTGGGTG
+TCTACTTGCGGATCTTCCTAGCAGCTCGGCGACAGCTGAAGCAGATGGAGAGCCAGCCTCTGCCTGGGGAGCGGGCTCGG
+TCCACGCTGCAGAAGGAGGTCCACGCTGCCAAGTCACTGGCCATCATTGTGGGGCTCTTCGCCCTCTGCTGGCTGCCCCT
+GCATATCATCAACTGCTTTACCTTCTTTTGCCCAGAGTGTAGCCATGCCCCACTCTGGCTCATGTACCTGACCATCGTCC
+TCTCCCACACCAATTCTGTTGTGAATCCCTTCATCTATGCCTACCGCATCCGTGAGTTTCGCCAGACCTTCCGCAAGATC
+ATTCGCAGCCACGTCCTGAGGCGGCGGGAGCCCTTCAAAGCAGGTGGCACCAGTGCCCGCGCCTTGGCAGCTCATGGCAG
+TGATGGAGAGCAGATCAGCCTCCGCCTCAATGGCCATCCTCCTGGGGTGTGGGCCAATGGCAGCGCCCCCCATCCTGAGC
+GGCGGCCCAATGGCTACACCCTGGGGCTGGTGAGTGGAGGGATTGCCCCTGAGTCCCATGGCGACATGGGCCTCCCAGAT
+GTGGAGCTCCTCAGCCATGAGCTCAAGGGAGCATGCCCAGAGTCCCCTGGCCTTGAAGGTCCCCTGGCCCAGGATGGAGC
+AGGAGTGTCCTGATGATCCACTCAGTTTGCCTCTTCCTACAGGAAGGAAATCTTTCTCTTTGGTGGATAGAACCAGTCAC
+ATTGGGAAAAGAATGAATGTGCCTGGAGACCCTTCTCGTGGCCAGTTCCCACTTTGGACTGAGAGGAGGGAGCCCTGGCT
+GGAGCAGCATGTGGCCTAGCAGGAAGGGTTTGGAGTCCAAGAAAGTGGACGTTTCACATCAGAAGGCCCAGCATCAGGTC
+AGGGCCACAGCACAGAGCATCTTGGCTGGGCAGGGCCTGGTCCCCCACTCTGGAAGCATCTAGAAGTACCATCCTGATGT
+GGCAGGGCAGGCTAACTGGCCCTGAGGCTGTGGGGGTGGCTCCAACAGGCCCCCTACCACACACAGACAACACCCTCCCC
+AGACTTTTCAAGGATTCAGGAGCTGCTATGCCCAGAGGTGGCGTTTTTCATTTCTTTCTTTCTTTTTTCTCTTTTTTTTT
+TCCAGGAGAAAATGTTAAACGTGAAGAATGCCTTTTTTTTTTTTTTTAATTATTTTCCTTCCCTGGTTGCCAGGTCTGTT
+GTCAGTCCTGCTGCTAACCTAGCTCCAGGAGTCAGCCCAGGGAGTCCCAGACAGCCCTGTCTGGCTACCATGAACTGCCA
+CGCACTTCTTACACCATCAGTCCCAGGGCCATCTCTTGGGGTCACAAAGCTGGGCTCAAGGACAGGGAGCTGTAATGGAT
+TTGCTGCCAGACTGTGGGCTCAGGGGAGGAGATCGGGACTGGCTCACCATGCGGTGTGCCTGGGTAGCTCAGAGCTGCCC
+GGTCAGAGGCCCTTTCTAACTGCCTTTCCTTCCGAAGGAATGTTTTTTTCTGAGATAAAATAAAAATGAGCCATGTTGTG
+TTTTAAAAAAAAAAAAAAA
+>ref|NM_001003271.1| Canis lupus familiaris signal recognition particle 68 (SRP68), mRNA
X53744.1 Canine mRNA for 68kDA subunit of signal recognition particle (SRP68)
+GGCAAGATGGCTGCCGAGAAACAGGTTCCCGGTGGCGGCGGCGGCGGCGGCGGCGGGAGCGGCGGCGGACGCGGTGCCGG
+AGGAGAGGAAAATAAGGAAAACGAACGGCCTTCAGCTGGATCGAAGGCAAACAGAGAATTCGGGGATAGCCTGAGTTTGG
+AGATTCTTCAGATAATTAAGGAATCCCAGCAGCAGCATGGTTTGCGGCATGGAGATTTTCAGAGGTATAGGGGCTACTGT
+TCCCGTAGACAAAGACGTCTTCGGAAAACACTCAACTTCAAGATGGGGAACAGGCACAAATTTACAGGGAAAAAAGTAAC
+TGAAGACCTTCTGACTGATAACAGATATTTGCTTCTGGTTCTGATGGATGCTGAACGAGCCTGGAGCTATGCCATGCAGC
+TGAAACAGGAAGCCAACACTGAACCCCGAAAACGTTTCCACTTGTTGTCTCGCCTTCGCAAAGCTGTGAAGCATGCGGAG
+GAATTGGAACGCTTGTGTGAGAGCAATCGCGTGGATGCCAAGACCAAGTTAGAGGCTCAGGCTTACACGGCTTACCTCTC
+AGGAATGCTGCGTTTTGAACATCAAGAATGGAAAGCTGCGATTGAGGCTTTTAACAAGTGCAAAACTATCTATGAGAAAC
+TAGCCAGTGCTTTCACAGAAGAGCAGGCTGTGCTATACAACCAACGTGTGGAAGAGATCTCGCCTAATATCCGCTACTGT
+GCATATAACATTGGGGACCAGTCAGCTATCAATGAACTCATGCAGATGAGATTGAGGTCTGGAGGCACTGAGGGTCTCCT
+GGCTGAAAAATTGGAGGCATTGATCACTCAGACTCGGGCCAAACAGGCAGCCACCATGAGCGAAGTGGAATGGAGAGGGA
+GAACGGTTCCAGTGAAGATTGACAAAGTGAGGATCTTTTTGTTGGGATTGGCTGATAACGAAGCAGCCATTGCCCAGGCT
+GAAAGTGAAGAAACCAAGGAGCGTCTGTTTGAATCAATGCTCAGTGAGTGTCGGGACGCCATCCAGGCTGTTCGGGAAGA
+GCTCAAGCCAGATCAGAAACAGAGAGATTACACCCTTGACGGGGAGTCGGGAAAGGTATCTAATCTTCAATACCTGCACA
+GCTACCTGACTTATATCAAGCTGTCAACGGCCATCAGGCGGAACGAGAACATGGCTAAGGGGCTGCAGAAAGCACTACAG
+CAGCAGCCAGAAGATGAGAGCAAGCGCTCGCCACGGCCCCAGGACCTCATCCGGCTCTATGACATCATTCTACAGAATCT
+GGTGGAATTGCTCCAGCTTCCTGGGTTAGAGGAGGACAGAGCCTTCCAGAAAGAGATAGGCCTCAAGACTCTGGTGTTTA
+AGGCTTACAGGTGTTTTTTCATTGCTCAGTCCTATGTGTTGGTGAAGAAGTGGAGCGAAGCCCTCGTCCTGTATGACCGA
+GTCCTGAAATATGCAAATGAAGTAAATTCGGATGCTGGGGCCTTCAGGAACAGCTTAAAGGACCTGCCCGATGTGCAAGA
+GCTCATCACTCAAGTGAGGTCAGAAAAGTGTTCTCTGCAGGCAGCAGCAATCCTGGATGCAAGTGACTCCCACCAACCGG
+AGACTTCTTCCCAAGTCAAGGACAACAAGCCTCTGGTTGAACGGTTTGAGACATTCTGCTTGGACCCTTCCCTCGTCACC
+AAGCAAGCCAACCTTGTGCACTTCCCGCCAGGATTCCAGCCTATCCCCTGCAAGCCTTTGTTCTTTGACCTGGCCCTCAA
+CCATGTGGCTTTCCCACCCCTCGAGGACAAGTTGGAGCAGAAGACCAAGAGTGGCCTCACTGGATACATCAAGGGCATCT
+TTGGATTCCGGAGCTAACCAGGCTCTTCTTGGGGGCAAGGGGAGATTCTCACTCTTCATCTGTATTGTGAGAAAACCCTA
+GCAAGTTCCATGATATTAAATCCAGGTCTGCATTGGCCCCGGGCAAGAGTGTATCATCCTCAGCCCTGCGTCCCTATGTC
+TTGTGTGTTTGTGCACTTAACATTCTTAACCGGTGTGCTCAAAGGGGACCCTGCTGTCTTCTGGTGGATGTGTGCGGGAT
+TCCTCTGTCCGCACCTCCTGGGGGAAGGGCCACTGCCACCTGGCCCCATGGGAGCCGTGCTTGGGTGGGTCCACTCCAGG
+CATAGATGGGAGCTCGGAACTTTGTCGTGTTTCTTCAGTATCACGAATTTGAAATGGACTCCTCCTCGCTGTGAGCATCC
+ATCCAGAGTCCCGTGAAGAGTCTGTGACCAGGAACCACTGGCAGCATCACCCCACAACTACAGTCAGCCTTATGCCCTGT
+CACCTCCAAGTGGAAGTTAAGTTTCAGAACAAGCAAAGAGCTCTATTTTTAGAAGAAATGTGTTACACTCAGAAATGATG
+AAAACAAATCTTATATTAAAAGGCAAAGATGCTGG
+>ref|NM_001003270.1| Canis lupus familiaris signal sequence receptor subunit 1 (SSR1), mRNA
X51367.1 Canine mRNA for signal sequence receptor protein alpha subunit (TRAP-complex alpha subunit)
+CCGCGGAGAGCGCTGGCGGGCGGCGAGCGGACGCCGGACCGGCCGCGCCATGAGGGTCCTCCCGCGCCTGCTTCTGCTCC
+TCTTGCTGGCGTTCCCCGCTGCCGTGCTGCTCCGAGGCGGCCCGGGAGGCTCATTAGTTGCAGCTCAAGATCTCACAGAA
+GATGAAGAAACGGTGGAAGATTCAATAATTGAAGATGAAGATGATGAAGCAGAAGTGGAAGAAGATGAACCCACAGATTT
+GGCTGAAGATAAAGAGGAAGAAGATGTATCTGGTGAACCTGAAGCTTCACCAAGTGCAGATACAACCATCCTGTTTGTGA
+AAGGAGAAGATTTTCCAGCAAATAATATTGTGAAGTTCCTAGTAGGCTTTACAAACAAGGGTACAGAAGATTTTATTGTT
+GAATCCTTAGATGCCTCATTCCGTTATCCTCAGGACTACCAGTTTTATATCCAGAATTTCACAGCTCTTCCTCTGAACAC
+TGTAGTACCACCGCAGAGACAGGCAACTTTTGAGTACTCCTTCATTCCTGCAGAGCCCATGGGTGGACGACCTTTTGGTC
+TAGTCATCAATCTGAACTACAAAGATCTGAATGGCAATGTATTCCAAGATGCTGTCTTCAATCAAACAGTTACGATCATT
+GAAAGAGAGGATGGGTTAGATGGAGAGACAATCTTTATGTATATGTTCCTTGCTGGTCTTGGGCTCCTGGTTGTTGTTGG
+CCTTCATCAACTCCTAGAATCGAGAAAGCGCAAGAGACCCATACAGAAGGTAGAGATGGGTACATCAAGTCAGAATGATG
+TTGACATGAGTTGGATTCCTCAGGAAACCTTGAATCAAATCAATAAAGCTTCACCAAGAAGGTTGCCCAGGAAACGGGCA
+CAGAAGAGATCAGTGGGATCTGATGAGTAAATGTTCCTTTGTGCAACAATTCAGTCTTTACTTAACCTGCCCTAATGTTT
+TTCGGCCTGATGGGAATTAGTGCAGAGAAGCCATATCACCATAGAAGGCAACTACTACTTATGTGTGGACTGAGCAATCA
+GAGTCTGTGGCGATAATAATATTACTGAAAATGCACTGCATTCATTTTTCTAAAGTAACAAA
+>ref|X53529.1| Dog mRNA for signal sequence receptor beta subunit (TRAP-complex beta subunit)
+CGGCCGCCGGTGGTCCCCTGAAAGGACTGTGGGGTGCGCGCGATGAGGCTTCTGGCTTCTGTGCTGTTGGCCCTGTTTGC
+TGTCAGTCATGCGGAGGAAGGAGCCCGGCTTCTGGCCTCCAAGTCACTGCTGAACAGATACGCCGTGGAGGGGCGAGACC
+TGACCTTGCAGTACAACATCTACAATGTTGGCTCAAGTGCTGCATTAGACGTGGAGTTATCTGATGATTCCTTTCCCCCA
+GAGGACTTTGGCATTGTGTCTGGAATGCTCAATGTCAAATGGGACCGGATTGCCCCTGCTAGCAATGTCTCCCACACCGT
+GGTCCTGCGCCCGCTCAAGGCTGGCTATTTCAACTTTACTTCGGCTACTGTTACTTACCTGGCTCAGGAGGATGGGCCTG
+TCGTGATTGGCTTTACCAGCGCCCCTGGACAGGGAGGGATCCTGGCCCAGCGGGAGTTTGATAGGAGATTCTCCCCGCAT
+TTTCTGGACTGGGCAGCCTTCGGAGTCATGACCCTGCCCTCCATCGGCATCCCCCTGCTGCTGTGGTACTCCAGCAAGAG
+GAAATATGACACTCCCAAGTCCAAGAAGAACTGAGGGGCTTCCGAGGCCGCTGCCTAGGAGATCCAGGTGCTTTCCAGAC
+TCCGGAGGCCTCTGGAGTGCGGTCTCTCATCCCCAGCCCCTGCCACCTTCTCCAGGATCCTGCCTGCTCTCAACCAGAGT
+CGGGGACCAGGCCTCGGTGTCTGTGAAAGCCTCCTCCTTCTGTCCCAAAGCCATATGAGCAAGAACGAGCAGGAATGCCT
+CCAGCAACAAGCCTCGGGACCTCATCTGTGTGCCTTGTGGTGCTGCAGTGTGAACTGAGGGGCCCAGGAGGGGGCACTAA
+GGAAACTGCCTGACTCTACCCCCATCCCCTGCTCTCCCCTCTCGGAAGAGGGTGGAAGATCAGATGAAGGCCAAGTGACT
+CGGAGGCTACCCAATCTCTGTTCTGGGTCAGGGGAGCTCTAACCAATGGAGTTTCTAATAAAAACATGCCAAACTG
+>ref|NM_001003268.1| Canis lupus familiaris transcription factor 4 (TCF4), mRNA
X51448.1 Dog mRNA for putative transcription factor recognizing thyroglobulin promoter
+CGCAGTGCCCGGATGTGAATGGATTACAATGTATCTTTCAGGGAAACCTATTATTATCAATGTGACTCCACGGGGGAGTC
+AATGGTGATGATGAGGAGGAGGAGGAGGATGATGATGATGAGACACCTCTAAACTTGGAACAAGTTTAAGACTTTATAAG
+AGGAGAAGAAAAAAAAAAAGCCACCAACAAGATTTGTTTGAGGAAAGATTCTAACTATCCTGTATTGATATATTTTTTTT
+TTTTTTAGAAACAATAAGAAAAAGTTGTTGGAATTTTTTTTTTTTTTTAATGGTTTCTTTTTTGGGGGAGGGGATTTTGT
+TGCAGTTTGATGGTGGAAAATGCAAAAACCAGAGCCAGGTGCATAATCTTGTATTCTGTGGATATCCCTGGAGCAGAACT
+GAGTACCAGTTAAAATACTTTTTTGGGGGATACACATGTGAGATACTAAGTACTTGCAGAAGATTTTTTGTCTTTCTTTT
+TAAAGTCACTTTCCTTGGAATATTGTGAGCATATTTGTGGCCATTTAAGATGTTTTCACCTCCTGTGAGCAGTGGGAAAA
+ATGGACCAACTTCTTTGGCGAGTGGACATTTCACTGGCTCAAATGTAGAAGACAGAAGTAGCTCAGGGTCCTGGGGGAAC
+GGAGGACATCCAAGCCCGTCCAGGAACTATGGAGATGGGACTCCCTATGACCACATGACCAGCAGGGACCTTGGGTCACA
+TGACAATCTCTCTCCACCTTTTGTCAATTCCAGAATACAAAGTAAAACAGAAAGGGGCTCATACTCATCTTATGGGAGAG
+AATCAAACTTACAGGGTTGCCACCAGAGTCTCCTTGGAGGTGACATGGATATGGGCACCCCAGGAACCCTGTCGCCCACC
+AAACCTGGCTCCCAGTATTACCAGTATTCTAGCAATAACCCCCGAAGGAGGCCTCTTCACAGTAGTGCTATGGAGGTGCA
+GACAAAGAAAGTTCGAAAAGTTCCTCCAGGTTTGCCATCTTCAGTTTATGCTCCATCAGCAAGCACTGCCGACTACAATA
+GGGACTCGCCAGGCTACCCTTCCTCGAAACCAGCAGCCAGCACTTTCCCTAGCTCCTTCTTCATGCAGGATGGCCATCAC
+AGCAGTGACCCTTGGAGCTCCTCCAGTGGGATGAATCAGCCTGGCTACGGAGGAATGTTGGGCAGTTCTTCTCATATTCC
+ACAGTCTAGCAGCTACTGTAGCCTGCATCCACACGAACGCTTGAGCTATCCATCACACTCCTCAGCAGACATCAATTCCA
+GTCTTCCTCCGATGTCCACTTTCCACCGTAGTGGCACAAACCATTACAGCACCTCTTCCTGTACACCTCCTGCCAACGGG
+ACAGACAGTATAATGGCAAATAGAGGAAGCGGGGCAGCAGGCAGCTCCCAGACTGGAGATGCTCTGGGGAAAGCACTTGC
+TTCGATCTATTCTCCAGATCACACTAACAACAGCTTTTCATCAAACCCTTCAACTCCTGTTGGCTCTCCTCCTTCTCTCT
+CAGCAGGCACAGCTGTTTGGTCTAGAAACGGAGGACAGGCCTCATCATCTCCTAATTATGAAGGACCCTTACACTCTTTG
+CAAAGCCGAATTGAAGATCGCTTAGAAAGACTGGATGATGCTATTCACGTTCTCCGGAATCATGCAGTGGGCCCATCCAC
+AGCTATGCCGGGTGGTCATGGGGACATGCATGGAATCATTGGACCTTCTCATAATGGAGCGATGGGTGGTCTGGGCTCAG
+GGTATGGAACCGGTCTTCTTTCAGCCAACAGACATTCACTCATGGTCGGGGCCCATCGCGAAGACGGCGTGGCCCTGCGA
+GGCAGCCACTCCCTCGTGCCCAACCAGGTCCCGGTGCCACAGCTTCCCGTGCAGTCTGCGACGTCCCCTGACCTGAACCC
+ACCCCAGGACCCTTACAGAGGCATGCCACCGGGATTGCAGGGCCAGAGCGTCTCCTCCGGCAGCTCTGAGATCAAATCCG
+ACGACGAAGGCGATGAGAACCTGCAAGACACGAAATCTTCCGAGGACAAGAAGTTAGATGACGACAAGAAGGATATCAAA
+TCGATTACTAGCAATAACGATGACGAGGACCTGACCCCGGAGCAGAAGGCGGAGCGCGAGAAGGAGCGGAGGATGGCCAA
+CAACGCCCGCGAGCGCCTGCGCGTCCGCGACATCAACGAGGCTTTCAAGGAGCTCGGCCGCATGGTGCAGCTCCACCTCA
+AGAGTGACAAGCCCCAGACCAAGCTCCTGATCCTCCACCAGGCCGTGGCCGTCATCCTCAGCCTGGAGCAGCAAGTTCGA
+GAAAGGAATCTGAATCCGAAAGCCGCGTGTCTGAAAAGAAGGGAGGAAGAGAAGGTGTCCTCAGAGCCTCCCCCGCTCTC
+CTTGGCGGGCCCGCACCCTGGAATGGGAGATGCGTCAAACCACATGGGACAGATGTAAAAGGGTCCAAGCTGCCACATTG
+CTTCATTAATACAAGAGACCACTTCCTTAACAGCTGTATTATCTTAAACCCACATAAACACTTCTCCTTCACCCCTTTTT
+TTGTAATATAAGACAAGTCTGAGTAGTTATGAATCGCAGACGCAAGAGGTTTCAGCATTCCCAATTATCAAAAAACCGAA
+AAACACAC
+>ref|NM_001003267.1| Canis lupus familiaris translocation associated membrane protein 1 (TRAM1), mRNA
X63678.1 C.familiaris mRNA for TRAM-protein
+TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCCGGGCGGCCCCGGCGGCTGCGTACTGGCTGTGGGATGGGAAGTGA
+AGCCCCAGCGAGCGGCACGGCGGGGCGGTGAGGAGCAGCCAGGGGGAGGCGGCGGCGGCGGCGGCGGCAGCCAGTCTGTG
+AGCAGCTGGAGAGCGGCGCCGGGGACGAGCACCTGCAGGCACGGGCGGCGGCCTCGCCATGGCGATTCGCAAGAAGAGCA
+CCAAGAGCCCCCCGGTCCTGAGCCACGAATTCATCCTGCAGAATCACGCGGACATCGTCTCCTGTGTGGCGATGGTCTTC
+CTGCTGGGGCTCATGTTCGAGATAACAGCGAAAGCCTCTATCATTTTTGTTACTCTTCAGTACAATGTTACCCTCCCTGC
+AACAGAAGAACAAGCTACTGAATCAACATCCCTTTATTACTATGGTATCAAAGATTTGGCTACAGTTTTCTTCTACATGC
+TAGTGGCGATAATTATTCATGCCATAATTCAAGAGTATGTGTTGGATAAAATTAACAGGCGAATGCATTTCTCCAAAACG
+AAACACAGCAAGTTTAATGAATCTGGTCAGCTTAGTGCATTCTACCTTTTTTCTTGTATTTGGGGCACATTCATTCTAAT
+ATCTGAAAACTACATCTCAGACCCAACTATCTTGTGGAGGGCTTACCCCCATAACCTGATGACATTTCAAATGAAGTTTT
+TCTACATAGCCCAGTTGGCTTACTGGTTCCATGCTTTTCCTGAACTCTACTTCCAGAAAACCAAAAAAGAAGATATTCCT
+CGTCAGCTTGTCTACATTGGTCTTTACCTCTTTCACATTGCCGGGGCTTATCTTTTAAACTTGAATCATCTAGGACTTGT
+TCTTCTGGTGCTACATTATTTTGTTGAATTTCTCTTCCATATTTCCCGCCTGTTTTATTTTAGTGATGAAAAGTATCAGA
+AAGGGTTTTCTCTGTGGGCAGTTCTGTTTGTTTTGGGAAGACTTCTGACTTTAATTCTTTCAGTACTCACTGTTGGCTTT
+GGCCTTGCAAGAGCAGAGAATCAGAAACTGGATTTCAGTGCTGGGAACTTCAATGTGTTAGCTGTAAGAATTGCTGTCCT
+GGCATCCATTTGCATTACCCAAGCATTCATGATGTGGAAGTTCATTAATTTTCAGCTTCGGAGGTGGAGGGAACATTCTA
+CTTTTCAGGCACCAGTTGTGAAGAAGAAACCAACAGTAACTAAAGGCAGGTCTTCTAGAAAAGGAACAGAAAATGGTGTA
+AATGGAACAGTAACTTCAAATGGAGCTGACTCTCCCCGTAATAGAAAAGAGAAATCTTCATAATGAATTATAATCTAATT
+GATTAATGTCCCCAAAGAAATCTGCTTTTTACTATATCTTTCAGCACTAGAGATTTTTTCTGTCCTTGAAAATACAGTTT
+GTGCTCTTTGATTCTTGCTATTGTACTGTTGTTTCATGCATTTTTTTAAAGGGCATTTGAGGGAAGGATGATTACTATGA
+GTGAGAAAAATATTTTAGCTTAGACTAAGCTACCTGCCTTCAAAATAGTTTAGGGACCACCACCATATTCTATTTTGTTT
+TTTATCTTTGAATGTTTTTCTAATGATTTGGAGAGATAACTATTTACAAAAATTCTACATAACAGTGATAAAATTTCTTG
+CTCTCACCAATTTTTTGTATTAGCAAGATGGCCTCTTCCAGCAAGGTCATTTTTTTAAGTTATCTTTCAGGGTAAAATGG
+AAATACTATACAGTTGGAAGTCAAACTTTAATATGTTTTCAGTGTTCTCTAATTTTTAGGAATTTTTGTAGTCTTTACAC
+CTGGGAAAAAAGATTTGTAAATTCACTATAATAATTGTGTGCTTTATTTTATAGGTAATGGTTGTTAATGTTACATCCCC
+ATTTTAAAAAACAACCACAACATACTATTGGTTACAATGTGTGGAGAGTTATTGCCATATATATTGAATCAAAAATATAT
+GAACATAAAAGTACCTGTGAAGTAAAATCCTTTCTTGAGCATTTTCAACACTTGTAAACTGAAAATCAGAAAATTAAATA
+TTTACTATAAAGAAGCAAATACGACTATAGCCCTTTTTGATATGTTTATTAATAATGATTCTTAATGGGGCTTATAAGGT
+CGATATGCACAGCATCTTAGAAAAATATTGTTTAACCTGCAAACCCTTTTTAAAAATAATGCCTACTTAATTTATATCTA
+TAAAAGAATGTCGGGTAATTATATTTGGAACATTTACGCACTAATCTTAAAGAAATTGAAAATTCAGTTGGATAAATAGT
+CTTACAAAAGACAGTGCTTTATGTTATAACTATAGCTTTGGTCCCATCTTTAATTGAGAAGCATTTATCTGTATAAAACA
+TATTTTTGGATAAATATATATATATATATTTGTATCTCTACAGAAAGGCTCTAAAAAACATTTGAGTAAAACATTTGGTT
+CCCTTTTCTATAATTATCCTTAAAAATTCTTACAGCTATATTTGGTTTTTTTGTTGTCTTCACAGTACCTATACTGCTCC
+TTTTGGTGTTCACATCTTGTTCTCCATTTCTCACTTTTGTCACCAGCTCATGTTTGTGCCATTTTTAGTATAAAAGTTGC
+AGGCTTGTTAGGTCTGCAGTTTAATAAGTTGCCATGCTGCTAGAAAGTTGTGCTTTCTATTTCCAGCTGTTTACTTCCTG
+GAAAAAGTAGTAGCTCTCTGTAGCATCATGGAGTTTCAGTGGAACCAAATTTTTGCCAATAAAAACTGGCATTATATTGA
+ACTATACATTGAGAAATCAAACAAAATAAAATTTTTACTTTCAAAAAAAAAAAAAA
+>ref|Z12161.1| C.familiaris gene for VIP21
+GGCACGAGCGGTTCCCTTGAATAACAGCCCAGGGAAACCTCGGAGCCTTCACCCAGCCACCGGCCAGCATGTCTGGGGGC
+AAATACGTAGACTCCGAGGGGCACCTCTACACCGTTCCCATCCGGGAGCAGGGCAACATCTACAAGCCCAACAACAAGGC
+CATGGCGGAGGAGATGAGCGAGAAGCAGGTGTACGACGCGCACACCAAGGAAATCGACCTGGTCAACCGCGACCCCAAGC
+ATCTCAACGACGACGTGGTCAAGATTGATTTTGAAGATGTGATTGCAGAACCAGAAGGAACACACAGTTTTGATGGCATC
+TGGAAGGCCAGCTTCACCACCTTCACTGTGACAAAATACTGGTTTTACCGCTTGCTGTCTGCCCTCTTTGGCATCCCAAT
+GGCACTCATATGGGGCATTTACTTTGCCATTCTTTCTTTCCTGCACATCTGGGCAGTTGTGCCGTGCATTAAGAGTTTCC
+TGATTGAGATTCAGTGCATCAGCCGTGTCTATTCCATCTACGTCCACACCTTCTGTGACCCGTTCTTTGAGGCTGTTGGC
+AAAATATTCAGCAATATCCGCATCAACATGCAGAAAGAAACATAAATGACATTTTAAGGATAGCAGTTAACCTGATTCTT
+TTTT
+>ref|X57335.1| C.hircus 1.714 satellite DNA
+CCCTCCTCTCGAGCTATGAGGCAGACACTGGGCTCCTCTGAATGTGGGCGGGACTGTCGTGCTTCCTCTCGAATGGAGAC
+AGGTATGTCGGGGAACTACTTGAGTTGCAGTAAGGGTGTGAAGGACCCTTTGGAAGTTTCAGAGGTTAGGTGTGATTAGC
+CTCGAGACACCTCAGCGGAAATGGGCCTCATCTCGCCTGGATGGGGGAACTCCTGGATTTTCTCGAGTGTCAGCAGGTGC
+TCTCGACCTAGGACGGGGACCACAGGGACTCCTCTGCTGGCCTCAGGAAAGGCACTCCCCATGCGAGTTGCTCGGGGACC
+TCTAGGGATTCCTCTCCCGTCGATGCCGGGGCCTAAGACCTTGTGTGGAGTAGGTTCCGGAACCAGAGGATTCCTCTCCA
+GTGCTGACATGGATCTTGGGGTACTTCTGGAGTCTCTCCAGGGGAGTCACTCCTCGTCTCAAATGGGGGCATGCACGCGG
+GCTTTCCTCCCGGAGCTGTAACGCAGCATTGTCACGCTTCCCTTCGCGTGGATAAAGGGATCTGTGGCTTTCCCTCGAGG
+CTTTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGCCGTCCCACGTGCCAGCCGTGTTTGAGTCGATCCTCGGCTTG
+AAAGTCGAGGCAGTCGAGGGAAAACAGGTTTCCCTAGAATGGACTGAGACATCTGGGGGACTCTGGGAATGGTTGCACGA
+CTCTGGAGTTCCTTTCGCCTTTCCTGTGGAGAGCGCCTCCACTTGAGATGCGACGGGAACGCATGGAATTCTTTCCCGAC
+ACACGCAGGAATGGAT
+>ref|X04726.1| Goat embryonic alpha-globin gene zeta exon 1 (and joined CDS)
+AGGACCCCTATCTCCCTGTCGGCCACCCTCGGCTGTGGCCTGCAGGGGCAGCCGAAGTGACAGCCCCTCAGCCATTAAGC
+CCACCAGGCCCTGACCACCCGCTGTCACTGGAAATGATAAGAAACCCACCCCATTGCCCCCTCCCTTCTCCCAGTGATGA
+CCCTGGCCCCAACCCTGGTTCCACATATATAAGGGGACCTTGGGGGCTGAGCATCACCAACACCAGTTTTCAGTAAGTCA
+AGCTCCCGCTCAGCTGCCACCATGTCTCTGACCAGGACTGAGAGGACCATCATCCTGTCCCTGTGGAGCAAGATCTCCAC
+ACAGGCAGACGTCATTGGCACCGAGACCCTGGAGAGGTGAGCACCAGGTGGGCTGGGGTAGAGCCTGGAGGGGACCTTGT
+GGGTCAGTGAGGTCAGGAGTCAGTGAGAACAGGGGTCAGTGAGGAGGGGTGACTGAGGAGGGTGAGTGAGGAGGGACAGT
+GAGGAGGGTGAGTGAGGAGGGGAGAGTGAGGAGGGGAGAGTGAGGAGGGTGAGTGAGGAGGGTGAGTGAGGAGGGAGAGT
+GAGGAGGG
+>ref|X04862.1| Goat embryonic alpha-globin gene zeta exons 2-3
+GGAGAGTGAGTGAGGAGGGTGATTGAGGTGGGGTCATTGAGGAGGGGTCAGTGAGGAGGGTCAGTGAGGTGGTCAGTGAG
+GGGGTCACTGAAGATGGTCAGTGAGAAGGGTCAGTGAGCATGAGCCGGTGAGGAGTGTCTCGGTGGTCAGAGGCAGGAGG
+AGGAGGTGATGGGGGCGGTCTGAGGTCACCTGTGTCTCTCGGGGCCCAGCACCCAGGTCCCCACAATCACGTGGAGGGAG
+GGAGGCAGGGAAGGAAGGAATGACCGGCAGACGGGCGGTCAGGGTGAGGTGGCCGGGCCGTACTGAGCAGCGGCTACGCG
+CGAGAGTCACCCGGAGCGGTCACTAAGGCGCCCGCCCGCCCGCAGGCTCTTCTCCTGCTACCCGCAGGCCAAGACCTACT
+TCCCGCACTTCGACCTGCACTCGGGCTCCGCGCAGCTGCGCGCGCACGGCTCCAAGGTGGTGGCCGCCGTGGGCGACGCG
+GTCAAGAGCATCGACAACGTGACGAGCGCGCTGTCCAAGCTGAGCGAGCTGCACGCCTACGTGCTGCGCGTGGACCCGGT
+CAACTTCAAGGTGGGCGCGGGGCCCCGGGGGCGCCTTTTCGGGGCTGGGGTCCCGGAGTCCCGGGGGCGGGAGGAGGTCT
+CTGTGGGCGGGTCCCGGGGCGGGGCGATGTCTCTGTGGGCGGGGTTTGGGGCGGGGCGGGGCCTCTGGGCGGGGCTGCTT
+CTGGGGCCGGGGTCCCGGGGCGGGACGAGGTCCCAGAGGCGGAGCTCGTCCGGGCAGACAGCACTGACCGCTCTCCCTCC
+CTCCCCAGTTCCTGTCCCACTGCCTGCTGGTCACGTTGGCCTCGCACTTCCCCGCCGACTTCACGGCCGACGCGCACGCC
+GCCTGGGACAAGTTCCTGTCCATCGTGTCCGGCGTCCTGACGGAGAAGTACCGCTGAGGCCGCCGCAGGCCCCAAGAACA
+GGCTTCGAGCCTCCTCTTCCTCTGCACCCTATTAGTGTTTCGATAGGGACCCCCAATAAATGGATGAGGATGGAAGGAGC
+CTGGTCGTGCGTTCTCAGTATTGGGGGAAAGAGGGAAGAGTGACGGGAGAGAATGAGGACTTGGCAGGAACGCAGCCCAA
+CACGGTGTCACCCCCCAGCCTGGAGTGACTCCAAGGGGCGCTTTGGAGCGGTCCTTGGCCTGCAGAGCCCAGAGTAGCGA
+CCGGAAGGAGCAGGGCAGCCCAGCACCGTCCACGCCGCGTTCTCGNG
+>ref|X56462.1| C.hircus as1-casein gene, partial cds, exons 9-11
+AAAAGGTTTTAAGTAGTTATTATACTCCCCTCTCCAACATATTTTAAATAAAATTGACAATCCAAAAAAAAGTAAATTTT
+ATTGGCTCTGAATCCTTTTATACCCAATTGTTTTCACTAAAAACTAGTTAGCAACCCATTAAGTGTGGGTTGTTTCCTTC
+TAATGAAACAATGGAATGTATGGAAGTGTGGAATAGTTTCCTTCTAATTCTAAAAGTCTCAGAGGCAGTAACAATGATTC
+TCTTTCTTTTAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGTATACCATTTTTATGTTAATTAAGTATCCCAATT
+AGAAAATGTTTATGAAAGTTTGTTGAACCATAAAGTTTCATTGTACAAGGCACTATGTATGTAGCTCTATCCTAATTTTA
+ACATACAAGGCTATCAACCCCCAAAATGTAAGAAAACAATTATTTGTCAGAGACAAAATAAAGATTTCTTTCTGGGCAAA
+TAATCCTATTGGATATCTGTGGTGTCCAAACATTATTTTTCTAATTTTTTTTCCTTCCCAGATTTTTGTAGAATTAAATC
+TTGTCACTGAAAATTACAATAATGGCTATGCTTCTAAATTGTGAAATATAAACATGATATATCCTTTGCAGAACTCAATC
+AATTCTATGTTAAAGAGGCACTGGAATCCTTTGCTATTTGTTACCTAGAGGAGAAAAAGAGAAGGCATACAAAGTGATGA
+AATCCTTAAACTTTGGGAGCAGAACTTCATCCAGTTTACAAAATAAACCCAGTTCCAGTGAATTCAGTTAAAAGTGAATT
+CTTCACAATCCAACATTCTGAATAACTTCCCTGGTGAAAGCAGTGAGAAGAGAAAAGAGAACATGTACTTTGATTGTTCA
+TCTTATCTAAATTTACCCAGGAATTTGTGGCTAAAATCAGTTTACCACAGATAAGCTATGATGTGTCTGGTTAATTAGCA
+TTTTTATCTTGAATGTAAATTAATGTTATAAAACTAACAATACATGTTTTTTTTTTTTTTAAGGAAATTGTTCCCAATAG
+TGCTCAGGTGAGATATATTTACTAAATTTAAAATATATTAACATCATCCAGGATATCTTAAAATTTAATTAAACTTTTTA
+TTTTTTGAATTTTTTAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACCTGGGTTATCTGGTAAAATTT
+TATTAAAAGTTAATCAAAGACCAATGCATCAGGGAATGAGCAAGAATGTTGTGTTGATAAATTATCTCTCCTTTTCAATA
+TCTGCTAAACTTAAACTAAGCAGACTAACAGATTCTAGTAGTATACTGATCCC
+>ref|X56463.1| C.hircus as1-casein gene, partial intron 8
+ATCAGTTCTCCCAATGAATATTCAGGATTGACTTCCTGTAGTGATTCCTCCACTCTTCTCCAGTAGCATGTTGGGCACCT
+ACTGACCTGGGGAGTTCATCTTTCAGTGTCATATCTTTTAACCTTTTCATACTGTTCATGGGGTTCCCAAAGCAAGAATG
+CTGAAGTGGTTTTCCATTCCATTCTCCAATGGGCTATGCTACCTAATCTCAAAA
+>ref|X59836.1| C.hircus mRNA for as1-casein
+AACCCAGCTTGCTGCTTCTTCCCAGTCTTGGGTTCAAAGTCTTGACAACCATGAAACTTCTCATCCTTACCTGTCTCGTG
+GCTGTTGCTCTTGCCAGGCCTAAACATCCTATCAATCACCAAGGACTCTCTCCAGAAGTCCTCAATGAAAATTTACTCAG
+GTTTGTTGTGGCGCCTTTTCCAGAAGTGTTTAGAAAGGAGAACATCAATGAACTGAGTAAGGATATTGGGAGTGAATCAA
+CTGAGGATCAAGCCATGGAAGATGCTAAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGAAATTGTTCCCAATAGT
+GCTCAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACCTGGGTTATCTGGAACAGCTTCTCAGACTGAA
+AAAATACAACGTGCCCCAGCTGGAAATTGTTCCCAAAAGTGCTGAGGAACAACTTCACAGTATGAAAGAGGGAAACCCTG
+CCCACCAGAAACAGCCTATGATAGCAGTGAACCAGGAACTGGCCTACTTCTACCCTCAGCTTTTCAGACAATTCTACCAG
+CTGGATGCCTATCCATCTGGTGCCTGGTACTACCTTCCACTAGGCACACAATACACTGATGCCCCCTCATTCTCTGACAT
+CCCTAATCCCATTGGCTCTGAGAACAGTGGAAAGACTACTATGCCACTGTGGTGAAGAGTCAAGTGAATTCTGAGGAACT
+CCACAATTATGGTCTTTGATGGGATTGAAAATTCCATGCTTTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCC
+AAAGGCTTCAATTGCTGTTTTAGAATAGGACAACCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCCACTGTATTTT
+AGATTGTGTAACATCCTTAAGTGAAATTGTCCTAAGAGCTTGTTACCTAAATTCCAGTAGTATCACGCTGGTATAAAGGC
+CACTGACTCAAAGGGAATTACAGTCTTCATTAAATTTCTATATGGAAAATGTTTTTAAAGCCTTTGAATCACCTCTCCTG
+TAAGTGCCATCATTTCAAATAACTGTGTGCAGTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGC
+ACTATT
+>ref|V00150.1| Partial goat pseudogene for beta-globin (exons 1 and 2)
+GAGGAAGAGGAGTGCATCTTACATTCCCCCAAACCAATGAACTTGTGTTATGCCTTGGGTTAATCTACTCTCAGAAGCAG
+AGAGGGCAGGAGGCTCGTGGGGCTCACAAGGAAGACTAGGGCCCCTGCTGCTTACACCTGCTTTTGACACAACTTGCAGC
+TGGGTAAACACACATCATGGTGCATCTGACTCTAGAAGAGAAGGCTACTTGTCACTGCCCTGTGGAGCAAGATGAGGGTG
+GCTGAAGTTGGTGTTGAAACCCTAGGGAGGCAGGTATTCAGCTTACAAGGCAGGCTGAAGGAGAGTGAATGTCAGCTGGG
+TGTGTGGGGACAGAGCCATTGCCTGAGATTGAGGCACTGACTCCCTCTGTTCTTATGCTGTTTTCACCCCCTAGGCTGCT
+GGTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGAACTTGCCCTCTGCTGATGATATTATGGGCAACGCTA
+AGGTGAAGGCCCGTGACAATAAGGTGCTAGACTCCTTTACTGAAGGCCTGAAGTATGTCGACCACCTCAAGGGTGTCTTT
+TCTTTGCTGAGTGAGTTGGACTGTAAGAATCTGCATGTCAGTCCTGAGAACATCAGGGTGAGTCTACAGGAATCTTAATG
+TTCTCTATCTTTTTTTTTTTTTCTTTTTTTTCCTTTGTGGTCTAGTTTCTATCAT
+>ref|V00154.1| Goat pseudogene psi-beta-Z for a beta-globin
+AGGAACAAGAGTGCATCTTACATTCCCCCAAATCAATGAACTTGTGTTATGCCCTGGACTAATCTACTCTCAGAAGCAGA
+GAGGGCAAGGTGCTGGGTGGGACTCACAAGGAAGACCAGGGCCCCTGCTGCTTACACCTGTTTTTGACACAACTTGCAAC
+TGCACAAACACACATCATGGTGTATCTGACTCTTGAGGAGAAAGCTACTTGTCACTGCCCTGTGGAACAAGAGTGGCTGA
+AGTTGGTATTGAAATCTTAGGCAGGCAGGTATTCAGTTTACAAGGCAGGCTGACAGACAGTGAATGTCAGCTGGGTGTGT
+GGTGACAGAGCCATTTCCTGAGATTCTGGCAGGCACTGATTCCCTCCTTCCTTATGCTGTTTTCACCCCCTAGGCTGCTG
+GTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGAACTTGCCCTCTGCTGATGCTGTTATGAGCAACGCTAA
+GGTGAAGGCCTATGACAAGAAGGTGCTAGTCTTCCTTACTGAAGGCCTGAAGCATGTTGACCATCTCAAGGGAGTTTTTG
+CTTTGCTGAGTGAGTTGCACTATAAGAAGCTGCATGTCAGTCCTGAGAACATCAGAGTGAGTCTACGGGACCCTTAATAT
+TCTCCATCTTTTTTCTTTTTTTTTTTTTGTGGTCAAGTTTCTATCATGGGGAGAGAGTTAAGCAGCAGGATACAGTTCAG
+AATGCAGAAGAGGTATTCTGGTTACATCACTATGGATTTCTCAGGACCATTTCATTTCCTTTACCTTCTTTGTTCCCAGC
+CATCATTTCCTCTTACCCAATCTTGTTCTTTTTTCTGTTTGCTCTTTACAATATCTTCTTTATATTTAAACATTTTGAGT
+GTTTAAAAACACTTTTATGTTTTAAGTCACTTAAAATTTTATCTCATTTTTTCCCCTTACCTCTTCCTTTCAAAGCAAGG
+AAGACAAAATGATGCATTGCTTCTTGAAATGGTTCAAAAGAATAATAAATGATAACAGACTAAGGCAGAAAGGATGAAAC
+ATTTCTAAGAACAAGCTCAGGTTGATATAGGTGGCTCCATATCAGTAGTAACACCTACTCTTCAGCCATCTTTCTACTTA
+TATTCTAGGGGCACAACTTGGGATGAGACTGAAATACTCTTTAGTCCAAATTGGGTGCCTCTGCTAACTATGTCCTTGTT
+TTTTTATTCCTTCCACACAGCTCCTTGGCAAAATACTGGTA
+>ref|NM_001285587.1| Capra hircus casein kappa (CSN3), mRNA
X60763.1 C.hircus mRNA for kappa casein
+GGCCAACTGAATCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTGCAATGATGAAGAGTTTTTTCCTAGTTGTG
+ACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAGGAACAGCCGATATGCTGTGAGAAAGATGA
+AAGATTCTTCGATGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCTAGTTATGGACTCAATT
+ACTATCAACAGAGACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAAAGCCAGTTGCAGTTAGG
+TCACCTGCCCAAACTCTTCAATGGCAAGTTTTGCCAAATACTGTGCCTGCCAAGTCCTGCCAAGACCAGCCAACTACCCT
+GGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAGATCAGGATAAAACAGAAGTCCCTGCCA
+TCAATACCATTGCTAGTGCTGAGCCTACAGTACACAGTACACCTACCACCGAAGCAATAGTGAACACTGTAGATAATCCA
+GAAGCTTCCTCAGAATCGATTGCGAGTGCATCTGAGACCAACACAGCCCAAGTTACTTCAACCGAGGTCTAAAAACTCTA
+AGGAGACATCAAAGAGGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCCAGTTGTCTGCC
+TTCAGTGAACAGAGAATATGATTTTCACAGATCCAGCTCCTTTCTCATCTCCTCTTACATTTTACATTTATGCCGCATTT
+AGTTTTTTGATTCCTGCATAATAAAG
+>ref|X05149.1| Goat mRNA for prealpha-lactalbumin
+GGGGTAACCAAAATGATGTCCTTTGTCTCTCTGCTCCTGGTAGGCATCCTATTCCACGCCACCCAGGCTGAACAATTAAC
+AAAATGTGAGGTGTTCCAGAAGCTGAAGGACTTGAAGGACTACGGAGGTGTCAGTTTGCCTGAATGGGTCTGTACTGCAT
+TTCATACCAGTGGTTATGACACACAAGCCATAGTACAAAACAATGACAGCACAGAATATGGACTCTTCCAGATAAATAAT
+AAAATTTGGTGCAAAGACGACCAGAACCCTCACTCAAGGAACATCTGTAACATCTCCTGTGACAAGTTCCTGGATGATGA
+TCTTACTGATGACATTGTGTGTGCCAAGAAGATTCTGGATAAAGTAGGAATTAACTACTGGTTGGCCCATAAAGCACTCT
+GTTCTGAGAAGCTGGATCAGTGGCTCTGTGAGAAGTTGTGAACACCTGCTGTCTTTGCTGCTTCTGTCCTCTTTCTGTTC
+CTGGAACTCCTCTGCCCCTTGGCTACCTCGTTTTGCTTCTTTGTACCCCCTTGAAGCTAACTCGTCTCTGAGCCCTGGCC
+CTGTAGTGATGATGGACATGTAAGGACTAATCTCCAGGGATGCGTGAATGGTGCTCGGGACATTTGACCCTTGCTCGGTG
+CCTCTGATAGCACTTTTAATGCAACAGTGCATATTCCACTTCTGTCCTGAATAAAAGGCCTGATTCTG
+>ref|X67490.1| C.hircus microsatellite DNA
+TTCCTTAGCAACACTCGGCTCATCTGCCTACAAGACGAAAGAAACACGGCACGGCACATCTTCCTTAGCAACTCTTCCTA
+TCCCTCCCTCTTTTCCTTCCCCACTTTTCTTGCCCCCTCTTTCTTTTTCTACCCCTCAAGCTTGAACTGGAGTGTGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAATGGTGGCAGCGAGGGGGAGGAGAACATCCTGC
+AGCCCCAGCCTCCACAGAGGAAAGAAACTCGGGGTCAGGACTCGTTAACTGTCAATATCGGTACATGGTTCTGTGTGAAT
+GT
+>ref|X02313.1| Goat repetitive sequence 4.3 kb 5' to beta-F-globin gene
+TTAATTCCCAAAGCCAACTTTTAGGGCACTTAAGCATCTGCCTGGAATGCGGGACACTTGGGTTCGATCCCTGGGTTGGG
+AAGATTCCCTGGAGAAGGAAATGGCAACCCACTCCAGTACTCTTGCCTGGAGAATCCCGCAGAGGGAGGCCTGTTAGGCT
+ACAGTCCATGGGGTCGCAAAGTCGGACACGACTGAGCGACTTTACTTTACTCTCTGAGGCTTCAGAGATAGGAAAATCTA
+GAAGAATAGCATCCTAAATTCCCA
+>ref|X02314.1| Goat repetitive sequence 5.3 kb 5' to beta-C globin gene
+TACTGACAATAGAAGTCGAGTGAGTGAGTGAGGTCGTTCAGTTGTGTCCAACTCTTTGCCACCCCATGGACTGTAGCCCA
+CAAGGCTCCCCTATCCATGGAATTTTCTAGGCAAGAGTACTGGAGTGGTTGCCATTTCCATCTCCAGGGGATCTTCCCAA
+CCAGGGGATTGAACCCTGGTCTCCCTCATTAGAGGCAAACGCTTTACCATCTGAGCCACCAGGGAATCCCATACTAACAA
+TAGAA
+>ref|X02315.1| Goat repetitive sequence 7.3 kb 5' to beta-A-globin gene
+TTAGTTGCTCAGTCAGTGTCCCACTCTTGGCAACCCCACGGAGTCCATCAGGTTTCTTTGTCCATGGGATTCTCCAGGCA
+AGAATACTGGAGTGGGTTGCCACTCCTCCTCCAGGGGATCTTCCCAACCCAGGCATCGAAGCCAGGTTTCCTGCATTGCA
+GATAGATTCTTTACTGTCTGAGCCACCAAGGAAGTCCTTTACCCTTACTT
+>ref|X03118.1| Goat satellite II DNA repeat unit fragment
+GATCTGGCAGAGTTCCTGGCGCGAGGCTGCTCTGCCGGGGGCTAGCCTTGCCCAGACTTGCCTTGCTTTTAGGCTGCCTC
+TCCAGGAAGGAGCAGGCAGCAGGAGCCTGGGAGTCACCACTGGCGCCTTTCTTGCCTCAGCTCCAATCCTGCCTTGCCTT
+TGCACTTAGGTCCCAGTCCTCCTTAAGGAGAGCTTAGGGGCTGGTGGGTTGCACATCCAAGGGCTCCAGCCGTGAGAATT
+>ref|X55312.1| C.hircus DNA for thyroglobulin (Tg) gene, last exon
+GGAAGAGATGAGGGAGAAATCGGATCCAGGTTGGACCAGCCTTGTCTGTCCTATTTCAGATGAAACTAAGGACGGGCTGT
+CAGCAGACAGCAGAGAGGAGGACCAGCTGGCTGGCTCTGGGCTGACAGAGGACCTCCTGGGTCTCCCAGAGTTAGCCTCC
+AAGACCTACAGCAAGTGACCAGCCCCATCCCAAATGCCACCCTGGACACCTTATTCTCCAACATAGCCGCTATCAATAAA
+GTGTCTACCTGCAGAAAAGCATTGGTGACTCAGATTCATTAATTTCAGACAGTCCTTGGGAGACACCAGGGATTCTTGTG
+GCTCAGAGGGTAAAGCATCTGCCTGCAATGCAGAGACCTGGGTTCAATCCCTGGGTCAGGAAGATCCCCTGGAGAAGGAA
+ATGGCAATCTACTCCAGTACTCTTGCCTGGAGAATCCCATGGATAGGGGAGCCTGGTAGGTACAGTCCATGGGGTCGCAA
+AGAGATGGACACGACCTGAGCGACTTCACTCACTCACTCACTTGGGAGACACCAA
+>ref|Z18637.1| D.delphis gene for large subunit rRNA
U13106.1 Delphinus delphis mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAATACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA
+AAACAATACCACCAAGGGATAACAAAGCTTTAAATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCTACTAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18636.1| D.delphis gene for small subunit rRNA
U13083.1 Delphinus delphis mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAATCCCAAAACAAGATTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAACTCACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATGAGGCCA
+>ref|Z18639.1| D.leucas gene for large subunit rRNA
U13107.1 Delphinapterus leucas mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGGCTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTCTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACCCAAAAAACA
+CAAAACAGCACCACCAAGGGATAACAAAATTTTACATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAAC
+CCTCCGAGTGATTAAAACCTAGCCTACTGGCCAAAGTGTAATATCACTTATTGATCCAAATTCTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGTAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18638.1| D.leucas gene for small subunit rRNA
+TCGTAAACTTAAATAGTCCTTAAAACAAGACTATTCGCCAGAGTACTACCGGCAACAGCCCGAAACTCAAAGGACTTGGC
+GGTGCTTCATATCCCTCTAGAGGAGCCTGTTCTGTAAACGATAAACCCCGATCAACCTCACCAATCCTTGCTACCTCAGT
+CTATATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCACAACTATCGCACATAAAAACGTTAGGTCAAG
+GTGTAACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACATCCCTCAAGTCTACACGAAAGTTTTTAT
+GAAAACTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAATAGAGTGCTTAATTGAATAAGGCC
+>ref|Z11814.1| D.virginiana interphotoreceptor retinoid binding protein gene, exon 1
+CCCAGAAAACCTAATGGGCATGCAAGAAGTCATTGAACAAGCAATCAAGAGTGGGGAGATCCTGGATATCTCTGATCCCC
+AAATGCTGGCCAGTGTCCTGACAGCAGGTGTGCAGGGTGCCCTCAATGACCCACGGCTAGTGATCTCCTTTGAGCCCAGC
+ATTCCTGAGACTCCCCAGCATGTCCCAAAATTTGCCAACGTCACTCAGGAGGAACTGCTCACCCTGCTCCAGCAAATGAT
+CAAGTACCAGGTACTGGAGGGCAATGTGGGTTACCTAAGAGTTGACTACATCCCTGGCCAGGAGGTGGTAGAGAAAGTCG
+GGGAGTTCTTGGTGAATAACATCTGGAAAAAGCTCATGGGGACCTCCGCTCTGGTGTTGGATCTCCAGCACAGCTCAGGG
+GGTGAAGTTTCAGGAATTCCCTTTGTCATTTCCTACCTACACCAGGGGGATATCGTGCTGCACATAGACACAGTTTATGA
+CCGGCCATCCAATACCACCACAGAGATCTGGACCCTGCCCCAGGTGCTGGGTGAGAGGTACGGTGGGGAGAAGGACATGG
+TGGTCCTCACCAGTCACGGTACTGTTGGAGTAGCAGAGGATATAGCCTACATCCTCAAGAAGATCCGCCGGGCCATTGTG
+GTGGGAGAGCAGACTCTGGGAGGGGCTCTAGATCTCCGGAAGCTGCGCATTGGCCAGTCAGATTTCTTCATCACTGTGCC
+GGTATCACGCTCCCTGAGCCCCCTCGGAGGGGAAGGCCAGACATGGGAGGGCAGTGGGGTGCTCCCCTGTGTAGGGATCC
+CAGCAGAACAGGCCCTGGGGAAAGCACTGGCCATTCTCACCCTGCGCAGGGCAAGACCGGGAGCCATTCAACGTCTCATG
+GAAGTCTTACAGAATTACTACACCCTGGTGGATCGGGTACCCGCGCTGCTCCATCACCTCACTGTCATCGACTATTCCTC
+AGTGCTCACAGAGGAAGATTTGGCGACCAAGCTCAATGCAGGACTGCAAGCTGTGTCAGAGGACCCCAGGCTCCTCGTTC
+GGGTTCTGAAGCCTGAGGAAGTCACAACTGACTCTGAAGTTAGCAAGGAGGCAGATACTACAGCTGTGGCCCACTCACTG
+CCTGAGGATGAAGTCCCAGAGCAAGCCCTGGTAGACTCTGTGTTCCAGGTATCAGTGTTGCCAGGTAACGTGGGCTATTT
+GAGGTTTGATGAGTTTGCTGACTCCTCGGTACTTGCACCCTGG
+>ref|X51914.1| Equus caballus large-subunit ribosomal RNA D3 domain
+ACGGACCAAGGAGTCTAACACGTGCGCGAGTCAGGGGCTCGCACGAAAGCCGCCGTGGCGCAATGAAGGTGAAGGCCCCG
+CGCCGCCCCCCGGGGGCCGAGGTGGGATCCCGAGGCCTCTCCAGTCCGCCGAGGGCGCACCACCGGCCCGTCTCGCCCGC
+CGCGCCGGGGAGGTGGAGCATGAGCGCACGTGTTAGGA
+>ref|X58563.1| Equus caballus mRNA for atrial natriuretic polypeptide (ANP)
+ATGGGCTCCTTCTCCACCATCATGGCGAGCTTCCTCCTCTTTCTGGCATTTCAGCTCCAAGGGCAAACCAGAGCTAACCC
+CGTGTATGGCTCTGTGTCCAACGGAGACCTGATGGATTTCAAGAATTTGCTGGATCGTTTGGAGGACAAGATGCCTTTAG
+AAGATGAGGTGATGCCCCCACAAGTACTAAGTGATCAGAGTGAGGAAGAGAGGGCAGCTCTCAGCCCCCTCCCTGAGGTG
+CCTCCCTGGACCGGGGAGGTCAATCCAGCCCAGAGAGATGGGGGTGCCCTTGGGCGGGGCTCCTGGGACTCCTCCGACAG
+ATCTGCCCTCCTGAAAAGCAAGCTGAGGGCACTGCTCGCTGCTCCTCGGAGCCTACGGAGGTCCAGCTGCTTCGGGGGCA
+GGATGGACAGGATTGGAGCCCAGAGTGGACTGGGCTGCAACAGCTTCCGGTACCGAAGATAACAGCCAGGGAGGACAAGG
+ACAAGGCCAGGCCCTGGGCAGACTGCGAGAGACCCTATCCCCCGGGGTCTCTCACTCAACGTTGTTCCATCTCATTGCTC
+CCAAGCTGAGTGGTGACGAGCACCCTATCCAAGCTGCAGCCCCCTGTCAACAATTCTCACATTTTATTCTAAATGTAGAT
+AAAGTGGCTTAATTGTGGCTTCCCCAGCTCCCCCATCCCATGCATTAAATTTTAGGGTAGATCCTCACCCATTACTGAAA
+GCGGTTTGAAAAATGAATAAACTTCAGCACCACGGAGAGAAAAAAAAAAAAAAAAA
+>ref|X16773.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 1)
+CTGCAGGTTCAACGGATCCCAGACCACAGGAGGCGTTTGGGAGGGCACCAGAGGCCGGGGAGGCCAACCGCAGGTGGGCG
+CCGGCTGCATCCGCAGCCCAATCTCCCACCCCCACCCAGGCGCGTCTCTTCGTCTCAGAGGAGCTCCCTGATGCCCTGGA
+AAGGCCCCTCTGAGCGAGGTTTCTGTTTTGGGTCCGCGGAGATTCGGGGAGCCCAGTTCCGAAAACATATCCGCACCCAC
+TGCGACCTTCGGTGCCCCACAAAGCAGCCCGGCCACGCAGGGCCCGGAGGAGGGGCGCGGGAGCTGCACGGGCCCGAGGC
+CCCGCGGCCCAGCCAGCCGGTGCGCCCCGCAGTGGGGGCCGCGGCCGCCCGGGCGTGGGCACGCCGCGCCCCGGGCCCGG
+ACCCCGGCGCCCTCCTGCCGGGAGCCCAAGCAGGCGGGGGCCGGCGGGGCGGCTGCTGGGGCCGGAGTTTCGTTTGGGGT
+GGGGGCGGAGCAAGCCAGCGCCGGTGTTGGAGCCAAGGCACAGCCGGTGTCAGGTTGCTCCGGCAACGGTGACGTGCCGC
+GGCGTGGGCGGGGCCAGCACGCAGGTTGCATATTTTAGGAAGCGAGGCGGAGGCGGGGGTTCGAGCTGCGGCAGGGTCTG
+GGGCGCGGACGAACGGCGGAGGAGGCGGACACGTGGCAGTGGCACTGGTAGCAACCCGGCGGCGGCGGCAGTAGCAGCGG
+CGGCTTCGGTCCGAGCCGCCGGCCGTCCTCCCTCGCTCCCGCCCGCGGCAGCCCTCGCTCGCCTCTCGGCTCCCCCGGCC
+GCGCTAGCTCGGCCGGGAGCTCTCTCTTCTTCTCTGTCTCATTCCCAAGCGACAGGACCCGGCGCCGGGCACAGACCACC
+GCCACCATGGGGAAGGGGGTGAGTGTCCGGCGAGCTGG
+>ref|X16774.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 2)
+TTTCCCACATTCTCCTGTAGGGTGGACGTGATAAATATGAACCCGCAGCGATTTCAGAGCATGGCAACAAGAAAAAGGCC
+AAGAAAGAGAGGGATATGGATGAACTGAAGAAAGAAGTCTCTATGGTAAGTGCTAGGAGGAAGGT
+>ref|X16775.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 3)
+TTGTTTCTGTTTTCCCTTAGGATGACCATAAACTTAGCCTTGATGAACTTCAGCGCAAATATGGAACAGACTTGAGCCGA
+GTATGTTCAAATTTGAAACT
+>ref|X16776.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 4)
+CATCTTCCTCTACTTCTCAGGGCTTAACAACTGCTCGAGCTGCTGAGATCCTGGCCCGAGACGGTCCCAATGCCCTTACA
+CCCCCTCCCACCACTCCTGAATGGGTCAAATTCTGTCGGCAGCTCTTTGGGGGTTTCTCAATGTTACTGTGGATTGGAGC
+AATTCTTTGTTTCTTGGCTTATGGCATCCAAGCTGCTACAGAAGAGGAGCCTCAAAATGATAATGTGAGTGCTATACTTC
+CTCA
+>ref|X16777.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 5)
+ACTTGTTTGTTCCCTCCCAGCTGTATCTTGGCGTGGTGCTGTCAGCTGTCGTCATCATAACTGGCTGTTTCTCCTACTAT
+CAAGAAGCTAAAAGTTCAAAGATCATGGAATCCTTCAAAAACATGGTTCCTCAGGTACCTCTCTTTTGGGCTTC
+>ref|X16778.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 6)
+ACTGTTTTCCCCTCCCAAAGCAAGCACTTGTGGTTCGAAACGGTGAGAAGATGAGCATCAATGCGGAGGAAGTAGTGGTA
+GGGGATCTGGTGGAAGTGAAAGGAGGAGACCGGATCCCTGCTGATCTCAGGATCATATCTGCAAACGGTTGCAAGGTGGG
+TGGGTTCGAACAGGA
+>ref|X16779.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 7)
+TTACTTTTGCTCCCGGACAGGTGGATAATTCCTCACTCACTGGCGAATCAGAACCCCAGACCAGGTCTCCAGATTTCACA
+AATGAAAACCCCCTGGAGACGAGGAACATTGCCTTTTTTTCAACCAACTGCGTTGAAGGTGTCCATATTAAGGCACTC
+>ref|X16780.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 8)
+CCCCCTTCATGCTTTTTAAGGCACTGCACGTGGCATTGTCGTGTACACGGGGGATCGCACCGTGATGGGAAGAATTGCCA
+CACTTGCTTCTGGGCTGGAAGGGGGCCAGACTCCTATTGCTGCAGAAATTGAACATTTTATCCATATCATCACGGGTGTG
+GCCGTGTTCCTGGGTGTGACCTTCTTCATCCTTTCTCTGATCCTCGAGTACACTTGGCTTGAAGCTGTCATCTTCCTCAT
+CGGTATCATTGTAGCCAATGTGCCAGAAGGTTTGCTGGCCACCGTCACGGTAAGAGCCTTAGGGGAAGG
+>ref|X16781.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 9)
+TGGTTGCTGACCTTTTTCAGGTGTGCCTGACCCTCACTGCCAAGCGCATGGCGAGGAAGAACTGTTTAGTGAAGAACTTA
+GAAGCTGTGGAGACCTTGGGGTCCACATCCACCATCTGCTCGGATAAAACTGGAACGCTGACTCAGAACCGGATGACAGT
+GGCCCACATGTGGTTTGACAATCAAATCCACGAGGCCGACACGACTGAGAATCAGAGTGGTAAGACTAGTACCCCCTCC
+>ref|X16782.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 10)
+TCTTTTCTTGGTTTCATCAGGTGTCTCATTCGACAAGACTTCAGCCACCTGGCTCTCTCTGTCCAGAATTGCGGGTCTTT
+GCAACAGAGCAGTGTTTCAGGCTAACCAGGAAAACATCCCCATCCTTAAGGTGCGCTCAGGCGTCCTGTG
+>ref|X16783.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 11)
+TCACAGCTGGGCCGTCGCAGCGGGCCGTCGCAGGCGATGCCTCCGAGTCAGCACTCTTGAAATGCATCGAGCTGTGCTGC
+GGCTCTGTGAAGGAGATGAGGGACAGATACCCCAAGATCGTGGAGATTCCCTTCAACTCCACCAACAAGTACCAGGTGGC
+CTGGGGCGCGAGGCG
+>ref|X16784.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 12)
+TTTACAGTTGTCCTTTACAGTTGTCCATTCATAAGAACCCCAACACGTCTGAGCCCCAGCACCTGCTGGTGATGAAAGGT
+GCTCCGGAAAGGATCCTGGACCGCTGCAGCTCTATCCTCCTCAACGGCAAGGAGCAGCCCCTGGACGAGGAGCTGAAAGA
+TGCCTTTCAGAACGCCTACCTGGAGCTGGGCGGCCTCGGAGAGCGAGTGCTCGGTACGCAGATAACCTGGTTA
+>ref|X16785.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 13)
+GCTCCCTGCCCTCCTTTCAGGTTTCTGCCACCTTTTCCTGCCCGACGAACAGTTTCCCGAAGGCTTCCAGTTTGACACTG
+ACGATGTGAATTTCCCTCTTGAAAATCTCTGCTTCGTTGGGCTCATCTCCATGATCGACCCTCCCCGAGCTGCCGTGCCT
+GATGCCGTGGGCAAATGTCGGAGCGCTGGGATTAAGGTAGCGTCCAGTCTGCGTCC
+>ref|X16786.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 14)
+TGTCTTGTTTCTTGTTGCAGGTCATCATGGTCACTGGAGACCATCCTATCACAGCCAAAGCCATTGCCAAAGGTGTGGGC
+ATCATCTCAGAAGGCAATGAGACCGTAGAGGACATTGCTGCCCGCCTCAACATCCCAGTGAGCCAGGTGAACCCCAGGTA
+AGGCAGGAAGCTCGAAG
+>ref|X16787.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 15)
+CTTTTCTGTCCTCATCCTAGAGATGCCAAGGCCTGCGTGGTTCATGGGAGTGATCTGAAGGACATGACCCCTGAGCAGCT
+GGATGACATCTTGAGGCACCACACTGAGATTGTGTTTGCCAGGACCTCCCCTCAGCAGAAGCTTATCATCGTGGAAGGCT
+GCCAGAGGCAGGTTCCAAGGTGGCCCTCTCA
+>ref|X16788.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 16)
+CATGTCAATGTTTGTGGTAGGGTGCCATTGTGGCTGTAACTGGCGATGGTGTCAATGACTCTCCAGCTTTGAAGAAGGCG
+GACATTGGGGTTGCTATGGGGATAGCTGGCTCAGACGTGTCTAAACAAGCTGCTGACATGATTCTTTTGGACGACAACTT
+TGCCTCAATTGTGACTGGAGTAGAGGAAGGTGAGAGCACTACATTTAAA
+>ref|X16789.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 17)
+AAAATATTTTGCCTTCCTAGGTCGTCTGATCTTCGATAACTTGAAGAAATCCATTGCCTACACCCTGACCAGTAACATTC
+CAGAGATCACCCCCTTCCTGATATTTATTATTGCAAACATTCCACTGCCCCTGGGGACTGTCACCATCCTCTGCATTGAC
+TTGGGCACAGACATGGTAATGATGTCGAGCTTCCA
+>ref|X16790.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 18)
+CTCGCCGCCCCTACCCCCAGGTCCCCGCCATCTCCCTGGCTTATGAGCAAGCTGAGAGCGACATCATGAAGAGACAGCCC
+AGAAACCCCCAGACGGACAAACTTGTGAATGAGCGGCTGATCAGCATGGCCTACGGACAAATTGGTGAGCTGCCACATGG
+CGTC
+>ref|X16791.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 19)
+TTACTTTTCTAACTTCTTAGGTATGATCCAGGCCCTAGGGGGCTTCTTCACCTACTTTGTGATTCTGGCTGAGAATGGCT
+TCCTCCCAATTCACCTGCTGGGACTCCGCGTGGACTGGGATGACCGCTGGGTCAACGACGTGGAGGACAGCTACGGGCAG
+CAGTGGGTGAGTGAGCTCCTCAGTTC
+>ref|X16792.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 20)
+TTTTGCCTTTTGCGTTTCAGACTTACGAACAGAGGAAAATCGTGGAGTTCACCTGCCACACAGCATTCTTCGTCAGTATC
+GTGGTGGTACAGTGGGCCGACTTGGTCATCTGCAAGACCAGGAGGAACTCAGTCTTCCAGCAGGGGATGAAGTGTAAAGG
+ACAGTCAGGTT
+>ref|X16793.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 21)
+TTTTTCCTCCTTGACTTTAGGAACAAGATCCTAATATTTGGCCTCTTCGAAGAGACGGCCCTTGCTGCCTTCCTTTCCTA
+CTGCCCTGGAATGGGTGTGGCCCTGAGGATGTATCCCCTCAAGTAAGTCCATCCTCTCCAGC
+>ref|X16794.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 22)
+GGTACCTGCTTTTTCCAGGCCTACCTGGTGGTTCTGTGCCTTCCCGTACTCTCTTCTCATCTTCGTGTATGACGAAGTCA
+GAAAACTCATCATCAGGCGACGCCCTGGCGGTAATTACAGGCATTTTAGC
+>ref|X16795.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 23)
+CTGTGTGTTTGCTGCCGCAGGCTGGGTGGAGAAGGAGACCTACTACTAGACGCCATCCTGCAGCCGCGGAATCGCTCACC
+CTGCACCCCTCACCCACCCCCCTCTGTGTACTTCAGTCCCGGAAGCTCGGAACTCTACCCTGGTAGGAAGGCACCGAAGC
+ATGTGGGGGAAGCCAGACGTCCCGGAATGAAGCATGTAGCTATATGGGGGGAGGGGGGAGGCTGCCTGAAAACCATCCAT
+CTGTGGGAATGACAGCGGGGAAGGTTTTTATGTGCCTTTTTGTTTTTGTAAAAAGGATAACTCGGAAAAGACTGAAAGAA
+TACATTTTATATCTGGATTTTTACAAATAAAGATGGCTATTATAATGGAATTTGCCTCATGTCCTTCATCACTTCTGTGG
+TCCAGATGTCTGTGTGTTGTGTGAGGATCTGAGCTCACGGGGGCTGCTGCACAGTCCCCAGCCTGGAGACAGGTGCCTGG
+GCAGCCTCTGTGGGAGGGCTAAGCTTTCCTGACGACCAGCTCGTGCAGTAAACATGTGAGCCAGGTGGTCCC
+>ref|X07053.1| Horse psi zeta and alpha 2 globin genes (BI allele)
+CCTGAGTGCATCTGACCAGTGAGAATGGACCAACAGATCTTACCTGTCATGTGGGAATGTGCGACCTCAACAGCGAGTGG
+AAACAGTGCCACCACACGGATCGCCATGACAGCCATCCCCCTTCATGCGCTGGCTGGGGAGGGAGAAACTGGTCCACACG
+CAGATGTTAGGGCTCAGTCCAGGGTCAGAGCAGTGAGGGGGTCTCTGCCCCTTTCTCCGAGTACCCAGGGTCTCCCTGAG
+GCAGCCAGGGAGGTGGCCGTCGGGGGATGTGTAACAGGAGGAGCCACAGAAGAAGCTTCTCCACCAGACTCAGGCCTGGG
+CTTGGTCTGCCAGCCCCCTGTGCCCAGGGGCCCCAAACTCTCGGCTCAGATACAAAGACAGGGTCAGGCGGCCCACAGCT
+CAGCTCCACTGAACAGCAACACGTGCTCCATGTGGAAACCCAGTGACAACACACGCAACCGACCAACCGACAAGGACACC
+ACAACCCTCGTCACTTAGGGGTCATTACTGTCACTAGTTTGGTGCTGTCCTATCCAGCCCTTTCTACTACTGAAAAACAT
+TATCATATTGTATGTTCTGTAAAAAATCTTCTATTTTAAGAAAGTGCTTATAAAAAATGTTTATTATAATTACAACATTC
+AAATCAAGCTATAATTTAACTTAAAAATACATGCATAAAAGTGCACTTTGCAAGAACCCATAGGAACTGAGAGGAAGATA
+CAGGCTCATTAGAATGGCCGCCTTACGGGAAGGGAAGGGAAGCGACGTGCGTGGACAAGAGAACAAGGGTCTTGTCCAGG
+CTGTGACAGGTGGAACCGTAGGCGCGTGTGGCCCAGCCGTTGTGGAGAATCCAGGCTCCTTGCGGCCTGGGGCCCTGCTT
+GGAAAGCAGCCCCCCCAAGCTGCTGGGGGACTTGGCCCATGCTGGGGAGAACCTCAGACAGACCCTCATCTAGGTGAGGA
+GGGGGCAACACAGAAGAGGCGGGAGAGGGTCTGAGGCCAAGACTGCCACTCACACCCAGTGATGCCTGGCCTCAGTTTCC
+CTCCATGGGCCTCGGTGACTCATCAGGTGGCGTTGCTGAAGCTTTAAGGAACAGGGTGCTTCTGTCAGGGCCCGACGGGT
+TTCAGGTCATCCTTCCATTGCAAGGACAAGGAGGGGAGGGACCAGCATTACGGAGGCCAGTCTCTGGGCTGGGCTGACAC
+GTGGACCCTCGACCCAAGCCTGGGCCCCCATCTCCCTGGGCCAGGGCTCTGGCTGTGGCCCAGTGGGTGATACCCTCACC
+CCCTCACCCCAAACTGCTCGTCACTGGATCGGATAAGAGACCACCACCCTCACGGCCCCCTCCCCTCCTGACCAATGGCC
+ACACTCTGGCCCCCACCCCAGCTCCGTGTATATAAGGGGACCCTGGGGGCTGAGCACCATGGAGGCCAGTCCTGAGGACA
+CCCAGCTCCAGTCCAGCCATCACCATGTCTCTGACCAAGGCTGAGAGGACCATGGTCGTGTCCATATGGGGCAAGATCTC
+CATGCAGGCGGATGCCGTGGGCACCGAGGCCCTGCAGAGGTGAGTGCCAGACAGCCTGGGACAGGTGACAGTGTCCCAGG
+TGACACTGGTGTAGGTGACAGCGTGAGTTTAGTGAGGACAGGGGCCAGTGAGGAGGGACAGCGAGGAGGGGTCAGTGAGG
+AGGGCACAGTCAGGAGGGACAGTGGAGAAGGTCTTGAGTCGGGAAAGGTGAATCGCTCGGATGTCTGGCTGACCCCCGCT
+AGGCCTAGCAGGGACAGGCCCAGGTCCCCACAAGGAGGGGCTGCACACATTTCTCCCGAGAGAACAGAAGTGTCTTCCGG
+GGCGCCAGGCAGCAACAGCATCAGGGTCTCGCATTCTGGGGGCGGTGTCAGCAGAGGGTCCCCGCAGAGACCTTCCTTGG
+GACACGGCTGGAGAGGGCAGCATTTCCGGCAGAAGGGTCAACAGGAAGCCTGATCAAGGGCTGGGAAGGAGGCCCCTTCG
+CCAGAGGAGAGGTGACAGGGGCTGATTGGAAGCCAGGAGGCAGGCCCGGAGCCGCCCGGCCTGGAATGGGGCTGGGGGCC
+GAACACGGCCCGGCGGCGGGAGGGTGTGGACGCCGAGGAGAGGGCGCCTCCAGACGGCGGGGTGGAGCTTCGGTGGGGGG
+CCGTGGTAGGGCAGAGTGGGTGCTCGGATCGGAGGAGAGTCAGGCTTCGGCTTGCGCGGTGGCCCCACCTTCTCAAAGCA
+CGTCCGCAGTCATTCGTTCGTTCAGTCATTCTCCCTCCATCCCTACCTCGCGCGGAAGCGGGGAACGTGAATCTTTGCCC
+CTTTTGCAGACAGACGCGGGCTCCCAGGCCCAGGGGCCAAGTTCCTGGCCTGAGGTTAAACAGAATTGCGGCCCTGGGTT
+CCTCGGACACCCATCTCTGTTCCTTTTCCGCTTCCCCTCCCCCTAGCCTGCAGCAAATCTTGCCCTGGGCCAAATTATCC
+CCTTCCTCTGAATCTCCTGGGGGCAAGGGATGGGGGTAGGGAGGAACTTCTCGACGGCCGCAATCTGGCGGAACAGGTTT
+CCAACTCGATTCACTGGGCATGTCCCCGAGCAATCTGAGCCTAACGCATCAGGTGGGAAAACCTCGGGCCTCGCTGGGTC
+TTTGAAATAATTTACGCGATCAGAATGCAGGGTCGGTTCCAGGCTGGCCCCGGCCACCCCACCCCCACCCAGCCGCAGCC
+GCGGCGCCCCAGTCTCCGCGCGTCCCCGGCCACCACGCCCGGCCCCAGGGTCGATCTCTCCCGCCTGCGGCACCGGGGCA
+GGAATCTTAGCGCTCAACCCAGAACCTCTGCGGACAAGGGGACAGGAGCCCGGAGAGGGACCCTGGGAGCCCTCCAAACT
+CGATGAGGACCGTTCCGGGACCATCGGCGCCCAAGTCCGAAGGGGGACGCTGGAGGCTAAGTCCGGACGGTGGTTCGGCC
+GAAACCCGCGCCCACGCGGTCCAGGCCGCCCGTTACCCCTTGCTGCCGGGAGCGCCTGCCCACCACCGGGGGAGGAGGGC
+TTGGAGGACGTCCCCCACATTATCTCCTTCCCCGCGTCGTTTACACGGACAGTTTGCAGCTCTCGGCCTGGGGCAAAGTT
+TGGTGCCAAAGCAGCTTGTTTCACTTCGGAACCCGCAAATATACACATTGGAAGCTATCCCCCAGCCCGAGCCAAAGGCG
+AGTGACAGTGGGTTTGGGTGGCTCAGAACCCGCGTGGGCTCCCGGAACCACAGGAGAGAGAATCGAGGGTGCGGAGGAGA
+GCTGGCTCCCGGCGCGGGCGCAGGGAGTCCTGCCTGCCCCCCTCGCTCTGCTCAGCGCTTTCCCAGCCCGCAGCTCCCGG
+CACCGCGCCAGCCAATGAGCGCGGCCCGGGCGGGCGTGCCCCCCGCGCCCAGACCATAAAGCTGCGCGCTCTGTCAGCCG
+CGTACACTGCTGTCCCGGCACAGACTCAGAAACAGTCACCATGGTGCTGTCTGCCGCCGACAAGACCAACGTCAAGGCCG
+CCTGGAGTAAGGTTGGCGGCCACGCTGGCGAGTATGGCGCAGAGGCCCTAGAGAGGTGAGGACCCTCCTTTCCCCGGCCG
+GGACCCTCGGGCACAGCAGCCGCCCCAGGGGCCTGCCAGCAACCCCTCGGTGGGTTCTGGCCCGGCTGGTGCAAAGACCC
+CCAAGATGTCAGGGTCTGACCGCGGACCAGCCGGAGGAGCCCGGCCAGCACCTTCTTCCGAATCCGAGGCTCCGGACCCT
+GCCCCCGACCCCGCTACCCCACACCCACGCCGGCCCCCCGCCGCCGCCGCCCCCCCCCCCCCCCGCCCCCCGCTCACTCT
+CCTCTCCCTGCAGGATGTTCCTGGGCTTCCCCACCACCAAGACCTACTTCCCCCACTTCGATCTGAGCCACGGCTCCGCC
+CAGGTCAAGGCCCACGGCCAGAAGGTGGGCGACGCGCTGACTCTCGCCGTGGGCCACCTGGACGACCTGCCTGGCGCCCT
+GTCGAATCTGAGCGACCTGCACGCACACAAGCTGCGCGTGGACCCCGTCAACTTCAAGGTGAGCCCGGGGGCCGGGCCTG
+GCCGGGCGGGAGAGACGAGCGGGAGGCGCAGCGGGCCCTCCCAGAGGGCAGGGAACCCCGTGGGTCTCAGAAGTGGAGCG
+CGGGCGGCCGCGGCCCCGACGCCCCCTGACACCCCCTCGATCCACAGCTCCTGAGTCATTGCCTGCTGTCCACCTTGGCC
+GTCCACCTCCCCAACGATTTCACCCCTGCCGTCCACGCCTCCCTGGACAAGTTCTTGAGCAGTGTGAGCACCGTGCTGAC
+CTCCAAATACCGTTAAGCTGGAGCCACGGCGATCCCTGCCCGCGGCCCGGGGCCCTTTGCGCTCCGCGTGCCCGCACTTC
+CCTATCTTTCAATAAAGTCTGATGGGCTGCATGCAGCCTGCGTGCCTCGGTTCTCTGTGTCCGCGAATGTGCCAGGGGTG
+GGGGTGGTCTGTCTGATCAAGGACCTCCCAGGAGCGGGCAGAGAGGGAAGGGAAGAAAAGGGTGGAGGAGGGAGTGGAGC
+TAAGACACATGCTTCAGGGAATCGCTGCACTGTGCTCCTGTGCTGGGAGGTGCCCGACTTCGCAGGGTTCCTCCCTGGCA
+TGGGACGTGGGGAGTTGTAAGATCGCCACCCTGTTTGAAGTCTCTGACTGATGCCCGTTGAACATATAATCTAGATCAAA
+ACAAACCACAAACATAGGCGGCTCCCGTGCAAATGCAGGCATTGGACAATATCTAGAAGATCCACTCGTTCCACCAGAAG
+GAAGGTTGCTTGGAATGGGCGCCGCAGCCTGGCGCACCCTCCCTGCCTCACAGCAATCCTTGGGAGCGGCAGGCAAGTGG
+GGGCGGGGGAGAGAGGACCTGAGTCAAGGCACTTAGGAGAGCACTGTTCCCTCGTTCCTGCAGGTTACCAGGCATTGCGT
+GCCCAGCCCTGCATCCCCCAGCTAATTGCTTCCCCATTCTCCAGCCAGAGGCTCCTGGGGTCTGCCAGCGGTTCTGCGCC
+GCGCTGTGAGCCACCTTCAGTAAGGCCCCTGTCCAGGTGCTGAAGCCCT
+>ref|Z18645.1| E.hemionus gene for large subunit rRNA
+TTCTAGTATTAGAGGCACTGCCTGCCCAGTGACATCTGTTTAAACGGCCGCGGTATCCTAACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAGGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTCCAATCAGTGAAATTG
+ACCTTCCCGTGAAGAGGCGGGAATAGCCAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAACTGATTCACAAAAAAT
+AACATACAAACCTAACCCCCAGGGACAACAAAACTTTTGATTGAGTCAGCAATTTCGGTTGGGGTGACCTCGGAGAACAA
+AACAACCTCCGAGTGATTTAAATCTAGACTAACCAGTCAAAATACATAATCACTTATTGATCCAAACCATTGATCAACGG
+AACAAGTTACCCTAGGGATAACAGCGCAATCCTATTCCAGAGTCCATATCGACAATTAGGGTTTACGACCTCGATGTTGG
+ATCAAGACATCCTAATGGTGCAACCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18644.1| E.hemionus gene for small subunit rRNA
+CCCTAAACTAAAATAACTCATCACAACAAAGTTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGG
+CGGTGCTTTATATCCCTCTAGAGGAGCCTGTTCCATAATCGATAAACCCCGATAAACCCTACCATCCCTTGCTAATTCAG
+CCTATATACCGCCATCTTCAGCAAACCCTAAACAAGGTACCGAAGTAAGCACAAACATCCAACATAAAAACGTTAGGTCA
+AGGTGTAGCCTATGGGATGGAGAGAAATGGGCTACATTTTCTACTCTAAGAACAAGAATTTAACCCAGACGGAAGTCTCC
+ATGAAATTGGAGACCGAAGGAGGATTTAGCAGTAAATTAAGAATAGAGAGCTTAATTG
+>ref|X01086.1| Equine BII alpha-1 globin gene
+TCCTCGCCAGCCAATGAGCGCGGCCCGGGCGGGCGTGCCCCCCGCGCCCGGACTATAAAGCTGCGCGCTCGGCCCGCCGC
+GTACGCTGCTGTGCCGCTGCTGGTCCTAGCACAGACTCAGAAACAGTCACCATGGTGCTGTCTGCCGCCGACAAGACCAA
+CGTCAAGGCCGCCTGGAGTAAGGTTGGCGGCCACGCTGGCGAGTTTGGCGCAGAGGCCCTAGAGAGGTGAGGACCCTCCT
+TTCCCCGGCCGGGACCCTCGGGCACAGCAGCCGCCCCAGGGGCCTGCCAGCAACCCCTCGGTGGGTTCTGGCCCGGCTGG
+TGCAAAGACCCCCAAGATCTCAGGGTCTGACCGCGGACCAGCCGGAGGAGCCCGGCCAGCACCTTCTTCCGAATCCGAGG
+CTCCGGACCCTGCCCCCGACCCCGCCACCCCACACCCACGCCGGCCCCCCGCCGCCGCCGCCCCCCCCCCCCCCGCCCCC
+CGCTCACTCTCCTCTCCCTGCAGGATGTTCCTGGGCTTCCCCACCACCAAGACCTACTTCCCCCACTTCGATCTGAGCCA
+CGGCTCCGCCCAGGTCAAGGCCCACGGCAAGAAGGTGGGCGACGCGCTGACTCTCGCCGTGGGCCACCTGGACGACCTGC
+CTGGCGCCCTGTCGAATCTGAGCGACCTGCACGCACACAAGCTGCGCGTGGACCCCGTCAACTTCAAGGTGAGCCCGGGG
+GCCGGGCCTGGCCGGGCGGGAGAGACGAGCGGGAGGCGCAGCGGGCCCTCCCAGAGGGCAGGGAACCCCGTGGGTCTCAG
+AAGTGGAGCGCGGGCGGCCGCGGCCCCGACGCCCCCTGACACCCCCTCGATCCGCAGCTTCTGAGTCATTGCCTGCTGTC
+CACCTTGGCCGTCCACCTCCCCAACGATTTCACCCCTGCCGTCCACGCCTCCCTGGACAAGTTCTTGAGCAGTGTGAGCA
+CCGTGCTGACCTCCAAATACCGTTAAGCTGGAGCCACGGCGATCCCTGCCCGCGGCCCGGGGCCCTTTGCGCTCCGCGTG
+CCCGCACTTCCCTACCTTTCAATAAAGTCTGATGGGCTGCATGCAGCCTGCGTGCCTCGGTTCTCTGTGTCCGCGAATGT
+GCCAGGGGTGGGGGTGGTCTGTCTGATCAAGGACCTCCCAGGAGCGGGCAGAGAGGGAAGGGAAGAAAAGGGTGGAGGAG
+GGAGTGGAGCTGGTAGGCTGCCTGGGGTTTGCTGCAACCCCCCACTGTCACCCTGGAGAGCTTTGCTATGCACGTTGGCC
+TCTTCCTGCATTTCATTCCTTGCAGACTCAACACGGGTTTATTCAAGCAAT
+>ref|Z11811.1| Felis catus interphotoreceptor retinoid binding protein gene, exon 1
+TCAAGAGTCGTGAGATCCTCGCCATCTCGGACCCTCAGACTCTGGCCCATGTGCTGACGACTGGGGTGCAGAGCTCCTTG
+AACGACCCTCGCCTGGTCATTTCATACGAGCCCAGCACCCTCGAGGCTCCCCGGCAAGCCCCAGCACTCACCAACCTCAC
+AAAAGAGGAAATGCTTGCCCGGCTGCAGAAGGGCATCCGCCACGAGGTTCTGGAGGGCAATGTGGGCTACCTGCGTGTGG
+ACGACATCCCAAGCCAGGAGGTGGTGAGCAAGCTGGGGGGCTTCCTGGTGGCCAGCGTCTGGAGGAAGCTCATGGGCACC
+TCTGCCTTGGTGCTGGACCTCCGGCACTGCACCGGGGGCCACGTTTCCGGCATCCCCTATGTCATCTCCTACCTGCACCC
+AGGGAACACGGTCCTGCACGTGGATACCATCTACGACCGTCCCTCCAATACGACCACTGAGATCTGGACCTTGCCCCAGG
+TGCTGGGAGAGAGGTACAGTGCCGACAAGGATGTGGTGGTCCTCACCAGCAGCCACACTGGGGGCGTGGCTGAGGACATC
+ACTTACATCCTCAAGCAGATGCGCAGGGCCATCGTGGTGGGTGAGCGGACTGTGGGGGGTGCCCTGGACCTCCAGAAGCT
+GAGGATAGGCCAGTCTGACTTCTTCCTCACCGTGCCCGTGTCCAGGTCCCTAGGGCCCCTGGGAGGGGGCAGCCAGACAT
+GGGAGGGCAGTGGGGTGCTGCCCTGTGTGGGGACACCAGCCGAGCAGGCCCTAGAGAAAGCCCTGGCCATCCTCACTCTG
+CGCCGGGCCCTGCCAGAGGTTGTCCAGCGCCTGCAGGAGGCCGTGCAGACCTACTACACCCTGGTGGACCGTGTGCCCAG
+CCTGCTGCACCACCTAGCCAACATGGACTTCTCCGCAGTAGTCTCGGAGGAGGACCTGGTCACCAAACTCAACGCTGGCC
+TACAGACTGTGTCTGAGGACCCCAGGCTCCTGGTGCGGGCCGTGAGGCCCAAGGACGCCTCTTCTGCGCCCGAGGTTGGC
+GAGGATGAGCCTCCGGAGGTAGTCCCCACGGTGCCCGGAGCTGAGGCTGCCCGGCAGGCCCTGGTGGTCTCTATGTTTCA
+GGTGTCAGTGCTGCCAGGCAATGTGGGCTA
+>ref|X06372.1| Felis catus repetitive DNA satellite monomer FA-SAT
+TCCTGACCGGCACCGTCCCTTGTGCCCTCAACTCAGCCCTTCGGGGAGACCACTGCCCTGCTGTGGGTTCGGCGCCTGGA
+ACCTCCTGGGACCTAACCCTAACCCTAACCCTACCCCGAACCGGGACCCTCCCCCGAAACCTAAGCCTGCCTCGATCCCT
+AATCCTGCATTTGAGCCGCCTTCTGGCATGGGCCCTCACTTCAGCCCTCGAGGGAGATCACGAGACCGGAGTCGCTTCGG
+CCCTGGCGACGTCCCTGGCCCGAACCCTAACCCTAGCTAAGGCTCTCCCCTCATGGGGACCCAATTCCAACGTCTGACAG
+CATCACGCGCCTGGGGTCCAGAAGCGGTGCAGGCTGACTCGGCAAGGCACCTGGAAGCTCACCATGTCGTTTCCCAGGCC
+CGGCTGCAGCTCCCGAGAGGATTGCGGAGGCCTCCTCGACCGCGGGAGGAACAACATGTGTGGCCGTGGCAGCCAAAGAG
+GGA
+>ref|X60725.1| Feline immunodeficiency virus ENV gene for envelope precursor glycoprotein
+ATGGCAGAAGGGTTTGTAGCCAATGGACAATGGATAGGACCAGAAGAAGCTGAAGAGTTAGTAGATTTTGAAATAGCAAC
+ACAAATGAATGAAGAAGGGCCACTAAATCCAGGAATAAACCCATTTAGGGTACCTGGAATAACAAAACAAGAAAAGCAGG
+AATATTGTAGCACAATGCAACCCAAATTACAAGCTCTAAGGAATGAAATTCAAGAGGTAAAACTGGAAGAAGGAAATGCA
+GGTAAGTTTAGAAGAGCAAGATTTTTAAGATACTCTGATGAAACTATATTGTCTCTGATTTACTTGTTCATAGGATATTT
+TAGATATTTAGTAGATAGAAAAAGGTTTGGGTCCTTAAGACATGACATAGATATAGAAGCACCTCAAGAAGAGTGTTATA
+ATAATAAAGAGAAGGGTATGACTGAAAATATAAAATATGGTAAACGATGCTTAGTAGGAACAGCAGCTTTGTACTTGATT
+CTAGCTATAGGAATAATAATAATAATACGGACAACCGATGCTCAGGTAGTGTGGAGACTTCCACCATTAGTAGTCCCAGT
+AGAAGAATCAGAAATAATTTTTTGGGATTGTTGGGCACCAGAGGAACCCGCCTGTCAGGACTTTCTTGGGGCAATGATAC
+ATCTAAAAGCTAGTACAAATATAAGTAATACAGAGGGACCTACCTTGGGGAATTGGGCTAGAGAAATATGGGCAACATTA
+TTCAAAAAGGCTACCAGACAATGTAGAAGAGGTAGAATATGGAAAAGATGGAATGAGACAATAACAGGACCAATAGGATG
+TGCCAATAACACATGTTACAATATCTCAGTGATAGTACCTGATTATCAATGTTACATAGACAGAGTAGATACTTGGTTAC
+AAGGAAAAGTAAATATATCACTATGCTTAACAGGAGGAAAAATGTTGTATAATAAAGAAACAAAACAATTAAGCTATTGT
+ACAGACCCATTACAAATCCCACTAATCAATTATACGTTTGGACCTAATCAAACATGTATGTGGAACATTTCACAAATTCA
+AGACCCTGAAATTCCAAAATGTGGATGGTGGAATCAACAAGCTTATTATAACAATTGTAAATGGGAGCGGACTGATGTAA
+AGTTTCAGTGTCAAAGAACACAGAGTCAGCCTGGGTCATGGATTAGGGCAATCTCGTCGTGGAAGCAAGGGAATAGATGG
+GAATGGAGACCAGATTTTGAAAGTGAAAGGGTGAAAGTATCGCTACAATGTAATAGCACAAGAAATCTAACCTTTGCAAT
+GAGAAGTTCAGGAGATTATGGCGAAATAACGGGAGCTTGGATAGAGTTTGGATGTCATAGGAATAAATCAATACGTCATA
+ATGCAGCAAGGTTTAGAATTAGATGTAGATGGAATGAAGGGGATAATAACTCACTCATTGATACATGTGGAGAAACGCAA
+AATGTTTCAGGTGCAAATCCTGTAGATTGTACCATGTATGCAAATAAAATGTATAATTGTTCCTTACAAGATGGGTTTAC
+TATGAAGGTAGATGACCTTATTATGCATTTCAATATGACAAAAGCTGTAGAAATGTATAACATTGCTGGAAATTGGTCTT
+GTATGTCTGACTTACCAACAGAATGGGGATATATGAATTGTAATTGTACCAATGACACCTCTAATAATAACACTAGAAAA
+ATGAAATGTCCTAAGGAAAATGGCATCTTAAGAAATTGGTATAACCCAGTAGCAGGATTAAGACAATCCTTAGAAAAGTA
+TCAAGTTGTAAAACAACCAGATTACTTACTGGTACCAGAGGAAGTCATGGAATATAAACCTAGAAGAAAAAGAGCAGCTA
+TTCATGTTATGTTAGCTCTTGCAACAGTATTATCTATGGCTGGAGCAGGGACGGGAGCTACTGCTATAGGGATGGTAACA
+CAATATCATCAAGTTCTGGCAACTCAGCAAGAAGCTATAGAAAAGGTGACTGAAGCCTTAAAGATAACTAACTTAAGATT
+AGTTACATTAGAGCATCAAGTATTAGTAATAGGATTAAAAGTAGAAGCTATGGAAAAATTTTTATATACAGCTTTCGCTA
+TGCAAGAACTAGGATGTAATCAAAATCAATTCTTCTGTAAAGTCCCTCCTGAATTATGGAGGAGGTATAATATGACTATA
+AATCAAACAATATGGAATCATGGAAATATAACTTTAGGAGAATGGTATAACCAAACAAAAGATCTACAAAAAAAGTTTTA
+TGGGATAATAATGGATATAGAGCAAAATAATGTACAAGGGAAAAAAGGGTTACAACAATTACAAAAGTGGGAAGATTGGG
+TAGGATGGATAGGAAATATACCACAATATTTAAAAGGATTATTAGGAAGTATCGTAGGAATAGGATTGGGAATCTTATTA
+TTGATCTTATGTTTACCTACATTGGTTGATTGTATAAGAAATTGTATCCACAAGATACTAGGATACACAGTAATTGCAAT
+GCCTGAAGTAGACGGAGAAGAGATACAACCACAAATGGAATTGAGGAGAAATGGTAGGCAATGTGGCATGTCAGAAAAAG
+AGGAGGAATGA
+>ref|X16582.1| Feline mRNA for preprogastrin
+CCCAGGCTGGCTATAGCATCACCAACCTCCCGGCTCTGCAGACAAGATGCAACGACTGTGTGTGTGCGTGCTGATCTTGG
+CACTGGCTCTGACCGCCTTCTCTGAAGCTTCCTGGAAGCCCCGCTCCCAGCTGCAGGATGCACCCTCGGGTCCAGGGGCC
+AACGGGGGCCTGGAACCACATTGGCTGAACCGGCTGGGCCCAGCCTCTCACCACCGATGGCAGCTAGGGCTCCAGGGTCC
+CCCACAGCAGGTGGCAGACCTGTCCAAGAAGCAGGGACCGTGGCTGGAGGAAGAAGAAGCAGCATACGGATGGATGGACT
+TTGGCCGCCGCAGTGCAGAGGACGGGGACCAACATCCCTAGAACGGAGCTTCAGAGCCCAGCCTCTCCCCAGCCCAGCCC
+AGCCCAGCCCAGCCCAGCCCCATGAAAAACCAATCAAAATAAACTAGCTTCCGATGG
+>ref|X06297.1| Felis catus c-sis proto-oncogene, exon 1 and joined CDS
+TAGCACTCTCCCTTCTCCTTTATAAAGGCCGGAACAGCTGAAAGGGTGGCAACTTCTCCTCCTGCCGCCGGGAGCAGCCC
+GCCTGTCTCCCCGCGCGCCCGCAGCCTCCCCCGCTGCCTCCCTGAGGGCTCCCCTCTGGCCGCCAGCGCCCATCTTTCAT
+TTCCGAGATTGCGATATTTTGCGCACACACGCATACACACACGCGCAAAAAGGGGGGGAAAAAAGGGCCCACCCTCCAGC
+CTCGCTGCAAAGAGAAGCCGGAGCAGCCGCAGCTCACAGCCCAGAGGACGCCCAGAGCGGCAGCGCGCAGACAGACGGAC
+CGACGGACTCCGCCGCGTCCACCTGTCTGCCCGGCCCGGCACTGCGCGCACGGGCACGGCCGAGCGCGGAGCAGCCGTGC
+CCGCCGCCCGGGCCCGCCAAGGCGCACACGCTCCGGCCCCCCCCACCCGGCCCGGGCGGGAGTTTGCACCTCTCCCTGCC
+CGGGTACTCGGGCCGCCGCTGCAAAGCCAACTTTGGAAAAAGTTTTTGGGGGGAGACTTTGGCCTTGAGGTGCCCGGCTC
+TGCACTTTCCGACTTCGGGGGCCTTTCTAGAAAATGTTGCAAAAAAGCTAAGCCAGCGGGCAGAGGAAAACGCCTATAGC
+CGGCGAGTGAAGACGAACCATCGGCTGCCGTGTTCTTTTTCCTCTTGGAGGTTGGAGTCCCCTGGGCGCCCCCACACGGC
+TAGACGCCTCGGCTGGTTCGCGACGCAGACCCCCGGCCGTGGATGCTCGCTCGGGCTCGGGATCCGCCCAGGTAGCGGCC
+GGACCCTGGTCCCGCGCCCAGGCCCTCCCCAGCCCCCCAACGACGGAGCCGGGGCCGGGGGCGGCGGCGCCGGGGGCCAT
+GCGGGTGAGCCGGGCGGCGGCTGCAGCGGCCTGAGCGCCTGATCGCCGCAGACCCGAGCCGAGCCCACCTCCTTCCCCAG
+CCCCCGCCCCCCACCCTGGCCGCGGGGGCGGCGCGCTCGGTCCACGCGTCCGGGGCCCCGCGGGGCCGGGCCCGGAGTCG
+GCATGAATCGCTGCTGGGCGCTCTTCCTGTCTCTCTGCTGCTACCTGCGTCTGGTCAGCGCCGAGGTGAGTTGCGACGGC
+GGCGG
+>ref|X06298.1| Felis catus c-sis proto-oncogene exon 2
+CCATGGTGTCTCCCTGGCAGGGGGACCCCATTCCCGAGGAACTCTACAAGATGCTGAGTGACCACTCAATCCGCTCCTTC
+GATGACCTCCAGCGCCTGCTACACGGAGACTCCGTAGGTAAATTGAACCTTGTTCGG
+>ref|X06299.1| Felis catus c-sis proto-oncogene exon 3
+TGCCTTGCCTTGCCTTGCAGACGAAGACAGAGCCGAGTTGGACCTGAATTCGACTCGATCCCATTGTGGAGGCGAGCTGG
+AGAGCTTATCCCGAGGGAGAAGGAGCCTAGGTGAGGCTGCAGGTAAGAATCCTCCTTTCTCG
+>ref|X06300.1| Felis catus c-sis proto-oncogene exon 4
+TGAGGCCCCCCTCCCTTCAGGTTCCCCGACGGTCGCCGAGCCAGCCATGATCGCCGAGTGCAAGACACGCACGGAGGTGT
+TCGAGGTGTCCCGGCGCCTCATAGACCGCACCAACGCCAACTTCCTGGTGTGGCCGCCCTGCGTGGAGGTGCAGCGCTGC
+TCCGGCTGCTGTAACAACCGCAACGTGCAGTGCCGTCCCACCCAGGTGCAGCTGCGGCTTGTCCAGGTGCGCGGGGGGGC
+CCGACC
+>ref|X03494.1| Cat c-sis oncogene (platelet-derived growth factor) 5' region
+CTGCAGACGACTCCCCAAACCACGTGGGCTAGAAATCAGGCCACGGTCACTGTGCTAAGGGGCGGGGCGCTCAGTCGCCC
+CTAGTTCTCCCTTCGCCAGGGCCGGGCTCCCGGAGGGGCTGCGGAGCTCTCAGAGACCCCTGAGCGCCCCGCCCCCGCCT
+CAGGCCCTCCCGGAGCTCCCCCCCCTCTTCCCGGTGCTGACTCTCGGCCAGAAGAGGAAAGGCAGTCTCCACCCACCTCT
+AGCACTCTCCCTTCTCCTTTATAAAGGCCGGAACAGCTGAAAGGGTGGCAACTTCTCCTCCTGCCGCCGGGAGCAGCCCG
+CCTGTCTCCCCGCGCGCCCGCAGCCTCCCCCGCTGCCTCCCTGAGGGCTCCCCTCTGGCCGCCAGCGCCCATCTTTCATT
+TCCGAGATTGCGATATTTTGCGCACACACGCATACACACACGCGCAAAAAGGGGGGGAAAAAAGGGCCCACCCTCCAGCC
+TCGCTGCAAAGAGAAGCCGGAGCAGCCGCAGCTCACAGCCCAGAGGACGCCCAGAGCGGCAGCGCGCAGACAGACGGACC
+GACGGACTCCGCCGCGTCCACCTGTCTGCCCGGCCCGGCACTGCGCGCACGGGCACGGCCGAGCGCGGAGCAGCCGTGCC
+CGCCGCCCGGGCCCGCCAAGGCGCACACGCTCCGGCCCCCCCCACCCGGCCCGGGCGGGAGTTTGCACCTCTCCCTGCCC
+GGGTACTCGGGCCGCCGCTGCAAAGCCAACTTTGGAAAAAGTTTTTGGGGGGAGACTTTGGCCTTGAGGTGCCCGGCTCT
+GCACTTTCCGACTTCGGGGGCCTTTCTAGAAAATGTTGCAAAAAAGCTAAGCCAGCGGGCAGAGGAAAACGCCTATAGCC
+GGCGAGTGAAGACGAACCATCGGCTGCCGTGTTCTTTTTCCTCTTGGAGGTTGGAGTCCCCTGGGCGCCCCCACACGGCT
+AGACGCCTCGGCTGGTTCGCGACGCAGACCCCCGGCCGTGGATGCTCGCTCGGGCTCGGGATCCGCCCAGGTAGCGGCCG
+GACCCTGGTCCCGCGCCCAGGCCCTCCCCAGCCCCCCAACGACGGAGCCGGGGCCGGGGGCGGCGGCGCCGGGGGCCATG
+CGGGTGAGCCGGGCGGCGGCTGCAGCGGCCTGAGCGCCTGATCGCCGCAGACCCGAGCCGAGCCCACCTCCTTCCCCAGC
+CCCCGCCCCCCACCCTGGCCGCGGGGGCGGCGCGCTCGGTCCACGCGTCCGGGGCCCCGCGGGGCCGGGCCCGGAGTCGG
+CATGAATCGCTGCTGGGCGCTCTTCCTGTCTCTCTGCTGCTACCTGCGTCTGGTCAGCGCCGAGGTGAGTTGCGACGGCG
+GCGGGGGCTGGTTCGCTTCATCCATTACGCCCACCCTCACCCCCTGGCCGCCCCCTCCCCTCCCTGCAGGGGACTTTGGA
+CCCTCGCAGCCCACGGGCCTAGCGCCGGGCGCTAGGTGACCTCCGAGGGCTGGGACGCGAGGTGCGGGAGGTGCCAGGCT
+CTGAGGGGAGGGGGCGGGGGTGGCTTGCTTTCCCATGGGCGATCCCAGATCACCGGCCCTTTTAGCGTCGGGGGAGCGTG
+TGTGTGGCCCTGTCCCCCACCCCTCAGGAACCTGAAGGGAGAGAGAGTGGGGGTGGTGCCGAGGGTGCAGAGGCCAGCGC
+GTTCTCCCGAGCCCACTTCGGTTCCAGCCTAGGTTCCGTCCAGGACCCGGCTTGCACGGGAGGTGCGAGCTC
+>ref|X06301.1| Felis catus c-sis proto-oncogene exon 5
+TCGATGGTTCTGTCCTCCAGGTGAGAAAAATCGAGATTGTGCGGAAGAGGCCAGTCTTTAAGAAGGCCACGGTGACCCTG
+GAGGACCACCTGGCGTGCAAGTGTGAGACGGTGGTGGCTGCACGACCCGTGACCCGAAGCCCGGGGAGCTCCCAAGAGCA
+GCGAGGTAAGCGCTGGTCCGGGGTC
+>ref|X06302.1| Felis catus c-sis proto-oncogene exon 6
+TCTTTCTCTCGAGCAGCCAGGACACCCCAGACTCGGGTGACCATTCGGACGGTGCGAGTCCGCCGGCCCCCCAAGGGGAA
+GCACCAGAAGTTCAAGCACACGCATGACAAGAAGGCACTGAAGGAGACCCTCGGAGCCTAGGGGCATCTGCAGGAGCGTG
+CGGGCAGGTGAGGCCAGGCGGGGAACC
+>ref|X06303.1| Felis catus c-sis proto-oncogene exon 7
+TCCCTCTGGTTGGCCTACAGGGTTATTTAATACGGTATTTGCTGTATCGCCCCCATGGGGTCCTTGGAGTGATAATATTG
+TTCCCCTCGTCCGTCTGTCTCGATGCCTGATTCGGACGGCCAATGGTGCTTCCCCCCCTCCCACGCGCCTGTCCACCCAC
+CAGCGGGTCCCCTCATTGGCCTCCAGCGCCTTGCCCGGGAGCTCGAGAAGGACACGAAGGACCTGAACTCCACTGCTGTC
+TTCCTCCGCTGACCCCGAGAACGTGGCATAGAAGTGTAAGAGAGACCCATGGGATCGCCGTTCGGGGACCGGAGGAGCTT
+CCCTTCCCCAGCTCCTGGCCCGGGTCACACCTGAGCGCCGTGGACTGGCCTGAAACCCTGCACGTGGCCCGCCCGGTCCC
+AGGACCCCTGGCCCGCTCTGAAGGGAGCACCCCCAGGCAGGCCAGGGTGCCTCGTCCTCCTGTGGCTGGGACCACGCGTT
+GGACCGTAGACTGGAGAGAAATCCTCCCACGGCGCCCAGGCCCAGTCACTTCTTTCTCCCCGGTCACCTCTGCTTATAGT
+GGCTTCCTTTCGTTTTCTATATATGAAATCTTCGAAGATGTGGACTCCTCTGGGTGGGCGTGGCCCGAGTACCCGGCAGC
+CAAGTGCCCCGTCAGATGGGTTAGAGATGAAGTTTGCTCTGGAGCCACCATGGATGGTGATCTGGGCGCTCACTGCCTCC
+TTCCACTCCCCTGCCTTCACCTCCTCTGTTTCATCTCTCTACCTCCACCCTGCGTCTTCCTCTTGTCCCGGCCTTCAGTC
+CGCTCCACCGAGGGACTCCTTGGACCCCGTGCTGAGACCGTAAATAACCCCACTCACTGCTCCATTAGGCCGAAGACCAG
+GGGTCAGGGCAGCAGGGGGCCTGCGCTTCGTATCCCAGCCCGGCCGAGACTGCCGTGTAGGTTCGTGCAGGGTGTGCACT
+GTGCAAGGCATGCGTGCAGGGGTCGTTGTTCATGCCGTAGAACATGGCCCGCTGGTGTATTTGTTAGGACAGTTTTCTGG
+CAGATGGAGCTAAAATGTCTTGAGCAAAGGGATCCTGTTCCTAATCGACATGAAGGTTCCATGTGGACTGGCTGTGTCCC
+GACCCAGCCAATGGCTTGGGGTAGTTGGACAGGAGAGTGAGCCCACGTTGGGTGGGGACGCCACGCGTTGTCCAGCTGGC
+CTCTATTTTCCTGAGTCCTCAGCTCAAGCAGTTCCCCTTCCAGGCGGGCGTGAAAAACCCAAGAGAGAATCTCCAAGGGA
+GGGGGCAGCCCTCGCTCTCCCCGGGCACGCTACCCCCCAGAGTAGATTCTTTTGAGATCCGCCCGTGGTGGCTCCTCCCA
+GGAAACCAGCTCACGGGCTGGGAGTGGGGGAGAAAAGGGAAAAGATCCCCAGGGGTCCCTGGGGTGGGGTCTGAGCTCCC
+ACCTCCCTCCCCTCCACCCCACTGCACTTTCCCCCTTACCCCCCCCCTCCAAAATCTGCTCTCTTCAGTTTGTAAAGTTG
+GTGATTATATTTTTGGGGGCTTTCCTTTTATTTTTTAAATGTAAATTTATTTATATTCCGTATTTAAAGTTGTAAAAAAA
+AAAAAATAACCACAAACAAAACCAAATGAATGAATCCACCGGC
+>ref|X68820.1| G.melas DNA for locus 199/200
+TGAAATTCTTCATCAGTTGCCATGGTGGGGATTTTTCCCTCTCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCCCCT
+TAACTGGTGAAACTGACAGTCTGCCTACATTAAC
+>ref|X68821.1| G.melas DNA for locus 415/416
+GTTCCTTTCCTTACATATGTAATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTTAATAGAGAC
+ATGTGGTTAGACTGCATTAATAGAAACAGAAATACGATGTCCAGGAAAAAGTTTGCATTTGTTCAATTCTCTTAGTTTGT
+TGGCACATTTAGATTATCTTATTTAATTCTGGAAGATACAATTCACAAGTAATATTGACAAACATTGAT
+>ref|X68822.1| G.melas DNA for locus 417/418
+GTGATATCATACAGTATTTGTCTTTCTCTGTCTGACTTATCTCACTTAGCATAATGCCCTCAAGGTCCATCCATGTTGTC
+TCAAATGGCAGGGTTTCCTTCTTTCTCATGACTGAATAATATTCCAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
+ATGATATGTGACAAACAGAT
+>ref|X68823.1| G.melas DNA for locus 464/465
+GGGGTTTCTCCTCTAAATTCATGCCCCCTCACCCAAACACACTATGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTGTGTGTGTGTGCTACTCCTCTGTAAGTCATGCCTTATCCTAACTTTCTCTTATTGGCAGATCA
+>ref|Z18641.1| G.melas gene for large subunit rRNA
U13109.1 Globicephala melas mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCCTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACTCAAAAAGCATA
+AAACAATACCACCAAGGGATAACAAAGCTTTATATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCTACTAGCCAAAGTACAGTATCACATATTGATCCAAAATTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18640.1| G.melas gene for small subunit rRNA
+TCGTAAACTTAAATAGTCCTAGAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACATTGCACGTAAAAACGTTAGGTCAAGG
+TGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTACAATAAGAACACCCCTAAACTTAACGAAAGTTTTTATGAA
+ATCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|V00471.1| Halichoerus grypus myoglobin gene fragment encoding first exon (and joined CDS)
+CAGACAGTAGCCCAACCTCCTCCCTGCTCTTGCCACATACACAAACACCCCCACGCCCCTGTGGCCTGAGTTGTCCTACC
+TCCCCCCAAATGGCACCTGCCCCAAAATAGCTTCCATGTGAGAGCTACAGAAAGGAAAAGATTAGACCCCGCATGAAAAG
+GAGGGAGGAGGAGGAGGAGGAGAGAGAGTGAGCAAGCTGTCAAGTGATCTGTGTCAAGCTTCTGGGAAAGTATAAAATCC
+CTCTGGGGCCAGGCGATCTCAAACCCCAGCTGTCAGAGCCAGGACACCGAGTCAGCCGGGACTTGCTCTTCTTGTCTTCC
+TCAGACTGCACCATGGGGCTCAGCGACGGGGAATGGCACTTGGTGCTGAACGTCTGGGGGAAGGTAGAGACTGACCTCGC
+GGGCCATGGGCAGGAGGTCCTCATCAGGTAAAAGGAAGAGACCCCATTGCCTCTGTCACCCACTCCCCAAAGATCAAGGG
+TGTGTGCCTGTAAGGTGGAACGTTTGCCTGGGGTTGACCAGTTGGCTGCATTGGTTGAGTTTATTAAAACCCCCGCTTGG
+TTCTCCTTTGCTTGTGTCAGGGACTTGAGTCCGAAAGGAAGAG
+>ref|V00472.1| Halichoerus grypus myoglobin gene fragment encoding second exon
+AACGGCGTGTTCCTGTGTCTGACTCCCACCCTCCCTGTGCCCGCAGGCTCTTTAAGAGCCACCCTGAGACCTTGGAGAAG
+TTTGACAAGTTCAAGCACCTGAAGTCAGAGGACGACATGAGGCGTTCTGAGGACCTGAGGAAGCACGGCAACACGGTGCT
+CACGGCCCTGGGGGGCATCCTCAAGAAGAAGGGACATCACGAGGCTGAGCTGAAGCCCCTGGCCCAGTCACATGCCACCA
+AGCACAAGATCCCCATCAAGTACCTGGAGGTAGGAGGCAGGGCAGGGGCGGGTGGGGGGTGGAAGGACAGGCCTCGGAGG
+GATGCGATTTGGGTTCGAGTCCCAGCTTGGCCCACGATGCTCCTCCTTGTGCCCCAGGGCCCTCATCTGTAAAATGGCTA
+TTGCCCACTTTGCCTTCCTCATGGGGTCACTGAGAGTAAACCCACTTCCTCCCCCAAATCAGTCTGTCATCTAGGGGAAG
+AAGGGAAGAGCAGAGATT
+>ref|V00473.1| Halichoerus grypus myoglobin gene fragment encoding third exon
+GGAGCATTTCCCTTCCTTTCTGCTGCCAGCATGGGGGCAGTGTCCTGGGCTCTTGCACCGAGGTGGGCCTGGTTCCCCGT
+CGGCACCTGTCTCCCAGGGTGGTAGGGAGAGAAGGAATTAATCCACAGAGACCCCTCGATAGCACGCTTGGTGTGTAATA
+AGCCCTCGATAAATGGCCGTGGAGTAAAGAGAAGGTGGGACTCAGTCTGATTCCCATCTGGCTCCTGGCGTGTGCGCCCC
+TGTGACCAGCACCCCCTTTCGTCTCCCCCTTGCAGTTCATCTCAGAAGCCATCATCCATGTCCTGCACAGCAAGCATCCC
+GCGGAATTCGGCGCCGACGCCCAGGCTGCCATGAAAAAGGCCCTGGAGCTGTTCCGGAATGACATCGCTGCCAAATACAA
+GGAGCTGGGGTTCCATGGCTAAGCACCTGGGCGCCCCCACTCCCACCCCCACCCACTCGGGCCCCGGGGCCAAGGGTCGG
+GTGGGCCTAGATCTCCTGTAGCCATGTAGAGTTTGCTTCTGAGTGTCTGCTTTGTTTGAGAGGTGGGTGGGAGAGGCTGA
+GGGGCTGGGCTAGGCTCTTCAGGGTGGCTTCGCTGCCTGGAGACTGGGGTCCTCGTGGAGGGTCATCACCCCGGGAACCA
+GGAGACATGTGACCCTTTGCTCACTGTGGCCCCGCAGTGTTAATTCGCCTCTCTCTTAAACTCCAACCCAATTCCTCCAA
+CCTCCAAACTCAACCACACCTTCACCCTCACCTCTAATCACAAATCCAAGCCATAAACCAAGGCCTGGCCATAAAGATGC
+TCTCCCATCACCCCCCGCCCCAAAGTCTGTCTGCAGTGAGAAAGAGGTGTGGGCGGAGAGGGACAGCCACACGCATCCCG
+AGAGAGGCGACGGGGGTCTGGAACATAAGTGTGCCTTCTCAGCGAATGGAGTGACTCACCTGGTTTTAATAAAAGACCTT
+GCAGCATCACAGTCCGTGCCTGGTGATCTTCCTTTCCCAGAGCAAGTGAAGGGGCCCCCAGGGAAGAAATGGCTGGGATT
+GTGTGTGCAGACAGCCCTGGGGGGCGAGGCAGAGGGAGAGGAGGAGAGGAGGGAAACGGGGCAGGAGGGAGAGAGGGACG
+GGAAGCTGCCTTCCTTAGATCACCCCTCAGTGGCGGGGACAGTGCTGGGCACGGGGAAGGAGGGGGG
+>ref|Z18643.1| K.breviceps gene for large subunit rRNA
+AACCAGTATTAGAGGCACTGCCTGCCCAGTGACTAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTCCCCGTGCAGAGGCGGGGATAACAAAACAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAAAAAGCCA
+CAATCTAAACCACCAAGGGATAAAAAAGCTTCATATGGGCTGACAATTTCGGTTGGGGCGACCTCGGAGTATAAAAACCC
+CTCCGAGTGATTAAAGCCTAGGCCTACTAGCCAAAGCATAATATCACTTATTGATCCAAAATATTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18642.1| K.breviceps gene for small subunit rRNA
+CCGTAAACCTAAATAGACATAGAACAAGATTATTCGCCAGAGTACTACTAGCAACAGCCTGAAACTCAAAGGACTTGGCG
+GTGCTTCATACCCCTCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTCCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAATAAAAGTAAGCATAACTACCCCACGTAAAAACGTTAGGTCAAGG
+TGTAACTCATGGGGTGGGAAGAAATGGGCTACATTTTCTACATTAAGAACACCCTTCATACTCACACGAAAGTTTTCATG
+AAACCTGAAAGCCAAAGGAGGATTTAGTAGTAAATTAAGAATAGAGTGCTTAATTGAATAAGGCCA
+>ref|Z18647.1| L.albirostris gene for large subunit rRNA
+ACCAGTTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCAC
+TTGTTCTCTAAATAAGGACTTGTATGAACGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCT
+CCCCGTGAAGAGGCGGGGATAACATAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAA
+TAATACCACCAAGGGATAACAAAACTTTACATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAACCCTCC
+GAGTGATTAAAACTTAGGCCCACCAGCCAAAGTATAATATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTAC
+CCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATC
+CTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18646.1| L.albirostris gene for small subunit rRNA
U13090.1 Lagenorhynchus albirostris mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCTTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATAGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTATACGAAAGTTTTTAT
+GAAACCTAGAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAAAAAGGCC
+>ref|Z18649.1| L.obscurus gene for large subunit rRNA
U13114.1 Lagenorhynchus obscurus mitochondrion 16S rRNA gene, partial sequence
+GGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCACTTGTTCTCTA
+AATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCTCCCCGTGAAG
+AGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAATAATACCACC
+AAGGGATAACAAAGCTTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCCTCCGAGTGATTAA
+AACTTAGGCCTACCAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTACCCTAGGGATA
+ACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCTAATGGTGC
+AGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18648.1| L.obscurus gene for small subunit rRNA
U13091.1 Lagenorhynchus obscurus mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTATTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|Z18665.1| L.peronii gene for large subunit rRNA
U13115.1 Lissodelphis peronii mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATAGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA
+AAATAATACCACCAAGGGATAACAAAGCTTTATATGAATTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAATCC
+TCCGAGTGATTAAAACTTAGGCCTACCAGCCAAGGTGTAGTATCACTTATTGATCCAAAACTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18664.1| L.peronii gene for small subunit rRNA
U13092.1 Lissodelphis peronii mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTATAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAATTTACACGAAAGTTTTTAT
+GAAACCTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|X54714.1| M.eugenii mRNA for alpha-casein
+AACCTCCCTTTGGCTCAAGGTTTCAGCCACCATGAAGCTGCTCATCTTCTCCTGCCTTGTGACTCTTGCTCTGGCTAGGC
+CAGATGCCCTCCGCTTATCTATTGATAGGCATTTTAAACATCGAGAACTGGAAAACCGTTTGAATGAGGATCCCATTCCA
+GTAAGTGAGGCTTCATCAAGTGAGGAATCTGTCCACCAGCTGAACAGAGACAGGCGTCCCCTGGAAAAATATGAGCTTGA
+CAAATACAGAGAGGATTTGAAGACTTCATCAAGTGAGGAATTTGTCACTCCATCTACCAATGAACGTGTCCGCAGACAGG
+TTGAATACAATTTCAATGAGGAGGATTCTTCTGCCTCAAGGGAGAGAAAGATTGAAGATTTCAGTGAACATGACCGGCAG
+TATCTGAGAAGACGGGTAGAAGAGAGAGCTCTCAATTTACGCTATCTGGAACCTCTCTATTATGCTACTGAGCCAGAATA
+CTACTACTACTACGCATATGTTCCTGTTTCCAGCCACGATATCCCCTATCAACAGAAGCCTCTGTCTCTTCTACCCGCAA
+AGTCCCACTACCTTATATCAACAGGGCTACTGAACGAGCCGTTACCTATTCTGAGAGAGAGACTAGGAAGAGGCTTCCAG
+TCCCCCTCTCTCCTGATCCTTGTTCTGACTGAAAATTCCAACCTCTTTATGGGATCTGTCTTCTATTGGTGTCTACAAAT
+AGCACATCCTATGCAGGAGATTTGATGCTCATTATTGAATGAAGAAAAAACAGAACGAAAGCAAAACAAAGCTCTGGAGA
+GTGGAATCTTTCTTTGATGTACCCACATGGCGTTATTCCTCATAATCAAAATTTGATTTAGAACTGCTCTTTCCTATATC
+CCTCTTTCAGTCCTGACAAGCCAGGTGTAGGGCATTCTAGTATGGACACATTATTTATAGGTACGGAAGCTTGTGCTGTG
+TTTCTTTAAAGGAAATGTTTAAGAAAGAGTCCTTGAATTATTTAACTTCTTAGTACTTCTTCTAGCTACTGTGTAATAAA
+ATTTTCCTTTCTCCTTGCAAAAAAAAAA
+>ref|X54715.1| M.eugenii mRNA for beta-casein
+GCTTCTCCTGATTCTTCTCTCCTCTTGAGGAAAGAAGGCTTCAGCAACCATGAAGCTCCTTATCCTCACCTGCCTTGTGG
+CCCTTGGCTTTGCCAGGCCTATGGTAGAAAAGATTTCAGAAAGTGAGGAATATGTCAATGAAGTCCCTGAGAAGCGCCTC
+AAAAGGAGGTTTCCAGTAAAGAATGAACATCAGGTTGAAATTAACCATCATCTTCGACCTGAATCTGAAATGATGAGCCT
+TTATTATCAGCCTTTTTACTGGTCTGAAGAAATGCGTAACCTCAAGATGACCAGCCTTCCAAAAGACAGAAGAATGGCTG
+TCCTTAAATCTACAGTTTCAGATGAGGTGTTTCCTTCTCTTCAGCATAAATCCCTGTCTCTTCCTAAATCAAAAGTCCAG
+CCTCTCTCTCGCCAACAGATCCTGACTTTCCATACCCTCCAAATGGTGCCTCTGTCCCACAAACTGTTGACCACTCCTAA
+GCGGGAGATGCTGCCCATTTATGAGAGAGAGAGACTACCTGCTCACAAGAGAGAGAGTCTGCTTGCTCACGAGAGAGAGA
+GTCTGCTTGCTCACGAAAGAGATATTCTTGTTCCTCAAAGAGAGATGTCATTTGTTCCTGAGAGAGAGTTTCTATTTGCT
+TCTGAGAGAGTAGTTCTACCCGAACAAGAGAAAGAGATTCTACACAATGATGAGAGAGAAGTTCTAGCTGTTCACAAGAA
+AGAGATTCTGCCTCCTTTTGAGAAAGAGAAGGTTCTGCCTCTTCTCCAGCACAGAGTTGTGCCTCTTCCCCAGAGAGAGA
+TTGTACCTCCTTTTCAGAGAGAGACACTATTGCCCGAAGAGATTTTGCCTGTTAATCAATGGGAACTCATGCCTGAAGTG
+GTACCTTTTGATCCCTATCCATTCCTTCAACCAGTGGCCCCCTTCTACTATTCCACGGAGCTGAATGAGAAAAACTAACA
+GGATCACTCAAATGACTATATCCTCCTGGCATTGATTGACTGTGGCTAGAATCTATTGTCATATCTCACTCATTTTTGGT
+GTTGGAAGTCAGTCCTGTCCTCCTTGCATCTTCTGGCATACACCATTTTAATTGGAATTTTTGAAGGATTCACCATATAC
+CAGTTCCCAGATTCAGAAGGGCCATTTTAAGTGACCCCTGGGTGAATTAAGCAAGTTTGCCAAGTTTCTTTCATAGTCAT
+TTTGTAAGGACAGTTTCATGAGCTGTATTTCTTGTCAATGCCAGGATGCCTAACAGTTCTGTATGTGGTCATCTTCTCTT
+TTTCCAGCTCCTGCAATAAATTATCCCTGTGGGCACACTGCAAAAAAAAAAAA
+>ref|X15213.1| Tammar wallaby (M.eugenii) late lactation protein (LLP) mRNA, complete cds
+AGCTTCATTGGGTGAGTGACTAAGGAGGAGAAGCTCCTATAAACCCTTTGTCAAGATGAGGGTCCTGTTCCTCACCATTT
+CACTAAGCCTGTTCTCCATTATCCATGCTGATGACTTTGCATTTTCTGAATTTAAACCATCGGAGGGCACATACTATGTA
+CAGGTTATCGCAGTAGACAAGGAATTTCCTGAGGACGAGATACCTAGGGACATTTCACCTTTGACCATTACCTACCTTAA
+CAATGGCAAAATGGAGGCCAAATTTACCGTGAAGAAGGACAACAATTGTGAAGAAATTAATTTGACGTTGGAAAAAATAG
+ATGAACCCAGGAAAATTACCACGACCAGGCACCTACATCACATCTGTGACACAGTAAGGACTTCTGAGGAGAAATATTGG
+ATTCTCTCATGTGTAAGAGAGTTTCAAGGCACTCAAATCAGAGAGGCAGAACTTGTGGGTCCTAATACAGATGAGAACCC
+CAAAGCCCTGGAAGATTTTTACAGGTTTATCAACAGAGAAAGATTTGTGGAAAGAAGAATCATCACTCCCAGACAAACTG
+AGGCCTGCACCTCAGAAAATGCTTAAGGAGAAGATGTTTCCTTTCAATATACAGAATCAATACAGTGAAGGAAATCTGAG
+CCATCTCTTCAGATGACAAGCATTCCTTGTTCCTGGGTCCAGCATAACCTCCTCCCTCATTACCCCAGTACCATTATCCA
+ATTCTAACATGCTACATAAATGTATGAAGCAATC
+>ref|Z18651.1| M.europaeus gene for large subunit rRNA
U13116.1 Mesoplodon europaeus mitochondrion 16S rRNA gene, partial sequence
+AATCAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTACTCTGACCGTGCAAAGGTAGCATAAT
+CATTTGTTCTTTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAACCAACCCAAAAAATATA
+AATTTAAACCACCAAGGAATAACAAAACTTTATATGGGTTGACAATTTTGGTTGGGGTGACCTCGGAGCACAAAAAAACC
+TCCGAGTGATTAAAACCTAGGCCTACCAGCCAAAGTGTTAAATCACTTATTGATCCAATTTTTTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTTTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGTAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18650.1| M.europaeus gene for small subunit rRNA
U13093.1 Mesoplodon europaeus mitochondrion 12S rRNA gene, partial sequence
+GTAAACCTAAATAGTCTCAAAACAAGACTATTCGCCAGAGTACTACTAGCAATAGCCTAAAACTCAAGGGACTTGGCGGT
+GCTTCATATCCCTCTAGAGGAGCCTGTTCTATAATCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTCCAGTCTA
+TATACCGCCATCTTCAGCAAACCCCAAAAGGGAACGAGAGTAAGCATAACTATCTTGCATAAAAACGTTAGGTCAAGGTG
+TAACCTATGGGGTGGGAAGAAATGGGCTACATTTTCTATATTAAGAACATCCCTACGTCCATACGAAGGTTTTTATGAAA
+TCTAGAAACTAAAGGAGGATTTAGCAGTAAACTAAGAATAGAGTGCTTAGTTGAATAAGGCC
+>ref|X69472.1| O.aries gene for insulin-like growth factor-I, exons W, 1 and 2
+CAACCCCTTTCAAAACCAATCAGGTTTTCCTTTGAGGGCACCCACCTCTGCAACAGCTTCCTGGCCATGGCATAAAGACC
+TAGACAAGAGTTTCAAGCAAACCTTTGTTTTTAGTCGAAGCATCAGGATCACTGTGTCCCCTGAGAATAAGAGGGAGAAA
+TACAAGGTCCAGGCTACTCCCACCATTCCAGAAAACCATGCCCCAATAGACCCCAGGGAAAGTGGGATGTCTAACCTGGG
+CTTTTGCAATCTTATTTCATAATCCACTTTCTTATCGCCTCCTTCACAAAACTGATGAGAAATTGGTACAAACTCTATCG
+ACAAAAGATCACAACTTGATCCTCAATGGCAAAGGCAAGTATACATTATAAATAGCAAAACAGCTGGCTTGGACCATGTT
+GCTGGCCACTCATCCAGCTGAGAGATTTGAATGACATCATAACCCTTGAGAGGGTATTGCTAGCCAGCTGGTGTTATTTA
+GAATACACAAAAAGGGGGGAAAGAAAATGCACTCACATGCACACACACACAAATACACACACACACACACAGGTTCAAGT
+TATGCAGAAAAATATGAACAGTGGGAAAATCATTTGCCTCTCAGATGCCCTTCCCCTGGTGTGGGGTGGGGGTCGGGGTG
+GGGGCCAAGCAGCAGAATAGAGGAAGGAAGAAAGAGATTCGATTTTATTTTTTCAGTTGGCTTTACAGCTCAGCAAAATC
+TTTGCCCTGTCGTGGGCAAAAAGCATGAGACAGTGTCCTGAGGGGAGCCAATTACAAAGCTGCCTGCCCCTTTCCAGGTT
+CTAGGAAATGAGATCATTCCCCTCACTTGGCAACCAGGACGAGGGGTCATCCCAGCGCCGTCTTCCAGTCTAGTTTACCC
+CAGTCGTTTGAGGGTTAAAATCATAGAGTATGCTTGAGATGGTCTTTTTTTCATTTCTTGTTTTTTAAATTTTGTGTTGG
+CTCTGGAATATAAAATTGCTCGCCCATCCTCCACGAATATTCCTTTCATACGGGTAAGGTGTATTAGCAGATGTGTGTGT
+CTTCATGCCCGGTAGAAAGTTAATCAGAGGACAGCATCAGGATTTTAATGTCTGCTCCTCTTGTCACTAACACACATTCT
+TTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTTTAAAATGCAAAGGTATGATGTTATTTGTCACCATGCCCAAAAAAGT
+CCTTACTCGATAACTTTGCCAGAAGAGGGAGAGAGAGAGAAGGCAAGCGTTCCCCCAGCTGTTTCCTGTCTACAGTGTCT
+GTGTTTTGTAGATAAATGTGAGGATTTTCTCTAAATCCCTCTTCTGTTTGCTAAATCTCACTGTCACTGCTAAATTCAGA
+GCAGATAGAGCCTGCGCAATGGAATAAAGTCCTCAAAATTGAAATGTGACATTGCTCTCAACATCTCCCATCTCCCTGGA
+TTTCTTTTTGCCTCATTATTTCTGCTAACCAATTCATTTCCAGACTTTGCACTTCAGAAGCAATGGGAAAAATCAGCAGT
+CTTCCAACCCAATTATTTAAGTGCTGCTTTTGTGATTTCTTGAAGGTAAATATTTCTTACTCTTTGAAGTCATTGGGGAA
+TTTTCTTTAAATTGTGTACTGCTTGCTTCTGCTTAGAAATGTTCTTCACTTTAGAATTTTCATTGTTTCGGCACTGGGAG
+TTATTTATAAATTGCTGAATATGCAATTCTGTGGGATCTGAAAAAATAGCTCCGGGAGATAAATGCCTTTGCACAGATAT
+CTGTATGAGTAAAAACTATTGCAAGGTACTTATGCTAAATCCTCCACTTCTTCAGGGCTTGAGTGGTGTCATTATAGAAG
+ATTCCTTTAAATCCTGTCTATGGTTAAGGGCTATAGGGCATGGATATGAACTTTTGGATTTTTTTTGCAGGTGCAGATGT
+TTTATTTTTAAGACCATGTTCATGTGTATGTAGGGCTGTGTGGTGTGTGTGTGTGCGTGTGTGTAACTGGCCAGGACTTT
+TGATTACAAGACATGCCACATACAAAGAGTTACGTTTTAAATGATATTAAAGCTTTTAAATATGATCTTTGGAGCTAAGG
+TCCCGGAACTCTCTGCACTTATGCCCAGAGAGTCAAAGTTAGAGTGAAGTTTCATTTGCTCTTCTGAAAAAGAACTCCTT
+AAGAACTCCTGCTGACCTTGCATATTCGGATAATTTAAACAAATGCACACTGTATATGGAAAGCGGAAACTTTCTAGCAA
+CTGCTATTCCAAGTTTTTTCTTTTGAAGAGGACTCTCAGGGGCGAAGTTTGGACTTGGGGTCTTGTGTTGTAAAACACGG
+GTTTTGTATTTGGGATTGTAAAGTCTCTTTAGGTGAATTTGGCTAGCGCTGTCAATGCACTGACTTCGCCTTTCCAATAA
+CTGGCCCTAGTTCAAGTTTCCATTCTCAGCAAAATTATATCTTTCAAGACTTGTATTTTTCCAATTTGCAAGCATTTTTA
+AGCTGCTGTCACTGGCTCCCCGATGCAATTGCCTGTGGGCTCAATTCATGATCCGTCCCTACCGCTTAGTCCAACACTTA
+TTTGCCGGCTTTCCAGCACTCCACCACTAGGACGTTTCTTAGTCAAGTCAGTGGCTTAGGAGTTAAGAATACATCCTTGT
+CGGGCACCTGATCCTGCCGCCCTTGAGAAGCCAAGATGCACACTGCCTACCTTGCTTTTAAAAGAAATGAAGTCAGTATA
+CACATATGCTATGTGGTCTGACAGCTGGGGATTTTGTATCCCTACTTAGAGGATCCTAAAAGGGGCTGTGTAGTGTTATC
+TCTGCATTAATTACAAGTTTGGAAAACTCCAAATGAACTTTCCATGCTGTGTATGCTGAACTTTTCAGAAGTAGAGCTAG
+CTAGCCATAAGTTGTTGCTTTTTCCTGTACTTGAAGCAGGAAGTGGTTTCAGGGAGCTACGTGGTTCTTTCAAATGTAAT
+TCAATGAGTAAAGGTGTCTGCCAGGCAGAGCTCACAAGCTGATTGTACTGTGAGTCTCAAGATATTTCCAAGTGTTTGAG
+TCAGAGGAAAGAGGGCACAGGGGAGGACTGGAGCTTCGGTCCCTGTCCAGGACGGCTACAATAGGCACACGATGGAAATC
+AGTGGCTTGATTGGGAGGAAAAGATTGACTCAGATCCCAGCCGTGCAATTTGTTTATTGTCTGAATGGACAAAAGGCAGT
+TTACCCAGGCTCGTAGCATACCTGCCTGGGTGTCCAAATGTAACTAGATGCTTTCACAAACCCCACCCACAAAGCAGCAC
+ATGTTTTTAAGTCCTCAGTTTTCTATTCACATCAGTCTCATAATACCCACCCTGACCTGCTGTAAAAGATCTGGAACAAA
+CAAAAATGGTTACACCTACAGTGAGTATTTTCTTATGACTATTGCCCTCAAATTTTGCTGGGCATTTTTATTATAACCCA
+GACATCTGGAACCAATTGATATTCCATTTATTTAAGATAAAAAGAAAGGTTTTTAAAATTTTGGATTTGTGAATGATTTT
+TGAGAAAGAGTGCTCTGAAATTTTTTTTTCTCGTCTCTTTCTAGTTCTTCTTTCATTTCTTTCTTTCAGATCTCTCCTTT
+CTCTCTCTTCATTTCTTTTGTGTTTGGAAAAATAAAAGACCAAGGAAATGATGAACATATGGGGCCACTCATTTCAAACT
+TTTAACTCCTAAGCAAGTTCTTCATTGTTTTCTTTTGGGGGAACATAATGTGATAAATTCTCTGGTTCTCTGTGGGTGTG
+ATGGACTG
+>ref|X69473.1| O.aries gene for insulin-like growth factor-I, exon 3
+AAAGTCAGATAGCATGATGCCAAGACCTGCTCAGAGGTCACTCACACACCTTGTTGCACTCCTGAGGGGAGAGTTTTGAT
+TAATAACAGGAATGCAGAGATGGGGTAAAGGCACCCTTGCCTTGCCCCCACTCCCCTGGCAAGGACCCAGGAGGAAGATG
+ACCCTCCTTCTGCTCTTTCAGCAGGTGAAGATGCCAGTCACATCCTCCTCGCATCTCTTCTATCTGGCCCTGTGCTTGCT
+CGCCTTCAGCAGCTCTGCCACGGCGGGACCCGAGACCCTCTGCGGGGCTGAGTTGGTGGATGCTCTCCAGTTCGTGTGCG
+GAGACAGGGGCTTTTATTTCAGTAAGTAGCCTCCCTCTCGCTGCTCTGTGGATTTACAACTGCGGGGAGTGTGTGAAGAG
+CTGAATGACCGCCTGTGGCTGGCAGCCATCCTCAGCCTCCGAGATTCCTCACCCTAATGCGAGCCTAGTGTTTCAGCGGG
+GCCGTGGCACGTTTTGCAGATTTTGGATGGAGTTTTCCTCCTTAGCAGTTTGTCTTTTAACTACTCCCACTAGGCTTTCC
+CGCAACTGTTCTG
+>ref|X69474.1| O.aries gene for insulin-like growth factor-I, exon 4
+GTAGCAGTGAACACCGCCTATTATCCCACTCTAAAACTAGGCCTCTCTCTGATCTGCACAGACAAGCCCACGGGGTACGG
+CTCGAGCAGTCGGAGGGCGCCCCAGACAGGAATCGTGGATGAGTGCTGCTTCCGGAGCTGTGATCTGAGGAGGCTGGAGA
+TGTACTGTGCGCCTCTCAAGGCCGCCAAGTCGGCCCGCTCAGTCCGTGCCCAGCGCCACACCGACATGCCCAAGGCTCAG
+AAGGTAAGCCCACCAGGGGCGGCGGTGAGGGTCGGCCATCTTCGCGAGATCTGAGTTATGTGGTTGTAGCAACTTAGCAG
+CAGCAGCATCTGAATAGTAATTCATACCCTAATAGACTTCTGGCTCATAGGGTCAAAAGAGCTCCATTCTCCCCTGAGAG
+GTTCATCTTTTCTGTCACTCCACATTATAAATTCTCCCTTCCACCGCTGTGGCCCATCTGATCACCAGAAGATGGTGGAG
+AAGAGTGACTAAACCTGGGCTTTGGCATCAGACAAAACTGGGATCC
+>ref|X69475.1| O.aries gene for insulin-like growth factor-I, exon 6
+GTGAGACATAAGGTATGACGGTTGAGATCCAGTGTTAGAAATAGATAGGTTGGATACATAAACATTCATCAAATTAATGT
+CACTTTTTCTCCCTTATTTTTAGGAAGTACATTTGAAGAACACAAGCAGAGGGAGTGCAGGAAACAAGAACTACAGAATG
+TAGGAAGCCCTTCCTAAAGAGCGAAGAATGACATGCCACCGGCAGGATCCTTCGCTCTGCACGAGTTACCTGTTCAACAC
+CAGAAGACCTACCAAAAATAAGTTTGATAACATTTCAAAAGATGGGCATTTCCCCCAATGAAATAAGTAAACATTCCAAC
+ATTGTCTTTAGGAGTGATTGTTCAAAGCTTTGCACCTTGCAAAAATGACCCTGGAGTTGGTAGATTGCTGTTGATCCTTT
+ATCAATAATGTTCTATAGAGAAAATATATATATAGATCTTAGTCCCTGCCTCTCAAGAGCCACAAATGCATGGGTGTTGT
+ATAGATCCAGTTGCACTAAATTTATCTCTGAATCTTGGCTGCTAGTGACATTCATTCAGCAGGCTTGTCTAAGTGGTTTA
+TTAATTTTTTATTTGCACTTCTTTCTACGCAACACAGGCTGTTTGTTTTACAGTGTCTGATAATCTTGTTCCTCTATCCC
+GCTCCCTTCTCCATCCCCTTTATATTTGCTGAATTTGGCCTCCTAAACAGCAGCAGCAAGCAGTTAAGTAGCATACAGTT
+TTAACCCACAAGATTCATCTGTGGCATGTGTACAAATATAGTTGGATGCATTTATTTAGACACAAGCTTTATTTCTTCCA
+CATCTTGCTAAAAGATGCATGTAGTTACAACTTTGAGGCCAATCATTTTAGGTGTATGTTTTAAGCATAGAAAGTCTCAA
+ACTCTGAATGGTTCCTTCAAGAGATGAGTTAGTGTGTGACCTGATCAGTACTTCTCTCTTTTTATTTCTTCCATATAGAG
+CACTATGTAAATTTAGCATATCAATAATACAGGATATATCAAACAGTATGTAAAACTCTGTTTTTTAGTACAATGGTGCT
+ATTTTGTAGTTTGTTATATGAAAGAGTCTGGCCAAAACGGTAAAAGGTGAAAGCAAAACTAAAGAGGAAGCCTGGAGCCA
+AAGGTGACACAGAGGGGAAGGGTACTCAAAACTCAAACATTTGGGAAAGAAAAGCTCCCCAATTATGCCTTCCAAGAAAA
+ATAAGACACAAAGTCCACTGATAACAAATTTGATTGGCGAGTCCAGAGAGGAGTAGAAAAAGCAGAAGGCTAGGAATTTA
+ATAATCCTGGTTTCTTATTCTCACTGAAGAAACAAACATCTGACGACTCTGCCACGGACTCACCACTGTGTGACCTTGGG
+CAAGTCACTTCACCTCTCTGTGCCTCAGTTTC
+>ref|X02323.1| Muntjak satellite IA sequence
+TCCCAGTGGCAAAAGGAAAGGGAACCTGCGTCTGCCGCCTCACCTCGAGAGGTTTTCCTATGGCCCTTTCAAGCCAAGAA
+GAGACTCCCGAGGCGTCCCTCGCAAATAGACAGGAGTCCTTACGTCACTGAAGCACACCGTGTTTGGAAGGGCCATCCCC
+GCCGTAACTCGAGAATATACCCCAGGTTCCCGCCGCAACTCGAGAAAAACGATGAGACTCCCCCCTCGCCGCGAGTTGAG
+GCCCGATTTCACTGCACAGCATGCAGAGCAATTGCCTGCTCCCCATCAAACCCGAAAGGAGCCTTGATTTCCTTGATGGC
+ATCCTTAGATGGCATCCTTAGAAACCCCAGGTACACTGTCTCAAGTCTAGAGGTATCCTAAAGTCACTTCACCAACCAGA
+AACAGCTCCTGTATTCCGAATCATCTCGAGCTGAGAGCTGATTTCCTGGCTTCAAATCAAGAGGAATGCCAACTGTCCAC
+AAGCACCACAAGAGGAGGCTTCTCGCAGCTGTAGGTCTGGTTGAGGGAAGTTTGAATTTGCGGCCTCCAGTGGAATCGAC
+CCCGAGATGCCCTGACTCGAAATCAGGACGGAATTCCTGCAGTGACTTGAGTGCAAGCTGGATTTCATCTCACAAGATGA
+AGGGATGTCGGAAGCCCCTTGGGAGACACTAGATAATGCCCTAGCACAATGCCCTTTCTCGACAGGCGGCCTCCCATCCA
+TTGGACAGCTTGAGAGGAACACGGAGTTCAATGATTCCAAAGGACACGATGCCTGACTCCTCTGGAAAATGGACAGGAAT
+CCCAGGA
+>ref|Z18653.1| M.novaeangliae gene for large subunit rRNA
U13117.1 Megaptera novaeangliae mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGGCACTGCCTGCCCGGTGACTAGTCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAATTAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTCTCCGTGAAGAGGCGGAGATAACAAAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAATAAATCA
+CAACCTTAAACCACCAAGGGACAACAAAATTTTATGTGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAAAC
+CCTCCGAGTGATTAAAACCTAGGCCCACTAGCCAAAGTGTAATATCATTTATTGATCCAATCTTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTTCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18652.1| M.novaeangliae gene for small subunit rRNA
+CGTAAACCCTAATAGTCACAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCGG
+TGCTTCATACCCCTCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTCT
+ATATACCGCCATCTTCAGCAAACCCTAAAGGGAGCAAAAGTAAGCATAACCATCCTACATAAAAACGTTAGGTCAAGGTG
+TAACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTAAGCTAAGAACATCCCCTACCCACACGAAAGTTTTTATGAAAC
+TTAAAAACCAAAGGAGGATTTAGTAGTAAATCAAGAGCAGAGTGCTTGATTGAATAAGGCC
+>ref|Z18654.1| M.peruvianus gene for large subunit rRNA
U13118.1 Mesoplodon peruvianus mitochondrion 16S rRNA gene, partial sequence
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAAT
+CATTTGTTCTTTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCCGTGAAATTGA
+CTTCCCTGTGAAAAGGCAGGAATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACCCAAAAATTATA
+AATCTTAACCACCAAGGAATAACAAAATTTTATATGGGTTGATAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAAACC
+TCCGAGTGATTAAAACCTAGGCCTACCAGCCAAAGTATTATATCACTTATTGATCCAAAATTTTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGTAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|X56823.1| M.reevesi repetitive DNA sequence
+CTTCAGTGACTTCAGTGACTGAGTGCAAGCTGATTCATCTCACAAGATAAAGGGATGTCTGAAGCCCCTGGGGAGACACT
+AGAGAAAGCCCTAGCTCCCTGCCTTATCTAGAGAGGCGGCCTCCCATCAATTGGAGAGCTCGAGAGGGAACACGGAGTTC
+AATGATTCCAAAGGAGACGATGCCTGACTCCTCTGGAAAATGGACAGGAATCCCAGGATCCCAGTGGCAACAGGATAGGG
+ATAATGGGTCTGTCGCCTCACCTTTGAGAAGTTTTCCTATGGCCCTTTCAAGCCCCGAGGAGACTCCCGAGGGTCCCTCA
+CAACAAACAGGAGTCCTGACCTCGCTGAACACACCCCGTGTTTGAAGGGCCATCCCCTCGTTAACTCGAGAATATAACCA
+GTTCCGCCGCAACTCGAGAAAAACGTGAGTCTCCACCCTCGCCACGAGATAAGGCCCGATTCCCCTGCACAGCATGCAGA
+GCAATTGCGTGTTCCCAATCAAACCCGGAAAGAAGCCTTGATTTCCTGATGCTCACGAGAGCAGACCGTTCCAGACATGT
+GGATCCTAAAGTCACTTCATCAACCAGAAACAGCTTCGTGTATTTCAAAACTTCTCGAGCTGAGAGATGATTTCCTGGCT
+TCAAATCAAGAGGAATGACAACTGTCCACAAGCACCACAAGAGGAGGCTTCTCGCAGCTGTACGTCTGGTTGAGGGAGGT
+TGAATTTGCGGCCTCCAGTGGAATCGAACCCGAGATGCCCTGACTCGAAATCAGGCCGGAATT
+>ref|V00859.1| Integration site of Moloney sarcoma virus in mink cell DNA
+ATAAATCTATAGCTTTTCTAAAAATAAAATCATTTAAAAATTACTTGAATGAAAGGTAAACACGCCTCTTTCACACAGTC
+TGATGCAAAGTCTCATCAAGAATTGGGCAGTCCTGGGAAGTTTGGAACCCTGTAAATACGGACTCCACCGTGCAGACAAT
+GCCATGTAGAGAAGCGTGTTCCCAAGATCCCAGCTTCCCCACTCTGGGTCCTTCCCCTCATAGATATAAACGCTAGTGCT
+GACCTAGTGCTGTGATAAATATTTAGCTCATTAGTCGCCC
+>ref|Z19516.1| M.vison mRNA for surfactant protein SP-C
+GCCTGCAGCAAGATGGATGTGGGCAGCAAGGAGGTCTTGATTGAGAACCCGCCGGATTACTCGGCAGCCCCCCAGGGCCG
+TTTTGGCCTTCCCTGCTTCCCTTCAAGTCTCAAGCGCCTTCTCATCATAGTGGTGGTGATAGTCCTTGTGGTCGTGGTGA
+TTGTAGGGGCTCTGCTAATGGGTCTTCACATGAGCCAGAAACACACTGAGATGGTCCTAGAGATGAGCCTTGGGGGGCCG
+GAAGCCCAGCAGCGCCTGGCCCTGCAGGAGCGTGCGGGCACCACTGCCACCTTCTCCATTGGCTCCACCGGCATCGTAGT
+GTATGACTATCAGCGGCTCCTGATTGCCTATAAGCCAGCCCCGGGAACCTGTTGCTACATCATGAAGATGGCTCCGGAAA
+ACATCCCAAGTCTTGAGGCTCTCACTAGAAAGTTCCAGAACTTCCAGGTCAAGCCTGCAGTGTCTACTTCTAAGCTGGGC
+CAGGAAGAGGGCCACAATGCTGGCTCAGCATCCCCTGGGGACCTGGACTTCCTGGGCACCACAGTGAGCACCCTATGTGG
+TGAGGTGCCTCTCTACTACATCTAGGACTCCACAGGACCTGTGGAAGCCCCAAGTGAAGAGGAAAGAGCCATGCGCTAAG
+GCTCTTCTGCAGAGAGGCAGAAAGCTGCTCCTACCCACACCACAGACACTGGAGCTGGAGAAATGGGAGCTGTGGGGAGA
+GGTGGGAGCGGGCAGAGGAGATGCGGCTCCTAGGGCCAAGGGTTTCCTAGCACGAAAGAATAAAGCAGCCTGACTG
+>ref|NM_001009467.2| Ovis aries phosphogluconate dehydrogenase (PGD), mRNA
X60195.1 Ovine 6-pgdh mRNA for 6-phosphogluconate dehydrogenase
+CTCGCCGTGCGCTCCCTGTGCTTCGGGTCTGCTTGCTCCAGCCTGCTTTGCCGCCGCCGCCATCGCCGCCATGGCCCAAG
+CTGACATTGCCCTGATTGGACTGGCTGTCATGGGCCAGAACTTAATTTTAAACATGAATGACCATGGCTTTGTGGTCTGT
+GCTTTTAATAGGACAGTCTCCAAAGTTGATGACTTCTTGGCTAATGAGGCGAAGGGCACCAAGGTGCTTGGCGCTCACTC
+CTTGGAGGAAATGGTGTCCAAGCTGAAGAAGCCACGGCGGATCATCCTGCTTGTGAAGGCCGGTCAGGCCGTCGATAATT
+TCATTGAGAAACTGGTACCTTTGCTAGACATTGGTGATATCATCATTGATGGAGGAAATTCTGAATACAGGGATACCATG
+AGACGGTGCCGAGACCTCAAGGATAAGGGCATCTTATTCGTGGGGAGCGGAGTTAGTGGTGGAGAGGATGGGGCCCGCTA
+TGGCCCGTCGCTTATGCCGGGAGGGAACAAGGAGGCCTGGCCCCACATCAAGGCCATCTTTCAAGGCATCGCCGCCAAAG
+TGGGGACAGGAGAACCCTGCTGTGACTGGGTGGGGGACGACGGTGCAGGACACTTTGTGAAGATGGTGCACAACGGCATA
+GAGTACGGGGACATGCAGCTCATCTGTGAGGCCTACCACCTGATGAAGGACGTCCTGGGCCTGGGGCACAAGGAGATGGC
+CAAGGCCTTTGAGGAATGGAATAAAACAGAGCTGGACTCATTCCTGATTGAAATCACAGCCAGTATTCTCAAGTTCCAAG
+ATGCTGATGGCAAACACCTGCTGCCAAAGATCCGGGACAGCGCAGGGCAGAAGGGCACCGGGAAGTGGACCGCCATCTCT
+GCCCTGGAGTACGGCGTGCCCGTCACCCTCATCGGAGAAGCTGTCTTCGCGAGATGCTTATCATCTCTGAAGGACGAGAG
+GATCCAAGCCAGCAAAAAGCTGAAGGGGCCTCAAAATATCCCATTTGAAGGAGATAAGAAATCATTCCTGGAGGACATTC
+GAAAGGCCCTCTATGCTTCCAAGATCATCTCTTACGCTCAGGGCTTCATGCTGTTAAGACAGGCAGCAACTGAATTTGGC
+TGGACCCTCAACTATGGCGGCATCGCCCTGATGTGGAGGGGCGGCTGCATCATCAGGAGTGTATTCCTGGGAAAGATAAA
+AGATGCATTTGATCGAAACCCAGGACTTCAGAATCTATTGCTGGATGACTTTTTTAAGTCAGCTGTGGAAAACTGCCAGG
+ACTCCTGGCGGCGGGCCATCAGTACTGGTGTCCAGGCAGGCATTCCCATGCCCTGCTTTACCACTGCTCTCTCTTTCTAC
+GATGGGTACAGACACGCGATGCTGCCGGCCAACCTCATCCAGGCTCAGCGCGACTACTTTGGGGCGCACACCTACGAACT
+CTTGGCCAAGCCGGGCCAGTTCATCCACACCAACTGGACGGGCCACGGGGGCAGCGTGTCCTCGTCGTCGTACAACGCCT
+GATGGGCTTCTGTTCCAAGCCACAACTCTACAGACCAGGACATTCCATCTGCCACACAGCACTGCTTGCATGGCCCTCTG
+CCCTACTTTCTGCTCAGATCTTTTAAAATACCATGTGTCGTAAGAGACTCCTTTGAAGAGTTGGCCCGAGTCTCTGAGTG
+TCAAGTAGTTCTGAGAGAACCAGCACGCCCTCTGCCCTCGCCTCTTGGGACGGAGCAGGAGTGGAGTGTGTGCGAGGCAG
+CTGCCCGAGGCAGCGTTCCCTGCAGGTCCCCTGTGGGTGAGGGAGGCAGCGGCTCTCATCAAGGTGGGGAAGGGTTTTGT
+AGAATTTGATCAAACTGGAACCTTTGTATCACACACCTGAACTCCCTTTCCTTTTACTTAATAAAAGAAAAAAAACATAA
+AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_001009796.1| Ovis aries ATPase Na+/K+ transporting subunit beta 1 (ATP1B1), mRNA
X03883.1 Sheep kidney mRNA for (Na+/K+) ATPase subunit beta
+GCCCACAAGGAGCACAGTGAGGCAGTCAGGAGCCGGGGCGGCCGACTGGACTGGCCTGGAAGGAGAGGGACGGGCCGGAA
+CTGCAACCGCAGCGGCGGGGAGCGCGGAGCCGGCGGCAGAGGTCACAGGAGGTGGGGGCCGGACACGCGTCCCTGGTGGC
+TGCGGGAGCGGCATCTGCGGGCCCCGAACTGCCCCCCGCCCAAGGGCAAGAGGAGCGCGTGGCGGACCAAAGAGAGCCCG
+CGAGCGGCCGCGCGCCCACCAATAGGTGCGGGGCTCGGAGCCGCCCAGCGTGCGCGGTCCCTCCCTCCTCCCTCCGCCCC
+CGCCCCCGCCGCCGCCGCCTACCCCTCCTGCCGCTCCTGACTCTGCTTCTCCGCCGCGCGTCTGGCACTCAGAGAGCCGC
+AGCGCCAGCGGCGGGTGCAGCCAGCGGAGAGCCAGGCCGGGAACGCCGAGCGGCAGCCCGGGAGGACGCGAGGGCGCACG
+CCGCAGTCACCCATCTTCAGTCCCTGCGGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAG
+CTGGAAGAAATTTATCTGGAACTCGGAGAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGCTGGTTTAAGATCCTTCTAT
+TCTACGTAATTTTTTATGGCTGCCTGGCGGGCATCTTCATCGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTT
+AAGCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGATCCAAAAGACTGAAATTGCCTTTCG
+TCCTAACGATCCCAAGAGCTATATGACATATGTGGATAACATAGATAATTTCCTGAAGAAGTACAGAGATTCGGCCCAGA
+AGGATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGATCGAGGAGAATTTAACAACGAACAAGGA
+GAGCGAAAAGTCTGCAGGTTCAAGCTTGAATGGCTGGGAAATTGCTCTGGAATAAATGATGAAACTTACGGCTACAAAGA
+GGGCAAACCATGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGA
+CTTACCCAGTGATGAAGTACAATCCGTATGTCCTGCCTGTTCAGTGCACTGGCAAGCGAGACGAAGATAAGGAAAAAGTC
+GGAAGCATAGAGTACTTTGGACTGGGCGGCTACCCTGGTTTCCCTCTGCAGTATTATCCCTACTATGGCAAGCTCCTGCA
+GCCCAAGTACCTGCAGCCTCTCCTGGCCGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGG
+CGTATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGA
+TCACAAGCACACATCTTTCTCACTAGCCATTTAAAAAAGGTTTAAAAAAAAAAGATACAAAAACCTACTAGTCTTGAACA
+AACTGTCATACGTATGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAAT
+TTAAAGTGTAGCAATAGCAACAAAATATTTATTCTACTGTAAATGACAAAAGAAAAAATAAAAATTGAGCCTTGGGACGT
+GCCCATTTTTACTGTAAATTATGATTCCATAACTGACTTGTAGTAAGCAGTGTTTCTGACCCCTAAGTATCGCTGCCTTG
+TGTATTTTATTTAGTGTACAGTACTCTAGGTGCACACTCTGGTCATTTTTCAAGCCATGTTTTATTGTATCCGTTTTCTA
+CTTTATGTGAGCAAGGTTTGCTGTCCAAGGTGTAAATATTCAATGGGAATAAAACTGGCATGGTACTTTTTTTTTTTTCC
+TCTTTGGGTTTGGCTCTTTCAAATATAACGGCCCATCGATGAGCATTTTTAACACACTCCATAGTCTTTTCCTGTGGTGT
+TAGGTCTTCTTTCTTCTTTTTTTCTCCTGGGTCTGGGTGGGGGTGGGGTGGGCTGTCATGGGGGAACTGCCCTTTCAATT
+TTAAGTGACACTACGGAAACACACACAAAGGTGATGGGTTGTGTTGTGCTTTGTACTGAATGCTGTCTCGACTTCTCTTT
+CCCCGTCCTCCGGTCCGTTCTGAAACTGTGGGTAAGATCTGGAGCGCCCATCACTTTGGCTAGTGATAGGGCCGATTAAT
+TTGCTTTGTACATTTTCTTTCACTTTCCTTTTTTCCTTTCTCTGGAGGCATCACATGCTGGTGCTGTGTCTTTATGAATG
+TTTTAACCATTTTCATGGTGGAAGAATTTTATATTTATGCAGTTGTACAATTTTATTTTTTTCTGCAAGAAAAAGTGTAA
+TGTATGAAATAAACCAAAGTCACTTGTTTGAAAATAAATCTTTATTTTGGACTTTATAAAAAGCAATGCAGTACCCCATA
+GACTGATGTTGAATGTTGTCTACAGTGCAAAATCCATGTTCTAACATATGTCATAATTGCCAGGAGTACAGTGCTCTTGT
+TGATTTTGT
+>ref|NM_001009396.1| Ovis aries ATP synthase membrane subunit c locus 1 (ATP5MC1), mRNA
X69904.1 O.aries mRNA for mitochondrial ATP synthase c subunit (P1 form)
+CTGTGGTCTGAGCAGGGGCAGCCGGGGCAGTGGGAGTACAGACTGAAAAAAAAAATGCAGACCACCGGGGCACTACTCAT
+TTCTCCTGCTCTGATCCGTTCTTGTACCAGGGGTCTGATTAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAGAGATCC
+CATCTGTACAGCCTTCCTACAGCAGTGGCCCACTGCAGGTGGCTCGGCGGGAATTCCAGACCAGTGTTGTCTCCCGGGAC
+ATTGACACAGCGGCCAAGTTTATTGGCGCTGGGGCTGCCACAGTTGGTGTGGCAGGTTCAGGGGCTGGTATTGGAACAGT
+GTTTGGCAGCTTGATCATTGGCTATGCCAGGAACCCGTCTCTGAAGCAGCAGCTCTTCTCCTATGCCATTCTGGGCTTTG
+CCCTGTCTGAGGCTATGGGGCTCTTCTGTTTGATGGTCGCCTTCCTCATCCTCTTCGCCATGTGAGGCTCCGTGGAAGTC
+ACCTCCCCACCCCTGCTGCTTCGACTCCAGGCCATGCCCGGTGCTGGAGTGTGCTAACCTTTACCATTAAACACAATGTT
+TCTCTAAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_001009468.1| Ovis aries ATP synthase membrane subunit c locus 2 (ATP5MC2), mRNA
X69905.1 O.aries mRNA for mitochondrial ATP synthase c subunit (P2 form)
+CCCCTGAAAATGTACACTTGCGCCAAGTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTACACTATTGAGCCGATC
+ACTGTCTGCAGTGGTGGTAAGACGACCGGAGACACTGACAGATGAGAGCCACAGCAGCTTGGCAGTAGTCCCCCGTCCCC
+TGACCACCTCACTGACTCCTAGCCGCAGTTTCCAAACCAGTGCCATTTCAAGGGACATTGACACAGCAGCCAAGTTCATT
+GGAGCTGGGGCTGCCACAGTAGGGGTGGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGAGTCTCATCATTGGTTA
+TGCCAGGAACCCTTCTCTGAAGCAGCAGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCGGAGGCCATGGGGCTCT
+TTTGCCTGATGGTGGCCTTTCTCATCCTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATAGTTCTTCTCCCGTGTC
+TCGTCTGCCCTGTATGTTTCTTTTTCTGTACCTCCCCAGGCAACCTGGGGAAGGTGGTTGGCTCAGGGCCTGACAGAAGG
+AAGACAAATAAATACTGTATTAATA
+>ref|X69906.1| O.aries pseudogene for mitochondrial ATP synthase c subunit (P2 form)
+GGAGATCTTCTGCCCATTTCCAGTTGGTTTTCTGTGAGAATTATTCCACATGTAGATGTATTTTTGATGCGTTTTGTTGG
+TGGAGGTGAGTTTCACATCCTACTCCACCATCTTGATCCCCCCTCAGGAAGTACTATTGAGTCTACTATAAATATATTGT
+TAGCTACTGTGTGAGATTGATACATTTTAGCTACCTGTATATAATAGAAAAGTTGTTCTTTTGTATGTACAGTAGTATTC
+CTGTACTTTTTAAAAATTGTTCTATTTACTCCATCATCTCTTATTGGGCTCCCACTGTGTGGCTGATGGGTAGTTAGGTT
+CTGGAGATTCCGTTTGTCCCCTCTTTAGGGATGAGTATTATGATAAATGTGTAATAGTTTTATTTAAGAACAGATTCTTG
+TGTTAAATGTTTTATCTTAATAACTTTTAAAGTATCAGCAGTGAATGAGCAAGTACTTTTTTTCCCCAAAATCTAATTGA
+CAACTATTAGTCAATGCATGGAACATGACTACTTAAAGCATTCTTATTCTAAGAGAATTTCAGAATTGAAAAATCTTAAG
+CCAGCTCTCTGTCTTCTCTGCACTGGGAGCAGCTCTCCTGCCACAGCCCTTCATCCCCTGAAAATGTACACTTGCGCCAA
+GTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTACACTGTTGAGCCAATCACTGTCTGCAGTGGTGGTAAGATGAC
+CGGAGACACTGACAGATGAGAGCCACAGCAGCTTGGCAGTAGTCCCCCGTCCCCTGACCACCTCACTGACTCCTAGCCGC
+AGTTTCCAAACCAGTGCCATTTCAAGGGACATTGACACAGCAGCCAAGTTCATTGGAGCTGGGGCTGCCACAGTAGGGGT
+AGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGAGTCTCATCATTGGTTATGCCAGGAACCCTTCTCTGAAGCAGC
+AGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCGGAGGCCATGGGGCTCTTTTGCCTGATGGTGGCCTTTCTCATC
+CTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATAGTTCTTCTCCCGTGTCTCGTCTGCCCTGTATGTTTCTTTTTC
+CGTACCTCCCCAGGCAACCTGGGGAAGGTGGTTGGCTCAGGGCCTGACAGAAGGAAGACAAATAAATACTGTATTAATAA
+GAAAAAAAAAAAA
+>ref|X16482.1| Sheep mRNA for beta-casein
+ATCCATTCAGCTTCTCCTTCACTTCTTCTCCTCTACTTTGGAAAAAAGGAATCGAGAGCCATGAAGGTCCTCATCCTTGC
+CTGTCTGGTGGCTCTGGCCCTTGCAAGAGAGCAGGAAGAACTCAATGTAGTCGGTGAGACTGTGGAAAGCCTTTCAAGCA
+GTGAGGAATCTATTACACACATCAATAAGAAAATTGAGAAGTTTCAAAGTGAGGAACAACAGCAAACAGAGGATGAACTC
+CAGGATAAAATCCACCCCTTTGCCCAGGCACAGTCTCTAGTCTATCCCTTCACTGGGCCCATCCCTAACAGCCTCCCACA
+AAACATCCTGCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTTTCCTTCAGCCTGAAATAATGGGAGTCCCCAAAGTGA
+AGGAGACTATGGTTCCTAAGCACAAGGAAATGCCCTTCCCTAAATATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTG
+ACTCTCACTGATGTTGAAAAGCTGCACCTTCCTCTGCCTCTGGTCCAGTCTTGGATGCACCAGCCTCCCCAGCCTCTTCC
+TCCAACCGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTCAGCCCAAAGTTCTGCCTGTTCCCCAGAAAGCAGTGC
+CCCAGAGAGATATGCCCATCCAGGCCTTTCTGCTGTACCAGGAGCCTGTACTTGGTCCTGTCCGGGGACCCTTCCCTATT
+CTTGTCTAAGAGGATTTCAATGTGAATGCCCCCTCCTCACTTTTGAATTGACTGCGACTGGAAATATGGCAACTTTTCAA
+TCCTTGCATCATGCTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATTCCTTTATTTATTT
+TATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACCATATACTTTCAAAATGTTAATTCAACATTAGCATAAAAGTT
+CAGTTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATTATTATTTCTTTA
+AGAATCTATTTCCTAACCAGTCATTTCAATAAATTAACCCTTAGGCAT
+>ref|X07004.1| 1O.aries gene for beta-lacto-globulin exon 1 (and joined CDS)
+AGCCACCCCGGGCCTAGGATGAGCCAAGTGGGATTCCGGGAACCGCNTGGCTGGGGGCCAGCCCGGGCTGGCTGGCCTGC
+ATGCGCCTCCTGTATAAGGCCCCAAGCCTGCCTGTCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCACGACCCCAGCT
+GCAGCCATGAAGTGCCTCCTGCTTGCCCTGGGCCTGGCCCTCGCCTGTGGCGTCCAGGCCATCATCGTCACCCAGACCAT
+GAAAGGCCTGGACATCCAGAAGGTTCGAGGGT
+>ref|X07005.1| Ovine gene for beta-lactoglobulin exon II
+CCCTCTCCAGGTGGCGGGGACTTGGCACTCCTTGGCTATGGCGGCCAGCGACATCTCCCTGCTGGATGCCCAGAGTGCCC
+CCCTGAGAGTGTACGTGGAGGAGCTGAAGCCCACCCCCGAGGGCAACCTGGAGATCCTGCTGCAGAAATGGTGGGCGTCT
+>ref|X07006.1| Ovine gene for beta-lactoglobulin exon III
+TGTCTTTCAGGGAGAACGGCGAGTGTGCTCAGAAGAAGATTATTGCAGAAAAAACCAAGATCCCTGCGGTGTTCAAGATC
+GATGGTGAGTCCGG
+>ref|X07007.1| Ovine gene for beta-lactoglobulin exon III
+CCGCGTCCAGCCTTGAATGAGAACAAAGTCCTTGTGCTGGACACCGACTACAAAAAGTACCTGCTCTTCTGCATGGAAAA
+CAGTGCTGAGCCCGAGCAAAGCCTGGCCTGCCAGTGCCTGGGTGGGTGCCA
+>ref|X07008.1| Ovine gene for beta-lactoglobulin exon VI
+TGCCCCATAGTCAGGACCCCGGAGGTGGACAACGAGGCCCTGGAGAAATTCGACAAAGCCCTCAAGGCCCTGCCCATGCA
+CATCCGGCTTGCCTTCAACCCGACCCAGCTGGAGGGTGACGACCC
+>ref|X07009.1| Oovine gene for beta-lactoglobulin exon VI
+TCCCCCACAGGGCAGTGCCACGTCTAGGTGAGCCCCTGCCGGTGCCTCTGGGGTAAGCTGCT
+>ref|X07010.1| ovine gene for beta-lactoglobulin exon VII
+CCATTTTCAGGGCCCGGGAGCCTTGGACTCCTCTGGGGACAGACGACGTCACCACCGCCCCCCCCCCATCAGGGGGACTA
+GAAGGGACCAGGACTGCAGTCACCCTTCCTGGGACCCAGGCCCCTCCAGGCCCCTCCTGGGGCTCCTGCTCTGGGCAGCT
+TCTCCTTCACCAATAAAGGCATAAACCTGTGCTCTCCCTTCTGAGTCTTTGCTGGACGACGGGCAGGGGGT
+>ref|NM_001009363.1| Ovis aries alpha-S2-casein (CSN1S2), mRNA
X03238.1 Sheep mRNA for alpha-S2-casein
+TTCCATTGCCTGGACTACTTGTCTTCATTTTAGGAAAAGAGGATCAAGTAAACATGAAGTTCTTCATTTTTACCTGCCTT
+TTGGCCGTTGCCCTTGCAAAGCATAAGATGGAACATGTCTCCTCCAGTGAGGAACCTATCAATATCTCCCAGGAAATATA
+TAAGCAGGAAAAGAATATGGCCATTCATCCCAGAAAGGAGAAACTTTGCACCACATCCTGTGAGGAAGTTGTAAGGAACG
+CAGATGAAGAGGAATATTCTATCAGATCATCTAGTGAGGAATCTGCTGAAGTTGCCCCAGAGGAAGTTAAGATTACTGTG
+GACGATAAGCACTACCAGAAAGCACTGAATGAAATCAATCAGTTTTATCAGAAGTTCCCCCAGTACCTCCAGTATCTGTA
+TCAAGGCCCAATTGTTTTGAACCCATGGGATCAGGTTAAGAGAAATGCTGGCCCCTTTACTCCCACCGTGAACAGAGAGC
+AGCTCTCCACCAGTGAGGAAAATTCAAAGAAGACCATTGATATGGAATCAACAGAAGTATTCACTAAGAAAACTAAACTG
+ACTGAAGAAGAAAAGAATCGCCTAAATTTTCTGAAAAAAATCAGCCAGTATTACCAGAAATTTGCCTGGCCCCAGTATCT
+CAAGACTGTTGATCAGCATCAGAAAGCTATGAAGCCATGGACTCAACCTAAGACAAACGCTATTCCCTATGTGAGGTACC
+TTTAAGATTCTTGAATTAACTGCTTCTACCTGGTTATGGTTGGACTGGAAAATCTATCTTCTACAGTTTCATATCTACCA
+CTTTACTTCATACAACCAGCATGTTTGGGGTGGCGCATCGATAAGACAAATCGCAGAGTATTTCCTGAATTATTTATACT
+CTCGCTGTTAGTTTATATTGAATATACTGGGTTTATATGGTGGTTTCATACAAACTTAGCTGATGATTATTTAAAATCCT
+TTCCCTAATCTTTCTGAGTTACAGAAATATTTTTCTTTCCCTCTGGAAATAAAATGTCAAGTGC
+>ref|NM_001009795.1| Ovis aries casein alpha s1 (CSN1S1), mRNA
X03237.1 Sheep mRNA for alpha-S1-casein
+CCTTGATCATCAACCCAGCTTGCTGCTTCTTCCCAGTCTTGGGTTCAAGATCTTGACAACCATGAAACTTCTCATCCTTA
+CCTGTCTTGTGGCNGTTGCTCTTGCCAGGCCTAAACATCCTATCAAGCACCAAGGACTCTCTCCAGAAGTCCTCAATGAA
+AATTTACTCAGGTTTGTTGTGGCGCCTTTTCCAGAAGTGTTTAGAAAGGAGAACATCAATGAACTGAGTAAGGATATTGG
+GAGTGAATCAATTGAGGATCAAGCCATGGAAGATGCTAAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGAAATTG
+TTCCCAATAGTGCTGAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACTTGGGTTATCTGGAACAGCTT
+CTCAGACTGAAAAAATACAACGTGCCCCAGCTGGAAATTGTTCCCAAAAGTGCTGAGGAACAACTTCATAGTATGAAAGA
+GGGAAACCCTGCCCACCAGAAACAGCCTATGATAGCAGTGAATCAGCTTTTCAGACAATTCTACCAGCTGGACGCCTATC
+CATCTGGTGCCTGGTATTACCTTCCACTAGGCACACAATACACTGATGCCCCCTCATTCTCTGACATCCCTAATCCCATT
+GGCTCTGAGAACAGTGGAAAGATTACTATGCCACTGTGGTGAAGAGTCAAGTGAATTCTGAGGAACTCCACAATTATGGT
+CTTTGATGGGATTGAAAATTCCATGCTCTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCCAAAGGCTTCAATT
+GCTGTTTTAGAATAGGACAATCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCTATTGTATTTTAGATTGTGTAACA
+TCCTTAAGTGAAATTGTCCTAAGAGCTTGTTACCTAAATTCCAGTAGTATCATGCTGGTATAAAGGCCACTGAGTCAAAG
+GGAATTACAGTCTTCATTAAATTTCTATATGGAAAATGTTTTTAAAGCCTTTGAATCACCTCTCCTGTAAGTGCCATCAT
+TTCAAATAACTGTGTGCAGTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGCACT
+>ref|X70061.1| O.aries mRNA for gamma subunit of sodium potassium ATPase
+TTCTATTATGACTATGAGACGGTCCGCAATGGGGGCCTGATCTTCGCCGCCCTGGCCTTCATCGTGGGGCTCGTCATCAT
+CCTCAGCAAAAGATTCCGCTGCGGGGCCAAGAAGAAGCACCGGCAAATTCCTGAAGATGGGCTCTGAGGAGAGAGCCAGC
+CGTGCCCACCCTTGCACCGGGGCTGCTTGGAAGTCTTCCCTGAGCTGCAGACTTCCGTCCCAGCACTGTCAGGCCCCTCG
+GACTGAAGGAAGCTTCGGGCTCCACGTGACCCCCCGGTGGC
+>ref|X17229.1| Ovine IGF-I gene for insulin-like growth factor-I exon 1 and exon 1A
+GGGCTGCAGGTCGACTCTAGAGGATCTTTCAACCCATGAGACAATCTGTATCTTCAAAGTCCATTAGAGGAGGCTGGGCT
+GGGGGCACAAAAGGTGTGATGTGCTGAAGCTGAAGGAAATTTAAAAAAATAAATAAACCCAAACCCCAGATTTTTAGTGA
+ACAATTCCTAAGTTAAATGCATGAAGCGGGGCTCATTAAAGGAGGTCTTGGATTCTTCTCAAAGTACAGGCCTTGCCCCA
+CACCTGAAGATACCCCCCCCCCACCCCGCCTACGTCTTGATGATGTGTATCTCTTCAGGTCAAAACACATCCCCTGAAAC
+TTCCCAACTTTGCATTTCAAAGCTCCTCATGACACACCCCTCCTCCTCCATCCTGGATTCTCAGTAGTTTCACTTCCCTG
+TCTTTCCAGAGAAAGTGTGCACTTTTCATATTTTTAAAAGCGCATCCCACCACGTGACAGTGCTGTTTTCCTCTCTGCCT
+CTGCCACTTAGTTGAAAGGCCCTGTGGTGTGTGTAACTGAGCACACAGTAGGAGCGCACTCACTGAATGCTGAATATAGT
+GCACTGTTGGAATGGCATCACTCCTCGTGTCTAACTTGTCTTTCTCAAAGGCAAACCCTGCCCCAAGTTTAATCACAGAG
+AAGGCTTGAGTGAACTCAACCCCCTTTCAAAACCAATCAGGTTTTCCTTTGAGGGCACCCACCTCTGCAACAGCTTCCTG
+GCCATGGCATAAAGACCTAGACAAGAGTTTCAAGCAAACCTTTGTTTTTAGTCGAAGCATCAGGATCACTGTGTCCCCTG
+AGAATCAAGAGGGAGAAATACAAGGTCCAGGCTACTCCCACCATTCCAGAAAACCATGCCCCAATAGACCCAGGAAAGTG
+GGATGTCTAACCTGGGCTTTTGCAATCTTATTTCATAATCCACTTTCTTATCGCCTCCTTCACAAAACTGATGAGAAATT
+GGTACAAACTCTATCGACAAAGATCAACAACTTGATCCTCAATGGCAAAGGCAAGTATACATTATAAATAGCAAAACAGC
+TGGCTTGGACCATGTTGCTGGCCACTCATCCAGCTGAGAGATTTGAATGACATCATAACCCTTGAGAGGGTATTGCTAGC
+CAGCTGGTGTTATTTAGAATACACAAAAAGGGGGGAAAGAAAATGCACTCACATGCACACACACACAAATACACACACAC
+ACACACAGGTTCAAGTTATGCAGAAAAATATGAACAGTGGGAAAATCATTTGCCTCTCAGATGCCCTTCCCCTGGTGTGG
+GGTGGGAGTCGGGGTGGGGGGCCAAGCAGCAGAATAGAGGAAGGAAGAAAGAGATTCGATTTTATTTTTTCAGTTGGCTT
+TACAGCTCAGCAAAATCTTTCCCTGTCGTGGGCAAAAAGCATGAGACAGTGTCCTGAGGGGAGCCAATTACAAAGCTGCC
+TGCCCCTTTCCAGGTTCTAGGAAATGAGATCATTCCCCTCACTTGGCAACCAGGACGAGGGGTCATCCCAGCGCCGTCTT
+CCAGTCTAGTTACCCCAGACGTTTGAGGGTTAAAATCATAGAGTATGCTTGAGATGGGTCTTTTTTTCATTTCTTGTTTT
+TTAAATTTTGTGTTGGCTCTGGAATATAAAATTGCTCGCCCATCCTCCACGAATATTCCTTTCATACGGGTAAGGTGTAT
+TAGCAGATGTGTGTGTCTTCATGCCCGGTAGAAAGTTAATCAGAGGACAGTACATCAGGATTTTAATGTCTGCTCCTCTT
+GTCACTAACACACATTCTTTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTTTAAAATGCAAAGGTATGATGTTATTTGT
+CACCATGCCCAAAAAAGTCCTTACTCGATAACTTTGCCAGAAGAGGGAGAGAGAGAGAAGGCAAGCGTTCCCCCACGTGT
+TTCCTGTCTACAGTGTCTGTGTTTTGTAGATAAAATGTGAGGATTTTCTCTAAATCCCTCTTCTGTTTGCTAAATCTCAC
+TGTCACTGCTAAATTCAGAGCAGATAGAGCCTGCGCAATGGAATAAAGTCCTCAAAATTGAAATGTGACATTGCTCTCAA
+CATCTCCCATCTCCCTGGATTTCTTTTTGCCTCATTATTCCTGCTAACCAATTCATTTCCAGACTTTGCACTTCAGAAGC
+AATGGGAAAAATCAGCAGTCTTCCAACCCAATTATTTAAGTGCTGCTTTTGTGATTTCTTGAAGGTAAATATTTCTTACT
+CTTTGAAGTCATTGGGGAATTTTCTTTAAATTGTGTACTGCTTGCTTCTGCTTAGAAATGTTCTTCACTTTAAGAATTTT
+CATTGTTTCGGCACTGGGAGTTATTTATAAATTGCTGAATATGCAATTCTGTGGGATCTGAAAAAATAGCTCCGGGAGAT
+AAAGTCCTTTGCACAGATATCTGTATGAGTAAAAACTATTGCAAGGTACTTATGCTAAATCCTCCACTTCTTCAGGCTTG
+AGTGGTGTCATTATAGAAGATTCCTTTAAATCCTGTCTATGGTTAAGGGCTATAGGGCATGGATATGAACTTTTGGATTT
+TTTTTCGAGGTCGAGATGTTTTATTTTTAAGACCATGTTCATGTGTATGTAGGGCTGTGTGGTGTGTGTGTGTGCGTGTG
+TGTTAACTGGCCAGGACTTTTGATTACAAGGCATGCCACATACAAAGAGTTACGTTTTAAATGATATTAAAGCTTTTAAA
+TATGATCTTTTGGAGCTAAGGTCCCGGAACTCTCTGCACTTAGCCCCAGAGAGTCAAAGGTAGAGTGAAGGTTCATTTGC
+TCTTCTGAAAAAAGAACTCCTTAAGAACTCCTGCTGACCTTGCAGATTCGGATAATTTAAACAAATGCACACTGTATATG
+GAAAGCGGAAACTTTCTAGCAACTGCTATTCCAAGTTTTTTCTTTTGAAGAGGACTCTCAGGGGCGAAGTTTGGACTTGG
+GGTCTTGTGTTGTAAAACACGGGTTTTGTATTTGGGATTGTAAAGTCTCTTTAGGTGAATTTGGCTAGCGCTGTCAATGC
+ACTGACTTCGCCTTTCCAATAACTGCCTAGTTCAAGTTTCCGATTCTCAGCAAAATTATATCTTTCAAGACTTGTATTTT
+TCCAATTTGCAAGCATTTTTAAGCTGCTGTACTGGCTCCCCCGGATGCAATTGCCTGTGGGCTCAATTCATGATCCGTCC
+CTACCGCTTAGTCCAACACTTATTTGCCGCTTTCCACACTCCACCACTAGACGTTTCTTAGTCAAGTCAGTGGCTTAGGA
+GTTAAGAATACATCCTTGTCGGGCACCTGATCCTGCCGCCCTTGAGAAGCCAAGATGCACACTGCCTACCTTGCTTTTAA
+AAGAAATGAAGTCAGTATACACATATGCTATGTGGTCTGAGCTGGGGATTTTGTCTCCCTACTTAGAGGATCCTAAAAGG
+GGCTGTGTAGTGTTATCTCTGCATTAATTACAAGTTTGGAAAACTCCAAATGAACTTTCCATGCTGTGTATGCTGAACTT
+TTCAGAAGTAGAGCTAGCTAGCCATAAGTTGTTGCTTTTTCCTGTACTTGAAGCAGGAAGTGGTTTCAGGGAGCTACGTG
+GTTCTTTCAAATGTATGTAATTCAATGAGTAAAGGTGGTGTCTGCCAGGCAGAGCTCACAAGCTGATTGTACTGTGAGTC
+TCAAGATATCTCCAAGTGTTTGAGTCAGAGGAAAGAGGGCACAGGGGAGGACTGGAGCTTCGGTCCCTGTCCAGGACGGC
+TACAATAGGCACAGGATGGAAATCAGTGGCTTGATTGGGAGGAAAAGATTGACTCAGATCCCAGCCGTGCAATTTGTTTA
+TTGTCTGAATGGACAAAAGGCAGTTTACCCAGGCTCGTAGCATACCTGCCTGGGTGTCCAAATGTAACTAGATGCTTTCA
+CAAACCCCACCCACAAAGCAGCACATGTTTTTAAGTCCTCAGTTTTCTATTCACATCAGTCTCATAATACCCACCCTGAC
+CTGCTGTAAAAGATCTGGAACAAAACAAAAATGGTTACACCTACAGTGAGTATTTTCTTATGACTATTGCCCTCAAATTT
+TCGTGGGCATTTTTATTATAAACCAGACATCTGGAACCAATTGATATTCCA
+>ref|X51357.1| Ovine IGF-I gene for insulin-like growth factor-I exon 2
+GAATTCCTGAGACTTAAAAAAAAAAGACTTTTGCAGGTTTTGAGCCCAGTTCCCTGTTCATGGAAGGCATGTCTACACAT
+GTGTTGATCTGACATTGAGCTTGACACAAGGGGCTTTTAGAATGCAAAAGGAGTCGGGTTTACTTACCATAAACCAGTTT
+CATTCTGAAATTCTCAGATGTTTCTGTTCTGGTTTTACTTTACTTGTAGTGTACTGCTGATGTCGCAAGAAATCTCTCAG
+TCTCTCTTTCTCTCCCTCTGTACTCTCTGTCTCTGCCTCTCTGAAGTAGAAAAAAAAAGCTATAATGATATATAGTATTT
+TCACAAGTTCTTTTTCAGCTGCAATAAATTCTGTTTAATCAGTAGCAGGGGAATGACGTTCTGGTTAATTTAATATTCTG
+GTCAGTAATGAATGCACATGCCATCTGTGGAATGGCCAATTTGAGAGAATTTAAATTAATAAAACATATCTGGTCCCAAG
+TCTGGACTGAGCACAAATTAACCTTTGATGATTCCAAAGGTTTACCAGGACCTCTGAGTGGTGTGCAATAAGAGCATCTT
+TCACCTTCACACATTAAATGTTTACGGACATTTATCTCATTGAATTGTAATAGGAACCCATAAAGAAAGGGTTCAAGAAG
+GACTTCCCAGGGTTTCACAGTAGCAAGAGGATTAAAGTCAGATAGCATGATGCCAAGACCTGCTCAGAGGTCACTCACAC
+ACCTTGTTGCACTCCTGAGGGGAGAGTTTTGATTAATAACAGGAATGCAGAGATGGGGTAAAGGCACCCTTGCCTTGCCC
+CCACTCCCCTGGCAAGGACCCAGGAGGAAGATGACCCTCCTTCTGCTCTTTCAGCAGGTGAAGATGCCAGTCACATCCTC
+CTCGCATCTCTTCTATCTGGCCCTGTGCTTGCTCGCCTTCACGACGTCTGCCACGGCGGGACCTGAGACCCTCTGCGGGG
+CTGAGTTGGTGGATGCTCTCCAGTTCGTGTGCGGAGACAGGGGCTTTTATTTCAGTAAGTAGCCTCCCTCTCGTGCTAGC
+GATCTAGCTCTAGTGATTTACAACTCGCGGGAGTGTGTGAAGAGCTGAATGACCCGCCGTGTGCTGGCAGCCATCCTCAG
+CCTCCGAGATTCCTCGACCCTAATGCGAGCCTAGTGTTTGCAGCGGGGCCGTGGGCACGTTTTGCAGATTTTGGATGGAT
+TTTCCTCCTTAGCTAGTTTGTCTTTTAGCTACTTCCCACTAGGCTTTCCCGCAACTGTTCTCGTCTGCCCTCACTATTCC
+ATTTCTTCCTGGGAAAGACAGACAAAATGCCCTGGGGATTGGGTTTTCGTTTTCCAGACCTGTGGGTCACGTGGCAACAT
+ATGTGAATGTGTAGGGATGTTTTACGTGCCAGGTCACTTGGAGGAAACTAGGAAGGCGGACTTGGCAAAGGGGCACATCC
+CAGATGTCTCCATGTGATATGAAATCACCCGAACAGACAGAAGGTGAGAGTCGCTGAAAGGCACATTTGCAAAGACACAG
+CTCTCGCTCAATGCAAACTGAAATGCTGAGTTCATTTGACCCTCGGTTCACGCTGACCATTGAGTCATTTGATTGTATTG
+CCTTCCTTTGATGATCGCCCTTCTCTGGGCTCTCCAGTGATGTCTCATCTGAAAAGAGTTTCTGACAAGTCAAGGTCACT
+TATCCCATAAGTAGGTCTCAGGTGGATTAAAAAGTCAACAGTCAATGAAAAAGTAGACAGCCAAGTCCATGCTTGCGGAT
+AAATAATAAACACAAACGGGAGTCCCTGCTGCCTGAGGGAATGGATCC
+>ref|X51358.1| Ovine IGF-I gene for insulin-like growth factor-I exon 3
+ACATGGTGTGGGAGAGAGTTTTCTGGGGCTGGGTGTAGCAGTGAACACCGCCCTATTATCCCACTCTAAAACTAGGCCTC
+TCTCTGATCTGCACAGACAAGCCCACGGGGTACGGCTCGAGCAGTCGGAGGGCGCCCCAGACAGGAATCGTGGATGAGTG
+CTGCTTCCGGAGCTGTGATCTGAGGAGGCTGGAGATGTACTGTGCGCCTCTCAAGGCCGCCAAGTCGGCCCGCTCAGTCC
+GTGCCCAGCGCCACACCGACATGCCCAAGGCTCAGAAGGTAAGCCCACCAGGGGCGGTGAGGGTCGGCCATCTTCGCGAG
+ATCTGAGTTATGTGGTTGTAGCAACTTAGCAGCAGCAGCATCTGAATAGTAATTCATACCCTAATAGACTTCTGCTCATA
+GGGTCAAAAGAGCTCCATTCTCCCCTGAAGAGGGTTCATCTTTTCTGTCACTCCACATTATAAATTCTCCCTTCCACCGC
+TGTGGGCCCATCTTGATCCCAGTTTTGTCTGATGCCAAAGCCCAGGTTTAGTCACTCTTCTCCACCATCTTCTGGAGATC
+>ref|X51403.1| Ovine IGF-I gene for insulin-like growth factor-I exon 5
+CAGAGGAGAAAAAGAAAAAAATGAAAAGTTAATCTCCTTTTTACAGAAACTAAAACAGAACCAAAAGCAATAAAACAATG
+GAGGATTGATCCCCAGGATGTGATTGCTTTTTCTCACTAGAAAAAGATGTTCCAAGCCAGAAGACTGGATTTTAAAGGAT
+TCCCTTCCTATCAAGGAACCTGTGATAGTGGCAGATGAATAAACACATATTTTTATATGATTACAAAGCATTTGTGGTCC
+CATGCCATCAAGGGTAAATATAAGTAGCTTTAGTGAGGTCTGTCTAATATAACCAGCCATCACTGTATGTCTTTCTCAAA
+ACCCTGGCCCAAGTTGTCTATTAAACTGACTGGTGAGACATAAGGTAGTACGGTTGAGATCCAGTGTTAGAAATAGATAG
+GTTGGATACATAAACATTCATCAAATTAATGTCACTTTTTCTCCCTTATTTTTAGGAAGTACATTTGAAGAACACAAGCA
+GAGGGAGTGCAGGAAACAAGAACTACAGAATGTAGGAAGCCCTTCCTAAAGAGCGAAGAATGACAGTCCACCGGCAGGAT
+CCTTCGCTCTGCACGAGTTACCTGTTCAACACCAGAAGACCTACCAAAAATAAGTTTGATAACATTTCAAAAGATGGGCA
+TTTCCCCCAATGAAATAAGTAAACCCCCAATGAAATAAGTAAACATTCCAACATTGTCTTTAGGAGTGATTGTTCAAAGC
+TTGGCACCTGCAAATGACCTGGCCCCTGGAGTTGGTAGATTGCCTGTTGATCCTTTATCAATAATGTTCTAATAGAGAAA
+TATATATATATAGATCTTAGTCCCGTCCTCTCAAGAGCCACAAATCGATGGGTGTTGTATAGATCCAGTGCACTAAATTT
+ATCTCTGAATCTTGGCTAGGCTTGTCTAAGTGGTTTATTAATTTTTTATTTGCACTTCTTTCTACGCAACACAGGCTGTT
+TGTTTTACAGCGTCTGATAATCTTGTTCCTCTATCCCGCTCCCTTCTCCATCCCCTTTATATTTGCTGAATTTGCCTCCT
+AAACAGCAGCAGCAAGCAGTTAAGTAGCATACAAGTTTTTAACCCACAAGATTCCATCTGTGGCATGTGTACCAAATATA
+AGTTGGATGCATTTATTTTAGACACAAAGCTT
+>ref|X69797.1| O.aries mRNA for immunoglobulin gamma1 chain secreted form
+GAACCCACTGTGGACCCTCCTCTTTGTACTCTCAGCCCCCAGAGGGGTCCTGTCCCAGGTGCGGCTGCAGGAGTCGGGAC
+CCAGCCTGGCGACGCTGCTACAGACCCTCTCCGTCACCTGCACGATCTCTGGATTCTCATTAAATAATTATGGTGTAGAC
+TGGGTCCGCCAGGCTCCAGGAAAGGCGCTGGAGTGGCTTGGTGGCAGCGGTTATGATGAAGATATAGACTACAATCCAGT
+CCTTAAGTCCCGGCTCAGCATCACCAAGGACACCTCCAAGAGTCAAGTGTCGTTGACACTGAGCACCGTGACGACTGAGG
+ACACGGCCGTGTACTACTGCGCAAGAGTTGATTATGATAGTAGTCATGCTTTTGCGTATGCCTCATACGACTTCTGGGGC
+CCAGGGCTCCTGATCAGCGTTCTTTCAGCCTCAACAACACCCCCGAAAGTCTACCCTCTGACTTCTTGCTGCGGGGACAC
+GTCCAGCTCCATCGTGACCCTGGGCTGCCTGGTCTCCAGCTATATGCCCGAGCCGGTGACCGTGACCTGGAACTCTGGTG
+CCCTGACCAGCGGCGTGCACACCTTCCCGGCCATCCTGCAGTCCTCCGGGCTCTACTCTCTCAGCAGCGTGGTGACCGTG
+CCGGCCAGCACCTCAGGAGCCCAGACCTTCATCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGGTGGACAAGCGTGT
+TGAGCCCGGATGCCCGGACCCATGCAAACATTGCCGATGCCCACCCCCTGAGCTCCCCGGAGGACCGTCTGTCTTCATCT
+TCCCACCGAAACCCAAGGACACCCTTACAATCTCTGGAACGCCCGAGGTCACGTGTGTGGTGGTGGACGTGGGCCAGGAT
+GACCCCGAGGTGCAGTTCTCCTGGTTCGTGGACAACGTGGAGGTGCGCACGGCCAGGACAAAGCCGAGAGAGGAGCAGTT
+CAACAGCACCTTCCGCGTGGTCAGCGCCCTGCCCATCCAGCACCAAGACTGGACTGGAGGAAAGGAGTTCAAGTGCAAGG
+TCCACAACGAAGCCCTCCCGGCCCCCATCGTGAGGACCATCTCCAGGACCAAAGGGCAGGCCCGGGAGCCGCAGGTGTAC
+GTCCTGGCCCCACCCCAGGAAGAGCTCAGCAAAAGCACGCTCAGCGTCACCTGCCTGGTCACCGGCTTCTACCCAGACTA
+CATCGCCGTGGAGTGGCAGAAAAATGGGCAGCCTGAGTCGGAGGACAAGTACGGCACGACCACATCCCAGCTGGACGCCG
+ACGGCTCCTACTTCCTGTACAGCAGGCTCAGGGTGGACAAGAACAGCTGGCAAGAAGGAGACACCTACGCGTGTGTGGTG
+ATGCACGAGGCTCTGCACAACCACTACACACAGAAGTCGATCTCTAAGCCTCCGGGTAAATGAGCCAGATGCCCCCGCAC
+CAGCAAGCCCTCACCCAGCCCGCCCTCCCCGGGCTCCAGGTCCAGCCAGGACGCCCTAGCCCCTCCCTGTGTGCATGCCT
+CCTGGGCCGGCCATGAATAAAGCACCAGGCCGCCCTGGGACCCTGCAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|X59994.1| Ovis aries mRNA for immunoglobulin mu chain precursor secreted form
+CTCATCTGCTCCAAGATGAACCCACTGTGGACCCTCCTCTTTGTGCTCTCAGCCCCCAGAGGGGTCCTGTCCCAGGTGCA
+ACTGCAGGAGTCGGGACCCAGCCTGGTGAAGCCCTCAGAGACCCTCTCCCTCACCTGCACGGTCTCTGGATCCTCATTAA
+CCGTCAATCATGTCTCCTGGATCCGCCAGGCTTCAGGAAAGATGCCGGAGTGGCTTGGTGGTGTAGAAAAAGGTGGAAAC
+ACATACTATAACCCGGCCCTGAAATCCCGGCTCAGCATCGCCAGGGACACCTCCAAGAGCCAAGTCTCCCTGTCACTGAG
+CAGCATGGCAATTGACGACACGGCCGTGTACTACTGTGCGAGATCTGCTGGAGCTTATTTTCTTGCAGATGTTGATATCT
+GGGGTCGAGGACTCCTGGTCACCGTCTCCTCAGAAAGTGAATCTCACCCGAAAGTCTTCCCCCTGGTGTCCTGTGTGAGC
+TCCCCGTCTGATGAGAACACGGTGGCCCTGGGCTGCCTGGCCCGGGACTTCGTGCCCAATTCTGTCAGCTTCTCCTGGAA
+GTTCAACAACAGCACGGTCAGCAGCGAGAGGTTCTGGACCTTCCCCGAAGTGCTGAGGGACGGCTTGTGGTCGGCCTCCT
+CTCAGGTGGCCCTGCACTCCTCAAGCACCTTTCAAGGGACGGATGGCTACCTGGTGTGTGAAGTCCAGCACCCCAAGGGA
+GAAGACGTCGGACACAAGGGTGTCCCCAGAGAGGTGGAAGTGTTGTCCCCCGTCGTGAGTGTCTTTGTCCCGCCTTGCAA
+CAGCCTCTCTGGTAACGGCAATAGCAAGTCCAGCCTCATCTGCCAGGCCACTGACTTCAGCCCCAAACAGATCTCCTTGT
+CCTGGTTTCGTGATGGAAAGCGGATAGTGTCTGATATTTCTGAAGGCCAGGTGGAGACTGTGCAGTCCTCACCCACAACA
+TACAGGGCCTACAGCGTGCTGACCATCACGGAGCGAGAATGGCTCAGCCAGAGCGCGTACACCTGCCAGGTGGAGCACAA
+CAAGGAAACCTTCCAGAAGAACGCGTCCTCTTCGTGTGATGCTACACCACCGTCTCCCATCGGGGTCTTCACCATCCCCC
+CATCCTTTGCCGACATCTTCCTCACGAAGTCAGCCAAGCTTTCCTGTCTGGTCACAAACCTGGCTTCCTATGATGGCCTG
+AACATCAGCTGGTCCCATCAGAATGGCAAGGCCCTGGAGACCCACACTTATTTTGAGAGACACCTCAACGACACCTTCAG
+CGCCAGGGGCGAGGCCTCAGTCTGCTCGGAGGACTGGGAGTCCGGAGAGGAGTACACCTGCACAGTGGCCCACTTGGACC
+TGCCCTTCCCAGAAAAGAGCGCTATCTCCAAGCCCAAAGACGTCGCCATGAAACCGCCGTCCGTGTACGTGCTGCCTCCA
+ACGCGGGAACAGCTGAGCCTGCGGGAGTCAGCCTCCGTCACCTGCCTGGTGAAGGGCTTCGCGCCCGCGGACGTGTTCGT
+GCAGTGGCTGCAGAAGGGGGAGCCTGTGGCCAAGAGCAAGTACGTGACAAGCAGCCCGGCGCCCGAGCCCCAGGACCCCA
+GCGCGTACTTCGTGCACAGCATCCTGACAGTGACTGAGGAGGACTGGAGCAAAGGGGAGACCTACACCTGCGTCGTGGGC
+CACGAGGCCCTGCCCCACATGGTCACCGAGCGGACCGTGGACAAGTCCACCGGTAAACCCACCCTGTACAACGTGTCCCT
+GGTCATGTCTGACACGGCCAGCACCTGCTACTGATGCCTGGTCAGAGCCCCCAGGTGACCGTCGCTGTGTGCATGCATGA
+CTCTAACCATGCTGATGCGTGAGATGTCGCCTTTTATAAAAATTAGAAATAAAAAGATCCATTCAAAAAAAAAAAAAAAA
+AAA
+>ref|NM_001009808.1| Ovis aries interleukin 1 alpha (IL1A), mRNA
X60167.1 O.aries mRNA for interleukin-1 alpha
+ATGGCCAAAGTCCCTGACCTCTTTGAAGACCTGAAGAACTGTTACAGTGAAAATGAAGACTACAGTTCTGAAATTGACCA
+CCTCTCTCTGAATCAGAAGTCCTTCTATGATGCAAGCTATGAGCCACTTCGTGAGGACCACATGAATAAGTTTATGTCCC
+TGGATACCTCGGAAACCTCCAAGACATCCAGGCTTAGCTTCAAGGAGAATGTGGTGATGGTGACAGCCAATGGCAAGATT
+CTGAAGAAGAGACGGTTGAGTTTAAATCAGTTCATCACCGATGATGACCTGGAAGCCATTGCCAATGATACCGAAGAAGA
+AATCATCAAGCCCAGATCAGCACATTACAGCTTCCAGAGTAACGTGAAATACAACTTTATGAGAGTCATCCACCAGGAAT
+GCATCCTGAACGACGCCCTCAATCAAAGTATAATTCGAGATATGTCAGGTCCATACATGACGGCTGCTACATTAAATAAT
+CTGGAGGAGGCAGTGAAATTTGACATGGTTGCTTATGTATCAGAAGAGGATTCTCAGCTTCCTGTGACTCTAAGAATCTC
+AAAAACTCAACTGTTTGTGAGTGCTCAAAATGAAGACGAACCCGTCTTGCATAAGGAGATGCCTGAGACACCCAAAATCA
+TCAAAGATGAGACCAATCTCCTCTTCTTCTGGGAAAAGCATGGGTCTATGGACTACTTCAAATCAGTTGCCCATCCAAAG
+TTGTTCATTGCCACAAAGCAAGAAAAACTGGTGCACATGGCAAGCGGGCCGCCCTCGATCACTGACTTTCTGATATTGGA
+AAAATAGCCTTGACTGTGCACTCTAC
+>ref|NM_001009415.1| Ovis aries interleukin 2 receptor subunit alpha (IL2RA), mRNA
Z11560.1 O.aries mRNA for IL-2 Receptor alpha chain
+AGAGAAGAGAGTGGTACGCACAATTTCCTGGCTGAGGAACCCAGGCTAATACTTATACAGAGCAAGCACTGACTGCCCTA
+GAGGCTGACGGACCGGCAAGGATGGCAACCTGAGCGGACTCACCCTTCATTCCCCAGTCTCCCGGTGCGATGCCAGCAAG
+AGGCTGAAAGGAAACCCGGCGCTCTGCAGAGCGACACTCTCTCTTCCCGGCCCCGATGTCGGCAGTGATCCCAGGGGCCA
+GGAGGATGGAGCCAAGCTTGCTGATGTGGAGGTTCTTCGTATTCATCGTGGTACCTGGCTGCGTGACAGAGGCTTGTCAT
+GATGACCCTCCGAGTCTCAGAAACGCCATGTTCAAGGTCCTCAGGTACGAGGTGGGCACCATGATAAACTGCGACTGCAA
+GGCAGGCTTCCGCAGGGTGTCGGCCGTCATGCGCTGCGTGGGGGACTCCAGCCACTCTGCCTGGAACAACAGATGCTTCT
+GCAACAGCACCTCCCCTGCTAAGAACCCAGTAAAACCAGTTACTCCTGGATCCGAAGAACAGAGGGAGAGAAAACCCACA
+GATGCACAGAGCCAAACGCAGCCTCCGGAGCAAGCTGACCTTCCAGGTCACTGCGAGGAACCACCGCCATGGGAACATGA
+ACGTGAACCTTTGAAGAGAGTCTATCATTTCACGCTGGGGCAGACGGTTCACTACCAGTGTGCCCAGGGATTCAGGGCCC
+TACACACCGGTCCTGCTGAAAGCACCTGCACGATGATCCACGGGGAGATGAGGTGGACCAGGCCCAGGCTCAAGTGCATA
+AGTGAAGGGGCGAACAGTCAGGCTCCAGATGAAGCAGAGCCTCCGGAGAGCACAGAAGCTCCCCCTGGGAGTGGAACTTT
+CTTAACAACCAGGATGGCAGGGACCACAGATTTCCAGAAGCCCACAGACGTGGTTGCAACGCTGGATACGTTCATATTTA
+CCACCGAGTACCAGATCGCAGTGGCCGGCTGCATCCTCCTGCTCTCCAGCATCCTCCTCCTGAGCTGCCTCACGTGGCAG
+CGGAGATGGAAGAAGAACAGAAGGACAATCTAGAAAACCAAGGGCCAGAAGAAGTCAAGAACAGCCCACAGGTGTCACGG
+ACCACAATCAGAATCAAAGAAGCTAAACACTCATCCAAGAGGCATCTCCTGATCCGGTGGGCTCTGGAAAGCTCTGAAGT
+CACGTAACAGAACACTGGGCAACTGCAGCCCCATCGTGAAGCCAGCTCTGTAGTATCAACCCTTGAGGCTGACCCGTCTA
+GGCAGCAAGTCCAAGGTCGCTGGAGGAACGGGGAGAGGCAACCAGAACTCTTTCTCCTGTTTTCATGTATATGTGATCAC
+TAGATCACAAGTAGCCTGGAGCTCTCTCCACACCATGTAGTGTAAAGAAGAGTAGTTTCATGCTAAGAGCATCCCAACTT
+CCCAGGTTAGAAATCCCAAGGAAAGCCCTAGCACTGATGTAAATAGACACACATGATCTCTGCCCGGGTGAGTGGACTTT
+GTCCCCGGATCCACATAAGTCTTTTCCAAGCCTCTGGTTGACCAGCCCACTCTCCTGTTCATATGCCCCCAAAGGAATCC
+TTTTGACCCTAGCCCAGTCCTCCAAGTTAGCGCCCTCTACTGAACCTTCCAGGTTGAGTTTCTAAAGAACAGATTCCCTG
+GGGGAGCAGTCTTTGGGTGACCGCAGAAGACAGCAAGCAAACCCATGGAACTGTTGAGCTTCAGAGTTTGAAAGGATTTC
+ACCGGAGTTAATGCCAGGAGAAGGGGGAGAAGCTGGGTCCCAGGTAGTGGGTTATCCTTAACATTTAGCTTCAGCTGTTT
+GTGACTGGCTGTTCTAACAGCTTTTTCTCTGGGATTGCTATAAATTATGCTCTGTGTACGGCTGCCACAAATTTGATGTT
+TACAGACAGACACACAGTGTGTAAATGTGTACATTTGCAAAGAGGTGCCATAAAAACACTGATAAGGAGGCAGTACATTC
+AGTGTTTATGGGAGGAAAGAAAGAAAGAAGGATGGGGGCGGGGAGCGCATGTAATTACGGATGAGGTCACATCAGTGACC
+CCTCACACTGTGAGGAAATTAAAATTGCCTGGAGAACTTGGTGAGACCTGGAAGCCTGGGCCCATCTCCAAGGTTTCTGA
+GTCAGCAGGTCTGGGGTGGGAACCGAGAATCCATGTCTAATAGTTTACAGGGGATGCTGACAATGCTGGTCCGGGGACCA
+CATTTTGAGAATCACCGGGTTTAAACCTCTCCATACCTGCCAACCCTCAACCCCCAATGGAAAAGCCAGCCTTGGGGGCT
+GAGATTTCAGTGCAAGTTCAGACTCTTGCCCAAGATATCAATTCTCAATCAGTTGACAGATGTCCTGGCTGAACAAAATC
+ACATGATGAAGGAGATTAATGAAAAATTTAAATCAGCAGCCAGTTTTCATTTCTGAGAGGGCAGGCAGGAAAGTGTTACC
+AAAAAATGCACAGGTATCAGCAGGTCTATATCCAGGTTAAAAAGTGGTTTTCTGTCCTTTCTGTGACCAACCAAGTACAA
+TCAGACTCCATCGTCAGCATTCCCTGACATGTATGTTTTCTGGGAAAGTAAGGTTAGGATCTGGAATTTCAGACCAGGAA
+AAAAAAAAAA
+>ref|X60149.1| Ovine mRNA for interleukin-2 receptor beta chain
+CTCCCGGTGCGATGCCAACAAGAGGCTGAAAGGAAACCCGCGCTCTGCAGAGCGACACTCTCTCTTCCCGGCCCCGATGT
+CGGCAGTGATCCCAGGGGCCAGGAGGATGGAGCCAAGCTTGCTGATGTGGAGGTTCTTCGTATTCATCGTGGTACCTGGC
+TGCGTGACAGAGGCTTGTCATGATGACCCTCCGAGTCTCAGAAACGCCATGTTCAAGGTCCTCAGGTACGAGGTGGGCAC
+CATGATAAACTGCGACTGCAAGGCAGGCTTCCGCAGGGTGTCGGCCGTCATGCGCTGCGTGGGGGACTCCAGCCACTCTG
+CCTGGAACAACAGATGCTTCTGCAACAGCACCTCCCCTGCTAAGAACCCAGTAAAACCAGTTACTCCTGGATCCGAAGAA
+CAGAGGGAGAGAAAACCCACAGATGCACAGAGCCAAACGCAGCCTCCGGAGCAAGCTGACCTTCCAGGTCACTGCGAGGA
+ACCACCGCCATGGGAACATGAACGTGAACCTTTGAAGAGAGTCTATCATTTCACGCTGGGGCAGACGGTTCACTACCAGT
+GTGCCCAGGGATTCAGGGCCCTACACACCGGTCCTGCTGAAACGACCTGCACGATGATCCACGGGGAGATGAGGTGGACC
+AGGCCCAGGCTCAAGTGCATAAGTGAAGGGGCGAACAGTCAGGCTCCAGATGAAGCAGAGCCTCCGGAGAGCACAGAAGC
+TCCCCCTGGGAGTGGAACTTTCTTAACAACCAGGATGGCAGGGACCACAGATTTCCAGAAGCCCACAGACGTGGTTGCAA
+CGCTGGATACGTTCATATTTACCACCGAGTACCAGATCGCAGTGGCCGGCTGCATCCTCCTGCTCTCCAGCATCCTCCTC
+CTGAGCTGCCTCACGTGGCAGCGGAGATGGAAGAAGAACAGAAGGACAATCTAGAAAACCAAGGGCCAGAAGAAGTCAAG
+AACAGCCCACAGGTGTCACGGACCACAATCAGAATCAAAGAAGCTAAACACTCATCCAAGAGGCATCTCCTGATCCGGTG
+GGCTCTGGAAAGCTCTGAAGTCACGTAACAGAACACTGGGCAACTGCAGCCCCATCGTGAAGCCAGCTCTGTAGTATCAA
+CCCTTGAGGCTGACCCGTCTAGGCAGCAAGTCCAAGGTCGCTGGAGGAACGGGGAGAGGCAACCAGAACTCTTTCTCCTG
+TTTTCATGTATATGTGATCACTAGATCACAAGTAGCCTGGAGCTCTCTCCACACCATGTAGTGTAAAGAAGAGTAGTTTC
+ATGCTAAGAGCATCCCGACTTCCCAGGTTAGAAATCCCAGGGTA
+>ref|Z18897.1| O.aries gene for interleukin 3 (multi-CSF)
+GGATCCAGACCCCTGCAACACAACCCTCTCCTTTATTCACTGTCTGCCAGATAAATTCCTGCCTGCTCCACTGGGCCTTC
+AGCTGGCCACCCACTCAGAACCAGGGAGTGCCAGGTGGGGTGGGAAGCAGAAGGTCAGGGCTGTCCAGGGCATGGCAGGA
+CCGCATCCCACTGGGCAGGAGCTCTGAGTCAGTGGACCCTCACCTGTCAGAGAGGATCTCTTACCTATCGCCACTCTGCC
+CAGTGACCGCCTGTCTCAGCCTCCCTGGCAAGATAAGGAGATACCCTTTGAGTAATTTTTTTTTCCAAGTTTCACTGATC
+TCAAATACTAGAAAGTGATGAATAAGTCTGTGGTTTGCTATGGAGGTTCCATGTCAGATAAAGGTTCTTCCGAAGCCCGT
+CCTCCCTTCGCTTCCCTGGGGCATGGGCACACTGAATAAAAGTCGGGGGCTGTCTCAGACACTTCAGAACACCACGAAGG
+ACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCCTGCTTT
+CTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAAATTATG
+GATGACCTAAAGAAAATAACTCCGAGTCCAGAAGTGAGTAGCTGGGATAAAGTTGGCAAGGGGCAGGGAAGGGCTGGCAG
+GTGCCTTGGGCCAATAGACTCAAGGGCTCTCTCTCTCTCTCTCTCTGCCTCACCAGGGCTCCTTGAACTCAGATGAGAAG
+AATATCCTGGCGGTAAGAGTTCAGGCCCCACACATGGGTGGCAACTTGGGTGGGTTCCCATCTCCTTCCTGCCTGGCGAC
+CTCAGGGCATGTCACACCACCTTGGCTAGCCACTAGGGTTAGCAGCACCTATCTCAGCGGTGGTGTGGTGAAAATTAAAT
+GCACAGTGTGCATCAAGTTCCCAGGCCAGTGTCTGGTTCTTGTCGAGTGCTCGGGACATTTGCCCAGTTATGGCTGTAAT
+AATGAAAATGATTTTTCTTAATTACAAAAGGAAAAGGCAGCTCTAGATGAACAATACCAGAGGCCTTAAGCTCAGTTTTC
+AGTGGGGCAGTTTCTGGGCTGGCAGACTAAAATTTCCCACAGGATCATGCCTGCCACCTTCTTTTTCCTTAAATAATTGA
+GTCATGTTTTCCAGTGCCAACCAGCACTAGTCATCATCACTTTTAGCTATTTTTCCTAAAGTGGTTATTTCACCTTTGCT
+TGCATGGCAATTCTTGGGTCAAACAAGAGGTAGAATCTCTTGAGTTCATTGGCCATTTGCATTTCCCCTCTCTGAGGCAC
+TAGTAGTTCACACGCTGCACCCCTTTCCACACTGGGGTCTCTGTGATTGTCTTCCTGATTTCAAGGAGCCGTTAATTCAG
+TCAATTCAGTTAATTCATGGCCTTTTAGCTGCAAATATTTCCCTTAGGCAGGCTTTTGGCTTTTTAGAGTCTGTTTGGGG
+AAATATTTTTTTCCCCCAAGTGCAAAAAGATCCACCCAGGACCTTCATTCAGCTCACAAGAGCCACAGGCTTGGGACGTG
+GGTGATGTAAAGCTTGTCTGGGGGTGTGCATTCACCTCTTGGATGGCGACCTTTGGAGCAGTTCAGAGACACATCTGGGG
+CAAGAAGGGGACTAGGAAGGGGCTGTCCAGGGATGTCCCTAAAAGCAGTCTTGGAAAACTGCGAGGGTGACTTCAGCCCA
+GTCGTAAGAAGGACACTCCAACTTTCCCCCTCACATGTATTCTTTGTCCCCTTAGAATAAGAGCCTCCTACAGGCAAACC
+TGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAAATCTTAAGGTATGTGAAGCT
+GTCAAGGGCCTGGGGATCCCTACCTTGACCCTGCCCTTCCTCTGGCAGGAGGGTGGCGGCTCTTGCTTGTTATCGAGGAC
+AGTCTCTGACTGTTTGCTTTGGTCTCTCCCCACAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGTAAGCTGC
+CCCCAAAATGCCCCTGAGGTGATGCCCTGAGCCACAACTTGACCCCAGCCTGACATCCACCTTCCAACCCGGCTCCATCT
+GATGCCTCCTTCTTTGTTTCTACACAGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGGGATTTTCGGATGAAATT
+GGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTATCTGAAGTCCAAGAACAT
+ACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGTGACAACAGACTGTCCTA
+AATTTCTTCGATGTTTCTCACATGGTCCAGGCCCTGGAAGAATTAATTTTCTCCTGTGGAGCCCAGATGAATCGTTAATT
+ATTTAACTCCTGATATGTGTGGCCCCCATTTGTCCTTTTGGGATTATGTTCTCATTTTTAATCTATTGAGACTTATTTAT
+TTATGTATGTATTTATTTATTACCTTGTGCAAATGTGAAGGGTATTTATTTTAGCAGGGGAAGTCATGTTCTGCTCCTTC
+TGGACAAAACTTAAGATGGGGACTTGGGAGTATGTTCATTTGTACCTCAGATTTGAAACTGAGGTACACATCTTGAAAAT
+AAACTACACTCTCTTAACAAATGCTTTGTTGCTACTGTTTCACTTTGACTCAGTAACTCTCTCGCCTGATGATTTAACAT
+G
+>ref|NM_001009420.2| Ovis aries interleukin 3 (colony-stimulating factor, multiple) (IL3), mRNA
Z18291.1 Ovis aries interleukin-3 gene
+CGAAGGACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCC
+TGCTTTCTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAA
+ATTATGGATGACCTAAAGAAAATAACTCCGAGTCCAGAAGGCTCCTTGAACTCAGATGAGAAGAATATCCTGGCGAATAA
+GAGCCTCCTACAGGCAAACCTGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAA
+ATCTTAAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGG
+GATTTTCGGATGAAATTGGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTAT
+CTGAAGTCCAAGAACATACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGT
+GACAAC
+>ref|NM_001009378.1| Ovis aries casein kappa (CSN3), mRNA
X51822.1 Sheep kappa-Cn mRNA for kappa-casein
+TTCCTTACAGTTCCCAGGCCAACTGAACCTACTGCCAAGCAAGTGCTGACAGTGACAAGGAAAGGTGCAATGATGAAGAG
+TTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAAGAACAACGAATAT
+GCTGTGAGAAAGATGAAAGATTCTTCGATGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCT
+AGTTATGGACTCAATTACTACCAACAGAGACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCGAA
+GCCAGTTGCAGTTAGGTCACCTGCCCAAACTCTTCAATGGCAAGTTTTGCCAAATGCTGTGCCTGCCAAGTCCTGCCAAG
+ACCAGCCAACTGCCATGGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAGATCAGGATAAA
+ACAGAAATCCCTGCCATCAATACCATTGCTAGTGCTGAGCCTACAGTACACAGTACACCTACCACCGAAGCAGTAGTGAA
+CGCTGTAGATAATCCAGAAGCTTCCTCAGAATCGATTGCGAGTGCACCTGAGACCAACACAGCCCAAGTTACTTCAACCG
+AGGTCTAAAAACTCTAAGGAGACATCAAAGAAGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTATCCTT
+TGGCCAGTTGTCTGCCTTCAGTGAACAGAGAATATGATTTTCACAGATCCAGCTCCTTTCTCATCTCCTCTTACATTTTA
+CATTTATGCCGCATTTAGTTTTTTGATTCCTGCATAATAAAGCCAATCAAATGC
+>ref|X01610.1| Sheep B2A and B2D genes for B2 high-sulphur keratins
+GATCCTTAATTGAATGACCACTTAGGAAGGGAATGTTCAGTTTAGACAAACTCTGCCTAAAGGCTATCAAAGGACATTTA
+TGACAAAGCAAGCCAGGGCAACGGTTAGCCAAAGTCTAATCTATCACACAACTTTCATGATGAGTCTTGGCTTGACCCAA
+AGGCAAAGAAGAAACATAATGAGATTTAATTGAACAATGACAAAAGCAGGCTATTCAAAATGCTATTTATAACCTTCTTA
+ACAACTCAAATATTAGCCAATCAGAGACTGAATTTCAATGGTATCCAGGAAAAATGCTAAATGTTAGGGAAATAACATAG
+CTCTACAGGATGTATAAAAGGACAGATGCAGAAGGTGGAGCCAAAACTCAAAAACTTCTCTTAACAACCCTCCTCTCAAC
+CCAACTCCTGACACCATGGCCTGCTGTTCCACCAGCTTCTGTGGATTTCCCATCTGTTCCACTGGTGGGACCTGTGGCTC
+CAGTCCCTGCCAGCCGACCTGCTGCCAGACCAGCTGCTGCCAGCCAACCTCCATCCAGACCAGCTGCTGCCAACCGATCT
+CCATCCAGACCAGCTGCTGCCAGCCAACCTCCATCCAGACCAGCTGCTGCCAGCCAACCTGCCTCCAGACCAGTGGCTGT
+GAGACGGGCTGTGGCATTGGTGGCAGCATTGGCTATGGCCAGGTGGGTAGCAGCGGAGCTGTGAGCAGCCGCACCAGGTG
+GTGCCGCCCTGACTGCCGCGTGGAGGGCACCAGCCTGCCTCCCTGCTGTGTGGTGAGCTGCACACCCCCGTCCTGCTGCC
+AGCTGTACTATGCCCAGGCCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCTGCTGCCGCCCAGCCTGCTGCTGCCAG
+CCCACCTGCATTGAGCCCATCTGTGAGCCCAGCTGCTGTGAGCCCACCTGCTGAAAGCAAGGCTGCTGATTGCTTAAGAA
+TGAAGGGGGAAGCAAAACAAACCTGCGCTGATCTCTGAAGAACCATTCAATTTTTCTTGGATGCTAAGTATCATGAAGTT
+TCTAAGCTGCTCAGAAATGAAAGTCTTAGGACACTTTTGAATGTTCTGAAATAGCACGCTGAAAACAGGCCTCAGCCACG
+GTGTCTGGATTTCCTGCCTTGCTTGAGCAGAGTACCAGACTCGAGTAGCTCTTCATTTCAGTGACATCTCTGATCTCTTT
+CCTCTCTCTTGTTCCCATATATTTTCAGACCTGCTTTCTCCTTCAATATCCTGTTAATTTCAAATAAAATATTTAAACTT
+GCAAAGCAAACTGAGTTATTTTCTTCCTTCTACCTTCAAGAGTGAATTTGACAGTAATGCTAAGGCATGAACATAAAGTC
+TAAGCCAGAGAGATTAAATACAATTACATTATGCTTAAATCTATTGCTTAGCAAAATGCTCCATGCATTAAATAATCTTT
+GTAGTTGTTCAAATACTTACCTGATCTAATCTGTTGTGAAAAGAAAGAAAGTGAAGTCATTTAGTCGTGTCCAACTCTTT
+GCAACCCTATGGACTGTAGCCCACCAGAGTCCTCTATCCATGGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCCAT
+TTCCTTCTCCAGGGGATCTTGCCAATCCAGAGATCAAATCCAGGTCTCCCACACTGCAGGCAGACTCTTTACCCTCTGAG
+CCACCAGGCTCTTTTTACCTAACATTTTCAGATTGATCAAAGCTACAGATGTAATCCTATCATATTTTAATCTCCTTCTG
+CTTAATAGAGTAGATGTTCTCCTTCATGCAGGCCCATATCTAAAGAAATTGTATTACCTATTAACTAGATTTCAAAATAT
+CAACCAGATACTATCAGATACTATCTATTTTCCAAGATCATTTATGTTCAGTTCCTATACCTTAGCCTATTGTATTCTTC
+CCGCTGATTCCCAAATTGCTCTCTAAGTTTCAAACCCAACACTAACTGCCATTAACTGTATTTTTATGGTGTATCTATGG
+TCTCAATGAGAATAGAACAAATAGCTGCAGAGATAGCCAGTGAGTTCTACCATCCCCATTCTAATGGATGTGTCAGACAC
+ATCCATTAGAAATCTGAAACAACTATGTATTTTATACTTTGCAACCCAATCTGAAAAATGTTCCCAATAAATGCACACAC
+ATCTGGAACAAAAAATACCTCTTAAAATTTAATTTTTTCAGTTCTTAAGTATGTGAGCACAACATACAAAACACAATAGG
+AGAAAACGTAGAACACATTGAGAACAATATTTTTGAGACAATTACAAGCTCCCGGCACTCACCTCTATCATTCAGCTGGT
+GGCAGTGATAGGTCACACACAAGATTACTTATTTCAGAGAAGAATAAAGTAGATACAGTGCACCCTTCAAAATGTCAGAG
+CTTATCGATGCTTTTTCTTCAGACTTAGTTCAACTATTAAATACAAAAAGATGTCAGCTTCTCCTGTTCCCTTTTGACAA
+TCATAAGGACTGCTTCATGAGAGGCACTACAGCTTAAAAGTTCTATTTAATCATTTATAAGTGGTATAGACACTCATGAA
+TCATGCCTTTTACTCCACCCATTGAAAATCAGATTCAATAAACATTTATTAAGGTTCTACCAGAAGCGAAGCACTGTGGT
+GGTGATCTTTCTGTATACTATATCATTTGGTTCACAAGGAAATATTTCTGGCCGTGGAACACAAGTAATATTTACACATT
+TCAAATTGGTTGAAATCAAAGGAAAAATGATGGTGATTTATTTGATGTTGGAATAAATGAGTTGGAAGCTTTTAATTATG
+TGTGACCAAAGGTACCTTTCAATTCAGTGGATGTCTTGATGTTCTAAATTCAAGAGAATTCAGTCTATATATTCAAGAGG
+GGGAAAAAAATAGCTAAAAACAGCACAATTACTCTTAGCCTTAGAGACCTAGACAGAGAATCACATGGAATAACTACCTC
+TACAAAATGAGGGTGTTGACATGGACAAAAATGGGAGGGCTCTTTGAACATGGAAAACCACAAACCTATTCCAAAGAGCA
+AAGGACCAATATGAGGAGTCCAAATGAAACTATAAAACGAAGTAATTTCTAAACTGCTGCTCATAATGTATCATAGGTAT
+TTCAATGTAAGCCAATCAGAGGACCACTGAAAAACAAATTTATACAAAAACAAGGAAGATATGCCAAGAAGTCTATAAAT
+AGCAGCTAGCGCGATATATAAAAGGCCTGACACAGAAGTCACCACCCAAAATCCTCCAAGCATTACAATTCTCAGCCCAA
+CTCCTGACACCATGGCCTGTTGCTCCACCAGCTTCTGTGGATTTCCCACTTGCTCCACTGGTGGGACCTGTGGTTCCAAC
+TTTTGCCAGCCAACCTGCTGCCAGACCAGCTGCTGCCAGCCAACCTCCATTCAGACCAGCTGCTGCCAGCCGACCTCTAT
+CCAGACCAGCTGCTGCCAGCCAACTTCCATCCAAACCAGCTGCTGCCAACCGATCTCCATCCAGACCAGCTGCTGCCAGC
+CAACCTGCCTCCAGACCAGTGGCTGTGAGACGGGCTGTGGCATTGGTGGCAGCATTGGCTATGGCCAAGTGGGTAGCAGC
+GGAGCTGTGAGCAGCCGCACCAAGTGGTGCCGCCCTGACTGCCGCGTGGAGGGCACCAGCCTGCCTCCCTGCTGTGTGGT
+GAGCTGCACATCCCCGTCCTGCTGCCAGCTGTACTATGCCCAAGCCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCT
+GCTGCCGCCCAGCCTGCTGCTGCCAGCCCACCTGCATTGAGCCCGTCTGTGAGCCCACCTGCTGTGAGCCCACCTGCTGA
+AAGCAAGGTTGCTCATTTAAAATTGCCCAAGACACAGTATCTCTGAATAATTTATCGCCTCAACCACCCATGGACAGCTA
+ACAAGCTCTTAGCTCCCATTTGGGTTTTTGTTATGGGCGCTACAGAGTATATGAGTTCTATCTGATTTCATTCTACAATG
+AATATCTGTACTTTCCACGGCAGATGCTGCGTACCACCTGTCATCATCAAATTGCTTTGGCTATACTATTTCTGATTTTG
+ATGCAAGGTTGAATATTGCTGACATATTGTGGAATTTATCCTTTTGAACTGCGCACAAGCCTATTTCTCCTGCTTTCTGA
+TCTATTTTTAGCTTCTGTTTGTCCCCAAATTTTTACAACGTCAAAGGCACCTGAGTATAGATAGTATATCTTCAGATGTC
+ACCAATGAGAATAGAAGCTCTTCACCCAATGTTCAGCTTCTAAGAAGGAGACTAGACTTTTCCATATTTCAACATCTGAT
+TCCATCCTCCTCTTTGCCTGTTGGCTATTTCAATTATATCTGTGATTCAGTGTCTTCTGTAATTTTTTAATAAATGTTAC
+ATATGGGGCAAAGAAATCACAGCCTTTGTGTCCACTTACACACAAAATGGGTTAATTTCTTCTGATTAAAAGATGCCTGT
+TTTAAAGAAATACATTTGTTTCTTTCTTAAAGGGACTGAAGTCATATACAGTGTAATAATTTAGTCATTTTTCCAGTAAA
+AATTTATTGACTACCACTTCTAAAGCAAGAACTAAGAAGATCAGAAAGATGAAAAATTGTTTCTTATCCTTGAGGACTTT
+ACTATCCAACAAGAAAAAGTATATGTGAAAGTAATTACATACAATATGGCAAGATAAATTGTATTCCCTTAGCAGCTG
+>ref|X02925.1| Sheep B2C gene for B2 high-sulphur keratin
+GATCCCATAGTCACATTGTCTTATGAGTGACAGTGATGTAATCATAAGCATAATACAAAGGCTGAGACTTGAGAAATTAC
+AGCATTATTTGAAAACAAAACATCAGTATTTTTACCAAAGACAAACACGTTTGGTGAGTATTAGCTGAGTAATAAGGAAA
+ATCCAATTTGGAGATATATTTAAAATAACTCATTATTTCAACAATCAGAGGGGCCTATTACCGTGGAAAAGATCGTTTAA
+AAGAGTAATAAGATAAAAATGCTGTCCATCACAAAAACAGGAAGTGGCAAAATTCTATAAAAGGCCTGGGTGGAACAAGC
+AGACCAAACTCAGAAACTTCTCCAAGCATCCCAGCTCTCAGCCTAACCCCTGACACCATGGCCTGCTGTTCCACCAGCTT
+CTGTGGATTTCCCATCTGTTCCACTGCTGGGACCTGTGGCTCCAGCTGCTGCCGATCAACCTGCAGTCAGACCAGCTGCT
+GCCAGCCAACTTCCATCCAGACCAGCTGCTGCCAGCCAACCTGCCTCCAGACCAGTGGCTGTGAGACCGGCTGTGGCATT
+GGTGGCAGCACTGGCTATGGCCAGGTGGGTAGCAGCGGAGCTGTGAGCAGCCGCACCAGGTGGTGCCGCCCTGACTGCCG
+CGTGGAGGGCACCAGCCTGCCTCCCTGCTGCGTGGTGAGCTGCACATCCCCGTCCTGCTGCCAGCTGTACTATGCCCAGG
+CCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCTGCTGCCGCCCAGCCTGCTGCTGCCAGCCCACCTGCACTGAGCCC
+GTCTGTGAGCCCACCTGCTCCCAACCCATCTGTTAAAAACCTACTGATGGAAATTCTAAGACAATGGCACTTCAAAATTA
+GCCAGTGTACAGTCCCAACAAACTTCTAAGGACTAGTACCCATAACCCAGCTTACCACCTCATGTCAGAAGGCTACATAA
+TTTCCCTAACATGGAAAATTGATTTATAATAAAAAACCAAAAATATTTCATAGATCTGGATATCAACAGAAGTCTTACAG
+TGTGAAAAGAAATGTGTAATACTTTACTATAAATATCTTCTGAAATGTTTCACCAACTCACTTGGCTTTTGGGTTTAATA
+AAATTTTTCATTCTTCAGTGATGAAATCATTGTTGGACTTTCTTTTCTTTGGTGTCCATTATTGATATTGGGGTACTGGG
+ATTTCTCAAAATGTCAATAAATGTAGTGTAGCACTGCGGTTTTTCTTTATTACTGTGCTTTTAGCAGTGGCCTTTAAAAG
+GTGGTTTTCCTTGTCTATCTACAGTCAAAGTATATGATTAAAAGAATACGTCAGTATTTAGACACTATTCCCTGAAGTCC
+TCAAGTATGCAAATTAATGGGTTAGGTGTCCCAGAATAACCAATTTTATGTCTTTTGGCTTCTTGAGGTGTCAACCAAAA
+ATATTCAGTTCATTCATATATGATTCTGTGGACAGTTCTTTAAACTATCGAGGATATAAAAGTAATGCATAATTGGAAAG
+ACAGTTATTAGGATAAGATGTGGGCTTCCCTGGAAGCTCAGCTGGTAAAGAATCTGCTTGCAATGCAGAAGACCCCTGGG
+TCTGATTCCTGGGTCAGGAAGATCCCCTGGAGAAGGGACAGGTTATCCTCTCCAGTATTATTAAGCTT
+>ref|X05638.1| Sheep HGT-C2 gene for high-(glycine + tyrosine) (HGT) keratin
+GCTTTTTTCAGTTTAGTTATGTCAGCTGGGAGGAGTTTATAATCAGAGAATTTAAACAGCCTCACAGGATGCAATCAGAA
+CAGTTGTTAAACCATGGGACACTGATGAAAAGAATTCAATTGCGTGTCAAGGAAGGCGCTGACTTTGAAGATACAACACC
+ATTCCTTTGTAAATAGATAAGCCAACAAAAATATGGGCAAAGAGTCTGTGGGTTGCTTTATATGCATTTTATTAGCAATA
+ATGGAATTATCTGTGCAAATTTATGGCAAGATGTTTAGCAAGCATGTCATCGGACAGCTTGAGGTATAAAAGGTTCCCGT
+GCATTACGAGAACTTCATTCCTTCTTGGGTAACTTGCTCTTCACATTCTATCCAAATCCTTCCCACTCCTGCCACAATGA
+CTCGTTTCTTTTGCTGCGGAAGCTACTTCCCAGGCTATCCTTCCTATGGAACCAATTTCCACAGGACCTTCAGAGCCACC
+CCCCTGAACTGCGTTGTGCCCCTTGGCTCTCCCCTTGGTTATGGATGCAATGGCTACAGCTCCCTGGGCTACGGTTTCGG
+TGGAAGCAGCTTTAGCAACCTGGGCTGTGGCTATGGGGGCAGCTTTTATAGGCCATGGGGCTCTGGCTCTGGCTTTGGCT
+ACAGCACCTACTGATGGACCATGGCTCCAGATGACTACGGGAACCCGCCCTCAATTCTCTGTGTGCAGAACAGCCTGAAA
+AACAATGACTGTCTTCCTGCCTCCAGAAACACTTGAGAGAGAAACACTGCAGTCTTCTCGATCTCCGACAGTGCTCAACA
+AGTCACCCAGGCATCAGATGCTGAGCTGATTCTCATCTACAGCCAAAGCAAGATTTTGTATTTCTCTAACATACTTGAAT
+TTTAGCTAATGAGGAAGACAGTCTGTCTCTTATGATAGCTCTGCCCGTCTATCTTAAGTTCTACATCAGTATCAATGCAT
+TACTATTACATGTGTGAGTAGGAAGGGGTTTTGCTTGTTCATCACAATAAATCCAATTCATTCAGCACAAACATTTTGTT
+CGGTTGTTTATTTTATTGTGCCTTTTGTTTGTTCATTTTGCTCTCATCAACCAGTTTCAACCTGTGAGGTGGCTTCAATC
+ACATTTTATTCTGATTTTCAGACTGTACACCTGGAATAGGTTGATGCCTAACAATTTTGTCCCTTTATGTTGAGATTTTC
+AATTAAAAAAAAATTCTTAAAAAGTCCTAAATTTAACCAAAATAGAAGATGGCCCTTGAACATGTTGGGAGGTTAATCCA
+TGTATAATCTATATTCAGCCCTTTGTATCTGAGATTTCTCTGCATCCCATGGATTCAACCAGCTGTGGAGTGTGTAGCAT
+TGTAGTGCTTACTACTAAAAAAATTCTGCATATAAGCGGACTTTTGAAGTTCAAACCCACTTTATTAAGTCAGTTGTATA
+GTCTGTACACTGCGATTGTTAGTGTTCTCTATGCTGATTATAAATAGCAAATTTTCTTAGCTGTTTAATGTTAAAAGAAA
+ATTCTTTCCTCCTTTCATTATTGACACGATTCCATTTAAGCTT
+>ref|X05639.1| Sheep gene for high-(glycine + tyrosine) (HGT) keratin
+AGCTTCATTTTTTTTTTACACTTACAAGATTATTAGTTCAGGTAGTGGTTTAAAAATGTGATGTTAAATATAGTTCAGGT
+GGGTATTATAATTAAAATTGAAATTTTATTCAGTTTTGTAAACACGGTAGCTATAAATAGAGGAAAAAAGAGTCTTTCCA
+ATGAACTCTTTGGTATTTGTCTTGGATAAATCCAAAATAAATTGTTTAATCAGACAAACACAAAGAATATCTCAGTCTCT
+GAGGTGATTTCACTATGTATTGGCTTTCCAGGTAGCACAGTAGTAAAGAATTCGCCTTCCAATGCAGGAGATTCAAGAGA
+CGAAGGTTGGATGCCTGGGTGGGGAAGATCCACTGGAATAGAAAACAACCCATCCTAGTATTCCTAGTATTCCTGCCTGG
+AAATTCTATGGATAGAGGAGCCTGGCAGGCCACAGTTCACCAGGTCACAAAGAGTGGGACGCAACTGAGGACGCAACTGA
+GCACGCGCACACACACACACACACACACACACACACACACAGTATGTATATGTTATTTCATTCAATTTTTTCCAACACAT
+ATTTATTGAATTCCAAGTGTGTGCTGTGGAAATTCAGTGCACAAGATGACTGGATAACAGTTAACAACCTCAGAATTTTC
+GTAGTACTGTAAAGCCTGCTTCCAGAGGCTTGTACTTAGGACTTTATAAGACCCAGGGCTTTGAAGACTCTGCAAAGCGG
+TATTTTAATGAAGGGACACAATTTTACAGGAAGGACTCCAGCCCCTGTTATTCTATCACATGAGAGCTTCTGAAGCAACT
+GTAAAGACATCTTAAGCAAGCAACACAAACTAATTAGCAATGGTGTCATGAATGAAAATGACGCCTTGTGTTTTTCGCCA
+CGGTCCCCTAGCCCGGGTATATAAAGAAGGGAGCATAGGGAATCCATCATACTGAGGAAATTCATTCCCTGCTCTCCAAG
+CCGCCCAACCCAGACACCATGAGCTACTGCTTCTCCAGCACCGTCTTCCCAGGTTGCTACTGGGGTAGCTATGGCTACCC
+GCTGGGCTACAGTGTGGGCTGTGGCTACGGTAGTACCTACTCCCCAGTGGGCTATGGCTTCGGCTATGGCTACAACGGCT
+CTGGGGCCTCCGGTTGCCGAAGATTCTGGCCATTTGCTCTCTACTGATTTGCTGAAATACCAGAGGCATGGAATCTTCTC
+CCCCAAACCCACGAGGCGGACTTCCAGGTCCTCAGAGACTCATCAGCCTCCCAGTTAGCTGCTTTTCACATCGGCACCAG
+AGTCTCAAGGGAAGAAGATGAAAAACCACTTGCCTCCAGCTGCCTTCCTGCATGATGTTTGTTGGGACATTTTGAGAAAC
+TTGACACCCAAACACGTTTTACGTTTGAATTTTTCACCATGCTCATGACTCTTGTCATTATCAAGTTGTGGGATGTGTCT
+GTCAAATTCTCAATAAACTTGTCTCAACCGCATATTATATTCTTACTTGAGTGGAGTTTCCTTTCTTGGTGCGCATATTT
+CTTGAAACAGGCAGTGAGGTGGATAGTGGATTTAGTTTTCTCATGTGGTTGTTAGAAGCAGTGAGAAAGCAAATAATCCT
+GCTCTCGTGTGAGAAGCAGGCAACAGGGTCTGCTTATGATTTTTTTAAAAAATTCTATCTTACCCTTCCTTTAAGTCTGC
+GACATCCTCCTCCAATTCTGCGTCAGTGTTACACCATCCATTGTTTGTGTCCCCATTCCGCATCTCGCTACTCCTGTTCC
+TCACAAGGAACCCAACACTGAGGGACTCTGTCAATTATTCCTGTATCAATACAAATCAAACCCACTATTTTCCTCTCGGG
+GACCAAGGATTGTAAATAAAATGCCATGTCCCTTATTTAAGGATTCTGGAGAATCTAGAATACCTATAGAGACATTTTAG
+GGATCTGAGAGTCTTTTAAGGGAGGAATAGATCCCCCATCTCAAACCACCTAGGATATCTACTTTACAACTTACAAGGAC
+CGGTTTAGAAACAGCGACAGAAAGCTT
+>ref|Z18528.1| O.aries repeat sequence
U24089.1 Ovis aries satellite I repeat, clone REPEAT4
+AATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCCAGTGCTG
+ACATGGATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTGCGCTTTC
+CTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCTTTCCCAC
+GGGACTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGAACGTCAA
+GGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGATTGGTGGCACGACCCTGGAG
+TTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGG
+>ref|X07972.1| Sheep metallothionein MT-I pseudogene
+CCCGGGGAAGGGGAAATGGTGGCGAGGGTCACCTCCACCTTGGGTCTGGGGCACCACTCCCCGGCCTCTGCCAAGCGGGA
+CACCAGCCAGCGGGAGGCGGGGTGGCTCACTGGCTCCAGGCAAGGGCGACCCGAGGCCGGCGGCGCGGGGATCTGTGGCG
+GGGAAGCCGCGAGGACACAGGAGCCCTGTTCCTAGAAGCGCCGAAACACGTGGCTGCTCCCGTGGCGAACACGGGGACGG
+GCGGCCGGGGCGAATGGGACCCCGCTTACCGCTGGCACCGGGCCCTGGGCTCCAGCCGGCACCAAGGGGAGCGCGCGCTC
+TGCCCGGGCGCCGCGGGCGGGGCGGGCGCAGGGGGCGGGGCCTCTGCGCGCGGGCCCCTCCCCTCCGAAGGCGGGTCAGG
+ACTGGGCTCCAAGGCCTCCCACCGGACCATGGGTCTGCTTCACCACCGCTTTGGACCTTGGACCTCGCCTTTCCTCCTGA
+TGGACCGCAAGTGCTCCTGCCCCACTGGTGAGGGACCCCTGGATTTGAGCCCTACTGATGCCTGCTTCTCAGTAACTGGA
+CGGTGAGTCCCCAGGGTTGCAGAAGGGAGTGTGTGGAGTTTGATCACAAGGGGACCGCTGTCACTTACTGGTCTAGGAAT
+GTCTTCCCAGCCGGGTTCCTGAGAGTATTTCAGGCGC
+>ref|X66093.1| O.aries mRNA for Mx homologue
+GAATTCGGCACGAGCTGCCAACTAATCAGCACTACATTGTCAAGTAAAAGGAAGGTATATTGAGGAAGAAGATGGTTCTT
+TCTGACTTGGATATCAAAGAACCTGATTCACCTGAATCCGGTCTAAATGGAAGTGACGATATGGTGAGGGAACATGAAAC
+GGAGTCCAAGGGCAACCTGTACAGCCAATATGAGGAGAAGGTGCGGCCCTGCATTGACCTCATCGACTCTCTGCGGGCCC
+TGGGCGTGGAGCAGGACCTGGCCCTGCCCGCCATCGCCGTTATCGGGGACCAGAGCTCGGGCAAGAGCTCTGTGCTGGAG
+GCCCTGTCTGGGGTTGCCCTCCCCAGGGGCAGTGGTATTGTTACAAGATGTCCTCTCGTGCTGAGGCTGAAAAAACTTGA
+GAAGGAAGGCGAGTGGAAAGGCAAAGTCAGCTTCCTGGACAGAGAGATTGAGATTTCAGATGCTTCACAGGTGGAAAAGG
+AAATCAGTGAAGCCCAGATTGCCATCGCTGGCGAAGGCATGGGGATCAGTCATGAGCTGATTAGTCTGGAGGTCAGCTCC
+CCTCACGTCCCAGATCTGACCCTGATAGACCTTCCTGGCATCACCAGGGTTGCTGTGGGCAACCAGCCACACGACATTGA
+ATATCAGATCAAGTCTCTCATCAGGAAGTATATCCTTAGGCAGGAGACCATCAACTTGGTGGTGGTCCCTGCTAACGTGG
+ACATCGCCACCACAGAGGCGCTGCGCATGGCTCAGGATGTGGATCCCCAAGGAGATAGGACCATAGGAATCTTGACAAAG
+CCCGATCTGGTGGACAAAGGCACGGAAGACAAGGTTGTAGACGTGGTGAGAAACCTGGTCTTCCACCTGAAGAAGGGCTA
+CATGATCGTCAAGTGCCGCGGCCAGCAGGAGATCCAGCATCGGCTGAGCCTGGACAAGGCCCTACAGAGAGAGCGGATAT
+TCTTCGAGGATCACACACATTTCAGGGACCTTCTGGAGGAAGGGAGGGCCACTATCCCCTGCCTGGCAGAAAGACTCACC
+AATGAACTCATCATGCACATTTGTAAAACTCTGCCCCTGTTGGAAAATCAAATAAAGGAGACTCACCAGAGAATAACAGA
+GGAGTTACAGAAGTATGGCAAGGACATCCCAGAAGAAGAAAGTGAGAAAATGTTCTCTCTGATAGAGAAAATTGATACAT
+TTAATAAAGAGATCATCTCAACAATAGAAGGGGAGGAACACGTGGGGCAGTATGACTCCCGACTGTTTACCAAAGTACGA
+GCCGAATTCTGCAAATGGAGTGCTGTGGTTGAGAAAAATTTCGAAAAAGGTCATGAAGCCATACGTAAAGAAATAAAGCA
+ATTTGAAAATCGGTATCGTGGCAGAGAGTTGCCAGGGTTTGTGAATTACAAGACATTTGAGATCATCATAAAAAAGCAGG
+TCATAGTTCTGGAAGAGCCTGCTGTGGACATGCTGCACACGGTGACAGATATAATCCGGAATACCTTCACAGAAGTTTCA
+GGAAAACACTTTAGTGAATTTTTCAACCTCCACCGAACTGCCAAGTCCAAAATTGAAGACATTCGGTTAGAACAAGAAAA
+TGAAGCTGAGAAATCCATCCGACTACATTTCCAAATGGAGCAGTTGGTCTACTGCCAGGACCAGGTGTACCGACGTGCTT
+TGCAACAGGTCAGAGAGAAGGAGGCAGAAGAAGAAAAGAAAAAAAAATCAAACCATTATTACCAATCTGAGGACTCAGAG
+CCCTCCACAGCTGAGATCTTTCAACACCTGATGGCGTACCACCAGGAAGTCAGCACCCGCATCTCCAGCCACATCCCCTT
+GATCATCCAGTTCTTCGTGCTCCGGACGTATGGGGAGCAGCTCAAGAAGAGCATGCTGCAGCTGCTGCAGGACAAGGACC
+AGTACGACTGGCTGCTGAAGGAGCGCACCGACACCAGAGACAAGAGGAAGTTCCTGAAGGAGCGGCTGGAGCGGCTGTCC
+CGCGCTCGGCAGCGGCTCGCCAAGTTCCCGGGCTGAACCCGCCCCCCCGTCCAGCCCCGGGTCTCCAGGGAGCAGACCAC
+CACCGACAGCTCCCCTGACGGCCTCATGCCCTTAGCTGCCCGCTTCACAGATGCTTCAGTGGTCAGCCTGCAGCCGGGGT
+CTCTGCTGTCTCTCTCAGTGGATAAGCACACTGGCTTTAAACAGCAGGTGATTTATTCGATCGTTCATCGCCATCGAGTC
+TTAGCCAACCGTCCATCCTGACTCTCTCCACCCTCTGTCAGTGATCCCCACACGCGCTGTAGAAGGGTCATTCCAATGAC
+TGTACAGCCTTTCACACCCCATGTGTTCGGAACATGAGTGCCACATTTGTGAATGCACACAGAAGCCTATTCCTTCAATT
+TGTAATACCGTTCTTTCTACC
+>ref|Z11599.1| O.aries gene for MHC class II (OLA-DRA), exon 1
+GTTTTTCATTCTTTTTGTTTGGTTGTGAGTTTGGTTAATTAAGAAGTTCCTTTTCATCAAATGCACAAAGCTTCTCCTTT
+CCTGGACCCTTTGCAAGAGTCTTTCCCTTAGCAACAGCAGTGTCATCTCAAAAGATTTTTCTGATTGGCTGCAGCTCAAC
+TGAGTTTAAATTTTTAATCAGTCAGACTCTATGACACCCTACATTCTCTTTTCTCATATTCCTGTCTGTTCTAATCCACC
+TTGAGCTCTCATCAAGACACGGACCCTCATCAAGACACCAAAGAAGAAAATGGCCATAACCAGGGTCCCAATATTAGGAC
+TTTTCATCACTGTCCTGATCAGCCTACAGGAATCGTGGGCTATTAAAGGTAAGTGCTGAGTTCAAAACTAGGAATAAATA
+AGTTCTGAGAGCTTTGGAGAAACGAACTGTGGACGTTTGCAAGACAGTCT
+>ref|X55131.1| Sheep gene for oxytocin and neurophysin
+TTAGAGACATTTGCAGTAGCTGTTGTAATGCAATAGGAGGATATCAGCCATTTCAGTTTGTGACGAAGTCACAGGTATTG
+CAAATTCCACTGTGGTTTGTTGCCTACCTTATAGTTGAAGGAAAGGCTGGATTTCACTTAGAAGAGAGAAAATAAAATCT
+TTTCATATCCAAGAGCCTCCTCCAGGTAAATGGATGTTGGTGTAGGGAGCCGGGCTGGGGTTCCAGGAAATCAGATTTCA
+GGAAGAGAACTTGCTTGCAGAGGGGAGCTAGGGGGTGTGTGTGGTTGGCCAAGAGGGCAGATGGGGGAGTCCTAAACCAA
+TCTCTTCTCGCCTGGAGGCCCGAGTGTTCATCCTGACCCCTCACCCCAAAGGAATGAGAGAGTCCTCGGTTGGGCCGCAG
+CCCCCATACTCCCTGTCCCACCGTAGACCCAGGCCACCGCACAGGCTCCCTGCCCAGAGCTGCTTGCTTCCCCTAGCGGC
+GCGCTCGCTATCATCTCCCGTAACATTAGCCATTAGCAGACATAACCTTGACCCGGCACAGCCCCTGCAAATGAGGGGGC
+GCGCCGGGGGCGCAGGGCCTGACCGGCGGGCGCGCTGTGACCAGTCATGCGGCTGCCCTCTTAAGACACCGTTCGCCCAC
+GCGGCGCCGGGCTTAAAAGGCCAGACCCGAGAGACGGCCGCAGTCCCCGGCCCGGAGCCCAGCGCGTCTGCACCATGGCA
+GGTTCCAGCCTCGCCTGCTGCCTGCTCGGCCTCCTGGCGTTGACCTCCGCCTGCTACATTCAGAACTGCCCCCTGGGCGG
+CAAGCGTGCGGTGCTGGACCTCGACGTGCGCACGGTGAGAGCCCCGCCCTCGACCCGTGGCTCTCCGGGCTGCCAGCCCC
+GCTGCCACAGGGTCGCCCCCGCCGCCCCCTTTCCCGCCCTGACCGCGTACCGGCCCCACCTAGCCTGGGAATCGAGGGAG
+CGGAGGAGCTTTTGACTGCCCTCCTTCGAGCCAATTCTGAGCCCAAAGAGAGGGGGAAGACCCGCCATCTCCCGCGCTCC
+TCAGGCCGCCCTCGCCGCCCGGCTCAGCCCCCCACCCCACAGGGTCTCCCTCCCCGGCGGTCCCCTCCCGGCCCCGGCTC
+ATCCCCGCCCTCCCGCCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGG
+ACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCGAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCC
+GGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGGATCTGCTGCAGCCCGGGTGAGTCCGGCAGGGGCCA
+GACGGGCCGGGGCTCCGAACCAGGCGGGCCGGCCAGGGTGGCCCTGACTCGGCGTCTCTCTGTGCAGACGGCTGCCACGC
+GGATCCCGCCTGCGACCCCGAGGCCGCCTTCTCCCAGCACTGAGACCGGCCGGCCCCTGACACCATCGGAGCACAGCCCT
+CACTCCCTCTGTAATCATCCCCAGGAATTATGACAATGAAATAAAGCCTTTTTTTCCCCTCCAACAAGCCTCGTGTCTGA
+GTGTCAGAACGGGGAGGGAAGGGCTTTGGGGG
+>ref|NM_001123399.1| Ovis aries trophoblast protein-1 (TP-1), mRNA
Y00287.1 Ovine mRNA (oTP-1) for trophoblast protein
+CTGAGATGGGATCAGAGAACCTACCTGAAGGTTCCCCCTGACCCCATCTCAGCCAGCCCAGCAGCAGCCGCATCTTCCCC
+ATGGCCTTCGTGCTCTCTCTACTGATGGCCCTGGTGCTGGTCAGCTATGGCCCAGGAGGATCTCTGGGTTGTTACCTATC
+TCGGAAACTCATGCTGGATGCCAGGGAGAACCTCAAGCTCCTGGACCGAATGAACAGACTCTCCCCTCATTCCTGTCTGC
+AGGACAGAAAAGACTTTGGTCTTCCCCAGGAGATGGTGGAGGGCGACCAGCTCCAGAAGGACCAGGCCTTCCCTGTGCTC
+TACGAGATGCTCCAGCAGAGCTTCAACCTCTTCTACACAGAGCACTCCTCTGCTGCCTGGGACACCACCCTCCTGGAGCA
+GCTCTGCACTGGACTCCAACAGCAGCTGGACCACCTGGACACCTGCAGGGGTCAAGTGATGGGAGAGGAAGACTCTGAAC
+TGGGTAACATGGACCCCATTGTGACCGTGAAGAAGTACTTCCAGGGCATCTATGACTACCTGCAAGAGAAGGGATACAGC
+GACTGCGCCTGGGAAATCGTCAGAGTCGAGATGATGAGAGCCCTCACTGTATCAACCACCTTGCAAAAAAGGTTAACAAA
+GATGGGTGGAGATCTGAACTCACCTTGATGACTCTTGCCGACTAAGATGCCACATCAGCCTCCTACACCCGCCTGTGTTC
+ATTTCAGAAGACTCTGATTTCTGCTCCAGCCACCAAATTCATTGAATTACTTTAGCTGATACTTTGTCAGTAGTAAAAAG
+CAAGTAGATATAAAAGTATTCAGCTGTAGGGGCATGAGTCCTGAAATGATGCCTTCCCTGATGTTATCTGTTGCTGATTT
+ATTTATACCTTCTAGCATTTAACATACTTAAAATATTAGGAAATTTGTTAAGTTACATTTACATCTGTACATCATATTAA
+AATTTCTAAAAC
+>ref|NM_001009476.1| Ovis aries prostaglandin-endoperoxide synthase 1 (PTGS1), mRNA
Y00750.1 Sheep mRNA for prostaglandin endoperoxide synthase
+CCTGAGTCGGTCTCCAGCACGCAACGGCCACCCTGCACCATGAGCCGGCAGAGTATCTCGCTCCGATTCCCGCTGCTTCT
+CCTGCTGCTGTCGCCATCCCCCGTCTTCTCAGCGGACCCCGGGGCGCCCGCGCCAGTGAACCCCTGCTGTTACTATCCAT
+GCCAGCACCAGGGGATCTGTGTTCGCTTCGGCCTTGACCGCTACCAATGTGACTGCACCCGCACGGGCTATTCCGGCCCC
+AACTGCACCATCCCGGAGATATGGACCTGGCTCCGGACGACTTTGCGGCCCAGCCCCTCTTTCATCCACTTTCTGCTGAC
+GCACGGGCGCTGGCTTTGGGATTTTGTCAATGCCACCTTCATCCGGGACACGCTCATGCGTCTGGTACTCACAGTGCGTT
+CCAACCTTATCCCCAGCCCTCCCACCTACAACATAGCGCACGATTACATCAGCTGGGAGTCCTTCTCCAATGTGAGCTAT
+TATACTCGCATTCTGCCCTCCGTGCCCCGAGACTGTCCCACGCCCATGGACACCAAAGGGAAGAAGCAATTGCCAGATGC
+GGAGTTCCTGAGCCGTCGCTTCCTGCTCAGGAGGAAGTTCATCCCTGACCCTCAAAGCACCAACCTCATGTTTGCCTTCT
+TTGCCCAACACTTCACCCATCAGTTCTTCAAAACTTCCGGCAAGATGGGTCCTGGCTTCACCAAGGCGCTGGGCCACGGG
+GTAGACCTCGGCCACATTTATGGAGACAATCTGGAACGTCAGTATCAGCTGCGGCTCTTTAAGGATGGGAAGCTGAAGTA
+CCAGATGCTCAATGGAGAGGTGTACCCGCCATCGGTGGAAGAGGCGCCCGTGCTGATGCACTACCCCCGGGGCATCCCGC
+CCCAGAGCCAGATGGCTGTGGGCCAGGAGGTGTTTGGGCTGCTTCCTGGACTCATGCTCTACGCCACGATCTGGCTGCGT
+GAGCACAACCGCGTGTGTGACCTGCTGAAGGCTGAGCACCCCACCTGGGGCGACGAGCAGCTCTTCCAGACGGCCCGCCT
+CATCCTCATCGGGGAGACCATCAAGATTGTGATAGAGGAGTATGTGCAGCAGCTGAGCGGCTACTTCCTGCAGCTCAAGT
+TCGACCCAGAGCTGCTGTTCGGGGCCCAGTTCCAGTACCGCAACCGCATCGCCATGGAGTTCAACCAGCTGTACCACTGG
+CACCCGCTCATGCCCGACTCCTTCCGGGTGGGCCCCCAGGACTACAGCTACGAGCAGTTTCTGTTCAACACCTCCATGCT
+GGTGGACTACGGGGTCGAGGCCCTGGTGGACGCCTTTTCTCGCCAGCCTGCAGGCCGGATTGGTGGGGGTAGGAACATAG
+ACCACCACATCCTGCACGTGGCCGTGGATGTCATCAAGGAATCACGGGTGCTAAGGCTGCAGCCCTTCAATGAGTACCGC
+AAGAGGTTTGGCATGAAGCCCTACACCTCTTTCCAAGAGCTCACAGGTGAGAAGGAGATGGCAGCTGAATTGGAGGAGCT
+GTATGGAGACATTGATGCTTTGGAATTCTACCCGGGGCTACTTCTTGAGAAGTGCCATCCGAACTCCATCTTTGGGGAGA
+GTATGATAGAAATGGGGGCTCCTTTTTCCCTTAAGGGCCTCTTAGGAAACCCCATCTGTTCTCCAGAGTACTGGAAGGCG
+AGCACATTTGGCGGTGAGGTGGGCTTCAACCTTGTCAAGACGGCCACGCTAAAGAAGCTGGTTTGCCTCAACACCAAGAC
+TTGTCCCTATGTCTCCTTCCACGTACCAGACCCCCGTCAGGAGGACAGGCCTGGGGTGGAGCGGCCACCCACAGAGCTCT
+GAAGGGGCCGGGCAGCAGCATTCTGGATGGTAGAGCTTCCTGCTTGCCATTCCAGAATGCCACGGGGTGGATTGTCTTTG
+ATGTTGGGTTTCTGATTTGGTGTCGAGAGCATCAGTGTGGACGTTTAGAACTCTAGGTCTCTCACCCATGGTCTGGAATA
+CTGTGTTCCTTGTTTGTTGTTCTAGAATGCTGAATTCCTGGTAAACCATTGAGAATGTTAGGAGTGGTTATCCCTTCAGC
+ATGCCAGAACACTGGGTTCCTGGGTGACCACCTAGAATGTCAGATTTCTAGTTGATCCGGAATTTAGGCACTCTGAAATA
+TGGGACTCCTGATGGAATCATCTGGAAAGTGAGGGGGTTTTTATTTTGCATTCTAGAATTCTGGGTGGCCCTCCAGAATG
+TCGACTTTCTGACTGGTTATCCGGAATGTTGTGCTCCGAGTTGCTGATCCAGAACAGTGGCTGGCATTCTAGATCAGTCC
+TGATCCGAATGTCTAGAGTGTTGAGAATTCATTTTCCTGTTCAGTGAGACAGCCACGGAGCAGGAGGATCTCGTGTCCTA
+CAAGAACGCATTGCCTGGATCTGTGCCTGCATGGAGAGGGCAAAGAAGTGGGGTGTTCGTCTTCTCAGTGGGACCCCTGA
+TGAGACCCTAGATATGGAGAGAACAGGTGGCTTTCTCCAGGCCATTGGTTGGAAGCCACCAGAGCTCTGTCCTCATCCAG
+GTCTCAACTCACGGCAGCTGTTTTTCATGAAGTTAATAAAATGCTTTTTCC
+>ref|X00434.1| Sheep repetitive DNA
+AATTCCGCTGATTCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCCAGTGCTGACATGG
+ATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATTGCACTTGCGCTTTCCTCCA
+GAGCGGTAGCAGCAGTGTCCAGCAGTCCGACCGTGATCAAAGCATCTATGGTTTTCCTGTGTCTTTCCACGAGGCTTTCC
+ACGAGGCTTTCCACAGGCTGTCCACTGCACACTGTGGATCAATCCTCGGCTTAACGTCAAGGCATGCAGGAAAACAGGTT
+CCTCTGAATGGACTGACACATCTGGGGGACTCTTGGAATGGCTGGCACCGACCCTGGAGTTCCTCTCGCCTTTCCTTGTG
+GAGAGCGCCTCCTCTTGAGATGCGACGGAA
+>ref|NM_001009802.1| Ovis aries alpha 2-HS glycoprotein (AHSG), mRNA
X16578.1 Ovis aries mRNA for fetuin
+CCGGAAGCCTCCAGCTGCCTGCCTGCTGACACACCGGGGCCTCTCTGAAGCCACCATGAAATCCTTCCTTCTGCTCTTTT
+GCCTGGCTCAGCTCTGTAGCTGCCGCTCGATCCCGCTTGACCCGATTGCAGGTTATAAGGAACCGGCCTGTGATGACCCA
+GACACAGAGCAAGCAGCCTTGGCGGCCGTGGACTACATCAACAAGCACCTTCCTCGGGGCTACAAACACACCTTGAACCA
+GATTGACAGTGTGAAGGTGTGGCCGAGGCGGCCCACGGGAGAGGTATATGACATTGAGATAGATACCCTGGAAACCACCT
+GCCACGTACTGGACCCCACGCCCCTGGTGAACTGCAGCGTGAGGCAGCAGACGGAGCACGCGGTGGAAGGAGACTGCGAT
+ATCCACGTGCTGAAACAAGATGGCCAGTTTTCCGTGCTGTTTACAAAATGTGATTCCAGTCCAGATTCCGCCGAGGACGT
+GCGCAAGTTGTGCCCAGACTGCCCCCTGCTGGCCCCGCTCAACAACAGCCAGGTGGTGCACGCCGCAGAGGTCGCGCTGG
+CTACCTTCAATGCCCAGAATAACGGCTCCTACTTTCAGCTGGTGGAAATTTCTCGGGCTCAATTTGTGCCTCTTCCAGGT
+TCTGTCTCTGTGGAGTTTGCAGTGGCTGCTACTGACTGTATTGCTAAAGAGGTCGTAGATCCAACCAAGTGCAACCTACT
+GGCAGAAAAGCAATATGGCTTCTGTAAAGGCTCTGTCATTCAGAAAGCTCTTGGTGGGGAAGACGTCACAGTGACTTGCA
+CACTGTTCCAAACGCAGCCTGTGATTCCGCAGCCCCAGCCCGAAGGCGCCGAAGCTGGGGCCCCAAGCGCTGTGCCGGAC
+GCAGCTGTGCCTGACGCAGCTGTGCCTGCGCCTTCTGCAGCCGGCCTGCCTGTGGGCTCCGTGGTGGCGGGGCCAAGCGT
+GGTAGCAGTTCCCCTGCCGCTGCACCGGGCACACTACGACTTGCGCCACACCTTCTCCGGTGTGGCCTCAGTGGAGTCGG
+CCTCGGGAGAAGCATTCCACGTGGGGAAAACACCCATCGTGGGGCAGCCTAGCGTTCCTGGAGGTCCAGTCCACCTTTGC
+CCAGGGAGAATCAGATACTTCAAGATCTAGAAGATGGTCGGAGATGAGACAGTTTGGCACAGAGAATACAGCTATCATTT
+TGTCCAAGTATGGGTAGGGGTTTTGTCTGTTCTGGCAGCAAGTGCTGCCTGTGGTCTAGATTAATGTCAGGTCTTGAGTC
+CCAACTTCTCATCCTTCCAAGGACAGGAGCAGAGGAGGTGCTAGTGATGTTTGATGGAACATAAAGTCAGCAGCTTGATT
+CTCACTGCTTTGATGTAAGCCACCACCACTGTGTTCTCTACCTCCTCTTGACCTCACAAAAATAACTGGAACTGTGACTC
+TGAAAGGTGCTCTTGCCAAGTTTATATCTGCTTGTCATTAAAAATGCCCTAATAAAGAAGGTTCTAAGCTGAAATGTC
+>ref|Z18541.1| O.aries centromerically located satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACTTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTTGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGATCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGGCGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACCGGGAAAGGAT
+>ref|Z18540.1| O.aries centromerically located satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACTTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGCTCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGAAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGGGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACAGGGAAAGGAT
+>ref|X03117.1| Sheep satellite II DNA repeat unit
+ACTCCCTGGGCGCCCAGAACCTGCCTCACACACGTAGCTTCCCTAGCGCTCTCCTCCCCAGCAGAGACGTGTGCAGCTGG
+TTGGGGCCTGCCTGCGTGCCTGGGCTCCCTCCCAGAGACCCAGCTCAGGGCAAGCAGCCCCTGAGCCAAGACCTGCAGGA
+GGCGCAGAGCCCACCCACCTGGAAGCCGAGTGAACGGCTGGCGGGGAGGCGAGCCTCCTCGAGGGAAGAAGAGGCAGCCC
+AGCCTCGTTTGGCTCAAGCCCTACTTGGCTGGAGCCGAGTGCGCCTCCAGGACGGAGAGCTCCAGCTCTGCTCAGAGGCC
+CGATCTGGCAGAGTTGCTGGAGCGAGGCTGCTCTGCCCTGGGCGAGCCTTGCCCAGACTTGCCTCACAGCTAGGCTTCCT
+TCCCAGGAAGGAGCAGGCTGAGCGAGGCTGGGGGACGCCACTGGCGCCTTCCTCGCCTCAGCTCCGCTCCTGCCTTGCCT
+TTGCACCTAGGCCCCAGGCGTCCTTGGGGAGGGCTTAGGGGACGTGTCTTGCACACTGCCAAGGGCTCCAGCAGGAAGAG
+CTCTGTGTGAGCGAAGGAAAGGGCTAGTGCAGGGCTCCTCCAGCCGTTGCTTGGCCGCCCAGACTCAGCGCCGCTCAGAG
+TGCACCAGGCTCCTAGGGTCCCTGGTTGGGGTCTGCAGCCCCACACTCCCGGAGGCTG
+>ref|Z17215.1| O.aries satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACCTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGCTCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGTCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGAGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACCGGTTCCTGTGGAATGGACTGACACATCTGGGGTACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACAGGGAAAGGAT
+>ref|Z12966.1| O.aries rearranged T-cell receptor gamma
+AACCAACTGAGCTCATAGTAGCTTCCCCTGATAGAGACCTTGATAAAGACATGTCTCCCAAGCCCACTATGTTTCTTCCT
+TCGATTACGGAAATCAAGCGTGATAATAGTGGAACATATCTTTGTCTTCTGGAGGACTTTTTCCCTCATGTTATTAAGGT
+TTATTGGAGAGAAAAAAGAGGCAACAAAGTTTTGCCATCCCAGGAGGGAAAAACCATTAAGACTCTTGACACATACATGA
+AGTTCAGCTGGCTGACTGTGTCTGGAAACTCCATGGATAAAGAACACATGTGTATCGTCAAACATGAGAAAAATAAAAGA
+GGAACCAATCAAGAGATTCTTTTTCCGGCAGTGAATGAAGTTGTCTCTTCAGTTGTCACTACTACTAAACCTCCAAATGA
+TGGTTTGAAGGATAAAAGTGAAAAACAAGTCCCTGTTGCAAATTCTACAAAAGCATGTCTGAAAGATGAAAACAATACCC
+TGCAGCTGCAGCTCATGAGCACCTCTGCCTATTACACATACCTCCTCCTCCTCATTAAGAGCACAGCCTACTTTGCCATC
+ATCACCTCCTGTGTGTTCAGGAGAACAGGCGTCTGTGGCAATCAGAAGAGCTCGTGATAGAGGGGCCCCATAAGAGGATC
+AACGTTCCTTCATCATCTATGGTCTCTAAAAGCTCTGCTCAGAATCTAGC
+>ref|X06789.1| Rabbit 5S ribosomal RNA from 5S RNP
+GNCTACGGCCATACCACCCTGAACGCGCCCGATCTNGTCTGATCTCGGAAGCTAAGCAGGGTCGGGCCTGGTTAGTACTT
+GGATGGGAGACCGCCTGGGAANACCGGGTGCNGNAGGCCNNN
+>ref|V00872.1| Rabbit alpha-actin messenger fragment (aa 72 to 145)
+TCGAGCACGGCATTATCACCAACTGGGACGACATGGAGAAGATCTGGCACCACACCTTCTACAACGAGCTGCGCGTGGCC
+CCCGAGGAGCACCCCACTCTGCTCACCGAGGCCCCCCTCAACCCCAAGGCCAACCGCGAGAAGATGACCCAGATCATGTT
+CGAGACCTTCAACGTGCCGGCCATGTACGTGGCCATCCAGGCCGTGCTGTCCCTGTACGCCTCCGG
+>ref|V00873.1| Rabbit alpha-actin messenger fragment (aa 192 to 281)
+GATCCTCACTGAGCGTGGCTACTCTTTCGTGACCACAGCCGAGCGCGAGATCGTGCGCGACATCAAGGAGAAGCTGTGCT
+ACGTGGCCCTGGACTTCGAGAACGAGATGGCCACGGCCGCCTCCTCCTCCTCCCTGGAGAAGAGCTACGAGCTGCCCGAC
+GGCCAGGTGATCACCATCGGCAACGAGCGCTTCCGATGCCCCGAGACGCTCTTCCAGCCCTCCTTCATCGGTATGGAGTC
+GGCCGGCATCCATGAGACCACCTACAACAGC
+>ref|X62549.1| O.cuniculus DNA for angiotensin-converting enzyme, 3' region
+CCGCCAGCCCCACCACGGGCCCCAGTTCGGCTCCGAGGTGGAGCTAAGACACTCCTGAGACATCCAGGCCGGGCCAGCTG
+GTGGGGACAGGGTCATGGGCAGCGGGCCGCGGATGCTCCCCAGCCAGCCAGCCCTCCTCCTCCTCCACCTCCTCCTCCTC
+CCACCCCGCCCCCTCCCGCCCTTCTCTGTCCCACTCTGCAGACACCCAGCCGCCCTGTGATACAATTAAAGGCCCTGCCC
+GCCCACCTGAGTCTGTCTCCCTCACAGGGAAGCCAGGGCAGGGATGGGGGTGGGACCACCCTTCTGCCTCCGGGCAGTCC
+ACCAGCTCCCCTCACTCACTGGGCTGCGCCTCCATCCTCCCCCAGAAAGAGGCTTGGAGAATCCCCAAGCTCTGGCCCCA
+GCCCGACGCAGCCCAGGCCACTGACCATCGTCCTGCCATGGCGGGCAGCCTGCAGGGGCTCTGGGGAGCAGAGGGGAGCC
+GGCCTGCGGGCTGCCCACCTTACCTTACCTGCCCTGCCTGATGCTGGCCCCTGCCCTGGCTGTTTCCCATAAGTGCCCAG
+GGTCCCCAGAGTGAAGACTGCCAGCTGTTCTTGGCCTCCTGCACCAAGCATGCAGAACAGGCCCGGGGTCACCTGCAGCT
+GGTGTGAGCTCAGTGTCCACATGCGTGATGCAGTCCCTGGATCCAGACGGAGCCAGTCAAGACTGCAGCGGTCGTGGAGC
+AGCTGTCGGAGCCACCTGCCCTGCTCTGAAGGCCAATGTGGGCTTGGCGAGCGTCACCTTGAGGCACATCTTTTATGCCC
+ACATTTATGTAGAAACTTTAGAAAATACACAATTCTGTAAAGAAAATAAAAGCCCTTTATACCAATATCAAGAGATAAGC
+ACTGTTGACAGTTTGGTGTTTTATCTTTCCAGCCTTTTTTAATTCCCGTTTACGTTGAAAGGCAGAGTGACAGACTGGGA
+GGTCCTCCATTCAACTTG
+>ref|NM_001082393.1| Oryctolagus cuniculus calcium voltage-gated channel auxiliary subunit gamma 1 (CACNG1), mRNA
X56031.1 Rabbit mRNA for calcium channel gamma subunit
+CTCTGGCTCAGCCGGGCACACTAAACTTAGCTTCCACCCCCAGCTCCGGAGCCACGGCCACCACCCTAGCCGGGCCGCCA
+CCTGCACGGGCAGGCGCCGCCGCCAGACCCTACCTGCAGCACCCACCCCTCTGCAGCCGCCATGTCCCCGACGGAAGCCC
+CAAAGGTCCGCGTGACCCTCTTCTGCATCCTGGTGGGCATCGTGCTGGCCATGACGGCCGTGGTGAGCGACCACTGGGCC
+GTGCTGAGCCCCCACATGGAGAACCACAACACCACCTGCGAGGCCGCCCACTTCGGCCTGTGGCGGATTTGCACCAAGCG
+CATCGCCCTGGGCGAGGACAGGAGCTGCGGACCCATCACCCTGCCTGGGGAGAAGAACTGCTCCTACTTCCGGCATTTTA
+ACCCAGGCGAGAGCTCGGAGATCTTCGAATTCACCACGCAGAAGGAGTACAGCATCTCGGCGGCCGCCATCAGCGTCTTC
+AGCCTGGGCTTCCTCATCATGGGCACCATCTGCGCGCTCATGGCCTTCAGGAAGAAGCGGGATTACCTGCTGCGGCCGGC
+GTCCATGTTCTACGTCTTTGCAGGCCTCTGCCTCTTCGTGTCACTGGAGGTAATGCGGCAGTCGGTGAAACGCATGATCG
+ACAGCGAGGACACCGTCTGGATCGAGTACTATTACTCCTGGTCCTTTGCCTGCGCCTGCGCCGCCTTCGTCCTCCTCTTC
+CTCGGGGGTATCTCCCTGCTGCTCTTCTCCCTGCCTCGAATGCCCCAGAACCCCTGGGAGTCCTGCATGGACGCCGAACC
+CGAGCATTAGCCCTCCTGGGGCGCCCAGGGAGCCTCGGCCCAGAACCTTCCAGAAGGGAGGCAGGAATTGCAAACCTGCC
+CTGTTCCCATCTGCCTCACCCCGCGACTGCTTCCCTTCCGTGGCTCTGACGGAGCTCCTCTGCTCACAGGGCAAATGGAC
+GCGAGCCCAGCCCTGTCCTGGTTGGACGAGGTGGGCAGGTGGTTGGAGGGGCCCGGCCTTCCACTGAGGCTCAAAGCCGT
+CCCTGCTGTGCCGGTTCTCCTTGGGAAGCTGGGCCCTGGTAAACCTGGTAAACCTCCCAGGAGCACCCCGTGCGCGCATG
+CCGGTGCTGGGTGCCCCCTGTGTGAAAAGCCGGCCCCTCTGTCTTCCCAGCCACCAGAACCTTCGTTGCCTCCCGGAGCT
+CTGGGAATCAGCATTTTCCACCAGGGAGTATCTGACTGTGGTTTGAAATAAAAGCGCTCAGAACACTC
+>ref|NM_001101695.1| Oryctolagus cuniculus orosomucoid 1 (ORM1), mRNA
X58727.1 Rabbit mRNA for acute phase protein
+AGCTCTGCCTGGCTCCAGCGCCTCTGTGTCTCAGCATGGCCCTGCCCTGGGCCCTCGCCGTCCTGAGCCTCCTCCCTCTG
+CTGCATGCCCAGGACCCAGCGTGTGCCAACTTCTCGACCAGCCCTATCACCAATGCCACCCTGGACCAGCTCTCCCACAA
+GTGGTTTTTTACCGCCTCGGCCTTCCGGAACCCCAAGTACAAGCAGCTGGTGCAGCATACCCAGGCGGCCTTTTTCTACT
+TCACCGCCATCAAAGAGGAGGACACCTTGCTGCTCCGGGAGTACATAACCACGAACAACACGTGCTTCTATAACTCCAGC
+ATCGTGAGGGTCCAGAGAGAGAATGGGACCCTCTCCAAACACGACGGCATACGAAATAGCGTGGCCGACCTGCTGCTCCT
+CAGGGACCCCGGGAGCTTCCTCCTCGTCTTCTTCGCTGGGAAGGAGCAGGACAAGGGAATGTCCTTCTACACCGACAAGC
+CCAAGGCCAGCCCGGAACAACTGGAAGAGTTCTACGAAGCCCTCACGTGCCTGGGCATGAACAAGACGGAAGTCGTCTAC
+ACTGACTGGACAAAGGATCTGTGCGAGCCGCTGGAGAAGCAACACGAGGAGGAGAGGAAGAAGGAAAAGGCAGAGTCATA
+GGGCACAGCACCGGCTCCGGGACTCGGGGCCCACCCCCTGCACCTGCCTTTTTGTTTGTTTTGTAAATCTCTGTTCTTTC
+CCATGGTTGCATCAATAAAACTGCTGGACCAGTAAAAAAAAAAAA
+>ref|V00876.1| Rabbit aldolase A messenger fragment (aa 37 to 55)
+CCGGGAGCATCGCCAAGAGGCTGCAGTCCATCGGCACCGAGAACACGGAAGAGAACCGG
+>ref|X51508.1| Rabbit mRNA for aminopeptidase N (partial)
+CCCAGTTCCAAGGCGAGCTGGCCGACGACTTGGCGGGCTTCTACCGCAGCGAGTACATGGAAGGCAACGTCAGAAAGGTG
+GTGGCCACGACACAGATGCAGATGCAGGCTGCAGATGCCCGGAAATCTTTCCCGTGCTTTGATGAGCCGGCGAGTAAGGC
+CACGTTCAACATCACGCTCATCCACCCCAGGGACTACACGGCCCTGTCCAACATGCTTCCCAGAAGCAGCACTGCACTCC
+CAGAAGACCCCAACTGGACCGTCACAGAGTTCCACACCACCCCCAAGATGTCCACGTACCTGCTGGCCTACATCGTCAGT
+GAGTTCACGAACATAGAAGCTCAGTCACCCAATAACGTCCAGATCCGGATCTGGGCTCGGCCCAGTGCCATCAGTGAAGG
+CCACGGCCAGTACGCCCTGAATGTCACGGGCCCCATCCTAAACTTCTTTGCCAACCATTATAACACTCCCTACCCGCTCG
+AAAAATCTGACCAGATCGGCCTGCCCGACTTCAACGCCGGGGCCATGGAGAACTGGGGCCTGGTGACCTACCGGGAGAGC
+GCCCTGCTTTTCGACCCCCTGGTGTCCTCCATCAGTAACAAGGAGCGGGTGGTCACCGTGGTTGCCCACGAGCTGGCCCA
+CCAGTGGTTTGGGAACCTGGTGACCGTGGACTGGTGGAATGACCTGTGGCTGAACGAAGGCTTCGCCTCCTACGTGGAGT
+ACCTGGGTGCTGACTACGCAGAGCCCACCTGGAATCTGAAAGACCTCATAGTGCTGAACGAACTGCACTCGGTGATGGCC
+GTGGACGCCCTGGCCTCCTCCCACCCTCTGTCCTCCCCCGCCGACGAGGTCAACACGCCCGCCCAGATCAGCGAGCTCTT
+CGACTCCATCACCTACAGCAAGGGCGCCTCTGTCCTTAGGATGCTGTCCAGCTTCCTGACCGAGGACCTGTTCAAGGAGG
+GCCTGGCGTCCTACCTGCACACTTTTGCGTACCAGAACACCATCTACCTGGACCTGTGGGAGCACCTGCAGCAGGCTGTG
+AACAGCCAGTCGGCGATCCAGCTGCCCGCCTCTGTGCGCGACATCATGGACCGCTGGATCCTGCAGATGGGCTTCCCGGT
+CGTCACCGTGAACACAACCAACGGGATCATCTCCCAGCATCACTTCCTCTTGGACCCCACGTCCAATGTCACTCGCCCGT
+CAGACTTCAACTATCTGTGGATTGTTCCTGTCTCGTCCATGCGGAACGGCGTGCAGCAGCAGGAATTCTGGCTGGAAGGC
+GTCGAGCAAACCCAGAACTCCCTGTTTAGAGTGGAAGGCGACAACAACTGGATCCTTGCGAACCTCAACGTGACGGGGTA
+TTACCAGGTGAACTACGATGAAGGCAACTGGAAGAAGCTTCAGACGCAGCTGCAGACCAACCCCTCGGTCATCCCTGTCA
+TCAACCGGGCGCAGATAATCCACGACGCCTTCAACCTGGCCAGTGCCCAAAAAGTCCCCGTCACACTGGCGCTAGATAAC
+ACCCTCTTCCTGATCCGAGAGACCGAGTACATGCCCTGGCAGGCGGCCCTGAGCAGCCTGAACTACTTCAAGCTCATGTT
+CGACCGCTCCGAGGTCTACGGCCCCATGAAGAACTACCTGAGCAAGCAGGTCCGCCCGCTCTTCGAGCACTTCAAAAATA
+TTACCAACGACTGGACGCGGCGCCCGGACACCCTGATGGACCAGTACAATGAGATTAACGCCATCAGCACCGCCTGCTCC
+AATGGGATTCAGGAGTGTGAGACCCTGGTCTCCGACCTCTTCAAGCAATGGATGGACGACCCCAGTAATAACCCGATCCA
+CCCCAACCTGCGCACCACCGTCTACTGCAACGCCATCGCCCTGGGCGGCGAGAGGGAGTGGGACTTCGCCTGGGAGCAGT
+TCCGCAACGCCACCCTGGTGAACGAGGCCGACAAGCTGCGGTCGGCCCTGGCCTGCAGCAACGAGGTGTGGATCCTGAAC
+AGGTACCTGAGCTACACCCTGAACCCCGACTACATCCGGAGGCAGGACGCCACCTCCACCATCAACAGCATCGCCAGCAA
+CGTGATCGGGCAGACCCTGGTCTGGGACTTTGTCCAGAGCAACTGGAAGAAGCTCTTTGAGGATTTTGGTGGCGGCTCCT
+TCTCCTTTGCCAATCTCATCCGGGCAGTGACCCGCCGGTTCTCCACTGAGTACGAGCTGCAGCAGCTGGAGCAATTCAGA
+CTGAACAACCTGGACACAGGCTTCGGCTCGGGCACCCGGGCCCTGGAGCAGGCCCTGGAGCAGACGAGAGCCAACATCAA
+GTGGGTGCAGGAGAACAAGGAGGCGGTGCTCGCGTGGTTCACGGCAAACAGCGCCTAGTCCCAGGTCCTTCTTGTCGCCT
+GGCCCCCACGCCCAGGACCCGCCCACGTGTGCCAAGGCAGCGGCTCTGTTCCCAGGGCCTGAGGCACTGTGTCCTCCCTT
+CCAGGACCAAGTCTCCAGCCCAAGCCTTCCTGCTCTGCCCGTGCGGCCGGCCAGGCTCCCGAGCGCCTCCCAAGCCCCTG
+CCCCTAGTGTCAATCTCACCTGGGGCCCAGCACAGACGCCAGGCCCCGGGTAACTGATCTCAGGGAAGCCCAGTCCAGGG
+CAGGTGGGCAGAAGCCCTCACTGGAAAAAGGACGGCCTTGAGGGGGCCGCCTGCACCCTCCCCCACCTTCCCATAAAGAC
+CCCCAACCTGAGGAATCAACAGGACATCAAATCTGTATTTTTTTTTTTTATAAGAACAAATGTAAATAAAGTATTTCTAA
+ATGAAAAAAAAAAAAAAAA
+>ref|X16427.1| Rabbit mRNA for serum amyloid A protein
+CTTCCACGCTCGGGGCAACTATGACGCTGCCCAAAGGGGCCCTGGGGGTGTCTGGGCTGCCAAGGTCATCAGTGACGTCA
+GAGAGGACCTTCAGAGACTCATGGGCCACGGAGCAGAGGACTCGATGGACGACCAGGCTGCCAACGAATGGGGCCGCAGT
+GGCAAAGACCCCAACCACTTTCGACCCAAGGGCCTACCCGACAAATACTGAGCTCCCTACTCTGCTGCCCCTGAGGACTG
+ACCCAGAGTACTGAGTTCCGTGTGCGTGAGCTGGTGGCGGGCATACAACTGGTGTCTAATAAATGCGTATAAGACTGAAA
+AAAAAAAAA
+>ref|NM_001082392.1| Oryctolagus cuniculus serum amyloid protein A (LOC100009259), mRNA
X16428.1 Rabbit mRNA for serum amyloid A protein
+CGCACCCCCCAAGTGGCCGCTACGCGGGCGCACAGCGTGCTCCACCAAAACCCAGCACCATGAAGCTCCTCTCAGGCCTG
+CTTCTCTGCTCCTTGGTCCTGGGAGTCAGCGGCCAAGGCTGGTTCTCCTTCATCGGTGAGGCTGTGAGAGGGGCAGGGGA
+CATGTGGAGAGCCTACTCCGACATGAGAGAAGCCAATTACATAAATGCAGACAAGTACTTCCACGCTCGGGGCAACTATG
+ACGCTGCCCAAAGGGGCCCTGGGGGTGTCTGGGCTGCCAAGGTCATCAGTGACGTCAGAGAGGACCTTCAGAGACTCATG
+GGCCACGGAGCAGAGGACTCGATGGCCGACCAGGCTGCCAACGAATGGGGCCGCAGTGGCAAAGACCCCAACCACTTCCG
+ACCCAAGGGCCTGCCCGACAAATACTGAGCTCCCTGCTCTGCTGCCCCTGAGGACTGGGACCCAGAGTGCTGAGTCCCGT
+GTGCGTGAAGCTGGTGGCGGGCACACAACTGGTGTCTAATAAATGCGTATAAGACTGAAAAAAAAAAA
+>ref|X52090.1| O.cuniculus BChE gene for butyrylcholinesterase, exon 1 (EC 3.1.1.8) (and joined CDS)
+ATCCAGTGTGCTGCGAAAAAGGTACACGGCTTTAAAAGATTCTCGCCATCAAAATAGTGACCTCTGATGCCGGTTCCCCT
+GAACTCGTTCAAATTCCCGGCCTATTATATATGCTAGGGACAAATTTCTTCTGTAGAGTACTAAATCTCCTTTACAGCTT
+AATGATAGTCACTAGTCTTCAAATCAAATAAATTCTATTTCCTAATGTACTCACTTATCTTCCAAACTGAAAACTATTTG
+AATAGTTTCGTATTTTATAGGACTCATAAAAGCTACTGTATTTCAGGGGATTCGCATCAACACAGTGTAATGCTATATGC
+ATAATACTGATAGAACTTCCTACTGCTCTTCTTTTCAGGAAGCCAATATGCAGGACAAGGGCACACTCATATCTACCCGG
+TTTCCTTTCCTGGTTCCTTTTACTCTGCATGGTTACTAGGAGTTCACACACCGAAGATGTGATAATTACAACCAAGAATG
+GAAGAATCAGAGGGATAAACTTGCCGGTTTTCGGAGGCACTGTAACAGCCTTTCTTGGCATTCCCTATGCACAGCCACCT
+CTAGGTAGACTTCGATTCAAAAAGCCACAATCTCTAACCAAATGGTCTGACATTTGGAATGCCACAAAATATGCAAATTC
+TTGCTGTCAGAACATAGATCAAAGTTTCCCAGGCTTCCATGGATCAGAAATGTGGAACCCAAACACTGACCTCAGTGAAG
+ATTGTTTATATCTGAATGTGTGGATTCCAACACCTAAACCAAAAAATGCCACTGTGATGATATGGATCTATGGTGGTGGT
+TTTCAGACTGGGACCTCTTCTTTGCAAGTTTATGATGGCAAGTTCTTGACTCGGGTTGAAAGAGTGATTGTGGTTTCAAT
+GAACTATAGGGTGGGTGCTTTAGGATTCCTAGCTTTGCCGGGAAATCCCGAAGCCCCAGGGAATATGGGCTTATTTGATC
+AACAGTTGGCCCTTCAGTGGGTTCAAAAAAACATAGCAGCCTTTGGTGGAAATCCTAAAAGTGTAACTCTCTTTGGGGAA
+AGTGCAGGAGCAGCTTCTGTGAGCCTCCATTTGCTCTCTCCTAGAAGTCACCCGTTGTTCACCAGAGCCATTCTGCAAAG
+TGGATCATCTAATGCCCCTTGGGAGGTCATGTCTCTTCATGAAGCTAGGAACAGAACGTTGACATTAGCTAAGTTTGTTG
+GATGCTCTACAGAGAATGAGACTGAAATCATAAAATGCCTTCGAAACAAAGATGCCCAGGAGATTCTTCTGAATGAAGTA
+TTTGTTGTTCCCTTTGATAGTCTCCTCTCAGTGAACTTTGGTCCAACAGTGGATGGTGACTTTCTCACTGACATGCCAGA
+CACACTCCTTCAGCTTGGACAACTAAAAAAAACCCAGATCTTGGTGGGTGTGAATAAAGATGAAGGGACAGCCTTTCTTG
+TCTATGGTGCTCCTGGTTTCAGTAAAGATAACACTAGTATCATAACTAGAAAAGAATTTCAGGAAGGTTTAAAAATATTT
+TTTCCTGGAGTGAGTGAGTTTGGAAAGGAATCCATCCTTTTTCATTACACAGACTGGGTAGATGAGCAGAGGCCTGAGAA
+TTACCGCGAGGCCTTGGATGATGTGGTTGGGGATTATAATTTCATATGCCCTGCCTTGGAGTTCACCAAGAAGTTCTCAG
+AATGGGGAAATAATGCCTTTTTCTACTATTTTGAACACCGATCCTCCAAACTTCCGTGGCCAGAATGGATGGGAGTGATG
+CATGGCTATGAAATTGAATTTGTCTTTGGCTTACCACTGGAAAGAAGAGTTAATTATACAAAAGCTGAAGAAATTTTGAG
+TAGATCCATTATGAAACGTTGGGCAAATTTTGCAAAGTATGGGCAAATTTTGCAAAGTATGGGTGAAGTGTGATTTTCCC
+TT
+>ref|X52091.1| O.cuniculus BChE gene for butyrylcholinesterase, exon 2 (EC 3.1.1.8)
+TCTACTTCAAATCCACCTCCCCACTAAGTACTTGAGAAGGTATCCCAAGGTGGCACAGACCGTGGGCCCCTGACAAGCAT
+GAGGGAGTACCAAGCAAGGAAGTTCCTAGCTCCTGGCATCAGCTTGATGCAGCTACCAACCATTGTAGTCATCAGGAGAG
+TAAACCTGCAGATGGAAGAGTTCTTTCTATCATTCGTCTTTCCTTCATCACTTCCTCGCCTTTTTAATAAAGAAGTAACG
+CCTTTTAAAAAAAGAAAAATGAAGTGATGAATAAACTTCGTCCTTTAGATTTTAACCTCCATGGGTTTTTAACTGATACA
+TGCTTGAATATCTTAAAACTCTAAAACTGGTTACACCTATGTTTAATCTCATGAAAATATGGGCTACATTTTTCAGGTCT
+GATGAAATATTCTTGCGAAAAGTCAAAAAATTATTTTCTAACAAATATTTCAACTGAAGTGTAATATCTCTATTTAATTA
+TGTAGTAATCCAAATGGGACCCAGAACAATAGCACAAGATGGCCAGTCTTCAAAAGCACTGAACAAAAATATCTGACCTT
+GAATACAGAGTCACCAAGGATATACACTAAACTACGTGCTCAACAATGCCGATTCTGGACACTATTTTTCCCCAAAGTCT
+TGGAAATGACAGGTGTGTGTTTTTTTTATTGCTTGCTTAATTAATATGGTATGGATTATGTAGAAGGAGAAACCTGGCAG
+ACTATCCGAGGCACAGAGATACTGTTAATAAACATATATGTTTGACAATCTGGTTACTTGATCTCAATGAATACATGTTA
+TTAAGGAACTTTTATCAGATCAGTATTTTGAGTGTTTACTATATGAGCATGTGAAGCACTTTAGTAATTAATATAGAGAG
+AACAAAAATGCAACAATGTGTATGTGGTTTGGTTATTGTTTGTAGCCCTTGTCTACTCCTGAGGAACAGCAGCCTTTCTA
+TTTATTACTTACTGA
+>ref|X52092.1| O.cuniculus BChE gene for butyrylcholinesterase, exon 3 (EC 3.1.1.8)
+TAGAAAAAAGCTAAAAAATAATTAAAGAAGATAAAAAATAATGAATAATAAAAAATTTGCTATGTAGTATATTAGGAGAA
+AATGGCATCTGTAATCAAAATTATTTTTCAAGTAATATAAACAGAGATTAAAATTTAGATTAATGTATTTTATATTCCAT
+GTTTTACAGGAAATATTGATGAAGCAGAACAAGAGTGGAAAGCAGGATTCCATCGTTGGAACAATTACATGATGGCCTGG
+AAAAATCACTTTAATGACTACACTAGCAAAAAAGAACGCTGCGCAGGCTTCTAATTAGTGGAATAGCCCTTTATGAAAGT
+TCGTAGAGGTAGATCAAAGCAAACCCTCTTCCACAATACTAACGAAAGCTTTTATACAGCTAAACAAACAAAAATTCCGG
+AATTATATTGATTGCTCACATCTTTCACTTTGTATTTTACCTAGCATTTAAA
+>ref|V00880.1| Rabbit pseudogene for beta-2-globin (sequence homologous to exons 1 and 2)
+TCAGACTCATAAGCCAGTGCCAGAGCTGACCATGACCAGTGTTCTGTCACTCTTCTGGCCTCACCCTGGCATTGGTGACT
+CACCAGGGTAGGCAGTGCAGGGGCCACTACTGGGCATAAAAGGCAGAGTGGGACAGCTGCTGCTTATGCTTGTATTTGAC
+ACAACTGTGTTTACTAGCAATATTCCAAATAGAATGGTGCATCTCTCTGGTGAAGAGAAGGATACATTCACTGCCCTGTG
+GGGCAAGGTTGATGTGAAGAAGTTGGTGATGAGGCCCTGAGAGGGTTGCTTTTCAAGTTATAGGGCAGTCTATTGAGGCA
+GATGGAAGCTGGGCTTGTGTAGACAGAGCTGGCCCCAGGGTTTCTGCCAGGCACTGAATCCCCCAGTGCTGATTGTCTAC
+CCAAGAACCCAGAGGTTCTTTATACCGTTTGGGGACCTGTCCTCTGAACCTGCTGTTATGAGTAATGTCAAGGTGACGGC
+CCATTGCAAGAAGGTGCTGGCTACCTTCAGTGAGGGTCTGAATCACCTGGACAACCTCGGGGAAAATTTTGTCCAGCTGA
+GTGAGCTGCACTGTCACAAGCTCCATGTGGATCCTGAGAACTTCAGTGTTAGTCTAGGCAATGTTCCACTTTTTTCTTTT
+CACATTCTCATCTTCTTTTTTTGTTGTTTGTTTGTTAAGCAACCTGTCTTTGTCAACATTTCTATCTAATTCCCTATATT
+TCGTCATTTATTGCTTTTCAAAAATTTTCATTTTTCTTTAGTATTTCGTTTTTTCATTCCTCAC
+>ref|V00881.1| Part of a rabbit pseudogene for beta-2-globin
+GGACATAGCAAAGGCACATTGTAGGTGGGGTTGCAGATGTTGCTAAGAAGCAACCACTATTACATCAATTAAGGGATTAA
+TTAGTAATATTATTATATATGCATATACATGTACATACCTATGTGATTATACACTTATATATATATTGGTTGTTTTAAAT
+TGAGACTCTATTTAGATTAAGATGTAGGAAGAAAATAATTAGTGTTGGCCCAATTTCAGAATACAAGCTTGATTTCTGTG
+CTAACCATACGTAAAATATCTCCATAGCTCTTTCTCACACTCCAGGGCAATGGGCTGGTGATTGTGCTGGCCTTCTACTT
+CGGCAAAGAATTTACCCCATAGCTGAAGGTGCCTATCACAGAGTGGCAGCTGGTGTGGCCAATGCCTGGGCTCACAAGTA
+CCCCTAAGATCTTGACTTGTTCTCTACTTACCCTGTTCCATGGAAAATCTTTTCTATATTTCATCTATTGAACATGAAGA
+CATAATACCCAACCTAAGGGTGTGAGCCTAATAAAAGATCA
+>ref|X53521.1| Oryctolagus cuniculus mRNA for brain tissue factor
+GCAGACACTACAGGTAGAGCATATAATCTAACTTGGAAGTCAACGAATTTCAAGACAATTCTGGAGTGGGAACCCAAATC
+CATCGATCATGTCTACACAGTTCAGATAAGCACTAGGCTAGAAAACTGGAAGAGCAAATGTTTCTTAACCGCGGAGACGG
+AGTGCGACCTCACCGATGAGGTCGTGAAGGACGTGGGGCAGACGTACATGGCGCGGGTCCTCTCCTACCCGGCAAGGAAC
+GGAAACACCACGGGGTTCCCCGAGGAGCCTCCCTTTAGAAACTCCCCGGAGTTCACGCCGTACCTGGACACAAACCTCGG
+ACAGCCAACAATTCAGAGCTTTGAACAAGTTGGGACAAAACTGAATGTGACAGTCCAGGATGCACGCACGCTGGTCAGAA
+GGAATGGGACATTCCTAAGTCTCCGGGCTGTGTTTGGCAAGGACTTGAATTACACGCTTTATTACTGGAGAGCTTCGAGC
+ACAGGAAAGAAAACAGCCACGACAAACACTAATGAGTTTTTGATCGACGTGGATAAAGGAGAAAACTACTGTTTCAGTGT
+CCAAGCAGTGATTCCCTCTCGGAAAAGGAAGCAGAGGAGCCCCGAGAGCCTCACTGAGTGCACCAGCCGCGAGCAGGGCA
+GGGCCAGGGAGATGTTCTTCATCATTGGAGCAGTGGTGGTCGTGGCCCTCTTGATCATCGTCCTGTCTGTGACCGTGTAC
+AAGTGCAGAAAGGCGAGGGCGGGGCCCAGCGGGAAGGAGAGCTCCCCCCTGAACATCGCCTGAAGGGAGCGCCGCGGGGG
+GTGCCGGCTGCTGCCAATGCTGTGTTGCACTGTGACCAGGAGAACAGGAGATAGGGGGATGCAAATGAGAATTTGGAGCA
+TAAAGACCCATGGATTCAAAAAAGCTCTTCCCGTGACCTGCTATTGTAAGCAGCACGGTGGCTCAGACATCGGCACGGTC
+ACTCGGGAGTGGAATGAGCAGTACAGCCAATCCCAGCTTGTTTCCGCGACTGTAACACTATGGTGCCTTTTGCACGTCTC
+CTGCCTGCTGTGGTGCGGGCTGCACCAGGTGTGGTGCACCTGCTGTGGTGCGAAGCCAGGGCAGCCGAGAACAAGCCAAG
+GAACAGGGCCTTAAAGTAGCCTGGGTGGGCTTTGGGAGAACTCTTGAAAAGCTGACTTCAGGTAATGTGGGAACGAGAAA
+TGGCAATCGGGGCCTATTTTCTGGGGTTTTTCTGAACTCTGCCGTCTCGTGTGTTGGTGTTGGTGTTTTTTCTTTTCTTG
+GTGGAGTATTTCGAGAATTC
+>ref|X64297.1| O.cuniculus mRNA for cardiac calcium channel beta-subunit CaB2a
+AGCCTGGAGCTTGCGCTGAGTTCTTGCTCTCGGGAAGGACGAGTGTACGCGCGAGTCCTGGGCTCCCTAGGAACTGGTCT
+GGCATGCTTGACAGGCACCTCGCGGCTCCGCACACCCAAGGCCTTGTTCTCGAGGGTTCGGCAGACTCCTACACCAGCCG
+TCCATCCGATTCAGATGTGTCTCTGGAGGAGGACCGGGAGGCAGTGCGCAGAGAAGCTGAGCGACAGGCCCAGGCCCAGT
+TGGAAAAAGCAAAGACAAAGCCTGTTGCATTTGCTGTTCGGACAAATGTCAGCTACAGTGCTGCCCACGAAGATGATGTC
+CCAGTGCCAGGCATGGCCATCTCATTTGAAGCAAAAGATTTTCTGCATGTTAAGGAAAAATTTAACAATGACTGGTGGAT
+AGGGCGTTTGGTTAAAGAAGGCTGTGAAATCGGATTCATTCCAAGCCCGGTCAAACTAGAAAACATGAGGCTACAGCATG
+AACAGAGAGCAAAGCAAGGGAAATTCTACTCCAGTAAATCAGGAGGAAATTCATCATCCAGTTTGGGTGACATTGTACCT
+AGTTCCAGAAAATCTACACCTCCATCATCTGCTATAGACATAGATGCTACTGGCTTAGATGCAGAAGAAAATGATATTCC
+AGCAAACCACCGCTCCCCTAAACCCAGTGCAAACAGTGTAACGTCACCCCACTCCAAAGAGAAAAGAATGCCCTTCTTTA
+AGAAGACAGAGCACACTCCTCCGTATGATGTGGTGCCCTCCATGCGACCCGTGGTCCTCGTGGGCCCTTCCCTGAAGGGG
+TATGAGGTCACAGATATGATGCAGAAAGCGCTGTTTGATTTTTTAAAACACAGATTTGAAGGGCGGATATCCATCACAAG
+GGTCACTGCTGATATCTCGCTTGCCAAACGCTCAGTGTTAAACAACCCCAGTAAGCATGCAATAATAGAAAGATCCAACA
+CTAGGTCAAGCTTAGCGGAAGTTCAGAGTGAAATTGAAAGGATCTTTGAACTTGCAAGGACACTGCAGTTGGTAGTCCTT
+GATGCGGATACTATTAACCATCCAGCTCAACTTAGTAAAACCTCTTTGGCCCCTATTGTAGTGTATGTGAAGATTTCTTC
+TCCTAAGGTTTTACAAAGGCTAATAAAATCTCGAGGGAAATCTCAAGCTAAACACCTTAATGTCCAGATGGTAGCAGCTG
+ATAAACTGGCTCAGTGTCCTCCAGAATTGTTTGATGTGATCTTAGATGAGAACCAGCTTGAGGATGCTTGTGAGCATCTT
+GCCGACTATCTGGAGGCCTACTGGAAGGCCACCCATCCTCCCAGCAGCAATCTCCCCAACCCTCTCCTTAGCCGTACTTT
+AGCTACTTCAGCTCTGCCTGTCAGCCCCACCCTCGCCTCTAATTCACAGGGTTCTCAAGGAGATCAGAGGACTGATCGCT
+CTGCCCCTGCCCGTTCTGCTTCCCAGGCTGAAGAAGAACCTTGCTTGGAACCAGCAAAGAAATCCCAGCACCGGTCTTCC
+TCCTCAGCCCCACACCACAACCATCGCAGTGGTACAAGCAGAGGCCTCTCTAGGCAAGAGACATTTGACTCAGAAACCCA
+GGAGAGTCGAGACTCTGCCTATGTGGAGCCGAAGGAAGATTATTCCCATGAACATGTGGACCACTATGCTCCACACCGTG
+ACCATAATCACCGAGATGAGACCCACAGGAGCAGTGACCACAGACACAGGGAAACCCGGCACCGTTCCCGGGACATGGAT
+CGAGAGCAGGACCACAATGAGTGCAACAAACAACGAAGTCGTCATAAATCCAAGGATCGCTACTGTGACAAGGATGGAGA
+AGTAATATCCAAAAAACGGAATGAGGCTGGGGAGTGGAATAGGGATGTTTACATCCGCCAATGACTTGTGCCCTTTTGTG
+TTTTTTTTTTTTTAAGTCTTGTATAAGCGCACCCTCAGATGAAATCTTTGGGGTCTACATTGAAATCATATGTGATCTGT
+CTTGTGTATTTTGTATTGCTGTTGCTCAAGTAGCAATAGCATGAAATAGAGTATTAATATACTTTTTTTTTCTTTTTTAA
+GTGCTATATAAATTGGCCTGGTACAGCTGAATTCACAAACTGTGTTGGGTAGCTGCCACTTGAACAAAATCTGTTGCCAC
+ACAGGTGATTAGCGTTTCAAGAAACATAGTTGATCCATCCAGCAAGCCAGAATCAGCACAGATAAGTGGAATTTCTTGTT
+TCCCAGATTTTTAATACACAGATACCTTATTTGCATATTCATTTATTCATGGACCACTGTTTCTTGCTTGTACCTCTGGC
+TGACTAAATTTGGGAACAGATTCAGTCTTGCCTTACACAAAGGGGATCATAAAGTTAGAATCTATTTTCTATGTATTAGT
+ACTGTGTACTGTATAGACAGTTTGTAAATGTTATTTCTGCAGACACCTTATTATAATTATATATAATATATATATATACA
+ATCAGTTTGATCACACTATTTTAGAGTCTTAATGCCAAGTCAGCAGATTTGCTTTATGAATTACAGGGACTAGAAATACC
+CACATTCAGGAAATTTGTAATAACATTGTCTAGACACCTATCCCCACTCTAATAGAAAGTCTGTATATACTGTAAATATG
+TGTGATTGCTTGACTTGAAAAGATTTGATTTCTAAATGTTATACCATCCTGTAAGTTTATAATTTTGACCATAAATTATG
+GCAAATATACCAAACTCAAAGGTTGTTCTACTCCATACAGTTCACACTAATTGTGACAAACACATTCTTAGTAGCTAGTG
+TCTGTTATAGTCACTGCACTGGAATATGAGCCGGAACCCGCTGTATGCACGTGCGTGTGTGTCTGTATGTAAGAGTGTGC
+ACGAGTGACCGGTTGAAATAAACTCAAATGCTGAAGACTAGTGAAGAAATTAGAGACTGGTCTCTAGAATTCCAGCCACC
+TGGCTTTGTATTTAATTGTGCTATGTGTTGCTTTAACAATCAATCCATCAAGCAGTCAGGGAACGTGAGAAAGCTTGCTG
+CCAAAGTAAATAGGAAAATAA
+>ref|NM_001082396.1| Oryctolagus cuniculus calcium voltage-gated channel auxiliary subunit beta 2 (CACNB2), mRNA
X64298.1 O.cuniculus mRNA for cardiac calcium channel beta-subunit CaB2b
+GCGGCCTCGCAGCTCGCTCGTGCCTGCGTCTCCTCCTCCGCCGCCTCCTCCTCCTCTTCTGCTCGCCGTTCGCCACCCAC
+TTCTCTCCCGGCGCCGGGGACCCTGCCCCTTGGCGCTTCCCCCTGACTCTTCTCCGGCTTCCATTTTTCTCTGCTTCCGA
+AAAGCAAGTGGGAAGGGGCGGGGGCGACCTGCCGGGCTCGCAGCTTCTCCCGGGCGGCTCTGCTCAGCTCTCGTCGCTCC
+TGCCCGGGAGAGGCACATGGAGAGACATGAACCAGGCGAGTGGACTGGACCTGCTCAAGATCTCCTATGGAAAAGGAGCC
+AGAAGGAAAAACCGATTTAAAGGATCCGATGGGAGCACCTCCTCTGATACTACCTCAAACAGTTTTGTTCGTCAGGGTTC
+GGCAGACTCCTACACCAGCCGTCCATCCGATTCAGATGTGTCTCTGGAGGAGGACCGGGAGGCAGTGCGCAGAGAAGCTG
+AGCGACAGGCCCAGGCCCAGTTGGAAAAAGCAAAGACAAAGCCTGTTGCATTTGCTGTTCGGACAAATGTCAGCTACAGT
+GCTGCCCACGAAGATGATGTCCCAGTGCCAGGCATGGCCATCTCATTTGAAGCAAAAGATTTTCTGCATGTTAAGGAAAA
+ATTTAACAATGACTGGTGGATAGGGCGTTTGGTTAAAGAAGGCTGTGAAATCGGATTCATTCCAAGCCCGGTCAAACTAG
+AAAACATGAGGCTACAGCATGAACAGAGAGCAAAGCAAGGGAAATTCTACTCCAGTAAATCAGGAGGAAATTCATCATCC
+AGTTTGGGTGACATTGTACCTAGTTCCAGAAAATCTACACCTCCATCATCTGCTATAGACATAGATGCTACTGGCTTAGA
+TGCAGAAGAAAATGATATTCCAGCAAACCACCGCTCCCCTAAACCCAGTGCAAACAGTGTAACGTCACCCCACTCCAAAG
+AGAAAAGAATGCCCTTCTTTAAGAAGACAGAGCACACTCCTCCGTATGATGTGGTGCCCTCCATGCGACCCGTGGTCCTC
+GTGGGCCCTTCCCTGAAGGGGTATGAGGTCACAGATATGATGCAGAAAGCGCTGTTTGATTTTTTAAAACACAGATTTGA
+AGGGCGGATATCCATCACAAGGGTCACTGCTGATATCTCGCTTGCCAAACGCTCAGTGTTAAACAACCCCAGTAAGCATG
+CAATAATAGAAAGATCCAACACTAGGTCAAGCTTAGCGGAAGTTCAGAGTGAAATTGAAAGGATCTTTGAACTTGCAAGG
+ACACTGCAGTTGGTAGTCCTTGATGCGGATACTATTAACCATCCAGCTCAACTTAGTAAAACCTCTTTGGCCCCTATTGT
+AGTGTATGTGAAGATTTCTTCTCCTAAGGTTTTACAAAGGCTAATAAAATCTCGAGGGAAATCTCAAGCTAAACACCTTA
+ATGTCCAGATGGTAGCAGCTGATAAACTGGCTCAGTGTCCTCCAGAATTGTTTGATGTGATCTTAGATGAGAACCAGCTT
+GAGGATGCTTGTGAGCATCTTGCCGACTATCTGGAGGCCTACTGGAAGGCCACCCATCCTCCCAGCAGCAATCTCCCCAA
+CCCTCTCCTTAGCCGTACTTTAGCTACTTCAGCTCTGCCTGTCAGCCCCACCCTCGCCTCTAATTCACAGGGTTCTCAAG
+GAGATCAGAGGACTGATCGCTCTGCCCCTGCCCGTTCTGCTTCCCAGGCTGAAGAAGAACCTTGCTTGGAACCAGCAAAG
+AAATCCCAGCACCGGTCTTCCTCCTCAGCCCCACACCACAACCATCGCAGTGGTACAAGCAGAGGCCTCTCTAGGCAAGA
+GACATTTGACTCAGAAACCCAGGAGAGTCGAGACTCTGCCTATGTGGAGCCGAAGGAAGATTATTCCCATGAACATGTGG
+ACCACTATGCTCCACACCGTGACCATAATCACCGAGATGAGACCCACAGGAGCAGTGACCACAGACACAGGGAAACCCGG
+CACCGTTCCCGGGACATGGATCGAGAGCAGGACCACAATGAGTGCAACAAACAACGAAGTCGTCATAAATCCAAGGATCG
+CTACTGTGACAAGGATGGAGAAGTAATATCCAAAAAACGGAATGAGGCTGGGGAGTGGAATAGGGATGTTTACATCCGCC
+AATGACTTGTGCCCTTTTGTGTTTTTTTTTTTTTAAGTCTTGTATAAGCGCACCCTCAGATGAAATCTTTGGGGTCTACA
+TTGAAATCATATGTGATCTGTCTTGTGTATTTTGTATTGCTGTTGCTCAAGTAGCAATAGCATGAAATAGAGTATTAATA
+TACTTTTTTTTTCTTTTTTAAGTGCTATATAAATTGGCCTGGTACAGCTGAATTCACAAACTGTGTTGGGTAGCTGCCAC
+TTGAACAAAATCTGTTGCCACACAGGTGATTAGCGTTTCAAGAAACATAGTTGATCCATCCAGCAAGCCAGAATCAGCAC
+AGATAAGTGGAATTTCTTGTTTCCCAGATTTTTAATACACAGATACCTTATTTGCATATTCATTTATTCATGGACCACTG
+TTTCTTGCTTGTACCTCTGGCTGACTAAATTTGGGAACAGATTCAGTCTTGCCTTACACAAAGGGGATCATAAAGTTAGA
+ATCTATTTTCTATGTATTAGTACTGTGTACTGTATAGACAGTTTGTAAATGTTATTTCTGCAGACACCTTATTATAATTA
+TATATAATATATATATATACAATCAGTTTGATCACACTATTTTAGAGTCTTAATGCCAAGTCAGCAGATTTGCTTTATGA
+ATTACAGGGACTAGAAATACCCACATTCAGGAAATTTGTAATAACATTGTCTAGACACCTATCCCCACTCTAATAGAAAG
+TCTGTATATACTGTAAATATGTGTGATTGCTTGACTTGAAAAGATTTGATTTCTAAATGTTATACCATCCTGTAAGTTTA
+TAATTTTGACCATAAATTATGGCAAATATACCAAACTCAAAGGTTGTTCTACTCCATACAGTTCACACTAATTGTGACAA
+ACACATTCTTAGTAGCTAGTGTCTGTTATAGTCACTGCACTGGAATATGAGCCGGAACCCGCTGTATGCACGTGCGTGTG
+TGTCTGTATGTAAGAGTGTGCACGAGTGACCGGTTGAAA
+>ref|X64299.1| O.cuniculus mRNA for brain calcium channel beta-subunit CaB2c
+GTACCTAGTTCCAGAAAATCTACACCTCCATCATCTGCTAAGCAGAAGCAGAAATCGACAGAGCACACTCCTCCGTATGA
+TGTGGTGCCCTCCATGCGACCCGTGGTCCTCGTGGGCCCTTCCCTGAAGGGGTATGAGGTCACAGATATGATGCAGAAAG
+CGCTGTTTGATTTTTTAAAACACAGATTTGAAGGGCGGATATCCATCACAAGGGTCACTGCTGATATCTCGCTTGCCAAA
+CGCTCAGTGTTAAACAACCCCAGTAAGCATGCAATAATAGAAAGATCCAACACTAGGTCAAGCTTAGCGGAAGTTCAGAG
+TGAAATTGAAAGGATCTTTGAACTTGCAAGGACACTGCAGTTGGTAGTCCTTGATGCGGATACTATTAACCATCCAGCTC
+AACTTAGTAAAACCTCTTTGGCCCCTATTGTAGTGTATGTGAAGATTTCTTCTCCTAAGGTTTTACAAAGGCTAATAAAA
+TCTCGAGGGAAATCTCAAGCTAAACACCTTAATGTCCAGATGGTAGCAGCTGATAAACTGGCTCAGTGTCCTCCAGAATT
+GTTTGATGTGATCTTAGATGAGAACCAGCTTGAGGATGCTTGTGAGCATCTTGCCGACTATCTGGAGGCCTACTGGAAGG
+CCACCCATCCTCCCAGCAGCAATCTCCCCAACCCTCTCCTTAGCCGTAC
+>ref|X13042.1| Rabbit mRNA for alpha-casein
+ATCGCCTAGATCATCAACCCAACTTGCCTCTTTTCAGTCGAGTTTAAGGCTTGGACCACCATGAAGCTTCTCATCCTCAC
+TTGCCTTGTGGCTACTGCTCTTGCCAGGCATAAATTTCATTTAGGACACCTGAAACTCACTCAGGAGCAGCCTGAGAGCA
+GTGAGCAGGAAATCTTAAAAGAAAGAAAGCTCCTCAGGTTTGTCCAGACAGTACCACTAGAATTAAGAGAGGAATATGTC
+AATGAACTGAACAGGCAGAGAGAACTTCTGAGAGAAAAAGAGAATGAGGAAATCAAGGGAACTAGAAATGAAGTAACTGA
+GGAACATGTTTTGGCAGACCGTGAGACAGAAGCTAGCATCAGCTCATCAAGTGAGGAAATTGTTCCCAGCAGCACCAAGC
+AGAAGTACGTGCCAAGGGAAGACCTGGCTTACCAACCTTACGTGCAGCAGCAGCTTCTCAGAATGAAAGAACGCTACCAA
+ATCCAGGAGAGAGAGCCTATGAGAGTGGTGAATCAGGAACTGGCTCAGCTCTATCTTCAGCCTTTCGAACAACCCTACCA
+GCTTGATGCCTATCTCCCTGCTCCTTGGTACTATACTCCGGAAGTGATGCAGTATGTTCTTTCCCCACTGTTCTATGACC
+TCGTTACACCCAGTGCCTTTGAGAGTGCTGAAAAAACTGACGTTATTCCAGAGTGGTTGAAGAATTAAGTCAATTCTCAG
+GAACTCCACAATTATGACCATTGATGTGACTGAAAATTCAACCTATGAATTTCTCATCTTTGTTTTATAATCTAAAACCA
+CTTTATCCAAAGACTTTGTTATTCTAGGATAGGAAATCTCATATTGAGGGCTATCTTTCTTTTTGAGCTATCTACTCTTT
+AACAGACAGCATATCATTACTTTCTTAAGCAAAATTTTCTTAGACAGTTTATTATCTAAACTCCAGTTGTATCATGCCAG
+TATGGAAAGCACCTGGTTAGGGGGTATTAAAGTCTTTAGTAAGTTTCTGTAATGGAAATTTCGTTTAAAAAGTCTTTGGA
+TGGATTTTTCTGTAAGTGCAATCATGTCAAATAATTGTGTGCAGTGACTGAGATTTGTTCTTTCTTCTCAATAAATTACA
+TTTTAAGGCA
+>ref|NM_001082759.2| Oryctolagus cuniculus casein beta (CSN2), mRNA
X13043.1 Rabbit mRNA for beta-casein
+ATCATCCACCCAGCTTCATTTTCACTTCTTGTCCTCCACCTTGGAATAAAGGACTTGGCAGTCATGAAGGTCCTCATTCT
+TGCCTGCCTGGTGGCTCTCGCTCTTGCAAGGGAGAAGGAACAACTCAGTGTTCCCACAGAGGCTGTAGGAAGTGTTTCCA
+GCAGCGAGGAAATTACACATATCAACAAGCAGAAACTCGAGACGATTAAGCACGTGGAACAGCTGCTAAGAGAGGAGAAA
+CTCCAGGATAAAATCCTCCCCTTTATTCAATCACTCTTTCCTTTTGCTGAGCGCATCCCCTACCCTACTCTTCCACAGAA
+CATCCTGAACCTTGCTCAACTCGACATGCTGCTACCTCTCCTTCAGCCTGAAATAATGGAAGACCCCAAGGCTAAAGAGA
+CCATTATCCCTAAGCACAAACTGATGCCCTTCCTTAAATCTCCAAAGACGGTCCCCTTTGTTGACTCTCAAATTCTGAAT
+CTCAGGGAGATGAAAAATCAACACCTTCTTTTGCCCCAGCTCCTGCCCTTCATGCACCAGGTCTTCCAGCCTTTTCCCCA
+GACTCCCATTCCATATCCTCAGGCCCTCCTCTCTCTTCCTCAGTCCAAATTCATGCCTATTGTCCCACAAGTGGTGCCCT
+ACCCTCAAAGGGACATGCCTATCCAAGCCCTTCAGCTGTTCCAAGAACTGCTTTTCCCTACCCATCAAGGCTACCCTGTG
+GTTCAACCAATAGCCCCAGTTAATGTCTAAGAGGATTTCACAGTTAATATCTTTTCCTGATTTTTGAATTGACTGAGACT
+GGAACTTTGGCATCTTCTCCGTCTTTCTATCATGTCATCAGAAACTAAATGTTTTTTAACTAACCAATATGGGCAAATGA
+ATCCTTACTCTTTTATTTATTTTATGCCTTAAATGAAATTTCATTTAATTTGAATTTGACTTGTAAGTTGTTTATACATT
+ACAAATTGTAATTCAGGTAGTACCATCAAAATTCAACATTGAATTGGAAATGTTATAGCAATGCCAAAATATGTTCAAAA
+ATAATTCTTACTATTATTTCTTTCAGACTCTATTTCCTTTCCAGTCATTTCAATAAATTAATCCTTTAGGCATA
+>ref|X15735.1| Rabbit DNA for 5'flanking region of beta-casein gene
+GAATTCAAGAAGAAAGTGACTTTCAAATTTCTTCTTGTCATTCTGTATTTCTCTGCTCTACTATTCAGTGAGTAACCAAA
+GATATTTGAGTTGCATTCTTGGACAATTTCCTTTCTCGCTTGCTACCCTTTCCCTAGGGAAGTGCATATACTCACTTGAG
+AAAAGAAATCATCTCTGTAAGTGTACTGATTGATGACTTCTCCCTTGAGCCACAAAACCTGAACACCTTCAAACGTACCA
+TGCACAAAATTTGACTCAGATTCTTGCTCCTTGTTTTATTTCTGTTTTATGACATTGGGTAATTTTCCAATCACTCAATC
+ATAGTACAGACATAGATTTTTCCCAATTTTCCATACTCCCATGTTTTTTTTTCTTTCAAACTTTTATTTAATAAATATAA
+ATTTCCAAAGTACAGCTTATGGATTACAATGGCTTCCCCCCCATAACGTCCCTCCCACCCGCAACCCTCCCCTTTCCCAC
+TCCCTCTCCCCTTCCATTCACATCAAGATTCATTTTCGTTTCTCTTTATATACAGAAGATCAGTTTAGCATACATTAAGT
+AAAGATTTCAACAGTTTGCTCCCACACAGAAACATAAAGTGAAAAATACTGTTTGAGTACTAGTTATCCCATGTTTTAAT
+GATTCATTTACCTTCCTCTGTCTAGGATGCCCTGCACCATCTCCCTAATTGAGATAAAAGTATTATCTGTCTTAGATTGC
+TGTAATGATATCACATAAAATCCCCTTATTAGTTCACCTGAGTTATTGTCATTAAGTCGTAAAATTCAAGAAATTGCACA
+ATCCACCTTTCTTTCAAATATTTACCATCTTTTCCAGTTGCTACTGAAGTATGACACATTAACACACTTGAGATCTAGAT
+ATCTATGACCTGACTCTGTCAAACCTCTGCAATTGTAACTTGGACTCTAAAATTTCTATGTGTCTCTACACTTACTATAT
+CGCCCTTCAAGTTATTGCATTGACTTTAGCTGAAATATTTTATTCCTATTTAATCTTTCCTCAAAATTCTACTCATTCTT
+GATAGTTTCATGAAAATAACAGTTCCTTAATGACAAGCTTCTCTGCTCACACTCACATTTTTTTTTATTTCTCCAGCCAT
+AATTAAATTCTGCACTTTTTTAAACAATATCTTACGAGAGTTAAGACAAAGCCTGTGATATATACATGTTATCAAAGAGA
+ATTGCCCTATAGGTCAAATAAATCTAAATTTAAATGGGTGTCCTTGTCATTAACTCAATATAATTTTGAGCAGGTAACTT
+AAACTTTTGGGTATCTCATACCTCTACCTGGAGATAGATGCCTCACTTGTTTTTGTGACAATTGTACAAGATACTATCTG
+TAAAGTGCTTAATGCCAGGACTGGGCTTAATACTTTGAAAAAGTATCTATTATTATTACTAGTATGCCAACAGCAGCAGA
+AAAAGATAATGAGTATTCGTCAGGTAAATACATCGCCAGAACACCTGTAGTAGCCATCCAGTTTCCATTTTTGACTTGTT
+CCATGTTAGAGGGAGGTATACCACTCTTGTGTGCAAAATATTGGTTTGAGCGGAAATATTTATTTTTTTCTAAATCAAAT
+GGTTCTTGACACTAAACAGTTGACCTCATTTGACTAAGCTATCCTCATGAACTAGTTGCTTTGTTAATTTCTCCACTGTG
+ACATAAAGGACTGTTCAGGTTATCATGAAGTCATGGTCTTTGTGAGCCCCTGTGTATCGTTGGTGTTCATATAGAATTTC
+CCTACAGTTGAGATCTTTAGGTCTCCCTAGACCCAAAAGAAACCTAATAGTGCTCACATTAGTATCTTGGAGACTAGGCT
+GGAGCACCACTCTTCTCCAGCCATTGTGTTTATTATTGGGCAATTCATTTCCTGGACACATTTCCTTTATAGGCCTATGA
+ATTACTGCCTTGTCTCAATGCTCCCCAGAATTTCTGGGGAAAGATAATGAGTAGAAATCATTTTCTAATCATATGGAGTT
+CTTGGAATTGAAACTCAAAATCGATTTTTTTTTTTCAAACCACAAAATTAGCATGTCATTAAATGGAGTATATAAGCATC
+CCCAAAAGCAGAGAACATCATCCACCCAGCTTCATTTTCACTTCTTGTCCTCCACCTTGGAATAAAGGTAAGAATTC
+>ref|NM_001101693.1| Oryctolagus cuniculus calcium voltage-gated channel subunit alpha1 A (CACNA1A), mRNA
X57476.1 Rabbit mRNA for calcium channel BI-1
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCTTTACCGGGACATGTATGCGATGCTGAGACACATGCCCCCACCCCTGGGTCTGGGGAA
+GAACTGCCCGGCCAGAGTGGCCTACAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGCCCGGCGGCCGCCGACAAGGAACGCTACGGCCCGCAGGACCGGCCCGACCATGGCCACGGC
+CGCGCCCGCGCCCGGGACCAGCGCTGGTCCCGCTCGCCCAGCGAGGGCCGGGAGCACACCACGCACCGGCAGTAGTTCAG
+TAAGTGGAAGCCCCGTCCCTTCTACGTCCGGTACCAGCACTCCGCAGCGGGGACGCCGCCAGCTCCCCCAGACCCCCTGC
+ACCCCCCGGCCACTCGTGTCCTACTCCCCCGTGGTCCGCAAGGTCGGAGGCGTGGGTCCCCCGCAGCAGCAGCAGGCGGT
+GGCCAGGCCGGGCCGGGCGGCTCCCGGCGGCCCTCGGAGGTACCCGGGCCCCGCGGCTGAGCCCCCGCCCGCTGGGGGCC
+ACGGCGCCGGCCGCTCGCCGGCCTTGGAGCGGCGGGGCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCAC
+GGCGGCGGCGGCGGGGCCCGGTGGCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACAC
+GCACGGCTACTACCGGAGCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACG
+AGGAGGTGGCGGCCGGGCCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCA
+GCGTGTGCCTCGCCCGCGCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGG
+GCCCGGCTCCCGCAAAAGCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCC
+GGGCGAGCTGGCCCCGCGCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCC
+GGCGCTGGACCGCGAGCGCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGG
+GTTGGGGTGTCGCGTGCGGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCA
+CGCAACCATTTCTGGACAACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACGCACACACGATCAC
+ATTTTTAAAAGAAAACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGG
+CTGAGGGCTGCCGAGCGCGGCCGCTAGGGGCGCATGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGG
+CGCGGACTCGGCCGCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTC
+GGCCGCTAGGGGCGCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAA
+AAAAATAACAATAATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTT
+TTCTGACATTTGATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATT
+CCTTTGCTTCTATTTTTTTGGATATTTTTTCTCTTTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTT
+TGAAAGCTGTGGGCTTGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAA
+GCGAAAAAACAGTTGAATTC
+>ref|X57688.1| Rabbit mRNA for calcium channel BI-1 (lambda CBP109 and CB101)
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCACTATAAGGATATGTACAGTTTATTACGTGTAATCTCTCCCCCTCTCGGCTTAGGCAA
+GAAATGTCCTCATAGGGTTGCCTGCAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGCCCGGCGGCCGCCGACAAGGAACGCTACGGCCCGCAGGACCGGCCCGACCATGGCCACGGC
+CGCGCCCGCGCCCGGGACCAGCGCTGGTCCCGCTCGCCCAGCGAGGGCCGGGAGCACACCACGCACCGGCAGTAGTTCAG
+TAAGTGGAAGCCCCGTCCCTTCTACGTCCGGTACCAGCACTCCGCAGCGGGGACGCCGCCAGCTCCCCCAGACCCCCTGC
+ACCCCCCGGCCACTCGTGTCCTACTCCCCCGTGGTCCGCAAGGTCGGAGGCGTGGGTCCCCCGCAGCAGCAGCAGGCGGT
+GGCCAGGCCGGGCCGGGCGGCTCCCGGCGGCCCTCGGAGGTACCCGGGCCCCGCGGCTGAGCCCCCGCCCGCTGGGGGCC
+ACGGCGCCGGCCGCTCGCCGGCCTTGGAGCGGCGGGGCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCAC
+GGCGGCGGCGGCGGGGCCCGGTGGCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACAC
+GCACGGCTACTACCGGAGCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACG
+AGGAGGTGGCGGCCGGGCCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCA
+GCGTGTGCCTCGCCCGCGCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGG
+GCCCGGCTCCCGCAAAAGCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCC
+GGGCGAGCTGGCCCCGCGCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCC
+GGCGCTGGACCGCGAGCGCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGG
+GTTGGGGTGTCGCGTGCGGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCA
+CGCAACCATTTCTGGACAACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACGCACACACGATCAC
+ATTTTTAAAAGAAAACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGG
+CTGAGGGCTGCCGAGCGCGGCCGCTAGGGGCGCATGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGG
+CGCGGACTCGGCCGCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTC
+GGCCGCTAGGGGCGCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAA
+AAAAATAACAATAATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTT
+TTCTGACATTTGATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATT
+CCTTTGCTTCTATTTTTTTGGATATTTTTTCTCTTTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTT
+TGAAAGCTGTGGGCTTGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAA
+GCGAAAAAACAGTTGAATTC
+>ref|X57477.1| Rabbit mRNA for calcium channel BI-2
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCTTTACCGGGACATGTATGCGATGCTGAGACACATGCCCCCACCCCTGGGTCTGGGGAA
+GAACTGCCCGGCCAGAGTGGCCTACAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCACGGCGGCGGCGGCGGGGCCCGGTG
+GCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACGCGCACCCGCACGGCTACTACCGGA
+GCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACGAGGAGGTGGCGGCCGGG
+CCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCAGCGTGTGCCTCGCCCGC
+GCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGGGCCCGGCTCCCGCAAAA
+GCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCCGGGCGAGCTGGCCCCGC
+GCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCCGGCGCTGGACCGCGAGC
+GCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGGGTTGGGGTGTCGCGTGC
+GGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCACGCAACCATTTCTGGAC
+AACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACACACGCACACACGATCACATTTTTAAAAGAA
+AACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGGCTGAGGGCTGCCG
+AGCGCGGCCGCTAGGGGCGCACGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGGCGCGGACTCGGCC
+GCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTCGGCCGCTAGGGGC
+GCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAAAAAAAATAACAAT
+AATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTTTTCTGACATTTG
+ATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATTCCTTTGCTTCTA
+TTTTTTTGGATATTTTTCTCTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTTTGAAAGCTGTGGGCT
+TGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAAGCGAAAAAACAGTTG
+AATTC
+>ref|X57689.1| Rabbit mRNA for calcium channel BI-2 (lambda CBP109 and CB101)
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCACTATAAGGATATGTACAGTTTATTACGTGTAATCTCTCCCCCTCTCGGCTTAGGCAA
+GAAATGTCCTCATAGGGTTGCCTGCAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCACGGCGGCGGCGGCGGGGCCCGGTG
+GCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACGCGCACCCGCACGGCTACTACCGGA
+GCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACGAGGAGGTGGCGGCCGGG
+CCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCAGCGTGTGCCTCGCCCGC
+GCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGGGCCCGGCTCCCGCAAAA
+GCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCCGGGCGAGCTGGCCCCGC
+GCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCCGGCGCTGGACCGCGAGC
+GCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGGGTTGGGGTGTCGCGTGC
+GGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCACGCAACCATTTCTGGAC
+AACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACACACGCACACACGATCACATTTTTAAAAGAA
+AACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGGCTGAGGGCTGCCG
+AGCGCGGCCGCTAGGGGCGCACGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGGCGCGGACTCGGCC
+GCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTCGGCCGCTAGGGGC
+GCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAAAAAAAATAACAAT
+AATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTTTTCTGACATTTG
+ATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATTCCTTTGCTTCTA
+TTTTTTTGGATATTTTTCTCTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTTTGAAAGCTGTGGGCT
+TGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAAGCGAAAAAACAGTTG
+AATTC
+>ref|X07798.1| Rabbit mRNA for type-1 protein phosphatase 1-alpha catalytic subunit
+GCCCGGAGCTGCTGGGCCCCGAGCGGCGGCGCCGCCATGTCCGACAGCGAGAAGCTCAACCTGGACTCTATCATCGGGCG
+CCTGCTGGAAGTGCAGGGCTCGCGGCCCGGAAAGAATGTGCAGCTGACGGAGAACGAGATCCGTGGTCTGTGCCTCAAAT
+CCCGGGAGATCTTCCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGGCCAG
+TACTACGACCTGCTGCGGCTGTTCGAGTACGGCGGCTTCCCCCCAGAGAGCAACTACCTGTTCCTGGGTGACTACGTGGA
+CCGCGGCAAGCAGTCCCTGGAGACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTGCTGC
+GCGGGAACCACGAGTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAAGCTG
+TGGAAGACGTTCACCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATGGCGG
+CCTCTCCCCCGACCTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTGCTGT
+GTGACCTGCTGTGGTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTTCGGC
+GCGGAGGTGGTGGCCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACGGCTA
+TGAGTTCTTTGCCAAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGAGCCA
+TGATGAGCGTGGACGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGGGCAG
+TTAAGTGGCCTGAACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGGGTGC
+GGCCCCCTGCCCAGACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGGGGAC
+ACGGGCCTCGGTGGATCTGTTTTTTAATGAATCACTAGCAGCACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTGCGCG
+GCTGCAAGCAGGATCCTGGGGCCAAGGCTGCAGCTCAGGGCGACGGCGGCCAGACTGGGTCTCGTCTCGTGCGGCCGCAG
+GGCTGGCAGCCGGGTCCCAGGGCAGCCCGTCTGGTCTCCTGAATAAAGGTCAAAGCTGGATTCTGAAAC
+>ref|NM_001101717.1| Oryctolagus cuniculus serine hydroxymethyltransferase 1 (SHMT1), mRNA
Z11846.1 O.cuniculus mRNA for cytosolic serine hydroxymethyltransferase
+AAAGATGAAGAAAAAGGAGCCAGTGGGTTCCGCTGACTCCGCGGGTCACGTGGCGGGCCTGCCGGAGCGCGCGAGTGGAC
+GGTCGTGGACGGTCGTGGAGCGGCGGCCGGACCGAGGCATACGTGTCCGCGTTCCGGTGGCCTTGAACCAGCGTGATGGC
+GACCGCAGTCAATGGGGCCCCCAGGGACGCTGCCCTGTGGTCCTCGCATGAACAGATGCTGGCCCAGCCCCTGAAGGACA
+GCGACGCAGAGGTTTACGACATCATCAAGAAGGAGAGCAACCGGCAGAGGGTCGGCCTGGAGCTGATTGCCTCGGAGAAC
+TTCGCCAGCCGTGCGGTTTTGGAAGCCCTGGGCTCCTGCTTAAATAACAAATACTCAGAGGGCTACCCCGGCCAGAGGTA
+TTATGGCGGCACTGAGCATATCGATGAGCTGGAGACGCTGTGTCAGAAGCGGGCGCTGCAGGCCTACGGCCTGGACCCAC
+AGTGCTGGGGCGTCAACGTGCAGCCCTACTCAGGCTCCCCCGCCAACTTCGCCGTGTACACGGCCCTGGTGGAGCCCCAT
+GGGCGCATCATGGGTCTGGACCTGCCCGACGGGGGCCACCTGACCCACGGGTTCATGACGGACAAGAAGAAGATCTCGGC
+TACGTCCATCTTCTTTGAATCCATGGCCTACAAGGTGAACCCAGACACTGGCTACATCGACTACGACCGGCTGGAGGAGA
+ACGCGCGCCTCTTCCACCCGAAGCTGATCATCGCAGGAACCAGCTGCTACTCCCGGAACTTGGACTACGGGCGGCTCAGG
+AAGATAGCGGACGAGAACGGGGCCTACCTCATGGCCGACATGGCACACATCAGTGGGCTGGTGGTGGCTGGCGTGGTGCC
+CTCCCCCTTTGAGCACTGCCACGTGGTGACCACCACGACCCACAAGACGCTGCGAGGCTGCCGGGCCGGCATGATCTTCT
+ACAGGAGAGGAGTGCGCAGCGTGGACCCCAAGACTGGCAAAGAGATCCTGTACAACCTGGAGTCGCTCATCAACTCTGCC
+GTGTTCCCGGGCCTGCAGGGAGGCCCCCACAACCACGCCATCGCAGGGGTCGCCGTGGCCCTGAAGCAGGCCATGACTCC
+GGAGTTCAAGGAGTACCAGCGCCAGGTGGTGGCCAACTGCAGGGCCCTGTCCGCAGCCCTCGTGGAGCTGGGATACAAGA
+TTGTCACAGGTGGTTCTGACAACCATTTGATCCTCGTGGATCTCCGTTCCAAAGGCACAGATGGCGGGAGGGCGGAGAAG
+GTGCTGGAAGCCTGCTCTATCGCTTGCAACAAGAACACCTGCCCAGGTGACAAGAGTGCACTGCGTCCTAGCGGCCTGCG
+CCTGGGTACCCCAGCGCTGACATCCCGGGGCCTCCTGGAAAAAGACTTCCAGAAAGTGGCACACTTCATCCACAGAGGCA
+TAGAGCTCACCGTGCAGATCCAGGACGACACGGGCCCCAGGGCAACCCTGAAGGAGTTCAAGGAGAAGCTGGCAGGCGAC
+GAGAAGCACCAGAGGGCCGTGCGGGCCCTGCGCCAGGAGGTCGAGAGCTTCGCCGCCCTGTTCCCGCTGCCCGGCCTGCC
+CGGCTTCTAGAGGGGCCGGCGCCTGAGGCCGAGGGGACCCCGCTTCGAGCCCCCGCGGGAGTGCCTTCGGACTTCCCTCG
+TCTTCCTCCCACATCAAACCCTTGTCTGGGAGGAGTAAGGCTGGCCCGGGGCAGTAGGGACGTGGCGGTGAACCATGGAG
+GCTGGCCGGCCGGCTGTGCACCTCCCTTCTCTTAGCGCCCCTGGGCACTGGTCTGGCTTCCTGCAGCCGGCCGGGCCCCG
+TGCTCACGGCTGTGAGAGCTGCCCGCCGGGACGTGTCAGGGACGCAGAGCAGAATCAGGACGACCACAGCTGAGAGGCGA
+TTCCCCGGAGCCAGAAGAGGCGTGCCCAGCCTGGCGGAGGTGCAGCTCCCCACAGCTCTGGGTCTCCTCCACGCCTGCCC
+CAGGAAGCGCCCAGTGCCAGCCGCCGGCCTTTGCCGCCACCCCACCCCCCCCCCCCCCCGCACTGTGACAGGAAGCCACA
+TGTCACCTTCCCAAAGAGACTTTATTTTTCACATAGCTGAAGTGCAAAACATAGCTGACCGTTTTTAATAAGCACAATCA
+AGGTTTTAACCACAGAATGTCTACAAGAATTATAGCTTTAAAAAATACAACCAATTTTTATATTTCAAAAATATCTGAAC
+TCAAATAAATTAATTTCTGAA
+>ref|Z14091.1| O.cuniculus mRNA for cytochrome b5
+GAGATGGCTGCGCAGTCAGACAAAGACGTGAAGTACTACACCCTAGAAGAGATTAAGAAGCACAACCACAGCAAAAGCAC
+CTGGCTGATCCTGCACCACAAGGTGTACGATCTGACCAAATTTCTGGAGGAGCACCCTGGAGGGGAGGAAGTCCTGAGGG
+AACAAGCTGGGGGCGATGCCACTGAAAACTTTGAGGACGTCGGGCACTCGACAGATGCCAGAGAGCTGTCCAAGACCTTC
+ATCATCGGGGAGCTGCACCCGGATGACAGATCAAAATTGAGCAAGCCTATGGAACCTTAAAGGCTGTGTTTCAAGGAAAC
+TCTTATCACCACCGTCGATTCCAATTCCAGCTGGTGGACCAACTGGGTGATCCCCGCCATCTCCGCCCTGATCGTGGCAC
+TGATGTATCGCCTCTACATGGCCGACGACTGAGCCCCTGCCCAGCAGCC
+>ref|NM_001101700.1| Oryctolagus cuniculus dystroglycan 1 (DAG1), mRNA
X64393.1 O.cuniculus mRNA for dystroglycan
+GGCTGCTTTTCAGGAAGATAAAGCTTTTAAGGCTGCCTAACACTAGAAGGAGAGGCTCTCGATGCTCTGGGATGGAGCAG
+GTGTGCAGAGGGTGAGGACCCGGCTCTGGGATCAAGTCACTTGCTTGCTTCCTTAGCAAGATCTTCGGCTTGAGCGAACT
+TGGCCTGGGATGAGGATGTCTGTGGGCCTTTCACTGCTGCTCCCCTTGTGGGGGAGGACATTTCTCCTCCTCCTCTGTGT
+GGCCGTGGCTCAGTCCCATTGGCCCAGCGAACCCTCGGAGGCTGTCAGGGACTGGGAGAACCAGCTGGAGGCGTCCATGC
+ACTCTGTGCTCTCAGACCTGCACGAAGCCCTTCCCACAGTGGTTGGCATTCCTGATGGCACGGCTGTTGTTGGGCGCTCG
+TTTCGAGTGACCATTCCAACAGATTTAATTGGCTCCAGTGGAGAAGTCATCAAGGTATCCACGGCAGGGAAGGAGGTTTT
+GCCATCGTGGCTGCATTGGGATCCACAGAGCCACACCCTGGAGGGCCTTCCGCTGGACACGGACAAGGGTGTGCATTACA
+TCTCAGTGAGCGCTGCACAGCTGGATGCCAACGGAAGCCACATCCCTCAGACCTCCAGTGTGTTCTCCATCGAGGTCTAC
+CCCGAAGACCACAGTGAGCCGCAGTCTGTGCGGGCGGCCTCTCCAGACCTGGGCGAGGCGGCGGCGTCTGCCTGTGCTGC
+CGAGGAGCCGGTGACCGTCTTGACCGTGATTCTGGATGCCGATCTCACCAAGATGACTCCGAAGCAGAGGATCGACCTCC
+TGCACAGGATGCAGAGCTTCTCGGAGGTGGAGCTCCACAACATGAAGTTGGTGCCGGTGGTGAATAACAGACTGTTTGAT
+ATGTCTGCCTTCATGGCCGGCCCCGGAAACGCCAAAAAGGTGGTAGAGAACGGGGCCCTGCTCTCCTGGAAGCTGGGCTG
+CTCCCTGAACCAGAACAGTGTGCCTGACATTCGCGGCGTGGAGGCCCCTGCCAGGGAGGGCACTATGTCTGCCCAGCTTG
+GCTACCCTGTGGTGGGTTGGCACATTGCCAACAAGAAGCCACCTCTCCCCAAGCGTATCCGAAGGCAGATCCATGCCACA
+CCCACACCTGTCACTGCCATTGGGCCCCCAACCACGGCCATCCAGGAGCCGCCGTCCAGGATCGTGCCTACCCCCACTTC
+TCCAGCCATTGCTCCTCCCACAGAGACGATGGCTCCTCCAGTCAGGGATCCTGTTCCTGGGAAGCCCACGGTCACCACTC
+GGACTCGAGGTGCCATTATTCAGACCCCAACCCTAGGCCCCATCCAGCCCACTCGGGTGTCAGACGCTGGCACCGTAGTT
+TCTGGCCAGATTCGTGCAACGGTGACCATTCCTGGCTACGTGGAGCCCACAGCAGTTGCCACCCCTCCCACAACTACAAC
+CAAAAAGCCACGAGTGTCCACACCAAAACCAGCAACGCCTTCAACGGACTCCTCAGCCACCACGACTCGCAGGCCAACCA
+AGAAGCCACGGACACCCAGGCCGGTGCCACGGGTCACCACTAAAGCTCCCATCACCAGGCTGGAGACGGCCTCCCCACCT
+ACTCGTATCCGCACCACCACCAGCGGGGTGCCCCGCGGGGGAGAACCCAACCAGCGCCCAGAGCTCAAGAACCACATCGA
+CAGGGTGGACGCCTGGGTCGGCACCTACTTTGAGGTGAAGATCCCATCTGATACCTTCTACGACAAGGAGGATACCACCA
+CCGACAAGCTCAAGCTGACCCTGAAGCTGCGAGAGCAGCAGCTGGTGGGCGAGAAGTCCTGGGTGCAGTTCAACAGCAAC
+AGCCAGCTCATGTATGGCCTGCCCGACAGCAGCCACGTGGGCAAACACGAGTATTTCATGCATGCCACAGACAAGGGAGG
+CCTGTCCGCCGTGGATGCCTTTGAGATCCATGTCCACAAGCGCCCTCAAGGGGACAAAGCTCCTGCTCGTTTCAAAGCCA
+AGTTCGTGGGTGACCCAGCGCCAGTGGTGAATGACATCCACAAGAAGATTGCCCTGGTGAAGAAGCTGGCCTTTGCCTTT
+GGGGATCGCAATTGCAGCACCGTCACCCTGCAGAACATCACCCGCGGCTCCATTGTGGTGGAGTGGACCAACAACACACT
+GCCGCTGGAGCCCTGCCCCAAGGAGCAGATCACGGGGCTGAGCCGCAGGATCGCCGAGGACAACGGGCAGCCTCGGCCAG
+CCTTCACCAATGCCCTGGAGCCTGACTTTAAGGCCACGAGCATCGCCATAACGGGCTCTGGCAGTTGTCGGCACTTGCAG
+TTTATCCCCGTGGCACCGCCTGGGATCCCGTCCTCGGTGACACCACCCACGGAGGTGCCAGACAGGGACCCCGAGAAGAG
+CAGTGAGGATGACGTCTACCTACACACAGTCATTCCGGCTGTGGTGGTGGCGGCCATCCTGCTCATTGCTGGCATCATTG
+CCATGATCTGCTACCGCAAGAAGCGGAAGGGCAAGCTCACCCTGGAGGACCAGGCCACCTTCATCAAGAAGGGGGTGCCC
+ATCATCTTTGCAGACGAGCTGGACGACTCCAAGCCCCCGCCCTCCTCCAGCATGCCGCTGATCCTGCAGGAGGAGAAGGC
+TCCCCTTCCCCCCCCAGAGTATCCCAGCCAGAGCGTGCCCGAGACCACGCCTCTGAACCAGGACACTGTGGGGGAGTACA
+CGCCCCTTCGGGATGAGGATCCCAACGCGCCTCCCTACCAGCCCCCCCCACCCTTCACAGCCCCGATGGAGGGCAAGGGC
+TCCCGTCCCAAGAACATGACCCCTTACCGGTCACCCCCTCCTTATGTTCCCCCTTAACCCACAAGCGCCTGGGTGGAGGC
+AGGGTAGGGCAGGGGCCTGGGGACAACACAGTGTTGTCTGTGGAGCCCGGTGGCCCGCAGACCATCGCCCACTGGGCGCT
+GACACCAGACCTAGCACACACTGGCACACGGGGCCTGGACAAGCCCGCCCTCTCTGGTCCTCCCAAACCCCAAAGCAGCT
+GGAGAGACTTTGGGGACTTTTTTTATTTTTATTTTTTGCCTAACAGCTTTTTGTTTGTTCATAGAAAATCCTTCGCTGCG
+TTTTGATGGCTGGCTCTGGAAGCACCATTTGGAGTAGAGGTAGAGGGAGGGAGCGAGGAGCCGTGGGTGAACTCGCAGGC
+AGTGCTGGGCAGCCCCCCGGCTCTCTGCGTTTTGCCTTTAACACTAACTGTACTGTTTTTTCTATTCACGTGTGTCTAGC
+TGCAGGATGTAACATGGAAAACAGTAGCTAAAGATTAAATTCAAAGGACTTTCAGAAGTTAAGGTTAAGTTTTTACATTT
+AATCTGCTGTTTACCTAAACTTGTATGTATAATTTTTGGGTGGGTATGGGGAATTGCTTTGCTAAAAATAAGCTCCCAGG
+GTGTTTCAAACTTAAGAGAAGACCAAGGGACAGTATTTTTTATCAAAGGAATCCTATTTTTTCACACTATGTCAACTTGG
+TTGCTCTGATATCCCAGAGCCCGATCGGGGGCCTCCTGGCCCTGGCTCAGGGGCCAGGGTCCTGGTGCTGGGTTTGCTCT
+CCTGCTGTTGGCAGGAGTTGGAAGCTGGAGGGGCCTCTCGGGCCGTGGACATCCCCACCTCCACCCCATGCATGCTAGTG
+GCCCACCACCAAGGGGTCTTCATTTCCATGGGAAAGGGACTCCAAGAGGCAGTGGTGGCCGTGGCCCCCACCCCGGGTGC
+TCCAAGGTGGGCCAGCTGCTCGTGGGGGCCCCTGGGGAGGTTGAGGGACTCGACCACATCGACCTGTTTCCTTTCACCTT
+TTATTTTTTTTTTTCCCCACCCCTCCTAAAAGGATTATCACGGTTTTTGAAACACTCAGTGGGGGACATTTTGGTGAAGA
+TGCAATATTTTTATGTCATGTGATGCTCTTTCCTCACTTGACCTTGGCCACTTTGTCCCAACAGTCCACAGCCCCGCCCC
+GATCCACCCCATCCCTCTTCTCTGGCGCTCCCGTCCCAGGCCTTGGGCCTGAACGACTGGAAAAGGCCTGGTTGGCTGGG
+GAGGAGTGCCACCAATAGTTCATAGTAAACAATCTGTGGGCTCTCAAAGCTAATTTTTTACTAAAGTTTTTATACAGCCT
+CAAATTGTTTTATTAAAAAATAGATTAAAAATGGTGATGC
+>ref|NM_001101720.1| Oryctolagus cuniculus calcium voltage-gated channel subunit alpha1 S (CACNA1S), mRNA
X05921.1 Rabbit mRNA for dihydropyridine (DHP) receptor (from skeletal muscle)
+TTCCACCTACATGTTGGCCTGGACAGCAGGGAGCCGAGGGGAGGCTAATTTTACTGCTGGGAGCAGCTAGCATAATCCTC
+CCGCCCCCACCCCGCTGGCTCAGCAGGGCAGGCTTCGCCCGGCAAGCTCAGCGGCCCAGTCCCCAAGGCGGGGAACACTG
+GGGACGCAGGGAAGAGAGGGCCGCGGGGTGGGGGAGCAGCAGGAAGCGCCGTGGCCAGGGAAGCCATGGAGCCATCCTCA
+CCCCAGGATGAGGGCCTGAGGAAGAAACAGCCCAAGAAGCCCCTGCCCGAGGTCCTGCCCAGGCCGCCGCGGGCTCTGTT
+CTGCCTGACCCTGCAGAACCCGCTGAGGAAGGCGTGCATCAGCATCGTGGAATGGAAACCCTTCGAGACCATCATCCTGC
+TCACCATCTTTGCCAACTGTGTGGCCCTGGCCGTGTACCTGCCCATGCCCGAGGATGACAACAACTCCCTGAACCTGGGC
+CTGGAGAAGCTGGAGTACTTCTTCCTCACCGTCTTCTCCATCGAAGCCGCCATGAAGATCATCGCCTACGGCTTCCTGTT
+CCACCAGGACGCCTACCTGCGCAGCGGCTGGAACGTGCTGGACTTCATCATCGTCTTCCTGGGGGTCTTCACGGCGATTC
+TGGAACAGGTCAACGTCATCCAGAGCAACACGGCCCCGATGAGCAGCAAAGGAGCCGGCCTGGACGTCAAGGCCCTGAGG
+GCCTTCCGTGTGCTCAGACCCCTCCGGCTGGTGTCGGGGGTGCCTAGTTTGCAGGTGGTCCTCAACTCCATCTTCAAGGC
+CATGCTCCCCCTGTTCCACATCGCCCTGCTCGTCCTCTTCATGGTCATCATCTACGCCATCATCGGGCTGGAGCTCTTCA
+AGGGCAAGATGCACAAGACCTGCTACTACATCGGGACAGACATCGTGGCCACAGTGGAGAATGAGAAGCCCTCGCCCTGC
+GCTAGGACGGGCTCGGGGCGCCCCTGCACCATCAACGGCAGCGAGTGCCGGGGCGGCTGGCCGGGGCCCAACCACGGCAT
+CACGCACTTCGACAACTTCGGCTTCTCCATGCTCACCGTGTACCAGTGCATCACCATGGAGGGCTGGACAGATGTCCTCT
+ACTGGGTCAACGATGCCATCGGGAACGAGTGGCCCTGGATCTACTTTGTCACTCTCATCCTGCTGGGGTCCTTCTTCATC
+CTCAACCTGGTGCTGGGCGTCCTGAGTGGGGAATTCACCAAGGAGCGGGAGAAGGCCAAGTCCAGGGGAACCTTCCAGAA
+GCTGCGGGAGAAGCAGCAGCTGGAGGAGGACCTTCGGGGCTACATGAGCTGGATCACGCAGGGCGAGGTCATGGACGTGG
+AGGACCTGAGAGAAGGAAAGCTGTCCTTGGAAGAGGGAGGCTCCGACACGGAAAGCCTGTACGAAATCGAGGGCTTGAAC
+AAAATCATCCAGTTCATCCGACACTGGAGGCAGTGGAACCGTGTCTTTCGCTGGAAGTGCCATGACCTGGTGAAGTCGAG
+AGTCTTCTACTGGCTGGTCATCCTGATCGTGGCCCTCAACACCCTGTCCATCGCCTCGGAGCACCACAACCAGCCGCTCT
+GGCTGACCCACTTGCAAGACATCGCCAATCGAGTGCTGCTGTCACTCTTCACCATCGAGATGCTGCTGAAGATGTACGGG
+CTGGGCCTGCGCCAGTACTTCATGTCCATCTTCAACCGCTTCGACTGCTTCGTGGTGTGCAGCGGCATCCTGGAGCTGCT
+GCTGGTGGAGTCGGGCGCCATGACGCCGCTGGGCATCTCCGTGTTGCGCTGCATCCGCCTCCTGAGGCTCTTCAAGATCA
+CCAAGTACTGGACGTCGCTCAGCAACCTGGTGGCCTCCCTGCTCAACTCCATCCGCTCCATCGCCTCGCTGCTGCTGCTG
+CTCTTCCTCTTCATCATCATCTTCGCCCTGCTGGGCATGCAGCTCTTCGGGGGGCGGTACGACTTCGAGGACACGGAAGT
+GCGACGCAGCAACTTCGACAACTTCCCCCAGGCCCTCATCAGCGTCTTCCAGGTGCTGACGGGTGAGGACTGGAACTCCG
+TGATGTACAACGGGATCATGGCCTACGGAGGCCCGTCCTACCCGGGCGTTCTCGTGTGCATCTATTTCATCATCCTTTTT
+GTCTGCGGCAACTATATCCTGCTGAATGTCTTCCTGGCCATCGCCGTGGACAACCTGGCCGAGGCGGAGAGCCTGACTTC
+CGCGCAAAAGGCCAAGGCCGAGGAGAGGAAACGCAGGAAGATGTCCAGGGGTCTCCCTGACAAGACAGAGGAGGAGAAGT
+CTGTGATGGCCAAGAAGCTGGAGCAGAAGCCCAAGGGGGAGGGCATCCCCACCACTGCCAAGCTCAAGGTCGATGAGTTC
+GAATCTAACGTCAACGAGGTGAAGGACCCCTACCCTTCAGCTGACTTCCCAGGGGATGATGAGGAGGACGAGCCTGAGAT
+CCCAGTGAGCCCCCGACCGCGCCCGCTGGCCGAGCTGCAGCTCAAAGAGAAGGCAGTGCCCATCCCGGAAGCCAGCTCCT
+TCTTCATCTTCAGTCCCACCAATAAGGTCCGTGTCCTGTGTCACCGCATCGTCAACGCCACCTGGTTCACCAACTTCATC
+CTGCTCTTCATCCTGCTCAGCAGTGCTGCGCTGGCCGCCGAGGACCCCATCCGGGCGGAGTCCGTGAGGAATCAGATCCT
+TGGATATTTTGATATTGCCTTCACCTCTGTCTTCACTGTGGAGATTGTCCTCAAGATGACGACCTACGGCGCCTTCCTGC
+ACAAGGGCTCCTTCTGCCGCAACTACTTCAACATCCTGGACCTGCTGGTGGTGGCTGTGTCTCTCATCTCCATGGGTCTC
+GAGTCCAGCACCATCTCCGTGGTAAAGATCCTGAGAGTGCTAAGGGTGCTCCGGCCCCTGCGAGCCATCAACAGAGCCAA
+AGGGTTGAAGCACGTGGTCCAGTGCGTGTTCGTGGCCATCCGCACCATCGGGAACATCGTCCTGGTCACCACGCTCCTGC
+AGTTCATGTTCGCCTGCATTGGTGTCCAGCTCTTCAAGGGCAAGTTCTTCAGCTGCAACGACCTATCCAAGATGACAGAA
+GAGGAGTGCAGGGGCTACTACTATGTGTACAAGGACGGGGACCCCACGCAGATGGAGCTGCGCCCCCGCCAGTGGATACA
+CAATGACTTCCACTTTGACAACGTGCTGTCGGCCATGATGTCGCTCTTCACGGTGTCCACCTTCGAGGGATGGCCCCAGC
+TGCTGTACAGGGCCATAGACTCCAACGAGGAGGACATGGGCCCCGTTTACAACAACCGAGTGGAGATGGCCATCTTCTTC
+ATCATCTACATCATCCTCATTGCCTTCTTCATGATGAACATCTTTGTGGGCTTTGTCATCGTCACCTTCCAGGAGCAGGG
+GGAGACAGAGTACAAGAACTGCGAGCTGGACAAGAACCAGCGCCAGTGTGTGCAGTATGCCCTGAAGGCCCGCCCACTTC
+GGTGCTACATCCCCAAGAACCCATACCAGTACCAGGTGTGGTACGTCGTCACCTCCTCCTACTTTGAATACCTGATGTTC
+GCCCTCATCATGCTCAACACCATCTGCCTGGGCATGCAGCACTACCACCAGTCGGAGGAGATGAACCACATCTCGGACAT
+CCTCAACGTGGCCTTCACCATCATCTTCACACTGGAGATGATCCTCAAGCTCTTGGCGTTCAAGGCCAGGGGCTATTTCG
+GAGACCCCTGGAATGTGTTCGACTTCCTGATCGTCATCGGCAGCATCATTGACGTCATCCTCAGCGAGATCGACACTTTC
+CTGGCCTCCAGCGGGGGACTGTATTGCCTGGGTGGCGGCTGCGGGAACGTTGACCCAGACGAGAGCGCCCGCATCTCCAG
+TGCCTTCTTCCGCCTGTTCCGGGTCATGAGGCTGATCAAGCTGCTGAGTCGGGCCGAGGGCGTGCGCACGCTGCTGTGGA
+CGTTCATCAAGTCCTTCCAGGCCCTGCCCTACGTGGCCCTGCTCATCGTCATGCTGTTCTTCATCTACGCCGTCATCGGC
+ATGCAGATGTTTGGAAAGATCGCCCTGGTGGACGGGACCCAGATCAACCGCAACAACAACTTCCAGACCTTCCCGCAGGC
+CGTGCTGCTGCTCTTCAGGTGTGCGACAGGGGAGGCGTGGCAAGAGATCCTGCTGGCCTGCAGCTACGGGAAGTTGTGCG
+ACCCAGAGTCAGACTACGCCCCGGGCGAGGAGTACACGTGTGGCACCAACTTCGCCTACTACTACTTCATCAGCTTCTAC
+ATGCTCTGCGCCTTCCTGATCATCAACCTCTTCGTGGCTGTCATCATGGACAACTTTGACTACCTGACACGCGACTGGTC
+CATCCTGGGCCCTCACCACCTGGACGAGTTCAAGGCTATCTGGGCAGAGTATGACCCAGAGGCCAAGGGGCGAATCAAGC
+ACCTGGACGTGGTGACCCTGCTGAGAAGGATCCAGCCCCCTCTGGGCTTCGGGAAGTTCTGTCCACACCGGGTGGCCTGT
+AAGCGCCTGGTGGGCATGAACATGCCCCTGAACAGTGACGGCACGGTCACCTTCAATGCCACGCTCTTTGCCCTGGTGCG
+CACGGCCCTCAAGATCAAGACAGAAGGTAACTTTGAGCAGGCCAACGAGGAGCTGAGGGCCATCATCAAGAAGATCTGGA
+AGAGAACCAGCATGAAGCTGCTGGACCAGGTCATCCCTCCCATAGGAGATGACGAGGTGACCGTGGGGAAGTTCTACGCC
+ACATTCCTCATCCAGGAGCACTTCCGGAAGTTCATGAAGCGCCAGGAGGAATATTATGGGTATCGGCCCAAGAAGGACAC
+CGTGCAGATCCAGGCTGGGCTGCGGACCATAGAGGAGGAGGCGGCCCCTGAGATCCGCCGCACCATCTCAGGAGACCTGA
+CCGCCGAGGAGGAGCTGGAGAGAGCCATGGTGGAGGCTGCGATGGAGGAGAGGATCTTCCGGAGGACGGGAGGCCTGTTT
+GGCCAGGTGGACACCTTCCTGGAAAGGACCAACTCCCTGCCCCCGGTGATGGCCAACCAAAGACCGCTCCAGTTTGCTGA
+GATAGAAATGGAAGAGCTTGAGTCGCCTGTCTTCTTGGAGGACTTCCCTCAAGATGCAAGAACCAACCCTCTCGCTCGTG
+CCAATACCAACAACGCCAATGCCAATGTTGCCTATGGCAACAGCAACCATAGCAACAACCAGATGTTTTCCAGCGTCCAC
+TGTGAAAGGGAGTTCCCGGGAGAGGCGGAGACACCGGCTGCCGGACGAGGAGCCCTCAGCCACTCCCACAGGGCCCTGGG
+ACCTCACAGCAAGCCCTGTGCTGGAAAACTGAATGGGCAGCTGGTCCAGCCGGGGATGCCCATCAACCAGGCACCTCCTG
+CCCCCTGCCAGCAGCCTAGCACGGATCCCCCAGAGCGCGGGCAGAGGAGGACCTCCCTGACAGGGTCTCTGCAAGACGAA
+GCACCCCAGAGGAGGAGCTCCGAGGGGAGCACCCCCAGGCGCCCGGCTCCTGCTACAGCTCTGCTGATCCAAGAGGCTCT
+GGTTCGAGGGGGCCTGGACACCTTGGCAGCTGATGCTGGCTTCGTCACGGCAACAAGCCAGGCCCTGGCAGACGCCTGTC
+AGATGGAACCGGAGGAAGTAGAGGTCGCAGCCACAGAGCTACTGAAAGCGCGAGAGTCTGTCCAGGGCATGGCCAGTGTC
+CCGGGAAGCCTGAGCCGCAGGTCCTCCCTGGGCAGCCTTGACCAGGTCCAGGGCTCCCAGGAAACCCTTATTCCTCCCAG
+GCCGTGATGGCTGTGGTGTCCACATGACCAAGGCGAGAGGGACAGTGCGTGCAGAAGCTCAGCCCTGCATGGCAGCCTCC
+CTCTGTCTCAGCCCTCCTGCTGAGCTGGGGCGGTCTGGAACCGCACCAGGAAGCCAGGAGCCTCCCCTGGCCAGCAAGAG
+GCATGATTCTAAAGCCATCCAGAAAGGCCTGGTCAGTGCCACTCCCCAGCAGGACATTAAAGTCTCTAGGTCTGTGGCAC
+TGG
+>ref|X14578.1| Rabbit mRNA for ferritin light chain subunit 5'end
+NNGCTACGCGTCGGGAGACCCGCGGACCTGTGTCTTGCTTCAACAGTGTTTGAACGGAACAGGCCCGGGGACTCTCTCAC
+AGGCTTCGACCGCCCTCC
+>ref|V00884.1| Rabbit glyceraldehyde 3-phosphate dehydrogenase messenger fragment (aa 32 to 78)
+GATCCATTCATTGACCTCCACTACATGGTCTACATGTTCCAGTATGATTCCACCCACGGCAAGTTCCACGGCACGGTCAA
+GGCTGAGAACGGGAAGCTGGTCATCAACGGGAAGGCCATCACCATCTTCCAGGAGCGAGATC
+>ref|NM_001101698.1| Oryctolagus cuniculus tachykinin precursor 1 (TAC1), mRNA
X62994.1 O.cuniculus mRNA for gamma preprotachykinin I
+AAATCCAACATGAAAATCCTCGTGGCCCTGGCAGTCCTGGCTCTGGTTTCCACCCAACTGTTTGCGGAGGACATCCGAGC
+CAACGATGATCTAAATTATTGGTCCGACTGGTCCGACAGCGACCAGATCAAGGAGGAGCTGCCCGAGCCCTTCGAGCACC
+TGCTGCAGAGAATCGCCCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTAATGGGCAAACGGGATGCTGGACACGGCCAG
+ATTTCTCACAAAAGGCATAAAACAGATTCCTTTGTTGGACTAATGGGCAAAAGAGCTTTAAATTCTGTGGCTTATGAACG
+GAGCGCCATGCAGAATTACGAGAGAAGACGTAAATAAACTGCCTACAGTATTATTCATGCCGCTTCATTTATGTCAATGG
+GCAGTGAAAGGTAAAATGTGACGTGCACTATGAGGAATGATTATTTATTTAAATAACTTGTTGTTTTAAGTTGAAAACGT
+TAAAGAAAAGTGTTTAATTTTTCCTATTGTGCCAAAATGTGTTGTAAACATGTAATTCCTAATATGAAGATGCCCTCAGA
+GGTAGAAATCAGTGCAAACCTCTCAACAAAGCACAGTGTTCAATGAAATGGTAAAATCGTGTTAAAATGTCATCGCCGGA
+AGAAAGCGTGGCTTCGAAGCGGTCACATCTGGAAAGGGCGGGGGCTCTCATGCAGTCACACACTTGCCCTGTGTGTCTCA
+GGGCTGAAATGTACTGAGTCTTGGTGTCAAACTGTGTTTGTACCCCTGCAGCATGTTTCACGGTTTGTGGTTCCATAGAG
+ATGTTTTACAAGTTTTCATGTGACCCCAGGGTCTCCATTTCATTGTATAATGTGTTGTA
+>ref|X57123.1| Oryctolagus cuniculus H-RAS PROTO-ONCOGENE exon and joined CDS
+CGGCTGACGCTGGCCTGCCTGGGCCAGTGTGGCCCGGCCGGCCGCGGCAGGACCTGTTCTGGGAGGCTAACCTCAGCCCT
+CAGGCCCTGCGGGTTGTGCGTTCTGCCTACACAGCAGCTTCTAATTTGGGTGCGTGGTTGGGAGAAGCTCTCAGCTGTCA
+GCCCTGCCTTTGGGGGTAGGCCGCCCTGCCTTGCTCACGCTGTCGCTGGTGCGGCGGGGTGGGGAGGCGGCACCCCTCCC
+GCCCCCTGGATGGCGGCTGGCCCAGGTGGGCAGCTGGGCCGCCGTCCTGGCCGTCGGAGCTGCGGGCCTGGCTGAGCGTG
+GCCCTCCTTGGCAGGCGGGGCAGGAGACCCCACAGCGCCGGGCAGCCGCGAGCAGCGCGCGATGACGGAGTATAAGCTGG
+TGGTGGTGGGCGCCGGCGGTGTAGGCAAGAGCGCACTGACCATCCAGCTGATCCAGAACCACTTCGTGGACGAATATGAC
+CCCACCATCGAGGTG
+>ref|X57124.1| Oryctolagus cuniculus H-RAS PROTO-ONCOGENE exon 2
+CAGGACTCGTACCGGAAGCAGGTGGTCATCGACGGGGAGACGTGCCTGCTGGACATCCTGGACACGGCGGGCCAGGAGGA
+GTACAGCGCCATGCGGGACCAGTACATGCGCACGGGCGAGGGCTTCCTCTGCGTGTTCGCCATCAACAACACCAAGTCCT
+TCGAGGACATCCACCAGTACAGGTG
+>ref|X57125.1| Rabbit H-ras proto-oncogene, exon 3
+CAGGGAGCAGATCAAGCGGGTGAAAGACTCGGACGACGTGCCCATGGTGCTGAACAAGTGCGACGTGGGGAACAAGTGCG
+ACCTGGCGGCGCGCACCGTGGAGTCCCGGCAGGCGCAGGACCTGGCCCGCAGCTACGGCGTCCCCTATATCGAGACCTCG
+GCCAAGACGCGGCAGGTG
+>ref|X57126.1| Rabbit H-ras proto-oncogene, exon 4
+GGCGTGGAGGACGCGTTCTACACGCTGGTGCGGGAGATCCGGCAGCATAAGCTGCGGAAGCTGAACCCGCCTGACGAGAG
+CGGCCGCGGCTGCATGAGCTGCAAGTGTGTGCTGTCC
+>ref|V00885.1| Rabbit exon encoding constant part of immunoglobulin kappa chain (allele bas, allotype Basilea)
+GTACCTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAGGTGATCCAGTTGCGCCTTCTGTCCTCCTCTTCCCACCATCT
+AAGGAGGAGCTGACAACTGGAACAGCCACCATCGTGTGCGTGGCGAATAAATTCTATCCCAGTGACATCACCGTCACCTG
+GAAGGTGGATGGCACCACCCAACAGAGCGGCATCGAGAACAGTAAAACACCGCAGAGCCCCGAAGACAATACCTACAGCC
+TGAGCAGCACTCTGTCACTGACCAGCGCACAGTACAACAGCCACAGCGTGTACACCTGCGAGGTGGTCCAAGGCTCAGCC
+TCACCGATCGTCCAGAGCTTCAACAGGGGTGACTGCTAGAGCGAGACGCCTGCCAGGGCACCGCCAGGGACCCTGAGGGC
+CAGCCTCGCCGCTCCCTCCCCTCAGTGGACCCATTCCCACCGCAGTCCTCCAGCCCCTCCCTTCCCGGTCCTCCCCCCCT
+CCTTGGCTTTAACCTTGCGAATGTTGGTGAGATGGATGAATAAAGTGAATCTTTGCACTTGTGACTTCTCTCTGCTTCTT
+CATTTAATGGTTATTAGTCATGGTTCCCCAG
+>ref|X00232.1| Rabbit immunoglobulin k2 gene fragment
+GAGCTCACCTAAGGAAACAAGCATTCTGCATCAGAGAAGCCTCAGGGCTTCCACACCTGTTCAGAAAGGGAGTTAGGCCT
+CAGAGCTGAGGCAGGGCTCGGTTCCCCTTGGGTGAGAAGGGTTTTTGTACAGTGAGGCAATGGGGAGTTGTCACTGTGTT
+TGACTTTTGGAGCTGGCACCAAGGTGGAAATCAAACGTGAGTAAAATCCGAACGTTCCCTCTCTGGTTGTCTGCGTCGTG
+TGACCTCTGTGTCTGTGAAGTGATCCCTAAGCTGACTCTGAAACCAATCGGGAGCATCCACCAGGCAATGCAGGGATGAA
+GTGTGTGGCAAGCTTGAGCAAGGACTGCATATTGTCTACGAAGAGCAAGACTCAGTCATTGAGAAAGAGAGGGAGAGAGA
+GAGAGGGAGGGAGAAATTTGAGAGCTTTAGAAATTCACTGGGGTGCATCCTGCTGTGTTCCGGGCAGAGCCTTGCCTGAT
+GGTCAGAAAGGAAAACTCAGTTATTGTACAGGAGGGAGGTTGTGAGGAACCACTGTGTCTAATACTTTCGGTGCGGGGAC
+CAAGGTGGAGATCAAACGTAAGTGCACTTTCCCAGTCTTCCTTACAGAGTTGGTAAATGTGGGATTTAAGTTTGTGGGAG
+ATGAGTTAAGGTCAATCCGGAAGGGAATGGAATTTTTCCAAAAACATGGATGGGTAGGGAGCAGAAAATCCGTTCATCTC
+AAGAAGAGAGCAAAGGGCTAGCAGGCTAGCAAGTGGCCAAATTCTGTCTGTCTGTCAGTCTGACGAGCTTGGGAGCAGTC
+AGAGGTTTTTGTTGAGGGAAAGCAATAAAGCTAATTCTGTGGATCACCTTTGGAAAAGGAACCAAGCTGGAGATCAAACG
+TAAGTACCGTTTTCCTATTCCTGTCTGAAATTTTGCTCTAATTGGCCAGATTGACTTTTAAGAAAAATTTTATAAAAGTG
+GGTAAATGAGTAGGTTTGAGATTTGTCGTCGGTTGCAAAAGTTAAATGGATTTAGAGATGAAAAGATTAAATTGCTCTAT
+ACTGAATGACTCAAAGGGGAAGAAATCAGTGTAGATAAGTAAGGGAGCCCTCAGCACTCTAAAGAGCTTTTTAAAAACTT
+TTAGAGACTTTAAAACTCTATTAAAAGCTAATGAGACGTCTTGAAATAATTTTTATATTAAAGTGCTAATTGTTTAAGAT
+GTGAACGCCAGATGGAAAATGTAAAGCTCTCCAGGACTGCCCAGGCGGAAGGTCTTCACAGACCACTCTTCCCTGCTCAG
+GGGCTCGATCACAGTATTGTGCTGCCAAGTCCACTGTATACAGTTATGGGGGGGGCACTAATCATGGAGATTCAAAGAGG
+AACATAAAACAGGAAAGTTCACTGTCTTACACTGAACTACTTGGTTAGCATGGGGGTTAGCTTTGTATAAGTCTGTCCGA
+GTGTCTGCTGACTGTCGCAGGAAGGATTCTTGATTTTTTTCATTTTAACGGTGCTCTCCCACCCTAGGCCCTGACTCCCC
+ACAGAGCAGGGTTTCCCAGGGGCCATCTGGCAGCTGCCCGCGGTCAGGAGTGAAGCTCACCAATTCCTGCGAGGCAGGTG
+GCCCAGCTTACAGCTGACCCCTCCCGAGTCCTCCTGCAAACAGGCTGGCCTGGGAACAGGCGGCCAGGCGCAGGTCTCAC
+TGTGAGGCCTGCGAGACGGTAGGAGAGTCACTGGCATGACCCCAGGCGCTGAAGGGGTGGGTGCAGACACAGGCTGGAGG
+CCCACTCTGCAGGGTGGGTTTGGCCTGGCCTCGCCAAGGAAGGCCCAGAGAGTCCTGATATCACTGCACGGTCCTGGGGG
+AGACCAGGGAAATGAAAGCCGAGAGGCTCCCCTTAGACGCTCGCTGCCTGCTCTGCCGCCGTCCCCCGTCTTCTCCTAGG
+ACACAGGGCCGGGACCTGTTCCTACTTCTAAACTCCAAAGGGGTCAGATGAAATGGGCTGTGTTCTTTCCCCGATCACTG
+AGTCATTGCAGGGGCAGAGTAGAGCAACAACAAAGAGGCCTCCCAGTGGGTCAGAGAGTTCAAACACAACAACATAGAAC
+TTTCTGAAGGGGCAGGCGGAACCCGGAGGGAAACAAAGTCATCCAGATTCTACGTCTGCTCGCTGCCCCATTGCAACAGC
+TTTGGGCTGCTTCTGTCTGTCCATCCCTAATGCGCTCTGTGATCATCCACATGGCACCCAGGGGAGATGCCCACTGGTAC
+CTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAGGTGATCCAGTTGCGCCTTCTGTCCTCCTCTTCCCACCATCTAAGG
+AGGAGCTGACAACTGGAACAGCCACCATCGTGTGCGTGGCGAATAAATTCTATCCCAGTGACATCACCGTCACCTGGAAG
+GTGGATGGCACCACCCAACAGAGCGGCATCGAGAACAGTAAAACACCGCAGAGCCCCGAAGACAATACCTACAGCCTGAG
+CAGCACTCTGTCACTGACCAGCGCACAGTACAACAGCCACAGCGTGTACACCTGCGAGGTGGTCCAAGGCTCAGCCTCAC
+CGATCGTCCAGAGCTTCAACAGGGGTGACTGCTAGAGCGAGACGCCTGCCAGGGCACCGCCAGGGACCCTGAGGGCCAGC
+CTCGCCGCTCCCTCCCCTCAGTGGACCCATTCCCACCGCAGTCCTCCAGCCCCTCCCTTCCCGGTCCTCCCCCCCTCCTT
+GGCTTTAACCTTGCGAATGTTGGTGAGATGGATGAATAAAG
+>ref|X00977.1| Rabbit germ-line V kappa gene V18a
+GGCCCTTCAGCTGGGCACAGCCTGCCCCGCCCCTGCTCATTTGCATGTGCCCAGAGCACGCCCACCTCTATGGGCATTTA
+GGAGCAGGCTGCTCCGCCCCATGCAGGAGGCAGTGCAGGCAGGACCCAGCATGGACACGAGGGCCCCCACTCAGCTGCTG
+GGGCTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCAGAAACGGCCTCGGGCAGTGTGCCAGGGCTGCCCGTC
+TCTGCAGGAGCGTCCTCTTAGAACGTGAGGATGAGTGTGGTCTCTGTGTTTCTGCTTCCCTCCTCAGGTGCCATATGTGA
+CCCTGTGATGACCCAGACTCCATCTTCCACGTCTGCGGCTGTGGGAGGCACAGTCACCATCAACTGCCAGTCCAGTCAGA
+ATGTTTATAGTAACAACTACTTATCCTGGTTTCAGCAGAAACCAGGGCAGCCTCCCAAGCTCCTGATCTATGGTGCATCC
+AAACTGGCATCTGGGGTCCCATCGCGGTTCAGCGGCAGTGGATCTGGGAAACAGTTCACTCTCACCATCAGTGGCGTGCA
+GTGTGACGATGCTGCCACTTACTACTGTGCAGGGTATTATTATAGTGGTAGTGGCACTGATACCACAGTGATACAAGCCC
+TTACAAAAACCCCCCAGGAAAGCAGAAGTGTGGTGCTGGGCTGCCCCAGCTGCTCCTCCTGGGCCCCACCTGCTGAGAGT
+GATTCTCAGAGCAGCCAGGCTTGAAGGTCCTGCAGGGTCGGGTGGAAGGGGC
+>ref|X13699.1| Rabbit nonproductive VHa1 mRNA for Ig(mu) heavy chain constant region
+TAGAAAGCTCAAGCTTAGCTTATCAATTTCTAAATTGTATTCATTTTTAAAGTAAGATATTTTAGAAATTAAACTTACAG
+ATGGTTTATTAATGCGCCCATGAAACTTTTTAAAATTACTTTGTTATTTCTTCATACGGTAATTAACCTCAAACTTCAGA
+GACCTCAAAGCATTATTTTTGCAACGCCTGCGACCGTCATTTTTAAGAGTCTGTTTTCTCTATGATTAGAAGAGACGTTT
+TGAGGCTTCATTTCAGTATTTTTCAAGACTGCTTTTCAAGTATTCATTTTTGCACCAGTTCTAGCTGAGGTGGACCTAAG
+TGTCCTGAGTTATTGGGTTAAACGTGTGACTTGGTGAATTGGAGAGCCATCAGACAGTGCAGAGACAGGAGTCGGGAGCT
+CTGCAGAAGCCGGGCCACCCACGCCTTGAGGTTTCCCAAGACCGCCGGGTCTGGGGGTGCAGCCGTGGCTTCTGGTTAGT
+CAGGAATTCCTGTTTGGAGTGGACTTGGAGGACCCGCAGGACGTGCCAGTGACCAGCCACTGCACATGTGAGCCTGTCAT
+CTCCAACTCTGTACCCG
+>ref|X13700.1| Rabbit IgH gene JH-C(mu) intron with enhancer region yealding a nonproductive C(mu) transcript
+GTTAGAAAGAGAACGGTTGTCAGCAGTACAAGGAAGGAGGGCCGTGGAGCCCCAAAGGCGCTGCCTCTGACAGGGACCTA
+GCAAGGCCTGGGCAGCCCAACCGTGCTGGGACGGCGCCCACCAGGTGTGCAGGGACATGGTGTCCGAAGTGGCTTCTGAG
+AAAAGTGGCTGAGAAAATTGAGAATGAAGACTTTTTGTTCATGTATATTCAGCTTTTTGTGTTTTTTTAATGTAAAGGAC
+TTTTAGATTATTATTGTTCAGTATCTGTCTGGGATTGGCACAAGACAGCAGAGAAACAGTGGAGTGGCACCAGCAGGCCC
+CAATACAGGACTGAGTTTTGACAAAAATTATTTAAGTTTAATTTTTAATTAATTGAGCAATGCCAGATTAGTGCATGAGT
+GACAGCCAAGATGGCCGCGCATCCGGCCGGACACCTGCAGCAGGTGGCAGGAAGCATGTCGCACTGAGAGTCTATTTTAG
+GAAGCCAAAAAGCACCCTGTGTGAATTTATAGCTCCTGTTTTTGAAGTGGTGGTTTTCAAGTGGTTTTCCCGGATCCGAA
+AGTGTTGCAGAGCAAAACAACACCTGGGTAGTTTGCATATCTAAAATAGGACAGGGGACTGCCAGGGTTCCTCTTGTCAC
+TATTTGAATTTATTTTTTCAATCTGAACTTAGCAACTTCTAGTTTGCTCAAGCTTAGCTTATCAATTTCTAAATTGTATT
+CATTTTTAAAGTAAGATATTTTAGAAATTAAACTTACAGATGGTTTATTAATGCGCCCATGAAACTTTTTAAAATTACTT
+TGTTATTTCTTCATACGGTAATTAACCTCAAACTTCAGAGACCTCAAAGCATTATTTTTGCAACGCCTGCGACCGTCATT
+TTTAAGAGTCTATTTTCTCTATGATTAGAAGAGACGTTTTGAGGCTTCATTTCAGTATTTTTCAAGACTGCTTTTCAAGT
+ATTCATTTTCACACCAGTTCTAGCTGAGGTGGACCTAAGTGTCCTGAGTTATTGGGTTAAACGTGTGACTTGGTGAATTG
+GAGAGCCATCAGACAGTGCAGAGACAGGAGTCGGGAGCTCTGCAGAAGCCGGGCCACCCACGCCTTGAGGTTTCCCAGGA
+CCGCCGGGTCTGGGGGTGCAGCCGTGGCTTCTGGTTAGTCAGGAATTCCTGTTTGGAGTGGACTTGGAGGACCCGCAGGA
+CGTGCCGGTGACCAGCCACTGCACATGGTGAGAGGGGCAGCTGCTCTGCCACAGATC
+>ref|X03050.1| Rabbit (Basilea) Ig-kappa 1b9 mutant gene JK-CK intron and C(k)1 exon
+GGATCCCTGAGTCATTGCAGGGGCAGAGTAGAGCAACAACAAAGAGGCCTCCCAGTGGGTCAGAGAGTTCAAACACAACA
+ACATAGAACTTTCTGAAGGGGCAGGTGGAACCCGGAGGGAAACAAAGTCATCCAGATTCTACGTCTGCTCGCTGCCCCAT
+TGCAACAGCTGGGCAGGATAATCGGGCTGCTTCTGTCTGTCCATCCCTAATGCGCTCTGTGATCATCCACATGGCACCCA
+GGGGAGATGCCCACTGGTACCTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAAGTGATCCTCCAATTGCGCCTACTGT
+CCTCCTCTTCCCACCATCTGCTGATCAGCTGACAACTGAAACAGTCACCATCGTGTGCGTGGCAAATAAATTCCGTCCCA
+ATGACATCACCGTCACCTGGAAGGTGGATGACGAAATCCAACAGAGCGGCATCGAGAACAGTACAACACCGCAGAGCCCC
+GAAGACTGTACCTACAACCTCAGCAGCACTCTGTCACTGACCAAAGCACAGTACAACAGCCACAGCGTGTACACCTGCGA
+GGTGGTCCACAACTCGGGCTCAGCGATCGTCCAGAGCTTCAATAGGGGTGACTGTTAGAGTGAGACGCCTGCCAGGGCAC
+TGCCAGCGACCCTGAGGCCCAGCCTCGCCCCTCCCTCCCCTCAGTGGACCCATTCCCATCACAGTCCTCCAGCCCCTCCC
+CTCCCGGCCCTCACCCCCTCCTTGGCTTTAACCGTGCGAATGTTGGTGAGATGGATGAATAAAGTGAATCGTTGCACTTG
+TGACTTCTCTCTGCTTCTTCATTTAATGGTTATTACTCATGGTTCCCAG
+>ref|X57729.1| Rabbit immunoglobulin lambda light chain mRNA, isotype c7
+CGCTCCTCCTCCTCCTCACCCTCCTCCAGTGCACAGGGTCCCTGTCCCAGCCTGTGCTGACTCAGTCGCCCTCTGTGTCT
+GCCGCCCTGGGAGCCTCTGCCAGGCTCACCTGCACCCTGAGCAGTGCCCACAAGACCTACACCATTGACTGGTATCAGCA
+GCAACAAGGGGAGGCCCCTCGGTACCTGATGCATATTAAGAGTGATGGAAGTTACACCAAGGGGACCGGGGTCCCTGATC
+GCTTCTCGGGCTCCAGCTCTGGGGCTGACCGCTACTTAATCATCCCCAGCGTCCAGGCTGATGACGAAGCCGACTACTAT
+TGCGGCGCAGATTATAGCGGTGGCTATACATTCGGCGGAGGGACACAGCTGACCGTCACAGGTCAGCCCGCGGTGACCCC
+CTCGGTCATTTTGTTCCCGCCCTCCTCTGAGGAACTCAAGGACAACAAGGCCACCTTGGTGTGTCTGATCAATGACTTCT
+ACCCGGGCACCGTGAAGGTGAACTGGAAGGCCGATGGTACTCCCGTCACCCAGGGCGTGGACACCACCCAGCCCTCCAAA
+CAGAGCAACAGCAAGTATGCGGCCAGCAGCTTCCTCAGCCTGTCAGCCAATCAATGGAAATCCTACCAGAGTGTCACCTG
+CCAGGTCACGCATGAGGGCCACACGGTGGAGAAGAGCCTGGCCCCTGCAGAATGCTCCTAGGGCCCCACCCTCACCCACC
+CCCAGGGGCCAGGAGCTGCAGACCCAGAGACCAGGTCCATTGTCCCACCATTCATCATCCACCGTGCCTTGACCCCATTA
+AACTCTCAATAAATATCCTCACTTTTTCAATCAG
+>ref|X03054.1| Oryctolagus cuniculus IGH gene for Ig heavy chain variable region (RVH 832, V(H)a-negative)
+ATGGAGACTGGGCTGCGCTGGCTTCTGCTGGTCGCTGTGCTCAAAGGTAATGATGGAGAACGCGGGGCACTGAGTCTGGG
+AGAGGACGTGAGTGAGAGACACAGAGAGTGTGAGTGACAGTGTATTGACCAGACATCTGTGTTTGCAGATGTCCAGTGTC
+AGCAGCTGAAGCAGTCCGGAGGAGGAGCCGGAGGAGGCCTAGTCAAGCCTAGGGGATCCCTAGAACTCTTCTGCAAAGCC
+TCTGGATTCTCCCTCAGTAGCAGCTACTGGATATGCTGGGGCCGCCAGGCTCCAGGGAAGGGGCTGGTGTGGATCGGATG
+CATTTATGCTTGTAGTGGTAGCACTTACTACGCGAGCTGGGTGAATGGCCGATTCACCCTCTCCAGAGACATCGACCAGA
+GCACAGGTTGCCTACAACTGAACAGTCTGACAGCCGCGGACACGGCCATGTATTACTGTGCGAGAGACACAGTGAGGGGC
+CCTAGGGCGCACCTAGACACAAACATA
+>ref|X03053.1| Rabbit pseudogene for Ig heavy chain variable region (RVH 831, V(H)a-negative)
+ATGGAGACTGGGCTGCGCTGGCTTCTGCTGGTCGCTGTGCTCAAAGGTAATGATGGAGAACGCGGGGCACTGAGTCTGGG
+AGAGGACGTGAGTGAGAGACCCAAAAGTGTGAGTGACAGCTTCCTGACCAAGACGTCTGAGTTTGCAGGTGTCCAGTGTC
+AGGAGCAGCTGGTGGAGTCCCGGGGTGGCCATGTCACGCCTAGGGAATCTCTGAAACTCTTCTGCAAAGCCTCTGGATTC
+ACCATCAGTAGCAGCATCTGGATGTGCTGGGTCCGCCAGGCTCTAGGGAAGGGGCTGGAGTGGGTCGGATGCATTTATAC
+TGGTGGTCGTAGCACATACTACGCGGGCTGGGTGAATGGCCGATTCTCCATCTCCAGAGAGAAAACCCAGAACACGGTGT
+CTCTGCAAATGAACAGTCTGAGAGCTGCGACACGACCCTGTATTACTGTGCAAGACAGCTGAGCCTAGATAGAAACCTC
+>ref|NM_001101684.1| Oryctolagus cuniculus interleukin 1 alpha (IL1A), mRNA
X02852.1 Rabbit mRNA for interleukin-1 precursor
+AGTCAGTTCATTGGCACTTGAGTCGGCAAAGAAATCAAGATGGCCAAAGTCCCTGATCTGTTTGAAGACCTAAAGAACTG
+TTTCAGTGAAAATGAGGAATACAGCTCTGCCATTGACCATCTTTCTCTGAATCAGAAATCCTTCTATGATGCAAGCTATG
+AACCACTTCATGAAGACTGCATGAATAAAGTTGTGTCTCTGAGTACCTCTGAAACCTCTGTGTCACCCAACCTCACCTTC
+CAGGAGAATGTGGTGGCAGTAACAGCCAGTGGGAAGATTCTGAAGAAAAGACGCTTGAGTTTAAACCAGCCCATCACTGA
+TGTTGACCTGGAGACCAATGTCAGTGATCCAGAAGAAGGAATCATCAAGCCCAGATCAGTTCCTTACACCTTCCAGAGAA
+ATATGAGATACAAATACTTGAGAATCATCAAACAAGAGTTTACCCTGAATGATGCTCTCAATCAAAGCCTAGTTCGTGAC
+ACCTCAGATCAGTACCTCAGGGCAGCTCCACTACAAAATCTGGGCGATGCAGTGAAATTTGACATGGGGGTCTACATGAC
+ATCAGAGGATTCTATACTTCCTGTAACTTTAAGAATCTCACAAACTCCACTGTTTGTGAGTGCCCAGAATGAAGATGAAC
+CTGTGCTGCTAAAGGAAATGCCTGAGACACCCAGGATCATCACAGACAGCGAGAGTGACATCCTCTTCTTCTGGGAAACT
+CAAGGCAATAAGAACTACTTCAAGTCAGCAGCCAACCCACAGCTGTTTATTGCCACAAAGCCAGAACATCTGGTGCACAT
+GGCAAGGGGGTTACCTTCGATGACTGATTTTCAGATCTCATAAAACCAGCCTTAGCTCTGGAAGTCCACTCACTAGTGAA
+GTGTTGACCATCTGTATGTACCGTGTACATGAAGAAGCCAGTCTTCACTCTTAGTCATTGGCTGAGCATGTGCTGAGCCT
+GCATAATTCTACATGAATGTTTCCCCTCTTTGTAAGAGAGAAGCCAAGTCTAATGGGACCAACACTAACATATAATGTTG
+TTTGTTGTTGAAAGATCACCCTATACTTTGCACAGTACCAATCATTTTAATTATTGTTCCTGATAACAACCTTAAGAGGA
+CCAGGGCTACTGACTATGGCTACCAAAAAGATTCTACCCATATTACAGATGGGTTAGCTAAGGCATAATAAAACTAACAG
+ATACACATAATGATAGAATGAGAAGCTACACAGAATATCATTTCGACTATTTGCCTTCCGCTGTTAAGACTGTTAGATTC
+TTAATCAAATAGCATAAGTTCCTGGAACCTCAGTTTTATTGTTTTCAAGATGGAAGAAATAAAACCTACATTGTTCCTGC
+CTTAATGGTTCTTTGTGTCAATTAGTGAGGTCATTTTGTTAAGATACTGCTTGAAGCTGAGCTTCAAGGAAAAAAATGTA
+ATCGTATTTTTAAATTATTTATATGTATGTATTTATAAATGTATTTAAGATAATAATTATTATTATATTTATAGCAGTTT
+CTTGAATAGTCTGACTTTGACTAGGCAACCTCAACAATAGTGTGCAGTGTTTTCTAGACAGAATGAGTCTGTTTTGCTTA
+CATGAGGATACTTTGATCCAAGTTGTACTTTATACATAGCCAAGAAGCTCTCAATTCTGGTACTGGAGACCCTGTACTTA
+TGATAATAAATTATTTGTAATTTATTTGAATGTTTGAGCTGATAACTGGGCCACTATTTCACTCTTCTGCCCTTAACCTT
+ATCTTCGCATTCTTCTGTCACTCATTTTACCTATAGTCAAATCATACTAGATAAAAGGGGATGAACTTAACTTTGGCAAC
+CATTGTATTCAAAGTTTCATTTCTGGGATATAATTAGTGCTTCCAATTTCTAAAAATTGACATCAAAACATAGTGTTACC
+TTTTATCTTCAATAATGATTAATTTGTTATTATCAACCAAAATTGAATAAACCTCAAAAATGAC
+>ref|Z11812.1| O.cuniculus interphotoreceptor retinoid binding protein gene, exon 1
+CGGCAGCCCCAGCACCCAGCAACCTTACCCAGGAGGAGCTGCTGGCTTGGCTGCAGAAGAGTATCCAACATGAGATCCTG
+GAACACAATGTGGGCTACCTGCGGGTGGATGACCTCCCGGGCCAGGAGGTGCTGAGCAAGCTGGGCGGGTTCCTGGTGGC
+CCATGTCTGGGGGCAACTCATGGGCACCTCCGCCCTGGTGCTGGATCTGCGGCACTGCACGGGGGGCCACGTCTCTGGCA
+TCCCCTACGTCATCTCCTACCTGCACCCGGGGAACACTGTCGTGCACGTGGACACCATCTATGACCGTCCTTCCAACACA
+ACCACGGAGCTCTGGACCCTGCCCCAGGTGCTGGGGGAGAGGTACAGCGCTGACAAGGATGTGGTGGTCCTCACCAGCGG
+CCGCACGGGGGGTGTGGCTGAGGACATCGCCTACATCCTCAAGCAGATGCGCAGGGCCATCCTGGTGGGTGAGCAGACCG
+TTGGGGGCGCCCTGGACCTGCAGAAGCTAAGGATAGGCCAGTCTGACTTCTTCCTCACCGTCCCCGTGTCCAGATCCCTG
+GGGCCCCTGGGCGGGGGCAGCCAGACGTGGGAGGGCAGCGGCGTGCTGCCCTGCGTGAGGACACCAGCCGAGCAAGCCCT
+GGAGAAGGCGCTGGCCATCCTCACCCTGCGCCGGGCCCTGCCGGGGCTGGTCCGCCGCCTACAGGAAGCCCTCCAGGAAT
+ACTACACGCTGGTGGACCGTGTGCCCGCCCTGCTGCATCACCTGGCCACCATGGACTTCTCCACGGTGGTCTCTGAAGAA
+GACCTGGTCTCCAAGCTCAATGCCGGGCTGCAGTCTGTGTCTGAGGACCCCAGGCTCCTGGTGCGTGCCATGGGGCCCAG
+AGAAACTGCTTCTGGGCTCGAGGCGGCAGTTGAGGACCCTCCAGAGGCAGCCCCC
+>ref|X15116.1| Rabbit immunoglobulin kappa light chain gene J-C enhancer
+AAGCCTGTCCGAGCGTCTGCTGACTTGTCGCAGGAAGGATTCTTGATTTTTTTATTTTAATGGTGCTCTCCCCACCCCCG
+AGGCCCTGACTCCCCACAGAGGGGTTTCCCAGGGCCCATCTGGCAGCTGCCCGCGGTCAGGAGTGAAGCTCACCAGTTTC
+TGCGAGGCAGGTGGCCCAGCTTACAGCTGACCCCTCCCGAGTCCTCCTGCAAACAGGCTGGCCTGGGAACGGGCGGCCAG
+GTGCAGGTCTCACTGTG
+>ref|Z18243.1| Oryctolagus cuniculus encoding kappa-casein
+CTTTGCTATAGCTAAGAGGTCAATTCAACCTACTGCCAAGCAAGACCCGACAGACAGAAGGAAAGGTGCAATGATGAAGC
+ATTTTCTTCTAGTTGTGAACATCCTGGCAGTAACCTTGCCTTTTTTGGCTGCAGACATACAAAACCAGGAACAGACAACG
+TGCCGTGAGAATGAGGAAAGACTGTTCCACCAGGTTACAGCTCCATATATCCCAGTTCACTATGTGATGAACAGATATCC
+TCAATATGAACCCAGCTACTACCTGCGCAGACAAGCTGTTCCAACTCTTAATCCATTTATGCTTAACCCGTATTATGTAA
+AACCAATTGTATTTAAGCCAAATGTCCAAGTTCCTCACTGGCAAATCCTGCCAAATATCCACCAGCCAAAAGTGGGACGT
+CACTCACATCCATTTTTTATGGCCATTCTCCCGAATAAAATGCAGGATAAAGCAGTCACCCCCACCACCAACACCATTGC
+TGCTGTGGAGCCTACCCCGATTCCTACCACTGAGCCAGTGGTGAGCACTGAAGTGATTGCAGAGGCTTCCCCAGAGCTCA
+TCATCAGCCCTGAGACTACCACGGAAGCAACTGCTGCATCAGCGGCAGCATGATACCAAGGAACATCAAAGAAGACAACA
+CAGGTCTTCCTAAAACCAAATGATTTCTTCCAACTCTTCAGCAGCTGTTTGCCTCCATCCATCAAAAGAAGTGATTTCAC
+TCATCCAGCTGCTTTTTCTTCTCTCAATTTTACATTCATGCCACATTTAATTATTCCT
+>ref|X55146.1| Rabbit gene for muscle creatine kinase, exon 1
+CTCCCTGAGGGGAGTGCCCCGCTTAGCCCTCAGCCCTGGCACCCACCAGGCAGAGGAGGCAGCTCCCAGAGTCCCCGGCT
+GAGGGGGCCTGCCCATGTCCTCGCGAGTCGGGCACCCAGTCCCCTTCCCTGGGGGCCTCGGGTGCCTTGTAAGGAGGCAA
+GGCCCAGGACACCCGAGCTGCCGGCTATAATTAGCCTGGACACGTGGGCCCCCCGCCAGCACCTGCCCTGAGCCCCCCTA
+CCCGCAGCCTTGGGTGCTGGGACTGCCGACAGCAGAGACCGCTCTAAAAATAGCTCCCTTCCTGGACGGCCCCTCCCAGC
+AGGCCCCCCACCCCCCGCTGAGGCTCACTGCTGGTGTCCCTGCCTGGTGCTCCCTAGGGTGTGCACCCACGGCAGGTGCA
+GAGGCAGGGGGCACCGCGGGGGGCTGGTAACAGCAGCAGGCCTAGGGGCCAGGGGACGGCGAGCTGTACGTGCCAGGACA
+CCCCCAGCCACTGTCCCGTGCTCCCGGCGGGGGCCAGCTGTCCCCCGCCAGCCCGACTCAGCACTTGCTCTGCACATCGG
+CCTGGGGCGGCCCATACAAGGGCATGGGGCTGGGCACAAGGCACGCCCGCGTCCAGGTGGGCACTGTGCCCGGGCATGGT
+GGGGGGAGAGGCTGGGCTGCCTTCCAGGCCCCCTCCCTGGGGCCAGCCCCGCCCAGCCAGTGGCACAGCAGGGTCCCCTA
+CATAAAGCCGGGGCCGCGGGCCCTGGATCTGCCTCAGTGTCGCCTGCAGGACACACGTAGCCCCGCTCAGCACAGCCCAG
+CCAG
+>ref|X07791.1| Rabbit MT-2 processed gene for metallothionein
M23602.1 Oryctolagus cuniculus processed metallothein-2 (MT-2) pseudogene
+GGATCCAGACTGCCTGGTTCAGTTTCTGGCTCTGCTACTCATTAGCTGTGTGACTGGGAAAGGCAATCTTTCTGTACTTC
+AGTTGTTTCCTTATATACAAATAGAGATAAGGACTTTATCCGAGAGTTATGAGAATTAAGTGCATTAATATTTTTATTTA
+TTTATTTATTTATTTATTTATTTGACAGGCAGAGTGGACAGTGAGAGAGAGAGAGACAGAAAGAAAGGTCTTCCTTTGCC
+GTTGGTTCACCCTCCAATGGCCGCCGCGGCCGGCGCACCGCGCTGATCCGGTGGCAGGAGCCAGGAGCCAGGTGCTTTTC
+CTGGCCTCCCATGGGGTGCAGGGCCCAAGCACCTGAGCCATCCTCCACTGCACTCCCTGGCCACAGCAGAGAGCTGGCCT
+GGAAGAGGGGCAACCGGGACAGAATCCGGCGCCCCGACCGGGACTAGAACCCGGTGTGCTGGCACCGCTAGGCGAGGATT
+AGCCTAGTGAGCCGCGGTGCCGGCCTAAGTGCATTAATATTTAAAGTGTTGAAAAAAAAAAAAAAAAAAAACTAAAATGG
+GACCGGCGCCGTGGCACAGTAGGCCAAGCCTCTGCCTGTGGGGCTGGCATCTCATATGGGCGCCAGTTCATGTCGTGGCT
+GCTCCTCTTCTCATCCAGCTCTCTGCTATGGCCTGGGAAGGCAGTAGAAGATGGCCCAAGTGCTTGGGCCCCTGCACCTG
+CATGTGAGACCTGGAAGAATTTCCTTGCTCCTGGCTTCGTATTGGCCCAGCTCCAGCTGTTGCGGCCATTTGGGGAGTGA
+ACCAGTGGATGGAAGACCTTTCTCTCTGTCTCTCTCCTCTGTAACTTTACCTCTCAAATAAATGAATAAATCTTTTAAAA
+ATATTTGAAGTGTTTAACACACCTTCCAACTGCCGGACTGACTCTTCACCTTTCGCTTTGTATTTCCAGCTTCACCTGGG
+CTCAAAATGGAGCCCAGCTGCTCCTGCATCACCAGTGACTCCTGCACCTGTGCCAGCTCTTGCACATGCATGTCCTGCAG
+GAAGAGCTGCTGCCCAGTGGGCTGTGTCCAGTGTGCCCAGGGCTGCATCTGCAAAGGGGCATCAAACAAATGCAGCTGCT
+GCGCCCCTGAGAGCCTGGCTCCCACATGCAAATAGAGCAACGTGTGCAAACCTGGATTTATACCCCCATACAACCTGACT
+TCTATGCTGCATTCCTTCTTGTGTGAAATATGTGAATGAGAATACAAGTTGTTGATTTTAAAAGAATAAAGTGTTTAGAA
+CATGGTCTAGGGGCCAATGTCGTGGCATAGCTGGTTTAGCCACTACCTGCGATGCTGGCATCCCACATGGGTACTGGTTT
+GAGTCCTGGCTGCTCCACTTCCAAGCCAGCTCCTGCTAATGCACCCAGGCCTGGCTGTTGCAGCCATTTGGGGAGTGAAC
+CATAGAATGCAAGAAGATGGCTCAGTGCTTGGGCACTTGCACCCAAGTGGGAGACCCAGATGCAGCTCCTGGTTCCTGGC
+TTTGGCTTGGCCCAGCCCTGGCCATTGCAGCCAGTTGGGGAATGAACCAGCAGCTTGGAAGATCTCTCTGTCTCTCTCTC
+TCTCTCTGTAACTCTTTCAAATAAGCAAATCTGGCCGGGGCCGCGGCTCAACAGGCTAATCCTCCGCCTAGCGGCGCCGG
+CACACCGGGTTCTAGTCCCGGTTGCCCCTCTTCCAGGCCAGCCCTCTGCTGTGGCCCGGGAGTGCAGTGGAGGATGGCCC
+AGGTGCTTGGGCCCTGCACCCCATGGGAGACCAGGAAAAGCACCTGGATCC
+>ref|X07790.1| Rabbit MT-I gene for metallothionein
M20015.1 Rabbit, metallothionein-I, exons 2 to 4
+CTGCAGTGCCAGCATCCCATATGGGCGCCAGTTCAAGTCCTGGCTGCTCCACTTCCAATCCAGCTCTCTGCTGTGGCCTG
+GGAAAGCAGTAGAAGATGGCCCAGGTCCTTGGGCCCCTGCACCCACGTGGGAGACCCTGAAGAAGCTCCTGGCTTCGGAT
+CAGTGCAGCTCCAGCCGTTGCAGCCAGTTGGGGAATGGACCAACAGATAGAAGACCTCTCTCTCTCTCTCTCTCCCTCTC
+TCTGCCTTTCCTTCTCTCTCCGTGTAACTCTGACTTTCAAATAAATAAATCTTTAAAAAAAAATGAAAGAAAGAAAAGGA
+TGATAAACAGAGCTTGGCACGGTCTACAGGCTATATAATAGCTAAAGATCCTGAAAGAGAAACCATCACTTTTCTGCTTT
+TTAAGGTAACACAGGCTCTGTATACTGCCTAAGGACAAGACTTTAAAATGAGCTTTTCCCCTGGGGGCATCCTGGAGTAG
+GTGGGGGTGGCTAGGCTGAGGGGAGCCCCTGGAGAGTCTTCCAGATAGGAGGACCCAGACAAATGTGCCCAGCCACCCCT
+CAGGCTCAGGGAATTGGGGGGAGGGAGGCAGAGCCCCGGATCTGCTTTCCTGCTGTGTACGAGAGAAACGGGGCCAAGGA
+CTGGCATGGGAACAAGGACAGGCACAGCGGGGGACGCAGGGGTCATGTTCATGGCCAGACCTCTGCACACAACTCCCTCG
+CTGCGCTCCACGGCCAGCACCCCATCCCGGGCCGTGAGCAGAGGGCTGGGGTTGCACACGCACTCCGGGAAAGGTGAAGC
+TGCGGTCAACGGTGCGAGGGGGCACGGGGAAGTGCCGGGAATTGGAGAGGGGGCGGGAAGGCTACAGGGAAGTCCAATAC
+AGCCGGGCGCACAGCCTCGCTCGAGCGATCCGGAGCCAAAGAGCCTCCCCCGCCGTGCGCACCGAGCGGCGCTCCGGGAG
+TCGTGCGCCCGGCCCGCGCGGTGAGCTCAGCACGGCACGGACTGCGGGCCGTCGCCAGAGCTGGGGCGGGTGCAAGGGCC
+GGGGCGGCGCCTTTGCGCCCGGGCTCCCTCCCGCGGCAGTTAAAAGGAGCCGGCGCCGCCTGGGCTCCAGCGCGCCTTCC
+ACGAGCCTTGCGGAGTCTTCGCCTCTCACTTTGAACGTCGGACCTCACCTCGCTCGAAATGGACCCCAACTGCTCCTGCG
+CCACAGGTAAGGGACGCTGGCTGTGGGCTTGGGATGCGATAGCCCTGGGTGGGGGGAAGAGGCCACGTTCAGGTCGCTGA
+GCTGAGAGCGGTTCCAGCTTCCCGGGGCTTCTGGTTTCTTCGCCAGAGCCGAGGTCCCGGGGCTCCGGGCTGGCCCGCCT
+GACGTCATCCAGCAGGTCGGGGCGAGGGGGTGGGGGCTGGTGGCTGTGACCCCGCGCTTCGTGCAGGCCTCCGAGGACCC
+CGGCTGGCTGGGAAGCAGAGAACCTTGCCTTTTCTGAGTTCAGGACATAAGGTCCTTGCCCCTGGTCCCAGTATTCCTGG
+ACTGGGCTGGGATAAGACCAGGAGGACCCGTGCTCTTCCCGGAGTGAGGGGACAGAGTGAGGTTTCTCTTTCTTTTCCCT
+GAGCGGGACAGGAACTCTCGGGTCTGATCTGCATCACACCCATCGCTCATTGCTGGCCTTTCTCCTCCTCCCAGGCAACT
+CCTGCACCTGTGCCAGCTCCTGCAAATGCAAAGAATGCAAATGCACCTCCTGCAAGAAGAGTGAGTGTGGGCTTTCCCTG
+GGAGACCGGGCTGGGGGCGGGCGGACCCAAGGCCAGTGAAGGTGAAGGAGTCGGGGGCTGAGCAGGCAGGAACTGGCCGG
+TGCCCAGCTTCCCCTCAGCCCCTGATTTGGGGTCAGAGCTCCAAAGGCCATGGAGAAGAGTGTGTCCCAACTTCCCAAGA
+TAGACGGCCCAGAGGGGACAGCCACTGTTGTCAGGGGCAGAGCCAGAACTTGAACCTTTGTCTCCTGTGTCCTGATGGAG
+CCTTCCAACCCACCCAGGTCTGAAGCACTGGATGCACTTGACCTTGGGGACCACGTGTGGCTTCTGAGCTGCAGGGTCGA
+CCTTTTCCTATGTAGGCTCCCAGGGCTGCTTTGGAGGGGGTAGACCCCTGTCTCATCCTGAGGAACTCCTCACATCCCTG
+GACAGTTTGGTGGCTCCATTGCTCCCAGAGGTCCTGTTGCTGCCCCTCTGTGTGACTCCCAACCCAAGCATCCACCAGCT
+GTGTGCCTGACCGGGCATGCCAGCTAGAACTAGGGCTCCTGCCGGGCTGGGGGCCGAGCCTGTGCCAGGGAGGGGGCCAG
+TCAAGTCAGCTCTGACCTCTTCCCTCTCTCTCTCCTCTTCCCAGGCTGCTGCTCCTGCTGCCCCGCCGGCTGCACCAAGT
+GTGCCCAGGGCTGCATCTGCAAAGGGGCATCGGACAAGTGCAGCTGCTGCGCCTGACGCCCGCAGAGCCCGGCTCCGGAT
+GTGAAATAGTGCACTGTGTACAAACCTGGATTTTTTTTTTTTTTCATACGAGCCTCATTTGCTACATTCCTTTTTCTATG
+AGAGATGTGGATGACAATAAACCCATTCAGACTTTCTGTGGCTCCAGGTGCCTTTGGTGTGTGGGAACATGGACTTGGTT
+GTAGTCGGGATGTAGAAGAAGTCAGTTGTGGGGAGGTGACACTGGGAGTGGGGGTCCGGGTACAAGGTGTTCTAGGTGTG
+CTGCAGCCTGGTCTAGCCTGGGCTGTCCTTTGTGGGCTGTGGTGGGGAATTC
+>ref|V00886.1| Rabbit myosin heavy chain messenger fragment (aa 1643 to 1669)
+AGCAGGAAAGTGGCAGAACAAGAGCTCCTGGATGCCAGTGAACGTGTGCAGCTCCTCCATACTCAGAATACCAGCCTGAT
+C
+>ref|V00887.1| Rabbit LC2 myosin light chain messenger fragment (aa 26 to 37)
+GATCCAGGAGTTCAAGGAGGCCTTCACCGTCATCGATC
+>ref|V00888.1| Rabbit LC2 myosin light chain messenger fragment (aa 112 to 145)
+AAGGGCACAATCAAGAAACAGTTCTTGGAGGAGCTGCTGACCACGCAGTGTGACCGCTTCTCCCAGGAGGAGATCAAGAA
+CATGTGGGCGGCCTTCCCCCCGG
+>ref|X06419.1| Rabbit mRNA for Na(+)/glucose co-transporter
+GTCGTCGCCGCCGCCACGCCGCCATGGACAGCAGCACTTTGAGCCCCCTGACCACCTCCACCGCGGCCCCCCTTGAGTCC
+TATGAGCGCATCCGCAATGCGGCCGACATCTCCGTCATCGTCATCTACTTCTTGGTGGTGATGGCCGTCGGGCTGTGGGC
+TATGTTTTCCACCAATCGGGGGACGGTCGGAGGCTTCTTCTTGGCGGGTCGGAGTATGGTGTGGTGGCCGATCGGAGCCT
+CTCTGTTTGCCAGTAACATTGGAAGTGGCCACTTTGTGGGGCTGGCCGGGACGGGAGCTGCTTCAGGCATTGCCACTGGG
+GGCTTTGAGTGGAACGCCCTGATCATGGTGGTCGTGCTGGGCTGGGTGTTTGTCCCCATTTACATCAGGGCTGGGGTGGT
+GACGATGCCAGAGTATCTGCAGAAGCGGTTTGGAGGCAAGAGGATCCAGATCTACCTTTCCATTCTGTCCCTGTTGCTCT
+ACATTTTTACCAAGATCTCGGCAGACATCTTTTCCGGAGCCATCTTCATCCAGCTGACCTTGGGCCTGGATATCTATGTG
+GCCATCATTATCTTATTGGTCATCACTGGGCTCTACACCATCACAGGGGGCTTGGCCGCTGTGATCTACACGGATACCTT
+GCAGACTGCCATCATGATGGTGGGCTCTGTGATCCTGACTGGGTTCGCTTTTCACGAAGTAGGAGGGTACGAGGCCTTCA
+CGGAGAAGTACATGCGAGCCATTCCCAGCCAGATCTCCTACGGAAACACCTCCATCCCACAGAAGTGCTACACCCCAAGG
+GAAGACGCCTTCCACATCTTCCGAGATGCCATCACTGGGGACATCCCCTGGCCCGGGCTCGTCTTTGGAATGAGCATCCT
+CACCCTTTGGTACTGGTGCACTGATCAGGTCATTGTGCAGCGTTGCCTGTCAGCCAAGAACTTGTCCCACGTGAAGGCCG
+GCTGCATTCTGTGTGGGTACCTGAAGGTGATGCCTATGTTCCTCATAGTGATGATGGGGATGGTGAGCCGTATCCTGTAC
+ACAGACAAAGTTGCCTGCGTCGTGCCCTCGGAATGTGAGAGATACTGTGGCACCAGGGTTGGCTGCACCAACATTGCCTT
+CCCAACCTTGGTGGTGGAGCTGATGCCCAATGGGCTGCGGGGCCTGATGCTGTCCGTCATGATGGCGTCTCTTATGAGCT
+CCCTGACCTCCATCTTCAACAGCGCCAGCACCCTCTTCACCATGGACATCTACACCAAGATCCGGAAGAAAGCATCTGAG
+AAGGAGCTCATGATCGCAGGAAGGTTGTTCATGCTGTTCCTGATTGGCATCAGCATCGCCTGGGTGCCCATTGTGCAGTC
+AGCCCAGAGTGGGCAGCTCTTTGATTACATCCAGTCCATCACCAGTTACTTGGGGCCGCCCATTGCTGCTGTCTTCCTGC
+TTGCTATTTTCTGGAAGAGAGTCAACGAGCCTGGAGCCTTTTGGGGGCTGGTCCTCGGATTTCTGATTGGGATTTCCCGT
+ATGATTACCGAGTTTGCCTATGGAACCGGGAGCTGCATGGAACCCAGCAACTGCCCCACGATTATTTGTGGTGTGCACTA
+CTTGTACTTTGCCATCATCCTCTTTGTCATTAGTATCATCACCGTTGTGGTTGTCTCCCTCTTCACCAAGCCCATTCCAG
+ATGTGCATCTCTATCGTCTGTGCTGGAGCCTACGTAATAGCAAAGAGGAGCGCATTGACTTGGATGCAGGAGAGGAAGAC
+ATTCAAGAAGCTCCAGAGGAGGCCACTGACACAGAAGTTCCTAAGAAGAAGAAAGGATTCTTCAGGCGGGCCTATGACCT
+GTTTTGTGGGCTGGACCAGGATAAGGGACCCAAGATGACCAAGGAGGAGGAGGCTGCCATGAAGCTGAAGCTCACAGACA
+CCTCCGAGCACCCTCTGTGGAGGACCGTGGTGAACATCAACGGTGTCATCTTGCTGGCCGTGGCTGTCTTCTGCTACGCG
+TACTTTGCCTGAGTCCCGGCCGCTGCTGCCACTCGGCAAGGCTGGCGTGTGTACTCTCTGCCTGCCTTTCATCCCATGCT
+GTGGTGGCGAAGGGGAATCAATCCCTTGCAAAGTTTGCCCCATTTGGATAAATGTCTATATGTAAATTACAGGCTGGTTG
+GAGG
+>ref|NM_001101721.1| Oryctolagus cuniculus solute carrier family 9 member A1 (SLC9A1), mRNA
X59935.1 Rabbit mRNA for Na(+)/H(+) exchanger
+CTCCCAGAGACCTGCTGCTCTGTCCCTAGGGCGCGCTCTTCTGCCTCTCTGCCTCTCCCAGGTCTGCAGCTCCGGACCTT
+TTGGTCTCCTTCCGTGGTCCTTTCTGGGTCCCTGTCCCTTTCCCCAGTTTGGAGTTGCAGATCAGGAAGCCAGACTCCCT
+CCACCCCCAGAGGACTGCTCCTACAAAACTTGACTCTATAACATGAACTCCTCCTAGGGACCAGCCCTGTCCCCTCCCTC
+CCCCTCCCCCTGCTCCCTATGTCCCAGGTCTCACTCTCACTTCGCTAAGGGTCTCGGCCTGCTGGGCGGAGGGCGCACCG
+CCATGCTTCTGTGGTCAGCTGTCCGTGGCCTCTCTCCACCTCGGATCGTCCCCTCCTTGCTGGTGGTGGTGGCCTTGGCG
+GGGCTGCTCCCTGGCCTCAGGAGCCATGGGCTCCAGCTCAGCCCCACTGACAGCACCACCCCAGACTCGCAGCCTTCACG
+GGAACGCTCCATTGGGGATGTCACCACCGCTCCACCGGAAGTCACCCCCGAGAGCCGCCCCGTGAACCGTTCGGTCACTG
+AACATGGCATGAAGCCGCGGAAGGCCTTTCCGGTCCTGGGCATTGACTACACACACGTGCGCACCCCTTTTGAGATCTCC
+CTCTGGATCCTGCTGGCCTGCCTCATGAAGATAGGTTTCCACGTGATCCCCACCATCTCCAGCATCGTCCCGGAGAGCTG
+CCTGCTGATTGTGGTGGGGCTGCTGGTGGGGGGCCTGATCAAGGGCGTGGGCGAGAAGCCGCCCTTCCTGCAGTCGGAGG
+TCTTTTTCCTCTTCCTGCTGCCGCCCATCATCCTGGACGCCGGCTACTTCCTGCCGCTGCGGCAGTTCACCGAGAACCTG
+GGCACCATCCTCATCTTCGCCGTGGTGGGCACGCTGTGGAACGCCTTCTTCCTGGGCGGCCTCATGTACGCCGTGTGCCT
+GGTGGGCGGCGAGCAGATCAACAACATCGGGCTGCTGGACAACCTGCTGTTCGGCAGCATCATCTCGGCCGTGGACCCCG
+TGGCCGTGCTGGCCGTCTTCGAGGAGATCCACATCAATGAGCTGCTGCACATCCTGGTCTTCGGCGAGTCCCTGCTCAAC
+GACGCCGTCACTGTGGTGCTGTATCACCTCTTTGAGGAGTTTGCCAACTACGACCACGTGGGCATCGTGGACATCGTCCT
+GGGCTTCCTGAGCTTCTTCGTGGTGGCCCTGGGCGGGGTGTTCGTGGGCGTGGTCTACGGGGTCATCGCAGCCTTCACCT
+CCCGATTCACCGCCCACATCCGCGTCATCGAGCCGCTCTTCGTCTTCCTCTACAGCTACATGGCCTACCTGTCGGCCGAG
+CTCTTCCACCTGTCGGGCATCATGGCACTCATCGCCTCGGGAGTGGTGATGCGGCCCTACGTGGAGGCGAACATCTCGCA
+CAAGTCGCACACCACCATCAAGTACTTCCTGAAGATGTGGAGCAGCGTCAGCGAGACCCTCATCTTCATCTTCCTCGGCG
+TCTCCACCGTGGCCGGCTCCCACCACTGGAATTGGACCTTCGTCATCAGCACCCTGCTCTTCTGCCTCATCGCCCGCGTG
+CTGGGTGTGCTGGGCCTGACCTGGTTCATCAACAAGTTCCGCATAGTGAAGCTGACGCCCAAGGACCAGTTCATCATCGC
+CTACGGCGGCCTGCGGGGCGCCATCGCCTTCTCGCTGGGCTACCTCCTGGACAAGAAGCACTTCCCCATGTGCGACCTGT
+TCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGACCATCCGGCCCCTGGTGGACCTGCTG
+GCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGCAGTTCCTGGACCACCTTCTGACAGG
+CATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAACCGGTTTAACAAGAAGTACGTGAAGA
+AGTGTCTGATCGCGGGCGAGCGCTCCAAGGAGCCCCAGCTCATCGCCTTCTACCACAAGATGGAGATGAAGCAGGCCATC
+GAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCTCCATGCAGAACATCCACCCCAAGGC
+CCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATCCGCAAAATCCTGAGGAACAACCTGC
+AGAAGACCCGGCAGCGGCTGCGCTCCTACAACAGACACACGCTGGTGGCCGACCCCTACGAGGAGGCCTGGAACCAGATG
+CTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGACTGTGCCGGCGCACAAGCTGGACTC
+GCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAGGCAGACTTGCCGGTCATCACCATCG
+ACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAAGGGCAAGGTCCTGGGGCTGAGCCGG
+GAGCCGAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGATGCGGCCCAAGGAGCCCTCGTCCCC
+CGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGGATGCAGCGCTGTCTCAGCGACCCCG
+GCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCGCAGCGCACCTGCCGCCAGACTCTCC
+CGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCACCGCATGGCAGCTGGGCCCAAGCGCC
+CACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCGGCGGAGCTGCCTTCCCCATCGTCTGGCTGGGG
+CGGTCTGGCTCCCTCCAGGGGTCGGGGCCCCTGCCCCCACTCCATCGCCCCCTCACTCAGACCAAGCTTCCTTTCTAACC
+AAAGACCTCTGGCTCCAGACGGGGAGGGGGCCGAGGGAGCCTGGGCCCAGGGGAGGCAGCAGGGGTACCAGGTGTGCGCC
+CGGAGCAGCGCAGGCGGCCCGCGAGGGTCTCTGCCCCGAGCTGCTGTGCCGGAGCCGAGACGTTTCTGGCGGTGAGGAGA
+CTCCACTGCGCCCCTACAGGGCCAGGCGCTGAGCTGTTCAGGGTTTTGCTTCTCTGCACTTCCGAGGACGATTCTGTCCA
+CACAGAGGGCGCTCCTGGGTTTAAACCGTTTTTGAAGCCCTTGGCTCCACGGACATCTGCCCCTCTGGCTCCCTCCCTCA
+GCCTGTGCAGAGAACCAGTGGCCTCTCCCAGGTCGTCCTCTGCTGTTGTCCGAGGCTCTGATTTCAGGAAGGGGCCCCAC
+CCCGATCATGGGCCTCCGGGGCCTGACTCGCTTCCTGTGGGACTGTCTTTCCGACCTGCCCCACCGCTGGGTTGGCCCTG
+GAGCCCCGACCTCGCGTTCACCGCAGCCTGCTTGCTGTGGAGCCCGGTCCTCAGGGAGAAGGCCCCGCGGATCTCCCGCT
+GCAGCCAGGGCTGCCGGGCTGGGCAGGGACCTGGGCCCCCAGAGACACACACTCCCCCCATCACTGTCACCATGGCCAGG
+CCCGGGCTGTCGGTGTCGGTCCCCCCCCCAGGACACTCCCCCTCCCAGGATCGTGCAATAGTCAGTGTCCCACCTCCCAG
+TGCACTGGGCCGCAGGCGCCAAGCCCACCTGCCCATCTCCTGTCCCGTGGGCAGCAGTGCCTGTGCCAGGGTGACGTCGA
+CAACCATGTACAAAGCCACCGCAGCTGCTGCCGCTCTGCCGCCTGTACAGAAGAAACCGAATCTTTTTCATATTCTAATA
+ATCTATGTGAGTTTTTGAAAAAAAAAAAAAAAAAAAA
+>ref|X53766.1| Rabbit NAT2 gene for arylamine N-acetyltransferase (EC 2.3.1.5) exons 1 and 2
+GGGAGTGGGATTAAAACCTTGTACCTTCTTCTTTGCTCTCTTCTACATTTCTGGATCTGCTTTTTCCTGGACCTTATCCA
+ACTATCACCTCCACCTCTCTCGATGGGGGAAATCTGGCTTCAAGTTCCCAGTAAGCAGGAACCCTGTGTAACACAAAGGC
+ACAACTCTCAGCCTTGGCATGGAACCAGCAGATAGTGCTTGTATCTCTCCACATTTTAGTGAAAAAAAGCCGACCAAGAG
+GTCCACTTGGGCAACCAGAGGCCCTGTGACTACATTTCCCAGAGTTCACAGTGCTGACTCTTACTGGATTTGGAGGTGGG
+GAGATCTGGAACACAATAAAAGAAAGTCCTCTGCAGATGTGAAAGTGAAAGAATAGCATTCAGCCCGGTTCCTGATTGCA
+GGTCCTGGAAACGCGGTAAGTGGAGCTCCGTGACTGCAGGGTTATGAGATCTGGGTTTAATTCTATCTTACATGTGAGTC
+CATAGGCCAGATTGTTCACCTTACCAGAATTTCAGGTCTAAGGCTGTTCAGAAAGTATGTGTGGTCCACATTTGGAGGAC
+AATGCCATAACTACTATACAGTATAATGATGAATGTGGAAGAATCTTCTTTCATCCCCCTGGCTGAGTCACGGCTCATGA
+GAACATGAGCAAATCATTTAGCTTTTTAAAACTATTTTTCCATCAGCAAAATGGAGTTAGTTATAGTGCCTACTTAAAAA
+GTTTGCCATAGGGATTAAATATGTGTATTAAGAGATAACTAGTGTGTTTAAAGGAACCTACTTGCCTGGCTTTCCCTCTT
+GGGTACTTGTAACAGTGCTGTCCACCCTCTTCTTTGCTTGACAGGATACATCCCAAAGGACCATGTCTTGCCGGCACTTC
+CTGATCAGAAATCCTTTAGCAATCCCAAATGTCTGGGGAGGTTGAATTGTGTGGTCTGAAGACTGTTTCAAGAGGAATTC
+TAATCCAGTTGTGTCAACATCAGAACTAATAAAGGTAAACTAAAGCATATTAATGATTTAAAGTATTGATTTAAGTCAAT
+AGCAACTCAAGTATTAAGCAACACCAGACTGCAGATAATAGTTCAGTGCCCTTCTCTAGGGAGGTGAGAGAGAAACTTTC
+CTGATATGTTAGCAGAAGCAAGATAAAGGAAATCTATTTGATTGGTTAGAGTGAAAGCTCTCTAGCTAGAGGTTTACTAG
+TGGTTTCTGGTGGGTAAAGTCCAGTTTTGTTTTACAGTTTACATTGGGAGCCCAAAGTCCTGGAGCCATCGACGTTACAG
+TCTCTTACCGACCTGATTTCTTCTTCCTTATGAAATATTTTCCTTCCATGCCAAATGCTCGAGAGGGTCTCTTAAATTTT
+TAATTTAAATAATTGAACATAAATACATTTCACTATCAAGCATGCTGACCCAGACTCCTGGAATCCCATCCCCCTTGCTG
+TGCTGCCTGTTTTTTTCTTCACTTCAGGATAATAATTTTTTATCTTTATTTTGGTTTTATTTTTGATATTTGAGAGATTC
+TTCATTTTTTATGTTTCAAAAACTACATTCTGTGTTTTAGAGAAAAGTCATAGTGTGTTTTTAAGTCTGTCTTTTCTGTT
+TTTTTCTAGAGTTTTGGCTGGGAAGATAAAATATCCCAAGTCACCTGAATTAAAACTGAAGATCAACCCTCCTTCAACTT
+ACTAAGGTAGGAACTGAGTGCATTTCTTTGAGTCCTTAGTAGGCGACCTAAGTGTGTTCACTCTGCCTACTTAAGCCGTC
+TCTTTCAGGTATGATAAAGCTGTCAGGGAAGGATATATCCATGCAAAGAGATGATACAAATCACCATAAAAAGCTAACAG
+TGGTTTCACCCAGCCATTTTTCTGGCAACCGTTTTCCAAGAGATTTCTACATTTCAACTTGAAATATAAGATTTATTATG
+TTTAGTCAAAGAATATAGAAGTATTACTAAGGTATAACATGTAGCTAGTATCCAAGCCCTTAACAAAAACTGACTTCTTT
+TGAATGCACCTGTAGTTACAAAACCCCAATTCAATGTTTTTATCTGACAAAAAAAATCAGAAGTAGGGAAGTGAATGTGG
+AGGAGGATGAAGAACAGAAGAGAGGGGGCAGAGAGAGACAAACACTTGAAAACATAATATAGCATTTAAAAGAAGAATAA
+AGTAAGCTCTATGGGCCAGCACTGTGGTGCAGCAGGTTACCACCTTGGCCTGAAGCACTGGCATCCCATATGGGCATCAG
+TTCTAATCCGGGCTGCTCCACTTCAATTCTAGCTCTCTGCTGTGGCCTGGGCAAGCAGTAGAGAATGGCCCAAGTCCTTG
+GGCCC
+>ref|X58123.1| Rabbit mRNA for nebulin (partial)
+GGCTAACAAACTGAATATGGACAAGAGGCTGTACACTAAGAAATGGGACAAAGATAAGACCACCATACACGTCATGCCCG
+ATACTCCAGATATCCTTCTCTCCAGAGTAAACCAAATCACCATGAGTGATAAACTGTACAGAGCTGGCTGGGAAGAGGAG
+AAGAAGAAGGGCTATGATCTGAGGCCTGATGCCATCTCCATAAAGGCTGCCAAAGCTTCTAGAGACATTGCCAGTGATTA
+CAAATACAAGCAAGCGTATGAGCAAGCCAAAGGAAAACATATTGGATTCCGCAGCCTGGAAGACGACCCCAAGTTGGTGC
+ACTTCATGCAGGTGGCCAAGATGCAGTCAGACCGGGAATACAAGAAGGCCTATGAGAAATCCAAGACCTCCTTCCACACC
+CCCGTGGACATGCTCAGTGTGGTAGCAGCCAAGAAGTCCCAGGAGGTGGCCACCAACGCCAACTACAGGAATGTGATCCA
+TACCTACAACATGCTTCCTGATGCCATGGGCTTTGAGTTGGCCAAAAATATGATGCAGA
+>ref|X61504.1| O.cuniculus NHE-1 mRNA for renal Na(+)/H(+) exchanger
+TGCAGCTGGGCCGGGGCGCGCAGCGCTGCGCCGCGCCGGGGCCGCACCGACGGGCGTGTTGCTGCTGGCCCACCGGGAGC
+CGCCCCCCGCCCGCGTCGAGGCGCCTTCCCTCCAGGCCGCCTGCCTCCGCCTTCCGCCTCCCTCCATTTCCCCGGAATCT
+CGGCCGGACGCGCCCGGACCCCGGCCCTTCTCTGCAGGGGGAAGCTCCGGGCTGCCTTCCGGCCTCACTTCCTCACAGCC
+CGGCCCGCCACCCCCAGCCCTCTCTTTTTCTCCTTCCTGGACCGGCTTCGGTCCCCTCCCTCTGGCTCAGGCTCCCTCCC
+CCTTCCCCTAGCCGAGTCCCAGGTCCTCAGTCAGTTTCCTGAGCCGGAGGTGCCAGCCTGCCTTCTTTCCCTCCCCCGGG
+CTCCCCCCATCCCGTCCCTTGCTCTGTCCCTAGGGCGCGCTCTTCTGCCTCTCTGCCTCTCCCAGGTCTGCAGCTCCGGA
+CCTTTTGGTCTCCTTCCGTGGTCCTTTCTGGGTCCCTGTCCCTTTCCCCAGTTTGGAGTTGCAGATCAGGAAGCCAGACT
+CCCTCCACCCCCAGAGGACTGCTCCTACAAAACTTGACTCTATAACATGAACTCCTCCTAGGGACCAGCCCTGTCCCCTC
+CCTCCCCCTCCCCCTGCTCCCTATGTCCCAGGTCTCACTCTCACTTCGCTAAGGGTCTCGGCCTGCTGGGCGGAGGGCGC
+AGCGCCATGCTTCTGTGGTCAGCTGTCCGTGGCCTCTCTCCACCTCGGATCGTCCCCTCCTTGCTGGTGGTGGTGGCCTT
+GGCGGGGCTGCTCCCTGGCCTCAGGAGCCATGGGCTCCAGCTCAGCCCCACTGACAGCACCACCCCAGACTCGCAGCCTT
+CACGGGAACGCTCCATTGGGGATGTCACCACCGCTCCACCGGAAGTCACCCCCGAGAGCCGCCCCGTGAACCGTTCGGTC
+ACTGAACATGGCATGAAGCCGCGGAAGGCCTTTCCGGTCCTGGGCATTGACTACACACACGTGCGCACCCCTTTTGAGAT
+CTCCCTCTGGATCCTGCTGGCCTGCCTCATGAAGATAGGTTTCCACGTGATCCCCACCATCTCCAGCATCGTCCCGGAGA
+GCTGCCTGCTGATTGTGGTGGGGCTGCTGGTGGGGGGCCTGATCAAGGGCGTGGGCGAGAAGCCGCCCTTCCTGCAGTCG
+GAGGTCTTTTTCCTCTTCCTGCTGCCGCCCATCATCCTGGACGCCGGCTACTTCCTGCCGCTGCGGCAGTTCACCGAGAA
+CCTGGGCACCATCCTCATCTTCGCCGTGGTGGGCACGCTGTGGAACGCCTTCTTCCTGGGCGGCCTCATGTACGCCGTGT
+GCCTGGTGGGCGGCGAGCAGATCAACAACATCGGGCTGCTGGACAACCTGCTGTTCGGCAGCATCATCTCGGCCGTGGAC
+CCCGTGGCCGCGCTGGCCGTCTTCGAGGAGATCCACATCAATGAGCTGCTGCACATCCTGGTCTTCGGCGAGTCCCTGCT
+CAACGACGCCGTCACTGTGGTGCTGTATCACCTCTTTGAGGAGTTTGCCAACTACGACCACGTGGGCATCGTGGACATCG
+TCCTGGGCTTCCTGAGCTTCTTCGTGGTGGCCCTGGGCGGGGTGTTCGTGGGCGTGGTCTACGGGGTCATCGCAGCCTTC
+ACCTCCCGATTCACCGCCCACATCCGCGTCATCGAGCCGCTCTTCGTCTTCCTCTACAGCTACATGGCCTACCTGTCGGC
+CGAGCTCTTCCACCTGTCGGGCATCATGGCACTCATCGCCTCGGGAGTGGTGATGCGGCCCTACGTGGAGGCGAACATCT
+CGCACAAGTCGCACACCACCATCAAGTACTTCCTGAAGATGTGGAGCAGCGTCAGCGAGACCCTCATCTTCATCTTCCTC
+GGCGTCTCCACCGTGGCCGGCTCCCACCACTGGAATTGGACCTTCGTCATCAGCACCCTGCTCTTCTGCCTCATCGCCCG
+CGTGCTGGGTGTGCTGGGCCTGACCTGGTTCATCAACAAGTTCCGCATAGTGAAGCTGACGCCCAAGGACCAGTTCATCA
+TCGCCTACGGCGGCCTGCGGGGCGCCATCGCCTTCTCGCTGGGCTACCTCCTGGACAAGAAGCACTTCCCCATGTGCGAC
+CTGTTCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGACCATCCGGCCCCTGGTGGACCT
+GCTGGCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGCAGTTCCTGGACCACCTTCTGA
+CAGGCATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAACCGGTTTAACAAGAAGTACGTG
+AAGAAGTGTCTGATCGCGGGCGAGCGCTCCGAGGAGCCCCAGCTCATCGCCTTCTACCACAAGATGGAGATGAAGCAGGC
+CATCGAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCTCCATGCAGAACATCCACCCCA
+AGGCCCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATCCGCAAAATCCTGAGGAACAAC
+CTGCAGAAGACCCGGCAGCGGCTGCGCTCCTACAACAGACACACGCTGGTGGCCGACCCCTACGAGGAGGCCTGGAACCA
+GATGCTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGACTGTGCCGGCGCACAAGCTGG
+ACTCGCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAGGCAGACTTGCCGGTCATCACC
+ATCGACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAAGGGCAAGGTCCTGGGGCTGAG
+CCGGGAGCCGAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGATGCGGCCCAAGGAGCCCTCGT
+CCCCCGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGGATGCAGCGCTGTCTCAGCGAC
+CCCGGCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCGCAGCGCACCTGCCGCCAGACT
+CTCCCGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCACCGCATGGCAGCTGGGCCCAAG
+CGCCCACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCGGCGGAGCTGCCTTCCCCATC
+>ref|NM_001135681.1| Oryctolagus cuniculus phosphorylase kinase regulatory subunit alpha 2 (PHKA2), mRNA
X60421.1 O.cuniculus PHKA2 mRNA for phoshorylase kinase alpha subunit
+GCTAGAACTGACAGAGCCTCAGCGTTCGGGGATCAGGCCCGCTCGGAGGCTGCAGACTAAGATCGGGCGTCCGGGAGATG
+CGGAGCAGGAGCAATTCCGGGGTCCGCTTGGATGGGTACGCGCGGCTGGTGCAGCAAACCATCCTGTGTTACCAGAACCC
+TGTCACAGGGCTGCTCTCTGCCAGCCACGAGCAGAAGGATGCCTGGGTGCGAGACAACATCTACAGCATCCTGGCCGTGT
+GGGGCCTGGGCATGGCCTACCGCAAGAATGCCGATCGCGATGAGGACAAGGCCAAGGCCTACGAGCTGGAGCAGAACGTG
+GTGAAGCTGATGCGAGGTCTTCTCCAGTGCATGATGAGGCAGGTGGACAAAGTGGAGAAGTTCAAGTACACTCAGAGTAC
+CAAGGACAGCCTGCACGCCAAGTACAACACTGCCACCTGCAGCACCGTGGTGGGCGATGACCAATGGGGCCACCTCCAGG
+TGGATGCCACCTCCCTCTTTCTCCTGTTCCTGGCTCAGATGACTGCCTCAGGCTTGCGTATTATTTTCACCCTCGACGAG
+GTGGCCTTTATACAGAATCTCGTTTTTTACATAGAAGCTGCGTATAAAGTTGCTGATTATGGGATGTGGGAGCGTGGAGA
+TAAGACTAATCAGGGCATTCCGGAATTGAACGCAAGCTCTGTAGGAATGGCCAAGGCAGCACTTGAGGCCATTGATGAAC
+TCGACCTTTTTGGAGCCCACGGAGGACGCAAGTCAGTGATCCACGTTCTGCCCGACGAGGTCGAGCACTGCCAGTCAATT
+CTGTTCTCCATGCTGCCAAGAGCATCAACATCCAAAGAGATTGATGCGGGACTTCTTTCCATCATTTCTTTTCCCGCCTT
+TGCAGTGGAAGATGCGAACCTCGTAAATGTGACCAAGAGTGAAATTATTTCCAAGCTACAGGGGCGTTATGGATGCTGTC
+GTTTCCTTCGAGATGGTTATAAAACCCCAAGAGAGGACCCAAACCGGTTGCATTATGACCCTGCTGAACTCAAGCTCTTT
+GAGAACATTGAATGTGAGTGGCCTGTGTTCTGGACCTATTTCATAATAGATGGAATCTTCAACGGTGACGCTCTCCAGGT
+CCAGGAGTACCAAGAAGCCCTAGAAGGAATATTAATCAGAGGCAAAGATGGGATCCGCCTGGTGCCAGAACTCTACGCCA
+TCCCACCAAACAAGGTGGATGAAGAGTACAAGAATCCTCATACCGTGGACAGAGTTCCTCTGGGCAAGCTTCCCCACCTG
+TGGGGTCAGTCCTTGTACATCCTCAGCTCGCTGCTGGCAGAGGGATTCCTTGCCACTGGCGAGATTGATCCCTTAAATAG
+AAGATTTTCCACTTCCGTCAAACCCGACGTTGTCGTGCAAGTCACCGTTCTGGCAGAGAACAGTCACATTAAGGAATTGT
+TGAGGAAACACGGCGTAGACGTCCAGAGCATTGCTGACATCTATCCAATCCGAGTCCAGCCAGGCCGGATCCTTAGTCAC
+ATATACGCCAAACTCGGACGGAATAAGAACATGAAATTGAGTGGGCGACCATATCGGCACATTGGCGTCCTTGGAACCTC
+CAAACTATATGTGATTAGGAACCAAATCTTTACTTTCACACCCCAGTTCACCGACCAGCATCACTTCTACCTGGCCCTGG
+ACAATGAGATGATCGTGGAGATGCTGAGGATCGAGCTGGCTTACCTGTGCACGTGCTGGCGGATGACTGGCAGGCCCACG
+CTCACCTTCCCCATCACTCACACCATGCTCACAAATGACGGCTCGGACATTCACTCTGCGGTTCTTTCAACAATTCGGAA
+GCTCGAGGATGGATATTTTGGAGGAGCTAGAGTCCAGTTAGGGAACCTTTCGGAATTTCTCACCACATCATTCTACACAT
+ATCTGACCTTCCTGGATCCAGACTGTGATGAGAAGTTGTTCGATGATGCCAGCGAAGGAAGCTTCAGTCCTGATAGCGAT
+TCGGATTTAGGAGGATATTTAGAAGAAACTTATAATCAAGTTACAGAAAGCCAAGATGAACTTGACAAGTACATCAACCA
+CCTTCTGCAAAGCACCTACTCAAAGTGCCATCTGCCTCCTCTGTGTAAGAAGATGGAAGACCACAATGTTTTCAGTGCCA
+TCCACTCCACTCGGGACATACTTTCCATGATGGCAAAAGCAAAGGGTCTGGAAGTTCCATTTGCCCCCATGACTTTGCCA
+ACCAAAGCGCTCAGCGTCCACCGTAAGTCGCTGAATCTTGTCGACTCTCCGCAGCCACTCCTTAAAAGGATCCTGAAGCG
+ACTGCACTGGCCCAAAGACGAGCGAGGCGACGTGGACTGCGAGAAGCTGGTGGAGCAGCTGAAGGACTGCTGCACCCTAC
+AGGACCAGGCAGACATCTTGTACATCCTGTATGTGCTCAAGGGTCCAAGCTGGGACACAGCTCTCTCCGGACAGCACGGG
+GTCACCGTTCACAACCTCCTCAGTGAGCTCTACGGGAAAGCTGGCTTGAACCAGGAGTGGGGTCTGATTCGCTACATCTC
+GGGCCTGCTCAGGAAGAAAGTGGAGGTCCTGGCCGAGGCCTGTGCAGACCTGCTCTCCCACCAGAAGCAGCTCACAGTGG
+GCCTGCCGCCCGAGCCCCGCGAGAAGACCATCTCTGCGCCCCTTCCCCCAGAGGAGCTCACAGAGCTCATCTACGAGGCC
+AGCGGGGAAGACATCAGCATCGCGGTCCTCACCCAGGAGATTGTGGTTTACCTGGCCATGTACGTCAGGGCCCAGCCAGC
+CCTCTTCGTGGAGATGCTCAGACTCCGGATTGGACTGATCATTCAGGTGATGGCCACGGAGCTGGCGAGGAGCCTCAACT
+GCTCAGGAGAAGAAGCCTCTGAAAGTTTGATGAACCTCAGCCCTTTCGATATGAAAAACCTCCTGCACCACATCCTTAGT
+GGCAAAGAGTTTGGCGTCGAAAGAAGCATGCGTCCTATCCACTCCTCTGCATCCAGCCCTGCCATCTCCATCCACGAGGT
+AGGACATACTGGAGTCACCAAAACAGAGAGGAGTGGCATTAACAGGCTGAGGAGCGAGATGAAACAGATGACCAGGCGAT
+TTAGCGCTGATGAACAGTTCTTTCCTGTGAGCCAGACGGTATCTAGCAGCGCATACTCCAAGTCTGTGAGGTCCAGCACC
+CCGTCCTCACCCACGGGCACGTCCTCGTCAGACTCGGGAGGACATCACATCAGCTGGGGGGAGCGGCAGGGCCAGTGGCT
+GCGCAGGCGGCGGCTGGACGGAGCCATCAATAGGGTCCCCGTGGGCTTCTACCAGAGGGTGTGGAAGATCCTTCAGAAGT
+GCCACGGTCTCTCCATCGATGGCTATGTCCTCCCATCCTCAACAACCCGAGAGATGACCCCACAGGAGATCAAGTTTGCT
+GTCCATGTGGAGTCAGTGCTGAACCGCGTGTCCCAGCCCGAGTACCGGCAGCTGCTAGTGGAAGCCATCATGGTGCTGAC
+ACTGCTCTCAGACACAGAGATGGAGAGCATCGGGGGCATCATCCACGTGGACCAGATCGTGCAGATGGCCAATCAGCTGT
+TCCTGCAGGAGCAGATATCCACCGGAGCCATGGACACCCTGGAGAAAGACCAAGCCACAGGGATCTGCCACTTCTTTTAC
+GACAGTGCCCCGAGCGGGGCTTACGGCACGATGACCTACCTAACGAGAGCGGTGGCTTCTCACCTGCAGGAGCTGCTGCC
+CAGCTCGGGCTGCCAGACGCAGTAAGGGCCTCACTTGTGAAGGTGGCCACCTGTCACTTGTCCCAAGACCCCCTGGGCCA
+CCACAGAAGCATGCCCCATCAGAAACAAACGCTGGAAGGCGACGGCAGCCCTCCACCTAGGCCAGTGCACGAGCAGGGCG
+CCCAGAGCACAGAGCACTCCTGGGCTCCCCGCAGAGGAGCGCCCTGGGCTGGGTGTTCTGGGTGTTGTTTCGCGGCAACA
+TTTGTCACAGCATCTGGTCTCATGGACTGAGGAGGAATTGGCAATCGGCTGTAGCAGAGGTACAGAAATAGGCTGTGAGC
+TAGCGACATCCAAGATGGAGGGATCCTTCCAGCGGCAAGAGCAAGACAAGCAGAGAGACCGACAGAGGGCTCACCTTCAC
+AGGGTGCAGTCCGTCTGCGGACCACGCGGCTTACCAAATAGAACGGCTTGGCTCTGGCAAAAAAAAAAAAAAAAAAAAAA
+AAAAA
+>ref|NM_001101705.1| Oryctolagus cuniculus phosphorylase kinase catalytic subunit gamma 1 (PHKG1), mRNA
Y00684.1 Rabbit mRNA for gamma-subunit of phosphorylase kinase (EC 2.7.1.38)
+GGGGCTCTGGGACCTTTGGGATTCTCGTCAAGCTCATTCCGGGACCTGCAAGGACCTAACGAGCCCCCGAGGAGCTGAGC
+ATGACCCGCGACGCGGCACTGCCTGGCTCTCACTCCACACATGGCTTCTACGAGAATTATGAGCCCAAGGAGATCCTGGG
+CAGAGGAGTTAGCAGTGTGGTCAGGCGCTGCATCCACAAGCCCACGTGCAAGGAGTATGCCGTGAAGATCATTGATGTCA
+CTGGTGGAGGCAGCTTCAGCGCTGAGGAGGTGCAGGAGCTGCGAGAAGCCACGCTGAAGGAGGTGGACATCCTACGCAAG
+GTCTCGGGGCACCCCAACATCATACAGCTGAAGGACACTTATGAGACCAACACTTTCTTCTTCTTGGTGTTTGACCTGAT
+GAAGAAAGGGGAGCTCTTTGACTACCTCACTGAGAAGGTCACCTTGAGTGAGAAGGAAACCCGAAAAATCATGAGGGCCC
+TGCTGGAGGTGATCTGCGCTTTGCACAAACTCAACATTGTGCATCGGGACCTGAAGCCCGAGAACATCCTCTTGGATGAT
+GACATGAACATCAAGCTCACAGACTTCGGCTTTTCCTGCCAGCTGGACCCCGGAGAGAAGCTGCGAGAGGTCTGTGGGAC
+CCCCAGTTACTTGGCTCCTGAGATCATCGAGTGCTCCATGAATGACAACCACCCAGGCTATGGGAAGGAGGTGGACATGT
+GGAGCACAGGGGTCATCATGTACACCCTGCTGGCCGGCTCCCCGCCCTTCTGGCACCGGAAGCAGATGCTGATGCTGAGG
+ATGATCATGAGTGGCAACTACCAGTTTGGCTCACCGGAATGGGATGATTACTCCGACACGGTCAAGGACTTGGTTTCTCG
+CTTCTTGGTGGTCCAGCCCCAGAAGCGCTACACGGCTGAAGAGGCCCTGGCACACCCCTTCTTCCAGCAGTACGTGGTGG
+AGGAAGTGCGCCACTTCAGCCCCCGGGGGAAGTTCAAGGTGATCTGCCTAACCGTGCTGGCTTCGGTGCGCATCTACTAC
+CAGTACCGCCGGGTGAAGCCCGTCACCAGGGAGATCGTCATCCGGGACCCCTACGCCCTCCGACCTCTGCGCCGCCTCAT
+CGACGCCTACGCTTTCCGAATCTACGGCCACTGGGTGAAGAAGGGGCAGCAGCAGAACCGGGCTGCCCTCTTTGAGAACA
+CCCCCAAGGCTGTGCTCTTCTCGCTGGCTGAGGATGACTACTGAGGGGGCAGGCACGCGGGGGAGGCATGAGGCCCCCGC
+CAGGAGCCCCCTCCCCGGGTGCTGAAGCCAGCGATGGACGGACCCCGACCCCGGGCCAGGCGCCATTCCTGAGGAGGGAG
+GACCAGATGCGGTCCGGGGCAGAGCCCTTGCTTCGTGGGAGGCGCAAAATCTCTAACACCCCTGCTGCTGTCTTCCCTGA
+TTCCCAGGGCGAGGCTAAAACACGGGACATGTTTAGAGATGCGCAGTCACACGATGTGCACTGGCATCCGGGGACTTGGT
+CCGAGAGGCCCAGGGAAGCCCTTAGGTATATTAGCAATAGAAGAGGAAGCTTCTGATACTTCCTCTGGAGCGTTATTTAC
+TTTGTGACTCCCACGGTGCACTGCTTCTCCTGGTCCTTTGGGTCTCCCAGGTCCCCCGTGAAGACTGACGCTGTCCTGTC
+AAGAGCCACCGTGGTGCATTTTACACGTGGAGAAAAATCACGGTTCTTCTCAGGGGCATGAAACGCCACAGAGGAGGCCA
+ATGAAATTGCATCTTCCTCCTACAGCGGTTTTCTGGGAAAACAAAGAAATGGGGACACCCTGCCTTGAGAAAACACTTGT
+CAGATCCCTAAATCAGAC
+>ref|NM_001082184.1| Oryctolagus cuniculus glycogen phosphorylase, muscle associated (PYGM), mRNA
D00040.1 Oryctolagus cuniculus mRNA for glycogen phosphorylase, complete cds
X04265.1 Rabbit mRNA for muscle glycogen phosphorylase (EC.2.4.1.1)
+TCCCTGGCTGGAGGCACCTCAGGCCACCCGTCCGCCCTTCCTTCCACGTCTCGCCCGGCCCGCCTCCCGCAGCCATGTCC
+CGGCCCCTGTCAGACCAGGAGAAGAGAAAGCAAATCAGCGTGCGCGGCCTGGCCGGCGTGGAGAATGTGACGGAGCTGAA
+AAAAAACTTCAACCGCCACCTGCATTTCACCCTGGTGAAGGACCGCAATGTGGCCACGCCGCGAGACTACTACTTCGCAC
+TGGCCCACACTGTGCGCGACCACCTCGTGGGGCGCTGGATCCGCACGCAGCAACACTACTATGAGAAGGACCCCAAGAGG
+ATCTACTACCTGTCTTTGGAGTTCTACATGGGCCGGACGCTACAGAACACCATGGTGAACCTGGCTTTGGAGAATGCCTG
+CGACGAGGCCACCTACCAGCTGGGCCTGGACATGGAGGAGCTGGAGGAAATCGAGGAGGACGCCGGGCTGGGCAACGGCG
+GCCTGGGCCGGCTGGCAGCCTGTTTTCTGGACTCCATGGCAACACTCGGCCTGGCTGCCTATGGCTACGGGATCCGCTAT
+GAGTTTGGGATCTTTAACCAGAAGATCTGCGGGGGCTGGCAGATGGAAGAGGCTGATGACTGGCTTCGCTACGGCAACCC
+CTGGGAGAAGGCCCGGCCTGAGTTCACACTGCCTGTGCACTTCTATGGCCGAGTGGAGCACACCAGCCAGGGGGCCAAGT
+GGGTGGACACACAGGTGGTGCTGGCCATGCCCTACGACACACCGGTGCCTGGCTACCGCAACAACGTCGTCAACACCATG
+CGCCTCTGGTCGGCCAAGGCGCCCAATGACTTCAACCTCAAGGACTTCAACGTCGGTGGCTACATCCAGGCCGTGCTGGA
+CCGCAACCTGGCTGAGAACATCTCTCGGGTCCTGTACCCCAACGATAACTTCTTCGAGGGGAAGGAGCTGCGGCTGAAGC
+AGGAGTACTTCGTGGTGGCGGCCACCCTGCAGGACATCATCCGCCGCTTCAAGTCCTCCAAATTCGGCTGCCGCGACCCC
+GTGCGCACCAACTTCGATGCCTTCCCGGATAAGGTAGCCATCCAGCTCAATGACACCCACCCCTCGCTGGCCATCCCCGA
+GCTCATGAGGGTGCTGGTGGACCTGGAGCGGCTGGACTGGGACAAGGCCTGGGAAGTGACGGTAAAGACGTGCGCCTACA
+CCAACCACACGGTGCTGCCCGAGGCGCTGGAGCGCTGGCCCGTGCACCTCCTGGAGACGCTGCTGCCGCGCCACCTCCAG
+ATCATCTACGAGATCAACCAGCGCTTCCTGAACCGCGTGGCGGCTGCGTTCCCGGGGGACGTCGACCGGCTGCGGCGCAT
+GTCGCTGGTGGAGGAGGGCGCCGTGAAACGCATCAACATGGCGCACCTGTGCATCGCGGGCTCGCACGCCGTCAACGGTG
+TGGCTCGCATCCACTCGGAGATCCTCAAGAAGACCATCTTCAAGGACTTCTACGAGCTGGAGCCTCATAAGTTCCAGAAC
+AAGACCAACGGCATCACCCCTCGGCGCTGGCTGGTTCTGTGTAACCCTGGGCTGGCCGAGATCATTGCTGAGCGCATCGG
+GGAGGAGTACATCTCAGACCTGGACCAGCTGCGCAAGCTGCTCTCGTATGTGGACGACGAAGCCTTCATCCGGGATGTGG
+CGAAAGTGAAGCAGGAAAACAAGCTGAAGTTCGCGGCCTACCTGGAGAGGGAATACAAGGTCCACATCAACCCCAACTCG
+CTGTTCGACGTCCAAGTGAAACGGATCCATGAATACAAGCGGCAGCTGCTCAACTGCCTGCACGTCATCACCCTGTACAA
+CCGCATCAAGAAGGAGCCCAATAAGTTTGTTGTGCCTCGGACCGTCATGATTGGAGGGAAGCCCGCACCTGGGTACCACA
+TGGCCAAGATGATCATCAAACTTATCACCGCCATTGGGGATGTGGTCAACCACGACCCGGTGGTTGGAGACCGCCTCCGT
+GTCATCTTCCTGGAGAACTACCGGGTCTCACTGGCTGAGAAAGTGATCCCGGCTGCCGACCTCTCGGAGCAGATCTCCAC
+CGCGGGCACCGAGGCCTCCGGCACCGGCAACATGAAGTTCATGCTCAATGGAGCCCTGACCATTGGCACGATGGACGGCG
+CCAACGTGGAGATGGCCGAGGAGGCGGGAGAGGAGAACTTCTTCATCTTTGGCATGCGGGTGGAAGATGTGGACAGACTC
+GACCAGAGAGGGTACAACGCCCAGGAGTACTACGACCGCATCCCGGAGCTTCGGCAGATCATCGAGCAGCTGAGTAGCGG
+CTTCTTCTCCCCGAAGCAGCCGGACCTGTTCAAGGACATTGTCAACATGCTCATGCACCATGACCGGTTCAAAGTCTTTG
+CAGATTATGAAGAGTACGTCAAGTGCCAGGAGCGAGTCAGCGCCTTGTACAAGAACCCCAGAGAGTGGACGCGGATGGTG
+ATCCGGAACATAGCCACCTCGGGCAAGTTCTCCAGCGACCGCACCATTGCCCAGTACGCGCGGGAGATCTGGGGTGTGGA
+GCCCTCGCGGCAGCGGCTGCCAGCCCCCGACGAGAAGATACCCTAGGCCAGACCCCAACGCGGCCCTGCAGTCTGCAAGC
+TTGGGGCCAGCGCCAGCTCCCCGTCCAGAGTGTGGGGGCCTGGAGTCAGACCTCCAAGTCCCCTCCTGAAACCCCCATTC
+CCCCCAGAAGCAAGGTCCCAGTGCCCAGCGTGCCTCAGGACACTGGGCCCCCTCCTATTTATGGGGTCCGACCAACTGCG
+CCCACTCCCCAATAAACTCTCCCTCCTTACC
+>ref|X56536.1| Rabbit mRNA for pH regulatory protein (Na+/H+ exchanger), partial
+AAGCACTTCCCCATGTGCGACCTGTTCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGAC
+CATCCGGCCCCTGGTGGACCTGCTGGCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGC
+AGTTCCTGGACCACCTTCTGACAGGCATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAAC
+CGGTTTAACAAGAAGTACGTGAAGAAGTGTCTGATCGCAGGCGAGCGCTCCAAGGAGCCCCAGCTCATCGCCTTCTACCA
+CAAGATGGAGATGAAGCAGGCCATCGAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCT
+CCATGCAGAACATCCACCCCAAGGCCCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATC
+CGCAAAATCCTGAGGAACAACCTGCAGAAGACCCGGCAGCGGCTTAGGTCCTACAACAGACACACACTGGTGGCCGACCC
+CTACGAGGAGGCCTGGAACCAGATGCTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGA
+CCGTTCCGGCGCACAAGCTGGACTCGCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAG
+GCAGACCTGCCGGTCATCACCATCGACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAA
+GGGCAAGGTCCTGGGGCTGAGCCGGGAGCCAAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGA
+TGCGGCCCAAGGAGCCCTCGTCCCCCGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGG
+ATGCAGCGCTGTCTCAGCGACCCCGGCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCG
+CAGCGCACCTGCCCGCCAGACTCTCCCGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCA
+CCGCATGGCAGCTGGGCCCAAGCGCCCACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCAGCGGAG
+CTGCCTTCCCCATCATCTGGCTGGGGCGGTCTGGCTCCCTCCAGGGGCCGGGGCCTGCAGCCGCCCAGGCCTCGGAGCCC
+CTGACTCAATCGCCCCCTCACTCAGACCAAGCTTCCTTTCTAACCAAAGACCTCTGGCTCCAGACGGGTAGGGGGCCAAG
+GGAGCCTCGGCCCAGGGGAGGCAGCAGGGGTACCGGGTGTGCGCCCGGAGCAGGGCCAGGCGGCGCGAGGGTCTCTGCCC
+CGAGCTGCTGTGCCGGAGCCGAGACGTTTCTGGCGGTGAGGAGACTCCGCTGCGCCCCTACAGGCCGGGCGCTGAGCTGT
+TCAGGGTTTTGCTTCTCTGCACTTCCGAGGACGATTCAGACCACACAGAGGGCGCTCCTGGGTTTAAACCAGTTTTTGAA
+GCCCTTGGCTCCACGGACATCTGCCCCTCTGGCTCCCTCCCTCAGCCTGTGCAGAGAACCAGTGGCCTCTCCCAGGTCGT
+CCTCTGCTGTTGTCCGAGGCTCTGATTTCAGGAAGGGGCCCCACCCCGATCATGGGCCTCCAGGGCCTGACTCGCTTCCT
+GTGGGCCTGTCTTTCCAACCTGCCCCACCGCTGGGTTGGCCCTGGAGCCCCGACCTCGCGTTCACCGCAGCCTGCTTGCT
+GTGGAGCCCGGTCCTCAGGGAGAAGGCCCCGCGGATCTCCCGCTGCAGCCAGGGCTGCCGGGCTGGGCAGGGACCTGGGC
+CCCCAGAGACACACACTCCCCCCATCACTGTCACCATGGCCAGACCCGAGCCTGTCGGTGTCGGTCCCCCCCAGGACACT
+CCCCCTCCCAGGATCGTGCAATAGTCAGTGTCCCACCTCCCAGTGCACTGGCCGCAGCCAAGCCCACCTGCCCATCTCCT
+GTCCCGTGGGCAGCAGTGCCTGTGCCAGGGTGACGTCGACAACCATGTACAAAGCCACCGCAGCTGCTGCCGCTCTGCCG
+CCTGTACAGAAGAAACCGAATCTTTTTCATATTCTAATAAATCTATGTGAGTTTTTG
+>ref|NM_001101706.1| Oryctolagus cuniculus protein phosphatase 1 catalytic subunit alpha (PPP1CA), mRNA
Y00701.1 Rabbit mRNA for protein phosphatase-1 catalytic subunit (EC 3.1.3.-)
+GGCACCTTGGACCACCACGAGGCTCTAGGGGTGGCAGAGGGGGTCCTGCACAATAGCAGAGAGGCCGTGGTTCCCGTGGA
+GCTCGGGGCAATCGTGGGGGCAATGTAGGAGGCAAGAGAAAGGCAGACGGGTACAACCAACCTGATTCCAAGCGTCGTCA
+GACCAACAACCAACAGAACTGGGGTTCCCAACCCATCGCTCAGCAGCCGCTTCAGCAAGGTGGTGACTATTCCGGTAACT
+ATGGTTACAATAATGACAACCAGTGAATATTTATCAGGATACGAGATCCGTGGTCTGTGCCTCAAATCCCGGGAGATCTT
+CCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGGCCAGTACTACGACCTGC
+TGCGGCTGTTCGAGTACGGCGGCTTCCCCCCGGAGAGCAACTACCTGTTCCTGGGTGACTACGTGGACCGCGGCAAGCAG
+TCCCTGGAGACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTGCTGCGCGGGAACCACGA
+GTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAAGCTGTGGAAGACGTTCA
+CCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATGGCGGCCTCTCCCCCGAC
+CTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTGCTGTGTGACCTGCTGTG
+GTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTTCGGCGCGGAGGTGGTGG
+CCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACGGCTATGAGTTCTTTGCC
+AAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGAGCCATGATGAGCGTGGA
+CGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGGGCAGTTAAGTGGCCTGA
+ACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGGGTGCGGCCCCCTGCCCA
+GACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGGGGACACGGGCCTCGGTG
+GATCTGTTTTTTAATGAATCACTAGCAGTACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTGCGCGGCTGCAAGCAGGA
+TCCTGGGGCCAAGGCTGCAGCTCAGGGCGACGGCGGCCAGACTGGGTCTCGTCTCGTGCGGCCGCAGGGCTGGCAGCCGG
+GTCCCAGGGCAGCCCGTCTGGTCTCCTGAATAAAGGTCAAAGCTGGATTCTG
+>ref|X14832.1| Rabbit mRNA for type-1 protein phosphatase catalytic subunit (PP1 alpha) alpha isoenzyme
+GTGGGCCCGGAGCTGCTGGGCCCCGAGCGGCGGCGCCGCCATGTCCGACAGCGAGAAGCTCAACCTGGACTCTATCATCG
+GGCGCCTGCTGGAAGTGCAGGGCTCGCGGCCCGGAAAGAATGTGCAGCTGACGGAGAACGAGATCCGTGGTCTGTGCCTC
+AAATCCCGGGAGATCTTCCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGG
+CCAGTACTACGACCTGCTGCGGCTGTTCGAGTACGGCGGCTTCCCCCCGGAGAGCAACTACCTGTTCCTGGGTGACTACG
+TGGACCGCGGCAAGCAGTCCCTGGAAACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTG
+CTGCGCGGGAACCACGAGTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAA
+GCTGTGGAAGACGTTCACCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATG
+GCGGCCTCTCCCCCGACCTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTG
+CTGTGTGACCTGCTGTGGTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTT
+CGGCGCGGAGGTGGTGGCCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACG
+GCTATGAGTTCTTTGCCAAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGA
+GCCATGATGAGCGTGGACGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGG
+GCAGTTCAGTGGCCTGAACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGC
+GTGCGGCCCCCTGCCCAGACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGG
+GGACACGGGCCTCGGTGGATCTGTTTTTTAATGAATCACTAGCAGCACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTG
+CGCGGCTGCAAGCAG
+>ref|X14030.1| Rabbit mRNA for liver protein phosphatase 2A-beta 3'-region
+CTCCTGGGAAACCTGCCTTTCTTTGTGGAAGTATACCTGGCTTTTTAAAATATATATATATATATATTTAAAAGCAAACA
+AAGCAACAGTAATCTATGTGTTTCTGTAACAAATTGGGATCTGTCTTGGCATTAAACCACATCATGGACCAAAATGTGCC
+ATACTAATGATGAGCATTTAGCACAATTTGAGACTGAAATTTAGTACACTATGTTCTAGATTGGTCAGTCTAACAGTTTG
+CCTGCTGTATTTGTAGTAACCATTTTCCTCTGGACTGTTCAAGCAAAAAAAAAAGGTAACTAATTTGTTCCATCTCCTTT
+TGCGCTTATTTGGAAATTTAGTTATAGTGTTTAACTGGCATGGATTAATAGAGTTGGAGTTTTATTTTTTAAAATATTCA
+CAAGCTAACATCCAATTAACCCATTACCCTTTATTTTATTGAAATGTGTAATTAACTTAACTGAAGAAAGTCTTCTTGGG
+AGTATGTTGTCATAACATTTAAAGAAATTTTCCTTTCATTTAAGCTAAATTACTGTTTTATGTTGATCTGCATATTTCTG
+TATATTTGTCACAACAATGCTTGCATCCTATTTGGTGTACTGAGCAAATAAACTTTCCATTTTAAAC
+>ref|NM_001101708.1| Oryctolagus cuniculus phospholipase B1 (PLB1), mRNA
Z12841.1 O.cuniculus mRNA for phospholipase
+CCGAGGCACCTGCAGCGTCCAGGCATGGCTCTGTGGCCGAGCGTCTTCCTCCTGGGGCTGCTGCCGCTCCTGGGGCGAGG
+TGCAGATCAGATCCAAACCTCTTCTGGAAAGAACACATTGGAAGGGCAGCTCTGGCCAGAGAGCCTGAAGACTTTTCCAT
+TCCCATGCGACCCAAAGACGTTAGCAGAGAGCGTGCCCTCTGAGTCAGTTCACTCTCTGAGGCCTTCTGACATTAAATTT
+GTTGCAGCCATTGGCAATGTGGAAACTGCTCCAGACTCAGGGGCGGACGACCTAGAGGAGCAAGACGGGACGGAGAAGAG
+GCCAGAGCAGGCGTGCATGGGCGTGGTGACCGTCCTTTCAGACATCATCGGCCGTTTCAGTCCTTCTGCTCTGATGCCGC
+TGTGTCCTGAGACAAGACTTGTACCTCGTGGAGGTGCTGAAGACTTGTGGATGCAGGCTACAGAGCTGGTGAGAAGCATG
+AGAGAGAACCCGCAACTTGACTTTGAACATGACTGGAAGCTCATCAACGTGTTCTTCAGTAACACAAGCCAGTGTTTCCC
+GTGTCCCTCTGCTCAACAGAAGGGGCTCGTGCTGGGGGGCATGGACAAGCTGACAAGGACCCTGGACTACCTGCAGCAGG
+AGGTCCCCAAAGCGTTCGTCAACCTGGTGGATCTCTCGGAGTTGGCAGCATTCTCTCGCTGGCGTCAGGGGGCTCAGCTC
+AGCCCAGCAGCCGAGCCCTGCAGGTGCTTAAGGGAAACCTCCCAGCTGACCAAGGTCCTGACGCAGTGGTCCTACCTGGA
+AGCCTGGGACAGCCTCCTGGCGTCCAGCAAGTACAACACACAGGAGTCCTTCGCGGTGGTCTTCCAGCCTTTCTTCTACG
+AGAGCTCGCTGTCGGCGCTGTTGGCGGAGCCCCCACTCCAGGACCCCACCACACTGGCCCTGAGTCTCTGGAACAGAATG
+ATGGAGCCCATAGGGCGCAAAGAAGAGCCGTTCAGTGAGAAGGAGAGGAAGCCACTGAGATGCCCCACACAGGAGAGCCC
+CTACCTATTCACCTACAGGAACAGCGGCCAGCTGACCAGGGTGTCACAGCCCCAGGGGAAGCTCGAGGTGAGAGAAGGGA
+CGGAAATCCGCTGTCCCGACAAGGACCCCTCCGACTCGGTTCCCACCTCAGTTCACAGGCTGAAGCCCGCCGACATCAAG
+GTCATAGGTGCCATGGGTGACTCCCTCACGGCAGGCAACGGGGCGGGGTCCCAGCCTGGGAACATCCTGGATGTCCTTAC
+TCAGTACCGAGGCCTCTCCTGGAGCGTCGGGGGCGATCAGAACATCAGCACGGTCACCACCCTGGCCAACATCCTCCGGG
+AATTCAACCCTTCCCTGCAGGGCTTCTCCGTCGGCACCGGGAGAGAGACCACTTCCCAAGCCTTCTTCAACCAGGCAGTG
+GCGGGCGCCCGAGCCGATGGGTTAATTCCCCAGGCCCAGCGGCTGGTGGCCCTGATGAAGAATGACACGAGGATAAATTT
+TCAGGAGGATTGGAAGATAATAACCGTGTTCATTGGAGGCAACGACCTCTGTGATTTCTGCAATGACCCGGTGCGCTACT
+CCCCCCAGAACTTCACGGACAACATCGGGACGGCCCTGGACATCCTCCACGCTGAGATTCCCCGGGCCTTTGTGAACCTG
+GTGAAGGTGCTTGAGATCTCCAAGCTGAGAGAGCTGTACCAGGAGACTAAAGTGAGCTGCCCCAGGATGATCCTCAGGTC
+TCTGTGTCCCTGTGTCCTGAAGTTCGATGACAACTCCACAGAAATTGCCTCCCTCATCGAAACGATCAAGGAGTATCAGG
+AGAGGACCCAGCAGCTGATTGACAGCGGGCGATACGACACGAGGGACGACTTCACGGTGGTTTTGCAGCCGTTTTTTGAA
+AAAGTGAACATGCCAAAGACCCAGGACGGGCTACCCGACAACTCTTTCTTCGCGCCCGACTGCTTCCACTTCAGCAGCAA
+GGCCCACGCGCACGCAGCTAGCGCCCTCTGGAACAACATGCTGGAACCTGTTGGCCAGAAGACAACACACAATGATTTTG
+AAGGAGCAGTCAACATTACGTGTCCAAACCAGGTCTGGCCGTTTCTGAGTACCTACAAGAACAGCGTGCAGGGTTTTGGG
+ACCTGGCTGCCGTGCAGAGACAGATCCCCGTCTGCCTCGCCCCCCACCTCAGTGCACGCCCTGAGACCCGCAGATATCCA
+AGTTGTGGCTGCTCTGGGAGATTCTCTAACTGCTGGCATTGGAATTGGCTCCAAACCAAATGACCTCTCAGATGGCACCA
+CTCAGTATCGGGGACTGTCATATAGTTCAGGAGGGGACGGCTCCCTGGACAACGTGACCACCTTGCCTAATATCCTCCGG
+CAGTTCAACAGCAACCTCATGGGCTTCGCCGTGGGCACTGGTGATGCCAGTGGCACCAATGCTTTCTTCAACCAGGCTGT
+TCCCGGAGCAAAGGCGAGGGATCTTATGAGCCAAGTGCAGACTCTGGTTCAGAGGATGAAGGACGACCATAGAGTAAATT
+TCCAAGAAGATTGGAAGGTCATCACGGTGCAGATCGGAGCCAGTGACTTGTGTGACTACTGCACGGATTCGAACCTGTAT
+TCTGCAGCCAACTTTTACGACCATCTCCGAGACGCCTTGGACGCCCTCCACAGAGAGGTGCCCAGAGCTCTGGTCAACCT
+CGTGGACTTCATGAACCCAAGTGTCACACGACAGGTGTTCCTGGGGAACCCCGACAAGTGCCCAGTGCAGCAGGCCAGCG
+CCCTGTGTAACTGCGTCTTGAGCCCCCGGGAGAACTCCTATGAGCTGGCCCGGTTGGAGGCCCTCGCACAAGCCTACCAG
+AGCAGCCTGCGGGAGCTGGTGGAGTCCGGCCGCTACGACACGCGGGAGGACTTCTCCGTGGTGCTGCAGCCCTTCTTCCA
+CAGCATCCAGCTCCCCGTCCTGCAGGACGGGCGCCTGGACACGTCTTTCTTCGCCCCAGACTGCGTCCACCCAAATCAGA
+AGTTCCACTCCCAGCTCTCCAGAGCCCTCTGGCGCAACATGCTGGAGCCCCTGGGAGGGAAAACGGATGCACTGGACCTG
+ACGGCAGCCATCACCCTCACCTGCCCCACTCAGAACGAGCCTTTCCTGAGAACCTTCCGGAACAGTGACTACACCTACCC
+CAGCAGGCCAGCCGTCGAGAACTGGGGCAGTGACTTCCTGTGCACCGCGTGGAATGCTTCCAGGGGTGTTCCGAACTCAG
+TCCATGAGCTCCAACCAGGAGATATCAAAGTCGTAGCTGCCCTGGGTGACTCGCTGACGCTGGCCATGGGCGCTCGACCA
+AGCAACTCCAGTGACCCACCCATGTTCTGGAGGGGCCTCTCCTGGAGCATTGGTGGGGACGGGGCCTTGGAGACTCACAC
+CACACTGCCCAACATTCTGAAGAAGTTCAACCCTTCCATCCTGGGGTTTTCTACTGGAACCTTGGAGGGAACCATGGGAC
+TCAACGTAGCAGTGCAAGGGGCCAGAGCTCAGGACATGCCAGCCCAAGCCCGGGACCTGGTGGAGCGAATGAGAAACAGC
+CCTGAGATCGACCTGGAGAAGGACTGGAAGCTGGTCACACTCTTCGTGGGGGGCAATGACCTGTGTCACTTCTGCGAGAA
+TCCGGAGGGCAGCTCCGAGGGGGAGTACGTCCAGCACATCCAGCAGGCCCTGGACGTCCTGTACGAGGAGCTTCCGAGGA
+CTTTTGTCAATGTGGTGGAGGTCATGGAGCTGGCCGGCCTGCACCAGGACCAAGGCGGGAGATGTGCCACACTGCTGGCA
+GCTCAGAGCCACTGCACCTGCTTCAAATACTCTCAGAGCTCAGTGGAGATGCAAGAACTGAAGAAAGTGAACTGGAACCT
+CCAGAGCGGCCTCTCCAGGCTCTCCTACTCACACCAGTACGTGCAGCGTGAGGACTTCGCCGTCGTTGTGCAGCCTTTCT
+TCCAGAACACTCTCGTCCCACTGAACGGGAGAGGGGACACTGACCTCACCTTCTTCTCTGACGACTGCTTCCACTTCTCA
+GAGCGCGGTCATGCCGAGATGGCCATTGCCCTCTGGAACAACATGCTGGAGCCAGTGGGCCACAAGACAACCTCCAACAA
+CTTCACCTACAGCCGAACCAAACTCAAGTGCCCCTCTCCCGACAGCCCGTACCTCTACACCCTCCGGAACAGCCGGCTAC
+TCCCCGACCAGGCTGAGGCAGACCCCACGGTGCTCTACTGGGCAGTGCCGGTGGCAGCAGGAGCCGGCCTTCTCATCGGC
+ATCCTCGCCATGGTGGCAGGGAGAGGCATGCGCTGTCGCCCGCGGGAGGACCCCCCGCTGAGCCTGAGCACAGGCCTCTA
+GGCCCATGTGTGTGGTCCTCACCCGGAAGGTCCCGGCCACACTCCAACCTGGCCCTTCTACCTCAGCCACCTGTGGCCAC
+CACGGGCAGAACCTGCTTCTACACCTGAGACACAGCAGCCAAAGGGACAGTCAGGACTTCTTGGGGCCTGGGCTTCTCCC
+AGGTCAATGCTCCTGGGATTGGCAAACTTAAATAAAAAGCCGAACATGTTCT
+>ref|X06623.1| Rabbit progesterone receptor gene 5' flank
+TCTTTCAATCAAAGATTCATATATTCAGGAAGTTCCTGTGCCAACCATTATCATCACTAAGCATCAAATCTTGTGGAATA
+ATGGTGATGCAGATATGCTGGGCACCTTTATTATTATTTTCCCACTTCAAGATTTTCAATCTTGTGGAAATAAACTAGCA
+GGGCCAGCGCTGTGGGGTAGCAGGTTAAGCCGCCGCCTGTAGTGCTGGCATCCCATATGGGCACCGGTTCGAGCCCTGGC
+TGCTCCATTTTTGATCTAGCTCTCTGCTATGGCCTGGGAAAGCAGTACAAGATGACCCAAGTCATTGGGCCCCTGCACCC
+ATGTGGGAAGACCCGGAGGAGGCTCCTGGCTTTGGATCAGTGCAGCTCCGGCCACTGCGGCCAGTTGGGGAGTGAACCAG
+CAGATAGAAGACTTTTCTCTCTCTCTGCCTCTGCTTCTCTCTCTGCATAACTCTGACTTTCAAATAAATAAATAAATATT
+TTAAAAAGAAAAGAAACTAGCCAGACTCTCCGGCTTAGAGGGAAGATGTAAAATCAACCACAGTTAAATATAATTTGTCA
+GATTTAGGATGAGGTCAGGTGCCAATTTTACGGCAGCAACCTAGAAACCAAGTCTGAGTCATCTGATATTTAAAATCACA
+CTCCTAATAAGATACTTTGGCCATTTGGCATCAAATCTGTCAATGCTACTTACTATATTTATAATAGTGGGTAACTTTGT
+GTCTCACTTTTCCCAACAAGGAGAGAGATAATAGGACCTATTTTGTGGACTGTTGAAGTATTAAATGAGTTTTCACACAT
+ATAGGGCTTAGAAGATTACTAGGCAATGCTGTCCAGATTCTAATATTTCTACAGATTCTATGGCCCCGGCCATCAAGGAT
+ACACAAATCAAAGCTTCTGTGAGATACCCCTGCATACAGCAGAAGACCAAGAATAAAAAAAAAGTACAGTTCGTAAGCAT
+TGCTAGTGATGTAGAGAAACTGAATCCTCGTACACTGCTGGTGGGAACATAAATGCAATCACTTTGAAGAAACAATCCAG
+CAGTCCTTGTACGCACACATTGCAATATATCCTGGCAATAAAAAGTAATGACGTACTGATACATACATATGATAGTTGAA
+ACTAACATTATGCTAAGTGAAAGAAAACTGTCAAAAAAAAAGATCTCATGGCATGGTTAAATTTATATAAAATTTCCAAA
+ATATGAAATTCACAGAGACATTAAATTAGTGGCTGCTGGGAGGTTTGGGGGGAAGTAGGGAATAACTACTAACAAGGTAT
+GAGATTTCTTTTTAGGATTCTATAAATGTTTTAAAAGTGAGAATGATGATAGTTTTGCAACTGTGAACATGCTAAAACCC
+ATTGAATTTTATGTGTAAAATGGGTAAACTGTATGTTACCTGAATTATATCTCAATAAGACATTTGTGTTTTAAGATGTA
+CTGAAAAGAGGAAAAGCCTGATAAACATTATGAATAGTAAATTAGTTTGTCTGTTGGGCTTATGTACTTCCATTCCCATA
+CTTTCTCTGTACTCTTTTGATAATGATCCTCTCACAGTTCCTACATTATGTTTTCCTATTCAACACCCTGTGACCACAAT
+GGCTTCCCGAGATTTTCTTTTCCTCTCCTCTACCTGCCTAACTTCTTTGACACATTTAAAATTAGCCAGTCAGGGAGCAT
+TAATTGCTGGAACAATCAGTTCCCAAACCCAGTGACCTAACATGGTAAAGGTTTATTTCTCATCCATATAGCCCCTCCCC
+AGGTGATCCAGGGTCCTCCCCTCCAGTGGCTCTGTCCATCCTGGAGTCCTGGAGCCCTCCACTAGACCCTCCTATTTCTG
+GCTGAGAGAAATTGTGAGTAGCAGGGGTGGTCCTACAAGGAGGTTTCCAAATGACTAACTCTATCTTGAAGATGATGCCA
+GGACACCCAATGATCCTGGGTTTGGCACAAGCTTGTTACTTCATGGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCT
+ACCTACCTACCTATCTTTTGCCACACTTACCTTTCTCTGCTGTGTATTCAAGAATTTAGAGGTGATCTGTTTAAATAGCT
+GAAAGACAACAATTCCTAAGAGTAAGAATATTGCAGGGAGAAAATACTATTCAAGCAGTCTTTGGGGAATCTTATGATGT
+GGCACAGAGTATCAAGGAAACTCCTTAAATATTTATTAAGAATTGGATTGTGTTCTGTAAGACAGATCAAGACACAGCAT
+ACAACATTCAAGCATCCTGCATGGGTAGAAAGGTGTTAGCAACCATCTCCCACTTCCAAATTTTGGTCACATCAAGGACT
+GCTTAAGTGAAGCAGGTCATGTCGATTGGAGTGAGAGAAATTTGAAAGCACTCACTTTCATGGGACTCATAAGGGAGAGA
+CTCTCTTAAAGATGATTTAGGATCATCTCTGATGCATGTATTCTAAAAGACAATGTTGCCAGAGGTCTCTCTCTGTACAA
+TCTCTATAAAACCAGAATCCTGAAAACGGTGCAAAAACGGTGCTTCTGACAGAATCTATTCGCATTTCCAATTAATTGGG
+TATGCTTCTTAACTACTAATACAAAACCTCATATGCTTACGGGGCTGCATCCCAAAGCACCTGCTATTGGGAGTTGATTT
+CAGACGAGTGGGTGGGAAAATCAACTCTAGAGTTTCAGCTCTGGTCCGTAATTGGGATAGGGAGGGGCTTTGGGCGGGCC
+TCTCTAGAGGGAGGAGGCGTTTGTTAGAAAGCCATGGGGCCAGTCCACGCTGTCACTACTCGGGTTAAGCTTTGTAGCAC
+TTGCGTGTGTGAGGATTCTGGTGTGTGGGGAGCCTTCTCAATGAGAACGAGCTTCACCTGTCATCGGAGACTTGGCACCA
+GAGGCGGCTCTTCCTCCCGGAACGCAGGGAACCGAGAGAGCAGCGGAGACCAGTGTGGCCCGCTGTAGGGGGCCGGCAGA
+AGCCCATTCCTGGGAATGGGCTGTACCGAGAGGGTCAGCTAGCCGCAGAGTGCTAGAGAGAGGGGCAGCGGAACGCAGTC
+AGGGGCTCGGAGCTTCGCAGCGTGCACGGGTTTGAAGCCTGGGGAGAAGTCGGGCGCGTTAACTGAACTGCAAGCGCTGC
+CGCAGCCACTCCGGGGCGGGACTTGTGAGTACTCCGCGTCGCCCGCGCTCGGACAGAAGCCAGAGGACTTCCAAATCGGA
+GACGAGAGCCCTGCAACTACCTTTCCCTGCTCTTCCCACTTGCCGCAGGGACTGAGCGACCGCAGCCCTGCCCCTGACCA
+CAGGATGCAGGGCGAGGGCCAGAGCTGACCGGCACCGCCCCCTCCCGACCCAGGAGGTGGAGATCCCGCGGGTCCAGCCA
+AACCCCACACCCATTTTCTCCTCCCTCTGCCCCTATATCCCGGCACCCCCTCCTCCTAGCCCTTTCCCTCCTCCCGAGAG
+ACGGGGGAGGAGAAAAGGGGAGTTCAGGTCGACATG
+>ref|X06624.1| Human progesterone receptor mRNA 3'-flank
+TGAATGTCAATTATTTTTCAAAGAATTAAGTGTTGTGGTATGTCTTTCGTTTTGGTCAGGATTATGACGTCTCGAGCTCG
+AGTTTTTATAATATTCTTCTGAAAGCCTTACATTTATAACATATCATACCGTGTAAATTTAAGAGGAAGATTGTGAGATC
+CTAATTATTTTCCTGTATTAAGCATAATTAGAGTTTTTAAAGTGTTTTTCTGCCCCCCATATTTTCTTTAAAAGTTTAAA
+GAGTTTATAAGGTTGAAAAAGTACTAAAACTGATTATTGAAGTAAGCTATGTCTTACCCATACTATTTCATACCATTTAA
+GTGAGGATTTTTAACTTTTACATATAACAAATCTTCTACTTTAGAGAAAGAAAATCTTCACATGTAATAATAAAAAGCTA
+CTATTATATGTTACTTCTAGATAGCTCCCTTTTTCTCCTTGACTGTACTTCCAAAAGTGAACCTTTAAAATGGTATGCAA
+AACTTTGTCTACTAGAGTGTGTGTGTGTGTATATATATATATATATACACACACACATATATATATGTTTCTGTAAGGAG
+GAAATTCATAACCTGATTTCTAAGAGTTTTTAATGACAAAAATATAGAGACAAAGAGTTAAAAAAAAAAACACTAAACAG
+ATTACCATTTTTCAGACTAGACAAAACAGTTCTATGTTGAAGGGATTTCTTATATTGGAAACCCAAATCTATAAGGAAAT
+TAGTAATGAGTAGAGTTTTACTGTTATGCCAACAGTATTGCAGCTTTTGTAGGGACTTTTTGGTAACTTTTATAGGAGGG
+AGTTGTCCTCTAACAAAGTATTGTGACTAGAAACTATATCTGTGATCTGACTCTTTACCATCTGTGGCATGCGGAAGTTT
+TCAATTTCTTCACATTTAATGTGGTACAATGATATCTTTCCTTCCAAATTCTTCTTGTGATCTGAGCTTCTTTTTAACCT
+CTTCTCAAATCAAAGAAGGAAGGGATGGAAAGAGGGAGATAGGGAGGGAAAGAGAGGGATATAATTCCCTTTCTCCACTC
+CTCAAAGACTTAAGGATGGTGTCCTTTTCCTGTCAGGTGTAATAGATGAATCTCAGGTTGAAAAATTTTGAGTGCCTTTG
+ATCCAGTTTTATTAGAGATGCTTCAGGAAATACTAGATGGTGTCTTAAAATATTACAACCAATTAACAATAACCAGAAAG
+CACAAAATTCACATTCTTGTTTGAACTGAAAATATTACTTTAGAAGACAGATAGTTCTTTTCTGAGGTAAATCACTGGAG
+ATGTATTTGTAAAAAAGAAAGGAAGATATATTTATATATATACTATCCATACATATAATACAATGGGAAGAACCAAGTTC
+ATACCATTGGTGAAATTCAGTTGAAACCGGTGTTTTCTTTCTAGATAAAGTTAGTTATACCAGTTTTAGGCATGTATGAG
+TATACATACTTTTTTTAATAACTCAACAAAGCTAATAGGATAAACTTTTTTTTCTAAATTTCCCTAAAATTGGACATATC
+ATTATCTTTACAAATAAAATACATTACCTCATGCAGATTACTAGTTGTTAATTAGAAAATTAAAGTAACTTGAAAATTTT
+CTACATTGAAAACAATATAGAAAAAATTTGCTGAAATTTCTGAGTTCTTAATGTGTTTTCAATTCTCCATTCCTTTCTAT
+TGGTAAATACTTGCAGTTTACCAAGGGAATAATAACATAAGAATATTCTTAGCAAATACTGCTGTGACCCCTAAAGCACA
+AGTAAAGTGATTTCATGTGATAAAATATTGGCATAATAATATTACCATAGCTGGTTTTTAAACCAATAATTCTTCAACTT
+TCAAAAATAATTAGCTATGAGGTGTCTAAATAGTGGGTTTTCATAGGCTATTTAAAATAAGTATTGAAACATGCTTCAGA
+TAGAGCCCTTGGCTTGGATTCATTAAACCTATGTGGCAAATATAATAGGTTATATACATATTTATAATTTTTAGCTATAA
+CAGTCAACAAAAGTTTAACTCAAGTATTCCAAGTAGCCTCAAAGAGTTTAAAATTAGCCGCTTTTTAGTATTTCTGTGTA
+CATCTTTTTCTGTGGATGCATTTGTGTTACATGTGTTATATAGACTCTTGACAGGCATACCCTCACCCTACAGACCAGTT
+ATCATCCTAAAAAGGGATCTACTTATGCCATTTCCTCACTGTGAAACTTTCAGTGATTTCCAGTCACCTGTCACAGTGAC
+TCCAGTCATAGAATTTCCAAATGAACTTTAAAAAGAATGCTATTACCTGAGCTCCTTCCTCAGTGATTATAATGGGTCTA
+CTTGCATTAATGCAGGCACAGAATAAGTATTTTGAAATAGTGTTCAACTGTCAATCCTTTATACTTTGCTGTCTTTACCC
+TCCACTGTAATGCATGTTATGTCCCAGCCAGGAAAATCCTTTACCCACCATTTTTTTACCTGCCGGAATTCCCCCACCTT
+TGACAAGACAGCCAAGTATCATTTCTGTAAAGTCTTCCCTTAGTCTTCCAGACAGTGCTTTGCTTCCTCCTACAGTTCAC
+CTACCGTTTTGTGCACATCTGAATGACTGTAGCACAACTGTGATTCTCCTACAAATCTGGAAGCCACTCTGAGGTGGAAC
+ATTGTGTCTGTGGACTGAAGAGTTCAATGACACATTCTCTCTGTAACTGGTATCACCATGAAGTTCTATCAGTCTTTGAT
+TACATCATTGCATGTGTCTGCACTTATGTCTTTACCACTTTCTCTTTTCATATTCTTTTATCTTCATTTATTGCTTGTAA
+ATTTTCCAACTTTTTTTCCGGCTTTGAGAGATTCTCTCCCTTTACCAACTATAAATAGGAGAATGAAAGTACATCTTCTG
+TTTATTAATTAAAGATACTTTATTCTGTTCTAAATTTTAACATTGAATGAATGGAATACTATTTTTCTCCCTAGAAAAAA
+TTCCACAGTTGTTTCTTATGTTTAAGTAGCCCGAAATTGTTTTGTATTGTAAACCTCAGTATGAAATTTGTTATTTTGAT
+TTCATTAAACAAATATTTATTGTCTGTTATTGGCATGAGAAAATATGTTCATACACTTTGTGAGAATTTAGAGCTCAAGA
+AAGACTATAATTCAAGACAGTGGTAGCTCAGTAGTAAATATAAATGGCAGGGTGATAAATTGTAGGCACTCAAATATATG
+TTGACATGAGATGTGATAGGTGCAAAGCATTATGTACATATAATTGTACTGAGACAAATGCAGCACAAATATACTAACTT
+TGAAATAAATTAAATTAAAACCTAATTTAGTCAAGTGTCCATAATTCATTTACATTAATCTATGTGTACATTTGTTTACT
+AAAAAGCACTTTCCCATATCTTTTCCCCTACCGTGTCATCCCAGTAAAAATACATTTAATAGTTCCCATATGCAATTACT
+AAAGGAAATATACCTCTGTGGGAGTGGCACCTCTCAGAATGGATTATGTAACATAAATGAATGAATGTATGTGTTTCAGA
+AAAATAAATAAATGAGAACACTATTGTTAGCCCTTTAAAAAAAAAA
+>ref|X02215.1| Rabbit DNA fragment of short interspersed C repeat (SINE) (1850 bp 5' to embryonic globin gene beta 4)
+CTTCTCCCACAGGTGTGGCAGGTACCCCCCAGACCTGAGTTCTCACGGTGCTGCCTCTTAGGAAGCTAGAATGGGGAGCA
+GAGCAAGGACCCAAGCTCAAGCCTTCTGATATAGAATACGGGCATCTCAGGCAGCATCATAACTGGTGACTTCAAAAGTT
+GTCCCTAATTTCGACTTCTAATTTCCGAAGCTTTATCCTTCAGAAAAGTGTGACGTGAAATGAATGATTCTGCCTTTCCA
+CTCCTTCTTCCCAGTAAATTTAATTTGCATTCACAGATCTACGGTTATGCTTTAGGGCCATTGTCCACAAGGTCCAAAGT
+CTGTGAACTAAGCTACTAAGAGATGGGTCAGTCTGAGAATGAGACCTAATTTTGAGCTCAAATTCATCTACAACCTTTGT
+AAGAAATGAGGCAGACGCCTGATGTGTTCACAGCAGCAGCATTGTATGTCCACTAGTAGTGGTTTAGTCTCACTTTTTGC
+AGCTACACCAGAAAATATTCTTAAGACTTATGAAAGCAGCCACCAGAAATTCTTCTTGTTTTTTGTTACCAAAGTCATTG
+CCAGCTAAGGCAAAACATAAGAGAAACTTCTGCTGTGGCCAGGGAGTGCAGTGGAGGATGGCCTAGGTGCTTGGGCCCTG
+CACCCCATGGGAGACCAGGAAAAGCACCTGGCTCCTGGCTCCTGCCATCGGATCAGCGCGGTGCGCCGGCCGCAGCGCGC
+CCGGCGCGGCGGCCATTGGAGGGTGAACCAACAACAAAGGAAGACCTTTCTCTCTGTCTCTCTCTCTCACTGTTCACTCT
+GCCTGTCAAAAAATTAAAAAAAAATTAAAAAAAATTAAAAAAAAAAGGAAAGAGAAAAAGAGAGAGAGAGGAAGAGAGGG
+TACGGGGGAATTC
+>ref|X02216.1| Rabbit short interspersed C repeat (SINE) (loc. between pseudogene psi2 and fetal-adult gene beta 1)
+CAAACAGTAGAGACTTTGGCAGCTGTTATTATAGTCTCATTTATTGGTAGACAATAATTACTTGAAAATCACAGCAGAGG
+CTGGTGCTGCGGCTTACTAGGCTAATCCTCTGCTCTGCGGCGCCGGCACTCTAGGTTCTAGTTCCGGTTGGGGCACCGGA
+TTCTGTCCCGGTTGCCCCTCTTCCAGGCCAGCTCTCTGCTGTGGCCTGGGAGTGCAGTGGAGGATGGCCCAAGTGCTTGG
+GCCCTGCACCCCNNNGGAGACCAGGAGGAAGCTCCTGACTCCTAGCTTCGGATCGGCGCAGTGCGCGCCGTAGCGACCAT
+CTAGGGGGTGAACCAACAGCCCCGGAAGACCTTTTTCTCTGTCTCTCTCTGTTTAACTCTGCCTGTCAAAAATAAGTAAA
+TAAATAAATGTGCACTTTCCTATTTACAAAAAAAGAAAATCATAGAAGAGGAATTAATTCCTGTGTTGGCTTCGCGTTAT
+TGATAACTTCCATACAGTATTCATTTCCAGTGTGTTAAGGTCTCGGT
+>ref|X60986.1| Rabbit MHC fragment RLA-DF DNA
+GATCTGCATTAGAATCCCAAGACCTTCAACAAACCATGGAGTCCAGGACCCCTGTGGAAAAAAAAATAGAATCTAGTACT
+TGCTGATATAAACATGAAGTTAGAAAAACCAATCTTAGTAATTCTCAGCAAAGATACAGATTTTTTTGACTCAGTTAAAA
+TTTAGAAGTATTTAGGATCTGGGCTTAGATTATAAACTAAAAAACAGACTTTAGATTTCTCTTATGTTTTTTTCCATTTT
+AGGATTGAAGAAAGAGCTTGATAAGGTCTCCTTTTTCCTAGCCTTGTAGAGAAATGGAGTCCTTACTCCATGCTTGGTGT
+CTCACATGCCATTATTTCTTTTCAGCCACACACAGCTCTTTATTTCTCTTGTGCTAGAATGACTCAGACATTGGAATTAT
+CTGCTCTTCCAAAGTGTCAAGGCCTTTTATCCCCTTCCATAGATGTGTATATAGACCACACACAGTCTTGGAAATCTTCT
+CCAGTAGCCAAGGCCACTGCTTCACAATAGAATAATGCATCCAGTAATATAGGAAGGGAAGGGAAGCCCCACAGTTTGGG
+CAACATTGTCTTATATTTGCTGAGGGAGGCCATCAGTTCAGAGGCACTTACAGACCTGGGTCCATCAGTGTTAGAAAATG
+TGCTGTGTGTGCCCTAGGCCTGGTTGTGGGTCTGAGGGACATCATTGTTGGGAGCATCTTCATCTTTCTGCTATATAAAA
+TCTATTCTGTTCATTTTGTTTCCATTTTAGAAAACTTGGAGAAAGAGCTTGGTAAGTTCTCCTTTTTCTTTGCTTTGTAG
+AGAAATTAGAGTGTTTACTCCATGCTTGGCATCTCACAGGTCATTATTTCTTTTCAGCCACAAGGAAGGAACTGTATCAG
+CATGGTGAGTTCCACTGGTGTTATGGTTAAGCCATTCATCTCATCTGTCCCTCTGTCCTTTTTTTAAAAAAAATCATTTA
+TTTATTTGAAAGGCAGAAGTATAAAAAGAGAAATACACACAGAGAGAAAAATATTCTATCCCTTGATCCACTCACCAATG
+GACACATCAACTAGGGTTGGGTCAGGCCAAAGCCAGAACTCCATCCATGTCTCCCATGCAGATGGCAGGGGCCCAAGTAC
+TTCAGATATCTTCCACTACTTTCCCAGGAGGATTAGCAGGGAGTGCATCAGAAGTGGAGCAGCTGGGAGCTAACCAGCTC
+CCTCTGATAAGGACTTCTGGTATTGAGTGATGGCTTAATCCACTGAGCCACACTATGGGCCCCTGTCCCTCTGTTCTGAT
+CACCTTCTATTCACCGTTTTTGGTGAAAGGGATCTTCCACCCTAAATTGCCTAAGATGGTGAAACACATGACATCTATAC
+AGGACAGATGGAACTGAGAGCAGTGTATCAGTTACATGTACTCATGGCCTGGGGGAAGGGGACACTGTACATTACACAGG
+ACCACAGAGGAGTTGCCCAAGAGAGTTAAGTGAACCATGAAGGGAGGTAAGAGGCAAACTGTAGCAACAAGAAGAGGAGG
+TGCTCACTATTTTCTCGAGGAGTAATGCGGCTTAGCTTGCTTGAATAAATTTGGCATGCTGGCATGGAAATGATGCCCAA
+AAATTAGCTTGAGAACCAGGAGGGGCTCAGCTGGGTTGAGTATAGGGGTTTGAGCAGGGGAGGGAGCTTTCCTATCTGGT
+GGGGAGCAGGGGAACCTTTGTCACTTGAAGCAATGGTGATCCCAAAGATGTCAGGGCAACACATAATATTTAGGCTTCAA
+CATACAGCCCCACCTTCAACACCTGCACCCTCTTCTCAAAGGACCAGACCCTTAGATTGGTGGATGGCTAAAATCAGTAG
+ACCAGGATATGTAAAAAGGAACACAAATACACTAGAATTATCATTAAGAGACAGACCACAGAAACAACACTTTCAGAAAC
+CTCAGATTTCATATAGTCACAGTACATTTCATTCTCTGCAGTGAGGGCACCATGAATGGAAGCATCTAATTCTTTTCTTT
+TATTTCAGGACTGGAAAAAAAGCAAATTTATATGCTGGTGAGTAAAATCTGATGCTGTCTGTGGCTTCAGCTGACCCAGG
+ATCTTGTGAGATAGCAGACCATTGTCCAGAGACACGGCATCTTCTAGAGATTTTATTTTGAAACCAATGTGGGGTGGGTG
+GCAAAGGAATATCCCATTAGCTCACAAAATATGTTCTTGGCATGTTTTACCATAGAGTTTATTTTCTTTTTAGACTGGAG
+AAAGAAAAATTTCGAAGCAGGTGAGTTATTACCTTGTTCCACTCAACCTCTTCTATACAAATGAGAAGCACTCCTGAGAA
+GTCCTCTCATGGCCTTCATTCTAAGTCTCAATGGCTTCCTTTCTGTCCTGAGACCATGTATTCAAACAGCATGCATGGAC
+GGTCTCTGACTTACAGCCTTTCAACTTTAAAATGGTAAAAAGCAATTGCATTAGTAGAAACATACTCAAATTGGAATTTT
+GATCTTTTCCTTGTCAATGTATATCATGATGCTATTCTTAAATATTTTTCTATTTATTTATTTTCCTTTTATTTGAAAGT
+CAGATAGACATTGACAGAAAGAGACAGAGAGACAGAGCCATAGAGGGCAGAGAGAGAGAAAGACAGAGGGAGAATATTTA
+AGTTGCTGGCTCATTTGCCAAATTTCCACACAACTGCTGGGCTTGGGCCAGGCAAAAGCCAAGAGCCCATAACTTCTACC
+CAGATC
+>ref|X60732.1| O.cuniculus mRNA for alpha smooth muscle actin
+GGCACGAGGGAGAAGCCCAGCCCAGCACTGTCAGGAATCCCGTGAAGCAGCTGCAGCTATGTGTGAGGAAGAGGACAGCA
+CCGCCCTTGTGTGTGACAATGGCTCCGGGCTCTGTAAGGCTGGCTTTGCCGGAGACGATGCTCCAAGAGCTGTTTTCCCA
+TCCATTGTGGGACGTCCCAGGCACCAGGGGGTGATGGTGGGAATGGGGCAAAAAGACAGCTACGTGGGTGATGAAGCGCA
+GAGCAAAAGAGGAATCCTGACCTTGAAGTACCCGATCGAACATGGCATCATCACCAACTGGGACGACATGGAAAAGATCT
+GGCACCACTCCTTCTACAATGAGCTTCGCGTTGCCCCTGAAGAACATCCAACCCTGTTGACTGAGGCACCGCTGAACCCC
+AAAGCCAACCGGGAGAAAATGACCCAGATTATGTTTGAGACTTTCAATGTCCCAGCCATGTACGTGGCTATTCAGGCGGT
+GCTGTCCCTCTATGCCTCTGGACGTACAACTGGCATTGTGCTGGACTCTGGAGATGGTGTCACCCACAACGTGCCCATCT
+ATGAGGGCTATGCCCTGCCCCATGCCATCATGCGTCTGGACCTGGCAGGCCGAGATCTCACTGACTACCTCATGAAGATC
+CTGACTGAGCGTGGCTATTCCTTCGTGACTACTGCTGAACGTGAGATTGTCCGGGACATCAAAGAGAAATTGTGCTATGT
+CGCTCTGGACTTTGAAAACGAGATGGCCACTGCTGCATCCTCCTCCTCCCTCGAGAAGAGCTATGAGCTGCCTGACGGGC
+AGGTGATCACCATCGGGAACGAACGCTTCCGCTGCCCAGAGACCCTGTTCCAGCCCTCCTTCATCGGGATGGAATCTGCT
+GGCATCCATGAAACCACCTACAACAGCATCATGAAGTGTGACATCGACATCAGGAAGGACCTCTATGCTAACAATGTGCT
+CTCAGGGGGCACCACCATGTACCCTGGCATTGCTGACCGTATGCAGAAGGAAATCACGGCCCTAGCTCCCAGCACCATGA
+AGATCAAGATAATTGCCCCTCCAGAGCGCAAATACTCCGTCTGGATCGGCGGCTCCATCCTGGCCTCTCTGTCCACCTTT
+CAGCAGATGTGGATCAGCAAACAGGAGTACGATGAAGCCGGGCCCTCCATTGTCCACCGCAAATGCTTCTAAGTCACTTC
+CCTGCTCTGTTTCTAGCCCACAACTGTGAATGTGTTGTGGAATAATGCCTTCAATTCCTTTCCAAGTCATGCCTATCCAA
+AGCTCTGACTCATTACCTATGTATTTTTTAATAAATCTGAAATATGCTACCAGTCAA
+>ref|X59602.1| O.caniculus RNA for myosin heavy chain
+GAATTCGGGCTGGAGGAGGCCAAGAAAAAACTAGCTCAGCGCCTGCAGGATTCCGAGGAACAGGTTGAGGCTGTGAATGC
+TAAGTGCGCGTCCCTGGAGAAGACCAAGCAGAGGCTGCAAGGGGAGGTGGAGGACCTGATGGTGGACGTGGAGAGGGCCA
+ACTCCCTGGCCGCCGCTCTGGACAAGAAGCAGAGGAACTTCGACAAGGTGCTGGCCGAATGGAAGACCAAGTGTGAGGAG
+AGCCAGGCGGAGCTGGAGGCGTCTCTCAAGGAGTCCCGCACCTTGAGCACTGAGCTTTTCAAGCTGAAAAATGCCTACGA
+GGAGGCCTTAGATCAACTTGAAACTGTGAAACGGGAGAATAAGAACTTAGAACAAGAGATAGCGGATCTCACAGAGCAAA
+TTGCGGAAAATGGTAAAACCATCCACGAACTGGAGAAATCCAGGAAGCAGATGGAGCTGGAGAAGGCTGACATCCAGCTG
+GCTCTCGAGGAAGCAGAGGCTGCTCTCGAACACGAAGAAGCCAAGATCCTCCGGGTCCAGCTCGAGCTGACGCAGGTGAA
+AGCCGAGATCGACAGGAAGATTGCCGAGAAGGACGAGGAGATGGAGCAGCTGAAGAGGAACTACCAGCGGACGGTGGAGA
+CCATGCAGAGCGCCCTGGACGCCGAGGTGCGCAGCAGGAACGAAGCCATCCGCATCAAGAAGAAGATGGAGGGGGACCTG
+AACGAGATCGAGATCCAGTTGAGCCACGCCAACCGCCAGGCCGCCGAGACCCTCAAGCACCTCCGGAGCGTCCAGGGACA
+GCTGAAGGATACCCAGCTGACCTGGACGATGCTCTCCGCGGCCAGGAGGACCTGAAGGAGCAGCTGGCCCTGGTGGAGCG
+CAGGGCCAACCTGCTGCAGGCTGAGGTGGAGGAGCTGCGGGCCACGCTGGAGCAGACGGAGAGGGCCCGGAAACTGGCTG
+AGCAGGAGCTCCTGGATGCCAATGAGCGGGTGCAGCTGCTGCACACCCAGAACACCAGCCTCATCCACACCAAGAAGAAG
+CTGGAGACGGACCTCACCCAGCTGCAGAGCGAGGTGGAGGACGCCAGCCGGGATGCCAGGAATGCCGAGGAGAAAGCCAA
+GAAGGCCATCACAGACGCGGCCATGATGGCGGAGGAGCTGAAGAAGGAGCAGGACACCAGCGCCCACCTGGAGCGCATGA
+AGAAGAACATGGAGCAGACGGTCAAGGACCTGCAGCACCGCCTGGACGAGGCCGAGCAGCTGGCGCTCAAGGGTGGCAAG
+AAGCAGATCCAGAAGCTGGAGACGCGGATCCGAGAGCTGGAGTTTGAGCTGGAAGGGGAGCAGAAGAAGAACGCAGAATC
+TGTGAAGGGCTTGAGGAAGTATGAGCGGCGGGTCAAGGAGCTAACGTACCAGAGTGAAGAGGACAGGAAGAACGTGCTCC
+GGCTGCAGGACCTGGTGGACAAGCTGCAAGTCAAGGTCAAGTCCTACAAGAGGCAGGCCGAGGAGGCGGATGAGCAAGCC
+AACGTGCATCTCAGCAAGTTCCGGAAAGCGCAGCACGAGCTGGAGGAGGCGGAGGAGCGGGCCGACATCGCCGAGTCGCA
+AGTCAACAAGCTTCGGGCTAAAACCCGGGACTTCACCTCCAGCAGGATGGTTGTCCATGAGAGTGAAGAGTGAGCGAGCG
+TGTCCTGGGGCAGGACAGAGGACACGCAGAATGCGTGTTTTCATGCTCCCTGCCCTTACACCTGACGTCCATGGGACCGA
+ATTC
+>ref|X00861.1| Rabbit DNA sequence C family interspersed repeat
+ACAATCCAATTATAGAAATATAGAAGCCGGCGCCGTGGCTCAATAGGCTAATCCTCCACCTTGCGGCGCCGGCACACCGG
+GTTCTAGTCCCGGTTGGGGCCGGANTCGCCCCGGTTGCTCCTCTTCCAGGCCAGCTCTCTGCTATGGCCAGGGAGTGCAG
+TGGAGGATGGCCCAAGTGCTTGGGCCTGCACCCCATGGGAGACCAGGAAAAGCACCTGGCTCCTGGCTCCTGCCAGGGTG
+CAGCGCGGTGCGCCGGCTGCAGCGGCGGCCATTGGAGGGTGAACCGCGGCAAAGGAAGACCTTTCTCTCTCTGTCTCTCT
+CTCTCACTGTCCACTCTGCCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAAAAAAA
+AAAAAAAAAAAAAGAATATAGAGTCTAATGAAGTTTGATATA
+>ref|X15749.1| Rabbit gene for ryanodine receptor 5' end
+GTACAACCGTGACTCTGCACAGGCACTGTTGCAAATGCAGAAAGCACAATATCTCGTTTCACTCAACAACCCTGTGTGGT
+GGGCACGATCATAGCTCCCCTACCAGACCGGGAAATGAGGTCGGAGAGTAACTAGTCTCAACTGACCCAGGGGAGCCCGG
+CCTAAGCTGATGTGGCTCGGAGTTACTGCTTTCAATCACCTCGTGCTGCTGTGGGATCTTCTTGGTGCACATCCGGGCCC
+CGCTGTGTGGTAACCAGCGGGAGTAGCAAATGGGGAGAAAACTCAACGGCCGGCCACACTGGGCTCCCAGGCCCCCGGCT
+GCGAAGACCTGAGCCCCGGCGCGGGGCCTGTGGGCGGGGCTCCGACGAGGGGCGTGGCCTGCGTGCCCTGGCCCAATGGG
+GGTTTTAGGGCGGGGACTTCCTTCCTTCCCTGTCCAGCACGCGTGTCTTCCTCGCAGTTCCA
+>ref|NR_033238.1| Oryctolagus cuniculus 18S ribosomal RNA (RN18S), ribosomal RNA
X06778.1 Rabbit 18S rRNA
+TACCTGGTTGATCCTGCCAGTAGCATATGCTTGTCTCAAAGATTAAGCCATGCATGTCTAAGTACGCACGGCCGGTACAG
+TGAAACTGCGAATGGCTCATTAAATCAGTTATGGTTCCTTTGGTCGCTCGCTCCTCTCCTACTTGGATAACTGTGGTAAT
+TCTAGAGCTAATACATGCCGACGGCGCTGACTCCCTTTGTGTGGGATGCGTGCATTTATCAGATCAAAACCAACCCGGTC
+AGCCTCCCCGCCGGCCGGGGGGGTGGGGCGGCGGCTTTGGTGACTCTAGATAACCTCGGGCCGATCGCAGCCCTCCGTGG
+CGGCGACGACCCATTCGAACGTCTGCCCTATCAACTTTCGATGGTAGTCGCCGTGCCTACCATGGTGACCACGGGTGACG
+GGGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACATCCAAGGAAGGCAGCAGGCGCGCAAATTAC
+CCACTCCCGACCCGGGGAGGTAGTGACGAAAAATAACAATACAGGACTCTTTCGAGGCCCTGTAATTGGAATGAGTCCAC
+TTTAAATCCTTTAACGAGGATCCATTGGAGGGCAAGTCTGGTCGCAGCAGCCGCGGTAATTCCAGCTCCAATAGCGTATA
+TTAAAGTTGCTGCAGTTAAAAAGCTCGTAGTTGGATCTTGTGGAGGGTGCGTAGCGGGCGGTCCGCCGCGAGGCGAGCCA
+CCGCCCGTCCCCGCCCCTTGCCTCTCGGCGCCCCCTCGATGCTCTTAGCTGAGTGTCCCGCGGGGCCCGAAGCGTTTACT
+TTGAAAAAATTAGAGTGTTCAAAGCAGGCCCGAGCCGCCTGGATACCGCAGCTAGGAATAATGGAATAGGACCGCGGTTC
+TATTTTGTTGGTTTTCGGAACTGAGGCCATGATTAAGAGGGACGGCCGGGGGCATTCGTATTGCGCCGCTAGAGGTGAAA
+TTCTTGGACCGGCGCAAGACGGACCAGAGCGAAAGCATTTGCCAAGAATGTTTTCATTAATCAAGAACGAAAGTCGGAGG
+TTCGAAGACGATCAGATACCGTCGTAGTTCCGACCATAAACGATGCCGACTGGCGATGCGGCGGCGTTATTCCCATGACC
+CGCCGGGCAGCTTCCGGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGA
+CGGAAGGGCACCACCAGGAGTGGAGCCTGCGGCTTAATTTGACTCAACACGGGAAACCTCACCCGGCCCGGACACGGACA
+GGATTGACAGATTGATAGCTCTTTCTCGATTCTGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCT
+GGTTAATTCCGATAACGAACGAGACTCTGGCATGCTAACTAGTTACGCGACCCCCGAGCGGTCGGCGTCCCCCAACTTCT
+TAGAGGGACAAGTGGCGTTCAGCCACCCGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTCGGGGCTGCACGC
+GCGCTACACTGACTGGCTCAGCGTGTGCCTACCCTACGCCGGCAGGCGCGGGTAACCCGTTGAACCCCATTCGTGATGGG
+GATCGGGGATTGCAATTATTCCCCATGAACGAGGAATTCCCAGTAAGTGCGGGTCATAAGCTTGCGTTGATTAAGTCCCT
+GCCCTTTGTACACACCGCCCGTCGCTACTACCGATTGGATGGTTTAGTGAGGCCCTCGGATCGGCCCGCCGGGGTCGGCC
+CACGGCCCTGGCGGAGCGCTGAGAAGACGGTCGAACTTGACTATCTAGAGGAAGTAAAAGTCGTAACAAGGTTTCCGTAG
+GTGAACCTGCGGAAGGATCATTA
+>ref|X00640.1| Rabbit 18S ribosomal RNA sequence
+TACCTGGTTGATCCTGCCAGTAGCATATGCTTGTCTCAAAGATTAAGCCATGCATGTCTAAGTACGCACGGCCGGTACAG
+TGAAACTGCGAATGGCTCATTAAATCAGTTATGGTTCCTTTGGTCGCTCGCTCCTCTCCTACTTGGATAACTGTGGTAAT
+TCTAGAGCTAATACATGCCGTCGGGGCTGTCCCCCTTTGTGCGGGATGCGTGCATTTATCAGATCAAAACCAACCCGCGT
+CAGTTTCCCCCCGGCCCCGCGGNNNNGGTGGGCGTCGGACTGCTTTGGTGACTCTAGATAACCTCGGGCCGATCGCANGC
+CCCGTGTCGGCATTCGAACGTATGCCCCATCAACTTTCGATGGCAGTCGCCGTGCCTACCATGGTGACCACGGGTGACGG
+GGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCCACCACATCCAAGGAAGGCAGCAGGCGCGCAAATCACC
+CACTCCCGACCCGGGGAGGTAGCGACGAAAAACAACAACACAGGACTCTTTCGAGAGCCCTGCAATTGGAATGAGTACAT
+TTCAAATCCTTCAACGAGGATCCATTGGAGGGCAAGTCTGGTGCCAGCAGCCGCGGTAATTCCAGCTCCAACAGCGCACA
+TCAAAGTTGCTGCAGTTAAAAAGCTCGTAGTTGGATCTTGTGGAGGGTGCGTAGCGGGCGGTCCGCCGCGAGGCGAGCCA
+CCGCCCGTCCCCGCCCCTTGCCTCTCGGCGCCCCCTCGATGCTCTTAGCTGAGTGTCCCGCGGGGCCCGAAGCGTTTACT
+TTGAAAAAATTAGAGTGTTCAAAGCAGGCCCGAGCGGCCTAGATACCGCAGCCAGGAATAATGGAACAGGACCGCGGTTC
+TATTTTGTTGGTTTTCGGAACTGAGGCCATGATTAAGAGGGACGGCCGGGGGCATTCGTATTGCGCCGCTAGAGGTGAAA
+TTCTTGGACCGGCGCAAGACGGACCAGAGCGAAAGCATTTGCCAAGAATGTTTTCATTAATCAAGAACGAAAGTCGGAGG
+TTTGAAGACGATCAGATACCGTCGTAGTTCCGACCACAAACGATGCCGACTGGCGATGCGGCGGCGTTATTCCCATGACC
+CGACCGGAACCTTCCGGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGA
+CGGAAGGGCACCACCAGGAGTGGATCCTGCGGCCCAATTTGACTCAACACGGGAAACCTCACCCGGCCCGGACACGGACA
+GGATTGACAGATTGATAGCTCTTTCTCGATTCTGTGGCTGGTGGTGCATGGCTGTTCTTAGTTGCTGGAGCGATTTGTCT
+GGTTAATTCCGATAACGAACTAGACTCTCGCATGCTAACTAGTCACGCGACCCCCGAGCGGTCGGCGTCCCCCAACTTTT
+CAGAGGGACAAGTGGCGTTCAGCACCGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTCCGGTCGGCACGCGC
+GCTACACTGACTGGCTCAGCGTGTGCTCACCCTACGCCGGCAGGCCGGTAACCCGTTGAACCCCATTCGTGATAGGGATC
+GGGGATTGCAATTATTTCCCATGAACGAGGAATTCCCAGTAAGTGCGGGTCATAAGCTTGCGTTGATTAAGTCCCTGCCC
+TTTGTACACACCGCCCGTCGCTACTACCGATTGGATGGTTTAGTGGGCCCTCGGATCGGCCCGCCGGGGTCGGCCCACGG
+CCCTGGCGGAGCGCTGAGAAGACGGTCGAACTTGACTATCTAGAGGAAGTAAAAGTCGTAACAAGGTTTCCGTAGGTGAA
+CCTGCGGAAGGATCATTA
+>ref|X15750.1| Rabbit skeletal muscle mRNA for ryanodine receptor
+TCTACCCTGCCGGTGCCTCCGGCGTCCCCAGAGGTCTCCGACCCCAGCCCGCCCCCAGCCCACCTGTCCAGCCTGCGGCC
+TCTTCTCACTACCCCCCCGACCTCAGCCCGGGTCCCGCGGGCCTCGACATCATGGGTGACGGAGGAGAGGGCGAGGACGA
+AGTCCAGTTCCTGCGGACGGACGACGAGGTGGTCCTGCAGTGCAGCGCCACCGTCCTCAAGGAGCAGCTGAAGCTGTGCC
+TGGCCGCCGAGGGCTTCGGCAACCGCCTCTGCTTCCTGGAGCCCACCAGCAACGCCCAGAATGTGCCCCCCGACCTGGCC
+ATCTGCTGCTTCACCCTGGAGCAGTCCCTGTCGGTCCGCGCCCTGCAGGAGATGCTGGCCAACACCGTGGAGGCTGGCGT
+GGAGTCATCCCAGGGCGGGGGACACAGGACACTCCTGTATGGCCATGCCATCCTGCTCCGGCATGCACACAGCCGCATGT
+ACCTGAGCTGCCTCACTACCTCGCGCTCCATGACTGACAAGCTGGCTTTTGACGTGGGACTGCAGGAGGATGCAACAGGA
+GAGGCCTGTTGGTGGACCATGCACCCAGCCTCCAAGCAGAGATCGGAAGGAGAGAAGGTCCGCGTCGGGGACGACCTCAT
+CCTTGTCAGCGTCTCCTCCGAGCGCTACCTGCACCTGTCGACGGCCAGTGGGGAGCTCCAGGTTGATGCCTCCTTCATGC
+AGACCCTGTGGAACATGAACCCCATCTGCTCCTGCTGTGAAGAGGGCTACGTGACTGGGGGCCACGTCCTCCGCCTCTTC
+CACGGACACATGGACGAGTGCTTGACTATTTCTGCTGCTGACAGCGACGACCAGCGCAGGCTTGTCTACTACGAGGGGGG
+AGCTGTGTGCACGCACGCCCGCTCCCTCTGGAGGCTGGAACCCCTGAGAATCAGCTGGAGTGGAAGCCACCTGCGCTGGG
+GCCAGCCACTGCGGATCCGGCATGTCACCACCGGACGGTACCTGGCACTCACCGAGGACCAGGGCCTGGTGGTGGTCGAT
+GCCTGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGTGTCTCCAAGGAGAAGCTGGACACGGCCCCCAAGCGAGA
+CGTGGAGGGCATGGGCCCGCCTGAGATCAAGTACGGGGAGTCGCTGTGCTTTGTGCAGCACGTGGCCTCGGGCCTGTGGC
+TCACCTACGCCGCCCCTGACCCCAAGGCCCTGCGGCTGGGCGTGCTGAAGAAGAAGGCCATTCTGCACCAGGAGGGCCAC
+ATGGACGATGCACTGTTCCTGACCCGCTGCCAGCAGGAGGAGTCCCAGGCTGCCCGCATGATCCACAGCACTGCCGGCCT
+GTACAACCAGTTCATCAAGGGCCTGGACAGCTTCAGCGGGAAGCCCCGGGGCTCAGGGCCGCCGGCTGGCCCTGCGCTGC
+CCATCGAGGCCGTCATCCTGAGCCTGCAGGACCTCATTGGCTACTTCGAGCCGCCCTCGGAGGAGCTGCAGCACGAGGAA
+AAGCAGAGCAAGCTGCGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGGGATGCTCTCCCTGGTCCTGAACTG
+CATCGACCGCCTGAACGTCTACACCACCGCTGCCCACTTTGCCGAGTATGCAGGGGAAGAGGCAGCTGAGTCCTGGAAAG
+AGATTGTTAACCTACTCTACGAACTCCTGGCCTCTCTGATCCGGGGCAATCGTGCCAACTGTGCCCTCTTCTCCACAAAC
+TTGGACTGGGTGGTCAGCAAACTGGACCGGCTGGAGGCCTCGTCTGGCATCCTGGAGGTGCTGTACTGTGTCCTGATTGA
+GAGTCCCGAGGTGCTGAACATCATCCAGGAGAACCACATCAAGTCCATCATCTCCCTCCTGGACAAGCATGGGAGGAACC
+ACAAGGTTCTGGATGTGCTGTGCTCCCTGTGTGTGTGCAATGGCGTGGCTGTGCGCTCCAACCAAGATCTCATCACCGAG
+AATCTGCTCCCTGGCCGTGAGCTGCTGCTGCAGACAAACCTTATCAACTACGTCACCAGCATCCGCCCCAACATCTTCGT
+GGGCCGAGCCGAGGGCTCCACGCAGTATGGCAAATGGTACTTTGAGGTGATGGTGGACGAGGTGGTTCCATTTCTGACAG
+CTCAGGCCACCCATCTGCGGGTGGGCTGGGCCCTCACCGAGGGCTACAGCCCCTACCCTGGCGGCGGCGAGGGCTGGGGC
+GGCAATGGGGTCGGCGATGACCTCTACTCCTATGGCTTTGACGGGCTGCACCTCTGGACAGGACACGTGGCACGCCCGGT
+GACCTCCCCCGGGCAGCACCTCCTGGCCCCTGAGGACGTGGTCAGCTGCTGCCTGGACCTCAGCGTGCCGTCCATCTCCT
+TCCGCATCAATGGCTGCCCCGTGCAGGGTGTCTTTGAGGCCTTCAACCTGGATGGGCTCTTCTTCCCTGTGGTCAGCTTC
+TCGGCTGGTGTCAAGGTGCGGTTTCTCCTTGGCGGCCGCCATGGTGAATTCAAGTTCCTGCCCCCACCCGGCTACGCCCC
+ATGCCATGAGGCAGTGCTCCCGCGAGAGCGACTCCGTCTTGAGCCCATCAAGGAGTACAGACGGGAAGGGCCGCGGGGGC
+CCCACCTGGTGGGCCCCAGCCGCTGCCTCTCGCACACTGACTTTGTGCCCTGCCCGGTGGACACCGTCCAGATCGTCCTG
+CCTCCCCACCTGGAGCGCATCCGTGAGAAGCTGGCAGAGAACATCCATGAACTCTGGGCGCTGACGCGCATTGAGCAAGG
+CTGGACCTATGGCCCGGTTCGGGATGACAACAAGAGGCTGCACCCGTGTCTTGTGAACTTCCACAGCCTTCCGGAGCCCG
+AGAGGAATTACAACCTGCAGATGTCGGGCGAGACTCTCAAGACTCTGCTGGCGCTGGGCTGCCACGTGGGCATGGCCGAC
+GAGAAGGCGGAGGACAACCTGAAGAAGACAAAGCTGCCCAAGACGTATATGATGAGCAATGGGTACAAGCCAGCCCCGCT
+GGACTTGAGCCATGTGCGACTGACACCCGCACAGACGACACTGGTGGACCGGCTGGCAGAGAATGGGCACAACGTGTGGG
+CACGAGACCGAGTGGCCCAGGGCTGGAGCTACAGCGCCGTGCAGGACATCCCGGCTCGCCGGAACCCTCGCCTTGTGCCC
+TACCGCCTGCTGGACGAGGCCACCAAGCGCAGCAACCGGGACAGCCTCTGCCAGGCCGTGCGCACCCTGCTGGGCTATGG
+CTACAACATCGAGCCACCTGACCAGGAGCCCAGTCAGGTGGAGAACCAGTCTCGCTGGGACCGGGTGCGCATCTTCCGGG
+CAGAGAAATCCTACACAGTGCAGAGTGGCCGCTGGTACTTCGAGTTTGAGGCCGTCACCACAGGCGAGATGCGAGTGGGC
+TGGGCGAGGCCCGAGCTGCGGCCTGACGTCGAGCTGGGAGCGGATGAGCTGGCCTACGTCTTCAACGGGCACCGTGGTCA
+GCGCTGGCACTTGGGCAGTGAGCCGTTCGGGCGGCCCTGGCAGTCAGGCGATGTCGTCGGCTGCATGATCGACCTCACCG
+AGAACACCATCATCTTCACCCTCAACGGCGAGGTCCTCATGTCTGACTCGGGCTCCGAAACAGCCTTCCGGGAGATCGAG
+ATTGGGGACGGCTTCCTGCCTGTCTGCAGCTTGGGACCTGGCCAGGTGGGTCACCTGAACCTGGGCCAGGATGTGAGCTC
+CCTGCGGTTCTTTGCCATCTGCGGCCTCCAGGAAGGCTTTGAGCCATTCGCCATCAACATGCAGCGCCCTGTCACCACGT
+GGTTCAGCAAAAGCCTTCCCCAGTTTGAGCCTGTGCCCCCTGAACACCCGCACTATGAGGTGGCGCGCATGGATGGCACT
+GTGGACACGCCCCCCTGTCTGCGCCTGGCTCACCGCACCTGGGGCTCCCAGAACAGCCTGGTGGAGATGCTGTTCCTCCG
+GCTGAGCCTTCCGGTCCAGTTCCATCAGCACTTCCGTTGCACCGCAGGGGCCACGCCCTTGGCACCTCCCGGCCTGCAAC
+CCCCGGCGGAGGACGAGGCCCGGGCAGCAGAACCCGACCCTGACTACGAAAACCTGCGCCGCTCAGCTGGGGGCTGGGGC
+GAGGCTGAAGGGGGCAAAGAGGGAACTGCCAAGGAGGGGACACCCGGGGGCACCCCCCAGCCTGGGGTGGAGGCCCAGCC
+CGTCAGGGCGGAGAACGAGAAGGATGCCACCACGGAGAAGAACAAGAAGAGAGGGTTCTTATTCAAGGCCAAGAAGGCCG
+CCATGATGACTCAGCCACCAGCCACCCCTGCTCTGCCCCGGCTCCCTCACGACGTGGTGCCTGCTGACAACCGCGATGAC
+CCCGAGATCATCCTCAACACCACCACGTACTATTACTCCGTGAGGGTCTTCGCGGGTCAGGAGCCCAGCTGCGTATGGGT
+GGGCTGGGTCACCCCCGACTACCATCAGCACGACATGAACTTTGACCTCAGCAAGGTCCGGGCAGTGACGGTGACCATGG
+GGGATGAACAAGGCAACGTCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGGTGTGGGGTGGGGACTTCGTGAGCCCT
+GGGCAGCAGGGCCGGATCAGCCACACGGACCTTGTCATTGGCTGCCTGGTGGACCTGGCCACTGGCTTAATGACCTTCAC
+GGCCAATGGCAAAGAGAGCAACACCTTTTTCCAGGTGGAACCCAACACAAAGCTCTTTCCTGCCGTGTTTGTCCTGCCCA
+CGCACCAGAACGTCATCCAATTTGAGCTGGGGAAGCAGAAGAACATCATGCCGCTGTCCGCCGCCATGTTCCTGAGCGAG
+CGCAAGAACCCAGCGCCACAGTGTCCACCACGGCTGGAGGTGCAGATGCTGATGCCCGTGTCCTGGAGCCGCATGCCCAA
+CCACTTCCTGCAGGTGGAGACGCGGCGCGCTGGCGAGCGCCTTGGCTGGGCCGTGCAGTGCCAGGATCCCCTGACCATGA
+TGGCGCTGCACATTCCGGAGGAGAACCGGTGCATGGACATCCTGGAGCTGTCCGAGCGCCTGGACCTGCAGCGCTTCCAC
+TCGCACACGCTGCGCCTCTACCGCGCCGTGTGCGCCCTGGGCAACAACCGTGTGGCGCATGCTCTGTGCAGCCACGTGGA
+CCAGGCGCAGCTGCTGCACGCGCTGGAGGACGCGCACCTGCCCGGCCCCCTGCGCGCGGGCTACTACGACCTCCTCATCA
+GCATCCACCTGGAAAGTGCCTGCCGCAGCCGGCGCTCCATGCTCTCCGAGTACATCGTGCCGCTCACGCCCGAGACCCGC
+GCCATCACGCTCTTCCCGCCGGGAAGGAAGGGGGGAAACGCCCGCCGCCACGGCCTGCCCGGCGTCGGCGTCACCACCTC
+GCTGCGGCCTCCGCACCATTTCTCCCCTCCGTGCTTCGTGGCCGCCCTGCCCGCCGCCGGGGTAGCGGAAGCCCCGGCCC
+GCCTCAGCCCTGCCATTCCTCTGGAGGCCCTGCGCGACAAGGCGCTGAGGATGCTGGGAGAGGCCGTGCGCGATGGCGGG
+CAGCACGCCCGCGACCCCGTCGGGGGCTCCGTGGAGTTCCAGTTCGTGCCGGTGCTCAAGCTCGTGTCCACCCTGCTGGT
+GATGGGCATCTTTGGCGATGAGGATGTGAAGCAGATCTTAAAGATGATAGAACCTGAAGTTTTCACCGAGGAAGAGGAGG
+AGGAAGAAGAGGAGGAGGAGGAAGAAGAGGAGGAAGAGGAGGACGAAGAGGAAAAGGAAGAGGACGAGGAGGAAGAGGAG
+AAGGAAGATGCTGAAAAAGAGGAAGAGGAGGCCCCGGAAGGGGAAAAAGAAGATTTGGAGGAGGGGCTGCTCCAGATGAA
+GTTGCCGGAGTCCGTGAAGCTACAGATGTGCAACCTCCTGGAGTATTTCTGTGACCAAGAGCTACAGCATCGAGTGGAGT
+CCCTGGCGGCCTTCGCAGAGCGCTACGTGGACAAGCTCCAGGCCAACCAGCGCAGCCGCTACGCCCTCCTCATGAGAGCC
+TTCACCATGAGTGCAGCTGAGACCGCAAGGCGCACCCGCGAGTTCCGCTCCCCGCCCCAGGAGCAGATCAACATGCTCTT
+GCACTTCAAAGATGAGGCAGATGAGGAAGACTGCCCTCTCCCCGAGGACATTCGACAGGACTTGCAGGACTTTCATCAAG
+ACCTGCTGGCGCACTGTGGAATCCAGCTGGAGGGGGAGGAGGAGGAGCCGGAGGAGGAGACCAGCCTGAGCAGCCGCCTC
+CGGAGCCTGTTGGAGACGGTGCGGCTGGTGAAGAAGAAGGAGGAAAAACCCGAGGAGGAGCTGCCAGCCGAGGAGAAAAA
+ACCCCAGTCCCTGCAGGAGCTGGTGTCCCACATGGTGGTGCGCTGGGCCCAGGAGGACTACGTGCAGAGCCCTGAGCTGG
+TGCGGGCCATGTTCAGCCTCCTGCACCGGCAGTACGATGGGCTCGGCGAGCTGCTGCGCGCCCTGCCCCGGGCCTACACC
+ATCTCGCCGTCCTCTGTGGAGGACACCATGAGCCTGCTCGAGTGCCTCGGCCAGATCCGCTCGCTGCTCATCGTGCAGAT
+GGGCCCCCAGGAGGAGAACCTCATGATCCAGAGCATTGGGAACATCATGAATAACAAAGTCTTCTACCAACACCCGAACC
+TGATGAGGGCCCTGGGCATGCATGAGACCGTCATGGAGGTCATGGTGAACGTCCTGGGGGGCGGCGAAACCAAGGAGATC
+CGCTTCCCCAAGATGGTGACAAGCTGCTGCCGCTTCCTCTGCTACTTCTGCCGCATCAGCCGGCAGAACCAGCGCTCCAT
+GTTTGACCACCTGAGCTACCTGCTGGAGAACAGCGGCATCGGCCTGGGTATGCAAGGCTCCACGCCCCTGGATGTGGCTG
+CCGCCTCCGTTATCGACAACAACGAGCTGGCCTTGGCGTTGCAGGAGCAGGACCTGGAAAAGGTCGTGTCCTACCTGGCA
+GGCTGTGGCCTCCAAAGCTGCCCCATGCTCCTGGCCAAGGGCTACCCGGACATCGGCTGGAACCCCTGCGGTGGGGAGCG
+CTACCTGGACTTCCTGCGCTTCGCTGTCTTTGTTAACGGCGAGAGCGTGGAGGAGAACGCCAACGTGGTGGTGCGGCTGC
+TCATCCGCAAACCTGAGTGCTTCGGGCCTGCGCTGCGGGGTGAGGGCGGCTCGGGGCTGCTGGCCGCCATCGAGGAGGCC
+ATCCGCATCTCTGAGGACCCCGCGCGGGACGGCCCAGGCGTCCGCAGGGACCGGCGGCGCGAGCACTTTGGGGAGGAGCC
+CCCTGAAGAAAACCGCGTGCACCTGGGCCACGCCATCATGTCCTTCTATGCTGCCTTGATCGACCTGCTGGGCCGCTGTG
+CTCCGGAGATGCATCTGATCCAAGCCGGCAAGGGTGAGGCCCTGCGAATCCGCGCCATCCTTCGCTCCCTCGTGCCCCTG
+GACGACCTCGTGGGCATCATCAGCCTCCCGCTGCAGATCCCCACCCTGGGCAAAGACGGGGCCCTGGTGCAGCCGAAGAT
+GTCGGCCTCCTTCGTGCCGGACCACAAGGCATCCATGGTGCTCTTCCTGGACCGCGTGTACGGCATTGAGAACCAGGACT
+TCCTGCTGCACGTGCTGGACGTGGGGTTCCTTCCCGACATGAGAGCTGCCGCCTCGCTGGACACGGCCACTTTCAGCACC
+ACGGAGATGGCGCTGGCGCTGAACCGCTACCTGTGCCTGGCTGTGCTGCCGCTCATCACCAAGTGTGCGCCGCTCTTTGC
+GGGCACGGAGCACCGTGCCATCATGGTGGACTCGATGCTGCACACCGTGTACCGCCTGTCGCGCGGCCGCTCGCTCACCA
+AGGCGCAGCGCGACGTCATCGAGGACTGTCTCATGGCGCTGTGCAGGTACATCCGCCCGTCCATGCTGCAGCACCTGCTG
+CGGCGCCTGGTGTTCGACGTGCCCATCCTGAACGAGTTCGCCAAGATGCCGCTCAAGCTCCTCACCAACCACTACGAGCG
+CTGCTGGAAGTACTACTGCCTCCCCACGGGCTGGGCCAACTTCGGGGTCACCTCGGAGGAGGAGCTGCACCTCACACGCA
+AACTCTTCTGGGGCATCTTCGACTCTCTGGCCCACAAGAAGTACGACCAGGAGCTGTACCGCATGGCCATGCCTTGTCTG
+TGCGCCATCGCGGGGGCCCTGCCTCCCGACTACGTGGACGCTTCGTACTCTTCCAAGGCGGAGAAAAAGGCCACAGTGGA
+TGCTGAAGGCAACTTTGATCCCCGGCCTGTGGAGACCCTCAATGTGATCATCCCGGAGAAGCTCGACTCCTTCATCAACA
+AGTTTGCCGAATACACGCACGAGAAGTGGGCCTTCGACAAGATCCAGAACAACTGGTCGTACGGAGAGAACGTGGATGAG
+GAACTGAAGACCCACCCCATGCTGAGGCCCTACAAGACCTTTTCGGAGAAGGACAAAGAGATCTACCGCTGGCCCATCAA
+GGAGTCCCTGAAGGCCATGATTGCCTGGGAGTGGACGATCGAGAAGGCCAGGGAAGGCGAGGAGGAGAGGACGGAGAAGA
+AAAAGACACGGAAGATTTCCCAGACTGCCCAGACCTACGATCCCCGAGAAGGCTACAACCCGCAGCCCCCCGACCTCAGC
+GGAGTCACCCTGTCTCGGGAGTTGCAGGCCATGGCCGAACAACTGGCGGAAAACTACCATAACACCTGGGGGAGAAAGAA
+GAAGCAGGAGCTGGAAGCCAAGGGCGGCGGGACCCACCCCCTGCTGGTCCCCTACGACACGCTCACGGCCAAGGAGAAAG
+CGCGAGACCGAGAGAAGGCCCAGGAGCTGCTGAAGTTCCTGCAGATGAACGGCTACGCGGTCACCAGAGGCCTGAAGGAC
+ATGGAGCTGGACACGTCTTCCATTGAGAAGCGGTTCGCCTTTGGCTTCCTGCAGCAGTTGCTGCGCTGGATGGACATTTC
+GCAGGAGTTCATTGCCCACCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGAGAAGTCCCCACACGAACAGGAGATTAAAT
+TCTTTGCCAAGATCCTGCTCCCTTTGATTAACCAGTACTTCACCAACCACTGCCTCTACTTCCTGTCCACACCCGCCAAA
+GTGCTGGGCAGTGGTGGCCATGCCTCCAACAAGGAGAAGGAGATGATCACCAGCCTCTTCTGCAAACTCGCTGCCCTTGT
+CCGCCACCGAGTCTCTCTCTTCGGCACAGACGCCCCGGCTGTGGTCAACTGCCTTCACATCCTGGCACGCTCCCTGGATG
+CCAGGACGGTGATGAAGTCGGGCCCCGAGATCGTCAAGGCCGGCCTCCGCTCCTTCTTTGAGAGCGCCTCGGAGGACATC
+GAGAAGATGGTGGAGAACTTGCGGCTGGGCAAGGTGTCCCAGGCGCGCACGCAGGTGAAGGGCGTGGGCCAGAACCTCAC
+CTACACCACCGTGGCCCTGCTGCCCGTCCTCACCACGCTCTTCCAGCACATCGCCCAGCACCAGTTCGGCGACGACGTCA
+TCCTGGATGACGTGCAGGTGTCTTGCTACCGAACATTGTGCAGCATCTACTCTCTGGGGACCACCAAGAACACTTATGTG
+GAAAAGCTACGGCCAGCCCTTGGAGAGTGCCTGGCCCGCCTGGCAGCGGCCATGCCTGTGGCCTTCCTGGAGCCTCAGCT
+GAACGAGTACAACGCTTGCTCCGTGTACACCACCAAGTCTCCCCGGGAGCGAGCCATCCTGGGGCTCCCCAACAGCGTGG
+AGGAGATGTGTCCTGACATCCCGGTGCTGGATCGGCTCATGGCAGACATCGGGGGGCTGGCCGAGTCCGGGGCCCGCTAC
+ACGGAGATGCCGCACGTCATCGAGATCACGCTGCCCATGCTCTGCAGCTACCTGCCCCGCTGGTGGGAGCGCGGGCCCGA
+GGCGCCCCCTCCCGCCCTGCCTGCCGGCGCCCCCCCGCCCTGCACGGCTGTCACCTCCGACCACCTCAACTCACTCTTGG
+GGAACATCTTGCGCATCATTGTCAACAACCTGGGCATTGACGAGGCCACCTGGATGAAGCGGCTTGCTGTGTTCGCCCAG
+CCCATCGTGAGCCGGGCGCGGCCTGAGCTCCTGCATTCCCACTTCATCCCCACCATCGGGCGGCTGCGCAAGCGGGCAGG
+CAAGGTGGTGGCCGAGGAGGAGCAGCTGCGGCTGGAGGCCAAGGCCGAGGCCGAGGAGGGCGAGCTCCTGGTGCGGGACG
+AGTTCTCTGTGCTCTGCCGGGACCTGTACGCCCTCTACCCGCTGCTCATCCGCTACGTGGACAACAACAGGGCGCACTGG
+CTGACGGAGCCCAACGCCAACGCCGAGGAGCTGTTCAGGATGGTGGGCGAGATCTTCATCTACTGGTCCAAGTCCCACAA
+CTTCAAGCGTGAGGAGCAGAACTTTGTGGTCCAGAACGAGATCAACAACATGTCCTTCCTGACGGCTGACAGCAAGAGCA
+AGATGGCCAAGGCGGGAGACGCACAGTCGGGCGGCTCGGACCAGGAACGCACCAAGAAGAAGCGCCGGGGGGACAGGTAC
+TCCGTGCAGACGTCACTGATCGTGGCCACGCTGAAGAAGATGCTGCCCATTGGCCTGAACATGTGTGCGCCCACCGACCA
+GGACCTCATCATGCTGGCCAAGACCCGCTACGCCCTGAAAGACACAGACGAGGAGGTCCGGGAATTTCTGCAGAACAACC
+TCCACCTTCAGGGAAAGGTCGAAGGCTCCCCGTCCCTGCGCTGGCAGATGGCGCTGTACCGGGGCCTCCCCGGCCGCGAG
+GAGGACGCCGACGACCCGGAGAAAATCGTGCGCAGGGTCCAAGAAGTGTCAGCGGTGCTCTATCACCTGGAACAGACCGA
+GCACCCCTACAAGTCCAAGAAGGCCGTGTGGCACAAGCTGTTGTCCAAGCAGCGCCGGCGAGCCGTGGTGGCCTGCTTCC
+GTATGACGCCCCTGTACAACCTGCCCACGCACCGGGCCTGTAACATGTTCTTGGAGAGCTACAAAGCCGCCTGGATCCTG
+ACCGAAGATCACAGTTTCGAGGACCGCATGATAGATGATCTTTCAAAAGCTGGGGAGCAGGAGGAGGAGGAGGAGGAAGT
+GGAGGAGAAGAAGCCAGACCCCCTGCACCAGCTGGTCCTGCACTTCAGCCGCACGGCCCTGACTGAAAAGAGCAAACTGG
+ACGAGGACTACCTGTACATGGCATATGCCGACATCATGGCCAAGAGCTGCCACCTGGAGGAGGGAGGGGAGAACGGTGAA
+GCTGAGGAAGAGGAGGTTGAGGTCTCCTTTGAGGAGAAAGAGATGGAGAAGCAGAGGCTCCTCTACCAGCAGTCACGGCT
+GCACACGCGCGGGGCCGCCGAGATGGTGCTGCAGATGATCAGCGCCTGCAAAGGAGAGACAGGTGCCATGGTGTCCTCCA
+CCCTGAAGCTGGGCATCTCCATCCTCAATGGAGGCAATGCCGAGGTGCAGCAGAAAATGCTGGATTATCTGAAGGACAAG
+AAGGAAGTCGGCTTCTTCCAGAGCATCCAGGCGCTGATGCAGACATGCAGCGTCCTGGATCTCAATGCCTTCGAGAGACA
+GAACAAGGCAGAAGGCCTGGGCATGGTGAACGAGGATGGAACCGTCATCAATCGCCAGAACGGAGAGAAGGTTATGGCCG
+ATGACGAATTCACACAAGATCTGTTCCGATTTCTGCAGCTGCTCTGTGAGGGGCACAACAACGATTTCCAAAACTACTTA
+CGGACACAGACGGGCAACACCACCACGATTAACATCATTATCTGCACAGTGGACTACCTCCTGCGGCTGCAGGAGTCCAT
+CAGCGACTTCTACTGGTACTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGGAACTTCTCCAAGGCCATGTCCG
+TGGCCAAACAGGTGTTCAACAGCCTCACCGAGTACATCCAGGGCCCCTGCACCGGGAACCAGCAGAGCCTGGCGCACAGC
+CGCCTCTGGGACGCCGTGGTGGGATTCCTGCACGTGTTTGCCCACATGATGATGAAGCTCGCTCAGGACTCGAGCCAGAT
+CGAGCTGTTGAAGGAGCTGCTGGACCTGCAGAAGGACATGGTGGTGATGCTGCTGTCCCTACTGGAAGGGAACGTGGTGA
+ACGGCATGATTGCCCGGCAGATGGTGGACATGCTGGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCAAGTTCTTCGAC
+ATGTTCCTGAAACTCAAGGACATCGTGGGCTCCGAGGCCTTCCAGGACTACGTCACCGATCCCCGTGGCCTCATCTCCAA
+AAAGGACTTCCAGAAGGCCATGGACAGCCAGAAGCAGTTCACTGGGCCGGAAATCCAGTTTCTGCTCTCGTGCTCCGAAG
+CCGACGAGAATGAGATGATCAACTTCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGGGACATCGGCTTCAACGTG
+GCCGTGCTGCTGACCAACCTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTGGAGCTGGCTGAGAGCAT
+CCTTGAGTACTTCCGGCCCTACCTGGGCCGCATCGAGATCATGGGCGCCTCCCGCCGCATCGAGCGCATCTACTTCGAGA
+TCTCAGAGACCAACCGCGCCCAGTGGGAGATGCCCCAGGTCAAGGAGTCCAAGCGCCAGTTCATCTTCGACGTGGTCAAC
+GAGGGCGGGGAGGCCGAGAAGATGGAGCTGTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAGATCGCCGCGCA
+GATCTCCGAGCCCGAGGGCGAGCCCGAGGCCGACGAGGACGAGGGCATGGGCGAGGCGGCCGCCGAGGGCGCCGAGGAGG
+GCGCGGCGGGCGCCGAGGGCGCGGCGGGCACGGTGGCGGCGGGCGCCACGGCGCGGCTGGCGGCGGCCGCGGCCCGGGCG
+CTGCGCGGCCTCAGCTACCGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACGGCGCGCGAGGCGGCCACGGC
+GCTGGCCGCGCTGCTCTGGGCCGTGGTGGCGCGCGCGGGCGCGGCGGGCGCGGGCGCGGCGGCGGGCGCGCTGCGCCTGC
+TCTGGGGCTCGCTCTTCGGCGGCGGCCTGGTGGAGGGCGCCAAGAAGGTGACGGTGACCGAGCTGCTGGCCGGCATGCCC
+GATCCCACCAGCGACGAGGTGCACGGCGAGCAGCCGGCCGGGCCCGGCGGCGACGCGGACGGCGCGGGCGAGGGCGAAGG
+CGAGGGCGACGCGGCCGAGGGTGACGGCGATGAGGAGGTGGCGGGTCACGAGGCCGGCCCGGGCGGTGCCGAGGGGGTCG
+TGGCCGTGGCCGACGGGGGCCCCTTCCGGCCCGAGGGCGCTGGCGGCCTTGGGGACATGGGCGACACCACGCCGGCGGAA
+CCGCCCACGCCCGAGGGCTCCCCGATCCTCAAGAGGAAGCTGGGGGTGGATGGAGAAGAGGAGGAGCTGGTTCCAGAACC
+GGAGCCCGAGCCCGAGCCTGAGCCTGAGAAAGCCGATGAGGAGAACGGGGAGAAGGAGGAAGTCCCCGAGGCCCCACCAG
+AACCCCCCAAGAAAGCCCCTCCCTCACCTCCTGCAAAGAAGGAGGAAGCCGGAGGCGCCGGCATGGAGTTCTGGGGAGAA
+CTGGAAGTGCAGAGGGTGAAGTTCTTGAACTACCTCTCCCGGAACTTCTACACCCTGCGCTTCCTTGCCCTCTTCTTGGC
+GTTTGCCATCAACTTCATCCTGCTGTTTTATAAGGTCTCAGACTCTCCACCAGGGGAGGATGACATGGAGGGCTCGGCAG
+CAGGGGACCTGGCGGGTGCAGGGTCCGGGGGCGGCTCCGGCTGGGGCTCGGGGGCCGGCGAGGAGGCAGAGGGGGACGAG
+GACGAGAACATGGTATACTACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCGGCCCTGTGGTGCCTGAGCCTGCTGCA
+CACGCTGGTGGCCTTCCTCTGCATCATCGGCTACAACTGCCTCAAGGTGCCCCTGGTGATCTTCAAGCGGGAGAAGGAGC
+TGGCACGAAAGCTGGAGTTTGACGGCCTGTACATCACAGAGCAGCCTGGGGACGACGACGTGAAGGGCCAGTGGGACCGG
+CTGGTGCTCAACACGCCGTCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAGGTCCTGGACAAACACGGGGA
+CATCTTCGGGCGGGAGCGGATTGCCGAGCTGCTGGGCATGGACCTGGCCTCGCTGGAGATCACGGCCCACAACGAGCGCA
+AGCCCGACCCCCCGCCGGGGCTGCTGACCTGGCTCATGTCCATCGATGTCAAGTACCAGATCTGGAAGTTCGGGGTCATC
+TTCACGGACAACTCGTTCCTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGCCACTACAACAACTTCTTCTTTGC
+CGCCCACCTGCTGGACATCGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCCTCTGTCACCCACAATGGGAAACAGC
+TGGTGATGACTGTGGGCCTCCTGGCCGTCGTGGTCTACCTGTACACTGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTAC
+AACAAGAGCGAGGACGAGGACGAGCCGGACATGAAGTGCGATGACATGATGACGTGCTACCTGTTCCACATGTACGTGGG
+CGTCCGGGCTGGCGGAGGCATCGGGGACGAGATCGAGGACCCAGCGGGCGATGAATACGAGCTCTACCGGGTGGTCTTCG
+ACATCACCTTCTTCTTCTTCGTCATTGTCATCCTGCTGGCCATCATCCAGGGTCTGATTATCGACGCCTTCGGCGAGCTC
+CGAGACCAGCAGGAGCAAGTGAAGGAAGATATGGAGACCAAATGCTTCATCTGCGGGATTGGCAGTGACTACTTCGATAC
+CACGCCGCACGGCTTCGAGACCCACACGCTAGAGGAGCACAATCTGGCCAATTACATGTTCTTCTTGATGTATCTGATAA
+ACAAGGACGAGACGGAGCACACGGGCCAGGAGTCCTACGTCTGGAAGATGTATCAGGAGAGGTGCTGGGACTTCTTCCCC
+GCCGGCGACTGCTTCCGCAAGCAGTACGAGGACCAGCTGAGCTGAGACGCCCCGGCTGCCCTCCACCCCACCTCCAGTGC
+CTTCTTCTCACAGCAAGCCCTCCAGACTCCCGGGCAGAGGGATTCCGAACCCGAGAAATAAAAGTCTGTTCCACCCCCTG
+G
+>ref|X62677.1| O.cuniculus DNA fragment for retrovirus related reverse transcriptase
+TTTAACGTCCTTGGTTAAGTTTATTCCAAGGTATTTGATTGTTTTTGTAGCTATTGTGAATGGGATTGATCTTAGCAGTT
+CTTCCTCAGCCATGGCATTGTCTGTGTATACAAAGGCTGTTGATTTTTGTGCATTGATTTTATACCCTGCTACTTTGCCA
+AAATCTTCTATGAGTTCCAATAGTCTCTTAGTAGAGTTCTTTGGGTCCCCTAAATAAAGAATCATATAATCTGCAAAGAG
+GGATAGTTTGAGTTCTTCCTTCCCAATTTGTATCTCTTTAATTTCTTTTTCTTGCCTAATAGCTCTGGCTAGAACTTCCA
+GAACTATATTGAATAGTAGTGGTGTAAGTGGGCATCCCTGT
+>ref|NM_001101718.1| Oryctolagus cuniculus ryanodine receptor 1 (RYR1), mRNA
X15209.1 O.cuniculus mRNA for skeletal muscle ryanodine receptor
+GTACAACCGTGACTCTGCACAGGCACTGTTGCAAATGCAGAAAGCACAATATCTCGTTTCACTCAACAACCCTGTGTGGT
+GGGCACGATCATAGCTCCCCTACCAGACCGGGAAATGAGGTCGGAGAGTAACTAGTCTCAACTGACCCAGGGGAGCCCGG
+CCTAAGCTGATGTGGCTCGGAGTTACTGCTTTCAATCACCTCGTGCTGCTGTGGGATCTTCTTGGTGCACATCCGGGCCC
+CGCTGTGTGGTAACCAGCGGGAGTAGCAAATGGGGAGAAAACTCAACGGCCGGCCACACTGGGCTCCCAGGCCCCCGGCT
+GCGAAGACCTGAGCCCCGGCGCGGGGCCTGTGGGCGGGGCTCCGACGAGGGGCGTGGCCTGCGTGCCCTGGCCCAATGGG
+GGTTTTAGGGCGGGGACTTCCTTCCTTCCCTGTCCAGCACGCGTGTCTTCCTCGCAGTTCCATCTACCCTGCCGGTGCCT
+CCGGCGTCCCCAGAGGTCTCCGACCCCAGCCCGCCCCCAGCCCACCTGTCCAGCCTGCGGCCTCTTCTCACTACCCCCCC
+GACCTCAGCCCGGGTCCCGCGGGCCTCGACATCATGGGTGACGGAGGAGAGGGCGAGGACGAAGTCCAGTTCCTGCGGAC
+GGACGACGAGGTGGTCCTGCAGTGCAGCGCCACCGTCCTCAAGGAGCAGCTGAAGCTGTGCCTGGCCGCCGAGGGCTTCG
+GCAACCGCCTCTGCTTCCTGGAGCCCACCAGCAACGCCCAGAATGTGCCCCCCGACCTGGCCATCTGCTGCTTCACCCTG
+GAGCAGTCCCTGTCGGTCCGCGCCCTGCAGGAGATGCTGGCCAACACCGTGGAGGCTGGCGTGGAGTCATCCCAGGGCGG
+GGGACACAGGACACTCCTGTATGGCCATGCCATCCTGCTCCGGCATGCACACAGCCGCATGTACCTGAGCTGCCTCACTA
+CCTCGCGCTCCATGACTGACAAGCTGGCTTTTGACGTGGGACTGCAGGAGGATGCAACAGGAGAGGCCTGTTGGTGGACC
+ATGCACCCAGCCTCCAAGCAGAGATCGGAAGGAGAGAAGGTCCGCGTCGGGGACGACCTCATCCTTGTCAGCGTCTCCTC
+CGAGCGCTACCTGCACCTGTCGACGGCCAGTGGGGAGCTCCAGGTTGATGCCTCCTTCATGCAGACCCTGTGGAACATGA
+ACCCCATCTGCTCCTGCTGTGAAGAGGGCTACGTGACTGGGGGCCACGTCCTCCGCCTCTTCCACGGACACATGGACGAG
+TGCTTGACTATTTCTGCTGCTGACAGCGACGACCAGCGCAGGCTTGTCTACTACGAGGGGGGAGCTGTGTGCACGCACGC
+CCGCTCCCTCTGGAGGCTGGAACCCCTGAGAATCAGCTGGAGTGGAAGCCACCTGCGCTGGGGCCAGCCACTGCGGATCC
+GGCATGTCACCACCGGACGGTACCTGGCACTCACCGAGGACCAGGGCCTGGTGGTGGTCGATGCCTGCAAGGCCCACACC
+AAGGCCACCTCCTTCTGTTTCCGTGTCTCCAAGGAGAAGCTGGACACGGCCCCCAAGCGAGACGTGGAGGGCATGGGCCC
+GCCTGAGATCAAGTACGGGGAGTCGCTGTGCTTTGTGCAGCACGTGGCCTCGGGCCTGTGGCTCACCTACGCCGCCCCTG
+ACCCCAAGGCCCTGCGGCTGGGCGTGCTGAAGAAGAAGGCCATTCTGCACCAGGAGGGCCACATGGACGATGCACTGTTC
+CTGACCCGCTGCCAGCAGGAGGAGTCCCAGGCTGCCCGCATGATCCACAGCACTGCCGGCCTGTACAACCAGTTCATCAA
+GGGCCTGGACAGCTTCAGCGGGAAGCCCCGGGGCTCAGGGCCGCCGGCTGGCCCTGCGCTGCCCATCGAGGCCGTCATCC
+TGAGCCTGCAGGACCTCATTGGCTACTTCGAGCCGCCCTCGGAGGAGCTGCAGCACGAGGAAAAGCAGAGCAAGCTGCGC
+AGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGGGATGCTCTCCCTGGTCCTGAACTGCATCGACCGCCTGAACGT
+CTACACCACCGCTGCCCACTTTGCCGAGTATGCAGGGGAAGAGGCAGCTGAGTCCTGGAAAGAGATTGTTAACCTACTCT
+ACGAACTCCTGGCCTCTCTGATCCGGGGCAATCGTGCCAACTGTGCCCTCTTCTCCACAAACTTGGACTGGGTGGTCAGC
+AAACTGGACCGGCTGGAGGCCTCGTCTGGCATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCCGAGGTGCTGAA
+CATCATCCAGGAGAACCACATCAAGTCCATCATCTCCCTCCTGGACAAGCATGGGAGGAACCACAAGGTTCTGGATGTGC
+TGTGCTCCCTGTGTGTGTGCAATGGCGTGGCTGTGCGCTCCAACCAAGATCTCATCACCGAGAATCTGCTCCCTGGCCGT
+GAGCTGCTGCTGCAGACAAACCTTATCAACTACGTCACCAGCATCCGCCCCAACATCTTCGTGGGCCGAGCCGAGGGCTC
+CACGCAGTATGGCAAATGGTACTTTGAGGTGATGGTGGACGAGGTGGTTCCATTTCTGACAGCTCAGGCCACCCATCTGC
+GGGTGGGCTGGGCCCTCACCGAGGGCTACAGCCCCTACCCTGGCGGCGGCGAGGGCTGGGGCGGCAATGGGGTCGGCGAT
+GACCTCTACTCCTATGGCTTTGACGGGCTGCACCTCTGGACAGGACACGTGGCACGCCCGGTGACCTCCCCCGGGCAGCA
+CCTCCTGGCCCCTGAGGACGTGGTCAGCTGCTGCCTGGACCTCAGCGTGCCGTCCATCTCCTTCCGCATCAATGGCTGCC
+CCGTGCAGGGTGTCTTTGAGGCCTTCAACCTGGATGGGCTCTTCTTCCCTGTGGTCAGCTTCTCGGCTGGTGTCAAGGTG
+CGGTTTCTCCTTGGCGGCCGCCATGGTGAATTCAAGTTCCTGCCCCCACCCGGCTACGCCCCATGCCATGAGGCAGTGCT
+CCCGCGAGAGCGACTCCGTCTTGAGCCCATCAAGGAGTACAGACGGGAAGGGCCGCGGGGGCCCCACCTGGTGGGCCCCA
+GCCGCTGCCTCTCGCACACTGACTTTGTGCCCTGCCCGGTGGACACCGTCCAGATCGTCCTGCCTCCCCACCTGGAGCGC
+ATCCGTGAGAAGCTGGCAGAGAACATCCATGAACTCTGGGCGCTGACGCGCATTGAGCAAGGCTGGACCTATGGCCCGGT
+TCGGGATGACAACAAGAGGCTGCACCCGTGTCTTGTGAACTTCCACAGCCTTCCGGAGCCCGAGAGGAATTACAACCTGC
+AGATGTCGGGCGAGACTCTCAAGACTCTGCTGGCGCTGGGCTGCCACGTGGGCATGGCCGACGAGAAGGCGGAGGACAAC
+CTGAAGAAGACAAAGCTGCCCAAGACGTATATGATGAGCAATGGGTACAAGCCAGCCCCGCTGGACTTGAGCCATGTGCG
+ACTGACACCCGCACAGACGACACTGGTGGACCGGCTGGCAGAGAATGGGCACAACGTGTGGGCACGAGACCGAGTGGCCC
+AGGGCTGGAGCTACAGCGCCGTGCAGGACATCCCGGCTCGCCGGAACCCTCGCCTTGTGCCCTACCGCCTGCTGGACGAG
+GCCACCAAGCGCAGCAACCGGGACAGCCTCTGCCAGGCCGTGCGCACCCTGCTGGGCTATGGCTACAACATCGAGCCACC
+TGACCAGGAGCCCAGTCAGGTGGAGAACCAGTCTCGCTGGGACCGGGTGCGCATCTTCCGGGCAGAGAAATCCTACACAG
+TGCAGAGTGGCCGCTGGTACTTCGAGTTTGAGGCCGTCACCACAGGCGAGATGCGAGTGGGCTGGGCGAGGCCCGAGCTG
+CGGCCTGACGTCGAGCTGGGAGCGGATGAGCTGGCCTACGTCTTCAACGGGCACCGTGGTCAGCGCTGGCACTTGGGCAG
+TGAGCCGTTCGGGCGGCCCTGGCAGTCAGGCGATGTCGTCGGCTGCATGATCGACCTCACCGAGAACACCATCATCTTCA
+CCCTCAACGGCGAGGTCCTCATGTCTGACTCGGGCTCCGAAACAGCCTTCCGGGAGATCGAGATTGGGGACGGCTTCCTG
+CCTGTCTGCAGCTTGGGACCTGGCCAGGTGGGTCACCTGAACCTGGGCCAGGATGTGAGCTCCCTGCGGTTCTTTGCCAT
+CTGCGGCCTCCAGGAAGGCTTTGAGCCATTCGCCATCAACATGCAGCGCCCTGTCACCACGTGGTTCAGCAAAAGCCTTC
+CCCAGTTTGAGCCTGTGCCCCCTGAACACCCGCACTATGAGGTGGCGCGCATGGATGGCACTGTGGACACGCCCCCCTGT
+CTGCGCCTGGCTCACCGCACCTGGGGCTCCCAGAACAGCCTGGTGGAGATGCTGTTCCTCCGGCTGAGCCTTCCGGTCCA
+GTTCCATCAGCACTTCCGTTGCACCGCAGGGGCCACGCCCTTGGCACCTCCCGGCCTGCAACCCCCGGCGGAGGACGAGG
+CCCGGGCAGCAGAACCCGACCCTGACTACGAAAACCTGCGCCGCTCAGCTGGGGGCTGGGGCGAGGCTGAAGGGGGCAAA
+GAGGGAACTGCCAAGGAGGGGACACCCGGGGGCACCCCCCAGCCTGGGGTGGAGGCCCAGCCCGTCAGGGCGGAGAACGA
+GAAGGATGCCACCACGGAGAAGAACAAGAAGAGAGGGTTCTTATTCAAGGCCAAGAAGGCCGCCATGATGACTCAGCCAC
+CAGCCACCCCTGCTCTGCCCCGGCTCCCTCACGACGTGGTGCCTGCTGACAACCGCGATGACCCCGAGATCATCCTCAAC
+ACCACCACGTACTATTACTCCGTGAGGGTCTTCGCGGGTCAGGAGCCCAGCTGCGTATGGGTGGGCTGGGTCACCCCCGA
+CTACCATCAGCACGACATGAACTTTGACCTCAGCAAGGTCCGGGCAGTGACGGTGACCATGGGGGATGAACAAGGCAACG
+TCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGGTGTGGGGTGGGGACTTCGTGAGCCCTGGGCAGCAGGGCCGGATC
+AGCCACACGGACCTTGTCATTGGCTGCCTGGTGGACCTGGCCACTGGCTTAATGACCTTCACGGCCAATGGCAAAGAGAG
+CAACACCTTTTTCCAGGTGGAACCCAACACAAAGCTCTTTCCTGCCGTGTTTGTCCTGCCCACGCACCAGAACGTCATCC
+AATTTGAGCTGGGGAAGCAGAAGAACATCATGCCGCTGTCCGCCGCCATGTTCCTGAGCGAGCGCAAGAACCCAGCGCCA
+CAGTGTCCACCACGGCTGGAGGTGCAGATGCTGATGCCCGTGTCCTGGAGCCGCATGCCCAACCACTTCCTGCAGGTGGA
+GACGCGGCGCGCTGGCGAGCGCCTTGGCTGGGCCGTGCAGTGCCAGGATCCCCTGACCATGATGGCGCTGCACATTCCGG
+AGGAGAACCGGTGCATGGACATCCTGGAGCTGTCCGAGCGCCTGGACCTGCAGCGCTTCCACTCGCACACGCTGCGCCTC
+TACCGCGCCGTGTGCGCCCTGGGCAACAACCGTGTGGCGCATGCTCTGTGCAGCCACGTGGACCAGGCGCAGCTGCTGCA
+CGCGCTGGAGGACGCGCACCTGCCCGGCCCCCTGCGCGCGGGCTACTACGACCTCCTCATCAGCATCCACCTGGAAAGTG
+CCTGCCGCAGCCGGCGCTCCATGCTCTCCGAGTACATCGTGCCGCTCACGCCCGAGACCCGCGCCATCACGCTCTTCCCG
+CCGGGAAGGAAGGGGGGAAACGCCCGCCGCCACGGCCTGCCCGGCGTCGGCGTCACCACCTCGCTGCGGCCTCCGCACCA
+TTTCTCCCCTCCGTGCTTCGTGGCCGCCCTGCCCGCCGCCGGGGTAGCGGAAGCCCCGGCCCGCCTCAGCCCTGCCATTC
+CTCTGGAGGCCCTGCGCGACAAGGCGCTGAGGATGCTGGGAGAGGCCGTGCGCGATGGCGGGCAGCACGCCCGCGACCCC
+GTCGGGGGCTCCGTGGAGTTCCAGTTCGTGCCGGTGCTCAAGCTCGTGTCCACCCTGCTGGTGATGGGCATCTTTGGCGA
+TGAGGATGTGAAGCAGATCTTAAAGATGATAGAACCTGAAGTTTTCACCGAGGAAGAGGAGGAGGAAGAAGAGGAGGAGG
+AGGAAGAAGAGGAGGAAGAGGAGGACGAAGAGGAAAAGGAAGAGGACGAGGAGGAAGAGGAGAAGGAAGATGCTGAAAAA
+GAGGAAGAGGAGGCCCCGGAAGGGGAAAAAGAAGATTTGGAGGAGGGGCTGCTCCAGATGAAGTTGCCGGAGTCCGTGAA
+GCTACAGATGTGCAACCTCCTGGAGTATTTCTGTGACCAAGAGCTACAGCATCGAGTGGAGTCCCTGGCGGCCTTCGCAG
+AGCGCTACGTGGACAAGCTCCAGGCCAACCAGCGCAGCCGCTACGCCCTCCTCATGAGAGCCTTCACCATGAGTGCAGCT
+GAGACCGCAAGGCGCACCCGCGAGTTCCGCTCCCCGCCCCAGGAGCAGATCAACATGCTCTTGCACTTCAAAGATGAGGC
+AGATGAGGAAGACTGCCCTCTCCCCGAGGACATTCGACAGGACTTGCAGGACTTTCATCAAGACCTGCTGGCGCACTGTG
+GAATCCAGCTGGAGGGGGAGGAGGAGGAGCCGGAGGAGGAGACCAGCCTGAGCAGCCGCCTCCGGAGCCTGTTGGAGACG
+GTGCGGCTGGTGAAGAAGAAGGAGGAAAAACCCGAGGAGGAGCTGCCAGCCGAGGAGAAAAAACCCCAGTCCCTGCAGGA
+GCTGGTGTCCCACATGGTGGTGCGCTGGGCCCAGGAGGACTACGTGCAGAGCCCTGAGCTGGTGCGGGCCATGTTCAGCC
+TCCTGCACCGGCAGTACGATGGGCTCGGCGAGCTGCTGCGCGCCCTGCCCCGGGCCTACACCATCTCGCCGTCCTCTGTG
+GAGGACACCATGAGCCTGCTCGAGTGCCTCGGCCAGATCCGCTCGCTGCTCATCGTGCAGATGGGCCCCCAGGAGGAGAA
+CCTCATGATCCAGAGCATTGGGAACATCATGAATAACAAAGTCTTCTACCAACACCCGAACCTGATGAGGGCCCTGGGCA
+TGCATGAGACCGTCATGGAGGTCATGGTGAACGTCCTGGGGGGCGGCGAAACCAAGGAGATCCGCTTCCCCAAGATGGTG
+ACAAGCTGCTGCCGCTTCCTCTGCTACTTCTGCCGCATCAGCCGGCAGAACCAGCGCTCCATGTTTGACCACCTGAGCTA
+CCTGCTGGAGAACAGCGGCATCGGCCTGGGTATGCAAGGCTCCACGCCCCTGGATGTGGCTGCCGCCTCCGTTATCGACA
+ACAACGAGCTGGCCTTGGCGTTGCAGGAGCAGGACCTGGAAAAGGTCGTGTCCTACCTGGCAGGCTGTGGCCTCCAAAGC
+TGCCCCATGCTCCTGGCCAAGGGCTACCCGGACATCGGCTGGAACCCCTGCGGTGGGGAGCGCTACCTGGACTTCCTGCG
+CTTCGCTGTCTTTGTTAACGGCGAGAGCGTGGAGGAGAACGCCAACGTGGTGGTGCGGCTGCTCATCCGCAAACCTGAGT
+GCTTCGGGCCTGCGCTGCGGGGTGAGGGCGGCTCGGGGCTGCTGGCCGCCATCGAGGAGGCCATCCGCATCTCTGAGGAC
+CCCGCGCGGGACGGCCCAGGCGTCCGCAGGGACCGGCGGCGCGAGCACTTTGGGGAGGAGCCCCCTGAAGAAAACCGCGT
+GCACCTGGGCCACGCCATCATGTCCTTCTATGCTGCCTTGATCGACCTGCTGGGCCGCTGTGCTCCGGAGATGCATCTGA
+TCCAAGCCGGCAAGGGTGAGGCCCTGCGAATCCGCGCCATCCTTCGCTCCCTCGTGCCCCTGGACGACCTCGTGGGCATC
+ATCAGCCTCCCGCTGCAGATCCCCACCCTGGGCAAAGACGGGGCCCTGGTGCAGCCGAAGATGTCGGCCTCCTTCGTGCC
+GGACCACAAGGCATCCATGGTGCTCTTCCTGGACCGCGTGTACGGCATTGAGAACCAGGACTTCCTGCTGCACGTGCTGG
+ACGTGGGGTTCCTTCCCGACATGAGAGCTGCCGCCTCGCTGGACACGGCCACTTTCAGCACCACGGAGATGGCGCTGGCG
+CTGAACCGCTACCTGTGCCTGGCTGTGCTGCCGCTCATCACCAAGTGTGCGCCGCTCTTTGCGGGCACGGAGCACCGTGC
+CATCATGGTGGACTCGATGCTGCACACCGTGTACCGCCTGTCGCGCGGCCGCTCGCTCACCAAGGCGCAGCGCGACGTCA
+TCGAGGACTGTCTCATGGCGCTGTGCAGGTACATCCGCCCGTCCATGCTGCAGCACCTGCTGCGGCGCCTGGTGTTCGAC
+GTGCCCATCCTGAACGAGTTCGCCAAGATGCCGCTCAAGCTCCTCACCAACCACTACGAGCGCTGCTGGAAGTACTACTG
+CCTCCCCACGGGCTGGGCCAACTTCGGGGTCACCTCGGAGGAGGAGCTGCACCTCACACGCAAACTCTTCTGGGGCATCT
+TCGACTCTCTGGCCCACAAGAAGTACGACCAGGAGCTGTACCGCATGGCCATGCCTTGTCTGTGCGCCATCGCGGGGGCC
+CTGCCTCCCGACTACGTGGACGCTTCGTACTCTTCCAAGGCGGAGAAAAAGGCCACAGTGGATGCTGAAGGCAACTTTGA
+TCCCCGGCCTGTGGAGACCCTCAATGTGATCATCCCGGAGAAGCTCGACTCCTTCATCAACAAGTTTGCCGAATACACGC
+ACGAGAAGTGGGCCTTCGACAAGATCCAGAACAACTGGTCGTACGGAGAGAACGTGGATGAGGAACTGAAGACCCACCCC
+ATGCTGAGGCCCTACAAGACCTTTTCGGAGAAGGACAAAGAGATCTACCGCTGGCCCATCAAGGAGTCCCTGAAGGCCAT
+GATTGCCTGGGAGTGGACGATCGAGAAGGCCAGGGAAGGCGAGGAGGAGAGGACGGAGAAGAAAAAGACACGGAAGATTT
+CCCAGACTGCCCAGACCTACGATCCCCGAGAAGGCTACAACCCGCAGCCCCCCGACCTCAGCGGAGTCACCCTGTCTCGG
+GAGTTGCAGGCCATGGCCGAACAACTGGCGGAAAACTACCATAACACCTGGGGGAGAAAGAAGAAGCAGGAGCTGGAAGC
+CAAGGGCGGCGGGACCCACCCCCTGCTGGTCCCCTACGACACGCTCACGGCCAAGGAGAAAGCGCGAGACCGAGAGAAGG
+CCCAGGAGCTGCTGAAGTTCCTGCAGATGAACGGCTACGCGGTCACCAGAGGCCTGAAGGACATGGAGCTGGACACGTCT
+TCCATTGAGAAGCGGTTCGCCTTTGGCTTCCTGCAGCAGTTGCTGCGCTGGATGGACATTTCGCAGGAGTTCATTGCCCA
+CCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGAGAAGTCCCCACACGAACAGGAGATTAAATTCTTTGCCAAGATCCTGC
+TCCCTTTGATTAACCAGTACTTCACCAACCACTGCCTCTACTTCCTGTCCACACCCGCCAAAGTGCTGGGCAGTGGTGGC
+CATGCCTCCAACAAGGAGAAGGAGATGATCACCAGCCTCTTCTGCAAACTCGCTGCCCTTGTCCGCCACCGAGTCTCTCT
+CTTCGGCACAGACGCCCCGGCTGTGGTCAACTGCCTTCACATCCTGGCACGCTCCCTGGATGCCAGGACGGTGATGAAGT
+CGGGCCCCGAGATCGTCAAGGCCGGCCTCCGCTCCTTCTTTGAGAGCGCCTCGGAGGACATCGAGAAGATGGTGGAGAAC
+TTGCGGCTGGGCAAGGTGTCCCAGGCGCGCACGCAGGTGAAGGGCGTGGGCCAGAACCTCACCTACACCACCGTGGCCCT
+GCTGCCCGTCCTCACCACGCTCTTCCAGCACATCGCCCAGCACCAGTTCGGCGACGACGTCATCCTGGATGACGTGCAGG
+TGTCTTGCTACCGAACATTGTGCAGCATCTACTCTCTGGGGACCACCAAGAACACTTATGTGGAAAAGCTACGGCCAGCC
+CTTGGAGAGTGCCTGGCCCGCCTGGCAGCGGCCATGCCTGTGGCCTTCCTGGAGCCTCAGCTGAACGAGTACAACGCTTG
+CTCCGTGTACACCACCAAGTCTCCCCGGGAGCGAGCCATCCTGGGGCTCCCCAACAGCGTGGAGGAGATGTGTCCTGACA
+TCCCGGTGCTGGATCGGCTCATGGCAGACATCGGGGGGCTGGCCGAGTCCGGGGCCCGCTACACGGAGATGCCGCACGTC
+ATCGAGATCACGCTGCCCATGCTCTGCAGCTACCTGCCCCGCTGGTGGGAGCGCGGGCCCGAGGCGCCCCCTCCCGCCCT
+GCCTGCCGGCGCCCCCCCGCCCTGCACGGCTGTCACCTCCGACCACCTCAACTCACTCTTGGGGAACATCTTGCGCATCA
+TTGTCAACAACCTGGGCATTGACGAGGCCACCTGGATGAAGCGGCTTGCTGTGTTCGCCCAGCCCATCGTGAGCCGGGCG
+CGGCCTGAGCTCCTGCATTCCCACTTCATCCCCACCATCGGGCGGCTGCGCAAGCGGGCAGGCAAGGTGGTGGCCGAGGA
+GGAGCAGCTGCGGCTGGAGGCCAAGGCCGAGGCCGAGGAGGGCGAGCTCCTGGTGCGGGACGAGTTCTCTGTGCTCTGCC
+GGGACCTGTACGCCCTCTACCCGCTGCTCATCCGCTACGTGGACAACAACAGGGCGCACTGGCTGACGGAGCCCAACGCC
+AACGCCGAGGAGCTGTTCAGGATGGTGGGCGAGATCTTCATCTACTGGTCCAAGTCCCACAACTTCAAGCGTGAGGAGCA
+GAACTTTGTGGTCCAGAACGAGATCAACAACATGTCCTTCCTGACGGCTGACAGCAAGAGCAAGATGGCCAAGGCGGGAG
+ACGCACAGTCGGGCGGCTCGGACCAGGAACGCACCAAGAAGAAGCGCCGGGGGGACAGGTACTCCGTGCAGACGTCACTG
+ATCGTGGCCACGCTGAAGAAGATGCTGCCCATTGGCCTGAACATGTGTGCGCCCACCGACCAGGACCTCATCATGCTGGC
+CAAGACCCGCTACGCCCTGAAAGACACAGACGAGGAGGTCCGGGAATTTCTGCAGAACAACCTCCACCTTCAGGGAAAGG
+TCGAAGGCTCCCCGTCCCTGCGCTGGCAGATGGCGCTGTACCGGGGCCTCCCCGGCCGCGAGGAGGACGCCGACGACCCG
+GAGAAAATCGTGCGCAGGGTCCAAGAAGTGTCAGCGGTGCTCTATCACCTGGAACAGACCGAGCACCCCTACAAGTCCAA
+GAAGGCCGTGTGGCACAAGCTGTTGTCCAAGCAGCGCCGGCGAGCCGTGGTGGCCTGCTTCCGTATGACGCCCCTGTACA
+ACCTGCCCACGCACCGGGCCTGTAACATGTTCTTGGAGAGCTACAAAGCCGCCTGGATCCTGACCGAAGATCACAGTTTC
+GAGGACCGCATGATAGATGATCTTTCAAAAGCTGGGGAGCAGGAGGAGGAGGAGGAGGAAGTGGAGGAGAAGAAGCCAGA
+CCCCCTGCACCAGCTGGTCCTGCACTTCAGCCGCACGGCCCTGACTGAAAAGAGCAAACTGGACGAGGACTACCTGTACA
+TGGCATATGCCGACATCATGGCCAAGAGCTGCCACCTGGAGGAGGGAGGGGAGAACGGTGAAGCTGAGGAAGAGGAGGTT
+GAGGTCTCCTTTGAGGAGAAAGAGATGGAGAAGCAGAGGCTCCTCTACCAGCAGTCACGGCTGCACACGCGCGGGGCCGC
+CGAGATGGTGCTGCAGATGATCAGCGCCTGCAAAGGAGAGACAGGTGCCATGGTGTCCTCCACCCTGAAGCTGGGCATCT
+CCATCCTCAATGGAGGCAATGCCGAGGTGCAGCAGAAAATGCTGGATTATCTGAAGGACAAGAAGGAAGTCGGCTTCTTC
+CAGAGCATCCAGGCGCTGATGCAGACATGCAGCGTCCTGGATCTCAATGCCTTCGAGAGACAGAACAAGGCAGAAGGCCT
+GGGCATGGTGAACGAGGATGGAACCGTCATCAATCGCCAGAACGGAGAGAAGGTTATGGCCGATGACGAATTCACACAAG
+ATCTGTTCCGATTTCTGCAGCTGCTCTGTGAGGGGCACAACAACGATTTCCAAAACTACTTACGGACACAGACGGGCAAC
+ACCACCACGATTAACATCATTATCTGCACAGTGGACTACCTCCTGCGGCTGCAGGAGTCCATCAGCGACTTCTACTGGTA
+CTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGGAACTTCTCCAAGGCCATGTCCGTGGCCAAACAGGTGTTCA
+ACAGCCTCACCGAGTACATCCAGGGCCCCTGCACCGGGAACCAGCAGAGCCTGGCGCACAGCCGCCTCTGGGACGCCGTG
+GTGGGATTCCTGCACGTGTTTGCCCACATGATGATGAAGCTCGCTCAGGACTCGAGCCAGATCGAGCTGTTGAAGGAGCT
+GCTGGACCTGCAGAAGGACATGGTGGTGATGCTGCTGTCCCTACTGGAAGGGAACGTGGTGAACGGCATGATTGCCCGGC
+AGATGGTGGACATGCTGGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCAAGTTCTTCGACATGTTCCTGAAACTCAAG
+GACATCGTGGGCTCCGAGGCCTTCCAGGACTACGTCACCGATCCCCGTGGCCTCATCTCCAAAAAGGACTTCCAGAAGGC
+CATGGACAGCCAGAAGCAGTTCACTGGGCCGGAAATCCAGTTTCTGCTCTCGTGCTCCGAAGCCGACGAGAATGAGATGA
+TCAACTTCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGGGACATCGGCTTCAACGTGGCCGTGCTGCTGACCAAC
+CTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTGGAGCTGGCTGAGAGCATCCTTGAGTACTTCCGGCC
+CTACCTGGGCCGCATCGAGATCATGGGCGCCTCCCGCCGCATCGAGCGCATCTACTTCGAGATCTCAGAGACCAACCGCG
+CCCAGTGGGAGATGCCCCAGGTCAAGGAGTCCAAGCGCCAGTTCATCTTCGACGTGGTCAACGAGGGCGGGGAGGCCGAG
+AAGATGGAGCTGTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAGATCGCCGCGCAGATCTCCGAGCCCGAGGG
+CGAGCCCGAGGCCGACGAGGACGAGGGCATGGGCGAGGCGGCCGCCGAGGGCGCCGAGGAGGGCGCGGCGGGCGCCGAGG
+GCGCGGCGGGCACGGTGGCGGCGGGCGCCACGGCGCGGCTGGCGGCGGCCGCGGCCCGGGCGCTGCGCGGCCTCAGCTAC
+CGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACGGCGCGCGAGGCGGCCACGGCGCTGGCCGCGCTGCTCTG
+GGCCGTGGTGGCGCGCGCGGGCGCGGCGGGCGCGGGCGCGGCGGCGGGCGCGCTGCGCCTGCTCTGGGGCTCGCTCTTCG
+GCGGCGGCCTGGTGGAGGGCGCCAAGAAGGTGACGGTGACCGAGCTGCTGGCCGGCATGCCCGATCCCACCAGCGACGAG
+GTGCACGGCGAGCAGCCGGCCGGGCCCGGCGGCGACGCGGACGGCGCGGGCGAGGGCGAAGGCGAGGGCGACGCGGCCGA
+GGGTGACGGCGATGAGGAGGTGGCGGGTCACGAGGCCGGCCCGGGCGGTGCCGAGGGGGTCGTGGCCGTGGCCGACGGGG
+GCCCCTTCCGGCCCGAGGGCGCTGGCGGCCTTGGGGACATGGGCGACACCACGCCGGCGGAACCGCCCACGCCCGAGGGC
+TCCCCGATCCTCAAGAGGAAGCTGGGGGTGGATGGAGAAGAGGAGGAGCTGGTTCCAGAACCGGAGCCCGAGCCCGAGCC
+TGAGCCTGAGAAAGCCGATGAGGAGAACGGGGAGAAGGAGGAAGTCCCCGAGGCCCCACCAGAACCCCCCAAGAAAGCCC
+CTCCCTCACCTCCTGCAAAGAAGGAGGAAGCCGGAGGCGCCGGCATGGAGTTCTGGGGAGAACTGGAAGTGCAGAGGGTG
+AAGTTCTTGAACTACCTCTCCCGGAACTTCTACACCCTGCGCTTCCTTGCCCTCTTCTTGGCGTTTGCCATCAACTTCAT
+CCTGCTGTTTTATAAGGTCTCAGACTCTCCACCAGGGGAGGATGACATGGAGGGCTCGGCAGCAGGGGACCTGGCGGGTG
+CAGGGTCCGGGGGCGGCTCCGGCTGGGGCTCGGGGGCCGGCGAGGAGGCAGAGGGGGACGAGGACGAGAACATGGTATAC
+TACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCGGCCCTGTGGTGCCTGAGCCTGCTGCACACGCTGGTGGCCTTCCT
+CTGCATCATCGGCTACAACTGCCTCAAGGTGCCCCTGGTGATCTTCAAGCGGGAGAAGGAGCTGGCACGAAAGCTGGAGT
+TTGACGGCCTGTACATCACAGAGCAGCCTGGGGACGACGACGTGAAGGGCCAGTGGGACCGGCTGGTGCTCAACACGCCG
+TCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAGGTCCTGGACAAACACGGGGACATCTTCGGGCGGGAGCG
+GATTGCCGAGCTGCTGGGCATGGACCTGGCCTCGCTGGAGATCACGGCCCACAACGAGCGCAAGCCCGACCCCCCGCCGG
+GGCTGCTGACCTGGCTCATGTCCATCGATGTCAAGTACCAGATCTGGAAGTTCGGGGTCATCTTCACGGACAACTCGTTC
+CTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGCCACTACAACAACTTCTTCTTTGCCGCCCACCTGCTGGACAT
+CGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCCTCTGTCACCCACAATGGGAAACAGCTGGTGATGACTGTGGGCC
+TCCTGGCCGTCGTGGTCTACCTGTACACTGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAG
+GACGAGCCGGACATGAAGTGCGATGACATGATGACGTGCTACCTGTTCCACATGTACGTGGGCGTCCGGGCTGGCGGAGG
+CATCGGGGACGAGATCGAGGACCCAGCGGGCGATGAATACGAGCTCTACCGGGTGGTCTTCGACATCACCTTCTTCTTCT
+TCGTCATTGTCATCCTGCTGGCCATCATCCAGGGTCTGATTATCGACGCCTTCGGCGAGCTCCGAGACCAGCAGGAGCAA
+GTGAAGGAAGATATGGAGACCAAATGCTTCATCTGCGGGATTGGCAGTGACTACTTCGATACCACGCCGCACGGCTTCGA
+GACCCACACGCTAGAGGAGCACAATCTGGCCAATTACATGTTCTTCTTGATGTATCTGATAAACAAGGACGAGACGGAGC
+ACACGGGCCAGGAGTCCTACGTCTGGAAGATGTATCAGGAGAGGTGCTGGGACTTCTTCCCCGCCGGCGACTGCTTCCGC
+AAGCAGTACGAGGACCAGCTGAGCTGAGACGCCCCGGCTGCCCTCCACCCCACCTCCAGTGCCTTCTTCTCACAGCAAGC
+CCTCCAGACTCCCGGGCAGAGGGATTCCGAACCCGAGAAATAAAAGTCTGTTCCACCCCCTGG
+>ref|X58291.1| Rabbit intron from SERCA2 gene for CaMg ATPase
+GTGAGTGTCGGGTCCTGGGGGGTGAGCAGCCGCCTCCGCGAGTCGGGAGCCTGACAGGGCCCTGGGTGCCAG
+>ref|NM_001101692.1| Oryctolagus cuniculus solute carrier family 5 member 1 (SLC5A1), mRNA
X55355.1 Rabbit mRNA for cortical sodium-D-glucose cotransporter
+TGTCGTCGCCGCCGCCACGCCGCCATGGACAGCAGCACTTTGAGCCCCCTGACCACCTCCACCGCGGCCCCCCTTGAGTC
+CTATGAGCGCATCCGCAATGCGGCCGACATCTCCGTCATCGTCATCTACTTCTTGGTGGTGATGGCCGTCGGGCTGTGGG
+CTATGTTTTCCACCAATCGGGGGACGGTCGGAGGCTTCTTCTTGGCGGGTCGGAGTATGGTGTGGTGGCCGATCGGAGCC
+TCTCTGTTTGCCAGTAACATTGGAAGTGGCCACTTTGTGGGGCTGGCCGGGACGGGAGCTGCTTCAGGCATTGCCACTGG
+GGGCTTTGAGTGGAACGCCCTGATCATGGTGGTCGTGCTGGGCTGGGTGTTTGTCCCCATTTACATCAGGGCTGGGGTGG
+TGACGATGCCAGAGTATCTGCAGAAGCGGTTTGGAGGCAAGAGGATCCAGATCTACCTTTCCATTCTGTCCCTGTTGCTC
+TACATTTTTACCAAGATCTCGGCAGACATCTTTTCCGGAGCCATCTTCATCCAGCTGACCTTGGGCCTGGATATCTATGT
+GGCCATCATTATCTTATTGGTCATCACTGGGCTCTACACCATCACAGGGGGCTTGGCCGCTGTGATCTACACGGATACCT
+TGCAGACTGCCATCATGATGGTGGGCTCTGTGATCCTGACTGGGTTCGCTTTTCACGAAGTAGGAGGGTACGAGGCCTTC
+ACGGAGAAGTACATGCGAGCCATTCCCAGCCAGATCTCCTACGGAAACACCTCCATCCCACAGAAGTGCTACACCCCAAG
+GGAAGACGCCTTCCACATCTTCCGAGATGCCATCACTGGGGACATCCCCTGGCCCGGGCTCGTCTTTGGAATGAGCATCC
+TCACCCTTTGGTACTGGTGCACTGATCAGGTCATTGTGCAGCGTTGCCTGTCAGCCAAGAACTTGTCCCACGTGAAGGCC
+GGCTGCATTCTGTGTGGGTACCTGAAGGTGATGCCTATGTTCCTCATAGTGATGATGGGGATGGTGAGCCGTATCCTGTA
+CACAGACAAAGTTGCCTGCGTCGTGCCCTCGGAATGTGAGAGATACTGTGGCACCAGGGTTGGCTGCACCAACATTGCCT
+TCCCAACCTTGGTGGTGGAGCTGATGCCCAATGGGCTGCGGGGCCTGATGCTGTCCGTCATGATGGCGTCTCTTATGAGC
+TCCCTGACCTCCATCTTCAACAGCGCCAGCACCCTCTTCACCATGGACATCTACACCAAGATCCGGAAGAAAGCATCTGA
+GAAGGAGCTCATGATCGCAGGAAGGTTGTTCATGCTGTTCCTGATTGGCATCAGCATCGCCTGGGTGCCCATTGTGCAGT
+CAGCCCAGAGTGGGCAGCTCTTTGATTACATCCAGTCCATCACCAGTTACTTGGGGCCGCCCATTGCTGCTGTCTTCCTG
+CTTGCTATTTTCTGGAAGAGAGTCAACGAGCCTGGAGCCTTTTGGGGGCTGGTCCTCGGATTTCTGATTGGGATTTCCCG
+TATGATTACCGAGTTTGCCTATGGAACCGGGAGCTGCATGGAACCCAGCAACTGCCCCACGATTATTTGTGGTGTGCACT
+ACTTGTACTTTGCCATCATCCTCTTTGTCATTAGTATCATCACCGTTGTGGTTGTCTCCCTCTTCACCAAGCCCATTCCA
+GATGTGCATCTCTATCGTCTGTGCTGGAGCCTACGTAATAGCAAAGAGGAGCGCATTGACTTGGATGCAGGAGAGGAAGA
+CATTCAAGAAGCTCCAGAGGAGGCCACTGACACAGAAGTTCCTAAGAAGAAGAAAGGATTCTTCAGGCGGGCCTATGACC
+TGTTTTGTGGGCTGGACCAGGATAAGGGACCCAAGATGACCAAGGAGGAGGAGGCTGCCATGAAGCTGAAGCTCACAGAC
+ACCTCCGAGCACCCTCTGTGGAGGACCGTGGTGAACATCAACGGTGTCATCTTGCTGGCCGTGGCTGTCTTCTGCTACGC
+GTACTTTGCCTGAGTCCCGGCCGCTGCTGCCACTCGGCAAGGCTGGCGTGTGTACTCTCTGCCTGCCTTTCATCCCATGC
+TGCGGTGGCGAAGGGGAATCAATCCCTTGCAAAGTTTGCCCCATTTGGATAAATGTCTATATGTAAATTACAGGCTGGTT
+GGAGGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|X65078.1| O.cuniculus mRNA for surfactant associated protein C
+CGCAAGATGGACATGGGCAGCAAAGAGGCCTTGATGGAGAGCCCACCGGACTACTCAGCAGCTCCCCGGGGCCGCTTCGG
+CATCCCCTGCTGCCCAGTGCACCTCAAACGTCTTCTCATCGTGGTCGTCGTGGTGGTCCTCGTGGTCGTGGTGATTGTGG
+GGGCCCTGCTCATGGGGCTCCACATGAGCCAGAAACACACCGAGATGGTCCTAGAGATGAGCATCGGGGCGCCGGAGGTC
+CAGCAGCGCCTGGCACTGAGCGAGTGGGCGGGCACCACGGCCACTTTCCCCATCGGCTCCACCGGCATTGTCACCTGCGA
+CTACCAGCGGCTCCTGATCGCCTATAAGCCAGCCCCGGGAACCTGCTGCTACCTCATGAAGATGGCTCCAGACAGCATCC
+CCAGTCTGGAGGCTCTGGCTAGAAAATTCCAGGCCAACCCTGCAGAGCCTCCCACTCAGCGGGGCCAGGACAAGGGGCCA
+GCCGCACGGCCGGCGTCCTCCGGAGGAGAGCTGGCCTTCCTGGGCGCAGCCGTGAGCACCCTGTGTGGGGAGGTGCCTCT
+CATCTACATCTAGGACTCAGGGTCTGCGGAAGCCCCGAGGGGGTCAGGAGGGACCCGCCAGCAGAAGGGTCTTCCGTCAA
+GAGGCAGGACGCTGCGTCTGCCCGCACCTCCAGGGCCGGCCGTGGGCGACCGGAGCTGCGGGGAGAGGCAGCCCCCAGGG
+CCCAGGGGTGGGGGGACCCCCGCCACAGGAGAATAAAGCAAGCTGACCGAAAACAAAAAAAAAA
+>ref|V00892.1| Rabbit alpha-tropomyosin messenger fragment (aa 103 to 146)
+CAGGAGCGTCTCGCAACAGCCTTGCAGAAGCTGGAGGAGGCCGAGAAGGCAGCAGACGAGAGTGAGAGAGGCATGAAAGT
+CATTGAAAGCCGAGCCCAAAAGGATGAGGAAAAAATGGAAATTCAGGAGATC
+>ref|V00893.1| Rabbit beta-tropomyosin messenger fragment (aa 131 to 172)
+TCGAAAACCGGGCCATGAAGGATGAGGAGAAGATGGAGCTGCAGGAGATGCAGCTGAAGGAGGCCAAGCACATTGCCGAG
+GACTCAGACCGCAAATACGAGGAGGTGGCCAGGAAGCTGGTGATCCTCGA
+>ref|V00895.1| Rabbit troponin C messenger fragment (aa 132 to 148)
+TCGAATCCCTGATGAAGGACGGGGACAAGAACAACGATGGCCGCATTGACTTCGA
+>ref|V00896.1| Rabbit troponin C messenger fragment (aa 134 to 148) (slow muscle)
+TCGAGGAGCTCATGAAGGACGGCGACAAGAACAACGACGGCCGCATCGA
+>ref|V00897.1| Rabbit troponin I messenger fragment (aa 1 to 24)
+ATGGGAGATGAAGAGAAACGCAACAGGGCCATCACGGCCCGGCGGCAACACCTGAAGAGCGTGATGCTGCAGATC
+>ref|V00898.1| Rabbit troponin I messenger fragment (aa 162 to 174)
+TCGAGGAGAAATCGGGCATGGAGGGCCGCAAGAAGATGTTCGA
+>ref|V00899.1| Rabbit troponin T messenger fragment (aa 49 to 129)
+GATCCCGGAAGGAGAGAAAGTAGACTTCGATGACATCCAGAAGAAGCGGCAGAACAAGGACCTCATGGAGCTGCAGGCGC
+TCATCGACAGCCACTTCGAGGCCCGCAAGAAGGAGGAGGAGGAGCTGGTGGCCCTCAAGGAGAGGATCGAGAAGCGCCGG
+GCCGAGAGAGCGGAGCAGCAGAGGATCCGGGCCGAGAAGGAGCGGGAGCGCCAGAACAGACTGGCGGAGGAGAAGGCCCG
+GAGA
+>ref|V00900.1| Rabbit troponin T messenger fragment (aa 233 to 259)
+CCGGGCCAGGGTCGAGATGCTGGCCAAGTTCAGCAAGAAGGCTGGCACCACGGCCAAGGGCAAGGTCGGCGGGCGCTGGA
+AGTGA
+>ref|V00901.1| Rabbit troponin T messenger (new isotope) fragment (aa 217 to 236)
+TCGAGTTCGGGGAGAAGCTGAAACGCCAGAAATACGACATCACCAACCTTAGGAGCCGCATCGA
+>ref|V00902.1| Rabbit triose phosphate isomerase messenger fragment (aa 56 to 83)
+GATCCCAAGATTGCTGTGGCTGCACAGAACTGCTACAAAGTGACTAACGGGGCCTTCACTGGGGAGATCAGCCCTGGCAT
+GATC
+>ref|Y00760.1| Rabbit mRNA for adult fast skeletal troponin-C
+CGTCTGTGCGTGGTGGAGTTCAGGGGAGGCGGCTCACGGCAGGGGTGGCCCAGTGACCAGCAACCATGACGGACCAGCAG
+GCTGAGGCCCGGTCCTACCTCAGCGAGGAGATGATCGCTGAGTTCAAGGCCGCCTTCGACATGTTTGATGCTGATGGCGG
+TGGTGACATCAGCGTCAAGGAGTTGGGCACAGTCATGAGGATGCTGGGCCAGACACCCACCAAAGAGGAGCTGGACGCCA
+TCATCGAGGAGGTGGATGAGGATGGCAGCGGCACCATCGACTTCGAGGAGTTCTTGGTCATGATGGTGCGCCAGATGAAA
+GAGGACGCCAAGGGCAAGAGCGAGGAGGAGCTGGCCGAGTGCTTCCGCATCTTCGACAGGAACGCAGACGGCTACATCGA
+CGCCGAGGAGCTGGCTGAGATTTTCAGGGCCTCTGGGGAGCACGTGACGGACGAGGAGATCGAATCCCTGATGAAGGACG
+GGGACAAGAACAACGATGGCCGCATTGACTTCGACGAGTTCCTGAAGATGATGGAGGGCGTGCAGTAAGGCTGGGGTCTC
+CGCCTCCGGCCCCGCGCGGCTCGTTCCCTGCCCCGCGCGGGGCGGCCCCTTCTGGCTCCGTGTCTGGAAGGAATAAAAGC
+AAACGTTGCC
+>ref|X17329.1| Rabbit mRNA for titin (partial) (A-band)
+TCATTGGCTATCATCTAGAACGCAAGGAGAGAAATAGCATCCTCTGGGTTAAGCTGAATAAGACACCTATTCCTCAAACC
+AAGTTTAAGACAACTGGACTGGAAGAAGGCATTGAATATGAATTTAGAGTCTCTGCAGAGAACATTGTGGGTATTGGCAA
+GCCAAGTAAAGTCTCAGAATGTTATGTAGCTCGTGATCCATGTGACCCACCAGGACGGCCAGAGCGGATCATTGTCACAA
+GGAATTCTGTGACTCTTCAGTGGAAGAAGCCCACCTATGATGGTGGAAGCAAGATCACTGGTTACGTTGTTGAGAAGAAA
+GAATTACCTGATGGCCGCTGGATGAAAGCCAGTTTTACAAATATCATGGACACTCAGTTTGAAGTAACCGGCCTGGTTGA
+AGACCATAGATACGAGTTCCGGGTTATAGCTCGAAACGCTGCAGGAGTGTTTAGTGAGCCGTCAGAGAGCACGGGCGCCA
+TAACAGCAAGAGATGAGATAGATCCACCTCGAATAAGCATGGATCCAAAGTACAAAGACACGATAGTGGTTCACGCTGGT
+GAGTCATTCAGGATTGATGCAGATATTTATGGCAAACCGATACCAACCACTCAGTGGATTAAAGGTGATCAGGAGCTCTC
+GAACACAGCTCGACTAGAAATAAAGAGCACGGACTTTGCCACAAGTCTCAGTGTAAAGGATGCATTCCGTGTTGACAGTG
+GAAATTACGTACTGAAAGCCCAAAATGTGGCAGGAGAGAGATCGGTTACTGTGAATGTCAAGGTTCTTGATAGACCAGGG
+CCACCTGAAGGACCTATTGTGATATCAGGAGTTACAGCCGAAAAATGCACACTAGCTTGGAAACCGCCACTTCAGGACGG
+TGGAAGCGACATCATAAATTATATTGTGGAAAGGAGAGAAACCAGCCGCCTTGTTTGGACTGTGGTCGATGCCAATGTGC
+AAACCCTCAGCTGCAAGGTCACAAAGCTTCTTGAGGGCAACGAATATATTTTCCGTGTAATGGCTGTGAACAAATACGGT
+GTTGGTGAGCCTCTCGAATCTGAGCCAGTAATCGCCAAGAATCCATTTGTAGTGCCAGATGCCCCAAAAGCTCCAGAATG
+CACCACAGTGACCAAGGACTCAATGATTGTGGTATGGGAACGGCCAGCATCTGATGGTGGCAGTGAAATTCTTGGATACG
+TTCTTGAAAAACGGGATAAGGAAGGCATTAGATGGACAAGATGCCACAAGCGACTGATTGGGGAGTTGCGTTTGAGAGTA
+ACTGGACTCATAGAAAATCACAACTATGAATTCAGAGTCTCAGCTGAGAATGCTGCAGGACTTAGTGAACCAAGCCCTCC
+TTCTGCTTACCAAAAGGCTTGTGATCCTATTTACAAACCTGGACCTCCAAACAACCCCAAAGTCATGGATATTACCAGAT
+CTTCAGTTTTCCTTTCTTGGAGCAAACCAATCTATGATGGAGGCTGTGAAATCCAAGGATACATTGTTGAAAAATGTGAT
+GTGAGTGTTGGCGAATGGACAATGTGTACTCCACCAACTGGAATCAATAAAACAAATATAGAAGTAGAGAAGCTGTTGGA
+AAAACATGAATACAACTTCCGTATCTGCGCTGTGAATAAAGCTGGAGTCGGTGACCATGCTGATGTCCCTGGACCCGTTA
+TAGTTGAAGAAAAACTGGAAGCACCAGACATTGACCTGGACCTCGAACTCAGGAAAATTATAAATATAAGGGCTGGTGGC
+TCCTTAAGGTTATTTGTTCCTATAAAGGGTCGTCCTACTCCAGAAGTTAAATGGGGGAAGGTGGATGGTGAAATCCGAGA
+TGCAGCGATAATTGACAGCACCAGCAGTTTCACCTCTCTTGTTCTTGACAATGTCAACCGATATGATAGTGGAAAATACA
+CGCTCACATTAGAAAACAGCAGTGGAACAAAGTCTGCCTTTGTTACTGTGAGAGTCCTGGACACACCAAGTCCACCTGTT
+AACCTGAAAGTCACGGAAATCACCAAAGACTCCGTATCGATTACCTGGGAACCTCCTCTGTTGGATGGGGGATCCAAAAT
+TAAAAATTACATTGTTGAGAAACGCGACAGCACAAGAAAATCTTATGCAGCTGTTGTCACAAACTGCCATAAGAGTTCTT
+GGAAAATCGATCAGCTCCAAGAGGGTTGCAGTTATTACTTCAGAGTCACAGCTGAGAACGAGTATGGTATCGGCCTTCCT
+GCCCGCACTGCTGATCCAATTAAGGTTGCAGAAGTCCCACAGCCTCCAGGAAAAATCACTGTAGATGATGTCACCAGAAA
+CAGTGTCTCTCTGAGTTGGACAAAGCCCGAACATGACGGTGGCAGTAAAATCATTCAATACATTGTGGAAATGCAAGCTA
+AACACAGTGAGAAATGGTCAGAGTGTGCGCGAGTAAAGTCCCTTGAAGCAGTAATTACCAACCTAACTCAAGGAGAAGAA
+TATCTCTTTAGAGTCGTTGCTGTAAATGAAAAGGGGAGAAGTGATCCTAGGTCCCTTGCAGTTCCAATAGTTGCCAAAGA
+TCTGGTCATTGAGCCCGATGTAAAACCAGCATTCAGCAGTTACAGTGTACAGGTTGGCCAAGATTTGAAAATAGAAGTGC
+CAATTTCTGGACGTCCCAAGCCAACCATTACCTGGACTAAAGATGGTCTTCCACTGAAGCAGACCACAAGAATCAATGTT
+GCTGATTCACTTGACCTCACCACACTCAGTATTAAAGAAACCCATAAGGATGATAGTGGGCACTATGGAATCACAGTTGC
+CAACGTTGTTGGTCAGAAAACCGCATCCATAGAAATTATCACTCTAGATAAACCTGATCCTCCAAAAGGACCTGTTAAAT
+TTGATGAAGTCAGTGCTGAAAGTATTACATTATCTTGGAACCCTCCATTATACACAGGGGGCTGCCAGATCACCAACTAC
+ATTGTTCATAAAAGAGATACAACCACCACAGTATGGGATGTTGTTTCTGCTACTGTTGCTAGAACCACACTCAAAGTGAC
+CAAACTGAAAA
+>ref|NM_001171077.1| Oryctolagus cuniculus uncoupling protein 1 (UCP1), mRNA
X14696.1 Rabbit UCP gene encoding mitochondrial uncoupling protein, complete cds
+CCGGGGTGGGAGGGCGGTTCCCGAGGTCAGAGAGAGCCCAGTGACCAGGCAGGAAAGGGAACTTACATCTTCGGAGATTG
+CAGCCCTTATCCTCTTGCACCTGCCTCTTGCTCAGAGTGAAGATGGTGGGCACCACGACCACGGACGTGCCCCCAACCAT
+GGGGGTCAAGATCTTCTCAGCTGGAGTGGCAGCCTGCCTGGCGGACGTGATCACCTTTCCGCTGGACACCGCCAAAGTCC
+GGCAACAGATCCAAGGCGAGTTCCCGATCACCAGCGGCATCAGGTACAAAGGTGTCCTGGGGACAATCACCACCCTGGCA
+AAAACGGAAGGGCCCCTGAAACTCTACAGCGGGTTGCCCGCCGGCCTCCAGAGACAAATCAGCTTCGCCTCGCTCAGGAT
+CGGCCTCTACGACACGGTGCAGGAGTTCTTCACCTCGGGGGAAGAAACACCGAGTTTAGGAAGCAAGATCTCGGCCGGCC
+TAACAACTGGAGGCGTGGCGGTGTTCATCGGGCAGCCCACAGAGGTCGTGAAAGTCAGGCTGCAAGCGCAGAGCCACCTG
+CACGGTCTCAAGCCTCGCTACACGGGGACGTACAATGCCTACAGGATTATAGCTACAACTGAGAGCTTGACCAGTCTGTG
+GAAAGGGACAACTCCTAATCTGTTAAGGAATGTCATTATTAACTGTACAGAGCTCGTAACCTACGACCTAATGAAGGGGG
+CCCTTGTGAGAAACGAAATACTAGCAGATGATGTTCCCTGCCACTTCGTGTCAGCTCTTATCGCTGGATTTTGCACAACG
+CTTCTGTCCTCTCCAGTGGATGTGGTGAAAACCAGATTTATTAACTCTCCACCGGGACAATATGCGAGTGTGCCCAACTG
+TGCAATGACAATGTTCACTAAGGAAGGACCAACGGCTTTTTTCAAAGGATTTGTACCTTCCTTCCTGCGACTCGGATCAT
+GGAACGTCATCATGTTCGTGTGCTTTGAAAAGCTGAAAGGAGAACTCATGAGGTCAAGGCAGACTGTGGACTGTGCCACA
+TAATCAGCTTCAAGAAAAGGACACCACATCCCAGTGGGAACCCCTGCACCCGGGTCATCAAGAAATAAAACCTTGTTCAC
+TTTATTTTACCCTAAAAACTAAAGAAATCCCAGTAGGGAGTTTTGGACTTTTTTTTTCAAAGGCAAATGAAGACCTATTT
+TGTTTAAGTTTTATCCTCAGTGCCTTAGGAGGAGAAAGCCAAACATACATCTGGCAAATGTAACGCCCAAATAAGGAACA
+GCACTTGGTTGACCATTTTGGAGGTGCAATGGTATAATTGAATATGAAGAACCTTTATATATTTTAATATTTGAAACTGA
+TGGTAGAGGAAAACTGAGTGAAATGCATTTTATGAATACTTTAAAATGAAGTTGTCAAAGAAAATATTAGTTTCTTTTTA
+TTTATTAACCACACTGCCAGCTAATATATTCAATAAAGTATTCTAATACCCTTT
+>ref|NM_001101712.1| Oryctolagus cuniculus neurexophilin and PC-esterase domain family, member 1 (NXPE1), mRNA
Z12840.1 O.cuniculus mRNA for protein of unknown function
+GGACCTAACAGGTATCTACAAGGTCGATTAACTCTGTTGTTTCCTTGCTGATTTTCTGTCTGGTTGATCTGGACACAGAC
+AAGGATAAAGGGGACTTCTGCACATCGAGGGTAGCCACATAAGAACTCAGAGGTGTTTTTCCAACTACGCAGACAGAGGC
+AGTCATCGGAAGAGGATACTTATCATACTCTCAAGTACAATGCTTCACAAATATCTGAAGTTGATATGTCTCTTAGCAGC
+TATTTGTGTACTTTGTATAATTTCTCAGAACTCCACAAAGATTTGGGGTGCTCTAAAGTTACCCAACTCCCACTACTATT
+CTAATACCTCCATGATATCCTCAATCCCAAAAATGTCAGTGAGCCCGGTGAAGTCACTAACAGAGACTGAGCTGAGAGTA
+AAGGAAATCCTAGAGAAACTAGATCGGCTGATCCCACCCAGACCTTTCACCCACGTGAACACCACCACCAGTGCCACACA
+CAGCACAGCCACCATCCTCAACCCACAAGACAAGTATTGCGTGGGGGACCAGCTGGACATCTTGCTGGAGGTGAGGGACT
+ACTTGGGACACCAGAAGGAATATGGTGGGGATTTCCTGAGGGCCAGGATGTTCTCTCCAGCCCTGAAGGCAGGAGCCTCA
+GGAAAGGTGACCGACTTCAACAATGGTACCTACCTTGTCAGCTTCACTCTGTTCTGGGAGGGCCAGGTCTCCCTGTCTGT
+CCTGCTCATCCACCCCAGTGAAGGGGCATCAGCTCTCTGGAGGGCAAGGAACCAAGGCTATGACAGAATTATTTTCAAAG
+GGCAGTTTGTCAATGGGACCTCCCATGTCTTCACTGAATGTAGCCTGACCTTAAACTCAAACACCGAAGAGTGCAAATAC
+TTGAATGGCAGAGACCAAGATGTCTTCTACTGCATGAAACCTCAACACATGCCCTGTGAAGCCCTAACTCATGTGACATC
+CAGGAATCGGGATATTTCATATCTTACCAGCAAGGAAAAAAACCTTTTTCACAGGTCCAAAGTGGGAGTTGAAATAATGA
+AAAACCAACATATTGATGTCTCCCAATGTAACAAGAGTAAAGAGGTAAAAGAGAAATGCCAAATTGGAATGAAGATCCCT
+GTACCTGGCGGTTACACTTTACAAGGAAGATGGTTAACAACATTTTGCAACCAGATTCAGTTAGATACAGCTAAAATAAG
+TGGCTGCTTGAAAGGAAAACTCATCTATCTCATGGGAGACTCTACGCTGCGTCAGTGGATCTACTACTTACCCAAAGTAA
+TGAAAACACTAAAATTCTTTGATCTTCACGAAACTGGAAATTTTAAGAAACATTTGCTTCTGGATGCAGAAAAACACACT
+CAGATTCAATGGAAAAAACATAGCCATCCTTTCGTCACGTATCAACTCTTCTCGGTGATAGATCATGGTTACATCCCTCA
+GGAAATTGACCGGCTAATAGGTGACAAGGACACAGTCATCGTCATCACCTTTGGCCAACACTTCAGACCCTTCCCCATTG
+ACATCTTCATTCGTAGAGCCATCAGTGTCCGACAGGCTATTGAACGACTGTTCCTGAGAAGCCCAGCCACCAAAGTGATC
+GTGAAGACAGAAAACATCAGAGAGATGCACATTGAGGCAGAGAGATTTGGAGATTTCCATGGTTACATTCAGTATCTTAC
+TCTGAAGGACATTTTCAAAGATCTCAATGTGGGGGTTGTTGATGCCTGGGACATGACCATTGCATATGGCACCAATAATG
+TCCACCCACCTGATCAGGTGATTGGAAATCAGATTAATATGTTCTTAAATTACATTTGCTAACACACACACACACACACA
+CACTCTCACAGTCACTAAGAAACAATCTCTGTAGATAATTCCTCATCTATTGCCAAATGGTTCTGAGCATCTGAGGAACT
+AGGATGTCAAGACGTTCTGAAATAGGGATCACTTAACTTTGTAGAGGACTAGCTAATAAATATTTTAGGTTTTGCAGACC
+ACATGATCTCTGTCACAACTGTCCATGTCTGTCACTGAAATTCAAAAGCAACCAATGACAGCATGTAAACAGATGGGTTT
+CATAATGTTTCAATAAAACTTTATTTATGGACACTGAAAGTCAAATTAAATATAATTTTTACAT
+>ref|Z12842.1| O.cuniculus mRNA for protein of unknown function
+CAACCAAAGGGGAAGCGCTGGGACCTTGTCAGCTCACGTTTCCTCAGGATGGCTTCTGGAAGACTAATCAAGCTCGTGAT
+TTTCGAGCTTCTGGAGTTTGCTGCTTTCTCCATTCCCACGCTCGTGATTATGGAGCAGTTTGCCACTGCCTACCAGAGGA
+CCAGGAATGCGTCTGAGAAAACACATTACTGGCTGATTGTTTCCTGCTCTATCGCCTATGTCGCTGTAGTGAGTCTTTTG
+ATTTGGGTTCCCGTAAAAGTTCTCTTACACAAGAAACGTCATCTTTACAAAAAAATTAAAGGATGGAGACCTGTTATGAT
+GATGTGTGTAGTACTCACCACACTTCCCAGCTTCATCTTTTCTATAGCAGTAACTGAGGTTCAGAAGACCATTAATACTA
+CTGTTGATGTATTACCAGATACCTTGCCTGACCTGCCAGTATCTCTGGTTATTTCATCCTTGATCATCACTGATATTATT
+GAAAACTCAGGTTTCATCCTATTAGAGGGTATCAAAAGAGTAACGAAGATAAACACATCCACACGTCCTCTTTGCAACAA
+GTAAGAACTGTGACGGAACAAGTGAGGCAAAATGGAGAGAACGCTGCCTCTCCCTGCGCAGCCAGCCCCTCTGAGACGTG
+GCAGCCCCCAGGGGCACTGACACACAGCGCCGTCCCCATGTTCGCTGGGCCCCAGGAGCCTTTCTTTGGCTCCGGAATCC
+TGAAGACAATGTCCCGGCGAGATGTCCGGGCCGAGATATTCCTCTGGAGCTTTCTGCTGTGGTCTGACACAATAGAGATG
+GTGCGAGTGGCCGGTCACCCTAACGTGTACAAGACAAACTGGCTGTATCCAGTCTACTTATTCAGTTTCATTTCTCTCCT
+TCGCATTATATTCACCCCCCAAAATCCTCTTCTCAGTTGTCTGGGCATCCTGCTGCAGGATTTACCCTTTGTGTTTGTCA
+GGCTCAGTTTGATCATTGCCCTGGGGACAATCACACCTGTCCTCGGCCTTTGTAAAAACGTGCTGGTGACTCTCTCTTAT
+GTTTACTTCAATTTCTTAACCAGATTCAGGGCTTTCTCTAACTTTGAGTTGTCTCCATTTTAAAAAGAAGACTCCTGTTT
+TTAAAAAGATGAGACCTCTTCCTATGAGTAAACGCACATTACAGCAGTGGCTTTTTTTGTTTTTGTTTTTTTTCTCCATT
+TTTGGCAGAGCCTAAATTTTTGCACTACAGAAGAAACGAAGAACAGATTGTACAGAGTAACCTGTTTTTAATTACTGTAG
+ATATCAATTGTTAATGTATACAGTTGGTGCTAAAGTTCAACAAAGTTGTATTCTTAGAAGTTGGTGCCCATACATCTCTT
+TCTGAAAATGTTAGTAGTTTCAGTTACATCTTCAAAAAACTCATGGAAAATGCATATTATGAAAAAACTATACGTGGATT
+TCCAGAATTTTATACCAAAATAAACTTATCTTTAAATCCATTTTTCTGCAAAATTTTAAGTACCCTTATATACAACGTTT
+TTTCCAATAACACTCCTTCATAAAGCCTTTTTTAAAATTGAGAACATATTTTCCCACTACATGAGCCCAAGAATGAGATT
+TTTACCATTTATGCAAATTATGGAACATTACATGAATTAATCAGATTTTAGGAAATACACCTGAAGTTATTGAATAATTT
+TTAAGATTATGCTTTTTTTTTTTTTTGACAGGCAGAGTGGACAGTGAGAGAGAGAGACAGAGAGAAAGGTCTTCCTTTTG
+CCGTTGGTTCACCCTCCAATGGCCGCCGCGGCTGGCGTGCTGCAGCTGGCGCACTGCGCTGATCCGAAGGCAGGAGCCAG
+GTACTTATCCTGGTCTCCCATGGGGTGCAGGGCCCAAGGACTTGGGCCATCCTCCACCGCACTCCCTGGCCACAGCAGAG
+AGCTGGCCTGGAAGAGGGGCAACCGGGACAGAATCCGGCGCCCTAACCGGGACTAGAACCCGGTGTGCCGGCACCGCTAG
+GTGGAGGATTAGCCTATTGAGCCGCGGCGCCAGCCTAAAATTATGCTTTTTTAAATCTGAAAATTATACCTTAGAGTCTC
+TTTCAAACACAGAATTATAGTCCTTATCCCGCTCCTTCAGGTGACTTTTATTTAGCTGATTTCCCCATGAGAAACAATTC
+ACTTGAACAGGTGTTTCACTCAGGTGAAGGTGTAATTTAGCTGTTGAACTGGAACTGCAATACTAACATGAATTGTGTTT
+ACTGTAATGAAGGCAAGGTACATCAGTGATCTCTAGATAAAGTTTTATAATGGGAAGCCATAAATTGAAGATGTAGATTT
+CAAAGTGTAATATTATTTTATTTGTGGAATTTGATACCATCATAAAAATGATTGAGTGCATGCACTATCTAAAATTAGAA
+GTTCAACGTATGAATATAATGGCAATTGCACCAGTGTCTTATGTGATGCTCTGTCGTGACTATCTTCATGGTTTGAAATA
+ATCACATGCAAAATCATGGCACTTGCCTTCACTATGTGGGGATACTCCAAAATTCAGGGCAGAGGTGCTCCCTCTCACGT
+GACTTTTCAGACGCTGGACAGATTTGTAGGAGGCCTAGGAGCGCAGTGTAATGATTTGTGTAGCCAGTCTCTTTCATGAC
+CTGGATGGATGACAGACCTGGTATGTTCCCTGCTCTCCACTAAATCCCCGAGTCTCTCACCCCTGCTACCTTCAGGTTTT
+TATAATCTCGTAAAGGAAGGTCTGTCATTGTTCAACCTTGCCTGCTGGTTTTATGACCTGTGACACGTTCCTGGACTGCT
+GTGGCCTCCATTTTCATATTAAAGATGAATATACACCTGAAACCACTTTAGTAGGCATGAAAGTGTGAGGACTGCTCCCA
+GCATGCTGTCTGGCAAACAAGAATATCTGTATAAATGCTAAGTGTTTTCTTGGTGCCCATCCCCAGTAAACAACTAAATA
+CATTGCTGCTTTGTTCTGTTTTATTCTTTCTCTGTGTCCCTGCTTACCTTTTGGGAAAAATTTAAACCTCGAATTTCTGA
+AAAGTCTTATGTGAAATCTGACCAGAGACTACAACTTTTTATCAAGTGGTAGAATGTTGAGAAGTGAATATGCAGCATAA
+AACGGATGTAAGCGTTTGCTCATCAGACGTTGGAGAGTCACCCTGTGAACTCCAGTTGTGACACTGGATGAAGACTTTCA
+TTGTATGTTTACTCTTCTGTATTCCTCACTAATCTTATTCCTTAAAGGAAGGTCTGAGGATATTTTCTTTAATAATGCAT
+CTTTTACTGTCAATAAAAACCTGTAATCAAGTGATTAATTTAAAATATTCCTACATATAGAAATATTTTACATAAATATA
+TATTTATTTTATATTGGAATTTATAGAGAAATGGTGCTTAGGTAAACTCAGAGGTATTACTTGAGTATTACTTGAGTTTA
+GGATTTGTTTTGTTTCTAATATTTAAACATGAATATGCCCAATATTTTGAGTAGTAATGCAAAACATGACATGTAGGAAG
+AAAATTATTGGATAGCTAATTTATTTATAAACATGTGTTTATAAAGTTCAACTCTGTTATTTAACAGATATTACAGAAAA
+TTATGCTGACAAAACATTGATCTACACTGTGTGATTAAAATTACATTATTAAAATTATATGGCAATTATCATAGCTTCTC
+ATTGTTGTTGGTACTAAGACTCATATAACTTTTTTTTGTTCTGATAAAAATGTTACTTTTCTGCTGTATGAAATTGTACA
+TGCCAAAATGTCATGATCTATAATACACTGTATGATGTTTTATTCCAAG
+>ref|Y00136.1| Rabbit uteroglobin gene 5'-flank EcoRI2-EcoRI3 fragment
+GAATTCTCTGCGGGGAGAGACTGTGCAGTCTTTCACGCCCGAGCAGCCATCTCTGTGACCCTTCTTGGGCCATCTCAGCA
+CAGCCACTGGGCTGTGACACCTAGTGGTCATGCAGGAAGCACCCATTGTTTAACAAGGAGGCTCCCTCATTCTACAACCC
+AGAAGGCACACAAACACTCCTTTGGCGTTCCAAGCTGTTCTCCAGGACTGCCTCAGTATTCTTTCTTGCCGTAATCTCAC
+CCATCAGTCCAGGCCCTAGGGTCAGGCCAGGGACACGGGAGTCAGCTGAACCTAGGAGTCATTTGATGGGCACAGATGGG
+CATTTCAGGAACAAAGGGAAAACTCCCTCTAGGGTCCCAGCCCAGCAGCAGTGCTTGCCCGGATCCACTGCTGCCAAGTC
+ACTCATGTGTAGACTCGAACAAGGAAACTGCCTGTGCACAGGCAATGTGGGGATGTGCAAATGCTTGGGCAGCCAGGACT
+GGAACGGGTGCTCCAATATGACATGCAGGCATTGCAAGCAGTGGCTTAACCCACTGAACCACTCCTGCTCCAGTTTTGTG
+TTCTGTCTTTTGCCTTTTTTTTTTTTTTTTAAGATTTATTTATCTGAAAGTCAAAGTGACAGAGAGAGAGGAAGAGACAG
+AAAGACAGATCTTCCAATGGCTGATTCACTCCCCAAATGGTCACAGCAGCCAGGGATGGGCCAGGCCAAAGCCAGGAGCC
+TAGAATTC
+>ref|X01423.1| Rabbit uteroglobin gene
+GAATTCAACCAAGGTTCCCCACATAGTCGGCAGGGGCTCAAGTACTTAGGCCACTTCCCGCTGCTCTCCTAGGCACATTA
+GCAGGGAGCTGCATTGGAAGAGAGCAGCTAGGCCGCAAACTGGCACTCCAACAAGGAATGCCAACATGGCAGGGAGCAGC
+TTAACCCACTATGCCACAATGCCAGCCCTTAGTTCTTTCTCTTCGAAATTTTGTTTTGAATCAACAATACATTTTTACAC
+ATCCGAGTGGGACAGATGTTGTGGCATAGCCAACACTTAGATTGCCCACATCCCATATCAGAGTGCCAGTTCGAGTACTG
+ACACCTCCACTGTTGGTCCAGTTTCCTATCAATGCAACCTGGAGGCAGCAGATGATGGCCCAAATGCTTGGGCACCTGCT
+ACCCATGTGGGAGTCCCAGATAAAGTGCCAGACTCCGGCTTCAACCTGACCCGCCCCAGGCATTGCGGCCATTTGAAGAG
+TGAAGCAGAGATTGGGAGATAAATCTTTCCAAAAAACACCTAGGAAAAGCACAAAGGAAAAAAAAAGTGTCAGTCTTGTT
+CTCCCCTCCGTGTGCAAGCAAACCGGACACGGAGTCCTTTTGCTCCTTTCCACTCTGTTCACTCTGTTCTATGCCTTGTT
+TTTCACTCTGCAGCCTGCCTTGGCAATCATCTCATTATCAGTTCAGAAGATCTTCCTTTCCTGTCTTCTCAGCCACGTCA
+TAGGGGCACACAGTAATTCACCTAGCAAGTCCTGATTGGTGGATTGTTTAGAACCCGTGCTCTTAACTACGTGTCTCCAC
+GGCCTGCAAATAGCACCTGACACAAAGGCCTGTTCACTGATTCGTTCCAAGGTGCCTGTTTAGTGAACATCAAGTACTTG
+GCTTTGTGGGGCCAATCAAGCAAAGGATTCGTGCCAGTAAAACACCGTATGGTGGGCCGGCTAACCAAAGGGGTGGGGAG
+AGGTGCACAGTGTGTGAGAGCTGTTACTGGCAGAATCGCCCATCATACTGGGCTTCCTGGGCTTCCATTCTCAGTCTTAC
+CCCTCCCGAGTCTTCTCTATGTCCCAGAGCAGCTCTGAGCGAGCCAGGGTCATCGCATCAGAAATGAACTCAGACCACAT
+CATCCCCTGACTTAATAAACCCTTCTGGAGTTTCCGCCTCTCTGAGCACAAGGCCTTGGGTGATCTCACCCCTCCCCATC
+CTGCACAGACTCCTCACCCAGATGCAAGGAGCACTCTCTGCTCCTCAAGCCCACAGGGCCTCTCCACCTAGGGCCTTGGT
+GCGGGTCTCCCCTTCCCAGAATCCTCCATGCCACCTGCTCGGGAAGGCCACCTAAGTAGGTCTCCGTCTTTGTCCATCCC
+GACACTCTGCTCAGTTCCCCTGTAGCATGAACGGCAAGCTGTAATAACATCATATGCTTAGTCCTTTGCTTGTCTGTCTC
+CTCCCCTCCCCAAAGTGGAGCTTCATGGTGGCAGGGTTTGGGTTTGATTCGGCCATCACTACATGCCTGTCGGGAACACA
+GATGCTGAAATCAAGTTTTGGGTGCACAGCTGTTATTAGGAAGGGGTCAGCCCCTGTGAGGGAAGGAGGTGGAAGCAGAC
+TGGGCACAGGGGAAAAGCTGCAGAGAACTGCTTTGGTCAAGGTCACACCCTTCCTAGGGCTGCTCCTAACTGGTGGCCCA
+ACAAGAAGATGACACAAAAAAGCCTGGGTGTGTCAGCACCGAGTGGACGGCTCTGGTGGGCAGTCCTTCAGGGCTCTCTG
+TCTGGTTGGCTCAAATTTTGCTGAGCCTGTGCCACACTGCAGCTGGGGCGACTGGCAAGTGTGAGGCTCTCTGCTGACCA
+CAGTTCTCACAGGTTCTCCAAGCAGTGCCTCCTCCACACCCACCCCAATGTCCACTCCCAGCACAGTGCCCAGCACACAG
+CAGTGCTCAGCATTTATTTGAATGGGTGGTGGTTGGATATGTGACTGAGCTTTGAAATACAAATAAGATTGGGAGAAGCA
+GACATGGCAGGAAATGTGTGTTCTAGGCATAAGTGTTGCTTGGGCAAAGGTGAAAAGTATGAAAAATACATGAAATATTC
+CTAAATATTGGTACAATCAGGTTAAATCACCATGCCAGGGAGCCAATGACTGAAGCTCAAATGGTAGGCAGGGGCCAGTG
+GGTAAGAGCCGTGTAAATTGCACCTGAGTTATCTCATCCTGCTGGAGAAAGAGTTTCAAAGAGAAGAACAACATGACCAG
+CGGGTTTTGGAAAGATCATTCCGATGGCCTTGCAGAGAAGGTCAGATGAAGGCAAAGTGGGAGGCCAGAGGCCAAGCAGG
+CGTTGAGTCCACAAGGCCAAGCCAGGTGTTAAAGGCTCGAGGCGCGGCCAGCGGAACAAGAGCAGGGCTGAGGTCAAAGC
+CTTGGGAACCACCACCACTCAAGAGCAGTCAGGGGCGAGCAAACATCTGAAGAGAACAAGAAGGAATGGTCAGCGAGGGA
+AAACAGGAAAGAACCGAGCCGTGGGAAAGCAGGGGAGAGAATGGCTGAAGAAGGAAACGGCCAAGAGGGTCAAGGCCATT
+AAGAGGTCAGGGTGATAAGGACTGCAGGTGCCCATCAAAGAGGCCCTCTGAAAGGCAGAGCTTGAGGGCATTTCTAGACC
+ACAACAGACCCAGCCCGGGCAGGGCATTGGCTCGGCTAGGTATGGGGTTTGGGTCTTTGGTGGGTGTTCTGCGGAAGTCC
+TTTTTCTGTCCACGTGTTCAGGCCAGGGTCTCCTCCAGGCAATGCTCACAGCAATGCTCTGAACCCAGTGACCTTCACGG
+CTCAACGTCCAGCCACCTTCCTCGGAGGGGGGAAGCAGAGGAGCCCAGTGCAGCCACAGGATCCTGGGTGCTCCTATCCT
+GTCACAGCCACTTGGGCCTCAGCTTCTTCTGGGGTGACAGGAGACACACTTGCTTCTGTTGGTCTGGGCTGCCCAAATGC
+CTTGGTTCAAAGAGAAGACGCAGGTGGCTAGGTCACCATGCCCTCGGGGGCAGGCACCCCTTACCACACCCCCGCACAAG
+ACTCCGGGCTCTCCCTCCCCCCGAGGGACCCATTGTGTGAGTTCAGTTTCAATAGGGATGGAAACTGGATTGAGAAAAGG
+GAATATTTACTTATCCCACCAAGTCAATGCCCAAGTAAATAATGCAGTCAAGTAAGTGGAGCCCAGGCCCTGCCCTCTTC
+TATCTGGGCACTGCCCGGAGAATACAAAAAGGCACCTGACGGCCGTCCCCCTCAAGATCACCGGATCCAGAGCCAGCCCA
+GAGCCTTCCCATTCTGCCACCATGAAGCTCGCCATCACCCTCGCCCTGGTCACCCTGGCTCTCCTCTGCAGCCCTGGTGA
+GTGCCCAGCGTCCCTTTCCCCCAGGCAACCCTCTCCGCCACCCACTTCTGCTCAGAGGGAGAGGTGAGCTGCCTGTGCCC
+TCCCTGCAGCTGCTGGCAGGGCCTGAGAACGTGGACTTTCGGAAAATGGGGTCTGGTGAGCGACCCCACGTTGAGAACCT
+GGGGAGGGCCCTGCGGCTGTTAGGAAACTAGGAAGGATGTCCTCTTCCACATCCAACAACCTCCGCGTTCCGGGGGACAG
+GACAGGCTAGAGGGAGGGAGGAGGCCCCTGCGGGTGAACAGTGCAACAGCAAGTGGGAGAGGAATACAGTCTCCCAAAGC
+CCAGACTTGTGTAGACCCCAAGATGCCCAAGGACCACTGGGGCCTCCGCCCGACTCTGGCAGCCACAGGGCCTGAAAGGG
+GAGCTGCAGAGACGGACATCCCCGAAAGAAACCCAAGCCAAGGCACAGCTTCCGGGTCTGGGCCTAAAGGACAAGTCCAG
+AAAAAGGATCTTCCCTTTGGGACAACGCCAGCCCAGAGTGCCGTTTTCTAAACAATTCTGTTCTCTGCAAAAAGGGCTAC
+AAGTCTCCAAGTGGCTGCTGCTGTTGCTAGGAGGAAAGGAATGGGAAAGGAGAAAGCGGGGAGGAAGGGAGGGGAGAAGA
+GGGGAGGGCTCACATCTCCCTCCGAGCGCCCTGCCATTTGGGAAGGAGGTTACCTAACTCGGCTTTTCACCCTGCATCAG
+CCTCTTCCACTCCCATCTGAAAATGCTGTTGCTGTTGTTATTGTTGTTGTTTTCATCAGCAAACCCCAACGGAAAGTTTC
+ACACAACTCCTAGATGTGAGTTTGACGACCTTGGGGGATTGGAAAAACCAAACCGAGAGGGAGTGGGAACAACTGTTTGG
+CAGAGAGTGTTACTTGTTTCTCCGGTGGGAAATGACATCATTTGGGGCTGAAATGTATGAATTAGAAGATCTGGGTACTG
+AGTATAGAGGTGGTGACTCAGGAGGACAGGACTGAACCACCCCCCGCCTCTTTTTTAAAAAACAGATTGTATTTATTTGA
+GAGGTAGAGTTACAGAGAGAGGGAGAGAGAGAGAGAATCTTCCATCCACTGGTTCACTCCCCAGTTGGCCACAGTGGCAG
+AGCTGGGCCGATCCAAAGCCAGGAGCTTTTTCTGGGTTTCCCATGCAGGTATAGGGGCCCAAACACTTGGGCCGTTTTCC
+ACTGCTTTCCTAGGCCAAAAGCAGAGAGCTGGATCGGAAGAGGAGCTGCCGGACATGAGCTGACATCCATATGGGATGCT
+GGTGCTGCAGGTGGAGGCTTAGCCTACAATGCCACAGCACCAGCCCTAGACTGAAACCCTTTAAGGGGTGGATCAGGGAC
+ACAACACCCATTCATATACTTTTGTGTGCACACGTGTAATAATGTCTGCTCTTAACCCTTTGACATACACCTCTTTTCTT
+TCTTACAACCTCATGAGGAGGGGACATTGTACCCATTTTACAGATGATAAAAACTGAGCTATTAGCACTTTGTAAGATCA
+AGTAACTCCTGAGGGCATAGTAAGTTGCAAGGTGGGGATTCGAGCTCTGGAGAGGGTGTGGTTTGGAATGGCCACCCTGA
+GTAGGGCCTCCAGTCTGAGAGCAGACATTGAGTTGGCACGTGAAGCAGAGAATTCAAGGACAGGGATTTGAGACTTCATG
+GGAAGATGGAGGCAAATAGAGGTGGGGCGTGGTGAGTCCCCCCCACAACCTGGGGGCAGGGGCCTGAGAAACAGTTATAG
+GGACAGTGGCACAAGTGGTTGGTCTGTGTTGAGCTGAGCAAACCACAAGGCCCACCACTCACATGTGCACGCCTGTCCCG
+TGCCAGGTGGGGAGCCCCATGCTGGGCTGGTACCAGCCTCAGCCTGGCTTTGCCACATCCCCTCAGTGACACGTGGCTCC
+AACCACCATGGACCACAGAAGACAGGCAAGGTCCTGGTAGGAACCAAAGCTCTCAGTGGCCTCTTCCCAGCCCCACCCTG
+CATTAAAAATCAGCCCAGCAGCTTCTATTATCAATACTCCACCCAGAACATGAGCATAAAAAACAAATGGCACCCTGGCC
+CACGCCAGCCCAGGAAGTCCAGGGAAGGCTCAGGCCAACCACAAAAACACCAGCTGTAACCTAGAGAGAATTCACCCAGC
+GCTTAGAGCACCAGCAGAGCTGATTTCCCCTCCCCGTCCATGAAAAGCTGTCTAGTCTCAAACTGACTGACGAGCTTGGC
+TGTGTGCCCCTGGTTCTTGGGCTTCTCCTGCTCTGTTCTCAGCATCTGCAGGCATCTGCCCGAGATTTGCCCACGTCATT
+GAAAACCTCCTCCTGGGCACGCCCTCCAGTTACGAGACATCCTTGAAGGAATTTGAACCTGATGACACCATGAAAGATGC
+AGGGATGCAGATGAAGAAGGTCTTGGACTCCCTGCCCCAGACGACCAGAGAGAACATCATGAAGCTCACGGTAACCAGTG
+CCTATTGCCCACGCCTATAAGTGGCTTCCGGAGCCCCTCAGCTGTGGTCTCATCCCATGCTAAGACCCTTTCCTAACCCA
+GAGAAAAGACTTGCAATACCAACATCCCCGTAGTACCCATGTCCTCACGGGCAAGCCACCTCTCTAGGCATTTCCCCTTA
+CCCATTTCTAAAATGGCTTTTTGAGAAGGAAAAAAAATGTCCTTATAATCATCATTCTTCCCAGAGTTCATTGGACATCT
+CCACTGACATTGACGTTTGTGTCTCCGCATCTCTGCCTCACTGCAGAGGTCACGGGGCTTTTGTTTCTCTTTTTCAGGAA
+AAAATAGTGAAGAGCCCACTGTGTATGTAGGATGGAGGAATCCGAGGTCCTGCGGACTGAGAAGCCGAAGATTTCCACCT
+GCTGAAGCCCCTGCTGCTGCCCCTGGCCCCTTGGGTCCCCCACCCACCCAACCCAGCCAGCCTTTGCTTTCAATAAACTG
+CAAGCAGATCACATCCGTCGTCCTGAGCTCTTATTTACCTGCTTGAGGGAGAGAGGCGTGCACCTGCCAGGAAGGGTAGC
+CAGGACTCCCAGGAAGGCGGCGGAGCCTGCCCTTGGACCCCACGAGGAAACTCTGACGCCTTCCAAAGTCCTTTCCTCTA
+GGTTTCTGCCATTGGCCACCCAAAAAGCTGAGCCCTCTCCCCTTACATTCTACCACCTACGTCTCAAACTCCACCTGTGG
+GAGAATTC
+>ref|X14364.1| Rabbit vkB95g gene for immunoglobulin kappa light chain variable region
+CAGCTGGGCACAGCCTGCCCCCACCCCTGCTCATTTGCATGTCCCCAGAGCACCGCCACTCTCTGGGACCATTTCAGGAG
+CAGGCTGCTCCCGCCCCATGCAGGAGGCAGTGCCAGGCAGGACCCAGCATGGACACGAGGGCCCCCACTCAGCTGCTGGG
+GCTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCGGAACAGCCTGGGGTAGTGTGCCAGGGCTGCCCGTCTCT
+GCAGGAGCGTCCTCTTAGAACGTGAGGAGTGAGTGTGGTCTCTGTGTTTCTGTTTCCCTCCTCAGGTGCCAGATGTGCCG
+ATGGCGTGATGACCCAGACTCCAGCCCCCGTGTCTGCAGCTGTGGGAGGCACAGTCACCATCAATTGCCAGGCCAGTCAG
+AGCATTGGTAGCGACTTATCCTGGTATCAGCAGAAACCAGGGCAGCCTCCCAAGCTCCTGATCTATTCTGCATCCAAACT
+GGCAACTGGGGTCCCATCGCGGTTCAACGGCAGTGGATCTGGGACACAGTTTACTCTCACCATCAGCGGCGTGCAGTGTG
+ACGATGCTGCCACTTACTACTGTCAATGCACTTATAGTAGTAGTACTGGTTCCACAGTGATACAAGCCCTAACAAAACCC
+CCCCAGGAAAGCAAAAATGTGGAGCTGGGCTGCCCCAGCTGCTCCTCCTGGGCCCCATCTGCTCAGATGATTCTCAGAGC
+AGCCAGGCTTGAAGGTCCTTCAGGTCCACTCTACAGGAT
+>ref|X14365.1| Rabbit vkB95r gene for immunoglobulin kappa light chain variable region
+CTGCAGGTAAACTTGTGCAGCCCTGGTCTGAGCTGGGACAGCTTGAGACACAGCCCCTGGGCTGAGTTCTGAGCTCGCCC
+TGGGCCCTTCAGCTGGGCACAGCCTGCCCCCGCCCCTGCTCATTTGCATGTCCCCAGAGCACGCCCACTCTCTGGCACCA
+TTTCAGGAGCAGGCTGCTCCCGACCCATGCAGGAGGCAGTGCCAGGCAAGACCCAGCATGGACACGAGGGCCCCCACTCA
+GCTGCTGGGCGTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCGGAACAGCCTGGGGTAGTGTGCCAGGGCTG
+CCTGTCTTTGCAGGAGCGTCCTCTTAGAACGTGAGGAGTGAGTGTGGTCTCTGTGTTTCTGTTTCCCTCCTCAGGTGCCA
+GATGTGCTGAGGTAGTGATGACCCAGACTCCAGCCTCCGTGTCTGCAGCTGTGGGAGGCACAGTCACCATCAATTGCCAG
+GCCAGTCAGAACATTGGTGGCGACTTAGCCTGGTTTCAGCAGAAACCAGGACAGCCTCCCAAGCTCCTGATCTATGGTGC
+ATCCACTCTGGCATCTGGGGTCCCATCGCGGTTCAAAGGCAGTGGATCTGGGACACAGTTCACTCTCACCATCAGCGGCG
+TGCAGTGTGACGATGCTGCCACTTACTACTGTCAAACAGCTTATAGTGCTGTTAGTGGTTTTGCTTTTGGCGGAGGGACC
+GAGGTGGTCGTCAAAGGTAAGTGGCCATCTCACTGAGTCCTCACCGTTTCTGCCTGATTTGCTTGCTTTTTCCACTTTTT
+CCCTGTTTGTGTGTCGTTCTTGGCTGGAGGTCAGGGTTCTAACGAATTTCTTTCCAAGATGAGGCACAGAGGAGGGAAAA
+CTGTCTGAGATTTCCAAGTCAAAATGACTTCCCCGGG
+>ref|NM_001082390.2| Oryctolagus cuniculus whey acidic protein (WAP), mRNA
X07943.1 Rabbit mRNA for whey acidic protein (WAP)
+ATCCGACACCTGCCTGCTGCCCACCACCAGCCTACCACCTGCCACCATGCGCTGTCTCATCAGCCTGGCCCTCGGCCTGC
+TCGCCCTGGAGGCGGCCCTCGCTCTGGCCCCCAAGTTCATCGCTCCAGTGCAGGTCATGTGCCCCGAGCCCAGCTCTTCC
+GAGGAGACGCTCTGCCTCAGTGACAACGACTGTCTCGGCAGCACCGTGTGCTGTCCCAGCGCCGCCGGCGGCTCCTGCAG
+AACCCCCATCATCGTCCCTACCCCCAAGGCTGGCCGCTGCCCCTGGGTGCAGGCGCCAATGCTGTCCCAGTTGTGTGAGG
+AGCTGAGCGACTGTGCCAACGACATCGAGTGCAGGGGCGACAAGAAGTGCTGCTTCAGCCGCTGCGCCATGCGCTATCTG
+GAACCCATCCTAGAGAGCACTCCCCAGTGAGCCGCCTACCCAGGAGTCCCTGGCTGCCAGGAGAGTTGGGCCTGAGTTCC
+CCCTCTTGGACCCAGAGAGCTTGTGACGCGTCCTCCCTGCTGCTAATAAAACTACTCAGCTTCAAAA
+>ref|X59242.1| Ovis dalli 1.714 satellite DNA
+CCCTCATCTCGAGCTAGGAGGCGGAAACGGGGCTCCCCTGGATGTGTGCGGGACCCTCGAGCTTCCTCTCGAGTGGAGAC
+GGTATGTCGCGGAACTTCTTGAGTTGCAGCAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGTGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGGCAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTAGATATTCTCGAGTTGTGGCAGGTGCT
+CTCGACTTACGACGGGGACCTCAGGGACCTGCTCTGGTGGCTCAGGAAAGGCGGCCCATCGGAGTTCCTCAGGGGGCTCT
+CGGGATTCCTCCCCATCGATGCCGGGGCGTAAGACCTTGTGTGGAGTCGGGGCTGGAACTGAGGATTCCACTCCAGTGCT
+GACATGGATCTTGGGGTATTTCTGGAGTCTCCCCTGGGGAGTCAGTCTTCGTCTCGAATGCGGGCATGCAGTGTCACGCA
+GTCCACCTCTGGATCAAAAGATCTATGGTTTTCCCTCGAGTCTTTCCCACGAGGCTTTCCCACGAGGCTTTCCCACGAGG
+CTTTCCACGAGGCTTTCCCACGAGGCTTTCCCACACGGCTCTCTCCCATGCACACGTGGTGGGTGTCGATCCTCGGCTTG
+AACGTCAACGGAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCCGGGGGACTCTTGGAATGGTGGCACGA
+CCCTGGAGTTCCTCTCGCCTTTCCTATGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTAC
+GAAACAGGGAAAGGAT
+>ref|Z11496.1| O.orca P1 gene for protamine
+CTCACAGGTTGGCTGGCTCAACCAAGGCGGCATCCCCTGCTCTGAGCATCCAGGCCGATTCCATCCGTCACCATGGCCAG
+AAACAGATGCCGCAGCCCGAGCCAGAGCAGATGCCGCCGCCCGAGGCGCAGATGTCGCAGGAGGATACGGTGCTGCCGGA
+GGCAGAGGAGAGGTGAGGGGGTCGTCCGCGGGTGGGGGCCGGGGAGCTGGGGTGGAGTGGGGGTTCAGCCCATGCTGAAG
+TCTGCTCTCGCCCCCTCGTTCTCCGCAGTGTGCTGCCGCCGCTACACCACCACAAGGTGTGCAAGACAGTAAGCGCCCAG
+TAGCAAGACCACCACACTCCTGCCTGAAACGCTACCAGCCTTC
+>ref|X56545.1| O.ovis UCP gene for uncoupling protein, exons 3 (partial) and 4
+GATCTCAGCGGGCCTAACGACTGGAGGCGTGGCGGTGTTCATTGGGCAACCCACAGAGGTGGTCAAGGTCAGACTGCAAG
+CTCAGAGCCATCTCCACGGTCCCAAACCTCGATACACTGGGACTTACAATGCTTACAGGATTATAGCAACAACAGAAGGC
+TTGACGGGGCTTTGGAAAGGTGACTCTCTTCAACATGGATTCTATAGTCGTTAAAACACACATATCTAAGTAGCACCTTA
+TCATATGATGGAGCTATTCAACACTTTCTTTCCCTCCAGGACTACTCCCAATCTGACAAGAAATGTCATCATCAACTGTA
+CAGACCTCGTAACGTATGACCTAATGAAGGAGGCCCTTGTGAAAAACAAACTATTAGCAGGTAACTTTCTTTCTCACATG
+GCAGGTCTGCACATTTATAATTTCATCTTTTATTATACTGAATCCCTTAATTGTAATAATTTTATCTTTTAAAACAGTAA
+TACTCTTGAATAATAGATAT
+>ref|X58696.1| Rabbit brain L-type calcium channel mRNA (pBC-1 and pBC-2)
X58695.1 Rabbit mRNA for cardiac L-type calcium channel (pCC-1)
+CTGAGAGTGCTAAGGGTCCTCCGGCCCCTGCGAGCCATCAACAGAGCCAAGGGGCTAAAGCACGTGGTTCAGTGTGTGTT
+CGTGGCCATCCGGACCATTGGGAACATCGTGATTGTCACCACGCTGCTGCAGTTCATGTTCGCCTGCATCGGAGTCCAGC
+TCTTCAAGGGGAAGCTGTACACCTGTTCAGACAGTTCCAAACAGACTGAGGCTGAATGCAAGGGTAACTACATCACCTAC
+AAAGATGGAGAGGTTGACCATCCCATCATCCAGCCGCGCAGCTGGGAGAACAGCAAGTTTGACTTTGACAACGTCCTGGC
+AGCCATGATGGCCCTCTTCACTGTCTCCACCTTCGAGGGCTGGCCAGAGCTGCTGTACCGCTCCATCGACTCCCACACGG
+AAGACAAGGGCCCTATCTACAACTACCGAGTGGAGATCTCCATCTTCTTCATCATCTACATCATCATCATCGCCTTCTTC
+ATGATGAACATCTTCGTGGGTTTCGTCATTGTCACCTTCCAGGAGCAGGGGGAGCAGGAGTACAAGAACTGTGAGCTGGA
+CAAGAACCAGCGGCAGTGCGTGGAATATGCCCTCAAGGCCCGGCCCCTGCGGAGGTACATCCCCAAGAACCAGCACCAGT
+ACAAAGTGTGGTACGTGGTCAACTCCACCTACTTTGAGTACCTGATGTTCGTCCTCATCCTGCTCAACACCATCTGCTTG
+GCCATGCAGCACTACGGCCAGAGCTGCCTGTTCAAAATCGCCATGAACATCCTCAACATGCTCTTCACCGGCCTCTTCAC
+CGTGGAAATGATCCTGAAGCTCATTGCCTTCAAACCCAAGCACTATTTCTGTGATGCATGGAATACATTTGACGCCTTGA
+TTGTTGTGGGTAGCATTGTTGATATAGCGATCACCGAGGTACACCCAGCTGAACATACCCAATGCTCTCCCTCTATGAAC
+GCAGAGGAGAACTCCCGCATCTCCATCGCCTTCTTCCGCCTGTTCCGGGTCATGAGGCTGATCAAGCTGCTGAGTCGGGC
+C
+>ref|X58697.1| Rabbit skeletal muscle L-type calcium channel mRNA (pSC-1)
+CTGAGAGTGCTAAGGGTGCTCCGGCCCCTGCGAGCCATCAACAGAGCCAAAGGGTTGAAGCACGTGGTCCAGTGCGTGTT
+CGTGGCCATCCGCACCATCGGGAACATCGTCCTGGTCACCACGCTCCTGCAGTTCATGTTCGCCTGCATTGGTGTCCAGC
+TCTTCAAGGGCAAGTTCTTCAGCTGCAACGACCTATCCAAGATGACAGAAGAGGAGTGCAGGGGCTACTACTATGTGTAC
+AAGGACGGGGACCCCACGCAGATGGAGCTGCGCCCCCGCCAGTGGATACACAATGACTTCCACTTTGACAACGTGCTGTC
+GGCCATGATGTCGCTCTTCACGGTGTCCACCTTCGAGGGATGGCCCCAGCTGCTGTACAGGGCCATAGACTCCAACGAGG
+AGGACATGGGCCCCGTTTACAACAACCGAGTGGAGATGGCCATCTTCTTCATCATCTACATCATCCTCATTGCCTTCTTC
+ATGATGAACATCTTTGTGGGCTTTGTCATCGTCACCTTCCAGGAGCAGGGGGAGACAGAGTACAAGAACTGCGAGCTGGA
+CAAGAACCAGCGCCAGTGTGTGCAGTATGCCCTGAAGGCCCGCCCACTTCGGTGCTACATCCCCAAGAACCCATACCAGT
+ACCAGGTGTGGTACGTCGTCACCTCCTCCTACTTTGAATACCTGATGTTCGCCCTCATCATGCTCAACACCATCTGCCTG
+GGCATGCAGCACTACCACCAGTCGGAGGAGATGAACCACATCTCGGACATCCTCAACGTGGCCTTCACCATCATCTTCAC
+ACTGGAGATGATCCTCAAGCTCTTGGCGTTCAAGGCCAGGGGCTATTTCGGAGACCCCTGGAATGTGTTCGACTTCCTGA
+TCGTCATCGGCAGCATCATTGACGTCATCCTCAGCGAGATCGACACTTTCCTGGCCTCCAGCGGGGGACTGTATTGCCTG
+GGTGGCGGCTGCGGGAACGTTGACCCAGACGAGAGCGCCCGCATCTCCAGTGCCTTCTTCCGCCTGTTCCGGGTCATGAG
+GCTGATCAAGCTGCTGAGTCGGGCC
+>ref|Z18655.1| P.catodon gene for large subunit rRNA
U13119.1 Physeter catodon mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGGCACTGCCTGCCCAGTGACTGATAGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAAGGACTTGTATGAACGGCCACACGAAGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTTCCCGTGAAGAGGCGGGAATAACAAAACAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAATAACCCA
+CAACCTCAAACCACCAAGGGATAAAAAAAACTTATATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAACC
+CCTCCGAGTGATTAAAGCCTAGGCCTACCAGCCAAAGCATAACATCACTTATTGATCCAAAGCTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18666.1| P.catodon gene for small subunit rRNA
+CCGTAAACCCAGGTAGTCATAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCG
+GTGCTTCATACCCCCCTAGAGGAGCCTGTTCTATAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAATGAAAGTAAGCATAACTATCCTACGTAAAAACGTTAGGTCAAGG
+TGTAACCCATGGGATGGGAAGAAATGGGCTACATTTTCTACACCATAGAACACCCTATACCCCACGAAAGTTTTTATGAA
+ACCTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAACAGAGTGCTTAATTGAATAAGGCC
+>ref|Z11809.1| P.hypomelanus interphotoreceptor retinoid binding protein gene, exon 1
+GGGGTACAGAGTTCTTTGAATGACCCTCGCCTGGTCATCTCCTATGAGCCCAGTGCCCTCATGGCTCCCCAGCAGGCGCC
+AGCACTCACCCACCTCACACAAGAAGAACTGCTTGCTCAACTGCAGAAAGGCATCCGCCACGATGTTCTGGAGGGCAATG
+TGGGCTACCTGCGAGTGGACGACATCCCGAATCAGGAAGTAGTGAGCAAGCTGGGGGGCTTCTTAGTGGAAAATATCTGG
+AGAAAGCTTATGGGCACCTCTGCCTTGGTGCTAGACCTCCGACACTGCACTGGGGGCCACGTTTCCGGCATCCCCTATGT
+CATCTCCTACCTGCACCCAGGAAACACGATTCTGCATGTGGATACCATCTACGACCGCCCCTCCAATACGACCACTGAGA
+TCTGGACCTTGCCCCAGGTCTTGGGGGAGAGGTACAGTGCTGACAAGGATGTGGTGGTTCTCACCAGTGGCCACACTGGA
+GGAGTGGCTGAGGACATAGCATACATTCTCAAACAGATGCGCAGGGCCATCGTGGTGGGTGAGCGGACCGTTGGGGGGGC
+CTTAGACCTCCAGAAGCTGAGGATAGGCCAGTCTGACTTCTTCCTCACTGTGCCTGTGTCCAGGTCCCTGGGGCCCCTGG
+GCGGGGGCAGCCAGACATGGGAGGGCAGTGGGGTGCTGCCCTGTGTTGGGACACCGGCAGAACAGGCCCTAGAGAAGGCC
+CTGGCCATTCTCACCCTGCGCAGAGCCCTGCCGGGAGTCATGCGGCGCCTACAGGAGGCCCTGCAGGACTACTACACACT
+GGTGGACCGCGTGCCGGCCCTACTACATCACCTGGCCAGCATGGACTTTGCCGCAGTGGTCTCTGAGGACGATCTGGTCA
+CTAAGCTCAACGCTGGTCTGCAGGCTGTGTCCGAGGACCCCAGGCTCCTGGTGCGAGCCATTAGGCCCAGGGAAACCTCT
+TCTGGGCCCGAGGCTGGAGCTGACTACCCCCCAGAGGTGGTCCCAGCAGTGCCAGAGGATGAGATTGCCCGGCAGGCCCT
+AGTGGACTCCGTTTTCCAGGTGTCAGTGCTTCCAGGAAACGTGGGCTACCTG
+>ref|Z18657.1| P.phocoena gene for large subunit rRNA
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAAAT
+CGTAAAACAGTACCACTAAGGGATAACAAAATTTTATATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAA
+ACCCTCCGAGTGATTAAAACCTAGGCCTACTAGCCAAAGTGTAGCATCACTTATTGATCCAAATTTTTGATCAACGGAAC
+AAGTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCGTATCGACAATAGGGTTTACGACCTCGATGTTGGATCA
+GGACATCCTGATGGTGCAGCGCTATCAAGGGTTCGTTTGTT
+>ref|Z18656.1| P.phocoena gene for small subunit rRNA
+TAAACCTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCGGTG
+CTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATCAACCTCACCAACCCTTGCTACTTCAGTCTAT
+ATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCACAACTATCACACATAAAAACGTTAGGTCAAGGTGT
+AACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTACACAACAAGAACACCCCTTAAACTTACACGAAAGTCTTTATGA
+AACCTAAAGACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|Z18659.1| P.spinipinnis gene for large subunit rRNA
U13122.1 Phocoena spinipinnis mitochondrion 16S rRNA gene, partial sequence
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAATCA
+GAAAACAATACCACTAAGGGATAACAGAATTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAAACC
+CTCCGAGTGATTAAAACCTAGGCCTACTAGCCAAAGTGTAATATCACTTATTGATCCAAATTTTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18658.1| P.spinipinnis gene for small subunit rRNA
U13099.1 Phocoena spinipinnis mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACCTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCATAACTATCACGCATAAAAACGTTAGGTCAAGG
+TGTAACCCATGGGTTGGGAAGAAATGGGCTACATTTTCTACAACAAGAACATCCCCTTAAACTCACACGAAAGTTTTTAT
+GAAACCTAAAGACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|X14724.1| Bovine mRNA for NADH dehydrogenase 24 kDa subunit (AA 6-217) (EC 1.6.99.3)
+CTTATTTGTGCACAGAGATACTCCTGAGAATAACCCAGAAACTCCATTTGATTTCACACCAGAAAACTATAAGAGGATAG
+AGGCCATTGTGAAAAACTACCCAGAAGGGCATAAGGCAGCAGCTGTGCTTCCAGTTCTGGATTTAGCCCAGAGACAGAAT
+GGATGGCTGCCCATCTCTGCTATGAACAAGGTTGCAGAAATTTTACAAGTACCTCCAATGAGAGTGTATGAAGTAGCAAC
+TTTTTATACAATGTATAATCGAAAGCCTGTTGGAAAGTATCACATTCAAGTCTGCACTACCACACCTTGCATGCTCCGAA
+ACTCTGACAGCATACTGGAAGCCATTCAGAAAAAACTTGGAATAAAGGTTGGAGAGACTACACCTGACAAACTTTTCACT
+CTTATAGAAGTTGAATGTTTAGGGGCCTGTGTAAATGCACCAATGGTTCAAATAAATGACAACTACTATGAGGATCTGAC
+ACCTAAAGATATTGAAGAAATTATTGATGAACTGAAGGCTGGCAAAATCCCAAAACCTGGGCCGAGGAGTGGACGCTTCT
+CCTGTGAGCCAGCTGGAGGTCTTACCTCTTTGACTGAACCACCAAAAGGACCTGGGTTTGGTGTGCAAGCAGGCCTTTAA
+TTTATATTCGCTGTAAATATGTCAGTGGAAAAATAAAATATGAATCTCCTATCTACCTAAATTTTTTATACTACTTGTTC
+ATTTCCATCTGTGTACACTTTGCTTGTAACCTAGCAACTTACAGCTATTAAGTATCATGTCAGAACTTCAGAGCACCATT
+TTCAACTGCCTCTTCACTTTTATCAATATTAGGGTACTGTGAAATAAAAACTCTGTCAAATTTC
+>ref|X53719.1| Pig mRNA for phosphoglucose isomerase (EC 5.3.1.9)
+GATCCTTAACCCACTGAGCAAGGCCAGGGATCGAACCCCAAACGTCATGGTTCCTAGCCGGATTCGTTTCCGCTGCAGGA
+CGACGGGAACTCCCTCAAATGCCACTTCACTAGTGAATTTTCCATTGACCATTCTATTCAATATTGCAACCTCTATTCCC
+AGCTTTCCTTTTCTCAGTAGCACTTACCAGCATCTGACATGCCATACGTCTTACTTGTCACACATGTATCTGCAACACCT
+ATAACACTGCCTGGAACATGGAAGGTGTTGCGTGAGTGAATGAATGAACTAATGAAGCAGGCCGGGGCAAGGGGGCTCGG
+CCTCTGTTCCCCAGTCACTTCCAGGCAGAGGTCGGCAGAGAGGCAGCGCAAGTGGCCGCCTGGTGTCAAGAAGGACGAGA
+CGTCCCGAGCCACTGCTGCTGACCAAGTCTTCCCCGCGCCGGCGCCGACAGAAGGGCAGAGGGCCGGGCCGGGGCGGGGC
+CGGGGCGGGGCCGGCGCCTGCGCCATAAAGTCCGCTGGGCGCCTCCCGCCTCCGCCTGCAGCGCGCCGCCCGCCCCGCTT
+CCTCGTTCGCGTCCGCAGGGGTCCGTGTTTCCAGCCGCTTTCGCCATGGCTGCACTCACCCAGAACCCGCAGTTCAAGAA
+GCTGCAGACCTGGTAC
+>ref|X13919.1| Suncus murinus S(u) sequence upstream of mu-immunoglobulin C gene
+GAGCTGGACTGAGCTGGGAGAGCTGAGCTGGGCTGAGCTGAGCTGGGCTGAGCTGGGTGAACTGAGCTGGGCTGAGCTGG
+GAGAGCTGAGCTGGGCTAGACTGAGCTAGGCTGAGCTAGGTGAGCTGAGCTGGGCTGAGCTGAGCTGGGTGAGCTGAGCT
+GGGCTGAGCTGGTTGAGCTGGGCTGAGTTGGGTGAGCTGGACTGAGCTGGGTGAGCTGGGTTGGGTTGAGCTGAGCTGGG
+AGAACTGAGCTGGACTGAGTTGGGTTGAACTGGGCTGAGCGGGATGCACTGGGCTGAGCTGAGCTGGGTGAGCTGGGGTG
+AGCTAGGTGAGCTGAGCTGGGCTGAGCTGGGTTGAACTGGCCTGAGCGGGGTGAGCTGAGCTGGGCTGAGCTGGGTGATC
+TGAGCTGGGCCGAGCTATGCTGGGCTGAGCTGAGCTGGGTGAGCTGAGCTGAGCTGAGCTGAATTGGACTAAACT
+>ref|Z11854.1| S.scrofa gene for 17a-hydroxylase cytochrome P450, exon 1
+TTTTTTTTTTTTTTTTTTTTTGTCTTTTGCTATTTTCTTGGCTCCCGGCGGGCATATGTGAGTTTTCCCAGGGCTAGGGG
+GTCGAATTGGAGCTGTAGCTGCCAGCCTATGCCAGAGCCACAGCAAATCGCGGGATCCGAGGCCGGCGTCTGCAACCTAC
+ACCACAGCTCATGGCAACACCGGCAATCGCGGATCCAGGCCGGTCTGCAACCTCACCACAGCTCATGGCCAACACCGGAT
+CCTTAACCCACTGAGCAAGGGCAGGGATCGAACCCGCAACCTCATGGTTCCTAGTCGATTCGTTAACCACTGTGCCACGA
+CGGGAACTCCACAAAATTATTTTTAATAAAAAGTTTATTTAGAGAGTTCCTGGTGATCTAGTGTTAGGACTCAGCACTCA
+CTGCTGCAGAGTCATGAGATTGCCCACATCAAGCCACTGGCCAAAAGAAGGGGAAAAAATTTTTTTTAAAACATGTAGAG
+GTCAAACAAGAGTTTCAGCCCAAACCTATCTGTTCTAGGGCACATGCTCTCAACCCAAGGGTTCACTCCCCCCCTTGAAA
+AAAGCAGCAAAAACAGGAATCAGGAGACCTGGGTTCTTGTCATTACCGTCTTGTGTGACCTTATGCAAGCCCTGCCTTTG
+AGGGCCCTCACTTTCCTCAGCTGTTAAATGATAACGAATGGATAGAATACTTGACATATCCTGCTAGTATACCCTGTGCT
+AGTTATAACCACTCCTGACAGTGTAAGCTGTCTATTGATTTGAGATTTTACAACACAGCCAACCGTTGATCCCGTGATCG
+ACCCAGATACCATTTGCTTCTGGCACACTCCGGAGTTACTGGACAGGGAGGAGGGGCAGGACCAGCCGCAGCCCCCTTAC
+CTAGCCCCACCCCTAGAGGCTTGCCTGAAGTTGAGCCAGTTCTTGAGGAGGCCTCCACTCCTCTCCCCATTCTAGGAGAG
+GGCTCCGGTCTGGCTGTGCTCCAGAATAAACTTCCACAAGGCAAGCGATAACATAAAGTCAAGGTGAAGATCAGGGCAGC
+CTTTAAAAAGGGCTCCTTGCACCCTAAGTGGCTGAAGACACTCCAGAGCTGTCTGTCCTGCCTGCCGCCACCTGGCCACC
+ATGTGGGTGCTCTTGGTTTTCTTCTTGCTCACCCTCACCTATTTATTTTGGCCTAAGACCAAGGGCTCTGGTGCCAAGTA
+CCCCAGGAGTCTCCCAGTCCTGCCCGTGGTGGGCAGCCTGCCATTCCTACCCAGACGTGGCCACCAGCACATCAACTTCT
+TCAAGTTGCAGGACAAATATGGCCCCATCTTCTCCTTTCGTCTGGGTTCCAAGACTACCGTGGTAATTGGTGACCACCAG
+CTGGCCAAGGAGGTGCTTCTCAAGAAGGGCAAGGAATTCTCCGGGCGGCCCAGAGTGGTAAGCCAGTGCCCATCATCCCT
+GCTCAGAGTGGTGGGGGGTCCCCTCCAACTCAGAAAGTCGGTTCCAGTACGGAGCTTACTTGGATCCAACTCTAACAAGC
+CTGTGATTCTTTCAAAAACAGACCTATGGGGCTGTGGGGTGGGGTCCAACTCTAACAAGCCTGTGATTCTTTCAAAAACA
+GACCTATGGGGCTGTGGGGTGGGGGACCTTTGGCCACCCAGGCTCTAAACTAGGCAGGAAGAATTAAAGAAGAACTTTCT
+AGGCTCCCCAGGAGGGAGGGTGGGTGGGAGTGGTGGTTTTGAGGGGTCAGAGAGCCCTACAAACCGCAACTACCCCTGAA
+CTGGAGAGACTTCGAGCTAGTTTCTAACACCGAAA
+>ref|Z11855.1| S.scrofa gene for 17a-hydroxylase cytochrome P450, exons 2-5
+GAGTGCAGGAGGCCCTGGGAGAGGGGGAGTGGATGGAGTCTGATGGCTGTTCCTTTCCTGCTTTCCAAAGATGACTCTAG
+ACATCCTGTCAGACCATGGTACCTCCTGGCAGCTGCATCGGAAGCTGGCACTGAGCACCTTTTCCCTGTTCAAGGGTGGC
+AACCTGAAGCTGGAGAACATCAGTGAGTGCCCAGCCGGCCCTGGGCTGCTGGAGGGAAGAGGGGGCCTGGGGAGGAAGAG
+GATCGAGCGGGGGAGGGGGGGGATTCCATCTAGCGTTTTCTTGGCTACTGCTGCCAATCTTAGCGGACATCTTGCTCTCC
+ATCTTTGACTGGGCCTGGAGCTGGTGGAGAGGGAGGTGCTACCCATTCCCCCACCCTCATCCCCCTCTCTCCCCTCAGTT
+AATCAAGAAATCAAAGTACTGTGCGATTTCCTGGCCACACGGAATGGAGAGTCCATTGATTTGGCCCAGCCTCTCTCTCT
+GGCGATGACCAACATAGTCAGCTTTATCTGCTTCAACTTCTCCTTCAAGAAGGGGGATCCCGCGCTGCAGGCCATAGTGA
+ATTTCAATGATGGCATCCTGGATGCTGTGGGCAAGGAAATTTTGTATGACATGTTCCCTGGAATTAGGGTGAGAATAAGG
+TGGGCCCCACTGTGGGGATCTCAGCAGACCCTGACTGCATCCCCAGTTTTTCTTTCCTCTATGGTTCAGTTCCAGACCCA
+CCTTTTTACTGACCACCTCGCCTACAGGACCTCTACCTTCTCTCTTAAAACCTTGCCGCTTCTCTATGGAACTAGGTTAA
+GCCTTTAAATCATGCATTTTAATACTCATGATAATGGCTCTGTTCATTTACCAATTGCCTTCTGCCGAGAGTGACACTCC
+CACATGCATTCATCACGTGTTCCCCTGGGAACAGGTTTTATTGTCCCACATAGGTCTACTAAGTAAACCCTCCATCAGTG
+CTGGACGCTGACTGAATGGGGAAGGGCAAGTGGAGGTGGCTCCGGCCTCCTTTGTTTAAAAATGTCCTAGTTGTCACTGA
+TGGGTCCCATCCTGAGTCCCTCATCCGGCTCTCCATTCTGGCTAAAGGTTGAGGTTAGAGTGGGGACTCTCCAGAGACAG
+AACAGGTAGACTTTGACATTTTTACTTTGCAGATTTTACCCAGCCAAACTCTCGAAAACATGAAGCAGTGTGTTAGAATG
+CGAAACGAATTGCTGCGGGAAATTCTTGAAAACCGTAAGTAGGTGGTGATGAAGCAGGAGAGATGACGAATTAGGTTGAA
+GGTCTGAGAGCAGGCTTGGGTCATTTGGACGTTAGGAGCTCAGCACTAGGAGGGAGCCTGGCACATAGTAGGGGCTCAAT
+AAAAACTGACAAATAATGAACAGGGGTGAGGAATCGAAGAAGATCCTAGGAGGGGCCCACCCACACCTCCCAATTTAAAG
+CGGGTTCAGTGCTTCCTCCTACTTCCACAAGCTCACAGGTCCTGACTAGCCTTACTCCGCTCCCTCACTTCCAAGTGGAA
+GAAGTCTTTGTTTCTGCCAGGGGGACCCATAGCCCTCCCCGAGCTCTACCCCGAGGAAGGAGTAGTGCAGAGAAGGTTAG
+AGCGCCAATCAGGAGAACTACAGCAGAAACTCCATCACTAACTTGTTGGACATAATGATCCAAGCCAAGACGAACGCAGA
+AAGTAACACTGGTGGCCCAGACCACAATTTAAAGCTGCTTTCAGACAGACACAGTCTCGCCACTGTTGCGGACATCTTTG
+GGGCCGGTGTGGAGACTTCTGCCTCTGTGGTAAAGTGGATCGTGGCCTTCCTTGCTACACTATGTCCTCTGGTGAAGCCT
+TTCCATCCCCGACCCTTT
+>ref|Z11856.1| S.scrofa gene for 17a-hydroxylase cytochrome P450, exons 6-8
+GGTCAGCAGCTCTCTGATGTGACATGGATTCTTCTAGCCTTGCATCAGTGCTTCTGGCTCACACACCTGTCACATCCACC
+TTGTTCTTGGCCCTCAGCTGAGGAAGAAGATCCAGGAAGCTATCGAACAGAATATTGGTTTCAATCGCGCCCCATCTATA
+AGCGACCGAAACCAACTTGTCCTCCTGGAGGCCACCATCCGAGAGGTGCTTCGATTCCGGCCTGTGTCCCCTACGCTCAT
+CCCCCACAGGGCTATCATTGACTCCAGGTGTGCTTTCCTCCCGGTAACATCCAGCCCTGTGATGCATTCAGGGCTCCTTT
+TCAGCCCACGTGGTCCCTCCTCCATCACCCCAAACCTACTATCAATCATCCCACCCATGAGCCTATTGACCGAGGTATCT
+GCCACCCGCTGCCACCCACTGACTAATCCACAGGTCTCTCTGACCTCCCTCAGAAGCTGCCCAGGAGATATGTGGTCTTG
+GGATGAAAGATCGTGGGTGCGTTCTGTCCCAACCCAATCCAATTGCTGTACCGACGTTCTCGCACCAGCTCAACCCGCAT
+ACCCACCTACCCTGACATACCCGCATGGTTGATGCATTAGTGCCGGCCAGGAAAAGAGGCCTGGATTCATAGTCGATCTG
+GCAGAACGTGAGGAAAAGATGAGGGAGTGGACATGAGGGGGTAAAAGGCTCCTTTCCCCCAGGGTTGGGGACCATGAGGC
+TTGGGGCTGGGCAAGACTCCATGGTCTCCCCTCCCTCTCTGGGGCAGCATTGGCGAATTTACCATTGACAAGGACACAGA
+TGTCGTCGTCAATCTGTGGGCACTGCATCACAATGAGAAGGAGTGGCACCGGCCCGACCTGTTCATGCCTGGTGAGTTCC
+TGTTCTTTGGGGGAGTGTGGGGGAGCTGGCTGCTCCCCGGCCACACAGCCAGCCTGGTCTCTGTAACCCCCGCTCCAGCA
+GCACTTGCCCTCTGCCAAGTTGGCTCTAGAAAACTCCTGACTCCAACTATGGTCCTGTTGACCCGTCCCTTTTACCCTAG
+ACTTACCCAGATTCTTTGCCAGGATCTGGGGTTCCCACTTTCTCCTTCCACCAATCTCAAATCTCCTCCTCTAAGAAGCC
+CTCCAGGCAATGTCTCCCTCTCCCCTGGGATGGTGGCATTTTCATCTGCTAATACACCTTCTTTCCATCCTTCTGGAATA
+TTCTGGAATATTCATTCTCCTCTGTGTGATTCAGGGCGGCCTAGGGCAGGGTTGTATCTCCTCAACCGCCCCACCCCCGT
+CCCCACCCCCGACCCCGCCAAAGTCAGCGTTCCGCCTTCTCAATAGTCTGGCGTTCTACTCCTCTATCTCCTCCCGTCCC
+CTGGCTTCCCCACTGAGTCCTCCGCATGTCCGCAGAGCGCTTCCTGGACCCCACGGGGACCCAGCTCATCTCACCATCAT
+TGAGCTACTTGCCCTTCGGAGCAGGACCCCGCTCTTGCGTAGGGGAGATGCTAGCCCGGCAGGAGCTCTTCCTCTTCACG
+GCTGGATTGCTGCAGAGGTTCGACCTGGAGCTCCCAGATGATGGGCAGCTACCCTGTCTCGTGGGCAACCCCAGTTTGGT
+CCTGCAGATAGATCCTTTCAAAGTGAAGATCAAGGAGCGCCAGGCCTGGAAGGAAGCCCACACTGAGGGGAGTACCTCCT
+GACTCCACCCTGGGTGACCTCGCAGGCAGAGAATGAGAGTGTCCTACCTCCCCCCC
+>ref|NM_214261.1| Sus scrofa cholinergic receptor muscarinic 2 (CHRM2), mRNA
X04708.1 Porcine mRNA for cardiac muscarinic acetylcholine receptor (mAChR)
+CGAAGGGCTCCCCACTCCTAGCCAGCCCACACCAAGCTTCTTGCAGCCCGGGGAGCAAGTGGAACTAAACCTGCGGCAGG
+TTTAAATGTGTATTTGGCTACTTGGCTACTGAGTAGAGAACACAAAATGAATAACTCCACCAACTCCTCTAACAGTGGCC
+TGGCTCTGACCAGTCCTTATAAGACATTTGAAGTGGTTTTTATTGTCCTTGTCGCCGGATCCCTCAGTTTGGTGACCATT
+ATTGGGAACATCCTGGTCATGGTCTCCATCAAAGTCAACCGACACCTCCAGACAGTCAACAATTACTTTTTGTTCAGCTT
+GGCCTGTGCTGACCTCATCATTGGTGTTTTCTCCATGAACCTGTACACTCTTTACACTGTGATTGGCTACTGGCCTTTGG
+GCCCCGTGGTGTGTGACCTTTGGCTAGCTCTGGACTACGTGGTCAGTAATGCCTCAGTAATGAATCTGCTCATCATCAGC
+TTTGACAGGTACTTCTGTGTCACGAAGCCGCTCACCTACCCCGTCAAGCGGACCACAAAAATGGCAGGTATGATGATTGC
+TGCTGCGTGGGTCCTCTCCTTCATCCTCTGGGCTCCGGCCATTCTCTTCTGGCAGTTCATTGTAGGGGTGAGAACTGTGG
+AGGATGGTGAATGCTATATACAGTTTTTTTCCAACGCTGCTGTCACCTTTGGCACTGCCATTGCAGCCTTCTATTTGCCT
+GTGATCATCATGACTGTATTATACTGGCACATATCCCGAGCCAGTAAGAGCAGGATTAAGAAGGACAAGAAGGAGCCTGT
+GGCCAACCAAGAACCAGTTTCTCCAAGTTTGGTACAAGGAAGAATAGTGAAGCCGAACAACAATAATATGCCTGGCAGTG
+ATGAAGCCCTGGAGCACAACAAAATCCAGAATGGCAAAGCTCCCAGGGATGCTGTGACTGAGAACTGTGTCCAGGGAGAG
+GAGAAAGAAAGCTCCAACGATTCCACCTCAGTCAGTGCTGTTGCCTCTAATATGAGAGATGATGAAATAACCCAGGATGA
+AAACACAGTTTCCACTTCCCTGGGCCATTCCAAAGATGAGAACTCAAAGCAAACATGCATCAAAATTGTCACCAAGACCC
+AAAAAAGTGACTCATGCACCCCAGCTAATACCACTGTGGAGCTTGTTGGTTCTTCAGGTCAGAATGGAGATGAAAAACAG
+AACATTGTCGCTCGCAAGATTGTGAAGATGACCAAGCAGCCTGCAAAAAAGAAGCCGCCTCCTTCCCGGGAAAAGAAAGT
+GACCAGGACGATCTTGGCTATTCTGTTGGCTTTCATCATCACTTGGGCCCCGTACAACGTCATGGTGCTCATTAATACCT
+TCTGTGCACCCTGCATCCCCAACACAGTGTGGACAATTGGTTATTGGCTCTGTTACATCAACAGCACTATCAACCCTGCC
+TGCTATGCACTTTGTAATGCCACCTTCAAGAAGACCTTTAAACACCTTCTTATGTGTCATTATAAGAACATAGGCGCTAC
+AAGGTAAAACATCTTTGTAAAGAAGGAAGGTAGTCAAGAGGAGCTTGAGGAACAGAAAAAGAATGAAAGAGCTCCTAGTT
+TTAAAATCTCTGCCATTGCACTTTATAGTCTTATTAATGGAATGTGCAATTAAGGAGCCCTACAG
+>ref|NM_214033.1| Sus scrofa acrosin (ACR), mRNA
X14844.1 Boar mRNA for preproacrosin
+GAGGTCACTGGGCTTCCAGGCCAGGCCGGCGAGGAGCGCGGTAGAGATGCTGCCAACTGCCGTTCTGGTCCTGGCAGTGT
+CTGTGGCGGCCAGAGATAACGCCACGTGTGATGGCCCCTGCGGCTTACGGTTCAGGCAGAAATTAGAGTCAGGCATGCGT
+GTGGTTGGCGGCATGAGTGCAGAACCGGGCGCCTGGCCCTGGATGGTCAGCCTCCAGATCTTTATGTACCACAACAACCG
+GAGGTACCACACGTGCGGGGGCATCTTGCTGAACTCGCACTGGGTGCTCACTGCTGCTCACTGCTTCAAGAACAAAAAAA
+AAGTTACTGACTGGAGACTGATTTTCGGAGCAAACGAAGTTGTGTGGGGAAGCAATAAGCCGGTGAAGCCACCCCTGCAG
+GAGAGATTTGTTGAGGAGATCATCATTCATGAAAAATACGTTTCAGGGTTAGAGATAAATGACATTGCTCTCATAAAGAT
+CACCCCTCCTGTTCCATGCGGGCCCTTCATCGGACCAGGCTGCCTGCCCCAGTTTAAGGCTGGCCCGCCCAGAGCGCCCC
+AGACATGCTGGGTGACTGGCTGGGGCTACTTAAAAGAGAAAGGCCCCAGGACGTCACCTACACTGCAGGAGGCACGTGTG
+GCCCTCATCGACCTCGAATTATGTAACTCGACCCAGTGGTACAATGGGCGTGTCACGTCAACTAATGTGTGCGCAGGGTA
+TCCTAGAGGCAAGATTGACACCTGCCAGGGGGACAGCGGCGGGCCTCTCATGTGCAGAGACAGAGCGGAAAACACCTTTG
+TGGTCGTGGGCATCACAAGCTGGGGGGTAGGCTGCGCCCGAGCTAAGCGCCCTGGAGTCTACACGTCTACCTGGCCCTAT
+CTGAACTGGATTGCTTCCAAGATTGGTTCTAATGCCTTGCAGATGGTTCAACTGGGCACCCCTCCCCGTCCTTCTACTCC
+AGCACCCCCTGTCAGACCCCCCTCTGTTCAGACTCCTGTTCGCCCACCTTGGTACTTCCAACGCCCTCCTGGACCCTCCC
+AGCAACCTGGGTCCCGCCCCCGCCCCCCAGCTCCCCCCCCTGCCCCGCCCCCCCCGCCCCCCCCACCCCCACCGCCTCCA
+CCACCCCCACCCCCACCCCCACAGCAAGTTTCCGCTAAACCTCCCCAAGCACTTTCCTTTGCCAAGCGACTGCAGCAGCT
+CATAGAGCTGAAGGGGACGGCATTCTCTAGTGGAAAGGAGCTATTATGAAACAGAGACCACAGACCTCCGAAGAACTGCC
+CGCCTCCTGATTTGACCTCATTTTCACCTGATTTGGACCCATTGCACACCTCATCCCTGAGAAAAAAAAGGATGAAATAA
+ATGACTATAAATACAAATATAAATATATATACATAAAG
+>ref|X54669.1| Porcine mRNA for prepro atrial natriuretic peptide (ANP) with human-derived PCR primers
+ACGACGCCAGCATGAGCTCCTTCACCATCACCGTGAGCTTCCTCCTCGTTCTGGTGTTTCAGTTCCCAGGGCAAACCAGA
+GCGAACCCTGTGTACGGCTCCGTGTCCAATGCAGACCTGATGGATTTCAAGAATTTGCTGGACCACTTGGAGGACAAGAT
+GCCTTTAGAAGATGAGGCTATGCCCCCACAAGTACTAAGCGAGCAGAATGAGGAAGTGGGGGCCCCTCTCAGCCCCCTTT
+TGGAGGTACCTCCCTGGACCGGGGAGGTGAACCCAGCCCAGAGAGATGGGGGTGCCCTGGGGCGGGGCCCCTGGGACGCT
+TCCGATAGATCTGCCCTTCTGAAGAGCAAGCTGAGGGCACTGCTTGCTGCCCCTCGGAGCCTGCGGAGGTCCAGCTGCTT
+CGGGGGTAGGATGGACAGGATTGGAGCACAGAGTGGACTGGGCTGTAACAGCTTCCGGTACTGAAGATAACAGC
+>ref|X16088.1| Sus scrofa aminopeptidase N gene and 5'flanking sequence
+GAATTCCAAGAGCAAAAGGAAGGTCTTAAGCAGTGGGTAAAATGATCCAATTTGTGTGGCAAGCTTGTTTGAGGGGGCCC
+TAGTGCAAGTGATTATCCACTAGGATAACGTGAGGATCCAGCCTTGCCCACATAAATGATGAGAATGCTTTTGCCAAGGA
+CACGGTGAGAATGGGGGAGAGGGTGAGTCAGATGTTGGGGTGAGGGTCAGGCGTTGAGGTCCAAGAAACTGGTGGATGGG
+AAGGGTGACAGTGAACATTGTTTTCCTGTAAGGACATGTGCTGTTGAGTATAAGGAGTACCTTCATTTCTACCACGGATA
+GAATGGGTGACCCTCTGGATGAGAAAGAAGGGAAGGATTTTGAGGTTCTACTATATGGTGTTTAATATGTTTTCTAACAT
+TAAATCCGCTCACCAAATCTGAGACGTAAATTCTAGTATTTATTTATGTGAACAGGGTTCTCAGAAAGGAGAACTTACCT
+GCCAGAGGTCATGGCTGGGAAGAGGTTAAGCCGCCGCTAGCCTCCCTTCTTTAAAAAAAAAAAAAAAAAAAAAAAAAGGC
+AAAACAACTTATTTCATTCTACTCAGTGAGCTGATAATTGAGGGGAAAGTTTTTGGCAAGAAGGGAAAGTGGCGGGGGGA
+GGACCTGGAAGAACTCCCTGCTCTGGAAGAATGCGGGAGGCTGGGACCATGTCCCTGAGGAGCGCCGGGCATCCCTCCAA
+CTGCAGGGCTGACCCGGTGTGGTCTTGACCCGAGCCAGAGGCCGGCTCTCCCCGTCTTTTCACCTCCCACCTCTTGCTCC
+TGGGACGTCCTTCGACCCTCCTGGATCTAACCTCAGTCTTCCTGCTCCTGTGCCTGTTGTCATAGCTCACAGCTCACAGG
+GAGATCCAAGCCACCTGGCCGCTCCCTCTCCCCGCTGGGCCAGCTGCCTGCCACCTGCCCTTCAGCCCTTGGTGGGCTCC
+CAGGCTCCTGCAGCCTGTAACCAGACCCTGTTTGCTCCCAGCAGGCACCCCTGAGCCGCACTCCGCACGCTGTTCCTGAA
+TCTCCCCTCCAGAACCGGTGCAGTGTCTCTACCCAGTTCAGTGACCTTCGTCTGTCTGAGCCCTGGTTAATTTTTGCCCA
+GTCTGCAGGCTGTGGGGCTCCTCCCCTTCAGGGATATAAGCCTGGTCCGAAGCTGCCCTGTCCCCTGCCCGTCCTGAGCC
+TCCCCGAGCTCCCTTCTCACCCTCACCATGGCCAAGGGATTCTACATTTCCAAGGCCCTGGGCATCCTGGGCATCCTCCT
+CGGCGTGGCGGCCGTGGCCACCATCATCGCTCTGTCTGTGGTGTACGCCCAGGAGAAGAACAAGAATGCCGAGCATGTCC
+CCCAGGCCCCCACGTCGCCCACCATCACCACCACAGCCGCCATCACCTTGGACCAGAGCAAGCCGTGGAACCGGTACCGC
+CTACCCACAACGCTGTTGCCTGATTCCTACTTCGTGACGCTGAGACCCTACCTCACTCCCAACGCGGATGGCCTGTACAT
+CTTCAAGGGCAAAAGCATCGTCCGCTTACTCTGCCAGGAGCCCACCGATGTCATCATCATCCATAGCAAGAAGCTCAACT
+ACACCACCCAGGGGCACATGGTGGTCCTGCGGGGCGTGGGGGACTCCCAGGTCCCAGAGATCGACAGGACTGAGCTGGTA
+GAGCTCACTGAGTACCTGGTGGTCCACCTCAAGGGCTCGCTGCAGCCCGGCCACATGTACGAGATGGAGAGTGAATTCCA
+GGGGGAACTTGCCGACGACCTGGCAGGCTTCTACCGCAGCGAGTACATGGAGGGCAACGTCAAAAAGTAAGTCAGGTGGG
+GGCACACCCTAGATGCTGAGGCAGAGCTGGATCCTGGGGGCCAAGGAAGGGCTTGGATTCGGGACCTTGGAACCTTCTGG
+AGACTTTGGCTGGCCCGTCGCTCCATCCGCAGCTCTGGTAGAGAAGCTATCTAGACAATCAGCCCTTTCCCGGAGAGCCC
+CCCTAACCTTAGGGAGTCAGGGGTGAGTGATCCAAGTGCCCCCTTGGTAGAAAGGAAAACAGGCTCTGAGGACAGAAATT
+TGCCCAAGGTCTCCCAGCTAATTCAGGGGTGGAGCCTGCCCGGACTTTGACCCCAAGTCCAGAAGGAGCTCTGCTCTCCC
+AAGTCAGCTGGCCTGTCAGCCTGGACGGGCCTGGGGGAGGCGGGGAGGGACGGATGGGGCTGTGCACCCCTTTCCATGCC
+CAGCCAGCCATGGCCTACACCCCCCACCCCCGGCCACCCCATGGGCACAGGCATTTTGCTGGCATACCTTCTAACCCCCT
+GCTTCGGGCAGGGTGCTGGCCACGACACAGATGCAGTCTACAGATGCCCGGAAATCCTTCCCATGCTTTGACGAGCCAGC
+CATGAAGGCCACGTTCAACATCACTCTCATCCACCCTAACAACCTCACGGCCCTGTCCAATATGCCGCCCAAAGGTGAGC
+GGGCTGGCGGGGACCACACGGCCTGGGAAAGCAGGTCCCTGGGGCTGGGGTGCAGGTCCCTGTTGCTGGGGTGCAGGCCC
+AGGAAGAGGGCACCCCTCCACGCCTGCGTGTCGCACCCAGGTTCCAGCACCCCACTTGCAGAAGACCCCAACTGGTCTGT
+CACTGAGTTCGAAACCACACCTGTGATGTCCACGTACCTTCTGGCCTACATCGTGAGCGAGTTCCAGAGCGTGAATGAAA
+CGGCCCAAAATGGCGTCCTGGTAAGGGCTGAGCCCACCTGCCCTTCCCCACATTGGCCCTGGCCTGGGAAGTATTCCCAT
+TTATCCTCATCCTTGTCCCTGTGCTTAGATCGTGAGGCAGTGAAAGAATTC
+>ref|X69478.1| S.scrofa gene for apolipoprotein A1, exons 1-3
+CGCAGCTTGCTGTTTGCCCAATGTATTTGCCCGGCCCCAGGGACAAAGCTGATCCTTGAACTCTAAGTTCCACATCTCCA
+GGACCAGTGAGCGGCGGCAAGGCCTGGGCTGGGCTTATCAGCCTCCCAGCCCAGCCCCTGCTTGGCAGCATAAATAGGCT
+GGAGGAGACCGGGCAGTCAGAGACCGCTGGCGCATCGAGGTGAGTGCTGCTACTTGCTCAGGTTACCCTAGCTTCCCCCA
+GCTCTAGGCACTGGAAGCTCAGGCCCTGGGATCCCAGCTCCAGCCTCTGCCCTGGGGCACTGGACCCCTGGCCCTCTCCC
+TCTCTGTGCCCCGCCTCCTGCACTCAGCCGGCCCCTCTTCTCCTCCAGGTCACCCACGTCCCTTCAGGATGAAAGCCGTG
+GTGCTGACCTTGGCTGTGCTCTTCCTCACAGGTAGGTGCCCCCAACCTAGGGAGCCAACCTTCGGGGGTGTCTTCTGCCT
+GAACCCCTGCAGTCCACCCTCCTGAGCATGGGAGCAGAATTTCTCCCTCCTGCCCTTCTCCGCTGCCTGGCATTTCAGCT
+CAGATCCTGACCCGGAGCTGGCCTGATCTGGGTCTTCCCTCCCACCCCCAGGGAGCCAGGCTCGGCATTTCTGGCAGCAA
+GATGACCCGCAGTCACCCTGGGATCGGGTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGTGGCAGAGA
+TTATGTGGCCCAGTTTGAAGCCTCCGCTTTGGGAAAACACCTCAAGTAAGGACCCTGGGGCCTAGGGCAGAGGTAGGGGG
+TACCGGTGCTGGGGATGGGGTGGAGAGGCCTGTGGGAAGAAGCAGCCAGATTGGCCG
+>ref|X69479.1| S.scrofa gene for apolipoprotein A1, exon 4
+CTGCAGGTGCAATGGGGTCCATTCGTCCTAACTTCCCTCCTCTGCTCCTGCCAGTAGCAGGGACAGCTGTCTTCAGAGAG
+GAGAATGGGGCTGGAAGGGTAGAGACCAGGTCCTTAAAAGGACTGGCTTCAGGGACAGACAGGACTGGGCACCAAACGCA
+GCTCCTTGGTCTATCTGGTCGATGGGGTGCAGTGTGGTGGTGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCTC
+GNNNCGTGCACAATGATGGAGAGAAGCTAGGCTGAGGGTCTGGCCCCAGCAACCACACTTTCAGGGGCACATGTGCCCGG
+TCCCACCCCAGACCAAGCTGGGTGCTGGGTTGCAGCTCCAGAGGTGTCCACGGTGCCACCCGGGAGGCCTGCCCTGAGCC
+CTCCTCTCTCTCTTCCCTTTAGCCTGAAACTCCTGGACAACTGGGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAG
+CAGCTGGGCCCAGTGACCCAGGAGTTCTGGGACAACCTGGAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGA
+CCTGGAGGAGGTGAAGAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACC
+GCCAGAAGATGCCGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCG
+CTGGCCGAGGAGCTCCGCGACCGCCTGCGCGCCCACGTGGCAGCGCTGCGCCAGCACGTGGCGCCCTACAGCGACGACCT
+GCGCCAGCGCATGGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGACAGCCTAGCCGAGTACCAGGCCAAGGCCCAGG
+AGCAGCTGAAAGCGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAAC
+CTCAAGGTCAGCATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCCCCCCCCCCCCCT
+CGCCATCAGTTCGGCTTCTTGGAATAAG
+>ref|Z14124.1| S.scrofa apoAI gene
+TTAGAATATATTATTTATTATTTTTGACAGACACGCGACAGTGAGTTCCCAGCCAGAATTGAACCCGAGCCATAGCAGTG
+ACAATGCAGAATACCAAGGTCACCAGGAACTCCCAGAGACCAACTTTTTTGATTGGGTGTCCTGTGGATTAAAATTTTGA
+AGTATGTATTCTCAATATTTGGGTATTTATTAAATGACACCCTGGTACTTCTGTATTTGTATGTTTTAGTCATCATAAAT
+GAAACAGCAAAAAATAGAAATAACAGAGGGCAAGCTTAACAATAAATAGAAATGGAACTTCCAGCATTTTCTTACCTGCC
+CCTAACTCACCAGGTGCCCTCCCCAGGGTGTGTGTATCTTTTTAGAGACCACTGCTCTCTGTTCATATTTGTACCCCCTA
+TGCCTTGCTCAGGGCCTAGCACACAGTAGGTACGGGATAGATGAATAAAAATGAAGTCATAGGGGAGTTCCTGTCATGGC
+TCAGTGGTTAACGAATCCAGCTGGGAACCATGAGGTCGGGGGTTCGATCCCTGGCCTTGCTCAGTGGGTCAAAGATCTGG
+CCTTGCCGTGAGCTGTGGTGTAGGTCACAGACGTGGCTTGGATCCCACATTGCTGTGGCTCTGGCTAGGCTGGTGGCTAT
+AGCTCTGATTAGACCCCTAGCCTGGAAACCTCCATATGCCATGGATGTGGCTTTAGAAAAGACAAAAAAAGACACACACA
+GAAAAAAAGTGAAGTCATAGGAGTTCCCCTTGTGGCTCAGTGATAATGAACCTGACTAGGATCCGCATTGCCATGAGCCG
+TGGTGTAGGTCACAGCTCTCAGCTCAGATCCAGGAAGGAGGTCGAGGGCCTGGGAGGAGGTGGGGACGGGAGCTGGGACA
+CGACTGGTGAGAGGACCGACTGCCGCTGTGTGAGATGGGGGCAGGGTGGGGGTGAGATAATCTCCCTGGAATCCGAGGGG
+ACCGCAGGGAGGACATGGCCTGAGCCGAGGAGTCCCGGCCATCCCTGGCAGCTCGTGCTTTTTCTTCCTTCCTGCCTCTC
+CGCTCGTGGGCTGGCACAATGGACAATGGCGGGAACACAGCCACCACCGAGAAGGGGCCAGCTGACCCCGACTCTGGGGA
+CCTGCAAGCCCGGACCCACCCCCTCCCACCCCCGCCTGAACCCTTGATCCCTGCGCCTGCAGCCCCCACAGCTTCCTGTT
+TGCCCCGATGTATTTGCCCGGCCCCAGGGACAAAGCTGATCCTTGAACTCTAAGTTCCACATCTCCAGGACCAGTGAGCG
+GCGGCAAGGCTGGGCTGGGCTTATCAGCCTCCCAGCCCAGCCCCTGCTTGGCAGCATAAATAGGCTGGAGGAGACCGCGG
+TCAGAGACCGTGGCGCATCGAGGTGAGTGCTGCTACTTGCTCAGGTTACCCTGGCTTCCCCCAGCTCTAGGCACTGGAAG
+CTCAGGCCCTGGGATCCCAGCTCCAGCCTCTGCCCTGGGGCACTGGACCCCTGGCCCTCTCCCTCTCTGTGCCCCGCCTC
+CTGCACTCAGCCGGCCCCTCTTCTCCTCCAGGTCACCCACGTCCCTTCAGGATGAAAGCCGTGGTGCTGACCTTGGCTGT
+GCTCTTCCTCACAGGTAGGTGCCCCCAACCTAGGGAGCCAACCTTCGGGGGTGTCTTCTGCCTGAACCCCTGCAGTCCAC
+CCTCCTGAGCATGGGGAGCAGAATTTCTCCCTCCTGCCCTTCTCCGCTGCCTGGCATTTCAGCTCAGATCCTGACCCGGA
+GCTGGCCTGATCTGGGTCTTCCCTCCCACCCCCAGGGAGCCAGGCTCGGCATTTCTGGCAGCAAGATGACCCGCAGTCAC
+CCTGGGATCGGGTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGCGGTAGAGATTATGTGGCCCAGTTT
+GAAGCCTCCGCTTTGGGAAAACACCTCAAGTAAGGACCCTGGGGCCTAGGGCAGAGGTAGGGGGTACCGGTGCTGGGGAT
+GGGGTGGAGAGGCCTGTGGGAAGAAGCAGCCAGATTGGCCGAATCCCCACCTGCTATTTGATGGGCCCCATAGAAGACCT
+GGATGGAAGAGAGGAGTGGGCTCCCCATGCAGGGTCACCTCCGCTTAGCAGGGCTGCCCAGTCAGTATCTACAGCACCTC
+ACTGCTCGCTGCAGGTGCAATGGGTCCATTCGTCCTAACTTCCCTCCTCTGCTCCTGCCAGTAGCAGGGACAGCTGTCTT
+CAGAGAGGAGAATGGGCTGGAAGGGTAGAGACCAGGTCCTTAAAAGGACTGGCTTCAGGGACAGACAGGACTGGGCACCA
+AACGCAGCTCCTCGGTCTATCTGGTCGATGGGGTGCAGTGTGGTGGCGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
+GTGCGCTCGCTGCACAATGATGGAGAGAGCTAGGCTGAGGTCTGCCCAGCAACCACACTTTCAGGGCACATGTGCGGTCC
+ACCCAGCAGCTGTCTGGGTTGCAGCTCAGAGTGTCACGTGCACCCCGGGAGGCCTGCCCTGAGCCCTCCTCTCTCTCTTC
+CCTTTAGCCTGAAACTCCTGGACAACTGGGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAGCAGCTGGGCCCAGTG
+ACCCAGGAGTTCTGGGACAACCTGTAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGACCTGGAGGAGGTGAA
+GAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACCGCCAGAAGATGGCGC
+CGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCGCTGGCCGAGGAG
+CTCCGCGACCGCCTGCGCGCCCACGTGGAGGCGCTGCGGCAGCACGTGGCGCCCTACAGCGACGACCTGCGCCAGCGCAT
+GGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGGCAGCCTGGCCGAGTACCAGGCCAAGGCCCAGGAGCAGCTGAAAG
+CGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAACCTCAAGGTCAGC
+ATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCTCGCCCGCGCTCCCCTCGCCATCAG
+TTCGGCTTCTTGGAATAAGCAGTTCCGGAGCAGGACGCTTGTGATGGGTTGTATTTTTTTGTGAAGCTTCGATGTTGATT
+TTTAAACAATAAAAAGTTCTCCAAAACCCAGAAAATTGTCTTTGGGGAGACTGGGGTGGGGAGGGGGTGCTTTGGCGAAG
+TAGCCCGGGGCGCGCCCAGCGGGGCAGGAACTTCCCGGTCCATGATCCAGTGGAGGCATCAGCTCTGAAGCCAAGTCTCT
+CAGAGCTTTAATGGTGGAGGACCTGCTAGCCCCCGGGCTCAGGGGTGAGGCAGTGGGCTCTCTCTCCTAAGGAGGCCAGA
+ACAGAAGGGAAATAATAGAGAAGCAGGCAAAGTTACAGATAATGCAGTGCAGTCGGAAACTAGACTGAGTACTGACTGAG
+TCGTGTGCTCAGCAACGATCTGACTGACTACTGAGACCAGA
+>ref|X17057.1| Pig brain mRNA for truncated apolipoprotein A-1
+GTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGCGGTAGAGATTATGTGGCCCAGTTTGAAGCCTCCGC
+TTTGGGAAAACACCTCAACCTGAAACTCCTGGACAACTAGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAGCAGCT
+GGGCCCAGTGACCCAGGAGTTCTGGGACAACCTGGAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGACCTGG
+AGGAGGTGAAGAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACCGCCAG
+AAGATGCCGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCGCTGGC
+CGAGGAGCTCCGCGACCGCCTGCGCGCCCACGTGGCAGCGCTGCGCCAGCACGTGGCGCCCTACAGCGACGACCTGCGCC
+AGCGCATGGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGACAGCCTAGCCGAGTACCAGGCCAAGGCCCAGGAGCAG
+CTGAAAGCGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAACCTCAA
+GGTCAGCATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCCCCCCCCCCCCCTCGCCA
+TCAGTTCGGCTTCTTGGAATAAG
+>ref|X03937.1| Pig mRNA for (Na+,K+)-ATPase beta-subunit
+CCGCAGCGGCAGGCGGTGCCAGCCTGCGGAGAAGCCAGGCAGGGGACACTGATTGGCAGGAGAGGACGCAAGACGCACGC
+GGCAATCACCCATCTTCAATCCCCGCAGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAGC
+TGGAAGAAATTCATCTGGAACTCCGAAAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTTTAAGATCCTTCTATT
+CTACGTTATATTTTATGGCTGCCTGGCTGGCATCTTCATTGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTTA
+AGCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGAGCCAAAAGACTGAAATTTCTTTTCGT
+CCTAATGATCCCCAAAGCTATGAATCCTATGTGGTAAGCATAGTGAGGTTCCTGGAGAAGTACAAAGATTTGGCGCAGAA
+GGATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGAACGAGGAGAATATAACAACGAACGAGGAG
+AGCGAAAAGTGTGCAGGTCCAGGCTCGAATGGTTGGGAAACTGCTCTGGATTAAATGATGAAACCTATGGCTACAAAGAT
+GGCAAACCCTGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGAC
+TTACCCAGTGATGAAGTATAATCCATATGTCCTGCCCGTTCATTGCACTGGCAAGCGTGACGAAGATAAGGAGAAAGTTG
+GAACCATGGAGTATTTTGGCCTGGGCGGCTACCCTGGTTTTCCTCTACAGTATTACCCTTACTACGGCAAGCTCCTGCAG
+CCCAAGTACCTGCAGCCCCTGATGGCTGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGGC
+GTATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGAT
+CACAAGCTCTTTCCCACTAGCCATTTAAAGAGTTTAAAAGATTCAGAAACAAAAACCTACTAGTCTTGAACAAACTGTCA
+TACGTAGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAATTTAAAGTGT
+AGCAATAGCAACAAAATATTTATTCTA
+>ref|X04635.1| Pig mRNA for ATPase beta-subunit (EC 3.6.1.3) (Na(+),K(+)-activated adenosine triphosphatase)
+CCGCAGCGGCAGGCGGTGCCAGCCTGCGGAGAGCCAGGCAGGGGACACTGATTGGCAGGAGAGGACGCAAGACGCACGCG
+GCAATCACCCATCTTCAATCCCCGCAGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAGCT
+GGAAGAAATTCATCTGGAACTCCGAAAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTTTAAGATCCTTCTATTC
+TACGTTATATTTTATGGCTGCCTGGCTGGCATCTTCATTGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTTAA
+GCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGAGCCAAAAGACTGAAATTTCTTTTCGTC
+CTAATGATCCCCAAAGCTATGAATCCTATGTGGTAAGCATAGTGAGGTTCCTGGAGAAGTACAAAGATTTGGCGCAGAAG
+GATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGAACGAGGAGAATATAACAACGAACGAGGAGA
+GCGAAAAGTGTGCAGGTTCAGGCTCGAATGGTTGGGAAACTGCTCTGGATTAAATGATGAAACCTATGGCTACAAAGATG
+GCAAACCCTGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGACT
+TACCCAGTGATGAAGTATAATCCATATGTCCTGCCCGTTCATTGCACTGGCAAGCGTGACGAAGATAAGGAGAAAGTTGG
+AACCATGGAGTATTTTGGCCTGGGCGGCTACCCTGGTTTTCCTCTACAGTATTACCCTTACTACGGCAAGCTCCTGCAGC
+CCAAGTACCTGCAGCCCCTGATGGCTGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGGCG
+TATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGATC
+ACAAGCTCTTTCCCACTAGCCATTTAAAGAGTTTAAAAGATTCAGAAACAAAAACCTACTAGTCTTGAACAAACTGTCAT
+ACGTAGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAATTTAAAGTGTA
+GCAATAGCAACAAAATATTTATTCTACTG
+>ref|X07617.1| Porcine mRNA for cAMP-dependent protein kinase catalytic (C)-alpha subunit (CAT4)
+CGCACCTGGACTTTGTGTGGGACACCCGAGTACCTGGCCCCTGAGATCATCCTGAGTAAAGGCTACAACAAGGCTGTGGA
+CTGGTGGGCCCTGGGGGTTCTCATCTATGAGATGGCCGCTGGCTACCCGCCCTTCTTCGCTGACCAGCCCATCCAGATCT
+ACGAGAAGATTGTCTCCGGGAAGGTGCGGTTCCCGTCCCACTTCAGCTCCGACCTGAAGGATCTGCTTCGGAACCTCCTG
+CAGGTGGACCTCACCAAACGCTTTGGGAACCTTAAGAACGGAGTCAATGACATCAAGAACCACAAGTGGTTTGCCACGAC
+TGACTGGATTGCCATCTACCAGAGGAAGGTGGAAGCTCCCTTCATACCAAAGTTTAAAGGCCCTGGGGACACGAGTAACT
+TTGATGACTATGAGGAAGAAGAGATCCGAGTCTCCATCAATGAGAAATGTGGCAAGGAGTTTTCTGAGTTTTAGGGGTGT
+GTGCCTGTGCCCCCAAGGGTTTTCTTTCCTTTTTTTTTTTTTTTTTTTTTGATGGGGGGGGTGGGGTGGGAGGATTGGAT
+TGAACAGCCAGAGGGCCCCAGAGTTCCTTGCATCTAATTTCATCCTGCCCCCACCCGCCTCCAGGGTAGGGGGAGCAGGG
+AGCCCAGATATTTGAGAACAGAAACACCAGCTGCTCCCCCTCACCCCTTTTGCCATCCTTCCCCCCCCTCACTTTTGCCT
+TCCTCCTCCCCCACGGCCCGCACCCCAGCCCACTTCTGCCTGTTTTAAATGAGTTTCTCAGTTCTTCCAGTCAGACCAGG
+TCTTGCTGGTGTGTCAGGGACAGCATGTGGGAAGAGGGGCCCAAATGTAACTCTAGTGCCAACCCCCCCCAAACTACAAA
+CACCACTCTCTAAGGGCAAATGAATGAGAGCAGTCCTGTCAGGGAAGGAGACATTTTAGTGTTCAATGGGCTGCTTGGCT
+AGAATTTAAAAAAAAAAAAAACAATTTACAATCTTATTTAAGTTCCACCAATGCCTCCCTCCCTCCTTCCTCTCCCACCC
+CTTCCCATGCCCCTCTGCCCCAAATCCATTTTAACAAAGCTGGGAAGCAGACTGACTTTGTAAAGGAAGAAGCTGGGGTT
+CCAACCTCTTCCCCAAGCTGCTAATCCCACCCCCTGCTCCCCTGTCAAGCCTGGACCGGTCTCCGGCCCTTTAGGAAGCC
+CCTTGTACCCCAACAGACCTGCTTCACCCTTGGGCTTCGGGACCCAGACAAAGCAGCTGCCCCTCTCCCTGCCAAAGAGG
+AGTTGTCCCTGAAAAGATAGAGGGGGAGCCCCAAGCCCAGGGTCTTTCCTCTCAGTAACATTTCCCCAAACTCCTTACTT
+TTATTCTCAGCTAGATGTTACTGTCCAGCCTCCTTTCAGTTAGGAAGGCAACCCCCCCCGCCCCCCCGCAATCCCCCTGA
+TGGTCCCTGGTTCAAGGCCGGGATTGCTGGGGAGGGACTGCCTGTTTTTTTCACCCAGCAGCCCCGCCCCCTCCCCATCC
+TGGGCACTCTTCCTCTGCTTAGCTGTCAGCTGTCAATCACCCGTTCTCAACCCCCCCCATTTGTGGGTTTTTTTTTTTTT
+CCTCTTAATAGAAAAGTCGAGTGCCACCCCATTGATCCCCATGTTTGTCTCATAATTTCTCCCCATCCCAGGAGGAGTTC
+TCAGGCCTGGGGTGGGGCCCCGGGTGGGCGCGGGGTCGATTCAACCTGTGTGCTGCGAAGGACGCAACTTCCTCTTGAAC
+AGTGTGCTGTTGTAAACATATTTGAAAACTATTATCAATAAAGTTTTGTTT
+>ref|X16951.1| Pig mRNA for endoplasmic-reticulum Ca(2+)-transport ATPase (class 3 non-muscle transcript)
+CAACTACCTGGAACCTGGTAAAGAGTGTGTGCAGCCTGCCACCAAATCCTGCTCGTTCTCGGCATGTACCGATGGGATTT
+CCTGGCCCTTTGTGCTGCTCATAATGCCGCTGGTGATCTGGGTCTATAGCACAGACACTAACTTTAGTGATATGTTCTGG
+TCTTGACTGACAGTTTTACATAAAGATGTTTAACTTAATCAATTAATTTTTTTATTGTTTAAAGCAACTGTCTATTTCTG
+CTGAATTTTCACATGAACATATTGGCTGGTAAAGGAGGTTTCATACTCTAGATTTTGTTTTGCTTTTTCTGACTCCAGTG
+GGGCAAGATTTTCCTTTTTTATACACATAATTAAAGTGTCCATTGACATGTACAGAGAACTAACACTATTTTATGCAAAT
+ATTTTTTTGTAGATGAAAAAGCATGTACAGTGTTCTGTTTAATACTCATCCTTGTATAAAAAAAAAAAGAGTTGAGCCAG
+CAGACATTGTCAGCAAATTAATTGGCAGCAGATTTTAGGAAATGAATGTGTGTGGTTTTTTCTAAGACTAAATAGCATGT
+ATTGTGTCTTCTGCATGATCATCTGGATTTAATCTGAGATCACAGTCTAATTTTTATTCATAAGCCAATTTTTCTGCACT
+GAGCAGAGTACTGCTACCTCAGTCAGTATTTTTTGGTTTGCCACCCCCCCGTCACCCTTCTCAGCCCTTGTCACCTCCAC
+CCCATCCTCCACCCCCGCCCTGCTCGGCTGCTTCTCCTGTAGGGTTTTGATGGTTCTGTTTACATCAGTCTTAACAAGAG
+GTATGCCTGTTCTCGCTTGTGCAGAAAACATTGTTCCAGATTCAATCAACTGGGTTCGTGTCCCCTCATGTAGTTTTTAA
+GGTTATTTATTTAAATGTCTAATGTATTTTATTGTAACAGACATTGTTTTGCCAACATTGCCTATTTCAGTGGCACTTCA
+CAATCTAGTTTAAAAAGGAAAATAAACATTTTAAATGGACAGAGAAAAATAACTGTCTTGTTTTTAACTCTTATGTGGCT
+TAGTTTGAACTAATATGTCCAACTTTCTCTTAAGTTCTTAGCTCAGAAATTTTAGTTTTATTGTGCTTGAGGGGAAGAAG
+GATCCTGTTCTGCTGCATAGGGAGCTGTAGGGATTTTATTTTTAATGTATAGGCACCAGTTGTCATCTGTGATACATTTT
+ATGCAAGTTTCTGCTGGCCTGTTTTTAAAGCCTATGTAGAGGACATAAGGGCAAGTGTGTGTGCGTGTGTGTGTGTGTGT
+GTGTGTTTTGTAAAATCTGTAAATAGCACATGACCAAATGAACATATTGTATAGAACTATTTTTATTTGAATGTGGCACT
+AACCACCACCATCATTACTATGATAAATGTTTGTGCATGTTCGAGATCAGTCTTACCAACAGTGTATAAGTCATTAACAG
+TCCTAACTGTGGTGTTTTCCTCCAATGCCTTCCAACATCCATCAACTAACGTGAGTATCCCCTGGAATTTGGATGCTTTA
+GCCTAAAGGTGACTGCCACTAAGTGACCTGGCTATACGAACACTAACGAATAAGCCCCTTGTGTCGGGCACCCTGAGAGC
+AGCAAGGGCACAACCTTGCTGGGTGAGCCACTATGGACACCACACACTGCATAGGACAGTGGCACAGCCAGGTGTCAGGC
+AAGGGCCTGGGGGAAGAGAAACTCCTGCTTTGGTCAGACGACAAGTGCCTTCACAAGTGCTGAGGTATGGAGTCACAAAA
+ACTTGTCATGGTTCCCTTTAACTTTGTTAGCTTAAAGGACTCATTCCAGAATCTTGTTAGCTGGTTCATTAAAAAGCAAA
+AGGCAAGTGAAAGCAATTAACTGAACCAGGAAACTCAGGCCTCCATTCATTCCTCTTAAATAGGCTGCCTCTTTTCACCT
+TCTAGGTCATATCCTTTGTGGCTGAGACTTGTTTTTTCTCTCCAGGGTACATTTAAAGCACAGTTACTGGGCCATTGTTC
+TGCTCAGCCAGCAAACAACCAGCCTAGTAGTTAGGGAGCAAGAGGGCCCAGGCAGCTGCTTGTATTCAGGCTGGCAGCTC
+CTCCGTGAATGAAGCCCCGAGTGTTCACATGAAGGTTCTCGGGTTACCGGGCCAGCCAGAAATGCTGGGAGTCTGGGGCA
+AGGTTCCTGTTTAAGAGGATAGAAGAGGCACATGGAAACGGATTCTTAATGCAGAGTCCGGGCTTGGCTCACTGAGGCCT
+CTCAGAGGATGGGGGAGGCTGTTTTGCTTGGCAGAAAAATGTAGGGGTAGGTTTTGCCAGTGTTAGTTAGCATTATGAGG
+TATAGACAGAAACAGGTTGGGTAGATCAAATGCAAGGAGTGTCTGGGCTGCAAACCAAAACAGGACGTCTGAGCTTGTTG
+GGTGGAGTGCAGTTCAATCCCAGACTAACCAAATGTTCGACTTTTTCCTGACTCAGTTCTTTGATTTATTGGCTTTTACA
+AAGTTGAGTGGGACGGGCTGCTCGAGGAGCCATGCACAGCCCCAGGTGGCCCCGGGAGGTTGTTGCCTTGTGGTTTTTCA
+GCCTGTCCAGCCCACAGAGGCAGTTTGGATGCCCACTTCCCTCAACCCAGACAGCTGGGAGTGGGGAAGACGCAGTGCCG
+CCCTGAGCAGGATCCCTTTGTTCTGCTCCAGGCTTTGCCACAGAAAAACATGTCTGCACTGGCATCTCCTTAGCAGTTAT
+GCTGCTCTGTCTTATCGGGAGTGGCGGGTGCCTGCAGGAAGGCACTGTCAGCCTCTCGACTTTTGTCTCCATCAGTAACT
+GGATGGAGTGGTGCCATGCTCAGACCTACCGGGGCAGACCTCAGGGATAGCCGAGACCACGAGCATTAGCTCAGTGTCTG
+CCGAGCCCACTGTGTCCGCACCACATTCAGTCAGAACCACCAGCCTGCGGTGAACAGTGAGGGTAATCTGCAGCCTTCTT
+TCCTGAAAGAGAATGGTGACAAACAGCTCCTCTTCTAGGATTGAGCAGGGCTGGGCCCCAGGGAAGGAACGGGAGGGCGC
+TGGAGGCTTGGCGCTGATTACTACGCTGCTCACTGCTTTGCCTTCCTTATCCTCTGCACTGCTCACCCAAAACTCTTCCT
+GCTCAGCTTCTGTTACACCTGAAAATGATTAAATTCCTGTGAGCCAGGGGTGACCTTTGCTCTGTGAGCTAGTCAGTATG
+GGGGTCTGTGTGGCCGAGCCAGTGCTTCAAGATGCTACCCTGCGTGGGCAGCAGCTCAGGGACAGTTAATCAGAAATGCT
+GGTCTTACTCTTAAAAAATCAAACTGAATATTCCTTTTCATCTGTCACTATTAATCTTAAATAGTTATTCTAACATTTCC
+TTCTTGTATTTCATAAAGGTGATTTCCTCTCTCTTTCCTTTTCAGCAATACTGGAGTAACCGCTTCCTAAACCATTTTGC
+AGAAATATAAGGGTGTTCGGTTGCGTGCATGTGCGTTTTTAGCAACACATCTACCAGCCCTCTGCATGATTGATGTTGGG
+GGTAAAAGAAAATTAGAAAAAAGTCCCCAATTCATTGTGTGTTACGTGGAGGAAACGTGTATTACCAGTGGGGTTTTTTA
+GCTTTTAAATCAAAATAATAATTACAAATGTACAATTTAGCTTAATGGATCAGAAATCCTCTCCAGAGAAGTTTGGTTTC
+TTTGCTGCAAGAAGAATGAGGTTCTGAAACCTTACCCAAGAACTTAGAAGCCATCAGCCAAGTATCCATGTTTCTCTGTG
+CAAAATGTCATAGCTTAAATAAATGTACAATATTCAATTGTAATGCATGCCTTCAAGTTGTAAGTAGCCAGATTTCTCTA
+TGATGTCATTGAAACATGCTACTTTTTAATTGGCCCTGTACAGTTTGCTTATTTATAAATTTATTGAAAACACTACAGGT
+GTTGGTTAAAATGTAGGCTTCTAGCTCATAACTTCAGTTATTTTTTGAGTGTGCAAACAGCTATTTTGCACTGTATTAAA
+TGTAACTTATTTAATGAAATCAAAAGCAGTAGACAGATGTTGGTGCAATACGAATATTGTGATGCATTTATATTAATAAA
+ATGCTAAACGTCAATTTATCACAACGCATGTTTGACTTTAGACTGTAAATAGAGATCAGTTTATTTCTGTGCTGGTAAAA
+AGTATTGCACAGACATGGTTTCAGGTAAATAAATCTATTCTATGATAAGTT
+>ref|X66274.1| S.scrofa mRNA for cardiac alpha tropomyosin
+CGAATTCGGGGCCTGTTCTATAATCGATAAACCCCGATAGACCTTACCAACCCTTGCCAATCCAGCTCGGCCGCTCCACC
+GCGCGCTGGCCTCCCCGCTTCTGCCGCAGCCCCAGGGCCCCTTACCGCCGCCACCATGGACGCCATCAAGAAGAAGATGC
+AAATGCTCAAGCTCGACAAGGAGAACGCCTTGGATCGAGCGGACGAGGCGGAGGCCGATAAGAAGGCGGCAGAGGACAGG
+AGCAAGCAGCTGGAAGATGAGCTGGTGTCGCTGCAAAAGAAGCTCAAGGCCACCGAAGATGAACTGGACAAATATTCCGA
+GGCTCTCAAAGATGCCCAGGAGAAGCTGGAGCTGGCGGAGAAAAAGGCCACCGATGCTGAAGCCGATGTAGCTTCTCTGA
+ACAGACGCATCCAACTGTTTGAGGAAGAGCTGGACCGTGCCCAGGAGCGACTGGCAACAGCTTTACAGAAACTTGAGGAG
+GCTGAGAAGGCAGCAGATGAGAGTGAGAGAGGCATGAAAGTCATTGAAAGCCGAGCCCAAAAGGATGAGGAGAAAATGGA
+AATTCAGGAGATCCAGCTGAAAGAAGCCAAGCACATTGCTGAGGATGCCGACCGCAAGTATGAAGAGGTGGCCCGTAAGC
+TGGTCATCATTGAGAGTGACCTGGAACGTGCCGAGGAGCGGGCTGAACTCTCAGAAGGCAAATGTGCCGAGCTTGAAGAA
+GAGTTGAAAACTGTGACGAACAACTTGAAGTCACTGGAGGCTCAGGCTGAGAAGTACTCACAGAAGGAAGACAAATATGA
+AGAAGAGATCAAGGTCCTTTCTGACAAGCTGAAGGAGGCTGAAACTCGGGCCGAGTTTGCAGAGAGGTCAGTAACTAAAT
+TGGAGAAAAGCATTGATGACTTAGAAGACGAGCTGTACGCTCAGAAACTGAAGTACAAAGCCATCAGCGAGGAGCTGGAC
+CACGCTCTCAACGATATGACTTCCATATAAGTTTCTTTGCTTCACTTCTCCCAAGACCCCCTCATCGAGCTGGATATCCC
+ACCTCTCTGAGCTCTGCAGTTTGTCTCTTCTCCAGCTGACCCTGGTTTATTCTTTCACATCCATCCTTAGGGCCAGGCAC
+ACACTGTGCTTTCTATTGTACAGAAGCTCCTCAATTCAGTGTAAAATAAACACTGTGTAAGCTAAAAAAAAAAAAAAACC
+CGAATTC
+>ref|X56503.1| Porcine CKII beta mRNA for casein kinase II beta subunit
+GAATTCTTCTGTGAAGTGGATGAAGACTACATCCAGGACAAATTCAATCTCACTGGACTCAACGAGCAGGTGCCTCATTA
+TCGACAAGCCCTAGACATGATCTTGGACCTGGAACCTGATGAGGAGCTGGAAGACAACCCCAACCAGAGTGACCTGATTG
+AGCAGGCAGCCGAAATGCTCTATGGATTGATCCACGCCCGCTATATCCTCACCAACCGTGGCATCGCCCAGATGTTGGAA
+AAGTACCAGCAGGGAGACTTTGGCTACTGTCCCCGTGTGTACTGTGAGAACCAGCCAATGCTTCCCATCGGCCTTTCGGA
+CATCCCAGGCGAGGCCATGGTGAAGCTCTACTGCCCCAAGTGCATGGACGTGTACACGCCCAAGTCATCGAGGCACCACC
+ACACGGATGGCGCCTACTTCGGCACCGGTTTCCCTCACATGCTCTTCATGGTGCACCCCGAGTACCGGCCCAAACGGCCT
+GCCAACCAGTTTGTGCCCAGGCTCTACGGTTTCAAGATCCATCCAATGGCCTACCAGCTGCAGCTCCAAGCCGCCAGCAA
+CTTCAAGAGCCCGGTCAAGACAATTCGCTGATTCCCCATCCCACCCGTCCCTCAGTCTTTGACACTTTCGTTCTTTCGCT
+GCCACCCTTTCAGGAACCCTCTATGGTTTTTAGTTTAAATTAAAGGAGTCGTTATTGTGGTGGGAACATGAAATAAAGTG
+TAAGAAAAGGCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|X68247.1| S.scrofa CRC (RYR1) gene for calcium release channel (partial)
+CTGCAGGTGCGGTCCTAAAAAGCAAAAAAAAAAAAAAAAAAAAAAAGATAGGGAGCTACCTGGGGATACACGGCTGCCAC
+TAGTTGTTGAAGGAATGTGAATTGGCCAACCTAAGAAAAGCCAGGAAGGGAGGTCCTGGGATTCTGGGGATGACGCCTCT
+GTTTTTCCCACCTCAGGGGATGCTCTCCCTGGTCCTGAATTGCATTGACCGCCTAAATGTCTACACCACTGCTGCCCACT
+TTGCTGAGTTTGCAGGAGAGGAGGCAGCCGAGTCCTGGAAAGAGATTGTGAACCTGCTGTATGAGATCCTGGGTAAGGGG
+CCTCAGTCTTGACTCCCCCAGAATAGCCCAGGCTTCCAGTCCTGTTGGGTCTGACCCCTCTTTCCACCCTCAGCCTCTCT
+GATCCGTGGCAATCGTGCCAACTGTGCCCTTTTCTCCAACAACTTGGATTGGCTGGTCAGCAAGCTGGATCGACTGGAGG
+CCTCCTCAGGTAGGAGAACCCAGGGGGAGGGGACAGGGGACAGGGGCGGGGAGGGCAGGGCTTCAGCCATCTCACCTCTC
+ACTCTGATCCCTGGGCAGGGATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAG
+GAGAACCACATCAAGTCCATCATCTCCCTTCTGGACAAGCATGGGAGGAACCACAAGGTGGGCCTCTCATCCCCTCAATT
+CTGCACTTGATCTTTCCCCACCCCCCCTCTTCACTCTTACCTGGACTCCTCTGCCACATGCTTCTAGCTCAATACAAAGG
+TCTCAAACTCCTTGTTTTTGTTTTTGTTTTTATGGCTGAACCTGTGGCAAATGGAAGTTTCCAGGCAAGGGGGTGAACCA
+GAGCTATAGCTGCTGGCCTACACCACAGCCTCATCAACAACGCCAGATCCGAGCCGTGTCTGCCACCTACACCACAGCTC
+ATGGCAATACCAGATCCTTAACCCACTGAGCGAGGCCAGGGATCGAACCTGCAACCTCACGAATACTAGTTGGGTTTGTA
+ACCCACTGAAGCCACAATGGGAACTCCTCAAAGTCATTCTTAAATGGATTCTGGGCCCCCGATATGCTTCCTTAGATCTT
+TGAAGTGTTTTCTAAATGTCTAATGTAAATGCAGGCGGCTGCATATACACGCTCCAGTTTGCCACAGGTCCTACCAGTCC
+CCACTGAATTAATTATTTCTAACCACCTCATGTATGGACAACATCCACCTGGCCCCGAAGATGCACGTTGGTGACCCCCG
+CCCATCCAGAACCTCGTCTTGGTCTCCGTGCTCTCGCACTGACCCGGGCTTTCACTCTTGCCTCCGACTTCTCACCCCTT
+GCTCCCGTCTCTCCTTTCCTCCTCTGCTGATGCCCGATCCCATCCCTCACAGCCCCCTGCGTCTCACCAGACCTTTCTCT
+TTGACCTTGATCTCCCTGTGTCATCCCTGACCTTCCCGCTTTCACCACCTCTTCTCAGTCACATCCCCACCTCCCACCCT
+GGGACATCATCCTTCTGGCTTCCCACCCTGGGTCTTCCATGGACCACACCCTCCCCGCAAGTGCCCTCACACCTTGACCT
+CTGACCTTGACCCCTAGGTGCTGGATGTCCTGTGTTCCCTGTGTGTGTGCAATGGTGTGGCCGTGCGCTCCAACCAAGAT
+CTCATTACTGAGAACTTGCTCCCTGGCCGCGAGCTTCTGCTGCAGACAAACCTCATCAACTATGTCACCAGGTCTGGCCC
+CCCAACCTTTGACCCCAGAGCTTAGAACCCTCCACCACCCCGCCCCGACTCAGAGACTCCACTCCGGTGAATGGCCCTTC
+CTCCGTCCCCCACCCCCGGACTTAATGCCAGTCCCCACCCCTGTCGTGCTTGTCCCAAGCTTGTCCCTGGCTTCTTACTT
+CTCTTACCCTTCTTCCCCAAACTCTTTCTCCCTCTGTCTCTTCCTCTTTCTCTCTTTCTGTGTTTGCTCTCTTTGTCTGT
+CTATCTATTTCTCCTCCATCTCTTTTTCCAGGTCTTTCTCTCATCTCTCTTCTCTGTCTTTTGACGTCTCTCTGTCTGTC
+TCTGCCTCTGCTTTCTCTCTCTGTGTCTCTGTCTCCATGGCTCTGCCTTTCCGTTTTTCCTGCGTATGTGTCTCTTTGTC
+TTTTTCCCTCTCCCCCCCAGCCTTCCCTCCAGCCTGGCTCTCTTCTCCAGCCCTCCTCATCCTCCTCTTCTGTCCCATTT
+CTCCTGCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCACACAGTACAGCAAATGGTACTTTGAGGTCA
+TGGTGGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGGGTGGGCTGGGCCCTCACCGAAGGCTACAGC
+CCCTACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGACCTCTATTCCTACGGCTTTGACGGGCTGCA
+TCTCTGGACAGGTACCTGGACCTTGCAGGG
+>ref|X62880.1| S.scrofa mRNA for calcium release channel (CRC)
+GGTGACGGAGGAGAGGGCGAAGATGAGGTCCAGTTTCTGCGGACAGACGACGAGGTGGTCCTGCAGTGCAACGCCACGGT
+GCTCAAGGAGCAGCTCAAGCTCTGCCTGGCCGCCGAGGGCTTCGGCAACCGCCTCTGCTTCCTGGAACCCACCAGCAACG
+CCCAGAATGTGCCCCCCGATCTGGCCATCTGCTGCTTCGTCCTGGAGCAGTCCCTGTCCGTCCGAGCCCTGCAGGAGATG
+CTGGCCAACACCGTGGAGGCCGGCGTGGAGTCCTCCCAGGGTGGGGGCCATAGGACGCTCTTGTACGGCCACGCCATCCT
+GCTCCGGCACGCGCACAGTGGCATGTATCTGAGCTGCCTCACCACCTCCCGTTCCATGACTGACAAGCTGGCCTTCGACG
+TGGGACTGCAGGAGGATGCGACAGGAGAGGCCTGTTGGTGGACTACACACCCGGCCTCCAAGCAGAGGTCGGAAGGAGAG
+AAGGTTCGAGTAGGGGATGACCTCATCCTCGTCAGTGTCTCCTCTGAGCGTTACCTGCACCTGTCGACAGCCAGTGGGGA
+GCTCCAGGTTGACGCCTCCTTCATGCAGACACTGTGGAACATGAACCCCATCTGCTCTGGCTGTGAAGAAGGCTATGTGA
+CTGGGGGTCACGTCCTCCGCCTCTTTCACGGACACATGGATGAGTGCCTGACCATCTCCCCCGCTGACAGTGATGACCAG
+CGCAGACTTGTCTACTACGAGGGTGGATCTGTGTGCACCCACGCCCGCTCCCTCTGGAGACTGGAACCGCTGAGAATCAG
+CTGGAGTGGGAGCCACCTGCGCTGGGGCCAGCCGCTTCGCATCCGGCATGTCACCACCGGGAGGTACCTGGCGCTCATCG
+AGGACCAGGGCCTGGTGGTGGTTGATGCCAGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGCATTTCCAAGGAG
+AAGCTGGATACGGCCCCCAAGCGGGACGTGGAGGGCATGGGCCCCCCTGAGATCAAGTATGGGGAGTCACTGTGCTTCGT
+GCAGCATGTGGCCTCGGGCCTGTGGCTTACCTATGCTGCCCCAGACCCCAAGGCCCTGCGGCTCGGCGTGCTCAAGAAGA
+AGGCCATTCTGCACCAGGAAGGCCACATGGACGATGCACTGTCACTGACCCGCTGTCAGCAGGAGGAGTCCCAGGCGGCC
+CGCATGATCTATAGCACTGCTGGCCTCTACAACCACTTCATCAAGGGCCTGGACAGCTTCAGCGGAAAGCCACGGGGCTC
+TGGGGCCCCGGCTGGCACAGCGCTACCCCTCGAGGGCGTCATCCTGAGCCTGCAGGACCTCATCGGCTACTTTGAGCCGC
+CCTCGGAAGAGCTGCAGCACGAGGAGAAGCAGAGCAAGCTGCGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAG
+GGGATGCTCTCCCTGGTCCTGAATTGCATTGACCGCCTAAATGTCTACACCACTGCTGCCCACTTTGCTGAGTTTGCAGG
+AGAGGAGGCAGCCGAGTCCTGGAAAGAGATTGTGAACCTGCTGTATGAGATCCTGGCCTCTCTGATCCGTGGCAATCGTG
+CCAACTGTGCCCTTTTCTCCAACAACTTGGATTGGCTGGTCAGCAAGCTGGATCGACTGGAGGCCTCCTCAGGGATCCTG
+GAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAGGAGAACCACATCAAGTCCATCATCTC
+CCTTCTGGACAAGCATGGGAGGAACCACAAGGTGCTGGATGTCCTGTGTTCCCTGTGTGTGTGCAATGGTGTGGCCGTGC
+GCTCCAACCAAGATCTCATTACTGAGAACTTGCTCCCTGGCCGCGAGCTTCTGCTGCAGACAAACCTCATCAACTATGTC
+ACCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCACACAGTACAGCAAATGGTACTTTGAGGTCATGGT
+GGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGGGTGGGCTGGGCCCTCACCGAAGGCTACAGCCCCT
+ACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGACCTCTATTCCTACGGCTTTGACGGGCTGCATCTC
+TGGACAGGACACGTGCCACGCCTGGTGACTTCCCCAGGGCAGCACCTTCTGGCCCCCGAGGACGTGGTCAGCTGCTGCCT
+GGACCTCAGCGTGCCGTCCATCTCCTTCCGCATCAACGGCTGCCCCGTGCAGGGCGTCTTCGAGGCCTTCAACCTCAACG
+GGCTCTTCTTCCCCGTCGTCAGCTTCTCGGCCGGTGTCAAGGTGCGGTTCCTCCTTGGGGGCCGCCACGGCGAATTCAAG
+TTCCTCCCTCCGCCTGGCTACGCCCCTTGCCACGAGGCTGTGCTCCCACGAGAGCGACTCCGTCTGGAACCCATCAAGGA
+GTATCGGCGAGAAGGGCCCCGGGGACCCCACCTGGTGGGCCCCAGCCGCTGCCTCTCACACACCGACTTTGTGCCCTGCC
+CGGTGGACACTGTCCAGATTGTCCTGCCTCCCCATCTGGAGCGTATCCGGGAGAAGCTGGCAGAGAACATCCATGAACTC
+TGGGCGCTGACGCGCATCGAGCAGGGCTGGACCTATGGCCCGGTTCGGGATGACAATAAGCGGCTGCACCCGTGTCTCGT
+GGACTTCCACAGCCTCCCGGAGCCCGAGAGGAATTACAACCTGCAGATGTCGGGGGAGACGCTCAAGACTCTGCTGGCGC
+TGGGCTGCCACGTGGGCATGGCGGACGAGAAGGCAGAGGACAACCTGAGGAAGACGAAACTCCCCAAGACGTACATGATG
+AGCAATGGGTACAAGCCAGCGCCACTGGACCTGAGCCATGTGAGACTGACGCCTGCGCAGACCACGCTGGTGGACCGGCT
+GGCGGAGAACGGGCACAACGTGTGGGCCCGAGACCGAGTGGCCCAGGGCTGGAGCTACAGTGCTGTGCAGGACATCCCAG
+CGCGCCGCAACCCTCGCCTCGTGCCCTACCGCCTGCTAGACGAGGCCACCAAGCGCAGCAACCGGGACAGCCTTTGCCAG
+GCTGTGCGCACCCTGCTGGGCTACGGCTACAACATCGAGCCGCCCGACCAGGAGCCCAGTCAGGTGGAGAGCCAGTCTCG
+CTGGGACCGTGTGCGCATCTTCCGGGCTGAGAAGTCCTATGCGGTGCAGAGCGGCCGCTGGTACTTCGAGTTCGAGGCCG
+TCACCACGGGCGAGATGCGAGTGGGCTGGGCGCGGCCTGAGCTGCGGCCTGATGTGGAGCTGGGAGCCGATGAGCTGGCC
+TATGTCTTCAATGGGCACCGGGGTCAGCGCTGGCACTTGGGCAGCGAACTGTTTGGGCGTCCCTGGCAGTCGGGTGATGT
+GGTGGGCTGCATGATCGACCTCACAGAGAACACCATTATCTTCACGCTCAACGGCGAGGTCCTCATGTCCGACTCGGGCT
+CTGAAACCGCCTTCCGGGATATCGAGGTTGGGGATGGCTTCCTGCCCGTCTGCAGCTTGGGACCTGGCCAGGTGGGCCAC
+CTGAACCTGGGCCAGGATGTGAGCTCCCTGCGGTTCTTTGCCATCTGCGGCCTCCAGGAAGGTTTTGAGCCATTCGCCAT
+CAACATGCAGCGTCCCGTCACTACCTGGTTCAGCAAAAGCCTTCCCCAGTTTGAGGCCGTGCCCCTCGAGCATCCCCACT
+ACGAGGTGTCTCGTGTGGACGGCACCGTGGACACGCCCCCCTGCCTGCGCCTGACCCACCGCACCTGGGGCTCCCAGAAC
+AGTCTGGTGGAGATGCTCTTTCTCCGGCTGAGCCTCCCTGTCCAGTTCCACCAGCACTTCCGCTGCACCGCAGGGGCCAC
+CCCCCTGGCACCACCTGGCCTGCAGCCCCCTGCTGAGGATGAGGCCCGGGCAGCAGAACCTGATCCCGACTATGAAAACC
+TGCGCCGCTCAGCTGGGCGCTGGGGCGAGGCTGAGGGCGGCAAAGAAGGAACTGCCAAGGAGGGGGCACCCGGGGGCACT
+GCCCAGGCTGGGGTAGAGGCCCAGCCTCCCAGGGCAGAAAATGAGAAGGATGCTACCACAGAGAAGAACAAGAAGAGAGG
+GTTCCTATTCAAGGCCAAGAAGGCTGCCATGATGACCCAGCCACCGGCCACCCCGACTCTGCCCAGACTCCCTCACGAGG
+TGGTGCCTGCTGATGACCGCGATGACCCTGACATCATCCTCAACACCACCACGTACTATTACTCGGTGAGGGTCTTCGCT
+GGCCAGGAGCCCAGCTGCGTGTGGGTGGGCTGGGTCACCCCTGACTACCACCAGCACGACATGAACTTCGACCTCACCAA
+GGTCCGGGCGGTGACGGTGACCATGGGGGATGAGCAGGGCAACATCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGG
+TGTGGGGTGGAGACTTTGTGAGCCCCGGGCAGCAGGGCCGGATCAGCCACACAGACCTTGTCATCGGCTGCCTGGTGGAC
+TTGGCTACTGGGCTTATGACCTTCACCGCCAACGGCAAAGAGAGCAACACCTTTTTCCAGGTGGAACCCAACACAAAGCT
+GTTTCCAGCCGTCTTTGTCCTGCCCACACACCAGAACGTCATCCAGTTTGAGCTGGGGAAGCAGAAGAACATCATGCCGC
+TGTCCGCTGCCATGTTTCTGAGCGAGCGCAAGAACCCGGCCCCGCAGTGCCCGCCCCGGCTCGAGATGCAGATGCTGATG
+CCCGTGTCGTGGAGCCGCATGCCCAACCACTTCCTGCGGGTGGAGACGCGCCGTGCCGGCGAGCGGCTTGGCTGGGCGGT
+GCAGTGTCAGGAGCCACTGACCATGATGGCACTGCACATCCCTGAAGAGAACCGATGCATGGACATCCTGGAGCTGTCCG
+AGCGCTTGGACCTGCAGCAGTTCCACTCGCACACCCTCCGCCTCTACCGCGCTGTGTGCGCCCTGGGCAACAACCGCGTG
+GCGCATGCGCTGTGCAGCCACGTGGACCAGGCGCAGCTGCTGCACGCCCTGGAGGACGCGCACCTGCCCGGCCCTCTGCG
+CGCAGGTTACTACGACCTCCTCATCAGCATCCACCTGGAAAGCGCCTGCCGCAGCCGCCGCTCCATGCTCTCTGAGTACA
+TCGTCCCCCTCACGCCGGAGACCCGCGCCATCACTCTCTTCCCGCCTGGAAAAAGGACGGAAAACGGTCCCCGCCGCCAC
+GGCCTGCCCGGTGTCGGCGTCACCACCTCGCTGAGGCCTCCGCACCATTTCTCAGCCCCCTGTTTTGTGGCAGCCCTGCC
+AGCTGTTGGAGCGGCCGAAGCCCCGGCCCGCCTCAGCCCCAGCATCCCTCTGGAGGCTCTGCGGGACAAAGCACTAAGAA
+TGCTGGGGGAGGCGGTACGAGACGGTGGGCAGCACGCACGCGACCCTGTCGGGGGCTCTGTGGAGTTCCAGTTTGTGCCC
+GTGCTCAAGCTCGTGTCCACCCTGCTGGTGATGGGCATCTTTGGTGATGAGGACGTGAAGCAGATCTTGAAGATGATTGA
+GCCCGAAGTATTCACTGAGGAAGAAGAGGAGGAGGAGGAGGAAGAAGAGGAGGAAGAAGAAGATGAGGAGGAGAAGGAGG
+AGGATGAGGAGGAGGAGGCACGGGAGAAGGAGGATGAGGAAAAAGAGGAAGAGGAGACAGCAGAAGGGGAAAAAGAAGAA
+TACTTGGAGGAAGGGCTGCTCCAGATGAAGTTACCAGAGTCTGTGAAGTTACAGATGTGTAATCTGTTGGAGTATTTCTG
+TGACCAAGAGCTGCAGCACCGTGTGGAGTCCCTGGCAGCCTTTGCAGAACGCTACGTGGACAAGCTCCAGGCCAACCAGA
+GGGACCGCTATGGCATCCTCATGAAGGCCTTCACCATGACCGCTGCCGAGACTGCCCGACGTACTCGCGAGTTCCGCTCC
+CCACCCCAGGAGCAGATCAACATGCTATTGCACTTCAAAGATGGCGAGGATGAGGAAGATTGTCCTCTTCCTGATGAGAT
+CCGGCAGGATTTGCTGGAATTCCATCAAGACCTGTTGACTCACTGTGGAATTCAGCTGGAGGGGGAGGAGGAAGAACCAG
+AGGAAGAAGCCACCCTGGGCAGCCGCTTGATGAGCCTGTTGGAGAAGGTGCGGCTGGTGAAGAAGAAGGAGGAGAAATCC
+GAGGAGGAGCCACCTGCCGAGGAGAGCAAAGCCCAGTCACTGCAGGAGCTGGTGTCTCACACAGTGGTGCGCTGGGCCCA
+AGAGGACTTTGTGCAGAGCCCGGAGCTGGTACGGGCCATGTTCAGCCTCCTGCACCGGCAGTACGACGGGCTCGGGGAGC
+TGCTGCGTGCCCTGCCCCGCGCCTACACCATCTCCCCCTCCTCTGTGGAGGACACCATGAGCCTACTCGAGTGCCTCGGC
+CAGATCCGGTCACTGCTCATCGTGCAGATGGGCCCCCAGGAGGAAAACCTCATGATCCAGAGCATTGGGAACATCATGAA
+CAACAAAGTCTTCTACCAACACCCGAACTTGATGCGGGCACTGGGCATGCACGAGACAGTCATGGAGGTCATGGTGAATG
+TCCTCGGCGGCGGGGAGTCCAAGGAGATCCGCTTCCCCAAGATGGTGACGAGCTGCTGCCGCTTCCTCTGCTACTTCTGC
+CGCATCAGCCGGCAGAACCAGCGCTCCATGTTTGACCACCTGAGCTACCTGCTGGAGAACAGTGGCATTGGCCTGGGCAT
+GCAGGGCTCCACGCCCCTGGATGTGGCCGCTGCCTCCGTCATTGACAACAACGAGCTGGCTTTGGCATTGCAGGAGCAGG
+ACCTGGAGAAGGTGGTGTCCTACCTGGCAGGCTGTGGCCTCCAAAGCTGCCCCATGCTCCTGGCCAAAGGGTACCCGGAC
+ATCGGCTGGAACCCCTGCGGTGGTGAGCGCTACCTGGACTTCCTGCGCTTTGCTGTCTTTGTCAATGGTGAGAGCGTGGA
+GGAGAACGCCAACGTGGTGGTGCGGCTGCTGATCCGCAAGCCCGAGTGCTTCGGGCCTGCCCTGCGGGGCGAGGGCGGCT
+CGGGGCTGCTGGCCACCATCGAGGAGGCCATCCGCATCTCCGAGGACCCCGCGCGGGACGGCCCTGGCGTCCGCAGGGAC
+CGGCGGCGAGAGCACTTCGGGGAGGAGCCCCCTGAAGAAAACCGGGTGCACCTGGGACACGCCATCATGTCCTTCTATGC
+TGCCTTGATTGACCTGCTGGGACGCTGTGCACCAGAGATGCATCTGATCCAAGCCGGCAAGGGCGAGGCCCTGCGGATCC
+GTGCCATCCTGCGCTCCCTCGTGCCCCTGGACGATCTCGTGGGCATCATCAGCCTCCCACTGCAGATACCCACCCTGGGC
+AAAGACGGGGCTCTAGTACAGCCAAAGATGTCAGCATCCTTCGTGCCGGACCACAAGGCGTCGATGGTGCTCTTCCTGGA
+CCGTGTGTACGGCATCGAGAACCAGGACTTCTTGCTGCACGTGCTGGACGTGGGGTTCCTGCCTGATATGAGGGCGGCCG
+CCTCGCTGGACACGGCCACTTTCAGCACCACGGAAATGGCACTGGCGCTGAACCGCTACCTATGCCTGGCCGTGCTGCCA
+CTCATCACCAAGTGTGCGCCACTCTTCGCGGGAACCGAGCATCGTGCCATCATGGTGGACTCTATGCTTCACACGGTGTA
+CCGCCTGTCCCGTGGCCGCTCGCTCACCAAGGCGCAGCGCGACGTTATCGAGGAATGCCTGATGGCGCTCTGCAGGTACA
+TCCGCCCGTCCATGCTACAGCACCTGCTTCGGCGCCTGGTGTTCGACGTGCCCATCCTTAACGAGTTCGCCAAGATGCCC
+CTCAAGCTCCTCACCAACCACTATGAGCGTTGCTGGAAGTACTACTGCCTCCCCACAGGCTGGGCCAACTTCGGAGTCAC
+CTCGGAGGAAGAGCTGCACCTCACTCGCAAACTCTTCTGGGGCATCTTTGACTCGCTGGCCCATAAGAAATATGACCCAG
+AGCTGTACCGCATGGCTATGCCCTGCCTGTGTGCCATCGCAGGGGCCCTGCCCCCCGACTACGTGGACGCCTCATACTCA
+TCCAAGGCTGAGAAAAAGGCTACCGTGGACGCTGAAGGCAACTTCGATCCTCGGCCTGTGGAGACTCTCAACGTGATCAT
+CCCAGAGAAGCTGGACTCCTTCATCAACAAGTTTGCCGAGTACACGCATGAGAAGTGGGCCTTCGACAAGATCCAGAACA
+ACTGGTCCTATGGGGAGAACATAGATGAGGAGCTGAAGACCCATCCCATGCTGAGGCCCTACAAGACCTTTTCAGAGAAG
+GACAAAGAGATTTATCGCTGGCCCATCAAAGAGTCCTTGAAGGCCATGATTGCCTGGGAATGGACGATAGAGAAAGCCAG
+GGAGGGTGAGGAGGAGAAGACGGAGAAGAAAAAAACACGGAAGATATCCCAAAGTGCCCAGACCTATGATGCTCGAGAAG
+GCTACAACCCCCAGCCCCCTGACCTCAGCGGCGTTACCCTGTCCCGGGAGCTGCAGGCTATGGCAGAACAACTGGCGGAA
+AATTACCACAACACGTGGGGACGGAAGAAGAAGCAGGAGCTGGAAGCCAAGGGTGGTGGGACCCACCCCTTGCTGGTTCC
+CTACGACACTCTCACGGCCAAGGAGAAGGCACGAGATAGAGAGAAGGCCCAGGAGCTGCTGAAGTTCCTGCAGATGAATG
+GCTATGCAGTCACCAGGGGCCTTAAGGACATGGAACTGGACACATCTTCCATTGAGAAACGGTTTGCCTTTGGCTTCCTG
+CAGCAGTTGCTGCGCTGGATGGACATTTCTCAGGAGTTTATCGCCCACCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGA
+AAAGTCCCCCCATGAACAGGAGATAAAATTCTTTGCCAAGATCCTGCTCCCTTTGATCAACCAGTACTTCACCAACCACT
+GCCTCTATTTTCTGTCCACACCGGCCAAAGTGCTGGGCAGCGGCGGCCACGCCTCCAACAAGGAGAAGGAAATGATCACC
+AGCCTCTTCTGCAAGCTGGCCGCTCTTGTCCGTCACCGAGTCTCTCTCTTTGGGACGGATGCCCCAGCCGTGGTCAACTG
+CCTTCACATCCTGGCACGTTCCCTGGACGCGAGGACAGTGATGAAGTCTGGCCCCGAGATTGTGAAGGCCGGCCTCCGTT
+CCTTCTTCGAGAGCGCCTCGGAGGACATCGAGAAGATGGTGGAGAACCTGCGCCTGGGCAAGGTGTCACAGGCGCGCACG
+CAGGTCAAGGGCGTGGGCCAGAACCTCACCTACACCACCGTGGCCCTGCTGCCTGTGCTAACCACCCTCTTCCAGCACAT
+CGCCCAGCACCAGTTTGGAGACGACGTAATCCTGGATGACGTTCAGGTCTCTTGCTATCGAACGCTGTGCAGTATCTACT
+CTCTGGGAACCACCAGGAACCCTTACGTGGAAAAGCTGCGGCCAGCCCTCGGTGAGTGCCTGGCCCGCCTGGCAGCAGCC
+ATGCCAGTGGCATTCCTGGAGCCCCAGCTGAACGAGTACAATGCCTGCTCAGTGTACACCACCAAGTCTCCCCGGGAGCG
+GGCCATCCTGGGGCTCCCCAACAGCGTGGAGGAGATGTGCCCGGATATTCCGGTGCTGGAGCGGCTCATGGCAGACATCG
+GGGGGCTGGCCGAGTCGGGGGCCCGCTACACGGAGATGCCACACGTCATTGAGATCACGCTGCCCATGCTGTGCAGCTAC
+CTGCCCCGCTGGTGGGAACGCGGGCCCGAGGCGCCCCCACCCGCCCTGCCCGCGGGAGCCCCTCCGCCCTGCACAGCTGT
+CACTTCCGACCACCTCAACTCCCTGCTGGGAAACATCCTGCGGATCATCGTCAACAACCTGGGCATCGACGAGGCCTCAT
+GGATGAAGCGGCTGGCCGTGTTCGCCCAGCCCATCGTGAGCCGGGCCCGGCCCGAGCTCCTGCACTCACACTTCATCCCC
+ACCATCGGGCGGCTGCGCAAACGGGCCGGGAAGGTGGTGGCCGAGGAGGAGCAGCTGCGCCTGGAGGCCAAGGCAGAAGC
+CGAGGAAGGGGAGCTCCTGGTGCGGGATGAGTTCTCTGTGCTCTGCCGGGACCTGTATGCCCTCTACCCACTGCTCATCC
+GCTACGTGGACAACAACAGGGCACACTGGCTGACGGAACCCAATCCCAGCGCGGAGGAGTTGTTCCGGATGGTGGGCGAG
+ATCTTCATCTACTGGTCCAAGTCCCACAACTTCAAGCGCGAGGAGCAGAACTTTGTGGTCCAGAATGAGATCAACAACAT
+GTCATTTCTGACCGCCGACAACAAGAGCAAAATGGCCAAGTCGGGTGGCTCAGACCAGGAACGCACCAAGAAGAAGCGCC
+TGGGGGACCGGTACTCTGTGCAGACATCGCTGATCGTGGCCACACTCAAGAAGATGCTGCCCATCGGCCTGAACATGTGT
+GCGCCCACCGACCAGGAACTCATCACGCTGGCCAAGACCCGCTATGCCCTGAAAGACACAGATGAGGAGGTCCGGGAATT
+TCTGCAAAACAACCTTCACCTTCAGGGAAAGGTCGAAGGTTCCCCGTCTCTGCGCTGGCAGATGGCCCTGTACCGGGGCC
+TCCCGGGCCGCGAGGAGGACGCTGACGACCCGGAGAAAATCGTGCGCAGAGTCCAGGAAGTGTCTGCGGTGCTCTATCAT
+CTGGAGCAGATGGAGCACCCTTACAAGTCCAAGAAGGCCGTGTGGCACAAGCTCTTGTCTAAGCAGCGCCGGAGGGCCGT
+GGTCGCCTGTTTCCGTATGACCCCGCTGTACAACCTGCCCACGCACCGGGCCTGTAATATGTTCCTGGAAAGCTACAAGG
+CTGCGTGGATCCTGACCGAAGACCACAGTTTTGAGGACCGCATGATAGATGACCTTTCAAAAGCTGGTGAGCAGGAGGAG
+GAGGAGGAAGAGGTGGAGGAGAAGAAGCCGGACCCCCTGCACCAGCTCGTCCTGCACTTCAGCCGCACCGCCCTGACTGA
+AAAGAGCAAACTGGATGAAGATTACTTATATATGGCGTATGCTGACATCATGGCAAAGAGCTGCCACCTGGAGGAGGGAG
+GGGAGAACGGCGAAGCTCAAGAAGAGGTTGAGGTTTCCTTTGAGGAGAAGGAGATGGAGAAGCAGAGGCTCCTGTACCAG
+CAGGCACGGCTGCACAACCGTGGGGCCGCGGAGATGGTGCTGCAGATGATCAGTGCCTGCAAAGGAGAGACAGGCGCCAT
+GGTATCGTCCACCCTGAAGCTGGGCATCTCCATCCTGAACGGAGGCAATGCCGATGTGCAGCAGAAAATGCTGGATTACC
+TGAAGGACAAGAAGGAAGTTGGCTTCTTCCAGAGTATCCAGGCACTGATGCAAACCTGCAGCGTCCTGGATCTCAATGCC
+TTTGAGAGACAGAACAAGGCAGAGGGGCTGGGCATGGTGAACGAGGACGGAACCGTCATCAACCGCCAGAACGGAGAGAA
+GGTCATGGCAGATGATGAATTCACCCAAGACCTGTTCCGATTCCTGCAATTGCTCTGCGAGGGCCACAATAATGATTTCC
+AAAACTACCTACGGACACAGACAGGGAACACAACCACTATTAACATCATCATCTGTACTGTGGACTACCTCCTGCGGCTG
+CAGGAGTCCATCAGTGATTTCTACTGGTACTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGAAACTTTTCCAA
+GGCCATGTCGGTGGCTAAACAGGTGTTCAATAGCCTCACAGAATACATCCAGGGTCCCTGCACCGGGAACCAGCAGAGCC
+TAGCGCACAGTCGCCTCTGGGACGCCGTGGTGGGATTCCTGCACGTGTTCGCCCACATGATGATGAAGCTCGCTCAGGAC
+TCGAGCCAGATCGAGCTGTTGAAGGAGCTGCTGGATCTACAGAAGGACATGGTGGTGATGTTGCTGTCGCTACTAGAAGG
+GAACGTGGTGAACGGCATGATTGCCCGGCAGATGGTGGACATGCTTGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCA
+AGTTCTTCGACATGTTCCTGAAACTCAAGGACATCGTGGGCTCTGAGGCCTTCCAGGACTATGTCACTGACCCCCGGGGT
+CTCATCTCCAAGAAGGACTTCCAGAAGGCCATGGACAGCCAGAAGCAGTTCACCGGTCCGGAAATCCAGTTCCTGCTTTC
+GTGCTCTGAAGCGGATGAGAACGAGATGATCGACTGCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGTGACATTG
+GCTTCAACGTAGCTGTGCTGCTGACCAACCTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTCGAGCTG
+GCGGAGAGCATCCTCGAGTACTTCCGGCCCTACCTGGGCCGCATCGAGATCATGGGCGCCTCGCGCCGCATCGAGCGTAT
+CTACTTTGAGATATCGGAGACCAACCGCGCCCAGTGGGAGATGCCCCAGGTGAAGGAGTCGAAGCGTCAGTTCATCTTCG
+ACGTGGTGAACGAGGGTGGCGAGTCGGAGAAGATGGAGCTCTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAG
+ATCGCTGCACAGATCTCGGAGCCCGAGGGCGAGCCGGAGGAGGATGAGGACGAGGGCGCGGGCCTGGCGGAGGCGGGCGC
+TGAGGGCGCGGAGGAGGGCGCGGTGGGGCCCGAGGGCGCGGCGGGGACCGCGGCGGCCGGCTTGACGGCGCGGCTGGCAG
+CGGCCACGAGCCGGGCTCTGCGCGGCCTCAGCTACCGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACAGCG
+CGGGAGGCGGCCACGGCGCTGGCCGCGCTGCTCTGGGCGGCGCTGGCGCACGCAGGGGCGGCGGGCGCCGGGGCGGCGGC
+GGGCGCGCTGCGCCTGCTCTGGGGCTCGCTCTTTGGTGGCGGCCTGGTGGAGGGTGCCAAGAAGGTGACGGTGACCGAGC
+TCCTGGCGGGCATGCCCGATCCCACGGGCGACGAGGTGCACGGCGAGCAGCCGGCTGGGCCCGGCGGCGAGGCGGACGGC
+GAGGGCGCGGGCGAGGGCGCGGGCGAAGCCTGGGAGGGCGCGGGCGACGAGGAGGTGGCGGTGCAGGAGGCCGGCCCGGG
+AGGCGCAGACGGGGCTGTGGCCGTGGCCGAAGGGGGCCCCTTCCGGCCCGAAGGGGCTGGCGGCCTCGGGGACATGGGTG
+ACACGACGCCTGCGGAGCCGCCCACGCCCGAGGGCTCCCCTATCATCAAGAGGAAGCTGGGGGTGGATGGAGAGGAAGAG
+GAGCTGCCGCCGGAGCCGGAACCGGAGCCGGAGCCAGAGCCTGAGAAAGCTGATGCTGAGAATGGGGAGAAGGAAGAAGT
+CCCCAAGCCCCCACCAGAGCCCCCCAAGAAGACAGCTCCTCCTCCACCCCCTCCAAAGAAGGAGGAGGGTGGAAGCGGGG
+GCCTGGAATTCTGGGGAGAACTGGAAGTACAGAGGGTGAAGTTCTTGAACTACCTCTCCCGGAACTTTTACACTCTGCGA
+TTCCTTGCTCTCTTCTTGGCATTTGCCATCAACTTCATCTTGCTGTTTTATAAGGTCTCGGACTCTCCACCAGGGGAGGA
+TGACATGGAGGGCTCAGCAGCCGGGGACCTGTCAGGTGCAGGCTCTGGTGGCGGCTCTGGTTGGGGCTCCGGGGCCGGAG
+AGGAGGTGGAAGGCGACGAGGACGAGAACATGGTGTACTACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCCGCCTTG
+CGCTGCCTGAGCCTGCTGCACACGCTGGTGGCCTTTCTCTGCATCATAGGCTACAACTGCCTCAAGGTGCCCCTGGTGAT
+CTTTAAGCGGGAGAAGGAACTGGCCCGGAAGCTGGAGTTTGACGGCCTCTACATCACGGAGCAGCCCGAGGATGATGACG
+TGAAGGGGCAGTGGGACCGGCTGGTGCTCAACACACCGTCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAG
+GTCCTGGACAAGCACGGGGACATCTACGGGCGGGAGCGGATCGCCGAGCTGCTGGGTATGGATCTGGCCACGCTGGAGAT
+CACAGCCCACAACGAGCGCAAGCCTGAACCACCGCCAGGGCTGCTCACCTGGCTCATGTCCATCGATGTCAAGTACCAGA
+TCTGGAAGTTTGGGGTCATCTTCACAGACAACTCGTTCCTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGTCAC
+TACAACAACTTCTTCTTCGCTGCCCACCTCCTGGACATTGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCGTCCGT
+CACCCACAATGGCAAACAGCTGGTGATGACCGTGGGCCTCCTGGCGGTTGTGGTCTACCTGTACACCGTGGTGGCCTTCA
+ACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAGGACGAGCCTGACATGAAGTGTGATGACATGATGACGTGTTAC
+CTGTTTCACATGTATGTGGGTGTCCGCGCTGGTGGGGGCATTGGGGACGAGATCGAGGACCCAGCAGGAGATGAATATGA
+GCTCTACCGGGTGGTCTTTGACATCACCTTCTTCTTCTTCGTCATCGTCATCCTGTTGGCCATCATCCAGGGTCTGATCA
+TTGATGCTTTTGGCGAGCTCCGAGACCAACAAGAGCAAGTGAGAGAAGATATGGAGACCAAGTGCTTCATCTGTGGCATC
+GGCAGCGATTACTTTGATACGACACCACACAGGTTCGAGACCCACACGCTAGAGGAGCACAACCTGGCCAATTACATGTT
+TTTCCTGATGTATCTGATAAACAAGGACGAGACAGAACACACGGGTCAGGAGTCTTATGTCTGGAAGATGTACCAAGAGA
+GATGCTGGGATTTCTTCCCGGCTGGCGATTGTTTCCGCAAGCAGTATGAGGACCAGCTTAGCTGAGACACCCCCAGCTGG
+CCCCGCACCCCCACCTCAAGTGCCTTGTTTTCACAGCAAGCCCCTTAGCCCCCCAAACCCTCCCCCCAAGGCAGCTAGGG
+GAGAGGTGACCATGCAGTGGAGAAATAAAGTCTGTGCTACACCCCTGAAAAAA
+>ref|X04036.1| Sus scrofa pre-mRNA for pancreatic prepro-elastase 1 (ELS-1)
+AGTGGTCTTCTCAGCTAGCAACATGCTGCGCTTGCTGGTGGTGGCCTCCCTGGTCCTTTATGGACACAGCACCCAGGACT
+TTCCAGAAACCAACGCCCGGGTAGTTGGAGGGACCGAGGCTCAGAGGAATTCTTGGCCATCTCAGATTTCCCTCCAGTAC
+CGGTCTGGAAGTTCGTGGGCTCACACCTGTGGAGGGACCCTCATCAGGCAGAACTGGGTGATGACAGCCGCTCACTGCGT
+GGACAGAGAGTTGACCTTCCGTGTGGTGGTTGGAGAGCACAACCTGAACCAGAACGATGGCACCGAGCAGTACGTGGGGG
+TGCAGAAGATCGTGGTGCATCCCTACTGGAACACCGACGACGTGGCTGCAGGCTATGACATCGCCCTGCTGCGCTTGGCC
+CAGAGTGTAACCCTCAACAGCTACGTCCAGCTGGGTGTTCTGCCAAGGGCGGGGACCATCTTGGCTAACAACAGTCCCTG
+CTACATCACAGGCTGGGGCCTGACCAGGACCAATGGGCAGCTGGCCCAGACCCTGCAGCAGGCTTACCTGCCCACCGTGG
+ACTACGCCATCTGCTCCAGCTCCTCGTACTGGGGCTCCACCGTGAAGAACAGCATGGTGTGCGCCGGAGGGGACGGAGTT
+CGCTCTGGATGTCAGGGTGATTCTGGGGGCCCCCTTCATTGCTTGGTGAATGGCCAGTATGCTGTCCACGGTGTAACCAG
+CTTCGTGTCCCGCTTGGGCTGTAATGTCACTAGGAAGCCCACAGTCTTCACTAGGGTCTCTGCTTACATCTCTTGGATAA
+ACAACGTCATTGCCAGCAACTGAACATTTTCCGGAGTCCAACGGCCTTCCCGAGGTGATTCTTAGATGCTCAGCAGGACT
+TGAGGCCACCAAAGAAATTACATTCTAAGAGACTATTGAGTCAGATACAGAAAAGCAAATAAAACCGAATATACATATC
+>ref|X17058.1| Sus scrofa mRNA for glucose transporte protein
+GAATTCTACAACCAGACGTGGCTCCACCGCTATGGGGAGAGCATCTCGCCCGCCACGCTGACCACACTCTGGTCCCTCTC
+CGTGGCCATATTCTCCGTGGGGGGCATGATCGGCTCCTTCTCTGTGGGCCTGTTTGTGAACCGCTTTGGCCGGCGGAATT
+CCATGCTGATGATGAACCTGCTGGCCTTCATATCTGCTGTGCTCATGGGCTTCTCCAAACTGGGCAAATCCTTTGAGATG
+CTGATCCTGGGTCGCTTCATCATCGGTGTGTACTGCGGCCTGACCACGGGCTTCGTGCCCATGTATGTGGGGGAGGTGTC
+CCCGACGGCCCTTCGAGGGGCCCTGGGCACCCTGCACCAGCTGGGCATCGTCGTCGGCATCCTCATCGCCCAGGTATTTG
+GCCTGGACTCCATCATGGGCAACGAGGAGCTGTGGCCCCTGCTCCTGAGCGTCATCTTCATCCCGGCCCTGCTGCAGTGC
+GTCCTGCTGCCCTTCTGCCCCGAGAGCCCCCGCTTCCTGCTCATCAACCGCAATGAGGAGAACCGGGCCAAGAGCGTGCT
+GAAGAAGCTGCGCGGAACGGCAGACGTGACCCGAGACCTGCAGGAGATGAAGGAGGAGAGCCGGCAGATGATGCGGGAGA
+AGAAGGTCACCATCCTGGAGCTGTTCCGCTCGGCCGCCTACCGCCAGCCCATCCTCATCGCCGTGGTGCTGCAGCTGTCC
+CAGCAGCTGTCGGGCATCAACGCGGTTTTCTATTACTCCACAAGCATCTTCGAGAAGGCGGGGGTGCAGCAGCCTGTGTA
+TGCCACCATCGGCTCCGGCATCGTCAACACGGCCTTCACTGTCGTGTCGCTGTTCGTGGTGGAACGAGCCGGCCGGCGGA
+CCCTGCACCTCATAGGCCTGGCTGGCATGGCGGGTTGCGCGGTGCTCATGACCATCGCCTTGGCACTGCTGGAGCAGCTA
+CCCTGGATGTCCTACCTGAGCATCGTGGCCATCTTTGGCTTCGTGGCCTTCTTTGAAGTGGGCCCTGGCCCCATCCCATG
+GTTCATTGTGGCCGAACTCTTCAGCCAGGGCCCTCGCCCGGCTGCCATTGCCGTCGCTGGCTTCTCCAACTGGACCTCGA
+ATTTCATTGTGGGCATGTGCTTCCAGTATGTGGAGCAACTGTGCGGCCCCTACGTCTTCATCATCTTCACGGTGCTCCTG
+GTCCTGTTCTTCATCTTCACCTACTTCAAAGTTCCCGAGACCAAAGGCCGGACCTTCGATGAGATTGCTTCCGGCTTCCG
+GCAGGGGGGAGCGAGCCAAAGCGACAAGACACCCGAGGAGCTGTTCCACCCCCTGGGGGCCGATTCCCAAGTGTGAGTGC
+CCCGCACCCCCAGCCCGGCCTGCTCCCAGCAGCCCAAAGGATCTCTCGGAGCACAGGCAGCTGAATGAGACTCAAACTGA
+CAGATCTCAGCAGAGACGGGCCCCGGGCTCCTTCCTTCAGCCAGCAGTGATGTCCAGAAGAATATTCAGGGCTCTGCGGC
+TCCAGGATTTTTAACAAAAGCAGGACTGTTGCTCAGTCCATTCAGACAAGCAACAGGTTTTATAATTTTTTTATTACTGA
+TTTTGCTATTATTTTTGTATCACCAAGTCTCCTTTACCCACATCCCACGCTTCACCTTGGAGGGCTCAGTGCCTGACGAC
+GGGGACCGAGCCCTGCCTAGACACTTGCCTTCTCCGCCAAGCTAATCCGTAGGGCTGGACCTGCGACCCCAGGACACACT
+AATCGAACTATGAACTCAGTCTTCTACCCCAAGAGGTGGCCCTGGCCACTCCCTTCCGCGGGTCTGAGTCTTCCCACCCA
+GGGGGCCAGGCTCCATTAGGATTCGCCCGCTCCCGTCCCTCCCTGCTCAAACACTCTGATTAATCTTCCCTTGCCTGAGA
+CCAGTTGGGAGCACTGGGGTGCAGGGAGGGGAGGGGAAGGGCCAGGGCTGCCAGGTTCCAGGCTCCCTTGCACTGAGGGC
+CAGACGATCACCATGGGAGGCTGAGAACTCACTACTACTCAAGAAGACACGGACACTCCTGCCCTGCTGTGTGTATAGAC
+GGAAGATATTTATATATATTTTTTGGTTGTCAATATTAAATACAGACACTAAGTTATAGTATATCCGGACAAACCAACTT
+GTAAATACACCACCTTCCTCACTCTGTAACCCACCTAAGTAGATAAAAATGGCTGGTTTTTTTAAAAAAA
+>ref|X52566.1| Pig mRNA for haptocorrin (partial)
+CGACAATCACACCAGCTGCCCCTCGTGGGGCTCCTATTGTTCTCTCTCATTCCAAGCCAACTATGCCAGAGCTGTGTGGT
+AAGCGAGAAAGACTACTCCCATCTAAGGCTGCTGATAAGCGCAATGGACAATTTAGAACAAATCAGAGGAATCTATGGAG
+CCAGCATCCTGTTGTCGCAAAGACTTGCCGGGATTCAGAACCCAAGCCTCGAAGAAGAGCTGAGTCAGCGAATCCAAGAC
+GATATGAACAGGAGAGACATGTCCAATTTAACCTCGGGACAGCTTGCCTTGATTATTCTGGCTTTTGGAGCATGCAAAAC
+CCCTGATGTCAGGTTTATACATGATCATCACCTTGTTGAGAAACTAGGGGAAAAGTTCAAAGAAGAAATTAAGAACATGG
+AAATACACAACAGCAATCCGCTGACTAACTATTACCAGCTCAGCTTCGACGTTTTGACCTTGTGTCTGTTCAGAGGGAAC
+TATTCAATCAGCAATGTCACTCATTACTTCAATCCTGAAAATAAAAACTTTAATCTTAGCGGCCATTTCTCAGTGGATAC
+TGGAGCCGTGGCTGTTCTTGCTCTGACCTGTGTGAAGAGGAGTATAAGCAATGGGAAGATTAAAGCAGCTATTAAGGATT
+CAGACACAATCCAAAAATATATAGAGTCACTGGTACATAAGATCCAGTCTGAGAAAATGGTGGTCTCTTTGGAAACGCGT
+ATAGCACAGGAGAAGCTATGCAGGCTCTCTTTGTCGCATCAGACTATTACCAAAATGAATCAAATTGCCAAGAAACTCTG
+GACGCGGTGTTTAACACATTCTCAGGGAGTATTCCGTCTACCAATCGCTGCAGCCCAGATCTTACCTGCCCTGTTGGGAA
+AGACCTACCTGGACGTAACAAAACTGCTACTTGTCCCCAAAGTCCAAGTTAACATCACTGATGAGCCTGTACCTGTGGTA
+CCTACTCTCTCACCTGAAAATATCTCAGTCATTTACTGTGTGAAAATCAATGAAATATCAAATTGCATCAACATCACTGT
+CTTCCTCGATGTGATGAAGGCGGCTCAGGAAAAAAACAGCACTATATATGGTTTCACCATGACGGAGACCCCATGGGGCC
+CCTACATCACCTCTGTTCAGGGCATATGGGCCAATAATAATGAGAGAACCTACTGGGAACATTCTGAGCAACAACAAATC
+ACTAAGCCAAGGAGCATGGGAATTATGTTGTCAAAAATGGAGAGCATTTAGAGATTCGTTGGGCCACATACTAAGAAACT
+CAAACCCTCCTCCGTGGGTCTAATCTTCTTGGAATGGAATTACGTGTGGAAATTGATTTTCATATTTTCCTTTTCATTTA
+GCTCAATCCCAATAACACAGTCAATAACCTTGGCTTCTCTCTTTGCACATTCAATAAAGTATCA
+>ref|X61436.1| Pig HKA gene intron 1 for H+-K+-ATPase alpha subunit
+GTGAGAGGGGTCAGGGACGGGGGATGGAGGTTGGAGGCAGGGGTTCCAGTGGGATCTGATGCCTTCCTGTCCCCTCCCCA
+CCCATTCCCAG
+>ref|X61437.1| Pig HKA gene intron 2 for H+-K+-ATPase alpha subunit
+GTGAGCCGGGGCCGGTCCAGGGCTAGGGGTGGGGTGGGGGTGGGGAGCATGGGGGGCCAGGCAAGGGCAGGGCTGGGTGC
+CCCCGTGAGAGCCGGACAGTGAGTGTCATGCCCCCACCATATAG
+>ref|X15410.1| Pig hox2.4 gene 3'end and L1Ss repeat 5'end
+AATTGTTAAAAGTGTTCTTAGGTTTATTGTGAAGCGAATGTATCCTGTATCTGTGAATTGCTTTATTGCGGGGAAGGGGG
+GCTAATTACATATTTTGTTGTTCCTGTATACTTTGTTGTCTGTGCCCGAAAAGNGGAAGAGTTACAATAAAGTTTACAAG
+CGAGAACCCCCCCAAAAAAAATAATAATTACCTTAAATGTCAGTGGACTGAATGCTCCAAACAAAAGACAAAGTGTGGCA
+TTAGAGACCCACCTTAAGGCAAAGAGGCATAAATTGAAAGTAAGGGGGTGGAAAAGACATTCATGAGAATGTAAATGATA
+CAAAAGCAGGAGTCACAGTACTCATATAAGGCCAAGTAGGCTAAAACAAAGGGCGTAAAGAAAGAATGACACTATTAATG
+ATAAAAGGATCAATTCAAGATGAGGATATTACATTTGTGAATATATATGTCCCTAATATGTGAGCACCCAAATACAAACA
+ACTAATATATTCATAGATATAAAAGAGAATTTGATGGGAACAAAATAATAGGATACTTTAACACTCCACTCACATCAATG
+AACAGATCCTCTAGA
+>ref|X64400.1| Sus scrofa partial IGF-I gene encoding insulin-like growth factor I
+CTGCAGATGCCTCCCGGTCTACCTCTCGAAGAGGCATATTTGCAGATGCTTCAGGTTAAATCACATCCCCTGAAACTTCC
+CACCTTTGTACCCCAAAGCCTCTCATGGCACACTCCACCCCCTCCATTCTGGATTTTCAATAGGGTTTCACTTCCTTATC
+TTTCTGGAGAAAGTGTACACTTTTCTTATTTTAAAAAGGGCATATAGCCACCACATGACAGTGACGTTTTCTTCTCTGTC
+TCTAGCACTTGCTGCAAGCCCCTATGGCCTTGACTGTGATATGCGTGGTTGGGCACGTAGTAGGTACACACTGACGGATG
+CTGAAGGCGGGCACCATTGAAATGGCAAAACTCCGGACGCTAACTTGTCTTTCTTGAAAGTAAACAGTGCCACAAGTGAT
+TAACTACAGAAGACTTGAGCAAACTCAACACCCTTTCAAAACCAACTGGGTTTTCCTCCAAGGACACTCACCTCAGCAAA
+CAGCTTTCTGGCCACAAGACAACATAAAGGCCCAGACGAGAGTTTCTAGCAGACCTCTGTTTTCAGTTGATGCATCAGTG
+TGTCTGGGTCCCCTGAGAATCAAGAGAGAGAGAAATACAAAGTCAGGCATTTCCACCATCCCTGAGAAATCATGCCTGGA
+TAGACCTCCAGGGAGAGTGGTATGTCTGACCTGAGCTTTTGCAATCTTATTTCATAATCCACTTTCTTATCTCCTACTTC
+GCAAAACCAAAGAGAAACTGGTACAAACTGTATCGGCAAAAGATCAGGACTTGATTTTCAATGGTGAAGGCAAGTATACA
+TTATTAATAGCAAAACAGCCTGGCTTGGATGGACCATGTTGCCGGCCACTCATCCAGTTGAGAGATTTGAATGACATCAT
+AACCCTTGAGAGGGTATTGCTAGCCAGCTGGTGTTATTTAGAATACACAAAAATTGGAGAAAGAAAATGCACTCACGTGA
+ACACACACACACACACACACACACACACACACACACACACACAGGTTCAAGTTATGCAGAAAAATATGAACAATGGAAAA
+TCATTTGCCCCTCAAGTGCCCTTCCCCTGGGGTGGGGGGACGGGGGGAGATAAGCAGCCTAGTAGAGGAAGGAAGAAAAA
+GATTTTATTTTATTTTTTCAGTTGGCTTTACAGCTCAGCAGAATCTTTGCCCTGTCGTGGGCAAAAAGAATGAGACAGTC
+TCCTAAAGGGAGCCAATTGCAAAGCTGCCTGCCCTTTTCCAGTTTCTAGGAAATGAGATGGATTCCCCTCGCTTGGCAAC
+TAGGATGAGGGGGTCATCCAGACTGGCTTCCGAAGCTAGTTTATCCTGGTCATTTGAGGGTTAAAATTGTAGGGTATGCT
+TGAGATGGTCTTTTCTTCATTTTTTTTTTTTCTCAATTTTGCGTTGGCTCTGGAATATAAAATTGCTCGCCATCCTCCAC
+GTATATTCTTTTCATACGGGTAAGGTGTATTAGCAGATGTGTGTGTCTTCCTGCCCAATAGAAAGTTAATCAGAGGACAG
+CATCAGTATTTTAATGTCTGCTCACCCTGTCACTAACACACATTCTTTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTT
+TAAAATGCAAAGGTATGATGTTATTTGTCACCATGCCCAAAAAAGTCCTTACTCGATAACTTTGCCAGAAGAGGGAGAGA
+GAGAGAAGGCAAGCGTTCCCCCAGCTGTTTCCTGTCTACAGTGTCTGTGTTTTGTAGATAAATGTGAGGATTTTCTCTAA
+ATCCCTCTTCTGTTTGCTAAATCTCACTGTCACTGCTAAATTCAGAGCAGATAGAGCCTGCGCAATGGAATAAAGTCCTC
+AAAATTGAAATGTGACATTGCTCTCAACATCTCCCATCTCCCTGGATTTCTTTTTGCCTCATTATTCCTGCTAACCAATT
+CATTTCCAGACTTTGCACTTCAGAAGCAATGGGAAAAATCAGCAGTCTTCCAACCCAATTATTTAAGTGCTGCTTTTGTG
+ATTTCTTGAAGGTAAATATTTCTTACTCTTTGAAGTCATTGGGGAATTTTCTTTAAATTGTGTACTGTTTGCTTCTGCCT
+AGAAATGTTCTTCACTTTAGAATTTTCATTGTTTCGGCACTGGGAGTTATTTATAAATTGCTGAATATGCAATTCTGTGG
+GATCTGAAAAAATAGCTCCGGGAGATAAATGCCTTTGCACAGATATCTGTGTGAGTAGAAACTATTGCAAGGTACTTATG
+CTAAATCCTCCACTTCTGCAGGGCTTGAGTGCTGTCATTATAGAAGATTCCTTTAAATCCTGTCTATGGTTAAGGGCTAT
+AGAGCATGGATATGAACTTTTGGATTTTTTTTTTTTTTTTTTTTTTTTGCAGGTGCAGATGTTTTATTTTTAAGACCATG
+TTCGTGGGGGGGGGGGTGCTGTGTGTGTATGTATATGTGTGTGTGTGACTTGTCAGGACTTTTATTACAAGGCATGTCAC
+AGAGTTACATTTTAAATGATATTAAAGCTTTTAAATATGATCTTTGGAGCTAAGGTCCCGGAACTCTCTGCACTTATGCC
+CAGAGAGCCAAAGTTAGAGCGAAGTTTAATTTGCTCTTCTGAAAAAGAACTCCTTAAGAACTCTTGCTGACCTTGCATAT
+TCGTATAATTTAAACAAATGCATACTGTATATGGAAAGCGGAAACTTTCTAGCAACTGCTATTCCAAGTTTTTTTCTTTT
+GAAGAGGACTCTCACAGGCAAAGTTTGGACTTGGGGTTTCGTGTTGTTAAACTCTGATTTTATGCTCGGTGTTGTAAAGT
+CTCTTTAGGTAAATTTGGCCAGTGCTGTCAATGCACCGACTTCTCGTTTCCAATCACTGGCCCTAGTTCAAGTTTCCATT
+CTCAGCAAAATTATATCCTTCAAGACTTGTGTTTTTCCAATTTGCAAGCACTTTTAAGCCGCTGTCACTGGCTCCCCGAT
+GCAATTGCCTCAGGGCTCAATTCATAAAACGTCCCTACCACTAGGTATGGTACTCATTTGCTGCTTTTAAATACTCCACC
+ACTAGGACTTTTCTCAGGCAAGTAAGTGGCTCAGGAGTTAAGGATACGTCCTTGTCAGGCACCTGATTCCGCTGCCCTTG
+AGATGCCAAGGTGCACGCTGGGTACCTTGCTTTTAAAGAAATGAAGTCAATGTACACATACACCCTGAGCCTCAGACAGC
+TGGGAGTTTTGTGTCCCTGGTTAGATGACCCTAAAAGAGGCTGTGGAGTGTGATCTCTGCATTAATTACAAGTTTGGAAA
+ACTCCGAATGGACTTTCCATTGCCGTGTATGCTGAACTTTTCAGAAGCAAAGCTAGCCATAAGTTGTTGCTTTTTCCTGT
+ACTTGGAGCAGGAAGTGGTTTGAGGGAGCTATGTGGTCTTTCAAATGTAATTCAATGAGTAAAGGTGTCTGCCAGGCAGA
+ACTCACAAGCTGATTGTACTCTGAGTCTCAAGATTTATTTCCAAGTGTTTGAGTCAGAGGGAAGAGAGCAAGGGAGAGGA
+CTGGAGCTGGGGTCACTGTTCAGGGTGGCTACAATAGGTGCACAATGGAAATTGGTGGCTTAATTGGGAGGAAAAGATTG
+ACTCAAATCCCAGCTGTGCAATTTGTTCATTGTCTGAATGGACAAAAGGCAGTTTACCCAGGCTCATAGCATACCTGCCC
+GGGTGTCCCAATGTAACTAGATGCTTTCACAAACCCCACCCACAAAGCAGCACATGTTTTTAAATCCTCAGTATTCTATT
+CACATCAGTCTCTTAATACCCACCCTGACCTGCTGTAAAAGATCTGGAACAAACAAAAATGGTTACACCTACAGTGAGTA
+TTTTCTTATGACTATTGCCCTCGAATTTTGCTGGGCATTTTTATTGTAGCCCAGACATTTGGAATCAATTGATATTCCAG
+TTATTTAAGATAAAAAGAAAGGTCTTTTAAATTTTGAATTTGTGAATGATTTTTGAGGAAAAAGTGCTCTGCATTTTTTT
+TTCCTTTTTTCTCTTTTCTTTCTGGTCCTTCTTTCCTTTCTCTCTCTCAGATTTTTCCTTTCTCTATCTTCATTTCTTTT
+GTGTTTGGCAAAATAAAAGGCCAAGTAAAGGATGAACATATGGGGCCACTTGTTTTGAACTTTTAACTCCCAAGCAAATT
+CCTTATTGTTTTCTTTTGGGGGAACATAATGTGATAAATTCTCTGGTTCTCTGTGGGTGTACTGGACTGTTCCCTGAACT
+AAAGAAAAATGCACTAGAGGTTCTATCTTGTCCTAGAACTGTAAGTGCTGATATTTA
+>ref|X52731.1| Pig mRNA for interleukin 1-alpha
+GAGTCATCTCTTTGTCGCTCCAGCCAGCACAGAAGTGAAGATGGCCAAAGTCCCTGACCTCTTTGAAGACCTGAAGAACT
+GCTACAGTGAAAATGAAGAATACAGTTCTGATATCGACCATCTCTCTCTGAATCAGAAGTCCTTCTATGATGCCAGCTAT
+GAGCCACTTCCTGGGGACGGCATGGATAAATTTATGCCTCTGAGTACCTCTAAAACCTCTAAGACATCCAGGCTAAACTT
+CAAGGACAGTGTGGTGATGGCAGCAGCCAACGGGAAGATTCTGAAGAAGAGACGGTTGAGTTTAAATCAGTTCATCACCG
+ATGACGACCTGGAAGCCATTGCCAATGACACAGAAGAAGAAATCATCAAGCCCAGATCAGCAACATACAGCTTCCAGAGC
+AACATGAAATACAACTTCATGAGGGTCATCAACCACCAGTGCATCCTGAATGATGCCCGCAATCAAAGCATCATTCGAGA
+CCCGTCAGGTCAATACCTCATGGCTGCTGTGCTAAATAACCTGGATGAGGCAGTGAAATTTGACATGGCTGCTTATACAT
+CAAATGATGATTCGCAACTTCCTGTGACTCTAAGAATCTCAGAAACCCGACTGTTTGTGAGTGCTCAAAACGAAGACGAA
+CCCGTGTTGCTGAAGGAGCTGCCTGAGACACCCAAAACCATCAAAGATGAGACCAGTCTCCTCTTCTTCTGGGAAAAGCA
+TGGCAATATGGACTACTTCAAATCAGCCGCCCATCCAAAGTTGTTTATTGCCACAAGGCAGGAAAAACTGGTGCACATGG
+CACCGGGGCTGCCCTCTGTCACTGACTTTCAGATACTGGAAAACCAGTCTTGACTCTGGTGTCTACTTACCTGTGAAGTG
+TTGACAGGCCGTATGTACCATGTACATGAAGGAGTTAAATCTTTCACTCTTAGTCACTCGCTGAGCATGTGCTGAGCCTT
+TGTAATTCTAAATGAATGTTTACTCTCTTTGTAAGAGAGGGAGCGAAGTCTGGTAGAACCAACACTAACAAATAACATCG
+CTTAGTATTTAAAAAACACACTGTCATTTACAAACTACCAATCATTTTAATTATTATTCTGCATAACAATCTTGGGAGGA
+CCAGGGTTACTGACTATGGCTACCAAAAAGGTTCTACCCATATTACAGATGGGTTAACTAAGGCCTGAGGATATTAAGAA
+GTATCCACAATAGCAGCTGGAATGAGAAGCTATGGACCCAGGATTTCATTCCACCTGCTTACCTTTTGCCTTTAAGTTGC
+TGATGGACCCTATATAACATTGTAAGTTTCTGGAACCTCAATTTAATCTTAAAAATATATATATATACATATATATACAC
+ACACACATACATAGCATATACATGTACATTATGTATATAATATTTATTATTATATCTATTATATCTATGTAATAGATTAT
+ATCTCCTTCCTGCCTCAACAGTATTCTATGACAGTGAGCTTGTTTTAGTAAAATGCTTCTTGAAGCTGAGCCTCCAGAAG
+AAGGCAAAGCCTGAAATGTTATTTTAAGTTATTATTTATATATACATATGTATTTATAATATTATTTCTAATATAAGTAG
+AACATATTATTATATTTATGTCCAACTCCTTGTGATCTCTGAGTATGACCAGTCATCTTCAATGATAGCAGACAGTGTTT
+TCCAGGTTGAATGAGTTGGAGGTACTAAGGCATTTTGGGCCAAGTTGTTGTACTTTTTTTATGGCCATGAAGGTCTGTAT
+GGTAGTAGCTGGGAGCCCTGTAATTATGATAATAAATTTACATAATTAAAAAAAAAAAAA
+>ref|NM_213861.1| Sus scrofa interleukin 2 (IL2), mRNA
X56750.1 Sus scrofa mRNA for interleukin-2
+ATGTATAAGATGCAGCTCTTGTGTTGCATTGCACTAACCCTTGCACTCATGGCAAACGGTGCACCTACTTCAAGCTCTAC
+AAAGAACACAAAGAAACAACTGGAGCCATTGCTGCTGGATTTACAGTTGCTTTTGAAGGAAGTTAAGAATTACGAGAATG
+CTGATCTCTCCAGGATGCTCACATTTAAATTTTACATGCCCAAGCAGGCTACAGAATTGAAACACCTTCAGTGTTTAGTA
+GAAGAACTCAAAGCTCTGGAGGGAGTGCTAAATTTAGGTCAAAGCAAAAACTCTGACTCAGCAAATATCAAGGAATCAAT
+GAACAATATCAACGTAACAGTTTTGGAACTAAAGGGATCTGAAACAAGTTTCAAATGTGAATATGATGATGAGACAGTAA
+CTGCTGTTGAATTTCTGAACAAATGGATTACCTTTTGTCAAAGCATCTACTCAACACTGACTTGATAATTAAGTGCCTCT
+CATGTTAAATGTATCAGGCTTTCTATTTATTTAAATATTTAAATTTTATATTTATTTTTTGATGCATGGTGTTCTAACTT
+TTGTAATACTAGT
+>ref|X03265.1| Porcine mRNA for inhibin alpha-subunit
+TGTGGGGCAGACCCTGACAGAAGGGGCACAGGGCTGGGTGTGGGTTCACCGTTGGCAGGGCCAGGTGAGCTATGTGGCCT
+CAGCTGCTCCTCTTGCTGTTGGCCCCACGGAGTGGGCATGGCTGCCAGGGCCCGGAGCTGGACCGGGAGCTTGTCCTGGC
+CAAGGTGAGGGCTCTGTTCCTGGATGCCTTGGGACCCCCGGCAGTGACTGGGGAAGGTGGGGATCCTGGAGTCAGGCGTC
+TGCCCCGAAGACATGCTGTGGGGGGCTTCATGCGCAGGGGCTCTGAGCCCGAGGAGGAGGATGTCTCCCAGGCCATCCTT
+TTCCCGGCTACAGGTGCCCGCTGTGGGGACGAGCCAGCTGCTGGAGAGCTGGCCCGGGAGGCTGAGGAGGGCCTCTTCAC
+ATATGTATTCCGGCCGTCCCAGCACACACACAGCCGCCAGGTGACTTCAGCTCAGCTGTGGTTCCACACGGGACTGGACA
+GACAGGGGATGGCAGCCGCCAATAGCTCTGGGCCCCTGCTGGACCTGCTGGCACTATCATCCAGGGGTCCTGTGGCTGTG
+CCCATGTCACTGGGCCAGGCGCCCCCTCGCTGGGCTGTGCTGCACCTGGCCGCCTCTGCCCTCCCTTTGTTGACCCACCC
+AGTCCTGGTGCTGCTGCTGCGCTGTCCTCTCTGTTCCTGCTCAGCCCGGCCCGAGGCCACCCCCTTCCTGGTGGCCCACA
+CTCGGGCCAGGCCACCCAGCGGAGGGGAGAGGGCCCGACGCTCCACCGCCCCTCTGCCCTGGCCTTGGTCCCCCGCCGCG
+CTGCGCCTGCTGCAGAGGCCCCCGGAGGAACCCGCTGTGCACGCCGACTGCCACAGAGCTTCCCTCAACATCTCCTTCCA
+GGAGCTGGGCTGGGACCGGTGGATCGTGCACCCTCCCAGTTTCATCTTCCACTACTGTCACGGGGGCTGCGGGCTGCCGA
+CCCTGCCCAACCTGCCCCTGTCTGTCCCTGGGGCCCCCCCTACCCCTGTCCAGCCCCTGTTGTTGGTGCCAGGGGCTCAG
+CCCTGCTGCGCTGCTCTCCCGGGGACCATGAGGTCCCTACGCGTTCGCACCACCTCGGATGGAGGTTACTCTTTCAAGTA
+CGAGACGGTGCCCAACCTTCTCACCCAGCACTGTGCCTGCATCTAAGGGTGTCCCGCTGGTGGCCGAGCTCCCACAGGCA
+CCAGCCTGGAGGAAGGCAGAGTTCCCACCTCCCCTTTCCTTCCGCCTCTCCGCCTGGAGGCTCCCCTCCCTGTCCGCCCC
+TGTCCCATGGGTAATGTGACAATAAACAGCATAGTGCAGATGACTCGGTGCGC
+>ref|X15411.1| Pig part of truncated L1 repeat sequence L1Ss
+AATCAATCAATGGAAAAATGGGCAAAAGACCTGAATAGACATTTCTCCAAGGAAGATACACAGATGGCCAANAAACACAT
+GAAAAAATGCTCAACATCGCTGATTATAAGAGAAATGCAAATCAAAACTACCATGAGATACCACCTCACACCAGTCAGAA
+TGGCCATCATTAATAAATCCACAAATAACAAGTGCTGGAGTGGCTGTGGAGAAAAGGAAACCCTCCTGCACTGCTGGTGG
+GAATGTAAACTGGTACAACCACTATGGAGACAGTTTGGAGATACCTTAGAAATCATATCATAGATCTTCCATATGACCCC
+ACAATCCCACTCTTGGGCATCTATCCGGACAACAAAACTCTACTTAAAAGAGACACATGCACCCGCATGTTCATTGCAGN
+ACTATTCACAATAGCCAGGACATGGAAACAATCCAAATGTCCATCGACAGATGATTGGATTCGNNAGAGGTGGTATATAT
+ACACAATGGAATACTCCTCAGCCATAAAAAAGAATGACATAATGCCATTTACAGCAA
+>ref|X67188.1| S.scrofa promoter region of LPH-gene for lactase-phlorizin hydrolase
+AAAAAGTTTGGTAAGGACCTAACCTGTGTTCCGCTATGTAAACAAATTTTAAGATAATTTGTAAGTAAGACAAAAATGTG
+GAACAAGTTTTTTCCTTCAGATGCTTTCCATTTCCTCTGCTTAAATTGTGTGAGAAGTTTTGAGGTTTTTGTGCTATCTT
+TTATGGTTTTTAAATTTTTTGATATTTCATTGAACTATGTACTAATTTTATTATCACAGATAACCCAGTTACATATTAAG
+TGTTAAAAATCACCTAGTATTTTACAACCTCAGTTGTAGTTATAAAGTAAGTATTCCACATACCTCCTAACAGTTCC
+>ref|X54724.1| Porcine mmp1 mRNA for matrix metalloproteinase (type I collagenase) (EC 3.4.24.7)
+AGAAACACAAGAGCAAGATGTGGAGATAGTGCAGAAATACCTGAAAAACTACTACAACCTGAATAGTGATGGGGTGCCAG
+TGGAAAAGAAAAGGAACAGTGGCCTCGTAGTTGAAAAACTAAAGCAAATGCAACAATTCTTTGGGCTGAAAGTAACGGGG
+AAACCAGACGCTGAAACTCTGAATGTGATGAAGCAGCCCAGATGTGGAGTTCCTGACGTGGCTGAGTTTGTTCTCACTCC
+AGGGAACCCTCGGTGGGAGAACACACACCTGACCTACAGGATTGAAAATTACACACCAGATCTGTCAAGAGAAGATGTGG
+ACCGTGCCATTGAGAAAGCCTTTCAACTCTGGAGCAATGTCTCACCCTTGACCTTCACCAAGGTCTCCGAGGGTCAAGCA
+GACATAATGATATCCTTTGTCAGGGGAGATCATCGTGACAATTCTCCCTTTGATGGACCTGGAGGAAACCTTGCTCATGC
+TTTTCAGCCAGGCCCAGGTATTGGAGGGGATGCTCATTTTGATGAAGATGAAAGGTGGACCAAAAATTTCAGAGATTATA
+ACTTGTATCGTGTGGCTGCTCATGAACTGGGCCATTCCCTTGGCCTTTCTCATTCCACTGACATTGGGGCTTTGATGTAC
+CCCAACTACATCTACACTGGTGATGTTCAGCTGTCCCAAGATGACATTGATGGCATCCAGGCCATCTATGGACCTTCCGA
+AAACCCCGTTCAGCCAAGTGGCCCACAAACCCCACAAGTGTGTGATAGTAAGCTAACTTTTGATGCTATAACTACACTTC
+GGGGAGAACTAATGTTCTTTAAAGACAGGTTCTACATGCGCACAAATTCCTTCTACCCTGAAGTGGAGCTCAATTTCATT
+TCTGTGTTCTGGCCACAAGTGCCAAATGGACTTCAAGCTGCTTATGAGATTGCCGATAGAGATGAAGTCCGGTTTTTCAA
+AGGTAACAAGTACTGGGCTGTTAGGGGGCAGGATGTGCTATACGGATACCCCAAGGACATCCACAGATCCTTTGGCTTCC
+CTAGTACTGTGAAGAATATCGATGCTGCTGTTTTTGAGGAAGATACTGGGAAAACATACTTCTTTGTTGCTCACGAATGC
+TGGAGGTATGATGAATATAAACAATCCATGGATACAGGTTATCCCAAAATGATAGCAGAAGAATTTCCTGGGATTGGCAA
+CAAAGTTGATGCTGTTTTCCAGAAAGACGGATTTCTATATTTCTTCCATGGAACAAGGCAGTACCAATTTGATTTCAAAA
+CGAAGAGAATTTTGACTCTCCAAAAAGCTAATAGCTGGTTCAACTGCAGGAAAAAT
+>ref|X54328.1| S.scrofa Mx1 gene (exon3 and intron2)
+GGATCCTTAACCCACTGAGCGAGGCCAGGGATGGAGCCTGCAGCCTCATGGAGACTAGTCGGGTTCATTACCGCTGTGCC
+ACAGTGGGAACTCCTAGAAGTCGTCCGTCTCTGATGGAACGTGACCTGCAGGCCATGACAAGTCTCCCATTCTGCCTCCC
+CAGGGCCCTGAGAACAACCTGTACAGCCAGTACGAGGAGAAGCTGCGGCCCTGCATCGACCTCATCGACTCACTGCGGGC
+CCTGGGCGTGGAGCAGGACCTGCCCCTGCCC
+>ref|X54330.1| S.scrofa Mx2 gene (exon3 and intron2)
+CCCGGGCACTTCCAACGAAGACAGGGACAGACGGTCTCCAGGGCAGCAGTGACCTCCCAGGAGTCTGGGGTCTCCTTCTG
+GGAGCTCCCCCCCACACCCCCGCTGTGACGGCCACTGTCCCGCCCAACCCCCACCCCAGCTCGGTAGCCCTGGGGCCGGC
+TCCCCTCCCCGCTCTGGCTGGGAGCGTCCACCCTTGGTGCCGTCTCCCTGCTCAGCCAGACACCCCAACCCTCCCAGCCA
+GATGTTCCCCTCAGCTGCAGAGAAAGCCGCACTGGGCCATAGCGACCTCCTTCTCGAAGGCACAGCAGATCCCCCACCCT
+GCTGCCTGCACGTCCGTGCATCTGTGCTGCCACAAATCCCCACGGTGGTGGGAGCCCCCTCGGAGGTCATGACTGAAGTT
+GCGGTGCCTCCCCAGGGGCCCGAGAACAACCTGTACAGCCCGTTCGAGGAGAAGGTGCGGCCCTGCATCGACCTCATCGA
+CTCGCTGCGGGCCCTGGGCGTGGAGCAGGACCTGCCCCTGCCCACCATCGCCGTCATCGGGGACCAGAGTTCGGGGAAGA
+GCTC
+>ref|X54329.1| S.scrofa Mx2 gene (exon6 and intron5)
+GAGCTCTGGAGGCTAAGTAGGACATCCGTAAGGCAGGTGGGGCGGGCACTCCAGCGGAACCCCGAAGTGTGAGCCCCGCG
+TCCTGCTCTGGAGGGCGCGTCCGTCTACAGGGGCTCTTGGCTGACCAGGTGTGCTTGCTCTCCCTCTGCGACTCCCTGGC
+GACAGATCAAGGCGCTCATCAGGAAGTACATCCAGGAGCAGCAGACCATCAACTTGGTGGTGGTCCCTTGCAACGTGGAC
+ATTGCCACCACGGAGG
+>ref|X12764.1| Porcine NFI gene for nuclear factor I (partial)
+CTAGTCGGGTTGGTTAACCCCCATGACAGGAAGTCCCCAGTGCTCGTCTTTATCAATAAAGTTTTATTGGAACACTGTCA
+CAGCCATCACTTACATGTCCTCTGTGACCAGTCTTACACTACAGTGCAGAGTGGAGCGGTTGCAACAGAGACTGAAATAC
+TCATTATTTGATTCTTTATGGTACTTTTAAAGTTTGCTGACCCCAGTTCTAGAAGGCAGAGAATGGGTCCATGCTACCCC
+CATTCTACTATCCTCAGTTTTCCCCATCTGGACAATGGGTCCCCATCAGACTCTACCTGGGACCCTCATCTTGTCCTACC
+TGTATATTGGGGTTCAGGACAGTCCATAAACGGCTGCCTTGGCCCGCGCCTGCCATGTGGTCCAAGCCTCTTGTTTCCCC
+ATCTGGACAATGGGCTCTCGTCTGACCCAGTGAACTTCGGCGGGGCCCCTTCTGGCCTCATTTTCCCCAAGAGGTAGAGG
+GCTCTGCAGAGGCCCCCTGAACACCTCTGCCCTCCCTCCCTCTAGTGGGTCTGCATGGGGCCCCTGCGGCCTCAGTCTTC
+TGGGCCGGGCAGTGGGTCCACGGACCCAGCACCTCCTGACCTCTGGCTTCTCGCGCCCGCAGGATGAGTTCCACCCATTC
+ATCGAGGCGCTGCTGCCTCACGTCCGCGCCTTCGCCTACACCTGGTTCAACCTGCAGGCGCGGAAGCGCAAGTACTTCAA
+GAAGCATGAGAAGCGGATGTCAAAAGATGAGGAGCGGGCGGTGAAGGACGAGCTGCTGGGCGAGAAGGCCGAGGTCAAGC
+AGAAGTGGGCGTCGCGGCTGCTGGCCAAGCTGCGCAAGGACATCCGGCCCGAATGCCGCGAGGACTTTGTGCTGGCCATC
+ACCGGCAAGAAGGCGCCAGGCTGCGTGCTCTCCAACCCCGACCAGAAGGGCAAGATGCGCCGCATCGACTGCCTGCGCCA
+GGCCGACAAGGTGTGGCGGCTGGACCTGGTCATGGTCATCCTCTTCAAGGGCATCCCGCTGGAGAGCACCGACGGCGAGC
+GCCTGGTCAAGGCGGCACAGTGCGGCCACCCGGTGCTCTGCGTGCAGCCACACCACATTGGGGTGGCGGTCAAGGAGCTG
+GATCTCTACCTGGCCTACTTCGTGCGCGAGCGAGGTGAGGCGGGGCGTGCACGTGGACGCGGGTCTGACGGCCGAGAGGG
+GATGCGCCGGGCATCGCAGAGCGGACGTCCTGGGGAAAGTGGACCCGCAGGCCTGAGGGACCAGGCTGGCACGCGCAGCC
+TGGGGTGGGCAGGCTGACCTATAAGAGGTCTGAGGGCGGAGGCTTGTCCACCCAAGGTGGTCTACCCAGCGGGGAGGCTT
+GCTCACACAAGGTACCAGCAAGGAGGCAGGTCTGAGGGAGGAGGCTGGTGCAGGTTGTCTGAGGGGGGAAGAAGCTGCAC
+TGAGAGGGTCAGAGCAGGGAAGTGGGCCTATGCTGGGGTCGGAAGG
+>ref|X51559.1| S. scrofa Mc1 satellite DNA (clone pAL7.1)
+CTGAGAACTAGGGAAGCGCTGTGACCCCTGAGCCAGGCAACATTGGGGCTGAGGTTTGTTCCCCGAAGCAACAATACCCC
+TTTGCTGAATGCAGCTGGCTATGGGTGGGTTGCTAGGGCAGTGCAAACAGGGCTTCTTCAGGCCAAATCACCTTCTCGCG
+AAGGAGAACACGTTTGGAGTTGGTTTCAAG
+>ref|X51560.1| S. scrofa Mc1 satellite DNA (clone pAL7.4)
+CTAGGTGAGACTAGGGAAGCGCTGTGACCCTGAGCCAGGCAACATTGGGGCTGAGGTTTGTTCCCCGAGCACAATACCCT
+TTGCAGAATGCAGCTGGCTATGGGTGGGTTGCTAGGGCCAGTGCAAACAGGGCTTCTTCAGGCCAAATCACCTTCTCGGC
+GAAGGAGAACCACGTTTGGAGTTGGTTTCAAG
+>ref|X51558.1| S. scrofa Mc1 satellite DNA (clone pAL7.5)
+CTAGCAAAGGGTGAAGGTGCTTGGGACACTGCACCACAAGCCTATTCAGGCCGCATCCGCCCTTTCTCCCAAATGAGAGC
+ACGTTTGTATTTGGTTTCCAGCTGGCTATGGGGGGGTTGCTAGGGCCAGTGAAACAAGGCCTTTCCTAGCCAATCAGCGT
+TGACTGCCAAGGAGAACACTTTTGCAGTTCTTTTTCCAGCTGCCTAACGGTGGGTTGCTAGGGCCAGTGCACACAGGGCT
+TTCTCAGGCCAAATCAGCCTTCTCCGCGAAGGAGGACATTTGGTGTTCCTTCAG
+>ref|X51556.1| S. scrofa Mc1 satellite DNA (clone pAv1.6)
+CCCGAGCTTCCCTCCGGCGCCCATGCTCCCATGCTCCCGGCGCCAGGCTCTGGGACCGGCTGGGCGCACCACGGATCCCA
+GACCAGAATCAGCGCGGCGGATGCACGGGGAGATGATGGCCGGCCCAGGTGTGGCTGCGGATCCCTCCCTGCACACCTAC
+CGAGCTGGGCACACGTAGCAGGGCAGGTGGGACTGAGGAAGGGGCCACGGAGGGGTGGGGTTGGGCAGGAGCGGGCCCAC
+ACAGAGGCCTAGGCCCTTGTCCTAGCCCAGGGTTGCTGTTGGGTCTAGCGGTCACTCTGATGAGA
+>ref|X51555.1| S. scrofa Mc1 satellite DNA (clone pAv1.5)
+GAGGAAAGTTGCACTTTCACGGACGCAGCCTCCCAGATGGGCCCTAGCTGGGTCCCTCCCTACCTGTAGAAAGGTGAGGT
+GGTGGGGCCACTTGCCACACAAGGCATATTCTGGCCCCATCCGCCTCCTCCCTGAAGTAGAGCACGTTTGGAGTTGGTTT
+CCAGCTCTAGCAATGACCTGCAAAGCACCAGTGCACAGGGAGCAGGAGGCAGCCCAGACCCTCCTTGTTCCTATGGCGAG
+CAATGGGCTAGGGGAGAAACCAGAAAGCGCTGCTTTCCTGACGAAACACGCATTGGGCTGAGCTTGGTTTCCC
+>ref|NM_213864.1| Sus scrofa serine peptidase inhibitor, Kazal type 4 (SPINK4), mRNA
X67109.1 S.scrofa PEC-60 mRNA
S46866.1 PEC-60=gastrointestinal peptide [swine, duodenum, mRNA, 364 nt]
+CCGCCGCCAGCCCAGGATCAGCATGGCTGTCCGCCTGTGGGTGGTCGCCCTGGCCTTGGCTGCCCTCTTCATTGTGGACA
+GAGAAGTGCCAGTGTCGGCAGAAAAGCAGGTTTTCTCAAGAATGCCCATCTGTGAGCACATGACGGAGTCCCCAGACTGC
+TCCCGGATATACGACCCAGTCTGTGGCACAGATGGGGTCACATACGAGAGTGAATGCAAGCTCTGCTTGGCTCGGATAGA
+AAACAAACAGGACATCCAGATCGTGAAGGATGGCGAATGCTGACTCCACAGGAGCCCCTTAAGCCATGAAGCTTCGGGCT
+GGAGGACAGCTCTGGGTGTGGAGAAGATGTGACATTAAATAAAA
+>ref|Z14130.1| S.scrofa pepsinogen A gene, 5'-flanking region and exon 1 (untranslated region)
+CCCTACCCTGAGCCACATTCCCAAGCTGCTCTTAACTAGCGGCGCTGACATGGGATTAATTAAAACACTGTCTTGAACAC
+TTCTGCGCGCCATATAACTCACAGAGGGAGATGAAAGATGAATAAGATACACGCAATGTTCTTCACGGCTCATTCCCCAC
+CTCCCAATCCGGAGGGTTCCCAGACTCACCCTGTTCCACCAAGTCCGCTCCTCCATTTCCAAGTTGAAAAGTATGCCCAT
+ACCCTCCTTGCCTTCTTTTTTTTTTTTTCAGTATTATGAACAGTTTTATTTATGCATCACATATACATAACGTGTAAGGA
+ATAATCATGAGCACCCATAAGCCCAGCGTAAGACCCCAAGTACTTTTGAAGACCCTGGTGACCCGCCCTCCAGGAGGAAG
+CCTGGAGCCAGGGTTTCCATCTGCTGCTCCCAGGACCTCGGCCAGCATCCTGAGGGCCATCCGCTCCTCCACAGAAATGC
+TGATATCTGCCCAAAGTTGATGGCCAAGGAAGCAGGCACCAAAAGATGTGAAAATGGGACACAAAGATGTCCTAAGGGGT
+GAATTTGAAAGGCAAATATGATTTTTTACTAACAATCACGGGTCCTAAACTGATATGCCCTGCCCACCGCTCCTCCAGAG
+GCCTGGGGAAATTTGCAACTTGTGTAGAATCTGTGTCTCCTTTGGTTGGAAAAACCAGGGGTGGCCCAGGGACTCCAATT
+TCAGAACAAGACCCAGAGACATGGCCGGCTACCTACTGGTGACTTCCCGCTCACATACCCTCTCTTCCACAACTCCTGAA
+TCAAAGTTCCCACTCCACTTTGTTGAATAACCCCACAAAGGGAAGGATCCATCGGGTTGGAAAGTCTCCTCTTTTCAGAA
+GAGAACTTTTTTAAGTCCTTCACACTCTAGTATGAATTTGCCCAGATTGCTTTGCTCCACTGCAGCTGATCCAGCCCAGT
+TTTAAGCATGGAACACCTAGAGGTCTGATCCAGAAGGGGTCTCAACGGTGGAGGCTGAGAGTGTGGGAGAGGAGCAGAAA
+GAAGAAAGAGGGTATAGAAAGCAAGGGGCACAGATCAGAAAGGCAAACTGGGCCTGTTTCAAGTTTGCTTCCTCCAGGAA
+AGGAAACCTTCCTCCATGTGCTCCCCACTCTGTCCCCTTCCTCTGTGCTACACACACCACTTTCCGAAGACTCAACCCAA
+CTGCCATGAGAAGCAAGAGCAAAGTAAGTCCCATAGGCTAATTAGGCACCCAACAACCCCATATGATGACCTTTCTATGG
+GAAATGAGTCTTGAGTCCCAAATCACCGACCTACCAATATGCTTGGGGGCAGCAGCTACAGGAACATGGCCCATCACTGA
+AAGGAGAGCTGCTCTCTGAAAATCCCAACCGGGACACATCAAGGGTACCCAGAGCCCCTCTGACATCTGTTCAATGTAAG
+GGGCACTTTGGACCACTTTAGTCTAAAGAGTCAGCTTGTCAGTTTTAATGCATTGCATCATTTAAGGAATAAGCCCACTT
+TCCCAGCACGCGCTCTCTGCAGGGACCATTCCCAACTGCGGGAGGTGACTACAGTGGAAAGCTACCCAACTGGAAACTTC
+CCAGAACATGGCTCAGGGCAGGGACCATCTTATCAGGAAATTTTCTGTTTGGGGTAAGGGTAAAGGGTGACGTTTGGTGG
+CTGATAAGGCCATTCCCAAGGACTCGAACTGTATAAAAGGAGCAGCTCTTGCCTCCTGCTGCATACCTTCCATCCATCTT
+CCCTTCTCTGGAGACTTGGGAGCCAGGAAGAACC
+>ref|NM_214330.1| Sus scrofa glucose-6-phosphate isomerase (GPI), mRNA
X07382.1 Pig mRNA for muscle phosphohexose isomerase (PHI; E.C. 5.3.1.9)
+TTTTTTTTTTTGTAGTGTTTCCAGCCGCTTTCGCCATGGCTGCACTCACCCAGAACCCGCAGTTCAAGAAGCTGCAGACC
+TGGTACCACGAGCACCGCTCTGACCTCAACTTGCGCCGCCTTTTCGAAGGGGACAAGGACCGCTTCAACCACTTCAGCTT
+GAACCTCAACACCAACCATGGCCGTATTCTGTTGGATTACTCCAAGAATCTTGTGACGGAGGCTGTGATGCAGATGCTGG
+TGGACCTGGCCAAGTCCAGGGGTGTGGAGGCTGCCCGGGAGCGCATGTTCAATGGTGAGAAGATCAACTTCACCGAGGAT
+CGGGCAGTGTTGCACGTGGCCCTGAGGAACCGGTCAAACACACCCATTCTAGTGGACGGCAAGGATGTGATGCCAGAGGT
+CAACAGGGTCCTGGAGAAGATGAAGTCTTTCTGCAAGCGTGTCCGGAGTGGCGAATGGAAAGGGTACTCGGGCAAGTCCA
+TCACGGACGTCATCAACATCGGCATCGGCGGCTCTGACCTGGGACCCCTCATGGTGACGGAAGCCCTCAAGCCGTACTCT
+GCAGAAGGCCCCCGGGTCTGGTTCGTCTCCAACATTGATGGGACCCACATTGCCAAAACGCTGGCCACCCTGAACCCCGA
+GTCGTCCCTGTTCATCATTGCCTCCAAGACCTTCACCACCCAGGAGACCATCACAAATGCAGAGACGGCGAAGGAGTGGT
+TTCTTCAGTCAGCCAAGGATCCCTCTGCAGTCGCAAAGCACTTTGTCGCCCTGTCTACCAACACTACCAAAGTGAAGGAA
+TTTGGAATTGATCCTCAAAACATGTTCGAGTTCTGGGATTGGGTGGGAGGCCGCTACTCGCTCTGGTCAGCCATCGGACT
+CTCCATTGCCCTGCACGTGGGGTTTGACAACTTCGAGCAGCTGCTCTCGGGGGCTCACTGGATGGACCAGCACTTCCGCA
+CGACACCCCTGGAGAAGAACGCCCCCGTCCTGCTGGCTCTGCTGGGTATCTGGTACATCAACTTCTTTGGGTGTGAGACG
+CACGCCATGCTGCCATATGACCAGTACCTGCACCGCTTTGCTGCCTACTTCCAGCAGGGTGACATGGAGTCCAACGGGAA
+GTACATCACCAAGTCCGGCACCCGTGTGGACCACCAGACGGGCCCCATTGTGTGGGGGGAGCCAGGGACCAATGGCCAGC
+ATGCCTTCTACCAGCTCATCCACCAAGGTACCAAGATGATACCCTGTGACTTCCTTATCCCGGTCCAGACACAGCACCCG
+ATACGGAAGGGTTTGCATCACAAGATCCTCCTGGCGAACTTCTTGGCCCAGACTGAGGCCCTAATGAAGGGGAAGTCGAC
+GGAAGAGGCCCGGAAGGAGCTGCAGGCCGCTGGGAAGAGTCCAGAGGACTTTGAGAAACTGCTGCCCCACAAGGTCTTTG
+AAGGAAATCGCCCCACCAACTCTATTGTGTTCACCAAGCTCACGCCGTTCATCCTTGGAGCCTTGATTGCCATGTACGAG
+CACAAGATCTTCGTCCAGGGCGTCATCTGGGACATCAACAGCTTTGACCAGTGGGGAGTGGAGCTGGGAAAGCAGCTGGC
+TAAGAAAATTGAACCGGAGCTTGATGGCAGCAGCCCAGTGACTTCTCATGATTCTTCCACCAATGGGCTGATCAACTTCA
+TCAAGCAGGAGCGTGAGGCCAGAAGCCAATAAACTGGTGCCCCACTGCAGTCCCCACTGTGACTGGTCCTTCTTGTCCCT
+TCTGCCCAGAGTCTGCACTGCATGGTCCTGCCCTCTGGTTTTGGGTTTGGACCATAAGACCTTTGGGGGAAGCTGGTCTG
+GAATTGCCACCCCTGCCCTCTCCATGTTCATGCCCCCTCTGTTTTAAAGTTGGCTGAAGTGTTTCGGTGCAGCTGAATTT
+TCTGACCCATGTTCACTGTTCATATACCAGGTAGAAAAATAAAGATGCCATAAAGGAG
+>ref|X51564.1| S. scrofa Ac2 satellite DNA (clone pHi4.2)
+CATTCATGAAGCGTGGCCCTATGGTACCCGATTCGAATGCACTGGTTGCCAATGAAGCATGATTGAATGCCAGTGGATTA
+TTCCATGCAGCATGGAGAAATTGAACCCTATTAAATGCAGGGGATTTTATGCAGCATGATTGAATGCAGTGGATTG
+>ref|X51565.1| S. scrofa Ac2 satellite DNA (clone pHi4.5)
+CTTCCATGCATTGTATTGAATGCAGTGTACTCCATGCAGCGAGGTAAAATGCAACCGTATTGAATGCAATGGACTG
+>ref|X05943.1| Porcine gene exon 1 for cAMP-dependent protein kinase I regulatory subunit
+GGATCCGCCGGGGGCGCCACCTCCTCCTGGGCCTGGAAACGGCTGGAATCTCCCCTCCCCCGCCCAACGTCCCCCTCCGG
+CAGGGGCCACTGGGCGGAGTCGCCCACCTGTCATCCGAGACTCCCTAAGTGGGCTGGCCTGGGTGGGGGAAGGGGGTTGA
+GGGGAGGGAGAAAAGGCCGAGGCGGCGAGGGAGGTAGGAGTGAGGGTGGGAGGAGAAGAGAGAAGAGGAGGAGGAGAGGG
+GAGCTCCCGATAGTCGCTCAGAGAAGGAGCGAAGAGCAGAAGAATAAAGGGGACCTGAGGCGTCCAGAGAGGAACAGGTA
+AGGGGCGGCAGGTGAACAGAGGAGGAGAGCCCCAGGCTAGAGAGAGTGGGGGAGAGACAAAAGGCAAGCGTGGGGAAAGG
+GTGCAGATGAGGGACGATGTAAGACAAAAAAGCAGAAAAGGAACGCTCCTAGAGAGGAGAGGCGAGGGTCCTTCAAGGAG
+CGGCGGGGGCGGACGGGGCCCCGCTGCACCTTTAAGGTTGCCAAGGCAACGGCTCTGGCCAGAGCGAGGCGCATTGACGT
+CAGCAGCCGGGCGTTGATTGGCTGTGGCTAGCCGTTTCCGGTGGAGTCGCCGCGGAGCGCTATCGCTGTGTGCAGCCGGG
+CTGGGAGGGAAACGCTGAGGGAGCTCAGCAAGCCGTCACCTCACACCGGTAATCCCGTGCCCGCCGCCGTCTGTCCCCAG
+GTGAGTGGGGTCGGCGGAGGGCCTCAGTGCGGCCAGCTTCGCCGCCCCGCCGCCCGTTTGGGGGCGCTGGACCGATCCAA
+GATGGCGTCACGGGGAGCGACCTGCAGGGGGACGGCCGCACCCCGTGCCCCTCCCGGCGGCGCTCCCGCAGCCTGGGCCG
+GGGCGGGCCCGGCGGGAGTCTGGCACTGTCTAGGGCTCCGGGCGTGTGCTCGTAGCAGGGCT
+>ref|X06158.1| Porcine gene exon 2 for cAMP-dependent protein kinase I regulatory subunit
+AGACCGGCCGCTGGCAGGGGATAGTGGCTCCTACTGCCGCCCTGGGAGCTGGAGCCTGGCACTGTCGCTGCCTGCGGAGC
+CAAGATCCTGTGCAGCAGGACCTAAATGAAACACTTTGAGAGAATGCTGTTTCTCTTCGTGTTTTACTCCCTAGCTCTCA
+CCTCCCAGTTTAAACACAAACAAACAAAAAAACCACCTAGGAAAAAAATGCGCTGTGAATCAGTTGCCTAGTGAATTTGT
+TAAGTCAAAGGCCAAACTGGGGTTTGCTCTTTATGAAGGGTTTTTCACAAAGCATCTGTGTGTTTTTCCTGTAGGGAACC
+ATGGCGTCTGGCAGCACCGCCAGTGAGGAGGAGCGTAGCCTCCGGGAATGTGAGCTCTACGTCCAGAAGCACAACATTCA
+GGCCCTGCTCAAGGATTCTATCGTGCAGTTGTGCACTGCGCGGCCCGAGAGACCCATGGCATTCCTCAGGGAATACTTCG
+AGAGGTTGGAGAAGGTAAATAAATCGGCTGGTCAGGCGGAGCTGACCCTGACCATTTTT
+>ref|NM_214213.1| Sus scrofa phospholamban (PLN), mRNA
X15075.1 Pig mRNA for phospholamban
+CTTTCCAGCTAAACACCGATAAGACTTCATACAACTCACAATATTCTATACTGTGATCATCATAAACAGCCAAGGCTGCC
+TAAAAGAAGACAGTGATCTCATATTTGGCTGGTAGCTTTTTCAGCTTTCTCTTGACGGCTTAAAACTTCAGGCTTCCTGC
+CTTCCTGGTATCATGGATAAAGTCCAATACCTCACTCGCTCTGCTATTAGAAGAGCTTCAACCATTGAAATGCCTCAACA
+AGCACGTCAAAACCTTCAGAACCTATTTATCAATTTCTGTCTCATCTTAATATGCCTCTTGCTGATTTGCATCATCGTGA
+TGCTTCTCTGAAGTTCTGCCACAATCTCCAGTGCTACAATTTATCACCATCAGCTTAAAATCTGTCATCCCATGAAGAAG
+GGAAACAATACTATATAAGAGACCACTTCCTCAGCAGAAGAAGTTCTTTATGAAAAGGTCAAGATTTGGAATGAAACAAA
+TTGTTAGCAAATGTATTCATCTGCTGGATCTTGTAAACATGAAAAGGGCTTTATTTTCAGAAACTAACTTTAAAATGACT
+ATAAGTGTGCATAATGCAACTGTTGATTTTCTCAACAGAGCTTATAAATTTCTATCCCAAATCTTTTCTGAGGATGAACT
+AGGGGTTTAGTTTGGAAACTGCACTGCTAACTAGTTCACGTCATATATAAAGCATTAGCTTCACTCTTTGGGGTAAATAT
+AATTTATACTGTACTGT
+>ref|X51563.1| S. scrofa Ac2 satellite DNA (clone pMb2.3)
+GATTGAATTCAGTGGATTCCATGCGGCGTGTTTCAATGCAGTGGATTCAATGCAGAGTGGTGCATTGTATCTCGATTGAA
+TGAAGTGGATTAATGCAGCTTGGTGTAATTGTTACCGATTGAATGCAGTGGATTCCATGCAGTGTGATTGAATGCACTGG
+ATTCCATGCAGCAGTGTGAAATCCCATGCAGAGTGAATGCAGTGGATTGCCATTCAGCTTGGCCACAATGGATCG
+>ref|X51561.1| S. scrofa Ac2 satellite DNA (clone pMb3.4)
+AATTGAATGCAGTGAATTCCATGCAGCGTGATTGAATGCAGTATATTCCATGCAGCGTGGTAAAATGCATCCCGATTAAA
+TGCAGTGGATTCCATCCAGCTTGATTGAATGCAGTTGATTCCATGGAGCGTGGCCCAATGCTATCCCGATTAAATGCAGT
+GGAGTTTATGCAGCATGGCCCAAAGCATCCCGATTGAATGTAGTGCATTCCATGCAGCATCACTGAATGCAGTGGATTCC
+ATGCAGCATGGTAAATGCATCCCGATTAAACGCAGTGGATTACATGCAGCATGGCCTAAATGGATCGGG
+>ref|X51562.1| S. scrofa Ac2 satellite DNA (clone pMb3.5)
+TCAGATCTATTTAGCCATGCTTCATGGAATAAATTGCGTATCAGTCTGGATGCATTTTACCTATGGCCTGCCATGGAATA
+CCACGTGCCATTCAGTGATGCCTGCATGGAATGCAGCTAGCCTGTCAATCGGGATGGCTTTGGGCGCCATGCTGCATACA
+ACTCCATCTGCCATTTAATGGGTATGGCATTCGGGCCACGTCCATGGATACTCATTCAATTCATGCTCGATCATCGATTA
+ATCGGTCGGATTACCGATGCGTGCATGGATGTACTGCCATTCAAGGTCATGGCTGTCATTGGATTCATCACCGGATTCAA
+TTGGGATC
+>ref|X00135.1| Porcine pro-opiomelanocortin messenger RNA (POMC)
+AAGGCAGCGAGAGGGAAGAGCAAGAGGGGAAGAAGAGTGACCAAGAAACCGCCGAGTTTCCTGCCTCGGCGCAGCGGGAG
+TCGCCCCGAGAGCGGCCTCCCCGCGACAGAGCCTCAGCCTGCGTGGGAGATGCCGAGATTGTGCGGCAGTCGCTCGGGGG
+CCCTGCTGCTGACCTTGCTGCTCCAGGCCTCCATGGGAGTGCGCGGCTGGTGCTTGGAGAGCAGCCAGTGTCAGGACCTC
+TCCACGGAAAGTAACTTGTTGGCGTGCATCCGGGCCTGCAAACCAGATCTCTCTGCGGAGACGCCCGTGTTTCCCGGCAA
+CGGCGACGCGCAACCGCTGACCGAGAACCCCCGGAAGTACGTCATGGGCCACTTCCGCTGGGACCGCTTCGGCCGCCGGA
+ATGGCAGCAGCAGCGGCGGCGGTGGCGGTGGCGGCGGCGCGGGCCAGAAGCGCGAGGAGGAGGAGGTGGCGGCGGGCGAA
+GGCCCCGGGCCCCGCGGAGATGGCGTCGCGCCGGGCCCGCGCCAGGACAAGCGCTCCTACTCCATGGAGCACTTCCGCTG
+GGGCAAGCCCGTGGGCAAGAAGCGGCGCCCGGTGAAGGTGTATCCCAACGGCGCCGAGGACGAGTTGGCCGAGGCCTTCC
+CCCTCGAGTTCAGGAGGGAGCTGGCCGGGGCGCCCCCCGAGCCGGCACGGGACCCCGAGGCCCCGGCCGAGGGCGCGGCC
+GCCCGGGCCGAGCTGGAGTACGGGCTGGTGGCCGAGGCCGAGGCGGCCGAGAAGAAGGACGAAGGGCCCTATAAGATGGA
+GCACTTCCGCTGGGGCAGCCCGCCCAAGGACAAGCGCTACGGCGGCTTCATGACCTCCGAGAAGAGCCAGACGCCCCTGG
+TCACGCTGTTCAAAAACGCCATCGTCAAGAACGCCCACAAGAAGGGCCAGTGAGGGTTCAGGGGGCAGGCGCCTCTCACC
+CCGGAAGCCGACCCCAAAGCCCCCTCTCCTCGCCTGCCCTCCTGCCCCCCCAGCCCGGGTACGCTCAGGCTGTGTGGGCG
+CCAGATATCCCGCCTCTTACCTGTAGTTAGGAAATAAAACCTTTCAAGTTTCAAAAA
+>ref|X51557.1| S. scrofa Mc1 satellite DNA (clone pPv15)
+CTGGCAAACCAACTCCAAACGTGTTCTCCTTCGCCGGAGAAGGCTGATTTGGCAGGAAGAAGCCTGTGTGCACTGCCCTA
+GCAACGCACCATAGCCAGCTAGGGAGGGACCCACCTAGGGCCCAGGGTACCGAGCTCGAATTCGTAATCATGGTCATAGC
+TGTTTCCTGTGCTGAAATTGCTTATCCGCTCACACAATTCCACACACATACGAGCCGGAACGATAAATGTGAAAGCCTGG
+GTGCCTAATGAGTGAGCTAACTCACATTAATTGCGTTCGCGTCACGCCGTTCAGCTGGAAG
+>ref|X64127.1| S.scrofa DNA for SINE sequence SSPRE
+TTGGAGTTCCCGTCGTGGCTCAGTGGTAACGAATCCGACTAGTATCCATGAGGTTGCAGGTTCGATCCCTGGCCTTGCTC
+AGTGGGTTAAGGATCCGGCATTGCCATGAGCTGTGGTGTAGGTCACAGACGCAGCTCGGATCCGGCGTTGCTGTGGCTGT
+GGTGTAGGCCGGCAGCTGCAGCTCCGATTCGACCCCTAGCCTGGGAACCTCCATATGCCGCGGGTGCGGCCCT
+>ref|Y00104.1| Sus scrofa repetitive dna sequence element PRE-1
+AGGGAGTTCCCATCGTGGCTCAGTGGTAACGAACCTGACTAGTATCCATGAGGATGCAGATTCAATCCCTGGCCTTNCTC
+AGTGGGTTAAGGATCCNGCATTGCTGTGAGNTGTGGTGTAGGTCNCAGATGCGGCTCGGATCCCGTGTTGCTGTGGCTGT
+GGTGTAGGCCGGCAGCTACAGCTCCGATTNGACCCCTAGCCTGGGAACCTCCATATGCCGCGGGTGNGGCCCT
+>ref|NM_214253.1| Sus scrofa protamine 1 (PRM1), mRNA
X13381.1 Pig mRNA for protamine 1
+CATCCCCGTCTCTGAGCATCAAGACTGAGTCCATCCATCACCATGGCCAGATACAGATGTTGCCGCAGCCATAGCCGGAG
+CAGGTGCCGCCCCCGAAGACGAAGATGTCGCAGACGAAGGAGGAGATGTTGTCCGAGGCGGAGGAGAGCGGTGTGCTGCC
+GCCGCTACACCGTTATAAGGTGTAGAAGATGCTAAACATGCAGTAGCAAGACCACCGCACTCCTGCCTGAAATAGTACCA
+GCCTTCAAGACCCTCTCGCCGCATCTTGAACATGCCACTACTGCAGTGACTGACAGGAGCCTGCTAAGCACAACGCCCCC
+TGCCAATAAATGTTGA
+>ref|NM_214252.1| Sus scrofa protamine 2 (PRM2), mRNA
X16558.1 Boar mRNA for protamine 2
+GCCGGCGGGCAGGCCTCAGCCTCTCCCCCAAGGCCACTGCAGCCCCGCCTGAGCCGCCTGACCCGCCACCATGGTCCGAT
+GCCGCGTGCGGAGTCCGAGTGAAAGTCCGCAGCAGGGCTCTGGGCAGCAGCGCGAAAACGAGCGCCAGGACCAGGACCAG
+GAGCTGAGGCCGGAGGATGTCCCGGTCTATGGCAGGACCCACAGGGGCCGCTACCACTACAGACACAGGAGCCACACGCG
+GCGGCGCCGCTCCTGCCGGAGGCGCAGGAGACGCGCCTGCCGGCACAGGCGGCACCGCAGAGGCTGCAGACGGATCAGGA
+GGAGGAGAAGATGCAGAAGGAGGCTCTAAGCCTCCCTGGGCCCATCACACCCCTGGTTGGAAATGAAGGAAAAGAAAAAG
+TCACCTGCCAGGAACCACCTCTCGAGACCATAGCAATCCCCCATGGATGCCCAGGCCCTGTGTTTGCAAGGAGGCTGT
+>ref|X57192.1| S.scrofa domestica psi-PoIFN-alpha II-1 pseudogene
+CATTTGAATGGGCATACCTGGAATTATTGAGAAAATTAAAATTCTTGTGAGATTAAATAGTGTAGATTGAAGATATCTTT
+TAGACCATATTGAGAAGACAAAGGAAAACCAAAAAAAGGGAGTAAAAGTTTAGAGAACTGTTTTTAATAAATGAAAATTA
+CTGTGTTCACTATTTACTGGCCATGCTTAGAGAGAATGGCATCAGAGAACCTACCCCCAAGGTTCCCTCAGACACCCATC
+TCAGCCAGACAAGCAGCTCCCTCATTTCCCCATGGCCTTCGTGCTCTCTCTACCGATGGCCCTGGTGGTGTTCAGCTATG
+GCCCTGGGGGATCTCTGGGCTGTGATCTGTCTCAGGACATGTGCATGTCAGCAGAAGAACCTGGCGCTTCTGTGTCAGAT
+AAGGAGAATCTCCCCTTCCTTCTGTCTGAAGGACAGAAAAGACTTTGGGTTCCCCCAGGAGATGGTGGAAGGCAGCCAGC
+TGCAGAAGGTCCAGGCCATCTCTGTCTTCCATGAGATGCTCCAGCAGACCTTCCTCCTCTTCCACATAGAGCGCTCCTCT
+GCTGCCTGGGACTCCACCCTCCTGGACAAGCTCTGCTCTGGACTCCATCAGCAGCTGGAAGACCTAGACCCCTGCTTGGT
+GCAGGTGATGGGAGAGCAGGCATCCTCCTTGGGAATGGCTGTGAAGAGGTACTTTGAGAGAATCCATCTCTTCCTGAAAG
+AGAAGAAATACAGTGACTGTGTCTGGGAGATTGTCAGAGTGGAAATCATGAAACCCTTGTCTTCCTTAAACAGTTTTGCA
+AGAAAGGTTAAGAATTATGGATGCAGACATGGGGTCACCTTGAAATGACTGTCAGACTAAGAATGCCATCTCACCCTGTA
+CATTGTCTTTGGTCACTTCAAAAGACTCCTATCTTTGGCTACAGAACTTATTGAAATAATTTGAGTAATATTTTTTCAGT
+AGTAATAAGCATTCATATGTCAAAATTACTCAGCTCCAGGGGCATCAGTCTTAGGAGATGACTGTCCTGAGGTGATTTAT
+CTACTGTTTGTTTATGTTTATTCTTGTACCATATAAAATTTCATATAAAATATTTATTATTACATTGTAATTC
+>ref|X57193.1| S.scrofa domestica psi-PoIFN-alpha II-1 pseudogene
+GGAAAACTAAACCTCTATGACAAAATTAATGGTTTAGAGTAATGACTTTGTCTTATACCATATGGAAAATACATAAATGA
+AAACCAAAAAAGAAGTGAAAGTGTAGAGAAATGTTTAGAAAATGAAAATTACTGTGTTCCCTGTTTAGTGGCCTTGCTTA
+GAGAGAATGGCATCAGAGAACCTACCTGCAAGGTTCCCCCAGACACCCATCTCAGCCAGGCCAGCAGCGCCCTCATTTTC
+CCCATGCCTTTGTGTTCTCTCTACTGATGGCCCTGGTGGTGTTCAACTACGGCCATGGGGGATCTCTGTGAGCTGTGACC
+TGTCTCAGAACCATGTGCACGTCAGCAGGAAGAACCTGGTGCTTCTGTGTCAAATGAGGAGAATCTCCCCTTCCTTCTGT
+CTGAAGGGCAGAAAAGACTTCGGGTTCCCCCAGGAGATGGTGGAACGCAGCCACCTGCAGAAGGCCCAGGCCATCTTTGT
+CCTCCACAAGATGCTCCAGCAGACCTTCCTCCTCTTCCACACAGAGCACTCCTCTGCTGCCTAGGACTCCACCCGCCTAG
+ACAAGCTCTGCTCTGGACTCCATCAGCAGATGGAAGACCTGGACTCCTGCTTGGTGCAGGTGAGGGGAGAGCAGGTATCT
+GCCCTGGGAAGAGGTACTTCCAGGGAATCCACCTCTATCTGAAAGAGAAAAAATACAGGGACTGTGCCTGGGAGAATGTC
+ACAGTGGAAATCTGAGACCCTTGTCGTCATCAACCACTTTGCAAGAAAGGTTGCCCAATGCGGATGGAGACCTGGCATCA
+CCGTAACATGATTCTCATTGATTAAGATGCCAAATCACCTTGTACATTCGACTCTGGTCATTTCACAAAATTCATTTCTG
+TTTTAGTCACAAAACTTATTGAAATAATTCGAGTAATACTTTTTCAGTAGTAAAACTTCCCTGGACATCAGGCCCTAAGA
+GCTGTTTGCTCTGATGTGATTTATTTATTGCTATTTACTAATTTCTATTTATTTAT
+>ref|X51696.1| S.scrofa pancreatic spasmolytic polypeptide (PSP) mRNA
+GAGCCGCAGCGCCCGGCTCCTGGCCATCCTCCTCCTGCTGGGGCTGTGTGCCTGACGGGGGCCCAGAAGCCCGCCGCCTG
+CCGGTGTTCACGCCAGGACCCCAAGAACCGGGTCAACTGCGGATTCCCGGGCATCACCAGCGACCAGTGCTTCACCTCGG
+GGTGCTGCTTCGACTCCCAAGTGCCTGGGGTCCCCTGGTGTTTCAAACCCCTCCCGGCGCAAGAGTCTGAGGAGTGCGTC
+ATGGAGGTGTCCGCCCGCAAGAACTGTGGCTACCCGGGCATCAGCCCCGAGGACTGCGCACGACGCAATTGCTGCTTCTC
+CGACACCATCCCCGAGGTGCCCTGGTGCTTCTTCCCCATGTCCGTGGAAGACTGTCATTACTAAGAGGCCATGGCTTCAG
+AGAACCCACCAGGCTCCTGGATGTTCTGAAACAAAAGAAGACTATTCATCATCTTATAATTTCAGGTTTTGAGTTTCTGA
+AATTCCTGGGTTTTCTTAATCTGCTTCCCCCTCTGCCCTTTTCAATGGTTTAACACAGAATTTCTTCAAATAAAGAAAAC
+ACTGAAAATCTGCT
+>ref|X16513.1| Pig gender-neutral repetitive DNA
+GAATTCACTGCATTCATTTGGGATCCATTGCGCCACGATGCATGGAATCCATCGCGTTCAATCAAAATCCATTGCACCAC
+ACTGCATGGAATCCACTGCATTCTCTCGAGATCCATTGGGCCACGCTGCATCGAATCCACTGCATTCAATCGGGATCCAT
+TTAGCCACGCTGCATGGAATACACTGCGTTCAATCGGGATGCATTTAACCATGCTGCATCGAATCCACTGCATTCAGTGA
+CGCTGCATGGAATCCACTGCATTCAATCGGGATGCTTTGGGCCTCGCTGCATAAAATCCACTGCATTTAATCGGGATGCA
+TTGGGCCTCACTGCATGGAATCTACTGCCTTCAATCATGCTGCATGGAATCCACTGCATTCAATCAAGCTGCATAAAATC
+CCCTGCATTTAATAGGGTTCAACTTCTCCATGCTGCATGGAATCCACTGCATTCAATCATGCTTCATTGCAACCAGTGCA
+TTCAATCGGTACCATAGGGCCACGCTTCATGGAATCCACTGCATTCAATCATGCTTCATTGCAACCCCTGCATTCAATCG
+GGAACCATTGGGCCATGCTGCATGGAATCCACTGCATTCAAACACGCTGCATGGAATCCACTGCATTCAATCGGGATGCT
+TTGGGCCATGCTGGATAATATCCACTGCATTCAATCGGGATTCATTGGCCTCACTGCCTGGAATCCACTGCATTCAATCA
+TGCTGCATGGAATCCACTGCATTCAATCATGCTGCATAAAATCCACTGCATTCAATAGGGTTCCATTTCTTCACGCTGCA
+TGGCATACACTGCATTCAAACACGCTGCATGGAATCCACTGCATTCAATTGGGATCCATTGGGCACGCTGCATGGAATCC
+ACTGCATTCATCGGGATCCATTTAACCCCGCTGCATGGAATGCACTTCGTTCAATCGGGATGCATTTTACCATGCTCCGT
+GGTTTTCACTGCATTCAATCATAATGCATGGAAACCACTGCATCAATCGTGATGCATTTTACCATGCTGCATGGAATCCA
+CTGCATTCAGTGATGCTGCATGGAATGCACTACCTTCAATCGGGATGCTTTGGGCCATGCTGCATAAAATCCACTGCATT
+TAATCGGGATGCATTGGGCCACGCTCCATGGAATCAACTGCATTCAATCATGCTGGATGGAATCCACTGCATTCAACCGG
+GATGCATTTTACCATGCTGCATGGAATGTACTGCATTCAATCACGCTGCATGGAATTC
+>ref|X56021.1| S.scrofa mRNA for fetuin
+GAATTCCGCTCATCCTGTTCTTTTGCCTTGCTCAGCTCTGGGGCTGCCGTGCTGTCCCCCATGGCCCGATTCTGGGTTAC
+AGGGAACCGGCCTGTGATGACGTAGAAACAGAGCAAGCAGCCCTGGCGGCCGTGGACTACATCAATAAGCACCTTCCTCG
+GGGCTACAAGCACACCTTGAACCAGGTTGACAGCGTGAAAGTGTGGCCAAGGCGGCCCGCGGGAGAGGTATTTGACATTG
+AAATAGACACGCTGGAAACCACCTGCCATGTCCTGGACCCCACTCCCCTGGCAAACTGCAGCGTGAGGCAGCTGACAGAG
+CATGCGGTGGAAGGAGACTGCGATTTCCACGTGCTGAAACAGGACGGCCAGTTCTCCGTGTTATTTGCAAAATGTGATTC
+CAGTCCAGACTCAGCTGAGGATGTTCACAAGGTGTGTCCAAACTGCCCCCTGCTGGCCCCGCTTAATGACAGCCGGGTGG
+TGCACGCTGCAGAATCGGCGCTGGCTGCCTTCAACGCCCAGAGCAACGGCTCCTATTTGCAGCTTGTGGAAATTTCTCGG
+GCTCAACTTGTGCCTCTTTCAGCTTCTGTCTCTGTGGAGTTTGCAGTAGCTGTCACTGACTGTGTGGCTAAAGAGGCATA
+TAGCCCAACCAAATGCAACCTGCTGGTGGAAAAGCAATATGGCTTCTGTAAGGGGACAGTCACAGCGAAGGTTAATGAGG
+AAGATGTTGCGGTGACCTGCACGGTGTTCCAAACCCAGCCTGTGGTCCTGCAGCCCCAACCTGCCGGTGCTGATGCGGGG
+GCCACCCCTGTGGTGGATGCAGCTGCAACTGCATCTCCTCTAGCTGACGTGCCCGCAGCTTCCCTGGTGGTGGGACCCAT
+GGTGGTGGCAGTTCCTCCGGGCATCCCGCCAGTGCACCGATCACACTACGACCTGCGCCACTCTTTCTCGGGTGTGGCCT
+CAGTGGAGTCAGCCTCCGGAGAAGCATTCCACGTGGGGAAAACACCCAAGGGGGCACAGCCTAGCATTCCTGCTGCTGAT
+GGCTCAGTTCCAGTGGTCCGCCCTTGCCCTGGGAGAATCAGACACTTCAAGATCTAGAAGATGGTCAGAGATGAGGTTTG
+GCACAGAGAACATTGCCGCCATTGTCCAAGTATGGGTGTGGGTGGGGGCCTTGTCTGCTGTCAAAGCAAGTGCTGTGTGG
+TCTATCTTAATGTCAAGTCTTGTACCCTGACTTCTCATCCTTTAGAGGACAGAAGCAGGGGGGTACTAGTTATGTTTGAT
+GGAAGGCATAAGGTCAGCAATTTGATTCACTGTTTTGAGGCCAGGCCACCACCATTGTGTTCTCTGCCTTCTCTTGACCT
+CTCAAAAATAATTGGGACTGTGACTCTGAAAGGTGCTCTTGACAAGTTTATATCTGCTTATTAATAAAAATGTCTGAAGA
+CCATTACTTATAAAGAAAGTTCCGGAATTC
+>ref|X12696.1| Pig DNA for male-specific repeat 1
+GAATTCTCATTAGGTCCCTTATGTGTAGGTGGTGGAAAAGATGTTGATCTCGGAGTCAAATGTGTGATCATGTAGAACGC
+AGTGGCAATGGGATGGTTATCTGTCAGTGTGAAGGGCTGAGAATGGTAAGGTATGGGTGCACGGTGTAAGGTGAAATATC
+TCCATACAAGAAGCGGAGTTACTTCCTGCGCAAAGAATTTGTAGTTGATAGGAGTTTGGAAGACTGATGGAGAATCTCGG
+TTAAAGAATTTGACTGCTCTCCTGGCTGAGATTTGCCAACCTGGACCAGCACAGATAACCTTGGCTGAGGAGGATTCGAG
+AGAATGTGAAGGAGGAAGAAGCCGAGAGAGAGAGAGAGATGAAATTTGGATACAAGCCACATTCCAGGGCACAGTTTCAT
+TCCCAAGCCCTTGTCTGTGTTTCCGGGGACTATTAGACACGAAGGCTGTATCAGGACTCTTGCATGAGATTTTCACTCGT
+TCTTGGCCTTTCTCTAGAAGTACGTCGATTGCCAGCAGTCCGTGCTTGGCACCCATGTCTTCTCAAAGTACACGAGGTGT
+GGGTCAGTTAAATGACACCCTATATTTTCCCTAAGCGGCAAAGACACTGCCTATTGAAATGGCAGCTCATAGGGTGTCCT
+TCCTCAGTCGTTCCTTGATTTCATTGTCCAGGGGCCTTTAGTTTGGGTGTTTGGAATGATATCTTTTCTCTCCAAAAGAG
+ATTCTATACTGTGTATTCGTGTGAAGCAGTGACTGAGAAAGCACTTGACCCTGAAGTGCTGCACATGTTATCAGATATCC
+ATCATGATAGAGAAAATTGGGCTCCCCAGTGTGTGGAGTTGCCTTCCTTCGGAAAGGTGCAGTCCCAGAGGTGGCCATGG
+TTCTGATATCATGCCCATGGAGCCTTGTGCCCAAACAACCTCTCTGTGAGAAAAGAGGTGTGTGATGGGCCATATGTGGG
+AAAGTCTCACCCTCAAACCTTGAGAGTTAAAGGATGGACACCCTGAGCTCTTGCTCTGGAGGTCTGTCGAAGTTGATGGA
+AAGGAGGATCCATCAGATGGGTGGTCCTTTTGGATGAACACTATTATCGCCATCTGTAGACTCATAGCCACCACTCTCAT
+CAGGCTCCCAAGCTCAATGTGGATTCTAGAGGCTTGGTGTTTGAACATGTGATATCTTCAGGGGATCCGTGGGCAGAATA
+CCTCACGGGAGTTCCTCCATGTGAAAAAAGAGTTGTGCTTCAGGGCCATTTGAAACAATACCTCCCGCGGCACAAAGAAG
+GAATCCATGCCCGAATGCTCTCCACCAAGCGTGAGGCCCTGGATGTAACCCCTCAAAGAGACTTTCCCAATGGGGCATTT
+TCAGCTCCACACTTCTGAATCCATATTTCCATAGCCTAAGCCACAGGGGAGCCCTCCAAACAGAGGCCTTTAAACCAAGA
+TGTATCCGGTCTATTTCAGGTGCCTTTTCCACAGGTGGATAAGAACAAGCCCTCCCACTCATTGAGTGACTTACTGGGAG
+TGTGGTGCCTGGGGCCAGGGCCAGTGTGTTTGTTCTATCTACAGTCATAAGGAAGGAAGCTGGGACGATGATCTGATCTT
+CCAGGAGCGCTGTGATGATGCCTGCAATGTGAGGGTATTGAAAGTTCCCTCCTGGAAGGGAGTGGGCTCTGTCCCTGACA
+CTCCTGAGGCTAGAGAATGAGGAGGTCTAATCCATAGAGACTGGTTTTTGTTGACAGACATCTTGCACTCTGGGCTCTTG
+TTGGCCAGCCCACTCGCCAAGGATGCTCAGACCATTGTTTGGATGCCCAGTCATTGAGACATGAAGAGTCCTAGACATCA
+TATTCTATATCCCCTAAGAACGAGTCCAGAGATCCTCACATGAGCAAATCCACCATACCTCATGGACCAGGTAGGGAATG
+CTGCAGATCAGCACTTTCTTGGGAGAGCACTCATGGGAACGTTGTTTCAAGTGCGTTGCACTCTGCGTCCAATATGGGAC
+CCTCGAGACCGAAGTACATATGAAGTGGTCAGCGTGTCCATAGGAAGGGATGACTATGGGAAGTATGGTTTAAGGCTGAC
+CTAGTTGGGGTGTCTCCACACAGCACAGGAAGTCTTTCAGGACCACGGAATTTATATGCGATCAGACCTAGGATGACAGG
+GAGAAAAGGCTGGGGGATAACTTGGACGATTCTCTTGGCAAATATATTTGATCCATTATTACCCCAGGTCGAATTGTAGC
+AGGAGGATACAGGAGAAATTGAAGGGGGGCAAAGGGGAGAGTGAGAGAGCTAGAGAGAAGGAGATGAAAAGAAGGCGAGA
+GAGAGGTAAAGGAGCTGTTGTTTCAAGCAACTGTCAATGGCAGGATAATTTCTCCAAGGACGTGTCTTTCTTTAAGGTGG
+CTAGCACACAAATGGGACAAACCAGCACACTTGTCCCAGAGTCTTCTCTCCTTCAAGGCCTGACGCCCACATTGTGTCTA
+TTACAATCCCTGCTCCATCCTGGAAGACAGGTTTGAAAGCCTTGCTGTGGTCCCTCTATCTTCTCCAATGGCATGGGGTG
+GAAATCAGAGTAAGAGATATTCCATAGTTTCCTTCAGGGGAAAAGCCTCCTCCCATGGAAAGAGATGCTCGTGTGTTGTT
+CTTCCTCCATCGGCCATTGTTTTCCTGTTCAGGCTCCGTGGGGAGTGGGTCTTTTTCAATGCCATATTTTCTTTCCTAAT
+GAGGTTGTAGACTGTGTATTCCTGGGAAGCAGTTTTGGAACCACCGTGTTGAGCCTGACACACGTTCAGGGGAAGAGGCA
+TCCTTCTGTAGAGAGCAGGTGGGCACAGAGGAGGTGGAGTTGCCTTCCATCTAGAAGTTCAGGCCCAATGGTTGCCATGG
+CAAGGGCATGTTGCGCACCAAGTATTGTGACACAACACACCGTATGTGAGAAGAGAGGCGAGGGATGGGCCCAAAGTGGG
+AAGCTCTCACCGTCACCCCCAATTGGTTGTACCTCGGGCAGCCTGATCTCATGATCTGGAGGTATGTTGATACTAAATGA
+AACGAGGATCCATTGGATGTATTGGACAATTGGATGATAAGTAGTATTTCCAGCATTCTTCTCATGGCCACCATTCTCAT
+CAGGCTGCTGAGGAAATAGGCACTGCTCAGGCTTGCTTTTGGATGATGATCCATTTGAAAGGGACCAGTGAGCCTATCCC
+TTCCAGTCTTTTCCAACAGGGAAAAAAAGACTCCTAAGTATGACCGGGATGAGAAATCTCATTCCAGATCTCAAAGCCTG
+AAAATTGGCCACTCAGCCTTCCAAAAAAGACGAGGCCCTCAACATCAACCCTTACGAAATACTGGAATGGGGGCAAGGAC
+CATTCCTTGCTTCGGAACGTACACGTCCATAGATGAAATCACAAACTAGCTCTCCACAGTAACAAATTTCCCAAGAATGA
+AGCTGGGATATGTCTGGTGGGTATTTCACAGGTTGATAAGAATAAGTCCTGTCTAAAGGGGTGCTGGATGGAAGTGGGGT
+GACTAGTTCCACTGCTGGCTGTTTGTGGGGTACACAGTTGTCAGGAATTTAAGGAGTCTCTCTTGTTATCTTCCGTGAGC
+CCTGTGGTGAGGGCTCCCCTTGGGCAGGACTTGAGGTTTCGCTCTTGGACGAGAGGGGCCTCTGGCCTGCCAATGGAGGG
+TCTAGAGAAGGAGGAGGATTGTCCCAAATGGAGACTGGTTTGAGGGGACCGAATCCTGGAACTCTGTCCCATTGTCATTC
+AGACCCTGCTGAAGGGTGCTCAGACCCCTTCTTAGATGCCAAATCACTGAGACATGGAGAGGCAGAGAATTC
+>ref|X65498.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.1.2)
+CCCCGGCTGACAAGTGTGCGGTCCCACAGGGGCCTGGACAGCTTCAGCGGAAAGCCACGGGGCTCTGGGGCCCCGGCTGG
+CACAGCGCTACCCCTCGAGGGCGTCATCCTGAGCCTGCAGGACCTCATCGGCTACTTTGAGCCGCCCTCGGAAGAGCTGC
+AGCACGAGGAGAAGCAGAGCAAGCTCGGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGTGAGGCCAGGGCCC
+GGGAGGGCGGGGTCTTTGGCCGGGGGGGGGGGGGAGGGGGGGCTGTCACAGCAGCCGCGTCTGCCTGGACCCAAGGGAGA
+AGTGGTCTGAGATTCAGGATGGATGAAGAGACCTGAGGAAGGATCC
+>ref|X65499.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.17)
+GGATCCTTAGACCCTCAAACTTAGATCCCAAGTCTCATGCCCCCACTCCAGCCTCACCCTGAGCCCAAATCTGAGGCTAC
+CACTTCGTACCCTGAAACTCACATATCCAGCTGCGGACCCCGCCACCAGCCCCCGCAACCAGCCCCCAGCCTCCTGCAGG
+GGAGAAGCAGGGCTCCCAGGCTCCACATTGGCTCCGGGCCCTTCTGCAACCCCAGCTCCCCTGTGACCACCGTCCCTTGC
+TCTGTCCAGGCTATGTGACTGGGGGTCACGTCCTCCGCCTCTTTCACGGACACATGGATGAGTGCCTGACCATCTCCCCC
+GCTGACAGTGATGACCAGCGCAGGTCTGGGCTGGGGGCAAGAGGGCCTGGGGTCTTGTGTTTGGGGGCGGTGTGGCAAAG
+GCTGGCGGGGGGGCAGCCTGGCACCCTGTGGGGGGATTAGGGAGCAGACTCTGGGTGCCTGGAGCCTGAACCCCTGCCCT
+CGCTCTCTTCCACGTGCACAGACTTGTCTACTACGAGGGTGGATCTGTGTGCACCCACGCCCGCTCCCTCTGGAGACTGG
+AACCGCTGAGAATCAGGTAGGGGGGCAGGAGGCAGGCTGGGGAGGGGCTAGAAGTTCCTGGGGGGCCTGGGAGGAGAAGA
+GGATCTTTTTTTTTTAAGGCCACTCCTGTGGCCTATGGAGGTTCCCAGGCTAGGGGTCCACTCGGAGCTGCAGCGGCCGG
+CCTACACCCCAGCCACAGCAACGCTGGATCC
+>ref|X65500.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.5)
+GGGAAAACTGGGACACTGGAAACATCTGGGGCGCCCTGAGGAAGTGGTGAGGGCCTAAGAGGAGACTGGGTTCCTAAATG
+AGGACTGGGGGGTCCTAAGAAAGATCTGAGGGCTTCGAGGGGGGGGGCACCCTGGAAGAGGGCTAAGGGCTTTCACCCGA
+GACTGTGGTGTCCATGGGAGACCTGGGGGCCTCGGACCCCTCCTTATCACCCTCTGCAGCTGGAGTGGGAGCCACCTGCG
+CTGGGGCCAGCCGCTTCGCATCCGGCATGTCACCACCGGGAGGTACCTGGCGCTCATCGAGGACCAGGGCCTGGTGGTGG
+TTGATGCCAGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGCATTTCCAAGGTTCGGTGGGGGTCAAATATCCTC
+CCTCAGCTGGAGGCCCCAAATCCCACCCCAGCCGCCCCCTGCCGTCTCTCAGCTCCTGTGCCGGCTGACCTCTGTCCCCT
+ACCCCTGCAGGAGAAGCTGGATACGGCCCCCAAGCGGGACGTGGAGGGCATGGGCCCCCCTGAGATCAAGTATGGGGAGT
+CACTGTGCTTCGTGCAGCATGTGGCCTCGGGCCTGTGGCTTACCTATGCTGCCCCAGACCCCAAGGCCCTGCGGCTCGGC
+GTGCTCAAGAAGAAGGTGGGTGTCTGGCCAGGGGAGGTGTGGGGTGTAGGCAGGGCAGGAAGGGGACTGGGGCTGGTCAT
+GCTTGAGCCTTCAGGAGGTTGAGGATGGGATTGAGAAAAAGACAATGACTGAGAGAGAAACTAAGGTTGAAAGAATGGAG
+TTCCTGTTGAGGCTCAGTGGTAATGAACCTGACTAGTATCCATGAGGATGCAAGTTCAATCCTTGGCCTTGCTCAGTGGG
+TTAAGGATCC
+>ref|X65501.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.8)
+GCCATTCTGCACCAGGAAGGCCACATGGACGATGCACTGTCACTGACCCGCTGTCAGCAGGAGGAGTCCCAGGCGGCCCG
+CATGATCTATAGCACTGCTGGCCTCTACAACCACTTCATCAAGTGAGCCACCTGGCCACTCTGCTGTGGGGGGCTGGGGG
+CGGCCACAGCTTGACCCCCGTGCTCCTGGTGTTCATGCCCCTGACCTCTGACATCTCTGCCTCTGACATCCGCACCTCTA
+ACAAACACAACCTCTTGACCTCTATACGCTTGATCCCTAACCTGAATGCCACAACCATGCCTTTGACTTCACCTCCCTGA
+TCACCACCTAATCTCACACCCCTGACACCCAGACCCTCGGATCC
+>ref|X65502.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9 (3'))
+TTCTCTGTCTTTGACGTCTCTCTGTCTGTCTCTGCCTCTGCTTTCTCTCTCTGTGTCTCTGTCTCCATGGCTCTGCCTTT
+CCGTTTTTCCTGCGTATGTGTCTCTTTGTCTTTTTCCCTCTCCCCCCCAGCCTTCCCTCCAGCCTGGCTCTCTTCTCCAG
+CCCTCCTCATCCTCCTCTTCTGTCCCATTTCTCCTGCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCA
+CACAGTACAGCAAATGGTACTTTGAGGTCATGGTGGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGG
+GTGGGCTGGGCCCTCACCGAAGGCTACAGCCCCTACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGA
+CCTCTATTCCTACGGCTTTGACGGGCTGCATCTCTGGACAGGTACCTGGACCCTTGCAGGGGACCCTTGACCCCAGGGTT
+TCGAAGGCTCTCACTGCACGCTTTGGGGTTCTTGGGATCT
+>ref|X65504.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9.2/9.1)
+GGCTTTCACCACCTCTTCTCAGTCACATCCCCACCTCCCACCCTGGGACATCATCCTTCTGGCTTTCCCACCCTGGGTCT
+TCCATGGACCACACCCTCCCCGGCAAGTGCCCTCACACCTTGACCTCTGACCTTGACCCCTAGGTGCTGGATGTCCTGTG
+TTCCCTGTGTGTGTGCAATGGTGTGGCCGTGCGCTCCAACCAAGATCTCATTACTGAGAACTTGCTCCCTGGCCGCGAGC
+TTCTGCTGCAGACAAACCTCATCAACTATGTCACCAGGTCTGGCCCCCCAACCTTTGACCCCAGAGCTTAGAACCCTCCA
+CCACCCCGCCCCGACTCAGAGACTCCACTCCGGTGAATGGCCCTTCCTCCGTCCCCCACCCCCGGACTTAATGCCAGTCC
+CCACCCCTGTGGTGCTTGTCCCAGCTTGTCCCTGGCTTCTTACTTCTCTTACCCTTCTTCCCCAAACTCTTTCTCCCCTC
+TGTCCTCTT
+>ref|X65503.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9 (5'))
+GGATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAGGAGAACCACATCAAGTCC
+ATCATCTCCCTTCTGGACAAGCATGGGAGGAACCACAAGGTGGGCCTGTGATCCCCTCAATTCTGCACTTGATCTTTCCC
+CACCCCCCCTCTTCACTCTTACCTGGACTCCTCTGCCACATGCTTCTAGCTCAATACAAAGGTCTCAAACTCCTTGTTTT
+TGTTTTTGTTTTTATGGCTGAACCTGTGGCAAATGGAGTTCAGGCAAGGGGTGAACCAGAGCTATAGCTGCTGGCCTACA
+CCACAGCCTCATCAACAACGCAGAT
+>ref|Z15155.1| S.scrofa RYR1 gene for ryanodine receptor
+ACCCGCAGGAAGTCCTGAGTCCTGANCCCCGGAACACCTCTGCTCCCAGNCCCCTGGNNCCCCAGAATGCTCTTCAATTC
+CCAGGACACTCTTCTGCAGAGGGTCCCCCAACNCCCCCAGGATGGTTTCTCACCCAGAATGCCCCATGGTTCTAGAATGT
+TCCCGATCCTTCAAATAACCCCTAACCAGAGACCCCGGCNCCTTGNCCCCAGCNCACCCAGCACTCTTGAATACTCCTGG
+GCCCCCTGAGTGACCCCTGACCCCGTGTGCCGGCAGTCGTTCCTGTACCTGGGCTGGTACATGGTTGATTGTCCCTCCTG
+GGTCACTACAACAACTTCTTCTTNNCTTGCCCACCTCCTGGACATTGCCATGGGGGTCAAGACGCTGCGTACCATCCTCT
+CGTCCGTCACCCACAATGGCAAACAGGTGTGGAGAGGACCGGCCTGGGGGCGGGCGCCAGTGGACGTGGGCGGCGGGCAG
+CTAAGGTGAGGAGGGGCAAGGCCGGTGGGCGCGGGCCACCCGGGGGGGGGAGTCGAACTGGCACAGAGAGAGAGACAGAG
+AGACAGAGAGAGACAGAGAGACAGAGACAGAGACAGAGAGACAGAGACAGAGAGACAGACAGAGACAGAGACACACACAG
+CTGGGAAGGTGAGGGGTGAGCCGAGCGAGGCGCTGACCTGCTCCCCGCCCCGCCCCCAGCTGGTGATGACCGTGGGCCTC
+CTGGCGGTTGTGGTCTACCTGTACACCGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAGCC
+TGACATGAAGTGTGATGACATGATGACGGTGAGCCCCTGCCCCCAACACTCTTGGGCATGCTGTTGACCATTCCTGACCC
+TCAGTTTTCCCATCCGGAAAGGGGGTGAGTAATAGCACCCACCTTGTCGACTTACTGGGAGGATTCAGTGAGGCACTTGG
+AATAGTGCCCGGTAAATGTGAGCCACTACTGTTATTTGAGATTTGTTTGTTTGTTTTTGTTTTTTGTTTTGCTGTCCATG
+CATGTGGAGTCCGGCAGGATCAGATCTGAGCACAG
+>ref|Z15156.1| S.scrofa RYR1 gene for ryanodine receptor
+TGCCTGAGCCCTCCATCTACAACCCTGATCGTTTCTGGGCTGTCACTATCTGATGCCAAGCTTGTGAGCCCTGTGAGTGC
+AGGGTTCAGGGNTGTCTCAGTCATTGCCATGCGAGNGGCGCCCCAGGCAGCTCAGGGCCTTGTGGGTACTCAGTGAGTCG
+TCGAGTGATTGAATGTGTGACTAACGTGCTTCTTGCCCTGCTTTGCAGTGTTACCTGTTTCACATGTATGTGGGTGTCCG
+CGCTGGTGGGGGNATTGGGGACGAGATCGAGGACCCAGCAGGAGATGAATATGAGCTCTACCGGGTGGTCTTTGACATCA
+CCTTCTTCTTCTTCGTCATCGTCATCCTGTTGGCCATCATCCAGGGTCAGTGCCTTGCCGGGGCTGTGGGGAGTGGGGGC
+TCCGTGGCCAGACGNACCAGCTCCTTTTAGCGTGCAGGCCCAGGATCCACTTGGCATGAAATGCAAACCTGGTTCTGCCT
+CTCCCTACTGTGACACATGGGGCAAGTCACCTCTCTGAGCCTGTTTCTCCGTCTGTAACATGGGGTTATTAATTATCTAG
+CTGTGAGAATTCAGTCAGTTCATAGGGGGTAAGTGGCTGGCTCATGATAAGTGCTCAGGAAGGGCATGGTGTTATTATTT
+TAGAAGCAGGTGCATTAGGAGATGATGGAGGCGAGGTAGGTAACCAGGAGAGGGAGGATGCTGAACTGGGTCAGAGGTTG
+GACGCCGACTTGCACCCTGCCACCTCAGGTCTGATCATTGATGCTTTTGGCGAGCTCCGAGACCAACAAGAGCAAGTGAG
+AGAAGATATGGAGGTAGGTCATGTCTAAGGGTGACCCACAGGGGTTATGGGACCGGTTCAGGGTAGGGGTGGGGGGTCGA
+ATGGGCCTCGACTCTGATGTCTCCTGCCATCTGCAGACCAAGTGCTTCATCTGTGGCATCGGCAGCGATTACTTTGATAC
+GACACCACACAGGTTCGAGACCCACACGCTAGAGGAGCACAACCTGGCCAATTACATGTGAGTGTGGACCGCTGGCCAAT
+CAGGAGGGTGGGCGTGGCCACTGACAGCAGCCAGGGGCTGGATCCTGGGCATCTGCTGGTTAGGGAAGGGGGTGTGGTGT
+CCATGGGGGTGGATTCCCAGCCAGCCAATCAGGAGAAGGTAAGGGTGGTCCTCACCTGTCTCCCGCTGCCCTCCCACCCC
+TAGGTTTTTCCTGATGTATCTGATAAACAAGGACGAGACAGAACACACGGGTCAGGTAAAGGGGTGTTAACGGGAGGCCA
+ATGGGCAGGGACGTGGAGAATTATAATATAAGGGTAATCAGCAGGGGGCAGTAAAAAGCTCATATCAATATCAAGCGTTT
+GAAAATGTGACCAACTGACTCTTCCCCATCCCCCACCCCTAGGAGTCTTATGTCTGGAAGATGTACCAAGAGAGATGCTG
+GGATTTCTTCCCGGCTGGCGATTGTTTCCGCAAGCAGTATGAGGACCAGCTTAGCTGAGACACCCCCAGCTGGCCGGCAC
+CCCCACCTCAAGTGCCTTGTTTTCAC
+>ref|NM_214023.1| Sus scrofa secreted phosphoprotein 1 (SPP1), mRNA
X16575.1 Porcine Spp1 gene for SPPI (osteopontin)
+AGCGAGCGGAGGCCAGAGGGCAGCACTGACAGCCGCATCAGCATTGCTCCCGGGACTGGACTCTTCGCGGGGCTGCAGAC
+CAAGGAAAATCATTACCATGAGAATTGCAGTGATAGCCTTCTGCCTCTGGGGCTTCGCCTCTGCCCTTCCAGTTAAACAG
+ACTAATTCTGGCAGCTCGGAGGAAAAGCTGCTTTCCAACAAATACACAGATGCTGTAGCCACATTGCTAAAGCCTGACCC
+ATCTCAGAAGCAGACTTTCCTAGCGCCACAGAATACTATTTCCTCGGAGGAAACGGACGACTTCAAACAAGAGACCCTGC
+CAAGCAAGTCCAACGAAAGCCCTGAGCAAACAGACGATGTGGACGACGACGACGACGAAGACCACGTGGACAGCAGGGAC
+ACGGACTCCGAGGAAGCTGATCACGCTGACGACGCTGACCGATCCGACGAGTCTCATCACTCCGATGAATCCGATGAGCT
+GGTCACCGATTTCCCCACCGACACCCCAGCAACCGACGTCACTCCGGCTGTCCCCACGGGAGACCCCAATGATGGCCGCG
+GGGATAGTGTGGTCTATGGACTGAGGTCAAAATCTAAGAAGTTCCGCAGATCCGAAGCCCAGCAGCTGGATGCCACAGAG
+GAAGACCTCACGTCACATGTGGAAAGTGAGGAGACGGATGGTACCCCCAAGGCCATCCTCGTTGCCCAGCGCCTGCACGT
+GGCTTCTGACTTGGACAGCCAAGAGAAGGACAGTCAGGAGACGAGTCAGCCGGATGACCGCAGTGTGGAAACCCGCAGCC
+AGGAGCAGTCCAAAGAATACACGATCAAGACCTATGATGGGAGCAATGAGCATTCCAATGTGATTGAGAGTCAGGAAAAT
+CCCAAAGTCAGCCAAGAATTCCACAGCCATGAAGACAAGCTGGTCCCAGACTCTAAGAGCGAAGAAGACAAACACCTGAA
+ACTTCGAGTTTCTCATGAATTAGAGAGTGCGTCTTCTGAGATCAACTGAGAGAAATACAATGTCTTACTTTGCTTTTAGT
+AAAAAGAAAAAAAAACACATTGTAGCGAGGTGGGAGAAAATATGAAAGGCTTATTTCTCAGCTTAGTTGGTGAATGTATA
+TGTGTGTGGCTCTGGAAACAAATAATATTTTTGATCATTAGTTTAGTGTGTGGCTTCATGGTAACACCCTTGTCAACTAA
+AAGCTTCAGGGTTTAGTCGACGGTCTTTCCGTATAAGAAATACAAGCCGTCACTGATTTGTAATGTTTGCTATCCTTTTA
+TGAATAGAAATTTATGTAGAAGCAAACAAAACACTGACACACTTATAAGAGAGGATATAAAATTTCATGTCACTCTGATC
+TTTTGTTTTTTAAATTAGTGTATATTTTGTTGATTATTTTTGTTGGTGTGAATAAAATATCTCGAATGTA
+>ref|X12386.1| Porcine mRNA for transferrin
+CGGTCGCCCAAAAAACTGTAAGATGGTGCACCATTTCAAATCAGGAGGCCAATAAGTGCTCCAGTTTCCGTGAAAACATG
+AGTAAAGCCGTTAAGAATGGTCCTCTTGTCTCCTGTGTGAAAAAATCCTCCTACCTGGATTGCATCAAAGCCATCAGGGA
+TAAAGAAGCAGATGCTGTGACACTGGATGCGGGTTTGGTATTTGAGGCAGGCCTGGCCCCCTACAACCTGAAGCCTGTTG
+TGGCAGAGTTCTATGGGCAGAAAGATAATCCACAAACCCATTATTACGCGGTGGCCGTGGTGAAGAAGGGCAGCAACTTC
+CAGTGGAACCAGCTCCAAGGCAAGAGGTCCTGCCACACAGGCCTCGGCCGTTCTGCTGGATGGATCATCCCCATGGGATT
+ACTTTACGATCAACTGCCTGAGCCACGGAAACCTATTGAGAAAGCAGTGGCCAGTTTCTTCTCCAGCAGCTGCGTCCCCT
+GTGCGGATCCGGTGAACTTCCCCAAACTGTGCCAACAGTGTGCTGGGAAAGGGGCTGAAAAGTGTGCCTGCTCCAACCAT
+GAACCGTACTTCGGCTACGCGGGTGCCTTCAATTGCCTGAAGGAGGATGCTGGGGACGTGGCCTTTGTCAAGCACTCAAC
+AGTATTGGAGAACCTGCCTGACAAGGCNGACAGGGACCAGTACGAGCTGCTCTGCAGGGACAACACCAGGAGGCCTGTGG
+ATGACTACGAGAACTGCTACCTGGCACAGGTCCCTTCCCACGCCGTCGTGGCCCGAAGCGTGGATGGNCAGGAGGACTCA
+ATCTGGGAGCTTCTCAACCAGGCCCAGGAGCATTTTGGCAGAGATAAATCTCCAGACTTCCAGCTTTTCAGCTCCTCTCA
+TGGGAAGGACCTGCTGTTTAAGGATTCTGCCAATGGGTTCTTAANGATTCCCTCTAAGATGGACTCCTCGCTGTACCTGG
+GGTATCAGTATGTCACTGCTCTTCGGAATCTAAGAGAAGAAATAAGCCCTGATAGCTCAAAGAATGAATGCAAGAAGGTG
+AGGTGGTGTGCCATAGGCCACGAGGAGACGCAAAAATGCGATGCGTGGAGCATAAACAGTGGTGGGAAAATAGAGTGTGT
+ATCCGCAGAAAACACCGAAGACTGTATCGCCAAGATCGTGAAAGGAGAGGCTGATGCCATGAGCTTGGATGGAGGCTACA
+TCTACATTGCGGGCAAGTGTGGTCTGGTGCCTGTCCTGGCAGAGAACTACAAAACTGAGGGTGAAAACTGTGTAAACACA
+CCAGAGAAAGGGTATTTGGCTGTGGCTGTGGTTAAGAAATCATCAGGTCCTGATCTCAACTGGAACAATCTAAAGGGCAA
+GAAGTCCTGCCACACTGCAGTAGATAGAACTGCTGGCTGGAACATCCCCATGGGTCTGCTCTACAACAAGATTAACAGTT
+GTAAATTTGATCAGTTTTTCGGTGAAGGCTGTGCCCCTGGGTCTCAGCGAAATTCCAGTCTCTGTGCTCTGTGTATCGGC
+TCGGAACGTGCGCCTGGAAGGGAATGCTTAGCCAACAACCATGAGAGATACTATGGCTACACAGGGGCTTTCAGGTGTCT
+GGTTGAGAAGGGAGATGTGGCCTTTGTGAAGGATCAGGTTGTCCAGCAGAACACTGACGGAAAAAACAAGGATGATTGGG
+CAAAAGATCTGAAGCAGATGGATTTTGAGCTGCTGTGCCAGAACGGCGCCAGGGAGCCTGTGGATAATGCTGAGAACTGC
+CACCTGGCCAGAGCCCCAAACCATGCTGTGGTTGCACGGGATGATAAAGTGACCTGTGTTGCTGAGGAGTTACTTAAACA
+GCAGGCTCAATTTGGAAGACATGTAACCGACTGCTCAAGCAGCTTTTGCATGTTCAAGTCAAATACCAAGGACCTCCTCT
+TCAGGGATGACACCCAATGTTTGGCCAGAGTTGGCAAAACTACGTATGAATCCTACTTAGGAGCCGACTACATCACGGCT
+GTGGCTAACCTGAGAAAATGCTCAACCTCAAAACTCCTGGAAGCCTGTACTTTCCACAGTGCTAAAAATCCAAGAGTGGA
+GACTACCACCTGATGGAGACGGGAGCTCACGGGACCCATAAGCTTCCCTCTGGTTGTGCTGGCCTGAGTGGTTTGGTTGC
+CTTCACACTTTCGTGGTGGCACCTCTGCAGGACAAAAAAAAAAAATAAAAATTATTATCATTTTTGTCTTTTAAAAAAAA
+AAAAAAAAAAAAAACCGG
+>ref|X16170.1| Pig mRNA for transition protein 1 (TP1)
+AAAAAAAAGCCCCTCATTTTGGCAGAAAGTACAATGTCGACCAGCCGCAAGTTAAAGAGCCATGGCATGAGGAGGGGCAA
+GAACCGCGCTCCTCACAAGGGAGTTAAGAGAGGTGGCAGCAAAAGAAAATACCGGAAGGGCAGCCTGAAGAGTAGAAAAC
+GGTGCGATGATGCCAATCGCAATTACCGCTCCCACTTGTGATCTCCACCAGCTTTCTCTCTCCTGGTAGACTTCAAGGAC
+ACCAGGCAGCAACAGAGAACAGAAGGAGGACTACCAAGGAGACCTGAAGTTAGGTCAATTGCCAGAGAAGAGCCTATCAT
+GTGGGTAAAATTGCCAGTTT
+>ref|X62846.1| S.scrofa UABP-2 gene exon 2
+TGTCCTCCATAGATTTAGCTAGCATCCGCCAATCCAGGACTAATGGCAACCCCACCCAGGTGAACTGCACAGAGAGAAGA
+CTGAGTCCTTTTCAATCCCCTCCACACTGAGAACCCAGTCCATCGAATGTTCACATCTATACCTCTTCCTTCCAATAACA
+GCTCTCTGGATTGTTGCAGAAATGTCCCACGGGAAAATGCCTCTGGTGCTTTCTCTGGTTCTCATCCTCTGTGGCCTTTT
+TAATAGCATCTCCTGTGAAAAGCAGCAAACCTCCCCAAAGACTATTACCCCAGTCTCATTCAAGAGAATTGCAGCTCTCT
+CCCAGAAGATGGAAGCTAACTACAAGGCTTTTGCCCAAGAATTGTTCAAGACTCTGTTAATCGAGGATCCCAGAAAGAAT
+ATGATCTTCTCCCCTGTGAGCATCTCCATTTCCCTGGCCACCCTCTCCCTGGGGCTCAGATCCGCAACACGCACCAACGC
+CATTGACGTCCTGGAACGTGACCTCAGAAACCTCCGAGTGTGGGACAAGCACCAGGCTTTACAGCATCTTGTTGAGATGC
+TGCACGAGCTAGAAAAGAAGAAACAGCTAAAGCACAAGGATATTTTCTTTATCGATAGGAACAAGAAGATGAACCAGATG
+TTTCTGAAGGAGATAGACAGGGTATATAAAGTGGACATCCAGATGATCGACTTTAAAGATAAAGAAAAAACTAAGAAGGC
+CATCAACCAATTTGTGGCTGACAAAATAGATAAGAAAGCCAAAAACTTAATCACCCACCTGGACCCTCAGACCCTCCTAT
+GTCTTGTCAACTACGTTTTTTTCAAAGGTGAGGTTTATTAAGTGCAATTCCCGATTTGAGGTAATCTTTGCGCTTGTGTT
+TCCTAAAAGGTTTGTGTCAGAAAAAAAAAAGTAGTTTATGTGAGTATATCCCGATTTTCCCGAGAAACCAGTAGATCCAA
+AAAGCTTTTTCGTTGTCTTTGATATCATTGTTGGCCAGCATTTTGCAGTTTTTCTCCTCTTAATCCTTTTTAATCATCTT
+GTTTGCCTTGCATTATGGTATTTTGGAGTAAAAGGCAATGACTCTTGCTGGTAAAAAGGAAAAAAGAAA
+>ref|X62847.1| S.scrofa UABP-2 gene exon 3
+TTTCCCAAATCCTTTTGATCTTCCTTCCTGATTCCCCCCAGGCATTTTGGAAAGAGCTTTCCAAACCAACCTCACAAAGA
+AGGAGGACTTCTTTGTGAATGAAAAGACCATAGTGCAGGTGGACATGATGAGGAAGACAGAACGAATGATTTACAGCCGG
+TCAGAGGAACTGCTGGCTACGATGGTTAAAATGCCTTGCAAAGAAAACGCGTCCATAATTCTTGTCCTCCCTGACACAGG
+AAAATTTGACTTTGCTTTAAAAGAGATGGCTGCTAAGAGAGCTAGACTTCAGAAAACCAATGAGCTTCAGGTATGCTATT
+CTGGAAGAACATTCTAGAATATTGTTTTTTTCCTCCAATCCCTCTTCCGTCGTAG
+>ref|X62848.1| S.scrofa UABP-2 gene exon 4
+TTGGGGGGGGGCCTTTCCCCAGGACCCTGGGAAAGGCCATAGTCCAAGCTCCATGTTATGATTAATGACGAACAGATTGG
+TGCACTTAGTTGTGCCCAAGATCAAGATCACCTCCAAGATAGATTTAAACATCTGCTTCCAAAGATTGGCATCAATGACA
+TATTCACTACCAAGGCCGTCACCTGGAACACCACCAGGACTTCAACTATCCTGGAGGTGAGTAGGGTCTCTGTCAAAATT
+TCTGTCTTATCCAGGACAGTCTTCATCGAAAAACAACTTTCTATACATCAGTTCCAGCTCTTCTCTGGCGTGGGTTCATG
+GGATTTAGGGTTCTTTCTTCATTCGTTCATTGAAAAGTCACTGCATCAAGCACATTTGGAGTCAATGGGGATAAAGTTGT
+GAGCGAGCCAGACAAAATCTTACTCTCACTGCAGGCATGCAAGCTTTTGTTCCCTTTAGTGAGGGTTAATTTCGAGCTTG
+GCGGAA
+>ref|X62849.1| S.scrofa UABP-2 gene exon 5
+CCAAACCCCTTGTGGGGGTTCAATGGTGAAAATGCTGGGAGCCTGGTTTTCTGGAATGGAACCGGTTTTCCTCCACCTGC
+CATCAGCCAGGGAGTGAGGTTTCCTCCCTGACCTTGACCATGGAAGATCACTGGGCACACCGCCCTGGCTTGTCCTCCGG
+CCAGCCAGGTGAGTTCACACCCAGTGCTGAGAGACCTATCTCCCCTAGGCCGTGCATCATGCTGTGATAGAGGTGAAGGA
+GGATGGCTTGACCAAGAATGCAGCCAAGGACAAGGACTTTTGGAAGGTCCCCGTGGACAAGAAGGAGGTCCCCGTGGTCG
+TGAAGTTTGACAGACCCTTCTTCCTGTTTGTAGAGGATGAGATAACTCGAAGAGACCTCTTCGTGGCCAAAGTCTTCAAC
+CCCAAAACTGAGTAGAGGTGGGGCCAGGCTGTGCTGAGCAGGAACTTTGGTCATGAATAAAATGAATATAATTCACCACC
+TGTGCATTAAAAGAGGCTGAGACTGAGAAGTGTCGCTCGAGCATGGCATGGGGATGGGTCATTGCTGTTCTTCTGTCTGG
+GAACAGAGGGAACAGAGGGAGTTTGAGGGCCTGCC
+>ref|X51428.1| Pig DNA for urokinase-type plasminogen activator
+CAGCCATGGTTAGGAAGGCAAGGCAGGCACTCGAGGTAGGAATTATAGTTTACAAACAAGGTTCATTCTTGTGTCTCTAC
+CATGTAGAACTGTGCCTGACGCACAGGAGGCCCATGACGAACACTGGGTGAATGAATAAAGGAATAAATGAATGATTTCA
+CACGCATGATCTCAATGCATGATCACAACGCATGATCTCATTCAATCTGCACAGTGAGTTAGGGGCAGGGTAGGCATTGC
+GTCTTTTTGC
+>ref|Z11810.1| T.bidens interphotoreceptor retinoid binding protein gene, exon 1
+GGCCCATGTCCTGACAGTTGGGGTGCAGAGCTCCTTGAATGACCCTCGTCTGGTCATCTCCTATGAGCCCAGTGCCCTCA
+CAGCTCCTCAGAAAATCACAGCACTCACCAACCTCACACAAGAGGAACTGCTTGCCCAGTTGCAAAAGGGCATCCACTAC
+GACATCCTGGAGAGCAATGTGGGCTACTTGCGGGTGGATGACATACCGAGCCAGGAGGTGGTGAGCAAACTTGGGGACTT
+CCTGGTGGCCAATATCTGGAGGAAGCTCCTAGGCACCTCCGCCTTGGTGCTAGACCTCCGACACTGCACTGGAGGCCATG
+TTTCTGGCATCCCCTATGTCATCTCCTACTTGCATCCGGGAAACACGGTCCTGCATGTGGACACCATCTATGACCGCCCC
+TCCAATACGACCACTGAGATCTGGACCCTGCCTCAGGTCCTGGGAGAGAGATACAGTGCTGACAAGGATGTTGTGGTCCT
+CACTAGTGGCCACACCGGAGGAGTGGCTGAGGACATTGCTTACATCCTCAAACAGATACGCAGGGCCATCGTGGTGGGTG
+AGCAGACCATGGGGGGTGCCCTGGACCTCCAGAAACTGAGGATAGGCCACTCTGATTTTTTCCTCACTGTACCTGTGTCC
+AGGTCCTTAGGGCCCCTTGGTGGGGGCAGCCAGATGTGGGAGGGCAGTGGGGTGCTTCCCTCTGTGGGGATACCAGCTGA
+GCAGGCCCTAGAGAAGGCCCTGGCCATGCTCACACTGCGCAGGGCCCTGCCAGAAGTCATGCAGCACCTGCAGGAGGCCC
+TGCAGGACTACTACACCCTGGTGGACCACGTGCCTGCCCTCCTGCACCACCTGGCCAGCATGGACTTCACCATGGTGGTC
+TCTGAGGAGGATCTGATCACGAAGCTCAACGCTGGTTTGCAGGCTGTGTCTGAGGACCCTAGGCTCCTGGTACGGCCCAT
+CAGGCCCAAAGAAACCTCTTTTGGGCCTGAGCCTGGAGCCGATGACCTACCAGAGGAGGCCCCAGCAGTGCCAGAGGATG
+AGGTTGCCCGGCAGACCCTGGTGGATTCTGTGTTTCAGGTGTCAGTGCTGCCGGGTAATGTGGGTTACCTGCGCTTTGAC
+AGATTTGTTGATGCCTCTGTGCTGGAGGCACTG
diff --git a/databases/test_local_setup/ids.lst b/databases/test_local_setup/ids.lst
new file mode 100644
index 0000000..8c67ba6
--- /dev/null
+++ b/databases/test_local_setup/ids.lst
@@ -0,0 +1,656 @@
+ref|X17276.1|
+ref|X51700.1|
+ref|X68321.1|
+ref|X55027.1|
+ref|Z12029.1|
+ref|X52700.1|
+ref|X52701.1|
+ref|X52702.1|
+ref|X52706.1|
+ref|X52703.1|
+ref|X52704.1|
+ref|X52705.1|
+ref|X53811.1|
+ref|X53812.1|
+ref|X53813.1|
+ref|X53814.1|
+ref|Z18633.1|
+ref|Z18632.1|
+ref|X60495.1|
+ref|X60496.1|
+ref|X60497.1|
+ref|X60498.1|
+ref|Z11996.1|
+ref|X57170.1|
+ref|X60960.1|
+ref|NM_174233.2|
+ref|X67213.1|
+ref|X67214.1|
+ref|X13736.1|
+ref|X05087.1|
+ref|X05090.1|
+ref|X63475.1|
+ref|X63474.1|
+ref|X03454.1|
+ref|X56933.1|
+ref|X63592.1|
+ref|X15802.1|
+ref|X05218.1|
+ref|NM_176613.2|
+ref|X05605.1|
+ref|X16978.1|
+ref|NM_176670.2|
+ref|NM_175822.2|
+ref|X69084.1|
+ref|X56685.1|
+ref|X56119.1|
+ref|X14711.1|
+ref|X57765.1|
+ref|X63139.1|
+ref|X52582.1|
+ref|X52581.1|
+ref|X14710.1|
+ref|X64126.1|
+ref|X64125.1|
+ref|X05274.1|
+ref|NM_174292.2|
+ref|X63681.1|
+ref|X63683.1|
+ref|X63680.1|
+ref|X63684.1|
+ref|X63682.1|
+ref|X67333.1|
+ref|X03590.1|
+ref|X00565.1|
+ref|X06359.1|
+ref|NM_181029.2|
+ref|X14906.1|
+ref|X14907.1|
+ref|X14908.1|
+ref|NM_173899.2|
+ref|X00673.1|
+ref|X04012.1|
+ref|X55489.1|
+ref|X04823.1|
+ref|NM_174421.2|
+ref|NM_001001440.2|
+ref|X04298.1|
+ref|NM_175830.1|
+ref|NM_175810.2|
+ref|NM_176652.2|
+ref|NM_175800.2|
+ref|NM_205817.1|
+ref|NM_176655.2|
+ref|NM_175828.2|
+ref|X63209.1|
+ref|NM_176667.2|
+ref|NM_175829.2|
+ref|NM_175791.2|
+ref|NM_175787.2|
+ref|NM_176660.2|
+ref|NM_175815.2|
+ref|NM_176659.2|
+ref|NM_174564.2|
+ref|X63223.1|
+ref|X63224.1|
+ref|X63208.1|
+ref|X02420.1|
+ref|X15112.1|
+ref|X56857.1|
+ref|NM_176674.2|
+ref|X15235.1|
+ref|X15725.1|
+ref|X58823.1|
+ref|X07436.1|
+ref|X01036.1|
+ref|NM_174837.2|
+ref|X13617.1|
+ref|X59693.1|
+ref|X14478.1|
+ref|NM_174043.2|
+ref|Z18244.1|
+ref|V00108.1|
+ref|V00109.1|
+ref|NM_174313.2|
+ref|X16577.1|
+ref|NM_173911.2|
+ref|V00110.1|
+ref|NM_173914.2|
+ref|NM_177512.2|
+ref|NM_174324.2|
+ref|X00376.1|
+ref|X70059.1|
+ref|X13684.1|
+ref|V00111.1|
+ref|X03404.1|
+ref|NM_177516.1|
+ref|NM_175778.2|
+ref|X52318.1|
+ref|X00502.1|
+ref|X00503.1|
+ref|X53827.1|
+ref|X68443.1|
+ref|X16701.1|
+ref|X16702.1|
+ref|NM_174827.2|
+ref|Z11749.1|
+ref|X04152.1|
+ref|X04198.1|
+ref|X05048.1|
+ref|X05131.1|
+ref|X05127.1|
+ref|X01460.1|
+ref|X01461.1|
+ref|V00426.1|
+ref|X06366.1|
+ref|X57084.1|
+ref|NM_175782.1|
+ref|X14712.1|
+ref|X51933.1|
+ref|X07363.1|
+ref|X67825.1|
+ref|X67824.1|
+ref|X67823.1|
+ref|X67822.1|
+ref|X68049.1|
+ref|X67826.1|
+ref|X67828.1|
+ref|X60511.1|
+ref|X67827.1|
+ref|X67830.1|
+ref|X65202.1|
+ref|X65203.1|
+ref|X65204.1|
+ref|X65205.1|
+ref|X65206.1|
+ref|X65207.1|
+ref|X65208.1|
+ref|X65209.1|
+ref|X65210.1|
+ref|X65211.1|
+ref|X65212.1|
+ref|X65213.1|
+ref|X65214.1|
+ref|X65215.1|
+ref|X65216.1|
+ref|X65217.1|
+ref|X67832.1|
+ref|X64897.1|
+ref|X66277.1|
+ref|Z14036.1|
+ref|Z14037.1|
+ref|Z14038.1|
+ref|Z14039.1|
+ref|Z14040.1|
+ref|Z14041.1|
+ref|Z14042.1|
+ref|Z14043.1|
+ref|X67829.1|
+ref|X67831.1|
+ref|V00113.1|
+ref|X15600.1|
+ref|X52907.1|
+ref|NM_176647.2|
+ref|X54962.1|
+ref|NM_174657.2|
+ref|X00002.1|
+ref|X00003.1|
+ref|X00004.1|
+ref|X03098.1|
+ref|X63436.1|
+ref|NM_174133.2|
+ref|NM_173915.2|
+ref|X01395.1|
+ref|X02351.1|
+ref|X01396.1|
+ref|X01397.1|
+ref|X01398.1|
+ref|X01399.1|
+ref|X01400.1|
+ref|X01401.1|
+ref|X07283.1|
+ref|X16641.1|
+ref|X16559.1|
+ref|X12516.1|
+ref|X17364.1|
+ref|X17365.1|
+ref|V00115.1|
+ref|V00116.1|
+ref|V00118.1|
+ref|V00119.1|
+ref|V00123.1|
+ref|V00124.1|
+ref|V00125.1|
+ref|X03116.1|
+ref|V00126.1|
+ref|V00127.1|
+ref|V00128.1|
+ref|V00129.1|
+ref|V00130.1|
+ref|V00131.1|
+ref|V00132.1|
+ref|V00133.1|
+ref|X15543.1|
+ref|X52689.1|
+ref|V00134.1|
+ref|X00950.1|
+ref|X61612.1|
+ref|NM_174249.2|
+ref|X13767.1|
+ref|X06737.1|
+ref|X06738.1|
+ref|X06739.1|
+ref|X06740.1|
+ref|X00979.1|
+ref|X03160.1|
+ref|X03161.1|
+ref|X03162.1|
+ref|X03163.1|
+ref|X03164.1|
+ref|X03165.1|
+ref|X03166.1|
+ref|X54551.1|
+ref|NM_174469.2|
+ref|X51337.1|
+ref|X03029.1|
+ref|X54799.1|
+ref|XM_019959549.1|
+ref|V00135.1|
+ref|X06071.1|
+ref|X06072.1|
+ref|X06073.1|
+ref|X06074.1|
+ref|X06075.1|
+ref|X14324.1|
+ref|X05381.1|
+ref|X14325.1|
+ref|X56400.1|
+ref|X56401.1|
+ref|NM_174199.2|
+ref|X65041.1|
+ref|X56626.1|
+ref|X56627.1|
+ref|X03073.1|
+ref|Z18292.1|
+ref|X04540.1|
+ref|X04541.1|
+ref|X04542.1|
+ref|X14338.1|
+ref|X02312.1|
+ref|NM_001003288.1|
+ref|X53591.1|
+ref|NM_001003286.1|
+ref|NM_001003285.1|
+ref|X17147.1|
+ref|X55317.1|
+ref|Z18635.1|
+ref|Z18634.1|
+ref|X59998.1|
+ref|X05297.1|
+ref|X64964.1|
+ref|X64965.1|
+ref|X64966.1|
+ref|X64967.1|
+ref|X64968.1|
+ref|X64969.1|
+ref|X64970.1|
+ref|X64971.1|
+ref|X64996.1|
+ref|X64972.1|
+ref|X64973.1|
+ref|X14610.1|
+ref|X14048.1|
+ref|X14050.1|
+ref|NM_001003279.1|
+ref|NM_001003278.1|
+ref|NM_001003271.1|
+ref|NM_001003270.1|
+ref|X53529.1|
+ref|NM_001003268.1|
+ref|NM_001003267.1|
+ref|Z12161.1|
+ref|X57335.1|
+ref|X04726.1|
+ref|X04862.1|
+ref|X56462.1|
+ref|X56463.1|
+ref|X59836.1|
+ref|V00150.1|
+ref|V00154.1|
+ref|NM_001285587.1|
+ref|X05149.1|
+ref|X67490.1|
+ref|X02313.1|
+ref|X02314.1|
+ref|X02315.1|
+ref|X03118.1|
+ref|X55312.1|
+ref|Z18637.1|
+ref|Z18636.1|
+ref|Z18639.1|
+ref|Z18638.1|
+ref|Z11814.1|
+ref|X51914.1|
+ref|X58563.1|
+ref|X16773.1|
+ref|X16774.1|
+ref|X16775.1|
+ref|X16776.1|
+ref|X16777.1|
+ref|X16778.1|
+ref|X16779.1|
+ref|X16780.1|
+ref|X16781.1|
+ref|X16782.1|
+ref|X16783.1|
+ref|X16784.1|
+ref|X16785.1|
+ref|X16786.1|
+ref|X16787.1|
+ref|X16788.1|
+ref|X16789.1|
+ref|X16790.1|
+ref|X16791.1|
+ref|X16792.1|
+ref|X16793.1|
+ref|X16794.1|
+ref|X16795.1|
+ref|X07053.1|
+ref|Z18645.1|
+ref|Z18644.1|
+ref|X01086.1|
+ref|Z11811.1|
+ref|X06372.1|
+ref|X60725.1|
+ref|X16582.1|
+ref|X06297.1|
+ref|X06298.1|
+ref|X06299.1|
+ref|X06300.1|
+ref|X03494.1|
+ref|X06301.1|
+ref|X06302.1|
+ref|X06303.1|
+ref|X68820.1|
+ref|X68821.1|
+ref|X68822.1|
+ref|X68823.1|
+ref|Z18641.1|
+ref|Z18640.1|
+ref|V00471.1|
+ref|V00472.1|
+ref|V00473.1|
+ref|Z18643.1|
+ref|Z18642.1|
+ref|Z18647.1|
+ref|Z18646.1|
+ref|Z18649.1|
+ref|Z18648.1|
+ref|Z18665.1|
+ref|Z18664.1|
+ref|X54714.1|
+ref|X54715.1|
+ref|X15213.1|
+ref|Z18651.1|
+ref|Z18650.1|
+ref|X69472.1|
+ref|X69473.1|
+ref|X69474.1|
+ref|X69475.1|
+ref|X02323.1|
+ref|Z18653.1|
+ref|Z18652.1|
+ref|Z18654.1|
+ref|X56823.1|
+ref|V00859.1|
+ref|Z19516.1|
+ref|NM_001009467.2|
+ref|NM_001009796.1|
+ref|NM_001009396.1|
+ref|NM_001009468.1|
+ref|X69906.1|
+ref|X16482.1|
+ref|X07004.1|
+ref|X07005.1|
+ref|X07006.1|
+ref|X07007.1|
+ref|X07008.1|
+ref|X07009.1|
+ref|X07010.1|
+ref|NM_001009363.1|
+ref|NM_001009795.1|
+ref|X70061.1|
+ref|X17229.1|
+ref|X51357.1|
+ref|X51358.1|
+ref|X51403.1|
+ref|X69797.1|
+ref|X59994.1|
+ref|NM_001009808.1|
+ref|NM_001009415.1|
+ref|X60149.1|
+ref|Z18897.1|
+ref|NM_001009420.2|
+ref|NM_001009378.1|
+ref|X01610.1|
+ref|X02925.1|
+ref|X05638.1|
+ref|X05639.1|
+ref|Z18528.1|
+ref|X07972.1|
+ref|X66093.1|
+ref|Z11599.1|
+ref|X55131.1|
+ref|NM_001123399.1|
+ref|NM_001009476.1|
+ref|X00434.1|
+ref|NM_001009802.1|
+ref|Z18541.1|
+ref|Z18540.1|
+ref|X03117.1|
+ref|Z17215.1|
+ref|Z12966.1|
+ref|X06789.1|
+ref|V00872.1|
+ref|V00873.1|
+ref|X62549.1|
+ref|NM_001082393.1|
+ref|NM_001101695.1|
+ref|V00876.1|
+ref|X51508.1|
+ref|X16427.1|
+ref|NM_001082392.1|
+ref|X52090.1|
+ref|X52091.1|
+ref|X52092.1|
+ref|V00880.1|
+ref|V00881.1|
+ref|X53521.1|
+ref|X64297.1|
+ref|NM_001082396.1|
+ref|X64299.1|
+ref|X13042.1|
+ref|NM_001082759.2|
+ref|X15735.1|
+ref|NM_001101693.1|
+ref|X57688.1|
+ref|X57477.1|
+ref|X57689.1|
+ref|X07798.1|
+ref|NM_001101717.1|
+ref|Z14091.1|
+ref|NM_001101700.1|
+ref|NM_001101720.1|
+ref|X14578.1|
+ref|V00884.1|
+ref|NM_001101698.1|
+ref|X57123.1|
+ref|X57124.1|
+ref|X57125.1|
+ref|X57126.1|
+ref|V00885.1|
+ref|X00232.1|
+ref|X00977.1|
+ref|X13699.1|
+ref|X13700.1|
+ref|X03050.1|
+ref|X57729.1|
+ref|X03054.1|
+ref|X03053.1|
+ref|NM_001101684.1|
+ref|Z11812.1|
+ref|X15116.1|
+ref|Z18243.1|
+ref|X55146.1|
+ref|X07791.1|
+ref|X07790.1|
+ref|V00886.1|
+ref|V00887.1|
+ref|V00888.1|
+ref|X06419.1|
+ref|NM_001101721.1|
+ref|X53766.1|
+ref|X58123.1|
+ref|X61504.1|
+ref|NM_001135681.1|
+ref|NM_001101705.1|
+ref|NM_001082184.1|
+ref|X56536.1|
+ref|NM_001101706.1|
+ref|X14832.1|
+ref|X14030.1|
+ref|NM_001101708.1|
+ref|X06623.1|
+ref|X06624.1|
+ref|X02215.1|
+ref|X02216.1|
+ref|X60986.1|
+ref|X60732.1|
+ref|X59602.1|
+ref|X00861.1|
+ref|X15749.1|
+ref|NR_033238.1|
+ref|X00640.1|
+ref|X15750.1|
+ref|X62677.1|
+ref|NM_001101718.1|
+ref|X58291.1|
+ref|NM_001101692.1|
+ref|X65078.1|
+ref|V00892.1|
+ref|V00893.1|
+ref|V00895.1|
+ref|V00896.1|
+ref|V00897.1|
+ref|V00898.1|
+ref|V00899.1|
+ref|V00900.1|
+ref|V00901.1|
+ref|V00902.1|
+ref|Y00760.1|
+ref|X17329.1|
+ref|NM_001171077.1|
+ref|NM_001101712.1|
+ref|Z12842.1|
+ref|Y00136.1|
+ref|X01423.1|
+ref|X14364.1|
+ref|X14365.1|
+ref|NM_001082390.2|
+ref|X59242.1|
+ref|Z11496.1|
+ref|X56545.1|
+ref|X58696.1|
+ref|X58697.1|
+ref|Z18655.1|
+ref|Z18666.1|
+ref|Z11809.1|
+ref|Z18657.1|
+ref|Z18656.1|
+ref|Z18659.1|
+ref|Z18658.1|
+ref|X14724.1|
+ref|X53719.1|
+ref|X13919.1|
+ref|Z11854.1|
+ref|Z11855.1|
+ref|Z11856.1|
+ref|NM_214261.1|
+ref|NM_214033.1|
+ref|X54669.1|
+ref|X16088.1|
+ref|X69478.1|
+ref|X69479.1|
+ref|Z14124.1|
+ref|X17057.1|
+ref|X03937.1|
+ref|X04635.1|
+ref|X07617.1|
+ref|X16951.1|
+ref|X66274.1|
+ref|X56503.1|
+ref|X68247.1|
+ref|X62880.1|
+ref|X04036.1|
+ref|X17058.1|
+ref|X52566.1|
+ref|X61436.1|
+ref|X61437.1|
+ref|X15410.1|
+ref|X64400.1|
+ref|X52731.1|
+ref|NM_213861.1|
+ref|X03265.1|
+ref|X15411.1|
+ref|X67188.1|
+ref|X54724.1|
+ref|X54328.1|
+ref|X54330.1|
+ref|X54329.1|
+ref|X12764.1|
+ref|X51559.1|
+ref|X51560.1|
+ref|X51558.1|
+ref|X51556.1|
+ref|X51555.1|
+ref|NM_213864.1|
+ref|Z14130.1|
+ref|NM_214330.1|
+ref|X51564.1|
+ref|X51565.1|
+ref|X05943.1|
+ref|X06158.1|
+ref|NM_214213.1|
+ref|X51563.1|
+ref|X51561.1|
+ref|X51562.1|
+ref|X00135.1|
+ref|X51557.1|
+ref|X64127.1|
+ref|Y00104.1|
+ref|NM_214253.1|
+ref|NM_214252.1|
+ref|X57192.1|
+ref|X57193.1|
+ref|X51696.1|
+ref|X16513.1|
+ref|X56021.1|
+ref|X12696.1|
+ref|X65498.1|
+ref|X65499.1|
+ref|X65500.1|
+ref|X65501.1|
+ref|X65502.1|
+ref|X65504.1|
+ref|X65503.1|
+ref|Z15155.1|
+ref|Z15156.1|
+ref|NM_214023.1|
+ref|X12386.1|
+ref|X16170.1|
+ref|X62846.1|
+ref|X62847.1|
+ref|X62848.1|
+ref|X62849.1|
+ref|X51428.1|
+ref|Z11810.1|
diff --git a/databases/test_local_setup/original_head_nt_10.fa b/databases/test_local_setup/original_head_nt_10.fa
new file mode 100644
index 0000000..e32925e
--- /dev/null
+++ b/databases/test_local_setup/original_head_nt_10.fa
@@ -0,0 +1,9992 @@
+>ref|X17276.1| Giant Panda satellite 1 DNA
+GATCCTCCCCAGGCCCCTACACCCAATGTGGAACCGGGGTCCCGAATGAAAATGCTGCTGTTCCCTGGAGGTGTTTTCCT
+GGACGCTCTGCTTTGTTACCAATGAGAAGGGCGCTGAATCCTCGAAAATCCTGACCCTTTTAATTCATGCTCCCTTACTC
+ACGAGAGATGATGATCGTTGATATTTCCCTGGACTGTGTGGGGTCTCAGAGACCACTATGGGGCACTCTCGTCAGGCTTC
+CGCGACCACGTTCCCTCATGTTTCCCTATTAACGAAGGGTGATGATAGTGCTAAGACGGTCCCTGTACGGTGTTGTTTCT
+GACAGACGTGTTTTGGGCCTTTTCGTTCCATTGCCGCCAGCAGTTTTGACAGGATTTCCCCAGGGAGCAAACTTTTCGAT
+GGAAACGGGTTTTGGCCGAATTGTCTTTCTCAGTGCTGTGTTCGTCGTGTTTCACTCACGGTACCAAAACACCTTGATTA
+TTGTTCCACCCTCCATAAGGCCGTCGTGACTTCAAGGGCTTTCCCCTCAAACTTTGTTTCTTGGTTCTACGGGCTG
+>ref|X51700.1| Bos taurus mRNA for bone Gla protein
+GTCCACGCAGCCGCTGACAGACACACCATGAGAACCCCCATGCTGCTCGCCCTGCTGGCCCTGGCCACACTCTGCCTCGC
+TGGCCGGGCAGATGCAAAGCCTGGTGATGCAGAGTCGGGCAAAGGCGCAGCCTTCGTGTCCAAGCAGGAGGGCAGCGAGG
+TGGTGAAGAGACTCAGGCGCTACCTGGACCACTGGCTGGGAGCCCCAGCCCCCTACCCAGATCCGCTGGAGCCCAAGAGG
+GAGGTGTGTGAGCTCAACCCTGACTGTGACGAGCTAGCTGACCACATCGGCTTCCAGGAAGCCTATCGGCGCTTCTACGG
+CCCAGTCTAGAGCTTGCAGCCCTGCCCACCTGGCTGGCAGCCCCCAGCTCTGGCTTCTCTCCAGGACCCCTCCCCTCCCC
+GTCATCCCCGCTGCTCTAGAATAAACTCCAGAAGAGG
+>ref|X68321.1| B.taurus mRNA for cyclin A
+GAATTCCAGGAGGACCAGGAGAACGTCAATCCCGAGAAGGCGGCGCCCGCCCAGCAGCCCCGGACCCGGGCTGGACTGGC
+GGTACTGAGGGCCGGAAACTCGCGGGGTCCAGCTCCCCAGAGGCCTAAGACGCGACGGGTTGCACCTCTTAAGGATCTTC
+CTATAAATGATGAGTATGTCCCTGTTCCTCCCTGGAAAGCAAACAATAAACAGCCTGCATTTACCATACATGTGGATGAA
+GCAGAAGAAATTCAAAAGAGGCCAACTGAATCTAAAAAATCAGAAAGTGAAGATGTCTTGGCCTTTAATTCAGCTGTTAC
+TTTACCAGGACCAAGAAAGCCACTGGCACCTCTTGATTACCCAATGGATGGTAGTTTTGAGTCTCCACATACTATGGAAA
+TGTCAGTTGTATTGGAAGATGAAAAGCCAGTGAGTGTTAATGAAGTACCAGACTACCATGAGGACATTCACACGTACCTT
+AGGGAAATGGAGGTTAAATGTAAGCCTAAAGTGGGTTACATGAAGAAACAGCCAGACATTACTAACAGTATGAGGGCTAT
+CCTCGTGGACTGGTTAGTTGAAGTAGGAGAAGAATATAAACTGCAGAACGAGACCCTGCATTTGGCTGTGAACTACATTG
+ATAGGTTTCTTTCATCCATGTCTGTGTTGAGAGGAAAACTTCAACTTGTGGGCACTGCTGCTATGCTTTTAGCCTCAAAG
+TTTGAAGAGATATACCCGCCAGAAGTAGCAGAGTTTGTATACATTACAGATGACACTTATACCAAGAAACAAGTTCTAAG
+GATGGAGCACCTAGTCTTGAAAGTCCTGGCTTTTGACTTAGCTGCACCAACAATAAATCAGTTTCTTACCCAGTACTTTT
+TGCATCAGCAGCCTGCAAACTGCAAAGTTGAAAGTTTAGCAATGTTTTTGGGAGAGTTAAGTTTGATAGATGCTGACCCA
+TATCTAAAGTATTTGCCGTCAGTTATCGCTGCAGCAGCCTTTCATTTAGCACTCTACACAGTCACAGGACAAAGCTGGCC
+TGAATCATTAGTACAGAAGACTGGATATACTCTGGAAACTCTAAAGCCTTGTCTCCTGGACCTTCACCAGACCTACCTCA
+GAGCACCACAGCACGCACAACAGTCAATAAGAGAGAAGTACAAAAATTCAAAGTATCATGGTGTTTCTCTCCTCAACCCA
+CCAGAGACACTAAATGTGTAACAGTGAAAAGACTGCCTTTGTTTTCTAAGACTGTAAATCACATGCAATGTATATGGTGT
+ACAGATTTTATCTTAGGTTTTAATTTTACAACATTTCTGAATAAGAAGAGTTATGGTCCAGTACAAATTATGGTATCTAT
+TACTTTTTAAATGGTTTTAATTTGTATATCTTTTGTAAATGTAACTATCTTAGATATTTGGCTAATTTTAAGTGGTTTCT
+GTTAAAGTATTAATGATGTCAGCTGTCAGGATAATAATTAATAAATTGATTTGGAAAAAAAAAAAAAAAAAA
+>ref|X55027.1| Bovine mRNA for chromogranin B
+TCACACCGCGGGGACCAGGATACAAGGTTGTTTTCCCACAGCATCTTCATCTCGCCTTCCGTCCCCTTCTCATTCACCCT
+TCCGACTGATATCCTCTTCTCCGCGCAGATTTGGACGAGCGAGGCCATGCAGCCGGCCGCCCTTCTCGGCCTTCTGGGAG
+CCACGGTGGTTGCAGCCGTCAGCTCTATGCCAGTGGACATCAGGAACCACAATGAAGAAGTGGTGACTCACTGCATCATC
+GAGGTCCTCTCAAATGCCCTATTGAAGTCCAGCGCTCCACCCATCACCCCCGAGTGCCGACAAGTCCTGAAGAAGAGTGG
+AAAAGAGCTCAAAAATGAAGAGAAAAGTGAAAATGAAAACACAAGGTTTGAAGTGAGATTGTTGAGAGACCCAGCTGACA
+CCTCAGAAGCCCCCGGGCTCTCCAGTAGGGAGGACTCAGGGGAGGGGGATGCCCAAGTCCCAACAGTAGCAGACACGGAG
+AGCGGTGGGCATAGCCGAGAGCGGGCAGGTGAGCCCCCGGGAAGTCAAGTGGCCAAAGAAGCAAAGACACGCTATTCTAA
+GAGCGAGGGACAGAACAGGGAGGAAGAAATGGTGAAATACCAGAAAAGGGAACGTGGGGAAGTTGGCAGTGAGGAGAGAC
+TGTCTGAAGGGCCGGGAAAGGCACAAACGGCTTTTCTCAACCAAAGAAACCAGACTCCGGCTAAGAAAGAGGAGTTAGTG
+TCCAGATATGATACACAGTCTGCCAGGGGCCTTGAGAAGTCGCACAGCCGGGAAAGGAGCAGCCAGGAGAGTGGAGAGGA
+GACCAAGAGCCAGGAGAACTGGCCCCAAGAGCTGCAACGTCATCCGGAGGGCCAGGAAGCACCCGGAGAAAGCGAAGAGG
+ATGCCAGCCCCGAGGTGGACAAACGGCACTCGAGGCCAAGACACCACCACGGGAGGAGCAGGCCCGACAGGTCCTCTCAG
+GAGGGGAATCCTCCCCTCGAGGAGGAGTCACACGTGGGCACGGGCAACTCAGACGAAGAGAAAGCCCGCCATCCAGCCCA
+CTTTAGGGCTTTGGAGGAGGGAGCCGAATATGGGGAGGAAGTGAGGAGACACTCAGCTGCCCAGGCTCCTGGAGACTTGC
+AGGGGGCACGATTCGGGGGCAGAGGACGTGGAGAGCACCAGGCTCTAAGGCGTCCCAGCGAGGAGAGCCTAGAGCAGGAA
+AACAAGAGACATGGCCTCAGCCCGGATCTAAACATGGCGCAGGGATACAGCGAGGAAAGCGAGGAAGAGAGGGGTCCGGC
+CCCGGGACCCAGCTACAGAGCCCGGGGAGGGGAGGCGGCGGCCTACTCCACACTAGGCCAAACAGATGAGAAACGGTTCT
+TGGGTGAAACGCACCACCGTGTTCAGGAAAGCCAGAGGGACAAGGCGAGGCGCCGCCTACCAGGCGAGCTGAGAAATTAC
+CTCGACTATGGTGAGGAAAAGGGTGAGGAAGCAGCCAGAGGGAAGTGGCAGCCGCAGGGAGACCCGCGAGACGCTGACGA
+GAACAGGGAAGAGGCTAGGCTTCGAGGCAAACAGTATGCTCCCCATCACATCACTGAAAAGAGATTAGGGGAGCTACTCA
+ATCCATTTTACGACCCTTCCCAGTGGAAGAGCAGCCGTTTTGAGAGAAAAGACCCCATGGATGACAGTTTTCTTGAGGGT
+GAAGAGGAAAACGGGCTGACCTTGAATGAGAAAAATTTCTTCCCAGAATACAACTATGACTGGTGGGAGAAAAAGCCCTT
+TGAAGAGGATGTAAACTGGGGGTATGAGAAGAGAAACCCGGTCCCCAAACTGGATCTAAAAAGGCAGTATGACCGAGTGG
+CCGAACTGGACCAGCTCCTTCACTACAGGAAGAAGTCAGCTGAGTTCCCAGACTTCTATGACTCCGAGGAGCAGATGAGC
+CCACAACACACAGCAGAAAATGAAGAGGAGAAGGCTGGCCAAGGAGTTCTGACGGAGGAAGAGGAAAAAGAACTTGAAAA
+CTTGGCTGCGATGGATTTGGAACTACAGAAAATAGCTGAGAAGTTCAGTGGTACCCGAAGGGGCTAATGGTCATTAGAGT
+AAAGGGCAGATTTTAAGACAGCCTTCACATGATCTGTTATCCACCACTTCACTGAAAGACCCCATTTATTTATCCAAAGG
+CAGAAAGTAGAATTTACTCATCCAATGTTTGACACAATTGGAAATGTCTTTGATTTTTGCCAGAGTGCTATTGGAAATAT
+AAATAGCATGACTTGTAGTATACTCTTTATAAAAAAGTAGATATATTAACATGCTTGTGACAATGACTGTGCTACTGTCC
+TTGAAAAAATGTCTTAGTTTGAAGTAATAAAAGATTCACCTGAGGCC
+>ref|Z12029.1| B.indicus gene for alpha-lactalbumin
+TTCTACTCCTGACCACTCAACAAGGAACCAAGATATCAAGGGACACTTCTTTTGTTTCATGCCTGGGTTGAGTGGACCAT
+GACATATGATGATGTACAGTCCTTTCCCATATTCTGTATGTCTCTAAGGGGAAGGAGGAGTTGGCCGTGGACCCTTTGTG
+CATTTTCTGATTGCTTCACTTGTATTACCCCTGAGGCCCCCTTTGTTCCTGAAATAGGTTGGGCACATCTTGCTTCCTAG
+AACCAACACTACCAGAAACAGCATAAATAAAGCCAAATGGGAAACAGGATCATGTTTGTAACACTCTTTGGGCAGGTAAC
+AATACCTAGTATGGACTAGAGATTCTGGGGAGGAAAGGAAAAGTGGGGTGAAATTACTGAAGGAAGCTCAATGTTTCTTT
+GTTGGTTTTACTGGCCTCTCTGGTCATCCTCTTCCTGGATGTAAGGCTTGATGCCAGGGCCCCTGAGGCTTTTTCCACAA
+ATAAAAGGAGGTGAGCAGTGTGGTGACCCCATTTCAGAATCTTGGGGAGTAACCAAAATG
+>ref|X52700.1| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTGGATGAGACATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGACCAAACGC
+AGACCCTTTAAAGTAATACTGCGTGGTACCCATCTCATGGTTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATTGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTCGCCATTCCAGCCACTTTACTAGCAATCTCCCTACTTGGAGCATGAGCACCTTTAACCTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAATGGGAAGACGGGGAAACAATGAGAGACTAGCTCTTGGTGTTGGGACAGCA
+CAGGTCACTCTATTTTCCCATCAGGAAGAAGAATTAACCACAGGCTCATCCTGCCCCCCGGCACCAGAACAGGGCCTGAA
+TCCATCCTGCGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAAATGGAGCTTCAGGGCACTGCAATTCACAAACCT
+GCAGAGTTATAAATGATAACTCTCGTCCACAAATATATTGAGGGAAGGCAAAGAAGAGGATTTGAAATCAAGGCAGAACT
+GCAGGAAACAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCAGCAAAATGTTGACAATGATGCCC
+TTGTCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCAA
+CCTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCAGTCAAAAGGGCCATGCTGAAAAAAGTGTCAAAAC
+CAGAAATGCAGGCCAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGCGGGATGTAAATTGCCAACAGCCACTCT
+GGAGAAGTGTACGGTGTGTCCTGAAACATCTAAAACACACAGCTTAGAGAGCATAGGGCACTTCCACTCATGGGGGTATA
+AATTGGGAAAATTAAAAATCAGCAAGACACAAGCACCTCAAAATTTAGGGCTGCTTTGTTGACAAGGACCTCCACTTCAT
+TCCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTTCCTATGTACAATGGAATAACACTCAGCCA
+TGAAATCAATGTCATAAGGCTAGTAGCAGCATGATGAGTGGATTTAGGTAGGACGATTCTAAGTGAAATAAGTCACACAG
+AAAAGGACACTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAACCCGTTACACTTGAACTGAATTACAAAATAGAAC
+AGAGTCACAGATGCAGAAAACACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCA
+AATTAGCTCAGATACCGTTCCATAAACCCAATATATAATAGACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACAC
+CCCCTCTTCAACGCCCAAGAATATATCTGACTAGTAATAATCTAAAAACCTATGCATTGATATCTCTCTGTTAGTGTGTC
+AAGTGGGTGTAAAGGGGCATAAACACAGCAGTGAAAAGCAGCTAAATCCCATTATTAAAATAAATTACTTTTAAAAACCC
+ATGAAACAAAGACAGTGAATGAGAGAGAAATTCTTTCACAATTCGTTCAGGGGCTCTGATGCAAGCTGGATTGACCATA
+>ref|X52701.1| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTAGATGAGACATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGAGCAAACGC
+AGACCCTTTAAAGTAATACTGCGTGGTACCCATCCCATGGGTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATCGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTTGCCATTCCACCCACTTTACTAGCAATCTCCTTAGTTGGAGCATCAGCACCTTTAACCTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAACGGGAAGATGGGGAACCAATGAGAGACAAGCTCTTGGTGTTGGGACAAGC
+ACAGGTCACTCTATTTTCCCATCAGGAAGAAGAATTAACCACAGGCTCAGCCTGCCCCCCGGAACCAGAACAGGGCCTGA
+AGCCATCCTGTGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAATTGGAGGTTCAGGGCACTGCAATTCACAAACC
+TGCAGAGTTATAAATGATAACTCTCGCCCACAAATATTTTGAGGGTAGGCAAAGAAGAGGATTTCAAATCAAGGCAGAAT
+TGCAGGAAACAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCGGCAAAACAGTGACAATGATGCC
+CGGCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCAAC
+CTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCGGTCAAAAGGGCCATGCTGAAAAACGTGTCAAAACC
+AGAAATGCAGGACAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGCGGGATGTAAATTGCCAACAGCCACTCTG
+GAGAAGTGTACGGTGTGTCCTGAAACATCTAAAAAACACACCTTAGAGAACATAGGGCACTTCCACTCATGGGGGTATAA
+ATTGGGAAAATTAAAAATCAGCAAGACACAAGCACCCCAAAGTTTAGGGCAGCTCTGTTGCCAAGGATCTCCACTTCATT
+CCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTCCTTAAGTACAATGGAATATCACTCAGCCAT
+GAAATCAATGTCATGAGTCTAGTAGCAGCATGATGAGTGGATTTAGGTACGACGATTCTAAGTGAAATAAGTAACACAGA
+AAAGGACATTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAAACCGTTACACTGGAACTGAATAACAAAACAGAATA
+CAGTCACACATGCAGAAAACACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCAA
+ATTAGCTCAGATACCGTTCCATAAACCCAATATGTAATAGACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACACG
+CCCTATTCACCGCACAAGATTATATCTGACTAGTAATAATCTTAAAACATATGTATTGATATCTCTCTGTTAGTGTGTCA
+AGTGGGTGTAAAGCGGCATAAGCACAGCAGTGAAAAGCAGCTAAACCCCATTATAAAAATAAATTACTTTTAAAAACCCA
+TGAAACAAAGACAGTGAAAGAGAGAGAAATTCTTACACAATTCGTTCAGGGGCTGTGATGCACCCTGGATTAACCATA
+>ref|X52702.1| Blue Whale common cetacean component DNA
+TCTAGACCCACAGCTGGATGAGATATAAGGGTGGACACTCTTGGGGCTGAGAGGTTTGGTGAGGTTGGGTGAGCAAACGC
+AGACCCTTTAAAGTAATACTGTGTGGTACCCATCCCATGGGTCCCAAATCTCCAGGTTCAAGGGCATCTTCCTACATCGA
+AAACATGCATGAGAAACCCAGAAGATGGTACACCGTGTGATGGGGAAAGGTTTCTAAAACGCACCTCATTTCTCATCTCC
+TTGTGCTCGGGTTCGCCATTCCACCCACTTTACTAGCAATCTCCTTACTTGGAGCATCAGCACCTTTAACTTCCTGTTCC
+GTACAGGTTGCAATTTGTCCTGAGGATGAACGGGAAGACGGGGAACCAATGAGAGACTAGCTCTTGGTGTTGGGACAGGC
+ACAGGCCACTCTATCTTCCCATCAGGAAGAAGAATTAACGACAGGCTCTGCCTGCCCCCCGGAACCAGAACAGGGCCTGA
+AGCCATCCTGTGCTTTTGCGGCCAGCTCCCAAAAAAGCGAGTTGTAAAATGGATCTTCAGGGCACTGCAATTCACAAACC
+TGCAGAGTTATAAATGATAACTCTCGCCCACAAATATATTGCGGGAAGGCAAAGAAGAGGATTTCAAATCAAGGCAGAAT
+TGCAGGAATCAGATTTCAGGAGGTAGATTCGAATCGCCTTTAAAGCACATGAAAAGCGGCAAAACGTTGACAATGATGCC
+CTTGTCCAAAAAGGGCGTATGCGTTTTTTCCTGAATATATTCAGGAAAAAACGCATACGCCCTTTTTGGCCAACCAAGCA
+ACCTGGAAAGGCAAATCAGCGCTACAAAGAAGTCTCGCTTCCCATCGGTCAAAAGGGCCATGCTGAAAAAAGTTTCAAAA
+GGAGAAATGCAGGAAAGGCCATGGAGAAATGGGAGCCTTGCTACACTGATGGGTGGGATGTAAATTGCCAACAGCCACTC
+TGGAGAAGTGTACGGTGTGTCCTGAAACATCTAAAAAACACACCTTAGAGAGCATAGGGCACTTCCACTCAGGGGGTATA
+AATTGGGAAAACTAAAAATCAGCATGACACAAGCACCCTAAAGTTTAGGGCTGCTCTGTTGCCAAGGATCTCCACTTCAT
+TCCACCTTAAATATCCCAGGAAAGAGAAAAATGGATAAAGAAGTTGTGGTCCTTAAGTACAATGGAATATCACTCAGCCA
+TGAAATCAATGTCATGAGGCTAGTAGCAGCATGATGAGTGGATTTAGGTACGACGATTCTAAGTGAAATAAGTAACACAG
+AAAAGGACATTTCTCATAAGGTATCACTTATAGAGGGAATGTAAAAACCGTTACACTGGAACTGAATAACAAAACAGAAT
+ACAGTCACACATGCAGCAATCACACTATGGCTGCTTAACGGGAAAGGTGAGGTGGGGTGATACATAAAACAAGGGTTTCA
+AATTAGCTCAGATACCGTTTCATAAACCCAATATGTAATACACAAGACCTACTCCTTGCTCAGAGAACTGGACTCAACAC
+GCCCTATTCACCGCACAAGAATATATCTGACTAGTAATAATCTTAAAACCTATGTATTGATATCTCTCTGTTAGTGTGTC
+AAGTGGGTGTAAAGCGGCATAACCACAGCAGTGAAAAGCACCTAAACCCCATTATAAAAATAAATTATTTTAATAACCCA
+TGAAACAAAGACAGTGAAAGAGAGAGAAATTCTTACACAATTCCTTCAGGGGCTGTGATGCAACCTGGATTGACCATA
+>ref|X52706.1| B.musculus heavy satellite DNA
+TAGATATTAAACCTATCCCGCTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGATCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTTCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGTTTAGGATTAGGGTACGTGTTAGGTTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|X52703.1| Blue Whale heavy satellite DNA
+TTGTTATTAAACCTATCCCACTCTCTAGATACCCCGTAGCACGTAAAGGAATATTATTTGGGGGTCCAGTCATGGAGAAG
+AGTTTAGACACTAGGATAAGATTAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATGTATTGGAGGCAGAAGCACTCAAGGGTAGCCTAAGGTTATGGTTAGGCTTAGGGTTAG
+CTGTAGGGTACGGCTTAAGGTACGGGTTTGGGGAGGGGTTCGGGTACGGCGTAGCGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTTAGGGTACGCGTT
+AGGGTTAGGG
+>ref|X52704.1| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTGTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTCGGGTTAGGT
+>ref|X52705.1| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATTCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTAATTGGGGGTGCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTATGGTGTTTCTT
+AAAACACTAGTGCTCAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGTGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGATTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|X53811.1| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCACTAGATACCCCTTAGCACATAAAGGAGTATTATTTGGGGGTCCAGCCATGGAGAAG
+AATTTAGACACTAGGATAAGATAAGGAACACACCCATCCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCACAGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GCTTAGGGTACGGCTTAGGGTACGGGTACGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTACGGTACGTGTAAGGGTTAGGGTTGGGGTTAGGGTT
+AGGGTACGCGCTAGGGTTAGGG
+>ref|X53812.1| Blue Whale heavy satellite DNA
+TAGTTATTCAACCTATCCCACTCTCTAGATACCCCTTAGCACGGAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTACG
+GCTTAGGGTACGGCTTAGGGTACGGGTTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGGCTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTCAGGGTAGGGGTTAGGGTT
+AGGGTACGCGTTAGGGTTAGGG
+>ref|X53813.1| Blue Whale heavy satellite DNA
+TAGTTATTCAACCTATCCCACTCTCTAGATACCCCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGCCATGGAGAAT
+AGTTTAGACACTAGGATGAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACACTAGAGTCTTAGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTAGGGTTAG
+GGTTAGGGTACGGCTTAGGGTACTGTTTCGGGGAGGGGTTCAGGTACGGCGTAGGGTATGGGTTAGGGTTAGGGTTAGGG
+TTAGTGTTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGCTTAGGGTT
+AGGGTACGTGTTAGGGTTAGGG
+>ref|X53814.1| Blue Whale heavy satellite DNA
+TAGTTATTAAACCTATCCCACTCTCTAGATACACCTTAGCACGTAAAGGAATATTATTTGGGGGTCCAGACATGGAGAAG
+AGTTTAGACACTAGGATAAGATAAGGAACACACCCATTCTAAAGAAATCACATTAGGATTCTCTTTTTAAGCTGTTCCTT
+AAAACTCTAGTGCTTAGGAAATCTATTGGAGGCAGAAGCAGTCAAGGGTAGCCTAGGGTTAGGGTTAGGCTTATGGTTAG
+GGCTAGGGTACGGCTTAGGGTACGGATTCGGGGAGGGGTTCGGGTACGGCGTAGGGTATGGGTTAGGGTTAGCGTTAGTG
+TTAGGGTTAGGGCTCGGTTTAGGGTACGGGTTAGGATTAGGGTACGTGTTAGGGTTAGGGTAGGGGTTAGGGTTAGGGTA
+CGCGTTAGGGTTAGGG
+>ref|Z18633.1| B.physalus gene for large subunit rRNA
U13103.1 Balaenoptera physalus mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGCACTGCCTGCCCGGTGACTAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAATTAGGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA
+CCTCTCCGTGAAGAGGCGGAGATAACAAAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAAAAACCATA
+ACCTTAAACCACCAAGGGATAACAAAACCTTATATGGGCTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCCACTAGCCAAAGTACAATATCACTTATTGATCCAATCCTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCTGCTATTAAGGGTTCGTTTGTT
+>ref|Z18632.1| B.physalus gene for small subunit rRNA
U13080.1 Balaenoptera physalus mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACCCCAATAGTCACAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCG
+GTGCCTCATACCCATCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAGGGAGCAAAAGTAAGCATAACCATCCTACATAAAAACGTTAGGTCAAGGT
+GTAACCCATGGGTTGGGAAGTAATGGGCTACATTTTCTAAGCTAAGAACATCCCCTATACTCACACGAAAGTTTTTATGA
+AACTTAAAAACTAAAGGAGGATTTAGTAGTAAATCAAGAGCAGAGTGCTTGATTGAATAAGGCCA
+>ref|X60495.1| B.taurus exon 1 for bovine seminal vesicle secretory protein SVSP109 signal peptide
+TCTTTGCTGCTCCTCTTCACTAAAGCAGACACCCACACCCTTTCTCTCTGGTTGTGTGTCTCTGCCTTGCTTCTATCTTA
+ACTAAACTGTTTTTCCGTGTGCTCTCCCACTTGTTGTGCTGTGTCTCTAACAATAAACTTTGTATTGCATTCAAAGTTTT
+TGCCTCCATGACAAATGCATTTTTCACTGGGAGCAAAGATCCAGGGAAAAATTGCTTCTAGAGTCTACCCTTTGCTGGCA
+GATGGCTAGGATTCCTGGTTCTCATCCAGGCTCCCCAGGTTCAAGTCCTGGGCAGAGAATTAAGACCTCGCTTCCTGCTA
+TCGCTCACTGCTGCCTCGTTAAATTCATAACCACTGGACCTAGGTCTCCTTTTAAATGCCTTTCAAACCACTGAGGCTTG
+GAGACATTAAACTGCCAGCCAATGTCCTGTAGTTTCCATCTGAGAGATAAACTTGAACTTCATGCTCTCAGGCTGGGGAA
+TGATCAAGCATCATCCAGGTGAGCTTGATTCTTATCAGGTTGAAGGATGTTGAGGTCACCGGTTACAAAAGGAGCAGATG
+GATGCTGGTCAGTCTCAGGAGAGCAAGCTACCATGGCACTGCAGTTGGGGCTCTTTCTGATTTGGGCTGGCGTGTCTGTG
+TTTCTACAACTGGACCCTGTGAATGGAGGTGAGAGAAGGGAGATGAGGCTAGAATTGGTGAGAGAGAGCCTGTCCCCAGA
+CGTGGATTGTGTGTAAAAGTTATGATAATAATAATAGTGGTTACAAATATGTCTCGCATTTCTTGAGTATATCCCAAGGG
+CAAGACGCTATGAAGAGTTTCACATTTTATTAATTTTCCACCAACTCCGTGACACTGAAACCCAGGTGAGTTTCGCAGTA
+AAGCCAAAGCCTTTTT
+>ref|X60496.1| B.taurus exon 2 for bovine seminal vesicle secretory protein SVSP109
+ATCCCCACTGGCTATCTATTTTACACACGGTGGTGTATATATGTCCACGCTACTCTCTCAATTTGTCCCACCAAACCCTG
+ACCCTGCTTTGTTCCTGCTCCTCCTCCAGCAGTCTCCTTTTCTCCTGCTTTTCTTCCAGATCAGGACGAAGGTGTTTCTA
+CTGAACCTACCCAAGACGGTCCTGCTGAATTACCTGAAGGTAGTGTTCCTCGGGCAGATACCCAAGACAATCAACAAGGG
+GAGAGAATGACAACAAAAGGACAGTCCAGTGCAACAAGCTAACGTGTGTGGCAGGGGAACCGTGACGGGGATTCTCCAAA
+GATACACTACAAGCAGGAGCTAACGCTACCCTCAGTCGCACACATACTCCC
+>ref|X60497.1| B.taurus exon 3 for bovine seminal vesicle secretory protein SVSP109
+AGAGGGCTCTGTACACAGCAGGTTTGGGGCTGATGGGCAGGCTTGGATGGAGATTTGCCAGAGTTACCACAGACGTCATG
+AAGCCCTAAGTGCGAAAGAAGGGAACGATGCCTTTCTTCTTTCAGACGAAGAATGCGTTTTCCCATTCGTCTATAGAAAC
+AGAAAGCATTTTGACTGCACAGTGCATGGTTCCTTATTCCCGTGGTGTTCCCTCGATGCAGACTATGTAGGAAGATGGAA
+ATACTGTGCTCAGAGAGGTAAGTGTGCAGCCTGTCCTCGGGTGAGAAGCACCTGGCTTCCCAGATGAAGGGGGAAAGTCC
+AAATTGCCTCCTAGAGGGAAGCCTTGGACACCAGTATGAGCAAGCTCTGGGAGTTGGTGATGAACAGGGAAGCCTGGCAT
+GTGGCAGTCCAAGGGGTCGCAAAGAGTCAAACACGACTGAGTGACTGAACTGAACTGAACTGAACTGAGAGGGTAGTCTC
+AGGTGTCTCCTGAT
+>ref|X60498.1| B.taurus exon 4 for bovine seminal vesicle secretory protein SVSP109
+TCTTTCAGACCAGGGTTTGAACCCATGTCCTTTGCGTTGCAAGGCATTCTCTACCATGCACCACCAGGGAAGCCCCCTTT
+TCTCTTGATATGATTAAAAATAACCCTCCCGCAATTAATGTTTCACCCATTCCTTCTGTTTTTCAGACTATGCTAAATGT
+GTCTTCCCCTTTATCTATGGAGGCAAGAAATATGAGACTTGCACAAAAATTGGGAGTATGTGGATGTCTTGGTGCTCACT
+CTCTCCAAACTACGACAAGGACAGAGCTTGGAAGTATTGCTAGCCATAAAAAGAGGTAAGAGTATCTGGGGAGGGTGGGA
+AGAGACAGGGGTGAGCAGGGAAGAGACAGAGCTGGATAAAGAGGTGGAGTCAGATGCCCATTGAGGAGAGAGGAGGCAGG
+TGGAGGGAGGGGATGAGGGAGAAAAACGCAGGAGGAAGAGTGAGGAGCAGAGTTTCACGAGGAGAAGCTTGCAGAGAGGA
+TGAAGAGGAGAAAGGGGACAAAAGATGGAAACAGAGGGAGAGACAAAGGCAAACTGCAAACAATGGAGAGA
+>ref|Z11996.1| B.taurus 5'-region of gene for beta-lactoglobulin
+TAGAGGATCCTTGCCCCCTCCGCCGCCGCCTCCAGCTCCTGGTGCCGCACCCTTGGGCCCGATCTCGTAGACGCCTCAGT
+CCAGTCTCTGCCTCCGTGTGCACTGGCATTCTCCCCATGTCCCCCTGTGTCCCCGTTTTCTCTCCCAAGGACACCGGACA
+TCCGATTCGCCCCCGTTCCAGCACCCCGAACAGTCAGGAGCCGACCCGCTAGGCCCCGCTATCAGGAGACACCCCAACCT
+TGCTCCTGTTCCCCTACCCCAGTACGCCCACCCCGACCCCTGAGATGAGTGGTTTACTTGCTTAGAATGTCAATTGAAGG
+ACTTTTGTACCCCCTTTGCCAGTGGCACAGGGCACCCACAGCCCGCTGGGTACTGATGCCCATGTGAACTCAGCTAGGAG
+GACTGTCCTGCGCCCTCCCTGCCCGGGTCAGGGCACTGAACACCTGAACACCTGAACACCCAGAGCTTGAACACCTTGGC
+AGCAGAGCTTGAACACTTGGCAGCCACGTTGAACCCAGAGCTTGAACACCTTGGCAGCCACGTTGAACCCAGAGCTCTTC
+CTGCTTGGCCTCGAATGCGGACATCCGATTCGCCACTCAGTTGAACCCAGAGCTTGTTGAACCCAGAGCTTGAACACAGA
+GCTTGAACACCTGCCAGTGGCACAGGGCACCCGCCTAACAGAGCCACCCCTGAACTCAGTTTGAACCCAGAGCTTGAACA
+GCCACCCCTGAACTCAGCAGAGCTTGAACACCTGCCAGTGGCACAGGGCACCCCTGAGATGAGTGGTTTACTTGCTTCAC
+CCCCTGCGCCACCCCTGAACTCAGTTGAACCCAGAGCTTGAACAGACCCCTGAGATGGTACGCCCACCCCTGAACTCAGC
+TAGGGACCCCTGAGATGAGTAAAAGTGTTCTTGGCGCTTGGCAGCCACGTTGAACCCAGAGCTTGAACACCCCCTGCGCC
+CCCACTTCTGGGGCGTACTAGGAACCGTCTTAGGCCCAGAGGGGGCCTTCCTGCTTGGCCTCGAATGGAAGAAGGCCTCC
+TATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGCTCGGCCAGGGGGGATTCGGGGAACCGCGTGGCTGGGGGCCC
+GGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTGTCTCAGCACTCCACTCCCTGCAGAGCTC
+AGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCCTGCCCTGGCCCTCACCTGTGGCGCCCAGGCCATCATCGT
+CACCCAGACCATGAAAGGCCTGGACATCCAGAAGGTTCGAGGGTGCCCGGGTGGGTGGTGAGTTGCAGGGCGGGCAGGGG
+AGCTGGGCCTCAGAGACCAAGGGAGGTGTGACGTCTGGGATTCCCATCAGTCAGCTAGAGCCGCCTGACAAATGCCCCGC
+CAGGGCAGCTTCAAGGAGGCGTTTAGTGTCTTGCATTGTGGAGGCTGGAAGCCTGCAATCCGGGCATCGGCCCAGCTGGC
+TTCTCCTGCGGCCACTCTCCGGGGAGCAGACAGCCTTCTTCTCCCTGCGTCCTTTGCGTGCCCTTGGTTTCCTCTTCCTG
+TTGAGGTCACCAGGCCTGCTGGATCCCCGGGCG
+>ref|X57170.1| B.taurus 5S rRNA gene
4W1Z_7 Chain 7, Structure Of The Mammalian 60s Ribosomal Subunit (this Entry Contains The Large Ribosomal Subunit Rna)
4W21_7 Chain 7, Structure Of The 80s Mammalian Ribosome Bound To Eef2 (this Entry Contains The Large Ribosomal Subunit Rna)
4W24_7 Chain 7, Structure Of The Idle Mammalian Ribosome-sec61 Complex (this Entry Contains The Large Ribosomal Subunit Rna)
4W26_7 Chain 7, Structure Of The Translating Mammalian Ribosome-sec61 Complex (this Entry Contains The Large Ribosomal Subunit Rna)
+GTCTACGGCCATACCACCCTGAACGCGCCCGATCTCGTCTGATCTCGGAAGCTAAGCAGGGTCGGGCCTGGTTAGTACTT
+GGATGGGAGACCGCCTGGGAATACCGGGTGCTGTAGGCTT
+>ref|X60960.1| B.taurus exon 5 for bovine seminal vesicle secretory protein SVSP109
+CAACATAATCTTGGAGCAGGCATGAGACAGCAGGAATCGAGATAGAAAGAGGCAGAGAGGCAAAGGAGACATAGACCTTT
+GCCCTCCGTGGGACTGACTGAGAAACAAAACTGACTCGTTAACCTTGACCCCAAAGCTATGTTCAGTCACTGTCCAGTGC
+ATCCACCCTTGGCCATGGATGCAATCCAGCCTTTGAAACCTCAGTGAAGAAAATCAAGAACTCTCAAGCATGAAGATGAT
+GCTCTGAAAGCCAGAGGTGAAATCCTTTCCCTACATCTCCACCATGTTCCCCCTATGCGTGGATCCAATCAATAAACCAC
+TTTCTCAGCAGGGGTGGTCTTTCTTTTTTTTTCGTCCACAAAGAAACCTGATTGGGAGGGTCTCAACGTGCTCAGGTTAA
+CCAGGCAGGATCTTCTTGTTTTCCTTTCCGTTCCTTGGGGTCCCAGTGGAAAATCAATACACATCACAATTGTCCTTCCT
+GGG
+>ref|NM_174233.2| Bos taurus angiotensin II receptor type 1 (AGTR1), mRNA
X62294.1 B.taurus mRNA for adrenal angiotensin II type-1 receptor
+GGAGGAGAGAGTGCAAAACACAGCCTCGCCCCTGGAACCCTCGAAGAAGCAACGTCCCTCGCTATAAATTTGGAGCTGCC
+TCAGAGAGGACGATTCCAGCGCCAGTCAGCCAAGGGCCTGAGGCGACTGAGCGCCCGGGCAGACGCGCGACTAGCAGCTC
+TGCCTACCCGAGACGGCGATCCACGAGGAGGAACCCAAGCGGACCCCAGGAGTGAGGGCGCACCCTGAGCCGGCGCCGCC
+AGCTCGGCCCGACGCCGGCGCAGCGTCCCGAGTGAGAGCGGACTGATGTATGATAAGCTGATCTAAAATGACAGGTTTTA
+TCTGACTAAGTCATTGAAGCCATTCCAGAAGGTCTGCATCCAGGTGCATTTGGCATAGTGTCTGAGACTGACTAACCCAA
+GAGATCAAAATGATCCTCAACTCTTCCACTGAAGATGGTATTAAAAGAATCCAAGATGATTGTCCCAAAGCTGGAAGGCA
+CAATTACATATTTATCATGATCCCTACTTTATACAGTATTATCTTTGTGGTGGGGATATTTGGAAACAGCTTGGTGGTGA
+TTGTCATTTACTTTTACATGAAACTGAAGACTGTGGCCAGTGTTTTTCTTTTGAATTTAGCTCTGGCTGACTTATGCTTT
+TTACTGACTTTGCCACTGTGGGCTGTCTACACTGCTATGGAATACCGCTGGCCCTTCGGCAATTACCTATGTAAGATCGC
+TTCAGCCAGTGTCAGTTTCAACCTCTATGCCAGCGTGTTTCTACTTACATGTCTAAGCATTGACCGCTACCTGGCTATTG
+TTCACCCAATGAAGTCCCGCCTCCGGCGCACAATGCTTGTGGCCAAAGTCACCTGCATCATTATTTGGCTGCTGGCAGGT
+TTGGCCAGTTTGCCAACTATAATCCACCGCAACGTATTTTTCATCGAGAATACCAATATCACCGTTTGCGCTTTCCATTA
+CGAATCCCAAAATTCTACCCTCCCGGTAGGGCTGGGCCTCACCAAGAATATATTGGGATTCTTGTTTCCTTTTCTGATCA
+TTCTTACAAGCTACACTCTTATTTGGAAGACCCTCAAGAAGGCTTATGAAATTCAGAAGAACAAACCAAGAAAAGATGAT
+ATTTTCAAGATAATTTTGGCAATCGTGCTTTTCTTTTTCTTTTCCTGGGTTCCCCACCAGATATTCACTTTTATGGATGT
+GTTAATTCAGTTGGGCCTCATCCGTGACTGTAAAATTGAAGATATTGTTGACACTGCCATGCCCATCACTATTTGCTTGG
+CTTATTTTAACAATTGCCTGAATCCTCTCTTTTATGGCTTTCTAGGAAAAAAATTTAAAAAATATTTTCTACAGCTTCTG
+AAATACATTCCCCCAAAGGCCAAATCCCACTCAAACCTGTCGACAAAAATGAGCACACTCTCCTACCGCCCCTCAGAAAA
+TGGAAACTCCTCTACCAAGAAGCCTGCCCCATGCATTGAGGTTGAGTAACACACTTGAAACCTGTCTGTGAAGTCACCTT
+AAAGAAGGAGAAGAAAAACATTCTTGTACAACACCTCACTACCAAATGAGCATGGGCTGCATTTCAGAATTAAAGGAGAA
+AATAGATTATGTGGACTGAACTGACTTGTCTACAGCTCTGAACAAAAGCTCTTTCCCTTTGCAACTCAACAAAGCAAAGC
+CACATTCTCCATGTTTTGCATTAGGTAGATGATGCCCACTCAAAGAACTGATGTCAGAAACTGGATGAAAGTGTTGATTT
+GGAAAATTTTACTGGGAAAAATGTCCTCTCCCTAGTCTGCTCTTGTTCTGTTATTTTTGATTTCCACATGAAAGTACTTC
+AGTTCAGTTCAGTCACTCAGTCGTGTCCAACTCTTTGCGACCCCATGAATCGCAGCATGCCAGGCTTCCTGTCCATCACC
+AACTCCCGGAGTTTACCCAAACTCATGTGCTCTGAGTCGGTGATGCCATCCAGCCATCTCATCCTCTGTCGTCCCCTTCT
+CCTCCTGCCCCCAATCCCTCTCAGCATCAGGGTCTTTTCCAATGAGTCAACTCTTCGCATGAGGTGGCCAAAGTATTGGA
+GTTTCAGCTTCAGCATCAGTCCTTCCAATGAACACCCAGGACTGATCTCCTTTAGGATGGACTGGTTGGATCTCCTTGCA
+GTCCAAGGGATGCTCAAGTCTTCTCCAACACCACAGTTCAAAAGCATCAATTCTTTGGCACTCAGCTTTCTTCACAGTCC
+AACTCTCACATCCATACATGACCACAGGAAAAACCATAGCCTTGACTAGATGGACCTTTGTTGGCAAAGTAATGTCTCTG
+CTTTTGAATATTCTATCTAGGCTGGTTATAACTTTCCTTCCAAGGAGTAAGCGTCTTTTAATTTCATGGCTGCAGTCACC
+ATCTGCAGTGATTTTGGAGCGCAAAAAAAATAAAATCTGACACTGTTTCCATGTTTCCCCATCTATTTCCCATGAGGTAC
+TTAGAATATATTAAACCTCAAGAGGAGCAACAGGAGAGAAGAGCTTAAGACTGCCATGCCCAATTTCCAAAGGGCAGCAA
+AGCTTTCGTGCCTATTTAGCTATTAGCAACTGCGGCCCACTTGTACCTGCTACTGCGCATTTCATACAAAGACTCGCTAA
+GCAGTAGTTGTCAGGTTCCAGAAGCTGTTGTGAAACCCAACCCGTGTCTTATAGATTCACACTGCCGAAATATGCCAGCT
+GAGTGGCCTATTTGTATAATGATGTCTCTGTAGTCATGTATAAAAATTATATTACTTGTAAAGGTGTTATTCCAGTCCCA
+GGTAGTCATGTTACTTTTATTTCAGATCTGAGAAGTATATATATTTTGTGGTGAAAGATTATATATCATAAAATATTCCT
+TACTGTTTTAAAAAGTATATATTCAACCTGTGCATGTATCTCTCTAAACTGCTATCTTATTAAAATTTGGCAAAGTTATA
+TTCACATTAAATAATGTTATTGCAATGTATTTAATCTTCATTACTTAAAATAAATGTTGGTTTATTTTT
+>ref|X67213.1| B.taurus mRNA for adrenergic receptor beta 2
+GCGGACGGGTCTAGGACAACGCAGGACCTCCAAGTTCTACTTGAAGGAACACAAAGCCCCCAAGACTTTAGGCATTATCA
+TGGGCACTTTCACCCTGTGCTGGCTGCCCTTCTTCATTGTCAACATTGTGCACGTGATCAAGGATAACCTCATCCGTAAG
+GAAATATACATCCTTCTAAACTGGTTGGGCTACATCAACTCCGCTTTCAATCCCCTTATCTACTGCCGGAGCCCAGATTT
+CAGGATTGCCTTCCAGGAGCTTCTCTGCCTGCGCAGGTCTTCATTGAAGGCCTATGGGAATGGCTGCTCCAGCAACAGCA
+ATGACAGGACTGACTACACAGGGGAACAGAGTGGATATCACCTGGGGGAGGAGAAA
+>ref|X67214.1| B.taurus gene for adrenergic receptor beta 3
+TGGCCTCACGAGAACAGCTCTCTGACCCCGTGGCCAGATATCCCCACCCTGGCACCCAATACTGCCAACGCGAGTGGGCT
+GCCAGGGGTGCCCTGGGCGGTGGCGCTGGCGGGGGCGCTGTTGGCGCTAGCGGTGCTGGCCACCGTGGGAGGCAACCTGC
+TGGTAATCGTGGCCATCGCCCGGACGCCGAGACTCCAGACCATGACCAACGTGTTCGTGACTTCGCTGGCCACAGCCGAC
+CTGGTGGTGGGGCTCCTGGTCGTGCCCCCGGGGGCCACGTTGGCGCTGACTGGCCACTGGCCGTTGGG
+>ref|X13736.1| Bovine mRNA for adrenodoxin reductase C-term. (EC 1.18.1.2)
+GGCCCGGGCCTTTGTGGGCTGGTACAATGGGCTTCCTGAGAACCGGGAGCTGGCCCCGGACCTGAGCTGTGACACAGCCG
+TGATTCTGGGGCAGGGGAATGTGGCTCTGGACGTGGCCCGGATCCTGCTGACCCCCCCCGACCACCTGGAGAAAACGGAC
+ATCACTGAGGCCGCCCTGGGAGCCCTGAGACAGAGTCGGGTGAAGACGGTGTGGATCGTGGGCCGACGTGGACCCCTACA
+AGTGGCCTTCACCATAAAGGAGCTTCGGGAGATGATTCAGTTACCAGGAACTCGGCCCATGTTGGATCCTGCGGATTTCT
+TGGGTCTCCAGGACAGAATCAAGGAGGCCGCTCGCCCGAGGAAGCGGCTGATGGAACTGCTGCTTCGAACAGCCACGGAG
+AAGCCAGGGGTGGAGGAGGCTGCCCGCCGGGCATCAGCCTCCCGTGCCTGGGGCCTCCGCTTCTTCCGAAGCCCGCAGCA
+GGTCCTGCCCTCGCCAGATGGGCGGCGGGCGGCAGGCATCCGCCTGGCAGTCACCAGACTGGAGGGCATTGGAGAGGCCA
+CCCGGGCAGTGCCCACTGGGGATGTGGAGGACCTCCCCTGTGGGCTGGTGCTGAGCAGCATTGGGTATAAGAGCCGCCCC
+ATCGACCCCAGTGTGCCCTTTGACCCCAAGCTCGGGGTTGTCCCCAATATGGAGGGCCGGGTTGTGGATGTGCCAGGCCT
+CTACTGCAGCGGCTGGGTGAAGCGGGGACCCACAGGTGTCATCACCACCACCATGACCGACAGCTTCCTCACCGGCCAGA
+TTCTGCTACAGGACCTGAAGGCCGGGCACCTGCCGTCTGGCCCCAGGCCGGGCTCTGCATTCATCAAGGCCCTGCTGGAC
+AGCCGAGGGGTCTGGCCCGTGTCTTTCTCGGACTGGGAGAAACTGGATGCTGAGGAGGTGTCCCGGGGCCAGGCCTCGGG
+GAAGCCCAGAGAGAAGCTGCTGGATCCTCAGGAGATGCTGCGGCTGCTGGGGCACTGAGCCTAGATCCCAGCCCCGCTGG
+GTGCAGAGAGAAGAGGAGGGTGAGCCCAGATCCCAGCCCAGCTCAGAGAAGAGAGGAGGCGCGCTGGACAGCGGAGAGGC
+GTCGGGGTCAGCCTGAGCGGGACTCTGCACCCCAGCTGCGTCGTCTGCCCGTCCTGGCATACAGCCCTGGCTGCCTCTTC
+TCCAGGGGCGTGGGAGCACTTTCTGGAGCTAGGTCACTGCTGCCAGTGTGGGTACCTTTCAGCAAGGAGATAACCTTAGT
+TAGGGATGGAGGCAGGTACAGGCTGACCTCCGTCCCTCCTGTCTCTCTCCTGCTGGACTGTGGAGGGTCCCCAGGTCAGG
+AATATGCTGGAAATAAAGCACCGGCCACCTAG
+>ref|X05087.1| Cow Alu-type art2 sequence 7kb 5' of fetal globin gene
+TTAAGTTCAGTTCAGTCACTCAGTCATGTCCGACTCTTTGCGACCCCATGAATCACAGCACGCCAGGCCTCCCTGTCCAT
+CTCCTCCCGGAGTTCACCCAACGTCACGTCCATCGAGTCGGTGATGCCATCCAGCCATCTCATCCTCTGTCGTCCCCTTT
+TCCTCCTGCCCCCAATCCCTCCCAGCATCAGGGTCTTTTCCAGTGAGTCAACTCTTCACATGAGGTGGCCAAAGTACTGG
+AGTTTCAGTTTTAGCATCATTCCTTCCAAACAACACCCCAGGGCTTATCTCCTTTAGAATGGACTGGTTGGATCTCCCTG
+CAGTCCAAGGGGCTCGCAAGAATCTTCTCCAACACCACAGTTCAAAAGCATCAATTCTTCGGCACTCAGCTTTCTTCACA
+GTCCAACTCTCACATCCGTACATGACCACTGGAAAAACCATAGCCTTGACTAGACGGACCTTTGTTGGAACGTAATGTCT
+CTGCTTTTCAATATGCTATCTAGGTTGGTCATAGCTTTCCTTCCAAGGAGTAAGCA
+>ref|X05090.1| Cow alu-like art2 repetitive sequence 1kb 3' to fetal globin gene
+TTCTGTTCAGTCCAGTGGCTCAGTTGTGTACAATTCTTTGCAACCCCATGGACTGCAGCATGCCAGGCTTCCCTGTCCAT
+CACCAACTCCTGGAGCTTGCTCAAATTCATGCCCATTGAGTTGGTGATGCCATTCAACCATCTCATCCTCTGTTATCCCC
+TTCTCTTGCCTTCAATCTTTCCCAGCATCAGGGTCTTTTCCAATGAGTCAGTTCTTCACATCACGTGTCCAAAGTATTGA
+AGCTTCACGTTCGGTATCAGTCCTTCCAATGAATATTCAGGACTAATATCCTTCAGGTTTGATTGGTTTGATCTCCTTGC
+AGTCCAAGGGACTCTCAGGAGTCTTCTCCAACATCACAGTTCAAAAGCATCAATTCTTCAGCGGTCACCTTTCTTCATTG
+TCCAACTCTCACATCCACACATGACTACTGGAAAAACCATAGCCTTGACTAGATGGACATTTGTTGATAAAGTAGTGTCT
+CTGCTTTTTAATATGCTGTCTAGATTTGTGATAGCTTTTCTTCCAAGAAGCAAGCATC
+>ref|X63475.1| B.taurus Alu-like repeat DNA
+CATGGACAGAGGAGCCTGGCAGGCTACAGTCCTTGGGGTCACAAAGAGTTGGACACAACTGAGTGACTCCATGGTGCATT
+CTCCTGCGTCCCATTGATCCAGACAATCAGGAGAGGCTTCACAGAAATCGGGTGGTGGCATGAGAGGTATCTGAATT
+>ref|X63474.1| B.taurus Alu-like repeat DNA
+GAATTCTGCATAGAGACTGGTTGATCCTGCTGGAGATCCCTGAGAGGAAGCTACCATATCAGTATTCTGGCTGAGATCAT
+GTTAACCAGTCATCCTGGCACTTACTGTCACTTTAGAGCTGGTCTTGGGTCACTATGTAGGTGTATTTGTCTTTTCCTAT
+CATTCTTCTTGTCATGAGTACAGGTTAGTTAAAATGAAGTTTGCAGATGGCCTGGGCTTCCCTTGTGGTTCAGCTGGTAA
+AGAATATGCCTGCAATGAGGGAGACCTGGGTTTGATCCCTGGCTTGGGAAGATCCCCTGGAGAAGGGAAAGGCTACCCAC
+TCCAGTATTCTGGCCTGGAG
+>ref|X03454.1| Bovine retinal mRNA for S-antigen C-terminus
+AAGAAGAGCTCCGTGCGTTTGCTGATCCGGAAGGTACAGCACGCGCCACGCGATATGGGTCCCCAGCCCCGAGCCGAGGC
+CTCCTGGCAGTTCTTCATGTCGGACAAGCCCCTGCGCCTCGCCGTCTCGCTCAGCAAAGAGATCTATTACCACGGGGAAC
+CCATTCCTGTGACCGTGGCCGTGACCAACAGCACAGAGAAGACAGTGAAGAAGATTAAAGTGCTAGTGGAGCAAGTGACC
+AACGTGGTTCTCTACTCGAGTGATTATTACATCAAGACGGTGGCTGCCGAGGAAGCACAGGAAAAAGTGCCGCCAAACAG
+CTCGCTGACCAAGACGCTGACGCTGGTGCCCTTGCTGGCCAACAACCGTGAGAGAAGGGGCATCGCCCTGGATGGGAAAA
+TCAAGCACGAGGACACGAACCTGGCCTCCAGCACCATCATAAAGGAGGGAATAGACAAGACCGTCATGGGGATCCTGGTG
+TCTTACCAGATCAAGGTGAAGCTCACGGTGTCAGGCCTTCTGGGAGAGCTCACATCCAGTGAAGTGGCCACTGAGGTGCC
+GTTCCGCCTCATGCATCCCCAGCCAGAGGACCCAGATACCGCCAAGGAAAGTTTTCAGGATGAAAATTTTGTTTTTGAGG
+AGTTTGCTCGCCAAAATCTGAAAGATGCAGGAGAATATAAGGAAGAGAAGACAGACCAGGAGGCGGCTATGGATGAGTGA
+AGAGGCGACTCAGGA
+>ref|X56933.1| B.taurus mRNA, alternative polyadenylation signals
+GGCGGAGGGGCAGGTCCTGGTGCTCGATGGCCGAGGCCATCTCCTGGGCCGCCTGGCGGCCATTGTGGCCAAGCAGGTGC
+TTCTGGGCCGCAAGGTTGTGGTCGTGCGCTGTGAGGGCATCAACATTTCTGGCAATTTCTACAGAAATAAGTTGAAATAC
+CTGGCCTTTCTCCGCAAGCGGATGAACACCAACCCCTCCCGTGGCCCCTACCACTTCCGAGCCCCCAGCCGCATCTTCTG
+GCGGACAGTGCGAGGCATGCTGCCCCACAAGACCAAGCGGGGCCAGGCTGCTCTGGAGCGCCTCAAGGTGTTTGATGGGA
+TCCCACCACCCTATGACAAGAAAAAGCGAATGGTGGTTCCTGCTGCCCTCAAGGTTGTGCGTCTGAAGCCTACTCGCAAG
+TTTGCCTACCTAGGGCGCCTGGCTCATGAGGTTGGCTGGAAGTACCAGGCAGTAACGGCCACCCTGGAGGAGAAGAGAAA
+GGAGAAGGCCAAGATCCACTATCGGAAAAAGAAGCAGCTCATGAGGCTACGGAAGCAGGCCGAAAAGAACATCGAGAAGA
+AAATTGGCAAATTCACAGAGGTCCTCAAGACTCATGGATTCCTAGTCTGAGCCAAATAAAATTGACTGTTTATTCTTCAT
+GCTTGGCCTGGCCTGCCCTTCCTCGATCGCCACCCTAGGATGTGGGGGGGCCCAGGGGCTGCCGTGCATGTGCCACAGGC
+AGACGGGTATAGCCGAGGGGCATTAGTCAGTGTAGGCGGGTCCAGGGGCTGTGCAGGCATCGTTGGTCTGCAGCCTGTTT
+GTTCGTGAGACCTTTAAGACATGAACAGTTGGAACAACCAGTCCAGTTGCAGTATTGGCAGACGTGAGCTGGAAGACTAT
+TGGAAGGGATTGGCATGACTTAAAGGGAGTCTGTTCATGCTTCCCACGTGGTCGGATACTATACTCTGCAGCTGTTAGGA
+TGTGAGAGAATGCCCAAAAAGTATCTCTGGAAGAGAAGTTCCAGCCAAGGGATCACAGGCTTCGCCCTCGTGTCTTCCCT
+ATATTTTGTGATCCAAAACCAATAAATTATTTTGTTAAAGAAAAAAAAAAAAAAAAAAAAA
+>ref|X63592.1| B.taurus mRNA for adenosine A1 receptor
+TGCTGATGTGCCCAGCCTGTGCCCACCATGCCGCCCTCCATCTCGGCCTTCCAGGCCGCATATATTGGCATCGAGGTGCT
+CATCGCCCTGGTCTCTGTGCCTGGGAACGTGCTGGTGATCTGGGCGGTGAAGGTGAATCAGGCCTTGCGGGATGCCACCT
+TCTGCTTCATCGTGTCACTGGCAGTGGCTGATGTGGCGGTGGGCGCTCTGGTCATCCCGCTCGCCATCCTCATCAACATT
+GGGCCACGGACCTACTTCCACACCTGCCTCAAGGTCGCCTGCCCTGTCCTCATCCTCACTCAGAGCTCCATCCTGGCCCT
+GCTGGCAATTGCTGTTGACCGCTACCTCCGTGTCAAGATCCCACTCAGGTACAAGACAGTGGTGACTCCTCGAAGGGCTG
+TGGTGGCCATCACTGGCTGCTGGATTCTCTCCTTCGTGGTGGGCCTGACGCCCATGTTCGGCTGGAACAACCTGAGCGCG
+GTGGAGCGGGACTGGCTGGCCAATGGCAGCGTGGGCGAGCCTGTGATTGAATGCCAGTTCGAGAAGGTCATCAGCATGGA
+GTACATGGTCTACTTCAACTTCTTCGTGTGGGTGCTGCCCCCGCTGCTGCTCATGGTCCTCATCTACATGGAGGTCTTCT
+ATCTGATCCGCAAGCAGCTCAGCAAGAAGGTGTCGGCCTCCTCCGGAGACCCGCAGAAGTACTATGGGAAGGAGCTGAAG
+ATCGCCAAGTCGCTGGCCCTCATCCTCTTCCTCTTCGCCCTCAGCTGGCTGCCCTTGCACATCCTCAACTGTATCACCCT
+CTTCTGCCCTTCCTGCCACATGCCCAGGATCCTCATATACATCGCCATCTTCCTCTCACACGGCAACTCGGCCATGAACC
+CCATCGTCTACGCCTTCCGCATCCAGAAGTTCCGAGTGACCTTCCTTAAGATCTGGAATGACCACTTCCGCTGCCAGCCT
+GCGCCCCCCATTGATGAGGATGCCCCAGCAGAGAGACCCGATGACTAGACTCCGCCCGCCACGCCCCCTTG
+>ref|X15802.1| Bovine derived synthetic gene bpr for pancreatic ribonuclease A (EC 3.1.27.5)
+GAATTCATCGATGAAAGAGACAGCAGCCGCAAAGTTTGAGCGTCAGCATATGGATAGTAGCACCAGTGCTGCCAGTTCTT
+CCAACTACTGTAACCAGATGATGAAGTCTAGAAACTTGACCAAGGACAGATGTAAGCCAGTTAACACATTTGTCCACGAG
+AGTTTGGCTGATGTCCAAGCCGTCTGCAGTCAGAAAAACGTTGCATGCAAGAACGGTCAAACGAACTGTTACCAGAGTTA
+CAGCACCATGTCCATCACTGACTGTCGTGAGACAGGCTCGAGCAAGTATCCTAATTGTGCTTACAAGACCACACAGGCGA
+ACAAACACATCATTGTTGCTTGTGAAGGTAACCCTTACGTTCCTGTCCACTTTGACGCCAGTGTTTAACTAGATAAGCTT
+>ref|X05218.1| B.taurus mRNA for mit-ATP synthase proteolipid P1 subunit precursor
+CCAATGGATTTTTTTTTCCCCCCCTCTGCAGACTGAAAAAAATGCAGACCACCGGGGCACTACTCATTTCTCCTGCTCTG
+ATCCGTTCTTGTACCAGGGGTCTGATCAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAGAGATCCAATCTGTACAGCC
+TTCCTACAGCAGTGGCCCACTGCAGGTGGCCCGGCGGGAATTCCAGACCAGTGTTGTCTCCCGGGACATTGACACAGCGG
+CCAAGTTTATTGGCGCTGGGGCTGCCACAGTTGGTGTGGCGGGTTCAGGGGCTGGTATTGGAACAGTGTTTGGCAGCTTG
+ATCATTGGCTATGCCAGGAACCCGTCTCTGAAGCAGCAGCTCTTCTCCTATGCCATTCTGGGCTTTGCCCTGTCTGAGGC
+TATGGGGCTCTTCTGTTTGATGGTCGCCTTCCTCATCCTCTTCGCCATGTGAGGCTCCGTGGAAGTCACCTACCCACCCC
+TGCTGCTTCGACTCCAGGCCATGCCCGGTGCTGGAGTGTGCTAACCTTTACCATTAAACACAATGTTTCTCTAAAAAA
+>ref|NM_176613.2| Bos taurus ATP synthase membrane subunit c locus 2 (ATP5MC2), mRNA
X05219.1 B.taurus mRNA for mit-ATP synthase proteolipid P2 subunit precursor
+TGCCGTAGCCCTTCATCCCCTGAAAATGTACACTTGCGCCAAGTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTA
+CAGTATTGAGCCGATCACTGTCTGCAGTGGTGGTAAGACGACCGGAAACACTGACGGATGAGAGCCACAGCAGCTTGGCA
+GTAGTTCCCCGTCCCCTGACCACCTCACTTACTCCTAGCCGCAGCTTCCAAACCAGTGCCATTTCAAGGGACATTGACAC
+AGCAGCCAAGTTCATTGGAGCTGGGGCTGCCACAGTAGGGGTGGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGA
+GTCTCATCATTGGTTATGCCAGGAACCCTTCTCTGAAGCAGCAGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCG
+GAGGCCATGGGGCTCTTTTGCCTGATGGTGGCCTTTCTCATCCTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATA
+GTTCTTCTCCCGTGTCTCATCTGCCCTGTATGTTTCTTTTCCTGTACCTCCCCAGGCAACCTGGGGAAAGTAGTTGGCTC
+AGGGCTTGACAGAAGGAAGACAAATAAATACTGTATTAATAAGAAAAAAACAAAA
+>ref|X05605.1| Bovine mRNA fragment for ATP synthetase beta-subunit
+GAATTCGTGGAGATGAGTGTTGAACAAGAAATTCTGGTTACTGGTATTAAGGTTGTAGATCTGCTGGCTCCAATTGCCAA
+GGGTGGCAAAATTGGGCTTTTTGGTGGTGCTGGAGTCGGCAAGACAGTACTGATCATGGAGTTAATCAACAATGTTGCCA
+AAGCCCATGGTGGTTACTCTGTGTTTGCTGGTGTTGGTGAAAGGACCCGTGAGGGCAATGACTTATACCATGAAATGATT
+GAGTCTGGTGTTATCAACTTAAAAGATGCTACCTCTAAGGTAGCGCTGGTGTACGGTCAAATGAATGAACCACCTGGTGC
+TCGGGCCCGGGTTGCTCTGACTGGGCTGACTGTAGCTGAGTACTTCAGAGACCAAGAAGGTCAAGATGTGTTGCTGTTTA
+TTGATAACATCTTTCGCTTCACCCAGGCTGGCTCAGAGGTGTCTGCTTTGTTGGGCAGAATCCCTTCTGCTGTGGGTTAT
+CAGCCTACCCTGGCCACTGACATGGGTACCATGCAGGAAAGAATCACCACCACCAAAAAGGGATCTATCACCTCTGTACA
+GGCTATCTATGTGCCTGCTGATGACTTGACGGATCCTGCCCCGGCCACTACCTTTGCCCATTTGGATGCTACCACTGTGT
+TGTCCCGTGCTATTGCTGAGCTGGGCATCTATCCAGCTGTGGATCCTTTGGACTCCACGTCTCGCATCATGGATCCCAAC
+ATTGTTGGCAGTGAGCATTATGATGTTGCCCGTGGGGTGCAAAAGATTCTGCAGGACTACAAATCCCTCCAGGACATCAT
+TGCTATCCTGGGTATGGATGAACTTTCTGAAGAAGATAAGTTAACTGTGTCTCGTGCACGGAAAATCCAGCGTTTCTTGT
+CTCAGCCATTCCAGGTGGCTGAGGTCTTTACTGGTCATTTGGGGAAGCTGGTACCCCTCAAGGAGACCATCAAAGGATTC
+CAGCAGATTTTGGCAGGTGAATATGACCATCTCCCAGAACAGGCCTTCTATATGGTGGGACCCATTGAAGAAGCTGTGGC
+AAAAGCTGATAAGTTGGCTGAAGAGCACTCATGAGGGGGTCCTTTTGGCAAATTAAGCACTCATCCTCCATGGTGTCCCT
+CTCCTCGCCCCTAATCCGGAAGTCGCAGTTTCTCTGTAGCCACGTGAGGGCCTTGATTGAAGACATTGTGTTCTGACTTT
+TAGAGTTTATTAAATAAAAAAACTGTCGATTTGAACAGGAGGAGAAAAGGAGGTTATTTTAAAAAAATAACACCCACAGG
+AAAAGAGCACAAAAGGCATCTACTAGTGTGTGTTACA
+>ref|X16978.1| B.taurus mRNA for mitochondrial ATP synthetase epsilon-subunit (EC 3.6.1.34)
+GGCGCGACGCGCCCCCTCTCGCGACATCATGGTGGCGTACTGGCGACAGGCTGGACTCAGCTACATCCGATACTCCCAGA
+TCTGTGCAAAAGCAGTCAGAGATGCACTGAAGACTGAATTCAAAGCAAACGCCATGAAGACTTCTGGCAGCACCATAAAA
+ATTGTGAAAGTGAAAAAGGAATAATCTACCCTGAGTACAGCCTGAATGCTGCATGTTCAAGGTGAAGCTGTGGGCACATA
+TTATAGCAGATTGGAAACCATCTCCCTTCATGGAAAAAAAAACAAAATAATACCTGTCTTGTTCATAGATTGACAATGCC
+AGTGAATTAAAGTACAGTTCACTCT
+>ref|NM_176670.2| Bos taurus ATP synthase F1 subunit delta (ATP5F1D), mRNA
X17019.1 B.taurus mRNA for delta subunit of ATP synthase
+GGAGTGAGCTCGCCTCTGCGTCGCCTTCCGCTGTCCGCCAGCCGTCATGCTCCCCTCCGCGTTGCTCCGCCGTCCGGGTT
+TGGGCCGCCTCGTTCGCCAGGTCCGCCTCTACGCCGAGGCTGCCGCTGCTCAGGCCCCTGCCGCGGGTCCGGGACAGATG
+TCCTTCACCTTCGCCTCACCCACGCAGGTGTTCTTCAACAGCGCCAACGTCCGCCAGGTGGACGTGCCCACGCAGACCGG
+CGCCTTTGGCATCCTTGCAGCCCATGTGCCCACTTTGCAGGTCCTGCGGCCAGGCCTAGTTGTGGTCCACGCTGAGGATG
+GCACCACCTCCAAATACTTCGTGAGTAGCGGCTCTGTCACAGTGAATGCTGACTCCTCCGTGCAGTTACTGGCTGAGGAA
+GCTGTCACCTTGGACATGCTGGATCTGGGGGCAGCCAAAGCGAACCTGGAGAAGGCACAGTCGGAGCTGTTGGGGGCAGC
+AGACGAGGCCACTCGGGCTGAGATCCAAATCCGCATCGAGGCCAACGAGGCCTTGGTGAAGGCTCTGGAGTAGGCGGTGC
+CTGCCTCACACTGGTCCAGCTGGGAGACCTGGCCGGAGCTGGGCAAGGGTGGCCTGGCATGAAGACCCAGCTCCCCATGG
+GTGCAGGCTGACAGGGAGCGGGCCTGCGGGAAGCTGTCCTGTTAATAAGCCACTAGGGGGCAGCACAGTGCCAGTTTCTG
+CCCAGAGCGCCCCTTGGGGCCCTGCCCCTTTACGCTAAATAAACCCAGGTAAACAAGCCAGCTCTGGCAGGTTGGGTGGC
+TGGGGGCAAGCTGGGACACTTGCCCTGCCCGCGAGGAATGCTGTCCCCCTGGGGGGGTCTCCTGCCATCTGCACCACTGC
+TCTGCCCCTGCAGTGTCTGCTGCAGAGACCGCTGCTCCTAGCCACCGCCAGCGGCCTGCCCCCTGCCCAGCCCATATTAA
+AGACCTAGGATCC
+>ref|NM_175822.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B4 (NDUFB4), mRNA
X64898.1 B.taurus mRNA for B15 subunit of NADH: ubiquinone oxidoreductase complex
+AAGCGCGGTTTTGCGCCGGGTCGTCAAGATGTCGTTCCCCAAGTACGAGGCATCGCGCTTGTCCAGCCTACCTACTACCC
+TCGACCCAGCTGAATACGACATATCTTCTGAAACCCGGAAAGCACAAGCCGAGCGGTTGGCCATAAGATCCCGGCTTAAA
+CGGGAATACCAGCTTCAGTACTACGACCCTAGTCGCCGAGGGGTTATCGAAGATCCTGCCTTGGTTCGTTGGACCTACGC
+AAGATCAGCAAATATCTATCCCAATTTCAGACCCAATACCAAGACCTCCCTCTTAGGGGCTCTGTTTGGAATTGGGCCCC
+TCGTCTTCTGGTATTATGTTTTCAAAACTGACAGAGATAGGAAAGAAAAACTTATCCAGGAAGGAAAATTGGATCGAACA
+TTTAACATCTCCTATTAAGTCTGACAGTGATGTCTGTATGTCCTATTGTTTAAATAAATCAATTAATCATTAAAAAAAAA
+AAAAAAAAAAAA
+>ref|X69084.1| B.taurus mRNA for beta 2-microglobulin
+CGCTGCAAGGATGGCTCGCTTCGTGGCCTTGGTCCTTCTCGGGCTGCTGTCGCTGTCTGGACTGGACGCCATCCAGCGTC
+CTCCAAAGATTCAAGTGTACTCAAGACACCCACCAGAAGATGGAAAGCCAAATTACCTGAACTGCTATGTGTATGGGTTC
+CATCCACCCCAGATTGAAATCGATTTGCTGAAGAATGGGGAGAAGATTAAATCGGAGCAGTCAGACCTGTCTTTCAGCAA
+GGACTGGTCTTTCTACCTGCTGTCCCACGCTGAGTTCACTCCCAACAGCAAGGATCAGTACAGCTGCCGAGTGAAACACG
+TTACTTTGGAACAACCCCGGATAGTTAAGTGGGATCGAGACCTGTAAGCAGCACCATCGAGATTTGAACATTCTTCATTT
+GGTATAATATCTGGAAAATTCTGTTTCCCTGCTCTTTAATACTGATATGCTTTTATGCTTTATGCACATAATCAGAAGTC
+ATATTCATGTTACCATAAATACCTTCTTTATA
+>ref|X56685.1| Bovine BAP 1 mRNA
+GTTAAGGAGGAGGCATACGGGGCCGCAGCAGGTCAGCTAAAGGGCAGCGCGATCAAAATACTGCTTCAGTGGGCGAAGTG
+GAACTGGTGCAGAAGGGCATACATTACAGTGATGCCGAAACGTGGGAAAAAGGGAGCGGTGGTCGAAGACGCGGAAGAGC
+CCAAGACTGAGCCAGAGGCGAAGAAGAGTAAGGCAGGAGCGAAAAAGAACGAAAAAGAGGCAGTAGGAGAGGGCGCAGTT
+CTGTATGAAGACCCCCCAGATCAGAAAACCTCACCCAGTGGCAAATCAGCCACACTCAAGATCTGCTCGTGGAATGTGGA
+TGGGCTTCGAGCCTGGATTAAGAAGAAAGGTTTAGATTGGGTAAAGGAAGAAGCCCCAGACATCCTGTGCCTCCAAGAGA
+CGAAATGTTCAGAGAACAAACTACCAGTTGAACTTCAAGAACTGTCTGGATTGTCCCATCAGTACTGGTCAGCTCCTTCA
+GACAAGGAAGGGTACAGTGGTGTGGGCCTCCTCTCCCGCCAGTGCCCACTCAAAGTCTCTTATGGCATTGGTGAGGAAGA
+ACATGATCAGGAAGGCCGAGTGATTGTGGCTGAATATGACGCATTTGTGCTGGTGACAGCCTATGTGCCTAATGCAGGCC
+GAGGTCTGGTGCGCCTGGAGTATCGCCAGCGCTGGGATGAAGCTTTTCGCAAATTCCTGAAGGGTTTGGCATCCCGCAAG
+CCCCTTGTGCTATGTGGGGACCTCAATGTGGCTCATGAAGAAATTGACCTTCGCAACCCGAAGGGAAATAAAAAGAATGC
+TGGCTTCACTCCACAAGAGCGGCAGGGCTTCGGGGAATTGCTGCAGGCTGTGCCACTCACTGACAGTTTCCGGCATCTCT
+ACCCCAACACCGCCTATGCCTACACCTTCTGGACCTATATGATGAATGCGCGATCCAAAAACGTTGGTTGGCGCCTTGAT
+TATTTTTTGTTATCTCAGTCTGTGTTGCCTGCATTGTGTGACAGTAAAATCCGTTCCAAGGCTCTGGGCAGTGACCACTG
+TCCCATTACCCTATACCTAGCTCTGTGACAACCTCTTCCAAATCACATTGAGCCTGGGAAATAAGCCCACCAAGCTAGCT
+TTAAAATTCTTACCCCCAAACTTCTTTAATAATTGCTATCTAGAGACATCTGCATTGTATTTCCCTTCTAAACTATGAAT
+CCTTAACCAGGTTTCTAATAACAGATGTAAGTTCTCAAGAAGGGTGTTTGTGTAGGGGTAGTGCTTTTTTCTTTTTCTTT
+TTTTTACATTAATCAAAAGCTACTGATACTTCCTTTGAACTGTCCCTGTGAAAATAAAGAGCCATAGTTTCAAAAAAAAA
+AAAAAAA
+>ref|X56119.1| B.Taurus BC1.2 Y-specific DNA
+GATCAAGCAGCCGATAAACACTCCTTGGAGCACATCTCGGTCCCTGCACTGATC
+>ref|X14711.1| Bovine beta-casein gene
M55158.1 Bovine beta-casein gene, complete cds
+TCGAATCCATCTCTATCAATTAATGTAATTCAAAATTGGTGAGAGACAGTCATTAGGAAATTCTCTGTTTATTGCACAAT
+ATGTAAAGCATCTTCCTGAGAAAAGGGAAATGTTGAATGGGAAGGACATGCTTTCTTTTGTATTCCTTTTCTCAGAAATC
+ACACTTTTTTGCCTGTGGCCTTGGCAACCAAAAGCTAACACATAAAGAAAGGCATATGAAGTAGCCAAGGCCTTTTCTAG
+TTATATCTATGACACTGAGTTCATTTCATCATTTATTTTCCTGACTTCCTCCTGGGCCATATGAGCAGTCTTAGAATGAA
+TATTAGCTGAATAATCCAAATGCATAGTAGATGTTGATTTGGGTTTTCTAAGCAATACAAGACTTCTATGACAGTGAGAT
+GTATTACCATCCAACACACATCTCAGCATGATATAAATGTAAGGTATATTGTGAAGAAAAATTATCAATTATGTCAAAGT
+GCTTACTTTAGAAGATCATCTATCTGTCCCAAAGCTGTGAATATATATATTGAACATAATTAATAGACGAAACAAACCTT
+GTAAAAATGAGTAGTGTAAAATACAACTACATTTATGAACATCTATCACTAAAGAGGCAAAGAAAGTTGAGGACTGCTTT
+TGTAAATGGGCTCTTATTAATGAAAAGTACTTTTGAGGTCTGGCTTAGACTCTATTGTAGTACTTATGGTAAGACCCTCC
+TCTTGTCTGGGCTTTCATTTTCTTTCTTCCTTCCCTCATTTGCCCTTCCATGAATACTAGCTGATAAACATTGACTCACT
+ATAAAAGATATGAGGCCAAACTTGAGCTGTCCATTTTAATAAATCTGTATAAATAATATTTGTTCTACAGAAGTATCTCT
+AAATAAATGTACTTTCTCTCTTAAAATCCCTCAACAAATCCCCACTATCTAGAGAATAAGATTGACATTCCCTGGAGTCA
+CAGCATGCTTTGTCTGCCATTATCTGACCCCTTTCTCTTTCTCTCTTCTCACCTCCATCTACTCCTTTTTCCTTGCAATA
+CATGACCCAGATTCACTGTTTGATTTGGCTTGCATGTGTGTGTGCTGAGTTGTGTCTCACTCTTGTCAACCCCATGAATG
+ACAGTCCACCAGGCTCCACTATTTCCAGTTAAGAATACTGGAGTGGATTGTGTTTCCTACTTCATTTGATTAATTTAGTG
+ACTTTTTAAATTTTTTTCCATATTCAGGAGGCTATTCTTTCCTTTTAGTCTATACTGTCTTCGCTCTTCAGGTCTAAGCT
+ATCATCATGTGCTTGTTAGCTTGTTTCTTTCTCCATTATAGCATAAACACTAACAACTATTCAGGTTAGCATGAGATTGT
+GTTCTTTGTGTGGCCTGTGTATTTCTGGTGTGTATTAGAATTTACCCCAAGATCTCAAAGACCCACCGAATACTAAAGAG
+ACCTCATTGTAGTTACAATAATTTGGGGACTGGGCCAAAACTTCCGTGTGTCCCAGCCAAGGTCTGTAGCTACTGGACAA
+TTTAATTTCCTTTATCAGATTGTGAATTATTCCCTTTAAAATGCTCCCCAGAATTTTTGGGGACAGAAAAATAGGAAGAA
+TTCATTTTCTAATCATGCAGATTTCTAGGAATTCAAATCCACTATTGGTTTTATTTCAAACCACAAAATTAGCATGCCAT
+TAAATACTATATATAAACAACCACAAAATCAGATCATTATCCATTCAGCTCCTCCTTCACTTCTTGTCCTCTACTTTGGA
+AAAAAGGTAAGAATCTCAGATATAATTTCATTGTATCTGCTACTCATCTTTATTTCAGACTAGGTTAAAATGTAGAAAGA
+ACATAATTGCTTAAAATAGATCTTAAAAATAAGGATGTTTAAGATAAAGTTTACAGTATTTTCAGCAAATTTGTTAAAAA
+ATAGAAGCAACTATAAAGATTTGTAACAGTGGTTGCTATTTTCTTTACCACGAGACTAGTTAACAGGCTGTATTAAAAGA
+TCTTTTCTTGAATTAAATATTTTCAATTTGATTAAACATACCTCAGCCATAAAGGCAAGCACATTTAATTTATACTATGG
+GAATTTGAATAATTGTTACTGAAGAAGCTCTACCAACAAAAAGTTTATAGAGCTAGCATATTTAGTCAAGAGATAAAGAG
+GGTTGTTAGGATACATGTGCTATTTGAAAGGTATTTATAAAAGAAGAGTATATTTATTAAAATTGCTCAGAACATCCAAA
+TTTCAAGTTTATCATTTATCTTACAATATTTCAAAAATATTAAAATAGATACATGAAATACAGAAGTAAATTAAAGAGAA
+AGTATTTTATTTTGTAAAAAAAAATTCTAGGTTGGACAGGGAGTACCAGGAAACAAAAAACAATGAAAAATGTGATCTGA
+CAGAAATTATAGCTCAAAGTATAGTAGTCAGTAATGAAATGGCTTAAAAATTGGCATATAAAATGCTAATTATAAAATAA
+ACAAAATGTAATAATACCCTCCCTACATGTAATGAACTCTGAGTATTATACTCTTTTTTGAAGTCTTGACAATGAAAATT
+TATTTAGACTTTTATAGACATCTTGGATAAAGTAAAACAAATTACGAATTAGCATCCATGAGAAAAATATAGAAAAATTT
+CTTAATGTAGTTTGCAAATCTGGGGATTGAAGATGTGTGTCAAGAGATTGTGATGGCAGACATTTTTTTTCAGACTATAA
+AATGCACAAACAACCATTTAATACATTTTGGTCAAAAATAGTATGTATTTTATTTTATGCTACAGGAGAGTAGTCTAAAG
+TAGGACTGGGCAGAGATCTGACACCCTGGTAATCACCGAGAGATAGTACACAGTCTCTGTAGAGAAAATAAGCATAGTGT
+ATGATCTCTAAAATTATGTGGACAAAGGGGAGATAACATTAGGCATGTGGGGATGAAGACTGAGTACAGAAGAACAATCT
+AGTCAGTCCAAGAAAACATGTGGATCAATGGAACAAATAGAAGAAATGCTAAAATGAAACAGAAGTCTTACTGGAAATAA
+AAGATATGAGGAAGACAAACATTCATGAAAATCACTTAGTTTAGTAGAGAAAAGATAAAAATAAAGTATTACCTTCTTCT
+TCATATACATTGTTTGATCAGATGCCCCTCAATAAAACTGAGTCTCCAACAGAACTGAAACTTTAATATTTTGTTCACTG
+CTCTAATCCCAGAATCTAAGACATATCTGGCAATAAAAATTAATAAATAAATATTTTTAATAAGTAAATCAATCACTTAA
+TTTTTCTGTAAGTATCTGTAACTTCTCTTCTGTCTTTCCAAAAAACACTCATAAGTACTGTGAATAAGATGAAAAGAGTG
+AAATAAGATATAGGCTGTTAGCTGAAAACATCTGGATGGCTGGCAGTGAAACATTAACTTGAAATGTAAGATTAATGAGT
+AATAGTAAATTTTAACCTTGGCCGTATGATAAAATGTCTATTAATATTTTTCTAAAATACAGGGCTTTTTGTTTTTGCCA
+TGAGGTTTGCAGGATCTTGGTTCCCTGATGAGGGATCAAACCTGGGCTCCCCTGGAAGCACGGAGTCTTAGATATTTGTA
+TTATACACTATCTTTGGTTTCTTTTAAAGGGAAGTAATTCTACTTAAATAAGAAAATAGATTGACAAGTAATACACTATT
+TCCTCATCTTCCCATTCCCAGGAATTGAGAGCCATGAAGGTCCTCATCCTTGCCTGCCTGGTGGCTCTGGCCCTTGCAAG
+AGAGGTAAATACAGAAAAAATGTTGAAATAAATAAGACTAGTACTATCTGCTATGTGTAGAAAATTCATTACCAACATTG
+TAAATGTATAAATAATGCACAATCTCAGATTTTTTTTGAATGCTAAGAAAGTCATTTACGTTCATCCACTATCTCAGTAG
+TATCCTATGGGACCACAAGTCTGAGTCTAGTGCTTTCTATAGTATTGTACCATCTGTACCATCAATCCCTAAAGAAAAAA
+GAAAATAAACCAATAAGCAACAGACTAACAAGAAGGAACACAGATAAGAACAAAAAGTGAGTAATATTGCATAAATACAA
+TTGCATGCATATACAATCTAGATAAATATATCTTATTCCAGTGATGAAATATTTGTATCCCTTACTGTAGAGTGCTAGGT
+TTAGCTGTGTCTATTCAACACAGGATGATACTCCAGAGGATGGTATATCAGACAACAATAATAAATATGTTCATAATTAT
+AATAAAAAGTGTTCAGTAAAAATTAAAATAACTCCTTTTCTGTTACCCATAAAAACTCTTCATTAAAGTAAAACAAAAAT
+ATACTAATGAAAGTTACTAAATTTAAAAGACTCTCAAAAGACATATAACATTTTTATTTTTCAGATTTGTGAAATAGATA
+GCTCTGAATAAAGCAAGTAAAAATTAGGTAGGAAAATATTTAATAATGAGTTGACTGTGGGAACTAAAGTGTTTTTTTTT
+CTCTTTAGCTGGAAGAACTCAATGTACCTGGTGAGGTAAGATATTTTTATACAAAGAAAAAAATTAATTTAACTGTAAAA
+TAGTAACAGTCTCTAATGATCTGGCAGAAGACTCAGCTAATTGTCAATTTTTATTTTTCCTTTATAGATTGTGGAAAGCC
+TTTCAAGCAGTGAGGTAAGATAGTGTTCATTCAGAGGCAATTTCCCAAATTTAGAGCAATAAAATGCTGTATTATCTTTT
+TGTGTTACATTAATGGCAACCCACTCCAGTATTCTTGCCTGGAAAATCCCATAGAGGAGGAGCCTGGTAGGCTGCAGTCC
+ACGGGGTCGCTAAGAGTCGGACAGGACTGAGCGACTTCCCTTTCACTTTTCACTTTCATGCCTTGGAGAAGGAAATGGCA
+ACCCACTCCAGTTTTCTTGCCGGGAGAATCCCAGGGACGGGGGAGCCTGGTGGGCTGCCGTCTATGGGGGTCGCACAGAG
+TTGGACACGACTGAAGCGACTTAGCAGTAGCAGCAGCAGGACAGTTAAGGTTTCTCTAATAGCTCAGTTGGTAAAGAATC
+TGCCTGCAGTGCAGGAGGACCCTGGGTTCGATTCCTCAAGATCTGCAGGAGAAGGGATAGGCTACCCATTCCAGTGTTCT
+TTAAGCCAATGTGGCTATGTACTGACGGGTAACTATTGTCAATTTCCACTCTGTATATTTAAAGGAATAAATGTGTAGAA
+GGTTTAATATTCTAGTAATTTCTAAATGGGTTTGTTATTTGAAATTGTGTCATTGTGCCCTGCTTTTTTTCCTTAATGAA
+CTGTACAGTCCTCTTTTCTGTCTTGAACTTTCTATGTTAACCTCCTTCCATGCTTTGGCATTTATTGAGCACTTTCTGTT
+TCAGACTTTGACTAGGAACTGCAGTACAAACTAGAAAGAGGGATGCCCTTTGTAAAGTGTGAGCAGACATGCAAATGGAC
+ATATTTTATTATTATACAAGCAATCCAGTACACAAGAGGCAGTGAGAATGAGTGTAGTCCTAAATCTGCCTGGTGGAATG
+AGGTAGATAATAACCCTATGCCACTCTTTTTGGCTCTGTCATCAGCTGTTGGTTAAATAGTGCATCAATATACTTTGTCT
+CTTCACAAAGGTCAAAAGATGCTGCTGCTGCTGCTAAGTCGCTTCAGTCATGTCCGACTCTGTGCGACCTCATAGATGGC
+AGCCTGCCAGGCTCCCCCATCCCTGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCCATTTCCTATTCCAATGCATA
+AAAGTGAAAAGTGAAAGTGAAGTCGCTCAGTCGTGTCCGACTCCTAGTGACCCCGTGGACTGCAGCCTACCAGGCTCCTC
+CATCCATGGGATTTTCCAGGCAAGAGTACTGGAGTGGGTTGCCATTGCCATCTCCAAAGATCCTTATAGGAGGGTATGTA
+TTTCTTATAATTCATTAGAAGCCTAAACATAACCAGGGAACTAAGAATGATTAACAAGTTCATGCGTGGTTATTATTATA
+TATTTTCAATGACTATTATTCTTTTAGAACCAGATGAAAATATTAGAGATCATTTGTTGTCCTAAGGAGAGAACAGGATG
+ATTGAGAGACATGTATGCATGCAAAGTTACTTCAGCCCTTTCCAACTCTGTATGACCCTATGGACTGTAACCTGCCAGGT
+TCCTCTGTCTATGGGATTCTCCAGGCAAGAATACAGGAGTGGGTTGTCATCTCCTCCAGGGCCTAGGAATTGACCTGCAT
+CTCTTACGTCTCCTGCATTGGCAGGCAGGTTCTTTACCACTAGCACCACCTGGAAGCCCGATTAGTATCTGTTAAATGCC
+TCTTTGAGTACTATGCTCTCTAATCCTCTTTTTCTTGATTGCATCATCTTTCTTTTTATACAACAGCCTTATTCAGAAGA
+GTGGAACATAAACTTTCAGCCATAAAATAATGATATTATCAAATGAGCTGTCCATATTAATCTATTAAATTTCTTCATTT
+TCTGATTTATGTTGACAAATAAGAATTTTTTTTAAAGCTAGACCTGATTTTATTTTTATTTTTCCAAAGGAATCTATTAC
+ACGCATCAATAAGGTAAAACCCCTCATATTTAAATGTACATTTTTTTAAATTTCATGTTTGATTTTTATAAACAGCATTT
+CTTTATGTATTTTTTTTTTAACCAGAAAATTGAGAAGTTTCAGAGTGAGGAACAGCAGCAAACAGAGGTAATTTGTTCAC
+TATGAGTATATTTTGAGAAGTATTATGAAACATAACACATAAAAAGATTTATAATAATTATGTTCAGTCTAAGAATGGTA
+ATATAAATGTCAGTGCAAGAAATAAAAACTTTGACAAAATGAAAATATTTTAAAAATATAAACGCATTTTAAAACACATA
+ATCAAATTTCACAGTATAGAATAAATAGCTAAGAATAATTATTGATGTATTCATTTTACTAATGGTATACCTGGTTTTAA
+TAACTGCATATTAGTAGGAACATTTCCAGACTAGGGACTGTGATCCCCTTATTCTAATGATGGATATGCTGATGAAAGAC
+AGTAGGGTGACAGTGTGGCACTAATCCTCATCTGATCATTTATCAGCTGTATAACCTTGGCTCCATGTTTCTCTGTACAT
+CATTTTCTTCACCTGTAAATTGAGAATATTCATAATTACCCAGAGTTGATGAACTGACACACAATGAATATTCAGTGGTT
+TTATATTATATTTGATAGCTTTTATACTCACATTTATGGATGTGTGGAGTTCTAAAAAGTATTTCCATTGCCCAGATGAG
+AGAAGTGAGGTACAGGACAATTGAGTATGCAAATGTGTGACCATACCACATAGTTATTAAATAGCAGAACTTGCTTAAAA
+ACAAGGATTTGCGGACAATGTAAAATTCTTTCATTATATTACTCTTGTGGTAACATATTTATCTAATTATGATATTTAAG
+CTTTCCTCTTTTATAATTGAAGTTTGATTGTTTGGCACTTAGGCCAAATTCTAAATCAAAATGAATTTACAACTTGATGC
+CTTTGAAGACTCAAGATTACCACCTTCTACCAAGAGAAGTAGTGCTAGAAGTTGGCCATTGTTAAGGAACTCCTTGAATT
+AAAAAAACACATATTAAGACTTAGTTTTCATTAAAACAAACAAAAATAAACCTCAGAGTAACTTTTAAAGTCTTTTTAAA
+ATGGATCTTTCTTTGTTATATGAAACCAGTTTGGACTATTATCCAAAGTATGTAGCTACCACTCTGCAGGAACTCAGGAA
+GAGGTGGAATAAGTGTTGAAATCTCCAAACCCTGATTTCACTTGACTCTCTGATTTCACCTGTGAAGAAAGTGGGTTAAT
+GAGAAATCCTTCAGTGAGCATTTTACTCATTAGTCTTCATATGACCCCAATTTCTTAACCAAACCAAATGGAAGATTTTC
+TTTCTCTCTCTTCACTGAATTATGTTTTAAAAAGAGGAGGATAATTCATCATGAATAACAATTATAACTGGATTATGGAC
+TCAAAGATTTGTTTTCCTTCTTTCCAGGATGAACTCCAGGATAAAATCCACCCCTTTGCCCAGACACAGTCTCTAGTCTA
+TCCCTTCCCTGGACCCATCCATAACAGCCTCCCACAAAACATCCCTCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTT
+TCCTTCAGCCTGAAGTAATGGGAGTCTCCAAAGTGAAGGAGGCTATGGCTCCTAAGCACAAAGAAATGCCCTTCCCTAAA
+TATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTGACTCTCACTGATGTTGAAAATCTGCACCTTCCTCTGCCTCTGCT
+CCAGTCTTGGATGCACCAGCCTCACCAGCCTCTTCCTCCAACTGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTC
+AGTCCAAAGTCCTGCCTGTTCCCCAGAAAGCAGTGCCCTATCCCCAGAGAGATATGCCCATTCAGGCCTTTCTGCTGTAC
+CAGGAGCCTGTACTCGGTCCTGTCCGGGGACCCTTCCCTATTATTGTAAGTCTAAATTTACTAACTGTGCCTGTTTAACT
+TCTGATGTTTGTATGATATTCGAGTAATTAAGAGTCCTATAAAAAAATGAATAATGAATGGTTCCAAAATAAGCATAGCT
+GAGATTAATGATTGTCAGCATTAGTTATAAATAGAATAAGCTGGAGAACCTTCACCTCCCCTCCACCACCAGATCTCAAT
+GTCTAGGCTTACCCGTGGAGATTCTGATGTAATTGTTCTTTCTATGTAGAAGAAACTTATTGGGAAGAAATAATATAATG
+GACTATGATTTAATTGGTCTGTTGAGAACCAATTAAATTAGATGAAAGCGATTAAGTACAATAAAGCCAAAATTGAATTT
+GATAATCTCATTTGGCTAAGAATAACAAACCTAAGAAGGTTTGCTATTTTCTACAATTTTGAAGTTCTCCTTATGCACAA
+TTATTTCACCACATGACTCATTTCACATCGTGTTTTTGATATATGAGCATATGAGGGAAAAATACTGAGATGCTTATTTC
+AATACTCAGGGAAAATTTATTGCCAAAAGGCAAGAAATGTATAATTCATTCACTTATTTTATTTTATTATTTTTTTTATT
+TTTAAGGTCTAAGAGGATTTCAAAGTGAATGCCCCCTCCTCACTTTTGGTAAGCTTTAGGATATTGGAGGCAGACTGATC
+ATTTTTATAGTTAATATCTTTTACATTTCATTTTCCTGGATAAGCCCCAATAGTAGCAATTTCCATCAGTGTACCAGCTT
+AAAGATTAATTATAAATTTATTTTCAATGATTGACTGTTATTTACTGGCCTGAAATTATGTATCTGTTATATTTCAAATA
+ATGCAAAACTGTATATATATGGTGTTTACAGATTTGATTGGTTTTCTTTCAATAGCCTATATCCTTATTATTGATTGTCA
+TCATTTATAGAAAAAACTGAAAATAATTTCTTATACTTTTATGTAAACCTGTTAGAGCTTATTTTAAAGATCAACTGCAT
+TCACATTTCTAATCTAGTCATTATGAGCTTCAATAGTTTTATCTCACTTAAAATATATATATTGTCTTTTAATTCATGAG
+TCAAAATACAATCTCACAGTCCAGATATGGGACTTAAAAGGGGGATAGAATATAGTTTTGATATTCTTAACAATACACAT
+CCTTTTGTGATCATGATTCAGCAGACATTTAATAAAATGATTCCAAGTAAGCCGATGTTTGGTCCTAGAGGAATTTTTAT
+AACCTTTAAGAGAAGGCATAGCATGGTGTTTTTGTAATAAGATTTCTTTTATGAAAAAGTCACACCAAAATTGCAAATGG
+GGGTGAGATGAAGAGTTATAACATATAACTAAATCTATGTTTGTTCTCTATTCCACAGAATTGACTGCGACTGGAAATAT
+GGCAACTTTTCAATCCTTGCATCATGTTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATT
+CCTTTATTTATTTTATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACTATATATTTCAAAATTTTAATTCAACATT
+AGCATAAAAGTTCAATTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATT
+ATTATTTCTTTAAGAATCTATTTCCTAACCAGTCATTTCAATAAATTAATCCTTAGGCATATTTAAGTTTTCTTGTCTTT
+ATTATATTTTTTTTAATGAAATTGGTCTCTTTATTGTTAACTTAAATTTATCTTTGATGTTAAAAAGAGCTGTGGAAAAT
+TAAAATTGGATAGAATTC
+>ref|X57765.1| Bovine mRNA for endothelin receptor
+GAATTCGGCACGAGCTCGCCGCCCCAGAGTGGAGTAGATCTGGGAGCTTTGGGAGGAGAAGGGGAGCACAGACGCGAGGC
+GCGTTCCTTCGGAGTTTTCTTTTTCTTGAGAACCCTCGCGCGCGCGCACAGCCAGCCCTTTGGTCTGGAGATTGCGGACC
+AGAGGTGGAGAAGCTCCATCCCCCCTCGGTGGCTGAAGCCTGGCGGCTCGGGGAGGACCTCCCCAGAGAAGCCGTGCCTA
+GGAAGTTTTCCGAAGCGGAGGCAACGGTGCCACCCGGGCCGCCGCCGCGCCGGATCCCGGGACATTCGCCATTCACCTTC
+GCCGGCTCGGCTTCAACTTGCCCGGGCGCCGCACACAGACCGGGCAGCCGTCTGAGCCCGCGGAGCTCCACGGTGGAGAA
+AGAAAAAAAAAAAAAAGAGGGTGTCAAATCAACAGATTAAGTGACATTTCCTGAAATTTGCATCGAGATGGAAACCTTTT
+GGCTCAGGTTGTCCTTCTGGGTGGCTCTGGTTGGAGGTGTCATCAGTGATAACCCTGAAAGCTACAGCACAAACCTAAGC
+ATCCATGTGGACAGTGTCGCCACTTTCCATGGGACAGAACTCAGCTTCGTGGTCACCACACATCAACCCACGAATTTGGC
+CCTCCCCAGCAATGGCTCAATGCACAACTATTGCCCACAACAGACTAAGATTACTTCAGCTTTCAAATACATTAACACTG
+TGATATCATGTACTATTTTCATCGTGGGAATGGTGGGGAATGCAACCCTGCTCAGGATCATTTACCAGAACAAGTGCATG
+AGGAATGGCCCCAACGCGCTGATAGCCAGCCTTGCCCTGGGAGACCTTATCTATGTGGTCATTGATCTCCCTATCAATGT
+ATTTAAGCTGCTGGCTGGGCGCTGGCCTTTTGAACAAAATGACTTTGGCGTTTTCCTCTGCAAGTTGTTCCCCTTTTTGC
+AGAAGTCCTCAGTGGGGATCACCGTCCTTAATCTCTGCGCCCTAAGCGTTGACAGGTACAGAGCAGTTGCCTCCTGGAGT
+CGTGTTCAGGGAATTGGGATTCCCTTGGTCACAGCCATTGAGATTGTCTCCATCTGGATCCTTTCTTTTATCCTGGCCAT
+CCCTGAAGCCATCGGCTTTGTCATGGTACCTTTTGAATACAAGGGTGCACAGCACAGAACCTGTATGCTCAATGCCACGT
+CGAAATTCATGGAGTTCTATCAGGATGTTAAGGACTGGTGGCTGTTCGGGTTCTACTTCTGCATGCCCCTGGTGTGCACT
+GCGATCTTTTACACCCTCATGACTTGTGAGATGTTAAACCGAAGGAACGGCAGCCTGAGAATTGCCCTCAGTGAGCATCT
+GAAACAGCGTCGAGAAGTGGCAAAAACAGTTTTCTGCTTGGTTGTAATTTTTGCTCTGTGCTGGTTCCCTCTTCATTTAA
+GCCGCATTTTGAAGAAAACCGTGTATGATGAAATGGACACGAACCGATGTGAATTACTTAGTTTCTTGCTGCTCATGGAT
+TACATCGGTATTAACTTGGCAACCATGAATTCATGTATCAACCCAATAGCTCTATATTTTGTGAGCAAGAAATTTAAAAA
+TTGTTTCCAGTCTTGCCTCTGCTGCTGCTGTTACCAGTCCAAGAGCCTGATGACTTCGGTGCCCATGAATGGCACCAGCA
+TCCAGTGGAAGAACCATGAACAAAACAACCATAACACAGAGAGGAGCAGCCACAAGGACAGTATCAACTAAACTGAAGGA
+ACAGTTATCAGTGTGCTTCAAGCCCGACTGGAGGAAAAAATCAACACAGCACTGTTTCCCCAGGAATCTGTTCCATCCTT
+CTCTCACGACTCAGCCCCACCCCCTGGAAAAATGCTTTCCAAAACGTTGAAGGGTTGACTGGTTTATACCCACAAATTCA
+ACGAATCTTACGTCTTTGATTTATCTGATTTACCTATTCTGCATGTTATATTCAGCCCTAAAAAATGGTGGGAGTTGGCA
+GGGGGAAAGGAGATTGTTCAGTTAAACCAGAAGGATATTTACCACCTTTCCGTGAAAATAGATTTTTTCGAGTACATGGC
+AAACTTTCATGGTGGTTCTGTAGAATGTTCAATAAGACCAGTCACCGTGAAAAAGTTATAGAGACTGTAACAAGATTTTT
+TTTTTTTTTAAGTAATTTTGGTTTTTTGGCCAAACACAGTATGAGCTGAAGTCTCCTTTATTTGAAATATAATTCAGTGC
+CAGTATTTTTTAACTGCACAGTAGCCTACAGATGATTTGAGCTCATTTACACATATTTTTGCCCCCCAAAACAAATAAAA
+CGGAATTCAGGTGAGAAGTTAGGTTAGTGTTTCTCATGTCACTGGCTTATTTTTTAAAACATAAATTCTCAAGCTTCAGG
+AGCTTACAGGACTTTAAAGCACAGACTGATATCCATATATGGCAGTTTAATAGCTGCTATGCAAACTTTTTGGGAACCTA
+TATTTTCTTTTTTAATGGGGTTTCATATTAGGAGATCTTGTGCCTATTCTGTTAAATTGAAAAATAATGCTTGACTCCAA
+CAGTTCTGTTTTTCACAAGCCTAGTTTTTTAATGGAAGCATTTTATGTAAAATCAAAATACCATTTACTAAAATTTAAAT
+GTTTGTATCGTTTAACTATGTCCAAGACTTTTGGTGAAATGCATAGAAGTCCAGAACAAACCAAGAAAGAAAGGATTGCG
+TATTTTCAGAGGATTTGGAAATTCTCATTGAGGTTTATTTTTGGTAATAGTAACGTGTATATGTGTGTGTGCAGATATAC
+ACATATGTATCGTGTACATATATACATGCATATACATATATACATGTATGTATATATTCCTTTGCTTCCTTTTAAAATGT
+TAACTGGCAGTGAGACTTTTTTGGTCATTCCTTTTCCACGGAGGAATATGGAAAACATAATTTCAAAGTGGCCAGCTGAG
+TTTATTGTGTCAATGAAATATAATTACTCCCAGATGCCGCCATGAACTTAAGGTTCTTCATGTCCCTGGGTTTTCAGTAT
+GAACCTAAATGCCTTCCCTACCCACACTCCTCACATGGTCACCATTTCAAAAGGCCCGCAGTGACTTCTGCTGGGCGTTT
+TCCACGATGTTTACAAACTGTGATTGCAGCAGCAAATCTTTTACTGTGTGTATATAAATATATGTATATATAAACAACTG
+TAAATTTCTTTTAGCC
+>ref|X63139.1| B.taurus beta-lactoglobulin gene 5'-region and partial exon 1
+AGCAACACACCCAGCACCAGCATTCCCACCGCTCCTGAGGTCTGAAGGCAGCTCGCTGTGGTCTGAGCGGTGCGGAGGGA
+AGTGCCCTGGGAGATTTAAAATGTGAGAGGTGGGAGGTGGGAGGTTGGGTCCTCTAGGCCTTCCCATCCCACGTGCCTGC
+ATGGAGCCCTAGTGCTACTCAGTCATGCCCCCGCCGCAGGGGTCAGGTCACTTTCCCATCCTGGGGGTTATTATGACTGT
+TGTCATTGTTGTTGCCATTTTTGCTACCCTAACTGGGCAGCGGGTGCTTGCAGAGCCCTCGATACTGACCAGGTTCCCCC
+CTCGGAGCTCGACGTGAACCCCATGTCACCCTCGCCCCAGGCTGCAGAGGGTGGGGTGACTGCAGAGATCCCTTTACCCA
+AGGCCACAGTCACATGGTTTGGAGGAGACGGTGCCCAAGGCAGAAGCCACCCTCCAGGACACACCTGCCCCCAGTGCTGG
+CTCTGACCTGTCCTTGTCTAAGAGGCTGACCCCAGAAGTGTTCCTGGCGCTGGCAGCCAGCCTGGACCCAGAGCCTGGAC
+ACCCCCTGCGCCCCTACTTCTGGGGCCTACCAGGAACCGTCCAGGCCCAGAGGGGGCCTTCCTGCTTGGCCTCGAATGGA
+AGAAGGCCTCCTATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATACGCCAGGGGGGATTCGGGGAACCGCGTG
+GCTGGGGGCCCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTGTCTCAGCCCTCCACTCC
+CTGCAGAGCTCAGAAGCGTGATCCCGGCTGCAGCCATGAAGTGCCTCCTGCTTG
+>ref|X52582.1| Bovine 3' DNA for beta-lactoglobulin
+ATAAACCTGTGCTCTCCCTTCTGAAGTCTTTCCTGGATGATGGGCCGGGGGTGGAGAAGGCCCGGGACAGGGTGGGGAGT
+GGTCTGGCTCAGAAGGAATGAATGGTAGGGCTGGGATCCAGGGCGTCTGCATTACAGTCTTGTGACATCTGGGGCCCACA
+CACATCACTACGCTCTT
+>ref|X52581.1| Bovine 5' DNA for beta-lactoglobulin
+GCTTGGCCTCGAATGGAAGAAGGCCTCCTATTGTCCTTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATAGGCCAGGGGG
+GATTCGGGGAACCGCGTGGCTGGGGCGCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCGCTG
+TCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGGCCC
+TCACCTGTGGCGCCCAGGCCCTCATCGTCACC
+>ref|X14710.1| B.taurus beta-lactoglobulin gene
+GCGCTTGGAAAAGATTGTCCAGCCTCCCTCCCATAGTGGTCAGTGCCAGCTGCCCCAGGCCAGAGGTGCTTTATTTCCGT
+CTCTCTCTCTGGATGGTATTCTCTGGAAGCTGAAGGTTCCTGGAAGTTATGAATAGCTTTGCCATGAAGGGCATGGTTTG
+TGGTCATGGTTCACAGGAACTTGGGAGACCCTGCAGCTCGGACGTTCCTGAGGTTGGTGGCACCCTGATTTCCTAAGCTC
+GCTGGGGAACGGGGTGCTACTTCTCCCTGGCTGACCTCCCTCTGCTCTCGATCACCCAGTTCTGAGAGCAGAGTGGTGCT
+GGGGGCACAGCCTCTCGCATCTGACACTTGTGTTCAAACCACCCATGCTGGTGTTCGGGGGGCCACCTATGGGGAAGGCT
+CCTCACTGCAGGGGTGCCCCTGTCCCCTGAGAGATCAGAAGTCCCAGTCTGGATGTCGAATGGCCGAGCTCCCTCCAGAG
+GCTCCAGGGAGGGATCCTTGCCCCCTCCGCCGCCGCCTCCAGCTCCTGGTGCCGCACCCTTGGGCCCGATCTCGTAGACG
+CCTCAGTCCAGTCTCTGCCTCCGTGTTCACTGGCATTCTCCCCATGTCCCCTCTGTGTCCCCGTTTTCTCTCACAAGGAC
+ACCGGACATAAGATTAGCCCCCGTTCCAGCATCACCTGAACAGCTCACATCTGTAAAGACCTAGATTCCAAACAAGATTC
+CATCCTGAAGTTCCTGGTGGACGTGAGTTCTGGAGCGACGCCCTTCAACCCCATCACAGCTTGCGGTTCATCGCAAAACA
+CGGAACCTGGGATTTATCGTAAAACCCAGGTTCTTCGTGAAACACTGAGCTTCGAGGCTTGTTGCAAGAATTAAAGGTGC
+TAATACAGATCAGGGCAAGGACCGAAGCTGGCCAAGCCTCCTCTTTCCATCACAGGAAAGGGAGGTCTGGGGGCGGCCGG
+GGGTCTGCTCCCGTGGGTGGGCTCTTTCTGGTACAGTCACCAACAGTCTCTCCGGGAAGGAAACCAGAGGCCAGAGAGCA
+AGCCAGAGCTAGTCTAGGAGATCCCTGAGCCTCCACCCAAGATGCCGACCAGCCAGCGGGCCCCCTGGAAAGACCCTACA
+GTCTAGGGGGGGAACAGGAGCCGACCCGCCAGGCCCCCGCTATCAGGAGACACCCCAACCTTGCTCCTGTTCCCCTACCC
+CAGTACGCCCACCCGACCCCTGAGATGAGTGGTTTACTTGCTTAGAATGTCAATTGAAGGCTTTTGTACCCCCTTTGCCA
+GTGGCACAGGGCACCCACAGCCCGCTGGGTACTGATGCCCATGTGGACTCAGCCAGGAGGACTGTCCTGCGCCCTCCCTG
+CTCGGGCCCCCTCCATACTCAGCGACACACCCAGCACCAGCATTCCCACCACTCCTGAGGTCTGAAGGCAGCTCGCTGTG
+GTCTGAGCGGTGCGGAGGGAAGTGCCCTGGGAGATTTAAAATGTGAGAGGTGGGAGGTGGGAGGTTGGGTCCTGTAGGCC
+TTCCCATCCCACGTGCCTGCACGGAGCCCTAGTGCTACTCAGTCATGCCCCCGCAGCACCCCTCAGGTCACTTTCCCATC
+CTGGGGGTTATTATGACTGTTGTCATTGTTGTTGCCTTTTTGCTACCCTAACTGGGCAGCGGGTGCTTGCAGAGCCCTCG
+ATACTGACCAGGTTCCCCCCTCGGAGCTCGACCTGAACCCCATGTCACCCTCGCCCCAGCCTGCAGAGGGTGAGGTGACT
+GCAGAGATACCCTTTACCCAAGGCCACAGTCACATGGTTTGGAGGAGATGGTGCCCAAGGCAGAAGCCACCCTCCAGGAC
+ACACCTGCCCCCAGTGCTGGCTCTGACCTGTCCTTGTCTAAGAGGCTGACCCCAGAAGTGTTCCTGGCGCTGGCAGCCAG
+CCTGGACCCAGAGCCTGGACACCCCCTGCGCCCCCACTTCTGGGGCGTACCAGGAACCGTCCAGGCCCAGAGGGGGCCTT
+CCTGCTTGGCCTCGAATGGAAGAAGGCCTCCTATTGTCCTCGTAGAGGAAGCAACCCCAGGGCCCAAGGATAGGCCAGGG
+GGGATTCGGGGAACCGCGTGGCTGGGGGCCCGGCCCGGGCTGGCTGGCTGGCCCTCCTCCTGTATAAGGCCCCGAGCCCG
+CTGTCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCGTGACCCCAGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGG
+CCCTCACTTGTGGCGCCCAGGCCCTCATTGTCACCCAGACCATGAAGGGCCTGGATATCCAGAAGGTTCGAGGGTGCCCG
+GGTGGGTGGTGAGTTCGAGGGCTGGCTGGGGAGCTGGGCCTCAGAGACCAAGGGAGGCTGTGACGTCTGGGATTCCCATC
+AGTCAGCTAGAGCCGCCTGACAAATCGCCCGCCACAGGCTTCAACCAGGCCTTTAGTGTCTTGCATTCTGGAGGCTGGAA
+GCTGCAATCCGGGCATCGGCCCAGCTGGCTTCTCCTGCGGCCACTCTCCGGGGAGCAGACAGCCATCTTCTCCCTGTGTC
+CTTTGCGTGCCCTGGTTTCCTCTTCCTGTGAGGTCACCAGGCCTGCTGGATCCACGCCCGCCCACACAGCCTCACGTAAC
+CTTTGTCATCTCTTTAAAGGCCGTGTCTCCAGTCCTGTGTTGAGGTTCTGGGGGTTAATGGGACACAGTTCAGCCCCTAA
+AAGAGTCCGCTCTGCCCCTCAAATTTTCCCCACCTCCAGCTATGGTCTCCCCAAGATCCAAATGTTGCCACGTGTGCGGG
+GGCTCATCTGGGTCCCTCTTTGGGCTCAGAGTGAGTCTGGGGAGAGCATTCCTCAGGGTGCCGAGTTGGGGGGAGGCATC
+TCAGGGCTGCCCAGGCCAGGGTGGGACAGAGAGCCCACTGTGGGGCTGGGGGCCCCTTCCCGCCCCTGGAGTGCAGCTCA
+AGGTCCCTCCCCAGGTGGCGGGGACTTGGTACTCCTTGGCCATGGCGGCCAGCGACATCTCCCTGCTGGACGCCCAGAGT
+GCCCCCCTGAGAGTGTATGTGGAGGAGCTGAAGCCCACCCCTGAGGGCGACCTGGAGATCCTGCTGCAGAAATGGTGGGC
+GTCCCCCCCAAAAAAAGCATGGAACCCCCACTCCCCAGGGATATGGACCCCCCGGGGTGGGGTGCAGGAGGGACCAGGGC
+CCCAGGGCTGGGGAACGGGGCTTGGAGTTTCCTGGTACCCCTGGAGGTCCACCCAAGGCTGCTTATCCAGGGCTTTCTCT
+TTCTTTTTTTCCCCCAACTTTTATTAATTTGATGCTTCAGAACATCATCAAACAAATGAACACAAAACATCATTTTCGTT
+AACTTGGAAGGGGAGATAAAATCCACTGAAGTGGAAATGCATAGGAAAGATACATACAGTAAGGCAGGTATTCTGAATTC
+GCTGTTAGTTTGAGGATTACAAATGCACTTGAGCAACAGAGAGACGTTTTCATTATTTCTCGGTCTGAACAGCTCAGTAT
+CTAAAATGAACAAGATGTCATGGAGACAAAGCCGGCGGGGGAGAGGCCCGTGTGAAGGCCGCTGGGCGTGCAGACCTGGG
+TCCTCGGGGCCCAGGCAGTTCCCACTACCAGCCCTGTCCACCCTCAGACGGGGGTCAGAGTGCAGGAGAGAGCTGGGTGG
+GTGTGGGGCAGAGATGGGGACCTGAACCCCAGGACTGCCTTTTGGGGTGCCTGTGGTCAAGGCTCTCCCCAACCTTTTCT
+CCCTGGCTCCATCTGACTTCTCCTGGCCCATCCACCCGGTCACCTGTGGCCCCAGAGGTGACAGTGAGTGCAGCCAAGGC
+CGGTTGGCCAGCCGGCCCCCTATGCCCACGCCACCCGCCTCCAGCCCCTCCTGGGGCCGCCTTCTGCCCCTGGCCCTCAG
+TTCATCCTGATGAAAATGGTCCATGCCCGTGGCTCAGAAAGCAGCTGTCTTTCAGGGAGAACGGTGAGTGTGCTCAGAAG
+AAGATCATTGCAGAAAAAACCAAGATCCCTGCGGTGTTCAAGATCGATGGTGAGTGCTGGGTCCCCAGGGGACGCCCACC
+ACCCCCCAGGGACTGTGGGCAGGTGCAGGGGGCTGGCGTCAGGCCCCGAGATGCTAAGGGGCTGGTGGTGATGAAGACAC
+TGCCGTGCCACCTGCTTCCCTGGCCTCCCTGCCACCTGCCCGGGGCCTTGGGCCGGTGGCCGTGGGCAGGTCCCGGCTGG
+GCAGGTCTGACACCCCAGGGTGACACCCGAGCTCTCTTTGCTGAGGGTGGGGTGGTGCTCGGGGCCCTCAGGCTGAGCTC
+AGGAGGTCCCTGTGCCCACCCAGGGGTAACCGAGAGCCGCTGCCCGCTCCAGGGGTCCAGGTGCCCCACGATCCCAGCCC
+ACCCCACGGCTCCTTCATCTCCTGAAGACGAACTCTGTCCGCCCTCGCTCATTCACTTGTTTGTCCTAAATCCAAGATGA
+GAAAGCTTCGAGGTGGGGTTGGGGTTCCATCAGGGCCTGCCCTTCCGCCGGGCAGCCTGGGCCACATCTGCCCTTGGCCT
+CTTCAGGACTCACTCTGACTGGAGGCCCTGCACTGACTGATGCCAGGGTGCCCAGCCCAGGGTCTCCTGTGCCATCCGGC
+TGCACGGGGTTTGGATGCTGGTCCTGCCCCCAAGCTGCCCAGACACTGCAGGGCAGCTGGGGCCACCCGCAGGCCTCGGT
+CAGGGAGAGCCCCAGCTGCCCCCGCTCAGCGCTGCCCCCCAACAATTCCCCAGTCCTCAGGACGCATCCCTCTTCCCTTG
+CTGGGCAGTGTTCAGCCCCACCCGAGATCGGGGAAGCCCTATTTCTTGACCACTCCGGTCCCTGGGGAGGGCGGCCTCAG
+ACTCAGTGGTGAGTGTTCCCAAGTCCAGGAGGTGGTGGAGGGTCCCTGGCGGATCCAGAGTTGGGCTTCCAGAGTGAGGG
+CTTCCTGGGCCCCATGTGCCTGGCAGTGGCAGCAGGGAAGGGGCCACACCATTTTGGGGCTGGGGGATGCCAGAGGGCGC
+TCCCCACCCCGTCCTCACCAAGTGGTGACCCCGGGGGAGCCCCGCTGGTTGTGGGGGGTGCTGGGGGCTGACCAGAAACC
+CCCCTCCTGCTGGAACTCACTTTCCTCCCGTCTTGATCTCTTCCAGCCTTGAATGAGAACAAAGTCCTTGTGCTGGACAC
+CGACTACAAAAAGTACCTGCTCTTCTGCATGGAGAACAGTGCTGAGCCCGAGCAAAGCCTGGCCTGCCAGTGCCTGGGTG
+GGTGCCAACCCTGGCTGCCCAGGGAGACCAGCTGTGTGGTCCTCGCTGCAACGGGGCCGGGGGGGACGGTGGGAGCAGGG
+AGCTTGATTCCCAGGAGGAGGAGGGATGGGGGGTCCCCGAGTCCCGCCAGGAGAGGGTGGTCATATACCGGGAGCCGGTG
+TCCTGGGGGCCTGTGGGTGACTGGGGACGGGGGCCAGACACACAGGCTGGGAGACGGGGGGCTGCAGCGCTCTGGTGTGA
+CCATCACGATGGAGCCGGCGGTCACTATGAATCTAACAGCCTTTGTTACCGGGGAGTTTCAATTATTTCATCAAATAAGA
+ACTCAGGCACAAAGCTGTCTTTCAACTGTCACGTCCTGAAAACAAATGGCAGGTGACATTTTCCATGCCATAGCAGTGCC
+ACTGGGCATTTTCAGGGCCCATGTGCCAGGAGGGCGTGGGCATCGGCGAGTGGAGGCTCCTGGCCGTGTCAGCTGGCCCA
+GGGGGAGGAGGGGACCCAGACAGCCAGAGGTGGGGAGCAGGCTTTCCCCCTGTGACGCTGCAGACCCACCGCACTGCCCT
+GGGAGGAAGGGGAGGGAACTGGGCCAAGGGGGAAGGGCAGGTGTGCTGGAGGCCAAGGCAGACCTGCACACCACCCTGGA
+GAGCAGGGGTTGACCCCGTCCCGGCCCCACAGTCAGGACCCCGGAGGTGGACGACGAGGCCCTGGAGAAATTCGACAAAG
+CCCTCAAGGCCCTGCCCATGCACATCCGGCTGTCCTTCAACCCAACCCAGCTGGAGGGTGAGCACCCAGGCCCCACCCTG
+CTCCTGGGGCAGGAAGCCACCCGGCCCAGGACCACCTCCTCCCATGGTGACCCCCAGCTCCCCAGGCCTCCCGGGAGGAT
+GGAGACGGGGTGCAGGGCCCCGAGGTGGCCCCCTCCCCACCCCCTCCCCAGCTCCCTCTGTCCTGGGGTGTCCAGTCCCA
+TCCTGACGCTCCCCCGCCACGGCTCTCCCTCCCCCACAGAGCAGTGCCACATCTAGGTGAGCCCCTGCCGGCGCCTCTGG
+GGTAAGCTGCCTGCCCTGCCCCACGTCCTGGGCACACACATGGGGTAGGGGTTCTTGGTTGGGCCCGGGAGCCCCCATTA
+GGCCCTGGGGTCCCCCGTAGGAATGGCTGGAAGCTGGGGTCCTTCCTGGAGACTACAGAGCCGGCTGGCCACATGCTCGC
+TCTTGTGGGGTGACCTGTGTCCTGGCCTCACTCACACGCTGATCTCCTCCACCTCCTTCCTGGCAGACCTAAGGGCCAAG
+GTGGAGGGCTCAGGAAGTGACACCTAAGGGGGAGGCTAGGGGGGTCCTTCTCCCAAAGGAGGGGCCGTCCTGAATCCCCA
+GCCACGGACAGGCTGGCAAGGGTCTGGCAGGTACCCCAGGAATCACAGGGGAGCCCCATGTCCATTTCAGAGCCCGGGAG
+CCTTGGCCCCTCTGGGGACAGACGATGTCATCCCCGCCTGCCCCATCAGGGGACCAGGAGGAACCGGGACCACATTCACC
+CCTCCTGGGACCCAGGCCCCTCCAGGCCCCTCCTGGGGCCTCCTGCTTGGGGCCGCTCCTCCTTCAGCAATAAAGGCATA
+AACCTGTGCTCTCCCTTCTGAGTCTTTCCTGGATGATGGGCCGGGGGTGGAGAAGGCCCGGGACAGGGTGGGGAGTGGTC
+TGGCTCAGAGGATGATGGTAGGGCTGGGATCCAGGGCGTCTGCATTACAGTCTTGTGACATCTGGGGGCCCACACACATC
+TACGGCTCTTTGAAACTTTCAGGAACCAGGTAGGGAGTCGGCAGAGACATCTGCCAGTTAACTTGGAGTGTTCAGTCAAC
+ACCCAAACTCGACAAAGGACAGGAAGTGGAAAATGGCTGCTCTTAGTCTAATAAATATTGATATGAAAACTCAAGTTGCT
+CATGGATCAAATTATGCCTTTTTATGAATCCAGCCACTACAGTCGGTATCAAACTTCATGTACTCAAAACGCACTGATCT
+TTTCTGTGCTAAAATGAAATAAAGAGATTTCCCCAAGATACAGGAGCTGGGCAAAAGAGGTCACGGTTGGAAGGGGACTT
+GTTCTGCACACACAGCAAGGAGATCCAGCCAGTCCATCCTAAAGGAGATCAGTCCTGGGTGTTCATTGGAGGGACTGATG
+TTGAAGCTGAAACTCCAATACTTTGGCCACATGATGCGGAGAGCTGACTCATTTGAAAAGACCCTGATACTGGGAAAGAT
+TGAGGGCAGGAGGAGAAGGGGATGACAGAGGATGAGATGGTTGGATGGCATCACCGACAAAATGGACATGGGTTTGGGTG
+GACTCCAGGAGTTGGTGATGGACAGAAAGGCCTGGCATGCTGCGGTCCATGGGGTCACAAAGAGTCGGACACGACTGAGC
+GACTGAACTGAACTGAACTGAATGGAAAAGAGGTATACAGCAACGTGGGGATTTTTTAGATAATAAGAATAATTTACGCA
+TAACATAGTGTATACTCATATTTATATATATACGTGAATGCTCAGTCACACTCAGTCATATCTGACTCTGTGACCCATGG
+ACTGTAGCCCTCCAGGCTCCTTCTGTCCACAGAATTC
+>ref|X64126.1| B.taurus DNA for SINE sequence Bov-1D
AF327250.1 Bos taurus clone BOVA2 SINE Bov-A2 repeat sequence
+GGAGAAGGCAATGGCACCCCACTCCAGTACTCTTGCCTGGAAAATCCCATGGACGGAGGAGCCTGGTAGGCTGCAGTCCA
+TGGGGTCGCTAAGAGTCGGACACGACTGAGCGACTTCACTTTCACTTTTCACTTTCATGCATTGGAGAAGGAAATGGCAA
+CCCACTCCAGTGTTCTTGCCTGGAGAATCCCAGGGACGGGGGAGCCTGGTGGGCTGCCGTCTATGGGGTCGCACAGAGTC
+GGACACGACTGAAGCGACTT
+>ref|X64125.1| B.taurus DNA for SINE sequence Bov-2
+CTGCAGCCATGAAATTAAAAGACGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTAAAAAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCATCTAGTCAAGGCTATGGTTTTTCCAGTAGTCATGTATGGATGTGAGAGTTGGACT
+ATAAAGAAAGCTGAGCGCTGAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCCTTGGACTGC
+AAGGAGATCCAACCAGTCAATCCTAAAGGAGATCAGTCCTGGGTATTCATTGGAAGGACTGATGCTGAAGCTGAAACTCC
+AGTACTTTGGCCACCTGATGTGAAGAGCTGACTCATTGGAAAAGACCCTGATGCTGGGAAAGATTGAGGGCAGGAGGAGA
+AGGGGACGACAGAGGATGAGATGGTTGGATGGCATCACCGACTCAATGGACATGAGTTTGAGTAAACTCCAGGAGTTGGT
+GATGGACAGGGAGGCCTGGCGTGCTGCAGTCCATGGGGTCGAAAGAGTCGGACATGACTGAGCGACTGAACTGAACTGAA
+>ref|X05274.1| B.taurus mRNA for pancreatic trypsin inhibitor (BpTI)
+CTCCGTAGCCCTTCTGGTCCTCCTGGGCACCCTGGCGGCCAGCACTCCAGGGTGTGACACCAGCAACCAGGCCAAAGCCC
+AGCGGCCTGACTTCTGCCTAGAGCCTCCATATACGGGTCCCTGCAAGGCCAGAATTATCAGATACTTCTACAACGCCAAG
+GCTGGGCTCTGCCAGACCTTTGTATATGGCGGCTGCAGAGCTAAAAGAAACAATTTCAAGAGCGCAGAGGACTGCATGAG
+GACCTGTGGTGGTGCTATTGGGCCCTGGGAGAACCTGTGAACTGTGCTCCCCTGAGATGCTGAAGTATGAGGAGGACCCA
+CCCAAGGCTGGCCTCTATCTGCTTCTGAAAAATTTCAGCCTCCTTTTATTTCTTCTCAACCCTCCCCTCCTCAGCAGAAA
+TCTGTCTCTTTCCTTCCTCCACAGGTCCACTTACTTTAGCCCTATCTCATCCAGTTTGCTCTAAGCACCATGAAAGCAAA
+TCTTCCCTTTGTCCCTCACACTTCCCACAATTTCTGGCACAAAGGAGAAGGTCCAGAAATATTGGAGGAAGGAAGGAATG
+AAGTTCCCCATGACTGGAGCATCTGTAGAGTCTGAGATTTAAATCTGGATTCTTGTCCTAATCTTCCTCCTCACGGCATC
+CTTACCTTCATCCTCCACCCCACCATCACTGCTCTCCCTCTACTGGCGAAAGTAGAATTTCCATCATCGAGTTTTCAGCT
+CAGTGGTGGGAGAGGTCTTTTCATGAACGAAACCTCCTCCTCACATTGATTTGAAGGTCTGTGGCTTCAAAGAGTCTGGC
+CTTATCTTTAAATAAATTCATATTTTAATTAAA
+>ref|NM_174292.2| Bos taurus crystallin gamma S (CRYGS), mRNA
X03006.1 Bovine mRNA for lens beta-s-crystallin
+TGCACCAAACATGTCTAAAGCTGGAACCAAAATTACTTTCTTTGAAGACAAAAACTTTCAAGGCCGCCACTATGACAGCG
+ATTGCGACTGTGCAGATTTCCACATGTACCTGAGCCGCTGCAACTCCATCAGAGTGGAAGGAGGCACCTGGGCTGTGTAT
+GAAAGGCCCAATTTTGCTGGGTACATGTACATCCTACCCCGGGGCGAGTATCCTGAGTACCAGCACTGGATGGGCCTCAA
+CGACCGCCTCAGCTCCTGCAGGGCTGTTCACCTGTCTAGTGGAGGCCAGTATAAGCTTCAGATCTTTGAGAAAGGGGATT
+TTAATGGTCAGATGCATGAGACCACGGAAGACTGCCCTTCCATCATGGAGCAGTTCCACATGCGGGAGGTCCACTCCTGT
+AAGGTGCTGGAGGGCGCCTGGATCTTCTATGAGCTGCCCAACTACCGAGGCAGGCAGTACCTGCTGGACAAGAAGGAGTA
+CCGGAAGCCCGTCGACTGGGGTGCAGCTTCCCCAGCTGTCCAGTCTTTCCGCCGCATTGTGGAGTGATGATACAGATGCG
+GCCAAACGCTGGCTGGCCTTGTCATCCAAATAAGCATTATAAATAAAACAATTGGCATGC
+>ref|X63681.1| B.taurus BTDS1 mRNA for T cell receptor delta chain
+CGCCGCTGAAATCCATGCCTCATGCTGCTGTCCAGTCTGCTCTGGGTGTTCATGGCCATCGCCTTCTCTCGTAGGGATGC
+TTCCAAACACGAGTGCGAGTGTTCAGGGTGAAAGGATCTGGTGTGGCCCAGAAAGTTACTCAAGACCAGTTAGATGTATC
+CAGCCAACTGGGGCAGTCAGTCACCCTGAAGTGTCGGTATGAAACAAGTTTGAATACTTACTACCTTTACTGGTACAAGC
+AACTTCCCAGTGGACAGATGACTTACGTTATTCGTCAGGGTTCAGAAGTGACAAATGCAAAGGAAGACCGCTACTCTGTA
+AACTTTAAGAAAGCAGATAAATCCATCAGCCTCATCATTTCAGCCTTACAACTGGAAGACTCTGCAAAGTACTTCTGTGC
+TCTCCGTGACTCTGGCCGGCTGGGGGCGTACAGCTGCGGATTTACTCCACTAATATTTGGCAAAGGAACCTATCTGAACG
+TGGAACCAGAAAGTCAACCTGCTGCCAGCCCATCTGTTTTTGTCATGAAAAATGGGACAAACGTCGCTTGTTTGGTGAAG
+GAGTTCTACCCCAAAGATGTAACTATAAGTCTGCAATCATCCAAGAAAATAATAGAATATGACCCGGCTATTGCCATCTC
+ACCTGGGGGGAAGTACAGTGCTGTCAAGCTTGGTCAATATGGAGACCCCGATTCAGTGACATGTTCGGTTGAACACAACA
+AGCAAACCTGGCACTCTACTGACTTTGAACCAAAGAAAACTATTCCAGAAACAACTCCAAAACCGATGGCATATGAAAAC
+AGCACAAAAGCTGAAGCTCCAGTGACCTGCCAAGAGCCCCAAGTGGAACCCGGGAAGGTGAACATGATGTCCCTCTCGGT
+GCTGGGGCTCCGAATGCTGTTTGCCAAGAGTGTCGCCGTCAATTTTCTCTTGACTGCCAAGTTATTTTTCTTTTAA
+>ref|X63683.1| B.taurus BTGC8 mRNA for T cell receptor gamma chain
+GAATTCAGATCAAACTGCCAGGATGAAGTTTTTTGACTTCTAGTCACTTTATAAAGGTAGAAAAAGGCTGGATTATTGTA
+GGAGCTTTTACCATTGTGACAGCTCAGGCTGGAGGAAGATATTTGGAGAAGGAGCTAACATCATAGTAACTCCTCCTGAG
+AGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTTTCTTCCTTCAATTGCTGAAATCAACCATGATAATGCTGG
+AACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTATTACAGTTTCTTGGAGAGCAAAAAATGACAAAAGAGCTC
+TGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACCTACATGAAGTTCAGCTGGCTGACCATGACCGAAAACTCT
+ATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAATATAGGAGGAATTGATCAAGAGATTATTTTTCCTTCAAT
+AAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTCCTACTACTAAGCCTCCTACTACTGAGCCTCCTACTACTG
+AGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACAGGTACTGGTTCTAAAAAAGCTTGTCTGAAAGATGGAAGT
+GATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAGTACCCTGCAGCTGCAGCTCATGAACACCTCTGCAGCCTA
+TTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACTTTGTTGTCATCATTTCCTGTGTGTTTAGAAGAACAGGCG
+TCTGCTGAGACGGGAAGATCTCGTAA
+>ref|X63680.1| B.taurus BTGT1 mRNA for T cell receptor gamma chain
+TTGGGCTCAGGCAGGACTGGGTGGATCTGCCATGGACATGGGAATCTCAGGGCCTGTCCTGTATGGATTCTGGCAGCCGG
+ACAGTTCATCTGTGCTCAGAGAAGCACTCAGTTGCTTCTGGATATTTCTTTTTCTCCTGATCTAAGATAGAAACCTTGCT
+ACAGACATTTCACCCAAGCCCACTATTTTTCTTCCTTCAATTGCTGAAATCAATCACAGTAAGACTGGAACATACCTTTG
+TCTTCTGGAGAAATTTTTCCCTGATATTATTAAGGTTTATTGGAAAGAAAAGGATGGCAACAAAGCTCTGCCATCCCAGC
+AGGGAAATACCATGAAGACTACTGACACATACATGAAGCTCAGCTGGCTGACCGTGACTGAAAACTCCATGGACAAAGAA
+CATATCTGTGTCGTACAACACGAGAGAAATATAGGAGGAATTAATCAAGAGATTCTTTTTCCTTCAATAAATGAAGTTGT
+CAGCTCAATTGTCCCTACCACTGAGTCTCCCAGTGACTGTTTAAACCATGACAGCAAAGTTACCGGTACTGGTTCTAAAA
+AAGCTTGTCTGAAAGATGAAAGTGAAGTCACTGCTGATAATAATTCTACAAAAGTGTGTCTGAAAGATGAAAGCAATACC
+CTGCAGCTGCAGCTCATGAACACCTCTGCCTATTACACCTACCTCCTTCTCCTCCTCAAGAGTGTGGTCTACTGTATCAT
+CATCACCTCCTGTGTGTTTCGGAGAACAGGCATCTGCTGTGACGGGAAGAACTTGTGATAGAGCGTCCCCGAAGGAGTCA
+GCTTTCCTTAATCATCTGTTGATACTGAAATTCTCTGCTTGCTTTTTGGATTTGGGTTATCTCAGTGTATATGTGTTTTT
+TCCCCTATTATGTCATTATTGTGTAACAATTTTTCAAACACTGGGCAAACAGACAGTTCTACCCTGAAACAAGGAATTCT
+GTTATTACTCAGGGAGCAAGGCCCAGGGCGGGTCCAGGGGAGCCTCTCCCACCACTGTCCCCACCGCATCAGCTCCTTCC
+ACCCCAAGTCCCCGTGCCTCCAGGGTGCACTAAGTGGGCAGCTCCCCATCTCCTCCGTCAGCATCTTCCCCAAGACCATG
+GTCTTGAACCTCCCTGTTACACATCCTGGGGCAGCCAGCTTTGCTACTTGAACTCTGTACTTTCTTTTTCATAATAGGCA
+CAATAAGTAAAAAAATAAATAAAAAGTCCA
+>ref|X63684.1| B.taurus BTGT2 mRNA for T cell receptor gamma chain
+AAGATTCCCTGGAGAAGGAAATGGCAACCCACTCCAGTATTCTTCCCTGGGAAATCCCATGGCAGGCTACAGTCCAAGGG
+GTTGCAAAGGAGTCAAACACATCCTAGTGACTGAATAATAACAACTAATCTGAGGAAAACTTATAAAACATTGGATGCTG
+TGAAACCTATATCCAAGGACTTCCAAAAGAATTCAGATCAAACCGCCAGTATGAAGTTTTTTGACTTCTAGTCACTTTAT
+AAAGGTAGAAAAAGGCTGGGTTATTGTAGGAGCTTTTACCATTGTGACAGCTCAGGCTGGAGGAAGATATTTGGAGAAGG
+AGCTAACATCATAGTAACTCCTCCTGAGAGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTTTCTTCCTTCAA
+TTGCTGAAATCAACCATGATAATGCTGGAACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTATTACAGTTTCT
+TGGAGAGCAAAAAATGACAAAAGAGCTCTGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACCTACATGAAGTT
+CAGCTGGCTGACCATGACCGAAAACTCTATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAATATAGGAGGAA
+TTGATCAAGAGATTATTTTTCCTTCAATAAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTCCTACTACTAAG
+CCTCCTACTACTGAGCCTCCTACTACTGAGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACAGGTACTGGTTC
+TAAAAAAGCTTGTCTGAAAGATGGAAGTGATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAGTACCCTGCAGC
+TGCAGCTCATGAACACCTCTGCAGCCTATTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACTTTGTTGTCATC
+ATTTCCTGTGTGTTTAGAAGAACAGGCGTCTGCTGAGACGGGAAGATCTCGTAA
+>ref|X63682.1| B.taurus BTGT4 mRNA for T cell receptor gamma chain
+GCCGCTCACAGAGCTTGTTAGGAGCGAAATGAACCAGGACCAGAAGCCTAGTGTCTTGAATTCCAAGTCATCATAGTTCT
+ACTAGAATTTGAAGAAATCAGAGAAGCTAATTAGTCTAAAGTTTTTGATATGACTTGAATCACTGTGGAATAATTACATA
+AAAAACTTCAATGTTGGAGCAAAACTCATTGTCACAGAGAGAAACCTCGAGGCAGACACTTCCCCCAAGCCCACTGTTTT
+TCTTCCTTCAATTGCTGAAATCAACCATGATAATGCTGGAACATATCTTTGTCTCCTGGAGAAATTTTTCCCTGATGTTA
+TTACAGTTTCTTGGAGAGCAAAAAATGACAAAAGAGCTCTGCCATCCCAGCAGGGAAATACCATGAAGACCAAGGATACC
+TACATGAAGTTCAGCTGGCTGACCATGACCGAAAACTCTATGGATAAACAACATGTATGTGTTGTCAAACACAAGAAAAA
+TATAGGAGGAATTGATCAAGAGATTATTTTTCCTTCAATAAAAGAAGTTGTCACCTCACTTGTCCCTACTACTGAGCCTC
+CTACTACTAAGCCTCCTACTACTGAGCCTCCTACTACTGAGCCTCCAAATGATTGTTTGACCGATGAAAGCAAACTTACA
+GGTACTGGTTCTAAAAAAGCTTGTCTGAAAGATGGAAGTGATACTAATTCTACAAAGGCATGTCTGGAAGGTGAAAGCAG
+TACCCTGCAGCTGCAGCTCATGAACACCTCTGCAGCCTATTACACCTACCTCTTACTCCTCTTCCTGAGCACAGTCTACT
+TTGTTGTCATCATTTCCTGTGTGTTTAGAAGAACAGGCGTCTGCTGAGACGGGAAGATCTCGTAA
+>ref|X67333.1| B.taurus mRNA for calpastatin
+GTTTCCCAAACCCCAGCTCCAACCACCCAGGCAGCCGGTCCACCCCCCAGCACTGCGCACGGTGACAACAAAGAACTTGA
+CGATGCCCTGGATCAACTTTCTGACAGTCTCGGGCAAAGACAGCCTGATCCAGATGAGAATAAACCTGTAGAGGATAAAG
+TCAAGGAAAAAGCCAAAGCTGAACACAGAGACAAGCTGGGAGAAAGAGATGACACCATCCCACCTAAATACCAACATCTT
+TTGGATGACAACAAGGAGGGCACACCCGGGAAGCCAAAGGCATCAGAGAAGCCCAAGGCATCAGAGAAACCTGCAGGTGC
+CCAGGACCCCATTGATGCCCTCTCAGGGGACTTTGACAGCTGTCCCTCGACTACAGAAACCTCGACAGACACACCAAAGG
+ACAAAGACAAGAAGCCTGCTTCCAGTGCCGAAGCACCTAGGAATGGCGGG
+>ref|X03590.1| Bovine gene for alpha-S1-casein 5'-flanking region and exon 1
+CTGCAGTCCATGGGGGTCACAAAGAACTGGACACGACTTAGAAACTAAACAACAACAATTTATATCAGAATGAATGAACT
+AGTTACCACAACTAGTACACCCAAAATGAACAAAAAATAGCTTGGTGGTATAATTAAAATGCCACCAAAATTTATACAAT
+AATTATATTTTCTTTTTGCAGGAAAAAGATTAGACCACATATAATGTAACTTATTTCACAAGGTAAATAATTATAATAAA
+TAATATGGATTAACTGAGTTTTAAAAGGTGAAATAAATAATGAATTCTTCTCATGGTCTTGTATGTTAATAAAAATTGAA
+AAATTTTGAAGACCCCATTTTGTCCCAAGAATTTCATTTACAGGTATTGAATTTTTCAAAGGTTACAAAGGAAATTTTAT
+TGATATAATAAATGCATGTTCTCATAATAACCATAAATCTAGGGTTTTGTTGGGGTTTTTTTTGTTTGTTAATTTAGAAC
+AATGCCATTCCATTTCCTGTATAATGAGTCACTTCTTTGTTGTAAACTCTCCTTAGAATTTCTTGGGAGAGGAACTGAAC
+AGAACATTGATTTCCTATGTGAGAGAATTCTTAGAATTTAAATAAACCTGGTTGGTTAAACTGAAACCACAAAATTAGCA
+TTTTACTAATCAGTAGGTTTAAATAGCTTGGAAGCAAAAGTCTGCCATCACCTTGATCATCAACCCAGCTTGCTGCTTCT
+TCCCAGTCTTGGGTTCAAGGTATTATGTATACATATAACAAAATTTCTATGATTTTCCTCTGTCTCATCTTTCATTCTTC
+ACTAATACGCAGTTGTAACTTTTCTATGTGATTGCAAGTATTGGTACTTTCCTATGATATACTGTTAGCTTAAAAATATA
+TTTGCAAATGTTGATACTATCTATCTCAGAGCTATAGGTGAAAAATTAAATACTTTTATAAAGACCAAATTGATCATTTT
+TTAAACGAAAATTTCTTATATACTGAAAATGTAGATACATAACT
+>ref|X00565.1| Bos taurus mRNA for pre-kappa-casein A
+TTCACTTACAGTGGAAAGGCCAACTGAACCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTGCAATGATGAAGA
+GTTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAAGAACAACCAATA
+CGCTGTGAGAAAGATGAAAGATTCTTCAGTGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGCAGGTATCC
+TAGTTATGGACTCAATTACTACCAACAGAAACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAA
+AGCCAGCTGCAGTTAGGTCACCTGCCCAAATTCTTCAATGGCAAGTTTTGTCAAATACTGTGCCTGCCAAGTCCTGCCAA
+GCCCAGCCAACTACCATGGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAAATCAGGATAA
+AACAGAAATCCCTACCATCAATACCATTGCTAGTGGCGAGCCTACAAGTACACCTACCACCGAAGCAGTAGAGAGCACTG
+TAGCTACTCTAGAAGATTCTCCAGAAGTTATTGAGAGCCCACCTGAGATCAACACAGTCCAAGTTACTTCAACTGCAGTC
+TAAAAACTCTAAGGAGACATCAAAGAAGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCC
+AGTTGTCTGCCTTCGGTGAACAGAGAATATGATTTTCACAGATCTGGCTCCTTCCTCGTCTCCTCTTACATTTTACTTTT
+ATGCCAGATTTAATTTTTTGATTCCTGCATAATAAAGCCAATCAAATGCA
+>ref|X06359.1| Bovine mRNA for beta-casein
+ATCCATTCAGCTCCTCCTTCACTTCTTGTCCTCTACTTTGGAAAAAAGGAGTTGAGAGCCATGAAGGTCCTCATCCTTGC
+CTGCCTGGTGGCTCTGGCCCTTGCAAGAGAGCTGGAAGAACTCAATGTACCTGGTGAGATTGTGGAAAGCCTTTCAAGCA
+GTGAGGAATCTATTACACGCATCAATAAGAAAATTGAGAAGTTTCAGAGTGAGGAACAGCAGCAAACAGAGGATGAACTC
+CAGGATAAAATCCACCCCTTTGCCCAGACACAGTCTCTAGTCTATCCCTTCCCTGGGCCCATCCATAACAGCCTCCCACA
+AAACATCCCTCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTTTCCTTCAGCCTGAAGTAATGGGAGTCTCCAAAGTGA
+AGGAGGCTATGGCTCCTAAGCACAAAGAAATGCCCTTCCCTAAATATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTG
+ACTCTCACTGATGTTGAAAATCTGCACCTTCCTCTGCCTCTGCTCCAGTCTTGGATGCACCAGCCTCACCAGCCTCTTCC
+TCCAACTGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTCAGTCCAAAGTCCTGCCTGTTCCCCAGAAAGCAGTGC
+CCTATCCCCAGAGAGATATGCCCATTCAGGCCTTTCTGCTGTACCAGGAGCCTGTACTCGGTCCTGTCCGGGGACCCTTC
+CCTATTATTGTCTAAGAGGATTTCAAAGTGAATGCCCCCTCCTCACTTTTGAATTGACTGCGACTGGAAATATGGCAACT
+TTTCAATCCTTGCATCATGTTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATTCCTTTAT
+TTATTTTATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACTATATATTTCAAAATTTTAATTCAACATTAGCATAA
+AAGTTCAATTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATTATTATTT
+CTTTAAGAATCTATTTCCTAACCAGTCATTTCAATAAATTAATCCTTAGGCATA
+>ref|NM_181029.2| Bos taurus casein alpha s1 (CSN1S1), mRNA
X00564.1 Bovine mRNA for pre-alpha S1-casein B
+AGTAGGTTTAAATAGCTTGGAAGCAAAAGTCTGCCATCACCTTGATCATCAACCCAGCTTGCTGCTTCTTCCCAGTCTTG
+GGTTCAAGATCTTGACAACCATGAAACTTCTCATCCTTACCTGTCTTGTGGCTGTTGCTCTTGCTAGGCCTAAACATCCT
+ATCAAGCACCAAGGACTCCCTCAAGAAGTCCTCAATGAAAATTTACTCAGGTTTTTTGTGGCACCTTTTCCAGAAGTGTT
+TGGAAAGGAGAAGGTCAATGAACTGAGCAAGGATATTGGGAGTGAATCAACTGAGGATCAAGCCATGGAAGATATTAAGC
+AAATGGAAGCTGAAAGCATTTCGTCAAGTGAGGAAATTGTTCCCAATAGTGTTGAGCAGAAGCACATTCAAAAGGAAGAT
+GTGCCCTCTGAGCGTTACCTGGGTTATCTGGAACAGCTTCTCAGACTGAAAAAATACAAAGTACCCCAGCTGGAAATTGT
+TCCCAATAGTGCTGAGGAACGACTTCACAGTATGAAAGAGGGAATCCATGCCCAACAGAAAGAACCTATGATAGGAGTGA
+ATCAGGAACTGGCCTACTTCTACCCTGAGCTTTTCAGACAATTCTACCAGCTGGATGCCTATCCATCTGGTGCCTGGTAT
+TACGTTCCACTAGGCACACAATACACTGATGCCCCATCATTCTCTGACATCCCTAATCCTATTGGCTCTGAGAACAGTGA
+AAAGACTACTATGCCACTGTGGTGAGGAGTCAAGTGAATTCTGAGGGACTCCACAGTTATGGTCTTTGATGGTTCTGAAA
+ATTCCATGCTCTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCCAAAGGCTTCAACTGCTGTTTTAGAATAGGG
+CAATCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCTACTGTATTTTAGATAGTGTAACATCCTTAAGTGAAATTGT
+CCTAACAGCTTGTTACCTAAATTCCAGTAGTATCATGCTGGTATAAAGGCCACTGAGTCAAAGGGATTAAAGTCTTCATT
+AAATTTCTGTATGGAAAATGTTTTAAAAGCCTTTGAATCACTTCTCCTGTAAGTGCCATCATATCAAATAATTGTGTGCA
+TTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGCACT
+>ref|X14906.1| Bovine gene for kappa-casein exon 1 (and joined mRNA)
+GGATCCCTACTTTATATTGATTAATATTTCATATTTTGATTTAACATAAATTATTCTTGGGCATATAAAAGATGGTCAGT
+TTTCTAATTGGTTAAATACTGATGGCTGTAATTCTAGAAAGAGGATGATCAACCACAGCCCATAATATATGTAGAATTAC
+TTCATACTCAGGTTCTTGAAATAATAAGAAACATTTGAAATGTAAAAGTGCTATGGCTAGATACTTTTCATTTAATAATA
+GCTTTAAATTCAAATAGGTGGAATTAGTTGATTAAAATGCAATTAATATTCTTAAAAATCCTCTATATCTTTTCATAAAC
+ATAAAAGTTCAGTCTTACAAAAGTGTGAATAATCTGTTTTCAAATCTTATGAATGACAACTCTATTTCCTCCTCTGCATT
+CCATTAACCGAGACTGATGTAAAGATGGCCCTGCTATCGTCAGATCTTTCCTTTCTGTCATCTTCCTATTGGTGCAATGT
+AAAAGGAAGATAAATCTCATGACGCAAGACACTAACACCCTTTAATTAGTCTCTGGTTAATTACCTTGGGTGTTCCTTAA
+CAGTGGAAAGGCCAACTGAACCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTAATCACATTAAAACATTCAAA
+GAGAATAATTCTTATTCACAGCAGACTGTAATTATTACACCACCAAAGTTATTTTAGAAGAACATTTTCTTCCTTTTGGC
+TTTTATTGTTAAGCTTGGATATCCTTTGTCATGATTATGATATTAGTTTCTAATCTAAATCTTAGATTCTGTATAATGTT
+ATGATAAAATTTATTTTTAACTTCACTTTCGGGTTAAAGTCAAGATTTGATACTTGCTAAAGTACTGAAGACAATGTAGA
+TCCTTAAAAAAAAAA
+>ref|X14907.1| Bovine kappa-casein gene exon 2 (and joined CDS)
+CTAATTGTTTAATTTAATTTAGGTGCAATGATGAAGAGTTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATT
+TTTGGTGAGTTAATTTCATCTAATCAGTTTTGTATCAAATTTTTTTTTTTTAATTTATTGAAGGGCTTTAATTGTGTAAA
+TTTCTAATACAGTTATATTTATAGAACAAAGTAGCTGCATAAGTAATTTATTTTTACATTTATTTTTCTTATTAAAGTCA
+TATTCTTCTGGATATTCTTCTGGTTTCTAGGAATAAAGAAATCACACTTTATCATCTAAAGAAAACCTTTAAAATTCTTA
+TATGATAGAGAAAATACATTTGGGGGGAAAAATCCTGAAAATATTTTTAAATTATAATATGCACTTAAAATAATTCACAA
+AAAATAAATATATAAACCATAGAGGGAAGATCAGAAATGTTTTTAGTTAAATTCCTATTTCATGCAAACTCCAATTTGTT
+TCGAAACTAAATCCTTAAAATATTAGGAACTTGTTTAAGCTTTTTTACCAATTTCAAATAACTTGACATGTACTTTTAAT
+ATTTAAGTGTATTGTAACTTTTGTTATAATATTTCCATTGTGTCAACTCCCTCTCAGGGATTATATCCATAAACACCTCT
+TTGATTTTTAGGCAAACATCTGAAACTATCATATGTTTTATTTCCTGTTCTTACTGTTAACAAATAAGTGCCTCATCCCC
+>ref|X14908.1| Bovine gene for kappa-casein exons 3-5
+AGATCTGACATGACTGAGCGACTGAACTGAATTGATGACCTCCTCTTAAACTGTAAAATTTGGAACAGCACTAGTCCTTG
+TTTCATAATTCATTTATTATTAAATTTAGTTTTGCTTTCAAGTTAATATCTCTTAAATAATTCTATTTGGTAAATTTTTA
+GAATCTTTTTAAAAATTTGAATTACTATGACCTTCATATTTCTTCCTTTCTTCTTTGAAATTTGATTTTATTGTGGTCAC
+CTGCATATTTAGAACTTGGGCTTTCTCTTGAGGGATAGAGGTTAAAGTTTAAATCAGAAAGTGATTCACAACTGCTTGAC
+CTCTGAAAACATCTTCTTGAACTATTTAAGCCAGTGCTATCCCCAAACTCTCCTTCCTGTCTTCACAAAGCTACAAGCCC
+CATGGATATAAACAAATAATTCAAAAGAAGAATGAAAATTTATATAATTTTTACCATCCAATCTTATACAATCTTACTTA
+CCCAATCAAAATCATACAACTTAATACAGCAATCGGAGAAGGCAATGGCACCCCACTCCAGTACTCTTGCCTGAAAGATC
+CCATGGACTGAGGAGCCTGGTAGACTGCAGTCCATGGGGTCACTAAGAGCTCAGACACGACTGTGTAACTTTCAAGTAGA
+CATCCTGAGCGACTTCACTTTCACTTTTCACTTTCATGCATTGGAGAAGGAAATGGCAAGCCACTCCAGTGTTCTTGCCT
+GGAGAATCCCAGGGACGGGGAAGCCTGGTGCGGCTGCCCGTCTCTGGGGTCACACAGAGTCAGACACGACTGAAGTGACT
+TAGCAGCAGCAGCAGCAATACAGCAATGTTGTAGCATCTTTTATGTGCTAAATGTATTCCTTCTCTCCAAAATATAAATA
+ACTAAGATAACACTTATTACTAGCAATTACAAGATGAACTGCACACTCTTATAGTCTACTGATGACATTATAAATTGGTA
+TATCTTTACTGTACAGAAGTTTAATAATTTCTGTATTTTCCCCCCAAAATCATATTTTTGATGGACTGTTTTAAGAAATC
+ACTGAAAACTATTTAAAAGGCCATTGACATCTGGGCTTCCCTGGTGTCTCAGAAAGTAAAGAATCTGCCTGCATGCAGGA
+GACCTAGTTTTCATCCTTGGATTGGGAAGATTTCCCCGGAGAAGGGAATGGCTACCCACTCAAGTATCTTACCTGGAGAA
+TTCATGGACAGGGGAGCCTCATGGGCTACAGTTCATAGGTCATTTTAAAAGTCCGTTGATATCTATCCAGATGTTATCCA
+TGCCTGTATTTATAATAAAAACATTTTTTGATAAACCTTTAAAAGTTAACAGTAAAGAACAAACATTTCATGACATAACC
+ATTGATTGTTTTTCAACTTTGAATATGCAAGTATGAAAACTGAGGTGATGGAAAAAATGATATGAGATCATATGCCTTTA
+AAAAATTTAAGATACAAGATACTAAAATGAACATATACCAGGAATACATAATGCATGTAGACTGATATTATATAAAATCT
+ATATCTAAATTTTCAGGATTTTTTAGTGTAGGCAAACTTTCAATATTAATATAACTTTTTAAATTTTAAACTAATGACTT
+AATAAATTTAGAGGTAAATAAGTCCCTGTCTTAACACACCCTGTATTTTATTATTTTTTTTAAAATCTCTGATATCCTAT
+ACCAACAACTTCCTAAAGGTTTATAGGATCTTTTATATCCCAGGGGATATGTGTGAAAGTCTTAAACTAAAACTGTCATC
+TTAAAACTATTTACCATTATGAACTCACCTTTTGTAAGTTTTAAAGCTTCATATAGATATGCCTGGAAACTACTTTCTCA
+CTCCTGATTTCCTATGCATGTTACAATCCAGAACTAAGAAAAGTACTATAAATACATGATAATTTTTTAAATGCTATTAT
+TTATATAACATTTATATACCAGTGTTATGCTAGAGGCAATTTTTTAATCAAGCACTGGATGGATGGATTTTTAATCAACC
+AGATGGATGATCCGGGGAGGGAGGAGGGAGAGGGATTCAGGATGGGGAACATGTGTACACCTGTAGTGGATTCATGTTGA
+TGTATGGCAAAACCAATACAATATTGTAAAGTAATTAGCCTCCAATTAAAATTAAAAAATTATATTAAAAAAAAGAAAAC
+CTCATAAATCATCTTAGAGCAGAAACAGAAAAATATGCTAAATTCTCCTCTTATTTTTAGCAATATATATTCAATACAAA
+TTGAATATAGGTTGTTCATGTTCTTCATTTAAGCAATATCATATATAGTTGTTGGTACAGAGATCAAATGATCATATTCT
+TTTCAATCTTAAATTTTTCTCCCTAAATAGTGATTTTTAAGAACAACTTAACCATGGGGCTCATTATTGCTATTTAAGTT
+AGCATGTATCTGTCATTTCTTGAGGGTTTCACAGACTATCTGCTAAGTCACTTCAGTCGTGTCCAGCTCTGTGCGACCCC
+ATAGACGGCAGCCCACCAGGCTCTCCCGTCTCTGGGATTCTCCAGGCAAGAACACTGGAGTGGGTTGCCATTTCCTTCTC
+CAATGCATGAAAGTGAAAAGTGAAAGTGAAGTCACTCAGTCATGTTCGACACTTAGTGATCCCATGGACTGCAGCCCACC
+AGGCTCCTCCATGCATGGGATTTTCCAGGCAAGAGTACTGGAGTGGGGTGCCATTGCCTTCTCTGTCACAGACTATAGAT
+AACCTAGAAAAGTGCTTTATAATATTTTACAATACTAAAATAAAAGCAACAAAAACATGTTTTATCTTTTTTATAAAAGA
+TATTTTTAAATCACAAAAACTAGACTCTATCATGCTTTTTTTCTTCTAACTTCTTCTTTCTGATTCTTTCTCTGAATCTC
+AACAGGGTGCCCAGGAGCAAAACCAAGAACAACCAATAGTAAGTTTGTTTCCAGTAGAGATATGAATCCAAAGAATAAAA
+TTCTGCAAAGTTTAATGATATTAAAATGCCTTCTATCAAAAGACTAAGTAAATATTTAAACTACATAAAATAGTTGAATA
+ATCTTTGTAAAAATAATCATTTCAGCAACCACTCATATGAATCCACATCAATGTTTATCTAAAATCTTGGTATCACTTTA
+CAGGCCAAGTCGTGTTGATTTTCATGAGTATTTAGCAACATGAGAAAACCTTCTCAGAATTTAATACTGGGAAAACAATG
+AAAACAAAAGCAAAGCTTAATATTTCTTCTGTCTACTTTTTAAGAAATGGGGAATGATCCCTCTCTGAAACATCTTCAGA
+TGCTTCTCATACAATTGTATTCATTCCCCCAGTTTGTTTGAATGAATACCTTTAAATATGTCTCCTTTCATGAGGAAGCC
+TTGCTTTGAGGTATAATTTCATTAATTTGTTTCTATTCATAAGGAAAGATCTAATGATTTTGTATTTTATAACTGCACCT
+AATTAATATTAATTAATAGAACTAATCAATTATTATAATTAGTTAATTATAATATAATATTATATATATCACATGATGTG
+ATGTGATGTGGAATATATATATTTATCATATAATGTGATATTATGTGATATATATCACATTATATCACAATATATCACAT
+GATGTGATGTGGAATATATATTATTATATAGTTTTATATAATATATATTAATAATTGATTAGTTCTATTACTTTGGCCAC
+CTGATGTGAAGAGCTGACTCATTTGAAAAGACCCTGATGCTAGGAAAGATTGAGGGCAGGAGGAGAAGGGGACGACAGAG
+GATGAGATGGTTGGATGGCATCATGGACTCAATGGACATGGGTCTGGGTGGACTCCAGGAATTGGTGATGGACAGGGTGG
+CCTAGTGTGCTGCAGTTCATGGGGTCAGAAAGAGTTGGACATGACTGAGCGACTGAACTGAACTGAACTGAATATATAAT
+ATATAAATATTATAATATTATATATAATATATATTATAAAATTTTATAAATTATATAAAAAATATATAAACCCAAGAATC
+CATATCACATCACATCATTACATATAATATATAATATAATGTATAATATAATTTATAATATTAGATGATTATATAATATA
+CAGTATTAATATATTAGTATATAATATAATTGTATATAGTTAACTGCACCTAATTAATGTATTTTATGACTGCACCTAAT
+TGATAGAACTGTGGCAAATAAAGATGGAAAATTTCCGTAACTGATTTTTAACGGATAAAACTAAGCAGAAAAAAAACCCC
+AACATATAAACCCAGGAATCCACATCACATTATTTTTACTATTTTGCTTGAATTAGTTTAGATAAAATGCACCCTTAACC
+TAATCCCTAGATAAATAAAATAAAAAACAGTTACAAACATGTGGTGAGAATAAACATATATATATATATATATATACACA
+CACACACATATACACACTCATATATATGGAAAGAGATATACAGTTTTTTTTCTTTGTGTGTAGTATGCTTGTGTATTGTA
+TGTCAAAGCTCTCTATGAAACTGGTCTAGCTGTGGTGCTTATAAAGTGCAACATTTACTGAGGCACTTTTTATATATGCC
+AAGCTCTGGGCAAAGTGGTTTACATTATGAGCTATCTCATCTAATTTTTTTTGAAACTAATGTTATTTTTAATATTTGCT
+GAAAATCAAGAAGTGGAAGGAAAATGTACAAATCCATATTTTATAAAATAATATGGTTTCTGGGTTCACTATTCCCAATG
+TTGTACTTTCTTAACATCAAATACTGTAACAATTTGTTTCAAAAAATTCTGATTTAAGATATCTCTTCACTCTGCTTCTG
+CTGCTGCTAAGTCGCTTCAGTCCTGGCTGACTCTTGCGACCCCATAGATGGCAGCCCACTAGGCTCCCCAGTCCCTGGGA
+TTCTCCAGGCAAGAAATAATACCATTCTGCATAATTTATTTTTTTACAGCGCTGTGAGAAAGATGAAAGATTCTTCAGTG
+ACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCTAGTTATGGACTCAATTACTACCAACAGAAA
+CCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAAAGCCAGCTGCAGTTAGGTCACCTGCCCAAAT
+TCTTCAATGGCAAGTTTTGTCAAATACTGTGCCTGCCAAGTCCTGCCAAGCCCAGCCAACTACCATGGCACGTCACCCAC
+ACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAAATCAGGATAAAACAGAAATCCCTACCATCAATACCATTGCT
+AGTGGTGAGCCTACAAGTACACCTACCACCGAAGCAGTAGAGAGCACTGTAGCTACTCTAGAAGATTCTCCAGAAGTTAT
+TGAGAGCCCACCTGAGATCAACACAGTCCAAGTTACTTCAACTGCAGTCTAAAAACTCTAAGGAGACATCAAAGAAGACA
+ACGCAGGTAAATAAGGCAAAATGAATAACAGCCAAGATTCATGGACTTATTAATAAAATCGTAACATCTAAACTAGCGTA
+GATGGATAAATTAAATCTGTTACAGAGAAGGCGAAATGGGCTAATTATAACTTACATTTGCTGGTTCTTTATCATGTATA
+TACTAGATTCTTTCCCAACAAGAAAGTTTTAAAATATTTTACAAAATGAGTAAAAATTGCAGATTTTATTATTAAACCTT
+TTTCAACAATTGGTATACTCCTTGAATCTATTAGTTTTATTTTACTTCTGTTCACACACAAAAACAGTAAAGTACAGTGT
+CAACTCATGATTTTTCTTATCTCAAAAATATGTTTTCTTAGAAAAAAATCATATAGGATATGAGTTTAAATATATTTTAA
+TTGTATACCAGTGTTGTTGCACTCTACTTTTGGTAAGAATAGAATGAAAGGAAACAATGTTTCACTCATAGCATTTTATC
+TCAGGCATCACTTCCGAAAGGCTGTATAAGGTTAGGCACCCAAATTTCTCCCTATTGTAAGGTAATCCCACAGAAAAAAT
+TCTAATTTTTTAACTTGAAAAGCACCTACTTATTAAGAGGAAACTTTCAGAACTTTAAATATAATGTAAAATATGTCTAT
+TTATTATTTGAATCAATGGATAATGGCAGAGTCCAAAATAATTTAAAACACATGAAGAGGTTAAACAGAAAGATCAATAA
+GATAGAAAATAACTAAAGATTGTGAAATAATTTAGGAAGAAAGTGCAACATTTTGAGATTCTAGGCAACAAATACTTTCA
+TCACACTGTCTACATGAGTTTTTGGTCTAAAATGAACTCAGCAATGATATAATGGTAATAGCAATAGATCAGAGAAGCCT
+GGTTCTTCTGTTGTGTGACTTTAAGCAATTCATTACTCTCTCTAAAGAGTCATCACTCTCATTTTCTCATAATTTTAAGG
+TTGCTATGAGATTCAAGTGAGAAAGCATATTGTGAATGAGGTGTAAAAAGCAATCAATCTGTGAAATATAATGCTCTAGA
+AAAGAAGTATAATTAGTAAATATTAAAATTTACTTTCAACTAAAATATCAAGTCCTTACTAAATTATCAAAACTACATAA
+CAATCTCAGTTTAATCCTGTAGCAGCCGTATGGAATGGATTATATTACCATCTTAAATCCACAAATGAAAGCTATGGATC
+GGAAATTGCTACAGGCTGGAAAGTTCAAAACTGGAAACCAAATCAAACTTGCTTGATTTCAGATAGTAAGGCTTAATTAG
+TACGTCTGCTATTTCCATATGGGCTATTTGTTAAAAAAAAATAAAAATAAAAACAGAAAACATACTCTAATTTTCCAAGA
+TCAGCATATGTGTAAATTTTATTACTGAGATTGTGTTTAATAGGACATCTGGTAAGAAAGAGAAGACAATAAGCTGATAA
+ATCTTTGACTCATTAAAATTTCAAAAAGTAAAATGAAAACAAGTAATTGAGTTTGCAACTATCTATTTTATTGATATGAA
+ATACATTATATTTACATGATTGTTTTTAATAAATAATCATTATCTCATAGTCACATTTGTTCAAAACTCAAGAACCTAGA
+TTCCTAAGTTAAAACCACACACTACTTATAAAAAAAGAATGTATAGGACTGTGTCTTTCTGTGAATATTAGATGAAGACA
+ATTGTATAAGATCATCAGTTCACTATGTGGTGAATTTAAATATTTAAATTTATATATTTAGTTAGATAAACTACTTGGAT
+ACAGACATGAAGCAAATCACAGAAGCTAAATAAAATACATATCATGAGAACTGTTAGCACATTGTGAACTAAATCTCTAA
+ACTGTCATTTTTATAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCCAGTTGTCTGCTTCGGTGAACA
+GAGAATATGATTTTCACAGATCTGGCTCCTTCCTCGTCTCCTCTTACATTTTACTTTTATGCCAGATTTAATTTTTTGAT
+TCCTGCATAATAAAGCCAATCAAATGCAATGGATCTCTTTTCTTTTTTAATTTATTTATTTTAATTGGAGGCTAATTACT
+TTACAATATTGTATTGGTTCTACCACACATCAACGTGAATCTGCCACGGGATACACGTGTTCCCCATCCTGAACC
+>ref|NM_173899.2| Bos taurus CD5 molecule (CD5), mRNA
X53061.1 Bovine mRNA for CD5 antigen
+GAGCTTGCGGAGGCTGAGGCGGGAGGAGGCCGCGCCCATGGGGTCTCAGCATCTGCCACTGGCCGCCCTGTACCTTCTGG
+AGCTGCTGGTCACTTCCTGCCTCGGAGGGCTCAAGGTGGAGGTGCAAGGGCTCACCATGAGACTGAGCGGCTCCGGCTCA
+CGGTGTCAGGGCCGTCTGGAGGTCAGCAACGGGACAGAGTGGTACGCGGTGCACAGCCAGAGCTGGGGCCAGCTTTCGCT
+CTACCAGGTGGCTCCCAGGCAGTTCTTGAAGCTGTGCCAGGAGCTGCAGTGCCGGGACCCTTTGTTACTCTCTTCCTCGC
+GTTACTTCAAAGAGGTGCAATTCCAGAAATTGATAATCTGCCATGGACAGCTGGGATCCTTCTCCAACTGCAGCCTCAAC
+AGGGGACGCCAGGTGGACTCTCTGGCCCTGATCTGCTTAGAGCCACCGAGGACAACAGCTCCTCCCACGACCTCACCGCC
+CACAACCACTCCGGAGCCCACAGCACCTCCCAGGTTTCAGCTGGTGGCAGAGCCCGGGGGCCTGCGGTGTGCTGGCGTGG
+TGGAGTTCTACAGTGGTGGCCTGGGCGGCACCATCGGCATCGAGCCCCAGAATGATATCAAGGACCTGGGGCAACTCATC
+TGTGCAGCCCTCCAGTGTGGCTCCTTCCTGAAGCCCCTGCCAGAGACCGAGGAAGCCCAGACACAAAAGCCAGAAGGCCA
+AAGGCCTTTGCCAATCCGCTGGGAGATCCAGAACCCAAAATGCACCTCCCTGGAGCAGTGCTTCCGAAAAGTGCAGCCCT
+GGGTGGGTGGCCAAGCTCTTGGCCTCATCTGTTCTGATTTCCAGCCCAAGGTGCAGAGCCGCCTGGTTGGGGGCAGCGAC
+GTGTGCGAAGGCTCCGTGGAAGTGCGCAGTGGGAAGGGCCAGAAGTGGGACACGCTATGTGACGATTCCTGGGCCAAGGG
+CACGGCACGGCGGGTGGAGGTGTGCCGGGAGCAGCAGTGCGGCAACGTCAGCTCCTACCGGGGGCTGGACCCCAGCGAGA
+AGACCTTGGGGGGCTTCTACTGTCCCCCGGGGATACTGTCCCGGTGCCACAAGCTTGAGGAGAAAAAGTCGCACTGCAAG
+AGGGTGTTTGTCACATGCCAGAACTCCAGCCGAGCGGGCCTGGGCGCGGGGCCGGTGATGAGCATTATTTTGGCCCTCTT
+GCTTCTGGCGGTGCTGCTGGTCGTGTGTGGCCCCCTGGCCTACAAGAAGGTGGTGAAGAAATTCCGCCAGAAGAAGCAGC
+GCCAGTGGATTGGCCCAACGGGAATGAACCAGAACATGTCTTTCCATCGCAACCACACGGTGACTGTCCGGTCCCAGGTT
+GAGAACGCCACGGCCTCCCACGTGGAGAACGAATACAGTCAGCCTCCCAGGAACTCCCAGATCTCAGCTTATCCAGCTCT
+GGAAGGGGCCCTGCACCGCATCTCCACCCAGCCTGATAACTCCTCCGACAGTGACTATGAGCTACACGGGGCTCAGAGGC
+TGTAAGAGATCTGTGACCCGGGAACAAATATTAAGAGCCAGACTTTTTATCCCGAGAATCCTCTGCAGTCACCACTTGGA
+TGCCACGTCCCACTTCCTGCCCGGCAGACCACGGATGGGACTTCCCAACACATCCCACTGCCCTGCAGAGGCAGGTCCAC
+TCCGACATCTCCTCACATCCTCACCAGCCCAGGGAAGACCCCAGCATGGCTCAGCTGGCCCCTCCATGGGTGGAAGCTGT
+GAAAGGGCAGAGGCAAGCAGCCCCCTCCCTTGTCTGTGGACATCGGCTCTCTCTTCAGACTCTGACCCCCAGAAGGGCCC
+CACAGGAAAGCCTGCACCTGGAGCGGGGCGGTGGGAGGGAGGGCTGATTTCTCTCATGTATTTTTAATATTTTTTTTGTA
+AATAATGCTTTTTTCTGCTTCCTGGAAAAAAAA
+>ref|X00673.1| Bovine mRNA for blood coagulation factor X
+AGCCTGGGCGAGCGGACCTTGCCCTGGAGGCCTGTTGCGGCAGGGACTCACGGCTGTCCTCGGAAGGGCCCCACCATGGC
+GGGCCTGCTGCATCTCGTTCTGCTCAGCACCGCCCTGGGCGGCCTCCTGCGGCCGGCGGGGAGCGTGTTCCTGCCCCGGG
+ACCAGGCCCACCGTGTCCTGCAGAGAGCCCGCAGGGCCAACTCATTCTTGGAGGAGGTGAAGCAGGGAAACCTGGAGCGA
+GAGTGCCTGGAGGAGGCCTGCTCACTAGAGGAGGCCCGCGAGGTCTTCGAGGACGCAGAGCAGACGGATGAATTCTGGAG
+TAAATACAAAGATGGAGACCAGTGTGAAGGCCACCCGTGCCTGAATCAGGGCCACTGTAAAGACGGCATCGGAGACTACA
+CCTGCACCTGTGCGGAAGGGTTTGAAGGCAAAAACTGCGAGTTCTCCACGCGTGAGATCTGCAGCCTGGACAATGGAGGC
+TGCGACCAGTTCTGCAGGGAGGAGCGCAGCGAGGTGCGGTGCTCCTGCGCGCACGGCTACGTGCTGGGCGACGACAGCAA
+GTCCTGCGTGTCCACAGAGCGCTTCCCCTGTGGGAAGTTCACGCAGGGACGCAGCCGGCGGTGGGCCATCCACACCAGCG
+AGGACGCGCTTGACGCCAGCGAGCTGGAGCACTACGACCCTGCAGACCTGAGCCCCACAGAGAGCTCCTTGGACCTGCTG
+GGCCTCAACAGGACCGAGCCCAGCGCCGGGGAGGACGGCAGCCAGGTGGTCCGGATAGTGGGCGGCAGGGACTGCGCGGA
+GGGCGAGTGCCCATGGCAGGCTCTGCTGGTCAACGAAGAGAACGAGGGATTCTGCGGGGGCACCATCCTGAACGAGTTCT
+ACGTCCTCACGGCTGCCCACTGCCTGCACCAGGCCAAGAGGTTCACGGTGAGGGTCGGCGACCGGAACACAGAGCAGGAG
+GAGGGCAACGAGATGGCACACGAGGTGGAGATGACTGTGAAGCACAGCCGCTTTGTCAAGGAGACCTACGACTTCGACAT
+CGCGGTGCTGAGGCTCAAGACGCCCATCCGGTTCCGCCGGAACGTGGCGCCCGCCTGCCTGCCCGAGAAGGACTGGGCGG
+AGGCCACGCTGATGACCCAGAAGACGGGCATCGTCAGCGGCTTCGGGCGCACGCACGAGAAGGGCCGCCTGTCGTCCACG
+CTCAAGATGCTGGAGGTGCCCTACGTGGACCGCAGCACCTGTAAGCTGTCCAGCAGCTTCACCATTACGCCCAACATGTT
+CTGCGCCGGCTACGACACCCAGCCCGAGGACGCCTGCCAGGGCGACAGTGGCGGCCCCCACGTCACCCGCTTCAAGGACA
+CCTACTTCGTCACAGGCATCGTCAGCTGGGGAGAAGGGTGCGCGCGCAAGGGCAAGTTCGGCGTCTACACCAAGGTCTCC
+AACTTCCTCAAGTGGATCGACAAGATCATGAAGGCCAGGGCAGGGGCCGCGGGCAGCCGCGGCCACAGTGAAGCCCCTGC
+CACCTGGACGGTCCCGC
+>ref|X04012.1| B.taurus mRNA for chromogranin A
+CCGAGCTCAGTGCGGAGGGCGGATCGACAGACAGACGCACACGGAGACCTTGCACCACCAAACCCCATCCCCGCGCTGGT
+GTCGCCGCAGCTTGCCTGGAGCGAGCAGTCCAGCCGCCCCTCGCCCGAGCGCGCGCCGTGGCCCGCCCCAGACCACCAGC
+TGCTCGGCGCCCCGGCTTCGCCATGCGCTCCGCCGCGGTCCTGGCGCTTCTGCTCTGCGCGGGGCAAGTCATTGCCCTGC
+CTGTGAACAGCCCCATGAATAAAGGGGACACTGAGGTGATGAAGTGTATCGTCGAGGTCATCTCTGACACACTCTCCAAG
+CCCAGCCCCATGCCAGTCAGCAAGGAGTGTTTTGAGACACTCCGAGGAGATGAACGGATCCTCTCAATCCTGCGACATCA
+GAATTTGCTGAAAGAGCTCCAAGACCTCGCTCTCCAAGGAGCCAAGGAGCGGACACATCAGCAGAAGAAGCACAGCAGTT
+ACGAGGATGAACTCTCAGAGGTGCTTGAGAAGCCGAACGACCAGGCCGAGCCAAAAGAGGTGACAGAAGAGGTGTCCTCC
+AAGGATGCTGCAGAAAAAAGAGACGATTCTAAAGAGGTGGAGAAGAGTGATGAAGACTCGGACGGAGACAGGCCTCAGGC
+CTCCCCAGGGCTTGGGCCGGGGCCCAAGGTTGAGGAGGACAACCAGGCCCCTGGGGAGGAGGAGGAGGCCCCCTCCAACG
+CCCACCCCCTAGCCAGCCTCCCCAGCCCGAAATACCCAGGCCCACAGGCCAAGGAGGACAGCGAGGGTCCCTCCCAGGGT
+CCAGCCAGCAGGGAGAAGGGCCTGAGTGCAGAGCAAGGGAGGCAGACAGAGAGAGAAGAGGAGGAGGAGAAGTGGGAGGA
+GGCGGAGGCTAGAGAGAAGGCCGTCCCGGAGGAAGAAAGCCCGCCCACCGCAGCGTTTAAACCCCCACCGAGCCTCGGCA
+ACAAGGAGACGCAGAGGGCTGCTCCAGGTTGGCCCGAGGATGGAGCCGGGAAGATGGGGGCTGAGGAGGCCAAGCCCCCC
+GAGGGGAAGGGGGAGTGGGCACACTCCCGGCAGGAGGAAGAGGAGATGGCAAGGGCCCCTCAAGTCCTCTTCCATGGTGG
+GAAGAGCGGGGAGCCCAAGCAGGAGGAGCAGCTCTCCAAGGAGTGGGAGGACGCCAAGCGATGGAGCAAGATGGACCAGC
+TGGCCAAGGAGCTGACGGCCGAGAAGCGGCTGGAGGGGGAGGAGGAGGAAGAGGAGGACCCGGACCGCTCCATGAGGCTC
+TCCTTCCGGGCCCGGGGCTACGGCTTCAGGGGTCCCGGGCTGCAGCTGCGGCGAGGCTGGAGGCCGAACTCCCAGGAGGA
+CAGCGTGGAGGCCGGCCTGCCCCTCCAGGTGCGCGGCTACCCGGAAGAGAAGAAGGAGGAGGAGGGCAGCGCCAACCGCA
+GACCAGAGGACCAGGAGCTGGAGAGCTTGTCGGCCATCGAGGCAGAGCTGGAGAAGGTGGCCCACCAGCTGGAGGAGCTG
+CGGCGGGGCTGAGGCGCCGACTGACCCCACCAGCCAGGGCCCCGAGACACCTCGTGGTCCCGGCTCTGTTGCCCCCCCTG
+CAGGCCTGGCCAGACAAGCCCCGGGCACTGCTTCCGGGAGGGAGGCCGCCCCCAGCCGGCCCAAGCCCAGCCCACCCCAT
+TGCCCCCCTGCAGGGCAGACCCCTTGCCTTTCAACGATTATCCTGTCTCTGAACACAGGCAGCCTTCTCAAAGTTTCCCT
+TCCACCATTAGAGCCACTGGGCCTAACTGCAATAAGTACTGACCTTTAGGTGAAAGCTGAGGACTCCTGACTATATTGTG
+TATGAAGATTTATCTAACGGAAAATAAATCTGCTCTGGGCA
+>ref|X55489.1| B.taurus mRNA for chromogranin B
+CAGGATACAAGGTTGTTTTCCCACAGCATCTTCATCTCGCCTTCCGTCCCCTTCTCATTCACCCTTCCGACTGATATCCT
+CTTCTCCGCGCAGATTTGGACGAGCGAGGCCATGCAGCCGGCCGCCCTTCTCGGCCTTCTGGGAGCCACGGTGGTTGCAG
+CCGTCAGCTCTATGCCAGTGGACATCAGGAACCACAATGAAGAAGTGGTGACTCACTGCATCATCGAGGTCCTCTCAAAT
+GCCCTATTGAAGTCCAGCGCTCCACCCATCACCCCCGAGTGCCGACAAGTCCTGAAGAAGAATGGAAAAGAGCTCAAAAA
+TGAAGAGAAAAGTGAAAATGAAAACACAAGGTTTGAAGTGAGATTGTTGAGAGACCCAGCTGACACCTTCAGAAGCCCCC
+GGGCTTCTTCCAGTAGGGAGGACTCAGGGGAGGGGGATGCCCAAGTCCCAACAGTAGCAGACACGGAGAGCGGTGGGCAT
+AGCCGAGAGCGGGCAGGTGAGCCCCCGGGAAGTCAAGTGGCCAAAGAAGCAAAGACACGCTATTCTAAGAGCGAGGGACA
+GAACAGGGAGGAAGAAATGGTGAAATACCAGAAAAGGGAACGTGGGGAAGTTGGCAGTGAGGAGAGACTGTCTGAAGGGC
+CGGGAAAGGCACAAACGGCTTTTCTCAACCAAAGAAACCAGACTCCGGCTAAGAAAGAGGAGTTAGTGTCCAGATATGAT
+ACACAGTCTGCCAGGGGCCTTGAGAAGTCGCACAGCCGGGAAAGGAGCAGCCAGGAGAGTGGAGAGGAGACCAAGAGCCA
+GGAGAACTGGCCCCAAGAGCTGCAACGTCATCCGGAGGGCCAGGAAGCACCCGGAGAAAGCGAAGAGGATGCCAGCCCCG
+AGGTGGACAAACGGCACTCGAGGCCAAGACACCACCACGGGAGGAGCAGGCCCGACAGGTCCTCTCAGGAGGGGAATCCT
+CCCCTCGAGGAGGAGTCACACGTGGGCACGGGCAACTCAGACGAAGAGAAAGCCCGCCATCCAGCCCACTTTAGGGCTTT
+GGAGGAGGGAGCCGAATATGGGGAGGAAGTGAGGAGACACTCAGCTGCCCAGGCTCCTGGAGACTTGCAGGGGGCACGAT
+TCGGGGGCAGAGGACGTGGAGAGCACCAGGCTCTAAGGCGTCCCAGCGAGGAGAGCCTAGAGCAGGAAAACAAGAGACAT
+GGCCTCAGCCCGGATCTAAACATGGCGCAGGGATACAGCGAGGAAAGCGAGGAAGAGAGGGGTCCGGCCCCGGGACCCAG
+CTACAGAGCCCGGGGAGGGGAGGCGGCGGCCTACTCCACACTAGGCCAAACAGATGAGAAACGGTTCTTGGGTGAAACGC
+ACCACCGTGTTCAGGAAAGCCAGAGGGACAAGGCGAGGCGCCGCCTACCAGGCGAGCTGAGAAATTACCTCGACTATGGT
+GAGGAAAAGGGTGAGGAAGCAGCCAGAGGGAAGTGGCAGCCGCAGGGAGACCCGCGAGACGCTGACGAGAACAGGGAAGA
+GGCTAGGCTTCGAGGCAAACAGTATGCTCCCCATCTCATCACTGAAAAGAGATTAGGGGAGCTACTCAATCCATTTTACG
+ACCCTTCCCAGTGGAAGAGCAGCCGTTTTGAGAGAAAAGACCCCATGGATGACAGTTTTCTTGAGGGTGAAGAGGAAAAC
+GGGCTGACCTTGAATGAGAAAAATTTCTTCCCAGAATACAACTATGACTGGTGGGAGAAAAAGCCCTTTGAAGAGGATGT
+AAACTGGGGGTATGAGAAGAGAAACCCGGTCCCCAAACTGGATCTAAAAAGGCAGTATGACCGAGTGGCCGAACTGGACC
+AGCTCCTTCACTACAGGAAGAAGTCAGCTGAGTTCCCAGACTTCTATGACTCCGAGGAGCAGATGAGCCCACAACACACA
+GCAGAAAATGAAGAGGAGAAGGCTGGCCAAGGAGTTCTGACGGAGGAAGAGGAAAAAGAACTTGAAAACTTGGCTGCGAT
+GGATTTGGAACTACAGAAAATAGCTGAGAAGTTCAGTGGTACCCGAAGGGGCTAATGGTCATTAGAGTAAAGGGCAGATT
+TTAAGACAGCCTTCACATGATCTGTTATCCACCACTTCACTGAAAGACCCCATTTATTTATCCAAAGGCAGAAAGTAGAA
+TTTACTCATCCAATGTTTGACACAATTGGAAATGTCTTTGATTTTTGCCAGAGTGCTATTGGAAATATAAATAGCATGAC
+TTGTAGTATACTCTTTATAAAAAAGTAGATATATTAACATGCTTGTGACAATGACTGTGCTACTGTCCTTCGAAAAAATG
+TCTTAGTTTGAAGTAATAAAAGATTCACCTGAGGCAAAAAA
+>ref|X04823.1| Bovine retina mRNA for cyclic GMP phosphodiesterase gamma-subunit
+GCGTGAGGGAGTCCAGAAGCTGAAGGTCACTGCGGGATCTCTGCCAACCTGGCCATGAACCTGGAGCCACCCAAGGCCGA
+GATCCGGTCGGCCACCAGGGTGATGGGGGGACCCGTCACTCCCAGGAAAGGGCCCCCGAAATTTAAGCAGCGGCAAACCA
+GGCAGTTCAAGAGCAAGCCCCCCAAGAAAGGTGTCCAAGGGTTTGGTGATGACATCCCTGGAATGGAAGGCCTGGGAACA
+GACATCACCGTCATCTGCCCGTGGGAGGCCTTCAACCACCTGGAGCTGCACGAGCTGGCCCAGTACGGCATCATCTAGCC
+CTGGACCCCCGCCCTCAGCCCCTCTACTCCGCTGCCCACCCTGACCCCCTGCTCAAGATTCCTGTGAGCAGAGCTGTGCC
+CCGGGAGGTCCAGAGTGTCTGGATTGTGTCTGGAGACCCTCACAGGGCGGCAGCCTGGAGCCTCCTGAATGCTAGTTACC
+AGGAGCCCACCAGTTCCCTTCAGGACACCCTCTCGGGGCAGCCAGGCTCTGCTTAACTTCCAGAAACACTGGTCCACAGA
+CCCTCTCCTCCCCAGGCTGGAAAGCTAGGGCAGGCCTCCCAGTGGTGTCTGCCACACCCCGCCTCCTGGCCTGACTGTCT
+GGGGGTGAGAACGGGCTCCCCTCACTAGCCTTTCCCAGTTGAAGCCGTTGGGCCAGCAGGTGGATGCCAGGAGTCCTGCA
+GGCGTCAGACAATGAGAACCCCCTGGACCAGTCACACCAGTAGGAAGCTTGTCCTTTCCAACGTGGCCCATGCTCGCTGT
+CCTGTTTCAAATAAAGTTAGCCGTGCTCCCCAA
+>ref|NM_174421.2| Bos taurus phosphodiesterase 6G (PDE6G), mRNA
X04270.1 Bovine retina mRNA for cyclic GMP phosphodiesterase gamma subunit
+GCGTGAGGGAGTCCAGAAGCTGAAGGTCACTGCGGGATCTCTGCCAACCTGGCCATGAACCTGGAGCCACCCAAGGCCGA
+GATCCGGTCGGCCACCAGGGTGATGGGGGGACCCGTCACTCCCAGGAAAGGGCCCCCGAAATTTAAGCAGCGGCAAACCA
+GGCAGTTCAAGAGCAAGCCCCCCAAGAAAGGTGTCCAAGGGTTTGGTGATGACATCCCTGGAATGGAAGGCCTGGGAACA
+GACATCACCGTCATCTGCCCGTGGGAGGCCTTCAACCACCTGGAGCTGCACGAGCTGGCCCAGTACGGCATCATCTAGCC
+CTGGACCCCCGCCCTCAGCCCCTCTACTCCGCTGCCCACCCTGACCCCCTGCTCAAGATTCCTGTGAGGAGAGCTGTGCC
+CCGGGAGGTCCAGAGTGTCTGGATTGTGTCTGGAGACCCTCACAGGGCGGCAGCCTGGAGCCTCCTGAATGCTAGTTACC
+AGGAGCCCACCAGTTCCCTTCAGGACACCCTCTCGGGGCAGCCAGGCTCTGCTTAACTTCCAGAAACACTGGTCCACAGA
+CCCTCTCCTCCCCAGGCTGGAAAGCTAGGGCAGGCCTCCCAGTGGTGTCTGCCACACCCCGCCTCCTGGCCTGACTGTCT
+GGGGGTGAGAACGGGCTCCCCTCACTAGCCTTTCCCAGTTGAAGCCGTTGGGCCAGCAGGTGGATGCCAGGAGTCCTGCA
+GGCGTCAGACAATGAGAACCCCCTGGACCAGTCACACCAGTAGGAAGCTTGTCCTTTCCAACGTGGCCCATGCTCGCTGT
+CCTGTTTCAAATAAAGTTAGCCGTGCTCCCCAA
+>ref|NM_001001440.2| Bos taurus annexin A4 (ANXA4), mRNA
X13627.1 Bovine mRNA for endonexin (chromobindin 4)
M22248.1 Bovine endonexin (chromobindin 4) mRNA, complete cds
+CGGGGCGCCGTCCCATCTCGGCCTCTGGGGAACTTCTGCTTGACTGACCGACCGTGACCCTGACATAGCGTCATAGTCAT
+GGCAGCCAAGGGAGGCACTGTCAAAGCCGCTTCAGGCTTCAACGCTGCCGAAGATGCCCAGACCCTGAGGAAGGCCATGA
+AAGGGCTTGGCACAGATGAAGATGCCATCATCAACGTCCTGGCCTATCGCAGCACGGCCCAGCGCCAGGAAATCCGGACA
+GCCTACAAGACCACCATCGGCAGGGACCTGATGGACGACTTGAAGTCAGAACTGAGTGGCAACTTCGAGCAGGTGATCCT
+GGGGATGATGACACCCACGGTGCTGTACGATGTGCAGGAGCTGCGAAAGGCCATGAAGGGAGCTGGCACAGATGAAGGCT
+GCTTGATTGAGATCCTGGCCTCCCGGACACCCGAGGAGATCCGGCGCATAAACCAGACCTACCAGCTGCAATATGGGCGG
+AGCCTTGAAGATGATATTCGCTCTGACACGTCATTCATGTTCCAGCGCGTGCTGGTGTCTCTGTCCGCTGGAGGCAGGGA
+TGAAAGCAATTATCTGGATGATGCTCTCATGAGACAGGATGCCCAGGACCTGTATGAGGCTGGAGAGAAGAAATGGGGGA
+CAGATGAGGTGAAATTTCTAACTGTTCTCTGTTCTCGCAATCGAAATCATCTGTTGCATGTGTTTGATGAATACAAAAGG
+ATAGCACAAAAGGATATTGAACAGAGTATTAAATCTGAAACATCTGGCAGCTTTGAAGATGCTCTGCTGGCCATAGTAAA
+GTGCATGAGGAACAAATCTGCATATTTTGCTGAAAGGCTTTATAAATCCATGAAGGGCTTGGGCACCGATGACGACACCC
+TTATCAGAGTGATGGTTTCTCGAGCGGAGATTGACATGTTGGACATCCGGGCAAACTTCAAGAGACTCTATGGAAAGTCT
+CTATACTCCTTCATCAAGGGTGACACATCCGGAGACTACAGGAAGGTGCTGCTCATTCTCTGTGGAGGAGATGATTAAAA
+TCCAGAAAGCCCAGGAAGATTCCCTACACTTTGAATTCCTTTTTTAACTTAATTTTCTACACTGCTATTAGCATTATCTC
+AGAATGCTTATTTCCAATTAAAACGCCTACAGATGCCTCCTAGGATATAGCCTGTATTATTATTCATCTATAATTACCCA
+CTATGATGCTTTAAAGCTGTACTTGCATTTCAAAGCTCATAAAACCTAAAAGGAGATTTCAGATTAGAAATAAGAATGTG
+CTCCATGTTTTCAACAGATCTCTTCCTGTTTGTGTTTCACAGAAATTGGGATATATTACATTATTTCATATTTTCTTTTT
+GGAGAAAACTATTGAAGTGGGAGACTGTTCTAAAATCTCTTTTATTCCCTCATTCTATTATTAAGAGTGGCTAGTAATTT
+CTTGATTTGAAATTGTCATCGTCTAGTTAGTAAGAATAGCTAACCAGTTTGATATTTTACATAATCATTGTTTGAAAGCG
+TCTACACATCTGCTTTTGCTTGTTTAGGTTTTCATATAAAGTGCTAGTTGATTTAGTACTAAGTTCAGCATTGGAGACTC
+CCTCCATCACATCTTACATTAAGGTCAGGTAGACTCTCCAGGTTGAAGTATAACAAATTTACTGACTTGTCTGAACAAAT
+TCAACTCTGTGGTTATACAGATCATATATGTCTGACTACCAAACATAAATGCTGAACATTCCACAATATCAGGGTTAATA
+TAATAATAATAATGGTCTTAAGCCAGCTTGAAGATGAATGTGAAAAAATTAAATGTCAAACTACATATTCTGGTGATGGT
+GTAGTGCTCTGAATTTACATTTTTGTGCTAAAAATAATTTTTTAAATCATTTTTAATTGTGTTGATTTGAATACTTGCAT
+TTGTTGATTTACACTTGCACTGTGGCTTTCAACTCTAGAATTATTGTAAAGGTGTACTTGGATTTAATTTAAAAGTTCAG
+TTTGCATACAACACAGAAAAATAATTCCAATAAAAATATGGTGTCTTTCAAATCG
+>ref|X04298.1| Bovine mRNA for chromogranin A
+ACGGAGACCTTGCACCACCAAACCCCATCCCCGCGCTGGTGTCGCCGCAGCTTGCCTGGAGCGAGCAGTCCAGCCGCCCC
+TCGCCCGAGCGCGCGCCGTGGCCCGCCCCAGACCACCAGCTGCTCGGCGCCCCGGCTTCGCCATGCGCTCCGCCGCGGTC
+CTGGCGCTTCTGCTCTGCGCGGGGCAAGTCATTGCCCTGCCTGTGAACAGCCCCATGAATAAAGGGGACACTGAGGTGAT
+GAAGTGTATCGTCGAGGTCATCTCTGACACACTCTCCAAGCCCAGCCCCATGCCAGTCAGCAAGGAGTGTTTTGAGACAC
+TCCGAGGAGATGAACGGATCCTCTCAATCCTGCGACATCAGAATTTGCTGAAAGAGCTCCAAGACCTCGCTCTCCAAGGA
+GCCAAGGAGCGGACACATCAGCAGAAGAAGCACAGCAGTTACGAGGATGAACTCTCAGAGGTGCTTGAGAAGCCGAACGA
+CCAGGCCGAGCCGAAAGAGGTGACAGAAGAGGTGTCCTCCAAGGATGCTGCAGAAAAAAGAGACGATTTTAAAGAGGTGG
+AGAAGAGTGATGAAGACTCGGACGGAGACAGGCCTCAGGCTCCCCAGGGCTTGGGCCGGGGCCCCAAGGTTGAGGAGGAC
+AACCAGGCCCCTGGGGAGGAGGAGGAGGCCCCCTCCAACGCCCACCCCCTAGCCAGCCTCCCCAGCCCGAAATACCCAGG
+CCCACAGGCCAAGGAGGACAGCGAGGGTCCCTCCCAGGGTCCAGCCAGCAGGGAGAAGGGCCTGAGTGCAGAGCAAGGGA
+GGCAGACAGAGAGAGAAGAGGAGGAGGAGAAGTGGGAGGAGGCGGAGGCTAGAGAGAAGGCCGTCCCGGAGGAAGAAAGC
+CCGCCCACCGCAGCGTTTAAACCCCCACCGAGCCTCGGCAACAAGGAGACGCAGAGGGCTGCTCCAGGTTGGCCCGAGGA
+TGGAGCCGGGAAGATGGGGGCTGAGGAGGCCAAGCCCCCTGAGGGGAAGGGGGAGTGGGCACACTCCCGGCAGGAGGAAG
+AGGAGATGGCAAGGGCCCCTCAAGTCCTCTTCCGTGGTGGGAAGAGCGGGGAGCCCGAGCAGGAGGAGCAGCTCTCCAAG
+GAGTGGGAGGACGCCAAGCGATGGAGCAAGATGGACCAGCTGGCCAAGGAGCTGACGGCCGAGAAGCGGCTGGAGGGGGA
+GGAGGAGGAAGAGGAGGACCCCGACCGCTCCATGAGGCTCTCCTTCCGGGCCCGGGGCTACGGCTTCAGGGGTCCCGGGC
+TGCAGCTGCGGCGAGGCTGGAGGCCGAACTCCCGGGAGGACAGCGTGGAGGCCGGCCTGCCCCTCCAGGTGCGCGGCTAC
+CCGGAAGAGAAGAAGGAGGAGGAGGGCAGCGCCAACCGCAGACCAGAGGACCAGGAGCTGGAGAGCTTGTCAGCCATCGA
+GGCAGAGCTGGAGAAGGTGGCCCACCAGCTGGAGGAGCTTCGGCGGGGCTGAGGCACTGACTGGCCCCACCAGCCAGGGC
+CCCGAGACACCTCGTGGTCCCGGCTCTGTTGCCCCCTCTGCAGGTCCTGGCCAGACGGCCCCAGGCACTGCTTCCGGGAG
+GGAGGCCGCCCCCAGCCTGCCCAAGCCCAGCCCACCCCATTGCCCCACGCTCTTTTCCTCCTGCTCCTGACCCCTGCCCA
+GTGCGCCCCCCTGCAGGGCAGACCCCTTGCCTTTCAACGATTATCTTGTCTCTGAACACAGGCAGCCTTCTCAAAGTTTC
+CCTTCCACCATTAGAGCCACTGGGCCTAACTGCAATAAGTACTGACCTTTAGGTGAAAGCTGAGGACTCCTGACTATATT
+GTGTATGAAGTTTATCTAAGGAAAATAAATCTGCTCTGGGCTC
+>ref|NM_175830.1| Bos taurus NADH:ubiquinone oxidoreductase subunit V3 (NDUFV3), mRNA
X59048.1 Bovine mRNA for a 10kD subunit of heart mitochondrial NADH-ubiquinone oxidoreductase
+GGGTCGTCCTGTCTGCGCCCGAGTCACAGCCATGGCGGCCTCGCTTCTGCTGCGGCAAGGACGAGCCGGGGCGCTGAAGA
+CTGTGCTTCTGGAAGCAGGCGTGTTTCGAGGAGTTGCTCCTGCAGTTTCTCTCTCTGCAGAATCAGGAAAGAATGAAAAG
+GGATTACCACCGAACCCCAAGAAGCAGAGCCCACCAAAGAAGCCTGTGTCGGCTGCTCCCACAGAGCCGTTTGACAACAC
+CACCTACAAGAACCTTCAGCATCATGACTACAGCACATACACCTTCTTAGACCTAAACCTGGACCTCTCCAAGTTCAGGA
+TGCCCCAGCCCTCTTCAGGACGGGAGTCCCCCCGCCACTGAGAGCCCAGTTTAAAGATTACCCTTGCTGTGTCTGTCTGC
+ATTCTTGCCTGCAGTCCTCTCGGCGGTCACAAGACCCAGCGTGTAGAATCCTAGCGAGTAGTGAATTAGCAGCACCCCTC
+TGATGGTTCAGTCTCCATGTGTTTAGAGACATCTGCTGCGGGGATTTCTCTCTAACGATAGAGTATGGCTCAGTGGACAG
+ATCCATGCAATTAGAGAATCGGAGGTGCCTTCCGTCTGTGTGGTTCCACTGTGCTGAGCCCCGGTCAGCTTGGTGTTCTC
+TGGTTCACCAGTGTGGAGTCGATGAGTGTAGTGGGCCTTCTGATAAGACCTAGTTCTTGATGAATCAGATATAGGAGTTG
+TCTACATTGTAACTAACTACTGCACTGCAGAGAAATTATAATAAATTATGGCATTTTATGATCAAAAAAAAAAAAAA
+>ref|NM_175810.2| Bos taurus NADH:ubiquinone oxidoreductase subunit S6 (NDUFS6), mRNA
X63221.1 B.taurus CI-13 (IP) mRNA for ubiquinone oxidoreductase complex
+AAGCCAGCCCGCAAGATGGCGGCGGTCCTGACCTTCCTCAGGTTCCTGGGCCGGGGCGGCGCGGTGACGCGCGGCCTGCC
+CGGGGGCGCCAGGTGCTTTGGGGTGCGGACCTCGCCGACCGGGGAGAAGGTCACGCACACCGGCCAGGTTTATGACGATG
+GAGACTACAGGAAAGTTCGATTTGTAGGTCGTCAGAAAGAGGTGAACGAGAACTTTGCCATCGATCTGATAGCGGAGCAG
+CCCGTGAGCCAAGTTGGGAGTCGGGTGATATCGTGCGACGGCGGCGGGGGGGCCCTGGGCCACCCCCGAGTGTACATAAA
+CCTGGACAAGGAAACGAAGACGGGGACGTGCGGCTACTGCGGCCTGCAGTTCCGGCAGCAGCACCACTAGGGCGGCCGCG
+TGGCCGGGGCCCAGTGCAGGGCGAGCTGGAGGACCCGGGTGTGCAGAGCGCGTCTCTCAGTCACTGAGGCCCGGCCCTCC
+AGGGCCCGGCCGCCTGCTCCTTCCTCCCGGGGGAGCGTGGTGGGCGCGGGAGAAGTGGCGGGGCCATCCGGCCGGCTCAG
+CTCAGCTCCGCTCCGCCCGGCACTCTGCCCCTCCCGCTCCTCAGCCGCCTGGTCTGAAATCCCACAAAGTTAAGTACTGT
+TTGAAGGTGTTAACAGTCACATGTGGACTGATTTAAATACTCTGTGTGTATTTAAGAGAGTAATGGCTATGATGTATTGT
+TCCACGAAAATAAATTCAGGAGGGGAGAAAAAAAAAAAAA
+>ref|NM_176652.2| Bos taurus NADH:ubiquinone oxidoreductase subunit S5 (NDUFS5), mRNA
X63220.1 B.taurus CI-15 (IP) mRNA for ubiquinone oxidoreductase complex
+GGCGGCCAGCGAGGAGAAAAGGACACAGCGGCCGGACGCCATGCCTTTCTTTGATGTGCAGAAAAGGCTGGGTGTTGACC
+TAGATCGCTGGATGACAATCCAGAGTGCTGAGCAGCCTCACAAGATCCCATCCCGATGCCATGCTTTTGAGAAGGAATGG
+ATAGAGTGTGCACATGGAATCGGCAGTATCCGAGCAGAGAAGGAGTGCAAAATAGAATTTGAGGATTTCAGAGAGTGTCT
+GCTTCGACAGAAAACGATGAAACGTCTGCATGCCATCAGGAGACAGCGGGAAAAGCTAATCAAGGAAGGGAAGTACACAC
+CCCCACCTCACCACTCAGGCCAGGAGGAACCTCGGTCCTGAGCGGAGCAGCTGCCAGTGGCTGGAGGCTGATTCTCACGT
+TCTCTCTTCTCCGCTGGAAACTCTACGTACTAAAAACCCCTTTGTGAGAGTGTCTAAAAATAAAGGATTGCTCCATCCTA
+AAAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_175800.2| Bos taurus NADH:ubiquinone oxidoreductase subunit S4 (NDUFS4), mRNA
X63215.1 B.taurus CI-18(IP) mRNA for ubiquinone oxidoreductase complex
+AGTGTCTGCCTGTAGCAAGATGGCGGCGGTCTCAATGTCAGTGGCGCTGAGGCAAGCGTTGTGGGGGAGAAGGGTAGCGA
+CTGTAGCTGCCGTTTCCGTTTCCAAGGTTTCGACCAGGTCGTTGAGCACTTCCACATGGAGGCTGGCACAGGACCAAACT
+CGAGACACGCAACTCATAACAGTTGATGAAAAATTGGATATTACTACTATAACTGGTGTTCCAGAAGAGCATATCAAAAC
+TAGAAAAGCCAGGATCTTTGTTCCTGCTCGCAATAACATGCAGTCTGGAGTAAACAACACAAAGAAATGGAAGATGGAGT
+TTGATACCAGAGAGAGATGGGAAAATCCTTTGATGGGTTGGGCGTCAACGGCTGATCCCTTATCCAACCTGGTTCTGACT
+TTTAGTACTAAAGAAGATGCAGTTGCCTTTGCAGAAAAAAATGGATGGAGCTATGATGTTGAGGAGAGAAAGGTTCCAAA
+GCCTAAGTCCAAGTCTTATGGCGCAAACTTTTCTTGGAATAAAAGAACAAGAGTATCCACAAAATAGGTTGGCACGGACT
+GTATCTCTATGCTTGACTGTGAATAAAGTCAGCTGTGCAGTATTTATAGTCTGTGTATAATACACCTCTTAATCTCCTAA
+TAAATTTGACCTTTAAACTACAGAAAAAAAAAAAAAAA
+>ref|NM_205817.1| Bos taurus NADH:ubiquinone oxidoreductase subunit A9 (NDUFA9), mRNA
X59418.1 B.taurus mRNA for heart mitochondrial NADH dehydrogenase (ubiquinone) 39 kDa subunit
+GATTCTGGGAGAATATGGCGGCCGCCGTTCACCCCCGAGTTGTCCGGGTCCTGCCAATGTCACGTTCTTCTGTTCCTGCC
+CTAGCCGCCTCTGTGTTTCACAGCCCACCCCAGCGCCAGCTTCATCATGCAGTCATACCACATGGGAAAGGTGGGCGTTC
+CTCCGTCAGTGGAATTGTGGCCACTGTGTTTGGAGCAACGGGATTCCTGGGCCGCTATGTCGTCAACCACCTTGGTCGCA
+TGGGGTCACAGGTGATTGTCCCCCACCGCTGCGAGCCATATGACACCATGCACCTTCGTCCCATGGGTGACCTGGGCCAG
+ATCATCTTTATGGACTGGAACGGGAGAGACAAGGACTCAATCCGAAGAGCTGTGGAGCACAGCAGCGTGGTCATCAATCT
+GGTCGGGCGAGAGTGGGAGACCCAAAACTTTGACTTTGAGGATGTTTTTGTCAAGATTCCCCAAGCCATTGCTCAAGTGT
+CCAAAGAAGCTGGAGTTGAAAAATTTATTCACATTTCACATCTGAATGCTGATATTAAGAGCTCTTCTAAGTATCTGAGA
+AGCAAGGCTGTTGGAGAGAAGGAAGTGAGAGAGACGTTTCCAGAAGCCACCATCATAAAGCCGGCTGAAATCTTTGGCAG
+AGAGGACAGATTCCTCAATTATTTTGCAAATATCCGCTGGTTTGGTGGCGTCCCTCTTATTTCCCTGGGCAAGAAGACTG
+TGAAACAACCAGTATATATTGTGGATGTCACCAAAGGAATTATTAATGCAATTAAAGACCCGGATGCCAGAGGGAAAACT
+TTTGCCTTTGTTGGGCCCAGTCGGTACCTGCTGTTCGACCTCGTGCAGTACGTCTTTGCTGTGGCTCACAGGCCCTTCCT
+GCCGTACCCTCTGCCACACTTTGCCTATCGATGGATCGGTCGGCTCTTTGAAATTAGTCCATTTGAACCCTGGACCACGA
+GGGATAAAGTGGAGCGGATTCACACCACAGACAAGATCCTGCCTCACCTGCCAGGCTTGGAAGACCTGGGCGTTGAGGCC
+ACGCCCCTGGAACTCAAGGCCATCGAGGTGCTGCGGCGTCACCGCACCTACCGCTGGCTGTCTTCTGAGATCGAGGACGT
+GCAGCCGGCCAAGACGATTCCCACTAGTGGCCCCTGAGCTGCCCGCGGCTTTTGGTGGTGTTTGGGTTGCTACCAACCAG
+GCCACCTTTGGCGGAGAATCCTGTATATAGTGAATGAGAGCCTCTATTAAAACCTGAGATGACAAAAAAA
+>ref|NM_176655.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A10 (NDUFA10), mRNA
X59419.1 B.taurus mRNA for heart mitochondrial NADH dehydrogenase (ubiquinone) 42 kDa subunit
+GGTCCTTGAGCCGGTGCAGACAGCGGAGCCATGGCCTTGAGGCTGCTGAGACTTGTCCCACCGCGCGTGGGAGGAATTCA
+TACAAGTGTCCAGTTCAAGCTGCAGTATGGCCCGTTGGCGTACATACTTGGTGAAAAAGCAACCAAAAAGATGACAGAAA
+AGAGCAAACTGATAACTGTAGATGGCAATATATGTTCTGGAAAAAGCAAGCTTGCGAAAGAAATAGCAGAGAAACTAGGC
+CTGAAGCACTTTCCCGAGGCGGGAATCCACTATGTGGACAGCACCACAGGGGACGGGAAGCCCCTGCCTGTGCAGTTCAG
+TGGCAACTGCAGTTTGGAGAAGTTTTACGACGACCCGAAAAGCAACGATGGCAACAGCTACCGCCTGCAGGCCTGGCTGT
+ACGCCAGCCGCCTGCTGCAGTACGCGGATGCCCTGGAGCACCTGCTGAGCACAGGACAGGGTGTGGTGTTGGAGCGCTCC
+ATCTACAGTGACTTTGTCTTCCTGGAGGCAATGTACCGACAAGGCTTCATCCGGAAGCAATGTGTGGACCACTACAACCA
+GGTGAAGAAGGTCACCATCTGTGAGTACCTGCCCCCCCACGTGGTCGTCTACGTGGACGTGCCGGTCCCCGAGGTCCAGA
+GCCGGATCCAGAAGAAGGGAAACCCACACGAGATGAAGATCACCTCCGCCTACCTTCAGGACATCGAGAATGCCTATAAG
+GGGACCTTCCTGCCTGAGATGAGTGAGAAATGTGAGGTTCTACAGTACAGTGCATGGGAAGCTCAGGATGCAGAAAAGGT
+GGTCGAGGATATTGAGTACCTGAAGTACGACAAAGGGCCGTGGCTGGATCAGAACGACCGCAATTTGCACAAACTGAGGA
+TGCTGGTTCAGGATAAGTTGGAGGTGCTGAATTACACATCCATCCCTGTCTTCCTCCCAGAGGTCACCGTTGGTGCCCAC
+CAGAGTGACCAGGTCTTCCAGGAGTTCACAGAGCTGCCAGGCCGCAAGTACCGCGCCGGGTACAACGAGGACGTGGGGGA
+CAAGTGGATCTGGCTGAAGTGACGCCTCCCGGAGGCCGCCTTGCAGGGACGAAGACACGCCCAGGCCCCCAGCTCCTGCA
+CTCCGCTAGCCTCACGCTGGGGGGCAGGGGTGCAGACAGAAGCCCCCCAGTTAGGGGGCCCAGCTTCCTTCTACAGCGCT
+TGTCCCTGGGCAAGCAGCATCCGATGTGAGAGAGCAGGCACCGCCTGGAGCGTCTCCTTCCCCACAGCCCGGCTGTGTCG
+GGCCCAGTCTGCGCCTGTGTCTTCAGACTTCGAGAAATAAAACTGTTTCTGTGGCAAAAAAAAAA
+>ref|NM_175828.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B2 (NDUFB2), mRNA
X63216.1 B.taurus CI-AGGG mRNA for ubiquinone oxidoreductase complex
+AGCGGCGGTGCGGTCTGGGTAACGGCCGGGCTAACGATGGCTGGCATGTCGGCTCTGAAGCGACTGGCGCCGTTCGCTCA
+CGTTGGAGGCCACCTCTTCAGAGGCCGCTGCGCGAGGGCGGCTGGAGCCCGTGGCGTCCGTCGGGCTGGCGGAGGTGCGC
+ACATTGAGCCCCGGTACAGACAGTTCCCGCAGCTGACCAGATCCCAGGTGATCCAGGCCGAGTTCTTCAGTGCGACCATG
+TGGTTCTGGATTCTCTGGCGCTTCTGGCACGACTCAGATGCTGTGCTGGGTCACTTTCCTTATCCCGACCCTTCCCAGTG
+GACAGATGAGGAATTGGGTATCCCTCCGGATGATGAAGACTGAAAACAGAGGCTCAGCTCTTGCCAAATGGGTGCACCCC
+ATGTTTCTTGTTATGTTTATTTGTCTGTAAACATGTTTTGACTTTGCACCTATGGTGATTCTGAAGAAACAGTGCATTTT
+ATAACAGTATAAAGAATAATTAACACAAAAAAAAAAAAAAAA
+>ref|X63209.1| B.taurus CI-ASHI mRNA for ubiquinone oxidoreductase complex
+GGCATGTGCGGGGTGAAACTGAAAGAAGGTGAAGATGGCGGCGGCCAGGGCGGGGGTCCTGGGAGTCCGATGGCTGCAAA
+AGGCAGCCCGAAACGTGGTGCCGCTGGGTGCACGGACAGCCTCCCACATTACCAAGGACATGCTCCCGGGACCCTATCCC
+AAGACCCCAGAAGAACGGGCTGCCGCCGCCAAGAAGTATAATATGCGGGTGGAAGACTACGAGCCGTACCCAGATGATGG
+CACGGGGTATGGTGACTATCCGAAACTGCCTGACCGCTCACAGCAGGAGAGGGATCCATGGTATGACTGGGACCACCCAG
+ACCTGCGGTTGAACTGGGGTGAACCGATGCACTGGGACYTGGACATGTATATCAGGAACCGTGTGGACACGTCCCCGACT
+CCTGTTAATTGGAACCTCATGTGTAAGCACCTCTTCGGCTTCGTCGCCTTCATGCTGTTCATGTTTTGGGTAGGGGAAAC
+TTACCCCGCCTACCAGCCTGTGGGGCCAAAGCAGTATCCTTACAATAATCTGTACCTGGAACGAGGCGGCGATCCCAACA
+AAGAACCTGAGCCAGTGGTTCACTATGAGATCTGAGGAGGCTTCATGAGCTTTGTGYTCCCTAACTGACTCCTTCAATCC
+TAGAAATTTAACTTTAATGAAATCCCCAATAAAACTTAGTGCTGTGGTAAAAAAAAAAAAAAAAAA
+>ref|NM_176667.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B3 (NDUFB3), mRNA
X63213.1 B.taurus CI-B12 mRNA for ubiquinone oxidoreductase complex
+AGGGGTGAATCTTGAGTGTCCTGAGAGGTCAGATTGCTGTCAGACATGGCCCACGGACATGGACATGAACATGGTCCTAG
+TAAAATGGAACTTCCAGATTATAAACAATGGAAGATAGAAGGGACACCATTAGAAACTGTCCAAGAGAAACTGGCCGCAC
+GAGGACTAAGGGATCCATGGGGCCGCAATGAAGCTTGGAGATACATGGGTGGCTTTGCAAATAATGTTTCCTTTGTTGGA
+GCATTATTAAAAGGATTCAAGTGGGGATTTGCTGCATTTGTGGTAGCTATAGGGGCTGAATATTACCTGGAGTCCCAGAA
+AAAAGATAAGAAACATCACTGAAGATAATACCTGGAAATATCTTTTAATGTCTTAACTTTCTTATAAAAAGATTTCTTCA
+CTGTAGCCTACTCACCTGTGTGTTTATTCCTTAAGGAATACTAGTAAGATTTAATAAAATAAGAAAACATGTAAAAAAAA
+AAAAAAA
+>ref|NM_175829.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A5 (NDUFA5), mRNA
X63218.1 B.taurus CI-B13 mRNA for ubiquinone oxidoreductase complex
+GTCATGGCGGGCTTGCTGAAGAAGACCACTGGCCTGGTGGGATTGGCTGTTTGTGAAACTCCACATGAGAGGCTAAAAAT
+ATTGTATACAAAAATTCTTGATGTTCTTGGACACATCCCTAAAAATGCAGCATATAGAAAGTATACAGAACAGATTACAA
+ATGAGAAGCTGAGTATGGTTAAAGCGGAACCTGATGTTAAAAAACTAGAAGAGCGACTGCAGGGTGGCCAAATAGAAGAG
+GTTATTCTTCAGGCTGAAAACGAACTAAGTCTGGCAAGAAAAATGATCCAGTGGAAACCATGGGAGCCTTTAGTGGAAGA
+GCCTCCAGCCAGCCAATGGAAATGGCCAATATAAACAGCATTAACTAACTTATCTGTTGATAGGAGACTGATGTAATTAA
+ATATTCTGTTATATGTTAAAAAATGTTTCCTTATTATCTTATCATCAAGATAACTGATACAAAACACATTTAAGCGACTT
+GTTAAAGTTGATGATGGTAATTTGTGAATTCAGTTTTTGATTTGTAGAGCATTCAAGTTATTTCAAAGGTAAAAAAAAAA
+AAAAAAAA
+>ref|NM_175791.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A6 (NDUFA6), mRNA
X63211.1 B.taurus CI-B14 mRNA for ubiquinone oxidoreductase complex
+GCAAGATGGCGGCGAGCGGACTCCGCCAGGCTGCCGTTGCGGCCAGCACCTCGGTGAAGCCCATTTTCAGTCGGGACATG
+AACGAGGCCAAGCGGAGGGTGCGCGAACTCTACCGCGCCTGGTATCGGGAGGTGCCGAACACTGTGCATTTATTCCAGCT
+AGACATCTCTGTGAAACAGGGACGGGATAAAGTCCGGGAAATGTTTAAGAAGAATGCGCACATCACAGACCCCAGGGTGG
+TTGATCTTCTGGTAATTAAGGGAAAGATGGAACTGGAAGAAACAATTAAAGTGTGGAAGCAGCGGACACATGTTATGCGG
+TTTTTCCATGAAACAGAAGCACCGAGGCCAAAGGATTTCCTCTCCAAGTTCTATGTTGGGCACGACCCGTGAAATCACTC
+AGTGGAAAAGGTGCATGTTGATATTTAAATATTTTAAAGCAAAAATAAACTCAATATATGTCGGTCAAAAAAAAAAAAAA
+>ref|NM_175787.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B6 (NDUFB6), mRNA
X63212.1 B.taurus CI-B17 mRNA for ubiquinone oxidoreductase complex
+AGGTCGCTTTGCAGAGCGGGAGCGCGCGTAAGTGACAAGACCCTGGTTCGGGTGCGCGCCGTCTCTTGCTGCCTTGGTAT
+CAGCAGCGACATGTCGGGGTATACGCCCGAGGAGAAACTGCGGCTGCAGCAGCTTCGAGAGCTAAGAAGGCGATGGCTGA
+AAGATCAGGAGCTGAGCCCCCGGGAACCCGTGCTGCCTCCGCAGAGGGTGTCGCCTGTGGAGCGATTCTGGAATAAATTT
+TTGCAAGACGGAGCTCTCTGGAAGAACGTGATCTATAAGACATATCGACACAGTATCTTTGCTTTTACTCATGTACTTAT
+TCCTGTCTGGATTATTCATTATTATCTCAAGTATCACGTGACTACAAAACCATATACCATCGTTGAAAAGAAGCCCAGAA
+TATTTCCAGGTGATACAATTCTGGAGACTGGAGAAGTAATCCCACCCATGAAAGAATTTCCCGATCAACATCATTGAAGA
+TTACTTTAAAATTTCAAAGGTGTATGGGCCTAAGTTTGTTGCTACATTACCAACTTATTTAAAGTATTTTCTGGAAAAGT
+AATAAAGTTTACTCACATAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_176660.2| Bos taurus NADH:ubiquinone oxidoreductase subunit B7 (NDUFB7), mRNA
X63210.1 B.taurus CI-B18 mRNA for ubiquinone oxidoreductase complex
+GAACCTGCGGTGACAGCAGCCATGGGGGCTCACCTGGCCCGGAGATACCTGGGCGATGCATCGGTGGAGCCCGATCCCCT
+GCGGATGCCCACTTTCCCGCCCGACTACGGCTTCCCCGAGCGCAAGGAACGCGAGATGGTGGCCACTCAGCAGGAGATGA
+ACGACGCCCAGCTGGTGCTCCAGCAACGCGACTACTGCGCCCACTACCTCATCCGGTTTCTCAAGTGCAAGCGCGACAGC
+TTCCCCAACTTCCTGGCCTGCAAGCACGAGCGGCACGACTGGGACTACTGCGAGCACCTCGACTATGTGAAGCGCATGAA
+GGAGTTTGAGCGCGAGCGGCGGCTGCTCCAGCGGAAGAAGAGACGGGAGCAGAGGGAGGCGGACATGGCCAAAGGCCTGG
+GGCCCGGCGAGGTGGCCCCCGAGGTGGCCCTGTAGCGAACCTGCCCACCACTCTGTGGACCAGTCAAGAAATAAAAGCCT
+CCAGGCCCCTCGGCCCAAAAAAAAAAAAAAAAAAAA
+>ref|NM_175815.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A2 (NDUFA2), mRNA
X63219.1 B.taurus CI-B8 mRNA for ubiquinone oxidoreductase complex
+AGGTCTAGGGCGGATGATTGAGTACTAGCCGAGATGGCGGCGGCTGCAGCGATTCGTGGGGTCCGAGGCAAATTGGGTCT
+TCGTGAAATTCGTATCCATTTGTGCCAGCGCTCGCCCGGCAGCCAGGGCGTCAGGGACTTCATTGAGAAACGCTATGTGG
+AGCTGAAGAAAGCGAATCCCGACCTGCCCATCCTAATCCGCGAGTGCTCGGATGTGCAGCCCAAGCTCTGGGCCCGCTAC
+GCATTTGGCCAAGAGAAGAATGTCTCTCTGAACAATTTCAGTGCTGATCAGGTAACTAGAGCCCTGGAGAACGTGCTAAG
+TAGCAAAGCCTGAAGTCTCCACTGAGGATTAAAAACAACAGCCCCAGAGTCTGGGCTCTGCTGGACTGAGAACAATGTGG
+AGAAATGTATTTTGTTCTGTATAAAGATTGTGCTGAAAATGCTGTCTAAAAATGATCTGATTCGCATCCCACCAACTACC
+CATTATTGTGCAACCATCTGAGGGAAAGCAGTTGAATATAAAAATAAAACTTATTTTATTCTGCCCATCAAAAAAAAAAA
+AAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_176659.2| Bos taurus NADH:ubiquinone oxidoreductase subunit A3 (NDUFA3), mRNA
X63217.1 B.taurus CI-B9 mRNA for ubiquinone oxidoreductase complex
+GCCGAGACCAAGATGGCTGAGAGAGTCGCAGCCTTCCTCAAGAATGTCTGGGCCAAGGAACCGGTGCTAGTGGCATCCTT
+CGCCATTGCGGGCCTCGCTGTAATCCTGCCCACACTCAGCCCCTACACCAAGTACTCGCTCATGATCAACCGGGCCACAC
+CCTACAACTACCCAGTGCCCCTCCGAGACGACGGGAACATGCCCGACGTGCCCAGCCACCCCCAGGACCCCCAGGGCCCA
+AGCCTGGAGTGGCTGAAGAGACTGTGAACGCCTCTGTTAACAGGGAGCAGCCCCCGCCCCAATGGCCCCAATAAATGCGT
+GAAAACCAAAAAAAAAAAAAAAAAAA
+>ref|NM_174564.2| Bos taurus NADH:ubiquinone oxidoreductase subunit C1 (NDUFC1), mRNA
X63214.1 B.taurus CI-KFYI mRNA for ubiquinone oxidoreductase complex
+CCCAGGAAGCCAGGCAAGATGGCGCCGTCCGCGTTGTTGCGGCCATTCTGGAAGCTGCTGGCCCCGGCTAGGTTCCCGAG
+TGTCTCTTCATCTCGGTCAAAGTTCTACATTCAGGAACCGCCACATGGCAGTCCCAACTGGCTGAAAGTTGGCTTGACCT
+TGGGCACCTCCGTTTTTTTGTGGATCTATCTCATCAAACAACATAACGAAGATGTTTTAGAGTATAAAAGAAGAAATGGG
+TTGGAATAAACTTTTGAAATACTAAAACAGTGTGTTCCGTAAAGTGATTATAGCAGTTCCTCTGGATTCACGAATCTGTT
+GAGTTGTAAACGTGAGAGAAAGAATTACGTGTGAATATATGTCAAGTCAGCATTTGTGTTTTACATGATTAAATTAAAAA
+TACTTCTGTATTCTTCAAAAAAAAAAA
+>ref|X63223.1| B.taurus CI-MNLL mRNA for ubiquinone oxidoreductase complex
+CGTGTTGGCTCCGAGGCCGCAGCATTCATGATGAACTTACTTCAGGTTGTGCGTGACCACTGGGTACATGTACTTGTCCC
+TATGGGATTTGTCTTTGGATATTATCTGGACAGAAAGAATGATGAAAAGCTAACTGCCTTCCGGAACAAGAGTCTGTTAT
+ATAAAAGGGAATTGAAACCTAATGAAGAAGTCACCTGGAAGTAATGGCTACAGCTGAATTACAGAATGTTCACTTTTTTA
+AAATTATAATAGAAATAAAAACACTCATTATTTAATTTGAGAAAAAAAAAAAAA
+>ref|X63224.1| B.taurus CI-PDSW mRNA for ubiquinone oxidoreductase complex
+GCAGCCATGCCGGACAGCTGGGACAAGGACGTGTACCCCGAGCCCCCGCGCCGCACGCCGGCGCCCTCGCCGCAGACCTC
+GCTGCCCAACCCTATCACCTACCTTACGAAAGCCTTTGACCTCCTCGTGGACCGGCCGGTGACCCTCGTGAGAGAGTTTA
+TCGAGCGGCAGCATGCCAAGAACAAGTATTACTACTACCACCGTGAGTTCCGCCGCGTGCCAGACATCACAGAGTGCCAG
+GAGAAGGACGTCTTGTGCATGTTTGAAGCAGAAATGCAGTGGAGAAGAGATTACAAAGTTGATCAAGAAATCGTCAACAT
+TATCCAGGAAAGGCTCAAGGCCTGTCAGCAGAGGGAAGGTGAGAGCCACAGGCAGAACTGTGCCAAGGAGCTGGAGCAGT
+TCACCCAGGTGGTCAAGGCCTACCAGGACCGCTATCACGACCTGGGAGCCCATTATTCTGCCAGGAAGTGCCTGGCAAAG
+CAGAAGCAGAGGATGCTGGCAGAGAGAAAAGCCGCCAAAGAGGCTGCTGCTGCCTGAGGCAGCAGTGTCAGCTTTGTCAC
+TGTTGCTAAAATAAAGAGTAATGGAGCCTGAAAAAAAAAAAAAAAAAAAAA
+>ref|X63208.1| B.taurus CI-SGDH mRNA for ubiquinone oxidoreductase complex
+ACCCGTAGTAGCCATGGCGGCCATGAGTCTTTTGCATCGGGCTTCGGTTTCTGCAGTGGCCGCTCTGTCCGGCCGCCGTC
+TTGGCACCCGACTTGGATTCGGAGGCTTCCTCACCCGTGACTTTCCGAAGACTGTCGCTCCTGTGCGACACAGTGGAGAC
+CATGGGAAAAGACTGTTTATTATCAAGCCTTCCGGATTCTATGACAAACGTTTTTTGAAATTACTGAGATTCTACATTTT
+ATTGACTGGGATTCCAGTAGCAATTGGCATAACTTTGATAAATGTATTCATTGGTGAAGCTGAGTTAGCAGAAATTCCAG
+AAGGCTACGTCCCAGAACACTGGGAATATTTCAAGCATCCTATATCAAGATGGATTGCCCGAACTTTCTTTGATGGTCCT
+GAAAAGAATTATGAAAGAACAATGGCTATCCTTCAAATTGAAGCTGAAAAGGCTGAATTACGATTAAAGGAGCTGGAAGT
+ACGAAGATTAATGAGAGCAAGAGGTGATGGCCCCTGGTTTCACTATCCAACCATCGATAAGGAACTTATTGATCATTCTC
+CAAAAGCAACCCCTGACAACTAATCTTTTGTTTCTCTAAGTACAAAGTATATTGTCTTTAGGTGAAAATAAATTACTAAA
+TATATTCTGTAAAAAAAAAAAAAA
+>ref|X02420.1| Bovine mRNA 3' fragment for type II collagen pro-alpha 1 chain
+ACCCTGGATGCCATGAAGGTTTTCTGCAACATGGAGACTGGCGAGACCTGCGTCTACCCCAACCCGGCCAGCGTCCCCAA
+GAAGAACTGGTGGAGCAGCAAGAGCAAGGACAAGAAACACATCTGGTTTGGAGAAACCATCAACGGTGGCTTCCACTTCA
+GCTATGGAGATGACAACCTGGCTCCCAACACCGCCGACGTCCAGATGACCTTCCTGCGCCTGCTGTCCACCGAGGGCTCT
+CAGAACATCACCTACCACTGCAAGAACAGCATTGCCTACCTGGACGAAGCTGCTGGCAACCTCAAGAAGGCTCTGCTCAT
+CCAGGGCTCCAACGACGTGGAGATCCGGGCTGAGGGCAACAGCAGGTTCACATATACCGTTCTGAAGGATGGCTGCACGA
+AACACACCGGTAAGTGGGGCAAGACTATGATCGAGTACCGGTCACAGAAGACCTCCCGTCTGCCCATCATTGACATTGCA
+CCCATGGACATAGGAGGGCCCGAGCAGGAATTCGGTGTGGACATAGGGCCTGTCTGCTTCTTGTAAAAACCCGAACCCAG
+AACCAACACAATCCATTGCAAACCCAAAGGACCCAAGAACTTTCCAATCCCAGTCACTCTAGGACTCTGCACTGAATGGC
+TGACCTGACCTGACGCCCATTCATCCCACCCTCTCACAGTTCGGACTTTGCTCCCCTCTCTAAGAGACCTGAACTGGGCA
+GACTGCAAAATCAAATCTCGGTGTTCTATTTATTTATTGTCTTCCTGTAGGACCTTTGGGTCAAGGCAGAGACAGGAAAC
+TAACTGGAGTGAGTCAAACGCCCCCTGAGTAACTACCCCCCGGCCCAAGCAAGGGGCCCCTGCAGGTGCCGGGCGCAGGG
+ACTGCGCGCGTCCTACACAACGGCGCTATTCTGTGTCAAACACCTCTGTATTTTTTAAAACGTCAATTGATATTAAAAAC
+AAAAAAATTATTGGAAAGT
+>ref|X15112.1| Bovine mRNA for cytochrome c oxidase subunit VIb (AED)
+TCAGCACTATGGCAGAAGACATCCAGGCCAAAATCAAGAACTACCAGACTGCTCCTTTTGACAGCCGCTTCCCCAACCAG
+AACCAGACCAGGAACTGCTGGCAGAACTACCTGGACTTCCACCGCTGTGAGAAGGCAATGACCGCTAAAGGAGGTGATGT
+CTCCGTGTGTGAATGGTACCGGCGTGTGTACAAGTCCCTCTGCCCCATATCCTGGGTCTCAACTTGGGACGATCGCCGGG
+CAGAAGGCACGTTTCCTGGGAAGATCTGAACTGGCTCCATCCCACCTCTTCTGTCCTCCGTCCTTCTCCCCAGGGTGGTT
+AAGGGGGACCGGGGTACATGGTTGATCTCCCACCCTAGG
+>ref|X56857.1| Bovine COX6A mRNA for cytochrome c oxidase subunit VIa
+CCCAGCTTCTGCCATACATGGCTTTGCCTCTGAAGTCCTTGAGTCGGGGCTTGGCCAGTGCGGCCAAGGGAGACCATGGT
+GGGACAGGAGCCCGCACCTGGCGCTTCCTGACTTTCGGGCTGGCGCTCCCGAGCGTGGCCCTCTGCACCCTCAACTCCTG
+GCTCCACTCGGGCCACCGCGAGCGCCCGGCATTCATCCCTTACCATCACCTCCGGATCCGCACCAAGCCCTTCTCATGGG
+GAGACGGCAACCACACTTTTTTCCACAATCCCCGGGTCAACCCTCTGCCCACGGGCTACGAAAAGCCTTGAGGCTTGGCT
+GATGCCCCCCAGACACAATAAAAT
+>ref|NM_176674.2| Bos taurus cytochrome c oxidase subunit 7A1 (COX7A1), mRNA
X56739.1 B.taurus COX7a mRNA for cytochrome oxidase c subunit VIIa (heart isoform)
+GAATTCGGGCAGAGAGAGGTAGTGGGGGAGAGCCCGGCCGAAGACGAGGACACAGGATGAGGGCCCTGCGGGTCTCCCAA
+GCGCTGGTCCGCTCCTTTAGCTCAACCGCCCGGAACCGCTTCGAGAACCGAGTAGCTGAGAAACAGAAACTCTTCCAGGA
+GGACAATGGCCTCCCGGTGCACTTGAAGGGCGGTGCAACAGACAACATCCTGTATCGAGTGACGATGACTCTGTGTCTGG
+GGGGCACTCTCTACAGCCTGTACTGCCTTGGCTGGGCCTCCTTCCCTCACAAGAAGTGAAACCAAGAAGTCTGCAGGACC
+CGAACAGGCATCAATAAATGTGCTGGTTTCCTGGGGAACACAGCCCAGCTCCATGCTCCCTAAAAAAAAAAAAAAAAAAA
+AAAAAAAAAAAGGAATTC
+>ref|X15235.1| B.taurus mRNA for cytochrome c oxidase subunit VIIa (EC 1.9.3.1)
+GAATTCCGATAAGAGGTTGGTGGGTAGTAACTGAGCCAAGATGCTACGGAATCTTCTGGCTCTCCGTCAGATTGCTAAGA
+GGACCATAAGTACTTCTTCACGCAGGCAGTTTGAAAATAAGGTTCCAGAGAAACAAAAGCTGTTTCAGGAGGATAATGGA
+ATTCCAGTGCATCTGAAGGGTGGGATAGCTGATGCCCGCCTGTATAGAGCCACCCTGATTCTTACAGTTGGTGGAACGGC
+ATATGCCATGTATGAACTGGCTGTGGCTTCATTTCCCAAGAAGCAGGATTGACTTGAGTTTATCCTCCCAGCAATCAGTT
+GGGTCAATTCCATTCAGCTCTCTGTGGACCAGTAATCTGATACGTAACTGAGTTCTTTGGGGATCAATATTTATTGACTT
+GTATTAGCTGCCCGGAATTC
+>ref|X15725.1| Bovine COX7cl mRNA for cytochrome c oxidase subunit VIIc (EC 1.9.3.1)
+GAATTCCCGCCATTTCTTCCGCCTCCGGTCTCTGGATCTTTCGTAGAGCGTCCAACAGCGCTATGTTGGGACAGAGCATC
+CGGAGGTTCACAACCTCAGTGGTTCGTCGGAGCCACTATGAGGAGGGTCCAGGGAAGAATATACCATTTTCAGTGGAAAA
+CAAGTGGAGATTACTAGCTATGATGACTTTGTTCTTTGGGTCTGGATTTGCTGCACCTTTCTTTATAGTAAGACACCAAC
+TGCTTAAAAAGTAATCCATGAGACAGATAGGAAGAGGAGCATATTAAGAGGTGCAGTCTCTTAAAAGGATCAATCCCTTG
+AATTC
+>ref|X58823.1| Bovine COX7cP1 retroposed pseudogene for cytochrome c oxidase subunit VIIc
+GATCTTTTGTAGAGTGTCCAACAGCGCTATGCTGGGACAGAGCATCCGGAGGTTCACAACCTCAGTGGTTCGTCGGAGCC
+ACTATGAGGAGGGTCCAGGGAAGAATATACCATTTTCAGTAGAAAACAAGTGGAGATTACTAGCTATGATGACTTTGTTC
+TTTGGGTCTGGATTTGCTGCACCTTTCTTTATAGTAAGACACCAACTGCTTAAAAAGTAATCCATAAGACAGATAGAAAG
+AGGAGCATATTAAGAGGTGCAGTCTCTTAAAAGGATCAATCCCTTGAACTCAGCATCCTAGATATGTTTGTAAATAAACT
+TATAGCGTAAATCCTTAATGCCTCTTCTCTGAAATATGGAACATGATAATTGAACATGTGCTTACATTTTGTTTGGGTAA
+TATTGCATTATTAGTTTCTTAATTAAATATGTATTTGATTTAGCTTGTTTAAAAAAAAAAAAGCTGAGACACACAATGGG
+CATTCTTCATGTTTAGAATCCTACACACTCATTACAACAGAAACTACAAGTATACCCCCATCCTCCACTGTTCAGGACCA
+AGCTGTGGCCAGGGCCTGCCAGATC
+>ref|X07436.1| Bos taurus mRNA for cellular retinoic-acid-binding protein (CRABP gene)
+GGGGCTTGGAGTGTGCCCGCTGTGCCGCAGCTGTCCGTGCCTGCCGCCGCCTTCCCGCCGCCGCCACCGCTGCCACCATG
+CCCAACTTCGCTGGCACCTGGAAGATGCGCAGCAGCGAGAATTTCGACGAGCTGCTCAAGGCGCTGGGTGTGAACGCCAT
+GCTGAGGAAAGTGGCCGTGGCGGCTGCGTCCAAGCCGCACGTGGAGATCCGCCAGGACGGGGACCAGTTCTACATCAAGA
+CGTCCACCACGGTGCGCACGACCGAGATCAACTTCAAGGTCGGAGAAGGCTTTGAGGAGGAGACCGTGGACGGACGCAAG
+TGCAGGAGCTTACCCACTTGGGAGAATGAGAACAAGATCCACTGCACACAAACTCTTCTGGAGGGGGACGGCCCCAAAAC
+CTACTGGACCCGCGAGCTGGCCAACGACGAACTCATCCTGACGTTCGGCGCCGATGACGTGGTCTGCACGAGGATTTATG
+TTCGGGAATGAAGGCGGCCAGCTTGCTCCAGCTTTGGGGGTGGGATGCATGTTCCCCCAAGGAATGTCATAGCTCTGAGC
+CGCCAGTGGACCTCCTCTTCCCCGGTATTAACGTTAGGTGATCCCGATGTCCCCCCAGTAATGCTGTAGTGTTTTCCCCA
+AGGCTTTGTGCCTCTGTCTCCCTGGCGCTCCATAGTCTGGCATCTGTATGGTTTCATCAGTCATTAAACTGGGTGTACAC
+ACCTC
+>ref|X01036.1| Calf lens mRNA for gamma-crystallin
+CACCACCTCCTGCTGCCTTTCGCCAACATGGGGAAGATCACTTTTTACGAGGACCGGGGCTTCCAGGGCCACTGCTACGA
+GTGCAGCAGCGACTGCCCCAACCTGCAACCCTATTTCAGCCGCTGTAACTCCATCCGCGTGGACAGCGGCTGCTGGATGC
+TGTATGAGCGCCCCAACTACCAGGGCCACCAGTACTTCCTGCGGCGCGGCGACTACCCCGATTACCAGCAGTGGATGGGC
+TTCAACGACTCCATCCGCTCCTGCCGCCTCATCCCGCAACACACCGGCACTTTCAGAATGAGAATCTACGAGAGAGATGA
+CTTCAGAGGACAGATGTCAGAGATCACAGATGATTGTCCCTCACTTCAAGACCGCTTCCACCTCAGTGAGGTTCACTCCC
+TCAACGTGCTGGAGGGTTCCTGGGTCCTCTATGAGATGCCAAGCTACAGGGGAAGGCAGTACCTGCTGAGGCCAGGGGAG
+TACAGGAGATATCTTGACTGGGGGGCAATGAATGCCAAAGTTGGTTCTTTAAGACGGGTGATGGATTTTTATTGAAGTTT
+TAAATTCCCCACTTTTCTCCTTTAGAATCTAATAAAAGATTTAGCTTGTGTTTCTGGCA
+>ref|NM_174837.2| Bos taurus cytochrome b561 (CYB561), mRNA
X12783.1 Bovine cytochrome b561 mRNA
+TCTCTGTATTTCACCCATGAACCCGACCTGAGAAAACCCAGGGCCTCGTGAAACAAAGCACTGCCGTGGGGCCCTCCTGC
+TCTCCTCAGAATGTGGAGGACCTTGACTTGCACCCTCACTGCAGGTGGAAGTGCAGCCAGTAGCCGCCTCAGCATGGAGG
+GCCCTGCCAGCCCAGCACGTGCCCCCGGGGCGCTGCCCTACTACGTGGCCTTCTCCCAGCTGCTGGGCCTGATCGTGGTG
+GCCATGACTGGCGCCTGGCTTGGTATGTACCGAGGCGGCATTGCCTGGGAGAGTGCCCTGCAGTTCAACGTGCACCCCCT
+CTGCATGATCATAGGCCTGGTCTTCCTGCAGGGAGATGCCCTGCTGGTTTACCGCGTCTTCAGGAATGAGGCCAAACGCA
+CCACCAAAGTCCTGCACGGGCTGCTGCACGTCTTCGCCTTCGTCATCGCCTTGGTGGGCCTGGTGGCGGTGTTCGAGCAC
+CACAGGAAGAAGGGCTACGCCGACCTGTACAGCCTGCACAGCTGGTGCGGCATCCTGGTCTTCGCGCTCTTCTTTGCGCA
+GTGGCTCGTGGGCTTTAGCTTCTTCCTGTTCCCGGGCGCCTCGTTTTCTCTGCGGAGCCGCTACCGCCCGCAGCACGTCT
+TCTTCGGCGCCGCCATCTTCCTGCTCTCGGTGGCCACCGCCCTGCTGGGCCTGAAGGAGGCGCTGCTGTTCGAGCTCGGG
+ACCAAGTACAGCATGTTCGAGCCCGAGGGCGTCCTGGCCAACGTGCTGGGCCTGCTGCTGGCCACCTTTGCCACGGTCAT
+ACTCTACATCCTGACCCGCGCCGACTGGAAGCGGCCCCTCCAGGCGGAAGAGCAAGCGCTCTCCATGGACTTCAAGACGC
+TGACGGAGGGCGACAGCCCCAGCTCCCAGTGACGGGCGCCCCATCCTGGCCCCTCCTGTTCCGGGGGCCCAGGCAGGTGT
+CCGTCCCGCAACCGGCAACCGCCGCTGAGGGTCCGGGCAGGGCTGGGCACAGCGGAGGTAGGGGGGAAGTCCTCTCTGAG
+CGCAGATTTTTGGGATTCAGGCCCCCTCCGCTTCCCGCTCCTCGCTGCTGCTGCTGTCGGTTGTTAGTCCTGAGCACGCG
+TTCCGGCCCCCCCGCCCCTGTTGCCACCCGACTTCCTCCCCAAGATGGAGCAGCTTTGGGAAAGGCTCTGGGCCTAAATG
+GGTACGAGAGTTGGGGGCGCTCCCTTCTCGAGGCCGCAGCGAACGTGAGACTTGCTTTGTGTGACCCCGAACTCCTGCCA
+GGAGTCTTGCGGCCCGAAGGACCGGCTCTCTGAAAGGGCCCAGCCTTTGGCAGCGGAGCTAGTGACATTATATGTGAAAT
+ATGCTGGTGTCAGGGCCAGGTTCCCCAGGAGAGGGGAGGGACTCCCTGGGACTCTCTGGACCCAGGCTTTGGCACAGCTG
+CGTTCTGGAGCCTTCCCTTTCTTTAACCCTTTAGCCCCGAGGCGGCTTTGCCTTGGGGGCCGTAGACTTGGGACAGACTT
+GCCGTGAGCCGCTTCAGAGGGCAGCCCAGAGAAGAGGCTGGAGGTGGGCCTGGGTGGGCGCTGGGCCACCTGCAGGGGCT
+TCTGTCCCCACTGGGCCAGGCCTCCGCTCCTGACCCTCAGAGCTCACGGGAGGCTGCTCTGACAAGAGGGCACAGGCCTT
+TTCTCATTAAACAAAAGGCTGCCACTAGAAAAGGATAAGGTGCCCCCTTTCGATTTCCATGAGGAGGGTTCGGGAGGACA
+GTCTCCTCTCCTACCTGCGGCCGGTCTTTGCAGGAAATTGGGACCAAGACGGAATCAGATTAATCCCCCCACAACCCTGT
+GAGTGTGTAACGCTGTTAGCTGAGTGCTGTTTGCTTCGGTCTAGAGATAACGTGATTAGAGCATTGATCTGCGCTTCTTG
+GACTTGGCAAATGCTCTCTCCTTGTTTTCCTCATTTTCCGGGCTTTGAGGAACATGACGCAGTTTCAGACAAGACAGAGT
+CGACTTAAGACATTAATAAAATTTCCAGTTCTGACTACCGTTTTTCAGCAGCTGCCTCTCCCAGCTAAATGCTGCCTTCG
+AGAAAAGGGGCTCATCTCCTCTAATACTCGGATTCCTACAACTCGGCCTTTGCCGTGGGTCCCGCCTCAGGCGATGCTGC
+TCCTCAGGGCAGGTGGCGGAGGTGGGCGCCCTCCCCAGCAAGGCTGCCTGCTCCCCATCCCACCCCGTGGCCGCTCTGAG
+CTCTGCTGCGGCTGGCCACCCCCGCACACCACCGCAAGCCGTTTACACTGTTCTTTGATCGCCTGGTATAGTTGATGTTT
+ACACGTGGGAAACTCCACCTTAGACAAACGACCAGAGTAGGATTGTGTATCTCTCTTGCCAGAAGGGCACAGAGAGAAAC
+AGAACCTTGGATTTGCAAAGAAAAAAAAAAAAAGTCTGAACACTGGCCTGTTTGCCAAATCATATGCTGGATAACTAATA
+AGCCAAAAAGGCACCCCCCTCCCCACCTGCCCCAGCCAAGCTGATCCGTGGTGGCTTGTTTTGCCTGTGGCCAATCTTCG
+ATGAAGTCCAGTGTAGTGCTGGTACAACAGATGATTCAATAAAT
+>ref|X13617.1| Bovine mRNA for cytochrome b5
+CGGCGAGCCTAAGGCCCTAAAGGCAGCAGGAGAGCTGAGTTAAGAAATGGCCGAGGAGTCCAGCAAAGCCGTTAAGTACT
+ACACCCTGGAAGAGATCCAGAAGCACAACAACAGCAAGAGCACCTGGCTGATCCTGCACTACAAAGTGTACGATTTGACC
+AAATTTTTGGAGGAGCATCCTGGTGGGGAGGAAGTCTTAAGGGAACAAGCTGGAGGTGATGCCACTGAAAACTTTGAGGA
+TGTTGGACACTCTACAGATGCTCGAGAATTGTCCAAAACGTTCATCATTGGGGAGCTGCACCCGGATGACAGATCAAAGA
+TAACCAAGCCTTCGGAAAGTATTATTACTACCATTGATTCAAATCCCAGCTGGTGGACCAACTGGCTGATCCCAGCTATC
+TCAGCGCTGTTTGTAGCCCTGATATATCACCTCTACACTTCGGAGAACTAAACACATTCTCAGAAGCCAATGGAAGAAAA
+GACTGCTTTGGTCCAGGGAGAAAGAAGCCACCACTCTTAACTTCAACGGACAAACCCTTCACCTGAAAATAATCTGAATA
+CACCTATTTTCCTTTCCTCCTACATTAGACACAAAACAAACCATAACTGTTCCATTCTTTGGACTATTGAACTTCTAAAG
+TGTGCCTTCTTATTCACCAACTTTGTTTTGCTGTTCCATCACTACATCATTTGCTTATGGTGGTATGTTTTAAAA
+>ref|X59693.1| B.taurus mRNA for ubiquinol-cytrochrome-c reductase (subunit II)
+GCACGAGGCCGCTGTCTGCCACCATCTTGCTTTCCTCTAAGGCGGCAGTGACCGAGGTTCAGAACAATCTTGAGCAATGA
+AGCTGTTAACCAGAGCCGGGTCCCTCTCGAGATTTTATTCCCTCAAAGTTGCTCCTAAAGTTAAAGCCACAGAAGCCCCT
+GCAGGAGTGCCTCCACATCCTCAGGACCTTGAGTTTACCAGGTTACCAAATGGTTTAGTGATTGCTTCTCTCGAAAACTA
+TGCTCCTGCATCAAGAATTGGTTTGTTCATTAAAGCAGGCAGCAGATATGAGAACTCCAACAATTTAGGAACTTCTCATT
+TGCTTCGTCTTGCATCCAGTTTGACTACAAAAGGAGCTTCATCTTTCAAGATAACCCGTGGAATTGAAGCAGTTGGTGGT
+AAATTAAGCGTGACGTCAACAAGGGAAAACATGGCCTATACTGTGGAATGCCTGCGGGATGATGTTGATATTCTAATGGA
+GTTCCTGCTCAATGTCACCACAGCACCAGAATTTCGACGCTGGGAGGTAGCTGCCCTTCAGCCTCAGCTAAGGATTGACA
+AAGCTGTGGCTCTTCAGAATCCACAGGCTCACGTCATTGAAAATTTGCATGCTGCCGCTTACAGAAATGCCTTGGCTAAT
+TCCTTATATTGTCCTGATTATAGGATTGGAAAAGTGACACCAGTTGAGTTACATGACTATGTACAAAATCATTTTACAAG
+TGCAAGAATGGCTTTGATTGGACTTGGTGTGAGTCATCCTGTCCTAAAGCAAGTTGCTGAACAGTTTCTTAACATAAGGG
+GTGGCCTTGGTTTATCTGGTGCAAAAGCCAAGTACCATGGAGGTGAAATTCGAGAACAGAATGGAGACAGTCTCGTCCAT
+GCCGCTCTTGTAGCAGAGAGTGCAGCCATAGGAAGTGCAGAAGCAAACGCGTTCAGTGTTCTCCAGCACGTCCTTGGTGC
+TGGACCACACGTTAAGAGGGGCAGCAATGCCACCAGCTCTCTGTACCAGGCTGTTGCCAAGGGAGTTCACCAACCATTTG
+ATGTTTCTGCTTTTAATGCCAGTTACTCAGACTCTGGACTCTTTGGGTTCTACACTATCTCACAAGCTGCATCTGCTGGA
+GACGTTATCAAGGCTGCTTATAACCAAGTAAAAACAATTGCTCAAGGAAACCTTTCTAATCCAGATGTCCAAGCTGCCAA
+GAACAAGCTGAAAGCTGGGTACCTGATGTCAGTGGAGTCTTCTGAGGGTTTCCTGGATGAAGTTGGGTCCCAGGCTCTAG
+CTGCTGGTTCATACACGCCGCCATCCACAGTCCTTCAGCAGATTGATGCAGTAGCTGACGCTGATGTCATAAATGCTGCA
+AAGAAGTTTGTTTCTGGCCGGAAGTCAATGGCAGCAAGTGGAAATTTGGGGCATACACCTTTCATTGATGAGTTGTAATA
+CTGAATCCCATATTGCAGGAAAGAACTGAACGTTTTGTGAACCCAGAGCAGCAAATAACATGAAAGTGAAAAGTCCTAAT
+GTAACATTTATCTTTTCTTCCAGTGAGAGGAAATATAAAGCATAAATATAGGTAATTGTTCCCAACTGACCTAAAGTCAA
+TAAAGCATTCTATTTAAATGTT
+>ref|X14478.1| B.taurus cytokeratin IV gene upstream region
+AAGCTTGTTCTTATGCTGTAAAAACTCATCTCCTTTGTCCCTCTTGCCTTTCAAAGGAGTGTCATGTCCCCAGAGTAGCC
+CCCAATTCCCAGGCCAGGCCACCAGGAAGGCAGTCAGGAGATCCAGAAGGACATGTTCAAACATGGCCCAAAACCACCGC
+AAGCCACTTTCTTGCTCAGACCACAGGCAAATGCCTATTAACCCTCAGAGACGTTCAACCTGAATGGGAAGGGTGGTGTG
+AGTGGAGAAGAAAACTTGTGTGGGAAGGGGGCAAGAGAAGAGTGTCTGAGTAAGCAGAAGGAGGGGACAATTATCACAGA
+TCAGCTCCTTGTCTCCTTTGTTTGAGAGCATGACTAACCCATGACTTCAGTGAATTTACATCCAGTGGTATTGTGTTGGG
+ATCAAGTCAAGGCTAGAAGCCAGAAGAATTTCTCCATGACTAAAGGAAACCAAAGAAGCAATATTCATACTTCATACCTT
+TCTAGAGGCAGGGGGTGATCTCACTATTTGTAAAGCCCAGCCCTTTCTAATCTGCAGGCTCACCTTCCAGGACTGAGCCC
+GGCCCATTTTTTCCATATATAAGCTGCTGCCGGGCCGCCCTCTATAGATCTGTTCTTTAGCTCTGCTTTCCACCTCTCAC
+ACCCTTCTCAACCTATTCTTCTTCAGGAACCATGTCTTACAAATCCACTGTGAAGACCCA
+>ref|NM_174043.2| Bos taurus dopamine receptor D2 (DRD2), mRNA
X51657.1 B.taurus dopamine D2 receptor mRNA
+CCCATGGATCCGCTGAACCTGTCCTGGTATGATGATGATCCAGAGAGCCGGAACTGGAGCCGGCCCTTCAATGGGTCCGA
+AGGGAAGGCTGACAGGCCCCCCTACAACTACTATGCCATGCTGCTCACCCTGCTCATCTTCGTCATCGTCTTTGGCAACG
+TGCTGGTGTGCATGGCTGTGTCCCGCGAGAAGGCGCTGCAGACCACCACCAACTACCTGATCGTCAGCCTCGCTGTGGCT
+GACCTCCTGGTGGCCACGCTGGTCATGCCCTGGGTGGTCTACCTGGAGGTGGTGGGCGAGTGGAAATTCAGCAGGATTCA
+CTGTGACATCTTTGTCACCCTGGATGTCATGATGTGCACAGCCAGCATCCTGAACCTGTGTGCCATCAGCATTGACAGGT
+ACACAGCCGTGGCCATGCCCATGCTCTACAACACACGTTACAGCTCCAAGCGCCGGGTCACGGTCATGATCGCCATCGTC
+TGGGTCCTGTCCTTCACCATCTCCTGCCCGATGCTCTTCGGACTCAACAACACAGACCAGAACGAGTGCATCATCGCCAA
+CCCCGCCTTCGTGGTCTACTCCTCCATCGTCTCCTTCTACGTGCCCTTCATCGTCACCCTGCTGGTCTACATCAAGATCT
+ACATCGTCCTCCGCAGGCGGCGCAAGCGCGTCAACACCAAGCGCAGCAGCCGGGCTTTCCGGGCCAACCTGAAGGCCCCG
+CTCAAGGGCAACTGTACTCACCCCGAGGACATGAAACTCTGCACCGTTATCATGAAGTCTAATGGGAGTTTCCCAGTGAA
+CAGGCGGAGAGTGGAGGCCGCCCGCCGAGCCCAGGAGCTAGAGATGGAGATGCTCTCCAGCACCAGCCCGCCTGAGAGGA
+CCCGATACAGCCCCATCCCTCCCAGCCACCACCAGCTGACCCTCCCCGACCCATCCCACCACGGCCTGCATAGCACACCC
+GACAGTCCCGCCAAACCAGAGAAGAACGGGCATGCCAAGACCGTCAATCCCAAGATTGCCAAGATCTTTGAGATCCAGTC
+CATGCCCAATGGCAAAACCCGGACCTCTCTCAAGACCATGAGCCGCAGAAAGCTCTCCCAGCAGAAGGAGAAGAAGGCCA
+CCCAGATGCTCGCCATTGTTCTCGGCGTGTTCATCATCTGCTGGCTGCCCTTCTTCATCACCCACATCCTGAACATACAC
+TGTGACTGCAACATCCCGCCCGTGCTGTACAGCGCCTTCACGTGGCTGGGCTACGTCAACAGCGCCGTGAACCCCATCAT
+CTACACCACCTTCAACATCGAGTTCCGCAAGGCCTTCCTGAAGATCCTACACTGCTGACCCTGCTGCCTACCTGCACAGC
+AGCCCGCCTCTCCCTCCCCTGCCCCGCGGCCCCGCCTGGGCCCGGGAGCCGCGGGCAAGGGGGGCGCAGGGCAGCCTGGG
+CCATGTCCATCAGCCCAGAGGGCCCTGCAGTGTTAGCTTGGCTCCTGCCCGCACCATCCGCGCACCTTGGAGCAGCGGGG
+GCAGCGCTGGAGAGCAGGCGCCACGGGCACCCCCGGGCTCAGGGGCAGCTCAAGGGGGCCCCCGCCACTCCCAGACCCTC
+TCTCTTTGGCACCAAAGACGCAGCTGCCTTCTCCGACCTTTCTCTGGGGCTTTGGGGCTCTGCGGCTGCGGGGCCAGTAT
+CGAGGCTCGGAGGCTGGTTTTCACAGGCATGCGAGCTGGTGGTGGGGAGGAGTGGACAGTCACAGCCACCCAGGGCCCAC
+ACCTGAGAAGCCAGAGCTCTGGCCACGACCCCAGGCAGTGTTCAAGCCTGGGAGACCCGGGTACACCCCAGGTCTGGATG
+GACCCCAGAGAAGCAGAAGCCCAAACTCCTCACCCCTTCTCCCACCTGGCCTGGCAGGAGCTGCTCAGTTATCACAGCAG
+TGGTCCTGATCCACCCGCTCACCAGGAGGTTTCCATGCCCCTGAGATGGAGGATCCTGGGTCTCCAAGGACCTGGGGCAG
+GGGTGGAGGTGGGGGTCCTGTGTGACAGACTCCCCCATCCCAAGCCCACTTTGCTGACGACATGGTACAGCCCTTTTCTT
+AGCAAATGCTGGGCTAGTGGGGGCTCTGGCAGAGAAGGTGGGCTCGTCACATGTCTGGGGCCGGGGTTGGAGGTGTCTGG
+GTCCTTGCAGGGGACCTGCCACCCTCTGCCGCAAACCACTGTCCTTTTCTCTTCCTCTCGCCTTTTCGCAGTCCTGTCCC
+CTTTCTCTGTTGCCTCTGCCTTAGAGGAGCCCACGGCTGAGCAGCTGCTGAGGGGAGAGGGGAAGCCTCTCCTCAGGCCC
+CACACTCTGTAACATCACTACACATGCTCCACACTAATAAAACTTTGACAAGAGAAAAA
+>ref|Z18244.1| Bos taurus displacement-loop region
+CGGCTAAGAGGGCCACCAGTTACTATCTCTGAGTGACCTTGAGCAACTGACAACCTCTTCACTGGGTTGTTGAAGGACTA
+AATGTAATGGTTACTATTTAAAATTAACCAAGGGCCCTTCACATCTATTACCTCGCGGGATGCTTTAACTAACCCCATCA
+TGTTGGAAGTCAGGGAACTCCTGTCTTCATTTTACAAAATGACGGGAAAACGTGTCTTGTTCTTGGTACCTGGGTGTGCC
+GGCGGTCGGGGCTGCGGCGGTCTCCGAGCACCTCGGGCAGCGCAGACACAAGTAGCAGCCCCAGCGTACCCGCAAGCGAC
+ACCACGCTCGCCATAGCAGGCCAACACGGGAGACCGCGGGAGACGCCGGCGTTGTCGGACGCACCGGTGCACGCGCACGC
+AGGCGCGTCCCCCAGCCCCAGCTATTCCCACCCCGGGCCTCCCAGGGAGGTCACGCCCACCTAGCGTGTGGGCGGGGCCA
+GGCCTTATTTGCATAGGACTAGGGCTTAGCTTAGTTCATTTGTGAAACTAGTTCATTTCTTATCTCTATATAGGTGTTCT
+GTTAGCCAGAATGCCTCCAGAAGACTACATTCTTAGAACGTTATACAGGGAAGTGGTTTTTAATATGCCACACCACCAAT
+CTCCTCACCCTAACTTAAAATAAATGTCCTCCTCGAGCTATAAAGGGCTTGAATGCCCCGGTAAAAGGGAAGTTCGTGCT
+GAAGGCCTGTTTCCTAGGCTACATACGGAGGACTAGTTCCTTGTTTGCGCCTAGGGGAAAGTCCCCGGACCGTGGGCAGA
+GAGTGCCACGTGCCCGTGCACGTAGACTTCCCCTGCTTCTCACGACTAAACCCGCCAAGAAGCGATCCTACCCTGGGGGT
+GGGGAAGCCGAGCGGCGTGTTGCGGGGTGTCATCCGTCAGCTTCTAATAGTTACGCAGGCAGTGCCTCCATGCGCACCAA
+CCTCACGGGGCTCATTCTCAGCACGTCTCATTTTAACTTGAGCGACTATATAGCCAGACTGTCTATTAGCTGTCTCCGGG
+ACGTTTCGAAGTCACTCTGTTTCTGCACAGCTAACATCCATATACAACTTTCAGATCTCACTTTCCTCCTGTATGTGCGT
+GTTCCCTTCATAAGTGGAAGTGAAAGTCGTTCAGTCGTGT
+>ref|V00108.1| Bovine messenger RNA for preproenkephalin
+GCTTGCACTCTGGAATGTGAGGGGAAACTACCTTCTCTCAAGACCTGGGAAACCTGCAAGGAGCTTCTGCAGCTGACCAA
+ACTAGAACTTCCTCCAGATGCCACCAGTGCCCTCAGCAAACAGGAGGAGAGCCACCTGCTTGCTAAGAAGTACGGGGGCT
+TCATGAAGCGGTATGGGGGCTTCATGAAGAAAATGGATGAGCTGTACCCCCTGGAAGTGGAAGAAGAGGCAAATGGAGGT
+GAGGTCCTTGGCAAGAGATATGGGGGCTTCATGAAGAAGGATGCAGAGGAAGATGACGGCCTGGGCAACTCCTCCAACCT
+GCTCAAGGAGCTGCTGGGAGCCGGGGACCAGCGAGAGGGGAGCCTCCACCAGGAGGGCAGTGATGCTGAAGACGTGAGCA
+AGAGATACGGGGGCTTCATGAGAGGCTTAAAGAGAAGCCCCCACCTAGAAGATGAAACCAAAGAGCTGCAGAAGCGATAC
+GGGGGTTTCATGAGAAGAGTGGGTCGTCCAGAGTGGTGGATGGACTACCAGAAAAGGTACGGTGGCTTCCTCAAGCGCTT
+CGCCGAGCCCCTACCCTCCGAGGAAGAAGGCGAAAGTTACTCCAAGGAAGTTCCTGAAATGGAGAAAAGATATGGAGGAT
+TTATGAGATTTTAATCCCCTTTCCCATCAGTGACCTGAAGCCCCAGCAAGCCTTCCTCTGCCCCCAGTGAAAGACTGCTG
+CGCTGGTGTGTTGTATTGTCCCGAGTCGCTTGCATTATATAGTTGACTTGAGAGTCCAGATAATTAACTATACAACCTGA
+AAGCTGTGATCCCAGGTTCTGTGTTCTGAGAATCTTTAAGCTTTTAAATATTGGTCTGTTGCAGCTGTCTTGTTTCCATG
+CTCAGTTTTTTGTTATCACTTTGTCCTTTATTTTTGACATAATGCCAATAAATGCCTACTTGTGTGTAGATATAACT
+>ref|V00109.1| Bovine messenger RNA for preproenkephalin
+AGGACCGCGAGAGTGAGGCCCGCCCGCTTTCCTGGCTCTCCCCTCGCCGAGAGTCGCCCCGGACCGGGTTTCCACGACCG
+ACCTGCGTGCCCCGAACAGCGGCAACCCCATGGCGCGGTTCCTGGGACTCTGCACTTGGCTGCTGGCGCTCGGCCCCGGG
+CTCCTGGCGACCGTCAGGGCAGAATGCAGCCAGGACTGCGCCACGTGCAGCTACCGCCTGGCGCGCCCGACTGACCTCAA
+CCCGCTGGCTTGCACTCTGGAATGTGAGGGGAAACTACCTTCTCTCAAGACCTGGGAAACCTGCAAGGAGCTTCTGCAGC
+TGACCAAACTAGAACTTCCTCCAGATGCCACCAGTGCCCTCAGCAAACAGGAGGAAAGCCACCTGCTTGCTAAGAAGTAC
+GGGGGCTTCATGAAGCGGTATGGGGGCTTCATGAAGAAAATGGATGAGCTGTACCCCCTGGAAGTGGAAGAAGAGGCAAA
+TGGAGGTGAGGTCCTTGGCAAGAGATATGGGGGCTTCATGAAGAAGGATGCAGAGGAAGATGACGGCCTGGGCAACTCCT
+CCAACCTGCTCAAGGAGCTGCTGGGAGCCGGGGACCAGCGAGAGGGGAGCCTCCACCAGGAGGGCAGTGATGCTGAAGAC
+GTGAGCAAGAGATACGGGGGCTTCATGAGAGGCTTAAAGAGAAGCCCCCACCTAGAAGATGAAACCAAAGAGCTGCAGAA
+GCGATACGGGGGTTTCATGAGAAGAGTGGGTCGTCCAGAGTGGTGGATGGACTACCAGAAAAGGTACGGTGGCTTCCTCA
+AGCGCTTCGCCGAGCCCCTACCCTCCGAGGAAGAAGGCGAAAGTTACTCCAAGGAAGTTCCTGAAATGGAGAAAAGATAT
+GGAGGATTTATGAGATTTTAATCCCCTTTCCCATCAGTGACCTGAAGCCCCAGCAAGCCTTCCTCTGCCCCCAGTGAAAG
+ACTGCTGCGCTGGTGTGTTGTATTGTCCCGTGTCGCTTGCATTATATAGTTGACTTGAGAGTCCAGATAATTAACTATAC
+AACCTGAAAGCTGTGATCCCAGGTTCTGTGTTCTGAGAATCTTTAAGCTTTTAAATATTGGTCTGTTGCAGCTGTCTTGT
+TTCCATGCTCAGTTTTTGTTATCACTTTGTCCTTTATTTTTGACACAATGCCAATAAATGCCTACTTGTGTGTAGATATA
+ATAAACCCATTACCCCAACTGC
+>ref|NM_174313.2| Bos taurus fatty acid binding protein 3 (FABP3), mRNA
X12710.1 Bovine mRNA for fatty-acid-binding protein (H-FABP)
+TTGTACGCGTTCTCTGTCGTCTTTCCCAACCTAGCCCAGCTTCACCATGGTGGACGCCTTCGTGGGTACCTGGAAGTTAG
+TGGACAGCAAGAATTTCGATGACTACATGAAGTCACTCGGTGTCGGTTTTGCTACCAGGCAGGTGGGCAATATGACCAAG
+CCTACCACAATCATCGAAGTGAATGGGGACACAGTCATCATAAAAACACAAAGCACCTTCAAGAACACAGAGATCAGCTT
+CAAGCTGGGAGTCGAGTTCGATGAGACCACAGCAGATGACAGGAAAGTCAAGTCCATCGTGACGCTGGATGGCGGCAAAC
+TTGTCCACGTGCAGAAGTGGAATGGACAAGAGACATCACTTGTGCGGGAGATGGTTGACGGGAAACTCATTCTGACACTC
+ACCCATGGCACTGCAGTTTGCACTCGTACTTACGAGAAACAGGCATGACCTGCCCTCTCCTTCCACTGACTGCTCTTCTG
+TCAGTGGGCTACTCCTGGACTCGGCACCAGATTGCCTCATTTTTCTCCTCTGGCATTTTGTATAAATCCACCTTGACTGG
+GGAAATTCTCCTGGGGTCAGGTGGCACCAGCCTGGATCCAGTTCCGTTCTCATTGTGTCTGTTTGTTTTTTTAACTGCAT
+CCAAAGGGTGCTCTGAGGTCAATAAAGCAGAGCCAAGGCCACCC
+>ref|X16577.1| B.taurus mRNA for fetuin
+GTGAAGCCACCATGAAATCCTTCGTTCTGCTCTTTTGCCTGGCTCAGCTCTGGGGCTGCCACTCGATCCCGCTTGACCCG
+GTTGCAGGTTATAAGGAACCGGCCTGTGATGACCCAGACACAGAGCAAGCAGCCTTGGCTGCCGTGGACTACATCAACAA
+GCACCTTCCTCGGGGCTACAAGCACACCTTGAACCAGATTGACAGTGTGAAGGTGTGGCCGAGGCGGCCCACGGGAGAGG
+TGTATGACATTGAAATAGATACCCTGGAAACCACCTGCCACGTACTGGACCCCACGCCCCTGGCGAACTGCAGCGTGAGG
+CAGCAGACGCAGCACGCGGTGGAAGGAGACTGCGATATCCACGTGCTGAAACAAGATGGCCAGTTTTCCGTGCTGTTTAC
+AAAATGTGATTCCAGTCCAGATTCCGCCGAGGACGTGCGCAAGTTGTGCCCAGACTGCCCCCTGCTGGCGCCACTCAACG
+ACAGCCGGGTGGTGCACGCAGTGGAGGTCGCGCTGGCTACCTTCAATGCCGAGAGCAACGGCTCCTACTTACAGCTGGTG
+GAAATTTCTCGGGCTCAATTTGTGCCTCTTCCAGTTTCTGTCTCTGTGGAGTTTGCAGTGGCTGCTACTGACTGTATTGC
+TAAAGAAGTCGTAGATCCAACCAAGTGCAACCTACTGGCAGAAAAGCAATATGGCTTCTGTAAGGGGTCAGTCATTCAGA
+AAGCTCTTGGTGGGGAGGACGTCAGAGTGACTTGCACGTTGTTCCAAACGCAGCCTGTGATTCCGCAGCCCCAGCCCGAC
+GGCGCCGAGGCTGAGGCCCCAAGCGCTGTGCCGGACGCAGCTGGGCCTACGCCTTCTGCAGCTGGCCCGCCCGTGGCCTC
+CGTGGTGGTGGGGCCAAGCGTGGTAGCAGTTCCCCTGCCGCTGCACCGAGCACACTACGACTTGCGCCACACTTTCTCCG
+GGGTGGCCTCAGTGGAGTCATCCTCGGGAGAAGCGTTCCACGTGGGCAAAACACCCATAGTGGGGCAGCCTAGCATTCCT
+GGAGGTCCAGTCCGCCTTTGCCCAGGGAGAATCAGATACTTCAAGATCTAGAAGATGGTCGGAGATGAGATGGTTTGGCA
+CAGAGAATACAGCTATCATTTTGTCCAAGTCATGGGTATGGGTAGGGGCTTTGTCTGCTCTGGAAGCAAGTGCTGCCTAT
+GGTCTAGATTAATGTCAGGTCTTGAGTCCCAACTTCTCATCCTTCCAAGGACAGGAGCAGAGGAGGTGCTAGTGATGTTT
+GATGGAACATAAAGTCAGCAGCTTGATTGTCATGGCTTTGATGTAAGCCACCACCACTGTGTTCTCTACCTTCTCTTGAC
+CTCACAAAAGTAATTGGAACTGTGACTTTGAAAGGTGCTCTTGCCAAGTTTATATCTACTTGTCATTAAAAATGCTCTAA
+TAAAGAAGGTTCTAAGCTG
+>ref|NM_173911.2| Bos taurus fibrinogen gamma chain (FGG), mRNA
X15556.1 B.taurus mRNA for fibrinogen gamma'-chain (gamma B)
+GGCCCCGGGCCCGCCGACACCATGAGTTGGTCCTCGCACCCTCCGAGTGTAATCTTCTACATTCTTTCATTGCTTTCTTC
+AGCATGCCTGGCATATGTTGCTACCCGAGACAACTGCTGCATCTTAGATGAAAGATTTGGTAGTTATTGCCCAACTACCT
+GTGGAATTGCAGATTTCCTGAATAATTACCAAACCAGTGTAGACAAAGATCTACGAACTTTGGAAGGCATCTTATATCAG
+GTTGAGAACAAAACATCAGAAGCCAGAGAGCTGGTCAAAGCAATCCAAATCAGCTATAACCCTGATCAACCATCAAAGCC
+AAATAACATAGAGAGTGCTACCAAGAATTCCAAGAGTATGATGGAAGAAATTATGAAATATGAAACACTGATATCAACAC
+ATGAATCAACAATTCGATTTTTGCAAGAGGTATATAACTCAAATAGTCAAAAAATCGTTAACCTAAGAGATAAAGTGGTC
+CAGCTTGAAGCAAACTGTCAAGAGCCTTGTCAAGATACAGTGAAAATACATGATGTAACTGGGAGAGATTGCCAAGATGT
+TGCCAATAAGGGGGCCAAAGAGAGTGGACTTTACTTTATCAGACCTCTGAAAGCTAAGCAGTTCTTAGTCTACTGTGAAA
+TTGATGGGTCTGGAAATGGATGGACTGTGTTTCAGAAGAGGCTTGATGGCAGTCTGGATTTCAAGAAAAACTGGATTCAA
+TATAAAGAAGGGTTTGGACATCTGTCTCCTACTGGTACTGGAAACACAGAATTTTGGCTGGGAAATGAGAAGATTCATTT
+GATAAGCACACAGTCATCCATCCCTTATGTATTAAGAATACAGTTGGAGGACTGGAATGGCAGAACCAGCACTGCAGATT
+ATGCTTCATTCAAGGTGACAGGTGAAAATGACAAATACCGCCTGACATATGCTTACTTCATTGGTGGAGATGCTGGAGAT
+GCATTTGATGGCTACGATTTTGGCGATGATTCTAGTGACAAGTTTTTCACATCCCATAATGGCATGCAGTTCAGTACTTG
+GGACAGTGACAATGATAAGTATGATGGCAACTGTGCTGAACAGGTAGGTATCGGTTGGTGGATGAACAAATGTCACGCTG
+GCCACCTCAATGGAGTTTATTATCAAGGTGGCACTTACTCAAAAACATCTACTCCTAATGGTTATGATAATGGCATTATT
+TGGGCCACATGGAAATCCCGGTGGTATTCCATGAAGAAAACCACCATGAAGATAATCCCACTTAACAGACTTGCCATCGG
+AGAAGGACAGCAGCACCAACTGGGGGGAGCCAAACAGGTCGGAGTAGAACATCACGTTGAAATAGAATATGACTAAGTCA
+TTTTGCCCTGAGCTGTTCATTCTGTTAACACACAAACTTTCCTGAAATTTTCTTCTCGTTTTCTCTTACCGTATTTATTA
+ATTTTAAGTCTTTCTTTAAGGATATTTAGCTCTGAATGGCAATTAAAACTCACTTTGGACTGTATTCCCAAGTTACTAAA
+CACAGAGTTATTATAAATTTGTCTATTTGATGAGATAATATTTTAGCTTATTTCCTAAATATATAATAAATTGTGATATT
+TAAAAA
+>ref|V00110.1| Bovine messenger RNA for the beta-chain of fibrinogen
+TCAGCGGAGGTGGCTATCGGGCTCGTCCCGCCACAGCAACTGTGGGCCAGAAGAAAGTGGAGAGAAAGCCCCCTGACGCT
+GATGGCTGCCTGCACGCGGACCCGGATCTGGGTGTGTTGTGTCCTACAGGATGTAAGTTGCAAGATACTTTGGTAAGACA
+GGAGAGACCAATCCGAAAGAGTATAGAAGATTTACGTAATACTGTGGACTCTGTTTCCCGGACCTCTTCTTCCACCTTTC
+AATATATAACTCTGCTAAAAAACATGTGGAAAGGAAGGCAGAATCAAGTGCAAGATAATGAAAATGTAGTAAACGAGTAC
+TCCTCACATCTGGAAAAGCACCAGTTATATATAGATGAGACTGTGAAGAATAATATCCCAACTAAGCTTCGTGTGCTCCG
+TTCAATTCTGGAGAATTTGAGAAGCAAAATACAAAAATTAGAATCGGATGTCTCAACTCAGATGGAATACTGCCGCACCC
+CGTGTACTGTTACTTGCAATATTCCTGTGGTGTCTGGCAAAGAATGTGAGAAAATCATCAGGAATGAAGGTGAAACATCT
+GAAATGTACCTCATTCAGCCTGAGGATTCTAGCAAACCATATAGAGTATACTGTGATATGAAAACGGAAAAAGGAGGATG
+GACAGTAATTCAGAACCGTCAAGATGGTAGTGTTGACTTTGGCAGGAAATGGGATCCATATAAACAAGGATTTGGAAATA
+TTGCAACCAATGCAGAAGGGAAGAAATACTGTGGTGTACCAGGTGAGTATTGGCTTGGAAATGACAGAATTAGCCAGCTT
+ACCAATATGGGACCCACAAAGCTTTTGATTGAAATGGAGGACTGGAAAGGCGATAAGGTGACGGCACTCTATGAAGGATT
+TACTGTACAGAATGAGGCCAACAAATATCAACTGTCAGTGAGCAAATACAAAGGAACAGCTGGCAATGCCCTCATAGAAG
+GGGCTTCTCAACTGGTGGGAGAAAACCGGACCATGACCATCCACAACAGCATGTTCTTCAGCACGTACGACAGAGACAAC
+GACGGCTGGAAAACTACAGATCCCAGAAAGCAGTGTTCTAAAGAAGATGGTGGTGGATGGTGGTATAACCGATGCCATGC
+AGCCAATCCCAATGGCAGATACTACTGGGGTGGAGCGTACACCTGGGACATGGCAAAGCACGGCACAGACGATGGAGTGG
+TGTGGATGAACTGGCAGGGCTCCTGGTACTCAATGAAGAAGATGTCCATGAAGATCAGGCCTTACTTCCCAGAGCAATAG
+TACCCCCCACACAGAGTATTATTCTTCCACATGTAATAACATTTTTATA
+>ref|NM_173914.2| Bos taurus galanin and GMAP prepropeptide (GAL), mRNA
X12582.1 Bovine preprogalanin mRNA
+CTTCCGCGTCCCCGAGGCCGCGCCATGCGGTGAGCGTCCCCGGCCCTGCCCCGACCCGACTCGACGGACGCGCGGCCCCG
+CCGACACAGGACCTGCAGACACCCCAGGACCCGCAGACATCCCCCGACCCTCCGGGCCCCGCTCAAGATGCCCAGAGGCT
+CCGTCCTGCTGCTCGCCTCCCTGCTCCTCGCAGCGGCCCTTTCAGCCACCCTGGGCCTCGGGTCACCGGTGAAGGAGAAG
+AGAGGCTGGACCCTGAACAGCGCTGGGTACCTTCTCGGACCACATGCGCTCGACAGCCACAGGTCATTTCAAGACAAGCA
+TGGCCTCGCCGGCAAGCGGGAACTCGAGCCTGAAGACGAAGCCCGGCCAGGAAGCTTTGACAGACCACTGGCGGAGAACA
+ACGTCGTGCGCACGATAATCGAGTTTCTGACTTTCCTGCATCTCAAAGACGCCGGCGCCCTGGAGCGCCTGCCCAGTCTC
+CCCACAGCAGAGTCCGCAGAAGACGCCGAGAGGTCCTGAGCGGGCTCCCGCGCGTCGGTCTCCCTGTGTCACGCGCAGTC
+GTGCTCCCAGGAGGATGCCCATCGCATGGCAACCGCCCCATCCCCGCTGCCCTGATGCTGTGTCCGTACCATTTCAGGTT
+TTTCCCCTTTGGTCATAAGTTTCAGTGGCAAAATT
+>ref|NM_177512.2| Bos taurus beta-1,4-galactosyltransferase 1 (B4GALT1), mRNA
X14558.1 Bovine GalT mRNA for beta-1,4-galactosyltransferase (EC 2.4.1.38)
+CGGGCTGCTGAGCCGGCCAGAGTCGCCGAGATCCGCCGCCTCCCCGCCGGTGCCGCTCCTTCGCCCCCCCCCGCCTCCCG
+TCCCTCCCCCGTTGCTGCGGTCTGGCAGTGCCTGGCTGGCGGCCCGCGGGCGGGCCGCCTTCCTCGCGGTAGCCCACCCC
+CCTCTTAAAGCGGCGGCGGGAAGATGAAGTTTCGGGAGCCGCTCCTGGGCGGCAGTGCCGCGATGCCGGGCGCGTCCCTG
+CAGCGGGCCTGCCGCCTCCTCGTGGCTGTCTGCGCCCTGCATCTTGGCGTCACCCTCGTCTATTACCTGGCCGGCCGAGA
+CCTAAGACGCCTGCCTCAGCTGGTCGGAGTCCACCCACCGCTTCAGGGAAGCTCTCACGGCGCCGCCGCTATCGGGCAGC
+CCTCCGGGGAGCTCCGGCTGCGAGGGGTCGCACCGCCGCCGCCTTTGCAGAACTCTTCCAAGCCGCGCTCGCGGGCCCCC
+TCCAACCTAGACGCGTACTCTCACCCCGGCCCTGGCCCGGGCCCGGGGAGCAACTTGACTTCGGCCCCAGTGCCCTCCAC
+CACAACACGCTCGCTGACCGCATGCCCTGAGGAGTCCCCGCTGCTCGTCGGCCCCATGCTGATTGAGTTTAACATACCTG
+TGGACCTGAAGCTTATCGAGCAGCAGAACCCGAAGGTGAAGTTGGGTGGTCGCTACACCCCCATGGACTGCATCTCTCCT
+CACAAGGTGGCCATCATCATTCTATTCCGCAACCGGCAGGAACACCTCAAGTACTGGCTGTATTACTTGCACCCAATGGT
+ACAGCGTCAGCAGTTAGACTATGGCATCTATGTTATCAACCAGGCTGGAGAGTCCATGTTCAACCGCGCAAAGCTCCTCA
+ATGTTGGCTTTAAAGAGGCCTTGAAGGACTATGACTACAACTGCTTTGTGTTTAGCGATGTGGACCTCATCCCAATGAAC
+GACCATAACACCTACAGGTGCTTTTCACAGCCACGGCACATTTCTGTAGCAATGGATAAGTTTGGATTTAGCCTACCTTA
+CGTGCAGTATTTTGGAGGTGTCTCTGCTCTAAGTAAACAACAGTTTCTCAGCATCAATGGATTTCCTAATAACTACTGGG
+GCTGGGGAGGTGAAGATGATGACATTTATAACAGATTAGCTTTTAGAGGCATGTCTGTGTCTCGCCCAAATGCTGTGATC
+GGGAAGTGTCGGATGATCCGCCACTCGAGAGACAAGAAAAATGAACCTAATCCTCAGAGGTTTGACCGAATTGCACATAC
+AAAGGAGACAATGCTCTCTGATGGTTTGAACTCACTCACCTACATGGTGTTAGAGGTCCAGAGGTACCCGTTGTATACCA
+AAATCACAGTGGACATCGGGACGCCGAGCTAGCATTTTGGTGCACTGATCAGAGACCTGAAAATGGCCAGGGACCTCTGC
+TGTGTCTCTGCCTGTGTGCTGGGCTGGTCCCTCTCATTCTCACAATCAGTGATAGGCCCTCTCTGCTCATCATTCAGACG
+CCTTTCCGGACGACCAGGACAAGTGGGATATATTGCCCCCAACTTGGCTCAGCATGTGACTTGTCAGCCCCACGAGGTGT
+ATGTAAGCATAGAAACCATCAGCCTTTGGAGGCTCTCGGCATGTTCATGGTTCACCCCAAAGAATCAAAGCTGTGCACAG
+CTCCAAATCTGGTGACTGTGGGACTCATCCCCAGCAAAAAAAAAAAAA
+>ref|NM_174324.2| Bos taurus G protein subunit alpha i1 (GNAI1), mRNA
X03642.1 Bovine mRNA for alpha-subunit of G(i) protein (Gi=adenylate cyclase-inhibiting G-protein)
+TGGCCGGCGTCAGGAGGAATTCGAACGCCTGCATCCAGAAAGAAAGAATTCACCTGTGTTTCGAGGCAGCGCGCCGGACT
+TCGAGGGAGCGGCAGCCAGCTTTCGCTCCTGGCACAATGGGCTGTACGCTGAGCGCCGAGGACAAGGCGGCGGTGGAGCG
+GAGTAAGATGATCGACCGGAACCTCCGCGAGGATGGCGAGAAGGCGGCGCGCGAGGTCAAGCTGCTGCTGCTCGGTGCTG
+GTGAATCTGGGAAAAGTACAATTGTGAAGCAAATGAAAATTATCCATGAAGCTGGTTATTCAGAAGAGGAATGTAAGCAG
+TACAAAGCTGTGGTCTACAGTAACACCATCCAGTCAATTATCGCTATCATTAGGGCCATGGGGAGATTGAAGATTGACTT
+CGGTGACTCAGCCCGGGCGGATGATGCCCGCCAACTCTTTGTGCTTGCTGGCGCTGCAGAGGAAGGTTTTATGACTGCAG
+AACTTGCTGGAGTTATAAAGAGACTTTGGAAAGACAGTGGTGTACAAGCCTGCTTCAACAGATCCCGAGAGTACCAGCTT
+AATGATTCTGCAGCATACTATTTGAATGATTTGGACAGAATTGCACAACCAAATTATATTCCAACTCAACAAGATGTTCT
+CAGAACTCGAGTGAAAACCACAGGAATTGTTGAGACCCATTTTACTTTCAAAGATCTTCATTTTAAAATGTTTGATGTGG
+GAGGACAGAGATCTGAGCGGAAGAAATGGATTCATTGCTTCGAAGGAGTGACCGCCATCATCTTCTGTGTGGCGCTGAGT
+GACTATGACCTGGTTCTAGCTGAAGATGAAGAAATGAACCGAATGCATGAAAGCATGAAGTTATTCGACAGCATATGTAA
+CAACAAATGGTTTACAGATACATCTATTATACTTTTTCTGAACAAGAAGGATCTCTTTGAAGAAAAAATCAAGAAGAGCC
+CTCTCACTATATGCTATCCAGAATATGCAGGCTCAAACACATATGAAGAGGCAGCTGCGTACATTCAGTGTCAGTTTGAA
+GACCTCAATAAGAGAAAGGACACAAAGGAAATATACACCCACTTCACGTGCGCCACGGACACCAAGAACGTGCAGTTCGT
+CTTTGATGCCGTAACAGACGTCATCATAAAAAATAACCTAAAAGACTGTGGTCTCTTCTGAGTGTTGGCGGCAAATGGTA
+AAATGCATTTTCAAACCAAATGAGTACTTACATGTGGATCTCTCTAGACTAGAGTCTTGCAGCAACACAGAATGTAGTAT
+ATGGCGAGTGCATCTGGGACCTGACCAAAGCTGTTCTATTTGTTTTTTTTTTAACTGAAAGTAATGGAAGGACCTTTCGT
+AAGTGTGAGAGGTGGTCCTGCAGTGTGAAACTAAGGGCAGTGTTAAAGCTGGGCTCTAGTGTACGGATGACTTCTACATA
+CATGTAAATATGCAAATGTATGTATACATGTATTTATGACTTTAGTTTTCCACATTACTTTTAGACATTCAGTAAGCGGC
+AACTTATAATTTTAGCGTGGTGGCTTTGGAAATAACAGAAATATTAAGTACTTTGTACTGAATGACAGACTATTGTCATG
+TTTGCCAGTTCTAAACAGCTTTATTTATGTTTCTGTCCTGTAAATTTTTAAGTACAATGATTAATATTGGGACACATTGC
+AGCTCTTGTCTTGATTATATGTAGTATACTTGTAATCATAAATGTTATTTGTACAAACATTGCACAGACTATTTTAATAA
+CATGATTTGTTCTTTAAATTTATGTGTTTTATTGAAATGTTCTTGAAGAAGATGACTATACCTGCCTTTGGATCAGTTAA
+ACACTGTATGCATTTCAGTTTTTCTTTTAAGGGTGCATGCTAATCTGATTCTACATTAGATTTGGTTTAAAAACTGTAAA
+ATGCAGGTTTCTGAGGATATACATATAGACTTATAAACACTTAATTTTTATTCAGTTGGTTTGTTTTCACTTTGAATTTT
+AATATTTGGATGGTATTCATGCATTGCCTTAAAGGTGATGCCAAGTTAATTTTTATACACTTCAAATAACTACATTTTTA
+TTTATAAGTAAGTTTAGGTGGGTGCAAGAGCATTTTTGTGGGTAAAAAATAAGTTAGCATAATGAATTTTGAGACATTCA
+TTTGTGTATTTCCTTTGGGAAATCCCTTGTACGTACCATACATGACAGCTCTTTGTTCGGAAGGTAACAGGAAAGACCTC
+GAAGATTCTGCTACCGATAAAATGCAGCCTTTAAATTCACATATGTAAGTAACTAGTTTCAAATTTAATTATCACACTAT
+ATTAAAATTACTTTTTTCCCTGAGATTATTCAAATTTCCTCCACTTGCTTGAGTTTGTATTATTTCTTTAAACTGTGCTA
+TTATCTCTGAGAATGAAATGGGCAATTACACTTAGGAAAATGAGTAATCGTATTTAATTAAGTTAGCAATTGTATGTATT
+CTCAAGTAAGTATTACATTTTTGCTAGATATTAAAATTTTGATAGTCACTTTTGTTTTAATTATTCACAGTATCTCTCTA
+TGACCTTGTTTTCAGCAAAGTGAACAGCATTCCATACCTTACTTCTCTTTTTTTACTCATCTTAAAAACATTATGTAGTG
+TTTCAATAAACTTTGTGGGTAAGTAGTTTCTAAATTTAGTTGTGTGTTATCATTTTGTTGAGGTCTATTTGTTGCAGTGT
+GTGTGTGTTTGTGTGTGTGTATGTAACCAGAAACTACATTTACATCTGTTTCATTTGGGGGATTTTTCCTTTTTGTAATG
+TAAAGAAGTTCAAAGTTATCAGAATTCTTTAAATAAATGTGTTAGTTTAGATTCTTTATGTGCCTTTCATGAAAGAAATG
+TTTTCATTAATTTTATGGATAGAAGACCTGTTGTATTCATCTTATGAAGCTATGTATGAAATTCAACTGTCCTGTGAATC
+GATTTGAATCATGAGAAATAACAGCTTAAAAAGCCACAAAGAAGCACATATTGGTGACCACCATTGATGAATTCCTGAAC
+TTTACTCTGTGTAATTGTGTTACTAATAAAATCTAATAAATTCGGATTTTTAAAATTTT
+>ref|X00376.1| Bovine adult beta-globin gene
+TTTAATAGCAATTTGTATTGCTGGAATGACTGTGATCTAGAGATGCCCAGAAAGAGGGCTGATGGTCTAAAGTCAGTGCC
+AGGAAGACCAAGGAGAGCTATGACTATCATCGTTCAAGCCTCACCCTGTGGAACCACAACTTGGCATGAGCAATCTGCTC
+ACAGAAGCAGGGAGGGCAGGAGGCAGGGCTGGGCATAAAAGGAAGAGCTGGGCCAGCTGCTGCTTACACTTGCTTCTGAC
+ACAACCGTGTTCACTAGCAACTACACAAACAGACACCATGCTGACTGCTGAGGAGAAGGCTGCCGTCACCGCCTTTTGGG
+GCAAGGTGAAAGTGGATGAAGTTGGTGGTGAGGCCCTGGGCAGGTAGGTATCCCACTTACAAGGCAGGTTTAAGGAGAGT
+GAAATGCACCTGGGCGTGTGAGGACAGAGCCGTCCCTGAGATTCAGAGAGCTGCTGGCTTCCTCTGACCTTGTGCTGTTT
+TCTCCCCCTAGGCTGCTGGTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGGACTTGTCCACTGCTGATGC
+TGTTATGAACAACCCTAAGGTGAAGGCCCATGGCAAGAAGGTGCTAGATTCCTTTAGTAATGGCATGAAGCATCTCGATG
+ACCTCAAGGGCACCTTTGCTGCGCTGAGTGAGCTGCACTGTGATAAGCTGCATGTGGATCCTGAGAACTTCAAGGTGAGT
+TTGTGGAATCCTCAGTGTTCTCCTTCTTCTTTTTATGGTCAAGCTCATGTCATGAGGAGAAAGCTGAATGGCAGGACACA
+GTTTAGAATGGAGAAGAGGTATTCTGGTTAGATTACTAAGGACTCCTCAGAACCGTTTAGACTCTTTTAACCTCTTTGTT
+CACAACCAGTATTTCCTCTGATTCATTCTTGTTCTCTGTTGTCTGCAATGTCCTCTTTTTAATTATATTTTTTATTTTGA
+GGGTTTAATTTGAAAAAAAAATTATATATCAACTTTAAAAATTGTATCTAATATTTCCCCCTTATCTGTTCCTTTCAAGG
+AATAAGATGTTCTATTGCTTTTTGAAATGATTCAAAATAATAAAAATAATAACAAGTTCTGGATTAAGTTAGAAAGAGAG
+AAACATTTCTAAATATATATTCGGGAAGATATAGGTAGATTCACATCAGTAGTAACAACTTCACTTCAGTCATCTTTGTG
+CTTATATCTACGGTCACAGCTTGGGATAAGACTGAAATACCCTGAATCTAACCTTGGATTTCCCTCATAGCTCAGTTGGT
+TAAGCATCTGCCTGCAATGCAAGAGATCCCAGTTCGATTCCTGGGTCGGGAAGGATGGCTGGAGAAGGGATAGGCACCCA
+CTCCAGTATTCTTGGGTTTCCCTTGTGGCTCAGCTGGTAAAGAATCTGCCTGCAATGTGGGAGACCCAGCTTCTATCCCT
+GAGTTTGGAAGATCCCCTGGAGAAGGGAAAGGCTACCCACTCCAGTATTCTGGCCTGGAGAAATCTATGGACTGTAGAGT
+CATGGGGTTGCAAAGAATCAGACACGATTGAGAGACTCTCACTTCACTCACCTGCACTAACCCTGCCCTTGCTTAATGTC
+TTTTCCACACAGCTCCTGGGCAACGTGCTAGTGGTTGTGCTGGCTCGCAATTTTGGCAAGGAATTCACCCCGGTGCTGCA
+GGCTGACTTTCAGAAGGTGGTGGCTGGTGTGGCCAATGCCCTGGCCCACAGATATCATTAAGCTCCCTTTCCTGCTTTCC
+AGGAAAGGTTTTTTCATCCTCAGAGCCCAAAGATTGAATATGGAAAAATTATGAAGTGTTTTGAGCATCTGGCCTCTGCC
+TAATAAAGACATTTATTTTCATTGCACTGGTGTATTTAAATTATTTCACTGTCTCTTACTCAGATGGGCACATGGGAGGG
+CAAAACACTGAAGACATAAAGAAATGAAGGGCTAGTCGAGACCTTGAGAAAATATATCAGTATCTTGGACCCCATGACAG
+CAGTGGTTGTAAATAGCTGATGTTATGGAAAACAGGCTTTGCTCCTTAGCCTTACTCTCCCTTAAAGAATTC
+>ref|X70059.1| B.taurus mRNA for gamma subunit of sodium potassium ATPase
+ATGGTGGCTGTGCAGGGGACCGAGGACCCATTCTACTATGACTACGAGACCGTCCGTAATGGGGGCCTGATCTTCGCCGC
+CCTGGCCTTCATCGTGGGGCTCGTCATCATCCTCAGCAAAAGATTCCGCTGCGGGGCCAAGAGGCAGCACCGGCAAATTC
+CTGAAGATGGGCTCTAAGGAGAGAGCCAGCAGTGCC
+>ref|X13684.1| Bovine gpx1 mRNA for glutathione peroxidase
+GCGCTCTGCTCTGGATTCGGAAACGGATACCATGTGCGCCGCTCAGCGCTCGGCGGCCGCCCTGGCGGCGGCAGCCCCGC
+GCACAGTGTACGCCTTCTCCGCGCGCCCTCTGGCCGGCGGGGAGCCCTTCAACCTGTCCTCCCTGCGGGGCAAGGTGCTG
+CTCATTGAGAACGTAGCATCGCTCTGAGGCACAACGGTGCGGGACTACACCCAGATGAATGACCTGCAGCGGCGCCTTGG
+ACCCCGGGGCCTGGTCGTGCTCGGCTTCCCCTGCAACCAGTTTGGGCATCAGGAAAACGCCAAGAACGAGGAGATCCTGA
+ATTGCCTGAAGTACGTCCGACCAGGCGGCGGGTTCGAGCCCAACTTTATGCTCTTCGAAAAGTGCGAGGTGAATGGCGAG
+AAGGCGCATCCGCTCTTCGCCTTCCTTCGGGAGGTTCTGCCCACGCCAAGTGACGACGCCACTGCTCTCATGACCGACCC
+TAAGTTCATCACCTGGTCCCCGGTGTGCCGCAACGACGTCTCCTGGAACTTCGAGAAGTTCCTGGTGGGCCCAGACGGTG
+TGCCCGTGCGCAGGTACAGCCGCCGCTTTCTGACCATCGACATCGAGCCTGACATTGAAACCCTGCTGTCCCAGGGGGCC
+TCTGCCTAGGGTGCCCCTCCCACCCTTGCTGCTTGGCGGTCAGCGCTGCTCTCCAGGGATTTTGCCCATGAAGGTGTTCC
+CTCTAAACCTACGTGGAGGAATGCCTGATGTCCAGGAAAATCCCCTGAGGTGGGCGCTGGTCCTATCCATCCCAGCCTCC
+CCTTTCCCAGACCACAGCTCCTCATGAC
+>ref|V00111.1| Bovine mRNA for growth hormone
+ACGGCTCAGGGTCCGTGACAGCTCACCAGCTATGATGGCTGCAGGCCCCCGGACCTCCCTGCTCCTGGCTTTCGCCCTGC
+TCTGCCTGCCCTGGACTCAGGTGGTGGGCGCCTTCCCAGCCATGTCCTTGTCCGGCCTGTTTGCCAACGCTGTGCTCCGG
+GCTCAGCACCTGCACCAGCTGGCTGCTGACACCTTCAAAGAGTTTGAGCGTACCTACATCCCGGAGGGACAGAGATACTC
+CATCCAGAACACCCAGGTTGCCTTCTGCTTCTCCGAAACCATCCCGGCCCCCACGGGCAAGAATGAGGCCCAGCAGAAAT
+CAGACTTGGAGCTGCTTCGCATCTCACTGCTCCTCATCCAGTCGTGGCTTGGGCCCCTGCAGTTTCTCAGCAGAGTCTTC
+ACCAACAGCTTGGTGTTTGGCACCTCGGACCGTGTCTATGAGAAGCTGAAGGACCTGGAGGAAGGCATCTTGGCCCTGAT
+GCGGGAGCTGGAAGATGGCACCCCCCGGGCTGGGCAGATCCTCAAGCAGACCTATGACAAATTTGACACAAACATGCGCA
+GTGACGACGCGCTGCTCAAGAACTACGGTCTGCTCTCCTGCTTCCGGAAGGACCTGCATAAGACGGAGACGTACCTGAGG
+GTCATGAAGTGCCGCCGCTTCGGGGAGGCCAGCTGTGCCTTCTAGTTGCCAGCCATCTGTTGTTTGCCCCTCCCCCGTGC
+CTTCCTTGACCCTGGAAGGTGCCACTCCCACTGTCCTTTCCTAATAAAATGAGGAAATTGCATCGC
+>ref|X03404.1| Bovine mRNA for adenylate cyclase-stimulation G-protein alpha subunit
+TCTCGGCCCGCGTGAGGCCGCCCGCGCCGGCCCCGCCGCCGCCGCCGCCGCCATGGGCTGTCTCGGAAACAGCAAGACCG
+AGGACCAGCGCAACGAGGAGAAGGCGCAGCGCGAGGCCAACAAGAAGATCGAGAAGCAGCTGCAGAAGGACAAGCAGGTC
+TACCGGGCCACGCACCGTCTGCTGCTGCTGGGTGCTGGAGAATCTGGTAAAAGCACCATTGTGAAGCAAATGAGGATCCT
+GCATGTTAATGGGTTTAATGGAGAGGGCGGCGAAGAGGACCCGCAGGCTGCAAGGAGCAACAGCGATGGTGAGAAGGCCA
+CCAAAGTGCAGGACATCAAAAACAACCTGAAAGAGGCCATTGAAACCATCGTGGCCGCCATGAGCAACCTGGTGCCCCCT
+GTGGAGCTGGCCAACCCAGAGAACCAGTTCAGAGTGGATTACATTCTGAGCGTGATGAACGTGCCGGACTTTGATTTCCC
+TCCCGAATTCTACGAGCATGCCAAGGCTCTCTGGGAGGATGAAGGGGTGCGTGCCTGCTATGAGCGCTCCAACGAGTACC
+AGCTGATTGACTGCGCCCAGTACTTCCTGGACAAGATTGATGTCATCAAGCAGGATGACTACGTGCCCAGCGACCAGGAT
+CTGCTCCGCTGCCGTGTCCTGACTTCTGGAATCTTTGAGACCAAGTTCCAGGTGGACAAAGTCAACTTCCACATGTTTGA
+CGTGGGCGGCCAGCGCGATGAACGCCGCAAATGGATCCAATGCTTCAATGATGTGACTGCCATCATCTTCGTGGTTGCCA
+GCAGCAGCTACAACATGGTCATTCGGGAGGACAACCAGACCAACCGCCTGCAGGAGGCTCTGAACCTCTTCAAGAGCATC
+TGGAATAACAGATGGCTGCGCACCATCTCTGTGATTCTGTTCCTCAACAAGCAAGATCTGCTGGCTGAGAAAGTCCTTGC
+TGGAAAATCGAAGATTGAGGACTACTTTCCAGAATTTGCTCGCTACACTACTCCTGAGGATGCGACTCCCGAGCCCGGAG
+AGGACCCACGCGTGACCCGGGCCAAGTACTTCATTCGAGATGAATTTCTGAGAATCAGCACTGCTAGTGGAGACGGGCGC
+CACTACTGCTACCCTCACTTCACCTGCGCTGTGGACACCGAGAACATCCGCCGTGTGTTCAACGACTGCCGTGACATCAT
+CCAGCGCATGCACCTCCGTCAGTATGAGCTGCTCTAAGAAGGGAACCTCCAGATTTAATTAAGGCCTTAAGCGCAATTAA
+TTAAAAGTAAGATATAATTGTACACGCAGTTGATCACCCACCATAGGGCATGATTAACAAAGCAACCTTTCCTTTCCCTC
+AAGTGATTTTGCGAAACCCCCTTCACCTTACAGCTTGCTTAAATATTCCAAATTTAGAAAGCTTAAGGCAGCCTATAGAT
+TAAGATTAAGAAAAAAAGGCCACAAATGTTCCCTTCTCTCTTTAAGTAACTACAATAATAGCAGCAAACAGAAATAAATA
+AATGAAATAAATGAAGCAAATGAAATAAATATCGTGTTGTGCAGCATTAAAAAAATCAAAATAAAAATTAAATGTGAGC
+>ref|NM_177516.1| Bos taurus glutathione S-transferase pi 1 (GSTP1), mRNA
X61233.1 Bovine GST mRNA for gluthathione S-transferase, class-pi
+CGGCTCAGGCCGCCGCCGAGCGCGCTGGAACTTTGCTGCCGCCGCCACCTTTACCGACTTCCCCGACTCCAGGATGCCTC
+CCTACACCATCGTCTACTTCCCGGTTCAAGGGCGCTGCGAGGCCATGCGCATGCTGCTGGCCGACCAGGGCCAGAGCTGG
+AAGGAGGAGGTCGTAGCCATGCAGAGCTGGCTGCAGGGCCCACTCAAGGCCTCCTGCCTGTACGGGCAGCTCCCCAAGTT
+CCAGGACGGAGACCTCACGCTGTACCAGTCCAATGCCATCCTGCGGCACCTGGGCCGCACCCTCGGGCTGTATGGGAAGG
+ACCAGCAGGAGGCGGCCCTGGTGGACATGGTGAATGACGGTGTAGAGGACCTTCGCTGCAAATACGTCTCCCTCATTTAC
+ACCAACTACGAGGCGGGCAAGGAGGACTATGTGAAGGCGCTGCCCCAGCACCTGAAGCCTTTCGAGACCCTGCTGTCCCA
+GAACAAGGGTGGCCAGGCCTTCATCGTGGGCGACCAGATCTCCTTTGCGGACTACAACCTGCTGGACCTGCTTCGGATTC
+ACCAGGTCCTGGCCCCCAGCTGTCTGGACTCCTTCCCCCTGCTCTCAGCCTACGTGGCCCGTCTCAACTCCCGGCCCAAG
+CTCAAGGCCTTCCTGGCCTCCCCCGAGCACATGAACCGGCCCATCAACGGCAATGGGAAACAGTGAGGGCTTGCAGCACT
+CTCTGCTCGAGGCAGGGGGCTGCCTGCTCTTCCCTTTCCCCAGGACCAATAAAACTTCCAAGAGAGAAAAAAAAAAAAAA
+AAAAAAAAA
+>ref|NM_175778.2| Bos taurus guanylate cyclase 1 soluble subunit alpha 1 (GUCY1A1), mRNA
X54014.1 Bovine mRNA for large subunit of guanylate cyclase (EC 4.6.1.2)
+AGCTGTAAGGGATCCTTGGGGCGGGGGGAGAGAGAGAGAGAGAAAGAGATGGAGACGCTGGGAGAGACCCAGGCTGGAGC
+TGGCTGAGCGTGGGCGCAGCGCGGGAACCGGGTCTGCAGCGCTTTGCGCCTGCCCCGCCTGTTGAGCAGGAGCCGAGAAT
+ACAGAGTCACTCCTCTTTCTCCTCTGACCTTCTGCAGCCCCTGGACTCCCTGGTCATCAGCATCTCTGGTCCGCTAGTGG
+CTTCTGTGTGTCCATCCTGGTAAGAAGAACCAAGCCCAGGAGCAATCACCATGTTTTGCGCGAAGCTGAAGGACCTGCAG
+ATCACGGGGGACTGCCCTTTCTCCCTGCTGGCCCCGGGGCAGGTCCCCAGAGAGCCCTTGGGGGAAGCCACAGGGAGTGG
+GCCAGCATCGACCCCAGGGCAGCCAGGCGTCTGTCCAGGTGTCCCCGACAAGAACCCTCCCGGAAGGCTTCCCCGGAGGA
+AGACCAGCCGCAGCCGGGTCTATCTTCACACTTTGGCAGAGAGTATTTGCAAACTGATTTTCCCAGAGTTTGAGCGTCTG
+AACCTTGCCCTTCAGAGAACATTGGCAAAACACAAAATAAAGGAAAACAGGAAATCTTTGGAAAGAGAAGACTTTGAAAA
+AATAGTTGTGGACCAAGCAATTGCAGCAGGAGTTCCAGTGGAGATCATCAAAGAATCTCTTGGTGAGGAGCTTTTTAAAA
+TATGTTATGAAGAAGATGAATACATCCTAGGTGTGGTTGGAGGAACCCTGAAAGATTTTTTAAATAGCTTCAGCACCCTC
+CTGAAACAGAGCAGCCACTGTCAAGAAGCAGAAAAGAAGGGCAGGTTTGAGGACGCATCCATCCTATGCCTGGATAAAGA
+TCCCGATGTCTTATATGTTTACTATTTCTTCCCCAAGAGGATCACTTCCCTGATTCTCCCCGGCATCATTAAGGCAGCTG
+CTCGCATACTGTATGAGACGGAAGTGGAGGTTTCTTCGACGCCTTCTCGCTTCCACCAGGACTGCCGTGAGTTCGTGGAC
+CAGCCCTGCGAGCTCTACTCCGTCCACATCAGGAGCGCCCGGCCGCACCCGCCCCCTGGGAAACCCGTGTCCTCGCTGGT
+CATCCCCGCCTCGCTCTTCTGCAAGACCTTCCCTTTCCACTTCATGCTTGACAGAGATATGAGCATCCTGCAGCTCGGCC
+ACGGCATCAGGCGGCTGATGAGCAGGAGAGACGTGCAAGGGAAGCCTCATTTTGATGAGTACTTTGAGATCCTGACCCCC
+AAAATCAGCCAGACGTTCAGCGGCATTATGACCATGCTGAACATGCAGTTCCTGGTGCGAGTGAGGAGGTGGGACAACTC
+CATGAAGAAATCTTCCAGGGTGATGGACCTCAAAGGCCAGATGATCTACATGGTGGAGTCCAGCTCCATCCTGTTCCTGG
+GCTCACCCTGCGTGGACAGACTGGAAGACTTCACAGGCCGAGGGCTGTACCTCTCCGACATCCCCATCCACAACGCGCTG
+CGGGATGTGGTGCTGATTGGGGAGCAGGCCAGGGCCCAGGATGGCCTGAAGAAGAGGCTGGGCAAGCTGAAGGCCACGCT
+GGAGCAGGCCCACCAGGCCCTGGAGGAGGAGAAGCGGAAGACGGTGGACCTGCTGTGTTCCATCTTCCCCAGTGAGGTGG
+CGCGGCAGCTGTGGCAGGGCCACGCTGTGCAGGCCAAGCGCTTCGGCAATGTCACCATGCTCTTCTCGGACATCGTGGGG
+TTCACGGCCATCTGTTCCCAGTGCTCCCCGCTGCAGGTCATCACCATGCTCAACGCACTCTACACCCGCTTTGACCGGCA
+GTGTGGAGAGCTGGATGTCTACAAGGTGGAGACGATTGGCGATGCGTACTGTGTGGCTGGGGGCTTACATAAAGAGAGTG
+ACACCCACGCTGTTCAGATCGCGCTGATGGCCCTCAAGATGATGGAACTCTCTCATGAAGTCGTGTCTCCCCACGGAGAA
+CCCATCAAGATGCGCATTGGGCTGCATTCTGGGTCAGTTTTTGCTGGAGTTGTTGGAGTTAAAATGCCTCGTTACTGCCT
+TTTTGGAAACAATGTCACCCTGGCTAACAAATTTGAATCGTGCAGTGTTCCCCGGAAAATCAACGTCAGCCCAACCACTT
+ACAGATTACTCAAGGACTGTCCTGGTTTTGTGTTTACACCTCGATCAAGGGAAGAACTTCCACCAAACTTTCCTAGTGAC
+ATTCCTGGGATCTGTCATTTTCTGGAAGCATATCAACAAGGAACAACTTCAAAGCCATGGTTCCAGAAAAAAGATGTTGA
+GGAAGCCAATGCCAATTTTTTAGGCAAAGCATCAGGAATAGATTAACCAAACACACACCTGATTGTTAGCCTTTGGGGTT
+TGACTCCTTGGAACGTGAGTGGACCCTCTGAGAGCACACTGGCATGGTGGTGAGCTGAGGAGCAGTATTAACATTTCAGG
+AGCCAAGTCACCATCTACTTGTCCTTCCACTTAACATGACAAAAATGTATTCACTTCAATATTCAATTTTTCAGTGAAAA
+ACAAAGAAACCTCAAAAAGTGACTTTGAGGGGATGTAATATACTTATTACCTGTGCTCAAAACTCAGCACCTTGTATATA
+CATCAGGTAATGTAGTGACCTGTACCACCTGGTGAGCTGTCTGCGTGTCCTGCCCTGGCCGAATGCCCTGGTTATCAAAG
+TGCTTGTGGTAGTGTTGGTTGCCTTAAAGATGCTTGTTGAATAGAAACAATAGTCTTGATACCATAAGCTCTTTGAACCT
+TTCAACTGGTACATTTTGTTACATTTCCTCATTTAACAGTTAGCATATATAATAAGATAGACTGAGTTTTTTTTTTCCTG
+TTGCACTTTTTTCTTTTTCCTTTTCTTAAAGAAAATAAGCCATTATGGGTTAGATGCAATATGAATCTAAAGTAGTTCTC
+CTGTAAATATCAAGATGATTTTATAAAAATATTCTCTACAACATAATATGTCATAAAAATAAGTATTTCCTTTTTTGACA
+TTTGTAAAAGTCTATACATGGTAAAGGCTATTTTAATTCATAATAGCAATTTCATTTCTATTAATTCATTTTTATGTCAT
+CTTCAGGGTAAAAGAGGGTTATGGCCTATATTAAAATGCAATAATATCATTATGATTTACTTTAATTGAAGCAACATGGA
+GTAAAGGCAGCATTCAGGGAGCGAGCCATAAAGTCAGAAGCAAAGTACTTACACACACCGA
+>ref|X52318.1| Bovine mRNA for histone H2A.Z
+ATGGCTGGCGGTAAGGCTGGGAAGGACTCCGGAAAGGCCAAGACAAAGGCGGTTTCCCGCTCGCAGAGAGCCGGTTTGCA
+GTTCCCGGTGGGCCGTATTCATCGACACCTGAAATCTAGGACGACTAGCCATGGACGTGTGGGCGCGACTGCCGCTGTGT
+ACAGCGCAGCCATCCTGGAGTACCTCACCGCAGAGGTACTTGAATTGGCAGGAAATGCATCGAAAGACTTGAAGGTAAAG
+CGTATTACCCCTCGTCACTTGCAACTTGCTATTCGTGGAGATGAAGAATTGGACTCTCTCATCAAGGCTACAATTGCTGG
+TGGTGGTGTCATTCCACACATCCACAAATCTCTGATTGGAAAGAAAGGACAACAGAAGACTGTCTAAAGGATGCCTGGAT
+TCCTTATTATCTCAGGACTCTAAATACTCTAACAGCTGTCCAGTGTTGGTGATTCCAGTGGACTGTATCTCTGTGAAAAA
+CACAATTTTGCCTTTTTGTAATTCTATTTAAGAAAGTTGGAAGTTTAATTAGCTTTCCAACCAACCAAATTTCTGCATTT
+GAGTCTTAACCATATTTAAGTGTTACTGTGGCTTCAAAGAAGCTATTGATGCTGAAGTAGTGGGTTTTGATTGAGTTGAC
+TGTTTTTAAAAAACTGTTTGGATTTTAATTGTGATGCAGAAGTTATAGTAACAAACATTTGGTTTTGTACAGACATTATT
+TCCACTCTGGTGGATAAGCTCAATAAAGGTCATATCCCAAACTAGTTGTGTATAAAATTTGCTTGATTATAGTAGGAACA
+GCTTTGTTGAATAGGTATCTTACCTAGCAATAACTTAAGCACATTTCTTCCCTTTAAATTACTGTTAATTCTGTCTGTAG
+ATCAACAAAGTTAAAAGGCCCAAGTG
+>ref|X00502.1| Bovine prepro-oxytocin-neurophysin I gene
+AAGCAGCACTCGCTATCATCTCCCGGACCATTAGCCATTAGCCGACATAACCTTGACCCGGCACAGCCTCTGCAAATGAG
+GGGGCGCGCCGGGGGCGCAGGGCCTGACCCGCAGCGGCGCGCTGTGACCAGTCATGCGGCTGCCCTCTTAGACACCGTTC
+CGCCCACGCGGCCGCCGGGCTTAAAAGGCCAGACCCGAGAGACGGCCGCAGTCCCCGGCCCGGAGACCAGCGCGTCTGCA
+CCATGGCAGGTTCCAGCCTCGCCTGCTGCCTGCTCGGCCTCCTGGCGTTGACCTCCGCCTGCTACATTCAGAACTGCCCC
+CTGGGCGGCAAACGCGCGGTGCTGGACCTCGACGTGCGCACGGTGAGAGCCCCGCCCTCGACCCGTGGCTCTCCGGGCTG
+CCCGGCCCGCTGCCACAGGGTCGCCCCCGCCGCCCCCTTTCCCGCGCTGACCGCGTACCGGCCCCACCTAGCCTGGGAAT
+CGAGGGAGCGGAGGAGCTTTTGACTGCCCTCCTTCGACCGCTTTTGAGCCCAAAGAGAGAGCCAGGGAGACCCGCCACCT
+CCCGCGCTCCTCCGGCCGCCCTCGCCCGCCCGGCTCAGCCCCCCGCCCCACAGGGTCTCCCTCCCCGGCCGCTCCCCTCC
+CGCCCCCGGCTCATCCCTTCCCTCCCACCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCA
+TCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCG
+CCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAGCCCGGGTGAGTC
+GGGCAGGGGTCGAGACGGGACCGGGGCTCCAGGACCAGGCGGGCTGGGCCAGGGCGGCCCTGACTCGGCGTCTCTCTGTG
+CAGACGGCTGCCACGAGGACCCCGCCTGCGACCCTGAGGCCGCCTTCTCCCAGCACTGAGACCGGCCGGCCCCCGATACC
+GTCGGAGCGCAGCCCTCACTCCCTCTGTAATCATCCCCAGGAATTATGACAATGAAATAAAGCCGGTTTTTTCCCCCTCC
+AACAAGCCTCGCATCTGAGTGTCAGAACGGGGAGGGGAGGGCTTTAG
+>ref|X00503.1| Bovine prepro arginine vasopressin-neurophysin II gene
+GGAGACAGTTTCCAGGTGACCCCCCCTCATTCCCCGTCTGTCCACCTCCCCAAGTCTAGAGAGCCGCAATCATAGCCGCA
+GCAGCTCCTGTCACACCGCAGCCACACCGCTGCCTATGACAGCCTGGAGGCCAGCATCCCTCCCCCACCGTCCCCTGCAC
+AGGTCCACGTGCGTCCCCAGATGCCTGAATCACTGCTGACGCCTGGGGACCTGGAGGCCACGGGCTCCTGGGGAGCCACT
+GGGGAGGGGGTGGCGGCCACGTCACTTCAGAGGGAACACCTGCAGACATAAATAGGCAGCCAGCGAAGACATCGCAGCAC
+AGTCCACAGAGCAGCACTGCGCACTGTGCCCACCCGTGCCAGGATGCCCGACGCCACACTGCCCGCCTGCTTCCTCAGCC
+TGCTGGCCTTCACCTCTGCTTGCTACTTCCAGAACTGCCCAAGGGGCGGCAAGAGGGCCATGTCCGACCTGGAGCTGAGA
+CAGGTATGACCATGACCGCTCTCAGAGCTGCAGGGAAGGGGCAGAGGCCCAGGGACGGCACCACCGTGCAGGGGCTAGCA
+AGGGAAGTCGTGGGAGAGGCAGGCTTTAGGGGAAGTGCCCAGCAGAAGAAGGGAGGCTTGGCATGGCCAAAGGGGACCAG
+GCTGTCAGGCAGGCTAGGACAGGTTGCAGGACTTCCGGAACATTGTCCCTACCAGAGAAGGGATGCTGGCAAGAGGTTTC
+CCTAGTTCCTGGGCTTGGAGCTGCAGCAGGGAGAATGGGCAAGGCCTTCTCTGTGCCCATGGGGCCTCTCCTCTAGGACC
+AGCTGGAGCTTCAGAGGCTCTGTCCTCCCAGCACTCTAAGCCTTCCCCGATCAGCGTCCAGCTTCTCCTAGCCATGGGCC
+CCAGCATTCACCCCGGCCCCGAAGCCTGGCCATTGCCCTGAGCTTGCCCGAGTGACAGGTGCCACTCAAGCATCCTGTAA
+AGAAGTTCTTCTGGGTACCTAGCCCAATTCTTTCATGCTGCATGTCCAATGAGTCCCTCTTAATCCATCTTCAGCAGCAC
+TAAAGGAAACCCAATCACCGTGCTCAATTCTGCCATGGTCAAAAGTGGCCAGTTTTGAGCTGCTGAACAAACTTTTGGGA
+AGGTGGGCAGCCCCCACTGACGGCCCTTCCTCTGCTCGGCAGCTTTGGAAGCTGGAGTCACCTAGGTGCCTCATACCCTC
+CTCTAGGGCTCAGATCCTTGCCACTCAGGGTCAGTCCTTAGACGGACTAGCAGAAGTCAAGGTCCCAGTGAGACCCACTG
+GCTTGAGGGGCAGGGCAAGGGCAGAGAGGGGACAGAACAGGATAAGGAGGGGCGGGGGAGGGAGGGCAGAAGGAAGGTCT
+GCTTCAAGGGGAGGGTAGTGGGCAGCTGAGAGAAGGGTGGACACCAGGAGGCCCCAGAGCTGAGGGGGAAATTCTCCCCC
+AAATAGCGCATGAGGGTTCCCTTTGACAAAGCGGGAGGACGCTGAAGGGTGTGACTGACAGCTGTTCCTCAAACATCTGA
+AAACCGAGGGAGCGGAGAAGCTTTTTTTTGACTGCTCTCCTTCGACCAATTTTGGGCCCAAAGAGAGCCAGGGAGACCCG
+CCACCTCCCGCGCTCCTCCGGCCGCCCTCGCCCGCCCGGCTCAGCCCCCCGCCCCACAGGGTCTCCCTCCCCGGCCGCTC
+CCCTCCCGCCCCCGGCTCATCCCTTCCCTCCCACCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGC
+CCAGCATCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTG
+CCGTCGCCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAACGATGG
+TGCGCGGCCCGGGCGGTGGGGCGGGGGCGGGGAGGGGGGCGAGGAGGGGGCGGGGCCGGGGCCGGGGCGGGGCGGGGGCC
+GGGTTGATCTGGGTCCGGGTCTGGAGGGGGTGGGAAGCGGGGCCCGGTCCCCGAGACGCGCCCGCCAGCTGCGCGCTCAG
+CCCGTGCTCCCCGCAGAGAGCTGCGTGACCGAGCCCGAGTGCCGGGAAGGTGTCGGCTTCCCCCGCCGCGTTCGCGCCAA
+CGACCGGAGCAACGCGACCCTGCTGGACGGGCCGAGCGGGGCCTTGTTGCTGCGGCTGGTGCAGCTGGCGGGGGCGCCGG
+AGCCCGCGGAGCCCGCCCAGCCCGGCGTCTACTGAGGCGCGCCCCCCCCTCCCCACCCCTGCCCTCGCAGCACGAAAAAT
+AAACGTTTTAAAGGCACTGCTAGTGTGCGTCTCTGCCTCTGGGGGTGGAGAGGGGAGACGAAGGGAGGGCGGGGGATCAG
+TTCCTGACCCGAAGCCGCGCGCAGATC
+>ref|X53827.1| Bovine mRNA for 7O KDa heat shock cognate protein
+CTCTTTCAGCAGCCGGGCCTACGCTTTTGCAACCATGTCTAAAGGACCTGCAGTTGGCATTGATCTTGGCACCACCTATT
+CTTGTGTGGGTGTCTTCCAGCACGGAAAGGTGGAAATAATTGCCAATGATCAGGGGAACCGAACCACCCCAAGCTATGTC
+GCCTTTACTGATACCGAACGGTTAATCGGTGATGCAGCAAAGAACCAAGTCGCAATGAATCCCACCAACACGGTTTTTGA
+TGCCAAACGACTTATTGGACGTAGATTTGATGATGCTGTTGTCCAGTCTGATATGAAACATTGGCCCTTCATGGTGGTGA
+ATGATGCTGGCAGGCCTAAGGTTCAAGTAGAATACAAGGGAGAGACAAAGAGTTTTTACCCAGAGGAGGTGTCATCCATG
+GTCCTGACAAAGATGAAGGAAATCGCAGAAGCCTACCTTGGGAAGACGGTTACCAACGCTGTCGTCACAGTACCTGCCTA
+TTTTAATGACTCTCAGCGTCAGGCTACCAAAGATGCTGGAACTATTGCTGGTCTCAACGTACTTCGAATCATCAATGAGC
+CAACTGCTGCTGCTATTGCCTATGGCTTAGACAAAAAGGTTGGAGCAGAAAGAAACGTGCTGATCTTTGATTTAGGGGGT
+GGCACTTTTGATGTGTCAATCCTCACTATTGAGGATGGAATCTTTGAGGTCAAATCTACAGCTGGAGATACTCACTTGGG
+TGGAGAAGACTTTGACAACCGCATGGTTAACCATTTTATTGCGGAGTTCAAGCGTAAACACAAGAAGGATATCAGTGAAA
+ACAAGAGGGCTGTCCGTCGTCTCCGTACTGCTTGTGAGCGTGCTAAGCGCACTCTCTCTTCCAGCACCCAGGCCAGTATT
+GAGATTGATTCCCTCTATGAAGGAATCGACTTCTATACCTCTATTACCCGTGCCCGATTTGAAGAATTGAATGCTGACTT
+GTTCCGTGGCACCCTGGACCCTGTGGAGAAGGCCCTTAGGGATGCCAAACTGGACAAGTCTCAGATTCATGATATTGTCT
+TGGTTGGTGGCTCAACCCGTATCCCCAAGATTCAGAAACTTCTCCAGGACTTCTTCAACGGGAAAGAACTGAATAAGAGC
+ATCAACCCTGATGAGGCTGTTGCATATGGTGCAGCTGTCCAGGCAGCCATTTTGTCTGGAGACAAATCTGAAAATGTTCA
+AGACTTGCTGCTGTTGGATGTCACTCCTCTTTCCCTTGGAATTGAAACTGCTGGTGGAGTCATGACTGTCCTCATCAAGC
+GCAATACTACCATTCCTACCAAGCAGACGCAGACTTTCACCACCTACTCTGACAACCAGCCTGGTGTGCTCATTCAGGTT
+TATGAAGGTGAGCGTGCCATGACCAAGGATAACAACCTGCTTGGCAAGTTTGAACTCACGGGCATTCCTCCTGCCCCCCG
+TGGTGTTCCTCAGATTGAAGTCACTTTTGATATTGATGCCAATGGCATCCTCAATGTTTCTGCTGTGGATAAGAGCACAG
+GAAAAGAGAACAAGATTACCATCACTAATGACAAGGGCCGCTTGAGCAAAGAAGACATTGAACGCATGGTTCAAGAAGCA
+GAGAAGTACAAAGCTGAAGATGAGAAGCAGCGGGACAAGGTGTCTTCAAAGAATTCGCTTAAATCCTACGCCTTCAACAT
+GAAAGCTACTGTTGAGGATGAGAAACTTCAGGGCAAGATTAATGATGAAGACAAACAGAAGATTCTTGACAAGTGTAATG
+AAATAATCAACTGGCTGGATAAGAACCAGACTGCAGAGAAGGAAGAATTTGAACATCAGCAGAAGGAGCTGGAAAAAGTC
+TGCAACCCCATCATTACCAAGCTGTACCAGAGTGCAGGAGGCATGCCTGGGGGAATGCCAGGAGGAATGCCTGGGGGCTT
+CCCTGGTGGTGGAGCTCCTCCATCAGGTGGTGCCTCCTCTGGGCCCACCATTGAAGAGGTTGATTAAGCCAGCCTAGCAT
+AGATTGAGCATTGTTCCACACAAAAACATGGAAGGACCCAAATTGT
+>ref|X68443.1| B.taurus IFNAR mRNA for interferon receptor type I
+AGCGGCGCTGGCCTTGGCGGGACGGCCTGGGTGCCTCAGTCTCCGTCGCGCCGCCGCGCGGTGCCTGCCGCGGTAGTGGG
+TGGCCGAAAGATGTGACTGGAGGGCTACCGGCGGCCCGCGGACGATGCTCGCTCTCCTGGGCGCGACGACCCTGATGCTG
+GTCGCTGGGAGATGGGTGCTGCCCGCCGCCTCAGGGGAAGCAAATCTGAAGCCTGAAAATGTCGAGATCCACATCATTGA
+TGACAATTTTTTCCTGAAGTGGAACAGCAGCAGTGAGTCTGTCAAGAATGTGACTTTTTCAGCAGATTATCAAATACTAG
+GAACGGATAACTGGAAGAAATTGTCTGGATGTCAACATATTACTAGTACCAAATGCAACTTTTCTTCAGTCGAGCTTGAA
+AATGTTTTTGAAAAAATTGAATTGCGCATAAGAGCAGAAGAAGGAAACAACACTTCCACATGGTATGAGGTTGAGCCATT
+TGTACCATTTCTAGAAGCTCAGATTGGTCCCCCAGATGTGCATTTAGAAGCTGAAGATAAGGCAATAATACTGAGTATCT
+CTCCCCCTGGAACAAAAGATAGTATCATGTGGGCTATGGATCGTTCAAGCTTTAGGTATAGCGTCGTTATCTGGAAAAAC
+TCTTCAAGTCTAGAAGAAAGAACGGAAACTGTTTATCCCGAAGATAAAATTTATAAACTGTCACCAGAGATTACTTATTG
+TTTAAAAGTTAAAGCAGAACTGCGTTTACAAAGTAGAGTTGGTTGCTATAGTCCAGTGTATTGTATAAATACCACAGAGA
+GACATAAAGTACCTTCACCAGAAAATATACAAATCAATGCTGACAACCAGATCTATGTTCTTAAGTGGGATTACCCATAT
+GAAAACGCAACTTTTCAAGCTCAGTGGCTCCGTGCCTTTTTTAAAAAGATTCCTGGGAATCATTCAGACAAATGGAAACA
+AATACCGAACTGTGAAAATGTCACAAGTACCCACTGTGTCTTTCCTCGAGAGGTTTCCTCAAGGGGAATTTACTATGTCC
+GTGTACGAGCATCTAATGGAAATGGTACCTCTTTTTGGTCTGAAGAGAAGGAATTTAATACTGAAATGAAAACTATCATA
+TTTCCTCCAGTCATCAGCGTGAAATCCGTTACTGATGATTCACTGCATGTCAGTGTTGGTGCTTCAGAAGAGTCTGAAAA
+CATGTCTGTGAATCAGCTCTACCCGCTAATTTATGAAGTAATTTTTTGGGAAAACACTTCAAATGCTGAGAGAAAAGTTC
+TAGAGAAAAGAACCAATTTTATCTTTCCTGACTTGAAACCGCTGACTGTGTATTGTGTCAAAGCCAGAGCACTCATTGAA
+AATGACAGGCGGAATAAAGGGAGCAGTTTTAGTGATACTGTGTGTGAGAAAACAAAACCAGGAAATACTTCCAAAACCTG
+GCTTATAGTTGGAACTTGCACTGCATTGTTTTCTATTCCTGTGGTCATTTATGTTGTGAGCGTCTTCTTGAGATGTGTCA
+AGTATGTGTTCTTTCCATCAAGTAAACCTCCTTCCTCTGTTGACGAGTATTTCTCCGATCAGCCACTAAGGAATCTACTC
+CTTTCCACTTCTGAGGAACAAACGGAAAGATGTTTTATAATTGAAAATGCAAGCATTATTACTGAAATAGAAGAGACTGA
+TGAAATTGATGAAGTTCACAAAAAGTACAGTTCCCAAACTAGTCAAGATTCAGGAAACTATTCAAACGAAGATGAAAACA
+GTGGAAGCAAAATAAGCGAAGAGTTTCCGCAACAGGACAGTGTGTGACCAGGAATGACCCTGAAACATTAGGGAGTCTTG
+CAAGAGTCAGAGTGGGAGCCTGGGCTTTTTGCTCTTCTCAGTAACTGTCAAAAGAAGATTGTCCGTGTCGGGGAAGAAAA
+AGCGTCTTCAGATCGCAGGTCCAAAAAATACAGGCAAGCACTTCACTATTTAAAATGAATTTCAAGAAGTTTTCTGCGTC
+CTTTGCCACGTGTCAAGTCTTGAAAGGCCTGTCATTGGACCTGCCTTGGATGAGAGGCGTTAAGTCCAGAAGATACCCTC
+TGTCTCCCTCACGCTACTGTAAGCAGCCCTGTGCTGGCGTGGGGTTTGGGGGTGCTTGTGTTCCCATCAGCTGGTGCTGT
+CGCTGTGTAACGCTGCGCTGCTCCCTCTCCCCCACAGCATTATAGTTCACTATTTTTCAGGAGATATTCAGAACATTTGG
+TCTTCTTCAAAGAAGAACCTGAATACCACCATCACTTGATTTTCTGAAAAAGTAGCTTACTCTGGAAAACAGCTGCAGAT
+GCCAGAAACGAGGTTCTTATAGATTTTTCAGGGGGATTCTCTCTGTTTATACCAATCACATTTATACCAGTTGCAAGAAA
+TGTGGGTTCAGTCCTTGGGTCGGGAAGATCCTCTAGAGGAGGGCATGGCAACTCACTCCAGTATTCATGCCTGGAAAATC
+CCATAGGCGGAGAAGCCTGGCGGGCTACAGTCCACGAGGTCACAGAGAGTCGGACACTGAAGCGACTGAACGTGCATACA
+CGCGTACCAATTACATTGGCCTTTGCATCACAGTTACCCATCCCTTCTACAGTTTAGAATTAAAACCATGTCATCTTTTA
+CTATATGTACATTAAGGCTTCCTGTTTCAGAACATTAGGACACTAGCTTCTGATTAGAAGGCATAATCCCTAAAATTACA
+GAGAAATGGGGAACAGGCTGAGTAGAGAAGTTACTGTTATCTCTTAGGATATGGGAGTGTGGAACGTTAGTGGCAGTGTA
+TGTAAAGTCTTGGGATCAGAAAATGCTACTGAGAAACAGTAAGTAGTGTGAGTCAGTGGGAAAGAAGCAGGTAGCTTTAG
+TGAAAAATAAGAATAATGTGCATCGTCAGCTTCTGATTACTAACATCCTGAGGGGTGGCATTTGTTTTCACGGCTCATCT
+GTGTCACTTCTTAACATAAGCTGGCCGGCTTCTGTCCACTGTGGGGCAATATTCACAGGCATGCAGGTATCGCTTCCGCT
+CAGCCTGCATGCACTCAAGGAAATGCAAGTTATTTATCATCAGAGTGTGGGAGGAAATGAACTAGGAAGGAAACCTGAGT
+TTTTAAAATTATGTAAAACCTCTCAAAGGCATCTATAATTTATGTTTAAATGATTTTGCTGTTTGGGCTTATTCATGGAG
+TTCCTGCAGAGAAAGGAAGTGTAGGAATTC
+>ref|X16701.1| Bovine Ig germline heavy chain gamma-1-chain gene C-region, 3' end
+AAGCTGTGTCCAGACACCCCAACTGCAGTACAGTACAGAGAGCCGGGTGGCCACCATGCCGGCCGGTCATCAGACCCTGG
+AAGCAGGTGGTGGCTGGGCTCAGAGGTGCCCCAGGCCTGGCTCCTGAGGTCCTGCTGGACCCACATTCACCCAGCCTCCT
+CTCTCACAGCCTCCACCACAGCCCCGAAAGTCTACCCTCTGAGTTCTTGCTGCGGGGACAAGTCCAGCTCCACCGTGACC
+CTGGGCTGCCTGGTCTCCAGCTACATGCCCGAGCCGGTGACCGTGACCTGGAACTCGGGTGCCCTGAAGAGCGGCGTGCA
+CACCTTCCCGGCCGTCCTTCAGTCCTCCGGGCTGTACTCTCTCAGCAGCATGGTGACCGTGCCCGGCAGCACCTCAGGAC
+AGACCTTCACCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGGTGGACAAGGCTGTTGGTGAGAAGATGGTCCCCGGG
+GAGGTGTCCACTCCAGGAGACCAGGGTCAGCCCCACTGCCTGCAGGGGCCCCACCCCCGGGGTGCTGTGAACCAGGCCCA
+GTGTGTCAGGGGAGGCCCTGTCTGTCTCTCTCCTACAGTCTTGCAGGCTTGGGGAGGGGGTTGTCTGGAGTTTCCGCCAG
+GTCCACGGTGGGCAGGCAGGGTCAACGTCCACACAGCCTGGACCCACAGAGACGGGCCCTGGGCTCAGACCTGCTAAAAC
+CCGTCCCTGCCCTAAGCCCAGCCCATGGCTTCCTGCCCCTGGTAACCCCCAGTCTGCTCTCTCTGCAGATCCCACATGCA
+AACCATCACCCTGTGACTGTTGCCCACGTAAGTCACCCAGTCTCCCCATCACACCCCAGATGTGGACAGGGCCCAGGAGG
+GCCACAGGTGAGGCTGTGGGGGCCCAAGAGTGAGTCTGCCCAGGGGCTGACAACTGTTATGTCTTCCCCAAAGCCCCTGA
+GCTCCCCGGAGGACCCTCTGTCTTCATCTTCCCACCGAAACCCAAGGACACCCTCACAATCTCGGGAACGCCCGAGGTCA
+CGTGTGTGGTGGTGGACGTGGGCCACGATGACCCCGAGGTGAAGTTCTCCTGGTTCGTGGACGACGTGGAGGTAAACACA
+GCCACGACGAAGCCGAGAGAGGAGCAGTTCAACAGCACCTACCGCGTGGTCAGCGCCCTGCGCATCCAGCACCAGGACTG
+GACTGGAGGAAAGGAGTTCAAGTGCAAGGTCCACAACGAAGGCCTCCCGGCCCCCATCGTGAGGACCATCTCCAGGACCA
+AAGGTGGGCCAGGTGGACGGGACCGGGAGGCCCATGGGCCAATCAGAGTGACCGCTGTGCTAACAGCCTTCCTGTCCCCA
+CAGGGCCGGCCCGGGAGCCGCAGGTGTATGTCCTGGCCCCACCCCAGGAAGAGCTCAGCAAAAGCACGGTCAGCCTCACC
+TGCATGGTCACCAGCTTCTACCCAGACTACATCGCCGTGGAGTGGCAGAGAAACGGGCAGCCTGAGTCGGAGGACAAGTA
+CGGCACGACCCCGCCCCAGCTGGACGCCGACAGCTCCTACTTCCTGTACAGCAAGCTCAGGGTGGACAGGAACAGCTGGC
+AGGAAGGAGACACCTACACGTGTGTGGTGATGCACGAGGCCCTGCACAATCACTACACGCAGAAGTCCACCTCTAAGTCT
+GCGGGTAAATGAGCCTCACGTCCCTGCACCAGCAAGCCCTCACCCAGCCCACCCTCCCCGGGCTCCAGGTCCAGCCAGGA
+CGCCCTAGCCCCTCCCTGTGTGCATTCCTCCTGGGCCGCCGTGAATAAAGCACCCAGGCCGCCCTGGACC
+>ref|X16702.1| Bovine Ig germline heavy chain gamma-2-chain gene C-region, 3' end
+CCACCATGCCGGCCGGTCATCAGACCCTGGAAGCAGGTGGTGGCTGGGCTCGGAGGTGCCCCAGGCCTGGGCACCTGAGG
+TCCTGCTGGACCCCGCATTCACCCAGCCTCCTCTCTCACAGCCTCCACCACAGCCCCGAAAGTCTACCCTCTGAGTTCTT
+GCTGCGGGGACAAGTCCAGCTCGGGGGTGACCCTGGGCTGCCTGGTCTCCAGCTACATGCCCGAGCCGGTGACCGTGACC
+TGGAACTCGGGTGCCCTGAAGAGCGGCGTGCACACCTTCCCGGCCGTCCTTCAGTCCTCCGGGCTCTACTCTCTCAGCAG
+CATGGTGACCGTGCCCGCCAGCAGCTCAGGAACCCAGACCTTCACCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGG
+TGGACAAGGCTGTTGGTGAGAAGATGGTCCCCGGGGAGGTGTCCACTCCAGGAGACCAGGGTCAGCCCCACTGCCTGCAG
+GGGCCCCACCCCCGGGGTGCTGTGAACCAGGCCCAGTGTGTCAGGGGAGGCCCTGTCTGTCTCTCTCCTGACAGTCTTGC
+AGGCTTGGGGAGGGGGTTGTCTGGAGTTTCCGCCAGGTCCAGGGTGGCCGCAAGTGGGTCGATGTCCACACGCCTGGACC
+CACAGAGACGGGCCCTGGGCTCAGACCTGCTAAAACCCGTCCCTGCCCTAAGCCCAGCCCATGCTTCCTGCCCCTGGTAA
+CCCCCAGTCTGCTCTCTCTGCAGGGGTCTCCAGTGACTGCTCCAAGCCTAATAACCAGCATTGTAAGTCGGGAAACCTTT
+TCTCCATCCAGCGGATGTGAACAGCACCAGGAGGACTCAGGGTGTGCGGGTGGAGGGGGATGGCTGCCTTGGATGAGTGA
+GACCCCGATACTAATCTCCTGCCATGTCTCTGCCATTAGGCGTGAGGGAACCATCTGTCTTCATCTTCCCACCGAAACCC
+AAAGACACCCTGATGATCACAGGAACGCCCGAGGTCACGTGTGTGGTGGTGAACGTGGGCCACGATAACCCCGAGGTGCA
+GTTCTCCTGGTTCGTGGACGACGTGGAGGTGCACACGGCCAGGACGAAGCCGAGAGAGGAGCAGTTCAACAGCACGTACC
+GCGTGGTCAGCGCCCTGCCCATCCAGCACCAGGACTGGACTGGAGGAAAGGAGTTCAAGTGCAAGGTCAACATCAAAGGC
+CTCTCGGCCTCCATCGTGAGGATCATCTCCAGGAGCAAAGGTGGGCCAGGTGGACGGGACCGGGAGGCCATGGGCCAATC
+AGAGTGACCGCTGTGCTAACAGCCTTCCTGTCCCCACAGGGCCGGCCCGGGAGCCGCAGGTGTATGTCCTGGACCCACCC
+AAGGAAGAGCTCAGCAAAAGCACGGTCAGCCTCACCTGCATGGTCATCGGCTTCTACCCAGAAGATGTAGACGTGGAGTG
+GCAGAGAGACCGGCAGACTGAGTCGGAGGACAAGTACCGCACGACCCCGCCCCAGCTGGACGCCGACCGCTCCTACTTCC
+TGTACAGCAAGCTCAGGGTGGACAGGAACAGCTGGCAGAGAGGAGACACCTACACGTGTGTGGTGATGCACGAGGCCCTG
+CACAATCACTACATGCAGAAGTCCACCTCTAAGTCTGCGGGTAAATGAGCCTCACGTCCCTGCACCAGCAAGCCCTCACC
+CAGCCCACCCTCCCCGGGCTCCAGGTCCAGCCAGGACGCCCTAGCCCCTCCCTGTGTGCATTCCTCCTGGGCCCGCCGTG
+AATAAAGCACCAGGCCGCCCTGGACCCTGCAACGCTGTGCTGGTTCTTTCCGAGGTAGAGCCCTGGTGCCGCCAGGCTGC
+GGGGGTGGGCTGAGCCGACTCTGGGCCACTTTGTTCAGCATCTGTGGGGGAGCTGACCCCACTCCGGGCCAGACACACAG
+TGAGTGGGTCCAGCAGGCCACCTGGGGGCTGCCCAAGGCCACAGAGGGGCTTGGGGGCG
+>ref|NM_174827.2| Bos taurus cathelicidin 4 (CATHL4), mRNA
X67340.1 Bos taurus mRNA for cathelicidin (CATHL4 gene)
+AGACTGGGGACCATGCAGACCCAGAGGGCCAGCCTCTCACTGGGGCGGTGGTCGCTGTGGCTACTGCTGCTGGGACTAGT
+GGTGCCCTCGGCCAGCGCCCAAGCCCTCAGCTACAGGGAGGCCGTGCTTCGTGCTGTGGATCAGCTCAATGAGCTGTCCT
+CAGAAGCTAATCTCTACCGCCTCCTGGAGCTAGACCCACCTCCCAAGGATAATGAAGATCTGGGCACTCGAAAGCCTGTG
+AGCTTCACGGTGAAGGAGACTGTGTGCCCCAGGACGATTCAGCAGCCCGCGGAGCAGTGTGACTTCAAGGAGAAAGGGCG
+GGTGAAACAGTGTGTGGGGACAGTCACCCTGGACCCATCCAATGACCAGTTTGACCTAAACTGTAATGAGCTCCAGAGTG
+TCATCCTACCCTGGAAATGGCCATGGTGGCCTTGGCGCAGAGGTTGATGGAGAAGAGCTGTCAGATCCTGAGCCTCGGGA
+AGAGTCTTAAGTGTCTGATTTGTTCAGATTCGGGCTTCTGGACAGTGAAAATAAATTCTTGTGAAAACGG
+>ref|Z11749.1| B.taurus DNA for interleukin 6 gene 5' flank (promoter)
+AGATCTTCTGCATGAAACCAAGGACCCTCTTGCAAAAGATATTGTAAGAACCGAGGAAGCCTCTACTAGCTCAACCCAAC
+ATGGAAGCCTGAGGCATTGGAGGGGAAGTGTGATTCCAAACCCAGAGTCCTGTTCTATCAGTAGATTTCTTCTCAGTTGC
+CTCTGGATTCAAATCAAGTCATACAGCTATGAACACAAGCTCCAGAAAATGCCACAAGATCCTCCTCTGACATACTACCA
+AAGAGGTGAGTGGTATTCTCCCTACTTCTACCCTGAACCCAGTGGGTGTCAGTAAATTGAGGACACCAGCAGACCCAGAC
+CCAGGGTCCTCCCAGTGGGAGCAGGATCACCCTATAGCCAGTGGTAGGGATAGCACCAGCATCACAAGACAACCTCCTTG
+GACAGAGATCAGGGTCTTCACGGGGAACATCCCCAAAAGGCCACTAGGGAATGAGCAGGGCTGTGACGGATCTGGCCCAA
+GTGAGCAGGCGCAGGTGAGGAGGAAGCTGGCAGATGCCTCGTGGCGGCATTTATGTGTGAACCCCCACTGCACCTGGAGA
+CTCCTAGAGAACGTCCACAAGATGTGGGGGGAGTCAGGAGGTTCTGCAACAGCTGGCCACAGTGAGAGCCAGGAAATAAC
+AGTACTGCTGAGGGCTCACAGTATCCTTTTTGAGGGAGTGGAGGGATGGAGAGGCTCATAGTATATTATTTGTAATCCCA
+GGCCAGCAGGCTGTGGAGTGGTCTGAGGAAACTGAGGTCAGAACATCTTAGGTTTTTTACAAATACAAATAAACTGGAAT
+ACTAAAGCCTAACCAGTGGTAATTAAAGTATTTTTAAAATCAGTCAGCCTTAGCTTCTCCCCACCCGCTACCCCTCTAAA
+ACTCTGTGCATGATTTCAGCTTTACTTTTTCTCAAGACATGCTAATGTGCTGAGTCACTAAAAAAAAAAAGTAAAGAAAG
+AGTGATCCAGCTTCTGAGGACTAGCTTTAGTAATGATCTAAGCTTCTACGCGGCACTTTTTGCCCTGGTTTGATTCCTGT
+GATGCTAAAGGACGTCACATTGAGCAATCTTAATAAGGTTTCCAATCAGCCCCACCCGCTCTGGCCCCACCCCCACCCTC
+CAACAAAGATTTATCAAATGTGGGATTTTCCCATGAGTCTCAATATTAGAGTCTCAACCCCCAATAAATATGAGACCGGG
+GATGTCTGAGACTCAGTCTGCCCTCGGGCCCACCAGGAACGAAAGAGAGCTC
+>ref|X04152.1| B.taursu cytokeratin 19 gene 5'-flank and exon 1 (and joined CDS)
+CCATGGTCAGTATGAGCCCCTTCCTGGCAATCCATCTATTCATCCGGGTACTAGGACAGGACAAACAGACTCAAGAGGAT
+TCGGCCTTTGACACCCTGCTTGGAGATGCTCACAAGGACAGAGGGATTCTATCCTGTCTCTGGGCAGCAGGTGCTAAAAG
+TCTCCTGAGTGAGTTGCTTGACTAGCTTAGGCTCAGAATGTATGCCTTTGGAGTTGGAGGTAGAGGGTTGTCCTGGTAGA
+GGGGTGAGTAGGAGGAGGAGGCGCGAACAGGGGTCAGCCCTCAGGTTGGGGGTCCAGGGTAATTGTGCTTTAACGAATCC
+AGTTGCAGATACCCTCCCAACAGCTGAAGGCCCGGGAGCCTCTTGTCACCCTGGGGCCCTGTCCAGCCATAATAGGGTGG
+GGTGGCTTTGTCTCAGGAGGCCTGGGAGGTTGCAGCTCAGAGTACCTCCATCTGGGGTACTTGAGGGGGGGCCAAGGCAT
+GGGCGAGCCCAAGGGTCAGCTTCAGAGAGGTGGTAATTCCCAGGGGGATGTAGGAATCAGGAGAATGTACTTTTGGGGGG
+GGTTAATTTTGCTTATAAGTAAGGGGGTCGGAGTATGATGGGGAAGGGGACTCTGAGTGAGTGATCTGTACTCTCAGAAG
+GACTGTAATTCCTGGGGGGTGTCAAACTCAGGGTGATCTTAATGGGGGGCAGCATGTGAACTGCGGGGGTGTCTAAGTGT
+GAGTGTGCTAGCGGGACTGGGGCTCGGAATGGGCTAAGGCAGCTGTCGGGAGGGCAGGAGCCTCTGGCCCCTGGGAGGGG
+AGAGGAGGAAGCTGAGCCGCCAAGAACTGACCAATGGGGAGAGCGCCCTTATTTGCAATCAGGAGCCTGCAAATTCCAGG
+GCGCTCAGATAGTCCGTCCTGACACCGTCCCCCCTCCCCCTCCCCCGCCCGCCCAGGGCATAAAAGGCGCCAGGTGAGGG
+CCTCTCGCCACTCCTCCTGCGGACGGACCGCAGCCACTCCGACCGGTGCCGCCTCGTCCTGCTTCGCCATGACTTCCTAC
+AGCTATCGCCAGTCGTCGTCCACCTCGTCCTTCGGGGGTATGGGCGGCGGCTCCATGCGCTTCGGGGCTGGAGGCGCCTT
+CCGCGCGCCCAGCATCCATGGGGGCTCAGGTGGCCGCGGCGTGTCGGTGTCCTCCGCCCGCTTCGTGTCCTCGTCCTCCG
+GGGGCTACGGCGGCGGCTATGGGGGCGCCCTGGCCACCTCCGACGGGCTGCTGGCGGGCAACGAGAAGCTCACCATGCAG
+AACCTCAACGACCGCCTGGCCTCCTACCTGGAGAAGGTGCGCGCCCTGGAGGAGGCCAACGGCGACTTGGAGGTGAAGAT
+CCGCGACTGGTACCAGAAGCAGGGGCCCGGGCCCGCCCGCGACTACAGCCACTACTTCAAGACCATAGAGGACCTGCGGG
+ACCAGGTGGGCGGTGGTCCGGCTTGGGGAAGTGCACCTGCCGCGGAAACCCAGCCCCGCGGGCGGGCGAGGCCGGGCGGG
+GGCGGCGGGTGCCCGAGCCACCTTCCGGCGGGGCGGGAGCGAGCCCGTTAGGATGTGGGAGGCCCACAGGGTGGGGCTGA
+ACGAAGCCGGCAGGTGAGGAGGGGCAGGGCGGTGGGCCTAGGAAGTGAGGCTTGGAGGGCGGGG
+>ref|X04198.1| B.taurus cytokeratin 19 gene exons 2-6 and 3'-flank
+TTCTCCTGTTCCAGCTCTCAGGCCTGGACTGATTTTAAGGCTGCCCAGAGAGAGCAGGCAGCCTGGGGTTGCTGGAGCTT
+TGGTCTCCAGGGGCCCGGGGACACACACACTCCTTTGCTTCTCTGGGAAGAAAGTGGGTGGGCATTGCCCATATGCTGAG
+CTGGTGCCAACCTCTTGCATTCTGCCTCCCAGATTCTCGGTGCCACCATTGAGAACTCCAAGATAGTCCTGCAGATCGAC
+AATGCCCGTCTGGCTGCAGATGACTTCCGCACCAAGTGAGTGTCTCTACTTTGGGGGCTGCAGAAGCCAGAGCAGGGGAG
+GGGAGGCAGTCCCTTCGGGGGCTCAGAGCCATGGAGGGAAATGGATGCCTCCCTCACCAACCCTAGCTGGTCTAAAGCAC
+TCTCCATCCCCCATGGGACCTTGAGCCCTGGGGAGGTGGGGAGATCTTCAGAGGTGCAGAGGAAATGCTGGCATGACTAT
+GACTATTTTCTCTGAAAGGTTTGAGACGGAGCAAGCTTTGCGCATGAGTGTGGAGGCTGACATCAATGGCCTGCGCCGGG
+TGCTGGATGAGCTGACCCTGGCCAGGACTGACCTGGAGATGCAGATTGAAGGCCTGAAGGAGGAGCTGGCCTACCTGAAG
+AAGAACCACGAGGAGGTGGGTTTCATGCTGGGCATCCCATCCACCCTAGCCCAGTTCCCCAGATAAGGACATTTTTAGCC
+TGTACCCTCTGACTGCGGCCACATTTGTGGCCCTCTTGACCTGACCCTGAGTGTGGATTGTGGCTCTCAAGAGTTCTAAC
+AGCAGATGGTGGTGACTCCGTCTGTCCCCCGGTGCTGGGTCCTAGGTCTGCACCTGAAAACCGGCCTCTCCCGCCATGGC
+CTGGGGTACTGAGGAGTGACCTGGCTCAGGGCCAGCAGGCTCTGGGCCCTGACATGCCCATCTCTGCTGTATCTTTCCAG
+GAAATGAGTGTGCTGAAGGGCCAGGTGGGTGGCCAGGTCAGTGTGGAGGTGGATTCTGCTCCGGGCATCGACCTAGCCAA
+GATCCTGAGTGACATGAGAAGCCAATATGAGGTCATTGCTGAGAAGAACCGGAAGGATGCTGAGGCCTGGTTCATCAGCC
+AGGTATGGAGGGGGAGGCAGGTGCTCCCTGGAGGGGTGGCAAGGAGAGGAGGCTTAATGCTCCCGGGCAAGGGTCTGATT
+CAGTGCTATTCCCTTTGCCTCCTTTCATTGCAGACCGAGGAGCTGAACAGGGAGGTCGCTGGCCACACGGAGCAGCTGCA
+GATCAGCAAGACGGAGGTCACCGACCTGCGGCGCACCCTCCAGGGTCTGGAGATCGAGCTGCAGTCTCAGCTCAGCATGG
+TAGGTGCCCTCTGCCCTGTGGGATTCACACTTATGTCCTTGTAGCCTTGGGCAGCCTGGGCGGTGGCTCTGCCTGGACCC
+TTTCTGGGCACCAGGCTCTGCTGAGCCTTCTTCCCTCTCTCTGCGTTCAGAAAGCCGCCCTGGAAGGCACACTGGCGGAA
+ACGGAGGCTCGCTTCGGAGCCCAGCTGGCGCAGATCCAGGCGCTGATCAGTGGTATCGAAGCCCAGCTGAGTGACGTGCG
+AGCTGACACCGAGCGGCAGAACCAGGAGTACCAACACCTCATGGACATCAAGACCCGGCTGGAGCAGGAGATTGCCACCT
+ACCGAAACCTGCTGGAGGGCCAGGATGCCTACTTCAACGACCTGTCACTCGCGAAGGCCCTCTGAGTCTGGCGGCCTCCT
+GGCTTTCCCGCTCTGCTGCAGAAGGAATTCTCCTGGGTAGAGGCATGGGAGGGGAGGGACCCTTACCCTTGCCTCTCCCC
+CTGACCTGCCAATAAAACTTTATGGCCCAAAGGAAGATGGATGTTGGGTTTTTTATTTCAGTCCATGGAGGTGGGCCCGG
+CTTTGGCACTGTTTAGATTTTATTGTCTTGGTTTCATTTGAACCAGAATCCACCGTGTCCCAGGAAAGGGAAGGGAGGGC
+TATCACAAAGTGTAGCTATTACCATAATTTCACTTTCCAGAGGTCTTCACTTATCTCACCGTACCCTAAAACAAGCTT
+>ref|X05048.1| Bovine gene (5' region) for epidermal cytokeratin IV
+TCACAGATCAGCTCCTTGTCTCCTTTGTTTGAGAGCATGACTAACCCATGACTTCAGTGAATTTACATCCAGTGGTATTG
+TGTTGGGATCAAGTCAAGGCTAGAAGCCAGAAGAATTTCTCCATGACTAAAGGAAACCAAAGAAGCAATATTCATACTTC
+ATACCTTTCTAGAGGCAGGGGGTGATCTCACTATTTGTAAAGCCCAGCCCTTTCTAATCTGCAGGCTCACCTTCCAGGAC
+TGAGCCCGGCCCATTTTTTCCATATATAAGCTGCTGCCGGGCCGCCCTCTATAGATCTGTTCTTTAGCTCTGCTTTCCAC
+CTCTCACACCCTTCTCAACCTATTCTTCTTCAGGAACCATG
+>ref|X05131.1| Bovine gene (5' region) for epidermal cytokeratin Ib
+CACTTTCACCATTTCAGATTATTTTTAAGGTGTGTTTAGTAGCCCAAAACTAACATTGCCTGGAAGGCAAACCCAACCCA
+TGACTACTTGAGATTAATTATCTCTCCTTCGTTTGAGCCCAGCAGCCTCCTAGATGTATATAAAGGGATTTATCCTGCAC
+AGGTCTTCAGTTTGCTTCTCTCTTCCTCTGGCTCTGAGTGGCCCTGCTTAACTCTTGCACTTTCCCTTCACCGACTTCAC
+TCACCATG
+>ref|X05127.1| Bovine gene (5' region) for epidermal cytokeratin
+CAATTTGGAAATTTGGAGTGATTACCAAGGTGTGTTTTGAGTTTCGGACTTGACCTCTTTCTGCCAGGCAAACCAAAAGC
+TGATAATACCTCAATTAGTTGGTTGGCACCGCCAGCCAGCCAAGCTCCCAGCCCTATATAAGCGCCACCTCTGGCCCAGA
+GCTTCAGAAGGTCTCCGCGTTTCCGCCAACCTCCCGGTCCGCTCTCCTTTTGAATAACTTGCCGTCCACCATG
+>ref|X01460.1| Bovine mRNA 3' region for epidermal keratin VIb
+GGTGATGTGAATGTGGAAATGAATGCTGCCCCAGGTGTTGATCTCACTGAACTTCTGAATAACATGAGAAGCCAATATGA
+ACAACTTGCCGAGAAAAATCGCAGAGACGCCGAAGCCTGGTTCAATGAAAAGAGCAAGGAACTCACTACGGAAATCAACA
+GTAACCTTGAACAAGTATCGAGCCATAAATCTGAGATTACTGAGTTGAGACGCACTATTCAAGGCCTGGAGATTGAGCTA
+CAGTCCCAACTAGCCCTAAAACAATCCCTGGAAGCCTCCTTGGCAGAGACAGAAGGTCGCTATTGTGTGCAGCTCTCTCA
+GATTCAGTCCCAGATCTCCTCTCTGGAAGAACAACTGCAACAGATTCGAGCTGAGACTGAGTGCCAGAATGCCGAGTACC
+AACAACTCCTGGATATTAAGATACGACTGGAGAATGAAATTCAAACCTACCGCAGCCTGCTAGAAGGAGAGGGAAGTTCC
+GGCGGCGGCTCCTACGGCGGCGGGCGCGGCTATGGCGGAAGTTCCGGCGGCGGCGGCGGCGGCTACGGCGGCGGAAGTCC
+AGCGGCGGCTACGGCGGCGGAAGTCCAGCGGTGGCGGCCACGGCGGTAGTTCCGGCGGCAGTACGGCGGCGGAAGTCCAG
+TGGCGGTGGCCAGGCGGCGGAAGTCCAGCGGAGGCCACAAATCCACCACTACAGGGTCCGTTGGAGAGTCCTCATCTAAG
+GGACCAAGATACTAACAAAACCAGAGTGATCAAGACAATTATTGAGGAGTTGGCACCTGATGGTAGAGTCCTTTCATCTA
+TGGTTGAATCGGAAACCAAGAAACACTACTATTAAGCCGCATTAAGAGGAAAGAGTCTCCCCTCACACAGGCCATTATGC
+ATAGATGCATGAAAAAAAATCTCCAAGAAAACACTTCAGTCTTAATGGCCTATGGAAATAGGTCCACTCCTTGATCATAA
+GGTGTCTAAACGGTGTTTTGTGGTTTCTGTATTTCTCCTTTTCACTTTACCAAAAAGTATTCTTTACTTTTTGGAAAAAA
+AGAAAAAACTTTCTATTCTCATTTACTAATGAATTTCAATAAACTTTCTTACTGATGCACT
+>ref|X01461.1| Bovine mRNA 3'-region for epidermal keratin VII
+AGCGTGGAAGAGCAGCTCGCCCAGCTGCGCTGCGAGATGGAGCAGCAGAACCAGGAGTACAAGATCCTGCTGGACGTGAA
+GACCCGGCTGGAGCAGGAGATCGCCACCTACCGCCGCCTGCTGGAGGGCGAGGACGCCCACCTCTCCTCTTCCCAGTTCT
+CCTCTGGCTCTCAGTCATCCAGAGATGTATCCTCCAGTCGCCAGGTTCGCACCAAAGTCGTGGATGTACACGATGGCAAG
+GTGGTGTTCACACACGAGCAGATCGTTCGCACCAAGAACTAAGGCTTCTCCTGCTCATGCCTAGAAAGCACCCCCCAAGT
+GGACACAGATTTCCCTAGGGCATCCCTTCTCCTGTCCCCGCCTCCCCCAAGCACTTGACTCGTGAGCCCTGTTTCACCCT
+TGCCCCTTCCAGCAATCAATAAAGCTTCATTAGCTGAGTTGCCCA
+>ref|V00426.1| Bovine mRNA for low molecular weight kininogen I precursor
+AGAGGAGACAGAGGCTGAAGCTAGTTAACATCAGTGTCTTGGCTCCCAACTGGCTCCCAATTCCTGGTGAAACTCCTAAA
+GGGAGACTGTTAAATCATGAAATTAATCACCATCCTTTTCCTTTGTTCCAGGCTGCTACCAAGTTTAACCCAAGAGTCCT
+CTCAAGAAATCGACTGCAATGACCAGGATGTATTTAAAGCTGTGGACGCTGCTCTGACAAAATACAACAGTGAAAACAAG
+AGTGGCAACCAGTTTGTATTGTACCGCATAACCGAGGTCGCCAGAATGGATAATCCTGACACATTTTATTCCTTGAAGTA
+CCAAATCAAGGAGGGCGACTGTCCTTTTCAAAGTAACAAAACTTGGCAGGACTGTGACTACAAGGACTCTGCACAAGCTG
+CCACAGGAGAGTGCACAGCGACCGTGGCCAAGAGAGGGAATATGAAGTTCTCCGTGGCTATCCAGACCTGCCTGATCACT
+CCAGCCGAGGGCCCCGTGGTGACAGCCCAGTATGAGTGCCTTGGCTGTGTGCATCCCATATCTACCAAGAGCCCCGACTT
+GGAGCCTGTTCTGAGATATGCCATCCAATATTTTAACAACAACACCAGTCATTCCCACCTCTTTGATCTGAAAGAAGTAA
+AAAGAGCCCAAAGACAGGTGGTGTCTGGATGGAACTATGAAGTTAATTACTCAATTGCACAAACTAATTGTTCCAAGGAG
+GAATTTTCATTCTTAACTCCAGACTGCAAGTCCCTTTCAAGTGGTGATACTGGTGAATGTACAGATAAAGCACATGTAGA
+TGTCAAGCTAAGAATTTCTTCCTTCTCGCAGAAATGTGACCTTTATCCAGTGAAGGATTTTGTACAACCACCCACCAGGC
+TTTGTGCCGGCTGCCCCAAACCTATACCTGTTGACAGCCCAGACCTGGAGGAGCCTCTGAGCCATTCCATCGCAAAGCTT
+AATGCAGAGCATGATGGAACCTTCTATTTCAAGATTGACACTGTGAAAAAAGCAACAGTACAGGTGGTAGCTGGATTGAA
+GTATTCTATTGTGTTCATAGCAAGGGAAACCACATGTTCTAAGGGAAGTAATGAAGAGCTGACCAAGAGTTGTGAGATCA
+ATATACATGGTCAAATTCTACACTGTGATGCTAATGTCTATGTGGTGCCTTGGGAGGAAAAAGTTTACCCTACTGTCAAC
+TGTCAACCACTTGGACAGACCTCACTCATGAAAAGGCCTCCGGGTTTTTCACCTTTCCGATCAGTTCAAGTGATGAAAAC
+TGAAGGAAGCACAACTACGCACGTAAAGTCCTGCGAGTACAAGGGCCGACCTCAAGAGGCAGGGGCAGAGCCAGCACCTC
+AGGGTGAGGTCAGTTTACCGGCAGAATCTCCACAGTTGGCACGATAGACCCAATAACCTCTGTCAGCAGCCCTGCGTGGA
+AGGACGAGAAGATGGGGTAGAATTTAAATAGAGAAGAATGCTGTTTTATCCCTCTGTGACTGACTGAAATAAAGTTCTGT
+CTTTATGTTC
+>ref|X06366.1| Bovine gene for alpha-lactalbumin
+AAGCTTATATATTTATGAACACATTTATTGCAAGTTGTTAGTTTTAGATTTACAATGTGGTATCTGGCTATTTAGTGGTA
+TTGGTGGTTGGGGATGGGGAGGCTGATAGCATCTCAGAGGGCAGCTAGATACTGTCATACACACTTTTCAAGTTCTCCAT
+TTTTGTGAAATAGAAAGTCTCTGGATCTAAGTTATATGTGATTCTCAGTCTCTGTGGTCATATTCTATTTCTACTCCTGA
+CCACTCAACAAGGAACCAAGATATCAAGGGACACTTGTTTTGTTTCATGCCTGGGTTGAGTGGGCCATGACATATGATGA
+TGTACAGTCCTTTTCCATATTCTGTATGTCTCTAAGAGGAAGGAGGAGTTGGCCGTGGACCCTTTGTGCATTTTCTGATT
+GCTTCACTTGTATTACCCCTGAGGCCCCCTTTGTTCCTGAAATAGGTTGGGCACATCTTGCTTCCTAGAACCAACACTAC
+CAGAAACAACATAAATAAAGCCAAATGGGAAACAGGATCATGTTTGTAACACTCTTTGGGCAGGTAACAATACCTAGTAT
+GGACTAGAGATTCTGGGGAGGAAAGGAAAAGTGGGGTGAAATTACTGAAGGAAGCTCAATGTTTCTTTGTTGGTTTTACT
+GGCCTCTCTTGTCATCCTCTTCCTGGATGTAAGGCTTGATGCCAGGGCCCCTAAGGCTTTTTCCACAAATAAAAGGAGGT
+GAGCAGTGTGGTGACCCCATTTCAGAATCTTGGGGGGTCACCAAAATGATGTCCTTTGTCTCTCTGCTCCTAGTAGGCAT
+CCTATTCCATGCCACCCAGGCTGAACAGTTAACAAAATGTGAGGTGTTCCGGGAGCTGAAAGACTTGAAGGGCTACGGAG
+GTGTCAGTTTGCCTGAATGTGAGTTCCCTGCTATTTTGCTTTGTCCCATAATTCATCCTCTTCACTCTTTCCCTCCATTC
+TCTTCATCCTCTTTTCCCCCTCTACTTTTAATTATCAAACAATTCTCTTATTTGTTTACTCTTTTATTACATTTATTTAT
+CTGCCTCTCCTTTTTCCCATTGTCTGATCCTTTGGAACTCTTTTCACCTTAACAAGATACTCTGTGGTCTGCCATATTTG
+GAGATTGGTTGGAGAGCCTTTTTCGGTCTGGGAATACAGGTCCTCATTTATGCTATACATGAACATCCTTGTGAAATCTC
+TTTTTCGTCTTTCTTTCAGGGGTCTGTACCGCGTTTCATACCAGTGGTTATGACACACAAGCCATAGTACAAAACAATGA
+CAGCACAGAATATGGACTCTTCCAGATAAATAATAAAATTTGGTGCAAAGACGACCAGAACCCTCACTCAAGCAACATCT
+GTAACATCTCCTGTGACAGTGAGTAACTTCTTTTTACTCTGTTCCTGTGTTTTTCTGAAACCTACTCCTGGGATAACCTC
+CTTTTTTTTGGTGTGAAGCACACCTCTGGCTTCACTGCCTTGGACTCCAAATTAACTGTGGGACTTGATAATACCGAGTA
+AGAGGCTCTTAGAATTTTTCATTAACACTAAATCCCCAGACAGTTTCTTAAAGTTCCTGGGTAGGTGACCTGAGCTGTTT
+GGGGATCTTGATGTATAATACCCTGTATTTTCAGACTAAGTTGGTTGATGAAGTTGATAATTCCTAAGGAGCTGCCCCAG
+AGAAGAGAAGGGAGTCCTTACCTAGGGATAGGCATTACTGTATTAAATTTCTCACCCAGAAGGCAACAGGCATAAGCCTC
+TAGTTCAGAGAAAACCAGAGAAGAGGGAAATTCATTATCCTTCTGGGTAATACTTAGCTCTCTCATTTTTTCCACCAGAG
+GCTCCTGCCAGAGTTCCTGGATGATGATCTTACTGATGACATTATGTGTGTCAAGAAGATTCTGGATAAAGTAGGAATTA
+ACTACTGGTGAGTCACCTCTCTATTTTTCACTTAATCTTTCCTCTCTTTCTTCTCAGTCCTTTCGTCCCAGCACTATACT
+CCTTTCTCTCTATTTCTTGGTCTTTTAAGCTAGAATGTAATCTTAAAAACAAAAATCATCAAGCAGACTCCGGTTTCCAA
+TTTTGAAGCTTCACTTACTTCACTCCCGTTAGCAATTTTCCTACCTAAGGGTCCCTAATAGAGGGCTGAGATCCAGGATT
+TCCTTCACCAGGACTTGAACATCTAATTCTACTTGTTCAGTCCTACATCCTAAGGCACGCCCTTTGACCACTGCCCCGCA
+ATTTTCTTGGAGTTTTAAAAAATGGACCTTACTCCACTAAGTGGCTCAGTGTCTCTAGCCATGTGGCTAGGAAAGTCTGT
+CTGTAATTTTAACCCACAGTCTTCCACCTCAGCCTTCCTGGGGATAAAGCTAGATGTAAATCTAACCAAGATCCTGTCAG
+TAATTTGCCTTGTCTCCTTCTTCATGATCAGGTTGGCCCATAAAGCACTCTGTTCTGAGAAGCTGGATCAGTGGCTCTGT
+GAGAAGTTGTGAACACCTGCTGTCTTTGCTGCTTCTGTCCTCTTTCTGTTCCTGGAACTCCTCTGCCCCGTGGCTACCTC
+GTTTTGCTTCTTTGTACCCCCTTGAAGCTAACTCGTCTCTGAGCCCTGGGCCCTGTAGTGACAATGGACATGTAAGGACT
+AATCTCCAGGTGTGCATGAATGGCGCTCTGGACTTTTGACCCTTGCTCGATGTCCCTGATGGCGCTTTTAATGCAACAGT
+ACATATTCCACTTTTGTCCCGAATAAAAAGCCTGATTTTGAGTGGCTGGCTGTATTTTCTTCCTGGTGGGAGAGGGAGGA
+AATAGGGTGAGTAGGTAGACCTGGCCATGGGTCACAGACCCCTTCATCTCTACTAAAGAGGATAGAGAGGCTGAACTTAT
+AACAACTCAAAGATGGAGATTACTTTCTGTATTAATTCAATTCAACAGAGTTTTATTGATCACCTAGCATAATTTAAAGA
+GCTATGGAGGGGATCTAAAGTTGACTAAAAGCATCTCTTACCTAAACTGCTGCTAAGTCACTTCAGTTGTGTCCGACTCT
+GTGTGACCCCATAGACGGTAGCCCACAAGGCTCCCATGTCCCTGGAATTC
+>ref|X57084.1| Bovine mRNA for lactotransferrin
+CTTCGTTCCGGAGTCGCCCCAGGACGCCAGCCATGAAGCTCTTCGTCCCCGCCCTGCTGTCCCTTGGAGCCCTTGGACTG
+TGTCTGGCTGCCCCGAGGAAAAACGTTCGATGGTGTACCATCTCCCAACCCGAGTGGTTCAAATGCCGCCGATGGCAGTG
+GAGGATGAAGAAGCTGGGTGCTCCCTCTATCACCTGTGTGAGGAGGGCCTTTGCCTTGGAATGTATCCGGGCCATCGCGG
+AGAAAAAGGCGGATGCTGTGACCCTGGATGGTGGCATGGTGTTTGAGGCGGGCCGGGACCCCTACAAACTGCGGCCAGTA
+GCAGCAGAGATCTATGGGACGAAAGAGTCTCCCCAAACCCACTATTATGCTGTGGCCGTCGTGAAGAAGGGCAGCAACTT
+TCAGCTGGACCAGCTGCAAGGCCGGAAGTCCTGCCATACGGGCCTTGGCAGGTCCGCTGGGTGGGTCATCCCTATGGGAA
+TCCTTCGCCCGTACTTGAGCTGGACAGAGTCACTCGAGCCCCCTCCAGGAGCTGTGGCTAAATTCTTCTCTGCCAGCTGT
+GTTCCCTGCATTGATAGACAAGCATACCCCAACCTGTGTCAACTGTGCAAGGGGGAGGGGGAGAACCAGTGTGCCTGCTC
+CTCCCGGGAACCATACTTCGGTTATTCTGGTGCCTTCAAGTGTCTGCAGGACGGGGCTGGAGACGTGGCTTTTGTTAAAG
+AGACGACAGTGTTTGAGAACTTGCCAGAGAAGGCTGACAGGGACCAGTATGAGCTTCTCTGCCTGAACAACAGTCGGGCG
+CCAGTGGATGCGTTCAAGGAGTGCCACCTGGCCCAGGTCCCTTCTCATGCTGTCGTGGCCCGAAGTGTGGATGGCAAGGA
+AGACTTGATCTGGAAGCTTCTCAGCAAGGCGCAGGAGAAATTTGGAAAAAACAAGTCTCGGAGCTTCCAGCTCTTTGGCT
+CTCCACCCGGCCAGAGGGACCTGCTGTTCAAAGACTCTGCTCTTGGGTTTTTGAGGATCCCCTCGAAGGTAGATTCGGCG
+CTGTACCTTGCGTCCCGCTACTTGACCACCTTGAAGAACCTCAGGGAAACTGCGGAGGAGGTGAAGGCGCGGTACACCAG
+GGTCGTGTGGTGTGCCGTGGGACCCGAGGAGCAGAAGAAGTGCCAGCAGTGGAGCCAGCAGAGCGGCCAGAACGTGACCT
+GTGCCACGGCGTCCACCACCGACGACTGCATCGTCCTGGTGCTGAAAGGGGAAGCAGATGCCCTGAACTTGGATGGAGGA
+TATATCTACACTGCGGGCAAGTGTGGCCTGGTGCCTGTCCTGGCAGAGAACCGGAAATCCTCCAAATACAGTAGCCTAGA
+TTGTGTGCTGAGACCAACAGAAGGGTACCTTGCCGTGGCAGTTGTCAAGAAAGCAAATGAGGGGCTCACATGGAATTCTC
+TGAAAGACAAGAAGTCGTGCCACACCGCCGTGGACAGGACTGCAGGCTGGAACATCCCCATGGGCCTGATCGTCAACCAG
+ACAGGCTCCTGCGCATTTGATGAATTCTTTAGTCAGAGCTGTGCCCCTGGGCGTGACCCGAAATCCAGACTCTGTGCCTT
+GTGTGCTGGCGATGACCAGGGCCTGGACAAGTGTGTGCCCAACTCTAAGGAGAAGTACTATGGCTATACCGGGGCTTTCA
+GGTGCCTGGCTGAGGACGTTGGGGACGTTGCCTTTGTGAAAAACGACACAGTCTGGGAGAACACGAATGGAGAGAGCACT
+GCAGACTGGGCTAAGAACTTGAATCGTGAGGACTTCAGGTTGCTCTGCCTCGATGGCACCAGGAAGCCTGTGACGGAGGC
+TCAGAGCTGCCACCTGGCGGTCGCCCCGAATCACGCTGTGGTGTCTCGGAGCGATAGGGCAGCACACGTGAAACAGGTGC
+TGCTCCACCAGCAGGCTCTGTTTGGGAAAAATGGAAAAAACTGCCCGGACAAGTTTTGTTTGTTCAAATCTGAAACCAAA
+AACCTTCTGTTCAATGACAACACTGAGTGTCTGGCCAAACTTGGAGGCAGACCAACGTATGAAGAATATTTGGGGACAGA
+GTATGTCACGGCCATTGCCAACCTGAAAAAATGCTCAACCTCCCCGCTTCTGGAAGCCTGCGCCTTCCTGACGAGGTAAA
+GCCTGCAAAGAAGCTAGCCTGCCTCCCTGGGCCTCAGCTCCTCCCTGCTCTCAGCCCCAATCTCCAGGCGCGAGGGACCT
+TCCTCTCCCTTCCTGAAGTCGGATTTTTGCCAAGCTCATCAGTATTTACAATTCCCTGCTGTCATTTTAGCAAGAAATAA
+AATTAGAAATGCTGTTGATTTTCATTCCCTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+AAAAA
+>ref|NM_175782.1| Bos taurus galectin 1 (LGALS1), mRNA
X14330.1 Bovine mRNA for galactose-binding lectin
+AGCTGGTGCCGAAGTTTCAGGAACATCCTCCTCTCTCCAATCATGGCTTGTGGTCTGGTCGCCAGCAACCTGAATCTCAA
+ACCTGGGGAGTGCCTCAGAGTGCGGGGCGAGGTGGCCGCAGACGCCAAGAGCTTCTTGCTGAACCTGGGCAAAGACGACA
+ACAACCTGTGCCTCCACTTCAACCCTCGTTTCAACGCGCATGGGGACGTCAACACCATCGTGTGTAACAGCAAGGACGCT
+GGGGCCTGGGGGGCCGAGCAGAGGGAATCTGCCTTCCCCTTCCAGCCTGGAAGTGTCGTGGAGGTATGCATCTCCTTCAA
+CCAGACGGACCTAACCATCAAGCTGCCTGATGGATACGAATTCAAGTTCCCCAACCGCCTCAACCTGGAGGCCATCAACT
+ACCTGTCTGCAGGTGGTGACTTCAAGATCAAGTGTGTGGCCTTTGAGTGACATATGGGCCAGCCAGCCCATGGCCCCAAT
+AAAGGCAGCTGCCTGTGCTCCCCCTG
+>ref|X14712.1| Bovine mRNA for beta-lactoglobulin
+ACTCCACTCCCTGCAGAGCTCAGAAGCGTGATCCCGGCTGCAGCCATGAAGTGCCTCCTGCTTGCCCTGGCCCTCACCTG
+TGGCGCCCAGGCCCTCATCGTCACCCAGACCATGAAGGGCCTGGATATCCAGAAGGTGGCGGGGACTTGGTACTCCTTGG
+CCATGGCGGCCAGCGACATCTCCCTGCTGGACGCCCAGAGTGCCCCCCTGAGAGTGTATGTGGAGGAGCTGAAGCCCACC
+CCTGAGGGCGACCTGGAGATCCTGCTGCAGAAATGGGAGAATGATGAGTGTGCTCAGAAGAAGATCATTGCAGAAAAAAC
+CAAGATCCCTGCGGTGTTCAAGATCGATGCCTTGAACGAGAACAAAGTCCTTGTGCTGGACACCGACTACAAAAAGTACC
+TGCTCGTCTGCATGGAGAACAGTGCTGAGCCCGAGCAAAGCCTGGTCTGCCAGTGCCTGGTCAGGACCCCGGAGGTGGAC
+GACGAGGCCCTGGAGAAATTCGACAAAGCCCTCAAGGCCCTGCCCATGCACATCCGGCTGTCCTTCAACCCAACCCAGCT
+GGAGGAGCAGTGCCACATCTAGGTGAGCCCCTGCCGGCGCCTCTGGGAGCCCGGGAGCCTTGGCCCCTCTGGGGACAGAC
+GATGTCATCCCCGCCTGCCCCATCAGGGGACCAGGAGGAACCGGGACCACATTCACCCCTCCTGGGACCCAGGCCCCTCC
+AGGCCCCTCCTGGGGCCTCCTGCTTGGGGCCGCTCCTCCTTCAGCAATAAAGGCATAAACCTGTGCTCTC
+>ref|X51933.1| Bovine mRNA for mammary derived growth inhibitor
+TTCTCTGTCGTCTTTCCCAACCTAGCCCAGCTTCACCATGGTGGACGCCTTCGTGGGTACCTGGAAGTTAGTGGACAGCA
+AGAATTTCGATGACTACATGAAGTCACTCGGTGTCGGTTTTGCTACCAGGCAGGTGGGCAATATGACCAAGCCTACCACA
+ATCATCGAAGTGAATGGGGACACAGTCATCATAAAAACACAAAGCACCTTCAAGAACACAGAGATCAGCTTCAAGCTGGG
+AGTCGAGTTCGATGAGACCACAGCAGATGACAGGAAAGTCAAGTCCATCGTGACGCTGGATGGCGGCAAACTTGTCCACG
+TGCAGAAGTGGAATGGACAAGAGACATCACTTGTGCGGGAAATGGTTGACGGGAAACTCATTCTGACACTCACCCATGGC
+ACTGCAGTTTGCACTCGTACTTACGAGAAACAGGCATGACCTGCCCTCTCCTTCCACTGACTGCTCTTCTGCCAGTGGGC
+TACTCCTGGACTCGGCACCAGATTGCCTCATTTTTCTCCTCTGGCATTTTGTATAAATCCACCTTGACTGGGGAAATTCT
+CCTGGGGTCAGGTGGCACCAGCCTGGATCCAGTTCCGTTCTCATTGTGTCTGTTTGTTTTTTTAACTGCATCCAAAGGGT
+GCTCTGAGGTCAATAAAGCAGAGCCAAGGCC
+>ref|X07363.1| Bovine mRNA for matrix Gla protein (MGP)
+ACACCATGAAGAGCCTGCTCCTTCTCTCCATCCTGGCTGCCTTGGCCGTGGCAGCTCTGTGTTATGAATCTCACGAAAGC
+CTGGAATCCTATGAAATCAATCCCTTCATTAACAGGAGAAACGCTAACAGCTTTATATCACCACAACAGAGATGGAGAGC
+AAAAGCCCAAGAGAGAATCCGAGAACTCAACAAGCCTCAATACGAGCTCAACCGGGAAGCTTGTGATGACTTCAAACTTT
+GCGAACGCTATGCCATGGTGTATGGATACAATGCTGCCTACGACCGTTATTTCCGGCAGCGCCGAGGGGCCAAATGAGAC
+TGGACAAAAGTCTCTTTCCAGAGCCTGGTGCCTGGTTTTGTATTCCCTTGCAGTAGCATTACTGAACTATATAGAAACAT
+ATGAATCGCTTAATTGTTCCTTAAACGTTCTTGTCTGGCTGCATCCCTCTTTCCTGCCCACAGGTTGAAAAGTAATGAAT
+ATGAAACGAAGTGAAGGTC
+>ref|X67825.1| B.taurus microsatellite DNA (295 bp)
+TAGAATTCTTTTGACAGAGAATTCTTGTGTGTGTGTGTGTGTGTGTGTATACATTTGGTCTCTCAGTCGAGACCAACTCT
+TTGCGACCTCATAGACTGTAGCCCGCCATTCTCCTCTGCCCATGGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCC
+ATGCCCTCCTCCAGGGGAATCTTCCCAACTCAGGGATTAAACATAGGTCTCTGGCATTGAAGGTGGATTCTTTACCATCT
+GAGTCACCAGGGAAGCCCATGAATACTGGAGTGGGTAGGCTATCCTTTTGCAAGG
+>ref|X67824.1| B.taurus microsatellite DNA (247 bp)
+TGTCGACTTGTCTCTTTCCACTTGGAGAAGGTTTCCTGTATGAACCCAGGAGAAACAGGAAGCTGGTGATTATCAGGATA
+GTATCTGTCTCCGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCAGTCACGTCCAGCTCTTTGCAACCCTATGGACC
+GTAGCCCACCAGGCTCCTCTGTCCATGAATTTCCAGGCAAGCAATACTGGAGCTGGTTGCCATTTCCTACTCCATCTCTC
+TCCCTTT
+>ref|X67823.1| B.taurus microsatellite DNA (549 bp)
+GATCTGTAGAGCATCTCCATGAAGAATTCAGCAGAAGAGTGACCATTCACAGCATCAACATTGGCAACTCACGAGACAGT
+TTTTCTTCCCTGGAAAACTGTATTCTCTAATAGCTACTACTAGAAGATTTAGAAAACTTGCCTTTTCCATCACACATACA
+CACACACGCACATGACGCACGTGACACACACACACACACATACACACACACACACACACACACACACACTCTTTCCTAGT
+ATACTATAATTTACAAAGGAATGGAGATATGTCTTGCTATTTTTTGAGCAGCCAATGGTTCCTACTGTTTGTACAGAGTA
+TATGCCAAATAAATGCATTCCTGGAGTTGAATAGTAACATTCTATTAATATACCACTTGGTTTATATATATTCCCAGTCT
+CTGGTGTTTAGTATTTAATTTACTGTATGCAGTGACTTCCTTCTTGCACAGAAAGGTGTCATTATTAGTTATTTGTTTCT
+TTCTGAGATGATACTAATGATACAAACTAATACAGCATATCAAATATTGTATCAAAAGCAAATCTGATC
+>ref|X67822.1| B.taurus microsatellite DNA (271 bp)
+AAAACCAGGTGATTAATGCAAATCTGCTACATCACCTATACAGAAAAGAGTCACATTTGTAGGGGTGTGTGTGTGTGTGT
+GTGTGTGTGTACACGCATGTGTGCATGCTGAAATAGCTGACTAACTGAAATGCCAGAGACGAACTAAAATCCAGGAGATC
+TGGATGTGAGAGTTGGGCCATAAAGAAAGCTGAGCACAGAATTGATGCTTTTGAACTGTGGTGTTAGAGAAGACTCCTGA
+GAGTCCCTCAGACTGCAAGGAGATCCTCTAG
+>ref|X68049.1| B.taurus microsatellite DNA
+GATCCTTTGCAGCCTCCACATTGTCTTCTCAGGCTGATTTCTGATGCATAATGAATGTGTGTGTGTGTGTGTGTGTGTGT
+GTGTGTGAGTTCCCGGATAGTGTCATAAAGCACAAGCGCAACTCTGTTCTAGTCTTGGAGATGTCAACTT
+>ref|X67826.1| B.taurus microsatellite DNA (292 bp)
+CTCTGCACAGATGCCTATAAGTGTTTCAATCAGGGTTCAGTCAGAAAAGAAGATTCTGAGTTAAGCATTCCAAAATATTT
+GAGAGACAATTTTAAATTTGTTTTATATATATGTATGAACATACAAATATTTATTTGTGATTACATATATAATATATAAT
+TCATATAATTATAAATGTGTATTTGTATGTATGTATATAGGCATGTATGTGTGTGTGTGTGTGTGTGTGTGTAGAGAGTC
+AGCCGCCTGCCCCTTCTCCCATCAGTGAACCACCCACAATTATCAGTGGATC
+>ref|X67828.1| B.taurus microsatellite DNA (408 bp)
+TGTCCACGGGGCGGAGGGTGAGCCCTCCTCTAGGTTGCAGACTTCTTTCTCATGTGTCCTCATGTGATAGAGGGAAGAGC
+TCGAGAGACAGGTCTCTTTAATAAGGGCTCCAATCACCTCCCAAATATCCCACCTCCTAATGCCGTCAACCTTGGGCACT
+AGGTTTTCAACATAGGGATTTGGGGGTAGGGACAGAAACACGCAGACCTTAGCATAGGAGAACTACAAAGGTGATTCACC
+TCCAGGATGACTTTCCACTCTTTCAACACTCGTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGATTAGTTGCTC
+CGTTGTGTCCAACTCATTGCGACCCTGTGGACTGTACTGCCAGGCTCCTCCTATTCATAGAATTCTCCAGGCAAGAATAC
+TGGAGTGG
+>ref|X60511.1| B.taurus KTN minisatellite DNA
+CTGCAGTTATTCGTCTTTAGCCTCATCTCTTCGGCACCATGTTTTTGCAGCTTGAGAGGCTTCTTCTTTGAATTTTGGTC
+CCATGTGTTTCAAGCATTTGCTCAACCGCTGCGTGACGCCTGGTCTGCCCTGCGGTCTGTCCTGAGTGTCCCTGGTCTGC
+CCTACAGTCTCTCCTGAGTGTCCCTGGTCTGCCCTTGGGTCTGTCCTGAGTGTCCCTGGTCTGCCCTGGGGTCTGTCCTG
+AGTGTCCCTGGTCTGCCCTGGGGTCTGTGCTGGGTGTTCCTGGTCTGTCCTGGGTCTGTGCTGGGTGTC
+>ref|X67827.1| B.taurus microsatellite DNA (313 bp)
+CCTGGCTCTTCGGGTTTAGTTTCACAACAAGAAAAATGGATTTGCAGAGTATTTCGTAAAAACCGATGAAAATTGTGGTA
+ATAACATACATTAAATACTAAAAAGAAAAGTGGCTCAGAGAAAAAGACTTTATTTCTAATAGTATCATTAAGGTGATTCA
+TTATATAGTAAATGAGATGCAGTTTCACACCCTGTCAACTTAGGTTTAAGATATGGCGTGTGTGTGTGTGTGTGTGTGTG
+AGAGAGAGAGAGAGAGAGAGAGAGACTTTACTACAAGAAAATGGGGTAATTTTAAACCATAAAAAAGTCTTGG
+>ref|X67830.1| B.taurus microsatellite DNA (362 bp)
+TTACAAATCTAACTGATATAGTGTACCTCCTCTAATCCCTAAACTTGGCAAATGACTAGTAAACACCAACATACAATGGG
+TGCAGAGTAGAGCTACAAGATAAACTTCCAGAAAGAAAATGCCAATGAGACCAGAAAGACTTGATGGTAAATGAATTTAC
+ACACACACACACACACACACACACACACACACACACACACATACAGGAAGTACCAGTCAGAAGGGAAATTAGAAACTGAA
+GCAGAAGGAAGGGGAATTAGCCAGGTAAAAGCAACAGAGTTCATCTAACACCCTGTAGTTATTGGGAGGAACAAATTCGT
+CGTCAGGTGAAGCCCAATTATTGAGACGAGTATGGCAGGATC
+>ref|X65202.1| B.taurus microsatellite DNA (499bp)
+GCACCGTAAGGGGAACTCATGACAGTGAGATTTGTTTCTTTNTTTTGTTTGCTTTTTGTTACCAGAAGCATAACTAAGGG
+AATGTCTTGCAAGATCTTCTCTGTTCTGTGGTCCAGGGCATGAGCTCATCTTCAGGGTCTAGGTGATCCTGCCAGAAGCC
+CAACAGTAACCAGTATAGTGCCTAGGNTTCCCAGGTGGTGCTAGTGGTAAAGAGCCACCTGCCAATGCAGGAGACTTAAG
+AGACNCAGGTTTGATCCCTGGGTTGAGAAGATCCCTGGAGAAGGAAACGGCAACCCATTCCAGTATTCTTGCCTGGAGAA
+TCCCATGGACAGCGGGGCCTGGCAGGCTACAGTCCATGGGATTGAAAGAGTTGGACACGACAGAAGCAACTTAGCGCACA
+CACACACACACACACACACACACACACACCAAGTCCTTGTTAAATAGCTGTTGAATAAAAGAATGAATGACTGAGAAGCA
+AATTATTTAACAGACCTAA
+>ref|X65203.1| B.taurus microsatellite DNA (375bp)
+CCAAGTGGTAGAGTAGTAAAGAATCCACCTGCCAATGCAGGAGACACATGAGACGTGGGTTTGATCCCTGGGTTGGGAAG
+ATCCCGTGGAGCAGGAAACGGCTACCTGCTCCAATATTCTTGCCTGGAAAATTCCATGGACAGAGGAGCCCTGGTAGGCT
+ATATAGTCCATGGGGTCGCAAAGAGTTGGACATGACTGAGTGCGTGCACACACACACACACATACACACACACAGGAATA
+CAACAAAGCAAAGTGCAATAAAATGAGGTATGCCTATATATAAATACCTGCAAACAGCAGCAGCTGCACCCACTAAGTTA
+CACATATTTTGTTCTCAATGGGAAAAAATAAAATTGAATAACCATATACAAAGGT
+>ref|X65204.1| B.taurus microsatellite DNA (608bp)
+ACCTGCAGTGCAGGAGACCTGGGTTCGATTCCTGGGTTGGGAAGGTCCTTGAAGGAGAGGATGGCATCCCACTCCAGGCT
+GTATTCTTGCCTGGAGAATCCCCATGGGCAGAGGAGCCTAACAGACTACACAGTCCATGGGGTTGCAAAGAGTCGGACAT
+GACAGAGACTAGGCGCAACGCAACATGTATCTGGATATTATCCTAAGGTAATGGTTTTCAGACGTTAGTGTACATTAACA
+TTCCTCAAGCAGACATTAAAATTCAGTAAGTCTAGTGTGAAGTCTCATAATCTGAGCTTTAACAGGCATGCCCTACACAC
+ACACACACACACACACACACACACACACACACACACACAATCCCTAACAAGTGATCCTGCTACTGTTAGTCCAAGGAACG
+NNAAAGTTTAAAAAATGGTTCTACTTCATCCACACAAAACATGTTAAATGCTTACTATGTGTAAGGAAAGATATCCAGAG
+ACTACTATATATGTAAGGTAAGTTTCTTTCTTCCCCTTTTATCTAAGGAAACGAACTCAAAACAGGATGTGGTAATCCAT
+CGTCAATGGCATTTGAAAACTAGAAAACCCATCTCAGGAGATTTGAAA
+>ref|X65205.1| B.taurus microsatellite DNA (359bp)
+GAGCTGAGTTACCTAACTCCAGAGGAGATGGGAACATGGGCGTGACAGCAATGGGGTTTTTGATTCAGGGGTTGGCAGAG
+AACACCGAAGTCCTGGAACAGACTGACTCTTCGTTCTTTCTGTGGGGACATCCTCCACGTCAGAAATGGGGACTGCCAAG
+TGTTGGGCCAGGAAGCTCCCCTGGAGAACGAAATGGCAACCTACTCTAGTATTCACGCAGGGAAAACCTCATGGACAGAG
+GAGCCTGGCAGGCTGTAGTCCATGGGGTCGCAAAGAGTCAGACATGACTGAAGTGACTGACACACACACACACAAGCATA
+TTGTATTGCAGCCTCTACCCTGGGGTGCACACAGTAGCT
+>ref|X65206.1| B.taurus microsatellite DNA (497bp)
+TGATCTAGAGACCCTGGAGAAGGGAATGGTTATCCACTCCAGTATTNNNNNGCCTAGAGAATCACATAAACAGAAGAGCC
+TAGTGGGCTGTAATTCCATGGGGTCTCAAAGAGTCGGACACGACTGAGCAAGTAACACTTTCAATTTTTGTTTAACTTAA
+ATACTCAGGTAACCAACAATTCATCTAGTTGGAGATTTACAATTTGTTTTTTTTTTGGCTGGTTGGTTTGTCTGCTTATT
+GGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTAAGAGGCNGAAAGAATTATTTTTATTACCA
+GTATTTTTACATATGGGCTTCCCAGGGGATGCTAGTGGTAATGTATCTGCCTGCCAAAGCAGGAGACACAAGAGACACGG
+GTGCAATCTCTGAGTTGGAAGGTCCCTGGGAAGAGGAAATGGCAATCCACTCCAGTACTCTTGCCTGGAGAATCCATGGA
+CAGAGGAGCCTGGTGGG
+>ref|X65207.1| B.taurus microsatellite DNA (502bp)
+TTTTCCCATGTAATATTATCTTACTTGGAAAAAGAATCTTTGCAGATGCAATTAAGTTAAGGACTTGAGATAAGGAGGTT
+GTCTTGAATCATCTCNNTNAGCTCTGAATGCTAGCAAGTGTTCTTGTAAGAGAGAAACAAAGGGGCATTAGAGAGAGACA
+CACACACATACACACACACACACACACACACACACACACACACACAGGGAGGAAGCAAAGAGGAGGGAATAAGATGTTAA
+GATGGAGGTAGATGGTGCAGTGATTCAGCTACGGGATTCAAGCCACTGATTGCCAGAAGCCCCCCGAAAGCTGTAAGAGG
+CAAGGAACAGCTCCTCACATGGAGCCCTGAAACAATTAACCTGGGATTCCTGGCCTCCAGAACTGTGTGAGAACAAATTT
+TTGCTGTTTTAAACCATTCAGTCTGTGGCCATTTGTTTCAGCAGCCACGGGAAACAAATACGCTGGCAAACGGTTTCCGT
+GGTGATGACAGCTTCTCCCCCC
+>ref|X65208.1| B.taurus microsatellite DNA (467bp)
+GGACAGAGAAGTCTGGTGGGCTATATNTTGTGGGGTCTCAAAGAGTCGGACACGACTGAATGACCAACACACACACACAC
+ACACACACACACTCCCTGAGCCTTCAGGGATGCTTAATCTAGACAACTGAACACACACACACACTCTCTGAGCCTTTAGG
+GGTGCTGAATCAAGACACCTGAACACACACACACACACACACACACACAGGNNNATCTCTCTCTGGTAAACCACATCTTG
+GGTTTATAAGACCAAGGTTTAACACTGGCAGGTGTCAATTTTATTNACCCTCCAACTCACCAATAACCCCCAGGTGCCTC
+TCATACAGGATACATGCTCCATATTTCAACTTTTAATTCCATCTAATTTATATAAAAAAGGCACACATTTGCTGACCAAC
+AATGTAAGATTTGAACAGCCTCTTTGGCGATCTTGGGTTCTCTCCAAACCAGTTCAATTGCTACCCC
+>ref|X65209.1| B.taurus microsatellite DNA (532bp)
+CCATCACTTTTTTCTTTGATNATCTTTTGTTGATCGATTGATTTGCTATGTGGCACATGGGATCTTAATTCCCCAACCAG
+GGTTTGAACTGACACCCCTTGCACTGGAAGCACAGTTTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTTGAGGATAGCTAATTTAACAATATTGTGAACAGTTTCAGGAGGACAGTGAAAGGACTCAGCCATACATATGCACATG
+TCCACTCTCCCCNAAACTCCCTTCCNATCAATACTGCCACATAACACATAACCAAAATAATTAAGAGTGATAATTAAAGG
+AGNCAAATAGATAATGCTCAGTAACCATATGGTAATCTGCATGTGCAAAATCAGACACCCTCAAGTGATCAAGGGCTTAC
+AAGATTATCTGCTGCTGTCCTTCTATGTAGAAAGCAAATATTTTATTATTTGGACTNAAAATATTTTTTTTCAATTTATT
+TTTTGGCTGTGCTGGGTCTTAGTTGTGACACTCAGGACCTTTCCTGCCATGT
+>ref|X65210.1| B.taurus microsatellite DNA (516bp)
+ATGTTACTGCAAGTGACATTATTTTATTCTTTTTATGACTGAGTAGTATTTCATTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTATGCTGTGCTTAGTCTCTCAGTCATATCTAATTCTTTGTGACCCCATGGACTGTAGC
+ATATATATATATATATATATATATATATATATATATGTATGTATAAATATATATATATATATAAGCTTCCCTGGTAAAGA
+AAGGTAAAGGATAAGAATTCAGCTGGTAAAGAATCTGCCTGCAATGCAGNATACCCNATTCAATTCCTGAGTTGGGCAGA
+TCACCTAGAGAAGGTTTAGGCCACCCATTCCAATATTCTTGGTCTTCCCTGGTGGCTCAGATGGTAAAGAATTTGCCTGC
+AATGCAGGAGACCTGGGTTCGATCCCTGGGTTGGGAAGATCGCCTGGAGGAGGGCATGGCAACCCACTCCTGTATCCTTG
+CCTGGAGAATCCCCATGGACAGAGGAGACTAGTGAG
+>ref|X65211.1| B.taurus microsatellite DNA (508bp)
+TACATTCTGAAAGGTAGCCAACTTTCCCAGTATGCCTCAAAACATTTCTCCATGGACTATGTGGAGCTGCATATAAAAGT
+GAGACTGTGTGTCAGGATGGGAGTGAGAGCAGGAGATCACATGCCCTGTCAATCTGATGGGGACAGCTGAAATCACCTCC
+AATCAAATTTTAACTATTGCTTACTTTTCAAAGATCCTGGATATTTGGGTTGTNNNAACATGGAAACATGTAGACAAGCA
+TACACACACACTGTGTGTCACCTTCACAGTCAAACACACCACTGAGTCGTCCAATTTGGGCCTTATGTCATGCATTAGGT
+TCTCCAGAGAAATGGAACCAATTGTGACTGTGTAAATAAAATGATAATAACATATATTATACATATATAATATACATATA
+TATATATATATATAGAGAGAGAGAGAGAGAGAGAGAGCACTTTATGATATGGAGTCTGACAAGTCTGAAATATACAGAGC
+TTCTGTCTCATGAAAAGATCAGTAGGCC
+>ref|X65212.1| B.taurus microsatellite DNA (392bp)
+CCAGCTCACGTGTAACACGCCAGTGAATGTATCACTCACTATAGGCTATTCGAGCGTCGGTACCCGGGTCTCTAGNACCT
+GCAGGTCACTCTAGAGGATCCTTAATTGGCCAACATCATCACGGCCATTTAAAAATTATTATCATCATTCCCTGAGGTCC
+ATCTCTAAGCCTCCATTAGGATCAGGCACAAATATCTGCCTGAAGCCAGTCACCTCTGGAAATGTGGGATGTGTGTGTGT
+GTGTGTGTGTGTGTTGGGAGAGGGAGGGAGGAGGCCTCATGCAGGTGCAGGAAACCCCACTGAGGAGAATCACAAATGCC
+TTTTGTTTAAAAAGGCAGGGCAGATGCCCAAAGAGCATGCCGGCCATTCATTTTCAAGAGACAAGGTTATTT
+>ref|X65213.1| B.taurus microsatellite DNA (430bp)
+GGATGCATTGCNAGCCATATAGTATNCTCTGTNATGTAACTGTTTTATAAGCTCCAGCCCAGGTTGAATCATGCCTTNCT
+CAGAAAGCCTTTTTCTCCCCATCCCTGGCTCCACACATACCTACCCTTCAAACTCATTCTAGTTTACATTAGTCAGGTTG
+ACTACTTAATCATTTTTAACAGCTTTTTCATTCTTTGTATATTTGCAAGAAGGGTTGGCTGGCATCTCTCTCTCTCTCTC
+TCTCTCTCTCGCTCTCAGATGCTTGCCCACTTGAAGTCCCCNAAGACCTAGGNAAGGGCTTTCCAGGTGGCATGAATGAT
+GAAGAACCTGCTGCAATGCAGGAGACATAAGAGATGCAAGTTCAATCCCTAGGTTGCGAAGANNCCCCGGAGGAGGGCAT
+GGCAACTNACNCCAGNATTCTTGCCTGGAG
+>ref|X65214.1| B.taurus microsatellite DNA (482bp)
+TCTAGAGTCGACCTGCAGCTGGTGTGACCCAGGATTTGTAGGCCCACAATGTGGAGGAATTCAGGAGTTGTGTCTGTGCC
+TCAGTTCTGCTCTGATGCAGTAAGGAGGATATGTCACCTTTCGTGGCCCATTCAGTCTTCAGAGGTGTGTGCAGAGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGGCACATGCATGCATTTGTTAAGTCGTGTGCTGT
+AGTGTGCTCCAAGGCCAGGTGCCCTGTGCCCCGTGGTGGTGAGAACATGGATGTGGCTCATGCCTTTGCCACCACGACTG
+GGTGCCCTACTGAATAATCTGGGGTCGGGGAGTTGGGTTCTCAGACATGCTCAGTGTTTCCAGCGATCTGCTTGTCTCTG
+TGACTGTGACTGTCCGGGTGAAGGCTGGGCTAGACAGCAGGCTGGGTGATCCCCTGGCAGTGCCAATAGTCCCTGTGTCT
+CT
+>ref|X65215.1| B.taurus microsatellite DNA (624bp)
+ACCTCCACTAGCTTTGTTTGTAGTGATGCTCTGTAGCACCACTGGGAAGCCCTTTAATGAATGTGCCTTTCCGCAAATCA
+CACACACACAAATACACTTATAGAAACAAGGTGATTTTCTTGAAATAATAAAACAAAATTTGGAAGAAGATTTTTACTGT
+CTTAGGAAAAGTAAGGCATTGGAAGGTGGCTAGGTATGACATATGAAGTTGCATTTTAAAACTGGAATTGGACAACTGAT
+ATTCAGTGATATTTATGCTACTACCTTCTAGAATCGAGAGCATGCACCCCACTCTGTACTCTTGCCTGGAGAATCCATGA
+TGAGAGCCTGGTAGGCTGCAGTCCATGGGGTCACACAGAGTCGGACATGACTGAGCGACTTCACTTTCACTTTTCAATTT
+CATGCATTGGAGCCGGAAATGGCAACCCACTCCAGTGTTCTTGCCTGGAGAATCCCAGGGATGGGGAAGCCTGGTGGGCT
+GCTGTCTATGGGGTCGCAGAGAGTCAGACACGACTGAAGTGACTTAGCAGCAACCTTCTGGAATAAACGCCTCAGGCTTT
+AAACTCTGGCTTGACCATTCACTAGCCATGGGATCCACTAGAGTCGACCTGCAGGCATGCAAGC
+>ref|X65216.1| B.taurus microsatellite DNA (310bp)
+AGAGTTAGACCAGGTAGTCTTGNNTTAGGCAAGGTGTCCTTTGTCTTATAACAAATCAGATACTTTATTTTGAAGAACAG
+CAGCTTTGTGGAAGGCTAAGATGGNAAGNNCAAAAATGGAAATGGAAGNGTTCAAGNTTTTTTCCTGGGTATTAAGGAGA
+GAGAGATATATATATATATACACACACACATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTTC
+CTTTTTTTTTGGTTGCACCATACATCATGTGGGATATTAGCTTCTCAAACAGGGAAAAAACCCATACCCT
+>ref|X65217.1| B.taurus microsatellite DNA (489bp)
+TGCATTCCTGCACCTCGACTCTAGAGGATCCAGACAAGCCCCTGGAGAAGGAAATNCCAACTCACTCCAGTATTCTTGCC
+TGGAGAATCCCATGCACAGAAAAGCCTGGTGGGCTACAATCCATGGGCCGCAGAGTCTGACACAACTGAGCGACCAACAC
+ACACACACACACAGGCACATGTTTCATATTATTGTTAGAGACCAGAGTCTCACAGCCCTGCTGCCTCATGTTTGGGTGCT
+AAGTGCTGTATTTGAAGGCACAGAAGAGAGGGGGTGAAAATGAAGGGCTAGCCACTGTCCATGGAGGTCACCATGGTTAT
+CAGTTTCCTAGGGCTCCCACAGCACATGAACCCACATGGGGTGGCTTAAAACCGGTGTATTCTCTGACAGTCCTGGGGGC
+TGGAAATCAAGGTGCTGGCAGNGCCATAATTCCTCCAAAGGCTCTAAAGGGNTTGTCTATCTCTTTTAGTGTCTGGTGAC
+TCCTGGGCC
+>ref|X67832.1| B.taurus microsatellite DNA (268 bp)
+ACTCTAGAGGACATAGGAAAGAGTAGGAAGAACTAGTCCCAGAAACAACTAGTTCCAATGAGACACGAACACACACACAC
+ACACACACACACACACACACACACACACACAAATGGGTTGCCCATGCTTCTGTTTTACCTCCGTGCTCCTAATACTTTAT
+TTATTTATTTATTTGGCTGTGTCTGTTCTTAGTTACAGCACAGGGCTCTTTAGTTGTAGAGCATGGGCTCAGTTGCTCTG
+AGGCATGTAGGTGCTTATCTCCCCAGCT
+>ref|X64897.1| B.taurus mRNA for MLRQ subunit of NADH: ubiquinone oxidoreductase complex
+GGTGAGTGCTTAACCTCCGGTCTTGCGGCTTAGCTTTTCTCTCGGTTTGGACTCGAGGCCTCTGTTGCAACCATGCTCCG
+CCAGATCATCGGTCAGGCCAAGAGGCATCCTAGCTTGATCCCCCTCTTCATATTTATTGGAGCAGGAGGGACTGGAGCAG
+CACTGTATGTCACGCGCCTGGCATTGTTCAATCCCGATGTCAGTTGGGACAGAAAGAATAACCCAGAACCCTGGAACAAA
+CTAGGTCCTAATGATCAGTACAAGTTCTACTCTGTGAATGTAGATTACAGCAAACTGAAGAAAGAAGGTCCAGACTTCTA
+AATGAAATATTTCACTGTAAAGCTGATTTGAATGAAGGTCTTCCAGAAGCCATCCGCACAATTTTCCACTTAACCAGGAA
+ATATTTCCCCTCTAAATGCACGAAATCACGTTGGTGTATTGTGGTGGGGTTTACACTGATGAATAAATAGTCTGAAACTT
+GAAAAAAAAAAAAAAAAA
+>ref|X66277.1| B.taurus mRNA for retinal pigment epithelial membrane receptor p63
+GAGAAAATGTCCAGCCAAGTTGAACATCCAGCTGGTGGTTACAAGAAACTGTTTGAAACTGTGGAGGAACTATCCTCACC
+GCTCACAGCCCATGTTACAGGCAGGATCCCCCTCTGGCTAACCGGCAGTCTCCTTCGATGTGGGCCAGGACTCTTTGAGG
+TTGGATCGGAACCATTTTACCACCTGTTTGATGGGCAAGCCCTCCTACACAAGTTTGACTTTAAAGAAGGACATGTCACA
+TACCACAGAAGGTTCATCCGCACTGATGCTTACGTACGGGCAATGACTGAGAAAAGGATCGTCATAACAGAATTTGGCAC
+CTGTGCTTTCCCAGATCCCTGCAAGAATATATTTTCCAGGTTTTTTTCTTACTTCCGAGGAGTGGAGGTTACTGACAATG
+CCCTTGTTAATATCTACCCAGTGGGGGAAGATTACTATGCCTGCACAGAGACCAACTTCATTACAAAGGTTAATCCTGAG
+ACCTTGGAAACAATTAAGCAGGTTGACCTTTGCAACTATGTCTCAGTCAATGGAGCCACTGCTCACCCCCACATTGAAAA
+TGATGGGACTGTTTACAACATTGGTAATTGCTTTGGGAAAAATTTTTCAATTGCCTACAATATTGTAAAGATCCCACCAC
+TACAAGCAGACAAGGAAGATCCAATAAGCAAGTCAGAGATCGTTGTACAATTCCCCTGCAGTGACCGATTCAAGCCATCT
+TACGTCCATAGTTTTGGTTTGACTCCCAACTATATTGTTTTTGTGGAGACACCAGTCAAAATTAATCTGTTCAAGTTTCT
+TTCTTCATGGAGTCTTTGGGGAGCCAATTACATGGATTGTTTTGAATCCAATGAAACCATGGGGGTTTGGCTTCATATTG
+CTGACAAAAAAAGAAAAAAGTATATCAATAATAAATACAGGACCTCTCCTTTTAACCTCTTTCATCACATCAATACCTAT
+GAAGACCATGAGTTTCTGATTGTGGATCTCTGTTGCTGGAAAGGATTTGAATTTGTTTATAATTATTTATATTTAGCCAA
+TTTACGTGAGAACTGGGAAGAGGTGAAAAAAAATGCCAGAAAGGCTCCTCAGCCTGAAGTTAGGAGATACGTACTTCCTT
+TGAATATTGACAAGGCTGACACAGGCAAGAATTTAGTCACACTCCCCAACACAACTGCCACTGCAATTCTGTGCAGTGAC
+GAGACCATCTGGCTGGAACCTGAGGTTCTCTTTTCAGGGCCTCGCCAAGCATTTGAGTTTCCTCAAATCAATTACCAGAA
+GTATGGTGGGAAACCTTACACATATGCATATGGACTTGGCTTGAATCACTTTGTTCCAGACAGGCTCTGTAAGCTGAACG
+TCAAAACTAAAGAAACCTGGGTATGGCAAGAGCCTGATTCATACCCCTCAGAACCTATCTTTGTTTCTCACCCAGATGCC
+TTGGAGGAAGATGACGGTGTAGTTCTGAGTGTGGTGGTGAGCCCTGGGGCAGGACAAAAGCCTGCTTATCTTCTGATTCT
+GAATGCCAAGGACTTGAGTGAAGTTGCCAGGGCTGAAGTGGAGATTAACATCCCCGTCACCTTTCATGGACTGTTCAAAA
+AATCCTGAGCACATTCTAGCATGACATGTTTCTGGTGACAAAACACAGAGAAACGTAGTTAGGTCTGCAATCAAATTCTG
+TTTAGCTTTAGCCTGCTGTCTATAAGGGTTTTAACTTGCAGATGCACACCGTTTTGCAGTATTTTACAGAAAGCACAGAG
+TTGAGTAAGGAATTCCTTTTAAAAAAGTGCTTATTTAGATAATCGTACTTCGTGAGACAGGCACATCATAACTAAAAACT
+CTTTATATATTTACAATCAAATAGAAAATGAATGTGAATTTATTAAACTGTTTTTCATTCCTATTATAAAAGTGTATTTT
+AGGCACCCATCTACTCCTATTACTTTTTAACATTTAAAAGCCAAAGTCCTCTACAGCTGATATGTATATAGCTTTGCTGT
+GTCAAGGCAGCATCTTGGAAAAAGGCTTAGTTACTAAATGTCAAATCAAACTTCTTCTCAAACCAGGGACTTTGATCTAA
+GACAATCATTGTAATTGTATGCACATATGTATTATTATTCAAAGATTCTCATGGTTTAAACTTTAATATTTCCATTTAAT
+ATAGGCAATTATTACTATTTCTGATTTCACAGTAAGGAAGCCTGTTTCTAAGTCACTGAGGGCTGTCAACCAAATACCTT
+CTCAGAGATTACATTATCTATTAGAAACTTATATAACATAAAAGCAATTACATATAGTAGTGACTATTTTTTTTAAATAG
+CATAAAATACTTACAAACATAATTGCTGTTTAAAATCAGATTATGGGGATAATAATGTGTATGGGGGGGGTTATACTTTG
+TTGCCTCTTCTGCTTAATTACATTTAAGCACTGTGCACCTGACTGAAGAGAAAATGAGAAAATAGAAAATACTGTCATTA
+ATGTTCAGATATGAATATAGTTTAAGCACTTTTGTTTTTAAAATTATTCTTTTCTGAGATACATGTTGCAAAAAAAATGA
+AGATTGACAAAAATTTTTATTCTATATCTTAATCCTGTTTGACTAAGTAAAAACA
+>ref|Z14036.1| B.taurus microsatellite (ETH1112)
+GATCCTGCATGTTATGCCGCACAGCCAAAAAAAAAGTATATGTGTATATATATATATATATATATATATCACACACACAC
+ACACACACACACACACACACACACCTTATTTTTTTTTGGCTCAAAATCACTGCAGATGGTGACTGCAGCCATGAAATTAA
+AAGATGCTTGCTCCTTGGAAGAAAAGCTATGACCAACCTAGACAGCATATTAAAAAGCAGAGACATTACTTTGCCCACAA
+AGGTCCGTCTGGTTAAAGCTATGGTTTTTCCAGTAGTCATGTATGGATGTGAGAGTTGGACTATAAAGAAAGCTGAGAGC
+CAAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCC
+>ref|Z14037.1| B.taurus microsatellite (ETH121)
+GATCTTGGGGCTTCTTAGTTTCTATAATGTAAACCAACTCCTTACAGGAAATGTCTACATACACACACAAGCACACACAT
+ACATGGATGCATACATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCATCTACATACCTAAATA
+TGTTCCTATTGAATCTGTTTCCCTGGAAGACCCTGATGGGTATCCCCACCCACCTCCACTTACCAGCCAGCTCTAAATTA
+GCCAGCTAAAAGGCACAGTGCTTGCAATTTAAATGCAGCTTCAAAAGTCCTTCTGCACAAAATTTCTGGAGTTGTCACTG
+GTCACAAGGACTGTGTTAATTAGTGTACAACAGTATCATGGACTTGAGAATACTTTATATTCCTTAAATAAAGATTCCCC
+GGGCTGCAGGAATTCGATATCAAGCTTATCGAT
+>ref|Z14038.1| B.taurus microsatellite (ETH123)
+GATCACTTGGAGAAGAGAATGGCAACCCACTCCAGTATTCTGGCTGGGGAAATCCCATGGACAGAGGAGCCTGGTGTACT
+ACAGTCCATGGGGCCACAAAGAGTCAGACATGACTGAGTGACTCACACTCACACACACACACACACACACACACAGGGGT
+TATGGGGTTATAATTTTCACTGTCCAGTCCAGTGCCCTTCCTCCTATACCTCTATAGCAGGTATACCCTTGGAGGGGCAA
+TGGATTTAAGGTAGTCTTGCTTTATATAGAGCTTTGAAAATGCCATTGAAAAGCTTCAAGTTGTGATC
+>ref|Z14039.1| B.taurus microsatellite (ETH131)
+CCTGGAGGAGGACATGACAACCCACTCCAGTATTCTTGCCTGAAAAACCTCATGGACAAAGGAGCCCGGTGGACTATAGA
+CCATAAGGTCACAAAGAGTCAGACACAAATGAAACGACTTAGCGCGCGCGCGCCACACACACACACACACACACACACAC
+ACACACACACAGAATGAGAATGAGGGGTGGGTAGAATTTGGATGAGTCATTCGTAGACCATCACAGCGTGCTTGGCAAAC
+AGACAGCACTGACCATCACTGGTTGAAATGTAAAAAGAAGTTAGGTT
+>ref|Z14040.1| B.taurus microsatellite (ETH152)
+GATCTTGTACTCGTAGGGCAGGCTGCCTGCAGAGCCAACACACACACACACACACACACACACACACACACAGGGGGCAC
+TGCTGTTGGCTTCCGGAGGCCACAGGGCAGTTGGGGGAAGGGGGGCAGGCAAGAGCCCCTGGGAGCCCTGGCAGAGGTGA
+CCCTCCCTCCAGACAGGTGCCCTCTGATC
+>ref|Z14041.1| B.taurus microsatellite (ETH153)
+ATTCTTGCGTGGAGAATTCCATGGACAGAGGAGCCCAGAGCGGTATAGTCCATGGGGTTGCAGAGAGTAGGAGATGACTG
+AGCAACTGAGCATACACACACACACACACACACACACTAGGAGTATAGAGAGAATATATCAGCCTCAGGGGTAAAGGTTA
+GAATATTTTAAGAGCAAACTTATCACTTTGACTCTGCGTTATCATTCTCAGA
+>ref|Z14042.1| B.taurus microsatellite (ETH185)
+GGCTGGAAAATTGCATGGACAGAGCAGCCTGGCGGGCTACAGTCCATGGGGGTTGCAAAGAGTCGGACATGACTGAACAC
+ACACACACACACACACACACACACACACACACACACACACAAAGAGTGCTGCAAATATGTTTTAATTAGTGATACAGCTA
+TTTTTTTTTAATATTTATTTGGCTGTATCAGGTCTTAGTTGCCAAGTGGAATATTGTTGCTTCCTCTGGGAGCTTTCGTT
+GGGGTGC
+>ref|Z14043.1| B.taurus microsatellite (ETH225)
+GATCACCTTGCCACTATTTCCTCCAACATATGTGTGTGCGTGCACACACACACACACACACACACACACACACACACATG
+ATAGCCACTCCTTTCTCTAATGCCACAGAATTACACAGTCAACTCTCTAGTAGCAGCTGGCTGTCATGTGTCATTTGGCA
+ATATCCATATCTTCCCCCCTTGCTGTAAA
+>ref|X67829.1| B.taurus microsatellite DNA (287 bp)
+AGACCTTACCTTTTAGCTAAAGGTGGTCTCACGACTTACTCGACCACAACAACCCGAAATCCGAGTAAAAAGAACATCGT
+TGTGATTTTGTAAAGTCAAGTCGATCTCACGAAGTCCAGAGGGGTGATCCTTGAGACATAGATGTGTGTGTTTATGTAGT
+CGACGAGTAGGACCGACAGGGACACTCTCCTCTACACACACACACACACACACACACACACTACTACACACCTCTCACTC
+ATACTCACACACACACAATCACCCCTCCCTACGTCACTCTAGGAGAT
+>ref|X67831.1| B.taurus microsatellite DNA (448 bp)
+ATTAACTGTATATAATATTAACTTAAATAGAGGAAATTTCAGGAAATCAGGGCATTTTGTCTATTATATTCAATGTTGTG
+TCTCCAGTAGTACTAATCAGTAATGGTATCTAACAGACACTGAGATATAGAAATACGAATACAAAATATACATGTATAAT
+AAATAAGTGGATGAAAAATAATAGACTATAAATAAGGAATTCCAATATAAAGAATTGGGATACCCCCATACACACACACA
+CACACACACACACACACATATATGTTGTGTGCGTGGAATGGCACCAGGATGCACCTACTCCAGTATCTATAGAGCAGAAA
+TTCATGGACAGAGGAGCCAAATGGGCTACAGTCTACGGGGTCATAAAAAATCAGATATGACTGTGCACACACATACACAC
+ACACACACCCACAAATTCAAGAGTGAACGAACGAGGACTAGTAAGATC
+>ref|V00113.1| Bos taurus mRNA of vasopressin neurophysin II precursor
+GCACAGTCTACAGAGCAGCACTGCGCACGTGTGCCCACGCGTGCCAGGATGCCCGACGCCACACTGCCCGCCTGCTTCCT
+CAGCCTGCTGGCCTTCACCTCTGCTTGCTACTTCCAGAACTGCCCAAGGGGCGGCAAGAGGGCCATGTCCGACCTGGAGC
+TGAGACAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGGACGAGCTGGGC
+TGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCCGGCCAGAAGCC
+CTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAACGATGAGAGCTGCGTGACCGAGCCCGAGTGCCGGG
+AAGGTGTCGGCTTCCCCCGCCGCGTTCGCGCCAACGACCGGAGCAACGCGACCCTGCTGGACGGGCCGAGCGGGGCCTTG
+TTGCTGCGGCTGGTGCAGCTGGCGGGGGCGCCGGAGCCCGCGGAGCCCGCCCAGCCCGGCGTCTACTGAGGCGCGCCCCC
+CCCCTCCCCACCCCTGCCCTCGCAGCACGAAAAATAAACGTTTTAAAGGC
+>ref|X15600.1| Bovine processed pseudogene P1
+CCTGCAATGCAGGGTAAAGAATCTGCTTGTGCTTAAAGCTAAAGCCGGGACGTGAGTCAGTCATCTTAGCTGGGTGAGTG
+CTATGGTCTGAGCAGGGGCAGCAGGACAGTGGGAATAGACTGAAAAAAATGTAGACCTCCGGAGCACTACTCAGTCCTCC
+CGCTCTGATGTGCTCTTGTACCAGGGGTCTGATCAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAAAGAGCCCATCTG
+AACAGCCTTCCTACAGCAGTGTCTCACTCCGGGTGGCTTGACGGAAATTCCAGACCAGTGTTGTCTCCTGGCACACTGAC
+ACAGTGGCCAAGTTTACTGGCGCTGGGGCTGCCACAGTTGGGATGGCTGGTTCAGGGGCTGGCATTGGAACAGTGTTTGG
+CAGCTTGGTCCTTGGCTATGCAAGGAACCCATCTCTGAAGCAGCAGCTCTTCTCCAGCACCATTCTGGGCTTTGTCCTGT
+CTGAGGGGCTTTTCTGTTTATGGCCACCCTCCTCATCCTCTTCACCACATGAGGCTCCATGGAGGTCACCTACCCGCCGC
+TGCTGCTTTGACTCCAGGCCATGCTCAGTGCTGGAGCGTGCTAACTTCTACCATTAAACACAATGTTTCTCTTTAAAAAA
+AAAAAAAAAAATTGACTTGCAATGCAGAAG
+>ref|X52907.1| Bovine PAI-1 mRNA for plasminogen activtor inhibitor (3' end)
+TGTTTTGTTTTGTTTTTCTTTTTTCTTGATGCACTGGACAGTGACAGCCACACTCAGTACCCCCACGTGTGGGGTCCATG
+GCTCTTGAAATTGCTTTTTCACTTTTGATATAGAAGCAAGTAAAAAAAAATGTTTTTTAAAAATTAATAATAAATAAATA
+AAAAGAATATTCCAAAATAAAAAAAAAAAAAAA
+>ref|NM_176647.2| Bos taurus poly(A) polymerase alpha (PAPOLA), mRNA
X61585.1 B.taurus mRNA for poly(A)polymerase
+GCGGTTGCGGGGGGGAAGTGACTGGGCGGTGCGGCGCAGGAGACGATGCCGTTTCCAGTTACAACACAGGGATCACAGCA
+AACACAGCCGCCACAGAAGCACTATGGCATTACTTCTCCCATCAGCTTAGCAGCCCCCAAGGAGACTGACTGCCTGCTCA
+CACAGAAGCTGGTGGAGACTCTGAAGCCCTTCGGGGTTTTTGAAGAGGAAGAGGAACTGCAGCGCAGGATTTTAATTTTG
+GGAAAATTAAATAACCTGGTAAAAGAGTGGATACGAGAAATCAGTGAAAGCAAGAATCTTCCACAATCTGTAATTGAAAA
+TGTTGGTGGGAAAATTTTTACATTTGGATCTTATAGATTAGGAGTACATACAAAAGGTGCTGATATTGATGCATTGTGTG
+TTGCACCAAGACATGTTGATCGAAGTGATTTTTTCACCTCATTCTATGATAAGTTGAAATTACAGGAAGAAGTAAAAGAT
+TTAAGAGCTGTTGAAGAGGCATTTGTACCAGTTATCAAACTGTGTTTTGATGGGATAGAGATTGATATTTTGTTTGCAAG
+ATTAGCACTGCAGACTATTCCAGAAGACTTGGACTTAAGAGATGACAGTCTGCTTAAAAATTTAGATATAAGATGTATAA
+GAAGTCTTAACGGTTGCAGGGTAACCGATGAAATTTTACATCTAGTACCAAACATTGACAACTTCAGGTTAACCCTGAGA
+GCTATCAAACTGTGGGCCAAACGCCACAACATCTATTCCAATATATTAGGTTTCCTCGGTGGTGTTTCCTGGGCTATGCT
+AGTAGCAAGAACTTGCCAGCTTTATCCAAATGCAATAGCATCAACTCTTGTACATAAATTTTTCTTGGTATTTTCTAAAT
+GGGAATGGCCAAATCCAGTCCTATTGAAACAGCCTGAAGAATGCAATCTTAATTTGCCTGTATGGGACCCAAGGGTAAAC
+CCCAGTGATAGGTACCATCTTATGCCTATAATTACACCAGCATACCCACAACAGAACTCCACGTACAATGTGTCCGTTTC
+AACACGGATGGTCATGGTTGAGGAGTTTAAACAAGGTCTTGCTATCACAGATGAAATTTTGCTGAGTAAGGCAGAGTGGT
+CCAAACTTTTTGAAGCTCCAAACTTCTTTCAAAAGTACAAGCATTATATTGTACTTCTAGCAAGTGCACCAACTGAAAAA
+CAACGCCTAGAATGGGTGGGCTTGGTGGAATCAAAAATCCGAATCCTGGTTGGAAGTTTGGAGAAGAATGAGTTTATTAC
+ACTGGCTCATGTGAATCCCCAGTCATTTCCAGCACCCAAAGAAAATCCCGACAAGGAAGAATTTCGCACTATGTGGGTGA
+TTGGGTTAGTGTTTAAAAAAACAGAAAACTCTGAAAATCTCAGTGTTGATCTCACCTATGATATTCAGTCTTTCACAGAT
+ACAGTTTATAGGCAAGCAATAAACAGCAAGATGTTTGAGGTGGACATGAAAATTGCTGCGATGCATGTAAAAAGAAAGCA
+ACTCCATCAACTACTGCCTAGTCATGTGCTTCAGAAAAAGAAAAAGCATTCAACAGAAGGCGTCAAGTTGACACCTCTGA
+ATGATAGCAGCCTCGACTTGTCTATGGACAGTGACAACAGCATGTCTGTGCCTTCACCTACTAGTGCTATGAAGACCAGT
+CCGTTGAACAGTTCTGGCAGCTCTCAGGGCAGAAACAGTCCTGCTCCAGCTGTAACAGCAGCATCTGTGACCAACATACA
+GGCTACTGAAGTTTCTCTGCCACAAATAAATTCCAGTGAAAGCTCAGGGGGTACATCGAGTGAAAGCATTCCTCAAACTG
+CCACACAACCAGCCATTTCATCACCGCCAAAGCCTACGGTCTCCAGAGTTGTTTCCTCAACACGTTTGGTAAACCCACCA
+CCAAGACCTTCAGGAAATGCAGCAGCAAAGATACCTAATCCTATAGTAGGAGTCAAGAGGACATCCTCACCTCATAAAGA
+AGAGAGCCCCAAGAAAACCAAAACAGAAGAGGATGAAACAAGTGAAGATGCTAACTGTCTTGCTTTGAGTGGACATGATA
+AAACAGAAACAAAGGAACAACTTGATACAGAGACAAGTACAACTCAATCAGAAACCATTCAGACAGCGACTTCTCTGTTG
+GCCTCTCAGAAAACATCCAGTACAGACCTTTCTGATATCCCTGCTCTCCCTGCAAACCCTATTCCTGTTATCAAGAATTC
+AATAAAACTGAGATTGAATCGGTAAAAACAACCTCAGGGGTCCAGAAACAGTGTCTGCCAACTCAACCTGTTGTCTTCAA
+ATGCTAAAAAAGGAGAACGGAGGGTGCAAGACTAGACGTGACTGAAAGTGGATTGAGGGTTTTTTTGTGACCTCCCTTAC
+TGGGCTAATCAGCACTTGATCGGAAGTCCAGGTTAGTATGTGAAGCCAGGAGTACTATTATTATTGTGTTAGCAACAGTT
+GCA
+>ref|X54962.1| B.taurus pCK1 mRNA for casein kinase II alpha subunit
+GCCGTGTGTCTCCTCCTCCGCCGCCGCCATATTGTCTGTGTGAGGAGAGGGGAGAGCGGCCGCCGCCGTGCCGTTCCACC
+CCTGTTTTGAAGAAAATAGGTCTGAAACAAGGTCTTACTCCCCAGCTGCCTCTCAACATAGTGACTACCATCTCTCCAGA
+TACCAAGTCCAGCTTTGTCCGCCAACCTGTCTGACATGTCGGGACCCGTGCCAAGCAGAGCCAGAGTTTACACAGATGTT
+AATACACACAGACCCCGAGAGTACTGGGATTACGAGTCACATGTGGTGGAATGGGGAAATCAAGATGACTACCAGCTGGT
+TAGAAAATTAGGTCGGGGTAAATACAGTGAAGTATTTGAAGCCATCAACATCACAAATAATGAAAAAGTTGTTGTTAAAA
+TTCTCAAGCCAGTAAAGAAGAAGAAAATCAAGCGTGAAATAAAGATTTTGGAGAATTTGCGAGGCGGTCCCAACATCATC
+ACACTGGCAGACATTGTAAAAGACCCTGTGTCACGAACTCCCGCCTTGGTTTTTGAACACGTAAACAACACAGACTTCAA
+GCAATTGTACCAGACGTTAACAGACTATGATATTCGATTTTACATGTATGAGATTCTAAAGGCCCTTGATTACTGCCATA
+GCATGGGGATTATGCACAGAGATGTCAAGCCCCATAATGTCATGATTGATCATGAGCACAGAAAGCTACGGCTAATAGAC
+TGGGGTTTGGCTGAGTTTTACCATCCTGGCCAAGAATATAATGTCCGAGTTGCTTCCCGATATTTCAAAGGTCCTGAGCT
+ACTTGTAGACTATCAGATGTACGATTATAGTTTGGATATGTGGAGCTTGGGTTGTATGCTGGCAAGTATGATCTTCCGGA
+AGGAGCCATTTTTCCACGGACATGACAATTATGATCAGTTGGTGAGGATAGCCAAGGTTCTGGGGACAGAAGATTTATAT
+GACTATATTGACAAATACAACATTGAATTAGATCCACGTTTCAATGATATCTTGGGCAGACATTCCCGTAAGCGATGGGA
+ACGCTTTGTCCACAGTGAAAACCAGCACCTTGTCAGTCCTGAGGCCTTGGATTTCCTGGACAAGCTGCTGCGATACGACC
+ACCAATCACGGCTCACTGCAAGAGAGGCCATGGAGCACCCTTATTTCTACACTGTTGTGAAGGACCAGGCTCGAATGGGC
+TCATCTAGCATGCCAGGGGGCAGTACGCCAGTCAGCAGCGCCAATATGATGTCAGGGATTTCTTCAGTGCCAACCCCTTC
+ACCCCTTGGACCTCTGGCGGGCTCACCAGTGATTGCTGCTGCCAACCCCCTTGGGATGCCTGTTCCAGCTGCCGCCGGCG
+CTCAGCAGTAATGGCCCCTTCTGTCTCCTGATGCCTGAGCAGAGGTTGGGGAGTCCACTCTCTCCCTTGATGCAGCTTGC
+GCCTGGTGGGGAGGGGTGAAATACTTCAGAAGCACCGTGTCTGAACCGTTGCTTGTGGATTTATAGTAGTTCAGTCATAA
+AAAAAAAAATTATAATAGGAAAAAA
+>ref|NM_174657.2| Bos taurus solute carrier family 25 member 3 (SLC25A3), mRNA
X05340.1 Bovine mRNA for mitochondrial phosphate carrier protein precursor
+GGCCTCTGTGAGCTGCAGCCTTTCTGAGAGACCGGTTGTGTGTTCGCCATCTTAGGGAGAAGATGTACTCGTCCGTGGTG
+CACCTAGCGCGGGCGAACCCCTTCAACGCGCCTCACCTGCAGTTGGTGCACGATGGTCTCGCGGGGCCCCGCAGCGACCC
+CGCCGGGCCCCCGGGCCCACCCCGCCGCTCTCGCAACCTGGCAGCCGCCGCTGTAGAAGAGCAGTATAGCTGTGACTATG
+GATCTGGCAGATTCTTTATCCTTTGTGGACTTGGAGGAATTATTAGCTGTGGCACAACACATACAGCATTGGTTCCTCTA
+GATCTGGTTAAATGCAGGATGCAGGTGGACCCACAAAAGTACAAGAGCATATTTAATGGATTTTCAGTTACACTCAAAGA
+GGATGGTTTTCGTGGTTTGGCCAAAGGATGGGCTCCGACTTTCATTGGCTACTCCCTGCAGGGACTCTGCAAGTTTGGCT
+TTTATGAAGTCTTCAAAGTTTTGTACAGCAACATGCTTGGAGAGGAGAATGCCTATCTGTGGCGCACATCACTGTATTTG
+GCTGCCTCTGCCAGTGCTGAATTCTTTGCTGACATTGCTCTGGCTCCTATGGAAGCTGCTAAGGTTCGAATTCAAACCCA
+GCCAGGTTATGCTAACACTCTGAGGGATGCAGCTCCCAAAATGTATAAGGAAGAAGGCTTAAAGGCGTTCTACAAGGGGG
+TTGCCCCTCTCTGGATGAGGCAGATACCATACACCATGATGAAGTTTGCCTGCTTTGAACGTACTGTTGAAGCATTGTAC
+AAGTTTGTGGTTCCCAAGCCCCGAAGTGAATGTTCAAAGCCAGAGCAGCTGGTTGTCACATTTGTGGCAGGTTACATAGC
+TGGAGTCTTCTGTGCCATTGTTTCTCACCCTGCTGATTCCGTGGTGTCTGTGTTGAATAAAGAGAAGGGTAGCAGTGCCT
+CTGAGGTCCTGAAGAGGCTTGGATTTAGAGGTGTATGGAAGGGACTCTTTGCCCGTATCATCATGATCGGCACTCTGACT
+GCACTACAGTGGTTTATCTATGACTCTGTGAAGGTCTACTTCAGGCTCCCTCGCCCTCCTCCACCTGAGATGCCAGAATC
+TCTGAAGAAAAAGCTTGGGTACACTCAATAGATAAATGAAAGCAAATATGGACTGAATCTGCGTGTTGATCAGTGTTTGA
+GGAAAATGCAGAAGGAACTTTTATATATTTGACAGTGTAGGAAGTTGTCTATTCCTAATATAATTACTGTAGTACTCTTG
+TCAAAAGCAAGAGTTTCAAACTTAATGTGGAAATAAACCCAACTGTACATGA
+>ref|X00002.1| B.taurus gene encoding pituitary glycoprotein hormone alpha subunit, exon 1
+AGATCTTGTTTATAGGAAAGTGTCAACTTTCAGGATGTTGTGTATAAATCTTGAAAAAATTATGTAGAAAATAACAGAGT
+TCTCTTGTCTCATAGGCTGACCTTGCAGTCAACACCATCTGAAAATGGCTCAAAACAAAAAATAATCTAAGGGCTGAAAC
+AAGATAAGATAAAATTGATGTCATGGTAATTATGTGAAGTACCATTCAATCATTGGGTGGAATTTACTGTTGATCCCTGG
+ACTTAGATGTAGGTGGGAACATGCAGCTTTTATGACTCTGCTGGTATATAAGACAGGTGAGGACTTTATTAAAAGCAGTT
+GCTGAGAAATCACAAGACAAAACTAAAATTCTTCTTCAGATCCACAGTCAACTGCCCTGACTACATTCTGCAAAAATCCA
+GAGGACGGTAAAATGAATGAAATAATTTGGGGGATTTTAATTGAGGGGTAAAATATTTGAGGATACAAGGGAGCTGGTTG
+TGCATAAACCCTAGTAAGAAGAGAGACAGGCATTTATGCATTCTCCTTTCAGCACTCATGATTGAATTGGGAGGAAGTCT
+GCAAAACTGTGGTCTGTGATC
+>ref|X00003.1| B.taurus gene encoding pituitary glycoprotein hormone alpha subunit, exon 2, and joined CDS
+AGCAATGTTAAAACTACTGGTTGTTGTTATGCCTGTTAAGCCAATTTTATAGTAACTTTTTTTCCCTATGTCTGTTTTGC
+AGAAGAGCCATGGATTACTACAGAAAATATGCAGCTGTCATTCTGGCCATTTTGTCTCTGTTTCTGCAAATTCTCCATTC
+CTTTCCTGATGGAGAGTTTACAATGCAGGGTATGTGCCCAACTTGGGTCTGCAG
+>ref|X00004.1| .taurus gene encoding pituitary glycoprotein hormone alpha subunit, exons 3 & 4
+CTGTAGTCAGGACAAACAGATATTGTGTGTGAAGATGAACATACAACCAAAAAGTATTTATTTATTTTAACTGCCAATAG
+AAAAAAAGAATATTTGTTGTCCAATAATAAGGAATCATTCACAGTTTTTTTTTAAAAAATTCTTTTTGGATTATTTTACT
+CTTTGCCTTTTTCTTTCTTTCTTTTTCTTTCTCTCTCTTTTTTAAATTTGTTTTTTTTTTTTGGTGATAGGCTGTCCTGA
+ATGCAAGCTAAAAGAAAACAAATACTTCTCCAAGCCAGATGCTCCAATCTATCAGTGCATGGGGTGCTGCTTCTCCAGGG
+CATACCCCACTCCAGCGAGGTCTAAGAAGACAATGTTGGTCCCCAAGAACATCACCTCGGAAGCTACATGCTGTGTGGCC
+AAAGCATTTACCAAGGTGAGGACCTAAAGGGCCCCAGAAACTTTCTAACAGTTCAACCAGAGAAATGTCCTCACAGCACA
+TCCATGGCTTCACGCCAGAGGTAGCTAATGACCAGTCTTTCAATGGGCATTTGTAGAGCAAAGGGCTGAGCTTGTCTGCT
+TTAACCAAGACAGTCAGCCACCTTGTGGGCAGAGGCTGGATCTATCCAGAATGAAGACAGTGGACAGAGGTGATAAGGGG
+CAGGTTGGGAGAAAACATAGAATACTTATACAGTGCAAATCTAAGCTTTAGGAATGAAAATATCAGCTGAAAAGGAGACT
+ATGTGAATACAACCAGCATCTGTTTTTTAAAGTACTTATGTATTTGTTTGGCTGCACAGGGTCTTAGTTGTAGCACTCAG
+TATGTGGGATCTTTAGTTGTGGCAGGCGGGATCTAGTTCTCTGACCAGGGATGGAACCTGGGTCCCCTGCACTGAGAGCT
+AGAGACCTAGCCACTGGACCAGCACAGAAGTCCCATATAGCAAGCATTTATTCAGTTCAGCTGGCTACAGACTATTTTAC
+TGAACAGTTTTCAATTTTGCTAGCCTGCCTATCTATCCATCTGCCTCTGTCTATCATCTATCTTTCTTCCCTTCCGTTTA
+GGCCACAGTGATGGGAAATGTCAGAGTGGAGAACCACACCGAGTGCCACTGCAGCACTTGTTATTATCACAAATCCTAAT
+AGTTTGCAGTGGGCCTTGCTGATGATGGCTGACTTGCTCAAAAGGAAAATTAATTTGTCCAGTGTCTATGGCTTTGTGAG
+ATAAAACCCTCCTTTTCCTTGCCATACCATTTTTAACCTGCTTTGAGAATATACTGCAGCTTTATTGCTTTTCTCCTTAT
+CCTACAATATAATCAGTAGTCTTGATCTTTTCATTTGGAATGAAATATGGCATTTAGCATGACCATAAAAAGCTGATTCC
+ACTGGAAATAAAGTCTTTTAAATCATCACTCTATCACTGAATTC
+>ref|X03098.1| Bovine mRNA fragment for lipophilin (aa 129-276) (myelin proteolipid protein)
+CATCAAGCTCATTCTTTGGAGCGGGTGTGTCATTGTTTGGGAAAATGGCTAGGACATCCCGACAAGTTTGTGGGCATCAC
+CTATGCCCTGACCGTTGTGTGGCTCCTNGTGTTTGCCTGCTCTGCTGTGCCTGTATACATTTATTTCAACACCTGGACCA
+CCTGCCAGTCTATTGCTGCCCCCAGCAAGACCTCTGCAAGTATAGGCACTCTCTGTGCTGATGCCAGAATGTATGGTGTT
+CTCCCATGGAATGCTTTCCCTGGCAAGGTGTGTGGCTCCAACCTTCTGTCCATCTGCAAAACAGCTGAGTTCCAAATGAC
+CTTCCATCTGTTTATTGCTGCGTTTGTGGGGGCTGCAGCCACACTGGTGTCCCTGCTCACCTTCATGATTGCTGCCACTT
+ACAACTTTGCCGTCCTGAAACTCATGGGCCGAGGCACCAAGTTCTGATCTCCTGTAGAAATTTCCCTTTCTCTAATAGCG
+AGGCTCTAACCACACAGTCCACAGTGCTGCGTCTCCCATGTTAACTCTTTGCCTTTGCTACTGACTGGCCCTCTTCTTAC
+TTGACGAGTGTAACAAGAAAGGAGAGTCTCACGGTGATTAATGTCTCTGCGGACTCTCCCCTCTTACGTACCTCTTTTAG
+TCATTTTGCTTCATAGCTGGTTCCTGCTAGAAATGGGAAATGCTTAAAGATGGTGACTCCCCAACTGCAAGTCACAAAGA
+AGTGGAGGCTCTCATTCAATTTTCAAGCATCTCCCGAGGACNAGGAAGTGTTTTCTTCTCAAAGGGCACTTCCACTGATG
+AAAACAAAGTGGAAAGAAAGATGTTCAGGTAGAGAGAAGGGAGGCACCTGTCCCTGTTGCCATCTTGGGAGCCAAATATA
+TTCTCTTTGGTGTACAAAACCGAGAACTCACTCCAGTCTCCCTAGTACC
+>ref|X63436.1| B.taurus mRNA for poly(A) polymerase
+GGGGAAGCGCTTAAAGCGGCGGGACGGGTGCGGAGTGGGGTAGGACCCAGGGCTAAGGCAGGCCCCCGCCCCCCTCCCTC
+CCGCCTCAGTGGATCATGCCCAGGGCGGCAGTGGCGGCGGTTGCAGGGGGGAAGTGACTGGGCGGTGCGGCACAGGAGAC
+GATGCCGTTTCCAGTTACAACACAGGGATCACAGCAAACACAGCCGCCACAGAAGCACTATGGCATTACTTCTCCCATCA
+GCTTAGCAGCCCCCAAGGAGACTGACTGCCTGCTCACACAGAAGCTGGTGGAGACTCTGAAGCCCTTCGGGGTTTTTGAA
+GAGGAAGAGGAACTGCAGCGCAGGATTTTAATTTTGGGAAAATTAAATAACCTGGTAAAAGAGTGGATACGAGAAATCAG
+AGAAAGCAAGAATCTTCCACAATCTGTAATTGAAAATGTTGGTGGGAAAATTTTTACATTTGGATCTTATAGATTAGGAG
+TACATACAAAAGGTGCTGATATTGATGCATTGTGTGTTGCACCAAGACATGTTGATCGAAGTGATTTTTTCACCTCATTC
+TATGATAAGTTGAAATTACAGGAAGAAGTAAAAGATTTAAGAGCTGTTGAAGAGGCATTTGTACCAGTTATCAAACTGTG
+TTTTGATGGGATAGAGATTGATATTTTGTTTGCAAGATTAGCACTGCAGACTATTCCAGAAGACTTGGACTTAAGAGATG
+ACAGTCTGCTTAAAAATTTAGATATAAGATGTATAAGAAGTCTTAACGGTTGCAGGGTAACCGATGAAATTTTACATCTA
+GTACCAAACATTGACAACTTCAGGTTAACCCTGAGAGCTATCAAACTGTGGGCCAAACGCCACAACATCTATTCCAATAT
+ATTAGGTTTCCTCGGTGGTGTTTCCTGGGCTATGCTAGTAGCAAGAACTTGCCAGCTTTATCCAAATGCAATAGCATCAA
+CTCTTGTACATAAATTTTTCTTGGTATTTTCTAAATGGGAATGGCCAAATCCAGTCCTATTGAAACAGCCTGAAGAATGC
+AATCTTAATTTGCCTGTATGGGACCCAAGGGTAAACCCCAGTGATAGGTACCATCTTATGCCTATAATTACACCAGCATA
+CCCACAACAGAACTCCACGTACAATGTGTCCGTTTCAACACGGATGGTCATGGTTGAGGAGTTTAAACAAGGTCTTGCTA
+TCACAGATGAAATTTTGCTGAGTAAGGCAGAGTGGTCCAAACTTTTTGAAGCTCCAAACTTCTTTCAAAAGTACAAGCAT
+TATATTGTACTTCTAGCAAGTGCACCAACTGAAAAACAACGCCTAGAATGGGTGGGCTTGGTGGAATCAAAAATCCGAAT
+CCTGGTTGGAAGTTTGGAGAAGAATGAGTTTATTACACTGGCTCATGTGAATCCCCAGTCATTTCCAGCACCCAAAGAAA
+ATCCCGACAAGGAAGAATTTCGCACGATGTGGGTGATTGGGTTAGTGTTTAAAAAAACAGAAAACTCTGAAAATCTCAGT
+GTTGATCTCACCTATGATATTCAGTCTTTCACAGATACAGTTTATAGGCAAGCAATAAACAGCAAGATGTTTGAGGTGGA
+CATGAAAATTGCTGCGATGCATGTAAAAAGAAAGCAACTCCATCAACTACTGCCTAGTCATGTGCTTCAGAAAAAGAAAA
+AGCATTCAACAGAAGGCGTCAAGTTGACACCTCTGAATGATAGCAGCCTCGACTTGTCTATGGACAGTGACAACAGCATG
+TCTGTGCCTTCACCTACTAGTGCTATGAAGACCAGTCCGTTGAACAGTTCTGGCAGCTCTCAGGGCAGAAACAGTCCTGC
+TCCAGCTGTAACAGCAGCATCTGTGACCAACATACAGGCTACTGAAGTTTCTCTGCCACAAATAAATTCCAGTGAAAGCT
+CAGGGGGTACATCGAGTGAAAGCATTCCTCAAACTGCCACACAACCAGCCATTTCATCACCACCAAAGCCTACGGTCTCC
+AGAGTTGTTTCCTCAACACGTTTGGTAAACCCACCACCAAGACCTTCAGGAAATGCAGCAGCAAAGATACCTAATCCTAT
+AGTAGGAGTCAAGAGGACATCCTCACCTCATAAAGAAGAGAGCCCCAAGAAAACCAAAACAGAAGAGGAACAACTTGATA
+CAGAGACAAGTACAACTCAATCAGAAACCATTCAGACAGCGACTTCTCTGTTGGCCTCTCAGATCATTTAAATCCTCACT
+GCACAATATGCCGTCTTCACCTGGAGGTTTTGTTATAAGTCAGAGAGTGAACTTTAAATTAGAACTTAAAATCCTTCTTC
+ATGGATTGCTTTTCAAATGTTTTATTTTCAAAATGTGTTTCTGCTTCACTTTTCACCTCTGCTTTTCAGTTATTTATTTA
+GTGTAATGCATAGTTCTTTAAAGCTATTTTTTCATTTGTCCTAGAAATTCTGCTGTGACAGTACCTTGTGTACAGTAGAC
+ACTTGGACTCTTTTCATTAATTTGTGAACCTTCATTTTGTTTGTGAAATAATTGTTTTCTTCTCGAATCCTTTTAAACTG
+AATATACTCCAAAGCTAAGTCAGGCTCTGACATAAAGTAAATACTTCCTTTAAGTAGACATTAAACTGGTTAACTTCCAC
+AAAGCTACTGCCAGTGACGCTGCTTTACTGACGAGACAGTGGAACTACGCTGCTTTGTGGCTCAGAGTTATTTTAATGTG
+ATAATTTTAAGATGAGTTTTTGCTGGCTGTTAACCTTCATAGTTCCTCTTGATATATAAATGCTATGATTACTTTCTGAA
+ATGTTTTATTTTCATAGCCTTTAGCTAATAAAAATTTTGTGGGGTGGCGTGGAGTAATTCCAACAACATTAGGAAGTGTT
+GTACTTGATACTGATACACAGACAAACTTATTTATCAAAATTCAGTTCTGTGATTGTGACTGCATGCATTTAGGCCAGCC
+ACATTAATCTCTAGGGAACTGTTTTCATAGTTTGTTTTGTTGACTTCATTCCTCTAGTGATTCATACCCTTGGGTGTTTG
+CCTTTTAGATATTTTTATAAGGAATTAGAATTTTCTTTGTAATGAAAAGATCCCTAGAACCGTTGAGAGAAAAATCACCA
+GGTTATATATATAATATAAAAAGTTATGTCGATTAAAAAAATTTTTTTTAATCTCTTTATTTGGTGATAGAAGGGAGGTA
+TTAATGTTGTGACTGTGTCTAACAATGAATCTTTGAGATAAACTTGAAATATTTACAGAAGAAATGATAGGCTCTCTGGG
+ATTTGCTTCAGAATAATCTGGGAGTAAAGGTGGGAGAACAGTGGATTGGCTTTGACGAAGTCGGTAATGAATACACGAGC
+CATTCATTATATAAGGCTCTACTTCTGTGTATGTTGGAATTTTCCATAATAAAACAATTAAAAATGCCCCC
+>ref|NM_174133.2| Bos taurus ubiquitin B (UBB), mRNA
Z18245.1 Bos taurus gene for polyubiquitin
+CTGGCATTGTTGGGTTCCTGTGTCGTCTTGGAGGTGACTCGGCGTGATTGAATTTGCGGCATCTTCGCATTCATTCACAG
+GTCAAAATGCAGATCTTCGTGAAAACCCTGACCGGCAAGACCATCACCCTGGAGGTGGAGCCCAGTGACACCATCGAGAA
+CGTGAAGGCCAAGATCCAGGATAAGGAAGGCATTCCCCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAG
+ATGGCCGCACTCTTTCTGATTACAACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAG
+ATTTTCGTGAAGACCCTGACCGGCAAGACCATCACCCTGGAAGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAA
+GATCCAGGATAAGGAGGGCATTCCCCCCGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTC
+TTTTTGATTACAACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAGATCTTCGTGAAG
+ACCCTGACCGGCAAGACCATCACCCTGGAGGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAAGATCCAGGATAA
+GGAAGGCATTCCCCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTCTTTCTGATTACA
+ACATCCAGAAAGAGTCGACCCTGCACCTGGTCCTCCGTCTGAGGGGTGGTATGCAGATCTTCGTGAAGACCCTGACCGGC
+AAGACCATCACCCTGGAAGTGGAGCCCAGTGACACCATCGAGAACGTGAAGGCCAAGATCCAGGATAAGGAAGGCATTCC
+CCCTGACCAGCAGAGGCTCATCTTTGCCGGCAAGCAGCTGGAAGATGGCCGCACTCTTTCTGATTACAACATCCAGAAAG
+AGTCGACCCTGCACCTGGTCCTTCGTCTGAGGGGTGGCTGTTAATTCTTCAGTCTTCTATTCATAATGTTCAATGATGAC
+ATCCTTCTGCACTCTAGCCATTTACCCCAATTTAAGTTTAGAAATTACCAGTTTCAGTAATAGCTGAACCTGTTCAAAAT
+ATTAATAAAAGTTTTGTTGCATGC
+>ref|NM_173915.2| Bos taurus gastrin (GAST), mRNA
X16581.1 Bovine mRNA for preprogastrin
+CAGGCTCCAGGCCAACAGCAGCGTCACCCACCTCCCAGCTTCACAGACAAGATGCAGCGACTGTGTGCACATGTGCTGAT
+CTTGGTGCTGGCTCTGGCCGCCTTCTGCGAAGCTTCTTGGAAGCCCCACTCCCACCTGCAAGACGCGCCCGTCGCTCCAG
+GGGCCAATAGGGGCCAGGAGCCGCTCAGGATGAACCGGCTGGGCCCAGCCTCGAACCCCCGGAGGCAGCTGGGGCTTCAG
+GATCCGCCACACATGGTCGCAGACCTGTCCAAGAAGCAGGGGCCATGGGTGGAGGAAGAGGAAGCAGCATATGGATGGAT
+GGACTTCGGCCGCCGCAGTGCTGAGGAAGGGGACCAACATCCCTGAGAACAAGCTTTGGAGCCCAGTCACCTCCCAGCCC
+AGCCCAGCCCCATGAAACACACATCAAAATAAACTAGCTTCCAATGG
+>ref|X01395.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 1
+GAGTCGCTTTGCTTTGATGAGTAATCTTAGGTGTCATGGAACCTCGTTCCGAAGAAAGAGGGGAGGGGGCGTCAGATATG
+CCTACGGAAGAAGACAGGCCGCTGGGTTATTGGATGGCGAGAACTCGATATTCCTATAATTGCGTCATTTCGAACCCAAT
+TGGGTCCAGATGTTATGCGCACCGACGGATTACCGTCTCGGAAACTCTCAATCAGACGCAAGCGAAAGGAGAGGAGGCGG
+TTAATTAAATATTGAGCAGAAAGTCGCGTGGGGAGCGCGTCACGTGGGTCCCGAGACTCGGCGAGCCTGGGATAAATACC
+GCGCGGCAGCCAGCAGGCAAAAGAGCGCGCTGCTGACCTCCTCCATCCTTGCTGCGACCGAGAGAGTGCGCAGCGCCCCG
+CGAGTGCTCAGACCAGCAGAGGAACCTCCCGGGCGGGTCAGCTGCGGTAAGTGCCCGCGCGCTGTAGTGCGCGCTTTCCG
+CACCGCGCACCGCTCG
+>ref|X02351.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 2 (and joined CDS)
+TCAAAAATTCTTTTTTTTCCCCCTCTGCCTTTTCTCCCTACTCTTCCCAGAAATCCAACATGAAAATCCTCGTGGCCGTG
+GCAGTGATTTTTTTCATCTCCACTCAACTGTCTGCAGAAGAAATCGGAGCCAACGATGATTTCAATTATTGGTCCGACTG
+GTCCGACAGCGACCAGATCAAGGTGAGACCCGTTCCCTAGATGGCCTGCGCCCTTCTTCACGGGTTTAGGAGCTGTCACT
+TA
+>ref|X01396.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 3
+CCTCGAACTGGTTGCCTTCAGGCCCGATAATCCGTGTGTTTGTCCTCTAGGAGGAAATGCCCGAGCCCTTTGAGCATCTT
+CTGCAGAGAATCGCTCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTGATGGGCAAACGGGATGCTGGTGAGATGGGCAG
+TCGTCCCTCCCTGTCTCTCTGGGCAACCCACACACAT
+>ref|X01397.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 4
+ATCACACCATCAGTGGAATGTGTGGTTAACGTCAATTTGTCTCTTGTCAGATTCCTCAATTGAAAAGCAAGTGGCCCTGT
+TAAAGGCCCTTTATGGTAAACATTTCTATAAATCTTTATTTTACTATTGTGAATGCACATGTGTG
+>ref|X01398.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 5
+CTCCTTTTAAACAAATCTATTGTTTGCTAATTTTATCTTTCTTTCTATAGGACATGGCCAGCTTTCTCACAAAAGTAAGT
+TCCAAATTATTTTGACATTTATCAAATGCAAATATAAATTATAT
+>ref|X01399.1| B.taurus gene fragment for beta preprotachykinin (PPT) exon 6
+ATTTCCTCAGATATATACATATTAAAATACCCCTAAATGTATTTTTCCAGGGCATAAAACAGATTCCTTTGTTGGACTAA
+TGGGCAAAAGAGCTTTAAATTCTGGTATGTATAAAACCATGACTGGACATAAACAGTATCTTAAATCTACTCTA
+>ref|X01400.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 7 part 1
+CTGTGTCAGTGATCCTCTTAACAAACCCTTTACCTTCTCTTTGTTCTCAGTGGCTTATGAAAGGAGTGTGATGCAGGATT
+ATGAAAGAAGACGTAAATAGACTACCTAACATATTTATTGAGCTTCATTTGTGTCAGTGGTCAAGGAAAGGTAAAATGAG
+ACATGCACTATGAGGAATAATTATTTATTTAATAATTGTTGTTTTGAGTTT
+>ref|X01401.1| B.taurus gene fragment for alpha/beta preprotachykinin (PPT) exon 7 part 2
+CCTGCAGCATGTTTCATGTTTTGTGACTATATAGAGACATTTAAAAAGTTTTACTGTGATTCTAAGGTATTTTATTGTAC
+AATGTGTTGTAATAGTTAACATTTTAAATAAAAGAAAAAGTATCTTAAATTGGGCCTTATTCTTTCATTAACCTTTACAT
+CTAATGGCAACCTTTCTTTTAGAGGATATGTTCCAACCTGTTTTGGATGTAAAATAATGAAACATAAAGCTACTAAATTT
+CTTTTTCTTAAGGAAAATGATTAAATGTAATCAGAGTTTCTCTTTCCCACACACGTGCGCCTGTTGTTCAGTCATTGGCA
+TGGGATCC
+>ref|X07283.1| Bovine DNA for pancreatic ribonuclease (EC 3.1.27.5.)
+TCCAGGCCAGAATACTGGAGTGGATAGCCTTTCCCTTCTCCAGGGATCTTCCCATCCCAGGTCTCCCACATTGCAGGCAG
+ATTCTTTACCAGCTGAGCCGCAAGGAAGCCCAAGAATACTGGAGTGGGTAGCCTATCACTTCTCCAGAGGATCTTCCTGA
+TCTAGGAATTGAACCGGGGTCTCCTGCACTGTAGGCGGATTCTTTACCAACTGAGCTATCAGGGTCACAAAGAGTCAGAT
+ACAACTGAAGCCACTTAGCACACATGCCTGGGCTATTTAGTATGGAACATGGATTTGGTTGGAGTTTGAGCATCAATACT
+ATAGTGGCTTTCTCTGCTGCTTTATAGAGAGAAAAGTTCTTATCAGCAAAGGCTCACTATCCCCAGCAGTCCCCCCAAAA
+GGGTGTGCGTGTATGCTCAATTGTGTCTGGACTGTGCCTGCCAGGCTTCTCTGTCCATGGAATTTCCTAGGCAAGATCTG
+GAGTGGGTTGGTATTTCCTTCTCCAAAGGATCTTCCCACCCCAGGGACAGAACCGGAGTCTGATGAATAGGCAGGCATAC
+TACCAGGCCAGGTGTCCTGGGCAATTCCCCAACCTTTCCTCGCTTGACCTTGTTTTCCTGTGGACTGAGACCAAGATGCC
+CCTCCCACCCTTCTTGGAAGCCAAGCCCCCTTTCACCAGTATAAGGTCCACACCTCTGGAAGAGAATGATTGCAGAAACT
+GCCTTCTCTCTCTCAGACATCAAACTAGAGACCCAGGTAAGCAGCCCAAGAAGTGGTCTCAGGAGCTGCTTCTGCTTGAG
+GGTTTGAGAGGGAGGATCCTAGGTGAGTGAGACTAGCCTGAGAATTGGGCTGGGCAGACAGGGGCAGGGAGCAGAGCTGG
+GGTCAGGAATGGAGCACACAGGCTGCAGAGAGCCCACAGGGTTGGAGAAGGAGAAGCCTCCAGGTTGGGGGAGGCTTGAA
+TCTCTCATAGGAATACAATGGTGTCCTTTATGGTATGGGGTCAGACACAGGACAGGGACTGAGTTTCCCTTGTGCTGGAG
+GACAACAGGGCTCTGTCAACTGTGATCCGGATGAATACTGGTGGTTATTTTGGGGGTACAACTTAGCTTATTCAAAATCT
+GACTTTTTTATTTAGTGGTTTATTCAAAAGGATCCCCTAATGAGCTGCATGAGTGCTGGGTACAAAAGTATTTTATTTTC
+CAAATGTATTTCATATCAAAAGACTTTCTGTATTCAAAGACAGGACTGCTAGGATTTTAGATCATTTTGGGGGTCACCAC
+CCAAAGGGGAGGACGACACCTCTGTAGGGAGTGGGAGTCAAATGTTTGTGGGAAGAGTATATGTGTCTCCTTACCTAGGA
+AAGCTCTTAGGAACAGGGACATCTTTCTGGTTGACCGGCAGGGAGACTGTAAGCCAGGGAGGCTACAGGTGGGAGCTGGG
+GTTCTTTTCGAAGGCGATGCTTTTCCTCTTCTCCCCCTTTTCTCATTCAGGTTTCTCCAGGGGAGTGCGGTCATCATGGC
+TCTGAAGTCCCTGGTCCTGTTGTCGCTGTTGGTCCTGGTGCTGCTGCTGGTGCGGGTCCAGCCTTCCCTGGGCAAGGAAA
+CTGCAGCAGCCAAGTTTGAGCGGCAGCACATGGACTCCAGCACTTCCGCTGCCAGCAGCTCCAACTACTGTAACCAGATG
+ATGAAGAGCCGGAACCTGACCAAAGATCGATGCAAGCCAGTGAACACCTTTGTGCACGAGTCCCTGGCTGATGTCCAGGC
+CGTGTGCTCCCAGAAAAATGTTGCCTGCAAGAATGGGCAGACCAATTGCTACCAGAGCTACTCCACCATGAGCATCACCG
+ACTGCCGTGAGACCGGCAGCTCCAAGTACCCCAACTGTGCCTACAAGACCACCCAGGCGAATAAACACATCATTGTGGCT
+TGTGAGGGAAACCCGTACGTGCCAGTCCACTTTGATGCTTCAGTGTAGGTCTCTACCTAAGGCCAGAGCAGCAAGATGCA
+CCACTTCATCACAAAGGCACCTGCCTCTCCCCTCATGTTTCCTTGTCCTGGGGGCAATAGCTCAAGTTAGTTAGGGCTCT
+TATCTCTGCGCACCTTACCAGAAACACACACACAGGATTCCCTGGCATGAAAGCAATAACTCAAGCTAGTTAAGTCTTCT
+ATCCAACCCACACTTGCTCCCCTGGCCTGAGTCTTGCCCCTGGTGGTTTGGGGGGTGAGGAGTGGGTTGTGAGGTGGGAC
+CTGTGTTAACCAAATCACTGCTTCTTTCAATAAACATACTTGCAACCACCTGAATTCCTGATGCTGTCCTCACCTGGGTA
+TTGTTCATGTGATTGCTCTCTTGCCAGGGGTGAGAAGCGTGAATCAGGTTATCTGTGGTAAGAAGGGAATGCAATCCTTA
+AATGCCACCTCTTCTGACTTTTGGTTTTCAGTGCCCTAAGATAATTCCTCTCTTTGTAGGTTCCTTGACACCCAGTATAA
+ATGTGTGGGTGATTTTAAGATCTATAGTCTGGGACACTGTCATGCTGGGTGAGCTGACAGAGGGTGAAGCTCACATACAA
+AAATCTCTGGCACAGAAGAAAAGATCATGTGATCCAGGAGAGACCCTGTTTGGCCTCAGGAGCAGAAGAAGACTATGAAA
+TTATGACCTAAGATTTCCATTTTCCTTTTTTTGAGGGAGCTATTACTAAATCAGAAAGATGGTCC
+>ref|X16641.1| Bovine DNA for prolactin 5'flanking regulatory region
+GATCTGGGTCGACCTGCAGGTCAACGGATCTGCAAAAGAGCACATACAAAAATTAAGGTAGATAGGCAGTGACATATGAG
+AAAGACAGATAAGACAGTTATGACATTTTATATAAAATAAGCCTTTTACATTATTTCAACCCACTCCAGGTCTCTTGCCT
+GGAAAATCCCATGGATGGAGGAGACTGGTAGGCTGCAGTCCATGGGGTCACTAGGAGTCAGACGTGACTGAGCGACTTCA
+CTTTCCCTTTTCAGTTTCATGCATTGGAGAAGGAAATGGCAACCCACTCCAGTATTCTTGCCTGGAGAAACCCAGGGATG
+GGAGAGCCTGGAGGGCTGCCGTCTATGGGGTCGCCCAGAGTCAGATACGACTGAAGCGACTTAGCAGCAGCAGCAGTTTG
+CATTATTTAGCTATGGCAGTATCCTTTTAACAGGAAATATAGGGCTGTGAATCAGCAAGAAAGCACACAAGAAATTTTAC
+AGAGAAACATGGACCTCTTCGGAATCAAATAGATCAGTTGGCCTCCATTGAATAAACAACTTAGGCTTTTTAAATTACTT
+TTTTCCTCGCTATCTACAAAAGGTAAAGCACCTTTAAATTTTAAGATTAAGTTGTCAATTCTTAGGGCAGATTTTCCTAT
+TATTAAGTTTCAGGAAAGGAGGGGAAATTGGGGCAGCATTAATTTCTTTACAAATGGCACTGTTCTCAACAACTCAGACT
+TTCACTGTCCAGGGAAAAACAGATACCAAGCATGGCATTTTGACCCAGCTTTAAGTTGACGGAGTCTATGTAGCATCATA
+CTTGATTCATTTGATGCAAAATCAGTATTGATTAAGCTAAGGCAGTTAGGAGGATAGTTTTTAAGTGGCGTTAGTCTTTG
+TTATGATTTCTAAGTCCCCATAAGCACACTTGGATAATTGCTAAAGCAAAATACAGCAGGAGAAACTATAGAAAATATGA
+ATGCAATAAAAAGAGATTATTTTCTTAATGCAGCTCACTTGTCAATTTACTCTGAGAGACATATGGTAAAATTGAAACTA
+AAGGTCACAGGCTGCTTGAGATGCATGAACTTAAAAATTAAAGAAAGTCATCAGCAACTTGGTCTATATTCATTACCATC
+ATCTCATTCAGGAAATCTCTAAAAGGCAAGTGGAACTTTAGAGCCCATGAAAGATGAATTTTTGTCACCTTGGCCCTAGA
+GTGGCTTGAGGTCAGAGAATTAAAGCTATCATAAGTTAATAACAGTTTGTGTAACCTTACCCTTAAGGAAAGTGAACATG
+ACTGTCTAGAATTTTGTTTTACTGCATTTACCAGAGTTTGTGTGTGTGTGTATGTGTGTGTGTGCCCTTGAAAACCACTG
+TCACTTCCCCAGTATGAACTCCCTAAAGTTAGGGGTGAGTTTTGTGTTCATTGTAGAAGAGAGGGCAACGTATGTTGGAG
+GATTCATTTTCCAGCCCTCTTCACATCCCTCCTGATTTCTCTTGAAGTGATAAACATTTCGGTATCTAACTTGACTAATT
+CTATATCCTTGACATTTAAACTCCCCATCCCACTGTTTCTCAATCTGGGGACGAAAGATATAACTTTACATACATGTTAA
+AATCAAAAGACTTATGTGAAAATGCACATTTTACCACAGAGATATATCCTTTTAGAAAGGACAAAACAGAATGTGTAAAA
+ATCAAGAAAAAAAAAATGAGGAAAATGTATTGAGAGTATAACAGGAACTGAAAATCTTACTTACTCATCCTTATTCTATA
+TTTCTTAGTATTTAGTGTGTAAATTTTGAAATCTTGACTTCAGCCAGCAATTTTGAATGAGAATAAAATACTCTTTGATA
+ATACATGAGACACCTAAGTGAAAGATAATGCTATATTCAAGAAACTGCAGAGAAATAAAGGCAAATGTTACAAGAAATGA
+CTGCTATAATTTTATAGTTCCTCTAACTCAAACTAGTCTCCAGATCTCACCATCATTATCTCTCTCATTTCCTTTCAGTC
+TAATTAATCAAAATCCTTCCTAGATGTTCATTTCTGGTCAGTATGTCTTCCTGAATATGAATAAGAAATAGAATACCATT
+CAATGTTTGAAATTATGGGGGTAATCTCAATGACGGAAATAGATGACTGGCAAAAGGGAAGGGAATGCCTGATTAAATAT
+ATTCATGAAGATGTCAAAGCCTTATAAAGCCAACATCTGGGGAAGAGAA
+>ref|X16559.1| Bull mRNA for protamine 2
+AGGTCGACGAATTCAATTCCGTTAACAGCAAGAGCAGGGGGCAGGCCTCAGCCTCCTCCCCGCCCCCCCAAGGCCAGCTG
+CCGTCTCAGCCCGAGTCGCCCACCCGTGACCCCTCCATCACGATGGTCCGATGCCACGTGAAGAGTCCAACTGAAAGTCC
+ACCCGGGCAGCAGGGCTCCGGGCAGCAGGGCGAGACGGAGCACCCGGATCAGGCACGGGAGCTGAGGCCGGAAGACATCC
+CGGTCTACGGGAGGACTCACAGAGGCCGCTACCACTACAGACACAGGAGCCACACGCGCGCCTACCGGAGGCGCCGGAGA
+AGGGCCTGCAGGCACAGGAGCCGCAGAGGTGCGGCGGGCCCCCCCTGCGCTCCCATCCCAGGCACCCCCCAGGCCTCCAG
+GCAGGGCTCAGGCTGCCGAAGGATGAGGAGGAGGAGGAGGAGATGCGGAAGGCAGCTCTAAGTTCCCTGGGCCACCAGAA
+AGAGTCACCTGCCAGGAAGCCCTCGAAGACCATACCACATCCCCCTTGGAGCCCACGAGATCTTGAGTAAATGAGAAAGT
+ATCTGTCAATAAGTTGAGATAAGAAACTGAAAA
+>ref|X12516.1| Bovine parathyroid hormone gene downstream DNA fragment
+ATACTCCCTTTTCTTCTTATTACCTCAACCCCATTCACATATCAGGCTTAGATTTCTTAGAGAAGTATCATGCTGGAATT
+TCTTTTTTCCAGAAGGATAAAGGATAAATAATTCTAGAACTTGACAGTTGTCATTAAAGTAACAACCAGGTGAATTAAAT
+AACCCCTTGATAGCTCAGTTGGTATAGAATCACCTTCAATGCAGGAGACCCTGGTTCAATTCCTGGGTTGGGACGATCCA
+CTGGATAAGGGATAGGCTACCCACTCCAGTATTCTTGGACTTTCCTTGTGTCTCAG
+>ref|X17364.1| Bovine Harvey-ras 2 put. pseudogene, exons 1-3
+CCCGGGCAGCCTGGCCCAGGAGCTCAGTGGGCGTGCGAGTGGGGTCAGTGGGACAGGAAACCACAGTAGTGCCTGGTGTT
+GGGGTCCTTGAGGAGTGATGACGGAGGATAAGCTCGTGGTGGTGGGCGCCATGGTATGGAGGAAGAGTGCCCTGACCATC
+CAGCTCATCGAGAAGCACCCCGTGGAGGACAACTCCACCATGGAGGTGAGCCGACTCTGGTCCACAGCCTGGCTCCTGAC
+AGGGGCTTGTCCTCCACCTGCTCTGCAGAGGGGTCCTATTGTCCTAGGTCCTGGGGGCACAAGAGGAGCGAGGGAGGGTC
+CCCTCCCAGGAAGGTTGGCTGTCTCTAAGTTCCTACTGGAAGCAAGTGGTCACTGATGGGGAGACCTACCTACTGGACAC
+AGCAGGCCAGGAGAGTCAGCGTCATGGAGACCAGTACATGAGCACCAGCGAGGGCTTTCCTCTGGGTGTTTGCATCAACA
+ATACCGAGTCCTTCAAGGGCATCCACCAGCCCTGGTGAGCTGACCACTGACCTCAGGGCTCCTGTCCTCTCTCTGTGACG
+CCAAGTGCAGGCCCAGCCCGCAGCCTGCCCACTGGATCACGACTTCCCCTTGTAGGGAGCAGATCAAGTGGGTGAAGGAC
+TCAGATGGCATACCTGTGGTGCTGGTGGGAACGAGTGTGACCTGGTCATGGTACCGTCGAGTCTCAGCAGGCCAGAACCT
+CACCCAAAACTGCAGCGTCCCCTGCAGTGATGTGTTGGCCCAGATGCACCAGGTGGAAGCCCCCCTCCCTGCCCCCCATC
+CAGCCAGGGCCCTGTGCACCCCCACTGCCTGGGAGCAGCACTCACTGCCCCTTCTCCCTCCATCCAGGGCAGCTGCTCGA
+CCTCTGGCTTCAGCTAAGGGACCCCCTGGAACCCACTTCGATTCCCCTGACCCAGCAGCCCCTCAAGCTGTGAGTCTCCC
+CGGG
+>ref|X17365.1| Bovine Harvey-ras 2 put. pseudogene, exons 4
+TTTGAGTATGCCAAGCCTCCTTCCTCATGACCTTTGCCACAGGCGGAACTCGCTCCTGGCAGGAAGGGTCTGGGATTCTG
+CTCGAGCAGAGGCAGTGTTCCCCTTGAGCCGGTGCCCTCTTCCTTCCACTGGTGCGTGAGATCCGGCAGCACGCCCACCC
+AAGGAGGGGCCCCTAGGCTGCCTGAGCTCAGGTGCTGCTCCCCTGACAGGTGTGGAGGGGCACGGAGGTGTCCAGTGTGA
+TGTGGGAAAGGGTGTGCGAGATGGGTGTGGGGAGGAGGAGGCAGGGAAGAAAGGAAGTGCCACTGGAGCCTGGCCAGCCC
+AGGTTGGTGGACAGAGTGACTGAACTGATGCTCCCTGCCCGCCAGCTGTTGCTCTCCTGGAGCCCAGTCCTGGCCCACCG
+GACACAGGCTGAGTCACAGTCATCCGATGGTCTTGATCCTGGGGTTTGGTTGAAGCTCGGAGTCTGTAGTGCCTGTGGCT
+CCCACGAGGCAGATGGGAACCTCAGTTTTGTCCAGCTGGTGCTCCCTTTGCCTCTGGGGGCCCTGAGGGCATCCTTCGGA
+GATGTCTAGGTGCTACAAGAACCAGCCAGTCTAGCACTTAAAGCGGGAAAATGTATTAACCTTTAACCAGCAAGGGGGGA
+AACTGAAACCAAAGTCTGTCCATCCCTGGAGGGAGACCTTCATAGGGAATGGTGGGGGGCAGGGTACCGCAGTTGGGTCC
+CGGG
+>ref|V00115.1| Bos taurus 1.711a satellite DNA with insert INS-1.711A. (extends from base 501 to 1151)
+GATCACGTGACTCTGCAGGCACTGATCACGTGGCTGATCAAGTCCAGATCACGTGACTGAGCATGCACTGATCACGTGGC
+TATCATGCACTGATGACGTGACTGCGCATGCACTGATGACGTGGCTGATCGGGCACTGATCACATGGCTCATCATGCACT
+GATCACGTGTTTATCAGGCAATGATCAGTGACTGACAGGCGCTGATCATGGGACTGTGCACGCACTGATCACGTGGCTCT
+CATGCACTGATCACGTGACTGCGCATGCACTGATGACGTGGCTGTTCGGGCACTGATCACGTGTTTATCAGGCAGTGATC
+AGTGACTGACTGGCGCTGATCAGGGGACTGTGCACGCGCTGATCAGGTGGCTGATCAGGAACTGAACACCTGACCGCGCA
+TGCAGTGATCACGTGGCTGGTCGTTCACTGATCACGTGTTTATCATACGGTGATCACGTGACTGAGAGGCGCTGATCACG
+TGACTGTGCCGTCAGTGATCACGTGGCTGAGCAGGCACTGATATCGTGACTGAGCATGCACTGATCATGTGCCGGGAGCC
+GGGGAGGCATTCCACTCTGGACAAAGGTCATGAGGAAGGAGGCTCGGCATACGCAAATGCGGGATCGAGCCTCAGGAGTC
+CACCCGGATATTCTCGAGCATCTCCCCCCCAAAAAAACCGGAGTCCGCCTACTGTATTGCTTTGTGCTCTCACCTGTGAT
+TTCACTGGGGGCTGTCCCCCACCACCATCTCGCTCTCTCTGTCAAAGATGTAACTTACAGCTCCAATTCATAAAGTTCCT
+TGTCATTCTTCCCTTTAACTTCCAGCTGAGTCTCCATCTGGAGCGCGGAACCCACCACGCTTACTAATTATGCCTGGGCT
+GCTAAGACCCACTCGAGAAGGTGTCTAGGGTGAGGCACCTTTCGCTATTCGAGAGGGCGCCTGCGGCCTACGTAAGTGGT
+GCAAACTTCTTGTCTTGAAGTTTGATTGGTCTTCCGCGTAAACCAAGCTACTCAGTCTCTTTTCTCCACCGAATTTTCCT
+ACTGAGCTCTCCTCATACTATTATTCTTGACATCTCTGATTAGCATATAAATAGTCGCCTAGGCCATCTCTCCTTCGAAT
+ACCCTGGATCAGTTGGGGCTGGTCCCCGGCAGGTGGCGACCGAACAGGGACCTCAGGAGGCAATACTCAAAGAGCTGAGC
+AGACACGAACCACGCAATCAGCAGGCAATAAGCATGGAGCTCAGCAGTGACGAATCATGCTGCTCAACTGGCAATAATCA
+AGCACGTGACCAGGCAGGAATCACGCAGCTCAGCTGGCAATTGTCAAGCAGATGAGCCGACAGGAATCACGCAGCTCAGC
+TGGCAATTGTCATGCAGATGAGCCGGCAGGAATCACACAGCTCAGCAGGCCCT
+>ref|V00116.1| Bos taurus repetitive sequence element (insertion sequence like). Designation is INS-1.711 B, isolated from satellite DNA of density 1.711 g/ml
+TGCGTGAGCCGGCATATTGCATATTGAGTGCATATTGCATATTGCATATTGAGTGCAGCACTTTCCACAGCATCATCTTT
+CAGGATCTGGAATAGCTCCACTGGAATTCTATCACTGCTGGGAGCCAGTGAGGAACTCCGCCTATGATAAAGGTTATGAG
+GAAGGAGGCTCGGCATACGCAAAGGCGGGATCGAGCTTCAGGAGTCCCCCTGGAAATTCTCGAGCATATACCCCCAAAAC
+CAGAGTCTGCCTACTTTCTGCTTGTGCTTTCACCTAAACCTCTGACTTTACGGGGGGCTCTCCCCCACTACCTCTCTCTG
+AAAAAAGAGTTAGCTTACAGTTCCAGTTAATAATTCCTGGGTGTGACAGTGTTTAACCTACAAACTCCTTTGGAAATCCT
+CTAGCCTGCCTGAATAGGTTTTTTCGGCCACATGGGATTGTTCAGAGCCTCCCAACTGTGAGAGGCAGGAGATGTTCTAA
+ACTGTCTAAACACAGATTCTTTTGAGTAGTTACAAGATTGATTAGAAATTGTATTGGTGAATGGTTTTTCACTTGTTGGG
+CCATTGTTTGCTGCTAAGTTTCCATATCCCTTACCTGCTGTGTCCCTGGCAGTGTATTGATTAATATAATTGGTGTAAGT
+AGTAGCTTTAATGTTTGTAACCTGGGACCCTTGAGTTAATTCTTTTTCTTGTTATAGCCCACCACACCTTTGCTCTGTAG
+GAATGCAACTTTATCTAATGCTTTTTTGGAGGGTGGCTCCTGACCAACCACCTTTAGAGAAAAATAAGTTTTCTGAAGAA
+AAGGTCTTAAAATGTTAACAGGCCTCCGGGCCAGAAGATGATGCAAATCACCTAAGCTTTTGCATATGATAAGTTTGCAG
+GAAGAAAGCCTGGTTTGCTGCAAGACTCGACCCCTTCCCCCATTATCCTCTATGCATAACTTAAGGTATAAAAACTACTT
+TGAAAAATAAAGTGCGGGCCTTGTTCACCGAAACTTGGTCTCACCATGTCGTTCTTTCTCTTACCTTCTGGCTGAATTAT
+TCAGCCTCTTTTCTCCACTGAATTTCCTCACTGAGCTATCCTCATTCTATTACTCTTTATATCCTTAATTAACATTTAAT
+TAAGCAGTGGTTTCCTGATCTTCGCCTACGCCGTCTCTCCTTCGAATACCCTGGATCAGCCGGGGCTGGTCCCCGGCA
+>ref|V00118.1| Bovine satellite DNA fragment
+GATCATGCACTGTTCACGTGACT
+>ref|V00119.1| Bovine satellite DNA fragment
+CAGGCCCGGATCACGTGACTGAGCATGCACTGTTCACGTGGCT
+>ref|V00123.1| Bovine satellite DNA fragment
+GATCATGTGCCTCTCGAGGCAATGAACATAGAGCTGAGTAGGCAGGAATCAGTCAGCAGGCTATAATCATGGAACTCACC
+TCTGAGAAATCATGCTGCTCAGCTGGCAATAATCAAGTAGATGAGCAGGCAGGAATTACGCAGCACAGGTGGCAATTGTC
+AAGGAGATGACAGGCAGGAATCGTGCAGCTAAGCTGGAAATTGTCAAGCAGATGAGCAGACAGTAATCACGCAGCTCAGC
+AGGCCCA
+>ref|V00124.1| Primary structure of bovine 1.715 satellite DNA
+AGGCTGCCTCTTGTGTTGGCCCAGGCAAGTCCAATCTTCCATTCGAGTTGCGAAGGAAAGCTGGGGATTGCTCTCGAGTG
+ACTGCAGGGCCAATAGACCTCATCTAGGCTTGTGTCCAGAAGCCAGTGTTCCTCTCCAGGGGCGACAGGGATCTCGGGGT
+TGCATTCCAGACGCACCCGGGGAGACAGGCATTCATCTCGAGTGGAAGCAAAGAACGTCCGCTCTGCTCTCGAATCGCGA
+CGGGTATCTCTTGGAGCTCACTGGGTGGACTCAAGGGAGTCAAGCCTCCTGAGGCGTTTGGAGAGAGGTCGCGAGATTGG
+TCTCTAGGCCACGCAGGAGACGAAGGCCCTCATCTCTCGATGACGGGGGAATCTCGGGGTTGTTCTCGAGCGGCGGCCCC
+AGTGTGCGGTTTCTCACGAGGTACGACGGCGAGGTCAGTGAGCCTCTCGTGGGGCGCCAGGGAAGTCGGGTCTCCATGCG
+AGTGGCGAGGGGGAGCGCGTCATTGCTCCCGAGCCATGGTAGGGGAATGTGGCCTCGAGACGTGTTGAAGAAGGTCTCTC
+GAGGTCTTTCTCGGGTTGAGGCAGGAAACCCTGGGTTCCCTCGACTTGTGCAGGTGACCTCAGGGGGCTTCTCATGGTGG
+CTCTGAGAAGCCAGGGAAACTGGAGGTGGGAGGGGCCTCTCGGGACTCCACTGGGCTTGGTGCATTGGAAGAGGGCCTCA
+TCTCCAGTTGAGGCAGGAACCGCAGGGTACCTCTGATTTCAGACTCCGATCGCAGGGTCCCTGCAGACTGGGGACAGGAG
+AGTCAGGCCTCGTCTTGGGTTGAGGCATGGAACTCCGCTTGCCTCTCGAGATGTCCCCGGGGAGAGAGGCCGCTTGTCGA
+GCTGTATTTGGAACCTGGGGTTTTTTCCGAACGATGCACGGAAAAACTGCCCCTTCGTGTTGACTTCATTCACAGGCTGG
+AGTTCGGAGAGGTGTCCGGGCATCGGGTTCTTATCAAGAGGGGACCGGGAAATCGGGGTCCTACGGAATGTGGAACCACC
+CACGAGGCCACGTCTGGAATGTCTTCGTGAGACCGGCCTCATCCTGAGGTGCGACCGGAAGGATCGGGAACCCCTTCCAG
+ACAAAGCAGGGGAGTCGACCCTCCTGTCCAGATCAGGAGGGGAGAAAGGGCTCAGAGGAGGGGGTGCCGGAAAACCTCAG
+TGTTCCTCTCGAGGGAGACCGGGATTTCGGGGAACTTTGTGGGTCGCATCAAGGGTGCCAAGGGCCCTTTCGACCTCCAA
+TTCCTAACGTGGGACTTCTCCTGAGGCGCAGTAGCGGGAAAGGGCTTCATCTTGCGATGACGGGGGAGCCACGTGGTTTT
+TCTCGAGTTACGGCGGGATTCTCGAGTTACGACGGGGAATTC
+>ref|V00125.1| The 1399 bp repeated unit of bovine 1.715 satellite DNA (consensus sequence)
+AATTCAGGCTGCCTCTTGTGTTGGCCCAGGCAAGTCCAATCTTCCATTCGAGTTGCGAAGGAAAGCTGGGGATTGCTCTC
+GAGTGACTGCAGGGCCAATAGACCTCATCTAGGCTTGTGTCCAGAAGCCAATGTTCCTCTCCAGGGGCGACAGGGATCTC
+GGGGTTGCATTCCAGACGCACCCGGGGAGACAGGCATTCATCTCGAGTGGAAGCAAAGAACCCCGCTCTGCTCTCGAATT
+GTGACGGGTATCTCTTGGAGCTCACTGGGTGGACTCAAGGGAGTCAAGCCTCCTGAGGCGTTTGGAGAGAGGTCGCGAGA
+TTGGTCTCTAGGCCATGCAGGAGACGAAGGCCCTCATCTCTCGATGACGGCCCAATCTCGGGGTTGTTCTCGAGCGGCGG
+CCCCAGTGTGCGGTTTCTCACGAGGTACAACGGCGAGGTCAGTGAGCCTCTCGTGGGGCGCCAGGGAAGTCGGGTCTCCA
+TGCGAGTGGCGAGGGGGAGCGCGTCATTGCTCCCGAGCCATGGTAGGGGAATCTGGCCTCGAGACGTGTTGAAGAAGGTC
+TCTCGAGGGCTTTCCCGGGTTGAGGCAGGAAACCCTGGGTTCCCTCGACTTGTGCAGGTGACCTCAGGGGGCTTCTCACG
+GTGGCTCTGAGAAGCCAGGGAAACTGGAGGTGGGAGGGGCCTCTTGGGACTCCACTGGGCTTGGTGCATTGGAAGAGGGC
+CTCATCTCCAGTGGAGGCAGGAACCGCAGGTACCTCTGATTTCAGACTCCGATCGCAGGGTCCCTGCAGACTGGGGACAG
+GAGAGTCAGGCCTCGTCTTGGGTTGAGGCATGGAACTCCGCTTGCCTCTCGAGATGTCCCCGGGGAGAGAGGCCGCTTGT
+CGAGCTGTATTTGGAACCTGGGGTTTTTTCCGAACGATGCACGGAAAAACTGCCCCCTCGTGTTGACTTCATTCACAGGC
+TGGAGTTCGGAGAGGTGTCCGGGCATCGGGTTCTTATCAAGAGGGGACCGGGAAATCGGGGTCCTACGGAATGTGGAACC
+ACCCACGAGGCCACGTCTGGAATGTCTTCGTGAGACCGGCCTCATCCTGAGGTGCGACCGGAAGGTCGGGAACCCCTTCC
+AGACAAAGCAGGGGAGTCGACCCTCCTGTCCAGATCAGGAGGGGAGAAAGGGCTCAGAGGAGGGGGTGCCGGAAAACCTC
+AGTGTTCCTCTCGAGGGAGACCGGGATTTCGGGGAACTTTGTGGGTCGCATCAAGGGTGCCAAGTGCCCTTTCGACCTCC
+AATTCCTAACGTGGGACTTCTCCTGAGGCGCTGTAGCCCCAAAGGGCTTCATCTTGCGATGACGGGGGAGCCACGTGGTT
+TTTCTCGAGTTACGGCGGGATTCTCAAGTTGCGACGGGG
+>ref|X03116.1| Bovine satellite II DNA repeat unit
+CTCCGTTTGTGCCCAGAAACCGCCTGCCAGACCGGGCCTTCCCTGGAGCTGTCCTCCCGCCTAGAGGCAGGTGGATGTGC
+TGTGCGGGCTTCCCCTGGGCGTTTGGGCTCCCTAGCAGAGCCGCAGCGCAGGGGAACCAGCCCATGATCAGTGAGCTCCG
+GGCAGTTACTTTGGTCCCAGGTTGGGAGCCCAAAGCCCGGAACGCGGGAGAGAAGAGGCTGGCTGCCGGCGGGTGCTTGC
+CACGCCTGTACTGGGAGGACCGAGTGAGCTTCCACACCGGCGGAGCTCCAGCTCTGCGCCCAGGCGCGATAGCACAGAGC
+CCCGGCCGAGAGGCTGCTCTGGCCGGGGCGAGCCTCCCCACGCCCTGCCCAGCTTCTAGCGTTCGCGCCCGGGAAGGAGC
+AGGCTGCGGGAGTGTGGGAGCTGTGAGTGGTGCCTGACTGCTGCCTCAGCTCAGCTCTCGCCTTCCCTTCGGACCTAGGA
+GCCAGGCGTCCTTGCAGAGGGCTTAGGGGCTGGGGGTGTGCACACTGCCAAAGCCTCCCGCGGGGAGAGCTCTTTCCGAG
+GGAAAGGAAGCGCCCCAGGCTGCATTCCCAAGCTGGTGCTTCCCCGCCCAGACTAAGCGCCGCACGGAGGGAATCAGGGT
+CCCGGTGCCCCTGGCTTGGGGAGGCAGCTCCACAGCCAGAGTGTTG
+>ref|V00126.1| Bovine satellite DNA fragment
+GATCATACACTGCTCACGTAACTGATGATGCACTGACTACGTGGCTATCATGCACT
+>ref|V00127.1| Bovine satellite DNA fragment
+GATCATTCACTGATCACGTGACTGACCATGCACGGATCACGTGACT
+>ref|V00128.1| Bovine satellite DNA fragment
+GATCCTGCACTGATCACATGGCTCATCACGCACTGATCACGTGAGTAATCATGCACTCTTCACGTGCATGATCATGCACT
+GATCACGTGGCTATCATGCACTGCTCACGTGGCT
+>ref|V00129.1| Bovine satellite DNA fragment
+GATCACGTGACTTAATGGCGCTGATCACGTGGCTATCATGCACTGATCACGTGGATATCATGCACT
+>ref|V00130.1| Bovine satellite DNA fragment
+GATCATGCACTGATACCGTGACTGAGCATGGACGGATCACGTGGCTATCCTGCACT
+>ref|V00131.1| Bovine satellite DNA fragment
+GATCACGTCTATATCATGCACTGATCACATGACTGCCCATGCACTGATCACGTGAT
+>ref|V00132.1| Bovine satellite DNA fragment
+GATCATGCACTGATCACGTGGCTATCATGCACTGCTCACGTGGCTGATCATGCAATGATCACGTAGCTACCATGCACTGG
+TCACGTGACTGATCGTGCACTGCTCAGGTAATTGATCATGCACTGATCACGTGACT
+>ref|V00133.1| Bovine satellite DNA fragment
+CAGGCCCTGATCACGTGACTGAGCATGCACTGATCACGTGGATGATCACACACCTATCACGTGACTGATCATGCACTGAT
+CATGTGACTGATCATGCACTGATGACGTGGCTATTAATGCACTGATCACTTGGCTGGACATACACT
+>ref|X15543.1| B.taurus mRNA for RF-36-DNA-binding protein
+CGACCCCGACTTCGTAGTGGTGGATGGCGTGCTGTCATGCTCCCGTCCTATGATGAGGCTGTGAGCGGCGGCTTCAGTGC
+CTTAGGCCCCGGGTACCTGGCCTCTGTGGGCCAGGCTGCCCCTTACCTGTGGACGACCAGAGCCCCCCAGCATACCCTGG
+CTCAGGGGACACAGACACGGGCCCGGGGGAGTCAGAGACCTGTGACAGTGTCTCAGGCTCTTCGGAGTTGCTCCAGAGTC
+TATATTCACCTCCCACATGCCAAGGGGGCACCACCCCGCGTTCCAACAACCCTGACACAGCTCCCAGCACGGTGGGGGAG
+GTTGGCATCCACCAGCCCAGGCATCGACATTGCAGATGAGATCCCTCTAATGGAAGAAGATCCATAATTGGAAAAAGTCC
+TGATGATTCTGCTACCCCTTTGGGAATGGGAACCGCTGTACTTTGGAGTGAGGCTCTGGAGGACAGAGCTTGGGGGGATG
+GAGCAAGTTTTCTAATCTATCAACAACACGGGACAGTGACTCATATTGTGCATCTCGGATTCAAGAGTGAGGCTGATAAA
+CGGCAGCGGCAGTGCTTTAAAAGGAGACTTGAGAATTTGCCAAGACCAGTGAGGAACAGAAGGATAAGGGGGAACCCTGA
+GCAGTCCTGGATGAAGGTATTAAGGGCATCTCGTGCTGCCGAACATGGGACAGACGGTTCCACGCATATATCCACCAAAT
+ATCACCGCCCACCGACTTACGAGTACTACCCGCCTCCTCTGAAAGCATGGAATT
+>ref|X52689.1| Bovine rho GDI mRNA for GDP dissociation inhibitor for the rho protein
+GAATTCCCGATCCTCCGGTGTCTCACATCCAGCTAGAGGTGAGTATGGCTGAGCAGGAGCCCACAGCTGAGCAGTTGGCA
+CAGATTGCGGCAGAGAACGAGGAGGACGAGCACTCAGTCAACTATAAGCCCCCGGCCCAGAAGAGCATTCAGGAGATCCA
+GGAGCTGGACAAGGACGACGAGAGTCTGCGCAAGTACAAGGAGGCCCTTCTGGGCCGTGTGGCTGTGTCTGCTGACCCCA
+ATGTCCCCAATGTTGTGGTGACCCGACTAACCCTGGTGTGTAGTACTGCCCCGGGCCCCCTGGAGCTGGACCTGACAGGT
+GATCTGGAGAGCTTCAAGAAGCAGTCCTTTGTGCTGAAGGAGGGTGTGGAATATCGGATAAAAATCTCCTTCCGGGTGAA
+CCGAGAGATTGTGTCTGGCATGAAGTACATCCAGCACACGTACAGGAAAGGCGTGAAGATTGACAAGACCGACTACATGG
+TGGGGAGCTATGGGCCCCGGGCGGAGGAGTATGAGTTCCTGACCCCCATGGAGGAGGCGCCCAAGGGCATGCTGGCTCGA
+GGCAGCTACAACATCAAGTCCCGCTTCACAGACGACGACAGGACCGACCACCTGTCCTGGGAGTGGAATCTCACCATCAA
+GAAGGAGTGGAAGGACTGAGCCTCCTGCCGGGAGCGGGGCAGGGCAGGCGGACGGAAGGACGGACGCGCCCCACCCCACC
+ACCCCAACCCCCTGACCCCAAACCAAAGTGCTGACAGGGCCCCGCCACGTGCCACCACTA
+>ref|V00134.1| Bos taurus arginine specific tRNA (from liver)
+GACCCAGTGGCCTAATGGATAAGGCATCAGCCTCCGGAGCTGGGGATTGTGGGTTCGAGTCCCATCTGGGTCGCCA
+>ref|X00950.1| Bovine mRNA for oxytocin precursor and neurophysin I
+CGTTGACCTCCGCCTGCTACATTCAGAACTGCCCCCTGGGCGGCAAACGCGCGGTGCTGGACCTCGACGTGCGCACGTGT
+CTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGGACGAGCTGGGCTGCTTCGTGGG
+CACGGCCGAGGCGCTGCGCTGCCAAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCCGGCCAGAAGCCCTGCGGGAGCG
+GGGGCCGCTGCGCCGCCGCCGGCATCTGCTGCAGCCCGGACGGCTGCCACGAGGACCCCGCCTGCGACCCTGAGGCCGCC
+TTCTCCCAGCACTGAGACCGGCCGGCCCCCGATACCGTCGGAGCGCAGCCCTCACTCCCTCTGTAATCATCCCTAGGAAT
+TATGACAATGAAATAAAGCCGGTTTTTTCCCCCTCC
+>ref|X61612.1| B.taurus mRNA for vacuolar H+ATPase Mr 70000 subunit
+CGGGATCGGTACGGTTTCTGCACCTCGCGCCCCGGCAGGTAAATTAACATGATGGATTTCTCCAAGCTCCCCAAAATACG
+TGATGAAGATAAAGAAAGCACGTTTGGTTATGTGCATGGGGTCTCAGGACCTGTGGTTACCGCCTGTGACATGGCAGGCG
+CAGCCATGTACGAGCTGGTGAGAGTGGGCCACAGCGAGTTGGTTGGAGAGATTATCCGATTAGAGGGCGACATGGCTACT
+ATCCAGGTGTATGAAGAAACTTCTGGTGTGTCTGTTGGAGACCCTGTACTTCGCACTGGTAAACCCCTCTCAGTTGAGCT
+TGGTCCAGGCATTATGGGAGCCATTTTTGATGGTATTCAAAGACCTTTGTCGGATATCAGCAGTCAGACTCAAAGTATTT
+ACATTCCCAGAGGAGTAAATGTGTCTGCTCTTAGCAGAGATGTCAAATGGGATTTCACACCTTGCAAAAACCTACGGGTT
+GGTAGTCACATCACTGGTGGAGATATTTACGGAATTGTCAATGAGAACTCTCTCATCAAACACAAAATCATGTTGCCTCC
+ACGAAACAGAGGAACTGTCACCTACATCGCTCCACCTGGAAATTACGATACCTCTGATGTCGTGTTGGAGCTTGAATTTG
+AAGGTATAAAGGAGAAGTTCAGCATGGTCCAAGTATGGCCTGTACGTCAGGTTCGGCCTGTCACTGAGAAGTTGCCAGCT
+AATCATCCTCTGTTGACTGGCCAGAGAGTCCTTGATGCCCTTTTTCCATGTGTACAGGGAGGAACTACTGCAATCCCTGG
+GGCCTTTGGCTGTGGGAAGACAGTGATATCACAGTCTCTATCCAAGTATTCCAACAGTGATGTGATCATCTACGTAGGAT
+GTGGTGAGAGAGGAAACGAGATGTCTGAAGTCCTCCGGGACTTCCCAGAGCTCACGATGGAAGTCGATGGTAAGGTAGAG
+TCAATTATGAAGAGAACAGCATTGGTAGCCAATACATCCAATATGCCTGTGGCTGCTAGAGAAGCCTCTATTTATACTGG
+AATTACACTGTCAGAATATTTCCGTGACATGGGCTATCATGTCAGTATGATGGCTGACTCCACCTCTCGATGGGCTGAGG
+CTCTTAGAGAAATCTCTGGTCGTTTGGCTGAAATGCCTGCAGATAGTGGATATCCTGCATATCTTGGTGCCCGTTTGGCC
+TCTTTCTATGAGCGAGCCGGCAGAGTGAAGTGTCTTGGAAATCCTGAGAGGGAAGGGAGTGTCAGCATTGTAGGAGCAGT
+TTCTCCACCTGGTGGTGACTTTTCTGATCCAGTTACATCTGCTACTCTTGGTATTGTTCAGGTGTTCTGGGGCTTAGATA
+AGAAACTAGCTCAACGTAAGCATTTCCCTTCTGTCAATTGGCTGATCAGCTACAGCAAGTACATGCGTGCCTTGGATGAG
+TACTACGACAAACACTTCACAGAGTTCGTCCCTCTGAGGACCAAAGCTAAGGAGATTCTGCAGGAAGAAGAAGACTTGGC
+AGAAATCGTACAGCTGGTGGGAAAGGCTTCTCTAGCAGAAACAGATAAAATCACTCTGGAGGTAGCAAAACTTATCAAAG
+ATGATTTCCTTCAACAAAATGGATATACTCCTTATGACAGGTTCTGCCCATTCTACAAGACAGTGGGGATGCTGTCCAAC
+ATGATTGCATTTTATGATATGGCCCGCAGAGCTGTTGAAACCACTGCCCAGAGTGACAATAAAATCACATGGTCCATTAT
+CCGTGAGCACATGGGGGAGATCCTCTATAAGCTTTCCTCCATGAAATTCAAGGATCCAGTGAAAGATGGTGAGGCGAAGA
+TCAAGGCCGACTATGCACAACTTCTTGAAGATATGCAGAATGCATTCCGTAGCCTTGAAGATTAGAACTGTGATCTCTCT
+CCTCCTTTTCCTCAGCAAGCTCTCATACGTGTATATTTTCCTAAATTTCTCATCTTGGACCCTTTGCTTCTTTACTGTGC
+AGGTTTGAGACTAGTGCCTCTGTGTGTAATCATTTGTTTCCCCATTTATTTGATAGGTCTTATATAAAACAAACATTCCT
+TTGTTCCAGTGTTTGAAGGGCCCCCCCTGAACATTTCTCCGAAGTGGTGAATGTAGTAAATTTGATACACGATGGCTACA
+CTACTGTAAACGTGTATGTGACGTCTCTCCTCGTCCTAGGTTTACCCTTTCCTCATCACTATTAAATTGTAAACAGGACT
+GCTGCATGTTACTCTCTTTGCAGTGGATTTGGAATGGAAGGCCAGACTTCTATACATTTTGACAGGACTTGTGAATGACT
+TTACTTGCAGCTTAGCATTTTGCTAAGTAACTGCTTACAGGAAATAATTGCTTTTTTTAAAACATGAATGATTAATGTTT
+TGATTATGTGTTGCTTCCCCCAGTATAAATCAAGAACATTTATGGGAAACTGTTGAAAACTATACTGTTTTTAAAGCAGA
+CATCTGTGGGACTCAGGACAATAGATGAAATCAGTGCCCTCTAAAAAGGTAAAAAGGAGCCAGATGGTCAAACTTAGGTT
+AACATCACCTTGTTAAAGCCTATTTTATTTCACTGGGAAAAATTCAATATCAAGTACTGTTCTACTACATTACTAGACAA
+TTCTTTTTAAATTACATTTAAAACAATCACGAGCACTTGATTCACATCACACCTTTTTTTTCCTCAAACATCTTAGAAGG
+CTAAGCTTCTGAGAATCATGTGGCAGAGTGATGGGGAGAAAAATGCCACAGATAATATGTTTTGTAGTGCTTAAAGGCTG
+TTTGCACCTCTAAGGACCAGTTGGGCTTTGGTGATTCTTGGGGCCAGAGTGGCATTATGTTTTTACAAGATAATAACATG
+TGTCACATGTTTGCATGTTTGCTTTTGAACAACCAGGTTCCTGATTGTAGAAAACACTGTTCTTTCATGTGATTTATGAT
+TCACTGGCTCGAAAGATTTCCCAGAATATCTGTAGCTGTAGCAGCATAACAGTTCCAATTCTCTTTCATAGGAATGAAGT
+TAATTCTAAAATCAGCAGGTGCAAGATAATAGAATTTGGGTTATGTGAAAA
+>ref|NM_174249.2| Bos taurus bone gamma-carboxyglutamate protein (BGLAP), mRNA
X53699.1 Bovine bone mRNA for Gla protein (BGP, osteocalcin)
+GTCCACGCAGCCGCTGACAGACACACCATGAGAACCCCCATGCTGCTCGCCCTGCTGGCCCTGGCCACACTCTGCCTCGC
+TGGCCGGGCAGATGCAAAGCCTGGTGATGCAGAGTCGGGCAAAGGCGCAGCCTTCGTGTCCAAGCAGGAGGGCAGCGAGG
+TGGTGAAGAGACTCAGGCGCTACCTGGACCACTGGCTGGGAGCCCCAGCCCCCTACCCAGATCCGCTGGAGCCCAAGAGG
+GAGGTGTGTGAGCTCAACCCTGACTGTGACGAGCTAGCTGACCACATCGGCTTCCAGGAAGCCTATCGGCGCTTCTACGG
+CCCAGTCTAGAGCTTGCAGCCCTGCCCACCTGGCTGGCAGCCCCCAGCTCTGGCTTCTCTCCAGGACCCCTCCCCTCCCC
+GTCATCCCCGCTGCTCTAGAATAAACTCCAGAAGAGGAAAAAAAAAAAAAAAAAAA
+>ref|X13767.1| Bovine tRNA-Ser(UGA) gene
+CTGCGGAGGGCTCCTGTCTTTCCGCACTCCTCTCTGTCTTTCCGCACTCCTCTCTGTCTTTCCACAAAAAGAGGAGCGCT
+CAACACAATCACCGCGGTCAAAGAGTCCAAGATGCAGAACTTTTCCAGGACGCGGGCCCGCAACACTGAAGGAGAGAGTT
+ATTTGTTTCAGCTCTCTCTCTGTGGACCTAATGAGGAAGCGGGAGGGCAAACAGCCGGCTCGAGACCAGAAGCTAAGCTA
+AGTAGGGTGGCGATTTTCGATTTTCCAAGCGCATGGAAGGGAAGGATTTCTAAGATACTTCCTTAAAGGCGTTTACTTAA
+ACTACTTAAGGGAGATTTTATTATTCCTCGCGTTAACAGGTAGCTCCTGCAACTTGAGCAGTAAGCCCCGGCCGCCTCCC
+ACAGCAGACCTCCGGAAGATTATAGGCCCCGCCCACTAGGGTGTGTGGTGCGCATGTGCTCAGTTTTAACACTAAAGTGT
+CTCCGCCTTCCTTTTCTCTACGTGGCAGCGATGGCCGAGTGGTTAAGGCGTTGGACTTGAAATCCAATGGGGTCTCCCCG
+CGCAGGTTCGAACCCTGCTCGCTGCGGAAGCGGTTGGCTTCACTCTTTTTTTACCGATTTCTAATAAATACCCTCAATTG
+ATAATCCGCATTCTTCAG
+>ref|X06737.1| Bovine Pst family repetitive sequence 1
+CTGCAGATGGTGACTGGAGTCATGAAATTAAAAGACATTTGCTCCTTGGAGAAAAGCCATGACCACCCTAGACAGCAAAT
+TAAAAAGCAGAGACATTGCTTTGCCAACAAAATCCATCTAGTCAAAGCTATGGTTTTTCCAATAGTCATGTATGGATATG
+AGAGTTGGACCATAAAGAAACCTGGGCACTAAAGAATTGATGCTTTTGAACTTTTTTTGGAGAAGACTCTTGAGTCCCTT
+GGACTGCAAGGAATTCAAACCAGTCAATCCTAAAGGAAATCAACCTTGAATATTCATTGGAAGGACTGATGCTGAGGCTG
+AAGCTCCAATGCTTTGGCCACATGATACGAAGAACTGACTCATTAGAAAGGACCCTGATGCTGGGAAAGATTGAAAGCAG
+GAGGAGAAGGGGATGACAGAGGATGAGATGGTTGATGGCATCACCAACTCAATGGACATGAATTTGAGGAAGCTCTGGGT
+GTTGGTGATGGACAGGGAACCCTTGTGTGCTGCAG
+>ref|X06738.1| Bovine Pst family repetitive sequence 2
+CTGCAGCCATGAAATTAAAAGATGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTAAAAAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCATCTAGTCAAAACTGTGTTTTTTTCCAGTAGTCATGTATGGATATGAGAGTTGGAC
+TATAAAGAAAGCTGAGCACTGAAGAATTGATGCTTTTGAGCTGTGGTATTGGAGAATTCGCTTGAGAGTCCCTTGGACTG
+CAAGGAGATCCAAGGAGTCCATCCTAAAGAGATCAGTCCTGAGTGTTCATTGGAAGGACTGATGTTGAACCTGAAACTCC
+AATACTTTGGCCACCTGATGCGAAGAGCTGACTCATTTGAAAAGTCCCTCATGATGGGAAAGATTGAAGGTGGGAGGAGA
+AAGGAACAACAGGATGAGATGGTTGGATGGCATCACCCACTCAATGGACATGAGTTTGGGTAAACTCAGGAGTTGGTGAT
+GGACAGGGAGACCTGGCATGCTGCAG
+>ref|X06739.1| Bovine Pst family repetitive sequence
+CTGCAGCCATGAAATTAAAAGACGCTTACTCCTTGGAAGGAAAGTTATGACCAACCTAGATCGCATATTAAATAGCAGAG
+ACATTACTTTGCCAACAAAGGTCCGTCTAGTCAAGGCTATGGTTTTTCCAGTGGTCATGTATGGATGTGAGAGTTGGACT
+ATAAAGAAAGCTGAGCTCCAAAGAACTGATGCTTTTGAACTGTGGTTGGAGAAGACTCTTGCAAGTCCCTTGGACTGCAA
+GGAGATCCAACCAGTCCATCCTAAAGGAGATCAGTTCTGGGTGTTCATTGGTGGAACTGATGCTGAAGCTGAAACTCCAG
+TACTTTGGCCACCTGATATGAAGAGCTGACTCCTTGGAAAAGACCCTGATGCAGGGAAAGATTGAGGGCAGGAGAAAGGG
+ACAGCAGCAGAGGACGAGATGGTTGGATGGCGTCACCAACTCAATGGATATGGGTTTGGGTGGACTCAGGAGTTGGTGAT
+AGACAGGGAGGCCTGGCGTCCTGCAG
+>ref|X06740.1| Bovine Pst amily repetitive sequence
+CTGCAGCCATGAAATTAAAAGACACTTACTCCTTTGGAAGGAAAGTTATGACCAACCTAGATAGCATATTGAAAAGCAGA
+GACATTACTTTGCCAACAAGGTCAAGGCTATGGTTTTTCCAGTTGTGTGTACGGATGTGAGAGTTGGACTATGAAGAAAG
+CTGAGTGCCGAAGAATTGATGCTTTTGAACTGTGGTGTTGGAGAAGACTCTTGAGAGTCCCTTGGACTGCAAGGAGATCC
+AACCAGTCCATTCTAAAGGAGATCAGTCCTGGGTGTTCATTGGAAGGACTGATGCTGAAGCTGAAACTCCAGTACTTTAG
+CCACCTCATGCGAAAAGTTGACTCCTTGGAAAAGACTCTGATGCTGGGAGGGATTGGGGGCAGGAGGAGAAGGGGACGAT
+AGAGGATGAGATGGCTGGATGGCATCACTGACTCGATGGACATGAGTTTGGGTGAACTCTGGGAGTTGGTGATGGACAGG
+CGCCTGGCATGCTGTGA
+>ref|X00979.1| Bovine genomic fragment for 1.709 satellite DNA
+AAGCTTGTGACAGATAGAACGATATAGCAATTTTTACCTTAGAACAAACCGAGGCACTATGAACATTTTGTGCTTCATGT
+TGATGACTCTTAGACATGTCTACAGTAGAGGAGCAAAAACAAAACTACTAGATATTTCATATTGACTAGTTCCCAGTTCA
+CGGGACTCTGACATTCCCTGAGGTCCAAGTTTTCTTGTATTGGAAGCAGTTGGGGTTGCAAGGGCTGCCTTGTCTTGAGA
+CCATTGAAATAAGAACTCAGAACTTGAGCACTATTATCAAAAATCACAAGGCTCACACTGACACAGACATCAATCCAGAC
+AGACAAGACAAGACATCTTCCAGTTTTCCGCCTGAGATGGAAAAGATTTCTTTGAGCCGTTTTTTCTGGGGAGTGGGGGG
+TGGGGCTGGCGGCCAGGCAGGCTTTGGGAAGGAGCTCAGGGTTTGGAATTGCATATGAAAAGAACCAGCTTTCCGGGTTC
+CAAGGAATCAAGTTTCCTTGGAAACCAACTTTGTCCGGTTCTGTAGAATATCATGGCCCTCCCAGGTCAGGTCATCTTTC
+CTTTCCGTAGCCCTCGTTTGATCCCTGAATTCTAGACAGCTTGGATTGCCTCTGTGGGCTGGATGGATTGTCCTCCCGTT
+TCACCGGGCGGCGGGAGCGAGGTCCCAGAGGCTCTCCTGGAACCGGGCGTGGGGGCGGGGCTCACCGGGAGCCCGTGGTG
+AAGGTGGGCAGCGCACCGGGAGCGCGCCCGGGGCGGGCGAAGCCGGGCGGCGCGGGTCGGGAATCGGGTCGTGGCGGGGA
+TGGGGGGCGGTCCCGATTGTGCTCCGGGGATCCCCACTGCGGCTGGGAAGGCACCGGGAGCATGGCAGGGGCGGGGCGGC
+GCGGGGCAGGGGGCGCTCCTGGCGGGGGTAGGGGAGGGGTTCCCCGTTGTCCTCTCGGGGGTCGCCGTGGCGGCTTGGAA
+CGCCCATTGCGTGCGCTCCTGTGTCCCCAAGGGTCGGCATCCAGTGGGCGCGGCGGAGGGGTGCGGACCACAGGTCAGGG
+AACTGGGACTGCGTGGAGCAGGGAACCACGTAGTCCGCCCTCTGTTGGCACAACCTGGCGGTCGCAGAAAGGCCTCGCCT
+TTGGGCTCAAGGCCTTGACCGCTCCACCCCTTTGCTGAAAGGTCAGAGCCGCGCGGTTTTCCCAAGCAGCCGAGTGTCCG
+CTGCAAGTCCAAGGGCCAGAACCCTGAACTCTGGCCGGCTGGCCAGCCCTGCTTCTGGCACTTTGGAGGCCAGCGGGCCT
+TGACCACCTGCTGGGATGGGAAAGGGAAGGGTCCACGAATTGCACCCTAGAAACTTAGTAGGGTGCATGGGTTTCAAAAC
+CCGGTGGCCGCCCAGGCAGCAAACAAGGGAGGAGGGCACCCTGCTGCCCTTTCATGGCAGCATCTGTGGCTGTCCTGCTG
+AGGGGGCCTTTCCATGGGGACCGTGTGCGGTACAAGTTTTGGGTGTTTTGGAACCGAATAATTAGAACGTGTAAAACTTT
+TAAATGATGTGGTGGTTTGATTCAAACAAAACAAAACCAAACAAAACAAAAAACCAAGCTCAAGTTTTTTGCAAATTTAG
+GTCTTAATATTGAAGGCCTGTGTTCCTTCCACTGTGGCATTGTACGAAGAAATGTGCGGGTTTATTTTTTTTTTTTAATT
+TGCTTTTTGTTTTTCTTTTTTTTTAGAAAAGATTCCGAAAAATGAGGGAAACAGGAAGCCCAGAGGTGCCCCTGTAGTTT
+GGCGAAGGCCTTAGGAGGCCACTTGGAAATGCTGCTGGCTGTGAGGGGGGGAGGGTGCAGATGTGCACAGAGCTGTGCAG
+GCTTGTCCTTTGCATTGATGTTCTTTGTAGAAATCCACCTCGGAGCCATCTCCTGATGTGTAAGCATTTCCCAGACAAAC
+CTTGAGCTAAGCAATGCGTTTTTTCCTTAGGAAATGTTGGTCTTCAGCGATGTTCAAAGCCTGTGTATTTCGGCTAGACT
+CTGGCTTCAGGTCGGTTCCCCCAAAAGGCTCAGAAGCGACCTGAACCAAACAGTAAGTTTTCCTCCTACCTTGTTCTCCT
+CATCTACGTTAAGAGTATACTTTAAGAGTATCCTGGCACATACATGTACTGCCTCACCCCTAGCCTCAGTCATGTGTTCC
+AAGAACTTCTGTCCGTTTATTTATTTGTTTTTGGTAACATTGAATTCGTTTTGACTATGCTGGGTCTTTGCCGCTCGCTG
+GAAGTTGCTAGGACCTCTGGACTGCAGTCTCCCATCTCTTGCTGACCTCAGGTTGACCTCTGCAGAATCCTGGTTGGTGG
+GAGCTTTTTAGTTCCTTGTTCCTTACCCGGACCTCCTGTGGTAAGTGTTTTCTCTCCTCTGGGGCCTGCTAAGGGTGGGT
+GGGCATTGGCATGCCAAAGGTGGCTAGAAGTCAATGATTTAGGCAGGCTTGTGAATAGATATGGGAGGAGGCAATGGCAC
+CCCACTCCAGTACTCTTGCCTGGAAAATCTCATGGACGGAAGAGCCTGGTAGGCTGCAGTCCATGGGGTCGCTCAGAGTC
+GGGCACGACTGAGCGACTTCACTTTCACATTTCACTTTCATGCATTGGAGGAGGACATGGCAACCCACTCCAGTGTTCTT
+GCCTGGAGAACCCCAGGGACTGCGGGGCCTGGTGGGCTGCCGTCCATGGGGTCACACAGACTCGGAAACGACTGAAACGA
+CTTCGCAGCAGCAGCAGCAGCAGCAGCAGCAGTGCATAAATATCAAAAGGGTTTAGAACAGTCAGGTAGGATCACACAAG
+TCACCGTGAAGCAATACTTCTCCACTTAGTCAAAGCTAACAAAAGATTTCTCTTCTAGGTCAACCTAGAAGAGATCACGG
+AAGAGGTAAAGAAACTTAAAATCCATTAGCAAAGGCAGTTCAACCTCTCAAGAAACCTTGTGCTAGGCACAACACTCTTT
+TCTGGGGGTCCACGTTCCCTACAACCTCCTGATCCCATTCTGTACCCATTCCTTTGCTTCTCCCATCCTGAAACTGCCAC
+CTGGAAGAAAGAACGACGTCGTTTTCCTTCAGAAAATGCGATTTCATGCCACATACCTTCTTTTAATACCAAGTCATACA
+TTTCACTTCAGCAACCAAGAACTGACTTTTATATTGGCATTCGACAGATTGGTGAACATACCTATCAGTGATAGTAGCGC
+CCCTCCCCTCCCCCGCACGCACGCACACACACACACACACACACACACACACACACCCAAGATCAGAACCAAACAAAACA
+AAAAAAAATTGCTTTCTTACGTTTCACATGTCAGGATGGTGCCAGACACTCTTATTGGATAGTCAAAAATCTCTTTTGTT
+TCTGTGTAAAAGGGAGGTCCTTTCAAGGCGTGAATGTTTCAGAACTTGAATTTATTTGGAAATGACCCAGCTCTTCAGTA
+CACTGTCGTCACTTAGTTTAGCACAGGATAGAAACTCGGGTAACCAAAACACCTGGAGAAACGATTGTATGTTCAGTTCA
+GTTCAGTGGCTCAGTCGTGTCTGACTCTTTGGGACCCCGTGGCCTGCAGGACGCTGGGCTTCCGTGTCCATCACCAACTC
+CAGGGGCTTGCTCAAACTCATGTCCATCGAATCAGTGATGCCATCCAACCATCTTAGCCTCTGTCGTCCCCTTCTCCTCT
+GCCTTCAATCAAGACTCTCATAGGCAGATATTTTCGAGTGTAATTAGTGTTCATAGTTTATCTAAAAGCTCATATCACAT
+TTAATTTTTCGTTTTGTTCCTGTTCTTTCGAGGTACTTTCTTGTTGAC
+>ref|X03160.1| Bovine satellite DNA I repeat (B)
+CGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTGCATGGGCCAACACAAGAGGCCGCCTGAAT
+TCCCCGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAAACACGTGGCTCCCCCGTCATCGCAAGATGAAGCCCTTT
+CCGGCTACAGCGCCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAAGGGCCCTTGGCACCCTTGATGCGACCCAC
+AAAGTTCCCCGAAATCCCGGTCTCCCTCGAGAGGAACACTGAGGTTTTCCGCCACCCCCTCCTCTGAGCCCTTTCTCCCC
+TCCTGA
+>ref|X03161.1| Bovine satellite DNA I repeat (C)
+CACTCGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCCCTGGGCCAACACAAGAGGCACCCT
+GAATTCCCCGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAACCCACGTGGTTCCCCCGTCATCGCAAGATGAAGCC
+CTTTCCTGCTAGAGCGTCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCC
+CGACAAAGTTCCCCGGCATCCCGGTCTCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCACTTCCTCTGAGCCCCTTCG
+ACCCTCCTGA
+>ref|X03162.1| Bovine satellite DNA I repeat (D)
+CGAGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTGCATGGGCCAACACAAGAGGCATCCTGAAT
+TCCCCGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAAACACGTGGCTCCCCCGTCATCGCAAGATGAAGCCCTTT
+CCCACTACAGCATCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGACCCAC
+AAAGTTCCCCGAAATCCCGGTCTCCCTCGAGAGGAACACTGAGGTTTTCCGCCACCCCCTCCTCTG
+>ref|X03163.1| Bovine satellite DNA I repeat (E)
+AGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCCCTGGGCCAACACAAGAGGCATCCCGAATTCCC
+TGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAAACCACGTGGTTCCCCCGTCATCGCAAGATGAAGCCCTTTCCCG
+CTACAGCGTCTCAGGAGAAGTCCCACGTTAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCCCCCACAAA
+GTTCCCCGGAATCCCGGTATCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCACTTCCTCTGAGCCCTTATACCCCTCC
+TGA
+>ref|X03164.1| Bovine satellite DNA I repeat (F)
+CACTCGAGAGCAATGCCCAGCTTTCCTTCGCAACTCGAGTGGAAGATTGCAATTGCCTGGGCCAACACAAGAGGCATCCT
+GAATTCCCCGTCGTAACTCGAGAACCCCGCCGTAACTCGAGAAAAACCACGTGGCTCCCCCGTCATCGCAAGATGAAGCC
+CTTTCCCGCTACAGCGCCTCAGGAGAAGACCCACGTTAGGAATTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGAC
+CCGCAAAGTTCCCCGAAATCCCGGTATCCCTCGAGAGGAACGCTGAGGTTTTCCGCCACC
+>ref|X03165.1| Bovine satellite DNA I repeat (G)
+AGCAATCCCCAACTTTCCTTCGCAACTCGACTGGAAGATTGCACTTGCCTGGGCCAACACAAGAGGCAGCCTGAATTCCC
+CGTCGTAACTCGAGAATCCCGCCGTAACTCGAGAAAAACCACGTGGCTCCCCCGGCATCGCAAGATGAAGCCCTTTCCCG
+CTACAGCGCCTCAGGAGAAGTCCCACGTTAGGAACTGGAGGTCGAAAGGGCACTTGGCACCCTTGATGCGACCCACAAAG
+TTCCCCGAAATCCCGGTATCCCTCGAGAGGAACACCGAGGTTTTCCGCCACCCCCTCCTCTGAGCCCTTTCTCCCCTCCT
+GA
+>ref|X03166.1| Bovine satellite DNA I repeat (H)
+AGAGCAATCCCCAGCTTTCCTTCGCAACTCGAATGGAAGATTGCACTTCGCTTGGGCCAACACAAGAGGCATCCCGAATT
+CCCCGTCGTAACTCGAGAATCCCGCCGCAACTCGAGAAAAACCACGTGGTTCCCCCGTCATCGCAAGATGAAGCCCTTTC
+CCGCTACAGCGTCTCAGGAGAAGTGCCACGTGAGGAATTGGAGGTCGAAACGGTACTTGGCACCCTTGATGCGCCCCCAC
+AAAGTTCCCCGGAATCCCGGTCTCCC
+>ref|X54551.1| Bovine gene for transfer-RNA(Ser)(Sec) (selenocysteine inserting tRNA)
+GAATTCAGATTTTTCAGGAAAGAAGCTTCTGAATCCCGAATTATGAATCTTTTTTGTTTTAAAAAAATTAATGGACTTCT
+CTCTTGGATAAAAGGGGCTTCAGTCTCTTTAACAGCTAGACACGAGGGGGCCACGTCCTGTACCACCGTTTCCCAGAATG
+CGCGGCGCTATGCAAATGAGACAGTTTCCAAAGAGACGTGATTCAATTCATAGGAGGCAAACGCAGCATTTTGGGAGGAT
+GTCTGTCGTAATAATATTGGTAGAGTTTATAGATGTTGAAATCGACAGTTTCACAGTCTCGCAAACTATATCACCATAAC
+TGTAAAAAAGTAGAAATTTCTGGCTTTTATATAGCTGTACGGGTAAGTTTTTATGTTGCCCGGATGATCCTCAGTGGTCT
+GGGGTGCAGGCTTCAAACCTGTAGCTGTCTAGCGACAGAGTGGTTCAATTCCACCTTTCGGGCGAGGTGGTTTCTCTTTT
+TCTTCTTCCAAACTGGACATTAGAATGCGAGTTGGCCCAGAGGACCTCGGACCCGCGTCTGGAGATATCGCTGCAG
+>ref|NM_174469.2| Bos taurus tachykinin receptor 2 (TACR2), mRNA
X06295.1 Bovine mRNA for substance-K receptor (SKR)
+CTGATCCCTAATGTCTCCTGAACCACATTAGGAGGGACCTGGGTTTGAGTTTATCACCAACTTACTACATGACCTGGGCT
+GGTCCCCACTTGGAATGTTTTTCCATTTCTGCAGTGAAGATGCAGGCTGATGATTTAGAAGGATGCCTCTTACTCTGAGA
+CCACGTCTTGGATTCTAGATATCCACGTGACGTTGGAGAAGGCTGGCCAGGACATGGGAATCTGAAGTGCCTAGGGCTCT
+GGACCCGGCTGTCTGCTCAGCCTAACTCATCTCTGTTTGAGACTTGGGAGTGACCCCCCAGCTCCCTGGACGCGCCTGGC
+TCGGCACCTACTCCTCCTGCTCCCCGCACTCAGAGAGGATTTGTGTGCTCCCACAGGGCACCAGGGCCTGGAGGGAGCCA
+AGGAGCCTTACCTCTTGTGCCAGACTCAGAGGCGGCCATGGGGGCCTGTGTCGTGATGACCGATATCAACATCTCGTCTG
+GCCTTGACAGCAATGCCACGGGCATCACAGCCTTCTCCATGCCCGGCTGGCAGCTGGCACTGTGGACCGCAGCCTACCTG
+GCCCTGGTGCTGGTGGCTGTGATGGGCAATGCCACAGTCATCTGGATCATTCTGGCCCATCAGAGGATGCGCACGGTGAC
+CAACTACTTCATCGTCAACCTGGCCCTGGCCGACCTCTGCATGGCTGCCTTCAACGCTGCCTTCAACTTCGTCTACGCCA
+GCCACAACATCTGGTACTTTGGCCGTGCCTTCTGCTACTTCCAAAACCTCTTCCCCATCACAGCCATGTTCGTCAGTATC
+TACTCCATGACTGCCATTGCTGCTGACAGGTACATGGCCATCGTCCACCCCTTCCAGCCCCGGCTCTCAGCTCCTGGCAC
+CAGAGCGGTCATTGCTGGCATCTGGCTGGTGGCCCTGGCCCTCGCCTTCCCCCAATGCTTCTATTCCACCATCACCACGG
+ATGAGGGTGCCACCAAGTGCGTGGTGGCCTGGCCTGAAGACAGCGGTGGCAAGATGCTCCTTTTGTACCACCTCATAGTG
+ATCGCCCTCATTTACTTCCTGCCTCTCGTGGTGATGTTCGTCGCCTACAGTGTCATCGGACTCACGCTCTGGAGACGCTC
+TGTCCCGGGGCACCAGGCTCATGGTGCCAACTTGCGCCACCTGCAGGCCAAGAAGAAGTTCGTGAAGACCATGGTGCTGG
+TGGTGGTGACGTTTGCCATCTGCTGGCTGCCCTACCACCTCTACTTCATCCTGGGCACCTTCCAGGAGGACATCTACTGC
+CACAAGTTCATCCAGCAGGTCTACCTGGCGCTCTTCTGGCTGGCCATGAGCTCCACCATGTACAATCCCATCATTTACTG
+CTGCCTCAACCACAGGTTTCGCTCTGGATTCCGGCTTGCTTTCCGTTGCTGTCCATGGGTCACACCAACCGAGGAGGACA
+AGATGGAGCTGACCTACACTCCATCCCTCTCCACGAGGGTCAACAGGTGTCACACTAAAGAGATTTTTTTCATGTCTGGG
+GATGTGGCCCCCTCTGAGGCTGTCAACGGGCAGGCTGAAAGCCCCCAGGCTGGAGTGTCTACTGAACCCTAAAGCCTAGT
+GCCTGGCTGCAGGGAGAGGCGTCCGCACCCTTGAGAAGTAGCCAGTCGAAAGGACCACCTCTGAAAGTTTGGCCCGTGCC
+TCACCCTTCAGTACATCAATGGAAAGATGAGATGGGGCCAGGAACTCTGCAGTGGGTCCTGCCTCTCCCAGCCAGCCCCT
+CAGACAGTGCTTCAGGGGATCCAATAATTCAAAGAAGACAGGGTGAGCTAACACTTATCTAATCCAGGAGTTGCAAGGTC
+GAATGCCTTCCTGGGGCATACAACATAGAGTAAATTGAACCCGGTATGAAAGAAAAATTGTAGATATATTGATAAAAGAT
+AACTGACTTCAGTGTCGGGCCAATAGGGAATGGTGGGGACTGGCAAACTGGAGGGCATAGGAATCCAAAGGGGAGAGTAG
+CTGATCAGCTCTGGGCAAATGCTGCCATGTGACTGATCCTCTACATCTTTCAAGAGAAGCCAGAAATCCAAATTTGTGAA
+ACTTCCAGAATTGTTAAATTTGGCTCACATTGTTATAAATGTTGTGCGAACCAAACAAAACACACCAGTGGGCAGTACTC
+AACCATGACACTGATTTATTATCAGGATAAAGACTCAAGGAAAGAAGCTGCTTAATTCTGCAAAGCCCCTAACCTGTGAG
+CCAATCCAGGGCTTCTCTGCTTTAGCATCTAAGAACCCAGGTCCACCCCAGGGGAGATGGTGGTTAAGGGTCAAAAGAAG
+CCTCAGCTGGGTGGTCTCAAGACAATGACCTTCACATTGCCTTCCTCTTTCAGTTGCAAAACTACTTTGCAGGGAGGCTG
+AGGATGATGGGAGAGATGCCTATAAATTAGCAAGTCCAATACATGTTAAGTGCTTCAT
+>ref|X51337.1| Bovine mRNA for seminal ribonuclease
+TCCTCCAGTGGAGTGAGGTCATCATGGCTCTGAAGTCTCTAGTCGTGTTGCCACTGCTGGTCCTGGTGCTGCTGCTGGTG
+CGGGTCCAGCCTTCCCTGGGCAAGGAATCTGCAGCTGCCAAGTTCGAGCGGCAGCACATGGACTCTGGCAACTCCCCCAG
+CAGCAGCTCCAACTACTGCAACCTGATGATGTGCTGCCGGAAGATGACCCAGGGGAAATGCAAGCCAGTGAACACCTTTG
+TGCATGAGTCCCTGGCCGATGTTAAGGCCGTGTGCTCCCAGAAGAAAGTCACTTGCAAGAATGGGCAGACCAACTGCTAC
+CAGAGCAAATCCACCATGCGCATCACAGACTGCCGCGAGACTGGCAGCTCCAAGTACCCCAACTGCGCCTACAAGACCAC
+CCAGGTGGAGAAACACATCATAGTGGCTTGTGGCGGTAAACCGTCCGTGCCAGTCCACTTCGATGCTTCAGTGTAGATCT
+CCACCTGAGGCCAGAACAGTGAGATGCACCGCTTCATCACAAAGGCATCTGCCTCTCCCTCTTGTTTCCTTACCCTGAGG
+GCAATAACTCAAGTTAGTTAAGGTTTTTATCCCTGCAACCCCCACCACACACACCCACCCCCACACACACACCCATGTTT
+CCCTGGCATGAGGGCAATAACTCAAGCTAGTTAGGGCTCTTATCCAACATACACATGCTCCCCTGGCCTGAGGCTTGCCC
+CTGTGTAGTTTGGGAATTGAGAAGTGGGTTGTAATATGGGACCCATGTTAACCTAATCACTGCTACTTTCAATAAAACAC
+ACTTGCAA
+>ref|X03029.1| Bovine mRNA fragment for seminal ribonuclease
+GTGCATGAGTCCCTGGCCGATGTTAAGGCCGTGTGCTCCCAGAAGAAAGTCACTTGCAAGAATGGGCAGACCAACTGCTA
+CCAGAGCAAATCCACCATGCGCATCACAGACTGCCGCGAGACTGGCAGCTCCAAGTACCCCAACTGCGCCTACAAGACCA
+CCCAGGTGGAGAAACACATCATAGTGGCTTGTGGCGGTAAACCGTCCGTGCCAGTCCACTTCGATGCTTCAGTGTAGATC
+TCCACCTGAGGCCAGAACAGTGAGATGCACCGCTTCATCACAAAGGCATCTGCCTCTCCCTCTTGTTTCCTTACCCTGAG
+GGCAATAACTCAAGTTAGTTAAGGTTTTTATCCCTGCAACCCCCACCACACACACCCACCCACACACACACACCCATGTT
+TCCCTGGTATGAGGGCAATAACTCAAGCTAGTTAGGGCTCTTATCCAACATACACATGCTCCCCTGGCCTGAGGCTTGCC
+CCTGTGTAGTTTGGGAATTGAGAAGTGGGTTGTAATATGGGACCCATGTTAACCTAATCACTGCTACTTTCAATAAAACA
+CACTTGCAA
+>ref|X54799.1| Bovine mRNA for Cu-Zn superoxide dismutase (EC 1.15.1.1)
+GCGACGAAGGCCGTCTGCGTGCTGAAGGGCGACGGCCCGGTGCAAGGCACCATCCACTTCGAGGCAAAGGGAGATACAGT
+CGTGGTAACTGGATCCATTACAGGATTGACTGAAGGTGATCATGGATTCCACGTCCATCAGTTTGGAGACAATACACAAG
+GCTGTACCAGTGCAGGTCCTCACTTTAATCCTCTGTCCAAAAAACACGGTGGGCCAAAAGATGAAGAGAGGCATGTTGGA
+GACCTGGGCAATGTGACAGCTGACAAAAACGGTGTTGCCATCGTGGATATTGTAGATCCTCTGATTTCACTCTCAGGAGA
+ATATTCCATCATTGGCCGCACGATGGTGGTCCATGAAAAACCAGATGACTTGGGCAGAGGTGGAAATGAAGAAAGTACAA
+AGACTGGAAACGCTGGAAGTCGTTTGGCCTGTGGTGTAATTGGAATTGCCAAG
+>ref|XM_019959549.1| PREDICTED: Bos indicus tachykinin precursor 1 (TAC1), transcript variant X3, mRNA
X00076.1 Bovine mRNA coding for the substance P precursor alpha-preprotachykinin including a single substance P sequence
+AAAAGAGCGCGCTGCTGACCTCCTCCATCCTTGCTGCGACCGAGAGAGTGCGCAGCGCCCCGCGAGTGCTCAGACCAGCA
+GAGGAACCTCCCGGGCGGGTCAGCTGCGAAATCCAACATGAAAATCCTCGTGGCCGTGGCAGTGATTTTTTTCATCTCCA
+CTCAACTGTCTGCAGAAGAAATCGGAGCCAACGATGATTTCAATTATTGGTCCGACTGGTCCGACAGCGACCAGATCAAG
+GAGGAAATGCCCGAGCCCTTTGAGCATCTTCTGCAGAGAATCGCTCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTGAT
+GGGCAAACGGGATGCTGATTCCTCAATTGAAAAGCAAGTGGCCCTGTTAAAGGCCCTTTATGGACATGGCCAGCTTTCTC
+ACAAAATGGCTTATGAAAGGAGTGTGATGCAGGATTATGAAAGAAGACGTAAATAGACTACCTAACATATTTATTGAGCT
+TCATTTGTGTCAGTGGTCAAGGAAAGGTAAAATGAGACATGCACTATGAGGAATAATTATTTATTTAATAATTGTTGTTT
+TGAGTTTAAAACTCAAGAAGTATTTATTTTTCATATTGTGGCAATATATGTTGTAAAAAAAATGTGTTGTAATTCTAATC
+TGACAACTCAGTCAGAAGTAGAAATCAGTGGTAATTTCTCCCCAAAGCACAGTGTTCAATGAAGTTGTAAAAACCTATCG
+AAGATATATTCTCCAAACAAAGGAATCATTTCTGTTTCTTGGAAGCAGTCACATCAGCTACTACTAAGGAAAAGAAATTC
+ACATATAGGCTGTGCTTCTCCATTTGTTTTCATGGTGAAAATGTGCTGAGAGTTGGTATCAAACTGTGTTTGTATCCCTG
+CAGCATGTTTCATGTTTTGTGACTATATAGAGACATTTAAAAAGTTTTACTGTGATTCTAAGGTATTTTATTGTACAATG
+TGTTGTAATAGTTAACATTTTAAATAAAAGAAAAAGTATCTT
+>ref|V00135.1| Messenger RNA for bovine prothrombin
+AATCGCCCTGCTGAAGCTCAAGAGGCCCATCGAGTTATCCGACTACATCCACCCCGTGTGCCTGCCCGACAAGCAGACAG
+CAGCCAAGCTGCTCCACGCTGGGTTCAAAGGGCGGGTGACGGGCTGGGGCAACCGGAGGGAGACGTGGACCACCAGCGTG
+GCCGAGGTGCAGCCCAGCGTCCTCCAGGTGGTCAACCTGCCTCTCGTGGAGCGGCCCGTGTGCAAGGCCTCCACCCGGAT
+CCGCATCACCGACAACATGTTCTGTGCCGGTTACAAGCCTGGTGAAGGCAAACGAGGGGACGCTTGTGAGGGCGACAGCG
+GAGGACCCTTCGTCATGAAGAGCCCCTATAACAACCGCTGGTATCAAATGGGCATCGTCTCATGGGGTGAAGGCTGTGAC
+AGGAATGGAAAATATGGCTTCTACACACACGTCTTCCGCCTGAAGAAGTGGATACAGAAGGTCATTGATCGGTTAGGAAG
+TTAGGGAGCCACCCACATTCCAAGGCTCCTCACTGCAAAATCTCAGAGGCCAATCCAGTGAATGAATTATTTTTGTGGTT
+TGTTCCTAAAACTATCTTTCTCAATAAAGTGACTCTATCAACG
+>ref|X06071.1| Bovine thyroglobulin gene exon 12 (and joined CDS)
+TCTGAAGGAGGAACAGTGATTCCTTCAAACTTGGCTGACATTTTTTACTTCTTTGGTTGCATAATGTTGCTTGTGGGATC
+TTAGTTCCCTGACCAGGGATCAAACCTGTGCCCCCTGCAGTGGAAGCGTGGCAGTCCCAACCCCTGGACTGCCAGGGACT
+TCCCATCAGCCGGCATTTTAATTTTTTTCATTTTAATTTTAAAGGGCAATCTGGTGAGGGCCTACCTGCTCCTCGATGAG
+CCTCTGTCTTGTTTTGGGGTGGAAATGTTTGTTACAGAAATCGAAAGGCCGCCTATGTTGGGAAAGGACGAGGTGGCTGT
+TCTCAGGACAGAGTCCGCTTGGCCTGGGCTTTGAGAGTCCAGGGCTCACCTCTCTCTTCCTCTCTCCCGACTCCAGCCTT
+TGACTTCTACCAGAGACGCCTGGTGACCCTGGCCGAATCCCCACGAGCACCCAGCCCTGTGTGGTCCAGCGCGTACCTGC
+CACAGTGTGATGCCTTCGGAGGCTGGGAGCCTGTGCAGTGCCATGCCGCGACGGGTGAGGCGGGCAGGCACCCTGGGGAG
+GCTGAGGGACACCCCTCCTTTTCATGTGCAGAAAAGAGCCCTAAAAAGAGAGAAAGGAAAGAGCCCTGCACTATTAGGGC
+AAAGCAACGTGA
+>ref|X06072.1| Bovine thyroglobulin gene exon 13
+ACAACAAAGTGAGTAGATTATACCTAAACCCACTCTTTTTCAGATTCTTTTCCCATATAGGCCACTACGGAGTATTAAGT
+AGAGTTTCCTGTGCTATACAGCAAGTCCTTATTTGTTATCTCTTTTATGTATGGTAGTGTGTATTGCAGGACCCTCAGCA
+GGGCCCTTGGGCACTTCCTGAACTTCTGGCCGGGGCTTTTTTCCAGGGCACTGCTGGTGTGTGGACGGGAAGGGAGAGTA
+CGTCCCCACTTCGCTGACCGCCCGCTCCCGGCAGATCCCGCAGTGTAAGTGGGGCCGCTGGACCAGCCGGCGGGCCTTCT
+AGCGGGCGCCCTGCCTGGGGAGGCTCCGTGGGCCAGCGCTTCAGACCAACTCCCAAGAGCAGGCAGACCACATACCCCCA
+AGTCCCCAGGCCTGGAAGAGTTCCCTGACCTTGGTTGT
+>ref|X06073.1| Bovine thyroglobulin gene exon 14
+AAGCGCTCACTTTATGTCTCAGAGGTGAAATGTCCCACGTGGGTCTTTGTCCCTGACCCTCAGCCTGCTTCTCTGGGGTC
+CCAGCTCTCTGCATAAGGGCACCTCCACCCACCCAGATGCATGGCTCCAACACTCGGGGCCAGCCTGGGCTCCCCACCTG
+CCCTCAGCGCCCACGGCCAGCCTGTTGAGAGCTCCCCTCTCTCCCCACCCAGGCCCCACCAGCTGCGAGAGATTGCGAGC
+CAGTGGGCTGCTTTCCAGCTGGAAACAGGCTGGTGTCCAAGCAGAACCATCTCCTAAAGACCTGTTCATCCCAACCTGCT
+TAGAGGTAAGTCTCTGAAGGCCCAAGAAGGTTCCAGAAGCCAGAACTTTCTGGATGGCGAATTTTCTAGTTTTCAATAAA
+CTTGTTTTAATTGAAAACTCACAAG
+>ref|X06074.1| Bovine thyroglobulin gene exon 15
+CCTGATGTCTGGCTCCCGACTTATCAGTTTACAGAAGCATCTTCGCTGGGTGACACCACCTCGGTTTTGTCTCAGACAGG
+AGAGTTTGCCAGGCTGCAGGCGTCGGAGGCTGGCACCTGGTGTGTGGATCCGGCCTCAGGAGAGGGCGTGCCCCCTGGCA
+CAAACAGCAGTGCCCAGTGTGAGTACTGGCCCTTCCCCATCATCTCAGCCCCCACCCCGTGAGATGAGGTAGGAGCC
+>ref|X06075.1| Bovine thyroglobulin gene exon 16
+ATTTTTTTTTTTTTTTTTTCACGTGCATGGAGTGGAGAGGGGAATACAAAGCCAGTGTCTGAGTGCAACACCCTAGTAGG
+GAGGCCACCCCAGACCCCAGGGGCCCTGTAGGCAGGTGGCAGTGGGTGGTGGGTGGTGACAAGGGCTGTGACAGCCACGC
+AGGCAGAGAACACATGTGGCTTGTCTTTGCGTCAAGGCCCGAGCCTCTGTGAAGTGCTCCAGAGTGGAGTCCCCTCCAGG
+AGAACCAGCCCTGGCTACAGCCCGGCCTGCAGGGCAGAGGATGGAGGCTTCTCCCCAGTGCAGTGCGACCCGGCCCAGGG
+CAGCTGCTGGTGCGTCCTGGGCAGTGGAGAGGAGGTACCCGGGACCCGCGTGGCCGGGAGGCAGCCGGCCTGTGAGAGTA
+AGTGGTGATGCCCCAGAGTGGCCCCGGGCTGGTGGGGGTCCTGTCATCCCTTGCCTTGGCCCTGGCTGGG
+>ref|X14324.1| Bovine thyroglobulin gene 5'end
+TGCTCCCCTACAGCCTCCACAAGATTTTCACCCCACACTGGCCACATGAGTGTCCTCCAGGGGAACAGACGCAGGTGGAG
+GACCTCCTTGTGACCAGCAGAGAAAACAGGGTGGGCACTGCTTCCCTGAGTGCCTGTGGGTGGGGGCTAAGTACCCACAG
+CAGTGCTATAAAGGCTCCTTGGCCAGAGCCCTAAGGTGGGCAGCAGCTTCTAACCCTTCTCCCTGGAAGGCTCCCAAGAT
+GGCCCTGGCCCTATGGGTCTTCGGTCTGCTGGACTTAATCTGCTTGGCATCCGCCAACAT
+>ref|X05381.1| Bovine thyroglobulin gene exon 2 and flanks
+GATCAGGAGAGTGATGTCAAACTGTGAGTAGCTGCAAAAGCTGCGAGTTGAAATATACTTGCCGATGGTGGTAGAAATAA
+AACCCGGAAGAGCGTCTGTGTCTTCAGCGAGCCCGTCTCCGTTACTGGAATCCAGGCAGCAGATTCTCTCTCATGAGCGG
+CATCACTTCCTTTGTGCAGAGTACCAGGTGGATGCCCAGCCTCTCCGCCCATGTGAGCTGCAGAGGGAGAGGGCTTTTCT
+GAAGCGAGAAGACTACGTCCCCCAGTGCGCCGAGGATGGCAGCTTCCAGTAAGGCCTCCTCCAGCCATGCGACCCAGGGG
+CCTCCTTAAAACCCATCTTCTTCCTGTCCCCGCCCCCCTCCTTGAAACTGACCCTGTGACCATGTATCGGAGCATCCCAG
+ACCCGTAACACGAGTCATCTGACCTCTGTTGCCCCAATCCATCGTTCCTTCCAGCCAGAACCAAAGAGTTCCCTTCCTTT
+CCTGCCAAAATTTTTTACTGTAATTGTTTTAACAAGGGTGAATGGGGTGGTTGGCCGGCCGGCCAGTATTTACCTTTCCA
+ATGATC
+>ref|X14325.1| Bovine thyroglobulin gene upstream region
+GGATCCAGGAGGGAGAGGTGAGAGGGCCAGAGGTGAGGAGCCTGCAGAGAGGATGGAGACCCAAGCCAGGAGCGGGCTCA
+CGGAGGCCAGACCAAGGAGTTGGTGCTGAGTTTCCGTAGAGCATCCTCCTGGCTCACGAGGCATCAGATGATGGTAGGAG
+CTGAGTCATCGTAGAAAGAGTTTTCACGGTTGAGGCAGCGCCTGGCATGGCTCTCTCCAAGCTCATCGCTTCATTGCTGG
+ATGGAGAGAAGCACCTCTCCTTCCAGGTACACTGTTTTGACTCAGAAGGAAGCCCGGGCGGCTCTCACCCTCACTGACTC
+TGCTGTGCCTCTTCCCAGGGGCCAGGCCAGGGAGAATGACTCAGCACACAAGCTGGCCTGTGCAAGACCCTGCCTGCATG
+CATGGGTGGGGGAAGCATGAGGAGTGGGCTTTCTGGTAGG
+>ref|X56400.1| B.taurus tnp2 gene for transition protein 2
+CTGCAGGCTGGCCCAAGGAAGGGGTAGGTGTGCTATGCCCCGTTCTACAAAAGCAGGGAAACTGGGACTAGAGAGGCGGA
+TGCCGGGGGGAAGAGATCAGAAGGAAAAGCAGCAGCAGGCCCAGGTGTGGGCCAGCTCCACCCGACCTGAGGGGCTGCTC
+TCAACCCACAGACACGCCCTTTGAAAGCTGCCCCACCCTGCGTGTTAGGATGAGGGCAGAGGGCTTTGTTCCCGTTGGGC
+CACATCTGTTACATACCCCCCTGTGGCCAGTGCCATCACAATCGGGCCCAACTATATAACCAGGGGCTGCCAGGGCCTCT
+GTGAAGCTGGGTCTGCCAGAAGAGGAGGAGGAGGCGGCGGCCCCTGCCCCTCTAAGCGAGGCCGCCCCCCACCCATGGAC
+ACCAAGACACAGAGCCTTCCCAACACCCACGCCCAGCCCCACAGCAACTCTCGGCCCCAAAGCCACGCCTGCCACCACTG
+CAGCTGCAGCCAGCACTGCCAGAGCCGCAGCCGCAGCCGCAGCTGCCGCAGCCGCAGCTCCAGCCGGCGCCCGAGGAGCC
+ACCGCAGCCCCACTGGCCACCAGGGCAGAGCCAGGCCCCAGCCCTCCTCTGAGGCGCCACAGACACACCATGCACTCCCA
+CCAGTGTCCTCGCGGCCCGTCACCCACTCTTGCAGCCACTCCAAGAACAGAAAGAACTTGGAGGGAAAGGTGATCAAGAG
+GAAGCAGGTCAAGAGGAGCAAGCAGGTGTACAAAAGAAAGAGGCAGAGCTCAGGTACCTGTCAAGCTGGTGGCCTTTCAC
+AGGACTCCCCCAGAGAAGGGCGCGCCCCAGCAGGGCTGTAGAGGCGGTGAGGTGAAGGCTGCCTCCGCCAAGTCAGAGGC
+ACAGAGGACCCACAGGCAAGGGTTTAAGAGGGAGAGGGAACTATGACAGTTGTATATACATGATGCATTGATGGAATAGC
+TCTTTAATTGGATGGGTTGATTGGAAGGATGGACGAACGGCAGATTAGCTAGGTGGAAGCATGGAGAGGTGAATAAGGCT
+GGGTAGATGAATAATTAGGAGGCCTGTTAGATAGGGAATGGGGAGAAGAGTTAGATGGTTGCTTGAGTGGATGGGTAAGA
+AGGATGAGGGGAAGGAATGAATCCATTAAGTGACTGAGAATCAGAAGGGATGTGATTAGATTTCTAGATTGGGCTGATGC
+ATTGGGAGGGTGAATGAATTGGTTGGCTGGGCAGATGGCTGAGTAGATAAGGGTTTGAACACAATTGGATATCTGGAGGC
+ATGACTATTGAGAGGATATGAATTGGTTAAATAATGGTGGTCTAGGTGGGTGGAGGATCAGGTTGGTGGATGGATAAATG
+AACTGATAGATGAACTGACTGGATGGCAAGCTGGCTGAATGGACTAACTGGACCAATGAACGAAAGACAGACAGTGGGAT
+TGGTGGACTGGATGTGTAGCCTGACGTGGTTTAAAGAATGAAATGATGTTGGACTGGGTTGAATTCACGGGTGCATGATA
+AATGGATGGATTCCCAAGTCAAAAGGACCCTGATGATTGTGTCAGTTCTAGCCATGCCCCATATCTGATTACACACGAGC
+ATCCAAAAACCCAAAGGAGAGGGTTAAGTGACCTTAGGAAGCACTCAGTTATTAAAGGCTCCCTTTCCCATTTCTATCCC
+TTAGGACGGAAGTACAACTGAGATGACACCCCACGGTTTGTTCCTGTGTCTGTTTCATCCAGATAAGAAACGCCATCACA
+CGTTGAATGCTAGAAGGAAGAAGTAAACTTTGCAGGAACATGTTACTACAGTGATTTCTATGCAACATTGATTAAAGCTT
+GTACACTGG
+>ref|X56401.1| B.taurus tnp2 mRNA for transition protein 2
+CCCTCTAAGCGAGGCCGCCCCCCACCCATGGACACCAAGACACAGAGCCTTCCCAACACCCACGCCCAGCCCCACAGCAA
+CTCTCGGCCCCAAAGCCACGCCTGCCACCACTGCAGCTGCAGCCAGCACTGCCAGAGCCGCAGCCGCAGCCGCAGCTGCC
+GCAGCCGCAGCTCCAGCCGGCGCCCGAGGAGCCACCGCAGCCCCACTGGCCACCAGGGCAGAGCCAGGCCCCAGCCCTCC
+TCTGAGGCGCCACAGACACACCATGCACTCCCACCAGTGTCCTCGCGGCCCGTCACCCACTCTTGCAGCCACTCCAAGAA
+CAGAAAGAACTTGGAGGGAAAGGTGATCAAGAGGAAGCAGGTCAAGAGGAGCAAGCAGGTGTACAAAAGAAAGAGGCAGA
+GCTCAGGACGGAAGTACAACTGAGATGACACCCCACGGTTTGTTCCTGTGTCTGTTTCATCCAGATAAGAAACGCCATCA
+CACGTTGAATGCTAGAAGGAAGAAGTAAACTTTGCAGGAACATGTTACTACAGTGATTTCTATGCAACATTGATTAAAGC
+TTGTACACTGGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_174199.2| Bos taurus transition protein 1 (TNP1), mRNA
X16171.1 B.taurus mRNA for transition protein 1 (TP1)
+CGTTAATGTCGACCAGCCGCAAATTAAAGAGTCAGGGCATGAGGAGGGGCAAGAACAGAACTCCTCACAAGGGAGTCAAA
+AGAAGTGGCAGCAAAAGAAAATATCGGAAGAGCAGCCTGAAGAGTAGAAAACGCTGTGACGATGCCAATCGCAATTTGCG
+CTCCCACTTGTGACTCCAGCAGCGGCTCCTGCCTGGTGGACTTTGAACGACACCAGGCAGCAACCGAACAGAAGGGGACT
+GCCAAGGAGACCTGAAGTTAGACCAAAGCCAGAGAAGAACTTATCATGTGGATAAAATGCCAATCATGACAAAATGAGGC
+ATGTATATGTTGGCTGTTTCTCCCTAACATCTCAATAAAAATTTTGAAAGCTG
+>ref|X65041.1| B.taurus TNP1 gene for transition protein 1
+AGCAGGAGGATGGAAGACTTCCATCGCCCAGCAACAAGCCCGGCCAATGAAAAGGGCCTCAGCTTAGCCAATGAGAAGAC
+TTCATCACCTGAACTTTCACTTTCCTCCAATGAACCCTCATTATTGCCTTACTGATGACTTCCTTTCCTTGTCCACCTCC
+CCCTACTATAAAAGCCTTCCACGTGGTGTAGCCCTTGGAGCATCTCTCTGTCCACCAGGTGAGATGGCTGCCTGATTCAT
+GAATCATTTAACAAAGCTAATTAGATCTTCAAATTTACTCAGTGAAATTTTGTTTTTTTAGCAATGATAGTCCCACGTAT
+TTAGCCAACAGTGTCAGCAGTGCTTGGGTTGAGAAAATTTGATTTAGATGAAGAGAAGAATATTATGTTTAGTCATATGA
+TGATTGCTAGAGTCAGTCTTATAGACATTGTCAATTCCCAATGCCATAAGAGAGACTTAAATATGATGCATATACACACC
+AACTATTAAATTCCCTACAGGCAGGAGATAGCTTTTTTGATGCCTCTTGTACTCTCCAGGTGCCCAACATAGGATTGGAA
+TTTAGGTACTCAGTAACACCTATCTGGAAAACCTCATTTATCATTAAAAAAAAAAAAAAAGACTACAACATTGAGGGTAG
+CCTTGAGCTGCATTGGAGGGATCACCTAATTTCATATATATTACCCAACTGTAACAAAGCCTAGTGACATCACAATGGAG
+CCCTGCCCATCTGCTAAGCCCCGCCCTCTTCACAGTCATAATGGCTAAGGCCTTAAATAGCCAGACTCTGGCCCCTGGGT
+CCTGCAAAGCCCCTCATCTTGGCAGAAAGTACAATGTCGACCAGCCGCAAATTAAAGAGTCAGGGCATGAGGAGGGGCAA
+GAACAGAACTCCTCACAAGGGAGTCAAAAGAAGTGGCAGCAAAAGAAAATATCGGAAGAGCAGCCTGAAGAGTAGAAAAC
+GCTGTGACGATGGTGAGTTAGGGATGAGTGGGAGAGGAGTTAAACAGGGACCTTGTTGTCCTGAGGGCCTTTCTTCTTGA
+AGTTAGCTCTCATAGGACCCTGAAACCTCAGCCTGAGAATTTCGTTCTCAACCAGGTTCCCATCTGGGCAGGAAGAGGAT
+GAATGGGGTTCATGAATCTTCAGTGAATATTCTAACTGGTGTTCCTGTTGCATACTTGTCCCTTCCCTACAGCCAATCGC
+AATTTGCGCTCCCACTTGTGACTCCAGCAGCGGGCTCTGCCCTGGTGGACTTTGAACGACACCAGGCAGCAACCGAACAG
+AAGGGGACTGCCAAGGAGACCTGAAGTTAGACCAAAGCCAGAGAAGAACTTATCATGTGGATAAAATGCCAATCATGACA
+AAATGAGGCATGTATATGTTGGCTGTTTCTCCCTAACATCTCAATAAAAATTTTGAAAGCTGAATTTCAGTGTCGTTTGA
+TCTTTTGGTTGGAAACTGGGTTCCTGAGCTGGGCAGGCTTAGGGG
+>ref|X56626.1| Bovine tRNA-pro (anticodon UGG)
X57443.1 Chicken tRNA-pro (anticodon UGG)
K00360.1 Mouse Pro-tRNA-2
+GGCTCGTTGGTCTAGGGGTATGATTCTCGCTTTGGGTGCGAGAGGTCCCGGGTTCAAATCCCGGACGAGCCCCCA
+>ref|X56627.1| Bovine tRNA-pro (anticodon IGG [inosine])
X57444.1 Chicken tRNA-pro (anticodon IGG [inosine])
+GGCTCGTTGGTCTAGGGGTATGATTCTCGCTTAGGGTGCGAGAGGTCCCGGGTTCAAATCCCGGACGAGCCCCCA
+>ref|X03073.1| Bovine retinal mRNA for transducin beta-subunit
+AGAGAAGGAGCCTAGGCCACGTAACTGATGGTGGGCTTCCTGGAGGCTCTGGGGGACTGAGGACAGTGAGGAGAGCAACA
+GAGACGTCACATATCTCAGATTCTTTGAGGTGGCTTTGAAGAGCACTAAGATTAGAAGATGAGTGAACTTGACCAGTTAC
+GGCAGGAGGCCGAACAGCTTAAAAACCAAATTAGAGATGCTCGGAAGGCGTGTGCAGATGCGACTCTCTCTCAGATCACA
+AACAACATCGACCCTGTGGGAAGAATCCAGATGCGCACCAGGAGGACGCTGAGGGGACACTTGGCCAAGATCTATGCCAT
+GCACTGGGGCACCGACTCCAGGCTTCTACTCAGTGCCTCGCAGGATGGTAAACTTATTATCTGGGACAGCTACACCACAA
+ACAAGGTCCATGCCATCCCTCTGCGCTCCTCGTGGGTCATGACGTGCGCTTATGCCCCTTCTGGGAACTACGTGGCCTGT
+GGAGGCCTGGATAACATCTGCTCCATTTACAATCTGAAAACTCGTGAAGGGAATGTACGTGTGAGTCGTGAGCTGGCTGG
+ACACACAGGTTACCTGTCCTGCTGCCGTTTTCTGGATGACAATCAGATTGTTACCAGCTCTGGAGACACCACCTGTGCCC
+TGTGGGACATCGAGACTGGCCAGCAGACGACCACATTCACTGGACACACCGGAGACGTCATGAGCCTTTCACTCGCTCCG
+GACACCAGACTGTTTGTCTCTGGTGCTTGTGACGCTTCAGCCAAACTCTGGGACGTGCGAGAAGGGATGTGCCGGCAAAC
+CTTCACCGGCCATGAGTCCGATATCAATGCCATCTGTTTCTTCCCGAACGGCAATGCATTTGCCACTGGCTCAGACGATG
+CCACCTGCCGGCTGTTCGACCTCCGTGCGGACCAGGAGCTCATGACCTACTCCCATGACAACATCATCTGCGGGATCACC
+TCCGTCTCCTTCTCCAAGAGCGGGCGCCTCCTTCTCGCAGGGTACGACGACTTCAACTGCAACGTCTGGGACGCCCTCAA
+GGCCGACAGGGCAGGGGTCTTGGCCGGGCATGACAACCGCGTGAGCTGCCTGGGGGTAACTGATGACGGGATGGCCGTGG
+CGACGGGATCCTGGGACAGCTTCCTCAAAATCTGGAACTAACCCTGACAGCAGGTGGACGCCACAGTGACTGGAAGACCA
+TTCCAGCCTTGGAGCGTTGCAGATAGCATTTCCCATCTACCCCTACTAACGCGGACGCCCTGCACCCCTCAGAACTTCAA
+AAGGGCAAGACCTTCCCCTCACTTATTGCTGAAACCAAGAGCACAATTCCCACTGAGAGAAGAATCTCTGTGCTGTAACT
+AAAACGAATCGTGCATTCCTTCCGGGACCATTGTCTTTGTTTTCTTTTTTTGTTTGTTTTGAATGAATTTAAAAGGAAAT
+ACTATAATAAAAATGTTAACAAGAAGGTAAACTTGAGTGTAATTGTAAGACAGACACACCTTTTTACTAGTTTATTTGAA
+ATCTTGATCAATAATCCTGTTTGGTGATGTTCATGCAAAACAATTTGAGGACTTCATCTTGTAATTGACTCTGAATTCTA
+GATTGTGTTTGTAACAGGATTTTGCAGACATGATTCATATTTCCTTCTTAAAATATATTTCTTTCTGCTCGTAGTTAAAC
+AGAGAAGGAGGGTCTGGTGTGGCCTCTCTGAGATTGTTAATGATGTAAATTTAGTCCCTGGTTTTTTTTACTTCCGTCTC
+GTGTCACATGACCGTCGTGCGCATGGTGTAGAAGGATGATGCTGAGAAGTCAAGGAACTGAGCACGCGGACGAACAGTGG
+CCGCGTCAGGCGCCTTTCCCCCAACCCACCCTCTCCCCTCAGTTTGGTTTTTAGTCTCACCCAGTCTCCTTGTGAAGTTG
+GAGGGAGGCTGACACAACAGCGCGACACTACCCTGTGCCCCGCCCGGCCATCACGAGCCTCCGTCCTCAAGAGCGGTGCC
+GTCCTGTGCGTGGAGAGTCAGTCAGTTATTTGTGTATGAAACAATGTACAAATCAATGTTTTGAAAATAATGATCTCAAA
+CTTTCTAAGTTAAATTTTAAAAAACCTGATCGTTTGCCATATGGGGTGGGTTTGCTCTTAGAACCGCATGCTGTAGAAAT
+GCTCACAGTGCATATAGGACTCAGTCCTTAGATGTTCCTTTTCTTTTAAGAAATAACCTCTTTGAAGTTGTGACGTCGCG
+CTCTGTCCACTTCGCGTCGCCCCTCTGTGCACACGCATCGCATTGGAGGCCGTGCAGTTAGCGGCTCTACACGCTCGCCT
+GGCGAGATGTCACTGTTTTCTTTCTTTAAAAAAACAAGTCCTGTTCCAAAATCGTTGTTGGATGGGGTGGGGGGTGTACA
+GGGAACGGAGTCCCTGGCCTCCCTTATGGATTCCTCACGGCCCACCTCTCCCGGGAACCAGCCTTTGTGCTGAGGCAGAC
+CACTTTTCTAACACGCAGATGTCCCTGGTTCCGTGCGCGTCCAGTGTTGGGCAGCGGTGCTGGGACAATGCGGGCCTCCT
+CCCCGTACCAGCGCCCCCGTAGCGGCAGCAGTGGCTTCTCCACCTGTGTTTGCACCATCCTGTGCGCCCTGTGCCCTGGA
+CCCGCAGAGAGTGGGATGAGCCCCCGCCCCCGTCGGCACCTCTGTAGAGCTCTCTGCACCCTGTCCCTCACCTTTTGTAT
+TTAATTTTAAAGTCAATGTACTGCAAGGAAGCTGGATGCAAGATAGATCCTATATTCAACTGTACTGTTATTTAAGATGT
+AATAAAGCAGTTTGACATGAGG
+>ref|Z18292.1| Bos taurus transcription factor sequence
+TGGCCGGGGGCAACCCCGGCGGCCCCAACCCCGCAGCGCAGGCGGCCCACGGCGGCGGCGGCGGCGCCGGCGAGCAGCAG
+CAGCAGCAGGCGGGCTCGGGCGCGCCGCACACGCCGCAGACCCCGGGCCAGCCCGGAGCACCCGCCACCCCCGGTACGGC
+AGGGGACAAGGGCCAGGGCCCGCCCGGCTCGGGCCAGAGCCAGCAGCACATCGAGTGCGTGGTGTGCGGGGACAAGTCGA
+GCGGCAAGCACTACGGC
+>ref|X04540.1| Bovin liver transfer RNA-Arg (CCU)
+GCCCCAGTGGCCTAATGGATAAGGCATTGGCCTCCTGAGCCAGGGATTGTGGGTTCGAGTCCCATCTGGGGTCCCA
+>ref|X04541.1| Bovine liver transfer RNA-Arg (U9CF)
+GGCTCCGTGGCGCAATGGATAGCGCATTGGACTTCTGATTCAAAGGTTCCGGGTTTCGAGTCCCGGCGGAGTCGCCA
+>ref|X04542.1| Bovine transfer RNA-Gln (CUG)
V01265.1 Rat major tRNA GlN from liver
M16251.1 Mouse Gln-tRNA-CTG
+GGTTCCATGGTGTAATGGTTAGCACTCTGGACTCTGAATCCAGCGATCCGAGTTCAAATCTCGGTGGAACCTCCA
+>ref|X14338.1| Bovine mRNA fragment for 49 kDa subunit of mitochondrial NADH:ubiquinone oxidoreductase (EC 1.6.5.3)
+GCAGTGGCAGCCAGATGTGGAATGGGCAGAGCAGTATGGGGGTGCTGTCATGTACCCCACCAAGGAAACAGCCCACTGGA
+AACCTCCCCCTTGGAATGATGTGGACCCTCCAAAGGACACACTGGTGTCGAACCTGACCCTGAACTTTGGGCCCCAGCAC
+CCAGCAGCCCATGGAGTCCTGCGGCTAGTGATGGAGCTGAGTGGGGAGATGGTGCGGAAGTGCGACCCCCACATCGGGCT
+GCTGCACCGGGGCACTGAGAAGCTAATTGAATACAAGACCTATCTGCAGGCCCTTCCATACTTTGACCGGCTGGACTATG
+TATCCATGATGTGTAATGAACAGGCCTACTCACTGGCCGTGGAGAAGCTGCTCAACATCCGGCCTCCTCCTCGTGCACAA
+TGGATCCGAGTGCTATTTGGAGAAATCACTCGACTTTTGAACCACATCATGGCTGTGACCACACATGCCCTGGACATTGG
+GGCTATGACCCCTTTCTTCTGGATGTTTGAAGAAAGGGAGAAGATGTTCGAGTTCTACGAGCGCGTGTCTGGGGCTCGGA
+TGCATGCTGCTTACGTCCGGCCAGGAGGTGTGCACCAGGACCTACCCCTTGGGCTTATGGATGACATTTATGAGTTTTCT
+AAGAACTTTTCTCTTCGGATTGACGAGCTGGAGGAGATGCTGACCAACAATAGGATCTGGCGAAATCGGACAGTCGACAT
+TGGGATTGTAACAGCAGAAGACGCACTGAACTATGGTTTTAGTGGGGTGATGCTCCGGGGCTCAGGTATCCAGTGGGACC
+TGCGGAAGACCCAGCCCTACGATGTCTACGACCAGGTGGAGTTTGATGTGCCTATTGGCTCTCGAGGGGACTGCTATGAT
+AGATACCTGTGTCGGGTGGAGGAGATGCGCCAGTCCATTCGAATCATCTCACAGTGTCTGAACAAGATGCCTCCTGGGGA
+GATCAAGGTTGATGATGCCAAAGTGTCTCCACCAAAACGAGCAGAAATGAAGACGTCTATGGAGTCACTGATCCATCACT
+TTAAGCTGTACACTGAGGGCTACCAAGTTCCCCCAGGAGCCACATACACAGCCATCGAGGCGCCCAAGGGAGAGTTTGGC
+GTGTACCTGGTGTCTGATGGTAGCAGCCGCCCTTACCGATGCAAGATCAAGGCTCCTGGTTTTGCTCACCTGGCTGGTCT
+GGACAAGATGTCTAAGGGACACATGTTGGCGGACGTCGTTGCCATCATAGGTACCCAAGATATTGTGTTTGGAGAAGTAG
+ACCGGTGAGCGGGGGATCAGTGTCGGATCTCCCTGCCCTCTGTGCAGCCTCTCCATCGTTGCAAATGGGCCTGTGCGTGC
+GTGCGTGTGTGTGTACACGTCCATGAATGCTTAGCTGTCAGGCTTTCTGTGCATGTACTAGAAAAGGAGAAATCACAATA
+AATTAGCCACGTCTGGCCCCACAAAAAAAAAAAAAAAAAAAA
+>ref|X02312.1| Goat repetitive sequence 8 kb 5' to beta-A-globin gene
+AGAAAGATGAATTGTTTTGTGAAGTGAAGTCACTCAGTCATGTCCAACTCTTTGTGACCCCATGGACTGTAGTTTACAAG
+GCTCTTCTCTCCATGGAATTTTCCAGGCAAGGGTACTGGAGTGGGTTGCCATTTCCTTCTCCAGGGGATTTTCCCACCCA
+GGGATCGAACCTGGGTCTCCCACACTGCAGGCAGACACTTTAGCATCTGAGCTACCAGGGAAGCCATGGTAGAAGG
+>ref|NM_001003288.1| Canis lupus familiaris chloride nucleotide-sensitive channel 1A (CLNS1A), mRNA
X65450.1 C.canis mRNA for chloride channel
+GGCGAGGCGAGCGGCTGGGGTCGCCGCGCGGCAGCTCGCTCCCGGCCTGTGTCTCCGCGCTCCCTGCTGCAATGAGCTTC
+CTCAAAAGTTTCCCGCCGCCCGGCTCGGCCGAGGGGCTTCGGCAGCAGCAGCCCGAGACCGAGGCCGTGCTGAACGGCAA
+GGGCCTCGGCACCGGCACGCTCTACATCGCGGAGAGCCGCCTGTCTTGGTTAGATGGCTCTGGATTAGGATTCTCACTGG
+AATACCCCACCATTAGCTTGCATGCGGTGTCCAGGGACCTAAATGCCTATCCACGAGAGCATTTGTATGTTATGGTGAAT
+GCTAAATTTGGAGAAGAATCAAAAGAATCTGTTGCTGAAGAAGAAGACAGTGATGATGATGTTGAACCTATTGCTGAATT
+TAGATTTGTGCCTAGTGATAAATCAGCATTGGAGGCAATGTTCACTGCAATGTGTGAATGCCAGGCTTTGCATCCTGATC
+CTGAGGATGAAGATTCAGATGATTACGATGGAGAAGAATATGATGTGGAAGCACATGAACAAGGGCAGGGGGACATCCCT
+ACATTTTATACCTATGAAGAAGGATTATCCCATTTAACAGCAGAAGGCCAAGCCACCTTGGAGAGATTAGAAGGAATGCT
+TTCTCAGTCTGTGAGCAGCCAATATAACATGGCTGGAGTCCGGACAGAAGATTCAACCAGAGATTATGAAGATGGGATGG
+AGGTAGACACTACACCAACAGTTGCTGGACAGTTTGAGGATGCAGATGTTGATCACTGAAGATGATTTATGCTGCTGTGG
+GATTCTGCTCATAACTAGGAAAGGACTAAAGAACTTGGTGCCTCTTCTACTGTGGAGTGGGTGTTGATGAAAGTCTTTTT
+CCTTCTCCAAAATTTACCTGAACCAGTTCTTTTTTTGAGACAGACTATATACTGAGACAAAAAGTTGTCACCAGCAGAAG
+AAACTATGACCTTTATTAACAAAGGTGAATTAACTTAACCAAGAGGGTATTTGTAGTTTATCATCTACCCAAAACTTTTG
+TGTATAGGTATCCTCTGAGTAGGCCTATAGTTCCTGCTTTCACTATATGCATCTTCTGTAACCTGGCAGGCCTATGTGGT
+GAGAATGCGCAGGTGCTTGAAGACATAGGTAGACTGGATGGGAAGGAAGGAGGCTGAATCTAAGATATATCCTTTAGAGC
+CTAAGGATTCCCTTACCCCTTAGAAAGAAAGACAAAGAGATCTCAGAGAAATCCTGGCCACTGCTTGTTCTTCACAGGGA
+TTAGGGTCTTTTTACTAATTTGGGATCCAGGTTAATTCATTTAGGCATCTTTAGAGAGCCTCTTGGAAATATCCTAGCCA
+CATGAAATACCACTAATATGGATGCTTCTGATTAGCTTTTACTCTTTCACCATGTTTCACCAGTCTGTTTTGTTATAACC
+TCTTAGGTTATAGCCTTTAATTTCTAACCTCTTAGGTCAGTTTCCATAACAAATGAAATTGGGATGAAGTCCTCACAGTA
+CTTCAATGATACTTGTTTTGTCTTTGTAATAGTTTAACAAATAAATCTAGGTTTTCTAT
+>ref|X53591.1| Dog mRNA for glycoprotein gp25H
+TCGAATTCCCACAAATCTTCTCACTATTTTGCTACATAGATGAGTTGATCCTTTTAGATTGTTTATGGGTAGCTCTTCCG
+GTCTCGGTGGTCCCCTGAAAGACTGTGGGGTGCGCGCGATGAGGCTTCTGGCTTCTGTGCTGTTGGCCCTGTTTGCTGTC
+AGTCATGCGGAGGAAGGAGCCCGGCTTCTGGCCTCCAAGTCACTGCTGAACAGATACGCCGTGGAGGGGCGAGACCTGAC
+CTTGCAGTACAACATCTACAATGTTGGCTCAAGTGCTGCATTAGACGTGGAGTTATCTGATGATTCCTTTCCCCCAGAGG
+ACTTTGGCATTGTGTCTGGAATGCTCAATGTCAAATGGGACCGGATTGCCCCTGCTAGCAATGTCTCCCACACCGTGGTC
+CTGCGCCCGCTCAAGGCTGGCTATTTCAACTTTACTTCGGCTACTGTTACTTACCTGGCTCAGGAGGATGGGCCTGTCGT
+GATTGGCTTTACCAGCGCCCCTGGACAGGGAGGGATCCTGGCCCAGCGGGAGTTTGATAGGAGATTCTCCCCGCATTTTC
+TGGACTGGGCAGCCTTCGGAGTCATGACCCTGCCCTCCATCGGCATCCCCCTGCTGCTGTGGTACTCCAGCAAGAGGAAA
+TATGACACTCCCAAGTCCAAGAAGAACTGAGGGGCTTCCGAGGCCGCTGCCTAGGAGATCCAGGTGCTTTCCAGACTCCG
+GAGGGCCTCTGGAGTGCGGTCTCTCATCCCCAGCCCCTGCCACCTTCTCCAGGATCCTGCCTGCTCTCAACCAGAGTCGG
+ACAGCCTCGGTGTCTGTGAAAGCCTCCTCCTTCTGTCCCAAAGCCATATGAGCAAGAACGAGCAGGAATGCCTCCAGCAA
+CAATCCTCGGGACCTCATCTGTGTGCCTTGTGGTGCTGCAGTGTGAACTGAGGGGCCAGGAGGGGGCACTAAGGAAACTG
+CCTGACTCTACCCCCATCCCCTGCTCTCGCCTCTCGGAAGAGGGTGGAGAGGATCAGATGAAGGCCAAGTGACTCGGAGG
+CTACCCAATCTCTGTTGTGGGTCAGGGGAGCTCTAACCAAATGGAGTTTTCTAATAAAAACATGCCACACGGAATTCCTG
+CAGCCCGGGGGATCCACGAGTCTA
+>ref|NM_001003286.1| Canis lupus familiaris glycoprotein 25L (TMED11), mRNA
X53592.1 Dog mRNA for glycoprotein gp25L
+CAGAAATGCCAATGCTGGCATTTGCTTTAAGTTTTTATTTTTCTCTTTCAACTGCTTTCTACTTCCACGTAGGGGAACGA
+GAGGAGAAATGCATCATAGAAGACATTCCAAGTGACACGCTGGTAACAGGGACTTTCAAGACACAGCAGTGGGACTTCCG
+CAGGCAGGATTTCCTCGAATCTGCTCCGGGCCTGGGGATGTTTGTGACTGTCACAACCTACAACGATGAGGTATTATTGT
+CCAAGTTATATGGCCCACAAGGAAGATTCTATTTTACTTCACATTCACCTGGCGAACACATCATTTGCTTGGAATCTAAT
+TCTACGAGGCTTGTGTCCTTCGGTGGGAGTAAGCTGCGGATCCACTTAGAGATTCGAGTTGGACAACATGACCTTGATGC
+GGCCATTGCTCAAGCAAAGGACAAAGTTAATGAAGTTAGCTTTAAGCTGGAACATCTAATTGAGCAAATTGAGCAAATAG
+TCAAAGAACAGAACTATCAAAGGGACCGTGAAGAAAATTTTCGGATGATCAGTGAAGATACAAATAGCAATGTTTTATGG
+TGGGCATTTGCACAAACATTGATCTTTATTGCAATCGGAATTTTCCAAATGAAATCCCTTAAAAACTTCTTTATAGCTAA
+GAAACTCGTTTAAAATGTTAATACAAACAGCTACCTGCTAATTTGTAGAATGTCTGAGTTAATAAATCAAAATACATTCA
+CAAAAAAAAAAAAATAATACAAACAGCTACCTGCTAATTTGTAGAATGT
+>ref|NM_001003285.1| Canis lupus familiaris thyroid stimulating hormone receptor (TSHR), mRNA
X17146.1 Canine mRNA for thyrotropin (TSH) receptor
M29957.1 Canine thyrotropin receptor (TSH) mRNA, complete cds
+CAGGCGCAGAGGGGCCCAGACGACCGTGGAGGATGAAGAAATAGCCTTGGGACCCTTGGAAAATGAGGCCGCCGCCCCTG
+CTGCACCTGGCGCTGCTTCTCGCCCTGCCCAGGAGCCTGGGGGGGAAGGGGTGTCCTTCTCCCCCCTGTGAGTGCCACCA
+GGAGGATGACTTCAGAGTCACCTGCAAGGATATCCACCGCATCCCCACCCTACCACCCAGCACGCAGACTCTGAAGTTTA
+TAGAGACTCAGCTGAAAACCATTCCCAGTCGTGCATTTTCAAATCTGCCCAATATTTCCAGGATCTACTTGTCAATAGAT
+GCAACTCTGCAGCGGCTGGAATCACATTCCTTCTACAATTTAAGTAAAATGACTCACATAGAGATTCGGAATACCAGAAG
+CTTAACATCCATAGACCCTGACGCCCTAAAAGAGCTCCCACTCCTGAAGTTCCTTGGCATTTTCAACACTGGACTTGGAG
+TATTCCCTGATGTGACCAAAGTTTATTCCACTGATGTATTCTTTATACTTGAAATCACAGACAACCCTTACATGGCTTCC
+ATCCCTGCCAATGCTTTCCAGGGGCTGTGCAATGAAACCCTGACACTGAAACTATACAACAATGGCTTTACTTCAATCCA
+AGGACATGCTTTCAATGGGACAAAACTGGATGCTGTTTACCTGAACAAGAATAAATACCTGTCAGCTATCGACAAAGATG
+CATTTGGAGGAGTGTACAGTGGACCAACCTTGCTGGATGTCTCTTACACCAGTGTTACTGCCCTGCCATCCAAAGGCCTG
+GAGCATCTAAAGGAGCTGATAGCAAGAAACACTTGGACTCTAAAGAAACTCCCACTTTCCTTGAGTTTCCTTCACCTTAC
+ACGGGCTGACCTTTCTTATCCAAGCCACTGCTGTGCTTTTAAGAATCAGAAGAAAATCAGAGGAATCCTTGAGTCCTTAA
+TGTGTAATGAAAGCAGTATTCGGAGCCTGCGCCAGAGAAAATCTGTGAATACTTTGAATGGCCCCTTTGACCAGGAATAT
+GAAGAGTATCTGGGTGACAGCCATGCTGGGTACAAGGACAACTCTCAGTTCCAGGATACCGATAGCAATTCTCATTATTA
+TGTCTTCTTCGAAGAACAAGAAGATGAGATCCTCGGTTTTGGGCAGGAGCTTAAAAACCCACAGGAAGAGACCCTCCAGG
+CCTTTGATAGCCATTATGACTACACTGTGTGTGGTGGCAATGAAGACATGGTGTGTACTCCTAAGTCAGATGAGTTCAAC
+CCCTGTGAAGACATAATGGGCTACAAGTTCCTGAGGATTGTGGTGTGGTTTGTTAGTCTGCTGGCTCTCCTGGGCAATGT
+CTTTGTCCTGATCGTCCTCCTTACCAGTCACTACAAATTGACTGTCCCACGCTTTCTCATGTGCAACTTGGCCTTTGCAG
+ATTTCTGCATGGGGATGTATCTGCTCCTCATCGCCTCCGTAGACCTCTACACTCATTCTGAGTACTACAACCATGCCATC
+GACTGGCAGACAGGCCCTGGGTGTAACACAGCTGGTTTCTTCACTGTCTTTGCCAGTGAATTATCAGTGTATACACTGAC
+AGTCATCACCCTGGAGCGCTGGTATGCCATTACCTTCGCCATGCGCCTGGACAGGAAGATCCGCCTCAGGCATGCATATG
+CCATCATGGTTGGGGGCTGGGTTTGCTGCTTCCTGCTCGCCCTGCTCCCTCTGGTGGGAATAAGCAGCTATGCCAAGGTC
+AGCATCTGCCTGCCCATGGACACTGAGACACCTCTTGCCCTGGCATATATTATCCTTGTTCTGTTGCTCAACATAGTTGC
+CTTTATCATTGTCTGCTCCTGTTATGTGAAGATCTACATCACAGTCCGAAATCCCCAGTACAACCCGGGGGACAAAGACA
+CCAAAATTGCCAAAAGGATGGCTGTATTGATCTTCACTGACTTCATGTGCATGGCCCCAATCTCATTCTACGCTCTGTCA
+GCACTTATGAACAAGCCTCTCATCACTGTTACCAACTCCAAAATCTTGCTGGTTCTCTTCTATCCACTTAACTCCTGTGC
+CAATCCATTTCTCTATGCTATTTTCACGAAAGCCTTCCAGAGGGATGTATTTATCCTGCTCAGCAAGTTTGGCATCTGTA
+AACGCCAGGCTCAGGCATACCGGGGCCAGAGGGTTTCTCCAAAGAATAGTGCTGGTATTCAGATCCAAAAGGTTACCCGG
+GACATGAGGCAAAGTCTCCCCAACATGCAGGATGAGTATGAACTGCTTGAAAACTCCCATCTAACCCCAAATAAGCAGGG
+CCAAATCTCAAAAGAGTATAACCAAACAGTTCTGTAAGCAGACCCTATACTACTCGCAGTGGCAGGTGGACTTCTAAAAA
+TCTAGTTTCTTGAACACGTATTCCAAATTCATTATATACACAAGACAGCTGACCTAACCCTTTGCAGGTGATGTTTCATG
+GGGCAAATTTCATCTCCAAAAAGGGGGTAGCTCTACCACCTAATCATTACCTCCCAGAAGGAAGAGAGGCTACCAGCACT
+TCTGAACCCTGGTGATATCAAGATAACTGACACTTTCTAGAAAACTTGTTTGATGCTAACTGCTTTAACAACATTGTATA
+AGATGTCCAACAGATATTAACTGAACCAGGTCAACATTGAGCTTCTCACTTTCAAATAGCATTTCATAGTAAAGATTCTG
+CAAATGGCAAATGCTATTAACTGAGTTGGTGACCACAAGATAGAATTAGCCCCATGTTGGCTTGGTCCACCTTCATGTTC
+TTGGATACAACCAAAGAGAATGTGAATTCCTCGAAACTGAAAAGTCCAGCAGGATACATGCATGAAGCAGCTATTATGAG
+GTGGAAGGAGGGGAAAGGCTTAGCTTAGTTGTTATTTCAGCCTCTGAAACTATATCATCTCTTCACAAGGACCTACCTGA
+TGTGACCCAACTGTTAGGTGTTGCCCAGGGGGGAAAAAAACTGGCAAGATTTCAGCTTATGTGGCTGAGCAAAGTAAGAA
+TTGTTCTTCTTGGCTAGTCTTATAGCATAAAATACGTGAACCCTAGAAATATTTCTAAGTAGCAGCAAGTGGGAATTATG
+AGCAGGGCACACTAAATCACACACTGATTAATAAAGCAGGGCCACAAGGTAACTGTTGGAGCTTGGGCAAATCACTGGGC
+CACTTCTAAGTCTAGAAATGAGAGAGCCTGATTGCTTCTTCAGTTTCAAAACTCTATGTATATCCCTTCCCCTTAAAATA
+TGTTTCCATGACAAAAAAGAAAAGCACTAAAAAAGAAAAGAAAAGAAAAGCACTAAGAAAGAAAAATTTATTTTTCCTAT
+CTTGTAGTGCAGCCACCTCTTTCTCTTTGGAGGCTGGATATATGACCCAGGACATTTCTTTCTTTTTTTTATTTTTTTTT
+TCATTTTTGATTATAATGTCTGATCCATGTTGGGCTGGATCTAAATCACTCAACTAATTACTAGATCTCTACAGCTACAA
+TTATCAGGCCAAAAACAGACTCATATTCACATAACAGAATAAAAGGTGGTTTTGCAAATTTTGGTTATTCAGAGTTACTA
+CTTCACTGTATAGATTAACTTGAAAACATTTAACTTGTCCAGGGATTGGAAGCTATCAAACACTCAGGCAAAGCAACACT
+AAAGCTATCAAGAGAAGTTTCTTCTCTCCAAAACTGCTAGCCTTTTCCAACCTGTTGATCATTGGACATAATCTCTATTG
+CCCAATAGTGTTCTCTTACTTAAAATGGTTAGGATCAATCTTTTAATATAGACGTACTCTTCAGATTACCTGTCAAAACA
+GTCCCTTAATTTCCTCCCAAGCAGAGATGGCATTTGCTTCTCAATGTTCATGAAGCACACCAAGGAATTAGAAGCATTTG
+TTGTTTCAAGTCTGTGGAGTAGGGTTACTGGGCCCAATGCCCCCCCCCCCACAGAGATGGTCCCCCAACCCACCTAGGAT
+ATCCCAATAGCAATACCCATTTCTGATTATCATTGAGATTGGACATCTTAGTAGAAATATTATACACACTCGAAATCATG
+ACTTATCCACCAGTTCACTTGTAACTAATAACTAAACAGTTGTGTTATCGTTTGGCATGTGTTTCTCACCTGTGACATTT
+TGAAATAGTACATCCTGATAATGTATTTTATCTTAAGTAGTTGAAATAACACTTTGGAAACCGTCCTAGAAAAGTAACTT
+CAACACAATTGTTACTAAAATTTGCATTCACAACATGAAATAAATTTTCTTCCTATGAAATGATTGTGCTGAGTCCTACA
+GTATGGCATTTTGTAATTTGTGAGCTTCTTTTAATGTTACCGTTATATGTGTTACAACTGAAGACAGGGAAAAAAAAACA
+ACTGGCAAATTTGCTAA
+>ref|X17147.1| Canine mRNA for thyrotropin (TSH) receptor variant
M90047.1 Dog thyrotropin receptor variant (TSH) mRNA
+CAGGCGCAGAGGGGCCCAGACGACCGTGGAGGATGAAGAAATAGCCTTGGGACCCTTGGAAAATGAGGCCGCCGCCCCTG
+CTGCACCTGGCGCTGCTTCTCGCCCTGCCCAGGAGCCTGGGGGGGAAGGGGTGTCCTTCTCCCCCCTGTGAGTGCCACCA
+GGAGGATGACTTCAGAGTCACCTGCAAGGATATCCACCGCATCCCCACCCTACCACCCAGCACGCAGACTCTGAAGTTTA
+TAGAGACTCAGCTGAAAACCATTCCCAGTCGTGCATTTTCAAATCTGCCCAATATTTCCAGGATAGAGATTCGGAATACC
+AGAAGCTTAACATCCATAGACCCTGACGCCCTAAAAGAGCTCCCACTCCTGAAGTTCCTTGGCATTTTCAACACTGGACT
+TGGAGTATTCCCTGATGTGACCAAAGTTTATTCCACTGATGTATTCTTTATACTTGAAATCACAGACAACCCTTACATGG
+CTTCCATCCCTGCCAATGCTTTCCAGGGGCTGTGCAATGAAACCCTGACACTGAAACTATACAACAATGGCTTTACTTCA
+ATCCAAGGACATGCTTTCAATGGGACAAAACTGGATGCTGTTTACCTGAACAAGAATAAATACCTGTCAGCTATCGACAA
+AGATGCATTTGGAGGAGTGTACAGTGGACCAACCTTGCTGGATGTCTCTTACACCAGTGTTACTGCCCTGCCATCCAAAG
+GCCTGGAGCATCTAAAGGAGCTGATAGCAAGAAACACTTGGACTCTAAAGAAACTCCCACTTTCCTTGAGTTTCCTTCAC
+CTTACACGGGCTGACCTTTCTTATCCAAGCCACTGCTGTGCTTTTAAGAATCAGAAGAAAATCAGAGGAATCCTTGAGTC
+CTTAATGTGTAATGAAAGCAGTATTCGGAGCCTGCGCCAGAGAAAATCTGTGAATACTTTGAATGGCCCCTTTGACCAGG
+AATATGAAGAGTATCTGGGTGACAGCCATGCTGGGTACAAGGACAACTCTCAGTTCCAGGATACCGATAGCAATTCTCAT
+TATTATGTCTTCTTCGAAGAACAAGAAGATGAGATCCTCGGTTTTGGGCAGGAGCTTAAAAACCCACAGGAAGAGACCCT
+CCAGGCCTTTGATAGCCATTATGACTACACTGTGTGTGGTGGCAATGAAGACATGGTGTGTACTCCTAAGTCAGATGAGT
+TCAACCCCTGTGAAGACATAATGGGCTACAAGTTCCTGAGGATTGTGGTGTGGTTTGTTAGTCTGCTGGCTCTCCTGGGC
+AATGTCTTTGTCCTGATCGTCCTCCTTACCAGTCACTACAAATTGACTGTCCCACGCTTTCTCATGTGCAACTTGGCCTT
+TGCAGATTTCTGCATGGGGATGTATCTGCTCCTCATCGCCTCCGTAGACCTCTACACTCATTCTGAGTACTACAACCATG
+CCATCGACTGGCAGACAGGCCCTGGGTGTAACACAGCTGGTTTCTTCACTGTCTTTGCCAGTGAATTATCAGTGTATACA
+CTGACAGTCATCACCCTGGAGCGCTGGTATGCCATTACCTTCGCCATGCGCCTGGACAGGAAGATCCGCCTCAGGCATGC
+ATATGCCATCATGGTTGGGGGCTGGGTTTGCTGCTTCCTGCTCGCCCTGCTCCCTCTGGTGGGAATAAGCAGCTATGCCA
+AGGTCAGCATCTGCCTGCCCATGGACACTGAGACACCTCTTGCCCTGGCATATATTATCCTTGTTCTGTTGCTCAACATA
+GTTGCCTTTATCATTGTCTGCTCCTGTTATGTGAAGATCTACATCACAGTCCGAAATCCCCAGTACAACCCGGGGGACAA
+AGACACCAAAATTGCCAAAAGGATGGCTGTATTGATCTTCACTGACTTCATGTGCATGGCCCCAATCTCATTCTACGCTC
+TGTCAGCACTTATGAACAAGCCTCTCATCACTGTTACCAACTCCAAAATCTTGCTGGTTCTCTTCTATCCACTTAACTCC
+TGTGCCAATCCATTTCTCTATGCTATTTTCACGAAAGCCTTCCAGAGGGATGTATTTATCCTGCTCAGCAAGTTTGGCAT
+CTGTAAACGCCAGGCTCAGGCATACCGGGGCCAGAGGGTTTCTCCAAAGAATAGTGCTGGTATTCAGATCCAAAAGGTTA
+CCCGGGACATGAGGCAAAGTCTCCCCAACATGCAGGATGAGTATGAACTGCTTGAAAACTCCCATCTAACCCCAAATAAG
+CAGGGCCAAATCTCAAAAGAGTATAACCAAACAGTTCTGTAAGCAGACCCTATACTACTCGCAGTGGCAGGTGGACTTCT
+AAAAATCTAGTTTCTTGAACACGTATTCCAAATTCATTATATACACAAGACAGCTGACCTAACCCTTTGCAGGTGATGTT
+TCATGGGGCAAATTTCATCTCCAAAAAGGGGGTAGCACTACCACCTAATCATTACCTCCCAGAAGGAAGAGAGGCTACCA
+GCACTTCTGAACCCTGGTGATATCAAGATAACTGACACTTTCTAGAAAACTTGTTTGATGCTAACTGCTTTAACAACATT
+GTATAAGATGTCCAACAGATATTAACTGAACCAGGTCAACATTGAGCTTCTCACTTTCAAATAGCATTTCATAGTAAAGA
+TTCAGCAAATGGCAAATGCTATTAACTGAGTTGGTGACCACAAGATAGAATTAGCCCCATGTTGGCTTGGTCCACCTTCA
+TGTTCTTGGATACAACCAAAGAGAATGTGAATTCCTCGAAACTGAAAAGTCCAGCAGGATACATGCATGAAGCAGCTATT
+ATGAGGTGGAAGGAGGGGAAAGGCTTAGCTTAGTTGTTATTTCAGCCTCTGAAACTATATCATCTCTTCACAAGGACCTA
+CCTGATGTGACCCAACTGTTAGGTGTTGCCCAGGGGGGGAAAAAAACTGGCAAGATTTCAGCTTATGTGGCTGAGCAAAG
+TAAGAATTGTTCTTCTTGGCTAGTCTTATAGCATAAAATACGTGAACCCTAGAAATATTTCTAAGTAGCAGCAAGTGGGA
+ATTATGAGCAGGGCACACTAAATCACACACTGATTAATAAAGCAGGGCCACAAGGTAACTGTTGGAGCTTGGGCAAATCA
+CTGGGCCACTTCTAAGTCTAGAAATGAGAGAGCCTGATTGCTTCTTCAGTTTCAAAACTCTATGTATATCCCTTCCCCTT
+AAAATATGTTTCCATGACAAAAAAGAAAAGCACTAAAAAAGAAAAGAAAAGAAAAGAAAAGCACTAAGAAAGAAAAATTT
+ATTTTTCCTATCTTGTAGTGCAGCCACCTCTTTCTCTTTGGAGGCTGGATATATGACCCAGGACATTTCTTTCTTTTTTT
+TATTTTTTTTTTCATTTTTGATTATAATGTCTGATCCATGTTGGGCTGGATCTAAATCACTCAACTAATTACTAGATCTC
+TACAGCTACAATTATCAGGCCAAAAACAGACTCATATTCACATAACAGAATAAAAGGTGGTTTTGCAAATTTTGGTTATT
+CAGAGTTACTACTTCACTGTATAGATTAACTTGAAAACATTTAACTTGTCCAGGGATTGGAAGCTATCAAACACTCAGGC
+AAAGCAACACTAAAGCTATCAAGAGAAGTTTCTTCTCTCCAAAACTGCTAGCCTTTTCCAACCTGTTGATCATTGGACAT
+AATCTCTATTGCCCAATAGTGTTCTCTTACTTAAAATGGTTAGGATCAATCTTTTAATATAGACGTACTCTTCAGATTAC
+CTGTCAAAACAGTCCCTTAATTTCCTCCCAAGCAGAGATGGCATTTGCTTCTCAATGTTCATGAAGCACACCAAGGAATT
+AGAAGCATTTGTTGTTTCAAGTCTGTGGAGTAGGGTTACTGGGCCCAATGCCCCCCCCCCCACAGAGATGGTCCCCCAAC
+CCACCTAGGATATCCCAATAGCAATACCCATTTCTGATTATCATTGAGATTGGACATCTTAGTAGAAATATTATACACAC
+TCGAAATCATGACTTATCCACCAGTTCACTTGTAACTAATAACTAAACAGTTGTGTTATCGTTTGGCATGTGTTTCTCAC
+CTGTGACATTTTGAAATAGTACATCCTGATAATGTATTTTATCTTAAGTAGTTGAAATAACACTTTGGAAACCGTCCTAG
+AAAAGTAACTTCAACACAATTGTTACTAAAATTTGCATTCACAACATGAAATAAATTTTCTTCCTATGAAATGATTGTGC
+TGAGTCCTACAGTATGGCATTTTGTAATTTGTGAGCTTCTTTTAATGTTACCGTTATATGTGTTACAACTGAAGACAGGG
+AAAAAAAACAACTGGCAAATTTGCTAA
+>ref|X55317.1| C.domesticus gene for proteolipid protein
+AGAGGACCGAAGAAGGAGACTGGAGAGACCAGGATCCTTCCAGCTGAACAAAGTCAGCAGCAAAGCAGACTAGCCAGCTG
+GCTACAATTGGAGTCAGAGTTCCAAAGACATGGGCTTGTTAGAGTGCTGTGCAAGATGTCTTGTAGGGGCCCCCTTTGCT
+TCCTTGGTGGCCACTGGATTATGTTTCTTTGGGGTGGCACTGTTCTGTGGCTGTGGACATGAAGCATTAACTGGTACAGA
+AAAGCTAATTGAGACCTATTTCTCCAAAAACTACCAGGACTATGAGTATCTCATCAATGTGATCCATGCCTTCCAGTATG
+TCATCTATGGAACTGCCTCTTTCTTCTTCCTTTATGGGGCCCTCCTGCTGGCTGAGGGCTTCTACACCACCGGTGCAGTC
+AGGCAGATCTTTGGCGACTACAAGACCACCATCTGCGGCAAGGGCCTGAGCGCAACGGTAACAGGGGGCCAGAAGGGGAG
+GGGTTCCAGAGGCCAACATCAAGCTCATTCTTTGGAGCGGGTGTGTCATTGTTTGGGAAAATGGCTAGGACATCCCGACA
+AGTTTGTGGGCATCACCTATGCCTTGACCATTGTGTGGCTCCTGGTGTTTGCCTGCTCTGCTGTGCCTGTGTACATTTAC
+TTCAATACCTGGACCACCTGCCAGTCAATTGCCTTCCCCAGCAAGACTTCTGCCAGTATAGGCAGTCTCTGTGCTGATGC
+CAGAATGTATGGTGTTCTCCCATGGAATGCTTTCCCAGGCAAAGTGTGTGGCTCCAACCTTCTGTCCATCTGCAAAACAG
+CTGAGTTCCAAATGACGTTCCACCTGTTTATTGCTGCATTCGTGGGGGCTGCAGCCACACTGGTTTCCCTGCTCACCTTC
+ATGATTGCTGCCACTTACAACTTTGCCGTCCTTAAACTCATGGGCCGAGGCACCAAGTTCTGATCTCCTGTAGAAATGTC
+CCTTTCTCTAATAGCGAGGCTCTAACCACACAGCCTACAATGCTGCGTCTCCCATGTTAACTCTTTGCCTTTGCCATCTA
+TTGGCCCTTTCTTACTTGACGAGTGTAACAAGAAAGGAGAGTCTTGTGGTGATTAATGTCTCTCTGTGGACTCTCCCCCT
+TACATACCTCTTTTAGTCATTTTGCTTCACAGCTGGTTCCTGCTAGAAATGGG
+>ref|Z18635.1| C.eutropia gene for large subunit rRNA
+AGTATTAGAGGCACTGCCTGCCCAGTGACAATGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCACTT
+GTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCTCC
+CCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAATA
+ATACCACCAAGGGATAACAAAGCTTTACATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCCTCCGA
+GTGATTAAAACTTAGGCCTACCAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTACCC
+TAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCT
+AATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18634.1| C.eutropia gene for small subunit rRNA
U13082.1 Cephalorhynchus eutropia mitochondrion 12S rRNA gene, partial sequence
+CCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACCACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCATAAACTTACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|X59998.1| C.familiaris mRNA for amylin
+CCTCTGATATACTGACACTGAAACATTAAAAGTAAATTTGAGAAACAATGTGTCTCCTGAAGCTGCCAGTAGTTCTCATC
+ATACTCTCGGTTGCATTAAACCATCTGAAGGCTACTCCCATTAAAAGTCACCAGATGGAAAAGCGGAAATGCAACACTGC
+CACGTGTGCGACTCAACGCCTGGCAAATTTCTTGGTTCGTACTAGCAATAATCTTGGTGCCATTCTCTCGCCTACCAATG
+TGGGATCCAATACATATGGCAAGAGAAACACAATTGAGATTTTAAACAGGGGACCATTGAATTACTTACCACTTTAGAGG
+TCAACGCACCCCTATCATTCTTACTTTCATGTATAAAAATATTCTAGTGATTTCTTGTGTAAGTTAACATTAGCATGAAC
+ATAAGTTTTTATGTACTATGTTTGTTAGTAGTACATATAAATTGTTATGGTAAGAATTGTTTTAACTTTAATGCTAATTA
+AGACCCCATCATAAAAAGTCAATGTCTTTAAAAATGAAATGTTCTTGCTATAGATATTTATTTTGAAAACATATTAAAAA
+GTCATTCTTTTGCCTATATCTTTATGATCTGAGTTTGAGAACAAAAGAGAAAATAGTATTTGGAAACTTGGTAAATTGTA
+AACAGCGGAGAGTGAAGTTAAGCACATTAAAAAGGGCATTGAGGACCGCAGGTGAGGAGAGCTTGATGAGCATGATGTCA
+TTGTCCAGGATCCAGCTGTTATAGTTGGGATGGCGGATGACCTTGGCGGAGTTGATGAACTGCTACAAGTCCCGCATCCA
+AGTGAGACTCGGAGAGTACAACATCGATGTCCTGGAGGGGAATGAGCAGTTCATCAACTCCGCCAAGGTCAT
+>ref|X05297.1| Dog kidney mRNA for (Na+/K+)-ATPase beta-subunit
+GGTTGTGTAGTCCGTAAGTGTCAACTTTTGAAACTGTCCTTTCACTTCACACGGAAGCCCAGCGATGCTCTGATAGTAGC
+TTATGAACCAGCCTTATGCTGGTGGGAGGTTTTTTTGTTTTTGTTTTTGTTTTTTGTTTTTTTTGGTAGCCCATCCACAC
+ATGCTATTAACTCTGATTTTCATTGAGCATCTAAAGTATAAGATCTAAGATGTTTCATGCAAAGATAGTCTTATTAACGT
+TTTTTGGTTTGACACTCTTCCCCCAAGGTGGTGTGGTGTTCAGGCACCTGCCGTAGTAGGGGTAATATTGCAGAGGAAAG
+CCCGGGTAGCCGCCCAGGCCAAAATACTCCACGTTCCCAATTCTATCCTTGTCTTCGTCTCGCTTGCCAGTGCACTGAAC
+CGGCAGGACGTAAGGACTGTATTTCATCACTGGGTAAGCCTCCAGGGACTCATTCTTGGGAGGCTTAGGTTTGAAGCCCA
+GAACTCGGAGAGCCGCAGCGGCCGCGGCGGGTGCAGCCTGCGGAGAGCGGGGCGCGGGCCGCCGACCAGCAGCCGGGAGG
+ACGCGAGGCGCGCGCCGCACTCACCCACCCTCAGCCCCCGCGGCAGCCGCTGACCCGCCACCATGGCCCGCGGAAAAGCC
+AAGGAGGAGGGCAGCTGGAAGAAATTCATCTGGAACTCGGAGAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTT
+TAAGATCCTTCTGTTCTACGTGATATTTTACGGCTGCTTGGCTGGGATCTTCATTGGGACCATTCAAGTGATGCTGCTCA
+CCATCAGCGAATTCAAGCCCACATACCAGGACCGTGTGGCCCCACCAGGATTAACACAGATTCCTCAGATCCAAAAGACT
+GAAATTTCCTTTCGCCCTAACGATCCCAAGAGCTATGAGGAATATGTGCGCAACATAGTCAGGTTCCTGGAGAAGTACAA
+AGATTCAGCCCAGAAGGATGAAATGATTTTTGAAGATTGTGGCAATATGCCCAGCGAAATCAAAGAACGAGGAGAATTTA
+ACAATGAACGAGGAGAGCGGAAAGTCTGCAGGTTCAAGCTTGAGTGGTTGGGCAATTGCTCCGGAATCAACGATGAGACT
+TATGGCTACAGAGACGGCAAACCGTGTGTCCTAATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAA
+TGAGTCCCTGGAGGCTTACCCAGTGATGAAATACAGTCCTTACGTCCTGCCGGTTCAGTGCACTGGCAAGCGAGACGAAG
+ACAAGGATAGAATTGGGAACGTGGAGTATTTTGGCCTGGGCGGCTACCCGGGCTTTCCTCTGCAATATTACCCCTACTAC
+GGCAAGTTGCTCCAGCCCAAGTATCTGCAGCCCCTGCTCGCCGTGCAGTTCACCAACCTCACCATGGACACTGAAATTCG
+CATCGAGTGTAAGGCTTACGGGGAGAACATTGGTTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTG
+AAGTTAAGAGCTGATCACAAGCACAAATCTTTCCCACTAGCCATTTAAAAAAAGTTAAAAAAAAGATACAAAAAACAAAA
+ACCTACTAGTCTTGGAATAAACTGTCATACGTATGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTT
+AATAGGTTAGAATGTAAATTTAAAGTGTAGCAATAGCAAGAAAATATTTATTCTACTGTAAATGAC
+>ref|X64964.1| C.familiaris mRNA DOPCRH01 for olfactory receptor
+TGTCTGTAACCCTCTAAGGTATCCAGTCCTGATGAACCGCAGGGTGTGTCTCCTGCTGGCTGCTGGTGCCTGGTTTGGTG
+GGTCCCTGGATGGCTTTCTGCTCACCCCCATCACCATGAATGTCCCTTACTGTGGCTCCCACAGTATCAACCATTTTTTC
+TGTGAGATCCCTGCAGTTCTCAGACTAGCCTGTGCTGACACATCCTTGTATGAAACCCTAATGTACATCTGCTGTGTACT
+CATGTTACTCATCCCTATCTCTATCATCTCAACCTCCTACTCTCTCATCTTGTTAACTGTCCACCGAATGCGCTCTGCTG
+AAGGCCGGAAAAAAGCTT
+>ref|X64965.1| C.familiaris mRNA DOPCRH02 for olfactory receptor
+CATCTGTAACCCTCTGCGCTACACAGAGCTCATGGGACACCGGGTGTGTGTGGGACTCGTGGCCACTGCCTGTGCCTGTG
+GCTTGACTATTGCACAGATTATCACCTCCCTGGTGTTTTACCTGCCGTTCCGCTCCTCCAACCAGCTCCATCACTACTTC
+TGCGACATCCCTCCTGTCCTCAAAGTGGCATCTCAACATACCCACTTGAGTCAGATTGTCATTATCATGCTCTGTGCATT
+GGTCCTGGTTATCCCTCTGCTACTGATTTTGGTATCCTATATTCACATCATCTCTGCCATCATCCAATTTCCTTCCACAT
+TAGGCAGATACAAAGCTT
+>ref|X64966.1| C.familiaris mRNA DOPCRH07 for olfactory receptor
+CATTTGCAAGCCCCTGCATTACTTGACCATCATGAACCTGAAGACTTGCTCCTTCCTGGTCACTACCTGCTTCACTTTGG
+CCTTCACTCTCATCACTGGTTTGGTAGTGAAAGTTTCCCAGTTATCCTTCTGTGGCCCCTATGTCATCCCTCACTTTTTC
+TGTGACATTGGCCCCCTGATTCATCTTTCCTGTTCTGACACTAAACCTACTGAAATGTTGGCTTTTGTCCTCGCTTTGTT
+TATCCTTTTGACATCCCTTATCATAACCATCATTGCCTACAGCAACATAATAGTCACAATTGTACAACTCCCATCAGCTA
+GGGAACGACAGAAAGCTT
+>ref|X64967.1| C.familiaris mRNA DOPCRX01 for olfactory receptor
+TGTTTGCCACCCACTGAGGTACCCCGTTCTCATGAGCTGGCAATTATGCCTGAGAATGACCGTGGGGTCCTGGTCCCTGG
+GGGCAGCTGATGGGCTCATGCAGGCTGCTGCCACCCTGAGTTTTCCATTCTGTGGTGCACATGAGATCAATCATTTCTTC
+TGTGAGGCCCCCACTCTGGTGCGTTTGGCTTGTGCTGACACGTTTGTTTTTGAGTATGTCATGTATATCTGCTGTGTATT
+AATGCTGCTGGTTCCGTTTTCTCTCATCCTGATTTCCTATAGTCTCATCCTTGCTGCAGTTCTCCAGATGCATTCTAGAG
+AAGCCCGCAAGAAAGCTT
+>ref|X64968.1| C.familiaris mRNA DOPCRX04 for olfactory receptor
+TATTTGCTTTCCTCTTCACTATCCCATTCGTATGAGCAAAAAAGTATGCATGCTGATGATAACAGGATCTTGGATAATGG
+GCTCAGTCAATGCTTGTGCCCACACTGTATACGCCTTCCATATACCTTACTGTCGATCCAGGAACATCAACCATTTCTTC
+TGTGATGTCCCAGCCATGTTGACTTTAGCCTGCATGGACACCTGGGTCTATGAGTACACAGTGTTTGTGAGCACCATCCT
+CTTCCTTGCATTTCCATTCATTGGCATTGTGTGTTCCTATGGCCGGGTCCTCCTAGCTATCTGCCACATGCAGTCCACAG
+AAGGGAGGAAGAAGGCCTATTCC
+>ref|X64969.1| C.familiaris mRNA DOPCRX07 for olfactory receptor
+CATTTGTCAACCTCTACACTACATGGCCATCATGAACACCAGGCTCTGTGGACTGCTGGTTCTGGTATCCTGGACCACGA
+GTGTCTTGCATTCCTTGTTACAAACCTCAATGGTGTTGCGGCTGTCCTTCTGTACAGAGGTGGAAATCCCCCACTTTTTC
+TGTGAACTCAATCAAATGATCCAACTTGCCTGTTCTGACACCTTTCTTAATAATGTGGTAATGTATTTTGCAGCTATGTT
+GCTGGCTGGTGGTCCCCTCACTGGGATCCTTTACTCGTATTCTAAGATTGTTTCCTCCATTTGTAGAATCTCATCAGCTC
+AGGGCAAGTATAAAGCTT
+>ref|X64970.1| C.familiaris mRNA DOPCRX09 for olfactory receptor
+CATATGCAAACCATTACTTTATCCAGTGATTATGTCTAATACACTGTGCATCCGGCTGTTAGTTTTGTCACTTTTAGGTG
+GACTTCTCCATGCCATAATTCATAGTTCTTTTTTATTCAGATTAACCTTCTGTGATTCCATCATAGTACATCACTTTTAT
+TGTGACATTATACCCCTGCTTAAGATCACCTGTACTGACCCTTCTATTAATTATCTGATAGTATTTATTTTTGCTGGGTC
+AATACAGATGTTCACCATTCTGATAGTTCTTGTCTCCTACACACTAGTGCTCTTCACAATATTAAGAAAGAAGTCTCTAC
+AAGGCATAAAGAAAGCCTTCTCC
+>ref|X64971.1| C.familiaris mRNA DOPCRX16 for olfactory receptor
+CATATGCAAACCATTAACTTATCCAGTGATTATGTCCAATACACTCTGCATCCGGCTGATACTTTTGTCATTTTTAGGAG
+GACTTCTTCATGCCATAATTCACAGTTCTTTTTTATTCAGATTAACCTTCTGCAATTCTATCATAGTACATCATTTTTAC
+TGTGATATTATACCATTGTTTAAGATCTCCTGTACTGATCCTTCTATTAATTATCTGATGGTATTTATTTTCTCTGGGTC
+AATACAAGTCTTCACCATTTTGACTGTTCTTGTCTCCTACACACTAGTGCTCTTTACAATATTAAGAAAGAAGTCGCTGC
+AAGGCATAAAAAAAGCCTTCTCC
+>ref|X64996.1| C.familiaris DTMT gene for olfactory receptor
+GAGCTCTCAGGTGTATGACTTGTGCCTGAGTTTCTTTTACTGATATGTGAGAGATTTGGAGGCACAGATTGGGAGAGGGG
+CAGGGTGAGGGTGAGTTCATGAGCTTCTTTTAGGATTTTCTGAGCTTAAAATACATGTGCTAAGTCTAAAGAAGATAATC
+ATTAAGCAATTACATACACAGTTTTATAGATTAGATAGTCATCTACATCTGACATTTAAATGGTAGTGCAGTCTTTTGGA
+GTAGGTGAGTTTTTCTTTGTGGTATATGTAGCATTATAAGAGAACAGTGTCTAAGAAAAAGCCATGGAACGTCAACATGA
+AGAGACTGACAAAACAGAAAGTAATTAGAGTTAGTGAGGATGTCTGGTCAGTTAGGTATGAGAAAAACCCAATATATATG
+TATCTCAGAGGTAATAGGAGTATTTTATAAAAGGTGGAATATTGATAAAGAGAAGTGAAGAAAAGTCATTTCTGATCATA
+GAGATTCTGATCTTAGAATTTTGGATATAAATGGTAATTATTGTGATGAGAGTGATACCAAGTAACTTTACAGAACACTT
+AACAGATCATGTATCATAGAAATATGTTTATTTTTAAATTCAGGTTTAATGGACACTGTAATTTCTTCTTAAAGATACTG
+AAGACAAAGCATGACAGAAAAGAATCAAACTGTCGTCTCAGAATTTGTCCTCCTTGGCCTGCCCATTGATCCAGATCAGC
+GAGACCTGTTCTACGCCCTGTTCCTGGCCATGTATGTTACCACAATCCTGGGGAACCTACTCATCATTGTCCTCATTCAG
+CTGGACTCGCACCTCCACACACCCATGTATTTGTTTCTCAGCAATTTATCCTTCTCTGACCTCTGCTTCTCTTCTGTCAC
+AATGCCCAAGTTGCTGCAGAACATGCAGAGCCAAGTCCCGTCCATCCCCTATGCTGGCTGCCTGACCCAAATGTACTTCT
+TCCTGTTTTTTGGAGATCTGGAGAGCTTCCTCCTGGTGGCCATGGCCTATGACCGCTATGTGGCCATCTGCTTCCCCCTA
+CACTACACCACCATCATGAGCCCCAAGCTCTGTTTCTCCCTGTTGGTGCTGTCATGGGTGCTGACCATGTTCCATGCTGT
+ATTACACACTCTGTTAATGGCCAGATTGTGTTTTTGTGCCAACACAATCCCCCACTTTTTTTGTGATATGTCTGCTCTGC
+TGAAGCTGGCCTGCTCTGACACTCAAGTTAATGAGTTGGTGATATTTATCATGGGAGGGCTCATTCTCGTGATCCCATTC
+CTGCTCATCATCACGTCTTATGCACGGATTGTGTCCTCCATCCTCAAGGTTCCTTCTGCCATAGGCATCTGCAAGGTCTT
+CTCCACCTGTGGCTCCCACCTCTCAGTGGTGTCTCTCTTCTATGGGACAGTTATTGGTCTCTATTTATGCCCATCAGCTA
+ATAATTCTACTGTTAAGGAGACTATCATGGCTATGATGTACACTGTGGTCACCCCCATGCTGAACCCCTTCATCTACAGC
+CTGAGGAATAAAGACATGAAGGGAGCCCTGAGAAGAGTCATTTGTAGAAAGAAAATTACCTTCTCTGTGTGATGGTAACA
+TTTGATACTTTTACATATTTCTATCTAGGAGATATAATAATATTGGAATACTATTCCAGATGTTTTCTCTTACCCATGGA
+AAGCCTGTAAAAATGGTACGGTAAATAATTATT
+>ref|X64972.1| C.familiaris mRNA DTPCRH02 for olfactory receptor
+TATTTGCCATCCTCTCCGATACAAGGTCATCATGAGCCGCTGGATGTGTCTCCTCATGGTGGGCATCTGTGGAGTTTATG
+GCGTGGTGGGTAGCCTGTGCTACACTTTCTTTGCGATGCGCCTGCCCTACTGTGGCCCTAATGAAATTGACCACTACTTC
+TGTGAGGTCCCTGCCGTCCTGAAGCTGGCCTGTGCAGACACATCCCTCAATGACTTGGTGGACTTCATCACGGGCTTCAA
+TGTCATTGTGGTCCCACTGACCCTGGTTGTCATTGTCTATGCCAACATCTTTGCCACCATCATGAAGATCCGCTCAGCCC
+AGGGACAGATCAAAGCCTTCTCC
+>ref|X64973.1| C.familiaris mRNA DTPCRH09 for olfactory receptor
+CATTGTCAACTCTTTGCTTTACAGTGCAGCCATGTCTAAGAGAACATGTGTAGGGTTGGTCATTGGGTCATTCATAGGTG
+GAATGATTAACTCATTGACACACACAGTAAGTTTAGGCAGACTGTCCTTCTGTGGGTCCAATGTTGTCAGCCACTTCTTC
+TGTGATATTCCCTCACTCCTAAAGCTATCATGTTCTGATACTACCATGAATGAATTGTTGCTCTTAACTTTCTCTGGAGT
+CATTGCCATGGCCACCTTCTTGATTGTGATCATTTCCTACGTGTTTATTGCTGTTGCTATTCTGAGGATCCGCTCAGCAA
+CAGGCAGACAGAAAGCCTTCTCC
+>ref|X14610.1| Canis familiaris partial gene for endothelin
+CACAGGCTTCTATGTGCTCCTCATGATCCCAGGGGAACATGCCCTGCTGACCTGCTCTTTCTCTCCCCAGCGGTCCTGGG
+TGCGGAGCTCAGCACAGGCCCGGACAGCAGGGGGGAGAAGCCTGCTCCCAGTGCACCCTGGCGGCCCCGCCGATCCAAGC
+GCTGCTCCTGCTCTTCCCTGATGGATAAAGAGTGTGTCTACTTCTGCCACCTTGACATCATCTGGGTCAACACTCCTGAG
+TAAGTCCCTAGAGGGCGTCGTAACTCTATTCCTTACCTCTGGCTTCCCCAGACTCTGGAGCCCAGTGACTCTAGCTGCTT
+TTAGGGGAGCTC
+>ref|X14048.1| Canis familiaris RDC1 mRNA for G protein-coupled receptor
+CGAGGCGGGGAGCCGAGGCCGCCGCCAGCGCGCAGGGAGCCCCGAGCCCGAGCCCCGCCGCGAGGCCGTTCGCCGGCTGC
+CCGCAGCACCATGGATCTGCACCTCTTCGACTACGCCGAGCCAGGCAACTTCTCCGACATAAGCTGGCCGTGCAACAGCA
+GCGACTGCATCGTCGTGGACACCGTGCTGTGCCCCAACATGCCCAACAAAAGCGTGCTGCTGTACACGCTGTCCTTCATT
+TACATCTTCATCTTCGTGATCGGCATGATCGCCAACTCCGTGGTGGTCTGGGTGAACATCCAGGCCAAGACCACCGGCTA
+CGACACTCACTGCTACATCCTCAACCTGGCCATCGCCGACCTGTGGGTGGTCGTCACCATCCCCGTCTGGGTGGTCAGCC
+TCGTGCAGCATAACCAGTGGCCCATGGGGGAGCTCACGTGCAAGATCACGCACCTCATCTTCTCCATCAACCTGTTCGGC
+AGCATCTTCTTCCTCACGTGCATGAGCGTGGACCGCTACCTCTCCATCACCTACTTCGCCAGCACGTCGAGCCGCAGGAA
+GAAGGTGGTTCGCCGCGCCGTCTGTGTCCTGGTGTGGCTGCTGGCCTTCTGCGTGTCCCTGCCCGACACCTACTACCTGA
+AGACCGTCACGTCGGCGTCCAACAACGAGACCTACTGCCGCTCCTTCTACCCCGAGCACAGCGTCAAGGAGTGGCTCATC
+AGCATGGAGCTGGTCTCGGTGGTCCTGGGCTTCGCCATCCCCTTCTGCGTCATCGCCGTCTTCTACTGCCTGCTGGCCCG
+CGCCATCTCCGCGTCCAGCGACCAGGAGAAGCAGAGCAGCCGAAAGATCATCTTCTCCTACGTGGTGGTCTTCCTCGTGT
+GCTGGCTCCCCTACCACGTGGTGGTGCTCCTGGACATCTTCTCCATCCTTCACTACATCCCCTTCACCTGCCAGCTGGAG
+AACTTCCTCTTCACGGCTCTGCACGTCACGCAGTGCCTGTCTCTGGTGCACTGCTGCGTCAACCCCGTGCTCTATAGCTT
+CATCAACCGTAACTACAGATACGAGCTGATGAAGGCCTTCATCTTTAAGTACTCGGCCAAGACGGGTCTCACCAAGCTCA
+TCGATGCCTCCAGGGTGTCGGAGACGGAGTACTCCGCCTTGGAGCAAAACGCCAAGTGACAGGCCCCGCGGGGCCTCGGG
+GACAAGCGTGCGCGCTTCCTACACGGCGCTGGGTTGCATCGTCTCCAAGAGTTCAAGCAAGGCGCCTTGGGGCTTGAGGC
+CTGAGTCGCGTGAAGTGGGGAAGCAGGTGCCACCGTGGGCCCTTCTCCTCTTTGTCCGGCTGCCGGGGTGGCTGTCACGG
+GGCCGTCGTGCCTGCAGGCGTGGGCCGTGCTGCGTGACCCTACTACTTACTCGTCCAAGCCGGTTGCCGGCGGGCTCGCC
+TGCACTTCTGTAAAATAGGACTTTCTGTGTTCCCTGGAGGTTTTACTTGGTGACTTGTATTTAAGTTTTAAGACTTTATT
+TTCTCATTATCGGCGTACCTTATAAATGTACTTGAAAGTTTAAATATATTTTATAAAAATCGTATGGGCGCTGTCACATA
+CGATACATATACATACGCTGACATATATTCAGAGCGTTGTAGTTTTAACTAGTTTGATTTCAGTTTTGACTAAGGATGAC
+ATTAATTGTTAGCTGTTTTGAAATTTTATATATATATATAAATATAAATATAAATATATAAATATATAAATATATGCCGG
+TCTGGGCTGAAATGTTTTATTTACGATAGTTTTATATCTGTGTGGTGCTTTGCTACCTGCATGGGATATGGGACAAGAAG
+GACGCTGTAAAGCAGTTTGTGATATTAATTGTATCGTAAAGTTACATTAAAAATGCGAAACGAAGCGGAACCTCTCCAGG
+CTGCAGCGCCGCGCACAAAGTTTTGAACAGTCTTATTTCGGAGAGTTCTCTCAATTTGTAAGTTATTTTTCTTTTTTTTT
+TTTTTTAATAAAGATTTGTTTTTCCTAAAAAAGGCAAAAAAAAAAAAAAAA
+>ref|X14050.1| Canis familiaris RDC5 mRNA for G protein-coupled receptor
+CCGTGCTGCCCTTCTCGGCGGCCCTGGAGGTGCTCGGCTACTGGGTGCTGGGACGGATCTTCTGTGACATCTGGGCCGCC
+GTGGACGTCCTGTGCTGCACGGCCTCCATCCTGAGCCTGTGCGCCATCTCCATCGACCGCTACATCGGGGTGCGCTACTC
+GCTGCAGTACCCCACGCTGGTCACCCGCAGGAAGGCCATCCTGGCGCTCCTCGGCGTCTGGGTCTTGTCTACGGTCATCT
+CCATCGGGCCTCTCCTTGGGTGGAAGGAGCCCGCGCCCAACGATGACAAGGAATGCGGGGTCACCGAGGAACCCTTCTAC
+GCCCTCTTCTCTTCCCTGGGCTCCTTCTACATCCCGCTGGCGGTCATTCTGGTCATGTACTGTCGCGTGTACATCGTCGC
+CAAGAGGACCACCAAGAACCTGGAAGCCGGAGTCATGAAAGAGATGTCTAACTCCAAGGAGCTGACTCTGAGGATCCACT
+CCAAGAACTTCCACGAGGACACCCTCAGCAGTACCAAGGCCAAGGGCCACAACCCCAGGAGTTCCATAGCCGTCAAACTT
+TTTAAGTTCTCCAGGGAGAAGAAAGCAGCCAAGACCTTGGGCATTGTGGTCGGTATGTTCATCTTGTGCTGGCTACCCTT
+CTTCATTGCTCTACCGCTTGGCTCCCTGTTCTCCACCCTGAAGCCCCCCGACGCCGTGTTCAAGGTGGTGTTCTGGCTGG
+GCTACTTCAACAGCTGCCTCAACCCCATCATCTACCCGTGCTCCAGCAAGGAGTTCAAGCGCGCCTTCGTGCGCATCCTC
+GGCTGCCAGTGTCGCGGCCGCCGCCGCCGCCGCCGCCGCCGTCGCCTGGGCGGCTGCGCCTACACCTACCGGCCGTGGAC
+GCGCGGCGGCTCGCTGGAGCGCTCGCAGTCGCGCAAGGACTCGCTGGACGACAGCGGCAGCTGCCTGAGCGGCAGCCAGC
+GGACCCTCCCGTCGGCCTCGCCGAGCCCCGGCTACCTGGGCCGCGCCGCGCCGCCGCCCGTCGAGCTGTGCGCCGTCCCC
+GAGTGGAAGGCGCCGGGCGCGCTGCTGAGCCTGCCCGCGCCCCAGCCCCCCGGCCGCCGCGGCCGCCGGGACTCGGGCCC
+GCTCTTCACCTTCAGGCTCCTGGCGGAGCGCGGGAGCCCCGCGGCCGGAGACGGGGCCTGCCGGCCCGCGCCCGACGCGG
+CCAACGGGCAGCCCGGCTTCAAGACCAACATGCCCCTGGCGCCCGGGCAGTTTTAGGGGGGCCTGCGGGGGGGAGGGGGG
+CGAAACCACCGTGGGGGGAGGGCGGGCGAGGGGGGAGGGCGGCGGCGCCCGGGGGAGGCGGGGGGGCGGGGGGCAGCTGC
+TTTGCTGGCAGGGGCATGGGTGCCAGGTACAGCGGAGGGCTGGGCGAGCATGCCGAGAGCCTGGGGCCCCGACGCCGGCC
+GGGATGTCCGTCTGTCTCTCTGTACATATCCAAACGAGTCCCTGTGTGCACGTATTTAACCGTGGGTACACGTGCGTGTG
+TCTGTGCGGTGTCCGTGTGGTCTGCGTGCGCGCGTGGGTGCGGCCACCGGGGGGGGGGCAGCGGGGGCGCCGTCGGCCCG
+GGACCTCGCGCCCCTCCAGCCGCTCCCCGGCCCTCCCCGAGTGGCGGATGGCCCTGGGCCCGGGTCGGAAACAAATCGGA
+CATTAAAGGTCGTTG
+>ref|NM_001003279.1| Canis lupus familiaris adenosine A1 receptor (ADORA1), mRNA
X14051.1 Canis familiaris RDC7 mRNA for G protein-coupled receptor
+CCTCCCACCCGGGCTTCCCACCACAGGTACCTGTCCCCGAACCCTCCGCGCCCACCTGCTGATGTGCCCGGCCCGCGCCT
+GCCATGCCGCCCGCCATCTCGGCCTTCCAGGCCGCCTACATTGGCATCGAGGTGCTCATCGCCCTGGTCTCTGTGCCCGG
+GAACGTGCTGGTGATCTGGGCAGTGAAGGTGAACCAGGCGCTGCGGGATGCCACCTTCTGCTTCATCGTGTCGCTGGCGG
+TGGCTGACGTGGCGGTGGGCGCCCTGGTCATCCCGCTGGCCATCCTCATCAATATCGGGCCAAGGACCTACTTCCACACC
+TGCCTCATGGTCGCCTGCCCTGTCCTCATCCTCACCCAGAGCTCCATCCTGGCCCTGCTGGCGATTGCCGTGGACCGCTA
+CCTCCGCGTCAAGATCCCACTCCGGTACAAGACGGTGGTGACTCCGCGGAGGGCGGCGGTGGCCATCGCCGGCTGCTGGA
+TCCTGTCCTTCGTGGTGGGCCTGACCCCGCTGTTCGGCTGGAACAGGCTGGGGGAGGCGCAGCGGGCCTGGGCGGCCAAC
+GGCAGCGGCGGCGAGCCCGTGATCAAATGCGAGTTCGAGAAGGTCATCAGCATGGAGTACATGGTCTACTTCAACTTCTT
+CGTGTGGGTGCTGCCCCCGCTGCTGCTCATGGTCCTCATCTACCTGGAGGTCTTCTATCTGATCCGGAGGCAGCTCGGCA
+AGAAGGTGTCGGCCTCCTCTGGCGACCCGCAGAAGTACTACGGGAAGGAGCTGAAGATCGCCAAGTCGCTGGCCCTCATC
+CTCTTCCTCTTCGCCCTCAGCTGGCTGCCCTTGCACATCCTCAACTGCATCACCCTCTTCTGCCCCTCCTGCCGGAAGCC
+CAGCATCCTCATGTACATCGCCATCTTCCTCACGCACGGCAACTCGGCCATGAACCCCATCGTCTACGCCTTCCGCATCC
+AGAAGTTCCGGGTCACCTTCCTTAAGATCTGGAATGACCACTTCCGCTGCCAGCCCACGCCCCCCGTCGACGAGGACCCC
+CCAGAGGAGGCGCCCCACGACTAGACGCCACCTTCTCCCGCCTGCCCACGTCGGGGGCGTCTCCGCCCCGGCCCACCCCC
+CCACTGACCCACTCCTGAGCCCTCCCGGCTGGGCTGCGGGGTGTGGGCGCCTGCACCTTGGGTCCTAGAGGAGGTTTGGG
+AGGACGGCCCACGGCGAAGGAACCGGGTGCCCTGAGGAGACGGAGAAAGTGGCTCGAGCCTCCCCAGCTGTGTGACCGGC
+CCACGGGCAGCCCGGTGCTTCAGGCCAGACGGACCTGGGGACACTGGGGCTGCGGGGGTCCCGTGGGGCCCGGAAGGCAA
+GCTTGGGCTCCCGTGGAGGTCAGGGAGCCGCTTGTCGCTGGTGCTGCTGCTGAAGCCCTGGAACAGAGCCCGAGGACGGG
+GGAGGTCCCCTCCGAGATGCAGGGGATGGAGAGAAGCTGGACATCAAGGTCTTGCTTCCTCTCCTGTTCTGTAGAAGGTG
+GGAGAGCCCCTGGGCAGGAATCAGGGGTCCTCAGCCCCTGCCTCCCGGGACCCTGAGCTCCTAGCCACGCTGGGTGCCGG
+GGGCCTGCCCCTCTTGCCCCAGGGCAACCGGGTTTGCACTTGGGATGGGCGGGAAGAGCGGGTCCAGAAATCATTCCCAA
+CCTTTACTTGATCCTCCACCAGCCCCTGGCCCCTGTCGAAGGGCCTGCCACACACAGCCACCAGGTGGCAGCCCCGCGCC
+GGCTCAGCCGAGCCCCCCAGGAGCGGGAGCAGCGGGGCTGTGAGGGGCCACCTGGGCTACCGCCCCATTAGCCCTAGAGG
+ATGCCTGCACTCTCCTAAGTGACACTGGCTGCTGCTTCTGGGCCGGGGACAGGGGGGCGCAGCCTCCGGCCTTGCGAGCG
+CTGCCCGTGGGCGCTCCCGGTGTGACTTGGCACAGGCTGCACCGCCTGAGGCTGAGGCAGGAAGGTCTTGCTGGCATTTA
+AATACCCTCAGGACCCCTGGCACTTAGCAGTTTCCAGGGCCTTTGGGGCTCTGCACGGTCTAGATGGGCTTTAGCGCATC
+CAGGGAAGGGTCCGCCCTCTGCCAAGCTCAGGGCCCGGGGCCCTTGTCCAGGGGGTGGGGGCGGGGTTCGGAGTGTGAAC
+AGCAGCTCTAGGCCTGGATTCCAGACCCTTCCCTTTCTCAGAGGTAGGCTCTTCCCTGGCTCCCAGGGGGGCCACCTTCT
+AATAAAAGACTGTGGGTCTTGAAAAAAAAAA
+>ref|NM_001003278.1| Canis lupus familiaris adenosine A2a receptor (ADORA2A), mRNA
X14052.1 Canis familiaris RDC8 mRNA for G protein-coupled receptor
+CCGAGCCCGAGCCGCGGCGGAGACAGCGGGAGCCGGCGCGCGAGCCGCAGGTGCCTCGGGGACTATGAAGCCGAGCTGAG
+CCAAGATGCTGCGAGAGCCCCTGAGGAGGGCCCAGTTTCTGGAGACTCAGACTTGGCAGTGAAAACGCCCTTGGGGAGCC
+CCCGTCACAGGCAGGGGCGCTCTTGGCTCCTGTGAAGAAGGGGCTCAGGGGCCTGGGCAGGGCCAGCGGCACTGCAGCTA
+TGGACCGTGAGCTGGCCCGGCCCGTGTCCTTGCTGACCCTGCCCGTCTGCAGCCATGTCCACCATGGGCTCCTGGGTGTA
+CATCACGGTGGAGCTGGCCATCGCTGTGCTGGCCATCCTGGGCAATGTGCTGGTGTGCTGGGCTGTGTGGCTGAACAGCA
+ACCTGCAGAACGTCACCAACTACTTCGTGGTGTCACTGGCGGCAGCCGACATTGCCGTGGGAGTCCTCGCGATCCCCTTC
+GCCATCACCATCAGCACAGGGTTCTGTGCTGCCTGCCACAACTGCCTCTTCTTTGCCTGCTTTGTCCTGGTCCTCACTCA
+GAGCTCCATCTTCAGCCTCCTGGCCATCGCCATTGACCGCTACATCGCCATCCGCATCCCACTCCGGTACAATGGCTTGG
+TGACTGGCACAAGGGCCAAGGGCATCATTGCGGTCTGCTGGGTGCTGTCGTTTGCCATTGGCTTGACTCCCATGCTGGGC
+TGGAACAACTGCAGTCAGCCAAAGGAGGGCAGAAACTACTCACAGGGCTGCGGGGAGGGCCAGGTGGCCTGTCTCTTTGA
+GGATGTGGTGCCCATGAACTACATGGTGTACTACAACTTCTTTGCTTTTGTCCTGGTGCCGCTGCTGCTCATGCTGGGTG
+TCTACTTGCGGATCTTCCTAGCAGCTCGGCGACAGCTGAAGCAGATGGAGAGCCAGCCTCTGCCTGGGGAGCGGGCTCGG
+TCCACGCTGCAGAAGGAGGTCCACGCTGCCAAGTCACTGGCCATCATTGTGGGGCTCTTCGCCCTCTGCTGGCTGCCCCT
+GCATATCATCAACTGCTTTACCTTCTTTTGCCCAGAGTGTAGCCATGCCCCACTCTGGCTCATGTACCTGACCATCGTCC
+TCTCCCACACCAATTCTGTTGTGAATCCCTTCATCTATGCCTACCGCATCCGTGAGTTTCGCCAGACCTTCCGCAAGATC
+ATTCGCAGCCACGTCCTGAGGCGGCGGGAGCCCTTCAAAGCAGGTGGCACCAGTGCCCGCGCCTTGGCAGCTCATGGCAG
+TGATGGAGAGCAGATCAGCCTCCGCCTCAATGGCCATCCTCCTGGGGTGTGGGCCAATGGCAGCGCCCCCCATCCTGAGC
+GGCGGCCCAATGGCTACACCCTGGGGCTGGTGAGTGGAGGGATTGCCCCTGAGTCCCATGGCGACATGGGCCTCCCAGAT
+GTGGAGCTCCTCAGCCATGAGCTCAAGGGAGCATGCCCAGAGTCCCCTGGCCTTGAAGGTCCCCTGGCCCAGGATGGAGC
+AGGAGTGTCCTGATGATCCACTCAGTTTGCCTCTTCCTACAGGAAGGAAATCTTTCTCTTTGGTGGATAGAACCAGTCAC
+ATTGGGAAAAGAATGAATGTGCCTGGAGACCCTTCTCGTGGCCAGTTCCCACTTTGGACTGAGAGGAGGGAGCCCTGGCT
+GGAGCAGCATGTGGCCTAGCAGGAAGGGTTTGGAGTCCAAGAAAGTGGACGTTTCACATCAGAAGGCCCAGCATCAGGTC
+AGGGCCACAGCACAGAGCATCTTGGCTGGGCAGGGCCTGGTCCCCCACTCTGGAAGCATCTAGAAGTACCATCCTGATGT
+GGCAGGGCAGGCTAACTGGCCCTGAGGCTGTGGGGGTGGCTCCAACAGGCCCCCTACCACACACAGACAACACCCTCCCC
+AGACTTTTCAAGGATTCAGGAGCTGCTATGCCCAGAGGTGGCGTTTTTCATTTCTTTCTTTCTTTTTTCTCTTTTTTTTT
+TCCAGGAGAAAATGTTAAACGTGAAGAATGCCTTTTTTTTTTTTTTTAATTATTTTCCTTCCCTGGTTGCCAGGTCTGTT
+GTCAGTCCTGCTGCTAACCTAGCTCCAGGAGTCAGCCCAGGGAGTCCCAGACAGCCCTGTCTGGCTACCATGAACTGCCA
+CGCACTTCTTACACCATCAGTCCCAGGGCCATCTCTTGGGGTCACAAAGCTGGGCTCAAGGACAGGGAGCTGTAATGGAT
+TTGCTGCCAGACTGTGGGCTCAGGGGAGGAGATCGGGACTGGCTCACCATGCGGTGTGCCTGGGTAGCTCAGAGCTGCCC
+GGTCAGAGGCCCTTTCTAACTGCCTTTCCTTCCGAAGGAATGTTTTTTTCTGAGATAAAATAAAAATGAGCCATGTTGTG
+TTTTAAAAAAAAAAAAAAA
+>ref|NM_001003271.1| Canis lupus familiaris signal recognition particle 68 (SRP68), mRNA
X53744.1 Canine mRNA for 68kDA subunit of signal recognition particle (SRP68)
+GGCAAGATGGCTGCCGAGAAACAGGTTCCCGGTGGCGGCGGCGGCGGCGGCGGCGGGAGCGGCGGCGGACGCGGTGCCGG
+AGGAGAGGAAAATAAGGAAAACGAACGGCCTTCAGCTGGATCGAAGGCAAACAGAGAATTCGGGGATAGCCTGAGTTTGG
+AGATTCTTCAGATAATTAAGGAATCCCAGCAGCAGCATGGTTTGCGGCATGGAGATTTTCAGAGGTATAGGGGCTACTGT
+TCCCGTAGACAAAGACGTCTTCGGAAAACACTCAACTTCAAGATGGGGAACAGGCACAAATTTACAGGGAAAAAAGTAAC
+TGAAGACCTTCTGACTGATAACAGATATTTGCTTCTGGTTCTGATGGATGCTGAACGAGCCTGGAGCTATGCCATGCAGC
+TGAAACAGGAAGCCAACACTGAACCCCGAAAACGTTTCCACTTGTTGTCTCGCCTTCGCAAAGCTGTGAAGCATGCGGAG
+GAATTGGAACGCTTGTGTGAGAGCAATCGCGTGGATGCCAAGACCAAGTTAGAGGCTCAGGCTTACACGGCTTACCTCTC
+AGGAATGCTGCGTTTTGAACATCAAGAATGGAAAGCTGCGATTGAGGCTTTTAACAAGTGCAAAACTATCTATGAGAAAC
+TAGCCAGTGCTTTCACAGAAGAGCAGGCTGTGCTATACAACCAACGTGTGGAAGAGATCTCGCCTAATATCCGCTACTGT
+GCATATAACATTGGGGACCAGTCAGCTATCAATGAACTCATGCAGATGAGATTGAGGTCTGGAGGCACTGAGGGTCTCCT
+GGCTGAAAAATTGGAGGCATTGATCACTCAGACTCGGGCCAAACAGGCAGCCACCATGAGCGAAGTGGAATGGAGAGGGA
+GAACGGTTCCAGTGAAGATTGACAAAGTGAGGATCTTTTTGTTGGGATTGGCTGATAACGAAGCAGCCATTGCCCAGGCT
+GAAAGTGAAGAAACCAAGGAGCGTCTGTTTGAATCAATGCTCAGTGAGTGTCGGGACGCCATCCAGGCTGTTCGGGAAGA
+GCTCAAGCCAGATCAGAAACAGAGAGATTACACCCTTGACGGGGAGTCGGGAAAGGTATCTAATCTTCAATACCTGCACA
+GCTACCTGACTTATATCAAGCTGTCAACGGCCATCAGGCGGAACGAGAACATGGCTAAGGGGCTGCAGAAAGCACTACAG
+CAGCAGCCAGAAGATGAGAGCAAGCGCTCGCCACGGCCCCAGGACCTCATCCGGCTCTATGACATCATTCTACAGAATCT
+GGTGGAATTGCTCCAGCTTCCTGGGTTAGAGGAGGACAGAGCCTTCCAGAAAGAGATAGGCCTCAAGACTCTGGTGTTTA
+AGGCTTACAGGTGTTTTTTCATTGCTCAGTCCTATGTGTTGGTGAAGAAGTGGAGCGAAGCCCTCGTCCTGTATGACCGA
+GTCCTGAAATATGCAAATGAAGTAAATTCGGATGCTGGGGCCTTCAGGAACAGCTTAAAGGACCTGCCCGATGTGCAAGA
+GCTCATCACTCAAGTGAGGTCAGAAAAGTGTTCTCTGCAGGCAGCAGCAATCCTGGATGCAAGTGACTCCCACCAACCGG
+AGACTTCTTCCCAAGTCAAGGACAACAAGCCTCTGGTTGAACGGTTTGAGACATTCTGCTTGGACCCTTCCCTCGTCACC
+AAGCAAGCCAACCTTGTGCACTTCCCGCCAGGATTCCAGCCTATCCCCTGCAAGCCTTTGTTCTTTGACCTGGCCCTCAA
+CCATGTGGCTTTCCCACCCCTCGAGGACAAGTTGGAGCAGAAGACCAAGAGTGGCCTCACTGGATACATCAAGGGCATCT
+TTGGATTCCGGAGCTAACCAGGCTCTTCTTGGGGGCAAGGGGAGATTCTCACTCTTCATCTGTATTGTGAGAAAACCCTA
+GCAAGTTCCATGATATTAAATCCAGGTCTGCATTGGCCCCGGGCAAGAGTGTATCATCCTCAGCCCTGCGTCCCTATGTC
+TTGTGTGTTTGTGCACTTAACATTCTTAACCGGTGTGCTCAAAGGGGACCCTGCTGTCTTCTGGTGGATGTGTGCGGGAT
+TCCTCTGTCCGCACCTCCTGGGGGAAGGGCCACTGCCACCTGGCCCCATGGGAGCCGTGCTTGGGTGGGTCCACTCCAGG
+CATAGATGGGAGCTCGGAACTTTGTCGTGTTTCTTCAGTATCACGAATTTGAAATGGACTCCTCCTCGCTGTGAGCATCC
+ATCCAGAGTCCCGTGAAGAGTCTGTGACCAGGAACCACTGGCAGCATCACCCCACAACTACAGTCAGCCTTATGCCCTGT
+CACCTCCAAGTGGAAGTTAAGTTTCAGAACAAGCAAAGAGCTCTATTTTTAGAAGAAATGTGTTACACTCAGAAATGATG
+AAAACAAATCTTATATTAAAAGGCAAAGATGCTGG
+>ref|NM_001003270.1| Canis lupus familiaris signal sequence receptor subunit 1 (SSR1), mRNA
X51367.1 Canine mRNA for signal sequence receptor protein alpha subunit (TRAP-complex alpha subunit)
+CCGCGGAGAGCGCTGGCGGGCGGCGAGCGGACGCCGGACCGGCCGCGCCATGAGGGTCCTCCCGCGCCTGCTTCTGCTCC
+TCTTGCTGGCGTTCCCCGCTGCCGTGCTGCTCCGAGGCGGCCCGGGAGGCTCATTAGTTGCAGCTCAAGATCTCACAGAA
+GATGAAGAAACGGTGGAAGATTCAATAATTGAAGATGAAGATGATGAAGCAGAAGTGGAAGAAGATGAACCCACAGATTT
+GGCTGAAGATAAAGAGGAAGAAGATGTATCTGGTGAACCTGAAGCTTCACCAAGTGCAGATACAACCATCCTGTTTGTGA
+AAGGAGAAGATTTTCCAGCAAATAATATTGTGAAGTTCCTAGTAGGCTTTACAAACAAGGGTACAGAAGATTTTATTGTT
+GAATCCTTAGATGCCTCATTCCGTTATCCTCAGGACTACCAGTTTTATATCCAGAATTTCACAGCTCTTCCTCTGAACAC
+TGTAGTACCACCGCAGAGACAGGCAACTTTTGAGTACTCCTTCATTCCTGCAGAGCCCATGGGTGGACGACCTTTTGGTC
+TAGTCATCAATCTGAACTACAAAGATCTGAATGGCAATGTATTCCAAGATGCTGTCTTCAATCAAACAGTTACGATCATT
+GAAAGAGAGGATGGGTTAGATGGAGAGACAATCTTTATGTATATGTTCCTTGCTGGTCTTGGGCTCCTGGTTGTTGTTGG
+CCTTCATCAACTCCTAGAATCGAGAAAGCGCAAGAGACCCATACAGAAGGTAGAGATGGGTACATCAAGTCAGAATGATG
+TTGACATGAGTTGGATTCCTCAGGAAACCTTGAATCAAATCAATAAAGCTTCACCAAGAAGGTTGCCCAGGAAACGGGCA
+CAGAAGAGATCAGTGGGATCTGATGAGTAAATGTTCCTTTGTGCAACAATTCAGTCTTTACTTAACCTGCCCTAATGTTT
+TTCGGCCTGATGGGAATTAGTGCAGAGAAGCCATATCACCATAGAAGGCAACTACTACTTATGTGTGGACTGAGCAATCA
+GAGTCTGTGGCGATAATAATATTACTGAAAATGCACTGCATTCATTTTTCTAAAGTAACAAA
+>ref|X53529.1| Dog mRNA for signal sequence receptor beta subunit (TRAP-complex beta subunit)
+CGGCCGCCGGTGGTCCCCTGAAAGGACTGTGGGGTGCGCGCGATGAGGCTTCTGGCTTCTGTGCTGTTGGCCCTGTTTGC
+TGTCAGTCATGCGGAGGAAGGAGCCCGGCTTCTGGCCTCCAAGTCACTGCTGAACAGATACGCCGTGGAGGGGCGAGACC
+TGACCTTGCAGTACAACATCTACAATGTTGGCTCAAGTGCTGCATTAGACGTGGAGTTATCTGATGATTCCTTTCCCCCA
+GAGGACTTTGGCATTGTGTCTGGAATGCTCAATGTCAAATGGGACCGGATTGCCCCTGCTAGCAATGTCTCCCACACCGT
+GGTCCTGCGCCCGCTCAAGGCTGGCTATTTCAACTTTACTTCGGCTACTGTTACTTACCTGGCTCAGGAGGATGGGCCTG
+TCGTGATTGGCTTTACCAGCGCCCCTGGACAGGGAGGGATCCTGGCCCAGCGGGAGTTTGATAGGAGATTCTCCCCGCAT
+TTTCTGGACTGGGCAGCCTTCGGAGTCATGACCCTGCCCTCCATCGGCATCCCCCTGCTGCTGTGGTACTCCAGCAAGAG
+GAAATATGACACTCCCAAGTCCAAGAAGAACTGAGGGGCTTCCGAGGCCGCTGCCTAGGAGATCCAGGTGCTTTCCAGAC
+TCCGGAGGCCTCTGGAGTGCGGTCTCTCATCCCCAGCCCCTGCCACCTTCTCCAGGATCCTGCCTGCTCTCAACCAGAGT
+CGGGGACCAGGCCTCGGTGTCTGTGAAAGCCTCCTCCTTCTGTCCCAAAGCCATATGAGCAAGAACGAGCAGGAATGCCT
+CCAGCAACAAGCCTCGGGACCTCATCTGTGTGCCTTGTGGTGCTGCAGTGTGAACTGAGGGGCCCAGGAGGGGGCACTAA
+GGAAACTGCCTGACTCTACCCCCATCCCCTGCTCTCCCCTCTCGGAAGAGGGTGGAAGATCAGATGAAGGCCAAGTGACT
+CGGAGGCTACCCAATCTCTGTTCTGGGTCAGGGGAGCTCTAACCAATGGAGTTTCTAATAAAAACATGCCAAACTG
+>ref|NM_001003268.1| Canis lupus familiaris transcription factor 4 (TCF4), mRNA
X51448.1 Dog mRNA for putative transcription factor recognizing thyroglobulin promoter
+CGCAGTGCCCGGATGTGAATGGATTACAATGTATCTTTCAGGGAAACCTATTATTATCAATGTGACTCCACGGGGGAGTC
+AATGGTGATGATGAGGAGGAGGAGGAGGATGATGATGATGAGACACCTCTAAACTTGGAACAAGTTTAAGACTTTATAAG
+AGGAGAAGAAAAAAAAAAAGCCACCAACAAGATTTGTTTGAGGAAAGATTCTAACTATCCTGTATTGATATATTTTTTTT
+TTTTTTAGAAACAATAAGAAAAAGTTGTTGGAATTTTTTTTTTTTTTTAATGGTTTCTTTTTTGGGGGAGGGGATTTTGT
+TGCAGTTTGATGGTGGAAAATGCAAAAACCAGAGCCAGGTGCATAATCTTGTATTCTGTGGATATCCCTGGAGCAGAACT
+GAGTACCAGTTAAAATACTTTTTTGGGGGATACACATGTGAGATACTAAGTACTTGCAGAAGATTTTTTGTCTTTCTTTT
+TAAAGTCACTTTCCTTGGAATATTGTGAGCATATTTGTGGCCATTTAAGATGTTTTCACCTCCTGTGAGCAGTGGGAAAA
+ATGGACCAACTTCTTTGGCGAGTGGACATTTCACTGGCTCAAATGTAGAAGACAGAAGTAGCTCAGGGTCCTGGGGGAAC
+GGAGGACATCCAAGCCCGTCCAGGAACTATGGAGATGGGACTCCCTATGACCACATGACCAGCAGGGACCTTGGGTCACA
+TGACAATCTCTCTCCACCTTTTGTCAATTCCAGAATACAAAGTAAAACAGAAAGGGGCTCATACTCATCTTATGGGAGAG
+AATCAAACTTACAGGGTTGCCACCAGAGTCTCCTTGGAGGTGACATGGATATGGGCACCCCAGGAACCCTGTCGCCCACC
+AAACCTGGCTCCCAGTATTACCAGTATTCTAGCAATAACCCCCGAAGGAGGCCTCTTCACAGTAGTGCTATGGAGGTGCA
+GACAAAGAAAGTTCGAAAAGTTCCTCCAGGTTTGCCATCTTCAGTTTATGCTCCATCAGCAAGCACTGCCGACTACAATA
+GGGACTCGCCAGGCTACCCTTCCTCGAAACCAGCAGCCAGCACTTTCCCTAGCTCCTTCTTCATGCAGGATGGCCATCAC
+AGCAGTGACCCTTGGAGCTCCTCCAGTGGGATGAATCAGCCTGGCTACGGAGGAATGTTGGGCAGTTCTTCTCATATTCC
+ACAGTCTAGCAGCTACTGTAGCCTGCATCCACACGAACGCTTGAGCTATCCATCACACTCCTCAGCAGACATCAATTCCA
+GTCTTCCTCCGATGTCCACTTTCCACCGTAGTGGCACAAACCATTACAGCACCTCTTCCTGTACACCTCCTGCCAACGGG
+ACAGACAGTATAATGGCAAATAGAGGAAGCGGGGCAGCAGGCAGCTCCCAGACTGGAGATGCTCTGGGGAAAGCACTTGC
+TTCGATCTATTCTCCAGATCACACTAACAACAGCTTTTCATCAAACCCTTCAACTCCTGTTGGCTCTCCTCCTTCTCTCT
+CAGCAGGCACAGCTGTTTGGTCTAGAAACGGAGGACAGGCCTCATCATCTCCTAATTATGAAGGACCCTTACACTCTTTG
+CAAAGCCGAATTGAAGATCGCTTAGAAAGACTGGATGATGCTATTCACGTTCTCCGGAATCATGCAGTGGGCCCATCCAC
+AGCTATGCCGGGTGGTCATGGGGACATGCATGGAATCATTGGACCTTCTCATAATGGAGCGATGGGTGGTCTGGGCTCAG
+GGTATGGAACCGGTCTTCTTTCAGCCAACAGACATTCACTCATGGTCGGGGCCCATCGCGAAGACGGCGTGGCCCTGCGA
+GGCAGCCACTCCCTCGTGCCCAACCAGGTCCCGGTGCCACAGCTTCCCGTGCAGTCTGCGACGTCCCCTGACCTGAACCC
+ACCCCAGGACCCTTACAGAGGCATGCCACCGGGATTGCAGGGCCAGAGCGTCTCCTCCGGCAGCTCTGAGATCAAATCCG
+ACGACGAAGGCGATGAGAACCTGCAAGACACGAAATCTTCCGAGGACAAGAAGTTAGATGACGACAAGAAGGATATCAAA
+TCGATTACTAGCAATAACGATGACGAGGACCTGACCCCGGAGCAGAAGGCGGAGCGCGAGAAGGAGCGGAGGATGGCCAA
+CAACGCCCGCGAGCGCCTGCGCGTCCGCGACATCAACGAGGCTTTCAAGGAGCTCGGCCGCATGGTGCAGCTCCACCTCA
+AGAGTGACAAGCCCCAGACCAAGCTCCTGATCCTCCACCAGGCCGTGGCCGTCATCCTCAGCCTGGAGCAGCAAGTTCGA
+GAAAGGAATCTGAATCCGAAAGCCGCGTGTCTGAAAAGAAGGGAGGAAGAGAAGGTGTCCTCAGAGCCTCCCCCGCTCTC
+CTTGGCGGGCCCGCACCCTGGAATGGGAGATGCGTCAAACCACATGGGACAGATGTAAAAGGGTCCAAGCTGCCACATTG
+CTTCATTAATACAAGAGACCACTTCCTTAACAGCTGTATTATCTTAAACCCACATAAACACTTCTCCTTCACCCCTTTTT
+TTGTAATATAAGACAAGTCTGAGTAGTTATGAATCGCAGACGCAAGAGGTTTCAGCATTCCCAATTATCAAAAAACCGAA
+AAACACAC
+>ref|NM_001003267.1| Canis lupus familiaris translocation associated membrane protein 1 (TRAM1), mRNA
X63678.1 C.familiaris mRNA for TRAM-protein
+TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCCGGGCGGCCCCGGCGGCTGCGTACTGGCTGTGGGATGGGAAGTGA
+AGCCCCAGCGAGCGGCACGGCGGGGCGGTGAGGAGCAGCCAGGGGGAGGCGGCGGCGGCGGCGGCGGCAGCCAGTCTGTG
+AGCAGCTGGAGAGCGGCGCCGGGGACGAGCACCTGCAGGCACGGGCGGCGGCCTCGCCATGGCGATTCGCAAGAAGAGCA
+CCAAGAGCCCCCCGGTCCTGAGCCACGAATTCATCCTGCAGAATCACGCGGACATCGTCTCCTGTGTGGCGATGGTCTTC
+CTGCTGGGGCTCATGTTCGAGATAACAGCGAAAGCCTCTATCATTTTTGTTACTCTTCAGTACAATGTTACCCTCCCTGC
+AACAGAAGAACAAGCTACTGAATCAACATCCCTTTATTACTATGGTATCAAAGATTTGGCTACAGTTTTCTTCTACATGC
+TAGTGGCGATAATTATTCATGCCATAATTCAAGAGTATGTGTTGGATAAAATTAACAGGCGAATGCATTTCTCCAAAACG
+AAACACAGCAAGTTTAATGAATCTGGTCAGCTTAGTGCATTCTACCTTTTTTCTTGTATTTGGGGCACATTCATTCTAAT
+ATCTGAAAACTACATCTCAGACCCAACTATCTTGTGGAGGGCTTACCCCCATAACCTGATGACATTTCAAATGAAGTTTT
+TCTACATAGCCCAGTTGGCTTACTGGTTCCATGCTTTTCCTGAACTCTACTTCCAGAAAACCAAAAAAGAAGATATTCCT
+CGTCAGCTTGTCTACATTGGTCTTTACCTCTTTCACATTGCCGGGGCTTATCTTTTAAACTTGAATCATCTAGGACTTGT
+TCTTCTGGTGCTACATTATTTTGTTGAATTTCTCTTCCATATTTCCCGCCTGTTTTATTTTAGTGATGAAAAGTATCAGA
+AAGGGTTTTCTCTGTGGGCAGTTCTGTTTGTTTTGGGAAGACTTCTGACTTTAATTCTTTCAGTACTCACTGTTGGCTTT
+GGCCTTGCAAGAGCAGAGAATCAGAAACTGGATTTCAGTGCTGGGAACTTCAATGTGTTAGCTGTAAGAATTGCTGTCCT
+GGCATCCATTTGCATTACCCAAGCATTCATGATGTGGAAGTTCATTAATTTTCAGCTTCGGAGGTGGAGGGAACATTCTA
+CTTTTCAGGCACCAGTTGTGAAGAAGAAACCAACAGTAACTAAAGGCAGGTCTTCTAGAAAAGGAACAGAAAATGGTGTA
+AATGGAACAGTAACTTCAAATGGAGCTGACTCTCCCCGTAATAGAAAAGAGAAATCTTCATAATGAATTATAATCTAATT
+GATTAATGTCCCCAAAGAAATCTGCTTTTTACTATATCTTTCAGCACTAGAGATTTTTTCTGTCCTTGAAAATACAGTTT
+GTGCTCTTTGATTCTTGCTATTGTACTGTTGTTTCATGCATTTTTTTAAAGGGCATTTGAGGGAAGGATGATTACTATGA
+GTGAGAAAAATATTTTAGCTTAGACTAAGCTACCTGCCTTCAAAATAGTTTAGGGACCACCACCATATTCTATTTTGTTT
+TTTATCTTTGAATGTTTTTCTAATGATTTGGAGAGATAACTATTTACAAAAATTCTACATAACAGTGATAAAATTTCTTG
+CTCTCACCAATTTTTTGTATTAGCAAGATGGCCTCTTCCAGCAAGGTCATTTTTTTAAGTTATCTTTCAGGGTAAAATGG
+AAATACTATACAGTTGGAAGTCAAACTTTAATATGTTTTCAGTGTTCTCTAATTTTTAGGAATTTTTGTAGTCTTTACAC
+CTGGGAAAAAAGATTTGTAAATTCACTATAATAATTGTGTGCTTTATTTTATAGGTAATGGTTGTTAATGTTACATCCCC
+ATTTTAAAAAACAACCACAACATACTATTGGTTACAATGTGTGGAGAGTTATTGCCATATATATTGAATCAAAAATATAT
+GAACATAAAAGTACCTGTGAAGTAAAATCCTTTCTTGAGCATTTTCAACACTTGTAAACTGAAAATCAGAAAATTAAATA
+TTTACTATAAAGAAGCAAATACGACTATAGCCCTTTTTGATATGTTTATTAATAATGATTCTTAATGGGGCTTATAAGGT
+CGATATGCACAGCATCTTAGAAAAATATTGTTTAACCTGCAAACCCTTTTTAAAAATAATGCCTACTTAATTTATATCTA
+TAAAAGAATGTCGGGTAATTATATTTGGAACATTTACGCACTAATCTTAAAGAAATTGAAAATTCAGTTGGATAAATAGT
+CTTACAAAAGACAGTGCTTTATGTTATAACTATAGCTTTGGTCCCATCTTTAATTGAGAAGCATTTATCTGTATAAAACA
+TATTTTTGGATAAATATATATATATATATTTGTATCTCTACAGAAAGGCTCTAAAAAACATTTGAGTAAAACATTTGGTT
+CCCTTTTCTATAATTATCCTTAAAAATTCTTACAGCTATATTTGGTTTTTTTGTTGTCTTCACAGTACCTATACTGCTCC
+TTTTGGTGTTCACATCTTGTTCTCCATTTCTCACTTTTGTCACCAGCTCATGTTTGTGCCATTTTTAGTATAAAAGTTGC
+AGGCTTGTTAGGTCTGCAGTTTAATAAGTTGCCATGCTGCTAGAAAGTTGTGCTTTCTATTTCCAGCTGTTTACTTCCTG
+GAAAAAGTAGTAGCTCTCTGTAGCATCATGGAGTTTCAGTGGAACCAAATTTTTGCCAATAAAAACTGGCATTATATTGA
+ACTATACATTGAGAAATCAAACAAAATAAAATTTTTACTTTCAAAAAAAAAAAAAA
+>ref|Z12161.1| C.familiaris gene for VIP21
+GGCACGAGCGGTTCCCTTGAATAACAGCCCAGGGAAACCTCGGAGCCTTCACCCAGCCACCGGCCAGCATGTCTGGGGGC
+AAATACGTAGACTCCGAGGGGCACCTCTACACCGTTCCCATCCGGGAGCAGGGCAACATCTACAAGCCCAACAACAAGGC
+CATGGCGGAGGAGATGAGCGAGAAGCAGGTGTACGACGCGCACACCAAGGAAATCGACCTGGTCAACCGCGACCCCAAGC
+ATCTCAACGACGACGTGGTCAAGATTGATTTTGAAGATGTGATTGCAGAACCAGAAGGAACACACAGTTTTGATGGCATC
+TGGAAGGCCAGCTTCACCACCTTCACTGTGACAAAATACTGGTTTTACCGCTTGCTGTCTGCCCTCTTTGGCATCCCAAT
+GGCACTCATATGGGGCATTTACTTTGCCATTCTTTCTTTCCTGCACATCTGGGCAGTTGTGCCGTGCATTAAGAGTTTCC
+TGATTGAGATTCAGTGCATCAGCCGTGTCTATTCCATCTACGTCCACACCTTCTGTGACCCGTTCTTTGAGGCTGTTGGC
+AAAATATTCAGCAATATCCGCATCAACATGCAGAAAGAAACATAAATGACATTTTAAGGATAGCAGTTAACCTGATTCTT
+TTTT
+>ref|X57335.1| C.hircus 1.714 satellite DNA
+CCCTCCTCTCGAGCTATGAGGCAGACACTGGGCTCCTCTGAATGTGGGCGGGACTGTCGTGCTTCCTCTCGAATGGAGAC
+AGGTATGTCGGGGAACTACTTGAGTTGCAGTAAGGGTGTGAAGGACCCTTTGGAAGTTTCAGAGGTTAGGTGTGATTAGC
+CTCGAGACACCTCAGCGGAAATGGGCCTCATCTCGCCTGGATGGGGGAACTCCTGGATTTTCTCGAGTGTCAGCAGGTGC
+TCTCGACCTAGGACGGGGACCACAGGGACTCCTCTGCTGGCCTCAGGAAAGGCACTCCCCATGCGAGTTGCTCGGGGACC
+TCTAGGGATTCCTCTCCCGTCGATGCCGGGGCCTAAGACCTTGTGTGGAGTAGGTTCCGGAACCAGAGGATTCCTCTCCA
+GTGCTGACATGGATCTTGGGGTACTTCTGGAGTCTCTCCAGGGGAGTCACTCCTCGTCTCAAATGGGGGCATGCACGCGG
+GCTTTCCTCCCGGAGCTGTAACGCAGCATTGTCACGCTTCCCTTCGCGTGGATAAAGGGATCTGTGGCTTTCCCTCGAGG
+CTTTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGCCGTCCCACGTGCCAGCCGTGTTTGAGTCGATCCTCGGCTTG
+AAAGTCGAGGCAGTCGAGGGAAAACAGGTTTCCCTAGAATGGACTGAGACATCTGGGGGACTCTGGGAATGGTTGCACGA
+CTCTGGAGTTCCTTTCGCCTTTCCTGTGGAGAGCGCCTCCACTTGAGATGCGACGGGAACGCATGGAATTCTTTCCCGAC
+ACACGCAGGAATGGAT
+>ref|X04726.1| Goat embryonic alpha-globin gene zeta exon 1 (and joined CDS)
+AGGACCCCTATCTCCCTGTCGGCCACCCTCGGCTGTGGCCTGCAGGGGCAGCCGAAGTGACAGCCCCTCAGCCATTAAGC
+CCACCAGGCCCTGACCACCCGCTGTCACTGGAAATGATAAGAAACCCACCCCATTGCCCCCTCCCTTCTCCCAGTGATGA
+CCCTGGCCCCAACCCTGGTTCCACATATATAAGGGGACCTTGGGGGCTGAGCATCACCAACACCAGTTTTCAGTAAGTCA
+AGCTCCCGCTCAGCTGCCACCATGTCTCTGACCAGGACTGAGAGGACCATCATCCTGTCCCTGTGGAGCAAGATCTCCAC
+ACAGGCAGACGTCATTGGCACCGAGACCCTGGAGAGGTGAGCACCAGGTGGGCTGGGGTAGAGCCTGGAGGGGACCTTGT
+GGGTCAGTGAGGTCAGGAGTCAGTGAGAACAGGGGTCAGTGAGGAGGGGTGACTGAGGAGGGTGAGTGAGGAGGGACAGT
+GAGGAGGGTGAGTGAGGAGGGGAGAGTGAGGAGGGGAGAGTGAGGAGGGTGAGTGAGGAGGGTGAGTGAGGAGGGAGAGT
+GAGGAGGG
+>ref|X04862.1| Goat embryonic alpha-globin gene zeta exons 2-3
+GGAGAGTGAGTGAGGAGGGTGATTGAGGTGGGGTCATTGAGGAGGGGTCAGTGAGGAGGGTCAGTGAGGTGGTCAGTGAG
+GGGGTCACTGAAGATGGTCAGTGAGAAGGGTCAGTGAGCATGAGCCGGTGAGGAGTGTCTCGGTGGTCAGAGGCAGGAGG
+AGGAGGTGATGGGGGCGGTCTGAGGTCACCTGTGTCTCTCGGGGCCCAGCACCCAGGTCCCCACAATCACGTGGAGGGAG
+GGAGGCAGGGAAGGAAGGAATGACCGGCAGACGGGCGGTCAGGGTGAGGTGGCCGGGCCGTACTGAGCAGCGGCTACGCG
+CGAGAGTCACCCGGAGCGGTCACTAAGGCGCCCGCCCGCCCGCAGGCTCTTCTCCTGCTACCCGCAGGCCAAGACCTACT
+TCCCGCACTTCGACCTGCACTCGGGCTCCGCGCAGCTGCGCGCGCACGGCTCCAAGGTGGTGGCCGCCGTGGGCGACGCG
+GTCAAGAGCATCGACAACGTGACGAGCGCGCTGTCCAAGCTGAGCGAGCTGCACGCCTACGTGCTGCGCGTGGACCCGGT
+CAACTTCAAGGTGGGCGCGGGGCCCCGGGGGCGCCTTTTCGGGGCTGGGGTCCCGGAGTCCCGGGGGCGGGAGGAGGTCT
+CTGTGGGCGGGTCCCGGGGCGGGGCGATGTCTCTGTGGGCGGGGTTTGGGGCGGGGCGGGGCCTCTGGGCGGGGCTGCTT
+CTGGGGCCGGGGTCCCGGGGCGGGACGAGGTCCCAGAGGCGGAGCTCGTCCGGGCAGACAGCACTGACCGCTCTCCCTCC
+CTCCCCAGTTCCTGTCCCACTGCCTGCTGGTCACGTTGGCCTCGCACTTCCCCGCCGACTTCACGGCCGACGCGCACGCC
+GCCTGGGACAAGTTCCTGTCCATCGTGTCCGGCGTCCTGACGGAGAAGTACCGCTGAGGCCGCCGCAGGCCCCAAGAACA
+GGCTTCGAGCCTCCTCTTCCTCTGCACCCTATTAGTGTTTCGATAGGGACCCCCAATAAATGGATGAGGATGGAAGGAGC
+CTGGTCGTGCGTTCTCAGTATTGGGGGAAAGAGGGAAGAGTGACGGGAGAGAATGAGGACTTGGCAGGAACGCAGCCCAA
+CACGGTGTCACCCCCCAGCCTGGAGTGACTCCAAGGGGCGCTTTGGAGCGGTCCTTGGCCTGCAGAGCCCAGAGTAGCGA
+CCGGAAGGAGCAGGGCAGCCCAGCACCGTCCACGCCGCGTTCTCGNG
+>ref|X56462.1| C.hircus as1-casein gene, partial cds, exons 9-11
+AAAAGGTTTTAAGTAGTTATTATACTCCCCTCTCCAACATATTTTAAATAAAATTGACAATCCAAAAAAAAGTAAATTTT
+ATTGGCTCTGAATCCTTTTATACCCAATTGTTTTCACTAAAAACTAGTTAGCAACCCATTAAGTGTGGGTTGTTTCCTTC
+TAATGAAACAATGGAATGTATGGAAGTGTGGAATAGTTTCCTTCTAATTCTAAAAGTCTCAGAGGCAGTAACAATGATTC
+TCTTTCTTTTAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGTATACCATTTTTATGTTAATTAAGTATCCCAATT
+AGAAAATGTTTATGAAAGTTTGTTGAACCATAAAGTTTCATTGTACAAGGCACTATGTATGTAGCTCTATCCTAATTTTA
+ACATACAAGGCTATCAACCCCCAAAATGTAAGAAAACAATTATTTGTCAGAGACAAAATAAAGATTTCTTTCTGGGCAAA
+TAATCCTATTGGATATCTGTGGTGTCCAAACATTATTTTTCTAATTTTTTTTCCTTCCCAGATTTTTGTAGAATTAAATC
+TTGTCACTGAAAATTACAATAATGGCTATGCTTCTAAATTGTGAAATATAAACATGATATATCCTTTGCAGAACTCAATC
+AATTCTATGTTAAAGAGGCACTGGAATCCTTTGCTATTTGTTACCTAGAGGAGAAAAAGAGAAGGCATACAAAGTGATGA
+AATCCTTAAACTTTGGGAGCAGAACTTCATCCAGTTTACAAAATAAACCCAGTTCCAGTGAATTCAGTTAAAAGTGAATT
+CTTCACAATCCAACATTCTGAATAACTTCCCTGGTGAAAGCAGTGAGAAGAGAAAAGAGAACATGTACTTTGATTGTTCA
+TCTTATCTAAATTTACCCAGGAATTTGTGGCTAAAATCAGTTTACCACAGATAAGCTATGATGTGTCTGGTTAATTAGCA
+TTTTTATCTTGAATGTAAATTAATGTTATAAAACTAACAATACATGTTTTTTTTTTTTTTAAGGAAATTGTTCCCAATAG
+TGCTCAGGTGAGATATATTTACTAAATTTAAAATATATTAACATCATCCAGGATATCTTAAAATTTAATTAAACTTTTTA
+TTTTTTGAATTTTTTAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACCTGGGTTATCTGGTAAAATTT
+TATTAAAAGTTAATCAAAGACCAATGCATCAGGGAATGAGCAAGAATGTTGTGTTGATAAATTATCTCTCCTTTTCAATA
+TCTGCTAAACTTAAACTAAGCAGACTAACAGATTCTAGTAGTATACTGATCCC
+>ref|X56463.1| C.hircus as1-casein gene, partial intron 8
+ATCAGTTCTCCCAATGAATATTCAGGATTGACTTCCTGTAGTGATTCCTCCACTCTTCTCCAGTAGCATGTTGGGCACCT
+ACTGACCTGGGGAGTTCATCTTTCAGTGTCATATCTTTTAACCTTTTCATACTGTTCATGGGGTTCCCAAAGCAAGAATG
+CTGAAGTGGTTTTCCATTCCATTCTCCAATGGGCTATGCTACCTAATCTCAAAA
+>ref|X59836.1| C.hircus mRNA for as1-casein
+AACCCAGCTTGCTGCTTCTTCCCAGTCTTGGGTTCAAAGTCTTGACAACCATGAAACTTCTCATCCTTACCTGTCTCGTG
+GCTGTTGCTCTTGCCAGGCCTAAACATCCTATCAATCACCAAGGACTCTCTCCAGAAGTCCTCAATGAAAATTTACTCAG
+GTTTGTTGTGGCGCCTTTTCCAGAAGTGTTTAGAAAGGAGAACATCAATGAACTGAGTAAGGATATTGGGAGTGAATCAA
+CTGAGGATCAAGCCATGGAAGATGCTAAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGAAATTGTTCCCAATAGT
+GCTCAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACCTGGGTTATCTGGAACAGCTTCTCAGACTGAA
+AAAATACAACGTGCCCCAGCTGGAAATTGTTCCCAAAAGTGCTGAGGAACAACTTCACAGTATGAAAGAGGGAAACCCTG
+CCCACCAGAAACAGCCTATGATAGCAGTGAACCAGGAACTGGCCTACTTCTACCCTCAGCTTTTCAGACAATTCTACCAG
+CTGGATGCCTATCCATCTGGTGCCTGGTACTACCTTCCACTAGGCACACAATACACTGATGCCCCCTCATTCTCTGACAT
+CCCTAATCCCATTGGCTCTGAGAACAGTGGAAAGACTACTATGCCACTGTGGTGAAGAGTCAAGTGAATTCTGAGGAACT
+CCACAATTATGGTCTTTGATGGGATTGAAAATTCCATGCTTTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCC
+AAAGGCTTCAATTGCTGTTTTAGAATAGGACAACCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCCACTGTATTTT
+AGATTGTGTAACATCCTTAAGTGAAATTGTCCTAAGAGCTTGTTACCTAAATTCCAGTAGTATCACGCTGGTATAAAGGC
+CACTGACTCAAAGGGAATTACAGTCTTCATTAAATTTCTATATGGAAAATGTTTTTAAAGCCTTTGAATCACCTCTCCTG
+TAAGTGCCATCATTTCAAATAACTGTGTGCAGTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGC
+ACTATT
+>ref|V00150.1| Partial goat pseudogene for beta-globin (exons 1 and 2)
+GAGGAAGAGGAGTGCATCTTACATTCCCCCAAACCAATGAACTTGTGTTATGCCTTGGGTTAATCTACTCTCAGAAGCAG
+AGAGGGCAGGAGGCTCGTGGGGCTCACAAGGAAGACTAGGGCCCCTGCTGCTTACACCTGCTTTTGACACAACTTGCAGC
+TGGGTAAACACACATCATGGTGCATCTGACTCTAGAAGAGAAGGCTACTTGTCACTGCCCTGTGGAGCAAGATGAGGGTG
+GCTGAAGTTGGTGTTGAAACCCTAGGGAGGCAGGTATTCAGCTTACAAGGCAGGCTGAAGGAGAGTGAATGTCAGCTGGG
+TGTGTGGGGACAGAGCCATTGCCTGAGATTGAGGCACTGACTCCCTCTGTTCTTATGCTGTTTTCACCCCCTAGGCTGCT
+GGTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGAACTTGCCCTCTGCTGATGATATTATGGGCAACGCTA
+AGGTGAAGGCCCGTGACAATAAGGTGCTAGACTCCTTTACTGAAGGCCTGAAGTATGTCGACCACCTCAAGGGTGTCTTT
+TCTTTGCTGAGTGAGTTGGACTGTAAGAATCTGCATGTCAGTCCTGAGAACATCAGGGTGAGTCTACAGGAATCTTAATG
+TTCTCTATCTTTTTTTTTTTTTCTTTTTTTTCCTTTGTGGTCTAGTTTCTATCAT
+>ref|V00154.1| Goat pseudogene psi-beta-Z for a beta-globin
+AGGAACAAGAGTGCATCTTACATTCCCCCAAATCAATGAACTTGTGTTATGCCCTGGACTAATCTACTCTCAGAAGCAGA
+GAGGGCAAGGTGCTGGGTGGGACTCACAAGGAAGACCAGGGCCCCTGCTGCTTACACCTGTTTTTGACACAACTTGCAAC
+TGCACAAACACACATCATGGTGTATCTGACTCTTGAGGAGAAAGCTACTTGTCACTGCCCTGTGGAACAAGAGTGGCTGA
+AGTTGGTATTGAAATCTTAGGCAGGCAGGTATTCAGTTTACAAGGCAGGCTGACAGACAGTGAATGTCAGCTGGGTGTGT
+GGTGACAGAGCCATTTCCTGAGATTCTGGCAGGCACTGATTCCCTCCTTCCTTATGCTGTTTTCACCCCCTAGGCTGCTG
+GTTGTCTACCCCTGGACTCAGAGGTTCTTTGAGTCCTTTGGGAACTTGCCCTCTGCTGATGCTGTTATGAGCAACGCTAA
+GGTGAAGGCCTATGACAAGAAGGTGCTAGTCTTCCTTACTGAAGGCCTGAAGCATGTTGACCATCTCAAGGGAGTTTTTG
+CTTTGCTGAGTGAGTTGCACTATAAGAAGCTGCATGTCAGTCCTGAGAACATCAGAGTGAGTCTACGGGACCCTTAATAT
+TCTCCATCTTTTTTCTTTTTTTTTTTTTGTGGTCAAGTTTCTATCATGGGGAGAGAGTTAAGCAGCAGGATACAGTTCAG
+AATGCAGAAGAGGTATTCTGGTTACATCACTATGGATTTCTCAGGACCATTTCATTTCCTTTACCTTCTTTGTTCCCAGC
+CATCATTTCCTCTTACCCAATCTTGTTCTTTTTTCTGTTTGCTCTTTACAATATCTTCTTTATATTTAAACATTTTGAGT
+GTTTAAAAACACTTTTATGTTTTAAGTCACTTAAAATTTTATCTCATTTTTTCCCCTTACCTCTTCCTTTCAAAGCAAGG
+AAGACAAAATGATGCATTGCTTCTTGAAATGGTTCAAAAGAATAATAAATGATAACAGACTAAGGCAGAAAGGATGAAAC
+ATTTCTAAGAACAAGCTCAGGTTGATATAGGTGGCTCCATATCAGTAGTAACACCTACTCTTCAGCCATCTTTCTACTTA
+TATTCTAGGGGCACAACTTGGGATGAGACTGAAATACTCTTTAGTCCAAATTGGGTGCCTCTGCTAACTATGTCCTTGTT
+TTTTTATTCCTTCCACACAGCTCCTTGGCAAAATACTGGTA
+>ref|NM_001285587.1| Capra hircus casein kappa (CSN3), mRNA
X60763.1 C.hircus mRNA for kappa casein
+GGCCAACTGAATCTACTGCCAAGCAAGAGCTGACGGTCACAAGGAAAGGTGCAATGATGAAGAGTTTTTTCCTAGTTGTG
+ACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAGGAACAGCCGATATGCTGTGAGAAAGATGA
+AAGATTCTTCGATGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCTAGTTATGGACTCAATT
+ACTATCAACAGAGACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCAAAGCCAGTTGCAGTTAGG
+TCACCTGCCCAAACTCTTCAATGGCAAGTTTTGCCAAATACTGTGCCTGCCAAGTCCTGCCAAGACCAGCCAACTACCCT
+GGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAGATCAGGATAAAACAGAAGTCCCTGCCA
+TCAATACCATTGCTAGTGCTGAGCCTACAGTACACAGTACACCTACCACCGAAGCAATAGTGAACACTGTAGATAATCCA
+GAAGCTTCCTCAGAATCGATTGCGAGTGCATCTGAGACCAACACAGCCCAAGTTACTTCAACCGAGGTCTAAAAACTCTA
+AGGAGACATCAAAGAGGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTTTCCTTTGGCCAGTTGTCTGCC
+TTCAGTGAACAGAGAATATGATTTTCACAGATCCAGCTCCTTTCTCATCTCCTCTTACATTTTACATTTATGCCGCATTT
+AGTTTTTTGATTCCTGCATAATAAAG
+>ref|X05149.1| Goat mRNA for prealpha-lactalbumin
+GGGGTAACCAAAATGATGTCCTTTGTCTCTCTGCTCCTGGTAGGCATCCTATTCCACGCCACCCAGGCTGAACAATTAAC
+AAAATGTGAGGTGTTCCAGAAGCTGAAGGACTTGAAGGACTACGGAGGTGTCAGTTTGCCTGAATGGGTCTGTACTGCAT
+TTCATACCAGTGGTTATGACACACAAGCCATAGTACAAAACAATGACAGCACAGAATATGGACTCTTCCAGATAAATAAT
+AAAATTTGGTGCAAAGACGACCAGAACCCTCACTCAAGGAACATCTGTAACATCTCCTGTGACAAGTTCCTGGATGATGA
+TCTTACTGATGACATTGTGTGTGCCAAGAAGATTCTGGATAAAGTAGGAATTAACTACTGGTTGGCCCATAAAGCACTCT
+GTTCTGAGAAGCTGGATCAGTGGCTCTGTGAGAAGTTGTGAACACCTGCTGTCTTTGCTGCTTCTGTCCTCTTTCTGTTC
+CTGGAACTCCTCTGCCCCTTGGCTACCTCGTTTTGCTTCTTTGTACCCCCTTGAAGCTAACTCGTCTCTGAGCCCTGGCC
+CTGTAGTGATGATGGACATGTAAGGACTAATCTCCAGGGATGCGTGAATGGTGCTCGGGACATTTGACCCTTGCTCGGTG
+CCTCTGATAGCACTTTTAATGCAACAGTGCATATTCCACTTCTGTCCTGAATAAAAGGCCTGATTCTG
+>ref|X67490.1| C.hircus microsatellite DNA
+TTCCTTAGCAACACTCGGCTCATCTGCCTACAAGACGAAAGAAACACGGCACGGCACATCTTCCTTAGCAACTCTTCCTA
+TCCCTCCCTCTTTTCCTTCCCCACTTTTCTTGCCCCCTCTTTCTTTTTCTACCCCTCAAGCTTGAACTGGAGTGTGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAATGGTGGCAGCGAGGGGGAGGAGAACATCCTGC
+AGCCCCAGCCTCCACAGAGGAAAGAAACTCGGGGTCAGGACTCGTTAACTGTCAATATCGGTACATGGTTCTGTGTGAAT
+GT
+>ref|X02313.1| Goat repetitive sequence 4.3 kb 5' to beta-F-globin gene
+TTAATTCCCAAAGCCAACTTTTAGGGCACTTAAGCATCTGCCTGGAATGCGGGACACTTGGGTTCGATCCCTGGGTTGGG
+AAGATTCCCTGGAGAAGGAAATGGCAACCCACTCCAGTACTCTTGCCTGGAGAATCCCGCAGAGGGAGGCCTGTTAGGCT
+ACAGTCCATGGGGTCGCAAAGTCGGACACGACTGAGCGACTTTACTTTACTCTCTGAGGCTTCAGAGATAGGAAAATCTA
+GAAGAATAGCATCCTAAATTCCCA
+>ref|X02314.1| Goat repetitive sequence 5.3 kb 5' to beta-C globin gene
+TACTGACAATAGAAGTCGAGTGAGTGAGTGAGGTCGTTCAGTTGTGTCCAACTCTTTGCCACCCCATGGACTGTAGCCCA
+CAAGGCTCCCCTATCCATGGAATTTTCTAGGCAAGAGTACTGGAGTGGTTGCCATTTCCATCTCCAGGGGATCTTCCCAA
+CCAGGGGATTGAACCCTGGTCTCCCTCATTAGAGGCAAACGCTTTACCATCTGAGCCACCAGGGAATCCCATACTAACAA
+TAGAA
+>ref|X02315.1| Goat repetitive sequence 7.3 kb 5' to beta-A-globin gene
+TTAGTTGCTCAGTCAGTGTCCCACTCTTGGCAACCCCACGGAGTCCATCAGGTTTCTTTGTCCATGGGATTCTCCAGGCA
+AGAATACTGGAGTGGGTTGCCACTCCTCCTCCAGGGGATCTTCCCAACCCAGGCATCGAAGCCAGGTTTCCTGCATTGCA
+GATAGATTCTTTACTGTCTGAGCCACCAAGGAAGTCCTTTACCCTTACTT
+>ref|X03118.1| Goat satellite II DNA repeat unit fragment
+GATCTGGCAGAGTTCCTGGCGCGAGGCTGCTCTGCCGGGGGCTAGCCTTGCCCAGACTTGCCTTGCTTTTAGGCTGCCTC
+TCCAGGAAGGAGCAGGCAGCAGGAGCCTGGGAGTCACCACTGGCGCCTTTCTTGCCTCAGCTCCAATCCTGCCTTGCCTT
+TGCACTTAGGTCCCAGTCCTCCTTAAGGAGAGCTTAGGGGCTGGTGGGTTGCACATCCAAGGGCTCCAGCCGTGAGAATT
+>ref|X55312.1| C.hircus DNA for thyroglobulin (Tg) gene, last exon
+GGAAGAGATGAGGGAGAAATCGGATCCAGGTTGGACCAGCCTTGTCTGTCCTATTTCAGATGAAACTAAGGACGGGCTGT
+CAGCAGACAGCAGAGAGGAGGACCAGCTGGCTGGCTCTGGGCTGACAGAGGACCTCCTGGGTCTCCCAGAGTTAGCCTCC
+AAGACCTACAGCAAGTGACCAGCCCCATCCCAAATGCCACCCTGGACACCTTATTCTCCAACATAGCCGCTATCAATAAA
+GTGTCTACCTGCAGAAAAGCATTGGTGACTCAGATTCATTAATTTCAGACAGTCCTTGGGAGACACCAGGGATTCTTGTG
+GCTCAGAGGGTAAAGCATCTGCCTGCAATGCAGAGACCTGGGTTCAATCCCTGGGTCAGGAAGATCCCCTGGAGAAGGAA
+ATGGCAATCTACTCCAGTACTCTTGCCTGGAGAATCCCATGGATAGGGGAGCCTGGTAGGTACAGTCCATGGGGTCGCAA
+AGAGATGGACACGACCTGAGCGACTTCACTCACTCACTCACTTGGGAGACACCAA
+>ref|Z18637.1| D.delphis gene for large subunit rRNA
U13106.1 Delphinus delphis mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAATACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA
+AAACAATACCACCAAGGGATAACAAAGCTTTAAATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCTACTAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18636.1| D.delphis gene for small subunit rRNA
U13083.1 Delphinus delphis mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAATCCCAAAACAAGATTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAACTCACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATGAGGCCA
+>ref|Z18639.1| D.leucas gene for large subunit rRNA
U13107.1 Delphinapterus leucas mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGGCTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTCTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACCCAAAAAACA
+CAAAACAGCACCACCAAGGGATAACAAAATTTTACATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAAC
+CCTCCGAGTGATTAAAACCTAGCCTACTGGCCAAAGTGTAATATCACTTATTGATCCAAATTCTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGTAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18638.1| D.leucas gene for small subunit rRNA
+TCGTAAACTTAAATAGTCCTTAAAACAAGACTATTCGCCAGAGTACTACCGGCAACAGCCCGAAACTCAAAGGACTTGGC
+GGTGCTTCATATCCCTCTAGAGGAGCCTGTTCTGTAAACGATAAACCCCGATCAACCTCACCAATCCTTGCTACCTCAGT
+CTATATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCACAACTATCGCACATAAAAACGTTAGGTCAAG
+GTGTAACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACATCCCTCAAGTCTACACGAAAGTTTTTAT
+GAAAACTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAATAGAGTGCTTAATTGAATAAGGCC
+>ref|Z11814.1| D.virginiana interphotoreceptor retinoid binding protein gene, exon 1
+CCCAGAAAACCTAATGGGCATGCAAGAAGTCATTGAACAAGCAATCAAGAGTGGGGAGATCCTGGATATCTCTGATCCCC
+AAATGCTGGCCAGTGTCCTGACAGCAGGTGTGCAGGGTGCCCTCAATGACCCACGGCTAGTGATCTCCTTTGAGCCCAGC
+ATTCCTGAGACTCCCCAGCATGTCCCAAAATTTGCCAACGTCACTCAGGAGGAACTGCTCACCCTGCTCCAGCAAATGAT
+CAAGTACCAGGTACTGGAGGGCAATGTGGGTTACCTAAGAGTTGACTACATCCCTGGCCAGGAGGTGGTAGAGAAAGTCG
+GGGAGTTCTTGGTGAATAACATCTGGAAAAAGCTCATGGGGACCTCCGCTCTGGTGTTGGATCTCCAGCACAGCTCAGGG
+GGTGAAGTTTCAGGAATTCCCTTTGTCATTTCCTACCTACACCAGGGGGATATCGTGCTGCACATAGACACAGTTTATGA
+CCGGCCATCCAATACCACCACAGAGATCTGGACCCTGCCCCAGGTGCTGGGTGAGAGGTACGGTGGGGAGAAGGACATGG
+TGGTCCTCACCAGTCACGGTACTGTTGGAGTAGCAGAGGATATAGCCTACATCCTCAAGAAGATCCGCCGGGCCATTGTG
+GTGGGAGAGCAGACTCTGGGAGGGGCTCTAGATCTCCGGAAGCTGCGCATTGGCCAGTCAGATTTCTTCATCACTGTGCC
+GGTATCACGCTCCCTGAGCCCCCTCGGAGGGGAAGGCCAGACATGGGAGGGCAGTGGGGTGCTCCCCTGTGTAGGGATCC
+CAGCAGAACAGGCCCTGGGGAAAGCACTGGCCATTCTCACCCTGCGCAGGGCAAGACCGGGAGCCATTCAACGTCTCATG
+GAAGTCTTACAGAATTACTACACCCTGGTGGATCGGGTACCCGCGCTGCTCCATCACCTCACTGTCATCGACTATTCCTC
+AGTGCTCACAGAGGAAGATTTGGCGACCAAGCTCAATGCAGGACTGCAAGCTGTGTCAGAGGACCCCAGGCTCCTCGTTC
+GGGTTCTGAAGCCTGAGGAAGTCACAACTGACTCTGAAGTTAGCAAGGAGGCAGATACTACAGCTGTGGCCCACTCACTG
+CCTGAGGATGAAGTCCCAGAGCAAGCCCTGGTAGACTCTGTGTTCCAGGTATCAGTGTTGCCAGGTAACGTGGGCTATTT
+GAGGTTTGATGAGTTTGCTGACTCCTCGGTACTTGCACCCTGG
+>ref|X51914.1| Equus caballus large-subunit ribosomal RNA D3 domain
+ACGGACCAAGGAGTCTAACACGTGCGCGAGTCAGGGGCTCGCACGAAAGCCGCCGTGGCGCAATGAAGGTGAAGGCCCCG
+CGCCGCCCCCCGGGGGCCGAGGTGGGATCCCGAGGCCTCTCCAGTCCGCCGAGGGCGCACCACCGGCCCGTCTCGCCCGC
+CGCGCCGGGGAGGTGGAGCATGAGCGCACGTGTTAGGA
+>ref|X58563.1| Equus caballus mRNA for atrial natriuretic polypeptide (ANP)
+ATGGGCTCCTTCTCCACCATCATGGCGAGCTTCCTCCTCTTTCTGGCATTTCAGCTCCAAGGGCAAACCAGAGCTAACCC
+CGTGTATGGCTCTGTGTCCAACGGAGACCTGATGGATTTCAAGAATTTGCTGGATCGTTTGGAGGACAAGATGCCTTTAG
+AAGATGAGGTGATGCCCCCACAAGTACTAAGTGATCAGAGTGAGGAAGAGAGGGCAGCTCTCAGCCCCCTCCCTGAGGTG
+CCTCCCTGGACCGGGGAGGTCAATCCAGCCCAGAGAGATGGGGGTGCCCTTGGGCGGGGCTCCTGGGACTCCTCCGACAG
+ATCTGCCCTCCTGAAAAGCAAGCTGAGGGCACTGCTCGCTGCTCCTCGGAGCCTACGGAGGTCCAGCTGCTTCGGGGGCA
+GGATGGACAGGATTGGAGCCCAGAGTGGACTGGGCTGCAACAGCTTCCGGTACCGAAGATAACAGCCAGGGAGGACAAGG
+ACAAGGCCAGGCCCTGGGCAGACTGCGAGAGACCCTATCCCCCGGGGTCTCTCACTCAACGTTGTTCCATCTCATTGCTC
+CCAAGCTGAGTGGTGACGAGCACCCTATCCAAGCTGCAGCCCCCTGTCAACAATTCTCACATTTTATTCTAAATGTAGAT
+AAAGTGGCTTAATTGTGGCTTCCCCAGCTCCCCCATCCCATGCATTAAATTTTAGGGTAGATCCTCACCCATTACTGAAA
+GCGGTTTGAAAAATGAATAAACTTCAGCACCACGGAGAGAAAAAAAAAAAAAAAAA
+>ref|X16773.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 1)
+CTGCAGGTTCAACGGATCCCAGACCACAGGAGGCGTTTGGGAGGGCACCAGAGGCCGGGGAGGCCAACCGCAGGTGGGCG
+CCGGCTGCATCCGCAGCCCAATCTCCCACCCCCACCCAGGCGCGTCTCTTCGTCTCAGAGGAGCTCCCTGATGCCCTGGA
+AAGGCCCCTCTGAGCGAGGTTTCTGTTTTGGGTCCGCGGAGATTCGGGGAGCCCAGTTCCGAAAACATATCCGCACCCAC
+TGCGACCTTCGGTGCCCCACAAAGCAGCCCGGCCACGCAGGGCCCGGAGGAGGGGCGCGGGAGCTGCACGGGCCCGAGGC
+CCCGCGGCCCAGCCAGCCGGTGCGCCCCGCAGTGGGGGCCGCGGCCGCCCGGGCGTGGGCACGCCGCGCCCCGGGCCCGG
+ACCCCGGCGCCCTCCTGCCGGGAGCCCAAGCAGGCGGGGGCCGGCGGGGCGGCTGCTGGGGCCGGAGTTTCGTTTGGGGT
+GGGGGCGGAGCAAGCCAGCGCCGGTGTTGGAGCCAAGGCACAGCCGGTGTCAGGTTGCTCCGGCAACGGTGACGTGCCGC
+GGCGTGGGCGGGGCCAGCACGCAGGTTGCATATTTTAGGAAGCGAGGCGGAGGCGGGGGTTCGAGCTGCGGCAGGGTCTG
+GGGCGCGGACGAACGGCGGAGGAGGCGGACACGTGGCAGTGGCACTGGTAGCAACCCGGCGGCGGCGGCAGTAGCAGCGG
+CGGCTTCGGTCCGAGCCGCCGGCCGTCCTCCCTCGCTCCCGCCCGCGGCAGCCCTCGCTCGCCTCTCGGCTCCCCCGGCC
+GCGCTAGCTCGGCCGGGAGCTCTCTCTTCTTCTCTGTCTCATTCCCAAGCGACAGGACCCGGCGCCGGGCACAGACCACC
+GCCACCATGGGGAAGGGGGTGAGTGTCCGGCGAGCTGG
+>ref|X16774.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 2)
+TTTCCCACATTCTCCTGTAGGGTGGACGTGATAAATATGAACCCGCAGCGATTTCAGAGCATGGCAACAAGAAAAAGGCC
+AAGAAAGAGAGGGATATGGATGAACTGAAGAAAGAAGTCTCTATGGTAAGTGCTAGGAGGAAGGT
+>ref|X16775.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 3)
+TTGTTTCTGTTTTCCCTTAGGATGACCATAAACTTAGCCTTGATGAACTTCAGCGCAAATATGGAACAGACTTGAGCCGA
+GTATGTTCAAATTTGAAACT
+>ref|X16776.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 4)
+CATCTTCCTCTACTTCTCAGGGCTTAACAACTGCTCGAGCTGCTGAGATCCTGGCCCGAGACGGTCCCAATGCCCTTACA
+CCCCCTCCCACCACTCCTGAATGGGTCAAATTCTGTCGGCAGCTCTTTGGGGGTTTCTCAATGTTACTGTGGATTGGAGC
+AATTCTTTGTTTCTTGGCTTATGGCATCCAAGCTGCTACAGAAGAGGAGCCTCAAAATGATAATGTGAGTGCTATACTTC
+CTCA
+>ref|X16777.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 5)
+ACTTGTTTGTTCCCTCCCAGCTGTATCTTGGCGTGGTGCTGTCAGCTGTCGTCATCATAACTGGCTGTTTCTCCTACTAT
+CAAGAAGCTAAAAGTTCAAAGATCATGGAATCCTTCAAAAACATGGTTCCTCAGGTACCTCTCTTTTGGGCTTC
+>ref|X16778.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 6)
+ACTGTTTTCCCCTCCCAAAGCAAGCACTTGTGGTTCGAAACGGTGAGAAGATGAGCATCAATGCGGAGGAAGTAGTGGTA
+GGGGATCTGGTGGAAGTGAAAGGAGGAGACCGGATCCCTGCTGATCTCAGGATCATATCTGCAAACGGTTGCAAGGTGGG
+TGGGTTCGAACAGGA
+>ref|X16779.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 7)
+TTACTTTTGCTCCCGGACAGGTGGATAATTCCTCACTCACTGGCGAATCAGAACCCCAGACCAGGTCTCCAGATTTCACA
+AATGAAAACCCCCTGGAGACGAGGAACATTGCCTTTTTTTCAACCAACTGCGTTGAAGGTGTCCATATTAAGGCACTC
+>ref|X16780.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 8)
+CCCCCTTCATGCTTTTTAAGGCACTGCACGTGGCATTGTCGTGTACACGGGGGATCGCACCGTGATGGGAAGAATTGCCA
+CACTTGCTTCTGGGCTGGAAGGGGGCCAGACTCCTATTGCTGCAGAAATTGAACATTTTATCCATATCATCACGGGTGTG
+GCCGTGTTCCTGGGTGTGACCTTCTTCATCCTTTCTCTGATCCTCGAGTACACTTGGCTTGAAGCTGTCATCTTCCTCAT
+CGGTATCATTGTAGCCAATGTGCCAGAAGGTTTGCTGGCCACCGTCACGGTAAGAGCCTTAGGGGAAGG
+>ref|X16781.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 9)
+TGGTTGCTGACCTTTTTCAGGTGTGCCTGACCCTCACTGCCAAGCGCATGGCGAGGAAGAACTGTTTAGTGAAGAACTTA
+GAAGCTGTGGAGACCTTGGGGTCCACATCCACCATCTGCTCGGATAAAACTGGAACGCTGACTCAGAACCGGATGACAGT
+GGCCCACATGTGGTTTGACAATCAAATCCACGAGGCCGACACGACTGAGAATCAGAGTGGTAAGACTAGTACCCCCTCC
+>ref|X16782.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 10)
+TCTTTTCTTGGTTTCATCAGGTGTCTCATTCGACAAGACTTCAGCCACCTGGCTCTCTCTGTCCAGAATTGCGGGTCTTT
+GCAACAGAGCAGTGTTTCAGGCTAACCAGGAAAACATCCCCATCCTTAAGGTGCGCTCAGGCGTCCTGTG
+>ref|X16783.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 11)
+TCACAGCTGGGCCGTCGCAGCGGGCCGTCGCAGGCGATGCCTCCGAGTCAGCACTCTTGAAATGCATCGAGCTGTGCTGC
+GGCTCTGTGAAGGAGATGAGGGACAGATACCCCAAGATCGTGGAGATTCCCTTCAACTCCACCAACAAGTACCAGGTGGC
+CTGGGGCGCGAGGCG
+>ref|X16784.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 12)
+TTTACAGTTGTCCTTTACAGTTGTCCATTCATAAGAACCCCAACACGTCTGAGCCCCAGCACCTGCTGGTGATGAAAGGT
+GCTCCGGAAAGGATCCTGGACCGCTGCAGCTCTATCCTCCTCAACGGCAAGGAGCAGCCCCTGGACGAGGAGCTGAAAGA
+TGCCTTTCAGAACGCCTACCTGGAGCTGGGCGGCCTCGGAGAGCGAGTGCTCGGTACGCAGATAACCTGGTTA
+>ref|X16785.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 13)
+GCTCCCTGCCCTCCTTTCAGGTTTCTGCCACCTTTTCCTGCCCGACGAACAGTTTCCCGAAGGCTTCCAGTTTGACACTG
+ACGATGTGAATTTCCCTCTTGAAAATCTCTGCTTCGTTGGGCTCATCTCCATGATCGACCCTCCCCGAGCTGCCGTGCCT
+GATGCCGTGGGCAAATGTCGGAGCGCTGGGATTAAGGTAGCGTCCAGTCTGCGTCC
+>ref|X16786.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 14)
+TGTCTTGTTTCTTGTTGCAGGTCATCATGGTCACTGGAGACCATCCTATCACAGCCAAAGCCATTGCCAAAGGTGTGGGC
+ATCATCTCAGAAGGCAATGAGACCGTAGAGGACATTGCTGCCCGCCTCAACATCCCAGTGAGCCAGGTGAACCCCAGGTA
+AGGCAGGAAGCTCGAAG
+>ref|X16787.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 15)
+CTTTTCTGTCCTCATCCTAGAGATGCCAAGGCCTGCGTGGTTCATGGGAGTGATCTGAAGGACATGACCCCTGAGCAGCT
+GGATGACATCTTGAGGCACCACACTGAGATTGTGTTTGCCAGGACCTCCCCTCAGCAGAAGCTTATCATCGTGGAAGGCT
+GCCAGAGGCAGGTTCCAAGGTGGCCCTCTCA
+>ref|X16788.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 16)
+CATGTCAATGTTTGTGGTAGGGTGCCATTGTGGCTGTAACTGGCGATGGTGTCAATGACTCTCCAGCTTTGAAGAAGGCG
+GACATTGGGGTTGCTATGGGGATAGCTGGCTCAGACGTGTCTAAACAAGCTGCTGACATGATTCTTTTGGACGACAACTT
+TGCCTCAATTGTGACTGGAGTAGAGGAAGGTGAGAGCACTACATTTAAA
+>ref|X16789.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 17)
+AAAATATTTTGCCTTCCTAGGTCGTCTGATCTTCGATAACTTGAAGAAATCCATTGCCTACACCCTGACCAGTAACATTC
+CAGAGATCACCCCCTTCCTGATATTTATTATTGCAAACATTCCACTGCCCCTGGGGACTGTCACCATCCTCTGCATTGAC
+TTGGGCACAGACATGGTAATGATGTCGAGCTTCCA
+>ref|X16790.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 18)
+CTCGCCGCCCCTACCCCCAGGTCCCCGCCATCTCCCTGGCTTATGAGCAAGCTGAGAGCGACATCATGAAGAGACAGCCC
+AGAAACCCCCAGACGGACAAACTTGTGAATGAGCGGCTGATCAGCATGGCCTACGGACAAATTGGTGAGCTGCCACATGG
+CGTC
+>ref|X16791.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 19)
+TTACTTTTCTAACTTCTTAGGTATGATCCAGGCCCTAGGGGGCTTCTTCACCTACTTTGTGATTCTGGCTGAGAATGGCT
+TCCTCCCAATTCACCTGCTGGGACTCCGCGTGGACTGGGATGACCGCTGGGTCAACGACGTGGAGGACAGCTACGGGCAG
+CAGTGGGTGAGTGAGCTCCTCAGTTC
+>ref|X16792.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 20)
+TTTTGCCTTTTGCGTTTCAGACTTACGAACAGAGGAAAATCGTGGAGTTCACCTGCCACACAGCATTCTTCGTCAGTATC
+GTGGTGGTACAGTGGGCCGACTTGGTCATCTGCAAGACCAGGAGGAACTCAGTCTTCCAGCAGGGGATGAAGTGTAAAGG
+ACAGTCAGGTT
+>ref|X16793.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 21)
+TTTTTCCTCCTTGACTTTAGGAACAAGATCCTAATATTTGGCCTCTTCGAAGAGACGGCCCTTGCTGCCTTCCTTTCCTA
+CTGCCCTGGAATGGGTGTGGCCCTGAGGATGTATCCCCTCAAGTAAGTCCATCCTCTCCAGC
+>ref|X16794.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 22)
+GGTACCTGCTTTTTCCAGGCCTACCTGGTGGTTCTGTGCCTTCCCGTACTCTCTTCTCATCTTCGTGTATGACGAAGTCA
+GAAAACTCATCATCAGGCGACGCCCTGGCGGTAATTACAGGCATTTTAGC
+>ref|X16795.1| Horse alpha-1 subunit of Na,K-ATPase gene (exon 23)
+CTGTGTGTTTGCTGCCGCAGGCTGGGTGGAGAAGGAGACCTACTACTAGACGCCATCCTGCAGCCGCGGAATCGCTCACC
+CTGCACCCCTCACCCACCCCCCTCTGTGTACTTCAGTCCCGGAAGCTCGGAACTCTACCCTGGTAGGAAGGCACCGAAGC
+ATGTGGGGGAAGCCAGACGTCCCGGAATGAAGCATGTAGCTATATGGGGGGAGGGGGGAGGCTGCCTGAAAACCATCCAT
+CTGTGGGAATGACAGCGGGGAAGGTTTTTATGTGCCTTTTTGTTTTTGTAAAAAGGATAACTCGGAAAAGACTGAAAGAA
+TACATTTTATATCTGGATTTTTACAAATAAAGATGGCTATTATAATGGAATTTGCCTCATGTCCTTCATCACTTCTGTGG
+TCCAGATGTCTGTGTGTTGTGTGAGGATCTGAGCTCACGGGGGCTGCTGCACAGTCCCCAGCCTGGAGACAGGTGCCTGG
+GCAGCCTCTGTGGGAGGGCTAAGCTTTCCTGACGACCAGCTCGTGCAGTAAACATGTGAGCCAGGTGGTCCC
+>ref|X07053.1| Horse psi zeta and alpha 2 globin genes (BI allele)
+CCTGAGTGCATCTGACCAGTGAGAATGGACCAACAGATCTTACCTGTCATGTGGGAATGTGCGACCTCAACAGCGAGTGG
+AAACAGTGCCACCACACGGATCGCCATGACAGCCATCCCCCTTCATGCGCTGGCTGGGGAGGGAGAAACTGGTCCACACG
+CAGATGTTAGGGCTCAGTCCAGGGTCAGAGCAGTGAGGGGGTCTCTGCCCCTTTCTCCGAGTACCCAGGGTCTCCCTGAG
+GCAGCCAGGGAGGTGGCCGTCGGGGGATGTGTAACAGGAGGAGCCACAGAAGAAGCTTCTCCACCAGACTCAGGCCTGGG
+CTTGGTCTGCCAGCCCCCTGTGCCCAGGGGCCCCAAACTCTCGGCTCAGATACAAAGACAGGGTCAGGCGGCCCACAGCT
+CAGCTCCACTGAACAGCAACACGTGCTCCATGTGGAAACCCAGTGACAACACACGCAACCGACCAACCGACAAGGACACC
+ACAACCCTCGTCACTTAGGGGTCATTACTGTCACTAGTTTGGTGCTGTCCTATCCAGCCCTTTCTACTACTGAAAAACAT
+TATCATATTGTATGTTCTGTAAAAAATCTTCTATTTTAAGAAAGTGCTTATAAAAAATGTTTATTATAATTACAACATTC
+AAATCAAGCTATAATTTAACTTAAAAATACATGCATAAAAGTGCACTTTGCAAGAACCCATAGGAACTGAGAGGAAGATA
+CAGGCTCATTAGAATGGCCGCCTTACGGGAAGGGAAGGGAAGCGACGTGCGTGGACAAGAGAACAAGGGTCTTGTCCAGG
+CTGTGACAGGTGGAACCGTAGGCGCGTGTGGCCCAGCCGTTGTGGAGAATCCAGGCTCCTTGCGGCCTGGGGCCCTGCTT
+GGAAAGCAGCCCCCCCAAGCTGCTGGGGGACTTGGCCCATGCTGGGGAGAACCTCAGACAGACCCTCATCTAGGTGAGGA
+GGGGGCAACACAGAAGAGGCGGGAGAGGGTCTGAGGCCAAGACTGCCACTCACACCCAGTGATGCCTGGCCTCAGTTTCC
+CTCCATGGGCCTCGGTGACTCATCAGGTGGCGTTGCTGAAGCTTTAAGGAACAGGGTGCTTCTGTCAGGGCCCGACGGGT
+TTCAGGTCATCCTTCCATTGCAAGGACAAGGAGGGGAGGGACCAGCATTACGGAGGCCAGTCTCTGGGCTGGGCTGACAC
+GTGGACCCTCGACCCAAGCCTGGGCCCCCATCTCCCTGGGCCAGGGCTCTGGCTGTGGCCCAGTGGGTGATACCCTCACC
+CCCTCACCCCAAACTGCTCGTCACTGGATCGGATAAGAGACCACCACCCTCACGGCCCCCTCCCCTCCTGACCAATGGCC
+ACACTCTGGCCCCCACCCCAGCTCCGTGTATATAAGGGGACCCTGGGGGCTGAGCACCATGGAGGCCAGTCCTGAGGACA
+CCCAGCTCCAGTCCAGCCATCACCATGTCTCTGACCAAGGCTGAGAGGACCATGGTCGTGTCCATATGGGGCAAGATCTC
+CATGCAGGCGGATGCCGTGGGCACCGAGGCCCTGCAGAGGTGAGTGCCAGACAGCCTGGGACAGGTGACAGTGTCCCAGG
+TGACACTGGTGTAGGTGACAGCGTGAGTTTAGTGAGGACAGGGGCCAGTGAGGAGGGACAGCGAGGAGGGGTCAGTGAGG
+AGGGCACAGTCAGGAGGGACAGTGGAGAAGGTCTTGAGTCGGGAAAGGTGAATCGCTCGGATGTCTGGCTGACCCCCGCT
+AGGCCTAGCAGGGACAGGCCCAGGTCCCCACAAGGAGGGGCTGCACACATTTCTCCCGAGAGAACAGAAGTGTCTTCCGG
+GGCGCCAGGCAGCAACAGCATCAGGGTCTCGCATTCTGGGGGCGGTGTCAGCAGAGGGTCCCCGCAGAGACCTTCCTTGG
+GACACGGCTGGAGAGGGCAGCATTTCCGGCAGAAGGGTCAACAGGAAGCCTGATCAAGGGCTGGGAAGGAGGCCCCTTCG
+CCAGAGGAGAGGTGACAGGGGCTGATTGGAAGCCAGGAGGCAGGCCCGGAGCCGCCCGGCCTGGAATGGGGCTGGGGGCC
+GAACACGGCCCGGCGGCGGGAGGGTGTGGACGCCGAGGAGAGGGCGCCTCCAGACGGCGGGGTGGAGCTTCGGTGGGGGG
+CCGTGGTAGGGCAGAGTGGGTGCTCGGATCGGAGGAGAGTCAGGCTTCGGCTTGCGCGGTGGCCCCACCTTCTCAAAGCA
+CGTCCGCAGTCATTCGTTCGTTCAGTCATTCTCCCTCCATCCCTACCTCGCGCGGAAGCGGGGAACGTGAATCTTTGCCC
+CTTTTGCAGACAGACGCGGGCTCCCAGGCCCAGGGGCCAAGTTCCTGGCCTGAGGTTAAACAGAATTGCGGCCCTGGGTT
+CCTCGGACACCCATCTCTGTTCCTTTTCCGCTTCCCCTCCCCCTAGCCTGCAGCAAATCTTGCCCTGGGCCAAATTATCC
+CCTTCCTCTGAATCTCCTGGGGGCAAGGGATGGGGGTAGGGAGGAACTTCTCGACGGCCGCAATCTGGCGGAACAGGTTT
+CCAACTCGATTCACTGGGCATGTCCCCGAGCAATCTGAGCCTAACGCATCAGGTGGGAAAACCTCGGGCCTCGCTGGGTC
+TTTGAAATAATTTACGCGATCAGAATGCAGGGTCGGTTCCAGGCTGGCCCCGGCCACCCCACCCCCACCCAGCCGCAGCC
+GCGGCGCCCCAGTCTCCGCGCGTCCCCGGCCACCACGCCCGGCCCCAGGGTCGATCTCTCCCGCCTGCGGCACCGGGGCA
+GGAATCTTAGCGCTCAACCCAGAACCTCTGCGGACAAGGGGACAGGAGCCCGGAGAGGGACCCTGGGAGCCCTCCAAACT
+CGATGAGGACCGTTCCGGGACCATCGGCGCCCAAGTCCGAAGGGGGACGCTGGAGGCTAAGTCCGGACGGTGGTTCGGCC
+GAAACCCGCGCCCACGCGGTCCAGGCCGCCCGTTACCCCTTGCTGCCGGGAGCGCCTGCCCACCACCGGGGGAGGAGGGC
+TTGGAGGACGTCCCCCACATTATCTCCTTCCCCGCGTCGTTTACACGGACAGTTTGCAGCTCTCGGCCTGGGGCAAAGTT
+TGGTGCCAAAGCAGCTTGTTTCACTTCGGAACCCGCAAATATACACATTGGAAGCTATCCCCCAGCCCGAGCCAAAGGCG
+AGTGACAGTGGGTTTGGGTGGCTCAGAACCCGCGTGGGCTCCCGGAACCACAGGAGAGAGAATCGAGGGTGCGGAGGAGA
+GCTGGCTCCCGGCGCGGGCGCAGGGAGTCCTGCCTGCCCCCCTCGCTCTGCTCAGCGCTTTCCCAGCCCGCAGCTCCCGG
+CACCGCGCCAGCCAATGAGCGCGGCCCGGGCGGGCGTGCCCCCCGCGCCCAGACCATAAAGCTGCGCGCTCTGTCAGCCG
+CGTACACTGCTGTCCCGGCACAGACTCAGAAACAGTCACCATGGTGCTGTCTGCCGCCGACAAGACCAACGTCAAGGCCG
+CCTGGAGTAAGGTTGGCGGCCACGCTGGCGAGTATGGCGCAGAGGCCCTAGAGAGGTGAGGACCCTCCTTTCCCCGGCCG
+GGACCCTCGGGCACAGCAGCCGCCCCAGGGGCCTGCCAGCAACCCCTCGGTGGGTTCTGGCCCGGCTGGTGCAAAGACCC
+CCAAGATGTCAGGGTCTGACCGCGGACCAGCCGGAGGAGCCCGGCCAGCACCTTCTTCCGAATCCGAGGCTCCGGACCCT
+GCCCCCGACCCCGCTACCCCACACCCACGCCGGCCCCCCGCCGCCGCCGCCCCCCCCCCCCCCCGCCCCCCGCTCACTCT
+CCTCTCCCTGCAGGATGTTCCTGGGCTTCCCCACCACCAAGACCTACTTCCCCCACTTCGATCTGAGCCACGGCTCCGCC
+CAGGTCAAGGCCCACGGCCAGAAGGTGGGCGACGCGCTGACTCTCGCCGTGGGCCACCTGGACGACCTGCCTGGCGCCCT
+GTCGAATCTGAGCGACCTGCACGCACACAAGCTGCGCGTGGACCCCGTCAACTTCAAGGTGAGCCCGGGGGCCGGGCCTG
+GCCGGGCGGGAGAGACGAGCGGGAGGCGCAGCGGGCCCTCCCAGAGGGCAGGGAACCCCGTGGGTCTCAGAAGTGGAGCG
+CGGGCGGCCGCGGCCCCGACGCCCCCTGACACCCCCTCGATCCACAGCTCCTGAGTCATTGCCTGCTGTCCACCTTGGCC
+GTCCACCTCCCCAACGATTTCACCCCTGCCGTCCACGCCTCCCTGGACAAGTTCTTGAGCAGTGTGAGCACCGTGCTGAC
+CTCCAAATACCGTTAAGCTGGAGCCACGGCGATCCCTGCCCGCGGCCCGGGGCCCTTTGCGCTCCGCGTGCCCGCACTTC
+CCTATCTTTCAATAAAGTCTGATGGGCTGCATGCAGCCTGCGTGCCTCGGTTCTCTGTGTCCGCGAATGTGCCAGGGGTG
+GGGGTGGTCTGTCTGATCAAGGACCTCCCAGGAGCGGGCAGAGAGGGAAGGGAAGAAAAGGGTGGAGGAGGGAGTGGAGC
+TAAGACACATGCTTCAGGGAATCGCTGCACTGTGCTCCTGTGCTGGGAGGTGCCCGACTTCGCAGGGTTCCTCCCTGGCA
+TGGGACGTGGGGAGTTGTAAGATCGCCACCCTGTTTGAAGTCTCTGACTGATGCCCGTTGAACATATAATCTAGATCAAA
+ACAAACCACAAACATAGGCGGCTCCCGTGCAAATGCAGGCATTGGACAATATCTAGAAGATCCACTCGTTCCACCAGAAG
+GAAGGTTGCTTGGAATGGGCGCCGCAGCCTGGCGCACCCTCCCTGCCTCACAGCAATCCTTGGGAGCGGCAGGCAAGTGG
+GGGCGGGGGAGAGAGGACCTGAGTCAAGGCACTTAGGAGAGCACTGTTCCCTCGTTCCTGCAGGTTACCAGGCATTGCGT
+GCCCAGCCCTGCATCCCCCAGCTAATTGCTTCCCCATTCTCCAGCCAGAGGCTCCTGGGGTCTGCCAGCGGTTCTGCGCC
+GCGCTGTGAGCCACCTTCAGTAAGGCCCCTGTCCAGGTGCTGAAGCCCT
+>ref|Z18645.1| E.hemionus gene for large subunit rRNA
+TTCTAGTATTAGAGGCACTGCCTGCCCAGTGACATCTGTTTAAACGGCCGCGGTATCCTAACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAGGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTCCAATCAGTGAAATTG
+ACCTTCCCGTGAAGAGGCGGGAATAGCCAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAACTGATTCACAAAAAAT
+AACATACAAACCTAACCCCCAGGGACAACAAAACTTTTGATTGAGTCAGCAATTTCGGTTGGGGTGACCTCGGAGAACAA
+AACAACCTCCGAGTGATTTAAATCTAGACTAACCAGTCAAAATACATAATCACTTATTGATCCAAACCATTGATCAACGG
+AACAAGTTACCCTAGGGATAACAGCGCAATCCTATTCCAGAGTCCATATCGACAATTAGGGTTTACGACCTCGATGTTGG
+ATCAAGACATCCTAATGGTGCAACCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18644.1| E.hemionus gene for small subunit rRNA
+CCCTAAACTAAAATAACTCATCACAACAAAGTTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGG
+CGGTGCTTTATATCCCTCTAGAGGAGCCTGTTCCATAATCGATAAACCCCGATAAACCCTACCATCCCTTGCTAATTCAG
+CCTATATACCGCCATCTTCAGCAAACCCTAAACAAGGTACCGAAGTAAGCACAAACATCCAACATAAAAACGTTAGGTCA
+AGGTGTAGCCTATGGGATGGAGAGAAATGGGCTACATTTTCTACTCTAAGAACAAGAATTTAACCCAGACGGAAGTCTCC
+ATGAAATTGGAGACCGAAGGAGGATTTAGCAGTAAATTAAGAATAGAGAGCTTAATTG
+>ref|X01086.1| Equine BII alpha-1 globin gene
+TCCTCGCCAGCCAATGAGCGCGGCCCGGGCGGGCGTGCCCCCCGCGCCCGGACTATAAAGCTGCGCGCTCGGCCCGCCGC
+GTACGCTGCTGTGCCGCTGCTGGTCCTAGCACAGACTCAGAAACAGTCACCATGGTGCTGTCTGCCGCCGACAAGACCAA
+CGTCAAGGCCGCCTGGAGTAAGGTTGGCGGCCACGCTGGCGAGTTTGGCGCAGAGGCCCTAGAGAGGTGAGGACCCTCCT
+TTCCCCGGCCGGGACCCTCGGGCACAGCAGCCGCCCCAGGGGCCTGCCAGCAACCCCTCGGTGGGTTCTGGCCCGGCTGG
+TGCAAAGACCCCCAAGATCTCAGGGTCTGACCGCGGACCAGCCGGAGGAGCCCGGCCAGCACCTTCTTCCGAATCCGAGG
+CTCCGGACCCTGCCCCCGACCCCGCCACCCCACACCCACGCCGGCCCCCCGCCGCCGCCGCCCCCCCCCCCCCCGCCCCC
+CGCTCACTCTCCTCTCCCTGCAGGATGTTCCTGGGCTTCCCCACCACCAAGACCTACTTCCCCCACTTCGATCTGAGCCA
+CGGCTCCGCCCAGGTCAAGGCCCACGGCAAGAAGGTGGGCGACGCGCTGACTCTCGCCGTGGGCCACCTGGACGACCTGC
+CTGGCGCCCTGTCGAATCTGAGCGACCTGCACGCACACAAGCTGCGCGTGGACCCCGTCAACTTCAAGGTGAGCCCGGGG
+GCCGGGCCTGGCCGGGCGGGAGAGACGAGCGGGAGGCGCAGCGGGCCCTCCCAGAGGGCAGGGAACCCCGTGGGTCTCAG
+AAGTGGAGCGCGGGCGGCCGCGGCCCCGACGCCCCCTGACACCCCCTCGATCCGCAGCTTCTGAGTCATTGCCTGCTGTC
+CACCTTGGCCGTCCACCTCCCCAACGATTTCACCCCTGCCGTCCACGCCTCCCTGGACAAGTTCTTGAGCAGTGTGAGCA
+CCGTGCTGACCTCCAAATACCGTTAAGCTGGAGCCACGGCGATCCCTGCCCGCGGCCCGGGGCCCTTTGCGCTCCGCGTG
+CCCGCACTTCCCTACCTTTCAATAAAGTCTGATGGGCTGCATGCAGCCTGCGTGCCTCGGTTCTCTGTGTCCGCGAATGT
+GCCAGGGGTGGGGGTGGTCTGTCTGATCAAGGACCTCCCAGGAGCGGGCAGAGAGGGAAGGGAAGAAAAGGGTGGAGGAG
+GGAGTGGAGCTGGTAGGCTGCCTGGGGTTTGCTGCAACCCCCCACTGTCACCCTGGAGAGCTTTGCTATGCACGTTGGCC
+TCTTCCTGCATTTCATTCCTTGCAGACTCAACACGGGTTTATTCAAGCAAT
+>ref|Z11811.1| Felis catus interphotoreceptor retinoid binding protein gene, exon 1
+TCAAGAGTCGTGAGATCCTCGCCATCTCGGACCCTCAGACTCTGGCCCATGTGCTGACGACTGGGGTGCAGAGCTCCTTG
+AACGACCCTCGCCTGGTCATTTCATACGAGCCCAGCACCCTCGAGGCTCCCCGGCAAGCCCCAGCACTCACCAACCTCAC
+AAAAGAGGAAATGCTTGCCCGGCTGCAGAAGGGCATCCGCCACGAGGTTCTGGAGGGCAATGTGGGCTACCTGCGTGTGG
+ACGACATCCCAAGCCAGGAGGTGGTGAGCAAGCTGGGGGGCTTCCTGGTGGCCAGCGTCTGGAGGAAGCTCATGGGCACC
+TCTGCCTTGGTGCTGGACCTCCGGCACTGCACCGGGGGCCACGTTTCCGGCATCCCCTATGTCATCTCCTACCTGCACCC
+AGGGAACACGGTCCTGCACGTGGATACCATCTACGACCGTCCCTCCAATACGACCACTGAGATCTGGACCTTGCCCCAGG
+TGCTGGGAGAGAGGTACAGTGCCGACAAGGATGTGGTGGTCCTCACCAGCAGCCACACTGGGGGCGTGGCTGAGGACATC
+ACTTACATCCTCAAGCAGATGCGCAGGGCCATCGTGGTGGGTGAGCGGACTGTGGGGGGTGCCCTGGACCTCCAGAAGCT
+GAGGATAGGCCAGTCTGACTTCTTCCTCACCGTGCCCGTGTCCAGGTCCCTAGGGCCCCTGGGAGGGGGCAGCCAGACAT
+GGGAGGGCAGTGGGGTGCTGCCCTGTGTGGGGACACCAGCCGAGCAGGCCCTAGAGAAAGCCCTGGCCATCCTCACTCTG
+CGCCGGGCCCTGCCAGAGGTTGTCCAGCGCCTGCAGGAGGCCGTGCAGACCTACTACACCCTGGTGGACCGTGTGCCCAG
+CCTGCTGCACCACCTAGCCAACATGGACTTCTCCGCAGTAGTCTCGGAGGAGGACCTGGTCACCAAACTCAACGCTGGCC
+TACAGACTGTGTCTGAGGACCCCAGGCTCCTGGTGCGGGCCGTGAGGCCCAAGGACGCCTCTTCTGCGCCCGAGGTTGGC
+GAGGATGAGCCTCCGGAGGTAGTCCCCACGGTGCCCGGAGCTGAGGCTGCCCGGCAGGCCCTGGTGGTCTCTATGTTTCA
+GGTGTCAGTGCTGCCAGGCAATGTGGGCTA
+>ref|X06372.1| Felis catus repetitive DNA satellite monomer FA-SAT
+TCCTGACCGGCACCGTCCCTTGTGCCCTCAACTCAGCCCTTCGGGGAGACCACTGCCCTGCTGTGGGTTCGGCGCCTGGA
+ACCTCCTGGGACCTAACCCTAACCCTAACCCTACCCCGAACCGGGACCCTCCCCCGAAACCTAAGCCTGCCTCGATCCCT
+AATCCTGCATTTGAGCCGCCTTCTGGCATGGGCCCTCACTTCAGCCCTCGAGGGAGATCACGAGACCGGAGTCGCTTCGG
+CCCTGGCGACGTCCCTGGCCCGAACCCTAACCCTAGCTAAGGCTCTCCCCTCATGGGGACCCAATTCCAACGTCTGACAG
+CATCACGCGCCTGGGGTCCAGAAGCGGTGCAGGCTGACTCGGCAAGGCACCTGGAAGCTCACCATGTCGTTTCCCAGGCC
+CGGCTGCAGCTCCCGAGAGGATTGCGGAGGCCTCCTCGACCGCGGGAGGAACAACATGTGTGGCCGTGGCAGCCAAAGAG
+GGA
+>ref|X60725.1| Feline immunodeficiency virus ENV gene for envelope precursor glycoprotein
+ATGGCAGAAGGGTTTGTAGCCAATGGACAATGGATAGGACCAGAAGAAGCTGAAGAGTTAGTAGATTTTGAAATAGCAAC
+ACAAATGAATGAAGAAGGGCCACTAAATCCAGGAATAAACCCATTTAGGGTACCTGGAATAACAAAACAAGAAAAGCAGG
+AATATTGTAGCACAATGCAACCCAAATTACAAGCTCTAAGGAATGAAATTCAAGAGGTAAAACTGGAAGAAGGAAATGCA
+GGTAAGTTTAGAAGAGCAAGATTTTTAAGATACTCTGATGAAACTATATTGTCTCTGATTTACTTGTTCATAGGATATTT
+TAGATATTTAGTAGATAGAAAAAGGTTTGGGTCCTTAAGACATGACATAGATATAGAAGCACCTCAAGAAGAGTGTTATA
+ATAATAAAGAGAAGGGTATGACTGAAAATATAAAATATGGTAAACGATGCTTAGTAGGAACAGCAGCTTTGTACTTGATT
+CTAGCTATAGGAATAATAATAATAATACGGACAACCGATGCTCAGGTAGTGTGGAGACTTCCACCATTAGTAGTCCCAGT
+AGAAGAATCAGAAATAATTTTTTGGGATTGTTGGGCACCAGAGGAACCCGCCTGTCAGGACTTTCTTGGGGCAATGATAC
+ATCTAAAAGCTAGTACAAATATAAGTAATACAGAGGGACCTACCTTGGGGAATTGGGCTAGAGAAATATGGGCAACATTA
+TTCAAAAAGGCTACCAGACAATGTAGAAGAGGTAGAATATGGAAAAGATGGAATGAGACAATAACAGGACCAATAGGATG
+TGCCAATAACACATGTTACAATATCTCAGTGATAGTACCTGATTATCAATGTTACATAGACAGAGTAGATACTTGGTTAC
+AAGGAAAAGTAAATATATCACTATGCTTAACAGGAGGAAAAATGTTGTATAATAAAGAAACAAAACAATTAAGCTATTGT
+ACAGACCCATTACAAATCCCACTAATCAATTATACGTTTGGACCTAATCAAACATGTATGTGGAACATTTCACAAATTCA
+AGACCCTGAAATTCCAAAATGTGGATGGTGGAATCAACAAGCTTATTATAACAATTGTAAATGGGAGCGGACTGATGTAA
+AGTTTCAGTGTCAAAGAACACAGAGTCAGCCTGGGTCATGGATTAGGGCAATCTCGTCGTGGAAGCAAGGGAATAGATGG
+GAATGGAGACCAGATTTTGAAAGTGAAAGGGTGAAAGTATCGCTACAATGTAATAGCACAAGAAATCTAACCTTTGCAAT
+GAGAAGTTCAGGAGATTATGGCGAAATAACGGGAGCTTGGATAGAGTTTGGATGTCATAGGAATAAATCAATACGTCATA
+ATGCAGCAAGGTTTAGAATTAGATGTAGATGGAATGAAGGGGATAATAACTCACTCATTGATACATGTGGAGAAACGCAA
+AATGTTTCAGGTGCAAATCCTGTAGATTGTACCATGTATGCAAATAAAATGTATAATTGTTCCTTACAAGATGGGTTTAC
+TATGAAGGTAGATGACCTTATTATGCATTTCAATATGACAAAAGCTGTAGAAATGTATAACATTGCTGGAAATTGGTCTT
+GTATGTCTGACTTACCAACAGAATGGGGATATATGAATTGTAATTGTACCAATGACACCTCTAATAATAACACTAGAAAA
+ATGAAATGTCCTAAGGAAAATGGCATCTTAAGAAATTGGTATAACCCAGTAGCAGGATTAAGACAATCCTTAGAAAAGTA
+TCAAGTTGTAAAACAACCAGATTACTTACTGGTACCAGAGGAAGTCATGGAATATAAACCTAGAAGAAAAAGAGCAGCTA
+TTCATGTTATGTTAGCTCTTGCAACAGTATTATCTATGGCTGGAGCAGGGACGGGAGCTACTGCTATAGGGATGGTAACA
+CAATATCATCAAGTTCTGGCAACTCAGCAAGAAGCTATAGAAAAGGTGACTGAAGCCTTAAAGATAACTAACTTAAGATT
+AGTTACATTAGAGCATCAAGTATTAGTAATAGGATTAAAAGTAGAAGCTATGGAAAAATTTTTATATACAGCTTTCGCTA
+TGCAAGAACTAGGATGTAATCAAAATCAATTCTTCTGTAAAGTCCCTCCTGAATTATGGAGGAGGTATAATATGACTATA
+AATCAAACAATATGGAATCATGGAAATATAACTTTAGGAGAATGGTATAACCAAACAAAAGATCTACAAAAAAAGTTTTA
+TGGGATAATAATGGATATAGAGCAAAATAATGTACAAGGGAAAAAAGGGTTACAACAATTACAAAAGTGGGAAGATTGGG
+TAGGATGGATAGGAAATATACCACAATATTTAAAAGGATTATTAGGAAGTATCGTAGGAATAGGATTGGGAATCTTATTA
+TTGATCTTATGTTTACCTACATTGGTTGATTGTATAAGAAATTGTATCCACAAGATACTAGGATACACAGTAATTGCAAT
+GCCTGAAGTAGACGGAGAAGAGATACAACCACAAATGGAATTGAGGAGAAATGGTAGGCAATGTGGCATGTCAGAAAAAG
+AGGAGGAATGA
+>ref|X16582.1| Feline mRNA for preprogastrin
+CCCAGGCTGGCTATAGCATCACCAACCTCCCGGCTCTGCAGACAAGATGCAACGACTGTGTGTGTGCGTGCTGATCTTGG
+CACTGGCTCTGACCGCCTTCTCTGAAGCTTCCTGGAAGCCCCGCTCCCAGCTGCAGGATGCACCCTCGGGTCCAGGGGCC
+AACGGGGGCCTGGAACCACATTGGCTGAACCGGCTGGGCCCAGCCTCTCACCACCGATGGCAGCTAGGGCTCCAGGGTCC
+CCCACAGCAGGTGGCAGACCTGTCCAAGAAGCAGGGACCGTGGCTGGAGGAAGAAGAAGCAGCATACGGATGGATGGACT
+TTGGCCGCCGCAGTGCAGAGGACGGGGACCAACATCCCTAGAACGGAGCTTCAGAGCCCAGCCTCTCCCCAGCCCAGCCC
+AGCCCAGCCCAGCCCAGCCCCATGAAAAACCAATCAAAATAAACTAGCTTCCGATGG
+>ref|X06297.1| Felis catus c-sis proto-oncogene, exon 1 and joined CDS
+TAGCACTCTCCCTTCTCCTTTATAAAGGCCGGAACAGCTGAAAGGGTGGCAACTTCTCCTCCTGCCGCCGGGAGCAGCCC
+GCCTGTCTCCCCGCGCGCCCGCAGCCTCCCCCGCTGCCTCCCTGAGGGCTCCCCTCTGGCCGCCAGCGCCCATCTTTCAT
+TTCCGAGATTGCGATATTTTGCGCACACACGCATACACACACGCGCAAAAAGGGGGGGAAAAAAGGGCCCACCCTCCAGC
+CTCGCTGCAAAGAGAAGCCGGAGCAGCCGCAGCTCACAGCCCAGAGGACGCCCAGAGCGGCAGCGCGCAGACAGACGGAC
+CGACGGACTCCGCCGCGTCCACCTGTCTGCCCGGCCCGGCACTGCGCGCACGGGCACGGCCGAGCGCGGAGCAGCCGTGC
+CCGCCGCCCGGGCCCGCCAAGGCGCACACGCTCCGGCCCCCCCCACCCGGCCCGGGCGGGAGTTTGCACCTCTCCCTGCC
+CGGGTACTCGGGCCGCCGCTGCAAAGCCAACTTTGGAAAAAGTTTTTGGGGGGAGACTTTGGCCTTGAGGTGCCCGGCTC
+TGCACTTTCCGACTTCGGGGGCCTTTCTAGAAAATGTTGCAAAAAAGCTAAGCCAGCGGGCAGAGGAAAACGCCTATAGC
+CGGCGAGTGAAGACGAACCATCGGCTGCCGTGTTCTTTTTCCTCTTGGAGGTTGGAGTCCCCTGGGCGCCCCCACACGGC
+TAGACGCCTCGGCTGGTTCGCGACGCAGACCCCCGGCCGTGGATGCTCGCTCGGGCTCGGGATCCGCCCAGGTAGCGGCC
+GGACCCTGGTCCCGCGCCCAGGCCCTCCCCAGCCCCCCAACGACGGAGCCGGGGCCGGGGGCGGCGGCGCCGGGGGCCAT
+GCGGGTGAGCCGGGCGGCGGCTGCAGCGGCCTGAGCGCCTGATCGCCGCAGACCCGAGCCGAGCCCACCTCCTTCCCCAG
+CCCCCGCCCCCCACCCTGGCCGCGGGGGCGGCGCGCTCGGTCCACGCGTCCGGGGCCCCGCGGGGCCGGGCCCGGAGTCG
+GCATGAATCGCTGCTGGGCGCTCTTCCTGTCTCTCTGCTGCTACCTGCGTCTGGTCAGCGCCGAGGTGAGTTGCGACGGC
+GGCGG
+>ref|X06298.1| Felis catus c-sis proto-oncogene exon 2
+CCATGGTGTCTCCCTGGCAGGGGGACCCCATTCCCGAGGAACTCTACAAGATGCTGAGTGACCACTCAATCCGCTCCTTC
+GATGACCTCCAGCGCCTGCTACACGGAGACTCCGTAGGTAAATTGAACCTTGTTCGG
+>ref|X06299.1| Felis catus c-sis proto-oncogene exon 3
+TGCCTTGCCTTGCCTTGCAGACGAAGACAGAGCCGAGTTGGACCTGAATTCGACTCGATCCCATTGTGGAGGCGAGCTGG
+AGAGCTTATCCCGAGGGAGAAGGAGCCTAGGTGAGGCTGCAGGTAAGAATCCTCCTTTCTCG
+>ref|X06300.1| Felis catus c-sis proto-oncogene exon 4
+TGAGGCCCCCCTCCCTTCAGGTTCCCCGACGGTCGCCGAGCCAGCCATGATCGCCGAGTGCAAGACACGCACGGAGGTGT
+TCGAGGTGTCCCGGCGCCTCATAGACCGCACCAACGCCAACTTCCTGGTGTGGCCGCCCTGCGTGGAGGTGCAGCGCTGC
+TCCGGCTGCTGTAACAACCGCAACGTGCAGTGCCGTCCCACCCAGGTGCAGCTGCGGCTTGTCCAGGTGCGCGGGGGGGC
+CCGACC
+>ref|X03494.1| Cat c-sis oncogene (platelet-derived growth factor) 5' region
+CTGCAGACGACTCCCCAAACCACGTGGGCTAGAAATCAGGCCACGGTCACTGTGCTAAGGGGCGGGGCGCTCAGTCGCCC
+CTAGTTCTCCCTTCGCCAGGGCCGGGCTCCCGGAGGGGCTGCGGAGCTCTCAGAGACCCCTGAGCGCCCCGCCCCCGCCT
+CAGGCCCTCCCGGAGCTCCCCCCCCTCTTCCCGGTGCTGACTCTCGGCCAGAAGAGGAAAGGCAGTCTCCACCCACCTCT
+AGCACTCTCCCTTCTCCTTTATAAAGGCCGGAACAGCTGAAAGGGTGGCAACTTCTCCTCCTGCCGCCGGGAGCAGCCCG
+CCTGTCTCCCCGCGCGCCCGCAGCCTCCCCCGCTGCCTCCCTGAGGGCTCCCCTCTGGCCGCCAGCGCCCATCTTTCATT
+TCCGAGATTGCGATATTTTGCGCACACACGCATACACACACGCGCAAAAAGGGGGGGAAAAAAGGGCCCACCCTCCAGCC
+TCGCTGCAAAGAGAAGCCGGAGCAGCCGCAGCTCACAGCCCAGAGGACGCCCAGAGCGGCAGCGCGCAGACAGACGGACC
+GACGGACTCCGCCGCGTCCACCTGTCTGCCCGGCCCGGCACTGCGCGCACGGGCACGGCCGAGCGCGGAGCAGCCGTGCC
+CGCCGCCCGGGCCCGCCAAGGCGCACACGCTCCGGCCCCCCCCACCCGGCCCGGGCGGGAGTTTGCACCTCTCCCTGCCC
+GGGTACTCGGGCCGCCGCTGCAAAGCCAACTTTGGAAAAAGTTTTTGGGGGGAGACTTTGGCCTTGAGGTGCCCGGCTCT
+GCACTTTCCGACTTCGGGGGCCTTTCTAGAAAATGTTGCAAAAAAGCTAAGCCAGCGGGCAGAGGAAAACGCCTATAGCC
+GGCGAGTGAAGACGAACCATCGGCTGCCGTGTTCTTTTTCCTCTTGGAGGTTGGAGTCCCCTGGGCGCCCCCACACGGCT
+AGACGCCTCGGCTGGTTCGCGACGCAGACCCCCGGCCGTGGATGCTCGCTCGGGCTCGGGATCCGCCCAGGTAGCGGCCG
+GACCCTGGTCCCGCGCCCAGGCCCTCCCCAGCCCCCCAACGACGGAGCCGGGGCCGGGGGCGGCGGCGCCGGGGGCCATG
+CGGGTGAGCCGGGCGGCGGCTGCAGCGGCCTGAGCGCCTGATCGCCGCAGACCCGAGCCGAGCCCACCTCCTTCCCCAGC
+CCCCGCCCCCCACCCTGGCCGCGGGGGCGGCGCGCTCGGTCCACGCGTCCGGGGCCCCGCGGGGCCGGGCCCGGAGTCGG
+CATGAATCGCTGCTGGGCGCTCTTCCTGTCTCTCTGCTGCTACCTGCGTCTGGTCAGCGCCGAGGTGAGTTGCGACGGCG
+GCGGGGGCTGGTTCGCTTCATCCATTACGCCCACCCTCACCCCCTGGCCGCCCCCTCCCCTCCCTGCAGGGGACTTTGGA
+CCCTCGCAGCCCACGGGCCTAGCGCCGGGCGCTAGGTGACCTCCGAGGGCTGGGACGCGAGGTGCGGGAGGTGCCAGGCT
+CTGAGGGGAGGGGGCGGGGGTGGCTTGCTTTCCCATGGGCGATCCCAGATCACCGGCCCTTTTAGCGTCGGGGGAGCGTG
+TGTGTGGCCCTGTCCCCCACCCCTCAGGAACCTGAAGGGAGAGAGAGTGGGGGTGGTGCCGAGGGTGCAGAGGCCAGCGC
+GTTCTCCCGAGCCCACTTCGGTTCCAGCCTAGGTTCCGTCCAGGACCCGGCTTGCACGGGAGGTGCGAGCTC
+>ref|X06301.1| Felis catus c-sis proto-oncogene exon 5
+TCGATGGTTCTGTCCTCCAGGTGAGAAAAATCGAGATTGTGCGGAAGAGGCCAGTCTTTAAGAAGGCCACGGTGACCCTG
+GAGGACCACCTGGCGTGCAAGTGTGAGACGGTGGTGGCTGCACGACCCGTGACCCGAAGCCCGGGGAGCTCCCAAGAGCA
+GCGAGGTAAGCGCTGGTCCGGGGTC
+>ref|X06302.1| Felis catus c-sis proto-oncogene exon 6
+TCTTTCTCTCGAGCAGCCAGGACACCCCAGACTCGGGTGACCATTCGGACGGTGCGAGTCCGCCGGCCCCCCAAGGGGAA
+GCACCAGAAGTTCAAGCACACGCATGACAAGAAGGCACTGAAGGAGACCCTCGGAGCCTAGGGGCATCTGCAGGAGCGTG
+CGGGCAGGTGAGGCCAGGCGGGGAACC
+>ref|X06303.1| Felis catus c-sis proto-oncogene exon 7
+TCCCTCTGGTTGGCCTACAGGGTTATTTAATACGGTATTTGCTGTATCGCCCCCATGGGGTCCTTGGAGTGATAATATTG
+TTCCCCTCGTCCGTCTGTCTCGATGCCTGATTCGGACGGCCAATGGTGCTTCCCCCCCTCCCACGCGCCTGTCCACCCAC
+CAGCGGGTCCCCTCATTGGCCTCCAGCGCCTTGCCCGGGAGCTCGAGAAGGACACGAAGGACCTGAACTCCACTGCTGTC
+TTCCTCCGCTGACCCCGAGAACGTGGCATAGAAGTGTAAGAGAGACCCATGGGATCGCCGTTCGGGGACCGGAGGAGCTT
+CCCTTCCCCAGCTCCTGGCCCGGGTCACACCTGAGCGCCGTGGACTGGCCTGAAACCCTGCACGTGGCCCGCCCGGTCCC
+AGGACCCCTGGCCCGCTCTGAAGGGAGCACCCCCAGGCAGGCCAGGGTGCCTCGTCCTCCTGTGGCTGGGACCACGCGTT
+GGACCGTAGACTGGAGAGAAATCCTCCCACGGCGCCCAGGCCCAGTCACTTCTTTCTCCCCGGTCACCTCTGCTTATAGT
+GGCTTCCTTTCGTTTTCTATATATGAAATCTTCGAAGATGTGGACTCCTCTGGGTGGGCGTGGCCCGAGTACCCGGCAGC
+CAAGTGCCCCGTCAGATGGGTTAGAGATGAAGTTTGCTCTGGAGCCACCATGGATGGTGATCTGGGCGCTCACTGCCTCC
+TTCCACTCCCCTGCCTTCACCTCCTCTGTTTCATCTCTCTACCTCCACCCTGCGTCTTCCTCTTGTCCCGGCCTTCAGTC
+CGCTCCACCGAGGGACTCCTTGGACCCCGTGCTGAGACCGTAAATAACCCCACTCACTGCTCCATTAGGCCGAAGACCAG
+GGGTCAGGGCAGCAGGGGGCCTGCGCTTCGTATCCCAGCCCGGCCGAGACTGCCGTGTAGGTTCGTGCAGGGTGTGCACT
+GTGCAAGGCATGCGTGCAGGGGTCGTTGTTCATGCCGTAGAACATGGCCCGCTGGTGTATTTGTTAGGACAGTTTTCTGG
+CAGATGGAGCTAAAATGTCTTGAGCAAAGGGATCCTGTTCCTAATCGACATGAAGGTTCCATGTGGACTGGCTGTGTCCC
+GACCCAGCCAATGGCTTGGGGTAGTTGGACAGGAGAGTGAGCCCACGTTGGGTGGGGACGCCACGCGTTGTCCAGCTGGC
+CTCTATTTTCCTGAGTCCTCAGCTCAAGCAGTTCCCCTTCCAGGCGGGCGTGAAAAACCCAAGAGAGAATCTCCAAGGGA
+GGGGGCAGCCCTCGCTCTCCCCGGGCACGCTACCCCCCAGAGTAGATTCTTTTGAGATCCGCCCGTGGTGGCTCCTCCCA
+GGAAACCAGCTCACGGGCTGGGAGTGGGGGAGAAAAGGGAAAAGATCCCCAGGGGTCCCTGGGGTGGGGTCTGAGCTCCC
+ACCTCCCTCCCCTCCACCCCACTGCACTTTCCCCCTTACCCCCCCCCTCCAAAATCTGCTCTCTTCAGTTTGTAAAGTTG
+GTGATTATATTTTTGGGGGCTTTCCTTTTATTTTTTAAATGTAAATTTATTTATATTCCGTATTTAAAGTTGTAAAAAAA
+AAAAAATAACCACAAACAAAACCAAATGAATGAATCCACCGGC
+>ref|X68820.1| G.melas DNA for locus 199/200
+TGAAATTCTTCATCAGTTGCCATGGTGGGGATTTTTCCCTCTCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCCCCT
+TAACTGGTGAAACTGACAGTCTGCCTACATTAAC
+>ref|X68821.1| G.melas DNA for locus 415/416
+GTTCCTTTCCTTACATATGTAATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTTAATAGAGAC
+ATGTGGTTAGACTGCATTAATAGAAACAGAAATACGATGTCCAGGAAAAAGTTTGCATTTGTTCAATTCTCTTAGTTTGT
+TGGCACATTTAGATTATCTTATTTAATTCTGGAAGATACAATTCACAAGTAATATTGACAAACATTGAT
+>ref|X68822.1| G.melas DNA for locus 417/418
+GTGATATCATACAGTATTTGTCTTTCTCTGTCTGACTTATCTCACTTAGCATAATGCCCTCAAGGTCCATCCATGTTGTC
+TCAAATGGCAGGGTTTCCTTCTTTCTCATGACTGAATAATATTCCAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
+ATGATATGTGACAAACAGAT
+>ref|X68823.1| G.melas DNA for locus 464/465
+GGGGTTTCTCCTCTAAATTCATGCCCCCTCACCCAAACACACTATGTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTGTG
+TGTGTGTGTGTGTGCTACTCCTCTGTAAGTCATGCCTTATCCTAACTTTCTCTTATTGGCAGATCA
+>ref|Z18641.1| G.melas gene for large subunit rRNA
U13109.1 Globicephala melas mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCCTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACTCAAAAAGCATA
+AAACAATACCACCAAGGGATAACAAAGCTTTATATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCC
+TCCGAGTGATTAAAACTTAGGCCTACTAGCCAAAGTACAGTATCACATATTGATCCAAAATTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18640.1| G.melas gene for small subunit rRNA
+TCGTAAACTTAAATAGTCCTAGAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACATTGCACGTAAAAACGTTAGGTCAAGG
+TGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTACAATAAGAACACCCCTAAACTTAACGAAAGTTTTTATGAA
+ATCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|V00471.1| Halichoerus grypus myoglobin gene fragment encoding first exon (and joined CDS)
+CAGACAGTAGCCCAACCTCCTCCCTGCTCTTGCCACATACACAAACACCCCCACGCCCCTGTGGCCTGAGTTGTCCTACC
+TCCCCCCAAATGGCACCTGCCCCAAAATAGCTTCCATGTGAGAGCTACAGAAAGGAAAAGATTAGACCCCGCATGAAAAG
+GAGGGAGGAGGAGGAGGAGGAGAGAGAGTGAGCAAGCTGTCAAGTGATCTGTGTCAAGCTTCTGGGAAAGTATAAAATCC
+CTCTGGGGCCAGGCGATCTCAAACCCCAGCTGTCAGAGCCAGGACACCGAGTCAGCCGGGACTTGCTCTTCTTGTCTTCC
+TCAGACTGCACCATGGGGCTCAGCGACGGGGAATGGCACTTGGTGCTGAACGTCTGGGGGAAGGTAGAGACTGACCTCGC
+GGGCCATGGGCAGGAGGTCCTCATCAGGTAAAAGGAAGAGACCCCATTGCCTCTGTCACCCACTCCCCAAAGATCAAGGG
+TGTGTGCCTGTAAGGTGGAACGTTTGCCTGGGGTTGACCAGTTGGCTGCATTGGTTGAGTTTATTAAAACCCCCGCTTGG
+TTCTCCTTTGCTTGTGTCAGGGACTTGAGTCCGAAAGGAAGAG
+>ref|V00472.1| Halichoerus grypus myoglobin gene fragment encoding second exon
+AACGGCGTGTTCCTGTGTCTGACTCCCACCCTCCCTGTGCCCGCAGGCTCTTTAAGAGCCACCCTGAGACCTTGGAGAAG
+TTTGACAAGTTCAAGCACCTGAAGTCAGAGGACGACATGAGGCGTTCTGAGGACCTGAGGAAGCACGGCAACACGGTGCT
+CACGGCCCTGGGGGGCATCCTCAAGAAGAAGGGACATCACGAGGCTGAGCTGAAGCCCCTGGCCCAGTCACATGCCACCA
+AGCACAAGATCCCCATCAAGTACCTGGAGGTAGGAGGCAGGGCAGGGGCGGGTGGGGGGTGGAAGGACAGGCCTCGGAGG
+GATGCGATTTGGGTTCGAGTCCCAGCTTGGCCCACGATGCTCCTCCTTGTGCCCCAGGGCCCTCATCTGTAAAATGGCTA
+TTGCCCACTTTGCCTTCCTCATGGGGTCACTGAGAGTAAACCCACTTCCTCCCCCAAATCAGTCTGTCATCTAGGGGAAG
+AAGGGAAGAGCAGAGATT
+>ref|V00473.1| Halichoerus grypus myoglobin gene fragment encoding third exon
+GGAGCATTTCCCTTCCTTTCTGCTGCCAGCATGGGGGCAGTGTCCTGGGCTCTTGCACCGAGGTGGGCCTGGTTCCCCGT
+CGGCACCTGTCTCCCAGGGTGGTAGGGAGAGAAGGAATTAATCCACAGAGACCCCTCGATAGCACGCTTGGTGTGTAATA
+AGCCCTCGATAAATGGCCGTGGAGTAAAGAGAAGGTGGGACTCAGTCTGATTCCCATCTGGCTCCTGGCGTGTGCGCCCC
+TGTGACCAGCACCCCCTTTCGTCTCCCCCTTGCAGTTCATCTCAGAAGCCATCATCCATGTCCTGCACAGCAAGCATCCC
+GCGGAATTCGGCGCCGACGCCCAGGCTGCCATGAAAAAGGCCCTGGAGCTGTTCCGGAATGACATCGCTGCCAAATACAA
+GGAGCTGGGGTTCCATGGCTAAGCACCTGGGCGCCCCCACTCCCACCCCCACCCACTCGGGCCCCGGGGCCAAGGGTCGG
+GTGGGCCTAGATCTCCTGTAGCCATGTAGAGTTTGCTTCTGAGTGTCTGCTTTGTTTGAGAGGTGGGTGGGAGAGGCTGA
+GGGGCTGGGCTAGGCTCTTCAGGGTGGCTTCGCTGCCTGGAGACTGGGGTCCTCGTGGAGGGTCATCACCCCGGGAACCA
+GGAGACATGTGACCCTTTGCTCACTGTGGCCCCGCAGTGTTAATTCGCCTCTCTCTTAAACTCCAACCCAATTCCTCCAA
+CCTCCAAACTCAACCACACCTTCACCCTCACCTCTAATCACAAATCCAAGCCATAAACCAAGGCCTGGCCATAAAGATGC
+TCTCCCATCACCCCCCGCCCCAAAGTCTGTCTGCAGTGAGAAAGAGGTGTGGGCGGAGAGGGACAGCCACACGCATCCCG
+AGAGAGGCGACGGGGGTCTGGAACATAAGTGTGCCTTCTCAGCGAATGGAGTGACTCACCTGGTTTTAATAAAAGACCTT
+GCAGCATCACAGTCCGTGCCTGGTGATCTTCCTTTCCCAGAGCAAGTGAAGGGGCCCCCAGGGAAGAAATGGCTGGGATT
+GTGTGTGCAGACAGCCCTGGGGGGCGAGGCAGAGGGAGAGGAGGAGAGGAGGGAAACGGGGCAGGAGGGAGAGAGGGACG
+GGAAGCTGCCTTCCTTAGATCACCCCTCAGTGGCGGGGACAGTGCTGGGCACGGGGAAGGAGGGGGG
+>ref|Z18643.1| K.breviceps gene for large subunit rRNA
+AACCAGTATTAGAGGCACTGCCTGCCCAGTGACTAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTCCCCGTGCAGAGGCGGGGATAACAAAACAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAAAAAGCCA
+CAATCTAAACCACCAAGGGATAAAAAAGCTTCATATGGGCTGACAATTTCGGTTGGGGCGACCTCGGAGTATAAAAACCC
+CTCCGAGTGATTAAAGCCTAGGCCTACTAGCCAAAGCATAATATCACTTATTGATCCAAAATATTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18642.1| K.breviceps gene for small subunit rRNA
+CCGTAAACCTAAATAGACATAGAACAAGATTATTCGCCAGAGTACTACTAGCAACAGCCTGAAACTCAAAGGACTTGGCG
+GTGCTTCATACCCCTCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTCCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAATAAAAGTAAGCATAACTACCCCACGTAAAAACGTTAGGTCAAGG
+TGTAACTCATGGGGTGGGAAGAAATGGGCTACATTTTCTACATTAAGAACACCCTTCATACTCACACGAAAGTTTTCATG
+AAACCTGAAAGCCAAAGGAGGATTTAGTAGTAAATTAAGAATAGAGTGCTTAATTGAATAAGGCCA
+>ref|Z18647.1| L.albirostris gene for large subunit rRNA
+ACCAGTTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCAC
+TTGTTCTCTAAATAAGGACTTGTATGAACGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCT
+CCCCGTGAAGAGGCGGGGATAACATAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAA
+TAATACCACCAAGGGATAACAAAACTTTACATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAACCCTCC
+GAGTGATTAAAACTTAGGCCCACCAGCCAAAGTATAATATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTAC
+CCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATC
+CTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18646.1| L.albirostris gene for small subunit rRNA
U13090.1 Lagenorhynchus albirostris mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCTTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATAGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTATACGAAAGTTTTTAT
+GAAACCTAGAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAAAAAGGCC
+>ref|Z18649.1| L.obscurus gene for large subunit rRNA
U13114.1 Lagenorhynchus obscurus mitochondrion 16S rRNA gene, partial sequence
+GGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCACTTGTTCTCTA
+AATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCTCCCCGTGAAG
+AGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAATAATACCACC
+AAGGGATAACAAAGCTTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCCTCCGAGTGATTAA
+AACTTAGGCCTACCAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTACCCTAGGGATA
+ACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCTAATGGTGC
+AGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18648.1| L.obscurus gene for small subunit rRNA
U13091.1 Lagenorhynchus obscurus mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTATTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTACACGAAAGTTTTTAT
+GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|Z18665.1| L.peronii gene for large subunit rRNA
U13115.1 Lissodelphis peronii mitochondrion 16S rRNA gene, partial sequence
+AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATAGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT
+CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA
+AAATAATACCACCAAGGGATAACAAAGCTTTATATGAATTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAATCC
+TCCGAGTGATTAAAACTTAGGCCTACCAGCCAAGGTGTAGTATCACTTATTGATCCAAAACTTTGATCAACGGAACAAGT
+TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC
+ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18664.1| L.peronii gene for small subunit rRNA
U13092.1 Lissodelphis peronii mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTATAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG
+GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAATTTACACGAAAGTTTTTAT
+GAAACCTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|X54714.1| M.eugenii mRNA for alpha-casein
+AACCTCCCTTTGGCTCAAGGTTTCAGCCACCATGAAGCTGCTCATCTTCTCCTGCCTTGTGACTCTTGCTCTGGCTAGGC
+CAGATGCCCTCCGCTTATCTATTGATAGGCATTTTAAACATCGAGAACTGGAAAACCGTTTGAATGAGGATCCCATTCCA
+GTAAGTGAGGCTTCATCAAGTGAGGAATCTGTCCACCAGCTGAACAGAGACAGGCGTCCCCTGGAAAAATATGAGCTTGA
+CAAATACAGAGAGGATTTGAAGACTTCATCAAGTGAGGAATTTGTCACTCCATCTACCAATGAACGTGTCCGCAGACAGG
+TTGAATACAATTTCAATGAGGAGGATTCTTCTGCCTCAAGGGAGAGAAAGATTGAAGATTTCAGTGAACATGACCGGCAG
+TATCTGAGAAGACGGGTAGAAGAGAGAGCTCTCAATTTACGCTATCTGGAACCTCTCTATTATGCTACTGAGCCAGAATA
+CTACTACTACTACGCATATGTTCCTGTTTCCAGCCACGATATCCCCTATCAACAGAAGCCTCTGTCTCTTCTACCCGCAA
+AGTCCCACTACCTTATATCAACAGGGCTACTGAACGAGCCGTTACCTATTCTGAGAGAGAGACTAGGAAGAGGCTTCCAG
+TCCCCCTCTCTCCTGATCCTTGTTCTGACTGAAAATTCCAACCTCTTTATGGGATCTGTCTTCTATTGGTGTCTACAAAT
+AGCACATCCTATGCAGGAGATTTGATGCTCATTATTGAATGAAGAAAAAACAGAACGAAAGCAAAACAAAGCTCTGGAGA
+GTGGAATCTTTCTTTGATGTACCCACATGGCGTTATTCCTCATAATCAAAATTTGATTTAGAACTGCTCTTTCCTATATC
+CCTCTTTCAGTCCTGACAAGCCAGGTGTAGGGCATTCTAGTATGGACACATTATTTATAGGTACGGAAGCTTGTGCTGTG
+TTTCTTTAAAGGAAATGTTTAAGAAAGAGTCCTTGAATTATTTAACTTCTTAGTACTTCTTCTAGCTACTGTGTAATAAA
+ATTTTCCTTTCTCCTTGCAAAAAAAAAA
+>ref|X54715.1| M.eugenii mRNA for beta-casein
+GCTTCTCCTGATTCTTCTCTCCTCTTGAGGAAAGAAGGCTTCAGCAACCATGAAGCTCCTTATCCTCACCTGCCTTGTGG
+CCCTTGGCTTTGCCAGGCCTATGGTAGAAAAGATTTCAGAAAGTGAGGAATATGTCAATGAAGTCCCTGAGAAGCGCCTC
+AAAAGGAGGTTTCCAGTAAAGAATGAACATCAGGTTGAAATTAACCATCATCTTCGACCTGAATCTGAAATGATGAGCCT
+TTATTATCAGCCTTTTTACTGGTCTGAAGAAATGCGTAACCTCAAGATGACCAGCCTTCCAAAAGACAGAAGAATGGCTG
+TCCTTAAATCTACAGTTTCAGATGAGGTGTTTCCTTCTCTTCAGCATAAATCCCTGTCTCTTCCTAAATCAAAAGTCCAG
+CCTCTCTCTCGCCAACAGATCCTGACTTTCCATACCCTCCAAATGGTGCCTCTGTCCCACAAACTGTTGACCACTCCTAA
+GCGGGAGATGCTGCCCATTTATGAGAGAGAGAGACTACCTGCTCACAAGAGAGAGAGTCTGCTTGCTCACGAGAGAGAGA
+GTCTGCTTGCTCACGAAAGAGATATTCTTGTTCCTCAAAGAGAGATGTCATTTGTTCCTGAGAGAGAGTTTCTATTTGCT
+TCTGAGAGAGTAGTTCTACCCGAACAAGAGAAAGAGATTCTACACAATGATGAGAGAGAAGTTCTAGCTGTTCACAAGAA
+AGAGATTCTGCCTCCTTTTGAGAAAGAGAAGGTTCTGCCTCTTCTCCAGCACAGAGTTGTGCCTCTTCCCCAGAGAGAGA
+TTGTACCTCCTTTTCAGAGAGAGACACTATTGCCCGAAGAGATTTTGCCTGTTAATCAATGGGAACTCATGCCTGAAGTG
+GTACCTTTTGATCCCTATCCATTCCTTCAACCAGTGGCCCCCTTCTACTATTCCACGGAGCTGAATGAGAAAAACTAACA
+GGATCACTCAAATGACTATATCCTCCTGGCATTGATTGACTGTGGCTAGAATCTATTGTCATATCTCACTCATTTTTGGT
+GTTGGAAGTCAGTCCTGTCCTCCTTGCATCTTCTGGCATACACCATTTTAATTGGAATTTTTGAAGGATTCACCATATAC
+CAGTTCCCAGATTCAGAAGGGCCATTTTAAGTGACCCCTGGGTGAATTAAGCAAGTTTGCCAAGTTTCTTTCATAGTCAT
+TTTGTAAGGACAGTTTCATGAGCTGTATTTCTTGTCAATGCCAGGATGCCTAACAGTTCTGTATGTGGTCATCTTCTCTT
+TTTCCAGCTCCTGCAATAAATTATCCCTGTGGGCACACTGCAAAAAAAAAAAA
+>ref|X15213.1| Tammar wallaby (M.eugenii) late lactation protein (LLP) mRNA, complete cds
+AGCTTCATTGGGTGAGTGACTAAGGAGGAGAAGCTCCTATAAACCCTTTGTCAAGATGAGGGTCCTGTTCCTCACCATTT
+CACTAAGCCTGTTCTCCATTATCCATGCTGATGACTTTGCATTTTCTGAATTTAAACCATCGGAGGGCACATACTATGTA
+CAGGTTATCGCAGTAGACAAGGAATTTCCTGAGGACGAGATACCTAGGGACATTTCACCTTTGACCATTACCTACCTTAA
+CAATGGCAAAATGGAGGCCAAATTTACCGTGAAGAAGGACAACAATTGTGAAGAAATTAATTTGACGTTGGAAAAAATAG
+ATGAACCCAGGAAAATTACCACGACCAGGCACCTACATCACATCTGTGACACAGTAAGGACTTCTGAGGAGAAATATTGG
+ATTCTCTCATGTGTAAGAGAGTTTCAAGGCACTCAAATCAGAGAGGCAGAACTTGTGGGTCCTAATACAGATGAGAACCC
+CAAAGCCCTGGAAGATTTTTACAGGTTTATCAACAGAGAAAGATTTGTGGAAAGAAGAATCATCACTCCCAGACAAACTG
+AGGCCTGCACCTCAGAAAATGCTTAAGGAGAAGATGTTTCCTTTCAATATACAGAATCAATACAGTGAAGGAAATCTGAG
+CCATCTCTTCAGATGACAAGCATTCCTTGTTCCTGGGTCCAGCATAACCTCCTCCCTCATTACCCCAGTACCATTATCCA
+ATTCTAACATGCTACATAAATGTATGAAGCAATC
+>ref|Z18651.1| M.europaeus gene for large subunit rRNA
U13116.1 Mesoplodon europaeus mitochondrion 16S rRNA gene, partial sequence
+AATCAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTACTCTGACCGTGCAAAGGTAGCATAAT
+CATTTGTTCTTTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA
+CCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAACCAACCCAAAAAATATA
+AATTTAAACCACCAAGGAATAACAAAACTTTATATGGGTTGACAATTTTGGTTGGGGTGACCTCGGAGCACAAAAAAACC
+TCCGAGTGATTAAAACCTAGGCCTACCAGCCAAAGTGTTAAATCACTTATTGATCCAATTTTTTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTTTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGTAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18650.1| M.europaeus gene for small subunit rRNA
U13093.1 Mesoplodon europaeus mitochondrion 12S rRNA gene, partial sequence
+GTAAACCTAAATAGTCTCAAAACAAGACTATTCGCCAGAGTACTACTAGCAATAGCCTAAAACTCAAGGGACTTGGCGGT
+GCTTCATATCCCTCTAGAGGAGCCTGTTCTATAATCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTCCAGTCTA
+TATACCGCCATCTTCAGCAAACCCCAAAAGGGAACGAGAGTAAGCATAACTATCTTGCATAAAAACGTTAGGTCAAGGTG
+TAACCTATGGGGTGGGAAGAAATGGGCTACATTTTCTATATTAAGAACATCCCTACGTCCATACGAAGGTTTTTATGAAA
+TCTAGAAACTAAAGGAGGATTTAGCAGTAAACTAAGAATAGAGTGCTTAGTTGAATAAGGCC
+>ref|X69472.1| O.aries gene for insulin-like growth factor-I, exons W, 1 and 2
+CAACCCCTTTCAAAACCAATCAGGTTTTCCTTTGAGGGCACCCACCTCTGCAACAGCTTCCTGGCCATGGCATAAAGACC
+TAGACAAGAGTTTCAAGCAAACCTTTGTTTTTAGTCGAAGCATCAGGATCACTGTGTCCCCTGAGAATAAGAGGGAGAAA
+TACAAGGTCCAGGCTACTCCCACCATTCCAGAAAACCATGCCCCAATAGACCCCAGGGAAAGTGGGATGTCTAACCTGGG
+CTTTTGCAATCTTATTTCATAATCCACTTTCTTATCGCCTCCTTCACAAAACTGATGAGAAATTGGTACAAACTCTATCG
+ACAAAAGATCACAACTTGATCCTCAATGGCAAAGGCAAGTATACATTATAAATAGCAAAACAGCTGGCTTGGACCATGTT
+GCTGGCCACTCATCCAGCTGAGAGATTTGAATGACATCATAACCCTTGAGAGGGTATTGCTAGCCAGCTGGTGTTATTTA
+GAATACACAAAAAGGGGGGAAAGAAAATGCACTCACATGCACACACACACAAATACACACACACACACACAGGTTCAAGT
+TATGCAGAAAAATATGAACAGTGGGAAAATCATTTGCCTCTCAGATGCCCTTCCCCTGGTGTGGGGTGGGGGTCGGGGTG
+GGGGCCAAGCAGCAGAATAGAGGAAGGAAGAAAGAGATTCGATTTTATTTTTTCAGTTGGCTTTACAGCTCAGCAAAATC
+TTTGCCCTGTCGTGGGCAAAAAGCATGAGACAGTGTCCTGAGGGGAGCCAATTACAAAGCTGCCTGCCCCTTTCCAGGTT
+CTAGGAAATGAGATCATTCCCCTCACTTGGCAACCAGGACGAGGGGTCATCCCAGCGCCGTCTTCCAGTCTAGTTTACCC
+CAGTCGTTTGAGGGTTAAAATCATAGAGTATGCTTGAGATGGTCTTTTTTTCATTTCTTGTTTTTTAAATTTTGTGTTGG
+CTCTGGAATATAAAATTGCTCGCCCATCCTCCACGAATATTCCTTTCATACGGGTAAGGTGTATTAGCAGATGTGTGTGT
+CTTCATGCCCGGTAGAAAGTTAATCAGAGGACAGCATCAGGATTTTAATGTCTGCTCCTCTTGTCACTAACACACATTCT
+TTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTTTAAAATGCAAAGGTATGATGTTATTTGTCACCATGCCCAAAAAAGT
+CCTTACTCGATAACTTTGCCAGAAGAGGGAGAGAGAGAGAAGGCAAGCGTTCCCCCAGCTGTTTCCTGTCTACAGTGTCT
+GTGTTTTGTAGATAAATGTGAGGATTTTCTCTAAATCCCTCTTCTGTTTGCTAAATCTCACTGTCACTGCTAAATTCAGA
+GCAGATAGAGCCTGCGCAATGGAATAAAGTCCTCAAAATTGAAATGTGACATTGCTCTCAACATCTCCCATCTCCCTGGA
+TTTCTTTTTGCCTCATTATTTCTGCTAACCAATTCATTTCCAGACTTTGCACTTCAGAAGCAATGGGAAAAATCAGCAGT
+CTTCCAACCCAATTATTTAAGTGCTGCTTTTGTGATTTCTTGAAGGTAAATATTTCTTACTCTTTGAAGTCATTGGGGAA
+TTTTCTTTAAATTGTGTACTGCTTGCTTCTGCTTAGAAATGTTCTTCACTTTAGAATTTTCATTGTTTCGGCACTGGGAG
+TTATTTATAAATTGCTGAATATGCAATTCTGTGGGATCTGAAAAAATAGCTCCGGGAGATAAATGCCTTTGCACAGATAT
+CTGTATGAGTAAAAACTATTGCAAGGTACTTATGCTAAATCCTCCACTTCTTCAGGGCTTGAGTGGTGTCATTATAGAAG
+ATTCCTTTAAATCCTGTCTATGGTTAAGGGCTATAGGGCATGGATATGAACTTTTGGATTTTTTTTGCAGGTGCAGATGT
+TTTATTTTTAAGACCATGTTCATGTGTATGTAGGGCTGTGTGGTGTGTGTGTGTGCGTGTGTGTAACTGGCCAGGACTTT
+TGATTACAAGACATGCCACATACAAAGAGTTACGTTTTAAATGATATTAAAGCTTTTAAATATGATCTTTGGAGCTAAGG
+TCCCGGAACTCTCTGCACTTATGCCCAGAGAGTCAAAGTTAGAGTGAAGTTTCATTTGCTCTTCTGAAAAAGAACTCCTT
+AAGAACTCCTGCTGACCTTGCATATTCGGATAATTTAAACAAATGCACACTGTATATGGAAAGCGGAAACTTTCTAGCAA
+CTGCTATTCCAAGTTTTTTCTTTTGAAGAGGACTCTCAGGGGCGAAGTTTGGACTTGGGGTCTTGTGTTGTAAAACACGG
+GTTTTGTATTTGGGATTGTAAAGTCTCTTTAGGTGAATTTGGCTAGCGCTGTCAATGCACTGACTTCGCCTTTCCAATAA
+CTGGCCCTAGTTCAAGTTTCCATTCTCAGCAAAATTATATCTTTCAAGACTTGTATTTTTCCAATTTGCAAGCATTTTTA
+AGCTGCTGTCACTGGCTCCCCGATGCAATTGCCTGTGGGCTCAATTCATGATCCGTCCCTACCGCTTAGTCCAACACTTA
+TTTGCCGGCTTTCCAGCACTCCACCACTAGGACGTTTCTTAGTCAAGTCAGTGGCTTAGGAGTTAAGAATACATCCTTGT
+CGGGCACCTGATCCTGCCGCCCTTGAGAAGCCAAGATGCACACTGCCTACCTTGCTTTTAAAAGAAATGAAGTCAGTATA
+CACATATGCTATGTGGTCTGACAGCTGGGGATTTTGTATCCCTACTTAGAGGATCCTAAAAGGGGCTGTGTAGTGTTATC
+TCTGCATTAATTACAAGTTTGGAAAACTCCAAATGAACTTTCCATGCTGTGTATGCTGAACTTTTCAGAAGTAGAGCTAG
+CTAGCCATAAGTTGTTGCTTTTTCCTGTACTTGAAGCAGGAAGTGGTTTCAGGGAGCTACGTGGTTCTTTCAAATGTAAT
+TCAATGAGTAAAGGTGTCTGCCAGGCAGAGCTCACAAGCTGATTGTACTGTGAGTCTCAAGATATTTCCAAGTGTTTGAG
+TCAGAGGAAAGAGGGCACAGGGGAGGACTGGAGCTTCGGTCCCTGTCCAGGACGGCTACAATAGGCACACGATGGAAATC
+AGTGGCTTGATTGGGAGGAAAAGATTGACTCAGATCCCAGCCGTGCAATTTGTTTATTGTCTGAATGGACAAAAGGCAGT
+TTACCCAGGCTCGTAGCATACCTGCCTGGGTGTCCAAATGTAACTAGATGCTTTCACAAACCCCACCCACAAAGCAGCAC
+ATGTTTTTAAGTCCTCAGTTTTCTATTCACATCAGTCTCATAATACCCACCCTGACCTGCTGTAAAAGATCTGGAACAAA
+CAAAAATGGTTACACCTACAGTGAGTATTTTCTTATGACTATTGCCCTCAAATTTTGCTGGGCATTTTTATTATAACCCA
+GACATCTGGAACCAATTGATATTCCATTTATTTAAGATAAAAAGAAAGGTTTTTAAAATTTTGGATTTGTGAATGATTTT
+TGAGAAAGAGTGCTCTGAAATTTTTTTTTCTCGTCTCTTTCTAGTTCTTCTTTCATTTCTTTCTTTCAGATCTCTCCTTT
+CTCTCTCTTCATTTCTTTTGTGTTTGGAAAAATAAAAGACCAAGGAAATGATGAACATATGGGGCCACTCATTTCAAACT
+TTTAACTCCTAAGCAAGTTCTTCATTGTTTTCTTTTGGGGGAACATAATGTGATAAATTCTCTGGTTCTCTGTGGGTGTG
+ATGGACTG
+>ref|X69473.1| O.aries gene for insulin-like growth factor-I, exon 3
+AAAGTCAGATAGCATGATGCCAAGACCTGCTCAGAGGTCACTCACACACCTTGTTGCACTCCTGAGGGGAGAGTTTTGAT
+TAATAACAGGAATGCAGAGATGGGGTAAAGGCACCCTTGCCTTGCCCCCACTCCCCTGGCAAGGACCCAGGAGGAAGATG
+ACCCTCCTTCTGCTCTTTCAGCAGGTGAAGATGCCAGTCACATCCTCCTCGCATCTCTTCTATCTGGCCCTGTGCTTGCT
+CGCCTTCAGCAGCTCTGCCACGGCGGGACCCGAGACCCTCTGCGGGGCTGAGTTGGTGGATGCTCTCCAGTTCGTGTGCG
+GAGACAGGGGCTTTTATTTCAGTAAGTAGCCTCCCTCTCGCTGCTCTGTGGATTTACAACTGCGGGGAGTGTGTGAAGAG
+CTGAATGACCGCCTGTGGCTGGCAGCCATCCTCAGCCTCCGAGATTCCTCACCCTAATGCGAGCCTAGTGTTTCAGCGGG
+GCCGTGGCACGTTTTGCAGATTTTGGATGGAGTTTTCCTCCTTAGCAGTTTGTCTTTTAACTACTCCCACTAGGCTTTCC
+CGCAACTGTTCTG
+>ref|X69474.1| O.aries gene for insulin-like growth factor-I, exon 4
+GTAGCAGTGAACACCGCCTATTATCCCACTCTAAAACTAGGCCTCTCTCTGATCTGCACAGACAAGCCCACGGGGTACGG
+CTCGAGCAGTCGGAGGGCGCCCCAGACAGGAATCGTGGATGAGTGCTGCTTCCGGAGCTGTGATCTGAGGAGGCTGGAGA
+TGTACTGTGCGCCTCTCAAGGCCGCCAAGTCGGCCCGCTCAGTCCGTGCCCAGCGCCACACCGACATGCCCAAGGCTCAG
+AAGGTAAGCCCACCAGGGGCGGCGGTGAGGGTCGGCCATCTTCGCGAGATCTGAGTTATGTGGTTGTAGCAACTTAGCAG
+CAGCAGCATCTGAATAGTAATTCATACCCTAATAGACTTCTGGCTCATAGGGTCAAAAGAGCTCCATTCTCCCCTGAGAG
+GTTCATCTTTTCTGTCACTCCACATTATAAATTCTCCCTTCCACCGCTGTGGCCCATCTGATCACCAGAAGATGGTGGAG
+AAGAGTGACTAAACCTGGGCTTTGGCATCAGACAAAACTGGGATCC
+>ref|X69475.1| O.aries gene for insulin-like growth factor-I, exon 6
+GTGAGACATAAGGTATGACGGTTGAGATCCAGTGTTAGAAATAGATAGGTTGGATACATAAACATTCATCAAATTAATGT
+CACTTTTTCTCCCTTATTTTTAGGAAGTACATTTGAAGAACACAAGCAGAGGGAGTGCAGGAAACAAGAACTACAGAATG
+TAGGAAGCCCTTCCTAAAGAGCGAAGAATGACATGCCACCGGCAGGATCCTTCGCTCTGCACGAGTTACCTGTTCAACAC
+CAGAAGACCTACCAAAAATAAGTTTGATAACATTTCAAAAGATGGGCATTTCCCCCAATGAAATAAGTAAACATTCCAAC
+ATTGTCTTTAGGAGTGATTGTTCAAAGCTTTGCACCTTGCAAAAATGACCCTGGAGTTGGTAGATTGCTGTTGATCCTTT
+ATCAATAATGTTCTATAGAGAAAATATATATATAGATCTTAGTCCCTGCCTCTCAAGAGCCACAAATGCATGGGTGTTGT
+ATAGATCCAGTTGCACTAAATTTATCTCTGAATCTTGGCTGCTAGTGACATTCATTCAGCAGGCTTGTCTAAGTGGTTTA
+TTAATTTTTTATTTGCACTTCTTTCTACGCAACACAGGCTGTTTGTTTTACAGTGTCTGATAATCTTGTTCCTCTATCCC
+GCTCCCTTCTCCATCCCCTTTATATTTGCTGAATTTGGCCTCCTAAACAGCAGCAGCAAGCAGTTAAGTAGCATACAGTT
+TTAACCCACAAGATTCATCTGTGGCATGTGTACAAATATAGTTGGATGCATTTATTTAGACACAAGCTTTATTTCTTCCA
+CATCTTGCTAAAAGATGCATGTAGTTACAACTTTGAGGCCAATCATTTTAGGTGTATGTTTTAAGCATAGAAAGTCTCAA
+ACTCTGAATGGTTCCTTCAAGAGATGAGTTAGTGTGTGACCTGATCAGTACTTCTCTCTTTTTATTTCTTCCATATAGAG
+CACTATGTAAATTTAGCATATCAATAATACAGGATATATCAAACAGTATGTAAAACTCTGTTTTTTAGTACAATGGTGCT
+ATTTTGTAGTTTGTTATATGAAAGAGTCTGGCCAAAACGGTAAAAGGTGAAAGCAAAACTAAAGAGGAAGCCTGGAGCCA
+AAGGTGACACAGAGGGGAAGGGTACTCAAAACTCAAACATTTGGGAAAGAAAAGCTCCCCAATTATGCCTTCCAAGAAAA
+ATAAGACACAAAGTCCACTGATAACAAATTTGATTGGCGAGTCCAGAGAGGAGTAGAAAAAGCAGAAGGCTAGGAATTTA
+ATAATCCTGGTTTCTTATTCTCACTGAAGAAACAAACATCTGACGACTCTGCCACGGACTCACCACTGTGTGACCTTGGG
+CAAGTCACTTCACCTCTCTGTGCCTCAGTTTC
+>ref|X02323.1| Muntjak satellite IA sequence
+TCCCAGTGGCAAAAGGAAAGGGAACCTGCGTCTGCCGCCTCACCTCGAGAGGTTTTCCTATGGCCCTTTCAAGCCAAGAA
+GAGACTCCCGAGGCGTCCCTCGCAAATAGACAGGAGTCCTTACGTCACTGAAGCACACCGTGTTTGGAAGGGCCATCCCC
+GCCGTAACTCGAGAATATACCCCAGGTTCCCGCCGCAACTCGAGAAAAACGATGAGACTCCCCCCTCGCCGCGAGTTGAG
+GCCCGATTTCACTGCACAGCATGCAGAGCAATTGCCTGCTCCCCATCAAACCCGAAAGGAGCCTTGATTTCCTTGATGGC
+ATCCTTAGATGGCATCCTTAGAAACCCCAGGTACACTGTCTCAAGTCTAGAGGTATCCTAAAGTCACTTCACCAACCAGA
+AACAGCTCCTGTATTCCGAATCATCTCGAGCTGAGAGCTGATTTCCTGGCTTCAAATCAAGAGGAATGCCAACTGTCCAC
+AAGCACCACAAGAGGAGGCTTCTCGCAGCTGTAGGTCTGGTTGAGGGAAGTTTGAATTTGCGGCCTCCAGTGGAATCGAC
+CCCGAGATGCCCTGACTCGAAATCAGGACGGAATTCCTGCAGTGACTTGAGTGCAAGCTGGATTTCATCTCACAAGATGA
+AGGGATGTCGGAAGCCCCTTGGGAGACACTAGATAATGCCCTAGCACAATGCCCTTTCTCGACAGGCGGCCTCCCATCCA
+TTGGACAGCTTGAGAGGAACACGGAGTTCAATGATTCCAAAGGACACGATGCCTGACTCCTCTGGAAAATGGACAGGAAT
+CCCAGGA
+>ref|Z18653.1| M.novaeangliae gene for large subunit rRNA
U13117.1 Megaptera novaeangliae mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGGCACTGCCTGCCCGGTGACTAGTCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAATTAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTCTCCGTGAAGAGGCGGAGATAACAAAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAATAAATCA
+CAACCTTAAACCACCAAGGGACAACAAAATTTTATGTGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAAAC
+CCTCCGAGTGATTAAAACCTAGGCCCACTAGCCAAAGTGTAATATCATTTATTGATCCAATCTTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTTCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18652.1| M.novaeangliae gene for small subunit rRNA
+CGTAAACCCTAATAGTCACAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCGG
+TGCTTCATACCCCTCTAGAGGAGCCTGTTCTGTAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTCT
+ATATACCGCCATCTTCAGCAAACCCTAAAGGGAGCAAAAGTAAGCATAACCATCCTACATAAAAACGTTAGGTCAAGGTG
+TAACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTAAGCTAAGAACATCCCCTACCCACACGAAAGTTTTTATGAAAC
+TTAAAAACCAAAGGAGGATTTAGTAGTAAATCAAGAGCAGAGTGCTTGATTGAATAAGGCC
+>ref|Z18654.1| M.peruvianus gene for large subunit rRNA
U13118.1 Mesoplodon peruvianus mitochondrion 16S rRNA gene, partial sequence
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAAT
+CATTTGTTCTTTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCCGTGAAATTGA
+CTTCCCTGTGAAAAGGCAGGAATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACCCAAAAATTATA
+AATCTTAACCACCAAGGAATAACAAAATTTTATATGGGTTGATAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAAACC
+TCCGAGTGATTAAAACCTAGGCCTACCAGCCAAAGTATTATATCACTTATTGATCCAAAATTTTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGTAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|X56823.1| M.reevesi repetitive DNA sequence
+CTTCAGTGACTTCAGTGACTGAGTGCAAGCTGATTCATCTCACAAGATAAAGGGATGTCTGAAGCCCCTGGGGAGACACT
+AGAGAAAGCCCTAGCTCCCTGCCTTATCTAGAGAGGCGGCCTCCCATCAATTGGAGAGCTCGAGAGGGAACACGGAGTTC
+AATGATTCCAAAGGAGACGATGCCTGACTCCTCTGGAAAATGGACAGGAATCCCAGGATCCCAGTGGCAACAGGATAGGG
+ATAATGGGTCTGTCGCCTCACCTTTGAGAAGTTTTCCTATGGCCCTTTCAAGCCCCGAGGAGACTCCCGAGGGTCCCTCA
+CAACAAACAGGAGTCCTGACCTCGCTGAACACACCCCGTGTTTGAAGGGCCATCCCCTCGTTAACTCGAGAATATAACCA
+GTTCCGCCGCAACTCGAGAAAAACGTGAGTCTCCACCCTCGCCACGAGATAAGGCCCGATTCCCCTGCACAGCATGCAGA
+GCAATTGCGTGTTCCCAATCAAACCCGGAAAGAAGCCTTGATTTCCTGATGCTCACGAGAGCAGACCGTTCCAGACATGT
+GGATCCTAAAGTCACTTCATCAACCAGAAACAGCTTCGTGTATTTCAAAACTTCTCGAGCTGAGAGATGATTTCCTGGCT
+TCAAATCAAGAGGAATGACAACTGTCCACAAGCACCACAAGAGGAGGCTTCTCGCAGCTGTACGTCTGGTTGAGGGAGGT
+TGAATTTGCGGCCTCCAGTGGAATCGAACCCGAGATGCCCTGACTCGAAATCAGGCCGGAATT
+>ref|V00859.1| Integration site of Moloney sarcoma virus in mink cell DNA
+ATAAATCTATAGCTTTTCTAAAAATAAAATCATTTAAAAATTACTTGAATGAAAGGTAAACACGCCTCTTTCACACAGTC
+TGATGCAAAGTCTCATCAAGAATTGGGCAGTCCTGGGAAGTTTGGAACCCTGTAAATACGGACTCCACCGTGCAGACAAT
+GCCATGTAGAGAAGCGTGTTCCCAAGATCCCAGCTTCCCCACTCTGGGTCCTTCCCCTCATAGATATAAACGCTAGTGCT
+GACCTAGTGCTGTGATAAATATTTAGCTCATTAGTCGCCC
+>ref|Z19516.1| M.vison mRNA for surfactant protein SP-C
+GCCTGCAGCAAGATGGATGTGGGCAGCAAGGAGGTCTTGATTGAGAACCCGCCGGATTACTCGGCAGCCCCCCAGGGCCG
+TTTTGGCCTTCCCTGCTTCCCTTCAAGTCTCAAGCGCCTTCTCATCATAGTGGTGGTGATAGTCCTTGTGGTCGTGGTGA
+TTGTAGGGGCTCTGCTAATGGGTCTTCACATGAGCCAGAAACACACTGAGATGGTCCTAGAGATGAGCCTTGGGGGGCCG
+GAAGCCCAGCAGCGCCTGGCCCTGCAGGAGCGTGCGGGCACCACTGCCACCTTCTCCATTGGCTCCACCGGCATCGTAGT
+GTATGACTATCAGCGGCTCCTGATTGCCTATAAGCCAGCCCCGGGAACCTGTTGCTACATCATGAAGATGGCTCCGGAAA
+ACATCCCAAGTCTTGAGGCTCTCACTAGAAAGTTCCAGAACTTCCAGGTCAAGCCTGCAGTGTCTACTTCTAAGCTGGGC
+CAGGAAGAGGGCCACAATGCTGGCTCAGCATCCCCTGGGGACCTGGACTTCCTGGGCACCACAGTGAGCACCCTATGTGG
+TGAGGTGCCTCTCTACTACATCTAGGACTCCACAGGACCTGTGGAAGCCCCAAGTGAAGAGGAAAGAGCCATGCGCTAAG
+GCTCTTCTGCAGAGAGGCAGAAAGCTGCTCCTACCCACACCACAGACACTGGAGCTGGAGAAATGGGAGCTGTGGGGAGA
+GGTGGGAGCGGGCAGAGGAGATGCGGCTCCTAGGGCCAAGGGTTTCCTAGCACGAAAGAATAAAGCAGCCTGACTG
+>ref|NM_001009467.2| Ovis aries phosphogluconate dehydrogenase (PGD), mRNA
X60195.1 Ovine 6-pgdh mRNA for 6-phosphogluconate dehydrogenase
+CTCGCCGTGCGCTCCCTGTGCTTCGGGTCTGCTTGCTCCAGCCTGCTTTGCCGCCGCCGCCATCGCCGCCATGGCCCAAG
+CTGACATTGCCCTGATTGGACTGGCTGTCATGGGCCAGAACTTAATTTTAAACATGAATGACCATGGCTTTGTGGTCTGT
+GCTTTTAATAGGACAGTCTCCAAAGTTGATGACTTCTTGGCTAATGAGGCGAAGGGCACCAAGGTGCTTGGCGCTCACTC
+CTTGGAGGAAATGGTGTCCAAGCTGAAGAAGCCACGGCGGATCATCCTGCTTGTGAAGGCCGGTCAGGCCGTCGATAATT
+TCATTGAGAAACTGGTACCTTTGCTAGACATTGGTGATATCATCATTGATGGAGGAAATTCTGAATACAGGGATACCATG
+AGACGGTGCCGAGACCTCAAGGATAAGGGCATCTTATTCGTGGGGAGCGGAGTTAGTGGTGGAGAGGATGGGGCCCGCTA
+TGGCCCGTCGCTTATGCCGGGAGGGAACAAGGAGGCCTGGCCCCACATCAAGGCCATCTTTCAAGGCATCGCCGCCAAAG
+TGGGGACAGGAGAACCCTGCTGTGACTGGGTGGGGGACGACGGTGCAGGACACTTTGTGAAGATGGTGCACAACGGCATA
+GAGTACGGGGACATGCAGCTCATCTGTGAGGCCTACCACCTGATGAAGGACGTCCTGGGCCTGGGGCACAAGGAGATGGC
+CAAGGCCTTTGAGGAATGGAATAAAACAGAGCTGGACTCATTCCTGATTGAAATCACAGCCAGTATTCTCAAGTTCCAAG
+ATGCTGATGGCAAACACCTGCTGCCAAAGATCCGGGACAGCGCAGGGCAGAAGGGCACCGGGAAGTGGACCGCCATCTCT
+GCCCTGGAGTACGGCGTGCCCGTCACCCTCATCGGAGAAGCTGTCTTCGCGAGATGCTTATCATCTCTGAAGGACGAGAG
+GATCCAAGCCAGCAAAAAGCTGAAGGGGCCTCAAAATATCCCATTTGAAGGAGATAAGAAATCATTCCTGGAGGACATTC
+GAAAGGCCCTCTATGCTTCCAAGATCATCTCTTACGCTCAGGGCTTCATGCTGTTAAGACAGGCAGCAACTGAATTTGGC
+TGGACCCTCAACTATGGCGGCATCGCCCTGATGTGGAGGGGCGGCTGCATCATCAGGAGTGTATTCCTGGGAAAGATAAA
+AGATGCATTTGATCGAAACCCAGGACTTCAGAATCTATTGCTGGATGACTTTTTTAAGTCAGCTGTGGAAAACTGCCAGG
+ACTCCTGGCGGCGGGCCATCAGTACTGGTGTCCAGGCAGGCATTCCCATGCCCTGCTTTACCACTGCTCTCTCTTTCTAC
+GATGGGTACAGACACGCGATGCTGCCGGCCAACCTCATCCAGGCTCAGCGCGACTACTTTGGGGCGCACACCTACGAACT
+CTTGGCCAAGCCGGGCCAGTTCATCCACACCAACTGGACGGGCCACGGGGGCAGCGTGTCCTCGTCGTCGTACAACGCCT
+GATGGGCTTCTGTTCCAAGCCACAACTCTACAGACCAGGACATTCCATCTGCCACACAGCACTGCTTGCATGGCCCTCTG
+CCCTACTTTCTGCTCAGATCTTTTAAAATACCATGTGTCGTAAGAGACTCCTTTGAAGAGTTGGCCCGAGTCTCTGAGTG
+TCAAGTAGTTCTGAGAGAACCAGCACGCCCTCTGCCCTCGCCTCTTGGGACGGAGCAGGAGTGGAGTGTGTGCGAGGCAG
+CTGCCCGAGGCAGCGTTCCCTGCAGGTCCCCTGTGGGTGAGGGAGGCAGCGGCTCTCATCAAGGTGGGGAAGGGTTTTGT
+AGAATTTGATCAAACTGGAACCTTTGTATCACACACCTGAACTCCCTTTCCTTTTACTTAATAAAAGAAAAAAAACATAA
+AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_001009796.1| Ovis aries ATPase Na+/K+ transporting subunit beta 1 (ATP1B1), mRNA
X03883.1 Sheep kidney mRNA for (Na+/K+) ATPase subunit beta
+GCCCACAAGGAGCACAGTGAGGCAGTCAGGAGCCGGGGCGGCCGACTGGACTGGCCTGGAAGGAGAGGGACGGGCCGGAA
+CTGCAACCGCAGCGGCGGGGAGCGCGGAGCCGGCGGCAGAGGTCACAGGAGGTGGGGGCCGGACACGCGTCCCTGGTGGC
+TGCGGGAGCGGCATCTGCGGGCCCCGAACTGCCCCCCGCCCAAGGGCAAGAGGAGCGCGTGGCGGACCAAAGAGAGCCCG
+CGAGCGGCCGCGCGCCCACCAATAGGTGCGGGGCTCGGAGCCGCCCAGCGTGCGCGGTCCCTCCCTCCTCCCTCCGCCCC
+CGCCCCCGCCGCCGCCGCCTACCCCTCCTGCCGCTCCTGACTCTGCTTCTCCGCCGCGCGTCTGGCACTCAGAGAGCCGC
+AGCGCCAGCGGCGGGTGCAGCCAGCGGAGAGCCAGGCCGGGAACGCCGAGCGGCAGCCCGGGAGGACGCGAGGGCGCACG
+CCGCAGTCACCCATCTTCAGTCCCTGCGGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAG
+CTGGAAGAAATTTATCTGGAACTCGGAGAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGCTGGTTTAAGATCCTTCTAT
+TCTACGTAATTTTTTATGGCTGCCTGGCGGGCATCTTCATCGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTT
+AAGCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGATCCAAAAGACTGAAATTGCCTTTCG
+TCCTAACGATCCCAAGAGCTATATGACATATGTGGATAACATAGATAATTTCCTGAAGAAGTACAGAGATTCGGCCCAGA
+AGGATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGATCGAGGAGAATTTAACAACGAACAAGGA
+GAGCGAAAAGTCTGCAGGTTCAAGCTTGAATGGCTGGGAAATTGCTCTGGAATAAATGATGAAACTTACGGCTACAAAGA
+GGGCAAACCATGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGA
+CTTACCCAGTGATGAAGTACAATCCGTATGTCCTGCCTGTTCAGTGCACTGGCAAGCGAGACGAAGATAAGGAAAAAGTC
+GGAAGCATAGAGTACTTTGGACTGGGCGGCTACCCTGGTTTCCCTCTGCAGTATTATCCCTACTATGGCAAGCTCCTGCA
+GCCCAAGTACCTGCAGCCTCTCCTGGCCGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGG
+CGTATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGA
+TCACAAGCACACATCTTTCTCACTAGCCATTTAAAAAAGGTTTAAAAAAAAAAGATACAAAAACCTACTAGTCTTGAACA
+AACTGTCATACGTATGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAAT
+TTAAAGTGTAGCAATAGCAACAAAATATTTATTCTACTGTAAATGACAAAAGAAAAAATAAAAATTGAGCCTTGGGACGT
+GCCCATTTTTACTGTAAATTATGATTCCATAACTGACTTGTAGTAAGCAGTGTTTCTGACCCCTAAGTATCGCTGCCTTG
+TGTATTTTATTTAGTGTACAGTACTCTAGGTGCACACTCTGGTCATTTTTCAAGCCATGTTTTATTGTATCCGTTTTCTA
+CTTTATGTGAGCAAGGTTTGCTGTCCAAGGTGTAAATATTCAATGGGAATAAAACTGGCATGGTACTTTTTTTTTTTTCC
+TCTTTGGGTTTGGCTCTTTCAAATATAACGGCCCATCGATGAGCATTTTTAACACACTCCATAGTCTTTTCCTGTGGTGT
+TAGGTCTTCTTTCTTCTTTTTTTCTCCTGGGTCTGGGTGGGGGTGGGGTGGGCTGTCATGGGGGAACTGCCCTTTCAATT
+TTAAGTGACACTACGGAAACACACACAAAGGTGATGGGTTGTGTTGTGCTTTGTACTGAATGCTGTCTCGACTTCTCTTT
+CCCCGTCCTCCGGTCCGTTCTGAAACTGTGGGTAAGATCTGGAGCGCCCATCACTTTGGCTAGTGATAGGGCCGATTAAT
+TTGCTTTGTACATTTTCTTTCACTTTCCTTTTTTCCTTTCTCTGGAGGCATCACATGCTGGTGCTGTGTCTTTATGAATG
+TTTTAACCATTTTCATGGTGGAAGAATTTTATATTTATGCAGTTGTACAATTTTATTTTTTTCTGCAAGAAAAAGTGTAA
+TGTATGAAATAAACCAAAGTCACTTGTTTGAAAATAAATCTTTATTTTGGACTTTATAAAAAGCAATGCAGTACCCCATA
+GACTGATGTTGAATGTTGTCTACAGTGCAAAATCCATGTTCTAACATATGTCATAATTGCCAGGAGTACAGTGCTCTTGT
+TGATTTTGT
+>ref|NM_001009396.1| Ovis aries ATP synthase membrane subunit c locus 1 (ATP5MC1), mRNA
X69904.1 O.aries mRNA for mitochondrial ATP synthase c subunit (P1 form)
+CTGTGGTCTGAGCAGGGGCAGCCGGGGCAGTGGGAGTACAGACTGAAAAAAAAAATGCAGACCACCGGGGCACTACTCAT
+TTCTCCTGCTCTGATCCGTTCTTGTACCAGGGGTCTGATTAGGCCTGTGTCTGCCTCCTTCCTGAGTAGGCCAGAGATCC
+CATCTGTACAGCCTTCCTACAGCAGTGGCCCACTGCAGGTGGCTCGGCGGGAATTCCAGACCAGTGTTGTCTCCCGGGAC
+ATTGACACAGCGGCCAAGTTTATTGGCGCTGGGGCTGCCACAGTTGGTGTGGCAGGTTCAGGGGCTGGTATTGGAACAGT
+GTTTGGCAGCTTGATCATTGGCTATGCCAGGAACCCGTCTCTGAAGCAGCAGCTCTTCTCCTATGCCATTCTGGGCTTTG
+CCCTGTCTGAGGCTATGGGGCTCTTCTGTTTGATGGTCGCCTTCCTCATCCTCTTCGCCATGTGAGGCTCCGTGGAAGTC
+ACCTCCCCACCCCTGCTGCTTCGACTCCAGGCCATGCCCGGTGCTGGAGTGTGCTAACCTTTACCATTAAACACAATGTT
+TCTCTAAAAAAAAAAAAAAAAAAAAAAA
+>ref|NM_001009468.1| Ovis aries ATP synthase membrane subunit c locus 2 (ATP5MC2), mRNA
X69905.1 O.aries mRNA for mitochondrial ATP synthase c subunit (P2 form)
+CCCCTGAAAATGTACACTTGCGCCAAGTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTACACTATTGAGCCGATC
+ACTGTCTGCAGTGGTGGTAAGACGACCGGAGACACTGACAGATGAGAGCCACAGCAGCTTGGCAGTAGTCCCCCGTCCCC
+TGACCACCTCACTGACTCCTAGCCGCAGTTTCCAAACCAGTGCCATTTCAAGGGACATTGACACAGCAGCCAAGTTCATT
+GGAGCTGGGGCTGCCACAGTAGGGGTGGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGAGTCTCATCATTGGTTA
+TGCCAGGAACCCTTCTCTGAAGCAGCAGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCGGAGGCCATGGGGCTCT
+TTTGCCTGATGGTGGCCTTTCTCATCCTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATAGTTCTTCTCCCGTGTC
+TCGTCTGCCCTGTATGTTTCTTTTTCTGTACCTCCCCAGGCAACCTGGGGAAGGTGGTTGGCTCAGGGCCTGACAGAAGG
+AAGACAAATAAATACTGTATTAATA
+>ref|X69906.1| O.aries pseudogene for mitochondrial ATP synthase c subunit (P2 form)
+GGAGATCTTCTGCCCATTTCCAGTTGGTTTTCTGTGAGAATTATTCCACATGTAGATGTATTTTTGATGCGTTTTGTTGG
+TGGAGGTGAGTTTCACATCCTACTCCACCATCTTGATCCCCCCTCAGGAAGTACTATTGAGTCTACTATAAATATATTGT
+TAGCTACTGTGTGAGATTGATACATTTTAGCTACCTGTATATAATAGAAAAGTTGTTCTTTTGTATGTACAGTAGTATTC
+CTGTACTTTTTAAAAATTGTTCTATTTACTCCATCATCTCTTATTGGGCTCCCACTGTGTGGCTGATGGGTAGTTAGGTT
+CTGGAGATTCCGTTTGTCCCCTCTTTAGGGATGAGTATTATGATAAATGTGTAATAGTTTTATTTAAGAACAGATTCTTG
+TGTTAAATGTTTTATCTTAATAACTTTTAAAGTATCAGCAGTGAATGAGCAAGTACTTTTTTTCCCCAAAATCTAATTGA
+CAACTATTAGTCAATGCATGGAACATGACTACTTAAAGCATTCTTATTCTAAGAGAATTTCAGAATTGAAAAATCTTAAG
+CCAGCTCTCTGTCTTCTCTGCACTGGGAGCAGCTCTCCTGCCACAGCCCTTCATCCCCTGAAAATGTACACTTGCGCCAA
+GTTCGTCTCCACCCCCTCCTTGATCAGGAGAACCTCTACACTGTTGAGCCAATCACTGTCTGCAGTGGTGGTAAGATGAC
+CGGAGACACTGACAGATGAGAGCCACAGCAGCTTGGCAGTAGTCCCCCGTCCCCTGACCACCTCACTGACTCCTAGCCGC
+AGTTTCCAAACCAGTGCCATTTCAAGGGACATTGACACAGCAGCCAAGTTCATTGGAGCTGGGGCTGCCACAGTAGGGGT
+AGCTGGCTCTGGAGCTGGAATTGGGACCGTGTTTGGGAGTCTCATCATTGGTTATGCCAGGAACCCTTCTCTGAAGCAGC
+AGCTCTTCTCCTACGCCATTCTGGGCTTTGCCCTCTCGGAGGCCATGGGGCTCTTTTGCCTGATGGTGGCCTTTCTCATC
+CTCTTCGCCATGTGAAGGAGCCGTTTCCACCTCCCATAGTTCTTCTCCCGTGTCTCGTCTGCCCTGTATGTTTCTTTTTC
+CGTACCTCCCCAGGCAACCTGGGGAAGGTGGTTGGCTCAGGGCCTGACAGAAGGAAGACAAATAAATACTGTATTAATAA
+GAAAAAAAAAAAA
+>ref|X16482.1| Sheep mRNA for beta-casein
+ATCCATTCAGCTTCTCCTTCACTTCTTCTCCTCTACTTTGGAAAAAAGGAATCGAGAGCCATGAAGGTCCTCATCCTTGC
+CTGTCTGGTGGCTCTGGCCCTTGCAAGAGAGCAGGAAGAACTCAATGTAGTCGGTGAGACTGTGGAAAGCCTTTCAAGCA
+GTGAGGAATCTATTACACACATCAATAAGAAAATTGAGAAGTTTCAAAGTGAGGAACAACAGCAAACAGAGGATGAACTC
+CAGGATAAAATCCACCCCTTTGCCCAGGCACAGTCTCTAGTCTATCCCTTCACTGGGCCCATCCCTAACAGCCTCCCACA
+AAACATCCTGCCTCTTACTCAAACCCCTGTGGTGGTGCCGCCTTTCCTTCAGCCTGAAATAATGGGAGTCCCCAAAGTGA
+AGGAGACTATGGTTCCTAAGCACAAGGAAATGCCCTTCCCTAAATATCCAGTTGAGCCCTTTACTGAAAGCCAGAGCCTG
+ACTCTCACTGATGTTGAAAAGCTGCACCTTCCTCTGCCTCTGGTCCAGTCTTGGATGCACCAGCCTCCCCAGCCTCTTCC
+TCCAACCGTCATGTTTCCTCCTCAGTCCGTGCTGTCCCTTTCTCAGCCCAAAGTTCTGCCTGTTCCCCAGAAAGCAGTGC
+CCCAGAGAGATATGCCCATCCAGGCCTTTCTGCTGTACCAGGAGCCTGTACTTGGTCCTGTCCGGGGACCCTTCCCTATT
+CTTGTCTAAGAGGATTTCAATGTGAATGCCCCCTCCTCACTTTTGAATTGACTGCGACTGGAAATATGGCAACTTTTCAA
+TCCTTGCATCATGCTACTAAGATAATTTTTAAATGAGTATACATGGAACAAAAAATGAAACTTTATTCCTTTATTTATTT
+TATGCTTTTTCATCTTAATTTGAATTTGAGTCATAAACCATATACTTTCAAAATGTTAATTCAACATTAGCATAAAAGTT
+CAGTTTTAACTTGGAAATATCATGAACATATCAAAATATGTATAAAAATAATTTCTGGAATTGTGATTATTATTTCTTTA
+AGAATCTATTTCCTAACCAGTCATTTCAATAAATTAACCCTTAGGCAT
+>ref|X07004.1| 1O.aries gene for beta-lacto-globulin exon 1 (and joined CDS)
+AGCCACCCCGGGCCTAGGATGAGCCAAGTGGGATTCCGGGAACCGCNTGGCTGGGGGCCAGCCCGGGCTGGCTGGCCTGC
+ATGCGCCTCCTGTATAAGGCCCCAAGCCTGCCTGTCTCAGCCCTCCACTCCCTGCAGAGCTCAGAAGCACGACCCCAGCT
+GCAGCCATGAAGTGCCTCCTGCTTGCCCTGGGCCTGGCCCTCGCCTGTGGCGTCCAGGCCATCATCGTCACCCAGACCAT
+GAAAGGCCTGGACATCCAGAAGGTTCGAGGGT
+>ref|X07005.1| Ovine gene for beta-lactoglobulin exon II
+CCCTCTCCAGGTGGCGGGGACTTGGCACTCCTTGGCTATGGCGGCCAGCGACATCTCCCTGCTGGATGCCCAGAGTGCCC
+CCCTGAGAGTGTACGTGGAGGAGCTGAAGCCCACCCCCGAGGGCAACCTGGAGATCCTGCTGCAGAAATGGTGGGCGTCT
+>ref|X07006.1| Ovine gene for beta-lactoglobulin exon III
+TGTCTTTCAGGGAGAACGGCGAGTGTGCTCAGAAGAAGATTATTGCAGAAAAAACCAAGATCCCTGCGGTGTTCAAGATC
+GATGGTGAGTCCGG
+>ref|X07007.1| Ovine gene for beta-lactoglobulin exon III
+CCGCGTCCAGCCTTGAATGAGAACAAAGTCCTTGTGCTGGACACCGACTACAAAAAGTACCTGCTCTTCTGCATGGAAAA
+CAGTGCTGAGCCCGAGCAAAGCCTGGCCTGCCAGTGCCTGGGTGGGTGCCA
+>ref|X07008.1| Ovine gene for beta-lactoglobulin exon VI
+TGCCCCATAGTCAGGACCCCGGAGGTGGACAACGAGGCCCTGGAGAAATTCGACAAAGCCCTCAAGGCCCTGCCCATGCA
+CATCCGGCTTGCCTTCAACCCGACCCAGCTGGAGGGTGACGACCC
+>ref|X07009.1| Oovine gene for beta-lactoglobulin exon VI
+TCCCCCACAGGGCAGTGCCACGTCTAGGTGAGCCCCTGCCGGTGCCTCTGGGGTAAGCTGCT
+>ref|X07010.1| ovine gene for beta-lactoglobulin exon VII
+CCATTTTCAGGGCCCGGGAGCCTTGGACTCCTCTGGGGACAGACGACGTCACCACCGCCCCCCCCCCATCAGGGGGACTA
+GAAGGGACCAGGACTGCAGTCACCCTTCCTGGGACCCAGGCCCCTCCAGGCCCCTCCTGGGGCTCCTGCTCTGGGCAGCT
+TCTCCTTCACCAATAAAGGCATAAACCTGTGCTCTCCCTTCTGAGTCTTTGCTGGACGACGGGCAGGGGGT
+>ref|NM_001009363.1| Ovis aries alpha-S2-casein (CSN1S2), mRNA
X03238.1 Sheep mRNA for alpha-S2-casein
+TTCCATTGCCTGGACTACTTGTCTTCATTTTAGGAAAAGAGGATCAAGTAAACATGAAGTTCTTCATTTTTACCTGCCTT
+TTGGCCGTTGCCCTTGCAAAGCATAAGATGGAACATGTCTCCTCCAGTGAGGAACCTATCAATATCTCCCAGGAAATATA
+TAAGCAGGAAAAGAATATGGCCATTCATCCCAGAAAGGAGAAACTTTGCACCACATCCTGTGAGGAAGTTGTAAGGAACG
+CAGATGAAGAGGAATATTCTATCAGATCATCTAGTGAGGAATCTGCTGAAGTTGCCCCAGAGGAAGTTAAGATTACTGTG
+GACGATAAGCACTACCAGAAAGCACTGAATGAAATCAATCAGTTTTATCAGAAGTTCCCCCAGTACCTCCAGTATCTGTA
+TCAAGGCCCAATTGTTTTGAACCCATGGGATCAGGTTAAGAGAAATGCTGGCCCCTTTACTCCCACCGTGAACAGAGAGC
+AGCTCTCCACCAGTGAGGAAAATTCAAAGAAGACCATTGATATGGAATCAACAGAAGTATTCACTAAGAAAACTAAACTG
+ACTGAAGAAGAAAAGAATCGCCTAAATTTTCTGAAAAAAATCAGCCAGTATTACCAGAAATTTGCCTGGCCCCAGTATCT
+CAAGACTGTTGATCAGCATCAGAAAGCTATGAAGCCATGGACTCAACCTAAGACAAACGCTATTCCCTATGTGAGGTACC
+TTTAAGATTCTTGAATTAACTGCTTCTACCTGGTTATGGTTGGACTGGAAAATCTATCTTCTACAGTTTCATATCTACCA
+CTTTACTTCATACAACCAGCATGTTTGGGGTGGCGCATCGATAAGACAAATCGCAGAGTATTTCCTGAATTATTTATACT
+CTCGCTGTTAGTTTATATTGAATATACTGGGTTTATATGGTGGTTTCATACAAACTTAGCTGATGATTATTTAAAATCCT
+TTCCCTAATCTTTCTGAGTTACAGAAATATTTTTCTTTCCCTCTGGAAATAAAATGTCAAGTGC
+>ref|NM_001009795.1| Ovis aries casein alpha s1 (CSN1S1), mRNA
X03237.1 Sheep mRNA for alpha-S1-casein
+CCTTGATCATCAACCCAGCTTGCTGCTTCTTCCCAGTCTTGGGTTCAAGATCTTGACAACCATGAAACTTCTCATCCTTA
+CCTGTCTTGTGGCNGTTGCTCTTGCCAGGCCTAAACATCCTATCAAGCACCAAGGACTCTCTCCAGAAGTCCTCAATGAA
+AATTTACTCAGGTTTGTTGTGGCGCCTTTTCCAGAAGTGTTTAGAAAGGAGAACATCAATGAACTGAGTAAGGATATTGG
+GAGTGAATCAATTGAGGATCAAGCCATGGAAGATGCTAAGCAAATGAAAGCTGGAAGCAGTTCGTCAAGTGAGGAAATTG
+TTCCCAATAGTGCTGAGCAGAAGTACATTCAAAAGGAAGATGTGCCCTCTGAGCGTTACTTGGGTTATCTGGAACAGCTT
+CTCAGACTGAAAAAATACAACGTGCCCCAGCTGGAAATTGTTCCCAAAAGTGCTGAGGAACAACTTCATAGTATGAAAGA
+GGGAAACCCTGCCCACCAGAAACAGCCTATGATAGCAGTGAATCAGCTTTTCAGACAATTCTACCAGCTGGACGCCTATC
+CATCTGGTGCCTGGTATTACCTTCCACTAGGCACACAATACACTGATGCCCCCTCATTCTCTGACATCCCTAATCCCATT
+GGCTCTGAGAACAGTGGAAAGATTACTATGCCACTGTGGTGAAGAGTCAAGTGAATTCTGAGGAACTCCACAATTATGGT
+CTTTGATGGGATTGAAAATTCCATGCTCTACATGTCTTTTCATCTATCATGTCAAACCATTCTATCCAAAGGCTTCAATT
+GCTGTTTTAGAATAGGACAATCTCAAATTGAAGGCACTCTTTCTTCTTGAGTTCTCTATTGTATTTTAGATTGTGTAACA
+TCCTTAAGTGAAATTGTCCTAAGAGCTTGTTACCTAAATTCCAGTAGTATCATGCTGGTATAAAGGCCACTGAGTCAAAG
+GGAATTACAGTCTTCATTAAATTTCTATATGGAAAATGTTTTTAAAGCCTTTGAATCACCTCTCCTGTAAGTGCCATCAT
+TTCAAATAACTGTGTGCAGTAACTGAGATTTTGTCTTTCTTCTTTTCAATAAATTACATTTTAAGGCACT
+>ref|X70061.1| O.aries mRNA for gamma subunit of sodium potassium ATPase
+TTCTATTATGACTATGAGACGGTCCGCAATGGGGGCCTGATCTTCGCCGCCCTGGCCTTCATCGTGGGGCTCGTCATCAT
+CCTCAGCAAAAGATTCCGCTGCGGGGCCAAGAAGAAGCACCGGCAAATTCCTGAAGATGGGCTCTGAGGAGAGAGCCAGC
+CGTGCCCACCCTTGCACCGGGGCTGCTTGGAAGTCTTCCCTGAGCTGCAGACTTCCGTCCCAGCACTGTCAGGCCCCTCG
+GACTGAAGGAAGCTTCGGGCTCCACGTGACCCCCCGGTGGC
+>ref|X17229.1| Ovine IGF-I gene for insulin-like growth factor-I exon 1 and exon 1A
+GGGCTGCAGGTCGACTCTAGAGGATCTTTCAACCCATGAGACAATCTGTATCTTCAAAGTCCATTAGAGGAGGCTGGGCT
+GGGGGCACAAAAGGTGTGATGTGCTGAAGCTGAAGGAAATTTAAAAAAATAAATAAACCCAAACCCCAGATTTTTAGTGA
+ACAATTCCTAAGTTAAATGCATGAAGCGGGGCTCATTAAAGGAGGTCTTGGATTCTTCTCAAAGTACAGGCCTTGCCCCA
+CACCTGAAGATACCCCCCCCCCACCCCGCCTACGTCTTGATGATGTGTATCTCTTCAGGTCAAAACACATCCCCTGAAAC
+TTCCCAACTTTGCATTTCAAAGCTCCTCATGACACACCCCTCCTCCTCCATCCTGGATTCTCAGTAGTTTCACTTCCCTG
+TCTTTCCAGAGAAAGTGTGCACTTTTCATATTTTTAAAAGCGCATCCCACCACGTGACAGTGCTGTTTTCCTCTCTGCCT
+CTGCCACTTAGTTGAAAGGCCCTGTGGTGTGTGTAACTGAGCACACAGTAGGAGCGCACTCACTGAATGCTGAATATAGT
+GCACTGTTGGAATGGCATCACTCCTCGTGTCTAACTTGTCTTTCTCAAAGGCAAACCCTGCCCCAAGTTTAATCACAGAG
+AAGGCTTGAGTGAACTCAACCCCCTTTCAAAACCAATCAGGTTTTCCTTTGAGGGCACCCACCTCTGCAACAGCTTCCTG
+GCCATGGCATAAAGACCTAGACAAGAGTTTCAAGCAAACCTTTGTTTTTAGTCGAAGCATCAGGATCACTGTGTCCCCTG
+AGAATCAAGAGGGAGAAATACAAGGTCCAGGCTACTCCCACCATTCCAGAAAACCATGCCCCAATAGACCCAGGAAAGTG
+GGATGTCTAACCTGGGCTTTTGCAATCTTATTTCATAATCCACTTTCTTATCGCCTCCTTCACAAAACTGATGAGAAATT
+GGTACAAACTCTATCGACAAAGATCAACAACTTGATCCTCAATGGCAAAGGCAAGTATACATTATAAATAGCAAAACAGC
+TGGCTTGGACCATGTTGCTGGCCACTCATCCAGCTGAGAGATTTGAATGACATCATAACCCTTGAGAGGGTATTGCTAGC
+CAGCTGGTGTTATTTAGAATACACAAAAAGGGGGGAAAGAAAATGCACTCACATGCACACACACACAAATACACACACAC
+ACACACAGGTTCAAGTTATGCAGAAAAATATGAACAGTGGGAAAATCATTTGCCTCTCAGATGCCCTTCCCCTGGTGTGG
+GGTGGGAGTCGGGGTGGGGGGCCAAGCAGCAGAATAGAGGAAGGAAGAAAGAGATTCGATTTTATTTTTTCAGTTGGCTT
+TACAGCTCAGCAAAATCTTTCCCTGTCGTGGGCAAAAAGCATGAGACAGTGTCCTGAGGGGAGCCAATTACAAAGCTGCC
+TGCCCCTTTCCAGGTTCTAGGAAATGAGATCATTCCCCTCACTTGGCAACCAGGACGAGGGGTCATCCCAGCGCCGTCTT
+CCAGTCTAGTTACCCCAGACGTTTGAGGGTTAAAATCATAGAGTATGCTTGAGATGGGTCTTTTTTTCATTTCTTGTTTT
+TTAAATTTTGTGTTGGCTCTGGAATATAAAATTGCTCGCCCATCCTCCACGAATATTCCTTTCATACGGGTAAGGTGTAT
+TAGCAGATGTGTGTGTCTTCATGCCCGGTAGAAAGTTAATCAGAGGACAGTACATCAGGATTTTAATGTCTGCTCCTCTT
+GTCACTAACACACATTCTTTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTTTAAAATGCAAAGGTATGATGTTATTTGT
+CACCATGCCCAAAAAAGTCCTTACTCGATAACTTTGCCAGAAGAGGGAGAGAGAGAGAAGGCAAGCGTTCCCCCACGTGT
+TTCCTGTCTACAGTGTCTGTGTTTTGTAGATAAAATGTGAGGATTTTCTCTAAATCCCTCTTCTGTTTGCTAAATCTCAC
+TGTCACTGCTAAATTCAGAGCAGATAGAGCCTGCGCAATGGAATAAAGTCCTCAAAATTGAAATGTGACATTGCTCTCAA
+CATCTCCCATCTCCCTGGATTTCTTTTTGCCTCATTATTCCTGCTAACCAATTCATTTCCAGACTTTGCACTTCAGAAGC
+AATGGGAAAAATCAGCAGTCTTCCAACCCAATTATTTAAGTGCTGCTTTTGTGATTTCTTGAAGGTAAATATTTCTTACT
+CTTTGAAGTCATTGGGGAATTTTCTTTAAATTGTGTACTGCTTGCTTCTGCTTAGAAATGTTCTTCACTTTAAGAATTTT
+CATTGTTTCGGCACTGGGAGTTATTTATAAATTGCTGAATATGCAATTCTGTGGGATCTGAAAAAATAGCTCCGGGAGAT
+AAAGTCCTTTGCACAGATATCTGTATGAGTAAAAACTATTGCAAGGTACTTATGCTAAATCCTCCACTTCTTCAGGCTTG
+AGTGGTGTCATTATAGAAGATTCCTTTAAATCCTGTCTATGGTTAAGGGCTATAGGGCATGGATATGAACTTTTGGATTT
+TTTTTCGAGGTCGAGATGTTTTATTTTTAAGACCATGTTCATGTGTATGTAGGGCTGTGTGGTGTGTGTGTGTGCGTGTG
+TGTTAACTGGCCAGGACTTTTGATTACAAGGCATGCCACATACAAAGAGTTACGTTTTAAATGATATTAAAGCTTTTAAA
+TATGATCTTTTGGAGCTAAGGTCCCGGAACTCTCTGCACTTAGCCCCAGAGAGTCAAAGGTAGAGTGAAGGTTCATTTGC
+TCTTCTGAAAAAAGAACTCCTTAAGAACTCCTGCTGACCTTGCAGATTCGGATAATTTAAACAAATGCACACTGTATATG
+GAAAGCGGAAACTTTCTAGCAACTGCTATTCCAAGTTTTTTCTTTTGAAGAGGACTCTCAGGGGCGAAGTTTGGACTTGG
+GGTCTTGTGTTGTAAAACACGGGTTTTGTATTTGGGATTGTAAAGTCTCTTTAGGTGAATTTGGCTAGCGCTGTCAATGC
+ACTGACTTCGCCTTTCCAATAACTGCCTAGTTCAAGTTTCCGATTCTCAGCAAAATTATATCTTTCAAGACTTGTATTTT
+TCCAATTTGCAAGCATTTTTAAGCTGCTGTACTGGCTCCCCCGGATGCAATTGCCTGTGGGCTCAATTCATGATCCGTCC
+CTACCGCTTAGTCCAACACTTATTTGCCGCTTTCCACACTCCACCACTAGACGTTTCTTAGTCAAGTCAGTGGCTTAGGA
+GTTAAGAATACATCCTTGTCGGGCACCTGATCCTGCCGCCCTTGAGAAGCCAAGATGCACACTGCCTACCTTGCTTTTAA
+AAGAAATGAAGTCAGTATACACATATGCTATGTGGTCTGAGCTGGGGATTTTGTCTCCCTACTTAGAGGATCCTAAAAGG
+GGCTGTGTAGTGTTATCTCTGCATTAATTACAAGTTTGGAAAACTCCAAATGAACTTTCCATGCTGTGTATGCTGAACTT
+TTCAGAAGTAGAGCTAGCTAGCCATAAGTTGTTGCTTTTTCCTGTACTTGAAGCAGGAAGTGGTTTCAGGGAGCTACGTG
+GTTCTTTCAAATGTATGTAATTCAATGAGTAAAGGTGGTGTCTGCCAGGCAGAGCTCACAAGCTGATTGTACTGTGAGTC
+TCAAGATATCTCCAAGTGTTTGAGTCAGAGGAAAGAGGGCACAGGGGAGGACTGGAGCTTCGGTCCCTGTCCAGGACGGC
+TACAATAGGCACAGGATGGAAATCAGTGGCTTGATTGGGAGGAAAAGATTGACTCAGATCCCAGCCGTGCAATTTGTTTA
+TTGTCTGAATGGACAAAAGGCAGTTTACCCAGGCTCGTAGCATACCTGCCTGGGTGTCCAAATGTAACTAGATGCTTTCA
+CAAACCCCACCCACAAAGCAGCACATGTTTTTAAGTCCTCAGTTTTCTATTCACATCAGTCTCATAATACCCACCCTGAC
+CTGCTGTAAAAGATCTGGAACAAAACAAAAATGGTTACACCTACAGTGAGTATTTTCTTATGACTATTGCCCTCAAATTT
+TCGTGGGCATTTTTATTATAAACCAGACATCTGGAACCAATTGATATTCCA
+>ref|X51357.1| Ovine IGF-I gene for insulin-like growth factor-I exon 2
+GAATTCCTGAGACTTAAAAAAAAAAGACTTTTGCAGGTTTTGAGCCCAGTTCCCTGTTCATGGAAGGCATGTCTACACAT
+GTGTTGATCTGACATTGAGCTTGACACAAGGGGCTTTTAGAATGCAAAAGGAGTCGGGTTTACTTACCATAAACCAGTTT
+CATTCTGAAATTCTCAGATGTTTCTGTTCTGGTTTTACTTTACTTGTAGTGTACTGCTGATGTCGCAAGAAATCTCTCAG
+TCTCTCTTTCTCTCCCTCTGTACTCTCTGTCTCTGCCTCTCTGAAGTAGAAAAAAAAAGCTATAATGATATATAGTATTT
+TCACAAGTTCTTTTTCAGCTGCAATAAATTCTGTTTAATCAGTAGCAGGGGAATGACGTTCTGGTTAATTTAATATTCTG
+GTCAGTAATGAATGCACATGCCATCTGTGGAATGGCCAATTTGAGAGAATTTAAATTAATAAAACATATCTGGTCCCAAG
+TCTGGACTGAGCACAAATTAACCTTTGATGATTCCAAAGGTTTACCAGGACCTCTGAGTGGTGTGCAATAAGAGCATCTT
+TCACCTTCACACATTAAATGTTTACGGACATTTATCTCATTGAATTGTAATAGGAACCCATAAAGAAAGGGTTCAAGAAG
+GACTTCCCAGGGTTTCACAGTAGCAAGAGGATTAAAGTCAGATAGCATGATGCCAAGACCTGCTCAGAGGTCACTCACAC
+ACCTTGTTGCACTCCTGAGGGGAGAGTTTTGATTAATAACAGGAATGCAGAGATGGGGTAAAGGCACCCTTGCCTTGCCC
+CCACTCCCCTGGCAAGGACCCAGGAGGAAGATGACCCTCCTTCTGCTCTTTCAGCAGGTGAAGATGCCAGTCACATCCTC
+CTCGCATCTCTTCTATCTGGCCCTGTGCTTGCTCGCCTTCACGACGTCTGCCACGGCGGGACCTGAGACCCTCTGCGGGG
+CTGAGTTGGTGGATGCTCTCCAGTTCGTGTGCGGAGACAGGGGCTTTTATTTCAGTAAGTAGCCTCCCTCTCGTGCTAGC
+GATCTAGCTCTAGTGATTTACAACTCGCGGGAGTGTGTGAAGAGCTGAATGACCCGCCGTGTGCTGGCAGCCATCCTCAG
+CCTCCGAGATTCCTCGACCCTAATGCGAGCCTAGTGTTTGCAGCGGGGCCGTGGGCACGTTTTGCAGATTTTGGATGGAT
+TTTCCTCCTTAGCTAGTTTGTCTTTTAGCTACTTCCCACTAGGCTTTCCCGCAACTGTTCTCGTCTGCCCTCACTATTCC
+ATTTCTTCCTGGGAAAGACAGACAAAATGCCCTGGGGATTGGGTTTTCGTTTTCCAGACCTGTGGGTCACGTGGCAACAT
+ATGTGAATGTGTAGGGATGTTTTACGTGCCAGGTCACTTGGAGGAAACTAGGAAGGCGGACTTGGCAAAGGGGCACATCC
+CAGATGTCTCCATGTGATATGAAATCACCCGAACAGACAGAAGGTGAGAGTCGCTGAAAGGCACATTTGCAAAGACACAG
+CTCTCGCTCAATGCAAACTGAAATGCTGAGTTCATTTGACCCTCGGTTCACGCTGACCATTGAGTCATTTGATTGTATTG
+CCTTCCTTTGATGATCGCCCTTCTCTGGGCTCTCCAGTGATGTCTCATCTGAAAAGAGTTTCTGACAAGTCAAGGTCACT
+TATCCCATAAGTAGGTCTCAGGTGGATTAAAAAGTCAACAGTCAATGAAAAAGTAGACAGCCAAGTCCATGCTTGCGGAT
+AAATAATAAACACAAACGGGAGTCCCTGCTGCCTGAGGGAATGGATCC
+>ref|X51358.1| Ovine IGF-I gene for insulin-like growth factor-I exon 3
+ACATGGTGTGGGAGAGAGTTTTCTGGGGCTGGGTGTAGCAGTGAACACCGCCCTATTATCCCACTCTAAAACTAGGCCTC
+TCTCTGATCTGCACAGACAAGCCCACGGGGTACGGCTCGAGCAGTCGGAGGGCGCCCCAGACAGGAATCGTGGATGAGTG
+CTGCTTCCGGAGCTGTGATCTGAGGAGGCTGGAGATGTACTGTGCGCCTCTCAAGGCCGCCAAGTCGGCCCGCTCAGTCC
+GTGCCCAGCGCCACACCGACATGCCCAAGGCTCAGAAGGTAAGCCCACCAGGGGCGGTGAGGGTCGGCCATCTTCGCGAG
+ATCTGAGTTATGTGGTTGTAGCAACTTAGCAGCAGCAGCATCTGAATAGTAATTCATACCCTAATAGACTTCTGCTCATA
+GGGTCAAAAGAGCTCCATTCTCCCCTGAAGAGGGTTCATCTTTTCTGTCACTCCACATTATAAATTCTCCCTTCCACCGC
+TGTGGGCCCATCTTGATCCCAGTTTTGTCTGATGCCAAAGCCCAGGTTTAGTCACTCTTCTCCACCATCTTCTGGAGATC
+>ref|X51403.1| Ovine IGF-I gene for insulin-like growth factor-I exon 5
+CAGAGGAGAAAAAGAAAAAAATGAAAAGTTAATCTCCTTTTTACAGAAACTAAAACAGAACCAAAAGCAATAAAACAATG
+GAGGATTGATCCCCAGGATGTGATTGCTTTTTCTCACTAGAAAAAGATGTTCCAAGCCAGAAGACTGGATTTTAAAGGAT
+TCCCTTCCTATCAAGGAACCTGTGATAGTGGCAGATGAATAAACACATATTTTTATATGATTACAAAGCATTTGTGGTCC
+CATGCCATCAAGGGTAAATATAAGTAGCTTTAGTGAGGTCTGTCTAATATAACCAGCCATCACTGTATGTCTTTCTCAAA
+ACCCTGGCCCAAGTTGTCTATTAAACTGACTGGTGAGACATAAGGTAGTACGGTTGAGATCCAGTGTTAGAAATAGATAG
+GTTGGATACATAAACATTCATCAAATTAATGTCACTTTTTCTCCCTTATTTTTAGGAAGTACATTTGAAGAACACAAGCA
+GAGGGAGTGCAGGAAACAAGAACTACAGAATGTAGGAAGCCCTTCCTAAAGAGCGAAGAATGACAGTCCACCGGCAGGAT
+CCTTCGCTCTGCACGAGTTACCTGTTCAACACCAGAAGACCTACCAAAAATAAGTTTGATAACATTTCAAAAGATGGGCA
+TTTCCCCCAATGAAATAAGTAAACCCCCAATGAAATAAGTAAACATTCCAACATTGTCTTTAGGAGTGATTGTTCAAAGC
+TTGGCACCTGCAAATGACCTGGCCCCTGGAGTTGGTAGATTGCCTGTTGATCCTTTATCAATAATGTTCTAATAGAGAAA
+TATATATATATAGATCTTAGTCCCGTCCTCTCAAGAGCCACAAATCGATGGGTGTTGTATAGATCCAGTGCACTAAATTT
+ATCTCTGAATCTTGGCTAGGCTTGTCTAAGTGGTTTATTAATTTTTTATTTGCACTTCTTTCTACGCAACACAGGCTGTT
+TGTTTTACAGCGTCTGATAATCTTGTTCCTCTATCCCGCTCCCTTCTCCATCCCCTTTATATTTGCTGAATTTGCCTCCT
+AAACAGCAGCAGCAAGCAGTTAAGTAGCATACAAGTTTTTAACCCACAAGATTCCATCTGTGGCATGTGTACCAAATATA
+AGTTGGATGCATTTATTTTAGACACAAAGCTT
+>ref|X69797.1| O.aries mRNA for immunoglobulin gamma1 chain secreted form
+GAACCCACTGTGGACCCTCCTCTTTGTACTCTCAGCCCCCAGAGGGGTCCTGTCCCAGGTGCGGCTGCAGGAGTCGGGAC
+CCAGCCTGGCGACGCTGCTACAGACCCTCTCCGTCACCTGCACGATCTCTGGATTCTCATTAAATAATTATGGTGTAGAC
+TGGGTCCGCCAGGCTCCAGGAAAGGCGCTGGAGTGGCTTGGTGGCAGCGGTTATGATGAAGATATAGACTACAATCCAGT
+CCTTAAGTCCCGGCTCAGCATCACCAAGGACACCTCCAAGAGTCAAGTGTCGTTGACACTGAGCACCGTGACGACTGAGG
+ACACGGCCGTGTACTACTGCGCAAGAGTTGATTATGATAGTAGTCATGCTTTTGCGTATGCCTCATACGACTTCTGGGGC
+CCAGGGCTCCTGATCAGCGTTCTTTCAGCCTCAACAACACCCCCGAAAGTCTACCCTCTGACTTCTTGCTGCGGGGACAC
+GTCCAGCTCCATCGTGACCCTGGGCTGCCTGGTCTCCAGCTATATGCCCGAGCCGGTGACCGTGACCTGGAACTCTGGTG
+CCCTGACCAGCGGCGTGCACACCTTCCCGGCCATCCTGCAGTCCTCCGGGCTCTACTCTCTCAGCAGCGTGGTGACCGTG
+CCGGCCAGCACCTCAGGAGCCCAGACCTTCATCTGCAACGTAGCCCACCCGGCCAGCAGCACCAAGGTGGACAAGCGTGT
+TGAGCCCGGATGCCCGGACCCATGCAAACATTGCCGATGCCCACCCCCTGAGCTCCCCGGAGGACCGTCTGTCTTCATCT
+TCCCACCGAAACCCAAGGACACCCTTACAATCTCTGGAACGCCCGAGGTCACGTGTGTGGTGGTGGACGTGGGCCAGGAT
+GACCCCGAGGTGCAGTTCTCCTGGTTCGTGGACAACGTGGAGGTGCGCACGGCCAGGACAAAGCCGAGAGAGGAGCAGTT
+CAACAGCACCTTCCGCGTGGTCAGCGCCCTGCCCATCCAGCACCAAGACTGGACTGGAGGAAAGGAGTTCAAGTGCAAGG
+TCCACAACGAAGCCCTCCCGGCCCCCATCGTGAGGACCATCTCCAGGACCAAAGGGCAGGCCCGGGAGCCGCAGGTGTAC
+GTCCTGGCCCCACCCCAGGAAGAGCTCAGCAAAAGCACGCTCAGCGTCACCTGCCTGGTCACCGGCTTCTACCCAGACTA
+CATCGCCGTGGAGTGGCAGAAAAATGGGCAGCCTGAGTCGGAGGACAAGTACGGCACGACCACATCCCAGCTGGACGCCG
+ACGGCTCCTACTTCCTGTACAGCAGGCTCAGGGTGGACAAGAACAGCTGGCAAGAAGGAGACACCTACGCGTGTGTGGTG
+ATGCACGAGGCTCTGCACAACCACTACACACAGAAGTCGATCTCTAAGCCTCCGGGTAAATGAGCCAGATGCCCCCGCAC
+CAGCAAGCCCTCACCCAGCCCGCCCTCCCCGGGCTCCAGGTCCAGCCAGGACGCCCTAGCCCCTCCCTGTGTGCATGCCT
+CCTGGGCCGGCCATGAATAAAGCACCAGGCCGCCCTGGGACCCTGCAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|X59994.1| Ovis aries mRNA for immunoglobulin mu chain precursor secreted form
+CTCATCTGCTCCAAGATGAACCCACTGTGGACCCTCCTCTTTGTGCTCTCAGCCCCCAGAGGGGTCCTGTCCCAGGTGCA
+ACTGCAGGAGTCGGGACCCAGCCTGGTGAAGCCCTCAGAGACCCTCTCCCTCACCTGCACGGTCTCTGGATCCTCATTAA
+CCGTCAATCATGTCTCCTGGATCCGCCAGGCTTCAGGAAAGATGCCGGAGTGGCTTGGTGGTGTAGAAAAAGGTGGAAAC
+ACATACTATAACCCGGCCCTGAAATCCCGGCTCAGCATCGCCAGGGACACCTCCAAGAGCCAAGTCTCCCTGTCACTGAG
+CAGCATGGCAATTGACGACACGGCCGTGTACTACTGTGCGAGATCTGCTGGAGCTTATTTTCTTGCAGATGTTGATATCT
+GGGGTCGAGGACTCCTGGTCACCGTCTCCTCAGAAAGTGAATCTCACCCGAAAGTCTTCCCCCTGGTGTCCTGTGTGAGC
+TCCCCGTCTGATGAGAACACGGTGGCCCTGGGCTGCCTGGCCCGGGACTTCGTGCCCAATTCTGTCAGCTTCTCCTGGAA
+GTTCAACAACAGCACGGTCAGCAGCGAGAGGTTCTGGACCTTCCCCGAAGTGCTGAGGGACGGCTTGTGGTCGGCCTCCT
+CTCAGGTGGCCCTGCACTCCTCAAGCACCTTTCAAGGGACGGATGGCTACCTGGTGTGTGAAGTCCAGCACCCCAAGGGA
+GAAGACGTCGGACACAAGGGTGTCCCCAGAGAGGTGGAAGTGTTGTCCCCCGTCGTGAGTGTCTTTGTCCCGCCTTGCAA
+CAGCCTCTCTGGTAACGGCAATAGCAAGTCCAGCCTCATCTGCCAGGCCACTGACTTCAGCCCCAAACAGATCTCCTTGT
+CCTGGTTTCGTGATGGAAAGCGGATAGTGTCTGATATTTCTGAAGGCCAGGTGGAGACTGTGCAGTCCTCACCCACAACA
+TACAGGGCCTACAGCGTGCTGACCATCACGGAGCGAGAATGGCTCAGCCAGAGCGCGTACACCTGCCAGGTGGAGCACAA
+CAAGGAAACCTTCCAGAAGAACGCGTCCTCTTCGTGTGATGCTACACCACCGTCTCCCATCGGGGTCTTCACCATCCCCC
+CATCCTTTGCCGACATCTTCCTCACGAAGTCAGCCAAGCTTTCCTGTCTGGTCACAAACCTGGCTTCCTATGATGGCCTG
+AACATCAGCTGGTCCCATCAGAATGGCAAGGCCCTGGAGACCCACACTTATTTTGAGAGACACCTCAACGACACCTTCAG
+CGCCAGGGGCGAGGCCTCAGTCTGCTCGGAGGACTGGGAGTCCGGAGAGGAGTACACCTGCACAGTGGCCCACTTGGACC
+TGCCCTTCCCAGAAAAGAGCGCTATCTCCAAGCCCAAAGACGTCGCCATGAAACCGCCGTCCGTGTACGTGCTGCCTCCA
+ACGCGGGAACAGCTGAGCCTGCGGGAGTCAGCCTCCGTCACCTGCCTGGTGAAGGGCTTCGCGCCCGCGGACGTGTTCGT
+GCAGTGGCTGCAGAAGGGGGAGCCTGTGGCCAAGAGCAAGTACGTGACAAGCAGCCCGGCGCCCGAGCCCCAGGACCCCA
+GCGCGTACTTCGTGCACAGCATCCTGACAGTGACTGAGGAGGACTGGAGCAAAGGGGAGACCTACACCTGCGTCGTGGGC
+CACGAGGCCCTGCCCCACATGGTCACCGAGCGGACCGTGGACAAGTCCACCGGTAAACCCACCCTGTACAACGTGTCCCT
+GGTCATGTCTGACACGGCCAGCACCTGCTACTGATGCCTGGTCAGAGCCCCCAGGTGACCGTCGCTGTGTGCATGCATGA
+CTCTAACCATGCTGATGCGTGAGATGTCGCCTTTTATAAAAATTAGAAATAAAAAGATCCATTCAAAAAAAAAAAAAAAA
+AAA
+>ref|NM_001009808.1| Ovis aries interleukin 1 alpha (IL1A), mRNA
X60167.1 O.aries mRNA for interleukin-1 alpha
+ATGGCCAAAGTCCCTGACCTCTTTGAAGACCTGAAGAACTGTTACAGTGAAAATGAAGACTACAGTTCTGAAATTGACCA
+CCTCTCTCTGAATCAGAAGTCCTTCTATGATGCAAGCTATGAGCCACTTCGTGAGGACCACATGAATAAGTTTATGTCCC
+TGGATACCTCGGAAACCTCCAAGACATCCAGGCTTAGCTTCAAGGAGAATGTGGTGATGGTGACAGCCAATGGCAAGATT
+CTGAAGAAGAGACGGTTGAGTTTAAATCAGTTCATCACCGATGATGACCTGGAAGCCATTGCCAATGATACCGAAGAAGA
+AATCATCAAGCCCAGATCAGCACATTACAGCTTCCAGAGTAACGTGAAATACAACTTTATGAGAGTCATCCACCAGGAAT
+GCATCCTGAACGACGCCCTCAATCAAAGTATAATTCGAGATATGTCAGGTCCATACATGACGGCTGCTACATTAAATAAT
+CTGGAGGAGGCAGTGAAATTTGACATGGTTGCTTATGTATCAGAAGAGGATTCTCAGCTTCCTGTGACTCTAAGAATCTC
+AAAAACTCAACTGTTTGTGAGTGCTCAAAATGAAGACGAACCCGTCTTGCATAAGGAGATGCCTGAGACACCCAAAATCA
+TCAAAGATGAGACCAATCTCCTCTTCTTCTGGGAAAAGCATGGGTCTATGGACTACTTCAAATCAGTTGCCCATCCAAAG
+TTGTTCATTGCCACAAAGCAAGAAAAACTGGTGCACATGGCAAGCGGGCCGCCCTCGATCACTGACTTTCTGATATTGGA
+AAAATAGCCTTGACTGTGCACTCTAC
+>ref|NM_001009415.1| Ovis aries interleukin 2 receptor subunit alpha (IL2RA), mRNA
Z11560.1 O.aries mRNA for IL-2 Receptor alpha chain
+AGAGAAGAGAGTGGTACGCACAATTTCCTGGCTGAGGAACCCAGGCTAATACTTATACAGAGCAAGCACTGACTGCCCTA
+GAGGCTGACGGACCGGCAAGGATGGCAACCTGAGCGGACTCACCCTTCATTCCCCAGTCTCCCGGTGCGATGCCAGCAAG
+AGGCTGAAAGGAAACCCGGCGCTCTGCAGAGCGACACTCTCTCTTCCCGGCCCCGATGTCGGCAGTGATCCCAGGGGCCA
+GGAGGATGGAGCCAAGCTTGCTGATGTGGAGGTTCTTCGTATTCATCGTGGTACCTGGCTGCGTGACAGAGGCTTGTCAT
+GATGACCCTCCGAGTCTCAGAAACGCCATGTTCAAGGTCCTCAGGTACGAGGTGGGCACCATGATAAACTGCGACTGCAA
+GGCAGGCTTCCGCAGGGTGTCGGCCGTCATGCGCTGCGTGGGGGACTCCAGCCACTCTGCCTGGAACAACAGATGCTTCT
+GCAACAGCACCTCCCCTGCTAAGAACCCAGTAAAACCAGTTACTCCTGGATCCGAAGAACAGAGGGAGAGAAAACCCACA
+GATGCACAGAGCCAAACGCAGCCTCCGGAGCAAGCTGACCTTCCAGGTCACTGCGAGGAACCACCGCCATGGGAACATGA
+ACGTGAACCTTTGAAGAGAGTCTATCATTTCACGCTGGGGCAGACGGTTCACTACCAGTGTGCCCAGGGATTCAGGGCCC
+TACACACCGGTCCTGCTGAAAGCACCTGCACGATGATCCACGGGGAGATGAGGTGGACCAGGCCCAGGCTCAAGTGCATA
+AGTGAAGGGGCGAACAGTCAGGCTCCAGATGAAGCAGAGCCTCCGGAGAGCACAGAAGCTCCCCCTGGGAGTGGAACTTT
+CTTAACAACCAGGATGGCAGGGACCACAGATTTCCAGAAGCCCACAGACGTGGTTGCAACGCTGGATACGTTCATATTTA
+CCACCGAGTACCAGATCGCAGTGGCCGGCTGCATCCTCCTGCTCTCCAGCATCCTCCTCCTGAGCTGCCTCACGTGGCAG
+CGGAGATGGAAGAAGAACAGAAGGACAATCTAGAAAACCAAGGGCCAGAAGAAGTCAAGAACAGCCCACAGGTGTCACGG
+ACCACAATCAGAATCAAAGAAGCTAAACACTCATCCAAGAGGCATCTCCTGATCCGGTGGGCTCTGGAAAGCTCTGAAGT
+CACGTAACAGAACACTGGGCAACTGCAGCCCCATCGTGAAGCCAGCTCTGTAGTATCAACCCTTGAGGCTGACCCGTCTA
+GGCAGCAAGTCCAAGGTCGCTGGAGGAACGGGGAGAGGCAACCAGAACTCTTTCTCCTGTTTTCATGTATATGTGATCAC
+TAGATCACAAGTAGCCTGGAGCTCTCTCCACACCATGTAGTGTAAAGAAGAGTAGTTTCATGCTAAGAGCATCCCAACTT
+CCCAGGTTAGAAATCCCAAGGAAAGCCCTAGCACTGATGTAAATAGACACACATGATCTCTGCCCGGGTGAGTGGACTTT
+GTCCCCGGATCCACATAAGTCTTTTCCAAGCCTCTGGTTGACCAGCCCACTCTCCTGTTCATATGCCCCCAAAGGAATCC
+TTTTGACCCTAGCCCAGTCCTCCAAGTTAGCGCCCTCTACTGAACCTTCCAGGTTGAGTTTCTAAAGAACAGATTCCCTG
+GGGGAGCAGTCTTTGGGTGACCGCAGAAGACAGCAAGCAAACCCATGGAACTGTTGAGCTTCAGAGTTTGAAAGGATTTC
+ACCGGAGTTAATGCCAGGAGAAGGGGGAGAAGCTGGGTCCCAGGTAGTGGGTTATCCTTAACATTTAGCTTCAGCTGTTT
+GTGACTGGCTGTTCTAACAGCTTTTTCTCTGGGATTGCTATAAATTATGCTCTGTGTACGGCTGCCACAAATTTGATGTT
+TACAGACAGACACACAGTGTGTAAATGTGTACATTTGCAAAGAGGTGCCATAAAAACACTGATAAGGAGGCAGTACATTC
+AGTGTTTATGGGAGGAAAGAAAGAAAGAAGGATGGGGGCGGGGAGCGCATGTAATTACGGATGAGGTCACATCAGTGACC
+CCTCACACTGTGAGGAAATTAAAATTGCCTGGAGAACTTGGTGAGACCTGGAAGCCTGGGCCCATCTCCAAGGTTTCTGA
+GTCAGCAGGTCTGGGGTGGGAACCGAGAATCCATGTCTAATAGTTTACAGGGGATGCTGACAATGCTGGTCCGGGGACCA
+CATTTTGAGAATCACCGGGTTTAAACCTCTCCATACCTGCCAACCCTCAACCCCCAATGGAAAAGCCAGCCTTGGGGGCT
+GAGATTTCAGTGCAAGTTCAGACTCTTGCCCAAGATATCAATTCTCAATCAGTTGACAGATGTCCTGGCTGAACAAAATC
+ACATGATGAAGGAGATTAATGAAAAATTTAAATCAGCAGCCAGTTTTCATTTCTGAGAGGGCAGGCAGGAAAGTGTTACC
+AAAAAATGCACAGGTATCAGCAGGTCTATATCCAGGTTAAAAAGTGGTTTTCTGTCCTTTCTGTGACCAACCAAGTACAA
+TCAGACTCCATCGTCAGCATTCCCTGACATGTATGTTTTCTGGGAAAGTAAGGTTAGGATCTGGAATTTCAGACCAGGAA
+AAAAAAAAAA
+>ref|X60149.1| Ovine mRNA for interleukin-2 receptor beta chain
+CTCCCGGTGCGATGCCAACAAGAGGCTGAAAGGAAACCCGCGCTCTGCAGAGCGACACTCTCTCTTCCCGGCCCCGATGT
+CGGCAGTGATCCCAGGGGCCAGGAGGATGGAGCCAAGCTTGCTGATGTGGAGGTTCTTCGTATTCATCGTGGTACCTGGC
+TGCGTGACAGAGGCTTGTCATGATGACCCTCCGAGTCTCAGAAACGCCATGTTCAAGGTCCTCAGGTACGAGGTGGGCAC
+CATGATAAACTGCGACTGCAAGGCAGGCTTCCGCAGGGTGTCGGCCGTCATGCGCTGCGTGGGGGACTCCAGCCACTCTG
+CCTGGAACAACAGATGCTTCTGCAACAGCACCTCCCCTGCTAAGAACCCAGTAAAACCAGTTACTCCTGGATCCGAAGAA
+CAGAGGGAGAGAAAACCCACAGATGCACAGAGCCAAACGCAGCCTCCGGAGCAAGCTGACCTTCCAGGTCACTGCGAGGA
+ACCACCGCCATGGGAACATGAACGTGAACCTTTGAAGAGAGTCTATCATTTCACGCTGGGGCAGACGGTTCACTACCAGT
+GTGCCCAGGGATTCAGGGCCCTACACACCGGTCCTGCTGAAACGACCTGCACGATGATCCACGGGGAGATGAGGTGGACC
+AGGCCCAGGCTCAAGTGCATAAGTGAAGGGGCGAACAGTCAGGCTCCAGATGAAGCAGAGCCTCCGGAGAGCACAGAAGC
+TCCCCCTGGGAGTGGAACTTTCTTAACAACCAGGATGGCAGGGACCACAGATTTCCAGAAGCCCACAGACGTGGTTGCAA
+CGCTGGATACGTTCATATTTACCACCGAGTACCAGATCGCAGTGGCCGGCTGCATCCTCCTGCTCTCCAGCATCCTCCTC
+CTGAGCTGCCTCACGTGGCAGCGGAGATGGAAGAAGAACAGAAGGACAATCTAGAAAACCAAGGGCCAGAAGAAGTCAAG
+AACAGCCCACAGGTGTCACGGACCACAATCAGAATCAAAGAAGCTAAACACTCATCCAAGAGGCATCTCCTGATCCGGTG
+GGCTCTGGAAAGCTCTGAAGTCACGTAACAGAACACTGGGCAACTGCAGCCCCATCGTGAAGCCAGCTCTGTAGTATCAA
+CCCTTGAGGCTGACCCGTCTAGGCAGCAAGTCCAAGGTCGCTGGAGGAACGGGGAGAGGCAACCAGAACTCTTTCTCCTG
+TTTTCATGTATATGTGATCACTAGATCACAAGTAGCCTGGAGCTCTCTCCACACCATGTAGTGTAAAGAAGAGTAGTTTC
+ATGCTAAGAGCATCCCGACTTCCCAGGTTAGAAATCCCAGGGTA
+>ref|Z18897.1| O.aries gene for interleukin 3 (multi-CSF)
+GGATCCAGACCCCTGCAACACAACCCTCTCCTTTATTCACTGTCTGCCAGATAAATTCCTGCCTGCTCCACTGGGCCTTC
+AGCTGGCCACCCACTCAGAACCAGGGAGTGCCAGGTGGGGTGGGAAGCAGAAGGTCAGGGCTGTCCAGGGCATGGCAGGA
+CCGCATCCCACTGGGCAGGAGCTCTGAGTCAGTGGACCCTCACCTGTCAGAGAGGATCTCTTACCTATCGCCACTCTGCC
+CAGTGACCGCCTGTCTCAGCCTCCCTGGCAAGATAAGGAGATACCCTTTGAGTAATTTTTTTTTCCAAGTTTCACTGATC
+TCAAATACTAGAAAGTGATGAATAAGTCTGTGGTTTGCTATGGAGGTTCCATGTCAGATAAAGGTTCTTCCGAAGCCCGT
+CCTCCCTTCGCTTCCCTGGGGCATGGGCACACTGAATAAAAGTCGGGGGCTGTCTCAGACACTTCAGAACACCACGAAGG
+ACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCCTGCTTT
+CTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAAATTATG
+GATGACCTAAAGAAAATAACTCCGAGTCCAGAAGTGAGTAGCTGGGATAAAGTTGGCAAGGGGCAGGGAAGGGCTGGCAG
+GTGCCTTGGGCCAATAGACTCAAGGGCTCTCTCTCTCTCTCTCTCTGCCTCACCAGGGCTCCTTGAACTCAGATGAGAAG
+AATATCCTGGCGGTAAGAGTTCAGGCCCCACACATGGGTGGCAACTTGGGTGGGTTCCCATCTCCTTCCTGCCTGGCGAC
+CTCAGGGCATGTCACACCACCTTGGCTAGCCACTAGGGTTAGCAGCACCTATCTCAGCGGTGGTGTGGTGAAAATTAAAT
+GCACAGTGTGCATCAAGTTCCCAGGCCAGTGTCTGGTTCTTGTCGAGTGCTCGGGACATTTGCCCAGTTATGGCTGTAAT
+AATGAAAATGATTTTTCTTAATTACAAAAGGAAAAGGCAGCTCTAGATGAACAATACCAGAGGCCTTAAGCTCAGTTTTC
+AGTGGGGCAGTTTCTGGGCTGGCAGACTAAAATTTCCCACAGGATCATGCCTGCCACCTTCTTTTTCCTTAAATAATTGA
+GTCATGTTTTCCAGTGCCAACCAGCACTAGTCATCATCACTTTTAGCTATTTTTCCTAAAGTGGTTATTTCACCTTTGCT
+TGCATGGCAATTCTTGGGTCAAACAAGAGGTAGAATCTCTTGAGTTCATTGGCCATTTGCATTTCCCCTCTCTGAGGCAC
+TAGTAGTTCACACGCTGCACCCCTTTCCACACTGGGGTCTCTGTGATTGTCTTCCTGATTTCAAGGAGCCGTTAATTCAG
+TCAATTCAGTTAATTCATGGCCTTTTAGCTGCAAATATTTCCCTTAGGCAGGCTTTTGGCTTTTTAGAGTCTGTTTGGGG
+AAATATTTTTTTCCCCCAAGTGCAAAAAGATCCACCCAGGACCTTCATTCAGCTCACAAGAGCCACAGGCTTGGGACGTG
+GGTGATGTAAAGCTTGTCTGGGGGTGTGCATTCACCTCTTGGATGGCGACCTTTGGAGCAGTTCAGAGACACATCTGGGG
+CAAGAAGGGGACTAGGAAGGGGCTGTCCAGGGATGTCCCTAAAAGCAGTCTTGGAAAACTGCGAGGGTGACTTCAGCCCA
+GTCGTAAGAAGGACACTCCAACTTTCCCCCTCACATGTATTCTTTGTCCCCTTAGAATAAGAGCCTCCTACAGGCAAACC
+TGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAAATCTTAAGGTATGTGAAGCT
+GTCAAGGGCCTGGGGATCCCTACCTTGACCCTGCCCTTCCTCTGGCAGGAGGGTGGCGGCTCTTGCTTGTTATCGAGGAC
+AGTCTCTGACTGTTTGCTTTGGTCTCTCCCCACAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGTAAGCTGC
+CCCCAAAATGCCCCTGAGGTGATGCCCTGAGCCACAACTTGACCCCAGCCTGACATCCACCTTCCAACCCGGCTCCATCT
+GATGCCTCCTTCTTTGTTTCTACACAGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGGGATTTTCGGATGAAATT
+GGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTATCTGAAGTCCAAGAACAT
+ACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGTGACAACAGACTGTCCTA
+AATTTCTTCGATGTTTCTCACATGGTCCAGGCCCTGGAAGAATTAATTTTCTCCTGTGGAGCCCAGATGAATCGTTAATT
+ATTTAACTCCTGATATGTGTGGCCCCCATTTGTCCTTTTGGGATTATGTTCTCATTTTTAATCTATTGAGACTTATTTAT
+TTATGTATGTATTTATTTATTACCTTGTGCAAATGTGAAGGGTATTTATTTTAGCAGGGGAAGTCATGTTCTGCTCCTTC
+TGGACAAAACTTAAGATGGGGACTTGGGAGTATGTTCATTTGTACCTCAGATTTGAAACTGAGGTACACATCTTGAAAAT
+AAACTACACTCTCTTAACAAATGCTTTGTTGCTACTGTTTCACTTTGACTCAGTAACTCTCTCGCCTGATGATTTAACAT
+G
+>ref|NM_001009420.2| Ovis aries interleukin 3 (colony-stimulating factor, multiple) (IL3), mRNA
Z18291.1 Ovis aries interleukin-3 gene
+CGAAGGACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCC
+TGCTTTCTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAA
+ATTATGGATGACCTAAAGAAAATAACTCCGAGTCCAGAAGGCTCCTTGAACTCAGATGAGAAGAATATCCTGGCGAATAA
+GAGCCTCCTACAGGCAAACCTGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAA
+ATCTTAAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGG
+GATTTTCGGATGAAATTGGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTAT
+CTGAAGTCCAAGAACATACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGT
+GACAAC
+>ref|NM_001009378.1| Ovis aries casein kappa (CSN3), mRNA
X51822.1 Sheep kappa-Cn mRNA for kappa-casein
+TTCCTTACAGTTCCCAGGCCAACTGAACCTACTGCCAAGCAAGTGCTGACAGTGACAAGGAAAGGTGCAATGATGAAGAG
+TTTTTTCCTAGTTGTGACTATCCTGGCATTAACCCTGCCATTTTTGGGTGCCCAGGAGCAAAACCAAGAACAACGAATAT
+GCTGTGAGAAAGATGAAAGATTCTTCGATGACAAAATAGCCAAATATATCCCAATTCAGTATGTGCTGAGTAGGTATCCT
+AGTTATGGACTCAATTACTACCAACAGAGACCAGTTGCACTAATTAATAATCAATTTCTGCCATACCCATATTATGCGAA
+GCCAGTTGCAGTTAGGTCACCTGCCCAAACTCTTCAATGGCAAGTTTTGCCAAATGCTGTGCCTGCCAAGTCCTGCCAAG
+ACCAGCCAACTGCCATGGCACGTCACCCACACCCACATTTATCATTTATGGCCATTCCACCAAAGAAAGATCAGGATAAA
+ACAGAAATCCCTGCCATCAATACCATTGCTAGTGCTGAGCCTACAGTACACAGTACACCTACCACCGAAGCAGTAGTGAA
+CGCTGTAGATAATCCAGAAGCTTCCTCAGAATCGATTGCGAGTGCACCTGAGACCAACACAGCCCAAGTTACTTCAACCG
+AGGTCTAAAAACTCTAAGGAGACATCAAAGAAGACAACGCAGGTCTAGCTGAAACCAAATGACTACTTCAAACTATCCTT
+TGGCCAGTTGTCTGCCTTCAGTGAACAGAGAATATGATTTTCACAGATCCAGCTCCTTTCTCATCTCCTCTTACATTTTA
+CATTTATGCCGCATTTAGTTTTTTGATTCCTGCATAATAAAGCCAATCAAATGC
+>ref|X01610.1| Sheep B2A and B2D genes for B2 high-sulphur keratins
+GATCCTTAATTGAATGACCACTTAGGAAGGGAATGTTCAGTTTAGACAAACTCTGCCTAAAGGCTATCAAAGGACATTTA
+TGACAAAGCAAGCCAGGGCAACGGTTAGCCAAAGTCTAATCTATCACACAACTTTCATGATGAGTCTTGGCTTGACCCAA
+AGGCAAAGAAGAAACATAATGAGATTTAATTGAACAATGACAAAAGCAGGCTATTCAAAATGCTATTTATAACCTTCTTA
+ACAACTCAAATATTAGCCAATCAGAGACTGAATTTCAATGGTATCCAGGAAAAATGCTAAATGTTAGGGAAATAACATAG
+CTCTACAGGATGTATAAAAGGACAGATGCAGAAGGTGGAGCCAAAACTCAAAAACTTCTCTTAACAACCCTCCTCTCAAC
+CCAACTCCTGACACCATGGCCTGCTGTTCCACCAGCTTCTGTGGATTTCCCATCTGTTCCACTGGTGGGACCTGTGGCTC
+CAGTCCCTGCCAGCCGACCTGCTGCCAGACCAGCTGCTGCCAGCCAACCTCCATCCAGACCAGCTGCTGCCAACCGATCT
+CCATCCAGACCAGCTGCTGCCAGCCAACCTCCATCCAGACCAGCTGCTGCCAGCCAACCTGCCTCCAGACCAGTGGCTGT
+GAGACGGGCTGTGGCATTGGTGGCAGCATTGGCTATGGCCAGGTGGGTAGCAGCGGAGCTGTGAGCAGCCGCACCAGGTG
+GTGCCGCCCTGACTGCCGCGTGGAGGGCACCAGCCTGCCTCCCTGCTGTGTGGTGAGCTGCACACCCCCGTCCTGCTGCC
+AGCTGTACTATGCCCAGGCCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCTGCTGCCGCCCAGCCTGCTGCTGCCAG
+CCCACCTGCATTGAGCCCATCTGTGAGCCCAGCTGCTGTGAGCCCACCTGCTGAAAGCAAGGCTGCTGATTGCTTAAGAA
+TGAAGGGGGAAGCAAAACAAACCTGCGCTGATCTCTGAAGAACCATTCAATTTTTCTTGGATGCTAAGTATCATGAAGTT
+TCTAAGCTGCTCAGAAATGAAAGTCTTAGGACACTTTTGAATGTTCTGAAATAGCACGCTGAAAACAGGCCTCAGCCACG
+GTGTCTGGATTTCCTGCCTTGCTTGAGCAGAGTACCAGACTCGAGTAGCTCTTCATTTCAGTGACATCTCTGATCTCTTT
+CCTCTCTCTTGTTCCCATATATTTTCAGACCTGCTTTCTCCTTCAATATCCTGTTAATTTCAAATAAAATATTTAAACTT
+GCAAAGCAAACTGAGTTATTTTCTTCCTTCTACCTTCAAGAGTGAATTTGACAGTAATGCTAAGGCATGAACATAAAGTC
+TAAGCCAGAGAGATTAAATACAATTACATTATGCTTAAATCTATTGCTTAGCAAAATGCTCCATGCATTAAATAATCTTT
+GTAGTTGTTCAAATACTTACCTGATCTAATCTGTTGTGAAAAGAAAGAAAGTGAAGTCATTTAGTCGTGTCCAACTCTTT
+GCAACCCTATGGACTGTAGCCCACCAGAGTCCTCTATCCATGGGGATTCTCCAGGCAAGAATACTGGAGTGGGTTGCCAT
+TTCCTTCTCCAGGGGATCTTGCCAATCCAGAGATCAAATCCAGGTCTCCCACACTGCAGGCAGACTCTTTACCCTCTGAG
+CCACCAGGCTCTTTTTACCTAACATTTTCAGATTGATCAAAGCTACAGATGTAATCCTATCATATTTTAATCTCCTTCTG
+CTTAATAGAGTAGATGTTCTCCTTCATGCAGGCCCATATCTAAAGAAATTGTATTACCTATTAACTAGATTTCAAAATAT
+CAACCAGATACTATCAGATACTATCTATTTTCCAAGATCATTTATGTTCAGTTCCTATACCTTAGCCTATTGTATTCTTC
+CCGCTGATTCCCAAATTGCTCTCTAAGTTTCAAACCCAACACTAACTGCCATTAACTGTATTTTTATGGTGTATCTATGG
+TCTCAATGAGAATAGAACAAATAGCTGCAGAGATAGCCAGTGAGTTCTACCATCCCCATTCTAATGGATGTGTCAGACAC
+ATCCATTAGAAATCTGAAACAACTATGTATTTTATACTTTGCAACCCAATCTGAAAAATGTTCCCAATAAATGCACACAC
+ATCTGGAACAAAAAATACCTCTTAAAATTTAATTTTTTCAGTTCTTAAGTATGTGAGCACAACATACAAAACACAATAGG
+AGAAAACGTAGAACACATTGAGAACAATATTTTTGAGACAATTACAAGCTCCCGGCACTCACCTCTATCATTCAGCTGGT
+GGCAGTGATAGGTCACACACAAGATTACTTATTTCAGAGAAGAATAAAGTAGATACAGTGCACCCTTCAAAATGTCAGAG
+CTTATCGATGCTTTTTCTTCAGACTTAGTTCAACTATTAAATACAAAAAGATGTCAGCTTCTCCTGTTCCCTTTTGACAA
+TCATAAGGACTGCTTCATGAGAGGCACTACAGCTTAAAAGTTCTATTTAATCATTTATAAGTGGTATAGACACTCATGAA
+TCATGCCTTTTACTCCACCCATTGAAAATCAGATTCAATAAACATTTATTAAGGTTCTACCAGAAGCGAAGCACTGTGGT
+GGTGATCTTTCTGTATACTATATCATTTGGTTCACAAGGAAATATTTCTGGCCGTGGAACACAAGTAATATTTACACATT
+TCAAATTGGTTGAAATCAAAGGAAAAATGATGGTGATTTATTTGATGTTGGAATAAATGAGTTGGAAGCTTTTAATTATG
+TGTGACCAAAGGTACCTTTCAATTCAGTGGATGTCTTGATGTTCTAAATTCAAGAGAATTCAGTCTATATATTCAAGAGG
+GGGAAAAAAATAGCTAAAAACAGCACAATTACTCTTAGCCTTAGAGACCTAGACAGAGAATCACATGGAATAACTACCTC
+TACAAAATGAGGGTGTTGACATGGACAAAAATGGGAGGGCTCTTTGAACATGGAAAACCACAAACCTATTCCAAAGAGCA
+AAGGACCAATATGAGGAGTCCAAATGAAACTATAAAACGAAGTAATTTCTAAACTGCTGCTCATAATGTATCATAGGTAT
+TTCAATGTAAGCCAATCAGAGGACCACTGAAAAACAAATTTATACAAAAACAAGGAAGATATGCCAAGAAGTCTATAAAT
+AGCAGCTAGCGCGATATATAAAAGGCCTGACACAGAAGTCACCACCCAAAATCCTCCAAGCATTACAATTCTCAGCCCAA
+CTCCTGACACCATGGCCTGTTGCTCCACCAGCTTCTGTGGATTTCCCACTTGCTCCACTGGTGGGACCTGTGGTTCCAAC
+TTTTGCCAGCCAACCTGCTGCCAGACCAGCTGCTGCCAGCCAACCTCCATTCAGACCAGCTGCTGCCAGCCGACCTCTAT
+CCAGACCAGCTGCTGCCAGCCAACTTCCATCCAAACCAGCTGCTGCCAACCGATCTCCATCCAGACCAGCTGCTGCCAGC
+CAACCTGCCTCCAGACCAGTGGCTGTGAGACGGGCTGTGGCATTGGTGGCAGCATTGGCTATGGCCAAGTGGGTAGCAGC
+GGAGCTGTGAGCAGCCGCACCAAGTGGTGCCGCCCTGACTGCCGCGTGGAGGGCACCAGCCTGCCTCCCTGCTGTGTGGT
+GAGCTGCACATCCCCGTCCTGCTGCCAGCTGTACTATGCCCAAGCCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCT
+GCTGCCGCCCAGCCTGCTGCTGCCAGCCCACCTGCATTGAGCCCGTCTGTGAGCCCACCTGCTGTGAGCCCACCTGCTGA
+AAGCAAGGTTGCTCATTTAAAATTGCCCAAGACACAGTATCTCTGAATAATTTATCGCCTCAACCACCCATGGACAGCTA
+ACAAGCTCTTAGCTCCCATTTGGGTTTTTGTTATGGGCGCTACAGAGTATATGAGTTCTATCTGATTTCATTCTACAATG
+AATATCTGTACTTTCCACGGCAGATGCTGCGTACCACCTGTCATCATCAAATTGCTTTGGCTATACTATTTCTGATTTTG
+ATGCAAGGTTGAATATTGCTGACATATTGTGGAATTTATCCTTTTGAACTGCGCACAAGCCTATTTCTCCTGCTTTCTGA
+TCTATTTTTAGCTTCTGTTTGTCCCCAAATTTTTACAACGTCAAAGGCACCTGAGTATAGATAGTATATCTTCAGATGTC
+ACCAATGAGAATAGAAGCTCTTCACCCAATGTTCAGCTTCTAAGAAGGAGACTAGACTTTTCCATATTTCAACATCTGAT
+TCCATCCTCCTCTTTGCCTGTTGGCTATTTCAATTATATCTGTGATTCAGTGTCTTCTGTAATTTTTTAATAAATGTTAC
+ATATGGGGCAAAGAAATCACAGCCTTTGTGTCCACTTACACACAAAATGGGTTAATTTCTTCTGATTAAAAGATGCCTGT
+TTTAAAGAAATACATTTGTTTCTTTCTTAAAGGGACTGAAGTCATATACAGTGTAATAATTTAGTCATTTTTCCAGTAAA
+AATTTATTGACTACCACTTCTAAAGCAAGAACTAAGAAGATCAGAAAGATGAAAAATTGTTTCTTATCCTTGAGGACTTT
+ACTATCCAACAAGAAAAAGTATATGTGAAAGTAATTACATACAATATGGCAAGATAAATTGTATTCCCTTAGCAGCTG
+>ref|X02925.1| Sheep B2C gene for B2 high-sulphur keratin
+GATCCCATAGTCACATTGTCTTATGAGTGACAGTGATGTAATCATAAGCATAATACAAAGGCTGAGACTTGAGAAATTAC
+AGCATTATTTGAAAACAAAACATCAGTATTTTTACCAAAGACAAACACGTTTGGTGAGTATTAGCTGAGTAATAAGGAAA
+ATCCAATTTGGAGATATATTTAAAATAACTCATTATTTCAACAATCAGAGGGGCCTATTACCGTGGAAAAGATCGTTTAA
+AAGAGTAATAAGATAAAAATGCTGTCCATCACAAAAACAGGAAGTGGCAAAATTCTATAAAAGGCCTGGGTGGAACAAGC
+AGACCAAACTCAGAAACTTCTCCAAGCATCCCAGCTCTCAGCCTAACCCCTGACACCATGGCCTGCTGTTCCACCAGCTT
+CTGTGGATTTCCCATCTGTTCCACTGCTGGGACCTGTGGCTCCAGCTGCTGCCGATCAACCTGCAGTCAGACCAGCTGCT
+GCCAGCCAACTTCCATCCAGACCAGCTGCTGCCAGCCAACCTGCCTCCAGACCAGTGGCTGTGAGACCGGCTGTGGCATT
+GGTGGCAGCACTGGCTATGGCCAGGTGGGTAGCAGCGGAGCTGTGAGCAGCCGCACCAGGTGGTGCCGCCCTGACTGCCG
+CGTGGAGGGCACCAGCCTGCCTCCCTGCTGCGTGGTGAGCTGCACATCCCCGTCCTGCTGCCAGCTGTACTATGCCCAGG
+CCTCCTGCTGCCGCCCATCCTACTGTGGACAGTCCTGCTGCCGCCCAGCCTGCTGCTGCCAGCCCACCTGCACTGAGCCC
+GTCTGTGAGCCCACCTGCTCCCAACCCATCTGTTAAAAACCTACTGATGGAAATTCTAAGACAATGGCACTTCAAAATTA
+GCCAGTGTACAGTCCCAACAAACTTCTAAGGACTAGTACCCATAACCCAGCTTACCACCTCATGTCAGAAGGCTACATAA
+TTTCCCTAACATGGAAAATTGATTTATAATAAAAAACCAAAAATATTTCATAGATCTGGATATCAACAGAAGTCTTACAG
+TGTGAAAAGAAATGTGTAATACTTTACTATAAATATCTTCTGAAATGTTTCACCAACTCACTTGGCTTTTGGGTTTAATA
+AAATTTTTCATTCTTCAGTGATGAAATCATTGTTGGACTTTCTTTTCTTTGGTGTCCATTATTGATATTGGGGTACTGGG
+ATTTCTCAAAATGTCAATAAATGTAGTGTAGCACTGCGGTTTTTCTTTATTACTGTGCTTTTAGCAGTGGCCTTTAAAAG
+GTGGTTTTCCTTGTCTATCTACAGTCAAAGTATATGATTAAAAGAATACGTCAGTATTTAGACACTATTCCCTGAAGTCC
+TCAAGTATGCAAATTAATGGGTTAGGTGTCCCAGAATAACCAATTTTATGTCTTTTGGCTTCTTGAGGTGTCAACCAAAA
+ATATTCAGTTCATTCATATATGATTCTGTGGACAGTTCTTTAAACTATCGAGGATATAAAAGTAATGCATAATTGGAAAG
+ACAGTTATTAGGATAAGATGTGGGCTTCCCTGGAAGCTCAGCTGGTAAAGAATCTGCTTGCAATGCAGAAGACCCCTGGG
+TCTGATTCCTGGGTCAGGAAGATCCCCTGGAGAAGGGACAGGTTATCCTCTCCAGTATTATTAAGCTT
+>ref|X05638.1| Sheep HGT-C2 gene for high-(glycine + tyrosine) (HGT) keratin
+GCTTTTTTCAGTTTAGTTATGTCAGCTGGGAGGAGTTTATAATCAGAGAATTTAAACAGCCTCACAGGATGCAATCAGAA
+CAGTTGTTAAACCATGGGACACTGATGAAAAGAATTCAATTGCGTGTCAAGGAAGGCGCTGACTTTGAAGATACAACACC
+ATTCCTTTGTAAATAGATAAGCCAACAAAAATATGGGCAAAGAGTCTGTGGGTTGCTTTATATGCATTTTATTAGCAATA
+ATGGAATTATCTGTGCAAATTTATGGCAAGATGTTTAGCAAGCATGTCATCGGACAGCTTGAGGTATAAAAGGTTCCCGT
+GCATTACGAGAACTTCATTCCTTCTTGGGTAACTTGCTCTTCACATTCTATCCAAATCCTTCCCACTCCTGCCACAATGA
+CTCGTTTCTTTTGCTGCGGAAGCTACTTCCCAGGCTATCCTTCCTATGGAACCAATTTCCACAGGACCTTCAGAGCCACC
+CCCCTGAACTGCGTTGTGCCCCTTGGCTCTCCCCTTGGTTATGGATGCAATGGCTACAGCTCCCTGGGCTACGGTTTCGG
+TGGAAGCAGCTTTAGCAACCTGGGCTGTGGCTATGGGGGCAGCTTTTATAGGCCATGGGGCTCTGGCTCTGGCTTTGGCT
+ACAGCACCTACTGATGGACCATGGCTCCAGATGACTACGGGAACCCGCCCTCAATTCTCTGTGTGCAGAACAGCCTGAAA
+AACAATGACTGTCTTCCTGCCTCCAGAAACACTTGAGAGAGAAACACTGCAGTCTTCTCGATCTCCGACAGTGCTCAACA
+AGTCACCCAGGCATCAGATGCTGAGCTGATTCTCATCTACAGCCAAAGCAAGATTTTGTATTTCTCTAACATACTTGAAT
+TTTAGCTAATGAGGAAGACAGTCTGTCTCTTATGATAGCTCTGCCCGTCTATCTTAAGTTCTACATCAGTATCAATGCAT
+TACTATTACATGTGTGAGTAGGAAGGGGTTTTGCTTGTTCATCACAATAAATCCAATTCATTCAGCACAAACATTTTGTT
+CGGTTGTTTATTTTATTGTGCCTTTTGTTTGTTCATTTTGCTCTCATCAACCAGTTTCAACCTGTGAGGTGGCTTCAATC
+ACATTTTATTCTGATTTTCAGACTGTACACCTGGAATAGGTTGATGCCTAACAATTTTGTCCCTTTATGTTGAGATTTTC
+AATTAAAAAAAAATTCTTAAAAAGTCCTAAATTTAACCAAAATAGAAGATGGCCCTTGAACATGTTGGGAGGTTAATCCA
+TGTATAATCTATATTCAGCCCTTTGTATCTGAGATTTCTCTGCATCCCATGGATTCAACCAGCTGTGGAGTGTGTAGCAT
+TGTAGTGCTTACTACTAAAAAAATTCTGCATATAAGCGGACTTTTGAAGTTCAAACCCACTTTATTAAGTCAGTTGTATA
+GTCTGTACACTGCGATTGTTAGTGTTCTCTATGCTGATTATAAATAGCAAATTTTCTTAGCTGTTTAATGTTAAAAGAAA
+ATTCTTTCCTCCTTTCATTATTGACACGATTCCATTTAAGCTT
+>ref|X05639.1| Sheep gene for high-(glycine + tyrosine) (HGT) keratin
+AGCTTCATTTTTTTTTTACACTTACAAGATTATTAGTTCAGGTAGTGGTTTAAAAATGTGATGTTAAATATAGTTCAGGT
+GGGTATTATAATTAAAATTGAAATTTTATTCAGTTTTGTAAACACGGTAGCTATAAATAGAGGAAAAAAGAGTCTTTCCA
+ATGAACTCTTTGGTATTTGTCTTGGATAAATCCAAAATAAATTGTTTAATCAGACAAACACAAAGAATATCTCAGTCTCT
+GAGGTGATTTCACTATGTATTGGCTTTCCAGGTAGCACAGTAGTAAAGAATTCGCCTTCCAATGCAGGAGATTCAAGAGA
+CGAAGGTTGGATGCCTGGGTGGGGAAGATCCACTGGAATAGAAAACAACCCATCCTAGTATTCCTAGTATTCCTGCCTGG
+AAATTCTATGGATAGAGGAGCCTGGCAGGCCACAGTTCACCAGGTCACAAAGAGTGGGACGCAACTGAGGACGCAACTGA
+GCACGCGCACACACACACACACACACACACACACACACACAGTATGTATATGTTATTTCATTCAATTTTTTCCAACACAT
+ATTTATTGAATTCCAAGTGTGTGCTGTGGAAATTCAGTGCACAAGATGACTGGATAACAGTTAACAACCTCAGAATTTTC
+GTAGTACTGTAAAGCCTGCTTCCAGAGGCTTGTACTTAGGACTTTATAAGACCCAGGGCTTTGAAGACTCTGCAAAGCGG
+TATTTTAATGAAGGGACACAATTTTACAGGAAGGACTCCAGCCCCTGTTATTCTATCACATGAGAGCTTCTGAAGCAACT
+GTAAAGACATCTTAAGCAAGCAACACAAACTAATTAGCAATGGTGTCATGAATGAAAATGACGCCTTGTGTTTTTCGCCA
+CGGTCCCCTAGCCCGGGTATATAAAGAAGGGAGCATAGGGAATCCATCATACTGAGGAAATTCATTCCCTGCTCTCCAAG
+CCGCCCAACCCAGACACCATGAGCTACTGCTTCTCCAGCACCGTCTTCCCAGGTTGCTACTGGGGTAGCTATGGCTACCC
+GCTGGGCTACAGTGTGGGCTGTGGCTACGGTAGTACCTACTCCCCAGTGGGCTATGGCTTCGGCTATGGCTACAACGGCT
+CTGGGGCCTCCGGTTGCCGAAGATTCTGGCCATTTGCTCTCTACTGATTTGCTGAAATACCAGAGGCATGGAATCTTCTC
+CCCCAAACCCACGAGGCGGACTTCCAGGTCCTCAGAGACTCATCAGCCTCCCAGTTAGCTGCTTTTCACATCGGCACCAG
+AGTCTCAAGGGAAGAAGATGAAAAACCACTTGCCTCCAGCTGCCTTCCTGCATGATGTTTGTTGGGACATTTTGAGAAAC
+TTGACACCCAAACACGTTTTACGTTTGAATTTTTCACCATGCTCATGACTCTTGTCATTATCAAGTTGTGGGATGTGTCT
+GTCAAATTCTCAATAAACTTGTCTCAACCGCATATTATATTCTTACTTGAGTGGAGTTTCCTTTCTTGGTGCGCATATTT
+CTTGAAACAGGCAGTGAGGTGGATAGTGGATTTAGTTTTCTCATGTGGTTGTTAGAAGCAGTGAGAAAGCAAATAATCCT
+GCTCTCGTGTGAGAAGCAGGCAACAGGGTCTGCTTATGATTTTTTTAAAAAATTCTATCTTACCCTTCCTTTAAGTCTGC
+GACATCCTCCTCCAATTCTGCGTCAGTGTTACACCATCCATTGTTTGTGTCCCCATTCCGCATCTCGCTACTCCTGTTCC
+TCACAAGGAACCCAACACTGAGGGACTCTGTCAATTATTCCTGTATCAATACAAATCAAACCCACTATTTTCCTCTCGGG
+GACCAAGGATTGTAAATAAAATGCCATGTCCCTTATTTAAGGATTCTGGAGAATCTAGAATACCTATAGAGACATTTTAG
+GGATCTGAGAGTCTTTTAAGGGAGGAATAGATCCCCCATCTCAAACCACCTAGGATATCTACTTTACAACTTACAAGGAC
+CGGTTTAGAAACAGCGACAGAAAGCTT
+>ref|Z18528.1| O.aries repeat sequence
U24089.1 Ovis aries satellite I repeat, clone REPEAT4
+AATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCCAGTGCTG
+ACATGGATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTGCGCTTTC
+CTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCTTTCCCAC
+GGGACTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGAACGTCAA
+GGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGATTGGTGGCACGACCCTGGAG
+TTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGG
+>ref|X07972.1| Sheep metallothionein MT-I pseudogene
+CCCGGGGAAGGGGAAATGGTGGCGAGGGTCACCTCCACCTTGGGTCTGGGGCACCACTCCCCGGCCTCTGCCAAGCGGGA
+CACCAGCCAGCGGGAGGCGGGGTGGCTCACTGGCTCCAGGCAAGGGCGACCCGAGGCCGGCGGCGCGGGGATCTGTGGCG
+GGGAAGCCGCGAGGACACAGGAGCCCTGTTCCTAGAAGCGCCGAAACACGTGGCTGCTCCCGTGGCGAACACGGGGACGG
+GCGGCCGGGGCGAATGGGACCCCGCTTACCGCTGGCACCGGGCCCTGGGCTCCAGCCGGCACCAAGGGGAGCGCGCGCTC
+TGCCCGGGCGCCGCGGGCGGGGCGGGCGCAGGGGGCGGGGCCTCTGCGCGCGGGCCCCTCCCCTCCGAAGGCGGGTCAGG
+ACTGGGCTCCAAGGCCTCCCACCGGACCATGGGTCTGCTTCACCACCGCTTTGGACCTTGGACCTCGCCTTTCCTCCTGA
+TGGACCGCAAGTGCTCCTGCCCCACTGGTGAGGGACCCCTGGATTTGAGCCCTACTGATGCCTGCTTCTCAGTAACTGGA
+CGGTGAGTCCCCAGGGTTGCAGAAGGGAGTGTGTGGAGTTTGATCACAAGGGGACCGCTGTCACTTACTGGTCTAGGAAT
+GTCTTCCCAGCCGGGTTCCTGAGAGTATTTCAGGCGC
+>ref|X66093.1| O.aries mRNA for Mx homologue
+GAATTCGGCACGAGCTGCCAACTAATCAGCACTACATTGTCAAGTAAAAGGAAGGTATATTGAGGAAGAAGATGGTTCTT
+TCTGACTTGGATATCAAAGAACCTGATTCACCTGAATCCGGTCTAAATGGAAGTGACGATATGGTGAGGGAACATGAAAC
+GGAGTCCAAGGGCAACCTGTACAGCCAATATGAGGAGAAGGTGCGGCCCTGCATTGACCTCATCGACTCTCTGCGGGCCC
+TGGGCGTGGAGCAGGACCTGGCCCTGCCCGCCATCGCCGTTATCGGGGACCAGAGCTCGGGCAAGAGCTCTGTGCTGGAG
+GCCCTGTCTGGGGTTGCCCTCCCCAGGGGCAGTGGTATTGTTACAAGATGTCCTCTCGTGCTGAGGCTGAAAAAACTTGA
+GAAGGAAGGCGAGTGGAAAGGCAAAGTCAGCTTCCTGGACAGAGAGATTGAGATTTCAGATGCTTCACAGGTGGAAAAGG
+AAATCAGTGAAGCCCAGATTGCCATCGCTGGCGAAGGCATGGGGATCAGTCATGAGCTGATTAGTCTGGAGGTCAGCTCC
+CCTCACGTCCCAGATCTGACCCTGATAGACCTTCCTGGCATCACCAGGGTTGCTGTGGGCAACCAGCCACACGACATTGA
+ATATCAGATCAAGTCTCTCATCAGGAAGTATATCCTTAGGCAGGAGACCATCAACTTGGTGGTGGTCCCTGCTAACGTGG
+ACATCGCCACCACAGAGGCGCTGCGCATGGCTCAGGATGTGGATCCCCAAGGAGATAGGACCATAGGAATCTTGACAAAG
+CCCGATCTGGTGGACAAAGGCACGGAAGACAAGGTTGTAGACGTGGTGAGAAACCTGGTCTTCCACCTGAAGAAGGGCTA
+CATGATCGTCAAGTGCCGCGGCCAGCAGGAGATCCAGCATCGGCTGAGCCTGGACAAGGCCCTACAGAGAGAGCGGATAT
+TCTTCGAGGATCACACACATTTCAGGGACCTTCTGGAGGAAGGGAGGGCCACTATCCCCTGCCTGGCAGAAAGACTCACC
+AATGAACTCATCATGCACATTTGTAAAACTCTGCCCCTGTTGGAAAATCAAATAAAGGAGACTCACCAGAGAATAACAGA
+GGAGTTACAGAAGTATGGCAAGGACATCCCAGAAGAAGAAAGTGAGAAAATGTTCTCTCTGATAGAGAAAATTGATACAT
+TTAATAAAGAGATCATCTCAACAATAGAAGGGGAGGAACACGTGGGGCAGTATGACTCCCGACTGTTTACCAAAGTACGA
+GCCGAATTCTGCAAATGGAGTGCTGTGGTTGAGAAAAATTTCGAAAAAGGTCATGAAGCCATACGTAAAGAAATAAAGCA
+ATTTGAAAATCGGTATCGTGGCAGAGAGTTGCCAGGGTTTGTGAATTACAAGACATTTGAGATCATCATAAAAAAGCAGG
+TCATAGTTCTGGAAGAGCCTGCTGTGGACATGCTGCACACGGTGACAGATATAATCCGGAATACCTTCACAGAAGTTTCA
+GGAAAACACTTTAGTGAATTTTTCAACCTCCACCGAACTGCCAAGTCCAAAATTGAAGACATTCGGTTAGAACAAGAAAA
+TGAAGCTGAGAAATCCATCCGACTACATTTCCAAATGGAGCAGTTGGTCTACTGCCAGGACCAGGTGTACCGACGTGCTT
+TGCAACAGGTCAGAGAGAAGGAGGCAGAAGAAGAAAAGAAAAAAAAATCAAACCATTATTACCAATCTGAGGACTCAGAG
+CCCTCCACAGCTGAGATCTTTCAACACCTGATGGCGTACCACCAGGAAGTCAGCACCCGCATCTCCAGCCACATCCCCTT
+GATCATCCAGTTCTTCGTGCTCCGGACGTATGGGGAGCAGCTCAAGAAGAGCATGCTGCAGCTGCTGCAGGACAAGGACC
+AGTACGACTGGCTGCTGAAGGAGCGCACCGACACCAGAGACAAGAGGAAGTTCCTGAAGGAGCGGCTGGAGCGGCTGTCC
+CGCGCTCGGCAGCGGCTCGCCAAGTTCCCGGGCTGAACCCGCCCCCCCGTCCAGCCCCGGGTCTCCAGGGAGCAGACCAC
+CACCGACAGCTCCCCTGACGGCCTCATGCCCTTAGCTGCCCGCTTCACAGATGCTTCAGTGGTCAGCCTGCAGCCGGGGT
+CTCTGCTGTCTCTCTCAGTGGATAAGCACACTGGCTTTAAACAGCAGGTGATTTATTCGATCGTTCATCGCCATCGAGTC
+TTAGCCAACCGTCCATCCTGACTCTCTCCACCCTCTGTCAGTGATCCCCACACGCGCTGTAGAAGGGTCATTCCAATGAC
+TGTACAGCCTTTCACACCCCATGTGTTCGGAACATGAGTGCCACATTTGTGAATGCACACAGAAGCCTATTCCTTCAATT
+TGTAATACCGTTCTTTCTACC
+>ref|Z11599.1| O.aries gene for MHC class II (OLA-DRA), exon 1
+GTTTTTCATTCTTTTTGTTTGGTTGTGAGTTTGGTTAATTAAGAAGTTCCTTTTCATCAAATGCACAAAGCTTCTCCTTT
+CCTGGACCCTTTGCAAGAGTCTTTCCCTTAGCAACAGCAGTGTCATCTCAAAAGATTTTTCTGATTGGCTGCAGCTCAAC
+TGAGTTTAAATTTTTAATCAGTCAGACTCTATGACACCCTACATTCTCTTTTCTCATATTCCTGTCTGTTCTAATCCACC
+TTGAGCTCTCATCAAGACACGGACCCTCATCAAGACACCAAAGAAGAAAATGGCCATAACCAGGGTCCCAATATTAGGAC
+TTTTCATCACTGTCCTGATCAGCCTACAGGAATCGTGGGCTATTAAAGGTAAGTGCTGAGTTCAAAACTAGGAATAAATA
+AGTTCTGAGAGCTTTGGAGAAACGAACTGTGGACGTTTGCAAGACAGTCT
+>ref|X55131.1| Sheep gene for oxytocin and neurophysin
+TTAGAGACATTTGCAGTAGCTGTTGTAATGCAATAGGAGGATATCAGCCATTTCAGTTTGTGACGAAGTCACAGGTATTG
+CAAATTCCACTGTGGTTTGTTGCCTACCTTATAGTTGAAGGAAAGGCTGGATTTCACTTAGAAGAGAGAAAATAAAATCT
+TTTCATATCCAAGAGCCTCCTCCAGGTAAATGGATGTTGGTGTAGGGAGCCGGGCTGGGGTTCCAGGAAATCAGATTTCA
+GGAAGAGAACTTGCTTGCAGAGGGGAGCTAGGGGGTGTGTGTGGTTGGCCAAGAGGGCAGATGGGGGAGTCCTAAACCAA
+TCTCTTCTCGCCTGGAGGCCCGAGTGTTCATCCTGACCCCTCACCCCAAAGGAATGAGAGAGTCCTCGGTTGGGCCGCAG
+CCCCCATACTCCCTGTCCCACCGTAGACCCAGGCCACCGCACAGGCTCCCTGCCCAGAGCTGCTTGCTTCCCCTAGCGGC
+GCGCTCGCTATCATCTCCCGTAACATTAGCCATTAGCAGACATAACCTTGACCCGGCACAGCCCCTGCAAATGAGGGGGC
+GCGCCGGGGGCGCAGGGCCTGACCGGCGGGCGCGCTGTGACCAGTCATGCGGCTGCCCTCTTAAGACACCGTTCGCCCAC
+GCGGCGCCGGGCTTAAAAGGCCAGACCCGAGAGACGGCCGCAGTCCCCGGCCCGGAGCCCAGCGCGTCTGCACCATGGCA
+GGTTCCAGCCTCGCCTGCTGCCTGCTCGGCCTCCTGGCGTTGACCTCCGCCTGCTACATTCAGAACTGCCCCCTGGGCGG
+CAAGCGTGCGGTGCTGGACCTCGACGTGCGCACGGTGAGAGCCCCGCCCTCGACCCGTGGCTCTCCGGGCTGCCAGCCCC
+GCTGCCACAGGGTCGCCCCCGCCGCCCCCTTTCCCGCCCTGACCGCGTACCGGCCCCACCTAGCCTGGGAATCGAGGGAG
+CGGAGGAGCTTTTGACTGCCCTCCTTCGAGCCAATTCTGAGCCCAAAGAGAGGGGGAAGACCCGCCATCTCCCGCGCTCC
+TCAGGCCGCCCTCGCCGCCCGGCTCAGCCCCCCACCCCACAGGGTCTCCCTCCCCGGCGGTCCCCTCCCGGCCCCGGCTC
+ATCCCCGCCCTCCCGCCAGTGTCTCCCCTGCGGCCCCGGGGGCAAAGGCCGCTGCTTCGGGCCCAGCATCTGCTGCGGGG
+ACGAGCTGGGCTGCTTCGTGGGCACGGCCGAGGCGCTGCGCTGCCGAGAGGAGAACTACCTGCCGTCGCCCTGCCAGTCC
+GGCCAGAAGCCCTGCGGGAGCGGGGGCCGCTGCGCCGCCGCCGGGATCTGCTGCAGCCCGGGTGAGTCCGGCAGGGGCCA
+GACGGGCCGGGGCTCCGAACCAGGCGGGCCGGCCAGGGTGGCCCTGACTCGGCGTCTCTCTGTGCAGACGGCTGCCACGC
+GGATCCCGCCTGCGACCCCGAGGCCGCCTTCTCCCAGCACTGAGACCGGCCGGCCCCTGACACCATCGGAGCACAGCCCT
+CACTCCCTCTGTAATCATCCCCAGGAATTATGACAATGAAATAAAGCCTTTTTTTCCCCTCCAACAAGCCTCGTGTCTGA
+GTGTCAGAACGGGGAGGGAAGGGCTTTGGGGG
+>ref|NM_001123399.1| Ovis aries trophoblast protein-1 (TP-1), mRNA
Y00287.1 Ovine mRNA (oTP-1) for trophoblast protein
+CTGAGATGGGATCAGAGAACCTACCTGAAGGTTCCCCCTGACCCCATCTCAGCCAGCCCAGCAGCAGCCGCATCTTCCCC
+ATGGCCTTCGTGCTCTCTCTACTGATGGCCCTGGTGCTGGTCAGCTATGGCCCAGGAGGATCTCTGGGTTGTTACCTATC
+TCGGAAACTCATGCTGGATGCCAGGGAGAACCTCAAGCTCCTGGACCGAATGAACAGACTCTCCCCTCATTCCTGTCTGC
+AGGACAGAAAAGACTTTGGTCTTCCCCAGGAGATGGTGGAGGGCGACCAGCTCCAGAAGGACCAGGCCTTCCCTGTGCTC
+TACGAGATGCTCCAGCAGAGCTTCAACCTCTTCTACACAGAGCACTCCTCTGCTGCCTGGGACACCACCCTCCTGGAGCA
+GCTCTGCACTGGACTCCAACAGCAGCTGGACCACCTGGACACCTGCAGGGGTCAAGTGATGGGAGAGGAAGACTCTGAAC
+TGGGTAACATGGACCCCATTGTGACCGTGAAGAAGTACTTCCAGGGCATCTATGACTACCTGCAAGAGAAGGGATACAGC
+GACTGCGCCTGGGAAATCGTCAGAGTCGAGATGATGAGAGCCCTCACTGTATCAACCACCTTGCAAAAAAGGTTAACAAA
+GATGGGTGGAGATCTGAACTCACCTTGATGACTCTTGCCGACTAAGATGCCACATCAGCCTCCTACACCCGCCTGTGTTC
+ATTTCAGAAGACTCTGATTTCTGCTCCAGCCACCAAATTCATTGAATTACTTTAGCTGATACTTTGTCAGTAGTAAAAAG
+CAAGTAGATATAAAAGTATTCAGCTGTAGGGGCATGAGTCCTGAAATGATGCCTTCCCTGATGTTATCTGTTGCTGATTT
+ATTTATACCTTCTAGCATTTAACATACTTAAAATATTAGGAAATTTGTTAAGTTACATTTACATCTGTACATCATATTAA
+AATTTCTAAAAC
+>ref|NM_001009476.1| Ovis aries prostaglandin-endoperoxide synthase 1 (PTGS1), mRNA
Y00750.1 Sheep mRNA for prostaglandin endoperoxide synthase
+CCTGAGTCGGTCTCCAGCACGCAACGGCCACCCTGCACCATGAGCCGGCAGAGTATCTCGCTCCGATTCCCGCTGCTTCT
+CCTGCTGCTGTCGCCATCCCCCGTCTTCTCAGCGGACCCCGGGGCGCCCGCGCCAGTGAACCCCTGCTGTTACTATCCAT
+GCCAGCACCAGGGGATCTGTGTTCGCTTCGGCCTTGACCGCTACCAATGTGACTGCACCCGCACGGGCTATTCCGGCCCC
+AACTGCACCATCCCGGAGATATGGACCTGGCTCCGGACGACTTTGCGGCCCAGCCCCTCTTTCATCCACTTTCTGCTGAC
+GCACGGGCGCTGGCTTTGGGATTTTGTCAATGCCACCTTCATCCGGGACACGCTCATGCGTCTGGTACTCACAGTGCGTT
+CCAACCTTATCCCCAGCCCTCCCACCTACAACATAGCGCACGATTACATCAGCTGGGAGTCCTTCTCCAATGTGAGCTAT
+TATACTCGCATTCTGCCCTCCGTGCCCCGAGACTGTCCCACGCCCATGGACACCAAAGGGAAGAAGCAATTGCCAGATGC
+GGAGTTCCTGAGCCGTCGCTTCCTGCTCAGGAGGAAGTTCATCCCTGACCCTCAAAGCACCAACCTCATGTTTGCCTTCT
+TTGCCCAACACTTCACCCATCAGTTCTTCAAAACTTCCGGCAAGATGGGTCCTGGCTTCACCAAGGCGCTGGGCCACGGG
+GTAGACCTCGGCCACATTTATGGAGACAATCTGGAACGTCAGTATCAGCTGCGGCTCTTTAAGGATGGGAAGCTGAAGTA
+CCAGATGCTCAATGGAGAGGTGTACCCGCCATCGGTGGAAGAGGCGCCCGTGCTGATGCACTACCCCCGGGGCATCCCGC
+CCCAGAGCCAGATGGCTGTGGGCCAGGAGGTGTTTGGGCTGCTTCCTGGACTCATGCTCTACGCCACGATCTGGCTGCGT
+GAGCACAACCGCGTGTGTGACCTGCTGAAGGCTGAGCACCCCACCTGGGGCGACGAGCAGCTCTTCCAGACGGCCCGCCT
+CATCCTCATCGGGGAGACCATCAAGATTGTGATAGAGGAGTATGTGCAGCAGCTGAGCGGCTACTTCCTGCAGCTCAAGT
+TCGACCCAGAGCTGCTGTTCGGGGCCCAGTTCCAGTACCGCAACCGCATCGCCATGGAGTTCAACCAGCTGTACCACTGG
+CACCCGCTCATGCCCGACTCCTTCCGGGTGGGCCCCCAGGACTACAGCTACGAGCAGTTTCTGTTCAACACCTCCATGCT
+GGTGGACTACGGGGTCGAGGCCCTGGTGGACGCCTTTTCTCGCCAGCCTGCAGGCCGGATTGGTGGGGGTAGGAACATAG
+ACCACCACATCCTGCACGTGGCCGTGGATGTCATCAAGGAATCACGGGTGCTAAGGCTGCAGCCCTTCAATGAGTACCGC
+AAGAGGTTTGGCATGAAGCCCTACACCTCTTTCCAAGAGCTCACAGGTGAGAAGGAGATGGCAGCTGAATTGGAGGAGCT
+GTATGGAGACATTGATGCTTTGGAATTCTACCCGGGGCTACTTCTTGAGAAGTGCCATCCGAACTCCATCTTTGGGGAGA
+GTATGATAGAAATGGGGGCTCCTTTTTCCCTTAAGGGCCTCTTAGGAAACCCCATCTGTTCTCCAGAGTACTGGAAGGCG
+AGCACATTTGGCGGTGAGGTGGGCTTCAACCTTGTCAAGACGGCCACGCTAAAGAAGCTGGTTTGCCTCAACACCAAGAC
+TTGTCCCTATGTCTCCTTCCACGTACCAGACCCCCGTCAGGAGGACAGGCCTGGGGTGGAGCGGCCACCCACAGAGCTCT
+GAAGGGGCCGGGCAGCAGCATTCTGGATGGTAGAGCTTCCTGCTTGCCATTCCAGAATGCCACGGGGTGGATTGTCTTTG
+ATGTTGGGTTTCTGATTTGGTGTCGAGAGCATCAGTGTGGACGTTTAGAACTCTAGGTCTCTCACCCATGGTCTGGAATA
+CTGTGTTCCTTGTTTGTTGTTCTAGAATGCTGAATTCCTGGTAAACCATTGAGAATGTTAGGAGTGGTTATCCCTTCAGC
+ATGCCAGAACACTGGGTTCCTGGGTGACCACCTAGAATGTCAGATTTCTAGTTGATCCGGAATTTAGGCACTCTGAAATA
+TGGGACTCCTGATGGAATCATCTGGAAAGTGAGGGGGTTTTTATTTTGCATTCTAGAATTCTGGGTGGCCCTCCAGAATG
+TCGACTTTCTGACTGGTTATCCGGAATGTTGTGCTCCGAGTTGCTGATCCAGAACAGTGGCTGGCATTCTAGATCAGTCC
+TGATCCGAATGTCTAGAGTGTTGAGAATTCATTTTCCTGTTCAGTGAGACAGCCACGGAGCAGGAGGATCTCGTGTCCTA
+CAAGAACGCATTGCCTGGATCTGTGCCTGCATGGAGAGGGCAAAGAAGTGGGGTGTTCGTCTTCTCAGTGGGACCCCTGA
+TGAGACCCTAGATATGGAGAGAACAGGTGGCTTTCTCCAGGCCATTGGTTGGAAGCCACCAGAGCTCTGTCCTCATCCAG
+GTCTCAACTCACGGCAGCTGTTTTTCATGAAGTTAATAAAATGCTTTTTCC
+>ref|X00434.1| Sheep repetitive DNA
+AATTCCGCTGATTCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCCAGTGCTGACATGG
+ATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATTGCACTTGCGCTTTCCTCCA
+GAGCGGTAGCAGCAGTGTCCAGCAGTCCGACCGTGATCAAAGCATCTATGGTTTTCCTGTGTCTTTCCACGAGGCTTTCC
+ACGAGGCTTTCCACAGGCTGTCCACTGCACACTGTGGATCAATCCTCGGCTTAACGTCAAGGCATGCAGGAAAACAGGTT
+CCTCTGAATGGACTGACACATCTGGGGGACTCTTGGAATGGCTGGCACCGACCCTGGAGTTCCTCTCGCCTTTCCTTGTG
+GAGAGCGCCTCCTCTTGAGATGCGACGGAA
+>ref|NM_001009802.1| Ovis aries alpha 2-HS glycoprotein (AHSG), mRNA
X16578.1 Ovis aries mRNA for fetuin
+CCGGAAGCCTCCAGCTGCCTGCCTGCTGACACACCGGGGCCTCTCTGAAGCCACCATGAAATCCTTCCTTCTGCTCTTTT
+GCCTGGCTCAGCTCTGTAGCTGCCGCTCGATCCCGCTTGACCCGATTGCAGGTTATAAGGAACCGGCCTGTGATGACCCA
+GACACAGAGCAAGCAGCCTTGGCGGCCGTGGACTACATCAACAAGCACCTTCCTCGGGGCTACAAACACACCTTGAACCA
+GATTGACAGTGTGAAGGTGTGGCCGAGGCGGCCCACGGGAGAGGTATATGACATTGAGATAGATACCCTGGAAACCACCT
+GCCACGTACTGGACCCCACGCCCCTGGTGAACTGCAGCGTGAGGCAGCAGACGGAGCACGCGGTGGAAGGAGACTGCGAT
+ATCCACGTGCTGAAACAAGATGGCCAGTTTTCCGTGCTGTTTACAAAATGTGATTCCAGTCCAGATTCCGCCGAGGACGT
+GCGCAAGTTGTGCCCAGACTGCCCCCTGCTGGCCCCGCTCAACAACAGCCAGGTGGTGCACGCCGCAGAGGTCGCGCTGG
+CTACCTTCAATGCCCAGAATAACGGCTCCTACTTTCAGCTGGTGGAAATTTCTCGGGCTCAATTTGTGCCTCTTCCAGGT
+TCTGTCTCTGTGGAGTTTGCAGTGGCTGCTACTGACTGTATTGCTAAAGAGGTCGTAGATCCAACCAAGTGCAACCTACT
+GGCAGAAAAGCAATATGGCTTCTGTAAAGGCTCTGTCATTCAGAAAGCTCTTGGTGGGGAAGACGTCACAGTGACTTGCA
+CACTGTTCCAAACGCAGCCTGTGATTCCGCAGCCCCAGCCCGAAGGCGCCGAAGCTGGGGCCCCAAGCGCTGTGCCGGAC
+GCAGCTGTGCCTGACGCAGCTGTGCCTGCGCCTTCTGCAGCCGGCCTGCCTGTGGGCTCCGTGGTGGCGGGGCCAAGCGT
+GGTAGCAGTTCCCCTGCCGCTGCACCGGGCACACTACGACTTGCGCCACACCTTCTCCGGTGTGGCCTCAGTGGAGTCGG
+CCTCGGGAGAAGCATTCCACGTGGGGAAAACACCCATCGTGGGGCAGCCTAGCGTTCCTGGAGGTCCAGTCCACCTTTGC
+CCAGGGAGAATCAGATACTTCAAGATCTAGAAGATGGTCGGAGATGAGACAGTTTGGCACAGAGAATACAGCTATCATTT
+TGTCCAAGTATGGGTAGGGGTTTTGTCTGTTCTGGCAGCAAGTGCTGCCTGTGGTCTAGATTAATGTCAGGTCTTGAGTC
+CCAACTTCTCATCCTTCCAAGGACAGGAGCAGAGGAGGTGCTAGTGATGTTTGATGGAACATAAAGTCAGCAGCTTGATT
+CTCACTGCTTTGATGTAAGCCACCACCACTGTGTTCTCTACCTCCTCTTGACCTCACAAAAATAACTGGAACTGTGACTC
+TGAAAGGTGCTCTTGCCAAGTTTATATCTGCTTGTCATTAAAAATGCCCTAATAAAGAAGGTTCTAAGCTGAAATGTC
+>ref|Z18541.1| O.aries centromerically located satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACTTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTTGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGATCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGGCGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACCGGGAAAGGAT
+>ref|Z18540.1| O.aries centromerically located satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACTTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGCTCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGCCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGAAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGCGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGGGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCTGGGGGACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACAGGGAAAGGAT
+>ref|X03117.1| Sheep satellite II DNA repeat unit
+ACTCCCTGGGCGCCCAGAACCTGCCTCACACACGTAGCTTCCCTAGCGCTCTCCTCCCCAGCAGAGACGTGTGCAGCTGG
+TTGGGGCCTGCCTGCGTGCCTGGGCTCCCTCCCAGAGACCCAGCTCAGGGCAAGCAGCCCCTGAGCCAAGACCTGCAGGA
+GGCGCAGAGCCCACCCACCTGGAAGCCGAGTGAACGGCTGGCGGGGAGGCGAGCCTCCTCGAGGGAAGAAGAGGCAGCCC
+AGCCTCGTTTGGCTCAAGCCCTACTTGGCTGGAGCCGAGTGCGCCTCCAGGACGGAGAGCTCCAGCTCTGCTCAGAGGCC
+CGATCTGGCAGAGTTGCTGGAGCGAGGCTGCTCTGCCCTGGGCGAGCCTTGCCCAGACTTGCCTCACAGCTAGGCTTCCT
+TCCCAGGAAGGAGCAGGCTGAGCGAGGCTGGGGGACGCCACTGGCGCCTTCCTCGCCTCAGCTCCGCTCCTGCCTTGCCT
+TTGCACCTAGGCCCCAGGCGTCCTTGGGGAGGGCTTAGGGGACGTGTCTTGCACACTGCCAAGGGCTCCAGCAGGAAGAG
+CTCTGTGTGAGCGAAGGAAAGGGCTAGTGCAGGGCTCCTCCAGCCGTTGCTTGGCCGCCCAGACTCAGCGCCGCTCAGAG
+TGCACCAGGCTCCTAGGGTCCCTGGTTGGGGTCTGCAGCCCCACACTCCCGGAGGCTG
+>ref|Z17215.1| O.aries satellite DNA
+CCCTCATCTCGAGCTCGGAGGCGGAAACGGGGCTCCCCTGGATGTGTTCGGGACCCTCGTGCTTCCTCTCGAGTGGAGAC
+GGGTGTGTCGGGAACCTCTTGAGTTGCAGAAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGGGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGCGGAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTGGATTTTCTCGAGTTGCGGCAGGTGC
+TCTCGACTTACGACGGGCCCTCAGGGACCCGCTCTGGTGGCCTCAGGAAAGGCCAGTCCCCATGCGAGTTCCTCGGGGGC
+CTTTCGGAATTCCTCTCCCGCTGATGCCGGGGCCTAAGACCTTGTGTGAACTCAGGGTCGGAACCTGAGGATTCCTCTCC
+AGTGCTGACATGGATCTTGGGGTACTTCTGGAGTCTCCCCAGGGGAGTCAGTCCTCGTCTCGAATGCGGGCATGCACTTG
+CGCTTTCCTCCAGAGAGGTAGCAGCAGTGTCACGCAGTCCGCCCCGTGGATCAAAGCATCTATGGTTTTCCCTCGTGTCT
+TTCCCACGAGGCTTTCCCACGAGGCTTTCCCACAGGGCTGTCCCACGTGCACACGTGGTGGGAGTCGATCCTCGGCTTGA
+ACGTCAAGGCAGTGCAGGGAAAACCGGTTCCTGTGGAATGGACTGACACATCTGGGGTACTCTTGGAATGGTGGCACGAC
+CCTGGAGTTCCTCTCGCCTTTCCTGTGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTACG
+AAACAGGGAAAGGAT
+>ref|Z12966.1| O.aries rearranged T-cell receptor gamma
+AACCAACTGAGCTCATAGTAGCTTCCCCTGATAGAGACCTTGATAAAGACATGTCTCCCAAGCCCACTATGTTTCTTCCT
+TCGATTACGGAAATCAAGCGTGATAATAGTGGAACATATCTTTGTCTTCTGGAGGACTTTTTCCCTCATGTTATTAAGGT
+TTATTGGAGAGAAAAAAGAGGCAACAAAGTTTTGCCATCCCAGGAGGGAAAAACCATTAAGACTCTTGACACATACATGA
+AGTTCAGCTGGCTGACTGTGTCTGGAAACTCCATGGATAAAGAACACATGTGTATCGTCAAACATGAGAAAAATAAAAGA
+GGAACCAATCAAGAGATTCTTTTTCCGGCAGTGAATGAAGTTGTCTCTTCAGTTGTCACTACTACTAAACCTCCAAATGA
+TGGTTTGAAGGATAAAAGTGAAAAACAAGTCCCTGTTGCAAATTCTACAAAAGCATGTCTGAAAGATGAAAACAATACCC
+TGCAGCTGCAGCTCATGAGCACCTCTGCCTATTACACATACCTCCTCCTCCTCATTAAGAGCACAGCCTACTTTGCCATC
+ATCACCTCCTGTGTGTTCAGGAGAACAGGCGTCTGTGGCAATCAGAAGAGCTCGTGATAGAGGGGCCCCATAAGAGGATC
+AACGTTCCTTCATCATCTATGGTCTCTAAAAGCTCTGCTCAGAATCTAGC
+>ref|X06789.1| Rabbit 5S ribosomal RNA from 5S RNP
+GNCTACGGCCATACCACCCTGAACGCGCCCGATCTNGTCTGATCTCGGAAGCTAAGCAGGGTCGGGCCTGGTTAGTACTT
+GGATGGGAGACCGCCTGGGAANACCGGGTGCNGNAGGCCNNN
+>ref|V00872.1| Rabbit alpha-actin messenger fragment (aa 72 to 145)
+TCGAGCACGGCATTATCACCAACTGGGACGACATGGAGAAGATCTGGCACCACACCTTCTACAACGAGCTGCGCGTGGCC
+CCCGAGGAGCACCCCACTCTGCTCACCGAGGCCCCCCTCAACCCCAAGGCCAACCGCGAGAAGATGACCCAGATCATGTT
+CGAGACCTTCAACGTGCCGGCCATGTACGTGGCCATCCAGGCCGTGCTGTCCCTGTACGCCTCCGG
+>ref|V00873.1| Rabbit alpha-actin messenger fragment (aa 192 to 281)
+GATCCTCACTGAGCGTGGCTACTCTTTCGTGACCACAGCCGAGCGCGAGATCGTGCGCGACATCAAGGAGAAGCTGTGCT
+ACGTGGCCCTGGACTTCGAGAACGAGATGGCCACGGCCGCCTCCTCCTCCTCCCTGGAGAAGAGCTACGAGCTGCCCGAC
+GGCCAGGTGATCACCATCGGCAACGAGCGCTTCCGATGCCCCGAGACGCTCTTCCAGCCCTCCTTCATCGGTATGGAGTC
+GGCCGGCATCCATGAGACCACCTACAACAGC
+>ref|X62549.1| O.cuniculus DNA for angiotensin-converting enzyme, 3' region
+CCGCCAGCCCCACCACGGGCCCCAGTTCGGCTCCGAGGTGGAGCTAAGACACTCCTGAGACATCCAGGCCGGGCCAGCTG
+GTGGGGACAGGGTCATGGGCAGCGGGCCGCGGATGCTCCCCAGCCAGCCAGCCCTCCTCCTCCTCCACCTCCTCCTCCTC
+CCACCCCGCCCCCTCCCGCCCTTCTCTGTCCCACTCTGCAGACACCCAGCCGCCCTGTGATACAATTAAAGGCCCTGCCC
+GCCCACCTGAGTCTGTCTCCCTCACAGGGAAGCCAGGGCAGGGATGGGGGTGGGACCACCCTTCTGCCTCCGGGCAGTCC
+ACCAGCTCCCCTCACTCACTGGGCTGCGCCTCCATCCTCCCCCAGAAAGAGGCTTGGAGAATCCCCAAGCTCTGGCCCCA
+GCCCGACGCAGCCCAGGCCACTGACCATCGTCCTGCCATGGCGGGCAGCCTGCAGGGGCTCTGGGGAGCAGAGGGGAGCC
+GGCCTGCGGGCTGCCCACCTTACCTTACCTGCCCTGCCTGATGCTGGCCCCTGCCCTGGCTGTTTCCCATAAGTGCCCAG
+GGTCCCCAGAGTGAAGACTGCCAGCTGTTCTTGGCCTCCTGCACCAAGCATGCAGAACAGGCCCGGGGTCACCTGCAGCT
+GGTGTGAGCTCAGTGTCCACATGCGTGATGCAGTCCCTGGATCCAGACGGAGCCAGTCAAGACTGCAGCGGTCGTGGAGC
+AGCTGTCGGAGCCACCTGCCCTGCTCTGAAGGCCAATGTGGGCTTGGCGAGCGTCACCTTGAGGCACATCTTTTATGCCC
+ACATTTATGTAGAAACTTTAGAAAATACACAATTCTGTAAAGAAAATAAAAGCCCTTTATACCAATATCAAGAGATAAGC
+ACTGTTGACAGTTTGGTGTTTTATCTTTCCAGCCTTTTTTAATTCCCGTTTACGTTGAAAGGCAGAGTGACAGACTGGGA
+GGTCCTCCATTCAACTTG
+>ref|NM_001082393.1| Oryctolagus cuniculus calcium voltage-gated channel auxiliary subunit gamma 1 (CACNG1), mRNA
X56031.1 Rabbit mRNA for calcium channel gamma subunit
+CTCTGGCTCAGCCGGGCACACTAAACTTAGCTTCCACCCCCAGCTCCGGAGCCACGGCCACCACCCTAGCCGGGCCGCCA
+CCTGCACGGGCAGGCGCCGCCGCCAGACCCTACCTGCAGCACCCACCCCTCTGCAGCCGCCATGTCCCCGACGGAAGCCC
+CAAAGGTCCGCGTGACCCTCTTCTGCATCCTGGTGGGCATCGTGCTGGCCATGACGGCCGTGGTGAGCGACCACTGGGCC
+GTGCTGAGCCCCCACATGGAGAACCACAACACCACCTGCGAGGCCGCCCACTTCGGCCTGTGGCGGATTTGCACCAAGCG
+CATCGCCCTGGGCGAGGACAGGAGCTGCGGACCCATCACCCTGCCTGGGGAGAAGAACTGCTCCTACTTCCGGCATTTTA
+ACCCAGGCGAGAGCTCGGAGATCTTCGAATTCACCACGCAGAAGGAGTACAGCATCTCGGCGGCCGCCATCAGCGTCTTC
+AGCCTGGGCTTCCTCATCATGGGCACCATCTGCGCGCTCATGGCCTTCAGGAAGAAGCGGGATTACCTGCTGCGGCCGGC
+GTCCATGTTCTACGTCTTTGCAGGCCTCTGCCTCTTCGTGTCACTGGAGGTAATGCGGCAGTCGGTGAAACGCATGATCG
+ACAGCGAGGACACCGTCTGGATCGAGTACTATTACTCCTGGTCCTTTGCCTGCGCCTGCGCCGCCTTCGTCCTCCTCTTC
+CTCGGGGGTATCTCCCTGCTGCTCTTCTCCCTGCCTCGAATGCCCCAGAACCCCTGGGAGTCCTGCATGGACGCCGAACC
+CGAGCATTAGCCCTCCTGGGGCGCCCAGGGAGCCTCGGCCCAGAACCTTCCAGAAGGGAGGCAGGAATTGCAAACCTGCC
+CTGTTCCCATCTGCCTCACCCCGCGACTGCTTCCCTTCCGTGGCTCTGACGGAGCTCCTCTGCTCACAGGGCAAATGGAC
+GCGAGCCCAGCCCTGTCCTGGTTGGACGAGGTGGGCAGGTGGTTGGAGGGGCCCGGCCTTCCACTGAGGCTCAAAGCCGT
+CCCTGCTGTGCCGGTTCTCCTTGGGAAGCTGGGCCCTGGTAAACCTGGTAAACCTCCCAGGAGCACCCCGTGCGCGCATG
+CCGGTGCTGGGTGCCCCCTGTGTGAAAAGCCGGCCCCTCTGTCTTCCCAGCCACCAGAACCTTCGTTGCCTCCCGGAGCT
+CTGGGAATCAGCATTTTCCACCAGGGAGTATCTGACTGTGGTTTGAAATAAAAGCGCTCAGAACACTC
+>ref|NM_001101695.1| Oryctolagus cuniculus orosomucoid 1 (ORM1), mRNA
X58727.1 Rabbit mRNA for acute phase protein
+AGCTCTGCCTGGCTCCAGCGCCTCTGTGTCTCAGCATGGCCCTGCCCTGGGCCCTCGCCGTCCTGAGCCTCCTCCCTCTG
+CTGCATGCCCAGGACCCAGCGTGTGCCAACTTCTCGACCAGCCCTATCACCAATGCCACCCTGGACCAGCTCTCCCACAA
+GTGGTTTTTTACCGCCTCGGCCTTCCGGAACCCCAAGTACAAGCAGCTGGTGCAGCATACCCAGGCGGCCTTTTTCTACT
+TCACCGCCATCAAAGAGGAGGACACCTTGCTGCTCCGGGAGTACATAACCACGAACAACACGTGCTTCTATAACTCCAGC
+ATCGTGAGGGTCCAGAGAGAGAATGGGACCCTCTCCAAACACGACGGCATACGAAATAGCGTGGCCGACCTGCTGCTCCT
+CAGGGACCCCGGGAGCTTCCTCCTCGTCTTCTTCGCTGGGAAGGAGCAGGACAAGGGAATGTCCTTCTACACCGACAAGC
+CCAAGGCCAGCCCGGAACAACTGGAAGAGTTCTACGAAGCCCTCACGTGCCTGGGCATGAACAAGACGGAAGTCGTCTAC
+ACTGACTGGACAAAGGATCTGTGCGAGCCGCTGGAGAAGCAACACGAGGAGGAGAGGAAGAAGGAAAAGGCAGAGTCATA
+GGGCACAGCACCGGCTCCGGGACTCGGGGCCCACCCCCTGCACCTGCCTTTTTGTTTGTTTTGTAAATCTCTGTTCTTTC
+CCATGGTTGCATCAATAAAACTGCTGGACCAGTAAAAAAAAAAAA
+>ref|V00876.1| Rabbit aldolase A messenger fragment (aa 37 to 55)
+CCGGGAGCATCGCCAAGAGGCTGCAGTCCATCGGCACCGAGAACACGGAAGAGAACCGG
+>ref|X51508.1| Rabbit mRNA for aminopeptidase N (partial)
+CCCAGTTCCAAGGCGAGCTGGCCGACGACTTGGCGGGCTTCTACCGCAGCGAGTACATGGAAGGCAACGTCAGAAAGGTG
+GTGGCCACGACACAGATGCAGATGCAGGCTGCAGATGCCCGGAAATCTTTCCCGTGCTTTGATGAGCCGGCGAGTAAGGC
+CACGTTCAACATCACGCTCATCCACCCCAGGGACTACACGGCCCTGTCCAACATGCTTCCCAGAAGCAGCACTGCACTCC
+CAGAAGACCCCAACTGGACCGTCACAGAGTTCCACACCACCCCCAAGATGTCCACGTACCTGCTGGCCTACATCGTCAGT
+GAGTTCACGAACATAGAAGCTCAGTCACCCAATAACGTCCAGATCCGGATCTGGGCTCGGCCCAGTGCCATCAGTGAAGG
+CCACGGCCAGTACGCCCTGAATGTCACGGGCCCCATCCTAAACTTCTTTGCCAACCATTATAACACTCCCTACCCGCTCG
+AAAAATCTGACCAGATCGGCCTGCCCGACTTCAACGCCGGGGCCATGGAGAACTGGGGCCTGGTGACCTACCGGGAGAGC
+GCCCTGCTTTTCGACCCCCTGGTGTCCTCCATCAGTAACAAGGAGCGGGTGGTCACCGTGGTTGCCCACGAGCTGGCCCA
+CCAGTGGTTTGGGAACCTGGTGACCGTGGACTGGTGGAATGACCTGTGGCTGAACGAAGGCTTCGCCTCCTACGTGGAGT
+ACCTGGGTGCTGACTACGCAGAGCCCACCTGGAATCTGAAAGACCTCATAGTGCTGAACGAACTGCACTCGGTGATGGCC
+GTGGACGCCCTGGCCTCCTCCCACCCTCTGTCCTCCCCCGCCGACGAGGTCAACACGCCCGCCCAGATCAGCGAGCTCTT
+CGACTCCATCACCTACAGCAAGGGCGCCTCTGTCCTTAGGATGCTGTCCAGCTTCCTGACCGAGGACCTGTTCAAGGAGG
+GCCTGGCGTCCTACCTGCACACTTTTGCGTACCAGAACACCATCTACCTGGACCTGTGGGAGCACCTGCAGCAGGCTGTG
+AACAGCCAGTCGGCGATCCAGCTGCCCGCCTCTGTGCGCGACATCATGGACCGCTGGATCCTGCAGATGGGCTTCCCGGT
+CGTCACCGTGAACACAACCAACGGGATCATCTCCCAGCATCACTTCCTCTTGGACCCCACGTCCAATGTCACTCGCCCGT
+CAGACTTCAACTATCTGTGGATTGTTCCTGTCTCGTCCATGCGGAACGGCGTGCAGCAGCAGGAATTCTGGCTGGAAGGC
+GTCGAGCAAACCCAGAACTCCCTGTTTAGAGTGGAAGGCGACAACAACTGGATCCTTGCGAACCTCAACGTGACGGGGTA
+TTACCAGGTGAACTACGATGAAGGCAACTGGAAGAAGCTTCAGACGCAGCTGCAGACCAACCCCTCGGTCATCCCTGTCA
+TCAACCGGGCGCAGATAATCCACGACGCCTTCAACCTGGCCAGTGCCCAAAAAGTCCCCGTCACACTGGCGCTAGATAAC
+ACCCTCTTCCTGATCCGAGAGACCGAGTACATGCCCTGGCAGGCGGCCCTGAGCAGCCTGAACTACTTCAAGCTCATGTT
+CGACCGCTCCGAGGTCTACGGCCCCATGAAGAACTACCTGAGCAAGCAGGTCCGCCCGCTCTTCGAGCACTTCAAAAATA
+TTACCAACGACTGGACGCGGCGCCCGGACACCCTGATGGACCAGTACAATGAGATTAACGCCATCAGCACCGCCTGCTCC
+AATGGGATTCAGGAGTGTGAGACCCTGGTCTCCGACCTCTTCAAGCAATGGATGGACGACCCCAGTAATAACCCGATCCA
+CCCCAACCTGCGCACCACCGTCTACTGCAACGCCATCGCCCTGGGCGGCGAGAGGGAGTGGGACTTCGCCTGGGAGCAGT
+TCCGCAACGCCACCCTGGTGAACGAGGCCGACAAGCTGCGGTCGGCCCTGGCCTGCAGCAACGAGGTGTGGATCCTGAAC
+AGGTACCTGAGCTACACCCTGAACCCCGACTACATCCGGAGGCAGGACGCCACCTCCACCATCAACAGCATCGCCAGCAA
+CGTGATCGGGCAGACCCTGGTCTGGGACTTTGTCCAGAGCAACTGGAAGAAGCTCTTTGAGGATTTTGGTGGCGGCTCCT
+TCTCCTTTGCCAATCTCATCCGGGCAGTGACCCGCCGGTTCTCCACTGAGTACGAGCTGCAGCAGCTGGAGCAATTCAGA
+CTGAACAACCTGGACACAGGCTTCGGCTCGGGCACCCGGGCCCTGGAGCAGGCCCTGGAGCAGACGAGAGCCAACATCAA
+GTGGGTGCAGGAGAACAAGGAGGCGGTGCTCGCGTGGTTCACGGCAAACAGCGCCTAGTCCCAGGTCCTTCTTGTCGCCT
+GGCCCCCACGCCCAGGACCCGCCCACGTGTGCCAAGGCAGCGGCTCTGTTCCCAGGGCCTGAGGCACTGTGTCCTCCCTT
+CCAGGACCAAGTCTCCAGCCCAAGCCTTCCTGCTCTGCCCGTGCGGCCGGCCAGGCTCCCGAGCGCCTCCCAAGCCCCTG
+CCCCTAGTGTCAATCTCACCTGGGGCCCAGCACAGACGCCAGGCCCCGGGTAACTGATCTCAGGGAAGCCCAGTCCAGGG
+CAGGTGGGCAGAAGCCCTCACTGGAAAAAGGACGGCCTTGAGGGGGCCGCCTGCACCCTCCCCCACCTTCCCATAAAGAC
+CCCCAACCTGAGGAATCAACAGGACATCAAATCTGTATTTTTTTTTTTTATAAGAACAAATGTAAATAAAGTATTTCTAA
+ATGAAAAAAAAAAAAAAAA
+>ref|X16427.1| Rabbit mRNA for serum amyloid A protein
+CTTCCACGCTCGGGGCAACTATGACGCTGCCCAAAGGGGCCCTGGGGGTGTCTGGGCTGCCAAGGTCATCAGTGACGTCA
+GAGAGGACCTTCAGAGACTCATGGGCCACGGAGCAGAGGACTCGATGGACGACCAGGCTGCCAACGAATGGGGCCGCAGT
+GGCAAAGACCCCAACCACTTTCGACCCAAGGGCCTACCCGACAAATACTGAGCTCCCTACTCTGCTGCCCCTGAGGACTG
+ACCCAGAGTACTGAGTTCCGTGTGCGTGAGCTGGTGGCGGGCATACAACTGGTGTCTAATAAATGCGTATAAGACTGAAA
+AAAAAAAAA
+>ref|NM_001082392.1| Oryctolagus cuniculus serum amyloid protein A (LOC100009259), mRNA
X16428.1 Rabbit mRNA for serum amyloid A protein
+CGCACCCCCCAAGTGGCCGCTACGCGGGCGCACAGCGTGCTCCACCAAAACCCAGCACCATGAAGCTCCTCTCAGGCCTG
+CTTCTCTGCTCCTTGGTCCTGGGAGTCAGCGGCCAAGGCTGGTTCTCCTTCATCGGTGAGGCTGTGAGAGGGGCAGGGGA
+CATGTGGAGAGCCTACTCCGACATGAGAGAAGCCAATTACATAAATGCAGACAAGTACTTCCACGCTCGGGGCAACTATG
+ACGCTGCCCAAAGGGGCCCTGGGGGTGTCTGGGCTGCCAAGGTCATCAGTGACGTCAGAGAGGACCTTCAGAGACTCATG
+GGCCACGGAGCAGAGGACTCGATGGCCGACCAGGCTGCCAACGAATGGGGCCGCAGTGGCAAAGACCCCAACCACTTCCG
+ACCCAAGGGCCTGCCCGACAAATACTGAGCTCCCTGCTCTGCTGCCCCTGAGGACTGGGACCCAGAGTGCTGAGTCCCGT
+GTGCGTGAAGCTGGTGGCGGGCACACAACTGGTGTCTAATAAATGCGTATAAGACTGAAAAAAAAAAA
+>ref|X52090.1| O.cuniculus BChE gene for butyrylcholinesterase, exon 1 (EC 3.1.1.8) (and joined CDS)
+ATCCAGTGTGCTGCGAAAAAGGTACACGGCTTTAAAAGATTCTCGCCATCAAAATAGTGACCTCTGATGCCGGTTCCCCT
+GAACTCGTTCAAATTCCCGGCCTATTATATATGCTAGGGACAAATTTCTTCTGTAGAGTACTAAATCTCCTTTACAGCTT
+AATGATAGTCACTAGTCTTCAAATCAAATAAATTCTATTTCCTAATGTACTCACTTATCTTCCAAACTGAAAACTATTTG
+AATAGTTTCGTATTTTATAGGACTCATAAAAGCTACTGTATTTCAGGGGATTCGCATCAACACAGTGTAATGCTATATGC
+ATAATACTGATAGAACTTCCTACTGCTCTTCTTTTCAGGAAGCCAATATGCAGGACAAGGGCACACTCATATCTACCCGG
+TTTCCTTTCCTGGTTCCTTTTACTCTGCATGGTTACTAGGAGTTCACACACCGAAGATGTGATAATTACAACCAAGAATG
+GAAGAATCAGAGGGATAAACTTGCCGGTTTTCGGAGGCACTGTAACAGCCTTTCTTGGCATTCCCTATGCACAGCCACCT
+CTAGGTAGACTTCGATTCAAAAAGCCACAATCTCTAACCAAATGGTCTGACATTTGGAATGCCACAAAATATGCAAATTC
+TTGCTGTCAGAACATAGATCAAAGTTTCCCAGGCTTCCATGGATCAGAAATGTGGAACCCAAACACTGACCTCAGTGAAG
+ATTGTTTATATCTGAATGTGTGGATTCCAACACCTAAACCAAAAAATGCCACTGTGATGATATGGATCTATGGTGGTGGT
+TTTCAGACTGGGACCTCTTCTTTGCAAGTTTATGATGGCAAGTTCTTGACTCGGGTTGAAAGAGTGATTGTGGTTTCAAT
+GAACTATAGGGTGGGTGCTTTAGGATTCCTAGCTTTGCCGGGAAATCCCGAAGCCCCAGGGAATATGGGCTTATTTGATC
+AACAGTTGGCCCTTCAGTGGGTTCAAAAAAACATAGCAGCCTTTGGTGGAAATCCTAAAAGTGTAACTCTCTTTGGGGAA
+AGTGCAGGAGCAGCTTCTGTGAGCCTCCATTTGCTCTCTCCTAGAAGTCACCCGTTGTTCACCAGAGCCATTCTGCAAAG
+TGGATCATCTAATGCCCCTTGGGAGGTCATGTCTCTTCATGAAGCTAGGAACAGAACGTTGACATTAGCTAAGTTTGTTG
+GATGCTCTACAGAGAATGAGACTGAAATCATAAAATGCCTTCGAAACAAAGATGCCCAGGAGATTCTTCTGAATGAAGTA
+TTTGTTGTTCCCTTTGATAGTCTCCTCTCAGTGAACTTTGGTCCAACAGTGGATGGTGACTTTCTCACTGACATGCCAGA
+CACACTCCTTCAGCTTGGACAACTAAAAAAAACCCAGATCTTGGTGGGTGTGAATAAAGATGAAGGGACAGCCTTTCTTG
+TCTATGGTGCTCCTGGTTTCAGTAAAGATAACACTAGTATCATAACTAGAAAAGAATTTCAGGAAGGTTTAAAAATATTT
+TTTCCTGGAGTGAGTGAGTTTGGAAAGGAATCCATCCTTTTTCATTACACAGACTGGGTAGATGAGCAGAGGCCTGAGAA
+TTACCGCGAGGCCTTGGATGATGTGGTTGGGGATTATAATTTCATATGCCCTGCCTTGGAGTTCACCAAGAAGTTCTCAG
+AATGGGGAAATAATGCCTTTTTCTACTATTTTGAACACCGATCCTCCAAACTTCCGTGGCCAGAATGGATGGGAGTGATG
+CATGGCTATGAAATTGAATTTGTCTTTGGCTTACCACTGGAAAGAAGAGTTAATTATACAAAAGCTGAAGAAATTTTGAG
+TAGATCCATTATGAAACGTTGGGCAAATTTTGCAAAGTATGGGCAAATTTTGCAAAGTATGGGTGAAGTGTGATTTTCCC
+TT
+>ref|X52091.1| O.cuniculus BChE gene for butyrylcholinesterase, exon 2 (EC 3.1.1.8)
+TCTACTTCAAATCCACCTCCCCACTAAGTACTTGAGAAGGTATCCCAAGGTGGCACAGACCGTGGGCCCCTGACAAGCAT
+GAGGGAGTACCAAGCAAGGAAGTTCCTAGCTCCTGGCATCAGCTTGATGCAGCTACCAACCATTGTAGTCATCAGGAGAG
+TAAACCTGCAGATGGAAGAGTTCTTTCTATCATTCGTCTTTCCTTCATCACTTCCTCGCCTTTTTAATAAAGAAGTAACG
+CCTTTTAAAAAAAGAAAAATGAAGTGATGAATAAACTTCGTCCTTTAGATTTTAACCTCCATGGGTTTTTAACTGATACA
+TGCTTGAATATCTTAAAACTCTAAAACTGGTTACACCTATGTTTAATCTCATGAAAATATGGGCTACATTTTTCAGGTCT
+GATGAAATATTCTTGCGAAAAGTCAAAAAATTATTTTCTAACAAATATTTCAACTGAAGTGTAATATCTCTATTTAATTA
+TGTAGTAATCCAAATGGGACCCAGAACAATAGCACAAGATGGCCAGTCTTCAAAAGCACTGAACAAAAATATCTGACCTT
+GAATACAGAGTCACCAAGGATATACACTAAACTACGTGCTCAACAATGCCGATTCTGGACACTATTTTTCCCCAAAGTCT
+TGGAAATGACAGGTGTGTGTTTTTTTTATTGCTTGCTTAATTAATATGGTATGGATTATGTAGAAGGAGAAACCTGGCAG
+ACTATCCGAGGCACAGAGATACTGTTAATAAACATATATGTTTGACAATCTGGTTACTTGATCTCAATGAATACATGTTA
+TTAAGGAACTTTTATCAGATCAGTATTTTGAGTGTTTACTATATGAGCATGTGAAGCACTTTAGTAATTAATATAGAGAG
+AACAAAAATGCAACAATGTGTATGTGGTTTGGTTATTGTTTGTAGCCCTTGTCTACTCCTGAGGAACAGCAGCCTTTCTA
+TTTATTACTTACTGA
+>ref|X52092.1| O.cuniculus BChE gene for butyrylcholinesterase, exon 3 (EC 3.1.1.8)
+TAGAAAAAAGCTAAAAAATAATTAAAGAAGATAAAAAATAATGAATAATAAAAAATTTGCTATGTAGTATATTAGGAGAA
+AATGGCATCTGTAATCAAAATTATTTTTCAAGTAATATAAACAGAGATTAAAATTTAGATTAATGTATTTTATATTCCAT
+GTTTTACAGGAAATATTGATGAAGCAGAACAAGAGTGGAAAGCAGGATTCCATCGTTGGAACAATTACATGATGGCCTGG
+AAAAATCACTTTAATGACTACACTAGCAAAAAAGAACGCTGCGCAGGCTTCTAATTAGTGGAATAGCCCTTTATGAAAGT
+TCGTAGAGGTAGATCAAAGCAAACCCTCTTCCACAATACTAACGAAAGCTTTTATACAGCTAAACAAACAAAAATTCCGG
+AATTATATTGATTGCTCACATCTTTCACTTTGTATTTTACCTAGCATTTAAA
+>ref|V00880.1| Rabbit pseudogene for beta-2-globin (sequence homologous to exons 1 and 2)
+TCAGACTCATAAGCCAGTGCCAGAGCTGACCATGACCAGTGTTCTGTCACTCTTCTGGCCTCACCCTGGCATTGGTGACT
+CACCAGGGTAGGCAGTGCAGGGGCCACTACTGGGCATAAAAGGCAGAGTGGGACAGCTGCTGCTTATGCTTGTATTTGAC
+ACAACTGTGTTTACTAGCAATATTCCAAATAGAATGGTGCATCTCTCTGGTGAAGAGAAGGATACATTCACTGCCCTGTG
+GGGCAAGGTTGATGTGAAGAAGTTGGTGATGAGGCCCTGAGAGGGTTGCTTTTCAAGTTATAGGGCAGTCTATTGAGGCA
+GATGGAAGCTGGGCTTGTGTAGACAGAGCTGGCCCCAGGGTTTCTGCCAGGCACTGAATCCCCCAGTGCTGATTGTCTAC
+CCAAGAACCCAGAGGTTCTTTATACCGTTTGGGGACCTGTCCTCTGAACCTGCTGTTATGAGTAATGTCAAGGTGACGGC
+CCATTGCAAGAAGGTGCTGGCTACCTTCAGTGAGGGTCTGAATCACCTGGACAACCTCGGGGAAAATTTTGTCCAGCTGA
+GTGAGCTGCACTGTCACAAGCTCCATGTGGATCCTGAGAACTTCAGTGTTAGTCTAGGCAATGTTCCACTTTTTTCTTTT
+CACATTCTCATCTTCTTTTTTTGTTGTTTGTTTGTTAAGCAACCTGTCTTTGTCAACATTTCTATCTAATTCCCTATATT
+TCGTCATTTATTGCTTTTCAAAAATTTTCATTTTTCTTTAGTATTTCGTTTTTTCATTCCTCAC
+>ref|V00881.1| Part of a rabbit pseudogene for beta-2-globin
+GGACATAGCAAAGGCACATTGTAGGTGGGGTTGCAGATGTTGCTAAGAAGCAACCACTATTACATCAATTAAGGGATTAA
+TTAGTAATATTATTATATATGCATATACATGTACATACCTATGTGATTATACACTTATATATATATTGGTTGTTTTAAAT
+TGAGACTCTATTTAGATTAAGATGTAGGAAGAAAATAATTAGTGTTGGCCCAATTTCAGAATACAAGCTTGATTTCTGTG
+CTAACCATACGTAAAATATCTCCATAGCTCTTTCTCACACTCCAGGGCAATGGGCTGGTGATTGTGCTGGCCTTCTACTT
+CGGCAAAGAATTTACCCCATAGCTGAAGGTGCCTATCACAGAGTGGCAGCTGGTGTGGCCAATGCCTGGGCTCACAAGTA
+CCCCTAAGATCTTGACTTGTTCTCTACTTACCCTGTTCCATGGAAAATCTTTTCTATATTTCATCTATTGAACATGAAGA
+CATAATACCCAACCTAAGGGTGTGAGCCTAATAAAAGATCA
+>ref|X53521.1| Oryctolagus cuniculus mRNA for brain tissue factor
+GCAGACACTACAGGTAGAGCATATAATCTAACTTGGAAGTCAACGAATTTCAAGACAATTCTGGAGTGGGAACCCAAATC
+CATCGATCATGTCTACACAGTTCAGATAAGCACTAGGCTAGAAAACTGGAAGAGCAAATGTTTCTTAACCGCGGAGACGG
+AGTGCGACCTCACCGATGAGGTCGTGAAGGACGTGGGGCAGACGTACATGGCGCGGGTCCTCTCCTACCCGGCAAGGAAC
+GGAAACACCACGGGGTTCCCCGAGGAGCCTCCCTTTAGAAACTCCCCGGAGTTCACGCCGTACCTGGACACAAACCTCGG
+ACAGCCAACAATTCAGAGCTTTGAACAAGTTGGGACAAAACTGAATGTGACAGTCCAGGATGCACGCACGCTGGTCAGAA
+GGAATGGGACATTCCTAAGTCTCCGGGCTGTGTTTGGCAAGGACTTGAATTACACGCTTTATTACTGGAGAGCTTCGAGC
+ACAGGAAAGAAAACAGCCACGACAAACACTAATGAGTTTTTGATCGACGTGGATAAAGGAGAAAACTACTGTTTCAGTGT
+CCAAGCAGTGATTCCCTCTCGGAAAAGGAAGCAGAGGAGCCCCGAGAGCCTCACTGAGTGCACCAGCCGCGAGCAGGGCA
+GGGCCAGGGAGATGTTCTTCATCATTGGAGCAGTGGTGGTCGTGGCCCTCTTGATCATCGTCCTGTCTGTGACCGTGTAC
+AAGTGCAGAAAGGCGAGGGCGGGGCCCAGCGGGAAGGAGAGCTCCCCCCTGAACATCGCCTGAAGGGAGCGCCGCGGGGG
+GTGCCGGCTGCTGCCAATGCTGTGTTGCACTGTGACCAGGAGAACAGGAGATAGGGGGATGCAAATGAGAATTTGGAGCA
+TAAAGACCCATGGATTCAAAAAAGCTCTTCCCGTGACCTGCTATTGTAAGCAGCACGGTGGCTCAGACATCGGCACGGTC
+ACTCGGGAGTGGAATGAGCAGTACAGCCAATCCCAGCTTGTTTCCGCGACTGTAACACTATGGTGCCTTTTGCACGTCTC
+CTGCCTGCTGTGGTGCGGGCTGCACCAGGTGTGGTGCACCTGCTGTGGTGCGAAGCCAGGGCAGCCGAGAACAAGCCAAG
+GAACAGGGCCTTAAAGTAGCCTGGGTGGGCTTTGGGAGAACTCTTGAAAAGCTGACTTCAGGTAATGTGGGAACGAGAAA
+TGGCAATCGGGGCCTATTTTCTGGGGTTTTTCTGAACTCTGCCGTCTCGTGTGTTGGTGTTGGTGTTTTTTCTTTTCTTG
+GTGGAGTATTTCGAGAATTC
+>ref|X64297.1| O.cuniculus mRNA for cardiac calcium channel beta-subunit CaB2a
+AGCCTGGAGCTTGCGCTGAGTTCTTGCTCTCGGGAAGGACGAGTGTACGCGCGAGTCCTGGGCTCCCTAGGAACTGGTCT
+GGCATGCTTGACAGGCACCTCGCGGCTCCGCACACCCAAGGCCTTGTTCTCGAGGGTTCGGCAGACTCCTACACCAGCCG
+TCCATCCGATTCAGATGTGTCTCTGGAGGAGGACCGGGAGGCAGTGCGCAGAGAAGCTGAGCGACAGGCCCAGGCCCAGT
+TGGAAAAAGCAAAGACAAAGCCTGTTGCATTTGCTGTTCGGACAAATGTCAGCTACAGTGCTGCCCACGAAGATGATGTC
+CCAGTGCCAGGCATGGCCATCTCATTTGAAGCAAAAGATTTTCTGCATGTTAAGGAAAAATTTAACAATGACTGGTGGAT
+AGGGCGTTTGGTTAAAGAAGGCTGTGAAATCGGATTCATTCCAAGCCCGGTCAAACTAGAAAACATGAGGCTACAGCATG
+AACAGAGAGCAAAGCAAGGGAAATTCTACTCCAGTAAATCAGGAGGAAATTCATCATCCAGTTTGGGTGACATTGTACCT
+AGTTCCAGAAAATCTACACCTCCATCATCTGCTATAGACATAGATGCTACTGGCTTAGATGCAGAAGAAAATGATATTCC
+AGCAAACCACCGCTCCCCTAAACCCAGTGCAAACAGTGTAACGTCACCCCACTCCAAAGAGAAAAGAATGCCCTTCTTTA
+AGAAGACAGAGCACACTCCTCCGTATGATGTGGTGCCCTCCATGCGACCCGTGGTCCTCGTGGGCCCTTCCCTGAAGGGG
+TATGAGGTCACAGATATGATGCAGAAAGCGCTGTTTGATTTTTTAAAACACAGATTTGAAGGGCGGATATCCATCACAAG
+GGTCACTGCTGATATCTCGCTTGCCAAACGCTCAGTGTTAAACAACCCCAGTAAGCATGCAATAATAGAAAGATCCAACA
+CTAGGTCAAGCTTAGCGGAAGTTCAGAGTGAAATTGAAAGGATCTTTGAACTTGCAAGGACACTGCAGTTGGTAGTCCTT
+GATGCGGATACTATTAACCATCCAGCTCAACTTAGTAAAACCTCTTTGGCCCCTATTGTAGTGTATGTGAAGATTTCTTC
+TCCTAAGGTTTTACAAAGGCTAATAAAATCTCGAGGGAAATCTCAAGCTAAACACCTTAATGTCCAGATGGTAGCAGCTG
+ATAAACTGGCTCAGTGTCCTCCAGAATTGTTTGATGTGATCTTAGATGAGAACCAGCTTGAGGATGCTTGTGAGCATCTT
+GCCGACTATCTGGAGGCCTACTGGAAGGCCACCCATCCTCCCAGCAGCAATCTCCCCAACCCTCTCCTTAGCCGTACTTT
+AGCTACTTCAGCTCTGCCTGTCAGCCCCACCCTCGCCTCTAATTCACAGGGTTCTCAAGGAGATCAGAGGACTGATCGCT
+CTGCCCCTGCCCGTTCTGCTTCCCAGGCTGAAGAAGAACCTTGCTTGGAACCAGCAAAGAAATCCCAGCACCGGTCTTCC
+TCCTCAGCCCCACACCACAACCATCGCAGTGGTACAAGCAGAGGCCTCTCTAGGCAAGAGACATTTGACTCAGAAACCCA
+GGAGAGTCGAGACTCTGCCTATGTGGAGCCGAAGGAAGATTATTCCCATGAACATGTGGACCACTATGCTCCACACCGTG
+ACCATAATCACCGAGATGAGACCCACAGGAGCAGTGACCACAGACACAGGGAAACCCGGCACCGTTCCCGGGACATGGAT
+CGAGAGCAGGACCACAATGAGTGCAACAAACAACGAAGTCGTCATAAATCCAAGGATCGCTACTGTGACAAGGATGGAGA
+AGTAATATCCAAAAAACGGAATGAGGCTGGGGAGTGGAATAGGGATGTTTACATCCGCCAATGACTTGTGCCCTTTTGTG
+TTTTTTTTTTTTTAAGTCTTGTATAAGCGCACCCTCAGATGAAATCTTTGGGGTCTACATTGAAATCATATGTGATCTGT
+CTTGTGTATTTTGTATTGCTGTTGCTCAAGTAGCAATAGCATGAAATAGAGTATTAATATACTTTTTTTTTCTTTTTTAA
+GTGCTATATAAATTGGCCTGGTACAGCTGAATTCACAAACTGTGTTGGGTAGCTGCCACTTGAACAAAATCTGTTGCCAC
+ACAGGTGATTAGCGTTTCAAGAAACATAGTTGATCCATCCAGCAAGCCAGAATCAGCACAGATAAGTGGAATTTCTTGTT
+TCCCAGATTTTTAATACACAGATACCTTATTTGCATATTCATTTATTCATGGACCACTGTTTCTTGCTTGTACCTCTGGC
+TGACTAAATTTGGGAACAGATTCAGTCTTGCCTTACACAAAGGGGATCATAAAGTTAGAATCTATTTTCTATGTATTAGT
+ACTGTGTACTGTATAGACAGTTTGTAAATGTTATTTCTGCAGACACCTTATTATAATTATATATAATATATATATATACA
+ATCAGTTTGATCACACTATTTTAGAGTCTTAATGCCAAGTCAGCAGATTTGCTTTATGAATTACAGGGACTAGAAATACC
+CACATTCAGGAAATTTGTAATAACATTGTCTAGACACCTATCCCCACTCTAATAGAAAGTCTGTATATACTGTAAATATG
+TGTGATTGCTTGACTTGAAAAGATTTGATTTCTAAATGTTATACCATCCTGTAAGTTTATAATTTTGACCATAAATTATG
+GCAAATATACCAAACTCAAAGGTTGTTCTACTCCATACAGTTCACACTAATTGTGACAAACACATTCTTAGTAGCTAGTG
+TCTGTTATAGTCACTGCACTGGAATATGAGCCGGAACCCGCTGTATGCACGTGCGTGTGTGTCTGTATGTAAGAGTGTGC
+ACGAGTGACCGGTTGAAATAAACTCAAATGCTGAAGACTAGTGAAGAAATTAGAGACTGGTCTCTAGAATTCCAGCCACC
+TGGCTTTGTATTTAATTGTGCTATGTGTTGCTTTAACAATCAATCCATCAAGCAGTCAGGGAACGTGAGAAAGCTTGCTG
+CCAAAGTAAATAGGAAAATAA
+>ref|NM_001082396.1| Oryctolagus cuniculus calcium voltage-gated channel auxiliary subunit beta 2 (CACNB2), mRNA
X64298.1 O.cuniculus mRNA for cardiac calcium channel beta-subunit CaB2b
+GCGGCCTCGCAGCTCGCTCGTGCCTGCGTCTCCTCCTCCGCCGCCTCCTCCTCCTCTTCTGCTCGCCGTTCGCCACCCAC
+TTCTCTCCCGGCGCCGGGGACCCTGCCCCTTGGCGCTTCCCCCTGACTCTTCTCCGGCTTCCATTTTTCTCTGCTTCCGA
+AAAGCAAGTGGGAAGGGGCGGGGGCGACCTGCCGGGCTCGCAGCTTCTCCCGGGCGGCTCTGCTCAGCTCTCGTCGCTCC
+TGCCCGGGAGAGGCACATGGAGAGACATGAACCAGGCGAGTGGACTGGACCTGCTCAAGATCTCCTATGGAAAAGGAGCC
+AGAAGGAAAAACCGATTTAAAGGATCCGATGGGAGCACCTCCTCTGATACTACCTCAAACAGTTTTGTTCGTCAGGGTTC
+GGCAGACTCCTACACCAGCCGTCCATCCGATTCAGATGTGTCTCTGGAGGAGGACCGGGAGGCAGTGCGCAGAGAAGCTG
+AGCGACAGGCCCAGGCCCAGTTGGAAAAAGCAAAGACAAAGCCTGTTGCATTTGCTGTTCGGACAAATGTCAGCTACAGT
+GCTGCCCACGAAGATGATGTCCCAGTGCCAGGCATGGCCATCTCATTTGAAGCAAAAGATTTTCTGCATGTTAAGGAAAA
+ATTTAACAATGACTGGTGGATAGGGCGTTTGGTTAAAGAAGGCTGTGAAATCGGATTCATTCCAAGCCCGGTCAAACTAG
+AAAACATGAGGCTACAGCATGAACAGAGAGCAAAGCAAGGGAAATTCTACTCCAGTAAATCAGGAGGAAATTCATCATCC
+AGTTTGGGTGACATTGTACCTAGTTCCAGAAAATCTACACCTCCATCATCTGCTATAGACATAGATGCTACTGGCTTAGA
+TGCAGAAGAAAATGATATTCCAGCAAACCACCGCTCCCCTAAACCCAGTGCAAACAGTGTAACGTCACCCCACTCCAAAG
+AGAAAAGAATGCCCTTCTTTAAGAAGACAGAGCACACTCCTCCGTATGATGTGGTGCCCTCCATGCGACCCGTGGTCCTC
+GTGGGCCCTTCCCTGAAGGGGTATGAGGTCACAGATATGATGCAGAAAGCGCTGTTTGATTTTTTAAAACACAGATTTGA
+AGGGCGGATATCCATCACAAGGGTCACTGCTGATATCTCGCTTGCCAAACGCTCAGTGTTAAACAACCCCAGTAAGCATG
+CAATAATAGAAAGATCCAACACTAGGTCAAGCTTAGCGGAAGTTCAGAGTGAAATTGAAAGGATCTTTGAACTTGCAAGG
+ACACTGCAGTTGGTAGTCCTTGATGCGGATACTATTAACCATCCAGCTCAACTTAGTAAAACCTCTTTGGCCCCTATTGT
+AGTGTATGTGAAGATTTCTTCTCCTAAGGTTTTACAAAGGCTAATAAAATCTCGAGGGAAATCTCAAGCTAAACACCTTA
+ATGTCCAGATGGTAGCAGCTGATAAACTGGCTCAGTGTCCTCCAGAATTGTTTGATGTGATCTTAGATGAGAACCAGCTT
+GAGGATGCTTGTGAGCATCTTGCCGACTATCTGGAGGCCTACTGGAAGGCCACCCATCCTCCCAGCAGCAATCTCCCCAA
+CCCTCTCCTTAGCCGTACTTTAGCTACTTCAGCTCTGCCTGTCAGCCCCACCCTCGCCTCTAATTCACAGGGTTCTCAAG
+GAGATCAGAGGACTGATCGCTCTGCCCCTGCCCGTTCTGCTTCCCAGGCTGAAGAAGAACCTTGCTTGGAACCAGCAAAG
+AAATCCCAGCACCGGTCTTCCTCCTCAGCCCCACACCACAACCATCGCAGTGGTACAAGCAGAGGCCTCTCTAGGCAAGA
+GACATTTGACTCAGAAACCCAGGAGAGTCGAGACTCTGCCTATGTGGAGCCGAAGGAAGATTATTCCCATGAACATGTGG
+ACCACTATGCTCCACACCGTGACCATAATCACCGAGATGAGACCCACAGGAGCAGTGACCACAGACACAGGGAAACCCGG
+CACCGTTCCCGGGACATGGATCGAGAGCAGGACCACAATGAGTGCAACAAACAACGAAGTCGTCATAAATCCAAGGATCG
+CTACTGTGACAAGGATGGAGAAGTAATATCCAAAAAACGGAATGAGGCTGGGGAGTGGAATAGGGATGTTTACATCCGCC
+AATGACTTGTGCCCTTTTGTGTTTTTTTTTTTTTAAGTCTTGTATAAGCGCACCCTCAGATGAAATCTTTGGGGTCTACA
+TTGAAATCATATGTGATCTGTCTTGTGTATTTTGTATTGCTGTTGCTCAAGTAGCAATAGCATGAAATAGAGTATTAATA
+TACTTTTTTTTTCTTTTTTAAGTGCTATATAAATTGGCCTGGTACAGCTGAATTCACAAACTGTGTTGGGTAGCTGCCAC
+TTGAACAAAATCTGTTGCCACACAGGTGATTAGCGTTTCAAGAAACATAGTTGATCCATCCAGCAAGCCAGAATCAGCAC
+AGATAAGTGGAATTTCTTGTTTCCCAGATTTTTAATACACAGATACCTTATTTGCATATTCATTTATTCATGGACCACTG
+TTTCTTGCTTGTACCTCTGGCTGACTAAATTTGGGAACAGATTCAGTCTTGCCTTACACAAAGGGGATCATAAAGTTAGA
+ATCTATTTTCTATGTATTAGTACTGTGTACTGTATAGACAGTTTGTAAATGTTATTTCTGCAGACACCTTATTATAATTA
+TATATAATATATATATATACAATCAGTTTGATCACACTATTTTAGAGTCTTAATGCCAAGTCAGCAGATTTGCTTTATGA
+ATTACAGGGACTAGAAATACCCACATTCAGGAAATTTGTAATAACATTGTCTAGACACCTATCCCCACTCTAATAGAAAG
+TCTGTATATACTGTAAATATGTGTGATTGCTTGACTTGAAAAGATTTGATTTCTAAATGTTATACCATCCTGTAAGTTTA
+TAATTTTGACCATAAATTATGGCAAATATACCAAACTCAAAGGTTGTTCTACTCCATACAGTTCACACTAATTGTGACAA
+ACACATTCTTAGTAGCTAGTGTCTGTTATAGTCACTGCACTGGAATATGAGCCGGAACCCGCTGTATGCACGTGCGTGTG
+TGTCTGTATGTAAGAGTGTGCACGAGTGACCGGTTGAAA
+>ref|X64299.1| O.cuniculus mRNA for brain calcium channel beta-subunit CaB2c
+GTACCTAGTTCCAGAAAATCTACACCTCCATCATCTGCTAAGCAGAAGCAGAAATCGACAGAGCACACTCCTCCGTATGA
+TGTGGTGCCCTCCATGCGACCCGTGGTCCTCGTGGGCCCTTCCCTGAAGGGGTATGAGGTCACAGATATGATGCAGAAAG
+CGCTGTTTGATTTTTTAAAACACAGATTTGAAGGGCGGATATCCATCACAAGGGTCACTGCTGATATCTCGCTTGCCAAA
+CGCTCAGTGTTAAACAACCCCAGTAAGCATGCAATAATAGAAAGATCCAACACTAGGTCAAGCTTAGCGGAAGTTCAGAG
+TGAAATTGAAAGGATCTTTGAACTTGCAAGGACACTGCAGTTGGTAGTCCTTGATGCGGATACTATTAACCATCCAGCTC
+AACTTAGTAAAACCTCTTTGGCCCCTATTGTAGTGTATGTGAAGATTTCTTCTCCTAAGGTTTTACAAAGGCTAATAAAA
+TCTCGAGGGAAATCTCAAGCTAAACACCTTAATGTCCAGATGGTAGCAGCTGATAAACTGGCTCAGTGTCCTCCAGAATT
+GTTTGATGTGATCTTAGATGAGAACCAGCTTGAGGATGCTTGTGAGCATCTTGCCGACTATCTGGAGGCCTACTGGAAGG
+CCACCCATCCTCCCAGCAGCAATCTCCCCAACCCTCTCCTTAGCCGTAC
+>ref|X13042.1| Rabbit mRNA for alpha-casein
+ATCGCCTAGATCATCAACCCAACTTGCCTCTTTTCAGTCGAGTTTAAGGCTTGGACCACCATGAAGCTTCTCATCCTCAC
+TTGCCTTGTGGCTACTGCTCTTGCCAGGCATAAATTTCATTTAGGACACCTGAAACTCACTCAGGAGCAGCCTGAGAGCA
+GTGAGCAGGAAATCTTAAAAGAAAGAAAGCTCCTCAGGTTTGTCCAGACAGTACCACTAGAATTAAGAGAGGAATATGTC
+AATGAACTGAACAGGCAGAGAGAACTTCTGAGAGAAAAAGAGAATGAGGAAATCAAGGGAACTAGAAATGAAGTAACTGA
+GGAACATGTTTTGGCAGACCGTGAGACAGAAGCTAGCATCAGCTCATCAAGTGAGGAAATTGTTCCCAGCAGCACCAAGC
+AGAAGTACGTGCCAAGGGAAGACCTGGCTTACCAACCTTACGTGCAGCAGCAGCTTCTCAGAATGAAAGAACGCTACCAA
+ATCCAGGAGAGAGAGCCTATGAGAGTGGTGAATCAGGAACTGGCTCAGCTCTATCTTCAGCCTTTCGAACAACCCTACCA
+GCTTGATGCCTATCTCCCTGCTCCTTGGTACTATACTCCGGAAGTGATGCAGTATGTTCTTTCCCCACTGTTCTATGACC
+TCGTTACACCCAGTGCCTTTGAGAGTGCTGAAAAAACTGACGTTATTCCAGAGTGGTTGAAGAATTAAGTCAATTCTCAG
+GAACTCCACAATTATGACCATTGATGTGACTGAAAATTCAACCTATGAATTTCTCATCTTTGTTTTATAATCTAAAACCA
+CTTTATCCAAAGACTTTGTTATTCTAGGATAGGAAATCTCATATTGAGGGCTATCTTTCTTTTTGAGCTATCTACTCTTT
+AACAGACAGCATATCATTACTTTCTTAAGCAAAATTTTCTTAGACAGTTTATTATCTAAACTCCAGTTGTATCATGCCAG
+TATGGAAAGCACCTGGTTAGGGGGTATTAAAGTCTTTAGTAAGTTTCTGTAATGGAAATTTCGTTTAAAAAGTCTTTGGA
+TGGATTTTTCTGTAAGTGCAATCATGTCAAATAATTGTGTGCAGTGACTGAGATTTGTTCTTTCTTCTCAATAAATTACA
+TTTTAAGGCA
+>ref|NM_001082759.2| Oryctolagus cuniculus casein beta (CSN2), mRNA
X13043.1 Rabbit mRNA for beta-casein
+ATCATCCACCCAGCTTCATTTTCACTTCTTGTCCTCCACCTTGGAATAAAGGACTTGGCAGTCATGAAGGTCCTCATTCT
+TGCCTGCCTGGTGGCTCTCGCTCTTGCAAGGGAGAAGGAACAACTCAGTGTTCCCACAGAGGCTGTAGGAAGTGTTTCCA
+GCAGCGAGGAAATTACACATATCAACAAGCAGAAACTCGAGACGATTAAGCACGTGGAACAGCTGCTAAGAGAGGAGAAA
+CTCCAGGATAAAATCCTCCCCTTTATTCAATCACTCTTTCCTTTTGCTGAGCGCATCCCCTACCCTACTCTTCCACAGAA
+CATCCTGAACCTTGCTCAACTCGACATGCTGCTACCTCTCCTTCAGCCTGAAATAATGGAAGACCCCAAGGCTAAAGAGA
+CCATTATCCCTAAGCACAAACTGATGCCCTTCCTTAAATCTCCAAAGACGGTCCCCTTTGTTGACTCTCAAATTCTGAAT
+CTCAGGGAGATGAAAAATCAACACCTTCTTTTGCCCCAGCTCCTGCCCTTCATGCACCAGGTCTTCCAGCCTTTTCCCCA
+GACTCCCATTCCATATCCTCAGGCCCTCCTCTCTCTTCCTCAGTCCAAATTCATGCCTATTGTCCCACAAGTGGTGCCCT
+ACCCTCAAAGGGACATGCCTATCCAAGCCCTTCAGCTGTTCCAAGAACTGCTTTTCCCTACCCATCAAGGCTACCCTGTG
+GTTCAACCAATAGCCCCAGTTAATGTCTAAGAGGATTTCACAGTTAATATCTTTTCCTGATTTTTGAATTGACTGAGACT
+GGAACTTTGGCATCTTCTCCGTCTTTCTATCATGTCATCAGAAACTAAATGTTTTTTAACTAACCAATATGGGCAAATGA
+ATCCTTACTCTTTTATTTATTTTATGCCTTAAATGAAATTTCATTTAATTTGAATTTGACTTGTAAGTTGTTTATACATT
+ACAAATTGTAATTCAGGTAGTACCATCAAAATTCAACATTGAATTGGAAATGTTATAGCAATGCCAAAATATGTTCAAAA
+ATAATTCTTACTATTATTTCTTTCAGACTCTATTTCCTTTCCAGTCATTTCAATAAATTAATCCTTTAGGCATA
+>ref|X15735.1| Rabbit DNA for 5'flanking region of beta-casein gene
+GAATTCAAGAAGAAAGTGACTTTCAAATTTCTTCTTGTCATTCTGTATTTCTCTGCTCTACTATTCAGTGAGTAACCAAA
+GATATTTGAGTTGCATTCTTGGACAATTTCCTTTCTCGCTTGCTACCCTTTCCCTAGGGAAGTGCATATACTCACTTGAG
+AAAAGAAATCATCTCTGTAAGTGTACTGATTGATGACTTCTCCCTTGAGCCACAAAACCTGAACACCTTCAAACGTACCA
+TGCACAAAATTTGACTCAGATTCTTGCTCCTTGTTTTATTTCTGTTTTATGACATTGGGTAATTTTCCAATCACTCAATC
+ATAGTACAGACATAGATTTTTCCCAATTTTCCATACTCCCATGTTTTTTTTTCTTTCAAACTTTTATTTAATAAATATAA
+ATTTCCAAAGTACAGCTTATGGATTACAATGGCTTCCCCCCCATAACGTCCCTCCCACCCGCAACCCTCCCCTTTCCCAC
+TCCCTCTCCCCTTCCATTCACATCAAGATTCATTTTCGTTTCTCTTTATATACAGAAGATCAGTTTAGCATACATTAAGT
+AAAGATTTCAACAGTTTGCTCCCACACAGAAACATAAAGTGAAAAATACTGTTTGAGTACTAGTTATCCCATGTTTTAAT
+GATTCATTTACCTTCCTCTGTCTAGGATGCCCTGCACCATCTCCCTAATTGAGATAAAAGTATTATCTGTCTTAGATTGC
+TGTAATGATATCACATAAAATCCCCTTATTAGTTCACCTGAGTTATTGTCATTAAGTCGTAAAATTCAAGAAATTGCACA
+ATCCACCTTTCTTTCAAATATTTACCATCTTTTCCAGTTGCTACTGAAGTATGACACATTAACACACTTGAGATCTAGAT
+ATCTATGACCTGACTCTGTCAAACCTCTGCAATTGTAACTTGGACTCTAAAATTTCTATGTGTCTCTACACTTACTATAT
+CGCCCTTCAAGTTATTGCATTGACTTTAGCTGAAATATTTTATTCCTATTTAATCTTTCCTCAAAATTCTACTCATTCTT
+GATAGTTTCATGAAAATAACAGTTCCTTAATGACAAGCTTCTCTGCTCACACTCACATTTTTTTTTATTTCTCCAGCCAT
+AATTAAATTCTGCACTTTTTTAAACAATATCTTACGAGAGTTAAGACAAAGCCTGTGATATATACATGTTATCAAAGAGA
+ATTGCCCTATAGGTCAAATAAATCTAAATTTAAATGGGTGTCCTTGTCATTAACTCAATATAATTTTGAGCAGGTAACTT
+AAACTTTTGGGTATCTCATACCTCTACCTGGAGATAGATGCCTCACTTGTTTTTGTGACAATTGTACAAGATACTATCTG
+TAAAGTGCTTAATGCCAGGACTGGGCTTAATACTTTGAAAAAGTATCTATTATTATTACTAGTATGCCAACAGCAGCAGA
+AAAAGATAATGAGTATTCGTCAGGTAAATACATCGCCAGAACACCTGTAGTAGCCATCCAGTTTCCATTTTTGACTTGTT
+CCATGTTAGAGGGAGGTATACCACTCTTGTGTGCAAAATATTGGTTTGAGCGGAAATATTTATTTTTTTCTAAATCAAAT
+GGTTCTTGACACTAAACAGTTGACCTCATTTGACTAAGCTATCCTCATGAACTAGTTGCTTTGTTAATTTCTCCACTGTG
+ACATAAAGGACTGTTCAGGTTATCATGAAGTCATGGTCTTTGTGAGCCCCTGTGTATCGTTGGTGTTCATATAGAATTTC
+CCTACAGTTGAGATCTTTAGGTCTCCCTAGACCCAAAAGAAACCTAATAGTGCTCACATTAGTATCTTGGAGACTAGGCT
+GGAGCACCACTCTTCTCCAGCCATTGTGTTTATTATTGGGCAATTCATTTCCTGGACACATTTCCTTTATAGGCCTATGA
+ATTACTGCCTTGTCTCAATGCTCCCCAGAATTTCTGGGGAAAGATAATGAGTAGAAATCATTTTCTAATCATATGGAGTT
+CTTGGAATTGAAACTCAAAATCGATTTTTTTTTTTCAAACCACAAAATTAGCATGTCATTAAATGGAGTATATAAGCATC
+CCCAAAAGCAGAGAACATCATCCACCCAGCTTCATTTTCACTTCTTGTCCTCCACCTTGGAATAAAGGTAAGAATTC
+>ref|NM_001101693.1| Oryctolagus cuniculus calcium voltage-gated channel subunit alpha1 A (CACNA1A), mRNA
X57476.1 Rabbit mRNA for calcium channel BI-1
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCTTTACCGGGACATGTATGCGATGCTGAGACACATGCCCCCACCCCTGGGTCTGGGGAA
+GAACTGCCCGGCCAGAGTGGCCTACAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGCCCGGCGGCCGCCGACAAGGAACGCTACGGCCCGCAGGACCGGCCCGACCATGGCCACGGC
+CGCGCCCGCGCCCGGGACCAGCGCTGGTCCCGCTCGCCCAGCGAGGGCCGGGAGCACACCACGCACCGGCAGTAGTTCAG
+TAAGTGGAAGCCCCGTCCCTTCTACGTCCGGTACCAGCACTCCGCAGCGGGGACGCCGCCAGCTCCCCCAGACCCCCTGC
+ACCCCCCGGCCACTCGTGTCCTACTCCCCCGTGGTCCGCAAGGTCGGAGGCGTGGGTCCCCCGCAGCAGCAGCAGGCGGT
+GGCCAGGCCGGGCCGGGCGGCTCCCGGCGGCCCTCGGAGGTACCCGGGCCCCGCGGCTGAGCCCCCGCCCGCTGGGGGCC
+ACGGCGCCGGCCGCTCGCCGGCCTTGGAGCGGCGGGGCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCAC
+GGCGGCGGCGGCGGGGCCCGGTGGCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACAC
+GCACGGCTACTACCGGAGCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACG
+AGGAGGTGGCGGCCGGGCCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCA
+GCGTGTGCCTCGCCCGCGCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGG
+GCCCGGCTCCCGCAAAAGCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCC
+GGGCGAGCTGGCCCCGCGCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCC
+GGCGCTGGACCGCGAGCGCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGG
+GTTGGGGTGTCGCGTGCGGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCA
+CGCAACCATTTCTGGACAACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACGCACACACGATCAC
+ATTTTTAAAAGAAAACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGG
+CTGAGGGCTGCCGAGCGCGGCCGCTAGGGGCGCATGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGG
+CGCGGACTCGGCCGCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTC
+GGCCGCTAGGGGCGCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAA
+AAAAATAACAATAATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTT
+TTCTGACATTTGATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATT
+CCTTTGCTTCTATTTTTTTGGATATTTTTTCTCTTTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTT
+TGAAAGCTGTGGGCTTGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAA
+GCGAAAAAACAGTTGAATTC
+>ref|X57688.1| Rabbit mRNA for calcium channel BI-1 (lambda CBP109 and CB101)
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCACTATAAGGATATGTACAGTTTATTACGTGTAATCTCTCCCCCTCTCGGCTTAGGCAA
+GAAATGTCCTCATAGGGTTGCCTGCAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGCCCGGCGGCCGCCGACAAGGAACGCTACGGCCCGCAGGACCGGCCCGACCATGGCCACGGC
+CGCGCCCGCGCCCGGGACCAGCGCTGGTCCCGCTCGCCCAGCGAGGGCCGGGAGCACACCACGCACCGGCAGTAGTTCAG
+TAAGTGGAAGCCCCGTCCCTTCTACGTCCGGTACCAGCACTCCGCAGCGGGGACGCCGCCAGCTCCCCCAGACCCCCTGC
+ACCCCCCGGCCACTCGTGTCCTACTCCCCCGTGGTCCGCAAGGTCGGAGGCGTGGGTCCCCCGCAGCAGCAGCAGGCGGT
+GGCCAGGCCGGGCCGGGCGGCTCCCGGCGGCCCTCGGAGGTACCCGGGCCCCGCGGCTGAGCCCCCGCCCGCTGGGGGCC
+ACGGCGCCGGCCGCTCGCCGGCCTTGGAGCGGCGGGGCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCAC
+GGCGGCGGCGGCGGGGCCCGGTGGCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACAC
+GCACGGCTACTACCGGAGCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACG
+AGGAGGTGGCGGCCGGGCCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCA
+GCGTGTGCCTCGCCCGCGCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGG
+GCCCGGCTCCCGCAAAAGCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCC
+GGGCGAGCTGGCCCCGCGCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCC
+GGCGCTGGACCGCGAGCGCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGG
+GTTGGGGTGTCGCGTGCGGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCA
+CGCAACCATTTCTGGACAACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACGCACACACGATCAC
+ATTTTTAAAAGAAAACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGG
+CTGAGGGCTGCCGAGCGCGGCCGCTAGGGGCGCATGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGG
+CGCGGACTCGGCCGCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTC
+GGCCGCTAGGGGCGCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAA
+AAAAATAACAATAATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTT
+TTCTGACATTTGATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATT
+CCTTTGCTTCTATTTTTTTGGATATTTTTTCTCTTTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTT
+TGAAAGCTGTGGGCTTGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAA
+GCGAAAAAACAGTTGAATTC
+>ref|X57477.1| Rabbit mRNA for calcium channel BI-2
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCTTTACCGGGACATGTATGCGATGCTGAGACACATGCCCCCACCCCTGGGTCTGGGGAA
+GAACTGCCCGGCCAGAGTGGCCTACAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCACGGCGGCGGCGGCGGGGCCCGGTG
+GCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACGCGCACCCGCACGGCTACTACCGGA
+GCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACGAGGAGGTGGCGGCCGGG
+CCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCAGCGTGTGCCTCGCCCGC
+GCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGGGCCCGGCTCCCGCAAAA
+GCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCCGGGCGAGCTGGCCCCGC
+GCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCCGGCGCTGGACCGCGAGC
+GCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGGGTTGGGGTGTCGCGTGC
+GGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCACGCAACCATTTCTGGAC
+AACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACACACGCACACACGATCACATTTTTAAAAGAA
+AACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGGCTGAGGGCTGCCG
+AGCGCGGCCGCTAGGGGCGCACGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGGCGCGGACTCGGCC
+GCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTCGGCCGCTAGGGGC
+GCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAAAAAAAATAACAAT
+AATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTTTTCTGACATTTG
+ATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATTCCTTTGCTTCTA
+TTTTTTTGGATATTTTTCTCTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTTTGAAAGCTGTGGGCT
+TGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAAGCGAAAAAACAGTTG
+AATTC
+>ref|X57689.1| Rabbit mRNA for calcium channel BI-2 (lambda CBP109 and CB101)
+CCCTCCCTCCCTCCCTCCTCCCAGGGTCAGCCGCGAAGATGTCCCGAGCTGCGATCCCCGGCGCGGGCCGGGCAGCCGCC
+CTGTGAGCGAGCCTCCGACCGCCGCCGCCCGATGGGCTGGGCCGGGGAGCGGCCCCGCAGTCGCAGCTCCGGCCGCCGAG
+CTCACAGCCCCGGGAGCGGCGGCGGCGGCGGCACCAGCAGCGGTAGCAGCGGCAGCAGCAGCGGCGGCGGCGGCGGCGGC
+GTCTTGCGCATCGCTCGCCGCAGCGTAACCCGGAGCCCCTTGCTCTTTGCAGAATGGCCCGTTTCGGAGACGAGATGCCT
+GCCCGCTACGGGGGAGGAGGCGCCGGGGCAGCCGCCGGGGTGGTCGTGGGCGCCGCAGGCGGGCGAGGAGCCGGGGGCAG
+CCGGCAGGGCGGGCAGCCCGGGGCGCAAAGGATGTACAAGCAATCCATGGCGCAGAGGGCACGGACCATGGCCCTGTACA
+ACCCCATCCCGGTCCGACAGAACTGCCTCACGGTCAACCGCTCCCTCTTCCTCTTCAGCGAGGACAACGTGGTGAGAAAA
+TACGCGAAGAAGATCACCGAATGGCCTCCCTTTGAGTACATGATTTTAGCCACCATCATAGCAAACTGCATTGTCCTGGC
+GCTGGAGCAGCATCTGCCAGATGACGACAAGACCCCGATGTCTGAGCGGCTGGATGACACAGAACCGTACTTCATTGGCA
+TTTTTTGTTTCGAGGCTGGAATTAAAATTATCGCCCTGGGGTTTGCCTTCCACAAAGGGTCCTACCTAAGGAACGGTTGG
+AACGTGATGGACTTTGTGGTGGTGCTAACTGGCATCTTGGCGACAGTTGGGACAGAGTTTGACCTTCGGACACTGCGAGC
+AGTGCGGGTGCTGCGGCCGCTCAAGCTGGTGTCTGGAATCCCAAGTTTACAAGTCGTCTTGAAGTCAATCATGAAGGCGA
+TGATTCCTCTGCTGCAGATCGGACTCCTCCTATTTTTTGCAATACTTATTTTTGCAATCATAGGGTTAGAATTTTATATG
+GGAAAATTTCATACCACCTGCTTTGAAGAGGGGACAGACGACATTCAGGGGGAGTCTCCGGCTCCATGCGGGACAGAGGA
+ACCCGCCCGCACCTGCCCCAATGGGACCAGATGCCAGCCCTACTGGGAAGGACCCAACAATGGGATCACCCAGTTCGACA
+ACATCCTGTTCGCCGTACTGACTGTTTTTCAGTGCATCACAATGGAAGGATGGACGGACCTCCTTTACAACAGCAACGAT
+GCCTCAGGGAACACTTGGAACTGGTTGTACTTCATCCCCCTCATCATCATCGGCTCCTTTTTTATGCTGAACCTCGTGCT
+GGGTGTGCTGTCAGGGGAGTTTGCCAAAGAAAGGGAGCGGGTGGAGAACCGGCGCGCATTCCTGAAGCTGCGGCGGCAGC
+AGCAGATTGAACGCGAGCTCAACGGGTACATGGAGTGGATCTCAAAAGCAGAAGAGGTGATCCTCGCAGAGGACGAGACC
+GACGTGGAGCAGAGACATCCCTTTGATGGAGCTCTGCGGAGAGCCACTATCAAGAAGAGCAAGACGGACCTGCTCCACCC
+AGAGGAGGCGGAGGATCAGCTGGCCGACATCGCCTCCGTGGGGTCTCCCTTTGCCCGAGCCAGCATTAAAAGTGCCAAGC
+TGGAGAACTCGAGTTTTTTCCACAAAAAAGAGAGGAGAATGCGTTTCTACATCCGTCGCATGGTCAAAACTCAGGCCTTC
+TACTGGACTGTGCTCAGTCTGGTAGCCCTCAACACGCTGTGCGTGGCTATCGTCCATTACAACCAGCCCGAGTGGCTCTC
+CGACTTCCTGTACTATGCAGAATTCATTTTCTTAGGACTCTTTATGTCCGAAATGTTTATAAAAATGTACGGGCTTGGGA
+CGCGGCCTTACTTCCACTCCTCTTTCAACTGCTTTGACTGTGGGGTCATCATCGGCAGTATCTTTGAAGTCATCTGGGCT
+GTCATAAAACCCGGCACGTCCTTTGGGATCAGCGTGTTACGAGCCCTCAGGTTACTGCGTATTTTCAAAGTCACAAAGTA
+CTGGGCGTCTCTCCGAAACCTGGTCGTGTCACTTCTCAACTCCATGAAATCCATCATCAGTCTGCTGTTCCTCCTCTTCC
+TGTTTATCGTTGTCTTTGCACTTCTGGGGATGCAGCTCTTCGGTGGCCAGTTTAATTTCGACGAAGGAACTCCTCCCACC
+AACTTTGACACCTTTCCGGCAGCAATAATGACGGTGTTTCAGATCCTGACGGGAGAGGACTGGAACGAGGTCATGTACGA
+CGGCATCAAGTCGCAGGGCGGCGTGCAGGGCGGCATGGTGTTCTCCATCTACTTCATCGTCCTCACACTCTTTGGGAACT
+ACACCCTCCTGAATGTGTTCTTGGCCATCGCCGTGGACAACCTGGCCAATGCCCAGGAGCTCACCAAGGATGAGCAAGAG
+GAAGAGGAGGCCGTCAATCAAAAGCTTGCCCTGCAGAAGGCCAAGGAGGTGGCGGAAGTGAGTCCCCTGTCTGCAGCCAA
+CATGTCCATAGCCATGAAGGAACAGCAAAAGAACCAGAAGCCGGCCAAGTCGGTGTGGGAGCAGCGGACCAGCGAGATGC
+GGAAACAGAACCTGCTGGCCAGCCGCGAGGCCCTGTACAGCGAGATGGACCCGGAGGAGCGCTGGAAGGCGTCGTACGCG
+CGCCACCTGCGGCCGGACATGAAAACGCACCTGGACCGGCCGCTGGTCGTGGACCCGCAGGAGAACCGCAACAACAACAC
+CAACAAGAGCCGCGTGGCCGAGCCCACGGTGGACCAGCGCCTCGGGCAGCAGCGGGCCGAGGACTTCCTCCGGAAGCAGG
+CCCGCCACCACGATCGCGCGCGGGACCCCAGCGCCCACGCCGCCGCCGGCCTGGACGCGCGCAGGCCCTGGGCGGGCAGC
+CAGGAGGCCGAGCTGAGCCGGGAGGGGCCGTACGGCCGCGAGTCGGACCACCAGGCCCGGGAGGGCGGCCTGGAGCCTCC
+GGGCTTCTGGGAGGGCGAGGCGGAGCGGGGCAAGGCTGGGGACCCGCACCGCAGGCACGCGCACCGGCAAGGCGTTGGCG
+GCAGCGGGGGTAGCCGCAGCGGCTCGCCCCGCACCGGCACCGCCGACGGGGAGCCCCGCAGGCACCGGGTCCATCGCAGG
+CCCGGAGAGGACGGACCGGACGACAAGGCCGAAAGGAGGGGCCGGCATCGCGAGGGCAGCCGGCCAGCCCGGAGCGGCGA
+GGGAGAGGCCGAGGGGCCGGACGGCGGTGGCGGTGGTGGTGGCGAACGCAGGAGGCGGCATCGGCATGGCCCCCCGCCCG
+CCTACGACCCCGACGCGCGGAGGGACGACAGGGAACGCAGGCACCGGAGGAGGAAAGACACCCAGGGCTCCGGCGTCCCC
+GTGTCCGGCCCCAACCTCTCCACCACCCGGCCGATCCAGCAGGATCTGAGCCGCCAGGAGCCCCCGCTGGCCGAGGACAT
+GGACAACCTGAAGAACAGCCGGCTAGCCACCGCCGAGCCGGTCAGCCCCCACGAGAACCTCAGCCACGCCGGCCTGCCCC
+AGAGCCCGGCCAAGATGGGGAGCAGCACCGACCCCGCCGGCCCCACGCCGGCCACGGCCGCCAACCCCCAGAACAGCACC
+GCCAGCCGCCGCACACCCAACAACCCGGGGAACCCGTCCAACCCCGGCCCCCCCAAGACCCCCGAGAACAGCCTTATCGT
+CACCAACCCCAGCACCGCCCAAACCAACTCAGCCAAGACTGCCAGGAAACCTGACCACACCACGGTGGAAATCCCACCAG
+CCTGCCCACCGCCCCTCAACCACACCGTGGTCCAAGTGAACAAAAATGCCAACCCGGACCCACTACCAAAGAAAGAAGAT
+GAGAAGAAGGAGGAGGTGGACGAGGGCCCTGGGGAAGACGGCCCCAAGCCCATGCCTCCCTACAGTTCCATGTTTATCCT
+GTCCACCACCAACCCCCTTCGCCGCCTGTGCCATTACATCCTGAACCTGCGCTACTTCGAGATGTGCATCCTCATGGTCA
+TCGCCATGAGCAGCATCGCCCTGGCCGCCGAGGACCCCGTGCAGCCCAATGCGCCGCGCAACAACGTGCTGCGATATTTC
+GACTACGTTTTCACTGGCGTCTTTACCTTTGAGATGGTGATCAAGATGATCGACTTAGGGCTTGTCCTGCATCAAGGTGC
+CTACTTCCGGGACCTCTGGAACATTCTCGACTTCATAGTGGTCAGTGGGGCCCTGGTGGCCTTTGCTTTCACCGGCAATA
+GCAAAGGGAAGGATATAAACACGATCAAATCCCTCCGAGTGCTCCGGGTGCTACGACCTCTCAAAACCATCAAGCGGTTG
+CCAAAGCTCAAGGCCGTGTTCGACTGCGTGGTGAACTCACTCAAAAACGTCTTCAACATCCTCATTGTGTACATGCTGTT
+CATGTTCATCTTCGCCGTGGTGGCTGTCCAGCTGTTCAAGGGCAAGTTTTTTCACTGCACCGATGAGTCCAAGGAATTTG
+AGAAAGATTGTCGCGGCAAGTACCTCCTGTACGAGAAGAACGAGGTGAAAGCCCGCGATCGCGAGTGGAAGAAGTACGAG
+TTTCACTATGACAACGTGCTGTGGGCCCTGCTCACCCTCTTCACCGTGTCCACGGGAGAAGGCTGGCCACAGGTCCTCAA
+GCACTCGGTGGACGCCACCTTTGAAAACCAGGGCCCCAGCCCCGGCTACCGCATGGAGATGTCCATCTTCTACGTGGTCT
+ACTTCGTCGTCTTCCCTTTCTTCTTTGTCAACATCTTCGTGGCCTTGATCATCATCACCTTCCAGGAGCAGGGCGACAAG
+ATGATGGAGGAGTACAGCTTGGAGAAAAACGAGAGGGCCTGCATCGACTTCGCCATCAGTGCCAAGCCGCTGACCAGGCA
+CATGCCCCAGAACAAGCAGAGCTTCCAGTACCGCATGTGGCAGTTCGTGGTGTCCCCGCCCTTCGAGTACACCATCATGG
+CCATGATCGCCCTCAACACCATCGTGCTGATGATGAAGTTCTACGGAGCCTCAGTGGCCTACGACAATGCCCTGAAGGTA
+TTCAACATCGTCTTCACCTCGCTCTTCTCCCTGGAGTGCCTGCTAAAGGTCCTGGCTTTTGGGATTCTGAATTATTTCCG
+CGATGCCTGGAATATCTTTGACTTTGTGACCGTCCTCGGTAGCATCACCGACATCCTTGTGACGGAGTTTGGGAACAACT
+TCATCAACCTGAGCTTCCTGCGCCTCTTCCGCGCCGCGCGGCTCATCAAGCTCCTGCGGCAGGGCTACACCATCCGCATC
+CTCCTCTGGACGTTCGTGCAGTCCTTCAAGGCGCTGCCCTACGTCTGCCTGCTGATCGCCATGCTCTTCTTCATCTACGC
+CATCATCGGGATGCAGGTGTTCGGCAACATCGGCATCGACATGGAGGACGAGGACAGCGACGAGGACGAGTTCCAGATCA
+CCGAGCACAATAACTTCCGGACCTTCTTCCAGGCCCTCATGCTGCTCTTCCGGAGCGCCACCGGAGAAGCCTGGCACAAC
+ATCATGCTGTCCTGCCTCAGCGGGAAGCCGTGCGACAAGAACTCGGGCATCCTGACGCCTGAGTGCGGCAACGAATTTGC
+CTATTTTTACTTCGTGTCCTTCATCTTCCTCTGCTCCTTCCTGATGTTGAACCTCTTTGTGGCCGTCATCATGGACAACT
+TCGAGTACCTCACGCGCGACTCCTCCATCCTGGGCCCCCACCACCTGGATGAATACGTGCGGGTCTGGGCCGAGTACGAC
+CCTGCTGCTTGGGGACGCATGCACTATAAGGATATGTACAGTTTATTACGTGTAATCTCTCCCCCTCTCGGCTTAGGCAA
+GAAATGTCCTCATAGGGTTGCCTGCAAGAGGCTCCTGCGGATGGATCTGCCCGTGGCCGACGACAACACTGTGCACTTCA
+ACTCCACACTCATGGCTTTGATCCGTACGGCGCTGGACATCAAGATCGCCAAGGGCGGAGCAGATAAACAGCAGATGGAC
+GCTGAGCTGCGCAAAGAGATGATGGCCATTTGGCCCAACCTGTCCCAGAAGACACTGGACCTGCTGGTCACACCCCACAA
+GTCCACGGACCTGACAGTGGGCAAGATCTATGCCGCCATGATGATCATGGAGTACTACCGGCAGAGCAAAGCCAAAAAGC
+TGCAGGCCATGCGCGAGGAGCAGAACCGGACACCGCTCATGTTCCAGCGCATGGAGCCCCCGCCGGATGAGGGGGGCGCC
+GGCCAGAACGCCCTGCCCTCCACGCAGCTGGACCCGGCAGGAGGCCTGATGGCTCACGAAGACGGCCTCAAAGACAGCCC
+ATCCTGGGTGACCCAGCGCGCTCAGGAGATGTTCCAGAAGACGGGCACGTGGAGCCCGGAGCGCGCGCCCCCCGCCGACA
+TGGCCGACAGCCAGCCCAAGCCTCAGTCCGTGGAGATGCGAGAAATGAGCCAGGACGGCTACTCGGACAGCGAGCACTGC
+CTCCCCATGGAAGGCCAGGCCCGCGCCGCCTCTATGCCCCGCCTCCCCGCCGAGAACCAGAGGAGAAGGGGCCGGCCACG
+TGGGAGTGATCTCAGTACCATCTGTGACACCAGCCCCATGAAGCGCTCGGCCTCCGTGCTGGGCCCCAAGGCGTCCCGGC
+GCCTGGACGACTACTCCCTGGAGCGCGTCCCACCCGAGGAGAACCAGCGACACCACCCGCGGCGTCGCGAGCGCGCGCAT
+CGCACCTCCGAGCGCTCCCTGGGCCGCTACACCGACGTGGACACAGGCTTGGGCACGGACCTCAGCATGACCACCCAGTC
+CGGGGACCTGCCGTCCAGAGAGCGAGAGCAGGAGCGCGGCCGGCCCAAGGACCGGAAGCACCGGCCGCATCACCACCACC
+ACCACCACCACCACCCCGGGCGCGGCCCGGGACGAGTCTCCCCGGGCGTGTCGGCACGGCGGCGGCGGCGGGGCCCGGTG
+GCCCGCGTCCGGCCCGCACGCGCACCCGCACTCGCACACGCACGCGCACGCGCACGCGCACCCGCACGGCTACTACCGGA
+GCTCCGACTACGACGAGCCCGAAGGCCCCGGCCGCGGCAGCGGAGGCGGCCTCGGCGACGACGAGGAGGTGGCGGCCGGG
+CCCTACGCCGCGCCCCCGGGCCCCGCGAGCCGCTCGCCCAGGACTCCCCGGGCCGCGGGCCCAGCGTGTGCCTCGCCCGC
+GCGGCACGGCCGGCGGGTCCCCAACGGCTACTACCCGGTCCACGGACTGGCCAGGCCCCGCGGGCCCGGCTCCCGCAAAA
+GCCTGCACGAAGTGTACAGCGAGAGCGACGAGGATTGGTGCTAAGCCCCCCACCCCCACCCCCGGGCGAGCTGGCCCCGC
+GCGCGCACCCCGCGCGCACCCCGCGCCCAGGCCCAGGAGACTCCCGGAGTCGCCGAGGGGGCCGGCGCTGGACCGCGAGC
+GCAGGGAAGGGGGGAGGGGGTCCCCGAGCCAGCGCCCCCTCCCCCTAACCCCCCCGCAAAGGGGTTGGGGTGTCGCGTGC
+GGATCAGGGCCGGGGATCCCGCAGACAAAAGACAAACCACGCAGCCAAGAGATCTGGAATCCACGCAACCATTTCTGGAC
+AACTGTGGGGACACCGGCACCGCACACGCACGCACACACACACACACACACACGCACACACGATCACATTTTTAAAAGAA
+AACGGGGAGACCGCGATCATTTCTATTGATGAGTTTTATCATCTGAACTGAAGCTTTCCTCTTCCGGCTGAGGGCTGCCG
+AGCGCGGCCGCTAGGGGCGCACGCGAGCGCTCGCCGGTGATTTTCCAAACCCGCTGGGGGCCTCGGGCGCGGACTCGGCC
+GCTAGGGGCGCACGCGAGCACTCTCCGGTGACCTTCAAGACCTGCTGGGGGCCTCGGGCGCGGACTCGGCCGCTAGGGGC
+GCACGCGAGCTCTCGCCGGTGATCTCCCAGACCCCACTATTACTGCCTGCAGGAATCAGCTTTAAAAAAAAAATAACAAT
+AATAATAATAACAAGAAACTATTTTAAAAAGGACAAAAAAAATCAAGGATCGAGGAAAAAGCATTCTTTTCTGACATTTG
+ATCTTGCTTGAAATAACAAAAGAAGAAAAAATACCAACACAAAACCACCACCACCTCCACCTCCGATTCCTTTGCTTCTA
+TTTTTTTGGATATTTTTCTCTTTTTTTTTCTTTTTTTCTTTTCTTTTTTTCTTTCCTACCTTGTTTGAAAGCTGTGGGCT
+TGGGACTGTGAATTATTGCATGACAACAAAACAACGACAAAACACACAAAAAAAATAAAAACGAAGCGAAAAAACAGTTG
+AATTC
+>ref|X07798.1| Rabbit mRNA for type-1 protein phosphatase 1-alpha catalytic subunit
+GCCCGGAGCTGCTGGGCCCCGAGCGGCGGCGCCGCCATGTCCGACAGCGAGAAGCTCAACCTGGACTCTATCATCGGGCG
+CCTGCTGGAAGTGCAGGGCTCGCGGCCCGGAAAGAATGTGCAGCTGACGGAGAACGAGATCCGTGGTCTGTGCCTCAAAT
+CCCGGGAGATCTTCCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGGCCAG
+TACTACGACCTGCTGCGGCTGTTCGAGTACGGCGGCTTCCCCCCAGAGAGCAACTACCTGTTCCTGGGTGACTACGTGGA
+CCGCGGCAAGCAGTCCCTGGAGACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTGCTGC
+GCGGGAACCACGAGTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAAGCTG
+TGGAAGACGTTCACCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATGGCGG
+CCTCTCCCCCGACCTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTGCTGT
+GTGACCTGCTGTGGTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTTCGGC
+GCGGAGGTGGTGGCCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACGGCTA
+TGAGTTCTTTGCCAAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGAGCCA
+TGATGAGCGTGGACGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGGGCAG
+TTAAGTGGCCTGAACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGGGTGC
+GGCCCCCTGCCCAGACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGGGGAC
+ACGGGCCTCGGTGGATCTGTTTTTTAATGAATCACTAGCAGCACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTGCGCG
+GCTGCAAGCAGGATCCTGGGGCCAAGGCTGCAGCTCAGGGCGACGGCGGCCAGACTGGGTCTCGTCTCGTGCGGCCGCAG
+GGCTGGCAGCCGGGTCCCAGGGCAGCCCGTCTGGTCTCCTGAATAAAGGTCAAAGCTGGATTCTGAAAC
+>ref|NM_001101717.1| Oryctolagus cuniculus serine hydroxymethyltransferase 1 (SHMT1), mRNA
Z11846.1 O.cuniculus mRNA for cytosolic serine hydroxymethyltransferase
+AAAGATGAAGAAAAAGGAGCCAGTGGGTTCCGCTGACTCCGCGGGTCACGTGGCGGGCCTGCCGGAGCGCGCGAGTGGAC
+GGTCGTGGACGGTCGTGGAGCGGCGGCCGGACCGAGGCATACGTGTCCGCGTTCCGGTGGCCTTGAACCAGCGTGATGGC
+GACCGCAGTCAATGGGGCCCCCAGGGACGCTGCCCTGTGGTCCTCGCATGAACAGATGCTGGCCCAGCCCCTGAAGGACA
+GCGACGCAGAGGTTTACGACATCATCAAGAAGGAGAGCAACCGGCAGAGGGTCGGCCTGGAGCTGATTGCCTCGGAGAAC
+TTCGCCAGCCGTGCGGTTTTGGAAGCCCTGGGCTCCTGCTTAAATAACAAATACTCAGAGGGCTACCCCGGCCAGAGGTA
+TTATGGCGGCACTGAGCATATCGATGAGCTGGAGACGCTGTGTCAGAAGCGGGCGCTGCAGGCCTACGGCCTGGACCCAC
+AGTGCTGGGGCGTCAACGTGCAGCCCTACTCAGGCTCCCCCGCCAACTTCGCCGTGTACACGGCCCTGGTGGAGCCCCAT
+GGGCGCATCATGGGTCTGGACCTGCCCGACGGGGGCCACCTGACCCACGGGTTCATGACGGACAAGAAGAAGATCTCGGC
+TACGTCCATCTTCTTTGAATCCATGGCCTACAAGGTGAACCCAGACACTGGCTACATCGACTACGACCGGCTGGAGGAGA
+ACGCGCGCCTCTTCCACCCGAAGCTGATCATCGCAGGAACCAGCTGCTACTCCCGGAACTTGGACTACGGGCGGCTCAGG
+AAGATAGCGGACGAGAACGGGGCCTACCTCATGGCCGACATGGCACACATCAGTGGGCTGGTGGTGGCTGGCGTGGTGCC
+CTCCCCCTTTGAGCACTGCCACGTGGTGACCACCACGACCCACAAGACGCTGCGAGGCTGCCGGGCCGGCATGATCTTCT
+ACAGGAGAGGAGTGCGCAGCGTGGACCCCAAGACTGGCAAAGAGATCCTGTACAACCTGGAGTCGCTCATCAACTCTGCC
+GTGTTCCCGGGCCTGCAGGGAGGCCCCCACAACCACGCCATCGCAGGGGTCGCCGTGGCCCTGAAGCAGGCCATGACTCC
+GGAGTTCAAGGAGTACCAGCGCCAGGTGGTGGCCAACTGCAGGGCCCTGTCCGCAGCCCTCGTGGAGCTGGGATACAAGA
+TTGTCACAGGTGGTTCTGACAACCATTTGATCCTCGTGGATCTCCGTTCCAAAGGCACAGATGGCGGGAGGGCGGAGAAG
+GTGCTGGAAGCCTGCTCTATCGCTTGCAACAAGAACACCTGCCCAGGTGACAAGAGTGCACTGCGTCCTAGCGGCCTGCG
+CCTGGGTACCCCAGCGCTGACATCCCGGGGCCTCCTGGAAAAAGACTTCCAGAAAGTGGCACACTTCATCCACAGAGGCA
+TAGAGCTCACCGTGCAGATCCAGGACGACACGGGCCCCAGGGCAACCCTGAAGGAGTTCAAGGAGAAGCTGGCAGGCGAC
+GAGAAGCACCAGAGGGCCGTGCGGGCCCTGCGCCAGGAGGTCGAGAGCTTCGCCGCCCTGTTCCCGCTGCCCGGCCTGCC
+CGGCTTCTAGAGGGGCCGGCGCCTGAGGCCGAGGGGACCCCGCTTCGAGCCCCCGCGGGAGTGCCTTCGGACTTCCCTCG
+TCTTCCTCCCACATCAAACCCTTGTCTGGGAGGAGTAAGGCTGGCCCGGGGCAGTAGGGACGTGGCGGTGAACCATGGAG
+GCTGGCCGGCCGGCTGTGCACCTCCCTTCTCTTAGCGCCCCTGGGCACTGGTCTGGCTTCCTGCAGCCGGCCGGGCCCCG
+TGCTCACGGCTGTGAGAGCTGCCCGCCGGGACGTGTCAGGGACGCAGAGCAGAATCAGGACGACCACAGCTGAGAGGCGA
+TTCCCCGGAGCCAGAAGAGGCGTGCCCAGCCTGGCGGAGGTGCAGCTCCCCACAGCTCTGGGTCTCCTCCACGCCTGCCC
+CAGGAAGCGCCCAGTGCCAGCCGCCGGCCTTTGCCGCCACCCCACCCCCCCCCCCCCCCGCACTGTGACAGGAAGCCACA
+TGTCACCTTCCCAAAGAGACTTTATTTTTCACATAGCTGAAGTGCAAAACATAGCTGACCGTTTTTAATAAGCACAATCA
+AGGTTTTAACCACAGAATGTCTACAAGAATTATAGCTTTAAAAAATACAACCAATTTTTATATTTCAAAAATATCTGAAC
+TCAAATAAATTAATTTCTGAA
+>ref|Z14091.1| O.cuniculus mRNA for cytochrome b5
+GAGATGGCTGCGCAGTCAGACAAAGACGTGAAGTACTACACCCTAGAAGAGATTAAGAAGCACAACCACAGCAAAAGCAC
+CTGGCTGATCCTGCACCACAAGGTGTACGATCTGACCAAATTTCTGGAGGAGCACCCTGGAGGGGAGGAAGTCCTGAGGG
+AACAAGCTGGGGGCGATGCCACTGAAAACTTTGAGGACGTCGGGCACTCGACAGATGCCAGAGAGCTGTCCAAGACCTTC
+ATCATCGGGGAGCTGCACCCGGATGACAGATCAAAATTGAGCAAGCCTATGGAACCTTAAAGGCTGTGTTTCAAGGAAAC
+TCTTATCACCACCGTCGATTCCAATTCCAGCTGGTGGACCAACTGGGTGATCCCCGCCATCTCCGCCCTGATCGTGGCAC
+TGATGTATCGCCTCTACATGGCCGACGACTGAGCCCCTGCCCAGCAGCC
+>ref|NM_001101700.1| Oryctolagus cuniculus dystroglycan 1 (DAG1), mRNA
X64393.1 O.cuniculus mRNA for dystroglycan
+GGCTGCTTTTCAGGAAGATAAAGCTTTTAAGGCTGCCTAACACTAGAAGGAGAGGCTCTCGATGCTCTGGGATGGAGCAG
+GTGTGCAGAGGGTGAGGACCCGGCTCTGGGATCAAGTCACTTGCTTGCTTCCTTAGCAAGATCTTCGGCTTGAGCGAACT
+TGGCCTGGGATGAGGATGTCTGTGGGCCTTTCACTGCTGCTCCCCTTGTGGGGGAGGACATTTCTCCTCCTCCTCTGTGT
+GGCCGTGGCTCAGTCCCATTGGCCCAGCGAACCCTCGGAGGCTGTCAGGGACTGGGAGAACCAGCTGGAGGCGTCCATGC
+ACTCTGTGCTCTCAGACCTGCACGAAGCCCTTCCCACAGTGGTTGGCATTCCTGATGGCACGGCTGTTGTTGGGCGCTCG
+TTTCGAGTGACCATTCCAACAGATTTAATTGGCTCCAGTGGAGAAGTCATCAAGGTATCCACGGCAGGGAAGGAGGTTTT
+GCCATCGTGGCTGCATTGGGATCCACAGAGCCACACCCTGGAGGGCCTTCCGCTGGACACGGACAAGGGTGTGCATTACA
+TCTCAGTGAGCGCTGCACAGCTGGATGCCAACGGAAGCCACATCCCTCAGACCTCCAGTGTGTTCTCCATCGAGGTCTAC
+CCCGAAGACCACAGTGAGCCGCAGTCTGTGCGGGCGGCCTCTCCAGACCTGGGCGAGGCGGCGGCGTCTGCCTGTGCTGC
+CGAGGAGCCGGTGACCGTCTTGACCGTGATTCTGGATGCCGATCTCACCAAGATGACTCCGAAGCAGAGGATCGACCTCC
+TGCACAGGATGCAGAGCTTCTCGGAGGTGGAGCTCCACAACATGAAGTTGGTGCCGGTGGTGAATAACAGACTGTTTGAT
+ATGTCTGCCTTCATGGCCGGCCCCGGAAACGCCAAAAAGGTGGTAGAGAACGGGGCCCTGCTCTCCTGGAAGCTGGGCTG
+CTCCCTGAACCAGAACAGTGTGCCTGACATTCGCGGCGTGGAGGCCCCTGCCAGGGAGGGCACTATGTCTGCCCAGCTTG
+GCTACCCTGTGGTGGGTTGGCACATTGCCAACAAGAAGCCACCTCTCCCCAAGCGTATCCGAAGGCAGATCCATGCCACA
+CCCACACCTGTCACTGCCATTGGGCCCCCAACCACGGCCATCCAGGAGCCGCCGTCCAGGATCGTGCCTACCCCCACTTC
+TCCAGCCATTGCTCCTCCCACAGAGACGATGGCTCCTCCAGTCAGGGATCCTGTTCCTGGGAAGCCCACGGTCACCACTC
+GGACTCGAGGTGCCATTATTCAGACCCCAACCCTAGGCCCCATCCAGCCCACTCGGGTGTCAGACGCTGGCACCGTAGTT
+TCTGGCCAGATTCGTGCAACGGTGACCATTCCTGGCTACGTGGAGCCCACAGCAGTTGCCACCCCTCCCACAACTACAAC
+CAAAAAGCCACGAGTGTCCACACCAAAACCAGCAACGCCTTCAACGGACTCCTCAGCCACCACGACTCGCAGGCCAACCA
+AGAAGCCACGGACACCCAGGCCGGTGCCACGGGTCACCACTAAAGCTCCCATCACCAGGCTGGAGACGGCCTCCCCACCT
+ACTCGTATCCGCACCACCACCAGCGGGGTGCCCCGCGGGGGAGAACCCAACCAGCGCCCAGAGCTCAAGAACCACATCGA
+CAGGGTGGACGCCTGGGTCGGCACCTACTTTGAGGTGAAGATCCCATCTGATACCTTCTACGACAAGGAGGATACCACCA
+CCGACAAGCTCAAGCTGACCCTGAAGCTGCGAGAGCAGCAGCTGGTGGGCGAGAAGTCCTGGGTGCAGTTCAACAGCAAC
+AGCCAGCTCATGTATGGCCTGCCCGACAGCAGCCACGTGGGCAAACACGAGTATTTCATGCATGCCACAGACAAGGGAGG
+CCTGTCCGCCGTGGATGCCTTTGAGATCCATGTCCACAAGCGCCCTCAAGGGGACAAAGCTCCTGCTCGTTTCAAAGCCA
+AGTTCGTGGGTGACCCAGCGCCAGTGGTGAATGACATCCACAAGAAGATTGCCCTGGTGAAGAAGCTGGCCTTTGCCTTT
+GGGGATCGCAATTGCAGCACCGTCACCCTGCAGAACATCACCCGCGGCTCCATTGTGGTGGAGTGGACCAACAACACACT
+GCCGCTGGAGCCCTGCCCCAAGGAGCAGATCACGGGGCTGAGCCGCAGGATCGCCGAGGACAACGGGCAGCCTCGGCCAG
+CCTTCACCAATGCCCTGGAGCCTGACTTTAAGGCCACGAGCATCGCCATAACGGGCTCTGGCAGTTGTCGGCACTTGCAG
+TTTATCCCCGTGGCACCGCCTGGGATCCCGTCCTCGGTGACACCACCCACGGAGGTGCCAGACAGGGACCCCGAGAAGAG
+CAGTGAGGATGACGTCTACCTACACACAGTCATTCCGGCTGTGGTGGTGGCGGCCATCCTGCTCATTGCTGGCATCATTG
+CCATGATCTGCTACCGCAAGAAGCGGAAGGGCAAGCTCACCCTGGAGGACCAGGCCACCTTCATCAAGAAGGGGGTGCCC
+ATCATCTTTGCAGACGAGCTGGACGACTCCAAGCCCCCGCCCTCCTCCAGCATGCCGCTGATCCTGCAGGAGGAGAAGGC
+TCCCCTTCCCCCCCCAGAGTATCCCAGCCAGAGCGTGCCCGAGACCACGCCTCTGAACCAGGACACTGTGGGGGAGTACA
+CGCCCCTTCGGGATGAGGATCCCAACGCGCCTCCCTACCAGCCCCCCCCACCCTTCACAGCCCCGATGGAGGGCAAGGGC
+TCCCGTCCCAAGAACATGACCCCTTACCGGTCACCCCCTCCTTATGTTCCCCCTTAACCCACAAGCGCCTGGGTGGAGGC
+AGGGTAGGGCAGGGGCCTGGGGACAACACAGTGTTGTCTGTGGAGCCCGGTGGCCCGCAGACCATCGCCCACTGGGCGCT
+GACACCAGACCTAGCACACACTGGCACACGGGGCCTGGACAAGCCCGCCCTCTCTGGTCCTCCCAAACCCCAAAGCAGCT
+GGAGAGACTTTGGGGACTTTTTTTATTTTTATTTTTTGCCTAACAGCTTTTTGTTTGTTCATAGAAAATCCTTCGCTGCG
+TTTTGATGGCTGGCTCTGGAAGCACCATTTGGAGTAGAGGTAGAGGGAGGGAGCGAGGAGCCGTGGGTGAACTCGCAGGC
+AGTGCTGGGCAGCCCCCCGGCTCTCTGCGTTTTGCCTTTAACACTAACTGTACTGTTTTTTCTATTCACGTGTGTCTAGC
+TGCAGGATGTAACATGGAAAACAGTAGCTAAAGATTAAATTCAAAGGACTTTCAGAAGTTAAGGTTAAGTTTTTACATTT
+AATCTGCTGTTTACCTAAACTTGTATGTATAATTTTTGGGTGGGTATGGGGAATTGCTTTGCTAAAAATAAGCTCCCAGG
+GTGTTTCAAACTTAAGAGAAGACCAAGGGACAGTATTTTTTATCAAAGGAATCCTATTTTTTCACACTATGTCAACTTGG
+TTGCTCTGATATCCCAGAGCCCGATCGGGGGCCTCCTGGCCCTGGCTCAGGGGCCAGGGTCCTGGTGCTGGGTTTGCTCT
+CCTGCTGTTGGCAGGAGTTGGAAGCTGGAGGGGCCTCTCGGGCCGTGGACATCCCCACCTCCACCCCATGCATGCTAGTG
+GCCCACCACCAAGGGGTCTTCATTTCCATGGGAAAGGGACTCCAAGAGGCAGTGGTGGCCGTGGCCCCCACCCCGGGTGC
+TCCAAGGTGGGCCAGCTGCTCGTGGGGGCCCCTGGGGAGGTTGAGGGACTCGACCACATCGACCTGTTTCCTTTCACCTT
+TTATTTTTTTTTTTCCCCACCCCTCCTAAAAGGATTATCACGGTTTTTGAAACACTCAGTGGGGGACATTTTGGTGAAGA
+TGCAATATTTTTATGTCATGTGATGCTCTTTCCTCACTTGACCTTGGCCACTTTGTCCCAACAGTCCACAGCCCCGCCCC
+GATCCACCCCATCCCTCTTCTCTGGCGCTCCCGTCCCAGGCCTTGGGCCTGAACGACTGGAAAAGGCCTGGTTGGCTGGG
+GAGGAGTGCCACCAATAGTTCATAGTAAACAATCTGTGGGCTCTCAAAGCTAATTTTTTACTAAAGTTTTTATACAGCCT
+CAAATTGTTTTATTAAAAAATAGATTAAAAATGGTGATGC
+>ref|NM_001101720.1| Oryctolagus cuniculus calcium voltage-gated channel subunit alpha1 S (CACNA1S), mRNA
X05921.1 Rabbit mRNA for dihydropyridine (DHP) receptor (from skeletal muscle)
+TTCCACCTACATGTTGGCCTGGACAGCAGGGAGCCGAGGGGAGGCTAATTTTACTGCTGGGAGCAGCTAGCATAATCCTC
+CCGCCCCCACCCCGCTGGCTCAGCAGGGCAGGCTTCGCCCGGCAAGCTCAGCGGCCCAGTCCCCAAGGCGGGGAACACTG
+GGGACGCAGGGAAGAGAGGGCCGCGGGGTGGGGGAGCAGCAGGAAGCGCCGTGGCCAGGGAAGCCATGGAGCCATCCTCA
+CCCCAGGATGAGGGCCTGAGGAAGAAACAGCCCAAGAAGCCCCTGCCCGAGGTCCTGCCCAGGCCGCCGCGGGCTCTGTT
+CTGCCTGACCCTGCAGAACCCGCTGAGGAAGGCGTGCATCAGCATCGTGGAATGGAAACCCTTCGAGACCATCATCCTGC
+TCACCATCTTTGCCAACTGTGTGGCCCTGGCCGTGTACCTGCCCATGCCCGAGGATGACAACAACTCCCTGAACCTGGGC
+CTGGAGAAGCTGGAGTACTTCTTCCTCACCGTCTTCTCCATCGAAGCCGCCATGAAGATCATCGCCTACGGCTTCCTGTT
+CCACCAGGACGCCTACCTGCGCAGCGGCTGGAACGTGCTGGACTTCATCATCGTCTTCCTGGGGGTCTTCACGGCGATTC
+TGGAACAGGTCAACGTCATCCAGAGCAACACGGCCCCGATGAGCAGCAAAGGAGCCGGCCTGGACGTCAAGGCCCTGAGG
+GCCTTCCGTGTGCTCAGACCCCTCCGGCTGGTGTCGGGGGTGCCTAGTTTGCAGGTGGTCCTCAACTCCATCTTCAAGGC
+CATGCTCCCCCTGTTCCACATCGCCCTGCTCGTCCTCTTCATGGTCATCATCTACGCCATCATCGGGCTGGAGCTCTTCA
+AGGGCAAGATGCACAAGACCTGCTACTACATCGGGACAGACATCGTGGCCACAGTGGAGAATGAGAAGCCCTCGCCCTGC
+GCTAGGACGGGCTCGGGGCGCCCCTGCACCATCAACGGCAGCGAGTGCCGGGGCGGCTGGCCGGGGCCCAACCACGGCAT
+CACGCACTTCGACAACTTCGGCTTCTCCATGCTCACCGTGTACCAGTGCATCACCATGGAGGGCTGGACAGATGTCCTCT
+ACTGGGTCAACGATGCCATCGGGAACGAGTGGCCCTGGATCTACTTTGTCACTCTCATCCTGCTGGGGTCCTTCTTCATC
+CTCAACCTGGTGCTGGGCGTCCTGAGTGGGGAATTCACCAAGGAGCGGGAGAAGGCCAAGTCCAGGGGAACCTTCCAGAA
+GCTGCGGGAGAAGCAGCAGCTGGAGGAGGACCTTCGGGGCTACATGAGCTGGATCACGCAGGGCGAGGTCATGGACGTGG
+AGGACCTGAGAGAAGGAAAGCTGTCCTTGGAAGAGGGAGGCTCCGACACGGAAAGCCTGTACGAAATCGAGGGCTTGAAC
+AAAATCATCCAGTTCATCCGACACTGGAGGCAGTGGAACCGTGTCTTTCGCTGGAAGTGCCATGACCTGGTGAAGTCGAG
+AGTCTTCTACTGGCTGGTCATCCTGATCGTGGCCCTCAACACCCTGTCCATCGCCTCGGAGCACCACAACCAGCCGCTCT
+GGCTGACCCACTTGCAAGACATCGCCAATCGAGTGCTGCTGTCACTCTTCACCATCGAGATGCTGCTGAAGATGTACGGG
+CTGGGCCTGCGCCAGTACTTCATGTCCATCTTCAACCGCTTCGACTGCTTCGTGGTGTGCAGCGGCATCCTGGAGCTGCT
+GCTGGTGGAGTCGGGCGCCATGACGCCGCTGGGCATCTCCGTGTTGCGCTGCATCCGCCTCCTGAGGCTCTTCAAGATCA
+CCAAGTACTGGACGTCGCTCAGCAACCTGGTGGCCTCCCTGCTCAACTCCATCCGCTCCATCGCCTCGCTGCTGCTGCTG
+CTCTTCCTCTTCATCATCATCTTCGCCCTGCTGGGCATGCAGCTCTTCGGGGGGCGGTACGACTTCGAGGACACGGAAGT
+GCGACGCAGCAACTTCGACAACTTCCCCCAGGCCCTCATCAGCGTCTTCCAGGTGCTGACGGGTGAGGACTGGAACTCCG
+TGATGTACAACGGGATCATGGCCTACGGAGGCCCGTCCTACCCGGGCGTTCTCGTGTGCATCTATTTCATCATCCTTTTT
+GTCTGCGGCAACTATATCCTGCTGAATGTCTTCCTGGCCATCGCCGTGGACAACCTGGCCGAGGCGGAGAGCCTGACTTC
+CGCGCAAAAGGCCAAGGCCGAGGAGAGGAAACGCAGGAAGATGTCCAGGGGTCTCCCTGACAAGACAGAGGAGGAGAAGT
+CTGTGATGGCCAAGAAGCTGGAGCAGAAGCCCAAGGGGGAGGGCATCCCCACCACTGCCAAGCTCAAGGTCGATGAGTTC
+GAATCTAACGTCAACGAGGTGAAGGACCCCTACCCTTCAGCTGACTTCCCAGGGGATGATGAGGAGGACGAGCCTGAGAT
+CCCAGTGAGCCCCCGACCGCGCCCGCTGGCCGAGCTGCAGCTCAAAGAGAAGGCAGTGCCCATCCCGGAAGCCAGCTCCT
+TCTTCATCTTCAGTCCCACCAATAAGGTCCGTGTCCTGTGTCACCGCATCGTCAACGCCACCTGGTTCACCAACTTCATC
+CTGCTCTTCATCCTGCTCAGCAGTGCTGCGCTGGCCGCCGAGGACCCCATCCGGGCGGAGTCCGTGAGGAATCAGATCCT
+TGGATATTTTGATATTGCCTTCACCTCTGTCTTCACTGTGGAGATTGTCCTCAAGATGACGACCTACGGCGCCTTCCTGC
+ACAAGGGCTCCTTCTGCCGCAACTACTTCAACATCCTGGACCTGCTGGTGGTGGCTGTGTCTCTCATCTCCATGGGTCTC
+GAGTCCAGCACCATCTCCGTGGTAAAGATCCTGAGAGTGCTAAGGGTGCTCCGGCCCCTGCGAGCCATCAACAGAGCCAA
+AGGGTTGAAGCACGTGGTCCAGTGCGTGTTCGTGGCCATCCGCACCATCGGGAACATCGTCCTGGTCACCACGCTCCTGC
+AGTTCATGTTCGCCTGCATTGGTGTCCAGCTCTTCAAGGGCAAGTTCTTCAGCTGCAACGACCTATCCAAGATGACAGAA
+GAGGAGTGCAGGGGCTACTACTATGTGTACAAGGACGGGGACCCCACGCAGATGGAGCTGCGCCCCCGCCAGTGGATACA
+CAATGACTTCCACTTTGACAACGTGCTGTCGGCCATGATGTCGCTCTTCACGGTGTCCACCTTCGAGGGATGGCCCCAGC
+TGCTGTACAGGGCCATAGACTCCAACGAGGAGGACATGGGCCCCGTTTACAACAACCGAGTGGAGATGGCCATCTTCTTC
+ATCATCTACATCATCCTCATTGCCTTCTTCATGATGAACATCTTTGTGGGCTTTGTCATCGTCACCTTCCAGGAGCAGGG
+GGAGACAGAGTACAAGAACTGCGAGCTGGACAAGAACCAGCGCCAGTGTGTGCAGTATGCCCTGAAGGCCCGCCCACTTC
+GGTGCTACATCCCCAAGAACCCATACCAGTACCAGGTGTGGTACGTCGTCACCTCCTCCTACTTTGAATACCTGATGTTC
+GCCCTCATCATGCTCAACACCATCTGCCTGGGCATGCAGCACTACCACCAGTCGGAGGAGATGAACCACATCTCGGACAT
+CCTCAACGTGGCCTTCACCATCATCTTCACACTGGAGATGATCCTCAAGCTCTTGGCGTTCAAGGCCAGGGGCTATTTCG
+GAGACCCCTGGAATGTGTTCGACTTCCTGATCGTCATCGGCAGCATCATTGACGTCATCCTCAGCGAGATCGACACTTTC
+CTGGCCTCCAGCGGGGGACTGTATTGCCTGGGTGGCGGCTGCGGGAACGTTGACCCAGACGAGAGCGCCCGCATCTCCAG
+TGCCTTCTTCCGCCTGTTCCGGGTCATGAGGCTGATCAAGCTGCTGAGTCGGGCCGAGGGCGTGCGCACGCTGCTGTGGA
+CGTTCATCAAGTCCTTCCAGGCCCTGCCCTACGTGGCCCTGCTCATCGTCATGCTGTTCTTCATCTACGCCGTCATCGGC
+ATGCAGATGTTTGGAAAGATCGCCCTGGTGGACGGGACCCAGATCAACCGCAACAACAACTTCCAGACCTTCCCGCAGGC
+CGTGCTGCTGCTCTTCAGGTGTGCGACAGGGGAGGCGTGGCAAGAGATCCTGCTGGCCTGCAGCTACGGGAAGTTGTGCG
+ACCCAGAGTCAGACTACGCCCCGGGCGAGGAGTACACGTGTGGCACCAACTTCGCCTACTACTACTTCATCAGCTTCTAC
+ATGCTCTGCGCCTTCCTGATCATCAACCTCTTCGTGGCTGTCATCATGGACAACTTTGACTACCTGACACGCGACTGGTC
+CATCCTGGGCCCTCACCACCTGGACGAGTTCAAGGCTATCTGGGCAGAGTATGACCCAGAGGCCAAGGGGCGAATCAAGC
+ACCTGGACGTGGTGACCCTGCTGAGAAGGATCCAGCCCCCTCTGGGCTTCGGGAAGTTCTGTCCACACCGGGTGGCCTGT
+AAGCGCCTGGTGGGCATGAACATGCCCCTGAACAGTGACGGCACGGTCACCTTCAATGCCACGCTCTTTGCCCTGGTGCG
+CACGGCCCTCAAGATCAAGACAGAAGGTAACTTTGAGCAGGCCAACGAGGAGCTGAGGGCCATCATCAAGAAGATCTGGA
+AGAGAACCAGCATGAAGCTGCTGGACCAGGTCATCCCTCCCATAGGAGATGACGAGGTGACCGTGGGGAAGTTCTACGCC
+ACATTCCTCATCCAGGAGCACTTCCGGAAGTTCATGAAGCGCCAGGAGGAATATTATGGGTATCGGCCCAAGAAGGACAC
+CGTGCAGATCCAGGCTGGGCTGCGGACCATAGAGGAGGAGGCGGCCCCTGAGATCCGCCGCACCATCTCAGGAGACCTGA
+CCGCCGAGGAGGAGCTGGAGAGAGCCATGGTGGAGGCTGCGATGGAGGAGAGGATCTTCCGGAGGACGGGAGGCCTGTTT
+GGCCAGGTGGACACCTTCCTGGAAAGGACCAACTCCCTGCCCCCGGTGATGGCCAACCAAAGACCGCTCCAGTTTGCTGA
+GATAGAAATGGAAGAGCTTGAGTCGCCTGTCTTCTTGGAGGACTTCCCTCAAGATGCAAGAACCAACCCTCTCGCTCGTG
+CCAATACCAACAACGCCAATGCCAATGTTGCCTATGGCAACAGCAACCATAGCAACAACCAGATGTTTTCCAGCGTCCAC
+TGTGAAAGGGAGTTCCCGGGAGAGGCGGAGACACCGGCTGCCGGACGAGGAGCCCTCAGCCACTCCCACAGGGCCCTGGG
+ACCTCACAGCAAGCCCTGTGCTGGAAAACTGAATGGGCAGCTGGTCCAGCCGGGGATGCCCATCAACCAGGCACCTCCTG
+CCCCCTGCCAGCAGCCTAGCACGGATCCCCCAGAGCGCGGGCAGAGGAGGACCTCCCTGACAGGGTCTCTGCAAGACGAA
+GCACCCCAGAGGAGGAGCTCCGAGGGGAGCACCCCCAGGCGCCCGGCTCCTGCTACAGCTCTGCTGATCCAAGAGGCTCT
+GGTTCGAGGGGGCCTGGACACCTTGGCAGCTGATGCTGGCTTCGTCACGGCAACAAGCCAGGCCCTGGCAGACGCCTGTC
+AGATGGAACCGGAGGAAGTAGAGGTCGCAGCCACAGAGCTACTGAAAGCGCGAGAGTCTGTCCAGGGCATGGCCAGTGTC
+CCGGGAAGCCTGAGCCGCAGGTCCTCCCTGGGCAGCCTTGACCAGGTCCAGGGCTCCCAGGAAACCCTTATTCCTCCCAG
+GCCGTGATGGCTGTGGTGTCCACATGACCAAGGCGAGAGGGACAGTGCGTGCAGAAGCTCAGCCCTGCATGGCAGCCTCC
+CTCTGTCTCAGCCCTCCTGCTGAGCTGGGGCGGTCTGGAACCGCACCAGGAAGCCAGGAGCCTCCCCTGGCCAGCAAGAG
+GCATGATTCTAAAGCCATCCAGAAAGGCCTGGTCAGTGCCACTCCCCAGCAGGACATTAAAGTCTCTAGGTCTGTGGCAC
+TGG
+>ref|X14578.1| Rabbit mRNA for ferritin light chain subunit 5'end
+NNGCTACGCGTCGGGAGACCCGCGGACCTGTGTCTTGCTTCAACAGTGTTTGAACGGAACAGGCCCGGGGACTCTCTCAC
+AGGCTTCGACCGCCCTCC
+>ref|V00884.1| Rabbit glyceraldehyde 3-phosphate dehydrogenase messenger fragment (aa 32 to 78)
+GATCCATTCATTGACCTCCACTACATGGTCTACATGTTCCAGTATGATTCCACCCACGGCAAGTTCCACGGCACGGTCAA
+GGCTGAGAACGGGAAGCTGGTCATCAACGGGAAGGCCATCACCATCTTCCAGGAGCGAGATC
+>ref|NM_001101698.1| Oryctolagus cuniculus tachykinin precursor 1 (TAC1), mRNA
X62994.1 O.cuniculus mRNA for gamma preprotachykinin I
+AAATCCAACATGAAAATCCTCGTGGCCCTGGCAGTCCTGGCTCTGGTTTCCACCCAACTGTTTGCGGAGGACATCCGAGC
+CAACGATGATCTAAATTATTGGTCCGACTGGTCCGACAGCGACCAGATCAAGGAGGAGCTGCCCGAGCCCTTCGAGCACC
+TGCTGCAGAGAATCGCCCGGAGACCCAAGCCTCAGCAGTTCTTTGGATTAATGGGCAAACGGGATGCTGGACACGGCCAG
+ATTTCTCACAAAAGGCATAAAACAGATTCCTTTGTTGGACTAATGGGCAAAAGAGCTTTAAATTCTGTGGCTTATGAACG
+GAGCGCCATGCAGAATTACGAGAGAAGACGTAAATAAACTGCCTACAGTATTATTCATGCCGCTTCATTTATGTCAATGG
+GCAGTGAAAGGTAAAATGTGACGTGCACTATGAGGAATGATTATTTATTTAAATAACTTGTTGTTTTAAGTTGAAAACGT
+TAAAGAAAAGTGTTTAATTTTTCCTATTGTGCCAAAATGTGTTGTAAACATGTAATTCCTAATATGAAGATGCCCTCAGA
+GGTAGAAATCAGTGCAAACCTCTCAACAAAGCACAGTGTTCAATGAAATGGTAAAATCGTGTTAAAATGTCATCGCCGGA
+AGAAAGCGTGGCTTCGAAGCGGTCACATCTGGAAAGGGCGGGGGCTCTCATGCAGTCACACACTTGCCCTGTGTGTCTCA
+GGGCTGAAATGTACTGAGTCTTGGTGTCAAACTGTGTTTGTACCCCTGCAGCATGTTTCACGGTTTGTGGTTCCATAGAG
+ATGTTTTACAAGTTTTCATGTGACCCCAGGGTCTCCATTTCATTGTATAATGTGTTGTA
+>ref|X57123.1| Oryctolagus cuniculus H-RAS PROTO-ONCOGENE exon and joined CDS
+CGGCTGACGCTGGCCTGCCTGGGCCAGTGTGGCCCGGCCGGCCGCGGCAGGACCTGTTCTGGGAGGCTAACCTCAGCCCT
+CAGGCCCTGCGGGTTGTGCGTTCTGCCTACACAGCAGCTTCTAATTTGGGTGCGTGGTTGGGAGAAGCTCTCAGCTGTCA
+GCCCTGCCTTTGGGGGTAGGCCGCCCTGCCTTGCTCACGCTGTCGCTGGTGCGGCGGGGTGGGGAGGCGGCACCCCTCCC
+GCCCCCTGGATGGCGGCTGGCCCAGGTGGGCAGCTGGGCCGCCGTCCTGGCCGTCGGAGCTGCGGGCCTGGCTGAGCGTG
+GCCCTCCTTGGCAGGCGGGGCAGGAGACCCCACAGCGCCGGGCAGCCGCGAGCAGCGCGCGATGACGGAGTATAAGCTGG
+TGGTGGTGGGCGCCGGCGGTGTAGGCAAGAGCGCACTGACCATCCAGCTGATCCAGAACCACTTCGTGGACGAATATGAC
+CCCACCATCGAGGTG
+>ref|X57124.1| Oryctolagus cuniculus H-RAS PROTO-ONCOGENE exon 2
+CAGGACTCGTACCGGAAGCAGGTGGTCATCGACGGGGAGACGTGCCTGCTGGACATCCTGGACACGGCGGGCCAGGAGGA
+GTACAGCGCCATGCGGGACCAGTACATGCGCACGGGCGAGGGCTTCCTCTGCGTGTTCGCCATCAACAACACCAAGTCCT
+TCGAGGACATCCACCAGTACAGGTG
+>ref|X57125.1| Rabbit H-ras proto-oncogene, exon 3
+CAGGGAGCAGATCAAGCGGGTGAAAGACTCGGACGACGTGCCCATGGTGCTGAACAAGTGCGACGTGGGGAACAAGTGCG
+ACCTGGCGGCGCGCACCGTGGAGTCCCGGCAGGCGCAGGACCTGGCCCGCAGCTACGGCGTCCCCTATATCGAGACCTCG
+GCCAAGACGCGGCAGGTG
+>ref|X57126.1| Rabbit H-ras proto-oncogene, exon 4
+GGCGTGGAGGACGCGTTCTACACGCTGGTGCGGGAGATCCGGCAGCATAAGCTGCGGAAGCTGAACCCGCCTGACGAGAG
+CGGCCGCGGCTGCATGAGCTGCAAGTGTGTGCTGTCC
+>ref|V00885.1| Rabbit exon encoding constant part of immunoglobulin kappa chain (allele bas, allotype Basilea)
+GTACCTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAGGTGATCCAGTTGCGCCTTCTGTCCTCCTCTTCCCACCATCT
+AAGGAGGAGCTGACAACTGGAACAGCCACCATCGTGTGCGTGGCGAATAAATTCTATCCCAGTGACATCACCGTCACCTG
+GAAGGTGGATGGCACCACCCAACAGAGCGGCATCGAGAACAGTAAAACACCGCAGAGCCCCGAAGACAATACCTACAGCC
+TGAGCAGCACTCTGTCACTGACCAGCGCACAGTACAACAGCCACAGCGTGTACACCTGCGAGGTGGTCCAAGGCTCAGCC
+TCACCGATCGTCCAGAGCTTCAACAGGGGTGACTGCTAGAGCGAGACGCCTGCCAGGGCACCGCCAGGGACCCTGAGGGC
+CAGCCTCGCCGCTCCCTCCCCTCAGTGGACCCATTCCCACCGCAGTCCTCCAGCCCCTCCCTTCCCGGTCCTCCCCCCCT
+CCTTGGCTTTAACCTTGCGAATGTTGGTGAGATGGATGAATAAAGTGAATCTTTGCACTTGTGACTTCTCTCTGCTTCTT
+CATTTAATGGTTATTAGTCATGGTTCCCCAG
+>ref|X00232.1| Rabbit immunoglobulin k2 gene fragment
+GAGCTCACCTAAGGAAACAAGCATTCTGCATCAGAGAAGCCTCAGGGCTTCCACACCTGTTCAGAAAGGGAGTTAGGCCT
+CAGAGCTGAGGCAGGGCTCGGTTCCCCTTGGGTGAGAAGGGTTTTTGTACAGTGAGGCAATGGGGAGTTGTCACTGTGTT
+TGACTTTTGGAGCTGGCACCAAGGTGGAAATCAAACGTGAGTAAAATCCGAACGTTCCCTCTCTGGTTGTCTGCGTCGTG
+TGACCTCTGTGTCTGTGAAGTGATCCCTAAGCTGACTCTGAAACCAATCGGGAGCATCCACCAGGCAATGCAGGGATGAA
+GTGTGTGGCAAGCTTGAGCAAGGACTGCATATTGTCTACGAAGAGCAAGACTCAGTCATTGAGAAAGAGAGGGAGAGAGA
+GAGAGGGAGGGAGAAATTTGAGAGCTTTAGAAATTCACTGGGGTGCATCCTGCTGTGTTCCGGGCAGAGCCTTGCCTGAT
+GGTCAGAAAGGAAAACTCAGTTATTGTACAGGAGGGAGGTTGTGAGGAACCACTGTGTCTAATACTTTCGGTGCGGGGAC
+CAAGGTGGAGATCAAACGTAAGTGCACTTTCCCAGTCTTCCTTACAGAGTTGGTAAATGTGGGATTTAAGTTTGTGGGAG
+ATGAGTTAAGGTCAATCCGGAAGGGAATGGAATTTTTCCAAAAACATGGATGGGTAGGGAGCAGAAAATCCGTTCATCTC
+AAGAAGAGAGCAAAGGGCTAGCAGGCTAGCAAGTGGCCAAATTCTGTCTGTCTGTCAGTCTGACGAGCTTGGGAGCAGTC
+AGAGGTTTTTGTTGAGGGAAAGCAATAAAGCTAATTCTGTGGATCACCTTTGGAAAAGGAACCAAGCTGGAGATCAAACG
+TAAGTACCGTTTTCCTATTCCTGTCTGAAATTTTGCTCTAATTGGCCAGATTGACTTTTAAGAAAAATTTTATAAAAGTG
+GGTAAATGAGTAGGTTTGAGATTTGTCGTCGGTTGCAAAAGTTAAATGGATTTAGAGATGAAAAGATTAAATTGCTCTAT
+ACTGAATGACTCAAAGGGGAAGAAATCAGTGTAGATAAGTAAGGGAGCCCTCAGCACTCTAAAGAGCTTTTTAAAAACTT
+TTAGAGACTTTAAAACTCTATTAAAAGCTAATGAGACGTCTTGAAATAATTTTTATATTAAAGTGCTAATTGTTTAAGAT
+GTGAACGCCAGATGGAAAATGTAAAGCTCTCCAGGACTGCCCAGGCGGAAGGTCTTCACAGACCACTCTTCCCTGCTCAG
+GGGCTCGATCACAGTATTGTGCTGCCAAGTCCACTGTATACAGTTATGGGGGGGGCACTAATCATGGAGATTCAAAGAGG
+AACATAAAACAGGAAAGTTCACTGTCTTACACTGAACTACTTGGTTAGCATGGGGGTTAGCTTTGTATAAGTCTGTCCGA
+GTGTCTGCTGACTGTCGCAGGAAGGATTCTTGATTTTTTTCATTTTAACGGTGCTCTCCCACCCTAGGCCCTGACTCCCC
+ACAGAGCAGGGTTTCCCAGGGGCCATCTGGCAGCTGCCCGCGGTCAGGAGTGAAGCTCACCAATTCCTGCGAGGCAGGTG
+GCCCAGCTTACAGCTGACCCCTCCCGAGTCCTCCTGCAAACAGGCTGGCCTGGGAACAGGCGGCCAGGCGCAGGTCTCAC
+TGTGAGGCCTGCGAGACGGTAGGAGAGTCACTGGCATGACCCCAGGCGCTGAAGGGGTGGGTGCAGACACAGGCTGGAGG
+CCCACTCTGCAGGGTGGGTTTGGCCTGGCCTCGCCAAGGAAGGCCCAGAGAGTCCTGATATCACTGCACGGTCCTGGGGG
+AGACCAGGGAAATGAAAGCCGAGAGGCTCCCCTTAGACGCTCGCTGCCTGCTCTGCCGCCGTCCCCCGTCTTCTCCTAGG
+ACACAGGGCCGGGACCTGTTCCTACTTCTAAACTCCAAAGGGGTCAGATGAAATGGGCTGTGTTCTTTCCCCGATCACTG
+AGTCATTGCAGGGGCAGAGTAGAGCAACAACAAAGAGGCCTCCCAGTGGGTCAGAGAGTTCAAACACAACAACATAGAAC
+TTTCTGAAGGGGCAGGCGGAACCCGGAGGGAAACAAAGTCATCCAGATTCTACGTCTGCTCGCTGCCCCATTGCAACAGC
+TTTGGGCTGCTTCTGTCTGTCCATCCCTAATGCGCTCTGTGATCATCCACATGGCACCCAGGGGAGATGCCCACTGGTAC
+CTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAGGTGATCCAGTTGCGCCTTCTGTCCTCCTCTTCCCACCATCTAAGG
+AGGAGCTGACAACTGGAACAGCCACCATCGTGTGCGTGGCGAATAAATTCTATCCCAGTGACATCACCGTCACCTGGAAG
+GTGGATGGCACCACCCAACAGAGCGGCATCGAGAACAGTAAAACACCGCAGAGCCCCGAAGACAATACCTACAGCCTGAG
+CAGCACTCTGTCACTGACCAGCGCACAGTACAACAGCCACAGCGTGTACACCTGCGAGGTGGTCCAAGGCTCAGCCTCAC
+CGATCGTCCAGAGCTTCAACAGGGGTGACTGCTAGAGCGAGACGCCTGCCAGGGCACCGCCAGGGACCCTGAGGGCCAGC
+CTCGCCGCTCCCTCCCCTCAGTGGACCCATTCCCACCGCAGTCCTCCAGCCCCTCCCTTCCCGGTCCTCCCCCCCTCCTT
+GGCTTTAACCTTGCGAATGTTGGTGAGATGGATGAATAAAG
+>ref|X00977.1| Rabbit germ-line V kappa gene V18a
+GGCCCTTCAGCTGGGCACAGCCTGCCCCGCCCCTGCTCATTTGCATGTGCCCAGAGCACGCCCACCTCTATGGGCATTTA
+GGAGCAGGCTGCTCCGCCCCATGCAGGAGGCAGTGCAGGCAGGACCCAGCATGGACACGAGGGCCCCCACTCAGCTGCTG
+GGGCTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCAGAAACGGCCTCGGGCAGTGTGCCAGGGCTGCCCGTC
+TCTGCAGGAGCGTCCTCTTAGAACGTGAGGATGAGTGTGGTCTCTGTGTTTCTGCTTCCCTCCTCAGGTGCCATATGTGA
+CCCTGTGATGACCCAGACTCCATCTTCCACGTCTGCGGCTGTGGGAGGCACAGTCACCATCAACTGCCAGTCCAGTCAGA
+ATGTTTATAGTAACAACTACTTATCCTGGTTTCAGCAGAAACCAGGGCAGCCTCCCAAGCTCCTGATCTATGGTGCATCC
+AAACTGGCATCTGGGGTCCCATCGCGGTTCAGCGGCAGTGGATCTGGGAAACAGTTCACTCTCACCATCAGTGGCGTGCA
+GTGTGACGATGCTGCCACTTACTACTGTGCAGGGTATTATTATAGTGGTAGTGGCACTGATACCACAGTGATACAAGCCC
+TTACAAAAACCCCCCAGGAAAGCAGAAGTGTGGTGCTGGGCTGCCCCAGCTGCTCCTCCTGGGCCCCACCTGCTGAGAGT
+GATTCTCAGAGCAGCCAGGCTTGAAGGTCCTGCAGGGTCGGGTGGAAGGGGC
+>ref|X13699.1| Rabbit nonproductive VHa1 mRNA for Ig(mu) heavy chain constant region
+TAGAAAGCTCAAGCTTAGCTTATCAATTTCTAAATTGTATTCATTTTTAAAGTAAGATATTTTAGAAATTAAACTTACAG
+ATGGTTTATTAATGCGCCCATGAAACTTTTTAAAATTACTTTGTTATTTCTTCATACGGTAATTAACCTCAAACTTCAGA
+GACCTCAAAGCATTATTTTTGCAACGCCTGCGACCGTCATTTTTAAGAGTCTGTTTTCTCTATGATTAGAAGAGACGTTT
+TGAGGCTTCATTTCAGTATTTTTCAAGACTGCTTTTCAAGTATTCATTTTTGCACCAGTTCTAGCTGAGGTGGACCTAAG
+TGTCCTGAGTTATTGGGTTAAACGTGTGACTTGGTGAATTGGAGAGCCATCAGACAGTGCAGAGACAGGAGTCGGGAGCT
+CTGCAGAAGCCGGGCCACCCACGCCTTGAGGTTTCCCAAGACCGCCGGGTCTGGGGGTGCAGCCGTGGCTTCTGGTTAGT
+CAGGAATTCCTGTTTGGAGTGGACTTGGAGGACCCGCAGGACGTGCCAGTGACCAGCCACTGCACATGTGAGCCTGTCAT
+CTCCAACTCTGTACCCG
+>ref|X13700.1| Rabbit IgH gene JH-C(mu) intron with enhancer region yealding a nonproductive C(mu) transcript
+GTTAGAAAGAGAACGGTTGTCAGCAGTACAAGGAAGGAGGGCCGTGGAGCCCCAAAGGCGCTGCCTCTGACAGGGACCTA
+GCAAGGCCTGGGCAGCCCAACCGTGCTGGGACGGCGCCCACCAGGTGTGCAGGGACATGGTGTCCGAAGTGGCTTCTGAG
+AAAAGTGGCTGAGAAAATTGAGAATGAAGACTTTTTGTTCATGTATATTCAGCTTTTTGTGTTTTTTTAATGTAAAGGAC
+TTTTAGATTATTATTGTTCAGTATCTGTCTGGGATTGGCACAAGACAGCAGAGAAACAGTGGAGTGGCACCAGCAGGCCC
+CAATACAGGACTGAGTTTTGACAAAAATTATTTAAGTTTAATTTTTAATTAATTGAGCAATGCCAGATTAGTGCATGAGT
+GACAGCCAAGATGGCCGCGCATCCGGCCGGACACCTGCAGCAGGTGGCAGGAAGCATGTCGCACTGAGAGTCTATTTTAG
+GAAGCCAAAAAGCACCCTGTGTGAATTTATAGCTCCTGTTTTTGAAGTGGTGGTTTTCAAGTGGTTTTCCCGGATCCGAA
+AGTGTTGCAGAGCAAAACAACACCTGGGTAGTTTGCATATCTAAAATAGGACAGGGGACTGCCAGGGTTCCTCTTGTCAC
+TATTTGAATTTATTTTTTCAATCTGAACTTAGCAACTTCTAGTTTGCTCAAGCTTAGCTTATCAATTTCTAAATTGTATT
+CATTTTTAAAGTAAGATATTTTAGAAATTAAACTTACAGATGGTTTATTAATGCGCCCATGAAACTTTTTAAAATTACTT
+TGTTATTTCTTCATACGGTAATTAACCTCAAACTTCAGAGACCTCAAAGCATTATTTTTGCAACGCCTGCGACCGTCATT
+TTTAAGAGTCTATTTTCTCTATGATTAGAAGAGACGTTTTGAGGCTTCATTTCAGTATTTTTCAAGACTGCTTTTCAAGT
+ATTCATTTTCACACCAGTTCTAGCTGAGGTGGACCTAAGTGTCCTGAGTTATTGGGTTAAACGTGTGACTTGGTGAATTG
+GAGAGCCATCAGACAGTGCAGAGACAGGAGTCGGGAGCTCTGCAGAAGCCGGGCCACCCACGCCTTGAGGTTTCCCAGGA
+CCGCCGGGTCTGGGGGTGCAGCCGTGGCTTCTGGTTAGTCAGGAATTCCTGTTTGGAGTGGACTTGGAGGACCCGCAGGA
+CGTGCCGGTGACCAGCCACTGCACATGGTGAGAGGGGCAGCTGCTCTGCCACAGATC
+>ref|X03050.1| Rabbit (Basilea) Ig-kappa 1b9 mutant gene JK-CK intron and C(k)1 exon
+GGATCCCTGAGTCATTGCAGGGGCAGAGTAGAGCAACAACAAAGAGGCCTCCCAGTGGGTCAGAGAGTTCAAACACAACA
+ACATAGAACTTTCTGAAGGGGCAGGTGGAACCCGGAGGGAAACAAAGTCATCCAGATTCTACGTCTGCTCGCTGCCCCAT
+TGCAACAGCTGGGCAGGATAATCGGGCTGCTTCTGTCTGTCCATCCCTAATGCGCTCTGTGATCATCCACATGGCACCCA
+GGGGAGATGCCCACTGGTACCTAAGCCTCGCCCTCTGTGCTTCTTCCCTCCTCAAGTGATCCTCCAATTGCGCCTACTGT
+CCTCCTCTTCCCACCATCTGCTGATCAGCTGACAACTGAAACAGTCACCATCGTGTGCGTGGCAAATAAATTCCGTCCCA
+ATGACATCACCGTCACCTGGAAGGTGGATGACGAAATCCAACAGAGCGGCATCGAGAACAGTACAACACCGCAGAGCCCC
+GAAGACTGTACCTACAACCTCAGCAGCACTCTGTCACTGACCAAAGCACAGTACAACAGCCACAGCGTGTACACCTGCGA
+GGTGGTCCACAACTCGGGCTCAGCGATCGTCCAGAGCTTCAATAGGGGTGACTGTTAGAGTGAGACGCCTGCCAGGGCAC
+TGCCAGCGACCCTGAGGCCCAGCCTCGCCCCTCCCTCCCCTCAGTGGACCCATTCCCATCACAGTCCTCCAGCCCCTCCC
+CTCCCGGCCCTCACCCCCTCCTTGGCTTTAACCGTGCGAATGTTGGTGAGATGGATGAATAAAGTGAATCGTTGCACTTG
+TGACTTCTCTCTGCTTCTTCATTTAATGGTTATTACTCATGGTTCCCAG
+>ref|X57729.1| Rabbit immunoglobulin lambda light chain mRNA, isotype c7
+CGCTCCTCCTCCTCCTCACCCTCCTCCAGTGCACAGGGTCCCTGTCCCAGCCTGTGCTGACTCAGTCGCCCTCTGTGTCT
+GCCGCCCTGGGAGCCTCTGCCAGGCTCACCTGCACCCTGAGCAGTGCCCACAAGACCTACACCATTGACTGGTATCAGCA
+GCAACAAGGGGAGGCCCCTCGGTACCTGATGCATATTAAGAGTGATGGAAGTTACACCAAGGGGACCGGGGTCCCTGATC
+GCTTCTCGGGCTCCAGCTCTGGGGCTGACCGCTACTTAATCATCCCCAGCGTCCAGGCTGATGACGAAGCCGACTACTAT
+TGCGGCGCAGATTATAGCGGTGGCTATACATTCGGCGGAGGGACACAGCTGACCGTCACAGGTCAGCCCGCGGTGACCCC
+CTCGGTCATTTTGTTCCCGCCCTCCTCTGAGGAACTCAAGGACAACAAGGCCACCTTGGTGTGTCTGATCAATGACTTCT
+ACCCGGGCACCGTGAAGGTGAACTGGAAGGCCGATGGTACTCCCGTCACCCAGGGCGTGGACACCACCCAGCCCTCCAAA
+CAGAGCAACAGCAAGTATGCGGCCAGCAGCTTCCTCAGCCTGTCAGCCAATCAATGGAAATCCTACCAGAGTGTCACCTG
+CCAGGTCACGCATGAGGGCCACACGGTGGAGAAGAGCCTGGCCCCTGCAGAATGCTCCTAGGGCCCCACCCTCACCCACC
+CCCAGGGGCCAGGAGCTGCAGACCCAGAGACCAGGTCCATTGTCCCACCATTCATCATCCACCGTGCCTTGACCCCATTA
+AACTCTCAATAAATATCCTCACTTTTTCAATCAG
+>ref|X03054.1| Oryctolagus cuniculus IGH gene for Ig heavy chain variable region (RVH 832, V(H)a-negative)
+ATGGAGACTGGGCTGCGCTGGCTTCTGCTGGTCGCTGTGCTCAAAGGTAATGATGGAGAACGCGGGGCACTGAGTCTGGG
+AGAGGACGTGAGTGAGAGACACAGAGAGTGTGAGTGACAGTGTATTGACCAGACATCTGTGTTTGCAGATGTCCAGTGTC
+AGCAGCTGAAGCAGTCCGGAGGAGGAGCCGGAGGAGGCCTAGTCAAGCCTAGGGGATCCCTAGAACTCTTCTGCAAAGCC
+TCTGGATTCTCCCTCAGTAGCAGCTACTGGATATGCTGGGGCCGCCAGGCTCCAGGGAAGGGGCTGGTGTGGATCGGATG
+CATTTATGCTTGTAGTGGTAGCACTTACTACGCGAGCTGGGTGAATGGCCGATTCACCCTCTCCAGAGACATCGACCAGA
+GCACAGGTTGCCTACAACTGAACAGTCTGACAGCCGCGGACACGGCCATGTATTACTGTGCGAGAGACACAGTGAGGGGC
+CCTAGGGCGCACCTAGACACAAACATA
+>ref|X03053.1| Rabbit pseudogene for Ig heavy chain variable region (RVH 831, V(H)a-negative)
+ATGGAGACTGGGCTGCGCTGGCTTCTGCTGGTCGCTGTGCTCAAAGGTAATGATGGAGAACGCGGGGCACTGAGTCTGGG
+AGAGGACGTGAGTGAGAGACCCAAAAGTGTGAGTGACAGCTTCCTGACCAAGACGTCTGAGTTTGCAGGTGTCCAGTGTC
+AGGAGCAGCTGGTGGAGTCCCGGGGTGGCCATGTCACGCCTAGGGAATCTCTGAAACTCTTCTGCAAAGCCTCTGGATTC
+ACCATCAGTAGCAGCATCTGGATGTGCTGGGTCCGCCAGGCTCTAGGGAAGGGGCTGGAGTGGGTCGGATGCATTTATAC
+TGGTGGTCGTAGCACATACTACGCGGGCTGGGTGAATGGCCGATTCTCCATCTCCAGAGAGAAAACCCAGAACACGGTGT
+CTCTGCAAATGAACAGTCTGAGAGCTGCGACACGACCCTGTATTACTGTGCAAGACAGCTGAGCCTAGATAGAAACCTC
+>ref|NM_001101684.1| Oryctolagus cuniculus interleukin 1 alpha (IL1A), mRNA
X02852.1 Rabbit mRNA for interleukin-1 precursor
+AGTCAGTTCATTGGCACTTGAGTCGGCAAAGAAATCAAGATGGCCAAAGTCCCTGATCTGTTTGAAGACCTAAAGAACTG
+TTTCAGTGAAAATGAGGAATACAGCTCTGCCATTGACCATCTTTCTCTGAATCAGAAATCCTTCTATGATGCAAGCTATG
+AACCACTTCATGAAGACTGCATGAATAAAGTTGTGTCTCTGAGTACCTCTGAAACCTCTGTGTCACCCAACCTCACCTTC
+CAGGAGAATGTGGTGGCAGTAACAGCCAGTGGGAAGATTCTGAAGAAAAGACGCTTGAGTTTAAACCAGCCCATCACTGA
+TGTTGACCTGGAGACCAATGTCAGTGATCCAGAAGAAGGAATCATCAAGCCCAGATCAGTTCCTTACACCTTCCAGAGAA
+ATATGAGATACAAATACTTGAGAATCATCAAACAAGAGTTTACCCTGAATGATGCTCTCAATCAAAGCCTAGTTCGTGAC
+ACCTCAGATCAGTACCTCAGGGCAGCTCCACTACAAAATCTGGGCGATGCAGTGAAATTTGACATGGGGGTCTACATGAC
+ATCAGAGGATTCTATACTTCCTGTAACTTTAAGAATCTCACAAACTCCACTGTTTGTGAGTGCCCAGAATGAAGATGAAC
+CTGTGCTGCTAAAGGAAATGCCTGAGACACCCAGGATCATCACAGACAGCGAGAGTGACATCCTCTTCTTCTGGGAAACT
+CAAGGCAATAAGAACTACTTCAAGTCAGCAGCCAACCCACAGCTGTTTATTGCCACAAAGCCAGAACATCTGGTGCACAT
+GGCAAGGGGGTTACCTTCGATGACTGATTTTCAGATCTCATAAAACCAGCCTTAGCTCTGGAAGTCCACTCACTAGTGAA
+GTGTTGACCATCTGTATGTACCGTGTACATGAAGAAGCCAGTCTTCACTCTTAGTCATTGGCTGAGCATGTGCTGAGCCT
+GCATAATTCTACATGAATGTTTCCCCTCTTTGTAAGAGAGAAGCCAAGTCTAATGGGACCAACACTAACATATAATGTTG
+TTTGTTGTTGAAAGATCACCCTATACTTTGCACAGTACCAATCATTTTAATTATTGTTCCTGATAACAACCTTAAGAGGA
+CCAGGGCTACTGACTATGGCTACCAAAAAGATTCTACCCATATTACAGATGGGTTAGCTAAGGCATAATAAAACTAACAG
+ATACACATAATGATAGAATGAGAAGCTACACAGAATATCATTTCGACTATTTGCCTTCCGCTGTTAAGACTGTTAGATTC
+TTAATCAAATAGCATAAGTTCCTGGAACCTCAGTTTTATTGTTTTCAAGATGGAAGAAATAAAACCTACATTGTTCCTGC
+CTTAATGGTTCTTTGTGTCAATTAGTGAGGTCATTTTGTTAAGATACTGCTTGAAGCTGAGCTTCAAGGAAAAAAATGTA
+ATCGTATTTTTAAATTATTTATATGTATGTATTTATAAATGTATTTAAGATAATAATTATTATTATATTTATAGCAGTTT
+CTTGAATAGTCTGACTTTGACTAGGCAACCTCAACAATAGTGTGCAGTGTTTTCTAGACAGAATGAGTCTGTTTTGCTTA
+CATGAGGATACTTTGATCCAAGTTGTACTTTATACATAGCCAAGAAGCTCTCAATTCTGGTACTGGAGACCCTGTACTTA
+TGATAATAAATTATTTGTAATTTATTTGAATGTTTGAGCTGATAACTGGGCCACTATTTCACTCTTCTGCCCTTAACCTT
+ATCTTCGCATTCTTCTGTCACTCATTTTACCTATAGTCAAATCATACTAGATAAAAGGGGATGAACTTAACTTTGGCAAC
+CATTGTATTCAAAGTTTCATTTCTGGGATATAATTAGTGCTTCCAATTTCTAAAAATTGACATCAAAACATAGTGTTACC
+TTTTATCTTCAATAATGATTAATTTGTTATTATCAACCAAAATTGAATAAACCTCAAAAATGAC
+>ref|Z11812.1| O.cuniculus interphotoreceptor retinoid binding protein gene, exon 1
+CGGCAGCCCCAGCACCCAGCAACCTTACCCAGGAGGAGCTGCTGGCTTGGCTGCAGAAGAGTATCCAACATGAGATCCTG
+GAACACAATGTGGGCTACCTGCGGGTGGATGACCTCCCGGGCCAGGAGGTGCTGAGCAAGCTGGGCGGGTTCCTGGTGGC
+CCATGTCTGGGGGCAACTCATGGGCACCTCCGCCCTGGTGCTGGATCTGCGGCACTGCACGGGGGGCCACGTCTCTGGCA
+TCCCCTACGTCATCTCCTACCTGCACCCGGGGAACACTGTCGTGCACGTGGACACCATCTATGACCGTCCTTCCAACACA
+ACCACGGAGCTCTGGACCCTGCCCCAGGTGCTGGGGGAGAGGTACAGCGCTGACAAGGATGTGGTGGTCCTCACCAGCGG
+CCGCACGGGGGGTGTGGCTGAGGACATCGCCTACATCCTCAAGCAGATGCGCAGGGCCATCCTGGTGGGTGAGCAGACCG
+TTGGGGGCGCCCTGGACCTGCAGAAGCTAAGGATAGGCCAGTCTGACTTCTTCCTCACCGTCCCCGTGTCCAGATCCCTG
+GGGCCCCTGGGCGGGGGCAGCCAGACGTGGGAGGGCAGCGGCGTGCTGCCCTGCGTGAGGACACCAGCCGAGCAAGCCCT
+GGAGAAGGCGCTGGCCATCCTCACCCTGCGCCGGGCCCTGCCGGGGCTGGTCCGCCGCCTACAGGAAGCCCTCCAGGAAT
+ACTACACGCTGGTGGACCGTGTGCCCGCCCTGCTGCATCACCTGGCCACCATGGACTTCTCCACGGTGGTCTCTGAAGAA
+GACCTGGTCTCCAAGCTCAATGCCGGGCTGCAGTCTGTGTCTGAGGACCCCAGGCTCCTGGTGCGTGCCATGGGGCCCAG
+AGAAACTGCTTCTGGGCTCGAGGCGGCAGTTGAGGACCCTCCAGAGGCAGCCCCC
+>ref|X15116.1| Rabbit immunoglobulin kappa light chain gene J-C enhancer
+AAGCCTGTCCGAGCGTCTGCTGACTTGTCGCAGGAAGGATTCTTGATTTTTTTATTTTAATGGTGCTCTCCCCACCCCCG
+AGGCCCTGACTCCCCACAGAGGGGTTTCCCAGGGCCCATCTGGCAGCTGCCCGCGGTCAGGAGTGAAGCTCACCAGTTTC
+TGCGAGGCAGGTGGCCCAGCTTACAGCTGACCCCTCCCGAGTCCTCCTGCAAACAGGCTGGCCTGGGAACGGGCGGCCAG
+GTGCAGGTCTCACTGTG
+>ref|Z18243.1| Oryctolagus cuniculus encoding kappa-casein
+CTTTGCTATAGCTAAGAGGTCAATTCAACCTACTGCCAAGCAAGACCCGACAGACAGAAGGAAAGGTGCAATGATGAAGC
+ATTTTCTTCTAGTTGTGAACATCCTGGCAGTAACCTTGCCTTTTTTGGCTGCAGACATACAAAACCAGGAACAGACAACG
+TGCCGTGAGAATGAGGAAAGACTGTTCCACCAGGTTACAGCTCCATATATCCCAGTTCACTATGTGATGAACAGATATCC
+TCAATATGAACCCAGCTACTACCTGCGCAGACAAGCTGTTCCAACTCTTAATCCATTTATGCTTAACCCGTATTATGTAA
+AACCAATTGTATTTAAGCCAAATGTCCAAGTTCCTCACTGGCAAATCCTGCCAAATATCCACCAGCCAAAAGTGGGACGT
+CACTCACATCCATTTTTTATGGCCATTCTCCCGAATAAAATGCAGGATAAAGCAGTCACCCCCACCACCAACACCATTGC
+TGCTGTGGAGCCTACCCCGATTCCTACCACTGAGCCAGTGGTGAGCACTGAAGTGATTGCAGAGGCTTCCCCAGAGCTCA
+TCATCAGCCCTGAGACTACCACGGAAGCAACTGCTGCATCAGCGGCAGCATGATACCAAGGAACATCAAAGAAGACAACA
+CAGGTCTTCCTAAAACCAAATGATTTCTTCCAACTCTTCAGCAGCTGTTTGCCTCCATCCATCAAAAGAAGTGATTTCAC
+TCATCCAGCTGCTTTTTCTTCTCTCAATTTTACATTCATGCCACATTTAATTATTCCT
+>ref|X55146.1| Rabbit gene for muscle creatine kinase, exon 1
+CTCCCTGAGGGGAGTGCCCCGCTTAGCCCTCAGCCCTGGCACCCACCAGGCAGAGGAGGCAGCTCCCAGAGTCCCCGGCT
+GAGGGGGCCTGCCCATGTCCTCGCGAGTCGGGCACCCAGTCCCCTTCCCTGGGGGCCTCGGGTGCCTTGTAAGGAGGCAA
+GGCCCAGGACACCCGAGCTGCCGGCTATAATTAGCCTGGACACGTGGGCCCCCCGCCAGCACCTGCCCTGAGCCCCCCTA
+CCCGCAGCCTTGGGTGCTGGGACTGCCGACAGCAGAGACCGCTCTAAAAATAGCTCCCTTCCTGGACGGCCCCTCCCAGC
+AGGCCCCCCACCCCCCGCTGAGGCTCACTGCTGGTGTCCCTGCCTGGTGCTCCCTAGGGTGTGCACCCACGGCAGGTGCA
+GAGGCAGGGGGCACCGCGGGGGGCTGGTAACAGCAGCAGGCCTAGGGGCCAGGGGACGGCGAGCTGTACGTGCCAGGACA
+CCCCCAGCCACTGTCCCGTGCTCCCGGCGGGGGCCAGCTGTCCCCCGCCAGCCCGACTCAGCACTTGCTCTGCACATCGG
+CCTGGGGCGGCCCATACAAGGGCATGGGGCTGGGCACAAGGCACGCCCGCGTCCAGGTGGGCACTGTGCCCGGGCATGGT
+GGGGGGAGAGGCTGGGCTGCCTTCCAGGCCCCCTCCCTGGGGCCAGCCCCGCCCAGCCAGTGGCACAGCAGGGTCCCCTA
+CATAAAGCCGGGGCCGCGGGCCCTGGATCTGCCTCAGTGTCGCCTGCAGGACACACGTAGCCCCGCTCAGCACAGCCCAG
+CCAG
+>ref|X07791.1| Rabbit MT-2 processed gene for metallothionein
M23602.1 Oryctolagus cuniculus processed metallothein-2 (MT-2) pseudogene
+GGATCCAGACTGCCTGGTTCAGTTTCTGGCTCTGCTACTCATTAGCTGTGTGACTGGGAAAGGCAATCTTTCTGTACTTC
+AGTTGTTTCCTTATATACAAATAGAGATAAGGACTTTATCCGAGAGTTATGAGAATTAAGTGCATTAATATTTTTATTTA
+TTTATTTATTTATTTATTTATTTGACAGGCAGAGTGGACAGTGAGAGAGAGAGAGACAGAAAGAAAGGTCTTCCTTTGCC
+GTTGGTTCACCCTCCAATGGCCGCCGCGGCCGGCGCACCGCGCTGATCCGGTGGCAGGAGCCAGGAGCCAGGTGCTTTTC
+CTGGCCTCCCATGGGGTGCAGGGCCCAAGCACCTGAGCCATCCTCCACTGCACTCCCTGGCCACAGCAGAGAGCTGGCCT
+GGAAGAGGGGCAACCGGGACAGAATCCGGCGCCCCGACCGGGACTAGAACCCGGTGTGCTGGCACCGCTAGGCGAGGATT
+AGCCTAGTGAGCCGCGGTGCCGGCCTAAGTGCATTAATATTTAAAGTGTTGAAAAAAAAAAAAAAAAAAAACTAAAATGG
+GACCGGCGCCGTGGCACAGTAGGCCAAGCCTCTGCCTGTGGGGCTGGCATCTCATATGGGCGCCAGTTCATGTCGTGGCT
+GCTCCTCTTCTCATCCAGCTCTCTGCTATGGCCTGGGAAGGCAGTAGAAGATGGCCCAAGTGCTTGGGCCCCTGCACCTG
+CATGTGAGACCTGGAAGAATTTCCTTGCTCCTGGCTTCGTATTGGCCCAGCTCCAGCTGTTGCGGCCATTTGGGGAGTGA
+ACCAGTGGATGGAAGACCTTTCTCTCTGTCTCTCTCCTCTGTAACTTTACCTCTCAAATAAATGAATAAATCTTTTAAAA
+ATATTTGAAGTGTTTAACACACCTTCCAACTGCCGGACTGACTCTTCACCTTTCGCTTTGTATTTCCAGCTTCACCTGGG
+CTCAAAATGGAGCCCAGCTGCTCCTGCATCACCAGTGACTCCTGCACCTGTGCCAGCTCTTGCACATGCATGTCCTGCAG
+GAAGAGCTGCTGCCCAGTGGGCTGTGTCCAGTGTGCCCAGGGCTGCATCTGCAAAGGGGCATCAAACAAATGCAGCTGCT
+GCGCCCCTGAGAGCCTGGCTCCCACATGCAAATAGAGCAACGTGTGCAAACCTGGATTTATACCCCCATACAACCTGACT
+TCTATGCTGCATTCCTTCTTGTGTGAAATATGTGAATGAGAATACAAGTTGTTGATTTTAAAAGAATAAAGTGTTTAGAA
+CATGGTCTAGGGGCCAATGTCGTGGCATAGCTGGTTTAGCCACTACCTGCGATGCTGGCATCCCACATGGGTACTGGTTT
+GAGTCCTGGCTGCTCCACTTCCAAGCCAGCTCCTGCTAATGCACCCAGGCCTGGCTGTTGCAGCCATTTGGGGAGTGAAC
+CATAGAATGCAAGAAGATGGCTCAGTGCTTGGGCACTTGCACCCAAGTGGGAGACCCAGATGCAGCTCCTGGTTCCTGGC
+TTTGGCTTGGCCCAGCCCTGGCCATTGCAGCCAGTTGGGGAATGAACCAGCAGCTTGGAAGATCTCTCTGTCTCTCTCTC
+TCTCTCTGTAACTCTTTCAAATAAGCAAATCTGGCCGGGGCCGCGGCTCAACAGGCTAATCCTCCGCCTAGCGGCGCCGG
+CACACCGGGTTCTAGTCCCGGTTGCCCCTCTTCCAGGCCAGCCCTCTGCTGTGGCCCGGGAGTGCAGTGGAGGATGGCCC
+AGGTGCTTGGGCCCTGCACCCCATGGGAGACCAGGAAAAGCACCTGGATCC
+>ref|X07790.1| Rabbit MT-I gene for metallothionein
M20015.1 Rabbit, metallothionein-I, exons 2 to 4
+CTGCAGTGCCAGCATCCCATATGGGCGCCAGTTCAAGTCCTGGCTGCTCCACTTCCAATCCAGCTCTCTGCTGTGGCCTG
+GGAAAGCAGTAGAAGATGGCCCAGGTCCTTGGGCCCCTGCACCCACGTGGGAGACCCTGAAGAAGCTCCTGGCTTCGGAT
+CAGTGCAGCTCCAGCCGTTGCAGCCAGTTGGGGAATGGACCAACAGATAGAAGACCTCTCTCTCTCTCTCTCTCCCTCTC
+TCTGCCTTTCCTTCTCTCTCCGTGTAACTCTGACTTTCAAATAAATAAATCTTTAAAAAAAAATGAAAGAAAGAAAAGGA
+TGATAAACAGAGCTTGGCACGGTCTACAGGCTATATAATAGCTAAAGATCCTGAAAGAGAAACCATCACTTTTCTGCTTT
+TTAAGGTAACACAGGCTCTGTATACTGCCTAAGGACAAGACTTTAAAATGAGCTTTTCCCCTGGGGGCATCCTGGAGTAG
+GTGGGGGTGGCTAGGCTGAGGGGAGCCCCTGGAGAGTCTTCCAGATAGGAGGACCCAGACAAATGTGCCCAGCCACCCCT
+CAGGCTCAGGGAATTGGGGGGAGGGAGGCAGAGCCCCGGATCTGCTTTCCTGCTGTGTACGAGAGAAACGGGGCCAAGGA
+CTGGCATGGGAACAAGGACAGGCACAGCGGGGGACGCAGGGGTCATGTTCATGGCCAGACCTCTGCACACAACTCCCTCG
+CTGCGCTCCACGGCCAGCACCCCATCCCGGGCCGTGAGCAGAGGGCTGGGGTTGCACACGCACTCCGGGAAAGGTGAAGC
+TGCGGTCAACGGTGCGAGGGGGCACGGGGAAGTGCCGGGAATTGGAGAGGGGGCGGGAAGGCTACAGGGAAGTCCAATAC
+AGCCGGGCGCACAGCCTCGCTCGAGCGATCCGGAGCCAAAGAGCCTCCCCCGCCGTGCGCACCGAGCGGCGCTCCGGGAG
+TCGTGCGCCCGGCCCGCGCGGTGAGCTCAGCACGGCACGGACTGCGGGCCGTCGCCAGAGCTGGGGCGGGTGCAAGGGCC
+GGGGCGGCGCCTTTGCGCCCGGGCTCCCTCCCGCGGCAGTTAAAAGGAGCCGGCGCCGCCTGGGCTCCAGCGCGCCTTCC
+ACGAGCCTTGCGGAGTCTTCGCCTCTCACTTTGAACGTCGGACCTCACCTCGCTCGAAATGGACCCCAACTGCTCCTGCG
+CCACAGGTAAGGGACGCTGGCTGTGGGCTTGGGATGCGATAGCCCTGGGTGGGGGGAAGAGGCCACGTTCAGGTCGCTGA
+GCTGAGAGCGGTTCCAGCTTCCCGGGGCTTCTGGTTTCTTCGCCAGAGCCGAGGTCCCGGGGCTCCGGGCTGGCCCGCCT
+GACGTCATCCAGCAGGTCGGGGCGAGGGGGTGGGGGCTGGTGGCTGTGACCCCGCGCTTCGTGCAGGCCTCCGAGGACCC
+CGGCTGGCTGGGAAGCAGAGAACCTTGCCTTTTCTGAGTTCAGGACATAAGGTCCTTGCCCCTGGTCCCAGTATTCCTGG
+ACTGGGCTGGGATAAGACCAGGAGGACCCGTGCTCTTCCCGGAGTGAGGGGACAGAGTGAGGTTTCTCTTTCTTTTCCCT
+GAGCGGGACAGGAACTCTCGGGTCTGATCTGCATCACACCCATCGCTCATTGCTGGCCTTTCTCCTCCTCCCAGGCAACT
+CCTGCACCTGTGCCAGCTCCTGCAAATGCAAAGAATGCAAATGCACCTCCTGCAAGAAGAGTGAGTGTGGGCTTTCCCTG
+GGAGACCGGGCTGGGGGCGGGCGGACCCAAGGCCAGTGAAGGTGAAGGAGTCGGGGGCTGAGCAGGCAGGAACTGGCCGG
+TGCCCAGCTTCCCCTCAGCCCCTGATTTGGGGTCAGAGCTCCAAAGGCCATGGAGAAGAGTGTGTCCCAACTTCCCAAGA
+TAGACGGCCCAGAGGGGACAGCCACTGTTGTCAGGGGCAGAGCCAGAACTTGAACCTTTGTCTCCTGTGTCCTGATGGAG
+CCTTCCAACCCACCCAGGTCTGAAGCACTGGATGCACTTGACCTTGGGGACCACGTGTGGCTTCTGAGCTGCAGGGTCGA
+CCTTTTCCTATGTAGGCTCCCAGGGCTGCTTTGGAGGGGGTAGACCCCTGTCTCATCCTGAGGAACTCCTCACATCCCTG
+GACAGTTTGGTGGCTCCATTGCTCCCAGAGGTCCTGTTGCTGCCCCTCTGTGTGACTCCCAACCCAAGCATCCACCAGCT
+GTGTGCCTGACCGGGCATGCCAGCTAGAACTAGGGCTCCTGCCGGGCTGGGGGCCGAGCCTGTGCCAGGGAGGGGGCCAG
+TCAAGTCAGCTCTGACCTCTTCCCTCTCTCTCTCCTCTTCCCAGGCTGCTGCTCCTGCTGCCCCGCCGGCTGCACCAAGT
+GTGCCCAGGGCTGCATCTGCAAAGGGGCATCGGACAAGTGCAGCTGCTGCGCCTGACGCCCGCAGAGCCCGGCTCCGGAT
+GTGAAATAGTGCACTGTGTACAAACCTGGATTTTTTTTTTTTTTCATACGAGCCTCATTTGCTACATTCCTTTTTCTATG
+AGAGATGTGGATGACAATAAACCCATTCAGACTTTCTGTGGCTCCAGGTGCCTTTGGTGTGTGGGAACATGGACTTGGTT
+GTAGTCGGGATGTAGAAGAAGTCAGTTGTGGGGAGGTGACACTGGGAGTGGGGGTCCGGGTACAAGGTGTTCTAGGTGTG
+CTGCAGCCTGGTCTAGCCTGGGCTGTCCTTTGTGGGCTGTGGTGGGGAATTC
+>ref|V00886.1| Rabbit myosin heavy chain messenger fragment (aa 1643 to 1669)
+AGCAGGAAAGTGGCAGAACAAGAGCTCCTGGATGCCAGTGAACGTGTGCAGCTCCTCCATACTCAGAATACCAGCCTGAT
+C
+>ref|V00887.1| Rabbit LC2 myosin light chain messenger fragment (aa 26 to 37)
+GATCCAGGAGTTCAAGGAGGCCTTCACCGTCATCGATC
+>ref|V00888.1| Rabbit LC2 myosin light chain messenger fragment (aa 112 to 145)
+AAGGGCACAATCAAGAAACAGTTCTTGGAGGAGCTGCTGACCACGCAGTGTGACCGCTTCTCCCAGGAGGAGATCAAGAA
+CATGTGGGCGGCCTTCCCCCCGG
+>ref|X06419.1| Rabbit mRNA for Na(+)/glucose co-transporter
+GTCGTCGCCGCCGCCACGCCGCCATGGACAGCAGCACTTTGAGCCCCCTGACCACCTCCACCGCGGCCCCCCTTGAGTCC
+TATGAGCGCATCCGCAATGCGGCCGACATCTCCGTCATCGTCATCTACTTCTTGGTGGTGATGGCCGTCGGGCTGTGGGC
+TATGTTTTCCACCAATCGGGGGACGGTCGGAGGCTTCTTCTTGGCGGGTCGGAGTATGGTGTGGTGGCCGATCGGAGCCT
+CTCTGTTTGCCAGTAACATTGGAAGTGGCCACTTTGTGGGGCTGGCCGGGACGGGAGCTGCTTCAGGCATTGCCACTGGG
+GGCTTTGAGTGGAACGCCCTGATCATGGTGGTCGTGCTGGGCTGGGTGTTTGTCCCCATTTACATCAGGGCTGGGGTGGT
+GACGATGCCAGAGTATCTGCAGAAGCGGTTTGGAGGCAAGAGGATCCAGATCTACCTTTCCATTCTGTCCCTGTTGCTCT
+ACATTTTTACCAAGATCTCGGCAGACATCTTTTCCGGAGCCATCTTCATCCAGCTGACCTTGGGCCTGGATATCTATGTG
+GCCATCATTATCTTATTGGTCATCACTGGGCTCTACACCATCACAGGGGGCTTGGCCGCTGTGATCTACACGGATACCTT
+GCAGACTGCCATCATGATGGTGGGCTCTGTGATCCTGACTGGGTTCGCTTTTCACGAAGTAGGAGGGTACGAGGCCTTCA
+CGGAGAAGTACATGCGAGCCATTCCCAGCCAGATCTCCTACGGAAACACCTCCATCCCACAGAAGTGCTACACCCCAAGG
+GAAGACGCCTTCCACATCTTCCGAGATGCCATCACTGGGGACATCCCCTGGCCCGGGCTCGTCTTTGGAATGAGCATCCT
+CACCCTTTGGTACTGGTGCACTGATCAGGTCATTGTGCAGCGTTGCCTGTCAGCCAAGAACTTGTCCCACGTGAAGGCCG
+GCTGCATTCTGTGTGGGTACCTGAAGGTGATGCCTATGTTCCTCATAGTGATGATGGGGATGGTGAGCCGTATCCTGTAC
+ACAGACAAAGTTGCCTGCGTCGTGCCCTCGGAATGTGAGAGATACTGTGGCACCAGGGTTGGCTGCACCAACATTGCCTT
+CCCAACCTTGGTGGTGGAGCTGATGCCCAATGGGCTGCGGGGCCTGATGCTGTCCGTCATGATGGCGTCTCTTATGAGCT
+CCCTGACCTCCATCTTCAACAGCGCCAGCACCCTCTTCACCATGGACATCTACACCAAGATCCGGAAGAAAGCATCTGAG
+AAGGAGCTCATGATCGCAGGAAGGTTGTTCATGCTGTTCCTGATTGGCATCAGCATCGCCTGGGTGCCCATTGTGCAGTC
+AGCCCAGAGTGGGCAGCTCTTTGATTACATCCAGTCCATCACCAGTTACTTGGGGCCGCCCATTGCTGCTGTCTTCCTGC
+TTGCTATTTTCTGGAAGAGAGTCAACGAGCCTGGAGCCTTTTGGGGGCTGGTCCTCGGATTTCTGATTGGGATTTCCCGT
+ATGATTACCGAGTTTGCCTATGGAACCGGGAGCTGCATGGAACCCAGCAACTGCCCCACGATTATTTGTGGTGTGCACTA
+CTTGTACTTTGCCATCATCCTCTTTGTCATTAGTATCATCACCGTTGTGGTTGTCTCCCTCTTCACCAAGCCCATTCCAG
+ATGTGCATCTCTATCGTCTGTGCTGGAGCCTACGTAATAGCAAAGAGGAGCGCATTGACTTGGATGCAGGAGAGGAAGAC
+ATTCAAGAAGCTCCAGAGGAGGCCACTGACACAGAAGTTCCTAAGAAGAAGAAAGGATTCTTCAGGCGGGCCTATGACCT
+GTTTTGTGGGCTGGACCAGGATAAGGGACCCAAGATGACCAAGGAGGAGGAGGCTGCCATGAAGCTGAAGCTCACAGACA
+CCTCCGAGCACCCTCTGTGGAGGACCGTGGTGAACATCAACGGTGTCATCTTGCTGGCCGTGGCTGTCTTCTGCTACGCG
+TACTTTGCCTGAGTCCCGGCCGCTGCTGCCACTCGGCAAGGCTGGCGTGTGTACTCTCTGCCTGCCTTTCATCCCATGCT
+GTGGTGGCGAAGGGGAATCAATCCCTTGCAAAGTTTGCCCCATTTGGATAAATGTCTATATGTAAATTACAGGCTGGTTG
+GAGG
+>ref|NM_001101721.1| Oryctolagus cuniculus solute carrier family 9 member A1 (SLC9A1), mRNA
X59935.1 Rabbit mRNA for Na(+)/H(+) exchanger
+CTCCCAGAGACCTGCTGCTCTGTCCCTAGGGCGCGCTCTTCTGCCTCTCTGCCTCTCCCAGGTCTGCAGCTCCGGACCTT
+TTGGTCTCCTTCCGTGGTCCTTTCTGGGTCCCTGTCCCTTTCCCCAGTTTGGAGTTGCAGATCAGGAAGCCAGACTCCCT
+CCACCCCCAGAGGACTGCTCCTACAAAACTTGACTCTATAACATGAACTCCTCCTAGGGACCAGCCCTGTCCCCTCCCTC
+CCCCTCCCCCTGCTCCCTATGTCCCAGGTCTCACTCTCACTTCGCTAAGGGTCTCGGCCTGCTGGGCGGAGGGCGCACCG
+CCATGCTTCTGTGGTCAGCTGTCCGTGGCCTCTCTCCACCTCGGATCGTCCCCTCCTTGCTGGTGGTGGTGGCCTTGGCG
+GGGCTGCTCCCTGGCCTCAGGAGCCATGGGCTCCAGCTCAGCCCCACTGACAGCACCACCCCAGACTCGCAGCCTTCACG
+GGAACGCTCCATTGGGGATGTCACCACCGCTCCACCGGAAGTCACCCCCGAGAGCCGCCCCGTGAACCGTTCGGTCACTG
+AACATGGCATGAAGCCGCGGAAGGCCTTTCCGGTCCTGGGCATTGACTACACACACGTGCGCACCCCTTTTGAGATCTCC
+CTCTGGATCCTGCTGGCCTGCCTCATGAAGATAGGTTTCCACGTGATCCCCACCATCTCCAGCATCGTCCCGGAGAGCTG
+CCTGCTGATTGTGGTGGGGCTGCTGGTGGGGGGCCTGATCAAGGGCGTGGGCGAGAAGCCGCCCTTCCTGCAGTCGGAGG
+TCTTTTTCCTCTTCCTGCTGCCGCCCATCATCCTGGACGCCGGCTACTTCCTGCCGCTGCGGCAGTTCACCGAGAACCTG
+GGCACCATCCTCATCTTCGCCGTGGTGGGCACGCTGTGGAACGCCTTCTTCCTGGGCGGCCTCATGTACGCCGTGTGCCT
+GGTGGGCGGCGAGCAGATCAACAACATCGGGCTGCTGGACAACCTGCTGTTCGGCAGCATCATCTCGGCCGTGGACCCCG
+TGGCCGTGCTGGCCGTCTTCGAGGAGATCCACATCAATGAGCTGCTGCACATCCTGGTCTTCGGCGAGTCCCTGCTCAAC
+GACGCCGTCACTGTGGTGCTGTATCACCTCTTTGAGGAGTTTGCCAACTACGACCACGTGGGCATCGTGGACATCGTCCT
+GGGCTTCCTGAGCTTCTTCGTGGTGGCCCTGGGCGGGGTGTTCGTGGGCGTGGTCTACGGGGTCATCGCAGCCTTCACCT
+CCCGATTCACCGCCCACATCCGCGTCATCGAGCCGCTCTTCGTCTTCCTCTACAGCTACATGGCCTACCTGTCGGCCGAG
+CTCTTCCACCTGTCGGGCATCATGGCACTCATCGCCTCGGGAGTGGTGATGCGGCCCTACGTGGAGGCGAACATCTCGCA
+CAAGTCGCACACCACCATCAAGTACTTCCTGAAGATGTGGAGCAGCGTCAGCGAGACCCTCATCTTCATCTTCCTCGGCG
+TCTCCACCGTGGCCGGCTCCCACCACTGGAATTGGACCTTCGTCATCAGCACCCTGCTCTTCTGCCTCATCGCCCGCGTG
+CTGGGTGTGCTGGGCCTGACCTGGTTCATCAACAAGTTCCGCATAGTGAAGCTGACGCCCAAGGACCAGTTCATCATCGC
+CTACGGCGGCCTGCGGGGCGCCATCGCCTTCTCGCTGGGCTACCTCCTGGACAAGAAGCACTTCCCCATGTGCGACCTGT
+TCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGACCATCCGGCCCCTGGTGGACCTGCTG
+GCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGCAGTTCCTGGACCACCTTCTGACAGG
+CATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAACCGGTTTAACAAGAAGTACGTGAAGA
+AGTGTCTGATCGCGGGCGAGCGCTCCAAGGAGCCCCAGCTCATCGCCTTCTACCACAAGATGGAGATGAAGCAGGCCATC
+GAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCTCCATGCAGAACATCCACCCCAAGGC
+CCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATCCGCAAAATCCTGAGGAACAACCTGC
+AGAAGACCCGGCAGCGGCTGCGCTCCTACAACAGACACACGCTGGTGGCCGACCCCTACGAGGAGGCCTGGAACCAGATG
+CTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGACTGTGCCGGCGCACAAGCTGGACTC
+GCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAGGCAGACTTGCCGGTCATCACCATCG
+ACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAAGGGCAAGGTCCTGGGGCTGAGCCGG
+GAGCCGAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGATGCGGCCCAAGGAGCCCTCGTCCCC
+CGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGGATGCAGCGCTGTCTCAGCGACCCCG
+GCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCGCAGCGCACCTGCCGCCAGACTCTCC
+CGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCACCGCATGGCAGCTGGGCCCAAGCGCC
+CACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCGGCGGAGCTGCCTTCCCCATCGTCTGGCTGGGG
+CGGTCTGGCTCCCTCCAGGGGTCGGGGCCCCTGCCCCCACTCCATCGCCCCCTCACTCAGACCAAGCTTCCTTTCTAACC
+AAAGACCTCTGGCTCCAGACGGGGAGGGGGCCGAGGGAGCCTGGGCCCAGGGGAGGCAGCAGGGGTACCAGGTGTGCGCC
+CGGAGCAGCGCAGGCGGCCCGCGAGGGTCTCTGCCCCGAGCTGCTGTGCCGGAGCCGAGACGTTTCTGGCGGTGAGGAGA
+CTCCACTGCGCCCCTACAGGGCCAGGCGCTGAGCTGTTCAGGGTTTTGCTTCTCTGCACTTCCGAGGACGATTCTGTCCA
+CACAGAGGGCGCTCCTGGGTTTAAACCGTTTTTGAAGCCCTTGGCTCCACGGACATCTGCCCCTCTGGCTCCCTCCCTCA
+GCCTGTGCAGAGAACCAGTGGCCTCTCCCAGGTCGTCCTCTGCTGTTGTCCGAGGCTCTGATTTCAGGAAGGGGCCCCAC
+CCCGATCATGGGCCTCCGGGGCCTGACTCGCTTCCTGTGGGACTGTCTTTCCGACCTGCCCCACCGCTGGGTTGGCCCTG
+GAGCCCCGACCTCGCGTTCACCGCAGCCTGCTTGCTGTGGAGCCCGGTCCTCAGGGAGAAGGCCCCGCGGATCTCCCGCT
+GCAGCCAGGGCTGCCGGGCTGGGCAGGGACCTGGGCCCCCAGAGACACACACTCCCCCCATCACTGTCACCATGGCCAGG
+CCCGGGCTGTCGGTGTCGGTCCCCCCCCCAGGACACTCCCCCTCCCAGGATCGTGCAATAGTCAGTGTCCCACCTCCCAG
+TGCACTGGGCCGCAGGCGCCAAGCCCACCTGCCCATCTCCTGTCCCGTGGGCAGCAGTGCCTGTGCCAGGGTGACGTCGA
+CAACCATGTACAAAGCCACCGCAGCTGCTGCCGCTCTGCCGCCTGTACAGAAGAAACCGAATCTTTTTCATATTCTAATA
+ATCTATGTGAGTTTTTGAAAAAAAAAAAAAAAAAAAA
+>ref|X53766.1| Rabbit NAT2 gene for arylamine N-acetyltransferase (EC 2.3.1.5) exons 1 and 2
+GGGAGTGGGATTAAAACCTTGTACCTTCTTCTTTGCTCTCTTCTACATTTCTGGATCTGCTTTTTCCTGGACCTTATCCA
+ACTATCACCTCCACCTCTCTCGATGGGGGAAATCTGGCTTCAAGTTCCCAGTAAGCAGGAACCCTGTGTAACACAAAGGC
+ACAACTCTCAGCCTTGGCATGGAACCAGCAGATAGTGCTTGTATCTCTCCACATTTTAGTGAAAAAAAGCCGACCAAGAG
+GTCCACTTGGGCAACCAGAGGCCCTGTGACTACATTTCCCAGAGTTCACAGTGCTGACTCTTACTGGATTTGGAGGTGGG
+GAGATCTGGAACACAATAAAAGAAAGTCCTCTGCAGATGTGAAAGTGAAAGAATAGCATTCAGCCCGGTTCCTGATTGCA
+GGTCCTGGAAACGCGGTAAGTGGAGCTCCGTGACTGCAGGGTTATGAGATCTGGGTTTAATTCTATCTTACATGTGAGTC
+CATAGGCCAGATTGTTCACCTTACCAGAATTTCAGGTCTAAGGCTGTTCAGAAAGTATGTGTGGTCCACATTTGGAGGAC
+AATGCCATAACTACTATACAGTATAATGATGAATGTGGAAGAATCTTCTTTCATCCCCCTGGCTGAGTCACGGCTCATGA
+GAACATGAGCAAATCATTTAGCTTTTTAAAACTATTTTTCCATCAGCAAAATGGAGTTAGTTATAGTGCCTACTTAAAAA
+GTTTGCCATAGGGATTAAATATGTGTATTAAGAGATAACTAGTGTGTTTAAAGGAACCTACTTGCCTGGCTTTCCCTCTT
+GGGTACTTGTAACAGTGCTGTCCACCCTCTTCTTTGCTTGACAGGATACATCCCAAAGGACCATGTCTTGCCGGCACTTC
+CTGATCAGAAATCCTTTAGCAATCCCAAATGTCTGGGGAGGTTGAATTGTGTGGTCTGAAGACTGTTTCAAGAGGAATTC
+TAATCCAGTTGTGTCAACATCAGAACTAATAAAGGTAAACTAAAGCATATTAATGATTTAAAGTATTGATTTAAGTCAAT
+AGCAACTCAAGTATTAAGCAACACCAGACTGCAGATAATAGTTCAGTGCCCTTCTCTAGGGAGGTGAGAGAGAAACTTTC
+CTGATATGTTAGCAGAAGCAAGATAAAGGAAATCTATTTGATTGGTTAGAGTGAAAGCTCTCTAGCTAGAGGTTTACTAG
+TGGTTTCTGGTGGGTAAAGTCCAGTTTTGTTTTACAGTTTACATTGGGAGCCCAAAGTCCTGGAGCCATCGACGTTACAG
+TCTCTTACCGACCTGATTTCTTCTTCCTTATGAAATATTTTCCTTCCATGCCAAATGCTCGAGAGGGTCTCTTAAATTTT
+TAATTTAAATAATTGAACATAAATACATTTCACTATCAAGCATGCTGACCCAGACTCCTGGAATCCCATCCCCCTTGCTG
+TGCTGCCTGTTTTTTTCTTCACTTCAGGATAATAATTTTTTATCTTTATTTTGGTTTTATTTTTGATATTTGAGAGATTC
+TTCATTTTTTATGTTTCAAAAACTACATTCTGTGTTTTAGAGAAAAGTCATAGTGTGTTTTTAAGTCTGTCTTTTCTGTT
+TTTTTCTAGAGTTTTGGCTGGGAAGATAAAATATCCCAAGTCACCTGAATTAAAACTGAAGATCAACCCTCCTTCAACTT
+ACTAAGGTAGGAACTGAGTGCATTTCTTTGAGTCCTTAGTAGGCGACCTAAGTGTGTTCACTCTGCCTACTTAAGCCGTC
+TCTTTCAGGTATGATAAAGCTGTCAGGGAAGGATATATCCATGCAAAGAGATGATACAAATCACCATAAAAAGCTAACAG
+TGGTTTCACCCAGCCATTTTTCTGGCAACCGTTTTCCAAGAGATTTCTACATTTCAACTTGAAATATAAGATTTATTATG
+TTTAGTCAAAGAATATAGAAGTATTACTAAGGTATAACATGTAGCTAGTATCCAAGCCCTTAACAAAAACTGACTTCTTT
+TGAATGCACCTGTAGTTACAAAACCCCAATTCAATGTTTTTATCTGACAAAAAAAATCAGAAGTAGGGAAGTGAATGTGG
+AGGAGGATGAAGAACAGAAGAGAGGGGGCAGAGAGAGACAAACACTTGAAAACATAATATAGCATTTAAAAGAAGAATAA
+AGTAAGCTCTATGGGCCAGCACTGTGGTGCAGCAGGTTACCACCTTGGCCTGAAGCACTGGCATCCCATATGGGCATCAG
+TTCTAATCCGGGCTGCTCCACTTCAATTCTAGCTCTCTGCTGTGGCCTGGGCAAGCAGTAGAGAATGGCCCAAGTCCTTG
+GGCCC
+>ref|X58123.1| Rabbit mRNA for nebulin (partial)
+GGCTAACAAACTGAATATGGACAAGAGGCTGTACACTAAGAAATGGGACAAAGATAAGACCACCATACACGTCATGCCCG
+ATACTCCAGATATCCTTCTCTCCAGAGTAAACCAAATCACCATGAGTGATAAACTGTACAGAGCTGGCTGGGAAGAGGAG
+AAGAAGAAGGGCTATGATCTGAGGCCTGATGCCATCTCCATAAAGGCTGCCAAAGCTTCTAGAGACATTGCCAGTGATTA
+CAAATACAAGCAAGCGTATGAGCAAGCCAAAGGAAAACATATTGGATTCCGCAGCCTGGAAGACGACCCCAAGTTGGTGC
+ACTTCATGCAGGTGGCCAAGATGCAGTCAGACCGGGAATACAAGAAGGCCTATGAGAAATCCAAGACCTCCTTCCACACC
+CCCGTGGACATGCTCAGTGTGGTAGCAGCCAAGAAGTCCCAGGAGGTGGCCACCAACGCCAACTACAGGAATGTGATCCA
+TACCTACAACATGCTTCCTGATGCCATGGGCTTTGAGTTGGCCAAAAATATGATGCAGA
+>ref|X61504.1| O.cuniculus NHE-1 mRNA for renal Na(+)/H(+) exchanger
+TGCAGCTGGGCCGGGGCGCGCAGCGCTGCGCCGCGCCGGGGCCGCACCGACGGGCGTGTTGCTGCTGGCCCACCGGGAGC
+CGCCCCCCGCCCGCGTCGAGGCGCCTTCCCTCCAGGCCGCCTGCCTCCGCCTTCCGCCTCCCTCCATTTCCCCGGAATCT
+CGGCCGGACGCGCCCGGACCCCGGCCCTTCTCTGCAGGGGGAAGCTCCGGGCTGCCTTCCGGCCTCACTTCCTCACAGCC
+CGGCCCGCCACCCCCAGCCCTCTCTTTTTCTCCTTCCTGGACCGGCTTCGGTCCCCTCCCTCTGGCTCAGGCTCCCTCCC
+CCTTCCCCTAGCCGAGTCCCAGGTCCTCAGTCAGTTTCCTGAGCCGGAGGTGCCAGCCTGCCTTCTTTCCCTCCCCCGGG
+CTCCCCCCATCCCGTCCCTTGCTCTGTCCCTAGGGCGCGCTCTTCTGCCTCTCTGCCTCTCCCAGGTCTGCAGCTCCGGA
+CCTTTTGGTCTCCTTCCGTGGTCCTTTCTGGGTCCCTGTCCCTTTCCCCAGTTTGGAGTTGCAGATCAGGAAGCCAGACT
+CCCTCCACCCCCAGAGGACTGCTCCTACAAAACTTGACTCTATAACATGAACTCCTCCTAGGGACCAGCCCTGTCCCCTC
+CCTCCCCCTCCCCCTGCTCCCTATGTCCCAGGTCTCACTCTCACTTCGCTAAGGGTCTCGGCCTGCTGGGCGGAGGGCGC
+AGCGCCATGCTTCTGTGGTCAGCTGTCCGTGGCCTCTCTCCACCTCGGATCGTCCCCTCCTTGCTGGTGGTGGTGGCCTT
+GGCGGGGCTGCTCCCTGGCCTCAGGAGCCATGGGCTCCAGCTCAGCCCCACTGACAGCACCACCCCAGACTCGCAGCCTT
+CACGGGAACGCTCCATTGGGGATGTCACCACCGCTCCACCGGAAGTCACCCCCGAGAGCCGCCCCGTGAACCGTTCGGTC
+ACTGAACATGGCATGAAGCCGCGGAAGGCCTTTCCGGTCCTGGGCATTGACTACACACACGTGCGCACCCCTTTTGAGAT
+CTCCCTCTGGATCCTGCTGGCCTGCCTCATGAAGATAGGTTTCCACGTGATCCCCACCATCTCCAGCATCGTCCCGGAGA
+GCTGCCTGCTGATTGTGGTGGGGCTGCTGGTGGGGGGCCTGATCAAGGGCGTGGGCGAGAAGCCGCCCTTCCTGCAGTCG
+GAGGTCTTTTTCCTCTTCCTGCTGCCGCCCATCATCCTGGACGCCGGCTACTTCCTGCCGCTGCGGCAGTTCACCGAGAA
+CCTGGGCACCATCCTCATCTTCGCCGTGGTGGGCACGCTGTGGAACGCCTTCTTCCTGGGCGGCCTCATGTACGCCGTGT
+GCCTGGTGGGCGGCGAGCAGATCAACAACATCGGGCTGCTGGACAACCTGCTGTTCGGCAGCATCATCTCGGCCGTGGAC
+CCCGTGGCCGCGCTGGCCGTCTTCGAGGAGATCCACATCAATGAGCTGCTGCACATCCTGGTCTTCGGCGAGTCCCTGCT
+CAACGACGCCGTCACTGTGGTGCTGTATCACCTCTTTGAGGAGTTTGCCAACTACGACCACGTGGGCATCGTGGACATCG
+TCCTGGGCTTCCTGAGCTTCTTCGTGGTGGCCCTGGGCGGGGTGTTCGTGGGCGTGGTCTACGGGGTCATCGCAGCCTTC
+ACCTCCCGATTCACCGCCCACATCCGCGTCATCGAGCCGCTCTTCGTCTTCCTCTACAGCTACATGGCCTACCTGTCGGC
+CGAGCTCTTCCACCTGTCGGGCATCATGGCACTCATCGCCTCGGGAGTGGTGATGCGGCCCTACGTGGAGGCGAACATCT
+CGCACAAGTCGCACACCACCATCAAGTACTTCCTGAAGATGTGGAGCAGCGTCAGCGAGACCCTCATCTTCATCTTCCTC
+GGCGTCTCCACCGTGGCCGGCTCCCACCACTGGAATTGGACCTTCGTCATCAGCACCCTGCTCTTCTGCCTCATCGCCCG
+CGTGCTGGGTGTGCTGGGCCTGACCTGGTTCATCAACAAGTTCCGCATAGTGAAGCTGACGCCCAAGGACCAGTTCATCA
+TCGCCTACGGCGGCCTGCGGGGCGCCATCGCCTTCTCGCTGGGCTACCTCCTGGACAAGAAGCACTTCCCCATGTGCGAC
+CTGTTCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGACCATCCGGCCCCTGGTGGACCT
+GCTGGCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGCAGTTCCTGGACCACCTTCTGA
+CAGGCATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAACCGGTTTAACAAGAAGTACGTG
+AAGAAGTGTCTGATCGCGGGCGAGCGCTCCGAGGAGCCCCAGCTCATCGCCTTCTACCACAAGATGGAGATGAAGCAGGC
+CATCGAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCTCCATGCAGAACATCCACCCCA
+AGGCCCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATCCGCAAAATCCTGAGGAACAAC
+CTGCAGAAGACCCGGCAGCGGCTGCGCTCCTACAACAGACACACGCTGGTGGCCGACCCCTACGAGGAGGCCTGGAACCA
+GATGCTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGACTGTGCCGGCGCACAAGCTGG
+ACTCGCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAGGCAGACTTGCCGGTCATCACC
+ATCGACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAAGGGCAAGGTCCTGGGGCTGAG
+CCGGGAGCCGAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGATGCGGCCCAAGGAGCCCTCGT
+CCCCCGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGGATGCAGCGCTGTCTCAGCGAC
+CCCGGCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCGCAGCGCACCTGCCGCCAGACT
+CTCCCGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCACCGCATGGCAGCTGGGCCCAAG
+CGCCCACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCGGCGGAGCTGCCTTCCCCATC
+>ref|NM_001135681.1| Oryctolagus cuniculus phosphorylase kinase regulatory subunit alpha 2 (PHKA2), mRNA
X60421.1 O.cuniculus PHKA2 mRNA for phoshorylase kinase alpha subunit
+GCTAGAACTGACAGAGCCTCAGCGTTCGGGGATCAGGCCCGCTCGGAGGCTGCAGACTAAGATCGGGCGTCCGGGAGATG
+CGGAGCAGGAGCAATTCCGGGGTCCGCTTGGATGGGTACGCGCGGCTGGTGCAGCAAACCATCCTGTGTTACCAGAACCC
+TGTCACAGGGCTGCTCTCTGCCAGCCACGAGCAGAAGGATGCCTGGGTGCGAGACAACATCTACAGCATCCTGGCCGTGT
+GGGGCCTGGGCATGGCCTACCGCAAGAATGCCGATCGCGATGAGGACAAGGCCAAGGCCTACGAGCTGGAGCAGAACGTG
+GTGAAGCTGATGCGAGGTCTTCTCCAGTGCATGATGAGGCAGGTGGACAAAGTGGAGAAGTTCAAGTACACTCAGAGTAC
+CAAGGACAGCCTGCACGCCAAGTACAACACTGCCACCTGCAGCACCGTGGTGGGCGATGACCAATGGGGCCACCTCCAGG
+TGGATGCCACCTCCCTCTTTCTCCTGTTCCTGGCTCAGATGACTGCCTCAGGCTTGCGTATTATTTTCACCCTCGACGAG
+GTGGCCTTTATACAGAATCTCGTTTTTTACATAGAAGCTGCGTATAAAGTTGCTGATTATGGGATGTGGGAGCGTGGAGA
+TAAGACTAATCAGGGCATTCCGGAATTGAACGCAAGCTCTGTAGGAATGGCCAAGGCAGCACTTGAGGCCATTGATGAAC
+TCGACCTTTTTGGAGCCCACGGAGGACGCAAGTCAGTGATCCACGTTCTGCCCGACGAGGTCGAGCACTGCCAGTCAATT
+CTGTTCTCCATGCTGCCAAGAGCATCAACATCCAAAGAGATTGATGCGGGACTTCTTTCCATCATTTCTTTTCCCGCCTT
+TGCAGTGGAAGATGCGAACCTCGTAAATGTGACCAAGAGTGAAATTATTTCCAAGCTACAGGGGCGTTATGGATGCTGTC
+GTTTCCTTCGAGATGGTTATAAAACCCCAAGAGAGGACCCAAACCGGTTGCATTATGACCCTGCTGAACTCAAGCTCTTT
+GAGAACATTGAATGTGAGTGGCCTGTGTTCTGGACCTATTTCATAATAGATGGAATCTTCAACGGTGACGCTCTCCAGGT
+CCAGGAGTACCAAGAAGCCCTAGAAGGAATATTAATCAGAGGCAAAGATGGGATCCGCCTGGTGCCAGAACTCTACGCCA
+TCCCACCAAACAAGGTGGATGAAGAGTACAAGAATCCTCATACCGTGGACAGAGTTCCTCTGGGCAAGCTTCCCCACCTG
+TGGGGTCAGTCCTTGTACATCCTCAGCTCGCTGCTGGCAGAGGGATTCCTTGCCACTGGCGAGATTGATCCCTTAAATAG
+AAGATTTTCCACTTCCGTCAAACCCGACGTTGTCGTGCAAGTCACCGTTCTGGCAGAGAACAGTCACATTAAGGAATTGT
+TGAGGAAACACGGCGTAGACGTCCAGAGCATTGCTGACATCTATCCAATCCGAGTCCAGCCAGGCCGGATCCTTAGTCAC
+ATATACGCCAAACTCGGACGGAATAAGAACATGAAATTGAGTGGGCGACCATATCGGCACATTGGCGTCCTTGGAACCTC
+CAAACTATATGTGATTAGGAACCAAATCTTTACTTTCACACCCCAGTTCACCGACCAGCATCACTTCTACCTGGCCCTGG
+ACAATGAGATGATCGTGGAGATGCTGAGGATCGAGCTGGCTTACCTGTGCACGTGCTGGCGGATGACTGGCAGGCCCACG
+CTCACCTTCCCCATCACTCACACCATGCTCACAAATGACGGCTCGGACATTCACTCTGCGGTTCTTTCAACAATTCGGAA
+GCTCGAGGATGGATATTTTGGAGGAGCTAGAGTCCAGTTAGGGAACCTTTCGGAATTTCTCACCACATCATTCTACACAT
+ATCTGACCTTCCTGGATCCAGACTGTGATGAGAAGTTGTTCGATGATGCCAGCGAAGGAAGCTTCAGTCCTGATAGCGAT
+TCGGATTTAGGAGGATATTTAGAAGAAACTTATAATCAAGTTACAGAAAGCCAAGATGAACTTGACAAGTACATCAACCA
+CCTTCTGCAAAGCACCTACTCAAAGTGCCATCTGCCTCCTCTGTGTAAGAAGATGGAAGACCACAATGTTTTCAGTGCCA
+TCCACTCCACTCGGGACATACTTTCCATGATGGCAAAAGCAAAGGGTCTGGAAGTTCCATTTGCCCCCATGACTTTGCCA
+ACCAAAGCGCTCAGCGTCCACCGTAAGTCGCTGAATCTTGTCGACTCTCCGCAGCCACTCCTTAAAAGGATCCTGAAGCG
+ACTGCACTGGCCCAAAGACGAGCGAGGCGACGTGGACTGCGAGAAGCTGGTGGAGCAGCTGAAGGACTGCTGCACCCTAC
+AGGACCAGGCAGACATCTTGTACATCCTGTATGTGCTCAAGGGTCCAAGCTGGGACACAGCTCTCTCCGGACAGCACGGG
+GTCACCGTTCACAACCTCCTCAGTGAGCTCTACGGGAAAGCTGGCTTGAACCAGGAGTGGGGTCTGATTCGCTACATCTC
+GGGCCTGCTCAGGAAGAAAGTGGAGGTCCTGGCCGAGGCCTGTGCAGACCTGCTCTCCCACCAGAAGCAGCTCACAGTGG
+GCCTGCCGCCCGAGCCCCGCGAGAAGACCATCTCTGCGCCCCTTCCCCCAGAGGAGCTCACAGAGCTCATCTACGAGGCC
+AGCGGGGAAGACATCAGCATCGCGGTCCTCACCCAGGAGATTGTGGTTTACCTGGCCATGTACGTCAGGGCCCAGCCAGC
+CCTCTTCGTGGAGATGCTCAGACTCCGGATTGGACTGATCATTCAGGTGATGGCCACGGAGCTGGCGAGGAGCCTCAACT
+GCTCAGGAGAAGAAGCCTCTGAAAGTTTGATGAACCTCAGCCCTTTCGATATGAAAAACCTCCTGCACCACATCCTTAGT
+GGCAAAGAGTTTGGCGTCGAAAGAAGCATGCGTCCTATCCACTCCTCTGCATCCAGCCCTGCCATCTCCATCCACGAGGT
+AGGACATACTGGAGTCACCAAAACAGAGAGGAGTGGCATTAACAGGCTGAGGAGCGAGATGAAACAGATGACCAGGCGAT
+TTAGCGCTGATGAACAGTTCTTTCCTGTGAGCCAGACGGTATCTAGCAGCGCATACTCCAAGTCTGTGAGGTCCAGCACC
+CCGTCCTCACCCACGGGCACGTCCTCGTCAGACTCGGGAGGACATCACATCAGCTGGGGGGAGCGGCAGGGCCAGTGGCT
+GCGCAGGCGGCGGCTGGACGGAGCCATCAATAGGGTCCCCGTGGGCTTCTACCAGAGGGTGTGGAAGATCCTTCAGAAGT
+GCCACGGTCTCTCCATCGATGGCTATGTCCTCCCATCCTCAACAACCCGAGAGATGACCCCACAGGAGATCAAGTTTGCT
+GTCCATGTGGAGTCAGTGCTGAACCGCGTGTCCCAGCCCGAGTACCGGCAGCTGCTAGTGGAAGCCATCATGGTGCTGAC
+ACTGCTCTCAGACACAGAGATGGAGAGCATCGGGGGCATCATCCACGTGGACCAGATCGTGCAGATGGCCAATCAGCTGT
+TCCTGCAGGAGCAGATATCCACCGGAGCCATGGACACCCTGGAGAAAGACCAAGCCACAGGGATCTGCCACTTCTTTTAC
+GACAGTGCCCCGAGCGGGGCTTACGGCACGATGACCTACCTAACGAGAGCGGTGGCTTCTCACCTGCAGGAGCTGCTGCC
+CAGCTCGGGCTGCCAGACGCAGTAAGGGCCTCACTTGTGAAGGTGGCCACCTGTCACTTGTCCCAAGACCCCCTGGGCCA
+CCACAGAAGCATGCCCCATCAGAAACAAACGCTGGAAGGCGACGGCAGCCCTCCACCTAGGCCAGTGCACGAGCAGGGCG
+CCCAGAGCACAGAGCACTCCTGGGCTCCCCGCAGAGGAGCGCCCTGGGCTGGGTGTTCTGGGTGTTGTTTCGCGGCAACA
+TTTGTCACAGCATCTGGTCTCATGGACTGAGGAGGAATTGGCAATCGGCTGTAGCAGAGGTACAGAAATAGGCTGTGAGC
+TAGCGACATCCAAGATGGAGGGATCCTTCCAGCGGCAAGAGCAAGACAAGCAGAGAGACCGACAGAGGGCTCACCTTCAC
+AGGGTGCAGTCCGTCTGCGGACCACGCGGCTTACCAAATAGAACGGCTTGGCTCTGGCAAAAAAAAAAAAAAAAAAAAAA
+AAAAA
+>ref|NM_001101705.1| Oryctolagus cuniculus phosphorylase kinase catalytic subunit gamma 1 (PHKG1), mRNA
Y00684.1 Rabbit mRNA for gamma-subunit of phosphorylase kinase (EC 2.7.1.38)
+GGGGCTCTGGGACCTTTGGGATTCTCGTCAAGCTCATTCCGGGACCTGCAAGGACCTAACGAGCCCCCGAGGAGCTGAGC
+ATGACCCGCGACGCGGCACTGCCTGGCTCTCACTCCACACATGGCTTCTACGAGAATTATGAGCCCAAGGAGATCCTGGG
+CAGAGGAGTTAGCAGTGTGGTCAGGCGCTGCATCCACAAGCCCACGTGCAAGGAGTATGCCGTGAAGATCATTGATGTCA
+CTGGTGGAGGCAGCTTCAGCGCTGAGGAGGTGCAGGAGCTGCGAGAAGCCACGCTGAAGGAGGTGGACATCCTACGCAAG
+GTCTCGGGGCACCCCAACATCATACAGCTGAAGGACACTTATGAGACCAACACTTTCTTCTTCTTGGTGTTTGACCTGAT
+GAAGAAAGGGGAGCTCTTTGACTACCTCACTGAGAAGGTCACCTTGAGTGAGAAGGAAACCCGAAAAATCATGAGGGCCC
+TGCTGGAGGTGATCTGCGCTTTGCACAAACTCAACATTGTGCATCGGGACCTGAAGCCCGAGAACATCCTCTTGGATGAT
+GACATGAACATCAAGCTCACAGACTTCGGCTTTTCCTGCCAGCTGGACCCCGGAGAGAAGCTGCGAGAGGTCTGTGGGAC
+CCCCAGTTACTTGGCTCCTGAGATCATCGAGTGCTCCATGAATGACAACCACCCAGGCTATGGGAAGGAGGTGGACATGT
+GGAGCACAGGGGTCATCATGTACACCCTGCTGGCCGGCTCCCCGCCCTTCTGGCACCGGAAGCAGATGCTGATGCTGAGG
+ATGATCATGAGTGGCAACTACCAGTTTGGCTCACCGGAATGGGATGATTACTCCGACACGGTCAAGGACTTGGTTTCTCG
+CTTCTTGGTGGTCCAGCCCCAGAAGCGCTACACGGCTGAAGAGGCCCTGGCACACCCCTTCTTCCAGCAGTACGTGGTGG
+AGGAAGTGCGCCACTTCAGCCCCCGGGGGAAGTTCAAGGTGATCTGCCTAACCGTGCTGGCTTCGGTGCGCATCTACTAC
+CAGTACCGCCGGGTGAAGCCCGTCACCAGGGAGATCGTCATCCGGGACCCCTACGCCCTCCGACCTCTGCGCCGCCTCAT
+CGACGCCTACGCTTTCCGAATCTACGGCCACTGGGTGAAGAAGGGGCAGCAGCAGAACCGGGCTGCCCTCTTTGAGAACA
+CCCCCAAGGCTGTGCTCTTCTCGCTGGCTGAGGATGACTACTGAGGGGGCAGGCACGCGGGGGAGGCATGAGGCCCCCGC
+CAGGAGCCCCCTCCCCGGGTGCTGAAGCCAGCGATGGACGGACCCCGACCCCGGGCCAGGCGCCATTCCTGAGGAGGGAG
+GACCAGATGCGGTCCGGGGCAGAGCCCTTGCTTCGTGGGAGGCGCAAAATCTCTAACACCCCTGCTGCTGTCTTCCCTGA
+TTCCCAGGGCGAGGCTAAAACACGGGACATGTTTAGAGATGCGCAGTCACACGATGTGCACTGGCATCCGGGGACTTGGT
+CCGAGAGGCCCAGGGAAGCCCTTAGGTATATTAGCAATAGAAGAGGAAGCTTCTGATACTTCCTCTGGAGCGTTATTTAC
+TTTGTGACTCCCACGGTGCACTGCTTCTCCTGGTCCTTTGGGTCTCCCAGGTCCCCCGTGAAGACTGACGCTGTCCTGTC
+AAGAGCCACCGTGGTGCATTTTACACGTGGAGAAAAATCACGGTTCTTCTCAGGGGCATGAAACGCCACAGAGGAGGCCA
+ATGAAATTGCATCTTCCTCCTACAGCGGTTTTCTGGGAAAACAAAGAAATGGGGACACCCTGCCTTGAGAAAACACTTGT
+CAGATCCCTAAATCAGAC
+>ref|NM_001082184.1| Oryctolagus cuniculus glycogen phosphorylase, muscle associated (PYGM), mRNA
D00040.1 Oryctolagus cuniculus mRNA for glycogen phosphorylase, complete cds
X04265.1 Rabbit mRNA for muscle glycogen phosphorylase (EC.2.4.1.1)
+TCCCTGGCTGGAGGCACCTCAGGCCACCCGTCCGCCCTTCCTTCCACGTCTCGCCCGGCCCGCCTCCCGCAGCCATGTCC
+CGGCCCCTGTCAGACCAGGAGAAGAGAAAGCAAATCAGCGTGCGCGGCCTGGCCGGCGTGGAGAATGTGACGGAGCTGAA
+AAAAAACTTCAACCGCCACCTGCATTTCACCCTGGTGAAGGACCGCAATGTGGCCACGCCGCGAGACTACTACTTCGCAC
+TGGCCCACACTGTGCGCGACCACCTCGTGGGGCGCTGGATCCGCACGCAGCAACACTACTATGAGAAGGACCCCAAGAGG
+ATCTACTACCTGTCTTTGGAGTTCTACATGGGCCGGACGCTACAGAACACCATGGTGAACCTGGCTTTGGAGAATGCCTG
+CGACGAGGCCACCTACCAGCTGGGCCTGGACATGGAGGAGCTGGAGGAAATCGAGGAGGACGCCGGGCTGGGCAACGGCG
+GCCTGGGCCGGCTGGCAGCCTGTTTTCTGGACTCCATGGCAACACTCGGCCTGGCTGCCTATGGCTACGGGATCCGCTAT
+GAGTTTGGGATCTTTAACCAGAAGATCTGCGGGGGCTGGCAGATGGAAGAGGCTGATGACTGGCTTCGCTACGGCAACCC
+CTGGGAGAAGGCCCGGCCTGAGTTCACACTGCCTGTGCACTTCTATGGCCGAGTGGAGCACACCAGCCAGGGGGCCAAGT
+GGGTGGACACACAGGTGGTGCTGGCCATGCCCTACGACACACCGGTGCCTGGCTACCGCAACAACGTCGTCAACACCATG
+CGCCTCTGGTCGGCCAAGGCGCCCAATGACTTCAACCTCAAGGACTTCAACGTCGGTGGCTACATCCAGGCCGTGCTGGA
+CCGCAACCTGGCTGAGAACATCTCTCGGGTCCTGTACCCCAACGATAACTTCTTCGAGGGGAAGGAGCTGCGGCTGAAGC
+AGGAGTACTTCGTGGTGGCGGCCACCCTGCAGGACATCATCCGCCGCTTCAAGTCCTCCAAATTCGGCTGCCGCGACCCC
+GTGCGCACCAACTTCGATGCCTTCCCGGATAAGGTAGCCATCCAGCTCAATGACACCCACCCCTCGCTGGCCATCCCCGA
+GCTCATGAGGGTGCTGGTGGACCTGGAGCGGCTGGACTGGGACAAGGCCTGGGAAGTGACGGTAAAGACGTGCGCCTACA
+CCAACCACACGGTGCTGCCCGAGGCGCTGGAGCGCTGGCCCGTGCACCTCCTGGAGACGCTGCTGCCGCGCCACCTCCAG
+ATCATCTACGAGATCAACCAGCGCTTCCTGAACCGCGTGGCGGCTGCGTTCCCGGGGGACGTCGACCGGCTGCGGCGCAT
+GTCGCTGGTGGAGGAGGGCGCCGTGAAACGCATCAACATGGCGCACCTGTGCATCGCGGGCTCGCACGCCGTCAACGGTG
+TGGCTCGCATCCACTCGGAGATCCTCAAGAAGACCATCTTCAAGGACTTCTACGAGCTGGAGCCTCATAAGTTCCAGAAC
+AAGACCAACGGCATCACCCCTCGGCGCTGGCTGGTTCTGTGTAACCCTGGGCTGGCCGAGATCATTGCTGAGCGCATCGG
+GGAGGAGTACATCTCAGACCTGGACCAGCTGCGCAAGCTGCTCTCGTATGTGGACGACGAAGCCTTCATCCGGGATGTGG
+CGAAAGTGAAGCAGGAAAACAAGCTGAAGTTCGCGGCCTACCTGGAGAGGGAATACAAGGTCCACATCAACCCCAACTCG
+CTGTTCGACGTCCAAGTGAAACGGATCCATGAATACAAGCGGCAGCTGCTCAACTGCCTGCACGTCATCACCCTGTACAA
+CCGCATCAAGAAGGAGCCCAATAAGTTTGTTGTGCCTCGGACCGTCATGATTGGAGGGAAGCCCGCACCTGGGTACCACA
+TGGCCAAGATGATCATCAAACTTATCACCGCCATTGGGGATGTGGTCAACCACGACCCGGTGGTTGGAGACCGCCTCCGT
+GTCATCTTCCTGGAGAACTACCGGGTCTCACTGGCTGAGAAAGTGATCCCGGCTGCCGACCTCTCGGAGCAGATCTCCAC
+CGCGGGCACCGAGGCCTCCGGCACCGGCAACATGAAGTTCATGCTCAATGGAGCCCTGACCATTGGCACGATGGACGGCG
+CCAACGTGGAGATGGCCGAGGAGGCGGGAGAGGAGAACTTCTTCATCTTTGGCATGCGGGTGGAAGATGTGGACAGACTC
+GACCAGAGAGGGTACAACGCCCAGGAGTACTACGACCGCATCCCGGAGCTTCGGCAGATCATCGAGCAGCTGAGTAGCGG
+CTTCTTCTCCCCGAAGCAGCCGGACCTGTTCAAGGACATTGTCAACATGCTCATGCACCATGACCGGTTCAAAGTCTTTG
+CAGATTATGAAGAGTACGTCAAGTGCCAGGAGCGAGTCAGCGCCTTGTACAAGAACCCCAGAGAGTGGACGCGGATGGTG
+ATCCGGAACATAGCCACCTCGGGCAAGTTCTCCAGCGACCGCACCATTGCCCAGTACGCGCGGGAGATCTGGGGTGTGGA
+GCCCTCGCGGCAGCGGCTGCCAGCCCCCGACGAGAAGATACCCTAGGCCAGACCCCAACGCGGCCCTGCAGTCTGCAAGC
+TTGGGGCCAGCGCCAGCTCCCCGTCCAGAGTGTGGGGGCCTGGAGTCAGACCTCCAAGTCCCCTCCTGAAACCCCCATTC
+CCCCCAGAAGCAAGGTCCCAGTGCCCAGCGTGCCTCAGGACACTGGGCCCCCTCCTATTTATGGGGTCCGACCAACTGCG
+CCCACTCCCCAATAAACTCTCCCTCCTTACC
+>ref|X56536.1| Rabbit mRNA for pH regulatory protein (Na+/H+ exchanger), partial
+AAGCACTTCCCCATGTGCGACCTGTTCCTCACCGCCATCATCACCGTCATCTTCTTCACCGTCTTTGTGCAGGGCATGAC
+CATCCGGCCCCTGGTGGACCTGCTGGCCGTGAAGAAAAAGCAGGAAACAAAGCGCTCCATCAACGAGGAGATCCACACGC
+AGTTCCTGGACCACCTTCTGACAGGCATCGAGGACATCTGTGGCCACTACGGCCACCACCATTGGAAAGACAAGCTCAAC
+CGGTTTAACAAGAAGTACGTGAAGAAGTGTCTGATCGCAGGCGAGCGCTCCAAGGAGCCCCAGCTCATCGCCTTCTACCA
+CAAGATGGAGATGAAGCAGGCCATCGAGCTGGTGGAGAGTGGGGGCATGGGCAAGATCCCCTCGGCCGTCTCCACCGTCT
+CCATGCAGAACATCCACCCCAAGGCCCTGCCTGCCGAGCGCATCCTGCCGGCGCTGTCCAAGGACAAGGAGGAGGAGATC
+CGCAAAATCCTGAGGAACAACCTGCAGAAGACCCGGCAGCGGCTTAGGTCCTACAACAGACACACACTGGTGGCCGACCC
+CTACGAGGAGGCCTGGAACCAGATGCTGCTGCGGAGACAGAAGGCCCGGCAGCTGGAGCAGAAGATTAACAACTACCTGA
+CCGTTCCGGCGCACAAGCTGGACTCGCCTACCATGTCCCGGGCCCGCATCGGCTCAGACCCGCTGGCCTATGAGCCGAAG
+GCAGACCTGCCGGTCATCACCATCGACCCGGCGTCCCCGCAATCACCCGAGTCTGTGGACCTGGTCAACGAGGAGCTCAA
+GGGCAAGGTCCTGGGGCTGAGCCGGGAGCCAAGGGTGGCCGAGGAGGCGGCGGAGGAGGACGAGGACGGGGGCATCGTGA
+TGCGGCCCAAGGAGCCCTCGTCCCCCGGCACGGACGACGTCTTCAGCCCCGCGCCCAGCGACAGCCCCAGCTCCCAGAGG
+ATGCAGCGCTGTCTCAGCGACCCCGGCCCGCACCCCGAGCCCGGGGAGGGGGAGCCTTTCATCCCCAAAGGGCAGTAGCG
+CAGCGCACCTGCCCGCCAGACTCTCCCGCCACAGCAGGGGCTCCTGGGGGAGCTGGGGTGCCGGCCCCGCCCCGCCCCCA
+CCGCATGGCAGCTGGGCCCAAGCGCCCACCGCAGCACGGCTTCCCCCTGCCTCCTGGGAAGCGGCCTCCGCCCAGCGGAG
+CTGCCTTCCCCATCATCTGGCTGGGGCGGTCTGGCTCCCTCCAGGGGCCGGGGCCTGCAGCCGCCCAGGCCTCGGAGCCC
+CTGACTCAATCGCCCCCTCACTCAGACCAAGCTTCCTTTCTAACCAAAGACCTCTGGCTCCAGACGGGTAGGGGGCCAAG
+GGAGCCTCGGCCCAGGGGAGGCAGCAGGGGTACCGGGTGTGCGCCCGGAGCAGGGCCAGGCGGCGCGAGGGTCTCTGCCC
+CGAGCTGCTGTGCCGGAGCCGAGACGTTTCTGGCGGTGAGGAGACTCCGCTGCGCCCCTACAGGCCGGGCGCTGAGCTGT
+TCAGGGTTTTGCTTCTCTGCACTTCCGAGGACGATTCAGACCACACAGAGGGCGCTCCTGGGTTTAAACCAGTTTTTGAA
+GCCCTTGGCTCCACGGACATCTGCCCCTCTGGCTCCCTCCCTCAGCCTGTGCAGAGAACCAGTGGCCTCTCCCAGGTCGT
+CCTCTGCTGTTGTCCGAGGCTCTGATTTCAGGAAGGGGCCCCACCCCGATCATGGGCCTCCAGGGCCTGACTCGCTTCCT
+GTGGGCCTGTCTTTCCAACCTGCCCCACCGCTGGGTTGGCCCTGGAGCCCCGACCTCGCGTTCACCGCAGCCTGCTTGCT
+GTGGAGCCCGGTCCTCAGGGAGAAGGCCCCGCGGATCTCCCGCTGCAGCCAGGGCTGCCGGGCTGGGCAGGGACCTGGGC
+CCCCAGAGACACACACTCCCCCCATCACTGTCACCATGGCCAGACCCGAGCCTGTCGGTGTCGGTCCCCCCCAGGACACT
+CCCCCTCCCAGGATCGTGCAATAGTCAGTGTCCCACCTCCCAGTGCACTGGCCGCAGCCAAGCCCACCTGCCCATCTCCT
+GTCCCGTGGGCAGCAGTGCCTGTGCCAGGGTGACGTCGACAACCATGTACAAAGCCACCGCAGCTGCTGCCGCTCTGCCG
+CCTGTACAGAAGAAACCGAATCTTTTTCATATTCTAATAAATCTATGTGAGTTTTTG
+>ref|NM_001101706.1| Oryctolagus cuniculus protein phosphatase 1 catalytic subunit alpha (PPP1CA), mRNA
Y00701.1 Rabbit mRNA for protein phosphatase-1 catalytic subunit (EC 3.1.3.-)
+GGCACCTTGGACCACCACGAGGCTCTAGGGGTGGCAGAGGGGGTCCTGCACAATAGCAGAGAGGCCGTGGTTCCCGTGGA
+GCTCGGGGCAATCGTGGGGGCAATGTAGGAGGCAAGAGAAAGGCAGACGGGTACAACCAACCTGATTCCAAGCGTCGTCA
+GACCAACAACCAACAGAACTGGGGTTCCCAACCCATCGCTCAGCAGCCGCTTCAGCAAGGTGGTGACTATTCCGGTAACT
+ATGGTTACAATAATGACAACCAGTGAATATTTATCAGGATACGAGATCCGTGGTCTGTGCCTCAAATCCCGGGAGATCTT
+CCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGGCCAGTACTACGACCTGC
+TGCGGCTGTTCGAGTACGGCGGCTTCCCCCCGGAGAGCAACTACCTGTTCCTGGGTGACTACGTGGACCGCGGCAAGCAG
+TCCCTGGAGACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTGCTGCGCGGGAACCACGA
+GTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAAGCTGTGGAAGACGTTCA
+CCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATGGCGGCCTCTCCCCCGAC
+CTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTGCTGTGTGACCTGCTGTG
+GTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTTCGGCGCGGAGGTGGTGG
+CCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACGGCTATGAGTTCTTTGCC
+AAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGAGCCATGATGAGCGTGGA
+CGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGGGCAGTTAAGTGGCCTGA
+ACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGGGTGCGGCCCCCTGCCCA
+GACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGGGGACACGGGCCTCGGTG
+GATCTGTTTTTTAATGAATCACTAGCAGTACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTGCGCGGCTGCAAGCAGGA
+TCCTGGGGCCAAGGCTGCAGCTCAGGGCGACGGCGGCCAGACTGGGTCTCGTCTCGTGCGGCCGCAGGGCTGGCAGCCGG
+GTCCCAGGGCAGCCCGTCTGGTCTCCTGAATAAAGGTCAAAGCTGGATTCTG
+>ref|X14832.1| Rabbit mRNA for type-1 protein phosphatase catalytic subunit (PP1 alpha) alpha isoenzyme
+GTGGGCCCGGAGCTGCTGGGCCCCGAGCGGCGGCGCCGCCATGTCCGACAGCGAGAAGCTCAACCTGGACTCTATCATCG
+GGCGCCTGCTGGAAGTGCAGGGCTCGCGGCCCGGAAAGAATGTGCAGCTGACGGAGAACGAGATCCGTGGTCTGTGCCTC
+AAATCCCGGGAGATCTTCCTGAGCCAGCCCATTCTGCTGGAGCTGGAGGCGCCCCTCAAGATCTGCGGTGACATCCACGG
+CCAGTACTACGACCTGCTGCGGCTGTTCGAGTACGGCGGCTTCCCCCCGGAGAGCAACTACCTGTTCCTGGGTGACTACG
+TGGACCGCGGCAAGCAGTCCCTGGAAACCATCTGCCTGCTGCTGGCCTACAAGATCAAGTACCCCGAGAACTTCTTCCTG
+CTGCGCGGGAACCACGAGTGCGCCAGCATCAACCGCATCTACGGCTTCTACGACGAGTGCAAGAGACGCTACAACATCAA
+GCTGTGGAAGACGTTCACCGACTGCTTCAACTGCCTGCCCATCGCGGCCATTGTGGACGAGAAGATATTCTGCTGCCATG
+GCGGCCTCTCCCCCGACCTGCAGTCCATGGAGCAGATCCGGCGCATCATGCGGCCCACGGACGTGCCCGACCAGGGCCTG
+CTGTGTGACCTGCTGTGGTCTGACCCCGACAAGGACGTGCAGGGCTGGGGCGAGAACGACCGCGGCGTCTCCTTCACCTT
+CGGCGCGGAGGTGGTGGCCAAGTTCCTGCACAAGCATGACCTGGACCTCATCTGCCGGGCGCACCAGGTGGTGGAGGACG
+GCTATGAGTTCTTTGCCAAGCGGCAGCTGGTGACACTTTTCTCAGCCCCCAACTACTGTGGCGAGTTCGACAACGCCGGA
+GCCATGATGAGCGTGGACGAGACCCTCATGTGCTCCTTCCAGATCCTTAAGCCGGCCGACAAGAACAAGGGCAAGTACGG
+GCAGTTCAGTGGCCTGAACCCTGGAGGCCGACCCATCACCCCACCCCGCAACTCTGCCAAAGCCAAGAAATAGCCCCCGC
+GTGCGGCCCCCTGCCCAGACAGGGGCTGACTGCACAGGAACCATGCTGCCACGGCCGTGCCGCCTCGGCCGCCACCACGG
+GGACACGGGCCTCGGTGGATCTGTTTTTTAATGAATCACTAGCAGCACCCACCCCCCAGGCTCCCTCCAGCCTGCACCTG
+CGCGGCTGCAAGCAG
+>ref|X14030.1| Rabbit mRNA for liver protein phosphatase 2A-beta 3'-region
+CTCCTGGGAAACCTGCCTTTCTTTGTGGAAGTATACCTGGCTTTTTAAAATATATATATATATATATTTAAAAGCAAACA
+AAGCAACAGTAATCTATGTGTTTCTGTAACAAATTGGGATCTGTCTTGGCATTAAACCACATCATGGACCAAAATGTGCC
+ATACTAATGATGAGCATTTAGCACAATTTGAGACTGAAATTTAGTACACTATGTTCTAGATTGGTCAGTCTAACAGTTTG
+CCTGCTGTATTTGTAGTAACCATTTTCCTCTGGACTGTTCAAGCAAAAAAAAAAGGTAACTAATTTGTTCCATCTCCTTT
+TGCGCTTATTTGGAAATTTAGTTATAGTGTTTAACTGGCATGGATTAATAGAGTTGGAGTTTTATTTTTTAAAATATTCA
+CAAGCTAACATCCAATTAACCCATTACCCTTTATTTTATTGAAATGTGTAATTAACTTAACTGAAGAAAGTCTTCTTGGG
+AGTATGTTGTCATAACATTTAAAGAAATTTTCCTTTCATTTAAGCTAAATTACTGTTTTATGTTGATCTGCATATTTCTG
+TATATTTGTCACAACAATGCTTGCATCCTATTTGGTGTACTGAGCAAATAAACTTTCCATTTTAAAC
+>ref|NM_001101708.1| Oryctolagus cuniculus phospholipase B1 (PLB1), mRNA
Z12841.1 O.cuniculus mRNA for phospholipase
+CCGAGGCACCTGCAGCGTCCAGGCATGGCTCTGTGGCCGAGCGTCTTCCTCCTGGGGCTGCTGCCGCTCCTGGGGCGAGG
+TGCAGATCAGATCCAAACCTCTTCTGGAAAGAACACATTGGAAGGGCAGCTCTGGCCAGAGAGCCTGAAGACTTTTCCAT
+TCCCATGCGACCCAAAGACGTTAGCAGAGAGCGTGCCCTCTGAGTCAGTTCACTCTCTGAGGCCTTCTGACATTAAATTT
+GTTGCAGCCATTGGCAATGTGGAAACTGCTCCAGACTCAGGGGCGGACGACCTAGAGGAGCAAGACGGGACGGAGAAGAG
+GCCAGAGCAGGCGTGCATGGGCGTGGTGACCGTCCTTTCAGACATCATCGGCCGTTTCAGTCCTTCTGCTCTGATGCCGC
+TGTGTCCTGAGACAAGACTTGTACCTCGTGGAGGTGCTGAAGACTTGTGGATGCAGGCTACAGAGCTGGTGAGAAGCATG
+AGAGAGAACCCGCAACTTGACTTTGAACATGACTGGAAGCTCATCAACGTGTTCTTCAGTAACACAAGCCAGTGTTTCCC
+GTGTCCCTCTGCTCAACAGAAGGGGCTCGTGCTGGGGGGCATGGACAAGCTGACAAGGACCCTGGACTACCTGCAGCAGG
+AGGTCCCCAAAGCGTTCGTCAACCTGGTGGATCTCTCGGAGTTGGCAGCATTCTCTCGCTGGCGTCAGGGGGCTCAGCTC
+AGCCCAGCAGCCGAGCCCTGCAGGTGCTTAAGGGAAACCTCCCAGCTGACCAAGGTCCTGACGCAGTGGTCCTACCTGGA
+AGCCTGGGACAGCCTCCTGGCGTCCAGCAAGTACAACACACAGGAGTCCTTCGCGGTGGTCTTCCAGCCTTTCTTCTACG
+AGAGCTCGCTGTCGGCGCTGTTGGCGGAGCCCCCACTCCAGGACCCCACCACACTGGCCCTGAGTCTCTGGAACAGAATG
+ATGGAGCCCATAGGGCGCAAAGAAGAGCCGTTCAGTGAGAAGGAGAGGAAGCCACTGAGATGCCCCACACAGGAGAGCCC
+CTACCTATTCACCTACAGGAACAGCGGCCAGCTGACCAGGGTGTCACAGCCCCAGGGGAAGCTCGAGGTGAGAGAAGGGA
+CGGAAATCCGCTGTCCCGACAAGGACCCCTCCGACTCGGTTCCCACCTCAGTTCACAGGCTGAAGCCCGCCGACATCAAG
+GTCATAGGTGCCATGGGTGACTCCCTCACGGCAGGCAACGGGGCGGGGTCCCAGCCTGGGAACATCCTGGATGTCCTTAC
+TCAGTACCGAGGCCTCTCCTGGAGCGTCGGGGGCGATCAGAACATCAGCACGGTCACCACCCTGGCCAACATCCTCCGGG
+AATTCAACCCTTCCCTGCAGGGCTTCTCCGTCGGCACCGGGAGAGAGACCACTTCCCAAGCCTTCTTCAACCAGGCAGTG
+GCGGGCGCCCGAGCCGATGGGTTAATTCCCCAGGCCCAGCGGCTGGTGGCCCTGATGAAGAATGACACGAGGATAAATTT
+TCAGGAGGATTGGAAGATAATAACCGTGTTCATTGGAGGCAACGACCTCTGTGATTTCTGCAATGACCCGGTGCGCTACT
+CCCCCCAGAACTTCACGGACAACATCGGGACGGCCCTGGACATCCTCCACGCTGAGATTCCCCGGGCCTTTGTGAACCTG
+GTGAAGGTGCTTGAGATCTCCAAGCTGAGAGAGCTGTACCAGGAGACTAAAGTGAGCTGCCCCAGGATGATCCTCAGGTC
+TCTGTGTCCCTGTGTCCTGAAGTTCGATGACAACTCCACAGAAATTGCCTCCCTCATCGAAACGATCAAGGAGTATCAGG
+AGAGGACCCAGCAGCTGATTGACAGCGGGCGATACGACACGAGGGACGACTTCACGGTGGTTTTGCAGCCGTTTTTTGAA
+AAAGTGAACATGCCAAAGACCCAGGACGGGCTACCCGACAACTCTTTCTTCGCGCCCGACTGCTTCCACTTCAGCAGCAA
+GGCCCACGCGCACGCAGCTAGCGCCCTCTGGAACAACATGCTGGAACCTGTTGGCCAGAAGACAACACACAATGATTTTG
+AAGGAGCAGTCAACATTACGTGTCCAAACCAGGTCTGGCCGTTTCTGAGTACCTACAAGAACAGCGTGCAGGGTTTTGGG
+ACCTGGCTGCCGTGCAGAGACAGATCCCCGTCTGCCTCGCCCCCCACCTCAGTGCACGCCCTGAGACCCGCAGATATCCA
+AGTTGTGGCTGCTCTGGGAGATTCTCTAACTGCTGGCATTGGAATTGGCTCCAAACCAAATGACCTCTCAGATGGCACCA
+CTCAGTATCGGGGACTGTCATATAGTTCAGGAGGGGACGGCTCCCTGGACAACGTGACCACCTTGCCTAATATCCTCCGG
+CAGTTCAACAGCAACCTCATGGGCTTCGCCGTGGGCACTGGTGATGCCAGTGGCACCAATGCTTTCTTCAACCAGGCTGT
+TCCCGGAGCAAAGGCGAGGGATCTTATGAGCCAAGTGCAGACTCTGGTTCAGAGGATGAAGGACGACCATAGAGTAAATT
+TCCAAGAAGATTGGAAGGTCATCACGGTGCAGATCGGAGCCAGTGACTTGTGTGACTACTGCACGGATTCGAACCTGTAT
+TCTGCAGCCAACTTTTACGACCATCTCCGAGACGCCTTGGACGCCCTCCACAGAGAGGTGCCCAGAGCTCTGGTCAACCT
+CGTGGACTTCATGAACCCAAGTGTCACACGACAGGTGTTCCTGGGGAACCCCGACAAGTGCCCAGTGCAGCAGGCCAGCG
+CCCTGTGTAACTGCGTCTTGAGCCCCCGGGAGAACTCCTATGAGCTGGCCCGGTTGGAGGCCCTCGCACAAGCCTACCAG
+AGCAGCCTGCGGGAGCTGGTGGAGTCCGGCCGCTACGACACGCGGGAGGACTTCTCCGTGGTGCTGCAGCCCTTCTTCCA
+CAGCATCCAGCTCCCCGTCCTGCAGGACGGGCGCCTGGACACGTCTTTCTTCGCCCCAGACTGCGTCCACCCAAATCAGA
+AGTTCCACTCCCAGCTCTCCAGAGCCCTCTGGCGCAACATGCTGGAGCCCCTGGGAGGGAAAACGGATGCACTGGACCTG
+ACGGCAGCCATCACCCTCACCTGCCCCACTCAGAACGAGCCTTTCCTGAGAACCTTCCGGAACAGTGACTACACCTACCC
+CAGCAGGCCAGCCGTCGAGAACTGGGGCAGTGACTTCCTGTGCACCGCGTGGAATGCTTCCAGGGGTGTTCCGAACTCAG
+TCCATGAGCTCCAACCAGGAGATATCAAAGTCGTAGCTGCCCTGGGTGACTCGCTGACGCTGGCCATGGGCGCTCGACCA
+AGCAACTCCAGTGACCCACCCATGTTCTGGAGGGGCCTCTCCTGGAGCATTGGTGGGGACGGGGCCTTGGAGACTCACAC
+CACACTGCCCAACATTCTGAAGAAGTTCAACCCTTCCATCCTGGGGTTTTCTACTGGAACCTTGGAGGGAACCATGGGAC
+TCAACGTAGCAGTGCAAGGGGCCAGAGCTCAGGACATGCCAGCCCAAGCCCGGGACCTGGTGGAGCGAATGAGAAACAGC
+CCTGAGATCGACCTGGAGAAGGACTGGAAGCTGGTCACACTCTTCGTGGGGGGCAATGACCTGTGTCACTTCTGCGAGAA
+TCCGGAGGGCAGCTCCGAGGGGGAGTACGTCCAGCACATCCAGCAGGCCCTGGACGTCCTGTACGAGGAGCTTCCGAGGA
+CTTTTGTCAATGTGGTGGAGGTCATGGAGCTGGCCGGCCTGCACCAGGACCAAGGCGGGAGATGTGCCACACTGCTGGCA
+GCTCAGAGCCACTGCACCTGCTTCAAATACTCTCAGAGCTCAGTGGAGATGCAAGAACTGAAGAAAGTGAACTGGAACCT
+CCAGAGCGGCCTCTCCAGGCTCTCCTACTCACACCAGTACGTGCAGCGTGAGGACTTCGCCGTCGTTGTGCAGCCTTTCT
+TCCAGAACACTCTCGTCCCACTGAACGGGAGAGGGGACACTGACCTCACCTTCTTCTCTGACGACTGCTTCCACTTCTCA
+GAGCGCGGTCATGCCGAGATGGCCATTGCCCTCTGGAACAACATGCTGGAGCCAGTGGGCCACAAGACAACCTCCAACAA
+CTTCACCTACAGCCGAACCAAACTCAAGTGCCCCTCTCCCGACAGCCCGTACCTCTACACCCTCCGGAACAGCCGGCTAC
+TCCCCGACCAGGCTGAGGCAGACCCCACGGTGCTCTACTGGGCAGTGCCGGTGGCAGCAGGAGCCGGCCTTCTCATCGGC
+ATCCTCGCCATGGTGGCAGGGAGAGGCATGCGCTGTCGCCCGCGGGAGGACCCCCCGCTGAGCCTGAGCACAGGCCTCTA
+GGCCCATGTGTGTGGTCCTCACCCGGAAGGTCCCGGCCACACTCCAACCTGGCCCTTCTACCTCAGCCACCTGTGGCCAC
+CACGGGCAGAACCTGCTTCTACACCTGAGACACAGCAGCCAAAGGGACAGTCAGGACTTCTTGGGGCCTGGGCTTCTCCC
+AGGTCAATGCTCCTGGGATTGGCAAACTTAAATAAAAAGCCGAACATGTTCT
+>ref|X06623.1| Rabbit progesterone receptor gene 5' flank
+TCTTTCAATCAAAGATTCATATATTCAGGAAGTTCCTGTGCCAACCATTATCATCACTAAGCATCAAATCTTGTGGAATA
+ATGGTGATGCAGATATGCTGGGCACCTTTATTATTATTTTCCCACTTCAAGATTTTCAATCTTGTGGAAATAAACTAGCA
+GGGCCAGCGCTGTGGGGTAGCAGGTTAAGCCGCCGCCTGTAGTGCTGGCATCCCATATGGGCACCGGTTCGAGCCCTGGC
+TGCTCCATTTTTGATCTAGCTCTCTGCTATGGCCTGGGAAAGCAGTACAAGATGACCCAAGTCATTGGGCCCCTGCACCC
+ATGTGGGAAGACCCGGAGGAGGCTCCTGGCTTTGGATCAGTGCAGCTCCGGCCACTGCGGCCAGTTGGGGAGTGAACCAG
+CAGATAGAAGACTTTTCTCTCTCTCTGCCTCTGCTTCTCTCTCTGCATAACTCTGACTTTCAAATAAATAAATAAATATT
+TTAAAAAGAAAAGAAACTAGCCAGACTCTCCGGCTTAGAGGGAAGATGTAAAATCAACCACAGTTAAATATAATTTGTCA
+GATTTAGGATGAGGTCAGGTGCCAATTTTACGGCAGCAACCTAGAAACCAAGTCTGAGTCATCTGATATTTAAAATCACA
+CTCCTAATAAGATACTTTGGCCATTTGGCATCAAATCTGTCAATGCTACTTACTATATTTATAATAGTGGGTAACTTTGT
+GTCTCACTTTTCCCAACAAGGAGAGAGATAATAGGACCTATTTTGTGGACTGTTGAAGTATTAAATGAGTTTTCACACAT
+ATAGGGCTTAGAAGATTACTAGGCAATGCTGTCCAGATTCTAATATTTCTACAGATTCTATGGCCCCGGCCATCAAGGAT
+ACACAAATCAAAGCTTCTGTGAGATACCCCTGCATACAGCAGAAGACCAAGAATAAAAAAAAAGTACAGTTCGTAAGCAT
+TGCTAGTGATGTAGAGAAACTGAATCCTCGTACACTGCTGGTGGGAACATAAATGCAATCACTTTGAAGAAACAATCCAG
+CAGTCCTTGTACGCACACATTGCAATATATCCTGGCAATAAAAAGTAATGACGTACTGATACATACATATGATAGTTGAA
+ACTAACATTATGCTAAGTGAAAGAAAACTGTCAAAAAAAAAGATCTCATGGCATGGTTAAATTTATATAAAATTTCCAAA
+ATATGAAATTCACAGAGACATTAAATTAGTGGCTGCTGGGAGGTTTGGGGGGAAGTAGGGAATAACTACTAACAAGGTAT
+GAGATTTCTTTTTAGGATTCTATAAATGTTTTAAAAGTGAGAATGATGATAGTTTTGCAACTGTGAACATGCTAAAACCC
+ATTGAATTTTATGTGTAAAATGGGTAAACTGTATGTTACCTGAATTATATCTCAATAAGACATTTGTGTTTTAAGATGTA
+CTGAAAAGAGGAAAAGCCTGATAAACATTATGAATAGTAAATTAGTTTGTCTGTTGGGCTTATGTACTTCCATTCCCATA
+CTTTCTCTGTACTCTTTTGATAATGATCCTCTCACAGTTCCTACATTATGTTTTCCTATTCAACACCCTGTGACCACAAT
+GGCTTCCCGAGATTTTCTTTTCCTCTCCTCTACCTGCCTAACTTCTTTGACACATTTAAAATTAGCCAGTCAGGGAGCAT
+TAATTGCTGGAACAATCAGTTCCCAAACCCAGTGACCTAACATGGTAAAGGTTTATTTCTCATCCATATAGCCCCTCCCC
+AGGTGATCCAGGGTCCTCCCCTCCAGTGGCTCTGTCCATCCTGGAGTCCTGGAGCCCTCCACTAGACCCTCCTATTTCTG
+GCTGAGAGAAATTGTGAGTAGCAGGGGTGGTCCTACAAGGAGGTTTCCAAATGACTAACTCTATCTTGAAGATGATGCCA
+GGACACCCAATGATCCTGGGTTTGGCACAAGCTTGTTACTTCATGGCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCT
+ACCTACCTACCTATCTTTTGCCACACTTACCTTTCTCTGCTGTGTATTCAAGAATTTAGAGGTGATCTGTTTAAATAGCT
+GAAAGACAACAATTCCTAAGAGTAAGAATATTGCAGGGAGAAAATACTATTCAAGCAGTCTTTGGGGAATCTTATGATGT
+GGCACAGAGTATCAAGGAAACTCCTTAAATATTTATTAAGAATTGGATTGTGTTCTGTAAGACAGATCAAGACACAGCAT
+ACAACATTCAAGCATCCTGCATGGGTAGAAAGGTGTTAGCAACCATCTCCCACTTCCAAATTTTGGTCACATCAAGGACT
+GCTTAAGTGAAGCAGGTCATGTCGATTGGAGTGAGAGAAATTTGAAAGCACTCACTTTCATGGGACTCATAAGGGAGAGA
+CTCTCTTAAAGATGATTTAGGATCATCTCTGATGCATGTATTCTAAAAGACAATGTTGCCAGAGGTCTCTCTCTGTACAA
+TCTCTATAAAACCAGAATCCTGAAAACGGTGCAAAAACGGTGCTTCTGACAGAATCTATTCGCATTTCCAATTAATTGGG
+TATGCTTCTTAACTACTAATACAAAACCTCATATGCTTACGGGGCTGCATCCCAAAGCACCTGCTATTGGGAGTTGATTT
+CAGACGAGTGGGTGGGAAAATCAACTCTAGAGTTTCAGCTCTGGTCCGTAATTGGGATAGGGAGGGGCTTTGGGCGGGCC
+TCTCTAGAGGGAGGAGGCGTTTGTTAGAAAGCCATGGGGCCAGTCCACGCTGTCACTACTCGGGTTAAGCTTTGTAGCAC
+TTGCGTGTGTGAGGATTCTGGTGTGTGGGGAGCCTTCTCAATGAGAACGAGCTTCACCTGTCATCGGAGACTTGGCACCA
+GAGGCGGCTCTTCCTCCCGGAACGCAGGGAACCGAGAGAGCAGCGGAGACCAGTGTGGCCCGCTGTAGGGGGCCGGCAGA
+AGCCCATTCCTGGGAATGGGCTGTACCGAGAGGGTCAGCTAGCCGCAGAGTGCTAGAGAGAGGGGCAGCGGAACGCAGTC
+AGGGGCTCGGAGCTTCGCAGCGTGCACGGGTTTGAAGCCTGGGGAGAAGTCGGGCGCGTTAACTGAACTGCAAGCGCTGC
+CGCAGCCACTCCGGGGCGGGACTTGTGAGTACTCCGCGTCGCCCGCGCTCGGACAGAAGCCAGAGGACTTCCAAATCGGA
+GACGAGAGCCCTGCAACTACCTTTCCCTGCTCTTCCCACTTGCCGCAGGGACTGAGCGACCGCAGCCCTGCCCCTGACCA
+CAGGATGCAGGGCGAGGGCCAGAGCTGACCGGCACCGCCCCCTCCCGACCCAGGAGGTGGAGATCCCGCGGGTCCAGCCA
+AACCCCACACCCATTTTCTCCTCCCTCTGCCCCTATATCCCGGCACCCCCTCCTCCTAGCCCTTTCCCTCCTCCCGAGAG
+ACGGGGGAGGAGAAAAGGGGAGTTCAGGTCGACATG
+>ref|X06624.1| Human progesterone receptor mRNA 3'-flank
+TGAATGTCAATTATTTTTCAAAGAATTAAGTGTTGTGGTATGTCTTTCGTTTTGGTCAGGATTATGACGTCTCGAGCTCG
+AGTTTTTATAATATTCTTCTGAAAGCCTTACATTTATAACATATCATACCGTGTAAATTTAAGAGGAAGATTGTGAGATC
+CTAATTATTTTCCTGTATTAAGCATAATTAGAGTTTTTAAAGTGTTTTTCTGCCCCCCATATTTTCTTTAAAAGTTTAAA
+GAGTTTATAAGGTTGAAAAAGTACTAAAACTGATTATTGAAGTAAGCTATGTCTTACCCATACTATTTCATACCATTTAA
+GTGAGGATTTTTAACTTTTACATATAACAAATCTTCTACTTTAGAGAAAGAAAATCTTCACATGTAATAATAAAAAGCTA
+CTATTATATGTTACTTCTAGATAGCTCCCTTTTTCTCCTTGACTGTACTTCCAAAAGTGAACCTTTAAAATGGTATGCAA
+AACTTTGTCTACTAGAGTGTGTGTGTGTGTATATATATATATATATACACACACACATATATATATGTTTCTGTAAGGAG
+GAAATTCATAACCTGATTTCTAAGAGTTTTTAATGACAAAAATATAGAGACAAAGAGTTAAAAAAAAAAACACTAAACAG
+ATTACCATTTTTCAGACTAGACAAAACAGTTCTATGTTGAAGGGATTTCTTATATTGGAAACCCAAATCTATAAGGAAAT
+TAGTAATGAGTAGAGTTTTACTGTTATGCCAACAGTATTGCAGCTTTTGTAGGGACTTTTTGGTAACTTTTATAGGAGGG
+AGTTGTCCTCTAACAAAGTATTGTGACTAGAAACTATATCTGTGATCTGACTCTTTACCATCTGTGGCATGCGGAAGTTT
+TCAATTTCTTCACATTTAATGTGGTACAATGATATCTTTCCTTCCAAATTCTTCTTGTGATCTGAGCTTCTTTTTAACCT
+CTTCTCAAATCAAAGAAGGAAGGGATGGAAAGAGGGAGATAGGGAGGGAAAGAGAGGGATATAATTCCCTTTCTCCACTC
+CTCAAAGACTTAAGGATGGTGTCCTTTTCCTGTCAGGTGTAATAGATGAATCTCAGGTTGAAAAATTTTGAGTGCCTTTG
+ATCCAGTTTTATTAGAGATGCTTCAGGAAATACTAGATGGTGTCTTAAAATATTACAACCAATTAACAATAACCAGAAAG
+CACAAAATTCACATTCTTGTTTGAACTGAAAATATTACTTTAGAAGACAGATAGTTCTTTTCTGAGGTAAATCACTGGAG
+ATGTATTTGTAAAAAAGAAAGGAAGATATATTTATATATATACTATCCATACATATAATACAATGGGAAGAACCAAGTTC
+ATACCATTGGTGAAATTCAGTTGAAACCGGTGTTTTCTTTCTAGATAAAGTTAGTTATACCAGTTTTAGGCATGTATGAG
+TATACATACTTTTTTTAATAACTCAACAAAGCTAATAGGATAAACTTTTTTTTCTAAATTTCCCTAAAATTGGACATATC
+ATTATCTTTACAAATAAAATACATTACCTCATGCAGATTACTAGTTGTTAATTAGAAAATTAAAGTAACTTGAAAATTTT
+CTACATTGAAAACAATATAGAAAAAATTTGCTGAAATTTCTGAGTTCTTAATGTGTTTTCAATTCTCCATTCCTTTCTAT
+TGGTAAATACTTGCAGTTTACCAAGGGAATAATAACATAAGAATATTCTTAGCAAATACTGCTGTGACCCCTAAAGCACA
+AGTAAAGTGATTTCATGTGATAAAATATTGGCATAATAATATTACCATAGCTGGTTTTTAAACCAATAATTCTTCAACTT
+TCAAAAATAATTAGCTATGAGGTGTCTAAATAGTGGGTTTTCATAGGCTATTTAAAATAAGTATTGAAACATGCTTCAGA
+TAGAGCCCTTGGCTTGGATTCATTAAACCTATGTGGCAAATATAATAGGTTATATACATATTTATAATTTTTAGCTATAA
+CAGTCAACAAAAGTTTAACTCAAGTATTCCAAGTAGCCTCAAAGAGTTTAAAATTAGCCGCTTTTTAGTATTTCTGTGTA
+CATCTTTTTCTGTGGATGCATTTGTGTTACATGTGTTATATAGACTCTTGACAGGCATACCCTCACCCTACAGACCAGTT
+ATCATCCTAAAAAGGGATCTACTTATGCCATTTCCTCACTGTGAAACTTTCAGTGATTTCCAGTCACCTGTCACAGTGAC
+TCCAGTCATAGAATTTCCAAATGAACTTTAAAAAGAATGCTATTACCTGAGCTCCTTCCTCAGTGATTATAATGGGTCTA
+CTTGCATTAATGCAGGCACAGAATAAGTATTTTGAAATAGTGTTCAACTGTCAATCCTTTATACTTTGCTGTCTTTACCC
+TCCACTGTAATGCATGTTATGTCCCAGCCAGGAAAATCCTTTACCCACCATTTTTTTACCTGCCGGAATTCCCCCACCTT
+TGACAAGACAGCCAAGTATCATTTCTGTAAAGTCTTCCCTTAGTCTTCCAGACAGTGCTTTGCTTCCTCCTACAGTTCAC
+CTACCGTTTTGTGCACATCTGAATGACTGTAGCACAACTGTGATTCTCCTACAAATCTGGAAGCCACTCTGAGGTGGAAC
+ATTGTGTCTGTGGACTGAAGAGTTCAATGACACATTCTCTCTGTAACTGGTATCACCATGAAGTTCTATCAGTCTTTGAT
+TACATCATTGCATGTGTCTGCACTTATGTCTTTACCACTTTCTCTTTTCATATTCTTTTATCTTCATTTATTGCTTGTAA
+ATTTTCCAACTTTTTTTCCGGCTTTGAGAGATTCTCTCCCTTTACCAACTATAAATAGGAGAATGAAAGTACATCTTCTG
+TTTATTAATTAAAGATACTTTATTCTGTTCTAAATTTTAACATTGAATGAATGGAATACTATTTTTCTCCCTAGAAAAAA
+TTCCACAGTTGTTTCTTATGTTTAAGTAGCCCGAAATTGTTTTGTATTGTAAACCTCAGTATGAAATTTGTTATTTTGAT
+TTCATTAAACAAATATTTATTGTCTGTTATTGGCATGAGAAAATATGTTCATACACTTTGTGAGAATTTAGAGCTCAAGA
+AAGACTATAATTCAAGACAGTGGTAGCTCAGTAGTAAATATAAATGGCAGGGTGATAAATTGTAGGCACTCAAATATATG
+TTGACATGAGATGTGATAGGTGCAAAGCATTATGTACATATAATTGTACTGAGACAAATGCAGCACAAATATACTAACTT
+TGAAATAAATTAAATTAAAACCTAATTTAGTCAAGTGTCCATAATTCATTTACATTAATCTATGTGTACATTTGTTTACT
+AAAAAGCACTTTCCCATATCTTTTCCCCTACCGTGTCATCCCAGTAAAAATACATTTAATAGTTCCCATATGCAATTACT
+AAAGGAAATATACCTCTGTGGGAGTGGCACCTCTCAGAATGGATTATGTAACATAAATGAATGAATGTATGTGTTTCAGA
+AAAATAAATAAATGAGAACACTATTGTTAGCCCTTTAAAAAAAAAA
+>ref|X02215.1| Rabbit DNA fragment of short interspersed C repeat (SINE) (1850 bp 5' to embryonic globin gene beta 4)
+CTTCTCCCACAGGTGTGGCAGGTACCCCCCAGACCTGAGTTCTCACGGTGCTGCCTCTTAGGAAGCTAGAATGGGGAGCA
+GAGCAAGGACCCAAGCTCAAGCCTTCTGATATAGAATACGGGCATCTCAGGCAGCATCATAACTGGTGACTTCAAAAGTT
+GTCCCTAATTTCGACTTCTAATTTCCGAAGCTTTATCCTTCAGAAAAGTGTGACGTGAAATGAATGATTCTGCCTTTCCA
+CTCCTTCTTCCCAGTAAATTTAATTTGCATTCACAGATCTACGGTTATGCTTTAGGGCCATTGTCCACAAGGTCCAAAGT
+CTGTGAACTAAGCTACTAAGAGATGGGTCAGTCTGAGAATGAGACCTAATTTTGAGCTCAAATTCATCTACAACCTTTGT
+AAGAAATGAGGCAGACGCCTGATGTGTTCACAGCAGCAGCATTGTATGTCCACTAGTAGTGGTTTAGTCTCACTTTTTGC
+AGCTACACCAGAAAATATTCTTAAGACTTATGAAAGCAGCCACCAGAAATTCTTCTTGTTTTTTGTTACCAAAGTCATTG
+CCAGCTAAGGCAAAACATAAGAGAAACTTCTGCTGTGGCCAGGGAGTGCAGTGGAGGATGGCCTAGGTGCTTGGGCCCTG
+CACCCCATGGGAGACCAGGAAAAGCACCTGGCTCCTGGCTCCTGCCATCGGATCAGCGCGGTGCGCCGGCCGCAGCGCGC
+CCGGCGCGGCGGCCATTGGAGGGTGAACCAACAACAAAGGAAGACCTTTCTCTCTGTCTCTCTCTCTCACTGTTCACTCT
+GCCTGTCAAAAAATTAAAAAAAAATTAAAAAAAATTAAAAAAAAAAGGAAAGAGAAAAAGAGAGAGAGAGGAAGAGAGGG
+TACGGGGGAATTC
+>ref|X02216.1| Rabbit short interspersed C repeat (SINE) (loc. between pseudogene psi2 and fetal-adult gene beta 1)
+CAAACAGTAGAGACTTTGGCAGCTGTTATTATAGTCTCATTTATTGGTAGACAATAATTACTTGAAAATCACAGCAGAGG
+CTGGTGCTGCGGCTTACTAGGCTAATCCTCTGCTCTGCGGCGCCGGCACTCTAGGTTCTAGTTCCGGTTGGGGCACCGGA
+TTCTGTCCCGGTTGCCCCTCTTCCAGGCCAGCTCTCTGCTGTGGCCTGGGAGTGCAGTGGAGGATGGCCCAAGTGCTTGG
+GCCCTGCACCCCNNNGGAGACCAGGAGGAAGCTCCTGACTCCTAGCTTCGGATCGGCGCAGTGCGCGCCGTAGCGACCAT
+CTAGGGGGTGAACCAACAGCCCCGGAAGACCTTTTTCTCTGTCTCTCTCTGTTTAACTCTGCCTGTCAAAAATAAGTAAA
+TAAATAAATGTGCACTTTCCTATTTACAAAAAAAGAAAATCATAGAAGAGGAATTAATTCCTGTGTTGGCTTCGCGTTAT
+TGATAACTTCCATACAGTATTCATTTCCAGTGTGTTAAGGTCTCGGT
+>ref|X60986.1| Rabbit MHC fragment RLA-DF DNA
+GATCTGCATTAGAATCCCAAGACCTTCAACAAACCATGGAGTCCAGGACCCCTGTGGAAAAAAAAATAGAATCTAGTACT
+TGCTGATATAAACATGAAGTTAGAAAAACCAATCTTAGTAATTCTCAGCAAAGATACAGATTTTTTTGACTCAGTTAAAA
+TTTAGAAGTATTTAGGATCTGGGCTTAGATTATAAACTAAAAAACAGACTTTAGATTTCTCTTATGTTTTTTTCCATTTT
+AGGATTGAAGAAAGAGCTTGATAAGGTCTCCTTTTTCCTAGCCTTGTAGAGAAATGGAGTCCTTACTCCATGCTTGGTGT
+CTCACATGCCATTATTTCTTTTCAGCCACACACAGCTCTTTATTTCTCTTGTGCTAGAATGACTCAGACATTGGAATTAT
+CTGCTCTTCCAAAGTGTCAAGGCCTTTTATCCCCTTCCATAGATGTGTATATAGACCACACACAGTCTTGGAAATCTTCT
+CCAGTAGCCAAGGCCACTGCTTCACAATAGAATAATGCATCCAGTAATATAGGAAGGGAAGGGAAGCCCCACAGTTTGGG
+CAACATTGTCTTATATTTGCTGAGGGAGGCCATCAGTTCAGAGGCACTTACAGACCTGGGTCCATCAGTGTTAGAAAATG
+TGCTGTGTGTGCCCTAGGCCTGGTTGTGGGTCTGAGGGACATCATTGTTGGGAGCATCTTCATCTTTCTGCTATATAAAA
+TCTATTCTGTTCATTTTGTTTCCATTTTAGAAAACTTGGAGAAAGAGCTTGGTAAGTTCTCCTTTTTCTTTGCTTTGTAG
+AGAAATTAGAGTGTTTACTCCATGCTTGGCATCTCACAGGTCATTATTTCTTTTCAGCCACAAGGAAGGAACTGTATCAG
+CATGGTGAGTTCCACTGGTGTTATGGTTAAGCCATTCATCTCATCTGTCCCTCTGTCCTTTTTTTAAAAAAAATCATTTA
+TTTATTTGAAAGGCAGAAGTATAAAAAGAGAAATACACACAGAGAGAAAAATATTCTATCCCTTGATCCACTCACCAATG
+GACACATCAACTAGGGTTGGGTCAGGCCAAAGCCAGAACTCCATCCATGTCTCCCATGCAGATGGCAGGGGCCCAAGTAC
+TTCAGATATCTTCCACTACTTTCCCAGGAGGATTAGCAGGGAGTGCATCAGAAGTGGAGCAGCTGGGAGCTAACCAGCTC
+CCTCTGATAAGGACTTCTGGTATTGAGTGATGGCTTAATCCACTGAGCCACACTATGGGCCCCTGTCCCTCTGTTCTGAT
+CACCTTCTATTCACCGTTTTTGGTGAAAGGGATCTTCCACCCTAAATTGCCTAAGATGGTGAAACACATGACATCTATAC
+AGGACAGATGGAACTGAGAGCAGTGTATCAGTTACATGTACTCATGGCCTGGGGGAAGGGGACACTGTACATTACACAGG
+ACCACAGAGGAGTTGCCCAAGAGAGTTAAGTGAACCATGAAGGGAGGTAAGAGGCAAACTGTAGCAACAAGAAGAGGAGG
+TGCTCACTATTTTCTCGAGGAGTAATGCGGCTTAGCTTGCTTGAATAAATTTGGCATGCTGGCATGGAAATGATGCCCAA
+AAATTAGCTTGAGAACCAGGAGGGGCTCAGCTGGGTTGAGTATAGGGGTTTGAGCAGGGGAGGGAGCTTTCCTATCTGGT
+GGGGAGCAGGGGAACCTTTGTCACTTGAAGCAATGGTGATCCCAAAGATGTCAGGGCAACACATAATATTTAGGCTTCAA
+CATACAGCCCCACCTTCAACACCTGCACCCTCTTCTCAAAGGACCAGACCCTTAGATTGGTGGATGGCTAAAATCAGTAG
+ACCAGGATATGTAAAAAGGAACACAAATACACTAGAATTATCATTAAGAGACAGACCACAGAAACAACACTTTCAGAAAC
+CTCAGATTTCATATAGTCACAGTACATTTCATTCTCTGCAGTGAGGGCACCATGAATGGAAGCATCTAATTCTTTTCTTT
+TATTTCAGGACTGGAAAAAAAGCAAATTTATATGCTGGTGAGTAAAATCTGATGCTGTCTGTGGCTTCAGCTGACCCAGG
+ATCTTGTGAGATAGCAGACCATTGTCCAGAGACACGGCATCTTCTAGAGATTTTATTTTGAAACCAATGTGGGGTGGGTG
+GCAAAGGAATATCCCATTAGCTCACAAAATATGTTCTTGGCATGTTTTACCATAGAGTTTATTTTCTTTTTAGACTGGAG
+AAAGAAAAATTTCGAAGCAGGTGAGTTATTACCTTGTTCCACTCAACCTCTTCTATACAAATGAGAAGCACTCCTGAGAA
+GTCCTCTCATGGCCTTCATTCTAAGTCTCAATGGCTTCCTTTCTGTCCTGAGACCATGTATTCAAACAGCATGCATGGAC
+GGTCTCTGACTTACAGCCTTTCAACTTTAAAATGGTAAAAAGCAATTGCATTAGTAGAAACATACTCAAATTGGAATTTT
+GATCTTTTCCTTGTCAATGTATATCATGATGCTATTCTTAAATATTTTTCTATTTATTTATTTTCCTTTTATTTGAAAGT
+CAGATAGACATTGACAGAAAGAGACAGAGAGACAGAGCCATAGAGGGCAGAGAGAGAGAAAGACAGAGGGAGAATATTTA
+AGTTGCTGGCTCATTTGCCAAATTTCCACACAACTGCTGGGCTTGGGCCAGGCAAAAGCCAAGAGCCCATAACTTCTACC
+CAGATC
+>ref|X60732.1| O.cuniculus mRNA for alpha smooth muscle actin
+GGCACGAGGGAGAAGCCCAGCCCAGCACTGTCAGGAATCCCGTGAAGCAGCTGCAGCTATGTGTGAGGAAGAGGACAGCA
+CCGCCCTTGTGTGTGACAATGGCTCCGGGCTCTGTAAGGCTGGCTTTGCCGGAGACGATGCTCCAAGAGCTGTTTTCCCA
+TCCATTGTGGGACGTCCCAGGCACCAGGGGGTGATGGTGGGAATGGGGCAAAAAGACAGCTACGTGGGTGATGAAGCGCA
+GAGCAAAAGAGGAATCCTGACCTTGAAGTACCCGATCGAACATGGCATCATCACCAACTGGGACGACATGGAAAAGATCT
+GGCACCACTCCTTCTACAATGAGCTTCGCGTTGCCCCTGAAGAACATCCAACCCTGTTGACTGAGGCACCGCTGAACCCC
+AAAGCCAACCGGGAGAAAATGACCCAGATTATGTTTGAGACTTTCAATGTCCCAGCCATGTACGTGGCTATTCAGGCGGT
+GCTGTCCCTCTATGCCTCTGGACGTACAACTGGCATTGTGCTGGACTCTGGAGATGGTGTCACCCACAACGTGCCCATCT
+ATGAGGGCTATGCCCTGCCCCATGCCATCATGCGTCTGGACCTGGCAGGCCGAGATCTCACTGACTACCTCATGAAGATC
+CTGACTGAGCGTGGCTATTCCTTCGTGACTACTGCTGAACGTGAGATTGTCCGGGACATCAAAGAGAAATTGTGCTATGT
+CGCTCTGGACTTTGAAAACGAGATGGCCACTGCTGCATCCTCCTCCTCCCTCGAGAAGAGCTATGAGCTGCCTGACGGGC
+AGGTGATCACCATCGGGAACGAACGCTTCCGCTGCCCAGAGACCCTGTTCCAGCCCTCCTTCATCGGGATGGAATCTGCT
+GGCATCCATGAAACCACCTACAACAGCATCATGAAGTGTGACATCGACATCAGGAAGGACCTCTATGCTAACAATGTGCT
+CTCAGGGGGCACCACCATGTACCCTGGCATTGCTGACCGTATGCAGAAGGAAATCACGGCCCTAGCTCCCAGCACCATGA
+AGATCAAGATAATTGCCCCTCCAGAGCGCAAATACTCCGTCTGGATCGGCGGCTCCATCCTGGCCTCTCTGTCCACCTTT
+CAGCAGATGTGGATCAGCAAACAGGAGTACGATGAAGCCGGGCCCTCCATTGTCCACCGCAAATGCTTCTAAGTCACTTC
+CCTGCTCTGTTTCTAGCCCACAACTGTGAATGTGTTGTGGAATAATGCCTTCAATTCCTTTCCAAGTCATGCCTATCCAA
+AGCTCTGACTCATTACCTATGTATTTTTTAATAAATCTGAAATATGCTACCAGTCAA
+>ref|X59602.1| O.caniculus RNA for myosin heavy chain
+GAATTCGGGCTGGAGGAGGCCAAGAAAAAACTAGCTCAGCGCCTGCAGGATTCCGAGGAACAGGTTGAGGCTGTGAATGC
+TAAGTGCGCGTCCCTGGAGAAGACCAAGCAGAGGCTGCAAGGGGAGGTGGAGGACCTGATGGTGGACGTGGAGAGGGCCA
+ACTCCCTGGCCGCCGCTCTGGACAAGAAGCAGAGGAACTTCGACAAGGTGCTGGCCGAATGGAAGACCAAGTGTGAGGAG
+AGCCAGGCGGAGCTGGAGGCGTCTCTCAAGGAGTCCCGCACCTTGAGCACTGAGCTTTTCAAGCTGAAAAATGCCTACGA
+GGAGGCCTTAGATCAACTTGAAACTGTGAAACGGGAGAATAAGAACTTAGAACAAGAGATAGCGGATCTCACAGAGCAAA
+TTGCGGAAAATGGTAAAACCATCCACGAACTGGAGAAATCCAGGAAGCAGATGGAGCTGGAGAAGGCTGACATCCAGCTG
+GCTCTCGAGGAAGCAGAGGCTGCTCTCGAACACGAAGAAGCCAAGATCCTCCGGGTCCAGCTCGAGCTGACGCAGGTGAA
+AGCCGAGATCGACAGGAAGATTGCCGAGAAGGACGAGGAGATGGAGCAGCTGAAGAGGAACTACCAGCGGACGGTGGAGA
+CCATGCAGAGCGCCCTGGACGCCGAGGTGCGCAGCAGGAACGAAGCCATCCGCATCAAGAAGAAGATGGAGGGGGACCTG
+AACGAGATCGAGATCCAGTTGAGCCACGCCAACCGCCAGGCCGCCGAGACCCTCAAGCACCTCCGGAGCGTCCAGGGACA
+GCTGAAGGATACCCAGCTGACCTGGACGATGCTCTCCGCGGCCAGGAGGACCTGAAGGAGCAGCTGGCCCTGGTGGAGCG
+CAGGGCCAACCTGCTGCAGGCTGAGGTGGAGGAGCTGCGGGCCACGCTGGAGCAGACGGAGAGGGCCCGGAAACTGGCTG
+AGCAGGAGCTCCTGGATGCCAATGAGCGGGTGCAGCTGCTGCACACCCAGAACACCAGCCTCATCCACACCAAGAAGAAG
+CTGGAGACGGACCTCACCCAGCTGCAGAGCGAGGTGGAGGACGCCAGCCGGGATGCCAGGAATGCCGAGGAGAAAGCCAA
+GAAGGCCATCACAGACGCGGCCATGATGGCGGAGGAGCTGAAGAAGGAGCAGGACACCAGCGCCCACCTGGAGCGCATGA
+AGAAGAACATGGAGCAGACGGTCAAGGACCTGCAGCACCGCCTGGACGAGGCCGAGCAGCTGGCGCTCAAGGGTGGCAAG
+AAGCAGATCCAGAAGCTGGAGACGCGGATCCGAGAGCTGGAGTTTGAGCTGGAAGGGGAGCAGAAGAAGAACGCAGAATC
+TGTGAAGGGCTTGAGGAAGTATGAGCGGCGGGTCAAGGAGCTAACGTACCAGAGTGAAGAGGACAGGAAGAACGTGCTCC
+GGCTGCAGGACCTGGTGGACAAGCTGCAAGTCAAGGTCAAGTCCTACAAGAGGCAGGCCGAGGAGGCGGATGAGCAAGCC
+AACGTGCATCTCAGCAAGTTCCGGAAAGCGCAGCACGAGCTGGAGGAGGCGGAGGAGCGGGCCGACATCGCCGAGTCGCA
+AGTCAACAAGCTTCGGGCTAAAACCCGGGACTTCACCTCCAGCAGGATGGTTGTCCATGAGAGTGAAGAGTGAGCGAGCG
+TGTCCTGGGGCAGGACAGAGGACACGCAGAATGCGTGTTTTCATGCTCCCTGCCCTTACACCTGACGTCCATGGGACCGA
+ATTC
+>ref|X00861.1| Rabbit DNA sequence C family interspersed repeat
+ACAATCCAATTATAGAAATATAGAAGCCGGCGCCGTGGCTCAATAGGCTAATCCTCCACCTTGCGGCGCCGGCACACCGG
+GTTCTAGTCCCGGTTGGGGCCGGANTCGCCCCGGTTGCTCCTCTTCCAGGCCAGCTCTCTGCTATGGCCAGGGAGTGCAG
+TGGAGGATGGCCCAAGTGCTTGGGCCTGCACCCCATGGGAGACCAGGAAAAGCACCTGGCTCCTGGCTCCTGCCAGGGTG
+CAGCGCGGTGCGCCGGCTGCAGCGGCGGCCATTGGAGGGTGAACCGCGGCAAAGGAAGACCTTTCTCTCTCTGTCTCTCT
+CTCTCACTGTCCACTCTGCCTGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAAAAAAA
+AAAAAAAAAAAAAGAATATAGAGTCTAATGAAGTTTGATATA
+>ref|X15749.1| Rabbit gene for ryanodine receptor 5' end
+GTACAACCGTGACTCTGCACAGGCACTGTTGCAAATGCAGAAAGCACAATATCTCGTTTCACTCAACAACCCTGTGTGGT
+GGGCACGATCATAGCTCCCCTACCAGACCGGGAAATGAGGTCGGAGAGTAACTAGTCTCAACTGACCCAGGGGAGCCCGG
+CCTAAGCTGATGTGGCTCGGAGTTACTGCTTTCAATCACCTCGTGCTGCTGTGGGATCTTCTTGGTGCACATCCGGGCCC
+CGCTGTGTGGTAACCAGCGGGAGTAGCAAATGGGGAGAAAACTCAACGGCCGGCCACACTGGGCTCCCAGGCCCCCGGCT
+GCGAAGACCTGAGCCCCGGCGCGGGGCCTGTGGGCGGGGCTCCGACGAGGGGCGTGGCCTGCGTGCCCTGGCCCAATGGG
+GGTTTTAGGGCGGGGACTTCCTTCCTTCCCTGTCCAGCACGCGTGTCTTCCTCGCAGTTCCA
+>ref|NR_033238.1| Oryctolagus cuniculus 18S ribosomal RNA (RN18S), ribosomal RNA
X06778.1 Rabbit 18S rRNA
+TACCTGGTTGATCCTGCCAGTAGCATATGCTTGTCTCAAAGATTAAGCCATGCATGTCTAAGTACGCACGGCCGGTACAG
+TGAAACTGCGAATGGCTCATTAAATCAGTTATGGTTCCTTTGGTCGCTCGCTCCTCTCCTACTTGGATAACTGTGGTAAT
+TCTAGAGCTAATACATGCCGACGGCGCTGACTCCCTTTGTGTGGGATGCGTGCATTTATCAGATCAAAACCAACCCGGTC
+AGCCTCCCCGCCGGCCGGGGGGGTGGGGCGGCGGCTTTGGTGACTCTAGATAACCTCGGGCCGATCGCAGCCCTCCGTGG
+CGGCGACGACCCATTCGAACGTCTGCCCTATCAACTTTCGATGGTAGTCGCCGTGCCTACCATGGTGACCACGGGTGACG
+GGGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCTACCACATCCAAGGAAGGCAGCAGGCGCGCAAATTAC
+CCACTCCCGACCCGGGGAGGTAGTGACGAAAAATAACAATACAGGACTCTTTCGAGGCCCTGTAATTGGAATGAGTCCAC
+TTTAAATCCTTTAACGAGGATCCATTGGAGGGCAAGTCTGGTCGCAGCAGCCGCGGTAATTCCAGCTCCAATAGCGTATA
+TTAAAGTTGCTGCAGTTAAAAAGCTCGTAGTTGGATCTTGTGGAGGGTGCGTAGCGGGCGGTCCGCCGCGAGGCGAGCCA
+CCGCCCGTCCCCGCCCCTTGCCTCTCGGCGCCCCCTCGATGCTCTTAGCTGAGTGTCCCGCGGGGCCCGAAGCGTTTACT
+TTGAAAAAATTAGAGTGTTCAAAGCAGGCCCGAGCCGCCTGGATACCGCAGCTAGGAATAATGGAATAGGACCGCGGTTC
+TATTTTGTTGGTTTTCGGAACTGAGGCCATGATTAAGAGGGACGGCCGGGGGCATTCGTATTGCGCCGCTAGAGGTGAAA
+TTCTTGGACCGGCGCAAGACGGACCAGAGCGAAAGCATTTGCCAAGAATGTTTTCATTAATCAAGAACGAAAGTCGGAGG
+TTCGAAGACGATCAGATACCGTCGTAGTTCCGACCATAAACGATGCCGACTGGCGATGCGGCGGCGTTATTCCCATGACC
+CGCCGGGCAGCTTCCGGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGA
+CGGAAGGGCACCACCAGGAGTGGAGCCTGCGGCTTAATTTGACTCAACACGGGAAACCTCACCCGGCCCGGACACGGACA
+GGATTGACAGATTGATAGCTCTTTCTCGATTCTGTGGGTGGTGGTGCATGGCCGTTCTTAGTTGGTGGAGCGATTTGTCT
+GGTTAATTCCGATAACGAACGAGACTCTGGCATGCTAACTAGTTACGCGACCCCCGAGCGGTCGGCGTCCCCCAACTTCT
+TAGAGGGACAAGTGGCGTTCAGCCACCCGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTCGGGGCTGCACGC
+GCGCTACACTGACTGGCTCAGCGTGTGCCTACCCTACGCCGGCAGGCGCGGGTAACCCGTTGAACCCCATTCGTGATGGG
+GATCGGGGATTGCAATTATTCCCCATGAACGAGGAATTCCCAGTAAGTGCGGGTCATAAGCTTGCGTTGATTAAGTCCCT
+GCCCTTTGTACACACCGCCCGTCGCTACTACCGATTGGATGGTTTAGTGAGGCCCTCGGATCGGCCCGCCGGGGTCGGCC
+CACGGCCCTGGCGGAGCGCTGAGAAGACGGTCGAACTTGACTATCTAGAGGAAGTAAAAGTCGTAACAAGGTTTCCGTAG
+GTGAACCTGCGGAAGGATCATTA
+>ref|X00640.1| Rabbit 18S ribosomal RNA sequence
+TACCTGGTTGATCCTGCCAGTAGCATATGCTTGTCTCAAAGATTAAGCCATGCATGTCTAAGTACGCACGGCCGGTACAG
+TGAAACTGCGAATGGCTCATTAAATCAGTTATGGTTCCTTTGGTCGCTCGCTCCTCTCCTACTTGGATAACTGTGGTAAT
+TCTAGAGCTAATACATGCCGTCGGGGCTGTCCCCCTTTGTGCGGGATGCGTGCATTTATCAGATCAAAACCAACCCGCGT
+CAGTTTCCCCCCGGCCCCGCGGNNNNGGTGGGCGTCGGACTGCTTTGGTGACTCTAGATAACCTCGGGCCGATCGCANGC
+CCCGTGTCGGCATTCGAACGTATGCCCCATCAACTTTCGATGGCAGTCGCCGTGCCTACCATGGTGACCACGGGTGACGG
+GGAATCAGGGTTCGATTCCGGAGAGGGAGCCTGAGAAACGGCCACCACATCCAAGGAAGGCAGCAGGCGCGCAAATCACC
+CACTCCCGACCCGGGGAGGTAGCGACGAAAAACAACAACACAGGACTCTTTCGAGAGCCCTGCAATTGGAATGAGTACAT
+TTCAAATCCTTCAACGAGGATCCATTGGAGGGCAAGTCTGGTGCCAGCAGCCGCGGTAATTCCAGCTCCAACAGCGCACA
+TCAAAGTTGCTGCAGTTAAAAAGCTCGTAGTTGGATCTTGTGGAGGGTGCGTAGCGGGCGGTCCGCCGCGAGGCGAGCCA
+CCGCCCGTCCCCGCCCCTTGCCTCTCGGCGCCCCCTCGATGCTCTTAGCTGAGTGTCCCGCGGGGCCCGAAGCGTTTACT
+TTGAAAAAATTAGAGTGTTCAAAGCAGGCCCGAGCGGCCTAGATACCGCAGCCAGGAATAATGGAACAGGACCGCGGTTC
+TATTTTGTTGGTTTTCGGAACTGAGGCCATGATTAAGAGGGACGGCCGGGGGCATTCGTATTGCGCCGCTAGAGGTGAAA
+TTCTTGGACCGGCGCAAGACGGACCAGAGCGAAAGCATTTGCCAAGAATGTTTTCATTAATCAAGAACGAAAGTCGGAGG
+TTTGAAGACGATCAGATACCGTCGTAGTTCCGACCACAAACGATGCCGACTGGCGATGCGGCGGCGTTATTCCCATGACC
+CGACCGGAACCTTCCGGGAAACCAAAGTCTTTGGGTTCCGGGGGGAGTATGGTTGCAAAGCTGAAACTTAAAGGAATTGA
+CGGAAGGGCACCACCAGGAGTGGATCCTGCGGCCCAATTTGACTCAACACGGGAAACCTCACCCGGCCCGGACACGGACA
+GGATTGACAGATTGATAGCTCTTTCTCGATTCTGTGGCTGGTGGTGCATGGCTGTTCTTAGTTGCTGGAGCGATTTGTCT
+GGTTAATTCCGATAACGAACTAGACTCTCGCATGCTAACTAGTCACGCGACCCCCGAGCGGTCGGCGTCCCCCAACTTTT
+CAGAGGGACAAGTGGCGTTCAGCACCGAGATTGAGCAATAACAGGTCTGTGATGCCCTTAGATGTCCGGTCGGCACGCGC
+GCTACACTGACTGGCTCAGCGTGTGCTCACCCTACGCCGGCAGGCCGGTAACCCGTTGAACCCCATTCGTGATAGGGATC
+GGGGATTGCAATTATTTCCCATGAACGAGGAATTCCCAGTAAGTGCGGGTCATAAGCTTGCGTTGATTAAGTCCCTGCCC
+TTTGTACACACCGCCCGTCGCTACTACCGATTGGATGGTTTAGTGGGCCCTCGGATCGGCCCGCCGGGGTCGGCCCACGG
+CCCTGGCGGAGCGCTGAGAAGACGGTCGAACTTGACTATCTAGAGGAAGTAAAAGTCGTAACAAGGTTTCCGTAGGTGAA
+CCTGCGGAAGGATCATTA
+>ref|X15750.1| Rabbit skeletal muscle mRNA for ryanodine receptor
+TCTACCCTGCCGGTGCCTCCGGCGTCCCCAGAGGTCTCCGACCCCAGCCCGCCCCCAGCCCACCTGTCCAGCCTGCGGCC
+TCTTCTCACTACCCCCCCGACCTCAGCCCGGGTCCCGCGGGCCTCGACATCATGGGTGACGGAGGAGAGGGCGAGGACGA
+AGTCCAGTTCCTGCGGACGGACGACGAGGTGGTCCTGCAGTGCAGCGCCACCGTCCTCAAGGAGCAGCTGAAGCTGTGCC
+TGGCCGCCGAGGGCTTCGGCAACCGCCTCTGCTTCCTGGAGCCCACCAGCAACGCCCAGAATGTGCCCCCCGACCTGGCC
+ATCTGCTGCTTCACCCTGGAGCAGTCCCTGTCGGTCCGCGCCCTGCAGGAGATGCTGGCCAACACCGTGGAGGCTGGCGT
+GGAGTCATCCCAGGGCGGGGGACACAGGACACTCCTGTATGGCCATGCCATCCTGCTCCGGCATGCACACAGCCGCATGT
+ACCTGAGCTGCCTCACTACCTCGCGCTCCATGACTGACAAGCTGGCTTTTGACGTGGGACTGCAGGAGGATGCAACAGGA
+GAGGCCTGTTGGTGGACCATGCACCCAGCCTCCAAGCAGAGATCGGAAGGAGAGAAGGTCCGCGTCGGGGACGACCTCAT
+CCTTGTCAGCGTCTCCTCCGAGCGCTACCTGCACCTGTCGACGGCCAGTGGGGAGCTCCAGGTTGATGCCTCCTTCATGC
+AGACCCTGTGGAACATGAACCCCATCTGCTCCTGCTGTGAAGAGGGCTACGTGACTGGGGGCCACGTCCTCCGCCTCTTC
+CACGGACACATGGACGAGTGCTTGACTATTTCTGCTGCTGACAGCGACGACCAGCGCAGGCTTGTCTACTACGAGGGGGG
+AGCTGTGTGCACGCACGCCCGCTCCCTCTGGAGGCTGGAACCCCTGAGAATCAGCTGGAGTGGAAGCCACCTGCGCTGGG
+GCCAGCCACTGCGGATCCGGCATGTCACCACCGGACGGTACCTGGCACTCACCGAGGACCAGGGCCTGGTGGTGGTCGAT
+GCCTGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGTGTCTCCAAGGAGAAGCTGGACACGGCCCCCAAGCGAGA
+CGTGGAGGGCATGGGCCCGCCTGAGATCAAGTACGGGGAGTCGCTGTGCTTTGTGCAGCACGTGGCCTCGGGCCTGTGGC
+TCACCTACGCCGCCCCTGACCCCAAGGCCCTGCGGCTGGGCGTGCTGAAGAAGAAGGCCATTCTGCACCAGGAGGGCCAC
+ATGGACGATGCACTGTTCCTGACCCGCTGCCAGCAGGAGGAGTCCCAGGCTGCCCGCATGATCCACAGCACTGCCGGCCT
+GTACAACCAGTTCATCAAGGGCCTGGACAGCTTCAGCGGGAAGCCCCGGGGCTCAGGGCCGCCGGCTGGCCCTGCGCTGC
+CCATCGAGGCCGTCATCCTGAGCCTGCAGGACCTCATTGGCTACTTCGAGCCGCCCTCGGAGGAGCTGCAGCACGAGGAA
+AAGCAGAGCAAGCTGCGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGGGATGCTCTCCCTGGTCCTGAACTG
+CATCGACCGCCTGAACGTCTACACCACCGCTGCCCACTTTGCCGAGTATGCAGGGGAAGAGGCAGCTGAGTCCTGGAAAG
+AGATTGTTAACCTACTCTACGAACTCCTGGCCTCTCTGATCCGGGGCAATCGTGCCAACTGTGCCCTCTTCTCCACAAAC
+TTGGACTGGGTGGTCAGCAAACTGGACCGGCTGGAGGCCTCGTCTGGCATCCTGGAGGTGCTGTACTGTGTCCTGATTGA
+GAGTCCCGAGGTGCTGAACATCATCCAGGAGAACCACATCAAGTCCATCATCTCCCTCCTGGACAAGCATGGGAGGAACC
+ACAAGGTTCTGGATGTGCTGTGCTCCCTGTGTGTGTGCAATGGCGTGGCTGTGCGCTCCAACCAAGATCTCATCACCGAG
+AATCTGCTCCCTGGCCGTGAGCTGCTGCTGCAGACAAACCTTATCAACTACGTCACCAGCATCCGCCCCAACATCTTCGT
+GGGCCGAGCCGAGGGCTCCACGCAGTATGGCAAATGGTACTTTGAGGTGATGGTGGACGAGGTGGTTCCATTTCTGACAG
+CTCAGGCCACCCATCTGCGGGTGGGCTGGGCCCTCACCGAGGGCTACAGCCCCTACCCTGGCGGCGGCGAGGGCTGGGGC
+GGCAATGGGGTCGGCGATGACCTCTACTCCTATGGCTTTGACGGGCTGCACCTCTGGACAGGACACGTGGCACGCCCGGT
+GACCTCCCCCGGGCAGCACCTCCTGGCCCCTGAGGACGTGGTCAGCTGCTGCCTGGACCTCAGCGTGCCGTCCATCTCCT
+TCCGCATCAATGGCTGCCCCGTGCAGGGTGTCTTTGAGGCCTTCAACCTGGATGGGCTCTTCTTCCCTGTGGTCAGCTTC
+TCGGCTGGTGTCAAGGTGCGGTTTCTCCTTGGCGGCCGCCATGGTGAATTCAAGTTCCTGCCCCCACCCGGCTACGCCCC
+ATGCCATGAGGCAGTGCTCCCGCGAGAGCGACTCCGTCTTGAGCCCATCAAGGAGTACAGACGGGAAGGGCCGCGGGGGC
+CCCACCTGGTGGGCCCCAGCCGCTGCCTCTCGCACACTGACTTTGTGCCCTGCCCGGTGGACACCGTCCAGATCGTCCTG
+CCTCCCCACCTGGAGCGCATCCGTGAGAAGCTGGCAGAGAACATCCATGAACTCTGGGCGCTGACGCGCATTGAGCAAGG
+CTGGACCTATGGCCCGGTTCGGGATGACAACAAGAGGCTGCACCCGTGTCTTGTGAACTTCCACAGCCTTCCGGAGCCCG
+AGAGGAATTACAACCTGCAGATGTCGGGCGAGACTCTCAAGACTCTGCTGGCGCTGGGCTGCCACGTGGGCATGGCCGAC
+GAGAAGGCGGAGGACAACCTGAAGAAGACAAAGCTGCCCAAGACGTATATGATGAGCAATGGGTACAAGCCAGCCCCGCT
+GGACTTGAGCCATGTGCGACTGACACCCGCACAGACGACACTGGTGGACCGGCTGGCAGAGAATGGGCACAACGTGTGGG
+CACGAGACCGAGTGGCCCAGGGCTGGAGCTACAGCGCCGTGCAGGACATCCCGGCTCGCCGGAACCCTCGCCTTGTGCCC
+TACCGCCTGCTGGACGAGGCCACCAAGCGCAGCAACCGGGACAGCCTCTGCCAGGCCGTGCGCACCCTGCTGGGCTATGG
+CTACAACATCGAGCCACCTGACCAGGAGCCCAGTCAGGTGGAGAACCAGTCTCGCTGGGACCGGGTGCGCATCTTCCGGG
+CAGAGAAATCCTACACAGTGCAGAGTGGCCGCTGGTACTTCGAGTTTGAGGCCGTCACCACAGGCGAGATGCGAGTGGGC
+TGGGCGAGGCCCGAGCTGCGGCCTGACGTCGAGCTGGGAGCGGATGAGCTGGCCTACGTCTTCAACGGGCACCGTGGTCA
+GCGCTGGCACTTGGGCAGTGAGCCGTTCGGGCGGCCCTGGCAGTCAGGCGATGTCGTCGGCTGCATGATCGACCTCACCG
+AGAACACCATCATCTTCACCCTCAACGGCGAGGTCCTCATGTCTGACTCGGGCTCCGAAACAGCCTTCCGGGAGATCGAG
+ATTGGGGACGGCTTCCTGCCTGTCTGCAGCTTGGGACCTGGCCAGGTGGGTCACCTGAACCTGGGCCAGGATGTGAGCTC
+CCTGCGGTTCTTTGCCATCTGCGGCCTCCAGGAAGGCTTTGAGCCATTCGCCATCAACATGCAGCGCCCTGTCACCACGT
+GGTTCAGCAAAAGCCTTCCCCAGTTTGAGCCTGTGCCCCCTGAACACCCGCACTATGAGGTGGCGCGCATGGATGGCACT
+GTGGACACGCCCCCCTGTCTGCGCCTGGCTCACCGCACCTGGGGCTCCCAGAACAGCCTGGTGGAGATGCTGTTCCTCCG
+GCTGAGCCTTCCGGTCCAGTTCCATCAGCACTTCCGTTGCACCGCAGGGGCCACGCCCTTGGCACCTCCCGGCCTGCAAC
+CCCCGGCGGAGGACGAGGCCCGGGCAGCAGAACCCGACCCTGACTACGAAAACCTGCGCCGCTCAGCTGGGGGCTGGGGC
+GAGGCTGAAGGGGGCAAAGAGGGAACTGCCAAGGAGGGGACACCCGGGGGCACCCCCCAGCCTGGGGTGGAGGCCCAGCC
+CGTCAGGGCGGAGAACGAGAAGGATGCCACCACGGAGAAGAACAAGAAGAGAGGGTTCTTATTCAAGGCCAAGAAGGCCG
+CCATGATGACTCAGCCACCAGCCACCCCTGCTCTGCCCCGGCTCCCTCACGACGTGGTGCCTGCTGACAACCGCGATGAC
+CCCGAGATCATCCTCAACACCACCACGTACTATTACTCCGTGAGGGTCTTCGCGGGTCAGGAGCCCAGCTGCGTATGGGT
+GGGCTGGGTCACCCCCGACTACCATCAGCACGACATGAACTTTGACCTCAGCAAGGTCCGGGCAGTGACGGTGACCATGG
+GGGATGAACAAGGCAACGTCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGGTGTGGGGTGGGGACTTCGTGAGCCCT
+GGGCAGCAGGGCCGGATCAGCCACACGGACCTTGTCATTGGCTGCCTGGTGGACCTGGCCACTGGCTTAATGACCTTCAC
+GGCCAATGGCAAAGAGAGCAACACCTTTTTCCAGGTGGAACCCAACACAAAGCTCTTTCCTGCCGTGTTTGTCCTGCCCA
+CGCACCAGAACGTCATCCAATTTGAGCTGGGGAAGCAGAAGAACATCATGCCGCTGTCCGCCGCCATGTTCCTGAGCGAG
+CGCAAGAACCCAGCGCCACAGTGTCCACCACGGCTGGAGGTGCAGATGCTGATGCCCGTGTCCTGGAGCCGCATGCCCAA
+CCACTTCCTGCAGGTGGAGACGCGGCGCGCTGGCGAGCGCCTTGGCTGGGCCGTGCAGTGCCAGGATCCCCTGACCATGA
+TGGCGCTGCACATTCCGGAGGAGAACCGGTGCATGGACATCCTGGAGCTGTCCGAGCGCCTGGACCTGCAGCGCTTCCAC
+TCGCACACGCTGCGCCTCTACCGCGCCGTGTGCGCCCTGGGCAACAACCGTGTGGCGCATGCTCTGTGCAGCCACGTGGA
+CCAGGCGCAGCTGCTGCACGCGCTGGAGGACGCGCACCTGCCCGGCCCCCTGCGCGCGGGCTACTACGACCTCCTCATCA
+GCATCCACCTGGAAAGTGCCTGCCGCAGCCGGCGCTCCATGCTCTCCGAGTACATCGTGCCGCTCACGCCCGAGACCCGC
+GCCATCACGCTCTTCCCGCCGGGAAGGAAGGGGGGAAACGCCCGCCGCCACGGCCTGCCCGGCGTCGGCGTCACCACCTC
+GCTGCGGCCTCCGCACCATTTCTCCCCTCCGTGCTTCGTGGCCGCCCTGCCCGCCGCCGGGGTAGCGGAAGCCCCGGCCC
+GCCTCAGCCCTGCCATTCCTCTGGAGGCCCTGCGCGACAAGGCGCTGAGGATGCTGGGAGAGGCCGTGCGCGATGGCGGG
+CAGCACGCCCGCGACCCCGTCGGGGGCTCCGTGGAGTTCCAGTTCGTGCCGGTGCTCAAGCTCGTGTCCACCCTGCTGGT
+GATGGGCATCTTTGGCGATGAGGATGTGAAGCAGATCTTAAAGATGATAGAACCTGAAGTTTTCACCGAGGAAGAGGAGG
+AGGAAGAAGAGGAGGAGGAGGAAGAAGAGGAGGAAGAGGAGGACGAAGAGGAAAAGGAAGAGGACGAGGAGGAAGAGGAG
+AAGGAAGATGCTGAAAAAGAGGAAGAGGAGGCCCCGGAAGGGGAAAAAGAAGATTTGGAGGAGGGGCTGCTCCAGATGAA
+GTTGCCGGAGTCCGTGAAGCTACAGATGTGCAACCTCCTGGAGTATTTCTGTGACCAAGAGCTACAGCATCGAGTGGAGT
+CCCTGGCGGCCTTCGCAGAGCGCTACGTGGACAAGCTCCAGGCCAACCAGCGCAGCCGCTACGCCCTCCTCATGAGAGCC
+TTCACCATGAGTGCAGCTGAGACCGCAAGGCGCACCCGCGAGTTCCGCTCCCCGCCCCAGGAGCAGATCAACATGCTCTT
+GCACTTCAAAGATGAGGCAGATGAGGAAGACTGCCCTCTCCCCGAGGACATTCGACAGGACTTGCAGGACTTTCATCAAG
+ACCTGCTGGCGCACTGTGGAATCCAGCTGGAGGGGGAGGAGGAGGAGCCGGAGGAGGAGACCAGCCTGAGCAGCCGCCTC
+CGGAGCCTGTTGGAGACGGTGCGGCTGGTGAAGAAGAAGGAGGAAAAACCCGAGGAGGAGCTGCCAGCCGAGGAGAAAAA
+ACCCCAGTCCCTGCAGGAGCTGGTGTCCCACATGGTGGTGCGCTGGGCCCAGGAGGACTACGTGCAGAGCCCTGAGCTGG
+TGCGGGCCATGTTCAGCCTCCTGCACCGGCAGTACGATGGGCTCGGCGAGCTGCTGCGCGCCCTGCCCCGGGCCTACACC
+ATCTCGCCGTCCTCTGTGGAGGACACCATGAGCCTGCTCGAGTGCCTCGGCCAGATCCGCTCGCTGCTCATCGTGCAGAT
+GGGCCCCCAGGAGGAGAACCTCATGATCCAGAGCATTGGGAACATCATGAATAACAAAGTCTTCTACCAACACCCGAACC
+TGATGAGGGCCCTGGGCATGCATGAGACCGTCATGGAGGTCATGGTGAACGTCCTGGGGGGCGGCGAAACCAAGGAGATC
+CGCTTCCCCAAGATGGTGACAAGCTGCTGCCGCTTCCTCTGCTACTTCTGCCGCATCAGCCGGCAGAACCAGCGCTCCAT
+GTTTGACCACCTGAGCTACCTGCTGGAGAACAGCGGCATCGGCCTGGGTATGCAAGGCTCCACGCCCCTGGATGTGGCTG
+CCGCCTCCGTTATCGACAACAACGAGCTGGCCTTGGCGTTGCAGGAGCAGGACCTGGAAAAGGTCGTGTCCTACCTGGCA
+GGCTGTGGCCTCCAAAGCTGCCCCATGCTCCTGGCCAAGGGCTACCCGGACATCGGCTGGAACCCCTGCGGTGGGGAGCG
+CTACCTGGACTTCCTGCGCTTCGCTGTCTTTGTTAACGGCGAGAGCGTGGAGGAGAACGCCAACGTGGTGGTGCGGCTGC
+TCATCCGCAAACCTGAGTGCTTCGGGCCTGCGCTGCGGGGTGAGGGCGGCTCGGGGCTGCTGGCCGCCATCGAGGAGGCC
+ATCCGCATCTCTGAGGACCCCGCGCGGGACGGCCCAGGCGTCCGCAGGGACCGGCGGCGCGAGCACTTTGGGGAGGAGCC
+CCCTGAAGAAAACCGCGTGCACCTGGGCCACGCCATCATGTCCTTCTATGCTGCCTTGATCGACCTGCTGGGCCGCTGTG
+CTCCGGAGATGCATCTGATCCAAGCCGGCAAGGGTGAGGCCCTGCGAATCCGCGCCATCCTTCGCTCCCTCGTGCCCCTG
+GACGACCTCGTGGGCATCATCAGCCTCCCGCTGCAGATCCCCACCCTGGGCAAAGACGGGGCCCTGGTGCAGCCGAAGAT
+GTCGGCCTCCTTCGTGCCGGACCACAAGGCATCCATGGTGCTCTTCCTGGACCGCGTGTACGGCATTGAGAACCAGGACT
+TCCTGCTGCACGTGCTGGACGTGGGGTTCCTTCCCGACATGAGAGCTGCCGCCTCGCTGGACACGGCCACTTTCAGCACC
+ACGGAGATGGCGCTGGCGCTGAACCGCTACCTGTGCCTGGCTGTGCTGCCGCTCATCACCAAGTGTGCGCCGCTCTTTGC
+GGGCACGGAGCACCGTGCCATCATGGTGGACTCGATGCTGCACACCGTGTACCGCCTGTCGCGCGGCCGCTCGCTCACCA
+AGGCGCAGCGCGACGTCATCGAGGACTGTCTCATGGCGCTGTGCAGGTACATCCGCCCGTCCATGCTGCAGCACCTGCTG
+CGGCGCCTGGTGTTCGACGTGCCCATCCTGAACGAGTTCGCCAAGATGCCGCTCAAGCTCCTCACCAACCACTACGAGCG
+CTGCTGGAAGTACTACTGCCTCCCCACGGGCTGGGCCAACTTCGGGGTCACCTCGGAGGAGGAGCTGCACCTCACACGCA
+AACTCTTCTGGGGCATCTTCGACTCTCTGGCCCACAAGAAGTACGACCAGGAGCTGTACCGCATGGCCATGCCTTGTCTG
+TGCGCCATCGCGGGGGCCCTGCCTCCCGACTACGTGGACGCTTCGTACTCTTCCAAGGCGGAGAAAAAGGCCACAGTGGA
+TGCTGAAGGCAACTTTGATCCCCGGCCTGTGGAGACCCTCAATGTGATCATCCCGGAGAAGCTCGACTCCTTCATCAACA
+AGTTTGCCGAATACACGCACGAGAAGTGGGCCTTCGACAAGATCCAGAACAACTGGTCGTACGGAGAGAACGTGGATGAG
+GAACTGAAGACCCACCCCATGCTGAGGCCCTACAAGACCTTTTCGGAGAAGGACAAAGAGATCTACCGCTGGCCCATCAA
+GGAGTCCCTGAAGGCCATGATTGCCTGGGAGTGGACGATCGAGAAGGCCAGGGAAGGCGAGGAGGAGAGGACGGAGAAGA
+AAAAGACACGGAAGATTTCCCAGACTGCCCAGACCTACGATCCCCGAGAAGGCTACAACCCGCAGCCCCCCGACCTCAGC
+GGAGTCACCCTGTCTCGGGAGTTGCAGGCCATGGCCGAACAACTGGCGGAAAACTACCATAACACCTGGGGGAGAAAGAA
+GAAGCAGGAGCTGGAAGCCAAGGGCGGCGGGACCCACCCCCTGCTGGTCCCCTACGACACGCTCACGGCCAAGGAGAAAG
+CGCGAGACCGAGAGAAGGCCCAGGAGCTGCTGAAGTTCCTGCAGATGAACGGCTACGCGGTCACCAGAGGCCTGAAGGAC
+ATGGAGCTGGACACGTCTTCCATTGAGAAGCGGTTCGCCTTTGGCTTCCTGCAGCAGTTGCTGCGCTGGATGGACATTTC
+GCAGGAGTTCATTGCCCACCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGAGAAGTCCCCACACGAACAGGAGATTAAAT
+TCTTTGCCAAGATCCTGCTCCCTTTGATTAACCAGTACTTCACCAACCACTGCCTCTACTTCCTGTCCACACCCGCCAAA
+GTGCTGGGCAGTGGTGGCCATGCCTCCAACAAGGAGAAGGAGATGATCACCAGCCTCTTCTGCAAACTCGCTGCCCTTGT
+CCGCCACCGAGTCTCTCTCTTCGGCACAGACGCCCCGGCTGTGGTCAACTGCCTTCACATCCTGGCACGCTCCCTGGATG
+CCAGGACGGTGATGAAGTCGGGCCCCGAGATCGTCAAGGCCGGCCTCCGCTCCTTCTTTGAGAGCGCCTCGGAGGACATC
+GAGAAGATGGTGGAGAACTTGCGGCTGGGCAAGGTGTCCCAGGCGCGCACGCAGGTGAAGGGCGTGGGCCAGAACCTCAC
+CTACACCACCGTGGCCCTGCTGCCCGTCCTCACCACGCTCTTCCAGCACATCGCCCAGCACCAGTTCGGCGACGACGTCA
+TCCTGGATGACGTGCAGGTGTCTTGCTACCGAACATTGTGCAGCATCTACTCTCTGGGGACCACCAAGAACACTTATGTG
+GAAAAGCTACGGCCAGCCCTTGGAGAGTGCCTGGCCCGCCTGGCAGCGGCCATGCCTGTGGCCTTCCTGGAGCCTCAGCT
+GAACGAGTACAACGCTTGCTCCGTGTACACCACCAAGTCTCCCCGGGAGCGAGCCATCCTGGGGCTCCCCAACAGCGTGG
+AGGAGATGTGTCCTGACATCCCGGTGCTGGATCGGCTCATGGCAGACATCGGGGGGCTGGCCGAGTCCGGGGCCCGCTAC
+ACGGAGATGCCGCACGTCATCGAGATCACGCTGCCCATGCTCTGCAGCTACCTGCCCCGCTGGTGGGAGCGCGGGCCCGA
+GGCGCCCCCTCCCGCCCTGCCTGCCGGCGCCCCCCCGCCCTGCACGGCTGTCACCTCCGACCACCTCAACTCACTCTTGG
+GGAACATCTTGCGCATCATTGTCAACAACCTGGGCATTGACGAGGCCACCTGGATGAAGCGGCTTGCTGTGTTCGCCCAG
+CCCATCGTGAGCCGGGCGCGGCCTGAGCTCCTGCATTCCCACTTCATCCCCACCATCGGGCGGCTGCGCAAGCGGGCAGG
+CAAGGTGGTGGCCGAGGAGGAGCAGCTGCGGCTGGAGGCCAAGGCCGAGGCCGAGGAGGGCGAGCTCCTGGTGCGGGACG
+AGTTCTCTGTGCTCTGCCGGGACCTGTACGCCCTCTACCCGCTGCTCATCCGCTACGTGGACAACAACAGGGCGCACTGG
+CTGACGGAGCCCAACGCCAACGCCGAGGAGCTGTTCAGGATGGTGGGCGAGATCTTCATCTACTGGTCCAAGTCCCACAA
+CTTCAAGCGTGAGGAGCAGAACTTTGTGGTCCAGAACGAGATCAACAACATGTCCTTCCTGACGGCTGACAGCAAGAGCA
+AGATGGCCAAGGCGGGAGACGCACAGTCGGGCGGCTCGGACCAGGAACGCACCAAGAAGAAGCGCCGGGGGGACAGGTAC
+TCCGTGCAGACGTCACTGATCGTGGCCACGCTGAAGAAGATGCTGCCCATTGGCCTGAACATGTGTGCGCCCACCGACCA
+GGACCTCATCATGCTGGCCAAGACCCGCTACGCCCTGAAAGACACAGACGAGGAGGTCCGGGAATTTCTGCAGAACAACC
+TCCACCTTCAGGGAAAGGTCGAAGGCTCCCCGTCCCTGCGCTGGCAGATGGCGCTGTACCGGGGCCTCCCCGGCCGCGAG
+GAGGACGCCGACGACCCGGAGAAAATCGTGCGCAGGGTCCAAGAAGTGTCAGCGGTGCTCTATCACCTGGAACAGACCGA
+GCACCCCTACAAGTCCAAGAAGGCCGTGTGGCACAAGCTGTTGTCCAAGCAGCGCCGGCGAGCCGTGGTGGCCTGCTTCC
+GTATGACGCCCCTGTACAACCTGCCCACGCACCGGGCCTGTAACATGTTCTTGGAGAGCTACAAAGCCGCCTGGATCCTG
+ACCGAAGATCACAGTTTCGAGGACCGCATGATAGATGATCTTTCAAAAGCTGGGGAGCAGGAGGAGGAGGAGGAGGAAGT
+GGAGGAGAAGAAGCCAGACCCCCTGCACCAGCTGGTCCTGCACTTCAGCCGCACGGCCCTGACTGAAAAGAGCAAACTGG
+ACGAGGACTACCTGTACATGGCATATGCCGACATCATGGCCAAGAGCTGCCACCTGGAGGAGGGAGGGGAGAACGGTGAA
+GCTGAGGAAGAGGAGGTTGAGGTCTCCTTTGAGGAGAAAGAGATGGAGAAGCAGAGGCTCCTCTACCAGCAGTCACGGCT
+GCACACGCGCGGGGCCGCCGAGATGGTGCTGCAGATGATCAGCGCCTGCAAAGGAGAGACAGGTGCCATGGTGTCCTCCA
+CCCTGAAGCTGGGCATCTCCATCCTCAATGGAGGCAATGCCGAGGTGCAGCAGAAAATGCTGGATTATCTGAAGGACAAG
+AAGGAAGTCGGCTTCTTCCAGAGCATCCAGGCGCTGATGCAGACATGCAGCGTCCTGGATCTCAATGCCTTCGAGAGACA
+GAACAAGGCAGAAGGCCTGGGCATGGTGAACGAGGATGGAACCGTCATCAATCGCCAGAACGGAGAGAAGGTTATGGCCG
+ATGACGAATTCACACAAGATCTGTTCCGATTTCTGCAGCTGCTCTGTGAGGGGCACAACAACGATTTCCAAAACTACTTA
+CGGACACAGACGGGCAACACCACCACGATTAACATCATTATCTGCACAGTGGACTACCTCCTGCGGCTGCAGGAGTCCAT
+CAGCGACTTCTACTGGTACTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGGAACTTCTCCAAGGCCATGTCCG
+TGGCCAAACAGGTGTTCAACAGCCTCACCGAGTACATCCAGGGCCCCTGCACCGGGAACCAGCAGAGCCTGGCGCACAGC
+CGCCTCTGGGACGCCGTGGTGGGATTCCTGCACGTGTTTGCCCACATGATGATGAAGCTCGCTCAGGACTCGAGCCAGAT
+CGAGCTGTTGAAGGAGCTGCTGGACCTGCAGAAGGACATGGTGGTGATGCTGCTGTCCCTACTGGAAGGGAACGTGGTGA
+ACGGCATGATTGCCCGGCAGATGGTGGACATGCTGGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCAAGTTCTTCGAC
+ATGTTCCTGAAACTCAAGGACATCGTGGGCTCCGAGGCCTTCCAGGACTACGTCACCGATCCCCGTGGCCTCATCTCCAA
+AAAGGACTTCCAGAAGGCCATGGACAGCCAGAAGCAGTTCACTGGGCCGGAAATCCAGTTTCTGCTCTCGTGCTCCGAAG
+CCGACGAGAATGAGATGATCAACTTCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGGGACATCGGCTTCAACGTG
+GCCGTGCTGCTGACCAACCTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTGGAGCTGGCTGAGAGCAT
+CCTTGAGTACTTCCGGCCCTACCTGGGCCGCATCGAGATCATGGGCGCCTCCCGCCGCATCGAGCGCATCTACTTCGAGA
+TCTCAGAGACCAACCGCGCCCAGTGGGAGATGCCCCAGGTCAAGGAGTCCAAGCGCCAGTTCATCTTCGACGTGGTCAAC
+GAGGGCGGGGAGGCCGAGAAGATGGAGCTGTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAGATCGCCGCGCA
+GATCTCCGAGCCCGAGGGCGAGCCCGAGGCCGACGAGGACGAGGGCATGGGCGAGGCGGCCGCCGAGGGCGCCGAGGAGG
+GCGCGGCGGGCGCCGAGGGCGCGGCGGGCACGGTGGCGGCGGGCGCCACGGCGCGGCTGGCGGCGGCCGCGGCCCGGGCG
+CTGCGCGGCCTCAGCTACCGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACGGCGCGCGAGGCGGCCACGGC
+GCTGGCCGCGCTGCTCTGGGCCGTGGTGGCGCGCGCGGGCGCGGCGGGCGCGGGCGCGGCGGCGGGCGCGCTGCGCCTGC
+TCTGGGGCTCGCTCTTCGGCGGCGGCCTGGTGGAGGGCGCCAAGAAGGTGACGGTGACCGAGCTGCTGGCCGGCATGCCC
+GATCCCACCAGCGACGAGGTGCACGGCGAGCAGCCGGCCGGGCCCGGCGGCGACGCGGACGGCGCGGGCGAGGGCGAAGG
+CGAGGGCGACGCGGCCGAGGGTGACGGCGATGAGGAGGTGGCGGGTCACGAGGCCGGCCCGGGCGGTGCCGAGGGGGTCG
+TGGCCGTGGCCGACGGGGGCCCCTTCCGGCCCGAGGGCGCTGGCGGCCTTGGGGACATGGGCGACACCACGCCGGCGGAA
+CCGCCCACGCCCGAGGGCTCCCCGATCCTCAAGAGGAAGCTGGGGGTGGATGGAGAAGAGGAGGAGCTGGTTCCAGAACC
+GGAGCCCGAGCCCGAGCCTGAGCCTGAGAAAGCCGATGAGGAGAACGGGGAGAAGGAGGAAGTCCCCGAGGCCCCACCAG
+AACCCCCCAAGAAAGCCCCTCCCTCACCTCCTGCAAAGAAGGAGGAAGCCGGAGGCGCCGGCATGGAGTTCTGGGGAGAA
+CTGGAAGTGCAGAGGGTGAAGTTCTTGAACTACCTCTCCCGGAACTTCTACACCCTGCGCTTCCTTGCCCTCTTCTTGGC
+GTTTGCCATCAACTTCATCCTGCTGTTTTATAAGGTCTCAGACTCTCCACCAGGGGAGGATGACATGGAGGGCTCGGCAG
+CAGGGGACCTGGCGGGTGCAGGGTCCGGGGGCGGCTCCGGCTGGGGCTCGGGGGCCGGCGAGGAGGCAGAGGGGGACGAG
+GACGAGAACATGGTATACTACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCGGCCCTGTGGTGCCTGAGCCTGCTGCA
+CACGCTGGTGGCCTTCCTCTGCATCATCGGCTACAACTGCCTCAAGGTGCCCCTGGTGATCTTCAAGCGGGAGAAGGAGC
+TGGCACGAAAGCTGGAGTTTGACGGCCTGTACATCACAGAGCAGCCTGGGGACGACGACGTGAAGGGCCAGTGGGACCGG
+CTGGTGCTCAACACGCCGTCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAGGTCCTGGACAAACACGGGGA
+CATCTTCGGGCGGGAGCGGATTGCCGAGCTGCTGGGCATGGACCTGGCCTCGCTGGAGATCACGGCCCACAACGAGCGCA
+AGCCCGACCCCCCGCCGGGGCTGCTGACCTGGCTCATGTCCATCGATGTCAAGTACCAGATCTGGAAGTTCGGGGTCATC
+TTCACGGACAACTCGTTCCTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGCCACTACAACAACTTCTTCTTTGC
+CGCCCACCTGCTGGACATCGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCCTCTGTCACCCACAATGGGAAACAGC
+TGGTGATGACTGTGGGCCTCCTGGCCGTCGTGGTCTACCTGTACACTGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTAC
+AACAAGAGCGAGGACGAGGACGAGCCGGACATGAAGTGCGATGACATGATGACGTGCTACCTGTTCCACATGTACGTGGG
+CGTCCGGGCTGGCGGAGGCATCGGGGACGAGATCGAGGACCCAGCGGGCGATGAATACGAGCTCTACCGGGTGGTCTTCG
+ACATCACCTTCTTCTTCTTCGTCATTGTCATCCTGCTGGCCATCATCCAGGGTCTGATTATCGACGCCTTCGGCGAGCTC
+CGAGACCAGCAGGAGCAAGTGAAGGAAGATATGGAGACCAAATGCTTCATCTGCGGGATTGGCAGTGACTACTTCGATAC
+CACGCCGCACGGCTTCGAGACCCACACGCTAGAGGAGCACAATCTGGCCAATTACATGTTCTTCTTGATGTATCTGATAA
+ACAAGGACGAGACGGAGCACACGGGCCAGGAGTCCTACGTCTGGAAGATGTATCAGGAGAGGTGCTGGGACTTCTTCCCC
+GCCGGCGACTGCTTCCGCAAGCAGTACGAGGACCAGCTGAGCTGAGACGCCCCGGCTGCCCTCCACCCCACCTCCAGTGC
+CTTCTTCTCACAGCAAGCCCTCCAGACTCCCGGGCAGAGGGATTCCGAACCCGAGAAATAAAAGTCTGTTCCACCCCCTG
+G
+>ref|X62677.1| O.cuniculus DNA fragment for retrovirus related reverse transcriptase
+TTTAACGTCCTTGGTTAAGTTTATTCCAAGGTATTTGATTGTTTTTGTAGCTATTGTGAATGGGATTGATCTTAGCAGTT
+CTTCCTCAGCCATGGCATTGTCTGTGTATACAAAGGCTGTTGATTTTTGTGCATTGATTTTATACCCTGCTACTTTGCCA
+AAATCTTCTATGAGTTCCAATAGTCTCTTAGTAGAGTTCTTTGGGTCCCCTAAATAAAGAATCATATAATCTGCAAAGAG
+GGATAGTTTGAGTTCTTCCTTCCCAATTTGTATCTCTTTAATTTCTTTTTCTTGCCTAATAGCTCTGGCTAGAACTTCCA
+GAACTATATTGAATAGTAGTGGTGTAAGTGGGCATCCCTGT
+>ref|NM_001101718.1| Oryctolagus cuniculus ryanodine receptor 1 (RYR1), mRNA
X15209.1 O.cuniculus mRNA for skeletal muscle ryanodine receptor
+GTACAACCGTGACTCTGCACAGGCACTGTTGCAAATGCAGAAAGCACAATATCTCGTTTCACTCAACAACCCTGTGTGGT
+GGGCACGATCATAGCTCCCCTACCAGACCGGGAAATGAGGTCGGAGAGTAACTAGTCTCAACTGACCCAGGGGAGCCCGG
+CCTAAGCTGATGTGGCTCGGAGTTACTGCTTTCAATCACCTCGTGCTGCTGTGGGATCTTCTTGGTGCACATCCGGGCCC
+CGCTGTGTGGTAACCAGCGGGAGTAGCAAATGGGGAGAAAACTCAACGGCCGGCCACACTGGGCTCCCAGGCCCCCGGCT
+GCGAAGACCTGAGCCCCGGCGCGGGGCCTGTGGGCGGGGCTCCGACGAGGGGCGTGGCCTGCGTGCCCTGGCCCAATGGG
+GGTTTTAGGGCGGGGACTTCCTTCCTTCCCTGTCCAGCACGCGTGTCTTCCTCGCAGTTCCATCTACCCTGCCGGTGCCT
+CCGGCGTCCCCAGAGGTCTCCGACCCCAGCCCGCCCCCAGCCCACCTGTCCAGCCTGCGGCCTCTTCTCACTACCCCCCC
+GACCTCAGCCCGGGTCCCGCGGGCCTCGACATCATGGGTGACGGAGGAGAGGGCGAGGACGAAGTCCAGTTCCTGCGGAC
+GGACGACGAGGTGGTCCTGCAGTGCAGCGCCACCGTCCTCAAGGAGCAGCTGAAGCTGTGCCTGGCCGCCGAGGGCTTCG
+GCAACCGCCTCTGCTTCCTGGAGCCCACCAGCAACGCCCAGAATGTGCCCCCCGACCTGGCCATCTGCTGCTTCACCCTG
+GAGCAGTCCCTGTCGGTCCGCGCCCTGCAGGAGATGCTGGCCAACACCGTGGAGGCTGGCGTGGAGTCATCCCAGGGCGG
+GGGACACAGGACACTCCTGTATGGCCATGCCATCCTGCTCCGGCATGCACACAGCCGCATGTACCTGAGCTGCCTCACTA
+CCTCGCGCTCCATGACTGACAAGCTGGCTTTTGACGTGGGACTGCAGGAGGATGCAACAGGAGAGGCCTGTTGGTGGACC
+ATGCACCCAGCCTCCAAGCAGAGATCGGAAGGAGAGAAGGTCCGCGTCGGGGACGACCTCATCCTTGTCAGCGTCTCCTC
+CGAGCGCTACCTGCACCTGTCGACGGCCAGTGGGGAGCTCCAGGTTGATGCCTCCTTCATGCAGACCCTGTGGAACATGA
+ACCCCATCTGCTCCTGCTGTGAAGAGGGCTACGTGACTGGGGGCCACGTCCTCCGCCTCTTCCACGGACACATGGACGAG
+TGCTTGACTATTTCTGCTGCTGACAGCGACGACCAGCGCAGGCTTGTCTACTACGAGGGGGGAGCTGTGTGCACGCACGC
+CCGCTCCCTCTGGAGGCTGGAACCCCTGAGAATCAGCTGGAGTGGAAGCCACCTGCGCTGGGGCCAGCCACTGCGGATCC
+GGCATGTCACCACCGGACGGTACCTGGCACTCACCGAGGACCAGGGCCTGGTGGTGGTCGATGCCTGCAAGGCCCACACC
+AAGGCCACCTCCTTCTGTTTCCGTGTCTCCAAGGAGAAGCTGGACACGGCCCCCAAGCGAGACGTGGAGGGCATGGGCCC
+GCCTGAGATCAAGTACGGGGAGTCGCTGTGCTTTGTGCAGCACGTGGCCTCGGGCCTGTGGCTCACCTACGCCGCCCCTG
+ACCCCAAGGCCCTGCGGCTGGGCGTGCTGAAGAAGAAGGCCATTCTGCACCAGGAGGGCCACATGGACGATGCACTGTTC
+CTGACCCGCTGCCAGCAGGAGGAGTCCCAGGCTGCCCGCATGATCCACAGCACTGCCGGCCTGTACAACCAGTTCATCAA
+GGGCCTGGACAGCTTCAGCGGGAAGCCCCGGGGCTCAGGGCCGCCGGCTGGCCCTGCGCTGCCCATCGAGGCCGTCATCC
+TGAGCCTGCAGGACCTCATTGGCTACTTCGAGCCGCCCTCGGAGGAGCTGCAGCACGAGGAAAAGCAGAGCAAGCTGCGC
+AGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGGGATGCTCTCCCTGGTCCTGAACTGCATCGACCGCCTGAACGT
+CTACACCACCGCTGCCCACTTTGCCGAGTATGCAGGGGAAGAGGCAGCTGAGTCCTGGAAAGAGATTGTTAACCTACTCT
+ACGAACTCCTGGCCTCTCTGATCCGGGGCAATCGTGCCAACTGTGCCCTCTTCTCCACAAACTTGGACTGGGTGGTCAGC
+AAACTGGACCGGCTGGAGGCCTCGTCTGGCATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCCGAGGTGCTGAA
+CATCATCCAGGAGAACCACATCAAGTCCATCATCTCCCTCCTGGACAAGCATGGGAGGAACCACAAGGTTCTGGATGTGC
+TGTGCTCCCTGTGTGTGTGCAATGGCGTGGCTGTGCGCTCCAACCAAGATCTCATCACCGAGAATCTGCTCCCTGGCCGT
+GAGCTGCTGCTGCAGACAAACCTTATCAACTACGTCACCAGCATCCGCCCCAACATCTTCGTGGGCCGAGCCGAGGGCTC
+CACGCAGTATGGCAAATGGTACTTTGAGGTGATGGTGGACGAGGTGGTTCCATTTCTGACAGCTCAGGCCACCCATCTGC
+GGGTGGGCTGGGCCCTCACCGAGGGCTACAGCCCCTACCCTGGCGGCGGCGAGGGCTGGGGCGGCAATGGGGTCGGCGAT
+GACCTCTACTCCTATGGCTTTGACGGGCTGCACCTCTGGACAGGACACGTGGCACGCCCGGTGACCTCCCCCGGGCAGCA
+CCTCCTGGCCCCTGAGGACGTGGTCAGCTGCTGCCTGGACCTCAGCGTGCCGTCCATCTCCTTCCGCATCAATGGCTGCC
+CCGTGCAGGGTGTCTTTGAGGCCTTCAACCTGGATGGGCTCTTCTTCCCTGTGGTCAGCTTCTCGGCTGGTGTCAAGGTG
+CGGTTTCTCCTTGGCGGCCGCCATGGTGAATTCAAGTTCCTGCCCCCACCCGGCTACGCCCCATGCCATGAGGCAGTGCT
+CCCGCGAGAGCGACTCCGTCTTGAGCCCATCAAGGAGTACAGACGGGAAGGGCCGCGGGGGCCCCACCTGGTGGGCCCCA
+GCCGCTGCCTCTCGCACACTGACTTTGTGCCCTGCCCGGTGGACACCGTCCAGATCGTCCTGCCTCCCCACCTGGAGCGC
+ATCCGTGAGAAGCTGGCAGAGAACATCCATGAACTCTGGGCGCTGACGCGCATTGAGCAAGGCTGGACCTATGGCCCGGT
+TCGGGATGACAACAAGAGGCTGCACCCGTGTCTTGTGAACTTCCACAGCCTTCCGGAGCCCGAGAGGAATTACAACCTGC
+AGATGTCGGGCGAGACTCTCAAGACTCTGCTGGCGCTGGGCTGCCACGTGGGCATGGCCGACGAGAAGGCGGAGGACAAC
+CTGAAGAAGACAAAGCTGCCCAAGACGTATATGATGAGCAATGGGTACAAGCCAGCCCCGCTGGACTTGAGCCATGTGCG
+ACTGACACCCGCACAGACGACACTGGTGGACCGGCTGGCAGAGAATGGGCACAACGTGTGGGCACGAGACCGAGTGGCCC
+AGGGCTGGAGCTACAGCGCCGTGCAGGACATCCCGGCTCGCCGGAACCCTCGCCTTGTGCCCTACCGCCTGCTGGACGAG
+GCCACCAAGCGCAGCAACCGGGACAGCCTCTGCCAGGCCGTGCGCACCCTGCTGGGCTATGGCTACAACATCGAGCCACC
+TGACCAGGAGCCCAGTCAGGTGGAGAACCAGTCTCGCTGGGACCGGGTGCGCATCTTCCGGGCAGAGAAATCCTACACAG
+TGCAGAGTGGCCGCTGGTACTTCGAGTTTGAGGCCGTCACCACAGGCGAGATGCGAGTGGGCTGGGCGAGGCCCGAGCTG
+CGGCCTGACGTCGAGCTGGGAGCGGATGAGCTGGCCTACGTCTTCAACGGGCACCGTGGTCAGCGCTGGCACTTGGGCAG
+TGAGCCGTTCGGGCGGCCCTGGCAGTCAGGCGATGTCGTCGGCTGCATGATCGACCTCACCGAGAACACCATCATCTTCA
+CCCTCAACGGCGAGGTCCTCATGTCTGACTCGGGCTCCGAAACAGCCTTCCGGGAGATCGAGATTGGGGACGGCTTCCTG
+CCTGTCTGCAGCTTGGGACCTGGCCAGGTGGGTCACCTGAACCTGGGCCAGGATGTGAGCTCCCTGCGGTTCTTTGCCAT
+CTGCGGCCTCCAGGAAGGCTTTGAGCCATTCGCCATCAACATGCAGCGCCCTGTCACCACGTGGTTCAGCAAAAGCCTTC
+CCCAGTTTGAGCCTGTGCCCCCTGAACACCCGCACTATGAGGTGGCGCGCATGGATGGCACTGTGGACACGCCCCCCTGT
+CTGCGCCTGGCTCACCGCACCTGGGGCTCCCAGAACAGCCTGGTGGAGATGCTGTTCCTCCGGCTGAGCCTTCCGGTCCA
+GTTCCATCAGCACTTCCGTTGCACCGCAGGGGCCACGCCCTTGGCACCTCCCGGCCTGCAACCCCCGGCGGAGGACGAGG
+CCCGGGCAGCAGAACCCGACCCTGACTACGAAAACCTGCGCCGCTCAGCTGGGGGCTGGGGCGAGGCTGAAGGGGGCAAA
+GAGGGAACTGCCAAGGAGGGGACACCCGGGGGCACCCCCCAGCCTGGGGTGGAGGCCCAGCCCGTCAGGGCGGAGAACGA
+GAAGGATGCCACCACGGAGAAGAACAAGAAGAGAGGGTTCTTATTCAAGGCCAAGAAGGCCGCCATGATGACTCAGCCAC
+CAGCCACCCCTGCTCTGCCCCGGCTCCCTCACGACGTGGTGCCTGCTGACAACCGCGATGACCCCGAGATCATCCTCAAC
+ACCACCACGTACTATTACTCCGTGAGGGTCTTCGCGGGTCAGGAGCCCAGCTGCGTATGGGTGGGCTGGGTCACCCCCGA
+CTACCATCAGCACGACATGAACTTTGACCTCAGCAAGGTCCGGGCAGTGACGGTGACCATGGGGGATGAACAAGGCAACG
+TCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGGTGTGGGGTGGGGACTTCGTGAGCCCTGGGCAGCAGGGCCGGATC
+AGCCACACGGACCTTGTCATTGGCTGCCTGGTGGACCTGGCCACTGGCTTAATGACCTTCACGGCCAATGGCAAAGAGAG
+CAACACCTTTTTCCAGGTGGAACCCAACACAAAGCTCTTTCCTGCCGTGTTTGTCCTGCCCACGCACCAGAACGTCATCC
+AATTTGAGCTGGGGAAGCAGAAGAACATCATGCCGCTGTCCGCCGCCATGTTCCTGAGCGAGCGCAAGAACCCAGCGCCA
+CAGTGTCCACCACGGCTGGAGGTGCAGATGCTGATGCCCGTGTCCTGGAGCCGCATGCCCAACCACTTCCTGCAGGTGGA
+GACGCGGCGCGCTGGCGAGCGCCTTGGCTGGGCCGTGCAGTGCCAGGATCCCCTGACCATGATGGCGCTGCACATTCCGG
+AGGAGAACCGGTGCATGGACATCCTGGAGCTGTCCGAGCGCCTGGACCTGCAGCGCTTCCACTCGCACACGCTGCGCCTC
+TACCGCGCCGTGTGCGCCCTGGGCAACAACCGTGTGGCGCATGCTCTGTGCAGCCACGTGGACCAGGCGCAGCTGCTGCA
+CGCGCTGGAGGACGCGCACCTGCCCGGCCCCCTGCGCGCGGGCTACTACGACCTCCTCATCAGCATCCACCTGGAAAGTG
+CCTGCCGCAGCCGGCGCTCCATGCTCTCCGAGTACATCGTGCCGCTCACGCCCGAGACCCGCGCCATCACGCTCTTCCCG
+CCGGGAAGGAAGGGGGGAAACGCCCGCCGCCACGGCCTGCCCGGCGTCGGCGTCACCACCTCGCTGCGGCCTCCGCACCA
+TTTCTCCCCTCCGTGCTTCGTGGCCGCCCTGCCCGCCGCCGGGGTAGCGGAAGCCCCGGCCCGCCTCAGCCCTGCCATTC
+CTCTGGAGGCCCTGCGCGACAAGGCGCTGAGGATGCTGGGAGAGGCCGTGCGCGATGGCGGGCAGCACGCCCGCGACCCC
+GTCGGGGGCTCCGTGGAGTTCCAGTTCGTGCCGGTGCTCAAGCTCGTGTCCACCCTGCTGGTGATGGGCATCTTTGGCGA
+TGAGGATGTGAAGCAGATCTTAAAGATGATAGAACCTGAAGTTTTCACCGAGGAAGAGGAGGAGGAAGAAGAGGAGGAGG
+AGGAAGAAGAGGAGGAAGAGGAGGACGAAGAGGAAAAGGAAGAGGACGAGGAGGAAGAGGAGAAGGAAGATGCTGAAAAA
+GAGGAAGAGGAGGCCCCGGAAGGGGAAAAAGAAGATTTGGAGGAGGGGCTGCTCCAGATGAAGTTGCCGGAGTCCGTGAA
+GCTACAGATGTGCAACCTCCTGGAGTATTTCTGTGACCAAGAGCTACAGCATCGAGTGGAGTCCCTGGCGGCCTTCGCAG
+AGCGCTACGTGGACAAGCTCCAGGCCAACCAGCGCAGCCGCTACGCCCTCCTCATGAGAGCCTTCACCATGAGTGCAGCT
+GAGACCGCAAGGCGCACCCGCGAGTTCCGCTCCCCGCCCCAGGAGCAGATCAACATGCTCTTGCACTTCAAAGATGAGGC
+AGATGAGGAAGACTGCCCTCTCCCCGAGGACATTCGACAGGACTTGCAGGACTTTCATCAAGACCTGCTGGCGCACTGTG
+GAATCCAGCTGGAGGGGGAGGAGGAGGAGCCGGAGGAGGAGACCAGCCTGAGCAGCCGCCTCCGGAGCCTGTTGGAGACG
+GTGCGGCTGGTGAAGAAGAAGGAGGAAAAACCCGAGGAGGAGCTGCCAGCCGAGGAGAAAAAACCCCAGTCCCTGCAGGA
+GCTGGTGTCCCACATGGTGGTGCGCTGGGCCCAGGAGGACTACGTGCAGAGCCCTGAGCTGGTGCGGGCCATGTTCAGCC
+TCCTGCACCGGCAGTACGATGGGCTCGGCGAGCTGCTGCGCGCCCTGCCCCGGGCCTACACCATCTCGCCGTCCTCTGTG
+GAGGACACCATGAGCCTGCTCGAGTGCCTCGGCCAGATCCGCTCGCTGCTCATCGTGCAGATGGGCCCCCAGGAGGAGAA
+CCTCATGATCCAGAGCATTGGGAACATCATGAATAACAAAGTCTTCTACCAACACCCGAACCTGATGAGGGCCCTGGGCA
+TGCATGAGACCGTCATGGAGGTCATGGTGAACGTCCTGGGGGGCGGCGAAACCAAGGAGATCCGCTTCCCCAAGATGGTG
+ACAAGCTGCTGCCGCTTCCTCTGCTACTTCTGCCGCATCAGCCGGCAGAACCAGCGCTCCATGTTTGACCACCTGAGCTA
+CCTGCTGGAGAACAGCGGCATCGGCCTGGGTATGCAAGGCTCCACGCCCCTGGATGTGGCTGCCGCCTCCGTTATCGACA
+ACAACGAGCTGGCCTTGGCGTTGCAGGAGCAGGACCTGGAAAAGGTCGTGTCCTACCTGGCAGGCTGTGGCCTCCAAAGC
+TGCCCCATGCTCCTGGCCAAGGGCTACCCGGACATCGGCTGGAACCCCTGCGGTGGGGAGCGCTACCTGGACTTCCTGCG
+CTTCGCTGTCTTTGTTAACGGCGAGAGCGTGGAGGAGAACGCCAACGTGGTGGTGCGGCTGCTCATCCGCAAACCTGAGT
+GCTTCGGGCCTGCGCTGCGGGGTGAGGGCGGCTCGGGGCTGCTGGCCGCCATCGAGGAGGCCATCCGCATCTCTGAGGAC
+CCCGCGCGGGACGGCCCAGGCGTCCGCAGGGACCGGCGGCGCGAGCACTTTGGGGAGGAGCCCCCTGAAGAAAACCGCGT
+GCACCTGGGCCACGCCATCATGTCCTTCTATGCTGCCTTGATCGACCTGCTGGGCCGCTGTGCTCCGGAGATGCATCTGA
+TCCAAGCCGGCAAGGGTGAGGCCCTGCGAATCCGCGCCATCCTTCGCTCCCTCGTGCCCCTGGACGACCTCGTGGGCATC
+ATCAGCCTCCCGCTGCAGATCCCCACCCTGGGCAAAGACGGGGCCCTGGTGCAGCCGAAGATGTCGGCCTCCTTCGTGCC
+GGACCACAAGGCATCCATGGTGCTCTTCCTGGACCGCGTGTACGGCATTGAGAACCAGGACTTCCTGCTGCACGTGCTGG
+ACGTGGGGTTCCTTCCCGACATGAGAGCTGCCGCCTCGCTGGACACGGCCACTTTCAGCACCACGGAGATGGCGCTGGCG
+CTGAACCGCTACCTGTGCCTGGCTGTGCTGCCGCTCATCACCAAGTGTGCGCCGCTCTTTGCGGGCACGGAGCACCGTGC
+CATCATGGTGGACTCGATGCTGCACACCGTGTACCGCCTGTCGCGCGGCCGCTCGCTCACCAAGGCGCAGCGCGACGTCA
+TCGAGGACTGTCTCATGGCGCTGTGCAGGTACATCCGCCCGTCCATGCTGCAGCACCTGCTGCGGCGCCTGGTGTTCGAC
+GTGCCCATCCTGAACGAGTTCGCCAAGATGCCGCTCAAGCTCCTCACCAACCACTACGAGCGCTGCTGGAAGTACTACTG
+CCTCCCCACGGGCTGGGCCAACTTCGGGGTCACCTCGGAGGAGGAGCTGCACCTCACACGCAAACTCTTCTGGGGCATCT
+TCGACTCTCTGGCCCACAAGAAGTACGACCAGGAGCTGTACCGCATGGCCATGCCTTGTCTGTGCGCCATCGCGGGGGCC
+CTGCCTCCCGACTACGTGGACGCTTCGTACTCTTCCAAGGCGGAGAAAAAGGCCACAGTGGATGCTGAAGGCAACTTTGA
+TCCCCGGCCTGTGGAGACCCTCAATGTGATCATCCCGGAGAAGCTCGACTCCTTCATCAACAAGTTTGCCGAATACACGC
+ACGAGAAGTGGGCCTTCGACAAGATCCAGAACAACTGGTCGTACGGAGAGAACGTGGATGAGGAACTGAAGACCCACCCC
+ATGCTGAGGCCCTACAAGACCTTTTCGGAGAAGGACAAAGAGATCTACCGCTGGCCCATCAAGGAGTCCCTGAAGGCCAT
+GATTGCCTGGGAGTGGACGATCGAGAAGGCCAGGGAAGGCGAGGAGGAGAGGACGGAGAAGAAAAAGACACGGAAGATTT
+CCCAGACTGCCCAGACCTACGATCCCCGAGAAGGCTACAACCCGCAGCCCCCCGACCTCAGCGGAGTCACCCTGTCTCGG
+GAGTTGCAGGCCATGGCCGAACAACTGGCGGAAAACTACCATAACACCTGGGGGAGAAAGAAGAAGCAGGAGCTGGAAGC
+CAAGGGCGGCGGGACCCACCCCCTGCTGGTCCCCTACGACACGCTCACGGCCAAGGAGAAAGCGCGAGACCGAGAGAAGG
+CCCAGGAGCTGCTGAAGTTCCTGCAGATGAACGGCTACGCGGTCACCAGAGGCCTGAAGGACATGGAGCTGGACACGTCT
+TCCATTGAGAAGCGGTTCGCCTTTGGCTTCCTGCAGCAGTTGCTGCGCTGGATGGACATTTCGCAGGAGTTCATTGCCCA
+CCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGAGAAGTCCCCACACGAACAGGAGATTAAATTCTTTGCCAAGATCCTGC
+TCCCTTTGATTAACCAGTACTTCACCAACCACTGCCTCTACTTCCTGTCCACACCCGCCAAAGTGCTGGGCAGTGGTGGC
+CATGCCTCCAACAAGGAGAAGGAGATGATCACCAGCCTCTTCTGCAAACTCGCTGCCCTTGTCCGCCACCGAGTCTCTCT
+CTTCGGCACAGACGCCCCGGCTGTGGTCAACTGCCTTCACATCCTGGCACGCTCCCTGGATGCCAGGACGGTGATGAAGT
+CGGGCCCCGAGATCGTCAAGGCCGGCCTCCGCTCCTTCTTTGAGAGCGCCTCGGAGGACATCGAGAAGATGGTGGAGAAC
+TTGCGGCTGGGCAAGGTGTCCCAGGCGCGCACGCAGGTGAAGGGCGTGGGCCAGAACCTCACCTACACCACCGTGGCCCT
+GCTGCCCGTCCTCACCACGCTCTTCCAGCACATCGCCCAGCACCAGTTCGGCGACGACGTCATCCTGGATGACGTGCAGG
+TGTCTTGCTACCGAACATTGTGCAGCATCTACTCTCTGGGGACCACCAAGAACACTTATGTGGAAAAGCTACGGCCAGCC
+CTTGGAGAGTGCCTGGCCCGCCTGGCAGCGGCCATGCCTGTGGCCTTCCTGGAGCCTCAGCTGAACGAGTACAACGCTTG
+CTCCGTGTACACCACCAAGTCTCCCCGGGAGCGAGCCATCCTGGGGCTCCCCAACAGCGTGGAGGAGATGTGTCCTGACA
+TCCCGGTGCTGGATCGGCTCATGGCAGACATCGGGGGGCTGGCCGAGTCCGGGGCCCGCTACACGGAGATGCCGCACGTC
+ATCGAGATCACGCTGCCCATGCTCTGCAGCTACCTGCCCCGCTGGTGGGAGCGCGGGCCCGAGGCGCCCCCTCCCGCCCT
+GCCTGCCGGCGCCCCCCCGCCCTGCACGGCTGTCACCTCCGACCACCTCAACTCACTCTTGGGGAACATCTTGCGCATCA
+TTGTCAACAACCTGGGCATTGACGAGGCCACCTGGATGAAGCGGCTTGCTGTGTTCGCCCAGCCCATCGTGAGCCGGGCG
+CGGCCTGAGCTCCTGCATTCCCACTTCATCCCCACCATCGGGCGGCTGCGCAAGCGGGCAGGCAAGGTGGTGGCCGAGGA
+GGAGCAGCTGCGGCTGGAGGCCAAGGCCGAGGCCGAGGAGGGCGAGCTCCTGGTGCGGGACGAGTTCTCTGTGCTCTGCC
+GGGACCTGTACGCCCTCTACCCGCTGCTCATCCGCTACGTGGACAACAACAGGGCGCACTGGCTGACGGAGCCCAACGCC
+AACGCCGAGGAGCTGTTCAGGATGGTGGGCGAGATCTTCATCTACTGGTCCAAGTCCCACAACTTCAAGCGTGAGGAGCA
+GAACTTTGTGGTCCAGAACGAGATCAACAACATGTCCTTCCTGACGGCTGACAGCAAGAGCAAGATGGCCAAGGCGGGAG
+ACGCACAGTCGGGCGGCTCGGACCAGGAACGCACCAAGAAGAAGCGCCGGGGGGACAGGTACTCCGTGCAGACGTCACTG
+ATCGTGGCCACGCTGAAGAAGATGCTGCCCATTGGCCTGAACATGTGTGCGCCCACCGACCAGGACCTCATCATGCTGGC
+CAAGACCCGCTACGCCCTGAAAGACACAGACGAGGAGGTCCGGGAATTTCTGCAGAACAACCTCCACCTTCAGGGAAAGG
+TCGAAGGCTCCCCGTCCCTGCGCTGGCAGATGGCGCTGTACCGGGGCCTCCCCGGCCGCGAGGAGGACGCCGACGACCCG
+GAGAAAATCGTGCGCAGGGTCCAAGAAGTGTCAGCGGTGCTCTATCACCTGGAACAGACCGAGCACCCCTACAAGTCCAA
+GAAGGCCGTGTGGCACAAGCTGTTGTCCAAGCAGCGCCGGCGAGCCGTGGTGGCCTGCTTCCGTATGACGCCCCTGTACA
+ACCTGCCCACGCACCGGGCCTGTAACATGTTCTTGGAGAGCTACAAAGCCGCCTGGATCCTGACCGAAGATCACAGTTTC
+GAGGACCGCATGATAGATGATCTTTCAAAAGCTGGGGAGCAGGAGGAGGAGGAGGAGGAAGTGGAGGAGAAGAAGCCAGA
+CCCCCTGCACCAGCTGGTCCTGCACTTCAGCCGCACGGCCCTGACTGAAAAGAGCAAACTGGACGAGGACTACCTGTACA
+TGGCATATGCCGACATCATGGCCAAGAGCTGCCACCTGGAGGAGGGAGGGGAGAACGGTGAAGCTGAGGAAGAGGAGGTT
+GAGGTCTCCTTTGAGGAGAAAGAGATGGAGAAGCAGAGGCTCCTCTACCAGCAGTCACGGCTGCACACGCGCGGGGCCGC
+CGAGATGGTGCTGCAGATGATCAGCGCCTGCAAAGGAGAGACAGGTGCCATGGTGTCCTCCACCCTGAAGCTGGGCATCT
+CCATCCTCAATGGAGGCAATGCCGAGGTGCAGCAGAAAATGCTGGATTATCTGAAGGACAAGAAGGAAGTCGGCTTCTTC
+CAGAGCATCCAGGCGCTGATGCAGACATGCAGCGTCCTGGATCTCAATGCCTTCGAGAGACAGAACAAGGCAGAAGGCCT
+GGGCATGGTGAACGAGGATGGAACCGTCATCAATCGCCAGAACGGAGAGAAGGTTATGGCCGATGACGAATTCACACAAG
+ATCTGTTCCGATTTCTGCAGCTGCTCTGTGAGGGGCACAACAACGATTTCCAAAACTACTTACGGACACAGACGGGCAAC
+ACCACCACGATTAACATCATTATCTGCACAGTGGACTACCTCCTGCGGCTGCAGGAGTCCATCAGCGACTTCTACTGGTA
+CTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGGAACTTCTCCAAGGCCATGTCCGTGGCCAAACAGGTGTTCA
+ACAGCCTCACCGAGTACATCCAGGGCCCCTGCACCGGGAACCAGCAGAGCCTGGCGCACAGCCGCCTCTGGGACGCCGTG
+GTGGGATTCCTGCACGTGTTTGCCCACATGATGATGAAGCTCGCTCAGGACTCGAGCCAGATCGAGCTGTTGAAGGAGCT
+GCTGGACCTGCAGAAGGACATGGTGGTGATGCTGCTGTCCCTACTGGAAGGGAACGTGGTGAACGGCATGATTGCCCGGC
+AGATGGTGGACATGCTGGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCAAGTTCTTCGACATGTTCCTGAAACTCAAG
+GACATCGTGGGCTCCGAGGCCTTCCAGGACTACGTCACCGATCCCCGTGGCCTCATCTCCAAAAAGGACTTCCAGAAGGC
+CATGGACAGCCAGAAGCAGTTCACTGGGCCGGAAATCCAGTTTCTGCTCTCGTGCTCCGAAGCCGACGAGAATGAGATGA
+TCAACTTCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGGGACATCGGCTTCAACGTGGCCGTGCTGCTGACCAAC
+CTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTGGAGCTGGCTGAGAGCATCCTTGAGTACTTCCGGCC
+CTACCTGGGCCGCATCGAGATCATGGGCGCCTCCCGCCGCATCGAGCGCATCTACTTCGAGATCTCAGAGACCAACCGCG
+CCCAGTGGGAGATGCCCCAGGTCAAGGAGTCCAAGCGCCAGTTCATCTTCGACGTGGTCAACGAGGGCGGGGAGGCCGAG
+AAGATGGAGCTGTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAGATCGCCGCGCAGATCTCCGAGCCCGAGGG
+CGAGCCCGAGGCCGACGAGGACGAGGGCATGGGCGAGGCGGCCGCCGAGGGCGCCGAGGAGGGCGCGGCGGGCGCCGAGG
+GCGCGGCGGGCACGGTGGCGGCGGGCGCCACGGCGCGGCTGGCGGCGGCCGCGGCCCGGGCGCTGCGCGGCCTCAGCTAC
+CGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACGGCGCGCGAGGCGGCCACGGCGCTGGCCGCGCTGCTCTG
+GGCCGTGGTGGCGCGCGCGGGCGCGGCGGGCGCGGGCGCGGCGGCGGGCGCGCTGCGCCTGCTCTGGGGCTCGCTCTTCG
+GCGGCGGCCTGGTGGAGGGCGCCAAGAAGGTGACGGTGACCGAGCTGCTGGCCGGCATGCCCGATCCCACCAGCGACGAG
+GTGCACGGCGAGCAGCCGGCCGGGCCCGGCGGCGACGCGGACGGCGCGGGCGAGGGCGAAGGCGAGGGCGACGCGGCCGA
+GGGTGACGGCGATGAGGAGGTGGCGGGTCACGAGGCCGGCCCGGGCGGTGCCGAGGGGGTCGTGGCCGTGGCCGACGGGG
+GCCCCTTCCGGCCCGAGGGCGCTGGCGGCCTTGGGGACATGGGCGACACCACGCCGGCGGAACCGCCCACGCCCGAGGGC
+TCCCCGATCCTCAAGAGGAAGCTGGGGGTGGATGGAGAAGAGGAGGAGCTGGTTCCAGAACCGGAGCCCGAGCCCGAGCC
+TGAGCCTGAGAAAGCCGATGAGGAGAACGGGGAGAAGGAGGAAGTCCCCGAGGCCCCACCAGAACCCCCCAAGAAAGCCC
+CTCCCTCACCTCCTGCAAAGAAGGAGGAAGCCGGAGGCGCCGGCATGGAGTTCTGGGGAGAACTGGAAGTGCAGAGGGTG
+AAGTTCTTGAACTACCTCTCCCGGAACTTCTACACCCTGCGCTTCCTTGCCCTCTTCTTGGCGTTTGCCATCAACTTCAT
+CCTGCTGTTTTATAAGGTCTCAGACTCTCCACCAGGGGAGGATGACATGGAGGGCTCGGCAGCAGGGGACCTGGCGGGTG
+CAGGGTCCGGGGGCGGCTCCGGCTGGGGCTCGGGGGCCGGCGAGGAGGCAGAGGGGGACGAGGACGAGAACATGGTATAC
+TACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCGGCCCTGTGGTGCCTGAGCCTGCTGCACACGCTGGTGGCCTTCCT
+CTGCATCATCGGCTACAACTGCCTCAAGGTGCCCCTGGTGATCTTCAAGCGGGAGAAGGAGCTGGCACGAAAGCTGGAGT
+TTGACGGCCTGTACATCACAGAGCAGCCTGGGGACGACGACGTGAAGGGCCAGTGGGACCGGCTGGTGCTCAACACGCCG
+TCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAGGTCCTGGACAAACACGGGGACATCTTCGGGCGGGAGCG
+GATTGCCGAGCTGCTGGGCATGGACCTGGCCTCGCTGGAGATCACGGCCCACAACGAGCGCAAGCCCGACCCCCCGCCGG
+GGCTGCTGACCTGGCTCATGTCCATCGATGTCAAGTACCAGATCTGGAAGTTCGGGGTCATCTTCACGGACAACTCGTTC
+CTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGCCACTACAACAACTTCTTCTTTGCCGCCCACCTGCTGGACAT
+CGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCCTCTGTCACCCACAATGGGAAACAGCTGGTGATGACTGTGGGCC
+TCCTGGCCGTCGTGGTCTACCTGTACACTGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAG
+GACGAGCCGGACATGAAGTGCGATGACATGATGACGTGCTACCTGTTCCACATGTACGTGGGCGTCCGGGCTGGCGGAGG
+CATCGGGGACGAGATCGAGGACCCAGCGGGCGATGAATACGAGCTCTACCGGGTGGTCTTCGACATCACCTTCTTCTTCT
+TCGTCATTGTCATCCTGCTGGCCATCATCCAGGGTCTGATTATCGACGCCTTCGGCGAGCTCCGAGACCAGCAGGAGCAA
+GTGAAGGAAGATATGGAGACCAAATGCTTCATCTGCGGGATTGGCAGTGACTACTTCGATACCACGCCGCACGGCTTCGA
+GACCCACACGCTAGAGGAGCACAATCTGGCCAATTACATGTTCTTCTTGATGTATCTGATAAACAAGGACGAGACGGAGC
+ACACGGGCCAGGAGTCCTACGTCTGGAAGATGTATCAGGAGAGGTGCTGGGACTTCTTCCCCGCCGGCGACTGCTTCCGC
+AAGCAGTACGAGGACCAGCTGAGCTGAGACGCCCCGGCTGCCCTCCACCCCACCTCCAGTGCCTTCTTCTCACAGCAAGC
+CCTCCAGACTCCCGGGCAGAGGGATTCCGAACCCGAGAAATAAAAGTCTGTTCCACCCCCTGG
+>ref|X58291.1| Rabbit intron from SERCA2 gene for CaMg ATPase
+GTGAGTGTCGGGTCCTGGGGGGTGAGCAGCCGCCTCCGCGAGTCGGGAGCCTGACAGGGCCCTGGGTGCCAG
+>ref|NM_001101692.1| Oryctolagus cuniculus solute carrier family 5 member 1 (SLC5A1), mRNA
X55355.1 Rabbit mRNA for cortical sodium-D-glucose cotransporter
+TGTCGTCGCCGCCGCCACGCCGCCATGGACAGCAGCACTTTGAGCCCCCTGACCACCTCCACCGCGGCCCCCCTTGAGTC
+CTATGAGCGCATCCGCAATGCGGCCGACATCTCCGTCATCGTCATCTACTTCTTGGTGGTGATGGCCGTCGGGCTGTGGG
+CTATGTTTTCCACCAATCGGGGGACGGTCGGAGGCTTCTTCTTGGCGGGTCGGAGTATGGTGTGGTGGCCGATCGGAGCC
+TCTCTGTTTGCCAGTAACATTGGAAGTGGCCACTTTGTGGGGCTGGCCGGGACGGGAGCTGCTTCAGGCATTGCCACTGG
+GGGCTTTGAGTGGAACGCCCTGATCATGGTGGTCGTGCTGGGCTGGGTGTTTGTCCCCATTTACATCAGGGCTGGGGTGG
+TGACGATGCCAGAGTATCTGCAGAAGCGGTTTGGAGGCAAGAGGATCCAGATCTACCTTTCCATTCTGTCCCTGTTGCTC
+TACATTTTTACCAAGATCTCGGCAGACATCTTTTCCGGAGCCATCTTCATCCAGCTGACCTTGGGCCTGGATATCTATGT
+GGCCATCATTATCTTATTGGTCATCACTGGGCTCTACACCATCACAGGGGGCTTGGCCGCTGTGATCTACACGGATACCT
+TGCAGACTGCCATCATGATGGTGGGCTCTGTGATCCTGACTGGGTTCGCTTTTCACGAAGTAGGAGGGTACGAGGCCTTC
+ACGGAGAAGTACATGCGAGCCATTCCCAGCCAGATCTCCTACGGAAACACCTCCATCCCACAGAAGTGCTACACCCCAAG
+GGAAGACGCCTTCCACATCTTCCGAGATGCCATCACTGGGGACATCCCCTGGCCCGGGCTCGTCTTTGGAATGAGCATCC
+TCACCCTTTGGTACTGGTGCACTGATCAGGTCATTGTGCAGCGTTGCCTGTCAGCCAAGAACTTGTCCCACGTGAAGGCC
+GGCTGCATTCTGTGTGGGTACCTGAAGGTGATGCCTATGTTCCTCATAGTGATGATGGGGATGGTGAGCCGTATCCTGTA
+CACAGACAAAGTTGCCTGCGTCGTGCCCTCGGAATGTGAGAGATACTGTGGCACCAGGGTTGGCTGCACCAACATTGCCT
+TCCCAACCTTGGTGGTGGAGCTGATGCCCAATGGGCTGCGGGGCCTGATGCTGTCCGTCATGATGGCGTCTCTTATGAGC
+TCCCTGACCTCCATCTTCAACAGCGCCAGCACCCTCTTCACCATGGACATCTACACCAAGATCCGGAAGAAAGCATCTGA
+GAAGGAGCTCATGATCGCAGGAAGGTTGTTCATGCTGTTCCTGATTGGCATCAGCATCGCCTGGGTGCCCATTGTGCAGT
+CAGCCCAGAGTGGGCAGCTCTTTGATTACATCCAGTCCATCACCAGTTACTTGGGGCCGCCCATTGCTGCTGTCTTCCTG
+CTTGCTATTTTCTGGAAGAGAGTCAACGAGCCTGGAGCCTTTTGGGGGCTGGTCCTCGGATTTCTGATTGGGATTTCCCG
+TATGATTACCGAGTTTGCCTATGGAACCGGGAGCTGCATGGAACCCAGCAACTGCCCCACGATTATTTGTGGTGTGCACT
+ACTTGTACTTTGCCATCATCCTCTTTGTCATTAGTATCATCACCGTTGTGGTTGTCTCCCTCTTCACCAAGCCCATTCCA
+GATGTGCATCTCTATCGTCTGTGCTGGAGCCTACGTAATAGCAAAGAGGAGCGCATTGACTTGGATGCAGGAGAGGAAGA
+CATTCAAGAAGCTCCAGAGGAGGCCACTGACACAGAAGTTCCTAAGAAGAAGAAAGGATTCTTCAGGCGGGCCTATGACC
+TGTTTTGTGGGCTGGACCAGGATAAGGGACCCAAGATGACCAAGGAGGAGGAGGCTGCCATGAAGCTGAAGCTCACAGAC
+ACCTCCGAGCACCCTCTGTGGAGGACCGTGGTGAACATCAACGGTGTCATCTTGCTGGCCGTGGCTGTCTTCTGCTACGC
+GTACTTTGCCTGAGTCCCGGCCGCTGCTGCCACTCGGCAAGGCTGGCGTGTGTACTCTCTGCCTGCCTTTCATCCCATGC
+TGCGGTGGCGAAGGGGAATCAATCCCTTGCAAAGTTTGCCCCATTTGGATAAATGTCTATATGTAAATTACAGGCTGGTT
+GGAGGAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|X65078.1| O.cuniculus mRNA for surfactant associated protein C
+CGCAAGATGGACATGGGCAGCAAAGAGGCCTTGATGGAGAGCCCACCGGACTACTCAGCAGCTCCCCGGGGCCGCTTCGG
+CATCCCCTGCTGCCCAGTGCACCTCAAACGTCTTCTCATCGTGGTCGTCGTGGTGGTCCTCGTGGTCGTGGTGATTGTGG
+GGGCCCTGCTCATGGGGCTCCACATGAGCCAGAAACACACCGAGATGGTCCTAGAGATGAGCATCGGGGCGCCGGAGGTC
+CAGCAGCGCCTGGCACTGAGCGAGTGGGCGGGCACCACGGCCACTTTCCCCATCGGCTCCACCGGCATTGTCACCTGCGA
+CTACCAGCGGCTCCTGATCGCCTATAAGCCAGCCCCGGGAACCTGCTGCTACCTCATGAAGATGGCTCCAGACAGCATCC
+CCAGTCTGGAGGCTCTGGCTAGAAAATTCCAGGCCAACCCTGCAGAGCCTCCCACTCAGCGGGGCCAGGACAAGGGGCCA
+GCCGCACGGCCGGCGTCCTCCGGAGGAGAGCTGGCCTTCCTGGGCGCAGCCGTGAGCACCCTGTGTGGGGAGGTGCCTCT
+CATCTACATCTAGGACTCAGGGTCTGCGGAAGCCCCGAGGGGGTCAGGAGGGACCCGCCAGCAGAAGGGTCTTCCGTCAA
+GAGGCAGGACGCTGCGTCTGCCCGCACCTCCAGGGCCGGCCGTGGGCGACCGGAGCTGCGGGGAGAGGCAGCCCCCAGGG
+CCCAGGGGTGGGGGGACCCCCGCCACAGGAGAATAAAGCAAGCTGACCGAAAACAAAAAAAAAA
+>ref|V00892.1| Rabbit alpha-tropomyosin messenger fragment (aa 103 to 146)
+CAGGAGCGTCTCGCAACAGCCTTGCAGAAGCTGGAGGAGGCCGAGAAGGCAGCAGACGAGAGTGAGAGAGGCATGAAAGT
+CATTGAAAGCCGAGCCCAAAAGGATGAGGAAAAAATGGAAATTCAGGAGATC
+>ref|V00893.1| Rabbit beta-tropomyosin messenger fragment (aa 131 to 172)
+TCGAAAACCGGGCCATGAAGGATGAGGAGAAGATGGAGCTGCAGGAGATGCAGCTGAAGGAGGCCAAGCACATTGCCGAG
+GACTCAGACCGCAAATACGAGGAGGTGGCCAGGAAGCTGGTGATCCTCGA
+>ref|V00895.1| Rabbit troponin C messenger fragment (aa 132 to 148)
+TCGAATCCCTGATGAAGGACGGGGACAAGAACAACGATGGCCGCATTGACTTCGA
+>ref|V00896.1| Rabbit troponin C messenger fragment (aa 134 to 148) (slow muscle)
+TCGAGGAGCTCATGAAGGACGGCGACAAGAACAACGACGGCCGCATCGA
+>ref|V00897.1| Rabbit troponin I messenger fragment (aa 1 to 24)
+ATGGGAGATGAAGAGAAACGCAACAGGGCCATCACGGCCCGGCGGCAACACCTGAAGAGCGTGATGCTGCAGATC
+>ref|V00898.1| Rabbit troponin I messenger fragment (aa 162 to 174)
+TCGAGGAGAAATCGGGCATGGAGGGCCGCAAGAAGATGTTCGA
+>ref|V00899.1| Rabbit troponin T messenger fragment (aa 49 to 129)
+GATCCCGGAAGGAGAGAAAGTAGACTTCGATGACATCCAGAAGAAGCGGCAGAACAAGGACCTCATGGAGCTGCAGGCGC
+TCATCGACAGCCACTTCGAGGCCCGCAAGAAGGAGGAGGAGGAGCTGGTGGCCCTCAAGGAGAGGATCGAGAAGCGCCGG
+GCCGAGAGAGCGGAGCAGCAGAGGATCCGGGCCGAGAAGGAGCGGGAGCGCCAGAACAGACTGGCGGAGGAGAAGGCCCG
+GAGA
+>ref|V00900.1| Rabbit troponin T messenger fragment (aa 233 to 259)
+CCGGGCCAGGGTCGAGATGCTGGCCAAGTTCAGCAAGAAGGCTGGCACCACGGCCAAGGGCAAGGTCGGCGGGCGCTGGA
+AGTGA
+>ref|V00901.1| Rabbit troponin T messenger (new isotope) fragment (aa 217 to 236)
+TCGAGTTCGGGGAGAAGCTGAAACGCCAGAAATACGACATCACCAACCTTAGGAGCCGCATCGA
+>ref|V00902.1| Rabbit triose phosphate isomerase messenger fragment (aa 56 to 83)
+GATCCCAAGATTGCTGTGGCTGCACAGAACTGCTACAAAGTGACTAACGGGGCCTTCACTGGGGAGATCAGCCCTGGCAT
+GATC
+>ref|Y00760.1| Rabbit mRNA for adult fast skeletal troponin-C
+CGTCTGTGCGTGGTGGAGTTCAGGGGAGGCGGCTCACGGCAGGGGTGGCCCAGTGACCAGCAACCATGACGGACCAGCAG
+GCTGAGGCCCGGTCCTACCTCAGCGAGGAGATGATCGCTGAGTTCAAGGCCGCCTTCGACATGTTTGATGCTGATGGCGG
+TGGTGACATCAGCGTCAAGGAGTTGGGCACAGTCATGAGGATGCTGGGCCAGACACCCACCAAAGAGGAGCTGGACGCCA
+TCATCGAGGAGGTGGATGAGGATGGCAGCGGCACCATCGACTTCGAGGAGTTCTTGGTCATGATGGTGCGCCAGATGAAA
+GAGGACGCCAAGGGCAAGAGCGAGGAGGAGCTGGCCGAGTGCTTCCGCATCTTCGACAGGAACGCAGACGGCTACATCGA
+CGCCGAGGAGCTGGCTGAGATTTTCAGGGCCTCTGGGGAGCACGTGACGGACGAGGAGATCGAATCCCTGATGAAGGACG
+GGGACAAGAACAACGATGGCCGCATTGACTTCGACGAGTTCCTGAAGATGATGGAGGGCGTGCAGTAAGGCTGGGGTCTC
+CGCCTCCGGCCCCGCGCGGCTCGTTCCCTGCCCCGCGCGGGGCGGCCCCTTCTGGCTCCGTGTCTGGAAGGAATAAAAGC
+AAACGTTGCC
+>ref|X17329.1| Rabbit mRNA for titin (partial) (A-band)
+TCATTGGCTATCATCTAGAACGCAAGGAGAGAAATAGCATCCTCTGGGTTAAGCTGAATAAGACACCTATTCCTCAAACC
+AAGTTTAAGACAACTGGACTGGAAGAAGGCATTGAATATGAATTTAGAGTCTCTGCAGAGAACATTGTGGGTATTGGCAA
+GCCAAGTAAAGTCTCAGAATGTTATGTAGCTCGTGATCCATGTGACCCACCAGGACGGCCAGAGCGGATCATTGTCACAA
+GGAATTCTGTGACTCTTCAGTGGAAGAAGCCCACCTATGATGGTGGAAGCAAGATCACTGGTTACGTTGTTGAGAAGAAA
+GAATTACCTGATGGCCGCTGGATGAAAGCCAGTTTTACAAATATCATGGACACTCAGTTTGAAGTAACCGGCCTGGTTGA
+AGACCATAGATACGAGTTCCGGGTTATAGCTCGAAACGCTGCAGGAGTGTTTAGTGAGCCGTCAGAGAGCACGGGCGCCA
+TAACAGCAAGAGATGAGATAGATCCACCTCGAATAAGCATGGATCCAAAGTACAAAGACACGATAGTGGTTCACGCTGGT
+GAGTCATTCAGGATTGATGCAGATATTTATGGCAAACCGATACCAACCACTCAGTGGATTAAAGGTGATCAGGAGCTCTC
+GAACACAGCTCGACTAGAAATAAAGAGCACGGACTTTGCCACAAGTCTCAGTGTAAAGGATGCATTCCGTGTTGACAGTG
+GAAATTACGTACTGAAAGCCCAAAATGTGGCAGGAGAGAGATCGGTTACTGTGAATGTCAAGGTTCTTGATAGACCAGGG
+CCACCTGAAGGACCTATTGTGATATCAGGAGTTACAGCCGAAAAATGCACACTAGCTTGGAAACCGCCACTTCAGGACGG
+TGGAAGCGACATCATAAATTATATTGTGGAAAGGAGAGAAACCAGCCGCCTTGTTTGGACTGTGGTCGATGCCAATGTGC
+AAACCCTCAGCTGCAAGGTCACAAAGCTTCTTGAGGGCAACGAATATATTTTCCGTGTAATGGCTGTGAACAAATACGGT
+GTTGGTGAGCCTCTCGAATCTGAGCCAGTAATCGCCAAGAATCCATTTGTAGTGCCAGATGCCCCAAAAGCTCCAGAATG
+CACCACAGTGACCAAGGACTCAATGATTGTGGTATGGGAACGGCCAGCATCTGATGGTGGCAGTGAAATTCTTGGATACG
+TTCTTGAAAAACGGGATAAGGAAGGCATTAGATGGACAAGATGCCACAAGCGACTGATTGGGGAGTTGCGTTTGAGAGTA
+ACTGGACTCATAGAAAATCACAACTATGAATTCAGAGTCTCAGCTGAGAATGCTGCAGGACTTAGTGAACCAAGCCCTCC
+TTCTGCTTACCAAAAGGCTTGTGATCCTATTTACAAACCTGGACCTCCAAACAACCCCAAAGTCATGGATATTACCAGAT
+CTTCAGTTTTCCTTTCTTGGAGCAAACCAATCTATGATGGAGGCTGTGAAATCCAAGGATACATTGTTGAAAAATGTGAT
+GTGAGTGTTGGCGAATGGACAATGTGTACTCCACCAACTGGAATCAATAAAACAAATATAGAAGTAGAGAAGCTGTTGGA
+AAAACATGAATACAACTTCCGTATCTGCGCTGTGAATAAAGCTGGAGTCGGTGACCATGCTGATGTCCCTGGACCCGTTA
+TAGTTGAAGAAAAACTGGAAGCACCAGACATTGACCTGGACCTCGAACTCAGGAAAATTATAAATATAAGGGCTGGTGGC
+TCCTTAAGGTTATTTGTTCCTATAAAGGGTCGTCCTACTCCAGAAGTTAAATGGGGGAAGGTGGATGGTGAAATCCGAGA
+TGCAGCGATAATTGACAGCACCAGCAGTTTCACCTCTCTTGTTCTTGACAATGTCAACCGATATGATAGTGGAAAATACA
+CGCTCACATTAGAAAACAGCAGTGGAACAAAGTCTGCCTTTGTTACTGTGAGAGTCCTGGACACACCAAGTCCACCTGTT
+AACCTGAAAGTCACGGAAATCACCAAAGACTCCGTATCGATTACCTGGGAACCTCCTCTGTTGGATGGGGGATCCAAAAT
+TAAAAATTACATTGTTGAGAAACGCGACAGCACAAGAAAATCTTATGCAGCTGTTGTCACAAACTGCCATAAGAGTTCTT
+GGAAAATCGATCAGCTCCAAGAGGGTTGCAGTTATTACTTCAGAGTCACAGCTGAGAACGAGTATGGTATCGGCCTTCCT
+GCCCGCACTGCTGATCCAATTAAGGTTGCAGAAGTCCCACAGCCTCCAGGAAAAATCACTGTAGATGATGTCACCAGAAA
+CAGTGTCTCTCTGAGTTGGACAAAGCCCGAACATGACGGTGGCAGTAAAATCATTCAATACATTGTGGAAATGCAAGCTA
+AACACAGTGAGAAATGGTCAGAGTGTGCGCGAGTAAAGTCCCTTGAAGCAGTAATTACCAACCTAACTCAAGGAGAAGAA
+TATCTCTTTAGAGTCGTTGCTGTAAATGAAAAGGGGAGAAGTGATCCTAGGTCCCTTGCAGTTCCAATAGTTGCCAAAGA
+TCTGGTCATTGAGCCCGATGTAAAACCAGCATTCAGCAGTTACAGTGTACAGGTTGGCCAAGATTTGAAAATAGAAGTGC
+CAATTTCTGGACGTCCCAAGCCAACCATTACCTGGACTAAAGATGGTCTTCCACTGAAGCAGACCACAAGAATCAATGTT
+GCTGATTCACTTGACCTCACCACACTCAGTATTAAAGAAACCCATAAGGATGATAGTGGGCACTATGGAATCACAGTTGC
+CAACGTTGTTGGTCAGAAAACCGCATCCATAGAAATTATCACTCTAGATAAACCTGATCCTCCAAAAGGACCTGTTAAAT
+TTGATGAAGTCAGTGCTGAAAGTATTACATTATCTTGGAACCCTCCATTATACACAGGGGGCTGCCAGATCACCAACTAC
+ATTGTTCATAAAAGAGATACAACCACCACAGTATGGGATGTTGTTTCTGCTACTGTTGCTAGAACCACACTCAAAGTGAC
+CAAACTGAAAA
+>ref|NM_001171077.1| Oryctolagus cuniculus uncoupling protein 1 (UCP1), mRNA
X14696.1 Rabbit UCP gene encoding mitochondrial uncoupling protein, complete cds
+CCGGGGTGGGAGGGCGGTTCCCGAGGTCAGAGAGAGCCCAGTGACCAGGCAGGAAAGGGAACTTACATCTTCGGAGATTG
+CAGCCCTTATCCTCTTGCACCTGCCTCTTGCTCAGAGTGAAGATGGTGGGCACCACGACCACGGACGTGCCCCCAACCAT
+GGGGGTCAAGATCTTCTCAGCTGGAGTGGCAGCCTGCCTGGCGGACGTGATCACCTTTCCGCTGGACACCGCCAAAGTCC
+GGCAACAGATCCAAGGCGAGTTCCCGATCACCAGCGGCATCAGGTACAAAGGTGTCCTGGGGACAATCACCACCCTGGCA
+AAAACGGAAGGGCCCCTGAAACTCTACAGCGGGTTGCCCGCCGGCCTCCAGAGACAAATCAGCTTCGCCTCGCTCAGGAT
+CGGCCTCTACGACACGGTGCAGGAGTTCTTCACCTCGGGGGAAGAAACACCGAGTTTAGGAAGCAAGATCTCGGCCGGCC
+TAACAACTGGAGGCGTGGCGGTGTTCATCGGGCAGCCCACAGAGGTCGTGAAAGTCAGGCTGCAAGCGCAGAGCCACCTG
+CACGGTCTCAAGCCTCGCTACACGGGGACGTACAATGCCTACAGGATTATAGCTACAACTGAGAGCTTGACCAGTCTGTG
+GAAAGGGACAACTCCTAATCTGTTAAGGAATGTCATTATTAACTGTACAGAGCTCGTAACCTACGACCTAATGAAGGGGG
+CCCTTGTGAGAAACGAAATACTAGCAGATGATGTTCCCTGCCACTTCGTGTCAGCTCTTATCGCTGGATTTTGCACAACG
+CTTCTGTCCTCTCCAGTGGATGTGGTGAAAACCAGATTTATTAACTCTCCACCGGGACAATATGCGAGTGTGCCCAACTG
+TGCAATGACAATGTTCACTAAGGAAGGACCAACGGCTTTTTTCAAAGGATTTGTACCTTCCTTCCTGCGACTCGGATCAT
+GGAACGTCATCATGTTCGTGTGCTTTGAAAAGCTGAAAGGAGAACTCATGAGGTCAAGGCAGACTGTGGACTGTGCCACA
+TAATCAGCTTCAAGAAAAGGACACCACATCCCAGTGGGAACCCCTGCACCCGGGTCATCAAGAAATAAAACCTTGTTCAC
+TTTATTTTACCCTAAAAACTAAAGAAATCCCAGTAGGGAGTTTTGGACTTTTTTTTTCAAAGGCAAATGAAGACCTATTT
+TGTTTAAGTTTTATCCTCAGTGCCTTAGGAGGAGAAAGCCAAACATACATCTGGCAAATGTAACGCCCAAATAAGGAACA
+GCACTTGGTTGACCATTTTGGAGGTGCAATGGTATAATTGAATATGAAGAACCTTTATATATTTTAATATTTGAAACTGA
+TGGTAGAGGAAAACTGAGTGAAATGCATTTTATGAATACTTTAAAATGAAGTTGTCAAAGAAAATATTAGTTTCTTTTTA
+TTTATTAACCACACTGCCAGCTAATATATTCAATAAAGTATTCTAATACCCTTT
+>ref|NM_001101712.1| Oryctolagus cuniculus neurexophilin and PC-esterase domain family, member 1 (NXPE1), mRNA
Z12840.1 O.cuniculus mRNA for protein of unknown function
+GGACCTAACAGGTATCTACAAGGTCGATTAACTCTGTTGTTTCCTTGCTGATTTTCTGTCTGGTTGATCTGGACACAGAC
+AAGGATAAAGGGGACTTCTGCACATCGAGGGTAGCCACATAAGAACTCAGAGGTGTTTTTCCAACTACGCAGACAGAGGC
+AGTCATCGGAAGAGGATACTTATCATACTCTCAAGTACAATGCTTCACAAATATCTGAAGTTGATATGTCTCTTAGCAGC
+TATTTGTGTACTTTGTATAATTTCTCAGAACTCCACAAAGATTTGGGGTGCTCTAAAGTTACCCAACTCCCACTACTATT
+CTAATACCTCCATGATATCCTCAATCCCAAAAATGTCAGTGAGCCCGGTGAAGTCACTAACAGAGACTGAGCTGAGAGTA
+AAGGAAATCCTAGAGAAACTAGATCGGCTGATCCCACCCAGACCTTTCACCCACGTGAACACCACCACCAGTGCCACACA
+CAGCACAGCCACCATCCTCAACCCACAAGACAAGTATTGCGTGGGGGACCAGCTGGACATCTTGCTGGAGGTGAGGGACT
+ACTTGGGACACCAGAAGGAATATGGTGGGGATTTCCTGAGGGCCAGGATGTTCTCTCCAGCCCTGAAGGCAGGAGCCTCA
+GGAAAGGTGACCGACTTCAACAATGGTACCTACCTTGTCAGCTTCACTCTGTTCTGGGAGGGCCAGGTCTCCCTGTCTGT
+CCTGCTCATCCACCCCAGTGAAGGGGCATCAGCTCTCTGGAGGGCAAGGAACCAAGGCTATGACAGAATTATTTTCAAAG
+GGCAGTTTGTCAATGGGACCTCCCATGTCTTCACTGAATGTAGCCTGACCTTAAACTCAAACACCGAAGAGTGCAAATAC
+TTGAATGGCAGAGACCAAGATGTCTTCTACTGCATGAAACCTCAACACATGCCCTGTGAAGCCCTAACTCATGTGACATC
+CAGGAATCGGGATATTTCATATCTTACCAGCAAGGAAAAAAACCTTTTTCACAGGTCCAAAGTGGGAGTTGAAATAATGA
+AAAACCAACATATTGATGTCTCCCAATGTAACAAGAGTAAAGAGGTAAAAGAGAAATGCCAAATTGGAATGAAGATCCCT
+GTACCTGGCGGTTACACTTTACAAGGAAGATGGTTAACAACATTTTGCAACCAGATTCAGTTAGATACAGCTAAAATAAG
+TGGCTGCTTGAAAGGAAAACTCATCTATCTCATGGGAGACTCTACGCTGCGTCAGTGGATCTACTACTTACCCAAAGTAA
+TGAAAACACTAAAATTCTTTGATCTTCACGAAACTGGAAATTTTAAGAAACATTTGCTTCTGGATGCAGAAAAACACACT
+CAGATTCAATGGAAAAAACATAGCCATCCTTTCGTCACGTATCAACTCTTCTCGGTGATAGATCATGGTTACATCCCTCA
+GGAAATTGACCGGCTAATAGGTGACAAGGACACAGTCATCGTCATCACCTTTGGCCAACACTTCAGACCCTTCCCCATTG
+ACATCTTCATTCGTAGAGCCATCAGTGTCCGACAGGCTATTGAACGACTGTTCCTGAGAAGCCCAGCCACCAAAGTGATC
+GTGAAGACAGAAAACATCAGAGAGATGCACATTGAGGCAGAGAGATTTGGAGATTTCCATGGTTACATTCAGTATCTTAC
+TCTGAAGGACATTTTCAAAGATCTCAATGTGGGGGTTGTTGATGCCTGGGACATGACCATTGCATATGGCACCAATAATG
+TCCACCCACCTGATCAGGTGATTGGAAATCAGATTAATATGTTCTTAAATTACATTTGCTAACACACACACACACACACA
+CACTCTCACAGTCACTAAGAAACAATCTCTGTAGATAATTCCTCATCTATTGCCAAATGGTTCTGAGCATCTGAGGAACT
+AGGATGTCAAGACGTTCTGAAATAGGGATCACTTAACTTTGTAGAGGACTAGCTAATAAATATTTTAGGTTTTGCAGACC
+ACATGATCTCTGTCACAACTGTCCATGTCTGTCACTGAAATTCAAAAGCAACCAATGACAGCATGTAAACAGATGGGTTT
+CATAATGTTTCAATAAAACTTTATTTATGGACACTGAAAGTCAAATTAAATATAATTTTTACAT
+>ref|Z12842.1| O.cuniculus mRNA for protein of unknown function
+CAACCAAAGGGGAAGCGCTGGGACCTTGTCAGCTCACGTTTCCTCAGGATGGCTTCTGGAAGACTAATCAAGCTCGTGAT
+TTTCGAGCTTCTGGAGTTTGCTGCTTTCTCCATTCCCACGCTCGTGATTATGGAGCAGTTTGCCACTGCCTACCAGAGGA
+CCAGGAATGCGTCTGAGAAAACACATTACTGGCTGATTGTTTCCTGCTCTATCGCCTATGTCGCTGTAGTGAGTCTTTTG
+ATTTGGGTTCCCGTAAAAGTTCTCTTACACAAGAAACGTCATCTTTACAAAAAAATTAAAGGATGGAGACCTGTTATGAT
+GATGTGTGTAGTACTCACCACACTTCCCAGCTTCATCTTTTCTATAGCAGTAACTGAGGTTCAGAAGACCATTAATACTA
+CTGTTGATGTATTACCAGATACCTTGCCTGACCTGCCAGTATCTCTGGTTATTTCATCCTTGATCATCACTGATATTATT
+GAAAACTCAGGTTTCATCCTATTAGAGGGTATCAAAAGAGTAACGAAGATAAACACATCCACACGTCCTCTTTGCAACAA
+GTAAGAACTGTGACGGAACAAGTGAGGCAAAATGGAGAGAACGCTGCCTCTCCCTGCGCAGCCAGCCCCTCTGAGACGTG
+GCAGCCCCCAGGGGCACTGACACACAGCGCCGTCCCCATGTTCGCTGGGCCCCAGGAGCCTTTCTTTGGCTCCGGAATCC
+TGAAGACAATGTCCCGGCGAGATGTCCGGGCCGAGATATTCCTCTGGAGCTTTCTGCTGTGGTCTGACACAATAGAGATG
+GTGCGAGTGGCCGGTCACCCTAACGTGTACAAGACAAACTGGCTGTATCCAGTCTACTTATTCAGTTTCATTTCTCTCCT
+TCGCATTATATTCACCCCCCAAAATCCTCTTCTCAGTTGTCTGGGCATCCTGCTGCAGGATTTACCCTTTGTGTTTGTCA
+GGCTCAGTTTGATCATTGCCCTGGGGACAATCACACCTGTCCTCGGCCTTTGTAAAAACGTGCTGGTGACTCTCTCTTAT
+GTTTACTTCAATTTCTTAACCAGATTCAGGGCTTTCTCTAACTTTGAGTTGTCTCCATTTTAAAAAGAAGACTCCTGTTT
+TTAAAAAGATGAGACCTCTTCCTATGAGTAAACGCACATTACAGCAGTGGCTTTTTTTGTTTTTGTTTTTTTTCTCCATT
+TTTGGCAGAGCCTAAATTTTTGCACTACAGAAGAAACGAAGAACAGATTGTACAGAGTAACCTGTTTTTAATTACTGTAG
+ATATCAATTGTTAATGTATACAGTTGGTGCTAAAGTTCAACAAAGTTGTATTCTTAGAAGTTGGTGCCCATACATCTCTT
+TCTGAAAATGTTAGTAGTTTCAGTTACATCTTCAAAAAACTCATGGAAAATGCATATTATGAAAAAACTATACGTGGATT
+TCCAGAATTTTATACCAAAATAAACTTATCTTTAAATCCATTTTTCTGCAAAATTTTAAGTACCCTTATATACAACGTTT
+TTTCCAATAACACTCCTTCATAAAGCCTTTTTTAAAATTGAGAACATATTTTCCCACTACATGAGCCCAAGAATGAGATT
+TTTACCATTTATGCAAATTATGGAACATTACATGAATTAATCAGATTTTAGGAAATACACCTGAAGTTATTGAATAATTT
+TTAAGATTATGCTTTTTTTTTTTTTTGACAGGCAGAGTGGACAGTGAGAGAGAGAGACAGAGAGAAAGGTCTTCCTTTTG
+CCGTTGGTTCACCCTCCAATGGCCGCCGCGGCTGGCGTGCTGCAGCTGGCGCACTGCGCTGATCCGAAGGCAGGAGCCAG
+GTACTTATCCTGGTCTCCCATGGGGTGCAGGGCCCAAGGACTTGGGCCATCCTCCACCGCACTCCCTGGCCACAGCAGAG
+AGCTGGCCTGGAAGAGGGGCAACCGGGACAGAATCCGGCGCCCTAACCGGGACTAGAACCCGGTGTGCCGGCACCGCTAG
+GTGGAGGATTAGCCTATTGAGCCGCGGCGCCAGCCTAAAATTATGCTTTTTTAAATCTGAAAATTATACCTTAGAGTCTC
+TTTCAAACACAGAATTATAGTCCTTATCCCGCTCCTTCAGGTGACTTTTATTTAGCTGATTTCCCCATGAGAAACAATTC
+ACTTGAACAGGTGTTTCACTCAGGTGAAGGTGTAATTTAGCTGTTGAACTGGAACTGCAATACTAACATGAATTGTGTTT
+ACTGTAATGAAGGCAAGGTACATCAGTGATCTCTAGATAAAGTTTTATAATGGGAAGCCATAAATTGAAGATGTAGATTT
+CAAAGTGTAATATTATTTTATTTGTGGAATTTGATACCATCATAAAAATGATTGAGTGCATGCACTATCTAAAATTAGAA
+GTTCAACGTATGAATATAATGGCAATTGCACCAGTGTCTTATGTGATGCTCTGTCGTGACTATCTTCATGGTTTGAAATA
+ATCACATGCAAAATCATGGCACTTGCCTTCACTATGTGGGGATACTCCAAAATTCAGGGCAGAGGTGCTCCCTCTCACGT
+GACTTTTCAGACGCTGGACAGATTTGTAGGAGGCCTAGGAGCGCAGTGTAATGATTTGTGTAGCCAGTCTCTTTCATGAC
+CTGGATGGATGACAGACCTGGTATGTTCCCTGCTCTCCACTAAATCCCCGAGTCTCTCACCCCTGCTACCTTCAGGTTTT
+TATAATCTCGTAAAGGAAGGTCTGTCATTGTTCAACCTTGCCTGCTGGTTTTATGACCTGTGACACGTTCCTGGACTGCT
+GTGGCCTCCATTTTCATATTAAAGATGAATATACACCTGAAACCACTTTAGTAGGCATGAAAGTGTGAGGACTGCTCCCA
+GCATGCTGTCTGGCAAACAAGAATATCTGTATAAATGCTAAGTGTTTTCTTGGTGCCCATCCCCAGTAAACAACTAAATA
+CATTGCTGCTTTGTTCTGTTTTATTCTTTCTCTGTGTCCCTGCTTACCTTTTGGGAAAAATTTAAACCTCGAATTTCTGA
+AAAGTCTTATGTGAAATCTGACCAGAGACTACAACTTTTTATCAAGTGGTAGAATGTTGAGAAGTGAATATGCAGCATAA
+AACGGATGTAAGCGTTTGCTCATCAGACGTTGGAGAGTCACCCTGTGAACTCCAGTTGTGACACTGGATGAAGACTTTCA
+TTGTATGTTTACTCTTCTGTATTCCTCACTAATCTTATTCCTTAAAGGAAGGTCTGAGGATATTTTCTTTAATAATGCAT
+CTTTTACTGTCAATAAAAACCTGTAATCAAGTGATTAATTTAAAATATTCCTACATATAGAAATATTTTACATAAATATA
+TATTTATTTTATATTGGAATTTATAGAGAAATGGTGCTTAGGTAAACTCAGAGGTATTACTTGAGTATTACTTGAGTTTA
+GGATTTGTTTTGTTTCTAATATTTAAACATGAATATGCCCAATATTTTGAGTAGTAATGCAAAACATGACATGTAGGAAG
+AAAATTATTGGATAGCTAATTTATTTATAAACATGTGTTTATAAAGTTCAACTCTGTTATTTAACAGATATTACAGAAAA
+TTATGCTGACAAAACATTGATCTACACTGTGTGATTAAAATTACATTATTAAAATTATATGGCAATTATCATAGCTTCTC
+ATTGTTGTTGGTACTAAGACTCATATAACTTTTTTTTGTTCTGATAAAAATGTTACTTTTCTGCTGTATGAAATTGTACA
+TGCCAAAATGTCATGATCTATAATACACTGTATGATGTTTTATTCCAAG
+>ref|Y00136.1| Rabbit uteroglobin gene 5'-flank EcoRI2-EcoRI3 fragment
+GAATTCTCTGCGGGGAGAGACTGTGCAGTCTTTCACGCCCGAGCAGCCATCTCTGTGACCCTTCTTGGGCCATCTCAGCA
+CAGCCACTGGGCTGTGACACCTAGTGGTCATGCAGGAAGCACCCATTGTTTAACAAGGAGGCTCCCTCATTCTACAACCC
+AGAAGGCACACAAACACTCCTTTGGCGTTCCAAGCTGTTCTCCAGGACTGCCTCAGTATTCTTTCTTGCCGTAATCTCAC
+CCATCAGTCCAGGCCCTAGGGTCAGGCCAGGGACACGGGAGTCAGCTGAACCTAGGAGTCATTTGATGGGCACAGATGGG
+CATTTCAGGAACAAAGGGAAAACTCCCTCTAGGGTCCCAGCCCAGCAGCAGTGCTTGCCCGGATCCACTGCTGCCAAGTC
+ACTCATGTGTAGACTCGAACAAGGAAACTGCCTGTGCACAGGCAATGTGGGGATGTGCAAATGCTTGGGCAGCCAGGACT
+GGAACGGGTGCTCCAATATGACATGCAGGCATTGCAAGCAGTGGCTTAACCCACTGAACCACTCCTGCTCCAGTTTTGTG
+TTCTGTCTTTTGCCTTTTTTTTTTTTTTTTAAGATTTATTTATCTGAAAGTCAAAGTGACAGAGAGAGAGGAAGAGACAG
+AAAGACAGATCTTCCAATGGCTGATTCACTCCCCAAATGGTCACAGCAGCCAGGGATGGGCCAGGCCAAAGCCAGGAGCC
+TAGAATTC
+>ref|X01423.1| Rabbit uteroglobin gene
+GAATTCAACCAAGGTTCCCCACATAGTCGGCAGGGGCTCAAGTACTTAGGCCACTTCCCGCTGCTCTCCTAGGCACATTA
+GCAGGGAGCTGCATTGGAAGAGAGCAGCTAGGCCGCAAACTGGCACTCCAACAAGGAATGCCAACATGGCAGGGAGCAGC
+TTAACCCACTATGCCACAATGCCAGCCCTTAGTTCTTTCTCTTCGAAATTTTGTTTTGAATCAACAATACATTTTTACAC
+ATCCGAGTGGGACAGATGTTGTGGCATAGCCAACACTTAGATTGCCCACATCCCATATCAGAGTGCCAGTTCGAGTACTG
+ACACCTCCACTGTTGGTCCAGTTTCCTATCAATGCAACCTGGAGGCAGCAGATGATGGCCCAAATGCTTGGGCACCTGCT
+ACCCATGTGGGAGTCCCAGATAAAGTGCCAGACTCCGGCTTCAACCTGACCCGCCCCAGGCATTGCGGCCATTTGAAGAG
+TGAAGCAGAGATTGGGAGATAAATCTTTCCAAAAAACACCTAGGAAAAGCACAAAGGAAAAAAAAAGTGTCAGTCTTGTT
+CTCCCCTCCGTGTGCAAGCAAACCGGACACGGAGTCCTTTTGCTCCTTTCCACTCTGTTCACTCTGTTCTATGCCTTGTT
+TTTCACTCTGCAGCCTGCCTTGGCAATCATCTCATTATCAGTTCAGAAGATCTTCCTTTCCTGTCTTCTCAGCCACGTCA
+TAGGGGCACACAGTAATTCACCTAGCAAGTCCTGATTGGTGGATTGTTTAGAACCCGTGCTCTTAACTACGTGTCTCCAC
+GGCCTGCAAATAGCACCTGACACAAAGGCCTGTTCACTGATTCGTTCCAAGGTGCCTGTTTAGTGAACATCAAGTACTTG
+GCTTTGTGGGGCCAATCAAGCAAAGGATTCGTGCCAGTAAAACACCGTATGGTGGGCCGGCTAACCAAAGGGGTGGGGAG
+AGGTGCACAGTGTGTGAGAGCTGTTACTGGCAGAATCGCCCATCATACTGGGCTTCCTGGGCTTCCATTCTCAGTCTTAC
+CCCTCCCGAGTCTTCTCTATGTCCCAGAGCAGCTCTGAGCGAGCCAGGGTCATCGCATCAGAAATGAACTCAGACCACAT
+CATCCCCTGACTTAATAAACCCTTCTGGAGTTTCCGCCTCTCTGAGCACAAGGCCTTGGGTGATCTCACCCCTCCCCATC
+CTGCACAGACTCCTCACCCAGATGCAAGGAGCACTCTCTGCTCCTCAAGCCCACAGGGCCTCTCCACCTAGGGCCTTGGT
+GCGGGTCTCCCCTTCCCAGAATCCTCCATGCCACCTGCTCGGGAAGGCCACCTAAGTAGGTCTCCGTCTTTGTCCATCCC
+GACACTCTGCTCAGTTCCCCTGTAGCATGAACGGCAAGCTGTAATAACATCATATGCTTAGTCCTTTGCTTGTCTGTCTC
+CTCCCCTCCCCAAAGTGGAGCTTCATGGTGGCAGGGTTTGGGTTTGATTCGGCCATCACTACATGCCTGTCGGGAACACA
+GATGCTGAAATCAAGTTTTGGGTGCACAGCTGTTATTAGGAAGGGGTCAGCCCCTGTGAGGGAAGGAGGTGGAAGCAGAC
+TGGGCACAGGGGAAAAGCTGCAGAGAACTGCTTTGGTCAAGGTCACACCCTTCCTAGGGCTGCTCCTAACTGGTGGCCCA
+ACAAGAAGATGACACAAAAAAGCCTGGGTGTGTCAGCACCGAGTGGACGGCTCTGGTGGGCAGTCCTTCAGGGCTCTCTG
+TCTGGTTGGCTCAAATTTTGCTGAGCCTGTGCCACACTGCAGCTGGGGCGACTGGCAAGTGTGAGGCTCTCTGCTGACCA
+CAGTTCTCACAGGTTCTCCAAGCAGTGCCTCCTCCACACCCACCCCAATGTCCACTCCCAGCACAGTGCCCAGCACACAG
+CAGTGCTCAGCATTTATTTGAATGGGTGGTGGTTGGATATGTGACTGAGCTTTGAAATACAAATAAGATTGGGAGAAGCA
+GACATGGCAGGAAATGTGTGTTCTAGGCATAAGTGTTGCTTGGGCAAAGGTGAAAAGTATGAAAAATACATGAAATATTC
+CTAAATATTGGTACAATCAGGTTAAATCACCATGCCAGGGAGCCAATGACTGAAGCTCAAATGGTAGGCAGGGGCCAGTG
+GGTAAGAGCCGTGTAAATTGCACCTGAGTTATCTCATCCTGCTGGAGAAAGAGTTTCAAAGAGAAGAACAACATGACCAG
+CGGGTTTTGGAAAGATCATTCCGATGGCCTTGCAGAGAAGGTCAGATGAAGGCAAAGTGGGAGGCCAGAGGCCAAGCAGG
+CGTTGAGTCCACAAGGCCAAGCCAGGTGTTAAAGGCTCGAGGCGCGGCCAGCGGAACAAGAGCAGGGCTGAGGTCAAAGC
+CTTGGGAACCACCACCACTCAAGAGCAGTCAGGGGCGAGCAAACATCTGAAGAGAACAAGAAGGAATGGTCAGCGAGGGA
+AAACAGGAAAGAACCGAGCCGTGGGAAAGCAGGGGAGAGAATGGCTGAAGAAGGAAACGGCCAAGAGGGTCAAGGCCATT
+AAGAGGTCAGGGTGATAAGGACTGCAGGTGCCCATCAAAGAGGCCCTCTGAAAGGCAGAGCTTGAGGGCATTTCTAGACC
+ACAACAGACCCAGCCCGGGCAGGGCATTGGCTCGGCTAGGTATGGGGTTTGGGTCTTTGGTGGGTGTTCTGCGGAAGTCC
+TTTTTCTGTCCACGTGTTCAGGCCAGGGTCTCCTCCAGGCAATGCTCACAGCAATGCTCTGAACCCAGTGACCTTCACGG
+CTCAACGTCCAGCCACCTTCCTCGGAGGGGGGAAGCAGAGGAGCCCAGTGCAGCCACAGGATCCTGGGTGCTCCTATCCT
+GTCACAGCCACTTGGGCCTCAGCTTCTTCTGGGGTGACAGGAGACACACTTGCTTCTGTTGGTCTGGGCTGCCCAAATGC
+CTTGGTTCAAAGAGAAGACGCAGGTGGCTAGGTCACCATGCCCTCGGGGGCAGGCACCCCTTACCACACCCCCGCACAAG
+ACTCCGGGCTCTCCCTCCCCCCGAGGGACCCATTGTGTGAGTTCAGTTTCAATAGGGATGGAAACTGGATTGAGAAAAGG
+GAATATTTACTTATCCCACCAAGTCAATGCCCAAGTAAATAATGCAGTCAAGTAAGTGGAGCCCAGGCCCTGCCCTCTTC
+TATCTGGGCACTGCCCGGAGAATACAAAAAGGCACCTGACGGCCGTCCCCCTCAAGATCACCGGATCCAGAGCCAGCCCA
+GAGCCTTCCCATTCTGCCACCATGAAGCTCGCCATCACCCTCGCCCTGGTCACCCTGGCTCTCCTCTGCAGCCCTGGTGA
+GTGCCCAGCGTCCCTTTCCCCCAGGCAACCCTCTCCGCCACCCACTTCTGCTCAGAGGGAGAGGTGAGCTGCCTGTGCCC
+TCCCTGCAGCTGCTGGCAGGGCCTGAGAACGTGGACTTTCGGAAAATGGGGTCTGGTGAGCGACCCCACGTTGAGAACCT
+GGGGAGGGCCCTGCGGCTGTTAGGAAACTAGGAAGGATGTCCTCTTCCACATCCAACAACCTCCGCGTTCCGGGGGACAG
+GACAGGCTAGAGGGAGGGAGGAGGCCCCTGCGGGTGAACAGTGCAACAGCAAGTGGGAGAGGAATACAGTCTCCCAAAGC
+CCAGACTTGTGTAGACCCCAAGATGCCCAAGGACCACTGGGGCCTCCGCCCGACTCTGGCAGCCACAGGGCCTGAAAGGG
+GAGCTGCAGAGACGGACATCCCCGAAAGAAACCCAAGCCAAGGCACAGCTTCCGGGTCTGGGCCTAAAGGACAAGTCCAG
+AAAAAGGATCTTCCCTTTGGGACAACGCCAGCCCAGAGTGCCGTTTTCTAAACAATTCTGTTCTCTGCAAAAAGGGCTAC
+AAGTCTCCAAGTGGCTGCTGCTGTTGCTAGGAGGAAAGGAATGGGAAAGGAGAAAGCGGGGAGGAAGGGAGGGGAGAAGA
+GGGGAGGGCTCACATCTCCCTCCGAGCGCCCTGCCATTTGGGAAGGAGGTTACCTAACTCGGCTTTTCACCCTGCATCAG
+CCTCTTCCACTCCCATCTGAAAATGCTGTTGCTGTTGTTATTGTTGTTGTTTTCATCAGCAAACCCCAACGGAAAGTTTC
+ACACAACTCCTAGATGTGAGTTTGACGACCTTGGGGGATTGGAAAAACCAAACCGAGAGGGAGTGGGAACAACTGTTTGG
+CAGAGAGTGTTACTTGTTTCTCCGGTGGGAAATGACATCATTTGGGGCTGAAATGTATGAATTAGAAGATCTGGGTACTG
+AGTATAGAGGTGGTGACTCAGGAGGACAGGACTGAACCACCCCCCGCCTCTTTTTTAAAAAACAGATTGTATTTATTTGA
+GAGGTAGAGTTACAGAGAGAGGGAGAGAGAGAGAGAATCTTCCATCCACTGGTTCACTCCCCAGTTGGCCACAGTGGCAG
+AGCTGGGCCGATCCAAAGCCAGGAGCTTTTTCTGGGTTTCCCATGCAGGTATAGGGGCCCAAACACTTGGGCCGTTTTCC
+ACTGCTTTCCTAGGCCAAAAGCAGAGAGCTGGATCGGAAGAGGAGCTGCCGGACATGAGCTGACATCCATATGGGATGCT
+GGTGCTGCAGGTGGAGGCTTAGCCTACAATGCCACAGCACCAGCCCTAGACTGAAACCCTTTAAGGGGTGGATCAGGGAC
+ACAACACCCATTCATATACTTTTGTGTGCACACGTGTAATAATGTCTGCTCTTAACCCTTTGACATACACCTCTTTTCTT
+TCTTACAACCTCATGAGGAGGGGACATTGTACCCATTTTACAGATGATAAAAACTGAGCTATTAGCACTTTGTAAGATCA
+AGTAACTCCTGAGGGCATAGTAAGTTGCAAGGTGGGGATTCGAGCTCTGGAGAGGGTGTGGTTTGGAATGGCCACCCTGA
+GTAGGGCCTCCAGTCTGAGAGCAGACATTGAGTTGGCACGTGAAGCAGAGAATTCAAGGACAGGGATTTGAGACTTCATG
+GGAAGATGGAGGCAAATAGAGGTGGGGCGTGGTGAGTCCCCCCCACAACCTGGGGGCAGGGGCCTGAGAAACAGTTATAG
+GGACAGTGGCACAAGTGGTTGGTCTGTGTTGAGCTGAGCAAACCACAAGGCCCACCACTCACATGTGCACGCCTGTCCCG
+TGCCAGGTGGGGAGCCCCATGCTGGGCTGGTACCAGCCTCAGCCTGGCTTTGCCACATCCCCTCAGTGACACGTGGCTCC
+AACCACCATGGACCACAGAAGACAGGCAAGGTCCTGGTAGGAACCAAAGCTCTCAGTGGCCTCTTCCCAGCCCCACCCTG
+CATTAAAAATCAGCCCAGCAGCTTCTATTATCAATACTCCACCCAGAACATGAGCATAAAAAACAAATGGCACCCTGGCC
+CACGCCAGCCCAGGAAGTCCAGGGAAGGCTCAGGCCAACCACAAAAACACCAGCTGTAACCTAGAGAGAATTCACCCAGC
+GCTTAGAGCACCAGCAGAGCTGATTTCCCCTCCCCGTCCATGAAAAGCTGTCTAGTCTCAAACTGACTGACGAGCTTGGC
+TGTGTGCCCCTGGTTCTTGGGCTTCTCCTGCTCTGTTCTCAGCATCTGCAGGCATCTGCCCGAGATTTGCCCACGTCATT
+GAAAACCTCCTCCTGGGCACGCCCTCCAGTTACGAGACATCCTTGAAGGAATTTGAACCTGATGACACCATGAAAGATGC
+AGGGATGCAGATGAAGAAGGTCTTGGACTCCCTGCCCCAGACGACCAGAGAGAACATCATGAAGCTCACGGTAACCAGTG
+CCTATTGCCCACGCCTATAAGTGGCTTCCGGAGCCCCTCAGCTGTGGTCTCATCCCATGCTAAGACCCTTTCCTAACCCA
+GAGAAAAGACTTGCAATACCAACATCCCCGTAGTACCCATGTCCTCACGGGCAAGCCACCTCTCTAGGCATTTCCCCTTA
+CCCATTTCTAAAATGGCTTTTTGAGAAGGAAAAAAAATGTCCTTATAATCATCATTCTTCCCAGAGTTCATTGGACATCT
+CCACTGACATTGACGTTTGTGTCTCCGCATCTCTGCCTCACTGCAGAGGTCACGGGGCTTTTGTTTCTCTTTTTCAGGAA
+AAAATAGTGAAGAGCCCACTGTGTATGTAGGATGGAGGAATCCGAGGTCCTGCGGACTGAGAAGCCGAAGATTTCCACCT
+GCTGAAGCCCCTGCTGCTGCCCCTGGCCCCTTGGGTCCCCCACCCACCCAACCCAGCCAGCCTTTGCTTTCAATAAACTG
+CAAGCAGATCACATCCGTCGTCCTGAGCTCTTATTTACCTGCTTGAGGGAGAGAGGCGTGCACCTGCCAGGAAGGGTAGC
+CAGGACTCCCAGGAAGGCGGCGGAGCCTGCCCTTGGACCCCACGAGGAAACTCTGACGCCTTCCAAAGTCCTTTCCTCTA
+GGTTTCTGCCATTGGCCACCCAAAAAGCTGAGCCCTCTCCCCTTACATTCTACCACCTACGTCTCAAACTCCACCTGTGG
+GAGAATTC
+>ref|X14364.1| Rabbit vkB95g gene for immunoglobulin kappa light chain variable region
+CAGCTGGGCACAGCCTGCCCCCACCCCTGCTCATTTGCATGTCCCCAGAGCACCGCCACTCTCTGGGACCATTTCAGGAG
+CAGGCTGCTCCCGCCCCATGCAGGAGGCAGTGCCAGGCAGGACCCAGCATGGACACGAGGGCCCCCACTCAGCTGCTGGG
+GCTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCGGAACAGCCTGGGGTAGTGTGCCAGGGCTGCCCGTCTCT
+GCAGGAGCGTCCTCTTAGAACGTGAGGAGTGAGTGTGGTCTCTGTGTTTCTGTTTCCCTCCTCAGGTGCCAGATGTGCCG
+ATGGCGTGATGACCCAGACTCCAGCCCCCGTGTCTGCAGCTGTGGGAGGCACAGTCACCATCAATTGCCAGGCCAGTCAG
+AGCATTGGTAGCGACTTATCCTGGTATCAGCAGAAACCAGGGCAGCCTCCCAAGCTCCTGATCTATTCTGCATCCAAACT
+GGCAACTGGGGTCCCATCGCGGTTCAACGGCAGTGGATCTGGGACACAGTTTACTCTCACCATCAGCGGCGTGCAGTGTG
+ACGATGCTGCCACTTACTACTGTCAATGCACTTATAGTAGTAGTACTGGTTCCACAGTGATACAAGCCCTAACAAAACCC
+CCCCAGGAAAGCAAAAATGTGGAGCTGGGCTGCCCCAGCTGCTCCTCCTGGGCCCCATCTGCTCAGATGATTCTCAGAGC
+AGCCAGGCTTGAAGGTCCTTCAGGTCCACTCTACAGGAT
+>ref|X14365.1| Rabbit vkB95r gene for immunoglobulin kappa light chain variable region
+CTGCAGGTAAACTTGTGCAGCCCTGGTCTGAGCTGGGACAGCTTGAGACACAGCCCCTGGGCTGAGTTCTGAGCTCGCCC
+TGGGCCCTTCAGCTGGGCACAGCCTGCCCCCGCCCCTGCTCATTTGCATGTCCCCAGAGCACGCCCACTCTCTGGCACCA
+TTTCAGGAGCAGGCTGCTCCCGACCCATGCAGGAGGCAGTGCCAGGCAAGACCCAGCATGGACACGAGGGCCCCCACTCA
+GCTGCTGGGCGTCCTGCTGCTCTGGCTCCCAGGTAAGGAAGGCCAGCAGCGGAACAGCCTGGGGTAGTGTGCCAGGGCTG
+CCTGTCTTTGCAGGAGCGTCCTCTTAGAACGTGAGGAGTGAGTGTGGTCTCTGTGTTTCTGTTTCCCTCCTCAGGTGCCA
+GATGTGCTGAGGTAGTGATGACCCAGACTCCAGCCTCCGTGTCTGCAGCTGTGGGAGGCACAGTCACCATCAATTGCCAG
+GCCAGTCAGAACATTGGTGGCGACTTAGCCTGGTTTCAGCAGAAACCAGGACAGCCTCCCAAGCTCCTGATCTATGGTGC
+ATCCACTCTGGCATCTGGGGTCCCATCGCGGTTCAAAGGCAGTGGATCTGGGACACAGTTCACTCTCACCATCAGCGGCG
+TGCAGTGTGACGATGCTGCCACTTACTACTGTCAAACAGCTTATAGTGCTGTTAGTGGTTTTGCTTTTGGCGGAGGGACC
+GAGGTGGTCGTCAAAGGTAAGTGGCCATCTCACTGAGTCCTCACCGTTTCTGCCTGATTTGCTTGCTTTTTCCACTTTTT
+CCCTGTTTGTGTGTCGTTCTTGGCTGGAGGTCAGGGTTCTAACGAATTTCTTTCCAAGATGAGGCACAGAGGAGGGAAAA
+CTGTCTGAGATTTCCAAGTCAAAATGACTTCCCCGGG
+>ref|NM_001082390.2| Oryctolagus cuniculus whey acidic protein (WAP), mRNA
X07943.1 Rabbit mRNA for whey acidic protein (WAP)
+ATCCGACACCTGCCTGCTGCCCACCACCAGCCTACCACCTGCCACCATGCGCTGTCTCATCAGCCTGGCCCTCGGCCTGC
+TCGCCCTGGAGGCGGCCCTCGCTCTGGCCCCCAAGTTCATCGCTCCAGTGCAGGTCATGTGCCCCGAGCCCAGCTCTTCC
+GAGGAGACGCTCTGCCTCAGTGACAACGACTGTCTCGGCAGCACCGTGTGCTGTCCCAGCGCCGCCGGCGGCTCCTGCAG
+AACCCCCATCATCGTCCCTACCCCCAAGGCTGGCCGCTGCCCCTGGGTGCAGGCGCCAATGCTGTCCCAGTTGTGTGAGG
+AGCTGAGCGACTGTGCCAACGACATCGAGTGCAGGGGCGACAAGAAGTGCTGCTTCAGCCGCTGCGCCATGCGCTATCTG
+GAACCCATCCTAGAGAGCACTCCCCAGTGAGCCGCCTACCCAGGAGTCCCTGGCTGCCAGGAGAGTTGGGCCTGAGTTCC
+CCCTCTTGGACCCAGAGAGCTTGTGACGCGTCCTCCCTGCTGCTAATAAAACTACTCAGCTTCAAAA
+>ref|X59242.1| Ovis dalli 1.714 satellite DNA
+CCCTCATCTCGAGCTAGGAGGCGGAAACGGGGCTCCCCTGGATGTGTGCGGGACCCTCGAGCTTCCTCTCGAGTGGAGAC
+GGTATGTCGCGGAACTTCTTGAGTTGCAGCAAGGGTGTGAAGGACCCTTTGGAAGTTCCAGTGGTTAGATGTGATTAGCC
+TCGAGAAGCCTCAGGCAAATGGGCCTCATCTCGCCTGGAGGGCAAAACCTCCTAGATATTCTCGAGTTGTGGCAGGTGCT
+CTCGACTTACGACGGGGACCTCAGGGACCTGCTCTGGTGGCTCAGGAAAGGCGGCCCATCGGAGTTCCTCAGGGGGCTCT
+CGGGATTCCTCCCCATCGATGCCGGGGCGTAAGACCTTGTGTGGAGTCGGGGCTGGAACTGAGGATTCCACTCCAGTGCT
+GACATGGATCTTGGGGTATTTCTGGAGTCTCCCCTGGGGAGTCAGTCTTCGTCTCGAATGCGGGCATGCAGTGTCACGCA
+GTCCACCTCTGGATCAAAAGATCTATGGTTTTCCCTCGAGTCTTTCCCACGAGGCTTTCCCACGAGGCTTTCCCACGAGG
+CTTTCCACGAGGCTTTCCCACGAGGCTTTCCCACACGGCTCTCTCCCATGCACACGTGGTGGGTGTCGATCCTCGGCTTG
+AACGTCAACGGAGTGCAGGGAAAACAGGTTCCTCTGGAATGGACTGACACATCCGGGGGACTCTTGGAATGGTGGCACGA
+CCCTGGAGTTCCTCTCGCCTTTCCTATGGAGAGCGCCTCCTCTTGAGATGCGACGGGAACGCCGGGAATTCTTTCCCTAC
+GAAACAGGGAAAGGAT
+>ref|Z11496.1| O.orca P1 gene for protamine
+CTCACAGGTTGGCTGGCTCAACCAAGGCGGCATCCCCTGCTCTGAGCATCCAGGCCGATTCCATCCGTCACCATGGCCAG
+AAACAGATGCCGCAGCCCGAGCCAGAGCAGATGCCGCCGCCCGAGGCGCAGATGTCGCAGGAGGATACGGTGCTGCCGGA
+GGCAGAGGAGAGGTGAGGGGGTCGTCCGCGGGTGGGGGCCGGGGAGCTGGGGTGGAGTGGGGGTTCAGCCCATGCTGAAG
+TCTGCTCTCGCCCCCTCGTTCTCCGCAGTGTGCTGCCGCCGCTACACCACCACAAGGTGTGCAAGACAGTAAGCGCCCAG
+TAGCAAGACCACCACACTCCTGCCTGAAACGCTACCAGCCTTC
+>ref|X56545.1| O.ovis UCP gene for uncoupling protein, exons 3 (partial) and 4
+GATCTCAGCGGGCCTAACGACTGGAGGCGTGGCGGTGTTCATTGGGCAACCCACAGAGGTGGTCAAGGTCAGACTGCAAG
+CTCAGAGCCATCTCCACGGTCCCAAACCTCGATACACTGGGACTTACAATGCTTACAGGATTATAGCAACAACAGAAGGC
+TTGACGGGGCTTTGGAAAGGTGACTCTCTTCAACATGGATTCTATAGTCGTTAAAACACACATATCTAAGTAGCACCTTA
+TCATATGATGGAGCTATTCAACACTTTCTTTCCCTCCAGGACTACTCCCAATCTGACAAGAAATGTCATCATCAACTGTA
+CAGACCTCGTAACGTATGACCTAATGAAGGAGGCCCTTGTGAAAAACAAACTATTAGCAGGTAACTTTCTTTCTCACATG
+GCAGGTCTGCACATTTATAATTTCATCTTTTATTATACTGAATCCCTTAATTGTAATAATTTTATCTTTTAAAACAGTAA
+TACTCTTGAATAATAGATAT
+>ref|X58696.1| Rabbit brain L-type calcium channel mRNA (pBC-1 and pBC-2)
X58695.1 Rabbit mRNA for cardiac L-type calcium channel (pCC-1)
+CTGAGAGTGCTAAGGGTCCTCCGGCCCCTGCGAGCCATCAACAGAGCCAAGGGGCTAAAGCACGTGGTTCAGTGTGTGTT
+CGTGGCCATCCGGACCATTGGGAACATCGTGATTGTCACCACGCTGCTGCAGTTCATGTTCGCCTGCATCGGAGTCCAGC
+TCTTCAAGGGGAAGCTGTACACCTGTTCAGACAGTTCCAAACAGACTGAGGCTGAATGCAAGGGTAACTACATCACCTAC
+AAAGATGGAGAGGTTGACCATCCCATCATCCAGCCGCGCAGCTGGGAGAACAGCAAGTTTGACTTTGACAACGTCCTGGC
+AGCCATGATGGCCCTCTTCACTGTCTCCACCTTCGAGGGCTGGCCAGAGCTGCTGTACCGCTCCATCGACTCCCACACGG
+AAGACAAGGGCCCTATCTACAACTACCGAGTGGAGATCTCCATCTTCTTCATCATCTACATCATCATCATCGCCTTCTTC
+ATGATGAACATCTTCGTGGGTTTCGTCATTGTCACCTTCCAGGAGCAGGGGGAGCAGGAGTACAAGAACTGTGAGCTGGA
+CAAGAACCAGCGGCAGTGCGTGGAATATGCCCTCAAGGCCCGGCCCCTGCGGAGGTACATCCCCAAGAACCAGCACCAGT
+ACAAAGTGTGGTACGTGGTCAACTCCACCTACTTTGAGTACCTGATGTTCGTCCTCATCCTGCTCAACACCATCTGCTTG
+GCCATGCAGCACTACGGCCAGAGCTGCCTGTTCAAAATCGCCATGAACATCCTCAACATGCTCTTCACCGGCCTCTTCAC
+CGTGGAAATGATCCTGAAGCTCATTGCCTTCAAACCCAAGCACTATTTCTGTGATGCATGGAATACATTTGACGCCTTGA
+TTGTTGTGGGTAGCATTGTTGATATAGCGATCACCGAGGTACACCCAGCTGAACATACCCAATGCTCTCCCTCTATGAAC
+GCAGAGGAGAACTCCCGCATCTCCATCGCCTTCTTCCGCCTGTTCCGGGTCATGAGGCTGATCAAGCTGCTGAGTCGGGC
+C
+>ref|X58697.1| Rabbit skeletal muscle L-type calcium channel mRNA (pSC-1)
+CTGAGAGTGCTAAGGGTGCTCCGGCCCCTGCGAGCCATCAACAGAGCCAAAGGGTTGAAGCACGTGGTCCAGTGCGTGTT
+CGTGGCCATCCGCACCATCGGGAACATCGTCCTGGTCACCACGCTCCTGCAGTTCATGTTCGCCTGCATTGGTGTCCAGC
+TCTTCAAGGGCAAGTTCTTCAGCTGCAACGACCTATCCAAGATGACAGAAGAGGAGTGCAGGGGCTACTACTATGTGTAC
+AAGGACGGGGACCCCACGCAGATGGAGCTGCGCCCCCGCCAGTGGATACACAATGACTTCCACTTTGACAACGTGCTGTC
+GGCCATGATGTCGCTCTTCACGGTGTCCACCTTCGAGGGATGGCCCCAGCTGCTGTACAGGGCCATAGACTCCAACGAGG
+AGGACATGGGCCCCGTTTACAACAACCGAGTGGAGATGGCCATCTTCTTCATCATCTACATCATCCTCATTGCCTTCTTC
+ATGATGAACATCTTTGTGGGCTTTGTCATCGTCACCTTCCAGGAGCAGGGGGAGACAGAGTACAAGAACTGCGAGCTGGA
+CAAGAACCAGCGCCAGTGTGTGCAGTATGCCCTGAAGGCCCGCCCACTTCGGTGCTACATCCCCAAGAACCCATACCAGT
+ACCAGGTGTGGTACGTCGTCACCTCCTCCTACTTTGAATACCTGATGTTCGCCCTCATCATGCTCAACACCATCTGCCTG
+GGCATGCAGCACTACCACCAGTCGGAGGAGATGAACCACATCTCGGACATCCTCAACGTGGCCTTCACCATCATCTTCAC
+ACTGGAGATGATCCTCAAGCTCTTGGCGTTCAAGGCCAGGGGCTATTTCGGAGACCCCTGGAATGTGTTCGACTTCCTGA
+TCGTCATCGGCAGCATCATTGACGTCATCCTCAGCGAGATCGACACTTTCCTGGCCTCCAGCGGGGGACTGTATTGCCTG
+GGTGGCGGCTGCGGGAACGTTGACCCAGACGAGAGCGCCCGCATCTCCAGTGCCTTCTTCCGCCTGTTCCGGGTCATGAG
+GCTGATCAAGCTGCTGAGTCGGGCC
+>ref|Z18655.1| P.catodon gene for large subunit rRNA
U13119.1 Physeter catodon mitochondrion 16S rRNA gene, partial sequence
+AACCAGTATTAGAGGCACTGCCTGCCCAGTGACTGATAGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
+TCACTTGTTCTCTAAATAAGGACTTGTATGAACGGCCACACGAAGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTG
+ACCTTCCCGTGAAGAGGCGGGAATAACAAAACAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAATAACCCA
+CAACCTCAAACCACCAAGGGATAAAAAAAACTTATATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAACC
+CCTCCGAGTGATTAAAGCCTAGGCCTACCAGCCAAAGCATAACATCACTTATTGATCCAAAGCTTTGATCAACGGAACAA
+GTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGG
+ACATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTT
+>ref|Z18666.1| P.catodon gene for small subunit rRNA
+CCGTAAACCCAGGTAGTCATAAAACAAGACTATTCGCCAGAGTACTACTAGCAACAGCCTAAAACTCAAAGGACTTGGCG
+GTGCTTCATACCCCCCTAGAGGAGCCTGTTCTATAACCGATAAACCCCGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAATGAAAGTAAGCATAACTATCCTACGTAAAAACGTTAGGTCAAGG
+TGTAACCCATGGGATGGGAAGAAATGGGCTACATTTTCTACACCATAGAACACCCTATACCCCACGAAAGTTTTTATGAA
+ACCTAAAAACCAAAGGAGGATTTAGCAGTAAATTAAGAACAGAGTGCTTAATTGAATAAGGCC
+>ref|Z11809.1| P.hypomelanus interphotoreceptor retinoid binding protein gene, exon 1
+GGGGTACAGAGTTCTTTGAATGACCCTCGCCTGGTCATCTCCTATGAGCCCAGTGCCCTCATGGCTCCCCAGCAGGCGCC
+AGCACTCACCCACCTCACACAAGAAGAACTGCTTGCTCAACTGCAGAAAGGCATCCGCCACGATGTTCTGGAGGGCAATG
+TGGGCTACCTGCGAGTGGACGACATCCCGAATCAGGAAGTAGTGAGCAAGCTGGGGGGCTTCTTAGTGGAAAATATCTGG
+AGAAAGCTTATGGGCACCTCTGCCTTGGTGCTAGACCTCCGACACTGCACTGGGGGCCACGTTTCCGGCATCCCCTATGT
+CATCTCCTACCTGCACCCAGGAAACACGATTCTGCATGTGGATACCATCTACGACCGCCCCTCCAATACGACCACTGAGA
+TCTGGACCTTGCCCCAGGTCTTGGGGGAGAGGTACAGTGCTGACAAGGATGTGGTGGTTCTCACCAGTGGCCACACTGGA
+GGAGTGGCTGAGGACATAGCATACATTCTCAAACAGATGCGCAGGGCCATCGTGGTGGGTGAGCGGACCGTTGGGGGGGC
+CTTAGACCTCCAGAAGCTGAGGATAGGCCAGTCTGACTTCTTCCTCACTGTGCCTGTGTCCAGGTCCCTGGGGCCCCTGG
+GCGGGGGCAGCCAGACATGGGAGGGCAGTGGGGTGCTGCCCTGTGTTGGGACACCGGCAGAACAGGCCCTAGAGAAGGCC
+CTGGCCATTCTCACCCTGCGCAGAGCCCTGCCGGGAGTCATGCGGCGCCTACAGGAGGCCCTGCAGGACTACTACACACT
+GGTGGACCGCGTGCCGGCCCTACTACATCACCTGGCCAGCATGGACTTTGCCGCAGTGGTCTCTGAGGACGATCTGGTCA
+CTAAGCTCAACGCTGGTCTGCAGGCTGTGTCCGAGGACCCCAGGCTCCTGGTGCGAGCCATTAGGCCCAGGGAAACCTCT
+TCTGGGCCCGAGGCTGGAGCTGACTACCCCCCAGAGGTGGTCCCAGCAGTGCCAGAGGATGAGATTGCCCGGCAGGCCCT
+AGTGGACTCCGTTTTCCAGGTGTCAGTGCTTCCAGGAAACGTGGGCTACCTG
+>ref|Z18657.1| P.phocoena gene for large subunit rRNA
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAAAT
+CGTAAAACAGTACCACTAAGGGATAACAAAATTTTATATGGGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAA
+ACCCTCCGAGTGATTAAAACCTAGGCCTACTAGCCAAAGTGTAGCATCACTTATTGATCCAAATTTTTGATCAACGGAAC
+AAGTTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCGTATCGACAATAGGGTTTACGACCTCGATGTTGGATCA
+GGACATCCTGATGGTGCAGCGCTATCAAGGGTTCGTTTGTT
+>ref|Z18656.1| P.phocoena gene for small subunit rRNA
+TAAACCTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCGGTG
+CTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATCAACCTCACCAACCCTTGCTACTTCAGTCTAT
+ATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCACAACTATCACACATAAAAACGTTAGGTCAAGGTGT
+AACCTATGGGTTGGGAAGAAATGGGCTACATTTTCTACACAACAAGAACACCCCTTAAACTTACACGAAAGTCTTTATGA
+AACCTAAAGACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|Z18659.1| P.spinipinnis gene for large subunit rRNA
U13122.1 Phocoena spinipinnis mitochondrion 16S rRNA gene, partial sequence
+AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA
+ATCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATT
+GACCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAATCA
+GAAAACAATACCACTAAGGGATAACAGAATTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAAACC
+CTCCGAGTGATTAAAACCTAGGCCTACTAGCCAAAGTGTAATATCACTTATTGATCCAAATTTTTGATCAACGGAACAAG
+TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA
+CATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT
+>ref|Z18658.1| P.spinipinnis gene for small subunit rRNA
U13099.1 Phocoena spinipinnis mitochondrion 12S rRNA gene, partial sequence
+TCGTAAACCTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG
+GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATCAACCTCACCAACCCTTGCTACTTCAGTC
+TATATACCGCCATCTTCAGCAAACCCTAAAAAGGAACGAAAGTAAGCATAACTATCACGCATAAAAACGTTAGGTCAAGG
+TGTAACCCATGGGTTGGGAAGAAATGGGCTACATTTTCTACAACAAGAACATCCCCTTAAACTCACACGAAAGTTTTTAT
+GAAACCTAAAGACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA
+>ref|X14724.1| Bovine mRNA for NADH dehydrogenase 24 kDa subunit (AA 6-217) (EC 1.6.99.3)
+CTTATTTGTGCACAGAGATACTCCTGAGAATAACCCAGAAACTCCATTTGATTTCACACCAGAAAACTATAAGAGGATAG
+AGGCCATTGTGAAAAACTACCCAGAAGGGCATAAGGCAGCAGCTGTGCTTCCAGTTCTGGATTTAGCCCAGAGACAGAAT
+GGATGGCTGCCCATCTCTGCTATGAACAAGGTTGCAGAAATTTTACAAGTACCTCCAATGAGAGTGTATGAAGTAGCAAC
+TTTTTATACAATGTATAATCGAAAGCCTGTTGGAAAGTATCACATTCAAGTCTGCACTACCACACCTTGCATGCTCCGAA
+ACTCTGACAGCATACTGGAAGCCATTCAGAAAAAACTTGGAATAAAGGTTGGAGAGACTACACCTGACAAACTTTTCACT
+CTTATAGAAGTTGAATGTTTAGGGGCCTGTGTAAATGCACCAATGGTTCAAATAAATGACAACTACTATGAGGATCTGAC
+ACCTAAAGATATTGAAGAAATTATTGATGAACTGAAGGCTGGCAAAATCCCAAAACCTGGGCCGAGGAGTGGACGCTTCT
+CCTGTGAGCCAGCTGGAGGTCTTACCTCTTTGACTGAACCACCAAAAGGACCTGGGTTTGGTGTGCAAGCAGGCCTTTAA
+TTTATATTCGCTGTAAATATGTCAGTGGAAAAATAAAATATGAATCTCCTATCTACCTAAATTTTTTATACTACTTGTTC
+ATTTCCATCTGTGTACACTTTGCTTGTAACCTAGCAACTTACAGCTATTAAGTATCATGTCAGAACTTCAGAGCACCATT
+TTCAACTGCCTCTTCACTTTTATCAATATTAGGGTACTGTGAAATAAAAACTCTGTCAAATTTC
+>ref|X53719.1| Pig mRNA for phosphoglucose isomerase (EC 5.3.1.9)
+GATCCTTAACCCACTGAGCAAGGCCAGGGATCGAACCCCAAACGTCATGGTTCCTAGCCGGATTCGTTTCCGCTGCAGGA
+CGACGGGAACTCCCTCAAATGCCACTTCACTAGTGAATTTTCCATTGACCATTCTATTCAATATTGCAACCTCTATTCCC
+AGCTTTCCTTTTCTCAGTAGCACTTACCAGCATCTGACATGCCATACGTCTTACTTGTCACACATGTATCTGCAACACCT
+ATAACACTGCCTGGAACATGGAAGGTGTTGCGTGAGTGAATGAATGAACTAATGAAGCAGGCCGGGGCAAGGGGGCTCGG
+CCTCTGTTCCCCAGTCACTTCCAGGCAGAGGTCGGCAGAGAGGCAGCGCAAGTGGCCGCCTGGTGTCAAGAAGGACGAGA
+CGTCCCGAGCCACTGCTGCTGACCAAGTCTTCCCCGCGCCGGCGCCGACAGAAGGGCAGAGGGCCGGGCCGGGGCGGGGC
+CGGGGCGGGGCCGGCGCCTGCGCCATAAAGTCCGCTGGGCGCCTCCCGCCTCCGCCTGCAGCGCGCCGCCCGCCCCGCTT
+CCTCGTTCGCGTCCGCAGGGGTCCGTGTTTCCAGCCGCTTTCGCCATGGCTGCACTCACCCAGAACCCGCAGTTCAAGAA
+GCTGCAGACCTGGTAC
+>ref|X13919.1| Suncus murinus S(u) sequence upstream of mu-immunoglobulin C gene
+GAGCTGGACTGAGCTGGGAGAGCTGAGCTGGGCTGAGCTGAGCTGGGCTGAGCTGGGTGAACTGAGCTGGGCTGAGCTGG
+GAGAGCTGAGCTGGGCTAGACTGAGCTAGGCTGAGCTAGGTGAGCTGAGCTGGGCTGAGCTGAGCTGGGTGAGCTGAGCT
+GGGCTGAGCTGGTTGAGCTGGGCTGAGTTGGGTGAGCTGGACTGAGCTGGGTGAGCTGGGTTGGGTTGAGCTGAGCTGGG
+AGAACTGAGCTGGACTGAGTTGGGTTGAACTGGGCTGAGCGGGATGCACTGGGCTGAGCTGAGCTGGGTGAGCTGGGGTG
+AGCTAGGTGAGCTGAGCTGGGCTGAGCTGGGTTGAACTGGCCTGAGCGGGGTGAGCTGAGCTGGGCTGAGCTGGGTGATC
+TGAGCTGGGCCGAGCTATGCTGGGCTGAGCTGAGCTGGGTGAGCTGAGCTGAGCTGAGCTGAATTGGACTAAACT
+>ref|Z11854.1| S.scrofa gene for 17a-hydroxylase cytochrome P450, exon 1
+TTTTTTTTTTTTTTTTTTTTTGTCTTTTGCTATTTTCTTGGCTCCCGGCGGGCATATGTGAGTTTTCCCAGGGCTAGGGG
+GTCGAATTGGAGCTGTAGCTGCCAGCCTATGCCAGAGCCACAGCAAATCGCGGGATCCGAGGCCGGCGTCTGCAACCTAC
+ACCACAGCTCATGGCAACACCGGCAATCGCGGATCCAGGCCGGTCTGCAACCTCACCACAGCTCATGGCCAACACCGGAT
+CCTTAACCCACTGAGCAAGGGCAGGGATCGAACCCGCAACCTCATGGTTCCTAGTCGATTCGTTAACCACTGTGCCACGA
+CGGGAACTCCACAAAATTATTTTTAATAAAAAGTTTATTTAGAGAGTTCCTGGTGATCTAGTGTTAGGACTCAGCACTCA
+CTGCTGCAGAGTCATGAGATTGCCCACATCAAGCCACTGGCCAAAAGAAGGGGAAAAAATTTTTTTTAAAACATGTAGAG
+GTCAAACAAGAGTTTCAGCCCAAACCTATCTGTTCTAGGGCACATGCTCTCAACCCAAGGGTTCACTCCCCCCCTTGAAA
+AAAGCAGCAAAAACAGGAATCAGGAGACCTGGGTTCTTGTCATTACCGTCTTGTGTGACCTTATGCAAGCCCTGCCTTTG
+AGGGCCCTCACTTTCCTCAGCTGTTAAATGATAACGAATGGATAGAATACTTGACATATCCTGCTAGTATACCCTGTGCT
+AGTTATAACCACTCCTGACAGTGTAAGCTGTCTATTGATTTGAGATTTTACAACACAGCCAACCGTTGATCCCGTGATCG
+ACCCAGATACCATTTGCTTCTGGCACACTCCGGAGTTACTGGACAGGGAGGAGGGGCAGGACCAGCCGCAGCCCCCTTAC
+CTAGCCCCACCCCTAGAGGCTTGCCTGAAGTTGAGCCAGTTCTTGAGGAGGCCTCCACTCCTCTCCCCATTCTAGGAGAG
+GGCTCCGGTCTGGCTGTGCTCCAGAATAAACTTCCACAAGGCAAGCGATAACATAAAGTCAAGGTGAAGATCAGGGCAGC
+CTTTAAAAAGGGCTCCTTGCACCCTAAGTGGCTGAAGACACTCCAGAGCTGTCTGTCCTGCCTGCCGCCACCTGGCCACC
+ATGTGGGTGCTCTTGGTTTTCTTCTTGCTCACCCTCACCTATTTATTTTGGCCTAAGACCAAGGGCTCTGGTGCCAAGTA
+CCCCAGGAGTCTCCCAGTCCTGCCCGTGGTGGGCAGCCTGCCATTCCTACCCAGACGTGGCCACCAGCACATCAACTTCT
+TCAAGTTGCAGGACAAATATGGCCCCATCTTCTCCTTTCGTCTGGGTTCCAAGACTACCGTGGTAATTGGTGACCACCAG
+CTGGCCAAGGAGGTGCTTCTCAAGAAGGGCAAGGAATTCTCCGGGCGGCCCAGAGTGGTAAGCCAGTGCCCATCATCCCT
+GCTCAGAGTGGTGGGGGGTCCCCTCCAACTCAGAAAGTCGGTTCCAGTACGGAGCTTACTTGGATCCAACTCTAACAAGC
+CTGTGATTCTTTCAAAAACAGACCTATGGGGCTGTGGGGTGGGGTCCAACTCTAACAAGCCTGTGATTCTTTCAAAAACA
+GACCTATGGGGCTGTGGGGTGGGGGACCTTTGGCCACCCAGGCTCTAAACTAGGCAGGAAGAATTAAAGAAGAACTTTCT
+AGGCTCCCCAGGAGGGAGGGTGGGTGGGAGTGGTGGTTTTGAGGGGTCAGAGAGCCCTACAAACCGCAACTACCCCTGAA
+CTGGAGAGACTTCGAGCTAGTTTCTAACACCGAAA
+>ref|Z11855.1| S.scrofa gene for 17a-hydroxylase cytochrome P450, exons 2-5
+GAGTGCAGGAGGCCCTGGGAGAGGGGGAGTGGATGGAGTCTGATGGCTGTTCCTTTCCTGCTTTCCAAAGATGACTCTAG
+ACATCCTGTCAGACCATGGTACCTCCTGGCAGCTGCATCGGAAGCTGGCACTGAGCACCTTTTCCCTGTTCAAGGGTGGC
+AACCTGAAGCTGGAGAACATCAGTGAGTGCCCAGCCGGCCCTGGGCTGCTGGAGGGAAGAGGGGGCCTGGGGAGGAAGAG
+GATCGAGCGGGGGAGGGGGGGGATTCCATCTAGCGTTTTCTTGGCTACTGCTGCCAATCTTAGCGGACATCTTGCTCTCC
+ATCTTTGACTGGGCCTGGAGCTGGTGGAGAGGGAGGTGCTACCCATTCCCCCACCCTCATCCCCCTCTCTCCCCTCAGTT
+AATCAAGAAATCAAAGTACTGTGCGATTTCCTGGCCACACGGAATGGAGAGTCCATTGATTTGGCCCAGCCTCTCTCTCT
+GGCGATGACCAACATAGTCAGCTTTATCTGCTTCAACTTCTCCTTCAAGAAGGGGGATCCCGCGCTGCAGGCCATAGTGA
+ATTTCAATGATGGCATCCTGGATGCTGTGGGCAAGGAAATTTTGTATGACATGTTCCCTGGAATTAGGGTGAGAATAAGG
+TGGGCCCCACTGTGGGGATCTCAGCAGACCCTGACTGCATCCCCAGTTTTTCTTTCCTCTATGGTTCAGTTCCAGACCCA
+CCTTTTTACTGACCACCTCGCCTACAGGACCTCTACCTTCTCTCTTAAAACCTTGCCGCTTCTCTATGGAACTAGGTTAA
+GCCTTTAAATCATGCATTTTAATACTCATGATAATGGCTCTGTTCATTTACCAATTGCCTTCTGCCGAGAGTGACACTCC
+CACATGCATTCATCACGTGTTCCCCTGGGAACAGGTTTTATTGTCCCACATAGGTCTACTAAGTAAACCCTCCATCAGTG
+CTGGACGCTGACTGAATGGGGAAGGGCAAGTGGAGGTGGCTCCGGCCTCCTTTGTTTAAAAATGTCCTAGTTGTCACTGA
+TGGGTCCCATCCTGAGTCCCTCATCCGGCTCTCCATTCTGGCTAAAGGTTGAGGTTAGAGTGGGGACTCTCCAGAGACAG
+AACAGGTAGACTTTGACATTTTTACTTTGCAGATTTTACCCAGCCAAACTCTCGAAAACATGAAGCAGTGTGTTAGAATG
+CGAAACGAATTGCTGCGGGAAATTCTTGAAAACCGTAAGTAGGTGGTGATGAAGCAGGAGAGATGACGAATTAGGTTGAA
+GGTCTGAGAGCAGGCTTGGGTCATTTGGACGTTAGGAGCTCAGCACTAGGAGGGAGCCTGGCACATAGTAGGGGCTCAAT
+AAAAACTGACAAATAATGAACAGGGGTGAGGAATCGAAGAAGATCCTAGGAGGGGCCCACCCACACCTCCCAATTTAAAG
+CGGGTTCAGTGCTTCCTCCTACTTCCACAAGCTCACAGGTCCTGACTAGCCTTACTCCGCTCCCTCACTTCCAAGTGGAA
+GAAGTCTTTGTTTCTGCCAGGGGGACCCATAGCCCTCCCCGAGCTCTACCCCGAGGAAGGAGTAGTGCAGAGAAGGTTAG
+AGCGCCAATCAGGAGAACTACAGCAGAAACTCCATCACTAACTTGTTGGACATAATGATCCAAGCCAAGACGAACGCAGA
+AAGTAACACTGGTGGCCCAGACCACAATTTAAAGCTGCTTTCAGACAGACACAGTCTCGCCACTGTTGCGGACATCTTTG
+GGGCCGGTGTGGAGACTTCTGCCTCTGTGGTAAAGTGGATCGTGGCCTTCCTTGCTACACTATGTCCTCTGGTGAAGCCT
+TTCCATCCCCGACCCTTT
+>ref|Z11856.1| S.scrofa gene for 17a-hydroxylase cytochrome P450, exons 6-8
+GGTCAGCAGCTCTCTGATGTGACATGGATTCTTCTAGCCTTGCATCAGTGCTTCTGGCTCACACACCTGTCACATCCACC
+TTGTTCTTGGCCCTCAGCTGAGGAAGAAGATCCAGGAAGCTATCGAACAGAATATTGGTTTCAATCGCGCCCCATCTATA
+AGCGACCGAAACCAACTTGTCCTCCTGGAGGCCACCATCCGAGAGGTGCTTCGATTCCGGCCTGTGTCCCCTACGCTCAT
+CCCCCACAGGGCTATCATTGACTCCAGGTGTGCTTTCCTCCCGGTAACATCCAGCCCTGTGATGCATTCAGGGCTCCTTT
+TCAGCCCACGTGGTCCCTCCTCCATCACCCCAAACCTACTATCAATCATCCCACCCATGAGCCTATTGACCGAGGTATCT
+GCCACCCGCTGCCACCCACTGACTAATCCACAGGTCTCTCTGACCTCCCTCAGAAGCTGCCCAGGAGATATGTGGTCTTG
+GGATGAAAGATCGTGGGTGCGTTCTGTCCCAACCCAATCCAATTGCTGTACCGACGTTCTCGCACCAGCTCAACCCGCAT
+ACCCACCTACCCTGACATACCCGCATGGTTGATGCATTAGTGCCGGCCAGGAAAAGAGGCCTGGATTCATAGTCGATCTG
+GCAGAACGTGAGGAAAAGATGAGGGAGTGGACATGAGGGGGTAAAAGGCTCCTTTCCCCCAGGGTTGGGGACCATGAGGC
+TTGGGGCTGGGCAAGACTCCATGGTCTCCCCTCCCTCTCTGGGGCAGCATTGGCGAATTTACCATTGACAAGGACACAGA
+TGTCGTCGTCAATCTGTGGGCACTGCATCACAATGAGAAGGAGTGGCACCGGCCCGACCTGTTCATGCCTGGTGAGTTCC
+TGTTCTTTGGGGGAGTGTGGGGGAGCTGGCTGCTCCCCGGCCACACAGCCAGCCTGGTCTCTGTAACCCCCGCTCCAGCA
+GCACTTGCCCTCTGCCAAGTTGGCTCTAGAAAACTCCTGACTCCAACTATGGTCCTGTTGACCCGTCCCTTTTACCCTAG
+ACTTACCCAGATTCTTTGCCAGGATCTGGGGTTCCCACTTTCTCCTTCCACCAATCTCAAATCTCCTCCTCTAAGAAGCC
+CTCCAGGCAATGTCTCCCTCTCCCCTGGGATGGTGGCATTTTCATCTGCTAATACACCTTCTTTCCATCCTTCTGGAATA
+TTCTGGAATATTCATTCTCCTCTGTGTGATTCAGGGCGGCCTAGGGCAGGGTTGTATCTCCTCAACCGCCCCACCCCCGT
+CCCCACCCCCGACCCCGCCAAAGTCAGCGTTCCGCCTTCTCAATAGTCTGGCGTTCTACTCCTCTATCTCCTCCCGTCCC
+CTGGCTTCCCCACTGAGTCCTCCGCATGTCCGCAGAGCGCTTCCTGGACCCCACGGGGACCCAGCTCATCTCACCATCAT
+TGAGCTACTTGCCCTTCGGAGCAGGACCCCGCTCTTGCGTAGGGGAGATGCTAGCCCGGCAGGAGCTCTTCCTCTTCACG
+GCTGGATTGCTGCAGAGGTTCGACCTGGAGCTCCCAGATGATGGGCAGCTACCCTGTCTCGTGGGCAACCCCAGTTTGGT
+CCTGCAGATAGATCCTTTCAAAGTGAAGATCAAGGAGCGCCAGGCCTGGAAGGAAGCCCACACTGAGGGGAGTACCTCCT
+GACTCCACCCTGGGTGACCTCGCAGGCAGAGAATGAGAGTGTCCTACCTCCCCCCC
+>ref|NM_214261.1| Sus scrofa cholinergic receptor muscarinic 2 (CHRM2), mRNA
X04708.1 Porcine mRNA for cardiac muscarinic acetylcholine receptor (mAChR)
+CGAAGGGCTCCCCACTCCTAGCCAGCCCACACCAAGCTTCTTGCAGCCCGGGGAGCAAGTGGAACTAAACCTGCGGCAGG
+TTTAAATGTGTATTTGGCTACTTGGCTACTGAGTAGAGAACACAAAATGAATAACTCCACCAACTCCTCTAACAGTGGCC
+TGGCTCTGACCAGTCCTTATAAGACATTTGAAGTGGTTTTTATTGTCCTTGTCGCCGGATCCCTCAGTTTGGTGACCATT
+ATTGGGAACATCCTGGTCATGGTCTCCATCAAAGTCAACCGACACCTCCAGACAGTCAACAATTACTTTTTGTTCAGCTT
+GGCCTGTGCTGACCTCATCATTGGTGTTTTCTCCATGAACCTGTACACTCTTTACACTGTGATTGGCTACTGGCCTTTGG
+GCCCCGTGGTGTGTGACCTTTGGCTAGCTCTGGACTACGTGGTCAGTAATGCCTCAGTAATGAATCTGCTCATCATCAGC
+TTTGACAGGTACTTCTGTGTCACGAAGCCGCTCACCTACCCCGTCAAGCGGACCACAAAAATGGCAGGTATGATGATTGC
+TGCTGCGTGGGTCCTCTCCTTCATCCTCTGGGCTCCGGCCATTCTCTTCTGGCAGTTCATTGTAGGGGTGAGAACTGTGG
+AGGATGGTGAATGCTATATACAGTTTTTTTCCAACGCTGCTGTCACCTTTGGCACTGCCATTGCAGCCTTCTATTTGCCT
+GTGATCATCATGACTGTATTATACTGGCACATATCCCGAGCCAGTAAGAGCAGGATTAAGAAGGACAAGAAGGAGCCTGT
+GGCCAACCAAGAACCAGTTTCTCCAAGTTTGGTACAAGGAAGAATAGTGAAGCCGAACAACAATAATATGCCTGGCAGTG
+ATGAAGCCCTGGAGCACAACAAAATCCAGAATGGCAAAGCTCCCAGGGATGCTGTGACTGAGAACTGTGTCCAGGGAGAG
+GAGAAAGAAAGCTCCAACGATTCCACCTCAGTCAGTGCTGTTGCCTCTAATATGAGAGATGATGAAATAACCCAGGATGA
+AAACACAGTTTCCACTTCCCTGGGCCATTCCAAAGATGAGAACTCAAAGCAAACATGCATCAAAATTGTCACCAAGACCC
+AAAAAAGTGACTCATGCACCCCAGCTAATACCACTGTGGAGCTTGTTGGTTCTTCAGGTCAGAATGGAGATGAAAAACAG
+AACATTGTCGCTCGCAAGATTGTGAAGATGACCAAGCAGCCTGCAAAAAAGAAGCCGCCTCCTTCCCGGGAAAAGAAAGT
+GACCAGGACGATCTTGGCTATTCTGTTGGCTTTCATCATCACTTGGGCCCCGTACAACGTCATGGTGCTCATTAATACCT
+TCTGTGCACCCTGCATCCCCAACACAGTGTGGACAATTGGTTATTGGCTCTGTTACATCAACAGCACTATCAACCCTGCC
+TGCTATGCACTTTGTAATGCCACCTTCAAGAAGACCTTTAAACACCTTCTTATGTGTCATTATAAGAACATAGGCGCTAC
+AAGGTAAAACATCTTTGTAAAGAAGGAAGGTAGTCAAGAGGAGCTTGAGGAACAGAAAAAGAATGAAAGAGCTCCTAGTT
+TTAAAATCTCTGCCATTGCACTTTATAGTCTTATTAATGGAATGTGCAATTAAGGAGCCCTACAG
+>ref|NM_214033.1| Sus scrofa acrosin (ACR), mRNA
X14844.1 Boar mRNA for preproacrosin
+GAGGTCACTGGGCTTCCAGGCCAGGCCGGCGAGGAGCGCGGTAGAGATGCTGCCAACTGCCGTTCTGGTCCTGGCAGTGT
+CTGTGGCGGCCAGAGATAACGCCACGTGTGATGGCCCCTGCGGCTTACGGTTCAGGCAGAAATTAGAGTCAGGCATGCGT
+GTGGTTGGCGGCATGAGTGCAGAACCGGGCGCCTGGCCCTGGATGGTCAGCCTCCAGATCTTTATGTACCACAACAACCG
+GAGGTACCACACGTGCGGGGGCATCTTGCTGAACTCGCACTGGGTGCTCACTGCTGCTCACTGCTTCAAGAACAAAAAAA
+AAGTTACTGACTGGAGACTGATTTTCGGAGCAAACGAAGTTGTGTGGGGAAGCAATAAGCCGGTGAAGCCACCCCTGCAG
+GAGAGATTTGTTGAGGAGATCATCATTCATGAAAAATACGTTTCAGGGTTAGAGATAAATGACATTGCTCTCATAAAGAT
+CACCCCTCCTGTTCCATGCGGGCCCTTCATCGGACCAGGCTGCCTGCCCCAGTTTAAGGCTGGCCCGCCCAGAGCGCCCC
+AGACATGCTGGGTGACTGGCTGGGGCTACTTAAAAGAGAAAGGCCCCAGGACGTCACCTACACTGCAGGAGGCACGTGTG
+GCCCTCATCGACCTCGAATTATGTAACTCGACCCAGTGGTACAATGGGCGTGTCACGTCAACTAATGTGTGCGCAGGGTA
+TCCTAGAGGCAAGATTGACACCTGCCAGGGGGACAGCGGCGGGCCTCTCATGTGCAGAGACAGAGCGGAAAACACCTTTG
+TGGTCGTGGGCATCACAAGCTGGGGGGTAGGCTGCGCCCGAGCTAAGCGCCCTGGAGTCTACACGTCTACCTGGCCCTAT
+CTGAACTGGATTGCTTCCAAGATTGGTTCTAATGCCTTGCAGATGGTTCAACTGGGCACCCCTCCCCGTCCTTCTACTCC
+AGCACCCCCTGTCAGACCCCCCTCTGTTCAGACTCCTGTTCGCCCACCTTGGTACTTCCAACGCCCTCCTGGACCCTCCC
+AGCAACCTGGGTCCCGCCCCCGCCCCCCAGCTCCCCCCCCTGCCCCGCCCCCCCCGCCCCCCCCACCCCCACCGCCTCCA
+CCACCCCCACCCCCACCCCCACAGCAAGTTTCCGCTAAACCTCCCCAAGCACTTTCCTTTGCCAAGCGACTGCAGCAGCT
+CATAGAGCTGAAGGGGACGGCATTCTCTAGTGGAAAGGAGCTATTATGAAACAGAGACCACAGACCTCCGAAGAACTGCC
+CGCCTCCTGATTTGACCTCATTTTCACCTGATTTGGACCCATTGCACACCTCATCCCTGAGAAAAAAAAGGATGAAATAA
+ATGACTATAAATACAAATATAAATATATATACATAAAG
+>ref|X54669.1| Porcine mRNA for prepro atrial natriuretic peptide (ANP) with human-derived PCR primers
+ACGACGCCAGCATGAGCTCCTTCACCATCACCGTGAGCTTCCTCCTCGTTCTGGTGTTTCAGTTCCCAGGGCAAACCAGA
+GCGAACCCTGTGTACGGCTCCGTGTCCAATGCAGACCTGATGGATTTCAAGAATTTGCTGGACCACTTGGAGGACAAGAT
+GCCTTTAGAAGATGAGGCTATGCCCCCACAAGTACTAAGCGAGCAGAATGAGGAAGTGGGGGCCCCTCTCAGCCCCCTTT
+TGGAGGTACCTCCCTGGACCGGGGAGGTGAACCCAGCCCAGAGAGATGGGGGTGCCCTGGGGCGGGGCCCCTGGGACGCT
+TCCGATAGATCTGCCCTTCTGAAGAGCAAGCTGAGGGCACTGCTTGCTGCCCCTCGGAGCCTGCGGAGGTCCAGCTGCTT
+CGGGGGTAGGATGGACAGGATTGGAGCACAGAGTGGACTGGGCTGTAACAGCTTCCGGTACTGAAGATAACAGC
+>ref|X16088.1| Sus scrofa aminopeptidase N gene and 5'flanking sequence
+GAATTCCAAGAGCAAAAGGAAGGTCTTAAGCAGTGGGTAAAATGATCCAATTTGTGTGGCAAGCTTGTTTGAGGGGGCCC
+TAGTGCAAGTGATTATCCACTAGGATAACGTGAGGATCCAGCCTTGCCCACATAAATGATGAGAATGCTTTTGCCAAGGA
+CACGGTGAGAATGGGGGAGAGGGTGAGTCAGATGTTGGGGTGAGGGTCAGGCGTTGAGGTCCAAGAAACTGGTGGATGGG
+AAGGGTGACAGTGAACATTGTTTTCCTGTAAGGACATGTGCTGTTGAGTATAAGGAGTACCTTCATTTCTACCACGGATA
+GAATGGGTGACCCTCTGGATGAGAAAGAAGGGAAGGATTTTGAGGTTCTACTATATGGTGTTTAATATGTTTTCTAACAT
+TAAATCCGCTCACCAAATCTGAGACGTAAATTCTAGTATTTATTTATGTGAACAGGGTTCTCAGAAAGGAGAACTTACCT
+GCCAGAGGTCATGGCTGGGAAGAGGTTAAGCCGCCGCTAGCCTCCCTTCTTTAAAAAAAAAAAAAAAAAAAAAAAAAGGC
+AAAACAACTTATTTCATTCTACTCAGTGAGCTGATAATTGAGGGGAAAGTTTTTGGCAAGAAGGGAAAGTGGCGGGGGGA
+GGACCTGGAAGAACTCCCTGCTCTGGAAGAATGCGGGAGGCTGGGACCATGTCCCTGAGGAGCGCCGGGCATCCCTCCAA
+CTGCAGGGCTGACCCGGTGTGGTCTTGACCCGAGCCAGAGGCCGGCTCTCCCCGTCTTTTCACCTCCCACCTCTTGCTCC
+TGGGACGTCCTTCGACCCTCCTGGATCTAACCTCAGTCTTCCTGCTCCTGTGCCTGTTGTCATAGCTCACAGCTCACAGG
+GAGATCCAAGCCACCTGGCCGCTCCCTCTCCCCGCTGGGCCAGCTGCCTGCCACCTGCCCTTCAGCCCTTGGTGGGCTCC
+CAGGCTCCTGCAGCCTGTAACCAGACCCTGTTTGCTCCCAGCAGGCACCCCTGAGCCGCACTCCGCACGCTGTTCCTGAA
+TCTCCCCTCCAGAACCGGTGCAGTGTCTCTACCCAGTTCAGTGACCTTCGTCTGTCTGAGCCCTGGTTAATTTTTGCCCA
+GTCTGCAGGCTGTGGGGCTCCTCCCCTTCAGGGATATAAGCCTGGTCCGAAGCTGCCCTGTCCCCTGCCCGTCCTGAGCC
+TCCCCGAGCTCCCTTCTCACCCTCACCATGGCCAAGGGATTCTACATTTCCAAGGCCCTGGGCATCCTGGGCATCCTCCT
+CGGCGTGGCGGCCGTGGCCACCATCATCGCTCTGTCTGTGGTGTACGCCCAGGAGAAGAACAAGAATGCCGAGCATGTCC
+CCCAGGCCCCCACGTCGCCCACCATCACCACCACAGCCGCCATCACCTTGGACCAGAGCAAGCCGTGGAACCGGTACCGC
+CTACCCACAACGCTGTTGCCTGATTCCTACTTCGTGACGCTGAGACCCTACCTCACTCCCAACGCGGATGGCCTGTACAT
+CTTCAAGGGCAAAAGCATCGTCCGCTTACTCTGCCAGGAGCCCACCGATGTCATCATCATCCATAGCAAGAAGCTCAACT
+ACACCACCCAGGGGCACATGGTGGTCCTGCGGGGCGTGGGGGACTCCCAGGTCCCAGAGATCGACAGGACTGAGCTGGTA
+GAGCTCACTGAGTACCTGGTGGTCCACCTCAAGGGCTCGCTGCAGCCCGGCCACATGTACGAGATGGAGAGTGAATTCCA
+GGGGGAACTTGCCGACGACCTGGCAGGCTTCTACCGCAGCGAGTACATGGAGGGCAACGTCAAAAAGTAAGTCAGGTGGG
+GGCACACCCTAGATGCTGAGGCAGAGCTGGATCCTGGGGGCCAAGGAAGGGCTTGGATTCGGGACCTTGGAACCTTCTGG
+AGACTTTGGCTGGCCCGTCGCTCCATCCGCAGCTCTGGTAGAGAAGCTATCTAGACAATCAGCCCTTTCCCGGAGAGCCC
+CCCTAACCTTAGGGAGTCAGGGGTGAGTGATCCAAGTGCCCCCTTGGTAGAAAGGAAAACAGGCTCTGAGGACAGAAATT
+TGCCCAAGGTCTCCCAGCTAATTCAGGGGTGGAGCCTGCCCGGACTTTGACCCCAAGTCCAGAAGGAGCTCTGCTCTCCC
+AAGTCAGCTGGCCTGTCAGCCTGGACGGGCCTGGGGGAGGCGGGGAGGGACGGATGGGGCTGTGCACCCCTTTCCATGCC
+CAGCCAGCCATGGCCTACACCCCCCACCCCCGGCCACCCCATGGGCACAGGCATTTTGCTGGCATACCTTCTAACCCCCT
+GCTTCGGGCAGGGTGCTGGCCACGACACAGATGCAGTCTACAGATGCCCGGAAATCCTTCCCATGCTTTGACGAGCCAGC
+CATGAAGGCCACGTTCAACATCACTCTCATCCACCCTAACAACCTCACGGCCCTGTCCAATATGCCGCCCAAAGGTGAGC
+GGGCTGGCGGGGACCACACGGCCTGGGAAAGCAGGTCCCTGGGGCTGGGGTGCAGGTCCCTGTTGCTGGGGTGCAGGCCC
+AGGAAGAGGGCACCCCTCCACGCCTGCGTGTCGCACCCAGGTTCCAGCACCCCACTTGCAGAAGACCCCAACTGGTCTGT
+CACTGAGTTCGAAACCACACCTGTGATGTCCACGTACCTTCTGGCCTACATCGTGAGCGAGTTCCAGAGCGTGAATGAAA
+CGGCCCAAAATGGCGTCCTGGTAAGGGCTGAGCCCACCTGCCCTTCCCCACATTGGCCCTGGCCTGGGAAGTATTCCCAT
+TTATCCTCATCCTTGTCCCTGTGCTTAGATCGTGAGGCAGTGAAAGAATTC
+>ref|X69478.1| S.scrofa gene for apolipoprotein A1, exons 1-3
+CGCAGCTTGCTGTTTGCCCAATGTATTTGCCCGGCCCCAGGGACAAAGCTGATCCTTGAACTCTAAGTTCCACATCTCCA
+GGACCAGTGAGCGGCGGCAAGGCCTGGGCTGGGCTTATCAGCCTCCCAGCCCAGCCCCTGCTTGGCAGCATAAATAGGCT
+GGAGGAGACCGGGCAGTCAGAGACCGCTGGCGCATCGAGGTGAGTGCTGCTACTTGCTCAGGTTACCCTAGCTTCCCCCA
+GCTCTAGGCACTGGAAGCTCAGGCCCTGGGATCCCAGCTCCAGCCTCTGCCCTGGGGCACTGGACCCCTGGCCCTCTCCC
+TCTCTGTGCCCCGCCTCCTGCACTCAGCCGGCCCCTCTTCTCCTCCAGGTCACCCACGTCCCTTCAGGATGAAAGCCGTG
+GTGCTGACCTTGGCTGTGCTCTTCCTCACAGGTAGGTGCCCCCAACCTAGGGAGCCAACCTTCGGGGGTGTCTTCTGCCT
+GAACCCCTGCAGTCCACCCTCCTGAGCATGGGAGCAGAATTTCTCCCTCCTGCCCTTCTCCGCTGCCTGGCATTTCAGCT
+CAGATCCTGACCCGGAGCTGGCCTGATCTGGGTCTTCCCTCCCACCCCCAGGGAGCCAGGCTCGGCATTTCTGGCAGCAA
+GATGACCCGCAGTCACCCTGGGATCGGGTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGTGGCAGAGA
+TTATGTGGCCCAGTTTGAAGCCTCCGCTTTGGGAAAACACCTCAAGTAAGGACCCTGGGGCCTAGGGCAGAGGTAGGGGG
+TACCGGTGCTGGGGATGGGGTGGAGAGGCCTGTGGGAAGAAGCAGCCAGATTGGCCG
+>ref|X69479.1| S.scrofa gene for apolipoprotein A1, exon 4
+CTGCAGGTGCAATGGGGTCCATTCGTCCTAACTTCCCTCCTCTGCTCCTGCCAGTAGCAGGGACAGCTGTCTTCAGAGAG
+GAGAATGGGGCTGGAAGGGTAGAGACCAGGTCCTTAAAAGGACTGGCTTCAGGGACAGACAGGACTGGGCACCAAACGCA
+GCTCCTTGGTCTATCTGGTCGATGGGGTGCAGTGTGGTGGTGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGCTC
+GNNNCGTGCACAATGATGGAGAGAAGCTAGGCTGAGGGTCTGGCCCCAGCAACCACACTTTCAGGGGCACATGTGCCCGG
+TCCCACCCCAGACCAAGCTGGGTGCTGGGTTGCAGCTCCAGAGGTGTCCACGGTGCCACCCGGGAGGCCTGCCCTGAGCC
+CTCCTCTCTCTCTTCCCTTTAGCCTGAAACTCCTGGACAACTGGGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAG
+CAGCTGGGCCCAGTGACCCAGGAGTTCTGGGACAACCTGGAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGA
+CCTGGAGGAGGTGAAGAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACC
+GCCAGAAGATGCCGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCG
+CTGGCCGAGGAGCTCCGCGACCGCCTGCGCGCCCACGTGGCAGCGCTGCGCCAGCACGTGGCGCCCTACAGCGACGACCT
+GCGCCAGCGCATGGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGACAGCCTAGCCGAGTACCAGGCCAAGGCCCAGG
+AGCAGCTGAAAGCGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAAC
+CTCAAGGTCAGCATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCCCCCCCCCCCCCT
+CGCCATCAGTTCGGCTTCTTGGAATAAG
+>ref|Z14124.1| S.scrofa apoAI gene
+TTAGAATATATTATTTATTATTTTTGACAGACACGCGACAGTGAGTTCCCAGCCAGAATTGAACCCGAGCCATAGCAGTG
+ACAATGCAGAATACCAAGGTCACCAGGAACTCCCAGAGACCAACTTTTTTGATTGGGTGTCCTGTGGATTAAAATTTTGA
+AGTATGTATTCTCAATATTTGGGTATTTATTAAATGACACCCTGGTACTTCTGTATTTGTATGTTTTAGTCATCATAAAT
+GAAACAGCAAAAAATAGAAATAACAGAGGGCAAGCTTAACAATAAATAGAAATGGAACTTCCAGCATTTTCTTACCTGCC
+CCTAACTCACCAGGTGCCCTCCCCAGGGTGTGTGTATCTTTTTAGAGACCACTGCTCTCTGTTCATATTTGTACCCCCTA
+TGCCTTGCTCAGGGCCTAGCACACAGTAGGTACGGGATAGATGAATAAAAATGAAGTCATAGGGGAGTTCCTGTCATGGC
+TCAGTGGTTAACGAATCCAGCTGGGAACCATGAGGTCGGGGGTTCGATCCCTGGCCTTGCTCAGTGGGTCAAAGATCTGG
+CCTTGCCGTGAGCTGTGGTGTAGGTCACAGACGTGGCTTGGATCCCACATTGCTGTGGCTCTGGCTAGGCTGGTGGCTAT
+AGCTCTGATTAGACCCCTAGCCTGGAAACCTCCATATGCCATGGATGTGGCTTTAGAAAAGACAAAAAAAGACACACACA
+GAAAAAAAGTGAAGTCATAGGAGTTCCCCTTGTGGCTCAGTGATAATGAACCTGACTAGGATCCGCATTGCCATGAGCCG
+TGGTGTAGGTCACAGCTCTCAGCTCAGATCCAGGAAGGAGGTCGAGGGCCTGGGAGGAGGTGGGGACGGGAGCTGGGACA
+CGACTGGTGAGAGGACCGACTGCCGCTGTGTGAGATGGGGGCAGGGTGGGGGTGAGATAATCTCCCTGGAATCCGAGGGG
+ACCGCAGGGAGGACATGGCCTGAGCCGAGGAGTCCCGGCCATCCCTGGCAGCTCGTGCTTTTTCTTCCTTCCTGCCTCTC
+CGCTCGTGGGCTGGCACAATGGACAATGGCGGGAACACAGCCACCACCGAGAAGGGGCCAGCTGACCCCGACTCTGGGGA
+CCTGCAAGCCCGGACCCACCCCCTCCCACCCCCGCCTGAACCCTTGATCCCTGCGCCTGCAGCCCCCACAGCTTCCTGTT
+TGCCCCGATGTATTTGCCCGGCCCCAGGGACAAAGCTGATCCTTGAACTCTAAGTTCCACATCTCCAGGACCAGTGAGCG
+GCGGCAAGGCTGGGCTGGGCTTATCAGCCTCCCAGCCCAGCCCCTGCTTGGCAGCATAAATAGGCTGGAGGAGACCGCGG
+TCAGAGACCGTGGCGCATCGAGGTGAGTGCTGCTACTTGCTCAGGTTACCCTGGCTTCCCCCAGCTCTAGGCACTGGAAG
+CTCAGGCCCTGGGATCCCAGCTCCAGCCTCTGCCCTGGGGCACTGGACCCCTGGCCCTCTCCCTCTCTGTGCCCCGCCTC
+CTGCACTCAGCCGGCCCCTCTTCTCCTCCAGGTCACCCACGTCCCTTCAGGATGAAAGCCGTGGTGCTGACCTTGGCTGT
+GCTCTTCCTCACAGGTAGGTGCCCCCAACCTAGGGAGCCAACCTTCGGGGGTGTCTTCTGCCTGAACCCCTGCAGTCCAC
+CCTCCTGAGCATGGGGAGCAGAATTTCTCCCTCCTGCCCTTCTCCGCTGCCTGGCATTTCAGCTCAGATCCTGACCCGGA
+GCTGGCCTGATCTGGGTCTTCCCTCCCACCCCCAGGGAGCCAGGCTCGGCATTTCTGGCAGCAAGATGACCCGCAGTCAC
+CCTGGGATCGGGTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGCGGTAGAGATTATGTGGCCCAGTTT
+GAAGCCTCCGCTTTGGGAAAACACCTCAAGTAAGGACCCTGGGGCCTAGGGCAGAGGTAGGGGGTACCGGTGCTGGGGAT
+GGGGTGGAGAGGCCTGTGGGAAGAAGCAGCCAGATTGGCCGAATCCCCACCTGCTATTTGATGGGCCCCATAGAAGACCT
+GGATGGAAGAGAGGAGTGGGCTCCCCATGCAGGGTCACCTCCGCTTAGCAGGGCTGCCCAGTCAGTATCTACAGCACCTC
+ACTGCTCGCTGCAGGTGCAATGGGTCCATTCGTCCTAACTTCCCTCCTCTGCTCCTGCCAGTAGCAGGGACAGCTGTCTT
+CAGAGAGGAGAATGGGCTGGAAGGGTAGAGACCAGGTCCTTAAAAGGACTGGCTTCAGGGACAGACAGGACTGGGCACCA
+AACGCAGCTCCTCGGTCTATCTGGTCGATGGGGTGCAGTGTGGTGGCGGGGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
+GTGCGCTCGCTGCACAATGATGGAGAGAGCTAGGCTGAGGTCTGCCCAGCAACCACACTTTCAGGGCACATGTGCGGTCC
+ACCCAGCAGCTGTCTGGGTTGCAGCTCAGAGTGTCACGTGCACCCCGGGAGGCCTGCCCTGAGCCCTCCTCTCTCTCTTC
+CCTTTAGCCTGAAACTCCTGGACAACTGGGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAGCAGCTGGGCCCAGTG
+ACCCAGGAGTTCTGGGACAACCTGTAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGACCTGGAGGAGGTGAA
+GAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACCGCCAGAAGATGGCGC
+CGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCGCTGGCCGAGGAG
+CTCCGCGACCGCCTGCGCGCCCACGTGGAGGCGCTGCGGCAGCACGTGGCGCCCTACAGCGACGACCTGCGCCAGCGCAT
+GGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGGCAGCCTGGCCGAGTACCAGGCCAAGGCCCAGGAGCAGCTGAAAG
+CGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAACCTCAAGGTCAGC
+ATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCTCGCCCGCGCTCCCCTCGCCATCAG
+TTCGGCTTCTTGGAATAAGCAGTTCCGGAGCAGGACGCTTGTGATGGGTTGTATTTTTTTGTGAAGCTTCGATGTTGATT
+TTTAAACAATAAAAAGTTCTCCAAAACCCAGAAAATTGTCTTTGGGGAGACTGGGGTGGGGAGGGGGTGCTTTGGCGAAG
+TAGCCCGGGGCGCGCCCAGCGGGGCAGGAACTTCCCGGTCCATGATCCAGTGGAGGCATCAGCTCTGAAGCCAAGTCTCT
+CAGAGCTTTAATGGTGGAGGACCTGCTAGCCCCCGGGCTCAGGGGTGAGGCAGTGGGCTCTCTCTCCTAAGGAGGCCAGA
+ACAGAAGGGAAATAATAGAGAAGCAGGCAAAGTTACAGATAATGCAGTGCAGTCGGAAACTAGACTGAGTACTGACTGAG
+TCGTGTGCTCAGCAACGATCTGACTGACTACTGAGACCAGA
+>ref|X17057.1| Pig brain mRNA for truncated apolipoprotein A-1
+GTGAAGGATTTTGCCACCGTGTATGTGGATGCGATCAAAGACAGCGGTAGAGATTATGTGGCCCAGTTTGAAGCCTCCGC
+TTTGGGAAAACACCTCAACCTGAAACTCCTGGACAACTAGACAGCCTGGGCAGCACGTTCACCAAAGTGCGTGAGCAGCT
+GGGCCCAGTGACCCAGGAGTTCTGGGACAACCTGGAAAAGGAGACCGAGGCGCTGCGGCAGGAGATGAGCAAGGACCTGG
+AGGAGGTGAAGAAGAAGGTGCAGCCCTACCTGGACGACTTCCAGAACAAGTGGCAGGAGGAGATGGAGACGTACCGCCAG
+AAGATGCCGCTGGGCGCCGAGTTCCGCGAGGGCGCGCGCCAGAAGGTGCAGGAGCTGCAGGAGAAGCTGAGCCCGCTGGC
+CGAGGAGCTCCGCGACCGCCTGCGCGCCCACGTGGCAGCGCTGCGCCAGCACGTGGCGCCCTACAGCGACGACCTGCGCC
+AGCGCATGGCCGCCCGCTTCGAGGCGCTCAAGGAGGGCGGCGACAGCCTAGCCGAGTACCAGGCCAAGGCCCAGGAGCAG
+CTGAAAGCGCTGGGCGAGAAGGCCAAGCCGGCGCTGGAGGACCTCCGCCAGGGCCTGCTGCCCGTGCTGGAGAACCTCAA
+GGTCAGCATCCTGGCCGCCATCGACGAGGCCTCCAAGAAGCTGAACGCCCAGTGAGACGCCCCCCCCCCCCCCCTCGCCA
+TCAGTTCGGCTTCTTGGAATAAG
+>ref|X03937.1| Pig mRNA for (Na+,K+)-ATPase beta-subunit
+CCGCAGCGGCAGGCGGTGCCAGCCTGCGGAGAAGCCAGGCAGGGGACACTGATTGGCAGGAGAGGACGCAAGACGCACGC
+GGCAATCACCCATCTTCAATCCCCGCAGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAGC
+TGGAAGAAATTCATCTGGAACTCCGAAAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTTTAAGATCCTTCTATT
+CTACGTTATATTTTATGGCTGCCTGGCTGGCATCTTCATTGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTTA
+AGCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGAGCCAAAAGACTGAAATTTCTTTTCGT
+CCTAATGATCCCCAAAGCTATGAATCCTATGTGGTAAGCATAGTGAGGTTCCTGGAGAAGTACAAAGATTTGGCGCAGAA
+GGATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGAACGAGGAGAATATAACAACGAACGAGGAG
+AGCGAAAAGTGTGCAGGTCCAGGCTCGAATGGTTGGGAAACTGCTCTGGATTAAATGATGAAACCTATGGCTACAAAGAT
+GGCAAACCCTGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGAC
+TTACCCAGTGATGAAGTATAATCCATATGTCCTGCCCGTTCATTGCACTGGCAAGCGTGACGAAGATAAGGAGAAAGTTG
+GAACCATGGAGTATTTTGGCCTGGGCGGCTACCCTGGTTTTCCTCTACAGTATTACCCTTACTACGGCAAGCTCCTGCAG
+CCCAAGTACCTGCAGCCCCTGATGGCTGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGGC
+GTATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGAT
+CACAAGCTCTTTCCCACTAGCCATTTAAAGAGTTTAAAAGATTCAGAAACAAAAACCTACTAGTCTTGAACAAACTGTCA
+TACGTAGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAATTTAAAGTGT
+AGCAATAGCAACAAAATATTTATTCTA
+>ref|X04635.1| Pig mRNA for ATPase beta-subunit (EC 3.6.1.3) (Na(+),K(+)-activated adenosine triphosphatase)
+CCGCAGCGGCAGGCGGTGCCAGCCTGCGGAGAGCCAGGCAGGGGACACTGATTGGCAGGAGAGGACGCAAGACGCACGCG
+GCAATCACCCATCTTCAATCCCCGCAGCAGCTGCTGACCCGCCACCATGGCCCGCGGAAAAGCCAAGGAGGAGGGCAGCT
+GGAAGAAATTCATCTGGAACTCCGAAAAGAAGGAGTTTTTGGGCAGGACCGGTGGCAGTTGGTTTAAGATCCTTCTATTC
+TACGTTATATTTTATGGCTGCCTGGCTGGCATCTTCATTGGAACCATCCAAGTGATGCTGCTCACCATCAGTGAATTTAA
+GCCCACATATCAGGACCGAGTGGCCCCACCAGGATTAACACAGATTCCTCAGAGCCAAAAGACTGAAATTTCTTTTCGTC
+CTAATGATCCCCAAAGCTATGAATCCTATGTGGTAAGCATAGTGAGGTTCCTGGAGAAGTACAAAGATTTGGCGCAGAAG
+GATGATATGATTTTTGAAGATTGTGGCAATGTGCCCAGCGAACTCAAAGAACGAGGAGAATATAACAACGAACGAGGAGA
+GCGAAAAGTGTGCAGGTTCAGGCTCGAATGGTTGGGAAACTGCTCTGGATTAAATGATGAAACCTATGGCTACAAAGATG
+GCAAACCCTGTGTCATTATAAAGCTCAACCGAGTTCTGGGCTTCAAACCTAAGCCTCCCAAGAATGAGTCCTTGGAGACT
+TACCCAGTGATGAAGTATAATCCATATGTCCTGCCCGTTCATTGCACTGGCAAGCGTGACGAAGATAAGGAGAAAGTTGG
+AACCATGGAGTATTTTGGCCTGGGCGGCTACCCTGGTTTTCCTCTACAGTATTACCCTTACTACGGCAAGCTCCTGCAGC
+CCAAGTACCTGCAGCCCCTGATGGCTGTGCAGTTCACCAACCTCACCATGGACACTGAAATCCGCATAGAGTGTAAGGCG
+TATGGTGAGAACATTGGGTACAGTGAGAAAGACCGTTTTCAGGGACGCTTTGATGTAAAAATTGAAGTTAAGAGCTGATC
+ACAAGCTCTTTCCCACTAGCCATTTAAAGAGTTTAAAAGATTCAGAAACAAAAACCTACTAGTCTTGAACAAACTGTCAT
+ACGTAGGGACCTACACTTAATCTATATGCTTTACACTAGCTTTCTGCATTTAATAGGTTAGAATGTAAATTTAAAGTGTA
+GCAATAGCAACAAAATATTTATTCTACTG
+>ref|X07617.1| Porcine mRNA for cAMP-dependent protein kinase catalytic (C)-alpha subunit (CAT4)
+CGCACCTGGACTTTGTGTGGGACACCCGAGTACCTGGCCCCTGAGATCATCCTGAGTAAAGGCTACAACAAGGCTGTGGA
+CTGGTGGGCCCTGGGGGTTCTCATCTATGAGATGGCCGCTGGCTACCCGCCCTTCTTCGCTGACCAGCCCATCCAGATCT
+ACGAGAAGATTGTCTCCGGGAAGGTGCGGTTCCCGTCCCACTTCAGCTCCGACCTGAAGGATCTGCTTCGGAACCTCCTG
+CAGGTGGACCTCACCAAACGCTTTGGGAACCTTAAGAACGGAGTCAATGACATCAAGAACCACAAGTGGTTTGCCACGAC
+TGACTGGATTGCCATCTACCAGAGGAAGGTGGAAGCTCCCTTCATACCAAAGTTTAAAGGCCCTGGGGACACGAGTAACT
+TTGATGACTATGAGGAAGAAGAGATCCGAGTCTCCATCAATGAGAAATGTGGCAAGGAGTTTTCTGAGTTTTAGGGGTGT
+GTGCCTGTGCCCCCAAGGGTTTTCTTTCCTTTTTTTTTTTTTTTTTTTTTGATGGGGGGGGTGGGGTGGGAGGATTGGAT
+TGAACAGCCAGAGGGCCCCAGAGTTCCTTGCATCTAATTTCATCCTGCCCCCACCCGCCTCCAGGGTAGGGGGAGCAGGG
+AGCCCAGATATTTGAGAACAGAAACACCAGCTGCTCCCCCTCACCCCTTTTGCCATCCTTCCCCCCCCTCACTTTTGCCT
+TCCTCCTCCCCCACGGCCCGCACCCCAGCCCACTTCTGCCTGTTTTAAATGAGTTTCTCAGTTCTTCCAGTCAGACCAGG
+TCTTGCTGGTGTGTCAGGGACAGCATGTGGGAAGAGGGGCCCAAATGTAACTCTAGTGCCAACCCCCCCCAAACTACAAA
+CACCACTCTCTAAGGGCAAATGAATGAGAGCAGTCCTGTCAGGGAAGGAGACATTTTAGTGTTCAATGGGCTGCTTGGCT
+AGAATTTAAAAAAAAAAAAAACAATTTACAATCTTATTTAAGTTCCACCAATGCCTCCCTCCCTCCTTCCTCTCCCACCC
+CTTCCCATGCCCCTCTGCCCCAAATCCATTTTAACAAAGCTGGGAAGCAGACTGACTTTGTAAAGGAAGAAGCTGGGGTT
+CCAACCTCTTCCCCAAGCTGCTAATCCCACCCCCTGCTCCCCTGTCAAGCCTGGACCGGTCTCCGGCCCTTTAGGAAGCC
+CCTTGTACCCCAACAGACCTGCTTCACCCTTGGGCTTCGGGACCCAGACAAAGCAGCTGCCCCTCTCCCTGCCAAAGAGG
+AGTTGTCCCTGAAAAGATAGAGGGGGAGCCCCAAGCCCAGGGTCTTTCCTCTCAGTAACATTTCCCCAAACTCCTTACTT
+TTATTCTCAGCTAGATGTTACTGTCCAGCCTCCTTTCAGTTAGGAAGGCAACCCCCCCCGCCCCCCCGCAATCCCCCTGA
+TGGTCCCTGGTTCAAGGCCGGGATTGCTGGGGAGGGACTGCCTGTTTTTTTCACCCAGCAGCCCCGCCCCCTCCCCATCC
+TGGGCACTCTTCCTCTGCTTAGCTGTCAGCTGTCAATCACCCGTTCTCAACCCCCCCCATTTGTGGGTTTTTTTTTTTTT
+CCTCTTAATAGAAAAGTCGAGTGCCACCCCATTGATCCCCATGTTTGTCTCATAATTTCTCCCCATCCCAGGAGGAGTTC
+TCAGGCCTGGGGTGGGGCCCCGGGTGGGCGCGGGGTCGATTCAACCTGTGTGCTGCGAAGGACGCAACTTCCTCTTGAAC
+AGTGTGCTGTTGTAAACATATTTGAAAACTATTATCAATAAAGTTTTGTTT
+>ref|X16951.1| Pig mRNA for endoplasmic-reticulum Ca(2+)-transport ATPase (class 3 non-muscle transcript)
+CAACTACCTGGAACCTGGTAAAGAGTGTGTGCAGCCTGCCACCAAATCCTGCTCGTTCTCGGCATGTACCGATGGGATTT
+CCTGGCCCTTTGTGCTGCTCATAATGCCGCTGGTGATCTGGGTCTATAGCACAGACACTAACTTTAGTGATATGTTCTGG
+TCTTGACTGACAGTTTTACATAAAGATGTTTAACTTAATCAATTAATTTTTTTATTGTTTAAAGCAACTGTCTATTTCTG
+CTGAATTTTCACATGAACATATTGGCTGGTAAAGGAGGTTTCATACTCTAGATTTTGTTTTGCTTTTTCTGACTCCAGTG
+GGGCAAGATTTTCCTTTTTTATACACATAATTAAAGTGTCCATTGACATGTACAGAGAACTAACACTATTTTATGCAAAT
+ATTTTTTTGTAGATGAAAAAGCATGTACAGTGTTCTGTTTAATACTCATCCTTGTATAAAAAAAAAAAGAGTTGAGCCAG
+CAGACATTGTCAGCAAATTAATTGGCAGCAGATTTTAGGAAATGAATGTGTGTGGTTTTTTCTAAGACTAAATAGCATGT
+ATTGTGTCTTCTGCATGATCATCTGGATTTAATCTGAGATCACAGTCTAATTTTTATTCATAAGCCAATTTTTCTGCACT
+GAGCAGAGTACTGCTACCTCAGTCAGTATTTTTTGGTTTGCCACCCCCCCGTCACCCTTCTCAGCCCTTGTCACCTCCAC
+CCCATCCTCCACCCCCGCCCTGCTCGGCTGCTTCTCCTGTAGGGTTTTGATGGTTCTGTTTACATCAGTCTTAACAAGAG
+GTATGCCTGTTCTCGCTTGTGCAGAAAACATTGTTCCAGATTCAATCAACTGGGTTCGTGTCCCCTCATGTAGTTTTTAA
+GGTTATTTATTTAAATGTCTAATGTATTTTATTGTAACAGACATTGTTTTGCCAACATTGCCTATTTCAGTGGCACTTCA
+CAATCTAGTTTAAAAAGGAAAATAAACATTTTAAATGGACAGAGAAAAATAACTGTCTTGTTTTTAACTCTTATGTGGCT
+TAGTTTGAACTAATATGTCCAACTTTCTCTTAAGTTCTTAGCTCAGAAATTTTAGTTTTATTGTGCTTGAGGGGAAGAAG
+GATCCTGTTCTGCTGCATAGGGAGCTGTAGGGATTTTATTTTTAATGTATAGGCACCAGTTGTCATCTGTGATACATTTT
+ATGCAAGTTTCTGCTGGCCTGTTTTTAAAGCCTATGTAGAGGACATAAGGGCAAGTGTGTGTGCGTGTGTGTGTGTGTGT
+GTGTGTTTTGTAAAATCTGTAAATAGCACATGACCAAATGAACATATTGTATAGAACTATTTTTATTTGAATGTGGCACT
+AACCACCACCATCATTACTATGATAAATGTTTGTGCATGTTCGAGATCAGTCTTACCAACAGTGTATAAGTCATTAACAG
+TCCTAACTGTGGTGTTTTCCTCCAATGCCTTCCAACATCCATCAACTAACGTGAGTATCCCCTGGAATTTGGATGCTTTA
+GCCTAAAGGTGACTGCCACTAAGTGACCTGGCTATACGAACACTAACGAATAAGCCCCTTGTGTCGGGCACCCTGAGAGC
+AGCAAGGGCACAACCTTGCTGGGTGAGCCACTATGGACACCACACACTGCATAGGACAGTGGCACAGCCAGGTGTCAGGC
+AAGGGCCTGGGGGAAGAGAAACTCCTGCTTTGGTCAGACGACAAGTGCCTTCACAAGTGCTGAGGTATGGAGTCACAAAA
+ACTTGTCATGGTTCCCTTTAACTTTGTTAGCTTAAAGGACTCATTCCAGAATCTTGTTAGCTGGTTCATTAAAAAGCAAA
+AGGCAAGTGAAAGCAATTAACTGAACCAGGAAACTCAGGCCTCCATTCATTCCTCTTAAATAGGCTGCCTCTTTTCACCT
+TCTAGGTCATATCCTTTGTGGCTGAGACTTGTTTTTTCTCTCCAGGGTACATTTAAAGCACAGTTACTGGGCCATTGTTC
+TGCTCAGCCAGCAAACAACCAGCCTAGTAGTTAGGGAGCAAGAGGGCCCAGGCAGCTGCTTGTATTCAGGCTGGCAGCTC
+CTCCGTGAATGAAGCCCCGAGTGTTCACATGAAGGTTCTCGGGTTACCGGGCCAGCCAGAAATGCTGGGAGTCTGGGGCA
+AGGTTCCTGTTTAAGAGGATAGAAGAGGCACATGGAAACGGATTCTTAATGCAGAGTCCGGGCTTGGCTCACTGAGGCCT
+CTCAGAGGATGGGGGAGGCTGTTTTGCTTGGCAGAAAAATGTAGGGGTAGGTTTTGCCAGTGTTAGTTAGCATTATGAGG
+TATAGACAGAAACAGGTTGGGTAGATCAAATGCAAGGAGTGTCTGGGCTGCAAACCAAAACAGGACGTCTGAGCTTGTTG
+GGTGGAGTGCAGTTCAATCCCAGACTAACCAAATGTTCGACTTTTTCCTGACTCAGTTCTTTGATTTATTGGCTTTTACA
+AAGTTGAGTGGGACGGGCTGCTCGAGGAGCCATGCACAGCCCCAGGTGGCCCCGGGAGGTTGTTGCCTTGTGGTTTTTCA
+GCCTGTCCAGCCCACAGAGGCAGTTTGGATGCCCACTTCCCTCAACCCAGACAGCTGGGAGTGGGGAAGACGCAGTGCCG
+CCCTGAGCAGGATCCCTTTGTTCTGCTCCAGGCTTTGCCACAGAAAAACATGTCTGCACTGGCATCTCCTTAGCAGTTAT
+GCTGCTCTGTCTTATCGGGAGTGGCGGGTGCCTGCAGGAAGGCACTGTCAGCCTCTCGACTTTTGTCTCCATCAGTAACT
+GGATGGAGTGGTGCCATGCTCAGACCTACCGGGGCAGACCTCAGGGATAGCCGAGACCACGAGCATTAGCTCAGTGTCTG
+CCGAGCCCACTGTGTCCGCACCACATTCAGTCAGAACCACCAGCCTGCGGTGAACAGTGAGGGTAATCTGCAGCCTTCTT
+TCCTGAAAGAGAATGGTGACAAACAGCTCCTCTTCTAGGATTGAGCAGGGCTGGGCCCCAGGGAAGGAACGGGAGGGCGC
+TGGAGGCTTGGCGCTGATTACTACGCTGCTCACTGCTTTGCCTTCCTTATCCTCTGCACTGCTCACCCAAAACTCTTCCT
+GCTCAGCTTCTGTTACACCTGAAAATGATTAAATTCCTGTGAGCCAGGGGTGACCTTTGCTCTGTGAGCTAGTCAGTATG
+GGGGTCTGTGTGGCCGAGCCAGTGCTTCAAGATGCTACCCTGCGTGGGCAGCAGCTCAGGGACAGTTAATCAGAAATGCT
+GGTCTTACTCTTAAAAAATCAAACTGAATATTCCTTTTCATCTGTCACTATTAATCTTAAATAGTTATTCTAACATTTCC
+TTCTTGTATTTCATAAAGGTGATTTCCTCTCTCTTTCCTTTTCAGCAATACTGGAGTAACCGCTTCCTAAACCATTTTGC
+AGAAATATAAGGGTGTTCGGTTGCGTGCATGTGCGTTTTTAGCAACACATCTACCAGCCCTCTGCATGATTGATGTTGGG
+GGTAAAAGAAAATTAGAAAAAAGTCCCCAATTCATTGTGTGTTACGTGGAGGAAACGTGTATTACCAGTGGGGTTTTTTA
+GCTTTTAAATCAAAATAATAATTACAAATGTACAATTTAGCTTAATGGATCAGAAATCCTCTCCAGAGAAGTTTGGTTTC
+TTTGCTGCAAGAAGAATGAGGTTCTGAAACCTTACCCAAGAACTTAGAAGCCATCAGCCAAGTATCCATGTTTCTCTGTG
+CAAAATGTCATAGCTTAAATAAATGTACAATATTCAATTGTAATGCATGCCTTCAAGTTGTAAGTAGCCAGATTTCTCTA
+TGATGTCATTGAAACATGCTACTTTTTAATTGGCCCTGTACAGTTTGCTTATTTATAAATTTATTGAAAACACTACAGGT
+GTTGGTTAAAATGTAGGCTTCTAGCTCATAACTTCAGTTATTTTTTGAGTGTGCAAACAGCTATTTTGCACTGTATTAAA
+TGTAACTTATTTAATGAAATCAAAAGCAGTAGACAGATGTTGGTGCAATACGAATATTGTGATGCATTTATATTAATAAA
+ATGCTAAACGTCAATTTATCACAACGCATGTTTGACTTTAGACTGTAAATAGAGATCAGTTTATTTCTGTGCTGGTAAAA
+AGTATTGCACAGACATGGTTTCAGGTAAATAAATCTATTCTATGATAAGTT
+>ref|X66274.1| S.scrofa mRNA for cardiac alpha tropomyosin
+CGAATTCGGGGCCTGTTCTATAATCGATAAACCCCGATAGACCTTACCAACCCTTGCCAATCCAGCTCGGCCGCTCCACC
+GCGCGCTGGCCTCCCCGCTTCTGCCGCAGCCCCAGGGCCCCTTACCGCCGCCACCATGGACGCCATCAAGAAGAAGATGC
+AAATGCTCAAGCTCGACAAGGAGAACGCCTTGGATCGAGCGGACGAGGCGGAGGCCGATAAGAAGGCGGCAGAGGACAGG
+AGCAAGCAGCTGGAAGATGAGCTGGTGTCGCTGCAAAAGAAGCTCAAGGCCACCGAAGATGAACTGGACAAATATTCCGA
+GGCTCTCAAAGATGCCCAGGAGAAGCTGGAGCTGGCGGAGAAAAAGGCCACCGATGCTGAAGCCGATGTAGCTTCTCTGA
+ACAGACGCATCCAACTGTTTGAGGAAGAGCTGGACCGTGCCCAGGAGCGACTGGCAACAGCTTTACAGAAACTTGAGGAG
+GCTGAGAAGGCAGCAGATGAGAGTGAGAGAGGCATGAAAGTCATTGAAAGCCGAGCCCAAAAGGATGAGGAGAAAATGGA
+AATTCAGGAGATCCAGCTGAAAGAAGCCAAGCACATTGCTGAGGATGCCGACCGCAAGTATGAAGAGGTGGCCCGTAAGC
+TGGTCATCATTGAGAGTGACCTGGAACGTGCCGAGGAGCGGGCTGAACTCTCAGAAGGCAAATGTGCCGAGCTTGAAGAA
+GAGTTGAAAACTGTGACGAACAACTTGAAGTCACTGGAGGCTCAGGCTGAGAAGTACTCACAGAAGGAAGACAAATATGA
+AGAAGAGATCAAGGTCCTTTCTGACAAGCTGAAGGAGGCTGAAACTCGGGCCGAGTTTGCAGAGAGGTCAGTAACTAAAT
+TGGAGAAAAGCATTGATGACTTAGAAGACGAGCTGTACGCTCAGAAACTGAAGTACAAAGCCATCAGCGAGGAGCTGGAC
+CACGCTCTCAACGATATGACTTCCATATAAGTTTCTTTGCTTCACTTCTCCCAAGACCCCCTCATCGAGCTGGATATCCC
+ACCTCTCTGAGCTCTGCAGTTTGTCTCTTCTCCAGCTGACCCTGGTTTATTCTTTCACATCCATCCTTAGGGCCAGGCAC
+ACACTGTGCTTTCTATTGTACAGAAGCTCCTCAATTCAGTGTAAAATAAACACTGTGTAAGCTAAAAAAAAAAAAAAACC
+CGAATTC
+>ref|X56503.1| Porcine CKII beta mRNA for casein kinase II beta subunit
+GAATTCTTCTGTGAAGTGGATGAAGACTACATCCAGGACAAATTCAATCTCACTGGACTCAACGAGCAGGTGCCTCATTA
+TCGACAAGCCCTAGACATGATCTTGGACCTGGAACCTGATGAGGAGCTGGAAGACAACCCCAACCAGAGTGACCTGATTG
+AGCAGGCAGCCGAAATGCTCTATGGATTGATCCACGCCCGCTATATCCTCACCAACCGTGGCATCGCCCAGATGTTGGAA
+AAGTACCAGCAGGGAGACTTTGGCTACTGTCCCCGTGTGTACTGTGAGAACCAGCCAATGCTTCCCATCGGCCTTTCGGA
+CATCCCAGGCGAGGCCATGGTGAAGCTCTACTGCCCCAAGTGCATGGACGTGTACACGCCCAAGTCATCGAGGCACCACC
+ACACGGATGGCGCCTACTTCGGCACCGGTTTCCCTCACATGCTCTTCATGGTGCACCCCGAGTACCGGCCCAAACGGCCT
+GCCAACCAGTTTGTGCCCAGGCTCTACGGTTTCAAGATCCATCCAATGGCCTACCAGCTGCAGCTCCAAGCCGCCAGCAA
+CTTCAAGAGCCCGGTCAAGACAATTCGCTGATTCCCCATCCCACCCGTCCCTCAGTCTTTGACACTTTCGTTCTTTCGCT
+GCCACCCTTTCAGGAACCCTCTATGGTTTTTAGTTTAAATTAAAGGAGTCGTTATTGTGGTGGGAACATGAAATAAAGTG
+TAAGAAAAGGCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
+>ref|X68247.1| S.scrofa CRC (RYR1) gene for calcium release channel (partial)
+CTGCAGGTGCGGTCCTAAAAAGCAAAAAAAAAAAAAAAAAAAAAAAGATAGGGAGCTACCTGGGGATACACGGCTGCCAC
+TAGTTGTTGAAGGAATGTGAATTGGCCAACCTAAGAAAAGCCAGGAAGGGAGGTCCTGGGATTCTGGGGATGACGCCTCT
+GTTTTTCCCACCTCAGGGGATGCTCTCCCTGGTCCTGAATTGCATTGACCGCCTAAATGTCTACACCACTGCTGCCCACT
+TTGCTGAGTTTGCAGGAGAGGAGGCAGCCGAGTCCTGGAAAGAGATTGTGAACCTGCTGTATGAGATCCTGGGTAAGGGG
+CCTCAGTCTTGACTCCCCCAGAATAGCCCAGGCTTCCAGTCCTGTTGGGTCTGACCCCTCTTTCCACCCTCAGCCTCTCT
+GATCCGTGGCAATCGTGCCAACTGTGCCCTTTTCTCCAACAACTTGGATTGGCTGGTCAGCAAGCTGGATCGACTGGAGG
+CCTCCTCAGGTAGGAGAACCCAGGGGGAGGGGACAGGGGACAGGGGCGGGGAGGGCAGGGCTTCAGCCATCTCACCTCTC
+ACTCTGATCCCTGGGCAGGGATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAG
+GAGAACCACATCAAGTCCATCATCTCCCTTCTGGACAAGCATGGGAGGAACCACAAGGTGGGCCTCTCATCCCCTCAATT
+CTGCACTTGATCTTTCCCCACCCCCCCTCTTCACTCTTACCTGGACTCCTCTGCCACATGCTTCTAGCTCAATACAAAGG
+TCTCAAACTCCTTGTTTTTGTTTTTGTTTTTATGGCTGAACCTGTGGCAAATGGAAGTTTCCAGGCAAGGGGGTGAACCA
+GAGCTATAGCTGCTGGCCTACACCACAGCCTCATCAACAACGCCAGATCCGAGCCGTGTCTGCCACCTACACCACAGCTC
+ATGGCAATACCAGATCCTTAACCCACTGAGCGAGGCCAGGGATCGAACCTGCAACCTCACGAATACTAGTTGGGTTTGTA
+ACCCACTGAAGCCACAATGGGAACTCCTCAAAGTCATTCTTAAATGGATTCTGGGCCCCCGATATGCTTCCTTAGATCTT
+TGAAGTGTTTTCTAAATGTCTAATGTAAATGCAGGCGGCTGCATATACACGCTCCAGTTTGCCACAGGTCCTACCAGTCC
+CCACTGAATTAATTATTTCTAACCACCTCATGTATGGACAACATCCACCTGGCCCCGAAGATGCACGTTGGTGACCCCCG
+CCCATCCAGAACCTCGTCTTGGTCTCCGTGCTCTCGCACTGACCCGGGCTTTCACTCTTGCCTCCGACTTCTCACCCCTT
+GCTCCCGTCTCTCCTTTCCTCCTCTGCTGATGCCCGATCCCATCCCTCACAGCCCCCTGCGTCTCACCAGACCTTTCTCT
+TTGACCTTGATCTCCCTGTGTCATCCCTGACCTTCCCGCTTTCACCACCTCTTCTCAGTCACATCCCCACCTCCCACCCT
+GGGACATCATCCTTCTGGCTTCCCACCCTGGGTCTTCCATGGACCACACCCTCCCCGCAAGTGCCCTCACACCTTGACCT
+CTGACCTTGACCCCTAGGTGCTGGATGTCCTGTGTTCCCTGTGTGTGTGCAATGGTGTGGCCGTGCGCTCCAACCAAGAT
+CTCATTACTGAGAACTTGCTCCCTGGCCGCGAGCTTCTGCTGCAGACAAACCTCATCAACTATGTCACCAGGTCTGGCCC
+CCCAACCTTTGACCCCAGAGCTTAGAACCCTCCACCACCCCGCCCCGACTCAGAGACTCCACTCCGGTGAATGGCCCTTC
+CTCCGTCCCCCACCCCCGGACTTAATGCCAGTCCCCACCCCTGTCGTGCTTGTCCCAAGCTTGTCCCTGGCTTCTTACTT
+CTCTTACCCTTCTTCCCCAAACTCTTTCTCCCTCTGTCTCTTCCTCTTTCTCTCTTTCTGTGTTTGCTCTCTTTGTCTGT
+CTATCTATTTCTCCTCCATCTCTTTTTCCAGGTCTTTCTCTCATCTCTCTTCTCTGTCTTTTGACGTCTCTCTGTCTGTC
+TCTGCCTCTGCTTTCTCTCTCTGTGTCTCTGTCTCCATGGCTCTGCCTTTCCGTTTTTCCTGCGTATGTGTCTCTTTGTC
+TTTTTCCCTCTCCCCCCCAGCCTTCCCTCCAGCCTGGCTCTCTTCTCCAGCCCTCCTCATCCTCCTCTTCTGTCCCATTT
+CTCCTGCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCACACAGTACAGCAAATGGTACTTTGAGGTCA
+TGGTGGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGGGTGGGCTGGGCCCTCACCGAAGGCTACAGC
+CCCTACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGACCTCTATTCCTACGGCTTTGACGGGCTGCA
+TCTCTGGACAGGTACCTGGACCTTGCAGGG
+>ref|X62880.1| S.scrofa mRNA for calcium release channel (CRC)
+GGTGACGGAGGAGAGGGCGAAGATGAGGTCCAGTTTCTGCGGACAGACGACGAGGTGGTCCTGCAGTGCAACGCCACGGT
+GCTCAAGGAGCAGCTCAAGCTCTGCCTGGCCGCCGAGGGCTTCGGCAACCGCCTCTGCTTCCTGGAACCCACCAGCAACG
+CCCAGAATGTGCCCCCCGATCTGGCCATCTGCTGCTTCGTCCTGGAGCAGTCCCTGTCCGTCCGAGCCCTGCAGGAGATG
+CTGGCCAACACCGTGGAGGCCGGCGTGGAGTCCTCCCAGGGTGGGGGCCATAGGACGCTCTTGTACGGCCACGCCATCCT
+GCTCCGGCACGCGCACAGTGGCATGTATCTGAGCTGCCTCACCACCTCCCGTTCCATGACTGACAAGCTGGCCTTCGACG
+TGGGACTGCAGGAGGATGCGACAGGAGAGGCCTGTTGGTGGACTACACACCCGGCCTCCAAGCAGAGGTCGGAAGGAGAG
+AAGGTTCGAGTAGGGGATGACCTCATCCTCGTCAGTGTCTCCTCTGAGCGTTACCTGCACCTGTCGACAGCCAGTGGGGA
+GCTCCAGGTTGACGCCTCCTTCATGCAGACACTGTGGAACATGAACCCCATCTGCTCTGGCTGTGAAGAAGGCTATGTGA
+CTGGGGGTCACGTCCTCCGCCTCTTTCACGGACACATGGATGAGTGCCTGACCATCTCCCCCGCTGACAGTGATGACCAG
+CGCAGACTTGTCTACTACGAGGGTGGATCTGTGTGCACCCACGCCCGCTCCCTCTGGAGACTGGAACCGCTGAGAATCAG
+CTGGAGTGGGAGCCACCTGCGCTGGGGCCAGCCGCTTCGCATCCGGCATGTCACCACCGGGAGGTACCTGGCGCTCATCG
+AGGACCAGGGCCTGGTGGTGGTTGATGCCAGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGCATTTCCAAGGAG
+AAGCTGGATACGGCCCCCAAGCGGGACGTGGAGGGCATGGGCCCCCCTGAGATCAAGTATGGGGAGTCACTGTGCTTCGT
+GCAGCATGTGGCCTCGGGCCTGTGGCTTACCTATGCTGCCCCAGACCCCAAGGCCCTGCGGCTCGGCGTGCTCAAGAAGA
+AGGCCATTCTGCACCAGGAAGGCCACATGGACGATGCACTGTCACTGACCCGCTGTCAGCAGGAGGAGTCCCAGGCGGCC
+CGCATGATCTATAGCACTGCTGGCCTCTACAACCACTTCATCAAGGGCCTGGACAGCTTCAGCGGAAAGCCACGGGGCTC
+TGGGGCCCCGGCTGGCACAGCGCTACCCCTCGAGGGCGTCATCCTGAGCCTGCAGGACCTCATCGGCTACTTTGAGCCGC
+CCTCGGAAGAGCTGCAGCACGAGGAGAAGCAGAGCAAGCTGCGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAG
+GGGATGCTCTCCCTGGTCCTGAATTGCATTGACCGCCTAAATGTCTACACCACTGCTGCCCACTTTGCTGAGTTTGCAGG
+AGAGGAGGCAGCCGAGTCCTGGAAAGAGATTGTGAACCTGCTGTATGAGATCCTGGCCTCTCTGATCCGTGGCAATCGTG
+CCAACTGTGCCCTTTTCTCCAACAACTTGGATTGGCTGGTCAGCAAGCTGGATCGACTGGAGGCCTCCTCAGGGATCCTG
+GAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAGGAGAACCACATCAAGTCCATCATCTC
+CCTTCTGGACAAGCATGGGAGGAACCACAAGGTGCTGGATGTCCTGTGTTCCCTGTGTGTGTGCAATGGTGTGGCCGTGC
+GCTCCAACCAAGATCTCATTACTGAGAACTTGCTCCCTGGCCGCGAGCTTCTGCTGCAGACAAACCTCATCAACTATGTC
+ACCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCACACAGTACAGCAAATGGTACTTTGAGGTCATGGT
+GGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGGGTGGGCTGGGCCCTCACCGAAGGCTACAGCCCCT
+ACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGACCTCTATTCCTACGGCTTTGACGGGCTGCATCTC
+TGGACAGGACACGTGCCACGCCTGGTGACTTCCCCAGGGCAGCACCTTCTGGCCCCCGAGGACGTGGTCAGCTGCTGCCT
+GGACCTCAGCGTGCCGTCCATCTCCTTCCGCATCAACGGCTGCCCCGTGCAGGGCGTCTTCGAGGCCTTCAACCTCAACG
+GGCTCTTCTTCCCCGTCGTCAGCTTCTCGGCCGGTGTCAAGGTGCGGTTCCTCCTTGGGGGCCGCCACGGCGAATTCAAG
+TTCCTCCCTCCGCCTGGCTACGCCCCTTGCCACGAGGCTGTGCTCCCACGAGAGCGACTCCGTCTGGAACCCATCAAGGA
+GTATCGGCGAGAAGGGCCCCGGGGACCCCACCTGGTGGGCCCCAGCCGCTGCCTCTCACACACCGACTTTGTGCCCTGCC
+CGGTGGACACTGTCCAGATTGTCCTGCCTCCCCATCTGGAGCGTATCCGGGAGAAGCTGGCAGAGAACATCCATGAACTC
+TGGGCGCTGACGCGCATCGAGCAGGGCTGGACCTATGGCCCGGTTCGGGATGACAATAAGCGGCTGCACCCGTGTCTCGT
+GGACTTCCACAGCCTCCCGGAGCCCGAGAGGAATTACAACCTGCAGATGTCGGGGGAGACGCTCAAGACTCTGCTGGCGC
+TGGGCTGCCACGTGGGCATGGCGGACGAGAAGGCAGAGGACAACCTGAGGAAGACGAAACTCCCCAAGACGTACATGATG
+AGCAATGGGTACAAGCCAGCGCCACTGGACCTGAGCCATGTGAGACTGACGCCTGCGCAGACCACGCTGGTGGACCGGCT
+GGCGGAGAACGGGCACAACGTGTGGGCCCGAGACCGAGTGGCCCAGGGCTGGAGCTACAGTGCTGTGCAGGACATCCCAG
+CGCGCCGCAACCCTCGCCTCGTGCCCTACCGCCTGCTAGACGAGGCCACCAAGCGCAGCAACCGGGACAGCCTTTGCCAG
+GCTGTGCGCACCCTGCTGGGCTACGGCTACAACATCGAGCCGCCCGACCAGGAGCCCAGTCAGGTGGAGAGCCAGTCTCG
+CTGGGACCGTGTGCGCATCTTCCGGGCTGAGAAGTCCTATGCGGTGCAGAGCGGCCGCTGGTACTTCGAGTTCGAGGCCG
+TCACCACGGGCGAGATGCGAGTGGGCTGGGCGCGGCCTGAGCTGCGGCCTGATGTGGAGCTGGGAGCCGATGAGCTGGCC
+TATGTCTTCAATGGGCACCGGGGTCAGCGCTGGCACTTGGGCAGCGAACTGTTTGGGCGTCCCTGGCAGTCGGGTGATGT
+GGTGGGCTGCATGATCGACCTCACAGAGAACACCATTATCTTCACGCTCAACGGCGAGGTCCTCATGTCCGACTCGGGCT
+CTGAAACCGCCTTCCGGGATATCGAGGTTGGGGATGGCTTCCTGCCCGTCTGCAGCTTGGGACCTGGCCAGGTGGGCCAC
+CTGAACCTGGGCCAGGATGTGAGCTCCCTGCGGTTCTTTGCCATCTGCGGCCTCCAGGAAGGTTTTGAGCCATTCGCCAT
+CAACATGCAGCGTCCCGTCACTACCTGGTTCAGCAAAAGCCTTCCCCAGTTTGAGGCCGTGCCCCTCGAGCATCCCCACT
+ACGAGGTGTCTCGTGTGGACGGCACCGTGGACACGCCCCCCTGCCTGCGCCTGACCCACCGCACCTGGGGCTCCCAGAAC
+AGTCTGGTGGAGATGCTCTTTCTCCGGCTGAGCCTCCCTGTCCAGTTCCACCAGCACTTCCGCTGCACCGCAGGGGCCAC
+CCCCCTGGCACCACCTGGCCTGCAGCCCCCTGCTGAGGATGAGGCCCGGGCAGCAGAACCTGATCCCGACTATGAAAACC
+TGCGCCGCTCAGCTGGGCGCTGGGGCGAGGCTGAGGGCGGCAAAGAAGGAACTGCCAAGGAGGGGGCACCCGGGGGCACT
+GCCCAGGCTGGGGTAGAGGCCCAGCCTCCCAGGGCAGAAAATGAGAAGGATGCTACCACAGAGAAGAACAAGAAGAGAGG
+GTTCCTATTCAAGGCCAAGAAGGCTGCCATGATGACCCAGCCACCGGCCACCCCGACTCTGCCCAGACTCCCTCACGAGG
+TGGTGCCTGCTGATGACCGCGATGACCCTGACATCATCCTCAACACCACCACGTACTATTACTCGGTGAGGGTCTTCGCT
+GGCCAGGAGCCCAGCTGCGTGTGGGTGGGCTGGGTCACCCCTGACTACCACCAGCACGACATGAACTTCGACCTCACCAA
+GGTCCGGGCGGTGACGGTGACCATGGGGGATGAGCAGGGCAACATCCACAGCAGCCTCAAGTGCAGCAACTGCTACATGG
+TGTGGGGTGGAGACTTTGTGAGCCCCGGGCAGCAGGGCCGGATCAGCCACACAGACCTTGTCATCGGCTGCCTGGTGGAC
+TTGGCTACTGGGCTTATGACCTTCACCGCCAACGGCAAAGAGAGCAACACCTTTTTCCAGGTGGAACCCAACACAAAGCT
+GTTTCCAGCCGTCTTTGTCCTGCCCACACACCAGAACGTCATCCAGTTTGAGCTGGGGAAGCAGAAGAACATCATGCCGC
+TGTCCGCTGCCATGTTTCTGAGCGAGCGCAAGAACCCGGCCCCGCAGTGCCCGCCCCGGCTCGAGATGCAGATGCTGATG
+CCCGTGTCGTGGAGCCGCATGCCCAACCACTTCCTGCGGGTGGAGACGCGCCGTGCCGGCGAGCGGCTTGGCTGGGCGGT
+GCAGTGTCAGGAGCCACTGACCATGATGGCACTGCACATCCCTGAAGAGAACCGATGCATGGACATCCTGGAGCTGTCCG
+AGCGCTTGGACCTGCAGCAGTTCCACTCGCACACCCTCCGCCTCTACCGCGCTGTGTGCGCCCTGGGCAACAACCGCGTG
+GCGCATGCGCTGTGCAGCCACGTGGACCAGGCGCAGCTGCTGCACGCCCTGGAGGACGCGCACCTGCCCGGCCCTCTGCG
+CGCAGGTTACTACGACCTCCTCATCAGCATCCACCTGGAAAGCGCCTGCCGCAGCCGCCGCTCCATGCTCTCTGAGTACA
+TCGTCCCCCTCACGCCGGAGACCCGCGCCATCACTCTCTTCCCGCCTGGAAAAAGGACGGAAAACGGTCCCCGCCGCCAC
+GGCCTGCCCGGTGTCGGCGTCACCACCTCGCTGAGGCCTCCGCACCATTTCTCAGCCCCCTGTTTTGTGGCAGCCCTGCC
+AGCTGTTGGAGCGGCCGAAGCCCCGGCCCGCCTCAGCCCCAGCATCCCTCTGGAGGCTCTGCGGGACAAAGCACTAAGAA
+TGCTGGGGGAGGCGGTACGAGACGGTGGGCAGCACGCACGCGACCCTGTCGGGGGCTCTGTGGAGTTCCAGTTTGTGCCC
+GTGCTCAAGCTCGTGTCCACCCTGCTGGTGATGGGCATCTTTGGTGATGAGGACGTGAAGCAGATCTTGAAGATGATTGA
+GCCCGAAGTATTCACTGAGGAAGAAGAGGAGGAGGAGGAGGAAGAAGAGGAGGAAGAAGAAGATGAGGAGGAGAAGGAGG
+AGGATGAGGAGGAGGAGGCACGGGAGAAGGAGGATGAGGAAAAAGAGGAAGAGGAGACAGCAGAAGGGGAAAAAGAAGAA
+TACTTGGAGGAAGGGCTGCTCCAGATGAAGTTACCAGAGTCTGTGAAGTTACAGATGTGTAATCTGTTGGAGTATTTCTG
+TGACCAAGAGCTGCAGCACCGTGTGGAGTCCCTGGCAGCCTTTGCAGAACGCTACGTGGACAAGCTCCAGGCCAACCAGA
+GGGACCGCTATGGCATCCTCATGAAGGCCTTCACCATGACCGCTGCCGAGACTGCCCGACGTACTCGCGAGTTCCGCTCC
+CCACCCCAGGAGCAGATCAACATGCTATTGCACTTCAAAGATGGCGAGGATGAGGAAGATTGTCCTCTTCCTGATGAGAT
+CCGGCAGGATTTGCTGGAATTCCATCAAGACCTGTTGACTCACTGTGGAATTCAGCTGGAGGGGGAGGAGGAAGAACCAG
+AGGAAGAAGCCACCCTGGGCAGCCGCTTGATGAGCCTGTTGGAGAAGGTGCGGCTGGTGAAGAAGAAGGAGGAGAAATCC
+GAGGAGGAGCCACCTGCCGAGGAGAGCAAAGCCCAGTCACTGCAGGAGCTGGTGTCTCACACAGTGGTGCGCTGGGCCCA
+AGAGGACTTTGTGCAGAGCCCGGAGCTGGTACGGGCCATGTTCAGCCTCCTGCACCGGCAGTACGACGGGCTCGGGGAGC
+TGCTGCGTGCCCTGCCCCGCGCCTACACCATCTCCCCCTCCTCTGTGGAGGACACCATGAGCCTACTCGAGTGCCTCGGC
+CAGATCCGGTCACTGCTCATCGTGCAGATGGGCCCCCAGGAGGAAAACCTCATGATCCAGAGCATTGGGAACATCATGAA
+CAACAAAGTCTTCTACCAACACCCGAACTTGATGCGGGCACTGGGCATGCACGAGACAGTCATGGAGGTCATGGTGAATG
+TCCTCGGCGGCGGGGAGTCCAAGGAGATCCGCTTCCCCAAGATGGTGACGAGCTGCTGCCGCTTCCTCTGCTACTTCTGC
+CGCATCAGCCGGCAGAACCAGCGCTCCATGTTTGACCACCTGAGCTACCTGCTGGAGAACAGTGGCATTGGCCTGGGCAT
+GCAGGGCTCCACGCCCCTGGATGTGGCCGCTGCCTCCGTCATTGACAACAACGAGCTGGCTTTGGCATTGCAGGAGCAGG
+ACCTGGAGAAGGTGGTGTCCTACCTGGCAGGCTGTGGCCTCCAAAGCTGCCCCATGCTCCTGGCCAAAGGGTACCCGGAC
+ATCGGCTGGAACCCCTGCGGTGGTGAGCGCTACCTGGACTTCCTGCGCTTTGCTGTCTTTGTCAATGGTGAGAGCGTGGA
+GGAGAACGCCAACGTGGTGGTGCGGCTGCTGATCCGCAAGCCCGAGTGCTTCGGGCCTGCCCTGCGGGGCGAGGGCGGCT
+CGGGGCTGCTGGCCACCATCGAGGAGGCCATCCGCATCTCCGAGGACCCCGCGCGGGACGGCCCTGGCGTCCGCAGGGAC
+CGGCGGCGAGAGCACTTCGGGGAGGAGCCCCCTGAAGAAAACCGGGTGCACCTGGGACACGCCATCATGTCCTTCTATGC
+TGCCTTGATTGACCTGCTGGGACGCTGTGCACCAGAGATGCATCTGATCCAAGCCGGCAAGGGCGAGGCCCTGCGGATCC
+GTGCCATCCTGCGCTCCCTCGTGCCCCTGGACGATCTCGTGGGCATCATCAGCCTCCCACTGCAGATACCCACCCTGGGC
+AAAGACGGGGCTCTAGTACAGCCAAAGATGTCAGCATCCTTCGTGCCGGACCACAAGGCGTCGATGGTGCTCTTCCTGGA
+CCGTGTGTACGGCATCGAGAACCAGGACTTCTTGCTGCACGTGCTGGACGTGGGGTTCCTGCCTGATATGAGGGCGGCCG
+CCTCGCTGGACACGGCCACTTTCAGCACCACGGAAATGGCACTGGCGCTGAACCGCTACCTATGCCTGGCCGTGCTGCCA
+CTCATCACCAAGTGTGCGCCACTCTTCGCGGGAACCGAGCATCGTGCCATCATGGTGGACTCTATGCTTCACACGGTGTA
+CCGCCTGTCCCGTGGCCGCTCGCTCACCAAGGCGCAGCGCGACGTTATCGAGGAATGCCTGATGGCGCTCTGCAGGTACA
+TCCGCCCGTCCATGCTACAGCACCTGCTTCGGCGCCTGGTGTTCGACGTGCCCATCCTTAACGAGTTCGCCAAGATGCCC
+CTCAAGCTCCTCACCAACCACTATGAGCGTTGCTGGAAGTACTACTGCCTCCCCACAGGCTGGGCCAACTTCGGAGTCAC
+CTCGGAGGAAGAGCTGCACCTCACTCGCAAACTCTTCTGGGGCATCTTTGACTCGCTGGCCCATAAGAAATATGACCCAG
+AGCTGTACCGCATGGCTATGCCCTGCCTGTGTGCCATCGCAGGGGCCCTGCCCCCCGACTACGTGGACGCCTCATACTCA
+TCCAAGGCTGAGAAAAAGGCTACCGTGGACGCTGAAGGCAACTTCGATCCTCGGCCTGTGGAGACTCTCAACGTGATCAT
+CCCAGAGAAGCTGGACTCCTTCATCAACAAGTTTGCCGAGTACACGCATGAGAAGTGGGCCTTCGACAAGATCCAGAACA
+ACTGGTCCTATGGGGAGAACATAGATGAGGAGCTGAAGACCCATCCCATGCTGAGGCCCTACAAGACCTTTTCAGAGAAG
+GACAAAGAGATTTATCGCTGGCCCATCAAAGAGTCCTTGAAGGCCATGATTGCCTGGGAATGGACGATAGAGAAAGCCAG
+GGAGGGTGAGGAGGAGAAGACGGAGAAGAAAAAAACACGGAAGATATCCCAAAGTGCCCAGACCTATGATGCTCGAGAAG
+GCTACAACCCCCAGCCCCCTGACCTCAGCGGCGTTACCCTGTCCCGGGAGCTGCAGGCTATGGCAGAACAACTGGCGGAA
+AATTACCACAACACGTGGGGACGGAAGAAGAAGCAGGAGCTGGAAGCCAAGGGTGGTGGGACCCACCCCTTGCTGGTTCC
+CTACGACACTCTCACGGCCAAGGAGAAGGCACGAGATAGAGAGAAGGCCCAGGAGCTGCTGAAGTTCCTGCAGATGAATG
+GCTATGCAGTCACCAGGGGCCTTAAGGACATGGAACTGGACACATCTTCCATTGAGAAACGGTTTGCCTTTGGCTTCCTG
+CAGCAGTTGCTGCGCTGGATGGACATTTCTCAGGAGTTTATCGCCCACCTGGAGGCTGTGGTCAGCAGTGGACGAGTGGA
+AAAGTCCCCCCATGAACAGGAGATAAAATTCTTTGCCAAGATCCTGCTCCCTTTGATCAACCAGTACTTCACCAACCACT
+GCCTCTATTTTCTGTCCACACCGGCCAAAGTGCTGGGCAGCGGCGGCCACGCCTCCAACAAGGAGAAGGAAATGATCACC
+AGCCTCTTCTGCAAGCTGGCCGCTCTTGTCCGTCACCGAGTCTCTCTCTTTGGGACGGATGCCCCAGCCGTGGTCAACTG
+CCTTCACATCCTGGCACGTTCCCTGGACGCGAGGACAGTGATGAAGTCTGGCCCCGAGATTGTGAAGGCCGGCCTCCGTT
+CCTTCTTCGAGAGCGCCTCGGAGGACATCGAGAAGATGGTGGAGAACCTGCGCCTGGGCAAGGTGTCACAGGCGCGCACG
+CAGGTCAAGGGCGTGGGCCAGAACCTCACCTACACCACCGTGGCCCTGCTGCCTGTGCTAACCACCCTCTTCCAGCACAT
+CGCCCAGCACCAGTTTGGAGACGACGTAATCCTGGATGACGTTCAGGTCTCTTGCTATCGAACGCTGTGCAGTATCTACT
+CTCTGGGAACCACCAGGAACCCTTACGTGGAAAAGCTGCGGCCAGCCCTCGGTGAGTGCCTGGCCCGCCTGGCAGCAGCC
+ATGCCAGTGGCATTCCTGGAGCCCCAGCTGAACGAGTACAATGCCTGCTCAGTGTACACCACCAAGTCTCCCCGGGAGCG
+GGCCATCCTGGGGCTCCCCAACAGCGTGGAGGAGATGTGCCCGGATATTCCGGTGCTGGAGCGGCTCATGGCAGACATCG
+GGGGGCTGGCCGAGTCGGGGGCCCGCTACACGGAGATGCCACACGTCATTGAGATCACGCTGCCCATGCTGTGCAGCTAC
+CTGCCCCGCTGGTGGGAACGCGGGCCCGAGGCGCCCCCACCCGCCCTGCCCGCGGGAGCCCCTCCGCCCTGCACAGCTGT
+CACTTCCGACCACCTCAACTCCCTGCTGGGAAACATCCTGCGGATCATCGTCAACAACCTGGGCATCGACGAGGCCTCAT
+GGATGAAGCGGCTGGCCGTGTTCGCCCAGCCCATCGTGAGCCGGGCCCGGCCCGAGCTCCTGCACTCACACTTCATCCCC
+ACCATCGGGCGGCTGCGCAAACGGGCCGGGAAGGTGGTGGCCGAGGAGGAGCAGCTGCGCCTGGAGGCCAAGGCAGAAGC
+CGAGGAAGGGGAGCTCCTGGTGCGGGATGAGTTCTCTGTGCTCTGCCGGGACCTGTATGCCCTCTACCCACTGCTCATCC
+GCTACGTGGACAACAACAGGGCACACTGGCTGACGGAACCCAATCCCAGCGCGGAGGAGTTGTTCCGGATGGTGGGCGAG
+ATCTTCATCTACTGGTCCAAGTCCCACAACTTCAAGCGCGAGGAGCAGAACTTTGTGGTCCAGAATGAGATCAACAACAT
+GTCATTTCTGACCGCCGACAACAAGAGCAAAATGGCCAAGTCGGGTGGCTCAGACCAGGAACGCACCAAGAAGAAGCGCC
+TGGGGGACCGGTACTCTGTGCAGACATCGCTGATCGTGGCCACACTCAAGAAGATGCTGCCCATCGGCCTGAACATGTGT
+GCGCCCACCGACCAGGAACTCATCACGCTGGCCAAGACCCGCTATGCCCTGAAAGACACAGATGAGGAGGTCCGGGAATT
+TCTGCAAAACAACCTTCACCTTCAGGGAAAGGTCGAAGGTTCCCCGTCTCTGCGCTGGCAGATGGCCCTGTACCGGGGCC
+TCCCGGGCCGCGAGGAGGACGCTGACGACCCGGAGAAAATCGTGCGCAGAGTCCAGGAAGTGTCTGCGGTGCTCTATCAT
+CTGGAGCAGATGGAGCACCCTTACAAGTCCAAGAAGGCCGTGTGGCACAAGCTCTTGTCTAAGCAGCGCCGGAGGGCCGT
+GGTCGCCTGTTTCCGTATGACCCCGCTGTACAACCTGCCCACGCACCGGGCCTGTAATATGTTCCTGGAAAGCTACAAGG
+CTGCGTGGATCCTGACCGAAGACCACAGTTTTGAGGACCGCATGATAGATGACCTTTCAAAAGCTGGTGAGCAGGAGGAG
+GAGGAGGAAGAGGTGGAGGAGAAGAAGCCGGACCCCCTGCACCAGCTCGTCCTGCACTTCAGCCGCACCGCCCTGACTGA
+AAAGAGCAAACTGGATGAAGATTACTTATATATGGCGTATGCTGACATCATGGCAAAGAGCTGCCACCTGGAGGAGGGAG
+GGGAGAACGGCGAAGCTCAAGAAGAGGTTGAGGTTTCCTTTGAGGAGAAGGAGATGGAGAAGCAGAGGCTCCTGTACCAG
+CAGGCACGGCTGCACAACCGTGGGGCCGCGGAGATGGTGCTGCAGATGATCAGTGCCTGCAAAGGAGAGACAGGCGCCAT
+GGTATCGTCCACCCTGAAGCTGGGCATCTCCATCCTGAACGGAGGCAATGCCGATGTGCAGCAGAAAATGCTGGATTACC
+TGAAGGACAAGAAGGAAGTTGGCTTCTTCCAGAGTATCCAGGCACTGATGCAAACCTGCAGCGTCCTGGATCTCAATGCC
+TTTGAGAGACAGAACAAGGCAGAGGGGCTGGGCATGGTGAACGAGGACGGAACCGTCATCAACCGCCAGAACGGAGAGAA
+GGTCATGGCAGATGATGAATTCACCCAAGACCTGTTCCGATTCCTGCAATTGCTCTGCGAGGGCCACAATAATGATTTCC
+AAAACTACCTACGGACACAGACAGGGAACACAACCACTATTAACATCATCATCTGTACTGTGGACTACCTCCTGCGGCTG
+CAGGAGTCCATCAGTGATTTCTACTGGTACTACTCCGGCAAGGATGTCATTGAGGAGCAGGGCAAGAGAAACTTTTCCAA
+GGCCATGTCGGTGGCTAAACAGGTGTTCAATAGCCTCACAGAATACATCCAGGGTCCCTGCACCGGGAACCAGCAGAGCC
+TAGCGCACAGTCGCCTCTGGGACGCCGTGGTGGGATTCCTGCACGTGTTCGCCCACATGATGATGAAGCTCGCTCAGGAC
+TCGAGCCAGATCGAGCTGTTGAAGGAGCTGCTGGATCTACAGAAGGACATGGTGGTGATGTTGCTGTCGCTACTAGAAGG
+GAACGTGGTGAACGGCATGATTGCCCGGCAGATGGTGGACATGCTTGTGGAGTCCTCGTCCAACGTGGAGATGATCCTCA
+AGTTCTTCGACATGTTCCTGAAACTCAAGGACATCGTGGGCTCTGAGGCCTTCCAGGACTATGTCACTGACCCCCGGGGT
+CTCATCTCCAAGAAGGACTTCCAGAAGGCCATGGACAGCCAGAAGCAGTTCACCGGTCCGGAAATCCAGTTCCTGCTTTC
+GTGCTCTGAAGCGGATGAGAACGAGATGATCGACTGCGAGGAGTTCGCCAACCGCTTCCAGGAGCCAGCCCGTGACATTG
+GCTTCAACGTAGCTGTGCTGCTGACCAACCTGTCGGAGCACGTGCCGCACGACCCGCGCCTGCGCAACTTCCTCGAGCTG
+GCGGAGAGCATCCTCGAGTACTTCCGGCCCTACCTGGGCCGCATCGAGATCATGGGCGCCTCGCGCCGCATCGAGCGTAT
+CTACTTTGAGATATCGGAGACCAACCGCGCCCAGTGGGAGATGCCCCAGGTGAAGGAGTCGAAGCGTCAGTTCATCTTCG
+ACGTGGTGAACGAGGGTGGCGAGTCGGAGAAGATGGAGCTCTTCGTGAGCTTCTGCGAGGACACCATCTTCGAGATGCAG
+ATCGCTGCACAGATCTCGGAGCCCGAGGGCGAGCCGGAGGAGGATGAGGACGAGGGCGCGGGCCTGGCGGAGGCGGGCGC
+TGAGGGCGCGGAGGAGGGCGCGGTGGGGCCCGAGGGCGCGGCGGGGACCGCGGCGGCCGGCTTGACGGCGCGGCTGGCAG
+CGGCCACGAGCCGGGCTCTGCGCGGCCTCAGCTACCGCAGCCTGCGGCGGCGCGTGCGGCGGCTGCGGCGGCTCACAGCG
+CGGGAGGCGGCCACGGCGCTGGCCGCGCTGCTCTGGGCGGCGCTGGCGCACGCAGGGGCGGCGGGCGCCGGGGCGGCGGC
+GGGCGCGCTGCGCCTGCTCTGGGGCTCGCTCTTTGGTGGCGGCCTGGTGGAGGGTGCCAAGAAGGTGACGGTGACCGAGC
+TCCTGGCGGGCATGCCCGATCCCACGGGCGACGAGGTGCACGGCGAGCAGCCGGCTGGGCCCGGCGGCGAGGCGGACGGC
+GAGGGCGCGGGCGAGGGCGCGGGCGAAGCCTGGGAGGGCGCGGGCGACGAGGAGGTGGCGGTGCAGGAGGCCGGCCCGGG
+AGGCGCAGACGGGGCTGTGGCCGTGGCCGAAGGGGGCCCCTTCCGGCCCGAAGGGGCTGGCGGCCTCGGGGACATGGGTG
+ACACGACGCCTGCGGAGCCGCCCACGCCCGAGGGCTCCCCTATCATCAAGAGGAAGCTGGGGGTGGATGGAGAGGAAGAG
+GAGCTGCCGCCGGAGCCGGAACCGGAGCCGGAGCCAGAGCCTGAGAAAGCTGATGCTGAGAATGGGGAGAAGGAAGAAGT
+CCCCAAGCCCCCACCAGAGCCCCCCAAGAAGACAGCTCCTCCTCCACCCCCTCCAAAGAAGGAGGAGGGTGGAAGCGGGG
+GCCTGGAATTCTGGGGAGAACTGGAAGTACAGAGGGTGAAGTTCTTGAACTACCTCTCCCGGAACTTTTACACTCTGCGA
+TTCCTTGCTCTCTTCTTGGCATTTGCCATCAACTTCATCTTGCTGTTTTATAAGGTCTCGGACTCTCCACCAGGGGAGGA
+TGACATGGAGGGCTCAGCAGCCGGGGACCTGTCAGGTGCAGGCTCTGGTGGCGGCTCTGGTTGGGGCTCCGGGGCCGGAG
+AGGAGGTGGAAGGCGACGAGGACGAGAACATGGTGTACTACTTCCTGGAGGAGAGCACGGGCTACATGGAGCCCGCCTTG
+CGCTGCCTGAGCCTGCTGCACACGCTGGTGGCCTTTCTCTGCATCATAGGCTACAACTGCCTCAAGGTGCCCCTGGTGAT
+CTTTAAGCGGGAGAAGGAACTGGCCCGGAAGCTGGAGTTTGACGGCCTCTACATCACGGAGCAGCCCGAGGATGATGACG
+TGAAGGGGCAGTGGGACCGGCTGGTGCTCAACACACCGTCTTTCCCCAGCAACTACTGGGACAAGTTTGTCAAGCGGAAG
+GTCCTGGACAAGCACGGGGACATCTACGGGCGGGAGCGGATCGCCGAGCTGCTGGGTATGGATCTGGCCACGCTGGAGAT
+CACAGCCCACAACGAGCGCAAGCCTGAACCACCGCCAGGGCTGCTCACCTGGCTCATGTCCATCGATGTCAAGTACCAGA
+TCTGGAAGTTTGGGGTCATCTTCACAGACAACTCGTTCCTGTACCTGGGCTGGTACATGGTGATGTCCCTCCTGGGTCAC
+TACAACAACTTCTTCTTCGCTGCCCACCTCCTGGACATTGCCATGGGGGTCAAGACGCTGCGTACCATCCTCTCGTCCGT
+CACCCACAATGGCAAACAGCTGGTGATGACCGTGGGCCTCCTGGCGGTTGTGGTCTACCTGTACACCGTGGTGGCCTTCA
+ACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAGGACGAGCCTGACATGAAGTGTGATGACATGATGACGTGTTAC
+CTGTTTCACATGTATGTGGGTGTCCGCGCTGGTGGGGGCATTGGGGACGAGATCGAGGACCCAGCAGGAGATGAATATGA
+GCTCTACCGGGTGGTCTTTGACATCACCTTCTTCTTCTTCGTCATCGTCATCCTGTTGGCCATCATCCAGGGTCTGATCA
+TTGATGCTTTTGGCGAGCTCCGAGACCAACAAGAGCAAGTGAGAGAAGATATGGAGACCAAGTGCTTCATCTGTGGCATC
+GGCAGCGATTACTTTGATACGACACCACACAGGTTCGAGACCCACACGCTAGAGGAGCACAACCTGGCCAATTACATGTT
+TTTCCTGATGTATCTGATAAACAAGGACGAGACAGAACACACGGGTCAGGAGTCTTATGTCTGGAAGATGTACCAAGAGA
+GATGCTGGGATTTCTTCCCGGCTGGCGATTGTTTCCGCAAGCAGTATGAGGACCAGCTTAGCTGAGACACCCCCAGCTGG
+CCCCGCACCCCCACCTCAAGTGCCTTGTTTTCACAGCAAGCCCCTTAGCCCCCCAAACCCTCCCCCCAAGGCAGCTAGGG
+GAGAGGTGACCATGCAGTGGAGAAATAAAGTCTGTGCTACACCCCTGAAAAAA
+>ref|X04036.1| Sus scrofa pre-mRNA for pancreatic prepro-elastase 1 (ELS-1)
+AGTGGTCTTCTCAGCTAGCAACATGCTGCGCTTGCTGGTGGTGGCCTCCCTGGTCCTTTATGGACACAGCACCCAGGACT
+TTCCAGAAACCAACGCCCGGGTAGTTGGAGGGACCGAGGCTCAGAGGAATTCTTGGCCATCTCAGATTTCCCTCCAGTAC
+CGGTCTGGAAGTTCGTGGGCTCACACCTGTGGAGGGACCCTCATCAGGCAGAACTGGGTGATGACAGCCGCTCACTGCGT
+GGACAGAGAGTTGACCTTCCGTGTGGTGGTTGGAGAGCACAACCTGAACCAGAACGATGGCACCGAGCAGTACGTGGGGG
+TGCAGAAGATCGTGGTGCATCCCTACTGGAACACCGACGACGTGGCTGCAGGCTATGACATCGCCCTGCTGCGCTTGGCC
+CAGAGTGTAACCCTCAACAGCTACGTCCAGCTGGGTGTTCTGCCAAGGGCGGGGACCATCTTGGCTAACAACAGTCCCTG
+CTACATCACAGGCTGGGGCCTGACCAGGACCAATGGGCAGCTGGCCCAGACCCTGCAGCAGGCTTACCTGCCCACCGTGG
+ACTACGCCATCTGCTCCAGCTCCTCGTACTGGGGCTCCACCGTGAAGAACAGCATGGTGTGCGCCGGAGGGGACGGAGTT
+CGCTCTGGATGTCAGGGTGATTCTGGGGGCCCCCTTCATTGCTTGGTGAATGGCCAGTATGCTGTCCACGGTGTAACCAG
+CTTCGTGTCCCGCTTGGGCTGTAATGTCACTAGGAAGCCCACAGTCTTCACTAGGGTCTCTGCTTACATCTCTTGGATAA
+ACAACGTCATTGCCAGCAACTGAACATTTTCCGGAGTCCAACGGCCTTCCCGAGGTGATTCTTAGATGCTCAGCAGGACT
+TGAGGCCACCAAAGAAATTACATTCTAAGAGACTATTGAGTCAGATACAGAAAAGCAAATAAAACCGAATATACATATC
+>ref|X17058.1| Sus scrofa mRNA for glucose transporte protein
+GAATTCTACAACCAGACGTGGCTCCACCGCTATGGGGAGAGCATCTCGCCCGCCACGCTGACCACACTCTGGTCCCTCTC
+CGTGGCCATATTCTCCGTGGGGGGCATGATCGGCTCCTTCTCTGTGGGCCTGTTTGTGAACCGCTTTGGCCGGCGGAATT
+CCATGCTGATGATGAACCTGCTGGCCTTCATATCTGCTGTGCTCATGGGCTTCTCCAAACTGGGCAAATCCTTTGAGATG
+CTGATCCTGGGTCGCTTCATCATCGGTGTGTACTGCGGCCTGACCACGGGCTTCGTGCCCATGTATGTGGGGGAGGTGTC
+CCCGACGGCCCTTCGAGGGGCCCTGGGCACCCTGCACCAGCTGGGCATCGTCGTCGGCATCCTCATCGCCCAGGTATTTG
+GCCTGGACTCCATCATGGGCAACGAGGAGCTGTGGCCCCTGCTCCTGAGCGTCATCTTCATCCCGGCCCTGCTGCAGTGC
+GTCCTGCTGCCCTTCTGCCCCGAGAGCCCCCGCTTCCTGCTCATCAACCGCAATGAGGAGAACCGGGCCAAGAGCGTGCT
+GAAGAAGCTGCGCGGAACGGCAGACGTGACCCGAGACCTGCAGGAGATGAAGGAGGAGAGCCGGCAGATGATGCGGGAGA
+AGAAGGTCACCATCCTGGAGCTGTTCCGCTCGGCCGCCTACCGCCAGCCCATCCTCATCGCCGTGGTGCTGCAGCTGTCC
+CAGCAGCTGTCGGGCATCAACGCGGTTTTCTATTACTCCACAAGCATCTTCGAGAAGGCGGGGGTGCAGCAGCCTGTGTA
+TGCCACCATCGGCTCCGGCATCGTCAACACGGCCTTCACTGTCGTGTCGCTGTTCGTGGTGGAACGAGCCGGCCGGCGGA
+CCCTGCACCTCATAGGCCTGGCTGGCATGGCGGGTTGCGCGGTGCTCATGACCATCGCCTTGGCACTGCTGGAGCAGCTA
+CCCTGGATGTCCTACCTGAGCATCGTGGCCATCTTTGGCTTCGTGGCCTTCTTTGAAGTGGGCCCTGGCCCCATCCCATG
+GTTCATTGTGGCCGAACTCTTCAGCCAGGGCCCTCGCCCGGCTGCCATTGCCGTCGCTGGCTTCTCCAACTGGACCTCGA
+ATTTCATTGTGGGCATGTGCTTCCAGTATGTGGAGCAACTGTGCGGCCCCTACGTCTTCATCATCTTCACGGTGCTCCTG
+GTCCTGTTCTTCATCTTCACCTACTTCAAAGTTCCCGAGACCAAAGGCCGGACCTTCGATGAGATTGCTTCCGGCTTCCG
+GCAGGGGGGAGCGAGCCAAAGCGACAAGACACCCGAGGAGCTGTTCCACCCCCTGGGGGCCGATTCCCAAGTGTGAGTGC
+CCCGCACCCCCAGCCCGGCCTGCTCCCAGCAGCCCAAAGGATCTCTCGGAGCACAGGCAGCTGAATGAGACTCAAACTGA
+CAGATCTCAGCAGAGACGGGCCCCGGGCTCCTTCCTTCAGCCAGCAGTGATGTCCAGAAGAATATTCAGGGCTCTGCGGC
+TCCAGGATTTTTAACAAAAGCAGGACTGTTGCTCAGTCCATTCAGACAAGCAACAGGTTTTATAATTTTTTTATTACTGA
+TTTTGCTATTATTTTTGTATCACCAAGTCTCCTTTACCCACATCCCACGCTTCACCTTGGAGGGCTCAGTGCCTGACGAC
+GGGGACCGAGCCCTGCCTAGACACTTGCCTTCTCCGCCAAGCTAATCCGTAGGGCTGGACCTGCGACCCCAGGACACACT
+AATCGAACTATGAACTCAGTCTTCTACCCCAAGAGGTGGCCCTGGCCACTCCCTTCCGCGGGTCTGAGTCTTCCCACCCA
+GGGGGCCAGGCTCCATTAGGATTCGCCCGCTCCCGTCCCTCCCTGCTCAAACACTCTGATTAATCTTCCCTTGCCTGAGA
+CCAGTTGGGAGCACTGGGGTGCAGGGAGGGGAGGGGAAGGGCCAGGGCTGCCAGGTTCCAGGCTCCCTTGCACTGAGGGC
+CAGACGATCACCATGGGAGGCTGAGAACTCACTACTACTCAAGAAGACACGGACACTCCTGCCCTGCTGTGTGTATAGAC
+GGAAGATATTTATATATATTTTTTGGTTGTCAATATTAAATACAGACACTAAGTTATAGTATATCCGGACAAACCAACTT
+GTAAATACACCACCTTCCTCACTCTGTAACCCACCTAAGTAGATAAAAATGGCTGGTTTTTTTAAAAAAA
+>ref|X52566.1| Pig mRNA for haptocorrin (partial)
+CGACAATCACACCAGCTGCCCCTCGTGGGGCTCCTATTGTTCTCTCTCATTCCAAGCCAACTATGCCAGAGCTGTGTGGT
+AAGCGAGAAAGACTACTCCCATCTAAGGCTGCTGATAAGCGCAATGGACAATTTAGAACAAATCAGAGGAATCTATGGAG
+CCAGCATCCTGTTGTCGCAAAGACTTGCCGGGATTCAGAACCCAAGCCTCGAAGAAGAGCTGAGTCAGCGAATCCAAGAC
+GATATGAACAGGAGAGACATGTCCAATTTAACCTCGGGACAGCTTGCCTTGATTATTCTGGCTTTTGGAGCATGCAAAAC
+CCCTGATGTCAGGTTTATACATGATCATCACCTTGTTGAGAAACTAGGGGAAAAGTTCAAAGAAGAAATTAAGAACATGG
+AAATACACAACAGCAATCCGCTGACTAACTATTACCAGCTCAGCTTCGACGTTTTGACCTTGTGTCTGTTCAGAGGGAAC
+TATTCAATCAGCAATGTCACTCATTACTTCAATCCTGAAAATAAAAACTTTAATCTTAGCGGCCATTTCTCAGTGGATAC
+TGGAGCCGTGGCTGTTCTTGCTCTGACCTGTGTGAAGAGGAGTATAAGCAATGGGAAGATTAAAGCAGCTATTAAGGATT
+CAGACACAATCCAAAAATATATAGAGTCACTGGTACATAAGATCCAGTCTGAGAAAATGGTGGTCTCTTTGGAAACGCGT
+ATAGCACAGGAGAAGCTATGCAGGCTCTCTTTGTCGCATCAGACTATTACCAAAATGAATCAAATTGCCAAGAAACTCTG
+GACGCGGTGTTTAACACATTCTCAGGGAGTATTCCGTCTACCAATCGCTGCAGCCCAGATCTTACCTGCCCTGTTGGGAA
+AGACCTACCTGGACGTAACAAAACTGCTACTTGTCCCCAAAGTCCAAGTTAACATCACTGATGAGCCTGTACCTGTGGTA
+CCTACTCTCTCACCTGAAAATATCTCAGTCATTTACTGTGTGAAAATCAATGAAATATCAAATTGCATCAACATCACTGT
+CTTCCTCGATGTGATGAAGGCGGCTCAGGAAAAAAACAGCACTATATATGGTTTCACCATGACGGAGACCCCATGGGGCC
+CCTACATCACCTCTGTTCAGGGCATATGGGCCAATAATAATGAGAGAACCTACTGGGAACATTCTGAGCAACAACAAATC
+ACTAAGCCAAGGAGCATGGGAATTATGTTGTCAAAAATGGAGAGCATTTAGAGATTCGTTGGGCCACATACTAAGAAACT
+CAAACCCTCCTCCGTGGGTCTAATCTTCTTGGAATGGAATTACGTGTGGAAATTGATTTTCATATTTTCCTTTTCATTTA
+GCTCAATCCCAATAACACAGTCAATAACCTTGGCTTCTCTCTTTGCACATTCAATAAAGTATCA
+>ref|X61436.1| Pig HKA gene intron 1 for H+-K+-ATPase alpha subunit
+GTGAGAGGGGTCAGGGACGGGGGATGGAGGTTGGAGGCAGGGGTTCCAGTGGGATCTGATGCCTTCCTGTCCCCTCCCCA
+CCCATTCCCAG
+>ref|X61437.1| Pig HKA gene intron 2 for H+-K+-ATPase alpha subunit
+GTGAGCCGGGGCCGGTCCAGGGCTAGGGGTGGGGTGGGGGTGGGGAGCATGGGGGGCCAGGCAAGGGCAGGGCTGGGTGC
+CCCCGTGAGAGCCGGACAGTGAGTGTCATGCCCCCACCATATAG
+>ref|X15410.1| Pig hox2.4 gene 3'end and L1Ss repeat 5'end
+AATTGTTAAAAGTGTTCTTAGGTTTATTGTGAAGCGAATGTATCCTGTATCTGTGAATTGCTTTATTGCGGGGAAGGGGG
+GCTAATTACATATTTTGTTGTTCCTGTATACTTTGTTGTCTGTGCCCGAAAAGNGGAAGAGTTACAATAAAGTTTACAAG
+CGAGAACCCCCCCAAAAAAAATAATAATTACCTTAAATGTCAGTGGACTGAATGCTCCAAACAAAAGACAAAGTGTGGCA
+TTAGAGACCCACCTTAAGGCAAAGAGGCATAAATTGAAAGTAAGGGGGTGGAAAAGACATTCATGAGAATGTAAATGATA
+CAAAAGCAGGAGTCACAGTACTCATATAAGGCCAAGTAGGCTAAAACAAAGGGCGTAAAGAAAGAATGACACTATTAATG
+ATAAAAGGATCAATTCAAGATGAGGATATTACATTTGTGAATATATATGTCCCTAATATGTGAGCACCCAAATACAAACA
+ACTAATATATTCATAGATATAAAAGAGAATTTGATGGGAACAAAATAATAGGATACTTTAACACTCCACTCACATCAATG
+AACAGATCCTCTAGA
+>ref|X64400.1| Sus scrofa partial IGF-I gene encoding insulin-like growth factor I
+CTGCAGATGCCTCCCGGTCTACCTCTCGAAGAGGCATATTTGCAGATGCTTCAGGTTAAATCACATCCCCTGAAACTTCC
+CACCTTTGTACCCCAAAGCCTCTCATGGCACACTCCACCCCCTCCATTCTGGATTTTCAATAGGGTTTCACTTCCTTATC
+TTTCTGGAGAAAGTGTACACTTTTCTTATTTTAAAAAGGGCATATAGCCACCACATGACAGTGACGTTTTCTTCTCTGTC
+TCTAGCACTTGCTGCAAGCCCCTATGGCCTTGACTGTGATATGCGTGGTTGGGCACGTAGTAGGTACACACTGACGGATG
+CTGAAGGCGGGCACCATTGAAATGGCAAAACTCCGGACGCTAACTTGTCTTTCTTGAAAGTAAACAGTGCCACAAGTGAT
+TAACTACAGAAGACTTGAGCAAACTCAACACCCTTTCAAAACCAACTGGGTTTTCCTCCAAGGACACTCACCTCAGCAAA
+CAGCTTTCTGGCCACAAGACAACATAAAGGCCCAGACGAGAGTTTCTAGCAGACCTCTGTTTTCAGTTGATGCATCAGTG
+TGTCTGGGTCCCCTGAGAATCAAGAGAGAGAGAAATACAAAGTCAGGCATTTCCACCATCCCTGAGAAATCATGCCTGGA
+TAGACCTCCAGGGAGAGTGGTATGTCTGACCTGAGCTTTTGCAATCTTATTTCATAATCCACTTTCTTATCTCCTACTTC
+GCAAAACCAAAGAGAAACTGGTACAAACTGTATCGGCAAAAGATCAGGACTTGATTTTCAATGGTGAAGGCAAGTATACA
+TTATTAATAGCAAAACAGCCTGGCTTGGATGGACCATGTTGCCGGCCACTCATCCAGTTGAGAGATTTGAATGACATCAT
+AACCCTTGAGAGGGTATTGCTAGCCAGCTGGTGTTATTTAGAATACACAAAAATTGGAGAAAGAAAATGCACTCACGTGA
+ACACACACACACACACACACACACACACACACACACACACACAGGTTCAAGTTATGCAGAAAAATATGAACAATGGAAAA
+TCATTTGCCCCTCAAGTGCCCTTCCCCTGGGGTGGGGGGACGGGGGGAGATAAGCAGCCTAGTAGAGGAAGGAAGAAAAA
+GATTTTATTTTATTTTTTCAGTTGGCTTTACAGCTCAGCAGAATCTTTGCCCTGTCGTGGGCAAAAAGAATGAGACAGTC
+TCCTAAAGGGAGCCAATTGCAAAGCTGCCTGCCCTTTTCCAGTTTCTAGGAAATGAGATGGATTCCCCTCGCTTGGCAAC
+TAGGATGAGGGGGTCATCCAGACTGGCTTCCGAAGCTAGTTTATCCTGGTCATTTGAGGGTTAAAATTGTAGGGTATGCT
+TGAGATGGTCTTTTCTTCATTTTTTTTTTTTCTCAATTTTGCGTTGGCTCTGGAATATAAAATTGCTCGCCATCCTCCAC
+GTATATTCTTTTCATACGGGTAAGGTGTATTAGCAGATGTGTGTGTCTTCCTGCCCAATAGAAAGTTAATCAGAGGACAG
+CATCAGTATTTTAATGTCTGCTCACCCTGTCACTAACACACATTCTTTTAAGGGAAAAAAATGCTTCTGTGCTCTAGTTT
+TAAAATGCAAAGGTATGATGTTATTTGTCACCATGCCCAAAAAAGTCCTTACTCGATAACTTTGCCAGAAGAGGGAGAGA
+GAGAGAAGGCAAGCGTTCCCCCAGCTGTTTCCTGTCTACAGTGTCTGTGTTTTGTAGATAAATGTGAGGATTTTCTCTAA
+ATCCCTCTTCTGTTTGCTAAATCTCACTGTCACTGCTAAATTCAGAGCAGATAGAGCCTGCGCAATGGAATAAAGTCCTC
+AAAATTGAAATGTGACATTGCTCTCAACATCTCCCATCTCCCTGGATTTCTTTTTGCCTCATTATTCCTGCTAACCAATT
+CATTTCCAGACTTTGCACTTCAGAAGCAATGGGAAAAATCAGCAGTCTTCCAACCCAATTATTTAAGTGCTGCTTTTGTG
+ATTTCTTGAAGGTAAATATTTCTTACTCTTTGAAGTCATTGGGGAATTTTCTTTAAATTGTGTACTGTTTGCTTCTGCCT
+AGAAATGTTCTTCACTTTAGAATTTTCATTGTTTCGGCACTGGGAGTTATTTATAAATTGCTGAATATGCAATTCTGTGG
+GATCTGAAAAAATAGCTCCGGGAGATAAATGCCTTTGCACAGATATCTGTGTGAGTAGAAACTATTGCAAGGTACTTATG
+CTAAATCCTCCACTTCTGCAGGGCTTGAGTGCTGTCATTATAGAAGATTCCTTTAAATCCTGTCTATGGTTAAGGGCTAT
+AGAGCATGGATATGAACTTTTGGATTTTTTTTTTTTTTTTTTTTTTTTGCAGGTGCAGATGTTTTATTTTTAAGACCATG
+TTCGTGGGGGGGGGGGTGCTGTGTGTGTATGTATATGTGTGTGTGTGACTTGTCAGGACTTTTATTACAAGGCATGTCAC
+AGAGTTACATTTTAAATGATATTAAAGCTTTTAAATATGATCTTTGGAGCTAAGGTCCCGGAACTCTCTGCACTTATGCC
+CAGAGAGCCAAAGTTAGAGCGAAGTTTAATTTGCTCTTCTGAAAAAGAACTCCTTAAGAACTCTTGCTGACCTTGCATAT
+TCGTATAATTTAAACAAATGCATACTGTATATGGAAAGCGGAAACTTTCTAGCAACTGCTATTCCAAGTTTTTTTCTTTT
+GAAGAGGACTCTCACAGGCAAAGTTTGGACTTGGGGTTTCGTGTTGTTAAACTCTGATTTTATGCTCGGTGTTGTAAAGT
+CTCTTTAGGTAAATTTGGCCAGTGCTGTCAATGCACCGACTTCTCGTTTCCAATCACTGGCCCTAGTTCAAGTTTCCATT
+CTCAGCAAAATTATATCCTTCAAGACTTGTGTTTTTCCAATTTGCAAGCACTTTTAAGCCGCTGTCACTGGCTCCCCGAT
+GCAATTGCCTCAGGGCTCAATTCATAAAACGTCCCTACCACTAGGTATGGTACTCATTTGCTGCTTTTAAATACTCCACC
+ACTAGGACTTTTCTCAGGCAAGTAAGTGGCTCAGGAGTTAAGGATACGTCCTTGTCAGGCACCTGATTCCGCTGCCCTTG
+AGATGCCAAGGTGCACGCTGGGTACCTTGCTTTTAAAGAAATGAAGTCAATGTACACATACACCCTGAGCCTCAGACAGC
+TGGGAGTTTTGTGTCCCTGGTTAGATGACCCTAAAAGAGGCTGTGGAGTGTGATCTCTGCATTAATTACAAGTTTGGAAA
+ACTCCGAATGGACTTTCCATTGCCGTGTATGCTGAACTTTTCAGAAGCAAAGCTAGCCATAAGTTGTTGCTTTTTCCTGT
+ACTTGGAGCAGGAAGTGGTTTGAGGGAGCTATGTGGTCTTTCAAATGTAATTCAATGAGTAAAGGTGTCTGCCAGGCAGA
+ACTCACAAGCTGATTGTACTCTGAGTCTCAAGATTTATTTCCAAGTGTTTGAGTCAGAGGGAAGAGAGCAAGGGAGAGGA
+CTGGAGCTGGGGTCACTGTTCAGGGTGGCTACAATAGGTGCACAATGGAAATTGGTGGCTTAATTGGGAGGAAAAGATTG
+ACTCAAATCCCAGCTGTGCAATTTGTTCATTGTCTGAATGGACAAAAGGCAGTTTACCCAGGCTCATAGCATACCTGCCC
+GGGTGTCCCAATGTAACTAGATGCTTTCACAAACCCCACCCACAAAGCAGCACATGTTTTTAAATCCTCAGTATTCTATT
+CACATCAGTCTCTTAATACCCACCCTGACCTGCTGTAAAAGATCTGGAACAAACAAAAATGGTTACACCTACAGTGAGTA
+TTTTCTTATGACTATTGCCCTCGAATTTTGCTGGGCATTTTTATTGTAGCCCAGACATTTGGAATCAATTGATATTCCAG
+TTATTTAAGATAAAAAGAAAGGTCTTTTAAATTTTGAATTTGTGAATGATTTTTGAGGAAAAAGTGCTCTGCATTTTTTT
+TTCCTTTTTTCTCTTTTCTTTCTGGTCCTTCTTTCCTTTCTCTCTCTCAGATTTTTCCTTTCTCTATCTTCATTTCTTTT
+GTGTTTGGCAAAATAAAAGGCCAAGTAAAGGATGAACATATGGGGCCACTTGTTTTGAACTTTTAACTCCCAAGCAAATT
+CCTTATTGTTTTCTTTTGGGGGAACATAATGTGATAAATTCTCTGGTTCTCTGTGGGTGTACTGGACTGTTCCCTGAACT
+AAAGAAAAATGCACTAGAGGTTCTATCTTGTCCTAGAACTGTAAGTGCTGATATTTA
+>ref|X52731.1| Pig mRNA for interleukin 1-alpha
+GAGTCATCTCTTTGTCGCTCCAGCCAGCACAGAAGTGAAGATGGCCAAAGTCCCTGACCTCTTTGAAGACCTGAAGAACT
+GCTACAGTGAAAATGAAGAATACAGTTCTGATATCGACCATCTCTCTCTGAATCAGAAGTCCTTCTATGATGCCAGCTAT
+GAGCCACTTCCTGGGGACGGCATGGATAAATTTATGCCTCTGAGTACCTCTAAAACCTCTAAGACATCCAGGCTAAACTT
+CAAGGACAGTGTGGTGATGGCAGCAGCCAACGGGAAGATTCTGAAGAAGAGACGGTTGAGTTTAAATCAGTTCATCACCG
+ATGACGACCTGGAAGCCATTGCCAATGACACAGAAGAAGAAATCATCAAGCCCAGATCAGCAACATACAGCTTCCAGAGC
+AACATGAAATACAACTTCATGAGGGTCATCAACCACCAGTGCATCCTGAATGATGCCCGCAATCAAAGCATCATTCGAGA
+CCCGTCAGGTCAATACCTCATGGCTGCTGTGCTAAATAACCTGGATGAGGCAGTGAAATTTGACATGGCTGCTTATACAT
+CAAATGATGATTCGCAACTTCCTGTGACTCTAAGAATCTCAGAAACCCGACTGTTTGTGAGTGCTCAAAACGAAGACGAA
+CCCGTGTTGCTGAAGGAGCTGCCTGAGACACCCAAAACCATCAAAGATGAGACCAGTCTCCTCTTCTTCTGGGAAAAGCA
+TGGCAATATGGACTACTTCAAATCAGCCGCCCATCCAAAGTTGTTTATTGCCACAAGGCAGGAAAAACTGGTGCACATGG
+CACCGGGGCTGCCCTCTGTCACTGACTTTCAGATACTGGAAAACCAGTCTTGACTCTGGTGTCTACTTACCTGTGAAGTG
+TTGACAGGCCGTATGTACCATGTACATGAAGGAGTTAAATCTTTCACTCTTAGTCACTCGCTGAGCATGTGCTGAGCCTT
+TGTAATTCTAAATGAATGTTTACTCTCTTTGTAAGAGAGGGAGCGAAGTCTGGTAGAACCAACACTAACAAATAACATCG
+CTTAGTATTTAAAAAACACACTGTCATTTACAAACTACCAATCATTTTAATTATTATTCTGCATAACAATCTTGGGAGGA
+CCAGGGTTACTGACTATGGCTACCAAAAAGGTTCTACCCATATTACAGATGGGTTAACTAAGGCCTGAGGATATTAAGAA
+GTATCCACAATAGCAGCTGGAATGAGAAGCTATGGACCCAGGATTTCATTCCACCTGCTTACCTTTTGCCTTTAAGTTGC
+TGATGGACCCTATATAACATTGTAAGTTTCTGGAACCTCAATTTAATCTTAAAAATATATATATATACATATATATACAC
+ACACACATACATAGCATATACATGTACATTATGTATATAATATTTATTATTATATCTATTATATCTATGTAATAGATTAT
+ATCTCCTTCCTGCCTCAACAGTATTCTATGACAGTGAGCTTGTTTTAGTAAAATGCTTCTTGAAGCTGAGCCTCCAGAAG
+AAGGCAAAGCCTGAAATGTTATTTTAAGTTATTATTTATATATACATATGTATTTATAATATTATTTCTAATATAAGTAG
+AACATATTATTATATTTATGTCCAACTCCTTGTGATCTCTGAGTATGACCAGTCATCTTCAATGATAGCAGACAGTGTTT
+TCCAGGTTGAATGAGTTGGAGGTACTAAGGCATTTTGGGCCAAGTTGTTGTACTTTTTTTATGGCCATGAAGGTCTGTAT
+GGTAGTAGCTGGGAGCCCTGTAATTATGATAATAAATTTACATAATTAAAAAAAAAAAAA
+>ref|NM_213861.1| Sus scrofa interleukin 2 (IL2), mRNA
X56750.1 Sus scrofa mRNA for interleukin-2
+ATGTATAAGATGCAGCTCTTGTGTTGCATTGCACTAACCCTTGCACTCATGGCAAACGGTGCACCTACTTCAAGCTCTAC
+AAAGAACACAAAGAAACAACTGGAGCCATTGCTGCTGGATTTACAGTTGCTTTTGAAGGAAGTTAAGAATTACGAGAATG
+CTGATCTCTCCAGGATGCTCACATTTAAATTTTACATGCCCAAGCAGGCTACAGAATTGAAACACCTTCAGTGTTTAGTA
+GAAGAACTCAAAGCTCTGGAGGGAGTGCTAAATTTAGGTCAAAGCAAAAACTCTGACTCAGCAAATATCAAGGAATCAAT
+GAACAATATCAACGTAACAGTTTTGGAACTAAAGGGATCTGAAACAAGTTTCAAATGTGAATATGATGATGAGACAGTAA
+CTGCTGTTGAATTTCTGAACAAATGGATTACCTTTTGTCAAAGCATCTACTCAACACTGACTTGATAATTAAGTGCCTCT
+CATGTTAAATGTATCAGGCTTTCTATTTATTTAAATATTTAAATTTTATATTTATTTTTTGATGCATGGTGTTCTAACTT
+TTGTAATACTAGT
+>ref|X03265.1| Porcine mRNA for inhibin alpha-subunit
+TGTGGGGCAGACCCTGACAGAAGGGGCACAGGGCTGGGTGTGGGTTCACCGTTGGCAGGGCCAGGTGAGCTATGTGGCCT
+CAGCTGCTCCTCTTGCTGTTGGCCCCACGGAGTGGGCATGGCTGCCAGGGCCCGGAGCTGGACCGGGAGCTTGTCCTGGC
+CAAGGTGAGGGCTCTGTTCCTGGATGCCTTGGGACCCCCGGCAGTGACTGGGGAAGGTGGGGATCCTGGAGTCAGGCGTC
+TGCCCCGAAGACATGCTGTGGGGGGCTTCATGCGCAGGGGCTCTGAGCCCGAGGAGGAGGATGTCTCCCAGGCCATCCTT
+TTCCCGGCTACAGGTGCCCGCTGTGGGGACGAGCCAGCTGCTGGAGAGCTGGCCCGGGAGGCTGAGGAGGGCCTCTTCAC
+ATATGTATTCCGGCCGTCCCAGCACACACACAGCCGCCAGGTGACTTCAGCTCAGCTGTGGTTCCACACGGGACTGGACA
+GACAGGGGATGGCAGCCGCCAATAGCTCTGGGCCCCTGCTGGACCTGCTGGCACTATCATCCAGGGGTCCTGTGGCTGTG
+CCCATGTCACTGGGCCAGGCGCCCCCTCGCTGGGCTGTGCTGCACCTGGCCGCCTCTGCCCTCCCTTTGTTGACCCACCC
+AGTCCTGGTGCTGCTGCTGCGCTGTCCTCTCTGTTCCTGCTCAGCCCGGCCCGAGGCCACCCCCTTCCTGGTGGCCCACA
+CTCGGGCCAGGCCACCCAGCGGAGGGGAGAGGGCCCGACGCTCCACCGCCCCTCTGCCCTGGCCTTGGTCCCCCGCCGCG
+CTGCGCCTGCTGCAGAGGCCCCCGGAGGAACCCGCTGTGCACGCCGACTGCCACAGAGCTTCCCTCAACATCTCCTTCCA
+GGAGCTGGGCTGGGACCGGTGGATCGTGCACCCTCCCAGTTTCATCTTCCACTACTGTCACGGGGGCTGCGGGCTGCCGA
+CCCTGCCCAACCTGCCCCTGTCTGTCCCTGGGGCCCCCCCTACCCCTGTCCAGCCCCTGTTGTTGGTGCCAGGGGCTCAG
+CCCTGCTGCGCTGCTCTCCCGGGGACCATGAGGTCCCTACGCGTTCGCACCACCTCGGATGGAGGTTACTCTTTCAAGTA
+CGAGACGGTGCCCAACCTTCTCACCCAGCACTGTGCCTGCATCTAAGGGTGTCCCGCTGGTGGCCGAGCTCCCACAGGCA
+CCAGCCTGGAGGAAGGCAGAGTTCCCACCTCCCCTTTCCTTCCGCCTCTCCGCCTGGAGGCTCCCCTCCCTGTCCGCCCC
+TGTCCCATGGGTAATGTGACAATAAACAGCATAGTGCAGATGACTCGGTGCGC
+>ref|X15411.1| Pig part of truncated L1 repeat sequence L1Ss
+AATCAATCAATGGAAAAATGGGCAAAAGACCTGAATAGACATTTCTCCAAGGAAGATACACAGATGGCCAANAAACACAT
+GAAAAAATGCTCAACATCGCTGATTATAAGAGAAATGCAAATCAAAACTACCATGAGATACCACCTCACACCAGTCAGAA
+TGGCCATCATTAATAAATCCACAAATAACAAGTGCTGGAGTGGCTGTGGAGAAAAGGAAACCCTCCTGCACTGCTGGTGG
+GAATGTAAACTGGTACAACCACTATGGAGACAGTTTGGAGATACCTTAGAAATCATATCATAGATCTTCCATATGACCCC
+ACAATCCCACTCTTGGGCATCTATCCGGACAACAAAACTCTACTTAAAAGAGACACATGCACCCGCATGTTCATTGCAGN
+ACTATTCACAATAGCCAGGACATGGAAACAATCCAAATGTCCATCGACAGATGATTGGATTCGNNAGAGGTGGTATATAT
+ACACAATGGAATACTCCTCAGCCATAAAAAAGAATGACATAATGCCATTTACAGCAA
+>ref|X67188.1| S.scrofa promoter region of LPH-gene for lactase-phlorizin hydrolase
+AAAAAGTTTGGTAAGGACCTAACCTGTGTTCCGCTATGTAAACAAATTTTAAGATAATTTGTAAGTAAGACAAAAATGTG
+GAACAAGTTTTTTCCTTCAGATGCTTTCCATTTCCTCTGCTTAAATTGTGTGAGAAGTTTTGAGGTTTTTGTGCTATCTT
+TTATGGTTTTTAAATTTTTTGATATTTCATTGAACTATGTACTAATTTTATTATCACAGATAACCCAGTTACATATTAAG
+TGTTAAAAATCACCTAGTATTTTACAACCTCAGTTGTAGTTATAAAGTAAGTATTCCACATACCTCCTAACAGTTCC
+>ref|X54724.1| Porcine mmp1 mRNA for matrix metalloproteinase (type I collagenase) (EC 3.4.24.7)
+AGAAACACAAGAGCAAGATGTGGAGATAGTGCAGAAATACCTGAAAAACTACTACAACCTGAATAGTGATGGGGTGCCAG
+TGGAAAAGAAAAGGAACAGTGGCCTCGTAGTTGAAAAACTAAAGCAAATGCAACAATTCTTTGGGCTGAAAGTAACGGGG
+AAACCAGACGCTGAAACTCTGAATGTGATGAAGCAGCCCAGATGTGGAGTTCCTGACGTGGCTGAGTTTGTTCTCACTCC
+AGGGAACCCTCGGTGGGAGAACACACACCTGACCTACAGGATTGAAAATTACACACCAGATCTGTCAAGAGAAGATGTGG
+ACCGTGCCATTGAGAAAGCCTTTCAACTCTGGAGCAATGTCTCACCCTTGACCTTCACCAAGGTCTCCGAGGGTCAAGCA
+GACATAATGATATCCTTTGTCAGGGGAGATCATCGTGACAATTCTCCCTTTGATGGACCTGGAGGAAACCTTGCTCATGC
+TTTTCAGCCAGGCCCAGGTATTGGAGGGGATGCTCATTTTGATGAAGATGAAAGGTGGACCAAAAATTTCAGAGATTATA
+ACTTGTATCGTGTGGCTGCTCATGAACTGGGCCATTCCCTTGGCCTTTCTCATTCCACTGACATTGGGGCTTTGATGTAC
+CCCAACTACATCTACACTGGTGATGTTCAGCTGTCCCAAGATGACATTGATGGCATCCAGGCCATCTATGGACCTTCCGA
+AAACCCCGTTCAGCCAAGTGGCCCACAAACCCCACAAGTGTGTGATAGTAAGCTAACTTTTGATGCTATAACTACACTTC
+GGGGAGAACTAATGTTCTTTAAAGACAGGTTCTACATGCGCACAAATTCCTTCTACCCTGAAGTGGAGCTCAATTTCATT
+TCTGTGTTCTGGCCACAAGTGCCAAATGGACTTCAAGCTGCTTATGAGATTGCCGATAGAGATGAAGTCCGGTTTTTCAA
+AGGTAACAAGTACTGGGCTGTTAGGGGGCAGGATGTGCTATACGGATACCCCAAGGACATCCACAGATCCTTTGGCTTCC
+CTAGTACTGTGAAGAATATCGATGCTGCTGTTTTTGAGGAAGATACTGGGAAAACATACTTCTTTGTTGCTCACGAATGC
+TGGAGGTATGATGAATATAAACAATCCATGGATACAGGTTATCCCAAAATGATAGCAGAAGAATTTCCTGGGATTGGCAA
+CAAAGTTGATGCTGTTTTCCAGAAAGACGGATTTCTATATTTCTTCCATGGAACAAGGCAGTACCAATTTGATTTCAAAA
+CGAAGAGAATTTTGACTCTCCAAAAAGCTAATAGCTGGTTCAACTGCAGGAAAAAT
+>ref|X54328.1| S.scrofa Mx1 gene (exon3 and intron2)
+GGATCCTTAACCCACTGAGCGAGGCCAGGGATGGAGCCTGCAGCCTCATGGAGACTAGTCGGGTTCATTACCGCTGTGCC
+ACAGTGGGAACTCCTAGAAGTCGTCCGTCTCTGATGGAACGTGACCTGCAGGCCATGACAAGTCTCCCATTCTGCCTCCC
+CAGGGCCCTGAGAACAACCTGTACAGCCAGTACGAGGAGAAGCTGCGGCCCTGCATCGACCTCATCGACTCACTGCGGGC
+CCTGGGCGTGGAGCAGGACCTGCCCCTGCCC
+>ref|X54330.1| S.scrofa Mx2 gene (exon3 and intron2)
+CCCGGGCACTTCCAACGAAGACAGGGACAGACGGTCTCCAGGGCAGCAGTGACCTCCCAGGAGTCTGGGGTCTCCTTCTG
+GGAGCTCCCCCCCACACCCCCGCTGTGACGGCCACTGTCCCGCCCAACCCCCACCCCAGCTCGGTAGCCCTGGGGCCGGC
+TCCCCTCCCCGCTCTGGCTGGGAGCGTCCACCCTTGGTGCCGTCTCCCTGCTCAGCCAGACACCCCAACCCTCCCAGCCA
+GATGTTCCCCTCAGCTGCAGAGAAAGCCGCACTGGGCCATAGCGACCTCCTTCTCGAAGGCACAGCAGATCCCCCACCCT
+GCTGCCTGCACGTCCGTGCATCTGTGCTGCCACAAATCCCCACGGTGGTGGGAGCCCCCTCGGAGGTCATGACTGAAGTT
+GCGGTGCCTCCCCAGGGGCCCGAGAACAACCTGTACAGCCCGTTCGAGGAGAAGGTGCGGCCCTGCATCGACCTCATCGA
+CTCGCTGCGGGCCCTGGGCGTGGAGCAGGACCTGCCCCTGCCCACCATCGCCGTCATCGGGGACCAGAGTTCGGGGAAGA
+GCTC
+>ref|X54329.1| S.scrofa Mx2 gene (exon6 and intron5)
+GAGCTCTGGAGGCTAAGTAGGACATCCGTAAGGCAGGTGGGGCGGGCACTCCAGCGGAACCCCGAAGTGTGAGCCCCGCG
+TCCTGCTCTGGAGGGCGCGTCCGTCTACAGGGGCTCTTGGCTGACCAGGTGTGCTTGCTCTCCCTCTGCGACTCCCTGGC
+GACAGATCAAGGCGCTCATCAGGAAGTACATCCAGGAGCAGCAGACCATCAACTTGGTGGTGGTCCCTTGCAACGTGGAC
+ATTGCCACCACGGAGG
+>ref|X12764.1| Porcine NFI gene for nuclear factor I (partial)
+CTAGTCGGGTTGGTTAACCCCCATGACAGGAAGTCCCCAGTGCTCGTCTTTATCAATAAAGTTTTATTGGAACACTGTCA
+CAGCCATCACTTACATGTCCTCTGTGACCAGTCTTACACTACAGTGCAGAGTGGAGCGGTTGCAACAGAGACTGAAATAC
+TCATTATTTGATTCTTTATGGTACTTTTAAAGTTTGCTGACCCCAGTTCTAGAAGGCAGAGAATGGGTCCATGCTACCCC
+CATTCTACTATCCTCAGTTTTCCCCATCTGGACAATGGGTCCCCATCAGACTCTACCTGGGACCCTCATCTTGTCCTACC
+TGTATATTGGGGTTCAGGACAGTCCATAAACGGCTGCCTTGGCCCGCGCCTGCCATGTGGTCCAAGCCTCTTGTTTCCCC
+ATCTGGACAATGGGCTCTCGTCTGACCCAGTGAACTTCGGCGGGGCCCCTTCTGGCCTCATTTTCCCCAAGAGGTAGAGG
+GCTCTGCAGAGGCCCCCTGAACACCTCTGCCCTCCCTCCCTCTAGTGGGTCTGCATGGGGCCCCTGCGGCCTCAGTCTTC
+TGGGCCGGGCAGTGGGTCCACGGACCCAGCACCTCCTGACCTCTGGCTTCTCGCGCCCGCAGGATGAGTTCCACCCATTC
+ATCGAGGCGCTGCTGCCTCACGTCCGCGCCTTCGCCTACACCTGGTTCAACCTGCAGGCGCGGAAGCGCAAGTACTTCAA
+GAAGCATGAGAAGCGGATGTCAAAAGATGAGGAGCGGGCGGTGAAGGACGAGCTGCTGGGCGAGAAGGCCGAGGTCAAGC
+AGAAGTGGGCGTCGCGGCTGCTGGCCAAGCTGCGCAAGGACATCCGGCCCGAATGCCGCGAGGACTTTGTGCTGGCCATC
+ACCGGCAAGAAGGCGCCAGGCTGCGTGCTCTCCAACCCCGACCAGAAGGGCAAGATGCGCCGCATCGACTGCCTGCGCCA
+GGCCGACAAGGTGTGGCGGCTGGACCTGGTCATGGTCATCCTCTTCAAGGGCATCCCGCTGGAGAGCACCGACGGCGAGC
+GCCTGGTCAAGGCGGCACAGTGCGGCCACCCGGTGCTCTGCGTGCAGCCACACCACATTGGGGTGGCGGTCAAGGAGCTG
+GATCTCTACCTGGCCTACTTCGTGCGCGAGCGAGGTGAGGCGGGGCGTGCACGTGGACGCGGGTCTGACGGCCGAGAGGG
+GATGCGCCGGGCATCGCAGAGCGGACGTCCTGGGGAAAGTGGACCCGCAGGCCTGAGGGACCAGGCTGGCACGCGCAGCC
+TGGGGTGGGCAGGCTGACCTATAAGAGGTCTGAGGGCGGAGGCTTGTCCACCCAAGGTGGTCTACCCAGCGGGGAGGCTT
+GCTCACACAAGGTACCAGCAAGGAGGCAGGTCTGAGGGAGGAGGCTGGTGCAGGTTGTCTGAGGGGGGAAGAAGCTGCAC
+TGAGAGGGTCAGAGCAGGGAAGTGGGCCTATGCTGGGGTCGGAAGG
+>ref|X51559.1| S. scrofa Mc1 satellite DNA (clone pAL7.1)
+CTGAGAACTAGGGAAGCGCTGTGACCCCTGAGCCAGGCAACATTGGGGCTGAGGTTTGTTCCCCGAAGCAACAATACCCC
+TTTGCTGAATGCAGCTGGCTATGGGTGGGTTGCTAGGGCAGTGCAAACAGGGCTTCTTCAGGCCAAATCACCTTCTCGCG
+AAGGAGAACACGTTTGGAGTTGGTTTCAAG
+>ref|X51560.1| S. scrofa Mc1 satellite DNA (clone pAL7.4)
+CTAGGTGAGACTAGGGAAGCGCTGTGACCCTGAGCCAGGCAACATTGGGGCTGAGGTTTGTTCCCCGAGCACAATACCCT
+TTGCAGAATGCAGCTGGCTATGGGTGGGTTGCTAGGGCCAGTGCAAACAGGGCTTCTTCAGGCCAAATCACCTTCTCGGC
+GAAGGAGAACCACGTTTGGAGTTGGTTTCAAG
+>ref|X51558.1| S. scrofa Mc1 satellite DNA (clone pAL7.5)
+CTAGCAAAGGGTGAAGGTGCTTGGGACACTGCACCACAAGCCTATTCAGGCCGCATCCGCCCTTTCTCCCAAATGAGAGC
+ACGTTTGTATTTGGTTTCCAGCTGGCTATGGGGGGGTTGCTAGGGCCAGTGAAACAAGGCCTTTCCTAGCCAATCAGCGT
+TGACTGCCAAGGAGAACACTTTTGCAGTTCTTTTTCCAGCTGCCTAACGGTGGGTTGCTAGGGCCAGTGCACACAGGGCT
+TTCTCAGGCCAAATCAGCCTTCTCCGCGAAGGAGGACATTTGGTGTTCCTTCAG
+>ref|X51556.1| S. scrofa Mc1 satellite DNA (clone pAv1.6)
+CCCGAGCTTCCCTCCGGCGCCCATGCTCCCATGCTCCCGGCGCCAGGCTCTGGGACCGGCTGGGCGCACCACGGATCCCA
+GACCAGAATCAGCGCGGCGGATGCACGGGGAGATGATGGCCGGCCCAGGTGTGGCTGCGGATCCCTCCCTGCACACCTAC
+CGAGCTGGGCACACGTAGCAGGGCAGGTGGGACTGAGGAAGGGGCCACGGAGGGGTGGGGTTGGGCAGGAGCGGGCCCAC
+ACAGAGGCCTAGGCCCTTGTCCTAGCCCAGGGTTGCTGTTGGGTCTAGCGGTCACTCTGATGAGA
+>ref|X51555.1| S. scrofa Mc1 satellite DNA (clone pAv1.5)
+GAGGAAAGTTGCACTTTCACGGACGCAGCCTCCCAGATGGGCCCTAGCTGGGTCCCTCCCTACCTGTAGAAAGGTGAGGT
+GGTGGGGCCACTTGCCACACAAGGCATATTCTGGCCCCATCCGCCTCCTCCCTGAAGTAGAGCACGTTTGGAGTTGGTTT
+CCAGCTCTAGCAATGACCTGCAAAGCACCAGTGCACAGGGAGCAGGAGGCAGCCCAGACCCTCCTTGTTCCTATGGCGAG
+CAATGGGCTAGGGGAGAAACCAGAAAGCGCTGCTTTCCTGACGAAACACGCATTGGGCTGAGCTTGGTTTCCC
+>ref|NM_213864.1| Sus scrofa serine peptidase inhibitor, Kazal type 4 (SPINK4), mRNA
X67109.1 S.scrofa PEC-60 mRNA
S46866.1 PEC-60=gastrointestinal peptide [swine, duodenum, mRNA, 364 nt]
+CCGCCGCCAGCCCAGGATCAGCATGGCTGTCCGCCTGTGGGTGGTCGCCCTGGCCTTGGCTGCCCTCTTCATTGTGGACA
+GAGAAGTGCCAGTGTCGGCAGAAAAGCAGGTTTTCTCAAGAATGCCCATCTGTGAGCACATGACGGAGTCCCCAGACTGC
+TCCCGGATATACGACCCAGTCTGTGGCACAGATGGGGTCACATACGAGAGTGAATGCAAGCTCTGCTTGGCTCGGATAGA
+AAACAAACAGGACATCCAGATCGTGAAGGATGGCGAATGCTGACTCCACAGGAGCCCCTTAAGCCATGAAGCTTCGGGCT
+GGAGGACAGCTCTGGGTGTGGAGAAGATGTGACATTAAATAAAA
+>ref|Z14130.1| S.scrofa pepsinogen A gene, 5'-flanking region and exon 1 (untranslated region)
+CCCTACCCTGAGCCACATTCCCAAGCTGCTCTTAACTAGCGGCGCTGACATGGGATTAATTAAAACACTGTCTTGAACAC
+TTCTGCGCGCCATATAACTCACAGAGGGAGATGAAAGATGAATAAGATACACGCAATGTTCTTCACGGCTCATTCCCCAC
+CTCCCAATCCGGAGGGTTCCCAGACTCACCCTGTTCCACCAAGTCCGCTCCTCCATTTCCAAGTTGAAAAGTATGCCCAT
+ACCCTCCTTGCCTTCTTTTTTTTTTTTTCAGTATTATGAACAGTTTTATTTATGCATCACATATACATAACGTGTAAGGA
+ATAATCATGAGCACCCATAAGCCCAGCGTAAGACCCCAAGTACTTTTGAAGACCCTGGTGACCCGCCCTCCAGGAGGAAG
+CCTGGAGCCAGGGTTTCCATCTGCTGCTCCCAGGACCTCGGCCAGCATCCTGAGGGCCATCCGCTCCTCCACAGAAATGC
+TGATATCTGCCCAAAGTTGATGGCCAAGGAAGCAGGCACCAAAAGATGTGAAAATGGGACACAAAGATGTCCTAAGGGGT
+GAATTTGAAAGGCAAATATGATTTTTTACTAACAATCACGGGTCCTAAACTGATATGCCCTGCCCACCGCTCCTCCAGAG
+GCCTGGGGAAATTTGCAACTTGTGTAGAATCTGTGTCTCCTTTGGTTGGAAAAACCAGGGGTGGCCCAGGGACTCCAATT
+TCAGAACAAGACCCAGAGACATGGCCGGCTACCTACTGGTGACTTCCCGCTCACATACCCTCTCTTCCACAACTCCTGAA
+TCAAAGTTCCCACTCCACTTTGTTGAATAACCCCACAAAGGGAAGGATCCATCGGGTTGGAAAGTCTCCTCTTTTCAGAA
+GAGAACTTTTTTAAGTCCTTCACACTCTAGTATGAATTTGCCCAGATTGCTTTGCTCCACTGCAGCTGATCCAGCCCAGT
+TTTAAGCATGGAACACCTAGAGGTCTGATCCAGAAGGGGTCTCAACGGTGGAGGCTGAGAGTGTGGGAGAGGAGCAGAAA
+GAAGAAAGAGGGTATAGAAAGCAAGGGGCACAGATCAGAAAGGCAAACTGGGCCTGTTTCAAGTTTGCTTCCTCCAGGAA
+AGGAAACCTTCCTCCATGTGCTCCCCACTCTGTCCCCTTCCTCTGTGCTACACACACCACTTTCCGAAGACTCAACCCAA
+CTGCCATGAGAAGCAAGAGCAAAGTAAGTCCCATAGGCTAATTAGGCACCCAACAACCCCATATGATGACCTTTCTATGG
+GAAATGAGTCTTGAGTCCCAAATCACCGACCTACCAATATGCTTGGGGGCAGCAGCTACAGGAACATGGCCCATCACTGA
+AAGGAGAGCTGCTCTCTGAAAATCCCAACCGGGACACATCAAGGGTACCCAGAGCCCCTCTGACATCTGTTCAATGTAAG
+GGGCACTTTGGACCACTTTAGTCTAAAGAGTCAGCTTGTCAGTTTTAATGCATTGCATCATTTAAGGAATAAGCCCACTT
+TCCCAGCACGCGCTCTCTGCAGGGACCATTCCCAACTGCGGGAGGTGACTACAGTGGAAAGCTACCCAACTGGAAACTTC
+CCAGAACATGGCTCAGGGCAGGGACCATCTTATCAGGAAATTTTCTGTTTGGGGTAAGGGTAAAGGGTGACGTTTGGTGG
+CTGATAAGGCCATTCCCAAGGACTCGAACTGTATAAAAGGAGCAGCTCTTGCCTCCTGCTGCATACCTTCCATCCATCTT
+CCCTTCTCTGGAGACTTGGGAGCCAGGAAGAACC
+>ref|NM_214330.1| Sus scrofa glucose-6-phosphate isomerase (GPI), mRNA
X07382.1 Pig mRNA for muscle phosphohexose isomerase (PHI; E.C. 5.3.1.9)
+TTTTTTTTTTTGTAGTGTTTCCAGCCGCTTTCGCCATGGCTGCACTCACCCAGAACCCGCAGTTCAAGAAGCTGCAGACC
+TGGTACCACGAGCACCGCTCTGACCTCAACTTGCGCCGCCTTTTCGAAGGGGACAAGGACCGCTTCAACCACTTCAGCTT
+GAACCTCAACACCAACCATGGCCGTATTCTGTTGGATTACTCCAAGAATCTTGTGACGGAGGCTGTGATGCAGATGCTGG
+TGGACCTGGCCAAGTCCAGGGGTGTGGAGGCTGCCCGGGAGCGCATGTTCAATGGTGAGAAGATCAACTTCACCGAGGAT
+CGGGCAGTGTTGCACGTGGCCCTGAGGAACCGGTCAAACACACCCATTCTAGTGGACGGCAAGGATGTGATGCCAGAGGT
+CAACAGGGTCCTGGAGAAGATGAAGTCTTTCTGCAAGCGTGTCCGGAGTGGCGAATGGAAAGGGTACTCGGGCAAGTCCA
+TCACGGACGTCATCAACATCGGCATCGGCGGCTCTGACCTGGGACCCCTCATGGTGACGGAAGCCCTCAAGCCGTACTCT
+GCAGAAGGCCCCCGGGTCTGGTTCGTCTCCAACATTGATGGGACCCACATTGCCAAAACGCTGGCCACCCTGAACCCCGA
+GTCGTCCCTGTTCATCATTGCCTCCAAGACCTTCACCACCCAGGAGACCATCACAAATGCAGAGACGGCGAAGGAGTGGT
+TTCTTCAGTCAGCCAAGGATCCCTCTGCAGTCGCAAAGCACTTTGTCGCCCTGTCTACCAACACTACCAAAGTGAAGGAA
+TTTGGAATTGATCCTCAAAACATGTTCGAGTTCTGGGATTGGGTGGGAGGCCGCTACTCGCTCTGGTCAGCCATCGGACT
+CTCCATTGCCCTGCACGTGGGGTTTGACAACTTCGAGCAGCTGCTCTCGGGGGCTCACTGGATGGACCAGCACTTCCGCA
+CGACACCCCTGGAGAAGAACGCCCCCGTCCTGCTGGCTCTGCTGGGTATCTGGTACATCAACTTCTTTGGGTGTGAGACG
+CACGCCATGCTGCCATATGACCAGTACCTGCACCGCTTTGCTGCCTACTTCCAGCAGGGTGACATGGAGTCCAACGGGAA
+GTACATCACCAAGTCCGGCACCCGTGTGGACCACCAGACGGGCCCCATTGTGTGGGGGGAGCCAGGGACCAATGGCCAGC
+ATGCCTTCTACCAGCTCATCCACCAAGGTACCAAGATGATACCCTGTGACTTCCTTATCCCGGTCCAGACACAGCACCCG
+ATACGGAAGGGTTTGCATCACAAGATCCTCCTGGCGAACTTCTTGGCCCAGACTGAGGCCCTAATGAAGGGGAAGTCGAC
+GGAAGAGGCCCGGAAGGAGCTGCAGGCCGCTGGGAAGAGTCCAGAGGACTTTGAGAAACTGCTGCCCCACAAGGTCTTTG
+AAGGAAATCGCCCCACCAACTCTATTGTGTTCACCAAGCTCACGCCGTTCATCCTTGGAGCCTTGATTGCCATGTACGAG
+CACAAGATCTTCGTCCAGGGCGTCATCTGGGACATCAACAGCTTTGACCAGTGGGGAGTGGAGCTGGGAAAGCAGCTGGC
+TAAGAAAATTGAACCGGAGCTTGATGGCAGCAGCCCAGTGACTTCTCATGATTCTTCCACCAATGGGCTGATCAACTTCA
+TCAAGCAGGAGCGTGAGGCCAGAAGCCAATAAACTGGTGCCCCACTGCAGTCCCCACTGTGACTGGTCCTTCTTGTCCCT
+TCTGCCCAGAGTCTGCACTGCATGGTCCTGCCCTCTGGTTTTGGGTTTGGACCATAAGACCTTTGGGGGAAGCTGGTCTG
+GAATTGCCACCCCTGCCCTCTCCATGTTCATGCCCCCTCTGTTTTAAAGTTGGCTGAAGTGTTTCGGTGCAGCTGAATTT
+TCTGACCCATGTTCACTGTTCATATACCAGGTAGAAAAATAAAGATGCCATAAAGGAG
+>ref|X51564.1| S. scrofa Ac2 satellite DNA (clone pHi4.2)
+CATTCATGAAGCGTGGCCCTATGGTACCCGATTCGAATGCACTGGTTGCCAATGAAGCATGATTGAATGCCAGTGGATTA
+TTCCATGCAGCATGGAGAAATTGAACCCTATTAAATGCAGGGGATTTTATGCAGCATGATTGAATGCAGTGGATTG
+>ref|X51565.1| S. scrofa Ac2 satellite DNA (clone pHi4.5)
+CTTCCATGCATTGTATTGAATGCAGTGTACTCCATGCAGCGAGGTAAAATGCAACCGTATTGAATGCAATGGACTG
+>ref|X05943.1| Porcine gene exon 1 for cAMP-dependent protein kinase I regulatory subunit
+GGATCCGCCGGGGGCGCCACCTCCTCCTGGGCCTGGAAACGGCTGGAATCTCCCCTCCCCCGCCCAACGTCCCCCTCCGG
+CAGGGGCCACTGGGCGGAGTCGCCCACCTGTCATCCGAGACTCCCTAAGTGGGCTGGCCTGGGTGGGGGAAGGGGGTTGA
+GGGGAGGGAGAAAAGGCCGAGGCGGCGAGGGAGGTAGGAGTGAGGGTGGGAGGAGAAGAGAGAAGAGGAGGAGGAGAGGG
+GAGCTCCCGATAGTCGCTCAGAGAAGGAGCGAAGAGCAGAAGAATAAAGGGGACCTGAGGCGTCCAGAGAGGAACAGGTA
+AGGGGCGGCAGGTGAACAGAGGAGGAGAGCCCCAGGCTAGAGAGAGTGGGGGAGAGACAAAAGGCAAGCGTGGGGAAAGG
+GTGCAGATGAGGGACGATGTAAGACAAAAAAGCAGAAAAGGAACGCTCCTAGAGAGGAGAGGCGAGGGTCCTTCAAGGAG
+CGGCGGGGGCGGACGGGGCCCCGCTGCACCTTTAAGGTTGCCAAGGCAACGGCTCTGGCCAGAGCGAGGCGCATTGACGT
+CAGCAGCCGGGCGTTGATTGGCTGTGGCTAGCCGTTTCCGGTGGAGTCGCCGCGGAGCGCTATCGCTGTGTGCAGCCGGG
+CTGGGAGGGAAACGCTGAGGGAGCTCAGCAAGCCGTCACCTCACACCGGTAATCCCGTGCCCGCCGCCGTCTGTCCCCAG
+GTGAGTGGGGTCGGCGGAGGGCCTCAGTGCGGCCAGCTTCGCCGCCCCGCCGCCCGTTTGGGGGCGCTGGACCGATCCAA
+GATGGCGTCACGGGGAGCGACCTGCAGGGGGACGGCCGCACCCCGTGCCCCTCCCGGCGGCGCTCCCGCAGCCTGGGCCG
+GGGCGGGCCCGGCGGGAGTCTGGCACTGTCTAGGGCTCCGGGCGTGTGCTCGTAGCAGGGCT
+>ref|X06158.1| Porcine gene exon 2 for cAMP-dependent protein kinase I regulatory subunit
+AGACCGGCCGCTGGCAGGGGATAGTGGCTCCTACTGCCGCCCTGGGAGCTGGAGCCTGGCACTGTCGCTGCCTGCGGAGC
+CAAGATCCTGTGCAGCAGGACCTAAATGAAACACTTTGAGAGAATGCTGTTTCTCTTCGTGTTTTACTCCCTAGCTCTCA
+CCTCCCAGTTTAAACACAAACAAACAAAAAAACCACCTAGGAAAAAAATGCGCTGTGAATCAGTTGCCTAGTGAATTTGT
+TAAGTCAAAGGCCAAACTGGGGTTTGCTCTTTATGAAGGGTTTTTCACAAAGCATCTGTGTGTTTTTCCTGTAGGGAACC
+ATGGCGTCTGGCAGCACCGCCAGTGAGGAGGAGCGTAGCCTCCGGGAATGTGAGCTCTACGTCCAGAAGCACAACATTCA
+GGCCCTGCTCAAGGATTCTATCGTGCAGTTGTGCACTGCGCGGCCCGAGAGACCCATGGCATTCCTCAGGGAATACTTCG
+AGAGGTTGGAGAAGGTAAATAAATCGGCTGGTCAGGCGGAGCTGACCCTGACCATTTTT
+>ref|NM_214213.1| Sus scrofa phospholamban (PLN), mRNA
X15075.1 Pig mRNA for phospholamban
+CTTTCCAGCTAAACACCGATAAGACTTCATACAACTCACAATATTCTATACTGTGATCATCATAAACAGCCAAGGCTGCC
+TAAAAGAAGACAGTGATCTCATATTTGGCTGGTAGCTTTTTCAGCTTTCTCTTGACGGCTTAAAACTTCAGGCTTCCTGC
+CTTCCTGGTATCATGGATAAAGTCCAATACCTCACTCGCTCTGCTATTAGAAGAGCTTCAACCATTGAAATGCCTCAACA
+AGCACGTCAAAACCTTCAGAACCTATTTATCAATTTCTGTCTCATCTTAATATGCCTCTTGCTGATTTGCATCATCGTGA
+TGCTTCTCTGAAGTTCTGCCACAATCTCCAGTGCTACAATTTATCACCATCAGCTTAAAATCTGTCATCCCATGAAGAAG
+GGAAACAATACTATATAAGAGACCACTTCCTCAGCAGAAGAAGTTCTTTATGAAAAGGTCAAGATTTGGAATGAAACAAA
+TTGTTAGCAAATGTATTCATCTGCTGGATCTTGTAAACATGAAAAGGGCTTTATTTTCAGAAACTAACTTTAAAATGACT
+ATAAGTGTGCATAATGCAACTGTTGATTTTCTCAACAGAGCTTATAAATTTCTATCCCAAATCTTTTCTGAGGATGAACT
+AGGGGTTTAGTTTGGAAACTGCACTGCTAACTAGTTCACGTCATATATAAAGCATTAGCTTCACTCTTTGGGGTAAATAT
+AATTTATACTGTACTGT
+>ref|X51563.1| S. scrofa Ac2 satellite DNA (clone pMb2.3)
+GATTGAATTCAGTGGATTCCATGCGGCGTGTTTCAATGCAGTGGATTCAATGCAGAGTGGTGCATTGTATCTCGATTGAA
+TGAAGTGGATTAATGCAGCTTGGTGTAATTGTTACCGATTGAATGCAGTGGATTCCATGCAGTGTGATTGAATGCACTGG
+ATTCCATGCAGCAGTGTGAAATCCCATGCAGAGTGAATGCAGTGGATTGCCATTCAGCTTGGCCACAATGGATCG
+>ref|X51561.1| S. scrofa Ac2 satellite DNA (clone pMb3.4)
+AATTGAATGCAGTGAATTCCATGCAGCGTGATTGAATGCAGTATATTCCATGCAGCGTGGTAAAATGCATCCCGATTAAA
+TGCAGTGGATTCCATCCAGCTTGATTGAATGCAGTTGATTCCATGGAGCGTGGCCCAATGCTATCCCGATTAAATGCAGT
+GGAGTTTATGCAGCATGGCCCAAAGCATCCCGATTGAATGTAGTGCATTCCATGCAGCATCACTGAATGCAGTGGATTCC
+ATGCAGCATGGTAAATGCATCCCGATTAAACGCAGTGGATTACATGCAGCATGGCCTAAATGGATCGGG
+>ref|X51562.1| S. scrofa Ac2 satellite DNA (clone pMb3.5)
+TCAGATCTATTTAGCCATGCTTCATGGAATAAATTGCGTATCAGTCTGGATGCATTTTACCTATGGCCTGCCATGGAATA
+CCACGTGCCATTCAGTGATGCCTGCATGGAATGCAGCTAGCCTGTCAATCGGGATGGCTTTGGGCGCCATGCTGCATACA
+ACTCCATCTGCCATTTAATGGGTATGGCATTCGGGCCACGTCCATGGATACTCATTCAATTCATGCTCGATCATCGATTA
+ATCGGTCGGATTACCGATGCGTGCATGGATGTACTGCCATTCAAGGTCATGGCTGTCATTGGATTCATCACCGGATTCAA
+TTGGGATC
+>ref|X00135.1| Porcine pro-opiomelanocortin messenger RNA (POMC)
+AAGGCAGCGAGAGGGAAGAGCAAGAGGGGAAGAAGAGTGACCAAGAAACCGCCGAGTTTCCTGCCTCGGCGCAGCGGGAG
+TCGCCCCGAGAGCGGCCTCCCCGCGACAGAGCCTCAGCCTGCGTGGGAGATGCCGAGATTGTGCGGCAGTCGCTCGGGGG
+CCCTGCTGCTGACCTTGCTGCTCCAGGCCTCCATGGGAGTGCGCGGCTGGTGCTTGGAGAGCAGCCAGTGTCAGGACCTC
+TCCACGGAAAGTAACTTGTTGGCGTGCATCCGGGCCTGCAAACCAGATCTCTCTGCGGAGACGCCCGTGTTTCCCGGCAA
+CGGCGACGCGCAACCGCTGACCGAGAACCCCCGGAAGTACGTCATGGGCCACTTCCGCTGGGACCGCTTCGGCCGCCGGA
+ATGGCAGCAGCAGCGGCGGCGGTGGCGGTGGCGGCGGCGCGGGCCAGAAGCGCGAGGAGGAGGAGGTGGCGGCGGGCGAA
+GGCCCCGGGCCCCGCGGAGATGGCGTCGCGCCGGGCCCGCGCCAGGACAAGCGCTCCTACTCCATGGAGCACTTCCGCTG
+GGGCAAGCCCGTGGGCAAGAAGCGGCGCCCGGTGAAGGTGTATCCCAACGGCGCCGAGGACGAGTTGGCCGAGGCCTTCC
+CCCTCGAGTTCAGGAGGGAGCTGGCCGGGGCGCCCCCCGAGCCGGCACGGGACCCCGAGGCCCCGGCCGAGGGCGCGGCC
+GCCCGGGCCGAGCTGGAGTACGGGCTGGTGGCCGAGGCCGAGGCGGCCGAGAAGAAGGACGAAGGGCCCTATAAGATGGA
+GCACTTCCGCTGGGGCAGCCCGCCCAAGGACAAGCGCTACGGCGGCTTCATGACCTCCGAGAAGAGCCAGACGCCCCTGG
+TCACGCTGTTCAAAAACGCCATCGTCAAGAACGCCCACAAGAAGGGCCAGTGAGGGTTCAGGGGGCAGGCGCCTCTCACC
+CCGGAAGCCGACCCCAAAGCCCCCTCTCCTCGCCTGCCCTCCTGCCCCCCCAGCCCGGGTACGCTCAGGCTGTGTGGGCG
+CCAGATATCCCGCCTCTTACCTGTAGTTAGGAAATAAAACCTTTCAAGTTTCAAAAA
+>ref|X51557.1| S. scrofa Mc1 satellite DNA (clone pPv15)
+CTGGCAAACCAACTCCAAACGTGTTCTCCTTCGCCGGAGAAGGCTGATTTGGCAGGAAGAAGCCTGTGTGCACTGCCCTA
+GCAACGCACCATAGCCAGCTAGGGAGGGACCCACCTAGGGCCCAGGGTACCGAGCTCGAATTCGTAATCATGGTCATAGC
+TGTTTCCTGTGCTGAAATTGCTTATCCGCTCACACAATTCCACACACATACGAGCCGGAACGATAAATGTGAAAGCCTGG
+GTGCCTAATGAGTGAGCTAACTCACATTAATTGCGTTCGCGTCACGCCGTTCAGCTGGAAG
+>ref|X64127.1| S.scrofa DNA for SINE sequence SSPRE
+TTGGAGTTCCCGTCGTGGCTCAGTGGTAACGAATCCGACTAGTATCCATGAGGTTGCAGGTTCGATCCCTGGCCTTGCTC
+AGTGGGTTAAGGATCCGGCATTGCCATGAGCTGTGGTGTAGGTCACAGACGCAGCTCGGATCCGGCGTTGCTGTGGCTGT
+GGTGTAGGCCGGCAGCTGCAGCTCCGATTCGACCCCTAGCCTGGGAACCTCCATATGCCGCGGGTGCGGCCCT
+>ref|Y00104.1| Sus scrofa repetitive dna sequence element PRE-1
+AGGGAGTTCCCATCGTGGCTCAGTGGTAACGAACCTGACTAGTATCCATGAGGATGCAGATTCAATCCCTGGCCTTNCTC
+AGTGGGTTAAGGATCCNGCATTGCTGTGAGNTGTGGTGTAGGTCNCAGATGCGGCTCGGATCCCGTGTTGCTGTGGCTGT
+GGTGTAGGCCGGCAGCTACAGCTCCGATTNGACCCCTAGCCTGGGAACCTCCATATGCCGCGGGTGNGGCCCT
+>ref|NM_214253.1| Sus scrofa protamine 1 (PRM1), mRNA
X13381.1 Pig mRNA for protamine 1
+CATCCCCGTCTCTGAGCATCAAGACTGAGTCCATCCATCACCATGGCCAGATACAGATGTTGCCGCAGCCATAGCCGGAG
+CAGGTGCCGCCCCCGAAGACGAAGATGTCGCAGACGAAGGAGGAGATGTTGTCCGAGGCGGAGGAGAGCGGTGTGCTGCC
+GCCGCTACACCGTTATAAGGTGTAGAAGATGCTAAACATGCAGTAGCAAGACCACCGCACTCCTGCCTGAAATAGTACCA
+GCCTTCAAGACCCTCTCGCCGCATCTTGAACATGCCACTACTGCAGTGACTGACAGGAGCCTGCTAAGCACAACGCCCCC
+TGCCAATAAATGTTGA
+>ref|NM_214252.1| Sus scrofa protamine 2 (PRM2), mRNA
X16558.1 Boar mRNA for protamine 2
+GCCGGCGGGCAGGCCTCAGCCTCTCCCCCAAGGCCACTGCAGCCCCGCCTGAGCCGCCTGACCCGCCACCATGGTCCGAT
+GCCGCGTGCGGAGTCCGAGTGAAAGTCCGCAGCAGGGCTCTGGGCAGCAGCGCGAAAACGAGCGCCAGGACCAGGACCAG
+GAGCTGAGGCCGGAGGATGTCCCGGTCTATGGCAGGACCCACAGGGGCCGCTACCACTACAGACACAGGAGCCACACGCG
+GCGGCGCCGCTCCTGCCGGAGGCGCAGGAGACGCGCCTGCCGGCACAGGCGGCACCGCAGAGGCTGCAGACGGATCAGGA
+GGAGGAGAAGATGCAGAAGGAGGCTCTAAGCCTCCCTGGGCCCATCACACCCCTGGTTGGAAATGAAGGAAAAGAAAAAG
+TCACCTGCCAGGAACCACCTCTCGAGACCATAGCAATCCCCCATGGATGCCCAGGCCCTGTGTTTGCAAGGAGGCTGT
+>ref|X57192.1| S.scrofa domestica psi-PoIFN-alpha II-1 pseudogene
+CATTTGAATGGGCATACCTGGAATTATTGAGAAAATTAAAATTCTTGTGAGATTAAATAGTGTAGATTGAAGATATCTTT
+TAGACCATATTGAGAAGACAAAGGAAAACCAAAAAAAGGGAGTAAAAGTTTAGAGAACTGTTTTTAATAAATGAAAATTA
+CTGTGTTCACTATTTACTGGCCATGCTTAGAGAGAATGGCATCAGAGAACCTACCCCCAAGGTTCCCTCAGACACCCATC
+TCAGCCAGACAAGCAGCTCCCTCATTTCCCCATGGCCTTCGTGCTCTCTCTACCGATGGCCCTGGTGGTGTTCAGCTATG
+GCCCTGGGGGATCTCTGGGCTGTGATCTGTCTCAGGACATGTGCATGTCAGCAGAAGAACCTGGCGCTTCTGTGTCAGAT
+AAGGAGAATCTCCCCTTCCTTCTGTCTGAAGGACAGAAAAGACTTTGGGTTCCCCCAGGAGATGGTGGAAGGCAGCCAGC
+TGCAGAAGGTCCAGGCCATCTCTGTCTTCCATGAGATGCTCCAGCAGACCTTCCTCCTCTTCCACATAGAGCGCTCCTCT
+GCTGCCTGGGACTCCACCCTCCTGGACAAGCTCTGCTCTGGACTCCATCAGCAGCTGGAAGACCTAGACCCCTGCTTGGT
+GCAGGTGATGGGAGAGCAGGCATCCTCCTTGGGAATGGCTGTGAAGAGGTACTTTGAGAGAATCCATCTCTTCCTGAAAG
+AGAAGAAATACAGTGACTGTGTCTGGGAGATTGTCAGAGTGGAAATCATGAAACCCTTGTCTTCCTTAAACAGTTTTGCA
+AGAAAGGTTAAGAATTATGGATGCAGACATGGGGTCACCTTGAAATGACTGTCAGACTAAGAATGCCATCTCACCCTGTA
+CATTGTCTTTGGTCACTTCAAAAGACTCCTATCTTTGGCTACAGAACTTATTGAAATAATTTGAGTAATATTTTTTCAGT
+AGTAATAAGCATTCATATGTCAAAATTACTCAGCTCCAGGGGCATCAGTCTTAGGAGATGACTGTCCTGAGGTGATTTAT
+CTACTGTTTGTTTATGTTTATTCTTGTACCATATAAAATTTCATATAAAATATTTATTATTACATTGTAATTC
+>ref|X57193.1| S.scrofa domestica psi-PoIFN-alpha II-1 pseudogene
+GGAAAACTAAACCTCTATGACAAAATTAATGGTTTAGAGTAATGACTTTGTCTTATACCATATGGAAAATACATAAATGA
+AAACCAAAAAAGAAGTGAAAGTGTAGAGAAATGTTTAGAAAATGAAAATTACTGTGTTCCCTGTTTAGTGGCCTTGCTTA
+GAGAGAATGGCATCAGAGAACCTACCTGCAAGGTTCCCCCAGACACCCATCTCAGCCAGGCCAGCAGCGCCCTCATTTTC
+CCCATGCCTTTGTGTTCTCTCTACTGATGGCCCTGGTGGTGTTCAACTACGGCCATGGGGGATCTCTGTGAGCTGTGACC
+TGTCTCAGAACCATGTGCACGTCAGCAGGAAGAACCTGGTGCTTCTGTGTCAAATGAGGAGAATCTCCCCTTCCTTCTGT
+CTGAAGGGCAGAAAAGACTTCGGGTTCCCCCAGGAGATGGTGGAACGCAGCCACCTGCAGAAGGCCCAGGCCATCTTTGT
+CCTCCACAAGATGCTCCAGCAGACCTTCCTCCTCTTCCACACAGAGCACTCCTCTGCTGCCTAGGACTCCACCCGCCTAG
+ACAAGCTCTGCTCTGGACTCCATCAGCAGATGGAAGACCTGGACTCCTGCTTGGTGCAGGTGAGGGGAGAGCAGGTATCT
+GCCCTGGGAAGAGGTACTTCCAGGGAATCCACCTCTATCTGAAAGAGAAAAAATACAGGGACTGTGCCTGGGAGAATGTC
+ACAGTGGAAATCTGAGACCCTTGTCGTCATCAACCACTTTGCAAGAAAGGTTGCCCAATGCGGATGGAGACCTGGCATCA
+CCGTAACATGATTCTCATTGATTAAGATGCCAAATCACCTTGTACATTCGACTCTGGTCATTTCACAAAATTCATTTCTG
+TTTTAGTCACAAAACTTATTGAAATAATTCGAGTAATACTTTTTCAGTAGTAAAACTTCCCTGGACATCAGGCCCTAAGA
+GCTGTTTGCTCTGATGTGATTTATTTATTGCTATTTACTAATTTCTATTTATTTAT
+>ref|X51696.1| S.scrofa pancreatic spasmolytic polypeptide (PSP) mRNA
+GAGCCGCAGCGCCCGGCTCCTGGCCATCCTCCTCCTGCTGGGGCTGTGTGCCTGACGGGGGCCCAGAAGCCCGCCGCCTG
+CCGGTGTTCACGCCAGGACCCCAAGAACCGGGTCAACTGCGGATTCCCGGGCATCACCAGCGACCAGTGCTTCACCTCGG
+GGTGCTGCTTCGACTCCCAAGTGCCTGGGGTCCCCTGGTGTTTCAAACCCCTCCCGGCGCAAGAGTCTGAGGAGTGCGTC
+ATGGAGGTGTCCGCCCGCAAGAACTGTGGCTACCCGGGCATCAGCCCCGAGGACTGCGCACGACGCAATTGCTGCTTCTC
+CGACACCATCCCCGAGGTGCCCTGGTGCTTCTTCCCCATGTCCGTGGAAGACTGTCATTACTAAGAGGCCATGGCTTCAG
+AGAACCCACCAGGCTCCTGGATGTTCTGAAACAAAAGAAGACTATTCATCATCTTATAATTTCAGGTTTTGAGTTTCTGA
+AATTCCTGGGTTTTCTTAATCTGCTTCCCCCTCTGCCCTTTTCAATGGTTTAACACAGAATTTCTTCAAATAAAGAAAAC
+ACTGAAAATCTGCT
+>ref|X16513.1| Pig gender-neutral repetitive DNA
+GAATTCACTGCATTCATTTGGGATCCATTGCGCCACGATGCATGGAATCCATCGCGTTCAATCAAAATCCATTGCACCAC
+ACTGCATGGAATCCACTGCATTCTCTCGAGATCCATTGGGCCACGCTGCATCGAATCCACTGCATTCAATCGGGATCCAT
+TTAGCCACGCTGCATGGAATACACTGCGTTCAATCGGGATGCATTTAACCATGCTGCATCGAATCCACTGCATTCAGTGA
+CGCTGCATGGAATCCACTGCATTCAATCGGGATGCTTTGGGCCTCGCTGCATAAAATCCACTGCATTTAATCGGGATGCA
+TTGGGCCTCACTGCATGGAATCTACTGCCTTCAATCATGCTGCATGGAATCCACTGCATTCAATCAAGCTGCATAAAATC
+CCCTGCATTTAATAGGGTTCAACTTCTCCATGCTGCATGGAATCCACTGCATTCAATCATGCTTCATTGCAACCAGTGCA
+TTCAATCGGTACCATAGGGCCACGCTTCATGGAATCCACTGCATTCAATCATGCTTCATTGCAACCCCTGCATTCAATCG
+GGAACCATTGGGCCATGCTGCATGGAATCCACTGCATTCAAACACGCTGCATGGAATCCACTGCATTCAATCGGGATGCT
+TTGGGCCATGCTGGATAATATCCACTGCATTCAATCGGGATTCATTGGCCTCACTGCCTGGAATCCACTGCATTCAATCA
+TGCTGCATGGAATCCACTGCATTCAATCATGCTGCATAAAATCCACTGCATTCAATAGGGTTCCATTTCTTCACGCTGCA
+TGGCATACACTGCATTCAAACACGCTGCATGGAATCCACTGCATTCAATTGGGATCCATTGGGCACGCTGCATGGAATCC
+ACTGCATTCATCGGGATCCATTTAACCCCGCTGCATGGAATGCACTTCGTTCAATCGGGATGCATTTTACCATGCTCCGT
+GGTTTTCACTGCATTCAATCATAATGCATGGAAACCACTGCATCAATCGTGATGCATTTTACCATGCTGCATGGAATCCA
+CTGCATTCAGTGATGCTGCATGGAATGCACTACCTTCAATCGGGATGCTTTGGGCCATGCTGCATAAAATCCACTGCATT
+TAATCGGGATGCATTGGGCCACGCTCCATGGAATCAACTGCATTCAATCATGCTGGATGGAATCCACTGCATTCAACCGG
+GATGCATTTTACCATGCTGCATGGAATGTACTGCATTCAATCACGCTGCATGGAATTC
+>ref|X56021.1| S.scrofa mRNA for fetuin
+GAATTCCGCTCATCCTGTTCTTTTGCCTTGCTCAGCTCTGGGGCTGCCGTGCTGTCCCCCATGGCCCGATTCTGGGTTAC
+AGGGAACCGGCCTGTGATGACGTAGAAACAGAGCAAGCAGCCCTGGCGGCCGTGGACTACATCAATAAGCACCTTCCTCG
+GGGCTACAAGCACACCTTGAACCAGGTTGACAGCGTGAAAGTGTGGCCAAGGCGGCCCGCGGGAGAGGTATTTGACATTG
+AAATAGACACGCTGGAAACCACCTGCCATGTCCTGGACCCCACTCCCCTGGCAAACTGCAGCGTGAGGCAGCTGACAGAG
+CATGCGGTGGAAGGAGACTGCGATTTCCACGTGCTGAAACAGGACGGCCAGTTCTCCGTGTTATTTGCAAAATGTGATTC
+CAGTCCAGACTCAGCTGAGGATGTTCACAAGGTGTGTCCAAACTGCCCCCTGCTGGCCCCGCTTAATGACAGCCGGGTGG
+TGCACGCTGCAGAATCGGCGCTGGCTGCCTTCAACGCCCAGAGCAACGGCTCCTATTTGCAGCTTGTGGAAATTTCTCGG
+GCTCAACTTGTGCCTCTTTCAGCTTCTGTCTCTGTGGAGTTTGCAGTAGCTGTCACTGACTGTGTGGCTAAAGAGGCATA
+TAGCCCAACCAAATGCAACCTGCTGGTGGAAAAGCAATATGGCTTCTGTAAGGGGACAGTCACAGCGAAGGTTAATGAGG
+AAGATGTTGCGGTGACCTGCACGGTGTTCCAAACCCAGCCTGTGGTCCTGCAGCCCCAACCTGCCGGTGCTGATGCGGGG
+GCCACCCCTGTGGTGGATGCAGCTGCAACTGCATCTCCTCTAGCTGACGTGCCCGCAGCTTCCCTGGTGGTGGGACCCAT
+GGTGGTGGCAGTTCCTCCGGGCATCCCGCCAGTGCACCGATCACACTACGACCTGCGCCACTCTTTCTCGGGTGTGGCCT
+CAGTGGAGTCAGCCTCCGGAGAAGCATTCCACGTGGGGAAAACACCCAAGGGGGCACAGCCTAGCATTCCTGCTGCTGAT
+GGCTCAGTTCCAGTGGTCCGCCCTTGCCCTGGGAGAATCAGACACTTCAAGATCTAGAAGATGGTCAGAGATGAGGTTTG
+GCACAGAGAACATTGCCGCCATTGTCCAAGTATGGGTGTGGGTGGGGGCCTTGTCTGCTGTCAAAGCAAGTGCTGTGTGG
+TCTATCTTAATGTCAAGTCTTGTACCCTGACTTCTCATCCTTTAGAGGACAGAAGCAGGGGGGTACTAGTTATGTTTGAT
+GGAAGGCATAAGGTCAGCAATTTGATTCACTGTTTTGAGGCCAGGCCACCACCATTGTGTTCTCTGCCTTCTCTTGACCT
+CTCAAAAATAATTGGGACTGTGACTCTGAAAGGTGCTCTTGACAAGTTTATATCTGCTTATTAATAAAAATGTCTGAAGA
+CCATTACTTATAAAGAAAGTTCCGGAATTC
+>ref|X12696.1| Pig DNA for male-specific repeat 1
+GAATTCTCATTAGGTCCCTTATGTGTAGGTGGTGGAAAAGATGTTGATCTCGGAGTCAAATGTGTGATCATGTAGAACGC
+AGTGGCAATGGGATGGTTATCTGTCAGTGTGAAGGGCTGAGAATGGTAAGGTATGGGTGCACGGTGTAAGGTGAAATATC
+TCCATACAAGAAGCGGAGTTACTTCCTGCGCAAAGAATTTGTAGTTGATAGGAGTTTGGAAGACTGATGGAGAATCTCGG
+TTAAAGAATTTGACTGCTCTCCTGGCTGAGATTTGCCAACCTGGACCAGCACAGATAACCTTGGCTGAGGAGGATTCGAG
+AGAATGTGAAGGAGGAAGAAGCCGAGAGAGAGAGAGAGATGAAATTTGGATACAAGCCACATTCCAGGGCACAGTTTCAT
+TCCCAAGCCCTTGTCTGTGTTTCCGGGGACTATTAGACACGAAGGCTGTATCAGGACTCTTGCATGAGATTTTCACTCGT
+TCTTGGCCTTTCTCTAGAAGTACGTCGATTGCCAGCAGTCCGTGCTTGGCACCCATGTCTTCTCAAAGTACACGAGGTGT
+GGGTCAGTTAAATGACACCCTATATTTTCCCTAAGCGGCAAAGACACTGCCTATTGAAATGGCAGCTCATAGGGTGTCCT
+TCCTCAGTCGTTCCTTGATTTCATTGTCCAGGGGCCTTTAGTTTGGGTGTTTGGAATGATATCTTTTCTCTCCAAAAGAG
+ATTCTATACTGTGTATTCGTGTGAAGCAGTGACTGAGAAAGCACTTGACCCTGAAGTGCTGCACATGTTATCAGATATCC
+ATCATGATAGAGAAAATTGGGCTCCCCAGTGTGTGGAGTTGCCTTCCTTCGGAAAGGTGCAGTCCCAGAGGTGGCCATGG
+TTCTGATATCATGCCCATGGAGCCTTGTGCCCAAACAACCTCTCTGTGAGAAAAGAGGTGTGTGATGGGCCATATGTGGG
+AAAGTCTCACCCTCAAACCTTGAGAGTTAAAGGATGGACACCCTGAGCTCTTGCTCTGGAGGTCTGTCGAAGTTGATGGA
+AAGGAGGATCCATCAGATGGGTGGTCCTTTTGGATGAACACTATTATCGCCATCTGTAGACTCATAGCCACCACTCTCAT
+CAGGCTCCCAAGCTCAATGTGGATTCTAGAGGCTTGGTGTTTGAACATGTGATATCTTCAGGGGATCCGTGGGCAGAATA
+CCTCACGGGAGTTCCTCCATGTGAAAAAAGAGTTGTGCTTCAGGGCCATTTGAAACAATACCTCCCGCGGCACAAAGAAG
+GAATCCATGCCCGAATGCTCTCCACCAAGCGTGAGGCCCTGGATGTAACCCCTCAAAGAGACTTTCCCAATGGGGCATTT
+TCAGCTCCACACTTCTGAATCCATATTTCCATAGCCTAAGCCACAGGGGAGCCCTCCAAACAGAGGCCTTTAAACCAAGA
+TGTATCCGGTCTATTTCAGGTGCCTTTTCCACAGGTGGATAAGAACAAGCCCTCCCACTCATTGAGTGACTTACTGGGAG
+TGTGGTGCCTGGGGCCAGGGCCAGTGTGTTTGTTCTATCTACAGTCATAAGGAAGGAAGCTGGGACGATGATCTGATCTT
+CCAGGAGCGCTGTGATGATGCCTGCAATGTGAGGGTATTGAAAGTTCCCTCCTGGAAGGGAGTGGGCTCTGTCCCTGACA
+CTCCTGAGGCTAGAGAATGAGGAGGTCTAATCCATAGAGACTGGTTTTTGTTGACAGACATCTTGCACTCTGGGCTCTTG
+TTGGCCAGCCCACTCGCCAAGGATGCTCAGACCATTGTTTGGATGCCCAGTCATTGAGACATGAAGAGTCCTAGACATCA
+TATTCTATATCCCCTAAGAACGAGTCCAGAGATCCTCACATGAGCAAATCCACCATACCTCATGGACCAGGTAGGGAATG
+CTGCAGATCAGCACTTTCTTGGGAGAGCACTCATGGGAACGTTGTTTCAAGTGCGTTGCACTCTGCGTCCAATATGGGAC
+CCTCGAGACCGAAGTACATATGAAGTGGTCAGCGTGTCCATAGGAAGGGATGACTATGGGAAGTATGGTTTAAGGCTGAC
+CTAGTTGGGGTGTCTCCACACAGCACAGGAAGTCTTTCAGGACCACGGAATTTATATGCGATCAGACCTAGGATGACAGG
+GAGAAAAGGCTGGGGGATAACTTGGACGATTCTCTTGGCAAATATATTTGATCCATTATTACCCCAGGTCGAATTGTAGC
+AGGAGGATACAGGAGAAATTGAAGGGGGGCAAAGGGGAGAGTGAGAGAGCTAGAGAGAAGGAGATGAAAAGAAGGCGAGA
+GAGAGGTAAAGGAGCTGTTGTTTCAAGCAACTGTCAATGGCAGGATAATTTCTCCAAGGACGTGTCTTTCTTTAAGGTGG
+CTAGCACACAAATGGGACAAACCAGCACACTTGTCCCAGAGTCTTCTCTCCTTCAAGGCCTGACGCCCACATTGTGTCTA
+TTACAATCCCTGCTCCATCCTGGAAGACAGGTTTGAAAGCCTTGCTGTGGTCCCTCTATCTTCTCCAATGGCATGGGGTG
+GAAATCAGAGTAAGAGATATTCCATAGTTTCCTTCAGGGGAAAAGCCTCCTCCCATGGAAAGAGATGCTCGTGTGTTGTT
+CTTCCTCCATCGGCCATTGTTTTCCTGTTCAGGCTCCGTGGGGAGTGGGTCTTTTTCAATGCCATATTTTCTTTCCTAAT
+GAGGTTGTAGACTGTGTATTCCTGGGAAGCAGTTTTGGAACCACCGTGTTGAGCCTGACACACGTTCAGGGGAAGAGGCA
+TCCTTCTGTAGAGAGCAGGTGGGCACAGAGGAGGTGGAGTTGCCTTCCATCTAGAAGTTCAGGCCCAATGGTTGCCATGG
+CAAGGGCATGTTGCGCACCAAGTATTGTGACACAACACACCGTATGTGAGAAGAGAGGCGAGGGATGGGCCCAAAGTGGG
+AAGCTCTCACCGTCACCCCCAATTGGTTGTACCTCGGGCAGCCTGATCTCATGATCTGGAGGTATGTTGATACTAAATGA
+AACGAGGATCCATTGGATGTATTGGACAATTGGATGATAAGTAGTATTTCCAGCATTCTTCTCATGGCCACCATTCTCAT
+CAGGCTGCTGAGGAAATAGGCACTGCTCAGGCTTGCTTTTGGATGATGATCCATTTGAAAGGGACCAGTGAGCCTATCCC
+TTCCAGTCTTTTCCAACAGGGAAAAAAAGACTCCTAAGTATGACCGGGATGAGAAATCTCATTCCAGATCTCAAAGCCTG
+AAAATTGGCCACTCAGCCTTCCAAAAAAGACGAGGCCCTCAACATCAACCCTTACGAAATACTGGAATGGGGGCAAGGAC
+CATTCCTTGCTTCGGAACGTACACGTCCATAGATGAAATCACAAACTAGCTCTCCACAGTAACAAATTTCCCAAGAATGA
+AGCTGGGATATGTCTGGTGGGTATTTCACAGGTTGATAAGAATAAGTCCTGTCTAAAGGGGTGCTGGATGGAAGTGGGGT
+GACTAGTTCCACTGCTGGCTGTTTGTGGGGTACACAGTTGTCAGGAATTTAAGGAGTCTCTCTTGTTATCTTCCGTGAGC
+CCTGTGGTGAGGGCTCCCCTTGGGCAGGACTTGAGGTTTCGCTCTTGGACGAGAGGGGCCTCTGGCCTGCCAATGGAGGG
+TCTAGAGAAGGAGGAGGATTGTCCCAAATGGAGACTGGTTTGAGGGGACCGAATCCTGGAACTCTGTCCCATTGTCATTC
+AGACCCTGCTGAAGGGTGCTCAGACCCCTTCTTAGATGCCAAATCACTGAGACATGGAGAGGCAGAGAATTC
+>ref|X65498.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.1.2)
+CCCCGGCTGACAAGTGTGCGGTCCCACAGGGGCCTGGACAGCTTCAGCGGAAAGCCACGGGGCTCTGGGGCCCCGGCTGG
+CACAGCGCTACCCCTCGAGGGCGTCATCCTGAGCCTGCAGGACCTCATCGGCTACTTTGAGCCGCCCTCGGAAGAGCTGC
+AGCACGAGGAGAAGCAGAGCAAGCTCGGCAGCCTGCGCAACCGCCAGAGCCTCTTCCAGGAGGAGGTGAGGCCAGGGCCC
+GGGAGGGCGGGGTCTTTGGCCGGGGGGGGGGGGGAGGGGGGGCTGTCACAGCAGCCGCGTCTGCCTGGACCCAAGGGAGA
+AGTGGTCTGAGATTCAGGATGGATGAAGAGACCTGAGGAAGGATCC
+>ref|X65499.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.17)
+GGATCCTTAGACCCTCAAACTTAGATCCCAAGTCTCATGCCCCCACTCCAGCCTCACCCTGAGCCCAAATCTGAGGCTAC
+CACTTCGTACCCTGAAACTCACATATCCAGCTGCGGACCCCGCCACCAGCCCCCGCAACCAGCCCCCAGCCTCCTGCAGG
+GGAGAAGCAGGGCTCCCAGGCTCCACATTGGCTCCGGGCCCTTCTGCAACCCCAGCTCCCCTGTGACCACCGTCCCTTGC
+TCTGTCCAGGCTATGTGACTGGGGGTCACGTCCTCCGCCTCTTTCACGGACACATGGATGAGTGCCTGACCATCTCCCCC
+GCTGACAGTGATGACCAGCGCAGGTCTGGGCTGGGGGCAAGAGGGCCTGGGGTCTTGTGTTTGGGGGCGGTGTGGCAAAG
+GCTGGCGGGGGGGCAGCCTGGCACCCTGTGGGGGGATTAGGGAGCAGACTCTGGGTGCCTGGAGCCTGAACCCCTGCCCT
+CGCTCTCTTCCACGTGCACAGACTTGTCTACTACGAGGGTGGATCTGTGTGCACCCACGCCCGCTCCCTCTGGAGACTGG
+AACCGCTGAGAATCAGGTAGGGGGGCAGGAGGCAGGCTGGGGAGGGGCTAGAAGTTCCTGGGGGGCCTGGGAGGAGAAGA
+GGATCTTTTTTTTTTAAGGCCACTCCTGTGGCCTATGGAGGTTCCCAGGCTAGGGGTCCACTCGGAGCTGCAGCGGCCGG
+CCTACACCCCAGCCACAGCAACGCTGGATCC
+>ref|X65500.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.5)
+GGGAAAACTGGGACACTGGAAACATCTGGGGCGCCCTGAGGAAGTGGTGAGGGCCTAAGAGGAGACTGGGTTCCTAAATG
+AGGACTGGGGGGTCCTAAGAAAGATCTGAGGGCTTCGAGGGGGGGGGCACCCTGGAAGAGGGCTAAGGGCTTTCACCCGA
+GACTGTGGTGTCCATGGGAGACCTGGGGGCCTCGGACCCCTCCTTATCACCCTCTGCAGCTGGAGTGGGAGCCACCTGCG
+CTGGGGCCAGCCGCTTCGCATCCGGCATGTCACCACCGGGAGGTACCTGGCGCTCATCGAGGACCAGGGCCTGGTGGTGG
+TTGATGCCAGCAAGGCCCACACCAAGGCCACCTCCTTCTGTTTCCGCATTTCCAAGGTTCGGTGGGGGTCAAATATCCTC
+CCTCAGCTGGAGGCCCCAAATCCCACCCCAGCCGCCCCCTGCCGTCTCTCAGCTCCTGTGCCGGCTGACCTCTGTCCCCT
+ACCCCTGCAGGAGAAGCTGGATACGGCCCCCAAGCGGGACGTGGAGGGCATGGGCCCCCCTGAGATCAAGTATGGGGAGT
+CACTGTGCTTCGTGCAGCATGTGGCCTCGGGCCTGTGGCTTACCTATGCTGCCCCAGACCCCAAGGCCCTGCGGCTCGGC
+GTGCTCAAGAAGAAGGTGGGTGTCTGGCCAGGGGAGGTGTGGGGTGTAGGCAGGGCAGGAAGGGGACTGGGGCTGGTCAT
+GCTTGAGCCTTCAGGAGGTTGAGGATGGGATTGAGAAAAAGACAATGACTGAGAGAGAAACTAAGGTTGAAAGAATGGAG
+TTCCTGTTGAGGCTCAGTGGTAATGAACCTGACTAGTATCCATGAGGATGCAAGTTCAATCCTTGGCCTTGCTCAGTGGG
+TTAAGGATCC
+>ref|X65501.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.8)
+GCCATTCTGCACCAGGAAGGCCACATGGACGATGCACTGTCACTGACCCGCTGTCAGCAGGAGGAGTCCCAGGCGGCCCG
+CATGATCTATAGCACTGCTGGCCTCTACAACCACTTCATCAAGTGAGCCACCTGGCCACTCTGCTGTGGGGGGCTGGGGG
+CGGCCACAGCTTGACCCCCGTGCTCCTGGTGTTCATGCCCCTGACCTCTGACATCTCTGCCTCTGACATCCGCACCTCTA
+ACAAACACAACCTCTTGACCTCTATACGCTTGATCCCTAACCTGAATGCCACAACCATGCCTTTGACTTCACCTCCCTGA
+TCACCACCTAATCTCACACCCCTGACACCCAGACCCTCGGATCC
+>ref|X65502.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9 (3'))
+TTCTCTGTCTTTGACGTCTCTCTGTCTGTCTCTGCCTCTGCTTTCTCTCTCTGTGTCTCTGTCTCCATGGCTCTGCCTTT
+CCGTTTTTCCTGCGTATGTGTCTCTTTGTCTTTTTCCCTCTCCCCCCCAGCCTTCCCTCCAGCCTGGCTCTCTTCTCCAG
+CCCTCCTCATCCTCCTCTTCTGTCCCATTTCTCCTGCAGCATCCGCCCCAACATCTTTGTGGGCCGAGCAGAGGGCACCA
+CACAGTACAGCAAATGGTACTTTGAGGTCATGGTGGACGAAGTGGTTCCATTCCTGACAGCTCAGGCCACCCACCTGCGG
+GTGGGCTGGGCCCTCACCGAAGGCTACAGCCCCTACCCTGGGGGCGGCGAGGGCTGGGGCGGCAACGGGGTCGGCGATGA
+CCTCTATTCCTACGGCTTTGACGGGCTGCATCTCTGGACAGGTACCTGGACCCTTGCAGGGGACCCTTGACCCCAGGGTT
+TCGAAGGCTCTCACTGCACGCTTTGGGGTTCTTGGGATCT
+>ref|X65504.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9.2/9.1)
+GGCTTTCACCACCTCTTCTCAGTCACATCCCCACCTCCCACCCTGGGACATCATCCTTCTGGCTTTCCCACCCTGGGTCT
+TCCATGGACCACACCCTCCCCGGCAAGTGCCCTCACACCTTGACCTCTGACCTTGACCCCTAGGTGCTGGATGTCCTGTG
+TTCCCTGTGTGTGTGCAATGGTGTGGCCGTGCGCTCCAACCAAGATCTCATTACTGAGAACTTGCTCCCTGGCCGCGAGC
+TTCTGCTGCAGACAAACCTCATCAACTATGTCACCAGGTCTGGCCCCCCAACCTTTGACCCCAGAGCTTAGAACCCTCCA
+CCACCCCGCCCCGACTCAGAGACTCCACTCCGGTGAATGGCCCTTCCTCCGTCCCCCACCCCCGGACTTAATGCCAGTCC
+CCACCCCTGTGGTGCTTGTCCCAGCTTGTCCCTGGCTTCTTACTTCTCTTACCCTTCTTCCCCAAACTCTTTCTCCCCTC
+TGTCCTCTT
+>ref|X65503.1| S.scrofa ryr1 gene for ryanodine receptor, exon (pRYR56-15.9 (5'))
+GGATCCTGGAGGTGCTGTACTGTGTCCTGATTGAGAGTCCTGAGGTCCTGAACATCATCCAGGAGAACCACATCAAGTCC
+ATCATCTCCCTTCTGGACAAGCATGGGAGGAACCACAAGGTGGGCCTGTGATCCCCTCAATTCTGCACTTGATCTTTCCC
+CACCCCCCCTCTTCACTCTTACCTGGACTCCTCTGCCACATGCTTCTAGCTCAATACAAAGGTCTCAAACTCCTTGTTTT
+TGTTTTTGTTTTTATGGCTGAACCTGTGGCAAATGGAGTTCAGGCAAGGGGTGAACCAGAGCTATAGCTGCTGGCCTACA
+CCACAGCCTCATCAACAACGCAGAT
+>ref|Z15155.1| S.scrofa RYR1 gene for ryanodine receptor
+ACCCGCAGGAAGTCCTGAGTCCTGANCCCCGGAACACCTCTGCTCCCAGNCCCCTGGNNCCCCAGAATGCTCTTCAATTC
+CCAGGACACTCTTCTGCAGAGGGTCCCCCAACNCCCCCAGGATGGTTTCTCACCCAGAATGCCCCATGGTTCTAGAATGT
+TCCCGATCCTTCAAATAACCCCTAACCAGAGACCCCGGCNCCTTGNCCCCAGCNCACCCAGCACTCTTGAATACTCCTGG
+GCCCCCTGAGTGACCCCTGACCCCGTGTGCCGGCAGTCGTTCCTGTACCTGGGCTGGTACATGGTTGATTGTCCCTCCTG
+GGTCACTACAACAACTTCTTCTTNNCTTGCCCACCTCCTGGACATTGCCATGGGGGTCAAGACGCTGCGTACCATCCTCT
+CGTCCGTCACCCACAATGGCAAACAGGTGTGGAGAGGACCGGCCTGGGGGCGGGCGCCAGTGGACGTGGGCGGCGGGCAG
+CTAAGGTGAGGAGGGGCAAGGCCGGTGGGCGCGGGCCACCCGGGGGGGGGAGTCGAACTGGCACAGAGAGAGAGACAGAG
+AGACAGAGAGAGACAGAGAGACAGAGACAGAGACAGAGAGACAGAGACAGAGAGACAGACAGAGACAGAGACACACACAG
+CTGGGAAGGTGAGGGGTGAGCCGAGCGAGGCGCTGACCTGCTCCCCGCCCCGCCCCCAGCTGGTGATGACCGTGGGCCTC
+CTGGCGGTTGTGGTCTACCTGTACACCGTGGTGGCCTTCAACTTCTTCCGCAAGTTCTACAACAAGAGCGAGGACGAGCC
+TGACATGAAGTGTGATGACATGATGACGGTGAGCCCCTGCCCCCAACACTCTTGGGCATGCTGTTGACCATTCCTGACCC
+TCAGTTTTCCCATCCGGAAAGGGGGTGAGTAATAGCACCCACCTTGTCGACTTACTGGGAGGATTCAGTGAGGCACTTGG
+AATAGTGCCCGGTAAATGTGAGCCACTACTGTTATTTGAGATTTGTTTGTTTGTTTTTGTTTTTTGTTTTGCTGTCCATG
+CATGTGGAGTCCGGCAGGATCAGATCTGAGCACAG
+>ref|Z15156.1| S.scrofa RYR1 gene for ryanodine receptor
+TGCCTGAGCCCTCCATCTACAACCCTGATCGTTTCTGGGCTGTCACTATCTGATGCCAAGCTTGTGAGCCCTGTGAGTGC
+AGGGTTCAGGGNTGTCTCAGTCATTGCCATGCGAGNGGCGCCCCAGGCAGCTCAGGGCCTTGTGGGTACTCAGTGAGTCG
+TCGAGTGATTGAATGTGTGACTAACGTGCTTCTTGCCCTGCTTTGCAGTGTTACCTGTTTCACATGTATGTGGGTGTCCG
+CGCTGGTGGGGGNATTGGGGACGAGATCGAGGACCCAGCAGGAGATGAATATGAGCTCTACCGGGTGGTCTTTGACATCA
+CCTTCTTCTTCTTCGTCATCGTCATCCTGTTGGCCATCATCCAGGGTCAGTGCCTTGCCGGGGCTGTGGGGAGTGGGGGC
+TCCGTGGCCAGACGNACCAGCTCCTTTTAGCGTGCAGGCCCAGGATCCACTTGGCATGAAATGCAAACCTGGTTCTGCCT
+CTCCCTACTGTGACACATGGGGCAAGTCACCTCTCTGAGCCTGTTTCTCCGTCTGTAACATGGGGTTATTAATTATCTAG
+CTGTGAGAATTCAGTCAGTTCATAGGGGGTAAGTGGCTGGCTCATGATAAGTGCTCAGGAAGGGCATGGTGTTATTATTT
+TAGAAGCAGGTGCATTAGGAGATGATGGAGGCGAGGTAGGTAACCAGGAGAGGGAGGATGCTGAACTGGGTCAGAGGTTG
+GACGCCGACTTGCACCCTGCCACCTCAGGTCTGATCATTGATGCTTTTGGCGAGCTCCGAGACCAACAAGAGCAAGTGAG
+AGAAGATATGGAGGTAGGTCATGTCTAAGGGTGACCCACAGGGGTTATGGGACCGGTTCAGGGTAGGGGTGGGGGGTCGA
+ATGGGCCTCGACTCTGATGTCTCCTGCCATCTGCAGACCAAGTGCTTCATCTGTGGCATCGGCAGCGATTACTTTGATAC
+GACACCACACAGGTTCGAGACCCACACGCTAGAGGAGCACAACCTGGCCAATTACATGTGAGTGTGGACCGCTGGCCAAT
+CAGGAGGGTGGGCGTGGCCACTGACAGCAGCCAGGGGCTGGATCCTGGGCATCTGCTGGTTAGGGAAGGGGGTGTGGTGT
+CCATGGGGGTGGATTCCCAGCCAGCCAATCAGGAGAAGGTAAGGGTGGTCCTCACCTGTCTCCCGCTGCCCTCCCACCCC
+TAGGTTTTTCCTGATGTATCTGATAAACAAGGACGAGACAGAACACACGGGTCAGGTAAAGGGGTGTTAACGGGAGGCCA
+ATGGGCAGGGACGTGGAGAATTATAATATAAGGGTAATCAGCAGGGGGCAGTAAAAAGCTCATATCAATATCAAGCGTTT
+GAAAATGTGACCAACTGACTCTTCCCCATCCCCCACCCCTAGGAGTCTTATGTCTGGAAGATGTACCAAGAGAGATGCTG
+GGATTTCTTCCCGGCTGGCGATTGTTTCCGCAAGCAGTATGAGGACCAGCTTAGCTGAGACACCCCCAGCTGGCCGGCAC
+CCCCACCTCAAGTGCCTTGTTTTCAC
+>ref|NM_214023.1| Sus scrofa secreted phosphoprotein 1 (SPP1), mRNA
X16575.1 Porcine Spp1 gene for SPPI (osteopontin)
+AGCGAGCGGAGGCCAGAGGGCAGCACTGACAGCCGCATCAGCATTGCTCCCGGGACTGGACTCTTCGCGGGGCTGCAGAC
+CAAGGAAAATCATTACCATGAGAATTGCAGTGATAGCCTTCTGCCTCTGGGGCTTCGCCTCTGCCCTTCCAGTTAAACAG
+ACTAATTCTGGCAGCTCGGAGGAAAAGCTGCTTTCCAACAAATACACAGATGCTGTAGCCACATTGCTAAAGCCTGACCC
+ATCTCAGAAGCAGACTTTCCTAGCGCCACAGAATACTATTTCCTCGGAGGAAACGGACGACTTCAAACAAGAGACCCTGC
+CAAGCAAGTCCAACGAAAGCCCTGAGCAAACAGACGATGTGGACGACGACGACGACGAAGACCACGTGGACAGCAGGGAC
+ACGGACTCCGAGGAAGCTGATCACGCTGACGACGCTGACCGATCCGACGAGTCTCATCACTCCGATGAATCCGATGAGCT
+GGTCACCGATTTCCCCACCGACACCCCAGCAACCGACGTCACTCCGGCTGTCCCCACGGGAGACCCCAATGATGGCCGCG
+GGGATAGTGTGGTCTATGGACTGAGGTCAAAATCTAAGAAGTTCCGCAGATCCGAAGCCCAGCAGCTGGATGCCACAGAG
+GAAGACCTCACGTCACATGTGGAAAGTGAGGAGACGGATGGTACCCCCAAGGCCATCCTCGTTGCCCAGCGCCTGCACGT
+GGCTTCTGACTTGGACAGCCAAGAGAAGGACAGTCAGGAGACGAGTCAGCCGGATGACCGCAGTGTGGAAACCCGCAGCC
+AGGAGCAGTCCAAAGAATACACGATCAAGACCTATGATGGGAGCAATGAGCATTCCAATGTGATTGAGAGTCAGGAAAAT
+CCCAAAGTCAGCCAAGAATTCCACAGCCATGAAGACAAGCTGGTCCCAGACTCTAAGAGCGAAGAAGACAAACACCTGAA
+ACTTCGAGTTTCTCATGAATTAGAGAGTGCGTCTTCTGAGATCAACTGAGAGAAATACAATGTCTTACTTTGCTTTTAGT
+AAAAAGAAAAAAAAACACATTGTAGCGAGGTGGGAGAAAATATGAAAGGCTTATTTCTCAGCTTAGTTGGTGAATGTATA
+TGTGTGTGGCTCTGGAAACAAATAATATTTTTGATCATTAGTTTAGTGTGTGGCTTCATGGTAACACCCTTGTCAACTAA
+AAGCTTCAGGGTTTAGTCGACGGTCTTTCCGTATAAGAAATACAAGCCGTCACTGATTTGTAATGTTTGCTATCCTTTTA
+TGAATAGAAATTTATGTAGAAGCAAACAAAACACTGACACACTTATAAGAGAGGATATAAAATTTCATGTCACTCTGATC
+TTTTGTTTTTTAAATTAGTGTATATTTTGTTGATTATTTTTGTTGGTGTGAATAAAATATCTCGAATGTA
+>ref|X12386.1| Porcine mRNA for transferrin
+CGGTCGCCCAAAAAACTGTAAGATGGTGCACCATTTCAAATCAGGAGGCCAATAAGTGCTCCAGTTTCCGTGAAAACATG
+AGTAAAGCCGTTAAGAATGGTCCTCTTGTCTCCTGTGTGAAAAAATCCTCCTACCTGGATTGCATCAAAGCCATCAGGGA
+TAAAGAAGCAGATGCTGTGACACTGGATGCGGGTTTGGTATTTGAGGCAGGCCTGGCCCCCTACAACCTGAAGCCTGTTG
+TGGCAGAGTTCTATGGGCAGAAAGATAATCCACAAACCCATTATTACGCGGTGGCCGTGGTGAAGAAGGGCAGCAACTTC
+CAGTGGAACCAGCTCCAAGGCAAGAGGTCCTGCCACACAGGCCTCGGCCGTTCTGCTGGATGGATCATCCCCATGGGATT
+ACTTTACGATCAACTGCCTGAGCCACGGAAACCTATTGAGAAAGCAGTGGCCAGTTTCTTCTCCAGCAGCTGCGTCCCCT
+GTGCGGATCCGGTGAACTTCCCCAAACTGTGCCAACAGTGTGCTGGGAAAGGGGCTGAAAAGTGTGCCTGCTCCAACCAT
+GAACCGTACTTCGGCTACGCGGGTGCCTTCAATTGCCTGAAGGAGGATGCTGGGGACGTGGCCTTTGTCAAGCACTCAAC
+AGTATTGGAGAACCTGCCTGACAAGGCNGACAGGGACCAGTACGAGCTGCTCTGCAGGGACAACACCAGGAGGCCTGTGG
+ATGACTACGAGAACTGCTACCTGGCACAGGTCCCTTCCCACGCCGTCGTGGCCCGAAGCGTGGATGGNCAGGAGGACTCA
+ATCTGGGAGCTTCTCAACCAGGCCCAGGAGCATTTTGGCAGAGATAAATCTCCAGACTTCCAGCTTTTCAGCTCCTCTCA
+TGGGAAGGACCTGCTGTTTAAGGATTCTGCCAATGGGTTCTTAANGATTCCCTCTAAGATGGACTCCTCGCTGTACCTGG
+GGTATCAGTATGTCACTGCTCTTCGGAATCTAAGAGAAGAAATAAGCCCTGATAGCTCAAAGAATGAATGCAAGAAGGTG
+AGGTGGTGTGCCATAGGCCACGAGGAGACGCAAAAATGCGATGCGTGGAGCATAAACAGTGGTGGGAAAATAGAGTGTGT
+ATCCGCAGAAAACACCGAAGACTGTATCGCCAAGATCGTGAAAGGAGAGGCTGATGCCATGAGCTTGGATGGAGGCTACA
+TCTACATTGCGGGCAAGTGTGGTCTGGTGCCTGTCCTGGCAGAGAACTACAAAACTGAGGGTGAAAACTGTGTAAACACA
+CCAGAGAAAGGGTATTTGGCTGTGGCTGTGGTTAAGAAATCATCAGGTCCTGATCTCAACTGGAACAATCTAAAGGGCAA
+GAAGTCCTGCCACACTGCAGTAGATAGAACTGCTGGCTGGAACATCCCCATGGGTCTGCTCTACAACAAGATTAACAGTT
+GTAAATTTGATCAGTTTTTCGGTGAAGGCTGTGCCCCTGGGTCTCAGCGAAATTCCAGTCTCTGTGCTCTGTGTATCGGC
+TCGGAACGTGCGCCTGGAAGGGAATGCTTAGCCAACAACCATGAGAGATACTATGGCTACACAGGGGCTTTCAGGTGTCT
+GGTTGAGAAGGGAGATGTGGCCTTTGTGAAGGATCAGGTTGTCCAGCAGAACACTGACGGAAAAAACAAGGATGATTGGG
+CAAAAGATCTGAAGCAGATGGATTTTGAGCTGCTGTGCCAGAACGGCGCCAGGGAGCCTGTGGATAATGCTGAGAACTGC
+CACCTGGCCAGAGCCCCAAACCATGCTGTGGTTGCACGGGATGATAAAGTGACCTGTGTTGCTGAGGAGTTACTTAAACA
+GCAGGCTCAATTTGGAAGACATGTAACCGACTGCTCAAGCAGCTTTTGCATGTTCAAGTCAAATACCAAGGACCTCCTCT
+TCAGGGATGACACCCAATGTTTGGCCAGAGTTGGCAAAACTACGTATGAATCCTACTTAGGAGCCGACTACATCACGGCT
+GTGGCTAACCTGAGAAAATGCTCAACCTCAAAACTCCTGGAAGCCTGTACTTTCCACAGTGCTAAAAATCCAAGAGTGGA
+GACTACCACCTGATGGAGACGGGAGCTCACGGGACCCATAAGCTTCCCTCTGGTTGTGCTGGCCTGAGTGGTTTGGTTGC
+CTTCACACTTTCGTGGTGGCACCTCTGCAGGACAAAAAAAAAAAATAAAAATTATTATCATTTTTGTCTTTTAAAAAAAA
+AAAAAAAAAAAAAACCGG
+>ref|X16170.1| Pig mRNA for transition protein 1 (TP1)
+AAAAAAAAGCCCCTCATTTTGGCAGAAAGTACAATGTCGACCAGCCGCAAGTTAAAGAGCCATGGCATGAGGAGGGGCAA
+GAACCGCGCTCCTCACAAGGGAGTTAAGAGAGGTGGCAGCAAAAGAAAATACCGGAAGGGCAGCCTGAAGAGTAGAAAAC
+GGTGCGATGATGCCAATCGCAATTACCGCTCCCACTTGTGATCTCCACCAGCTTTCTCTCTCCTGGTAGACTTCAAGGAC
+ACCAGGCAGCAACAGAGAACAGAAGGAGGACTACCAAGGAGACCTGAAGTTAGGTCAATTGCCAGAGAAGAGCCTATCAT
+GTGGGTAAAATTGCCAGTTT
+>ref|X62846.1| S.scrofa UABP-2 gene exon 2
+TGTCCTCCATAGATTTAGCTAGCATCCGCCAATCCAGGACTAATGGCAACCCCACCCAGGTGAACTGCACAGAGAGAAGA
+CTGAGTCCTTTTCAATCCCCTCCACACTGAGAACCCAGTCCATCGAATGTTCACATCTATACCTCTTCCTTCCAATAACA
+GCTCTCTGGATTGTTGCAGAAATGTCCCACGGGAAAATGCCTCTGGTGCTTTCTCTGGTTCTCATCCTCTGTGGCCTTTT
+TAATAGCATCTCCTGTGAAAAGCAGCAAACCTCCCCAAAGACTATTACCCCAGTCTCATTCAAGAGAATTGCAGCTCTCT
+CCCAGAAGATGGAAGCTAACTACAAGGCTTTTGCCCAAGAATTGTTCAAGACTCTGTTAATCGAGGATCCCAGAAAGAAT
+ATGATCTTCTCCCCTGTGAGCATCTCCATTTCCCTGGCCACCCTCTCCCTGGGGCTCAGATCCGCAACACGCACCAACGC
+CATTGACGTCCTGGAACGTGACCTCAGAAACCTCCGAGTGTGGGACAAGCACCAGGCTTTACAGCATCTTGTTGAGATGC
+TGCACGAGCTAGAAAAGAAGAAACAGCTAAAGCACAAGGATATTTTCTTTATCGATAGGAACAAGAAGATGAACCAGATG
+TTTCTGAAGGAGATAGACAGGGTATATAAAGTGGACATCCAGATGATCGACTTTAAAGATAAAGAAAAAACTAAGAAGGC
+CATCAACCAATTTGTGGCTGACAAAATAGATAAGAAAGCCAAAAACTTAATCACCCACCTGGACCCTCAGACCCTCCTAT
+GTCTTGTCAACTACGTTTTTTTCAAAGGTGAGGTTTATTAAGTGCAATTCCCGATTTGAGGTAATCTTTGCGCTTGTGTT
+TCCTAAAAGGTTTGTGTCAGAAAAAAAAAAGTAGTTTATGTGAGTATATCCCGATTTTCCCGAGAAACCAGTAGATCCAA
+AAAGCTTTTTCGTTGTCTTTGATATCATTGTTGGCCAGCATTTTGCAGTTTTTCTCCTCTTAATCCTTTTTAATCATCTT
+GTTTGCCTTGCATTATGGTATTTTGGAGTAAAAGGCAATGACTCTTGCTGGTAAAAAGGAAAAAAGAAA
+>ref|X62847.1| S.scrofa UABP-2 gene exon 3
+TTTCCCAAATCCTTTTGATCTTCCTTCCTGATTCCCCCCAGGCATTTTGGAAAGAGCTTTCCAAACCAACCTCACAAAGA
+AGGAGGACTTCTTTGTGAATGAAAAGACCATAGTGCAGGTGGACATGATGAGGAAGACAGAACGAATGATTTACAGCCGG
+TCAGAGGAACTGCTGGCTACGATGGTTAAAATGCCTTGCAAAGAAAACGCGTCCATAATTCTTGTCCTCCCTGACACAGG
+AAAATTTGACTTTGCTTTAAAAGAGATGGCTGCTAAGAGAGCTAGACTTCAGAAAACCAATGAGCTTCAGGTATGCTATT
+CTGGAAGAACATTCTAGAATATTGTTTTTTTCCTCCAATCCCTCTTCCGTCGTAG
+>ref|X62848.1| S.scrofa UABP-2 gene exon 4
+TTGGGGGGGGGCCTTTCCCCAGGACCCTGGGAAAGGCCATAGTCCAAGCTCCATGTTATGATTAATGACGAACAGATTGG
+TGCACTTAGTTGTGCCCAAGATCAAGATCACCTCCAAGATAGATTTAAACATCTGCTTCCAAAGATTGGCATCAATGACA
+TATTCACTACCAAGGCCGTCACCTGGAACACCACCAGGACTTCAACTATCCTGGAGGTGAGTAGGGTCTCTGTCAAAATT
+TCTGTCTTATCCAGGACAGTCTTCATCGAAAAACAACTTTCTATACATCAGTTCCAGCTCTTCTCTGGCGTGGGTTCATG
+GGATTTAGGGTTCTTTCTTCATTCGTTCATTGAAAAGTCACTGCATCAAGCACATTTGGAGTCAATGGGGATAAAGTTGT
+GAGCGAGCCAGACAAAATCTTACTCTCACTGCAGGCATGCAAGCTTTTGTTCCCTTTAGTGAGGGTTAATTTCGAGCTTG
+GCGGAA
+>ref|X62849.1| S.scrofa UABP-2 gene exon 5
+CCAAACCCCTTGTGGGGGTTCAATGGTGAAAATGCTGGGAGCCTGGTTTTCTGGAATGGAACCGGTTTTCCTCCACCTGC
+CATCAGCCAGGGAGTGAGGTTTCCTCCCTGACCTTGACCATGGAAGATCACTGGGCACACCGCCCTGGCTTGTCCTCCGG
+CCAGCCAGGTGAGTTCACACCCAGTGCTGAGAGACCTATCTCCCCTAGGCCGTGCATCATGCTGTGATAGAGGTGAAGGA
+GGATGGCTTGACCAAGAATGCAGCCAAGGACAAGGACTTTTGGAAGGTCCCCGTGGACAAGAAGGAGGTCCCCGTGGTCG
+TGAAGTTTGACAGACCCTTCTTCCTGTTTGTAGAGGATGAGATAACTCGAAGAGACCTCTTCGTGGCCAAAGTCTTCAAC
+CCCAAAACTGAGTAGAGGTGGGGCCAGGCTGTGCTGAGCAGGAACTTTGGTCATGAATAAAATGAATATAATTCACCACC
+TGTGCATTAAAAGAGGCTGAGACTGAGAAGTGTCGCTCGAGCATGGCATGGGGATGGGTCATTGCTGTTCTTCTGTCTGG
+GAACAGAGGGAACAGAGGGAGTTTGAGGGCCTGCC
+>ref|X51428.1| Pig DNA for urokinase-type plasminogen activator
+CAGCCATGGTTAGGAAGGCAAGGCAGGCACTCGAGGTAGGAATTATAGTTTACAAACAAGGTTCATTCTTGTGTCTCTAC
+CATGTAGAACTGTGCCTGACGCACAGGAGGCCCATGACGAACACTGGGTGAATGAATAAAGGAATAAATGAATGATTTCA
+CACGCATGATCTCAATGCATGATCACAACGCATGATCTCATTCAATCTGCACAGTGAGTTAGGGGCAGGGTAGGCATTGC
+GTCTTTTTGC
+>ref|Z11810.1| T.bidens interphotoreceptor retinoid binding protein gene, exon 1
+GGCCCATGTCCTGACAGTTGGGGTGCAGAGCTCCTTGAATGACCCTCGTCTGGTCATCTCCTATGAGCCCAGTGCCCTCA
+CAGCTCCTCAGAAAATCACAGCACTCACCAACCTCACACAAGAGGAACTGCTTGCCCAGTTGCAAAAGGGCATCCACTAC
+GACATCCTGGAGAGCAATGTGGGCTACTTGCGGGTGGATGACATACCGAGCCAGGAGGTGGTGAGCAAACTTGGGGACTT
+CCTGGTGGCCAATATCTGGAGGAAGCTCCTAGGCACCTCCGCCTTGGTGCTAGACCTCCGACACTGCACTGGAGGCCATG
+TTTCTGGCATCCCCTATGTCATCTCCTACTTGCATCCGGGAAACACGGTCCTGCATGTGGACACCATCTATGACCGCCCC
+TCCAATACGACCACTGAGATCTGGACCCTGCCTCAGGTCCTGGGAGAGAGATACAGTGCTGACAAGGATGTTGTGGTCCT
+CACTAGTGGCCACACCGGAGGAGTGGCTGAGGACATTGCTTACATCCTCAAACAGATACGCAGGGCCATCGTGGTGGGTG
+AGCAGACCATGGGGGGTGCCCTGGACCTCCAGAAACTGAGGATAGGCCACTCTGATTTTTTCCTCACTGTACCTGTGTCC
+AGGTCCTTAGGGCCCCTTGGTGGGGGCAGCCAGATGTGGGAGGGCAGTGGGGTGCTTCCCTCTGTGGGGATACCAGCTGA
+GCAGGCCCTAGAGAAGGCCCTGGCCATGCTCACACTGCGCAGGGCCCTGCCAGAAGTCATGCAGCACCTGCAGGAGGCCC
+TGCAGGACTACTACACCCTGGTGGACCACGTGCCTGCCCTCCTGCACCACCTGGCCAGCATGGACTTCACCATGGTGGTC
+TCTGAGGAGGATCTGATCACGAAGCTCAACGCTGGTTTGCAGGCTGTGTCTGAGGACCCTAGGCTCCTGGTACGGCCCAT
+CAGGCCCAAAGAAACCTCTTTTGGGCCTGAGCCTGGAGCCGATGACCTACCAGAGGAGGCCCCAGCAGTGCCAGAGGATG
+AGGTTGCCCGGCAGACCCTGGTGGATTCTGTGTTTCAGGTGTCAGTGCTGCCGGGTAATGTGGGTTACCTGCGCTTTGAC
+AGATTTGTTGATGCCTCTGTGCTGGAGGCACTG
diff --git a/databases/test_local_setup/setup.sh b/databases/test_local_setup/setup.sh
new file mode 100644
index 0000000..ea058c7
--- /dev/null
+++ b/databases/test_local_setup/setup.sh
@@ -0,0 +1,11 @@
+
+# Head to generate the following on a machine with acess to NT database.
+# somehow it may be possible to use the smaller: wget http://ftp.ncbi.nlm.nih.gov/blast/db/taxdb.tar.gz
+# LOCAL_NT_DB=
+#echo "don't use me."
+#exit 1
+grep -o -- '>[^ ]*' head_nt_10k.fa | cut -c2- >  ids.lst 
+blastdbcmd -db $LOCAL_NT_DB/nt -outfmt "%a %T" -entry_batch=ids.lst > taxid_map.txt 
+sed "s/^>\([^ ]*\) />ref|\1| /g" head_nt_10k.fa > cut_10k.fa
+
+mkdir -p smallnt && cd smallnt/ && makeblastdb -taxid_map ../taxid_map.txt  -in ../cut_10k.fa  -dbtype nucl -parse_seqids -out ./nt
diff --git a/docker-compose.test.yml b/docker-compose.test.yml
new file mode 100644
index 0000000..64f547b
--- /dev/null
+++ b/docker-compose.test.yml
@@ -0,0 +1,3 @@
+sut:
+  build: .
+  command: nosetests test/test_pathos.py
diff --git a/docs/Makefile b/docs/Makefile
new file mode 100644
index 0000000..0b88bcf
--- /dev/null
+++ b/docs/Makefile
@@ -0,0 +1,192 @@
+# Makefile for Sphinx documentation
+#
+
+# You can set these variables from the command line.
+SPHINXOPTS    =
+SPHINXBUILD   = sphinx-build
+PAPER         =
+BUILDDIR      = _build
+
+# User-friendly check for sphinx-build
+ifeq ($(shell which $(SPHINXBUILD) >/dev/null 2>&1; echo $$?), 1)
+$(error The '$(SPHINXBUILD)' command was not found. Make sure you have Sphinx installed, then set the SPHINXBUILD environment variable to point to the full path of the '$(SPHINXBUILD)' executable. Alternatively you can add the directory with the executable to your PATH. If you don't have Sphinx installed, grab it from http://sphinx-doc.org/)
+endif
+
+# Internal variables.
+PAPEROPT_a4     = -D latex_paper_size=a4
+PAPEROPT_letter = -D latex_paper_size=letter
+ALLSPHINXOPTS   = -d $(BUILDDIR)/doctrees $(PAPEROPT_$(PAPER)) $(SPHINXOPTS) .
+# the i18n builder cannot share the environment and doctrees with the others
+I18NSPHINXOPTS  = $(PAPEROPT_$(PAPER)) $(SPHINXOPTS) .
+
+.PHONY: help clean html dirhtml singlehtml pickle json htmlhelp qthelp devhelp epub latex latexpdf text man changes linkcheck doctest coverage gettext
+
+help:
+	@echo "Please use \`make <target>' where <target> is one of"
+	@echo "  html       to make standalone HTML files"
+	@echo "  dirhtml    to make HTML files named index.html in directories"
+	@echo "  singlehtml to make a single large HTML file"
+	@echo "  pickle     to make pickle files"
+	@echo "  json       to make JSON files"
+	@echo "  htmlhelp   to make HTML files and a HTML help project"
+	@echo "  qthelp     to make HTML files and a qthelp project"
+	@echo "  applehelp  to make an Apple Help Book"
+	@echo "  devhelp    to make HTML files and a Devhelp project"
+	@echo "  epub       to make an epub"
+	@echo "  latex      to make LaTeX files, you can set PAPER=a4 or PAPER=letter"
+	@echo "  latexpdf   to make LaTeX files and run them through pdflatex"
+	@echo "  latexpdfja to make LaTeX files and run them through platex/dvipdfmx"
+	@echo "  text       to make text files"
+	@echo "  man        to make manual pages"
+	@echo "  texinfo    to make Texinfo files"
+	@echo "  info       to make Texinfo files and run them through makeinfo"
+	@echo "  gettext    to make PO message catalogs"
+	@echo "  changes    to make an overview of all changed/added/deprecated items"
+	@echo "  xml        to make Docutils-native XML files"
+	@echo "  pseudoxml  to make pseudoxml-XML files for display purposes"
+	@echo "  linkcheck  to check all external links for integrity"
+	@echo "  doctest    to run all doctests embedded in the documentation (if enabled)"
+	@echo "  coverage   to run coverage check of the documentation (if enabled)"
+
+clean:
+	rm -rf $(BUILDDIR)/*
+
+html:
+	$(SPHINXBUILD) -b html $(ALLSPHINXOPTS) $(BUILDDIR)/html
+	@echo
+	@echo "Build finished. The HTML pages are in $(BUILDDIR)/html."
+
+dirhtml:
+	$(SPHINXBUILD) -b dirhtml $(ALLSPHINXOPTS) $(BUILDDIR)/dirhtml
+	@echo
+	@echo "Build finished. The HTML pages are in $(BUILDDIR)/dirhtml."
+
+singlehtml:
+	$(SPHINXBUILD) -b singlehtml $(ALLSPHINXOPTS) $(BUILDDIR)/singlehtml
+	@echo
+	@echo "Build finished. The HTML page is in $(BUILDDIR)/singlehtml."
+
+pickle:
+	$(SPHINXBUILD) -b pickle $(ALLSPHINXOPTS) $(BUILDDIR)/pickle
+	@echo
+	@echo "Build finished; now you can process the pickle files."
+
+json:
+	$(SPHINXBUILD) -b json $(ALLSPHINXOPTS) $(BUILDDIR)/json
+	@echo
+	@echo "Build finished; now you can process the JSON files."
+
+htmlhelp:
+	$(SPHINXBUILD) -b htmlhelp $(ALLSPHINXOPTS) $(BUILDDIR)/htmlhelp
+	@echo
+	@echo "Build finished; now you can run HTML Help Workshop with the" \
+	      ".hhp project file in $(BUILDDIR)/htmlhelp."
+
+qthelp:
+	$(SPHINXBUILD) -b qthelp $(ALLSPHINXOPTS) $(BUILDDIR)/qthelp
+	@echo
+	@echo "Build finished; now you can run "qcollectiongenerator" with the" \
+	      ".qhcp project file in $(BUILDDIR)/qthelp, like this:"
+	@echo "# qcollectiongenerator $(BUILDDIR)/qthelp/SubsampleBam.qhcp"
+	@echo "To view the help file:"
+	@echo "# assistant -collectionFile $(BUILDDIR)/qthelp/SubsampleBam.qhc"
+
+applehelp:
+	$(SPHINXBUILD) -b applehelp $(ALLSPHINXOPTS) $(BUILDDIR)/applehelp
+	@echo
+	@echo "Build finished. The help book is in $(BUILDDIR)/applehelp."
+	@echo "N.B. You won't be able to view it unless you put it in" \
+	      "~/Library/Documentation/Help or install it in your application" \
+	      "bundle."
+
+devhelp:
+	$(SPHINXBUILD) -b devhelp $(ALLSPHINXOPTS) $(BUILDDIR)/devhelp
+	@echo
+	@echo "Build finished."
+	@echo "To view the help file:"
+	@echo "# mkdir -p $$HOME/.local/share/devhelp/SubsampleBam"
+	@echo "# ln -s $(BUILDDIR)/devhelp $$HOME/.local/share/devhelp/SubsampleBam"
+	@echo "# devhelp"
+
+epub:
+	$(SPHINXBUILD) -b epub $(ALLSPHINXOPTS) $(BUILDDIR)/epub
+	@echo
+	@echo "Build finished. The epub file is in $(BUILDDIR)/epub."
+
+latex:
+	$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
+	@echo
+	@echo "Build finished; the LaTeX files are in $(BUILDDIR)/latex."
+	@echo "Run \`make' in that directory to run these through (pdf)latex" \
+	      "(use \`make latexpdf' here to do that automatically)."
+
+latexpdf:
+	$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
+	@echo "Running LaTeX files through pdflatex..."
+	$(MAKE) -C $(BUILDDIR)/latex all-pdf
+	@echo "pdflatex finished; the PDF files are in $(BUILDDIR)/latex."
+
+latexpdfja:
+	$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
+	@echo "Running LaTeX files through platex and dvipdfmx..."
+	$(MAKE) -C $(BUILDDIR)/latex all-pdf-ja
+	@echo "pdflatex finished; the PDF files are in $(BUILDDIR)/latex."
+
+text:
+	$(SPHINXBUILD) -b text $(ALLSPHINXOPTS) $(BUILDDIR)/text
+	@echo
+	@echo "Build finished. The text files are in $(BUILDDIR)/text."
+
+man:
+	$(SPHINXBUILD) -b man $(ALLSPHINXOPTS) $(BUILDDIR)/man
+	@echo
+	@echo "Build finished. The manual pages are in $(BUILDDIR)/man."
+
+texinfo:
+	$(SPHINXBUILD) -b texinfo $(ALLSPHINXOPTS) $(BUILDDIR)/texinfo
+	@echo
+	@echo "Build finished. The Texinfo files are in $(BUILDDIR)/texinfo."
+	@echo "Run \`make' in that directory to run these through makeinfo" \
+	      "(use \`make info' here to do that automatically)."
+
+info:
+	$(SPHINXBUILD) -b texinfo $(ALLSPHINXOPTS) $(BUILDDIR)/texinfo
+	@echo "Running Texinfo files through makeinfo..."
+	make -C $(BUILDDIR)/texinfo info
+	@echo "makeinfo finished; the Info files are in $(BUILDDIR)/texinfo."
+
+gettext:
+	$(SPHINXBUILD) -b gettext $(I18NSPHINXOPTS) $(BUILDDIR)/locale
+	@echo
+	@echo "Build finished. The message catalogs are in $(BUILDDIR)/locale."
+
+changes:
+	$(SPHINXBUILD) -b changes $(ALLSPHINXOPTS) $(BUILDDIR)/changes
+	@echo
+	@echo "The overview file is in $(BUILDDIR)/changes."
+
+linkcheck:
+	$(SPHINXBUILD) -b linkcheck $(ALLSPHINXOPTS) $(BUILDDIR)/linkcheck
+	@echo
+	@echo "Link check complete; look for any errors in the above output " \
+	      "or in $(BUILDDIR)/linkcheck/output.txt."
+
+doctest:
+	$(SPHINXBUILD) -b doctest $(ALLSPHINXOPTS) $(BUILDDIR)/doctest
+	@echo "Testing of doctests in the sources finished, look at the " \
+	      "results in $(BUILDDIR)/doctest/output.txt."
+
+coverage:
+	$(SPHINXBUILD) -b coverage $(ALLSPHINXOPTS) $(BUILDDIR)/coverage
+	@echo "Testing of coverage in the sources finished, look at the " \
+	      "results in $(BUILDDIR)/coverage/python.txt."
+
+xml:
+	$(SPHINXBUILD) -b xml $(ALLSPHINXOPTS) $(BUILDDIR)/xml
+	@echo
+	@echo "Build finished. The XML files are in $(BUILDDIR)/xml."
+
+pseudoxml:
+	$(SPHINXBUILD) -b pseudoxml $(ALLSPHINXOPTS) $(BUILDDIR)/pseudoxml
+	@echo
+	@echo "Build finished. The pseudo-XML files are in $(BUILDDIR)/pseudoxml."
diff --git a/docs/_static/diagram.png b/docs/_static/diagram.png
new file mode 100644
index 0000000..5e29d55
Binary files /dev/null and b/docs/_static/diagram.png differ
diff --git a/docs/conf.py b/docs/conf.py
new file mode 100644
index 0000000..23648b4
--- /dev/null
+++ b/docs/conf.py
@@ -0,0 +1,328 @@
+# -*- coding: utf-8 -*-
+#
+# build configuration file, created by
+# sphinx-quickstart on Fri Mar 27 15:46:28 2015.
+#
+# This file is execfile()d with the current directory set to its
+# containing dir.
+#
+# Note that not all possible configuration values are present in this
+# autogenerated file.
+#
+# All configuration values have a default; values that are commented out
+# serve to show the default.
+
+import sys
+import os
+import shlex
+
+
+# If extensions (or modules to document with autodoc) are in another directory,
+# add these directories to sys.path here. If the directory is relative to the
+# documentation root, use os.path.abspath to make it absolute, like shown here.
+
+sys.path.insert(0, os.path.dirname(os.path.abspath('.')))
+import pathos
+
+on_rtd = os.environ.get('READTHEDOCS',None) == 'True'
+
+if not on_rtd:
+    try:
+        import sphinx_rtd_theme
+        html_theme = 'sphinx_rtd_theme'
+        html_theme_path = [sphinx_rtd_theme.get_html_theme_path()]
+    except ImportError:
+        sys.stderr.write('You are missing the sphinx_rtd_theme\n')
+        sys.stderr.write('Did you pip install docs/requirements.txt?\n')
+        sys.exit(-1)
+
+# -- General configuration ------------------------------------------------
+
+# If your documentation needs a minimal Sphinx version, state it here.
+#needs_sphinx = '1.0'
+
+# Add any Sphinx extension module names here, as strings. They can be
+# extensions coming with Sphinx (named 'sphinx.ext.*') or your custom
+# ones.
+extensions = [
+    'sphinx.ext.autodoc',
+    'sphinx.ext.intersphinx',
+    'sphinx.ext.todo',
+    'sphinx.ext.coverage',
+    'sphinx.ext.ifconfig',
+    'sphinx.ext.viewcode',
+    'recommonmark',
+    'sphinx_autodoc_typehints'
+
+]
+
+# Add any paths that contain templates here, relative to this directory.
+templates_path = ['_templates']
+
+# The suffix(es) of source filenames.
+# You can specify multiple suffix as a list of string:
+source_suffix = ['.rst', '.md']
+# source_suffix = '.rst'
+
+# The encoding of source files.
+#source_encoding = 'utf-8-sig'
+
+# The master toctree document.
+master_doc = 'index'
+
+# General information about the project.
+project = pathos.__projectname__
+copyright = '2015, ' + pathos.__authors__
+author = pathos.__authors__
+
+# The version info for the project you're documenting, acts as replacement for
+# |version| and |release|, also used in various other places throughout the
+# built documents.
+#
+# The short X.Y version.
+version = pathos.__version__
+# The full version, including alpha/beta/rc tags.
+release = pathos.__release__
+
+# The language for content autogenerated by Sphinx. Refer to documentation
+# for a list of supported languages.
+#
+# This is also used if you do content translation via gettext catalogs.
+# Usually you set "language" from the command line for these cases.
+language = None
+
+# There are two options for replacing |today|: either, you set today to some
+# non-false value, then it is used:
+#today = ''
+# Else, today_fmt is used as the format for a strftime call.
+#today_fmt = '%B %d, %Y'
+
+# List of patterns, relative to source directory, that match files and
+# directories to ignore when looking for source files.
+exclude_patterns = ['_build']
+
+# The reST default role (used for this markup: `text`) to use for all
+# documents.
+#default_role = None
+
+# If true, '()' will be appended to :func: etc. cross-reference text.
+#add_function_parentheses = True
+
+# If true, the current module name will be prepended to all description
+# unit titles (such as .. function::).
+#add_module_names = True
+
+# If true, sectionauthor and moduleauthor directives will be shown in the
+# output. They are ignored by default.
+#show_authors = False
+
+# The name of the Pygments (syntax highlighting) style to use.
+pygments_style = 'sphinx'
+
+# A list of ignored prefixes for module index sorting.
+#modindex_common_prefix = []
+
+# If true, keep warnings as "system message" paragraphs in the built documents.
+#keep_warnings = False
+
+# If true, `todo` and `todoList` produce output, else they produce nothing.
+todo_include_todos = True
+
+
+# -- Options for HTML output ----------------------------------------------
+
+# The theme to use for HTML and HTML Help pages.  See the documentation for
+# a list of builtin themes.
+#html_theme = 'alabaster'
+
+# Theme options are theme-specific and customize the look and feel of a theme
+# further.  For a list of options available for each theme, see the
+# documentation.
+#html_theme_options = {}
+
+# Add any paths that contain custom themes here, relative to this directory.
+#html_theme_path = []
+
+# The name for this set of Sphinx documents.  If None, it defaults to
+# "<project> v<release> documentation".
+#html_title = None
+
+# A shorter title for the navigation bar.  Default is the same as html_title.
+#html_short_title = None
+
+# The name of an image file (relative to this directory) to place at the top
+# of the sidebar.
+#html_logo = None
+
+# The name of an image file (within the static path) to use as favicon of the
+# docs.  This file should be a Windows icon file (.ico) being 16x16 or 32x32
+# pixels large.
+#html_favicon = None
+
+# Add any paths that contain custom static files (such as style sheets) here,
+# relative to this directory. They are copied after the builtin static files,
+# so a file named "default.css" will overwrite the builtin "default.css".
+html_static_path = ['_static']
+
+# Add any extra paths that contain custom files (such as robots.txt or
+# .htaccess) here, relative to this directory. These files are copied
+# directly to the root of the documentation.
+#html_extra_path = []
+
+# If not '', a 'Last updated on:' timestamp is inserted at every page bottom,
+# using the given strftime format.
+#html_last_updated_fmt = '%b %d, %Y'
+
+# If true, SmartyPants will be used to convert quotes and dashes to
+# typographically correct entities.
+#html_use_smartypants = True
+
+# Custom sidebar templates, maps document names to template names.
+#html_sidebars = {}
+
+# Additional templates that should be rendered to pages, maps page names to
+# template names.
+#html_additional_pages = {}
+
+# If false, no module index is generated.
+#html_domain_indices = True
+
+# If false, no index is generated.
+#html_use_index = True
+
+# If true, the index is split into individual pages for each letter.
+#html_split_index = False
+
+# If true, links to the reST sources are added to the pages.
+#html_show_sourcelink = True
+
+# If true, "Created using Sphinx" is shown in the HTML footer. Default is True.
+#html_show_sphinx = True
+
+# If true, "(C) Copyright ..." is shown in the HTML footer. Default is True.
+#html_show_copyright = True
+
+# If true, an OpenSearch description file will be output, and all pages will
+# contain a <link> tag referring to it.  The value of this option must be the
+# base URL from which the finished HTML is served.
+#html_use_opensearch = ''
+
+# This is the file name suffix for HTML files (e.g. ".xhtml").
+#html_file_suffix = None
+
+# Language to be used for generating the HTML full-text search index.
+# Sphinx supports the following languages:
+#   'da', 'de', 'en', 'es', 'fi', 'fr', 'hu', 'it', 'ja'
+#   'nl', 'no', 'pt', 'ro', 'ru', 'sv', 'tr'
+#html_search_language = 'en'
+
+# A dictionary with options for the search language support, empty by default.
+# Now only 'ja' uses this config value
+#html_search_options = {'type': 'default'}
+
+# The name of a javascript file (relative to the configuration directory) that
+# implements a search results scorer. If empty, the default will be used.
+#html_search_scorer = 'scorer.js'
+
+# Output file base name for HTML help builder.
+htmlhelp_basename = 'pathos'
+
+# -- Options for LaTeX output ---------------------------------------------
+
+latex_elements = {
+# The paper size ('letterpaper' or 'a4paper').
+#'papersize': 'letterpaper',
+
+# The font size ('10pt', '11pt' or '12pt').
+#'pointsize': '10pt',
+
+# Additional stuff for the LaTeX preamble.
+#'preamble': '',
+
+# Latex figure (float) alignment
+#'figure_align': 'htbp',
+}
+
+# Grouping the document tree into LaTeX files. List of tuples
+# (source start file, target name, title,
+#  author, documentclass [howto, manual, or own class]).
+latex_documents = [
+    (
+        master_doc,
+        pathos.__projectname__ + '.tex',
+        pathos.__projectname__ + ' Documentation',
+        pathos.__authors__,
+        'manual'
+    ),
+]
+
+# The name of an image file (relative to this directory) to place at the top of
+# the title page.
+#latex_logo = None
+
+# For "manual" documents, if this is true, then toplevel headings are parts,
+# not chapters.
+#latex_use_parts = False
+
+# If true, show page references after internal links.
+#latex_show_pagerefs = False
+
+# If true, show URL addresses after external links.
+#latex_show_urls = False
+
+# Documents to append as an appendix to all manuals.
+#latex_appendices = []
+
+# If false, no module index is generated.
+#latex_domain_indices = True
+
+
+# -- Options for manual page output ---------------------------------------
+
+# One entry per manual page. List of tuples
+# (source start file, name, description, authors, manual section).
+man_pages = [
+    (
+        master_doc,
+        pathos.__projectname__,
+        pathos.__projectname__ + ' Documentation',
+        [author], 1
+    )
+]
+
+# If true, show URL addresses after external links.
+#man_show_urls = False
+
+
+# -- Options for Texinfo output -------------------------------------------
+
+# Grouping the document tree into Texinfo files. List of tuples
+# (source start file, target name, title, author,
+#  dir menu entry, description, category)
+texinfo_documents = [
+    (
+        master_doc,
+        pathos.__projectname__,
+        pathos.__projectname__ + ' Documentation',
+        author,
+        pathos.__projectname__,
+        pathos.__description__,
+        'Miscellaneous'
+    ),
+]
+
+# Documents to append as an appendix to all manuals.
+#texinfo_appendices = []
+
+# If false, no module index is generated.
+#texinfo_domain_indices = True
+
+# How to display URL addresses: 'footnote', 'no', or 'inline'.
+#texinfo_show_urls = 'footnote'
+
+# If true, do not generate a @detailmenu in the "Top" node's menu.
+#texinfo_no_detailmenu = False
+
+
+# Example configuration for intersphinx: refer to the Python standard library.
+intersphinx_mapping = {'https://docs.python.org/': None}
diff --git a/docs/configuration.rst b/docs/configuration.rst
new file mode 100644
index 0000000..ce675f8
--- /dev/null
+++ b/docs/configuration.rst
@@ -0,0 +1,47 @@
+=============
+Configuration
+=============
+
+The configuration file is specified with the `-c` option when running `pathos_sheet` or `pathos_single`. There is an example file at the bottom of the page. Particular options:
+
+`assembler:` should be `ray2` or `abyss`
+
+the assembly `options` are the commandline options used with the chosen assembler.
+
+`param_file` is the pathdiscov param.txt file used for the ray2/CAP assembly. 
+
+The `bowtieDB` and `starDB` filepaths refer to host index databases (they must have already been indexed by `bowtie-build` and `STAR` respectively).
+
+The `minCompressionScore` of `lzwfilter` is the minimum "read complexity" that the filtering algorithm uses to determine to keep the read for further processing. The compression score of a read is calculated by dividing the length of the compressed read by the length of the original read.
+
+The `max_target_seqs` flag of `blastn` tells BLAST to stop searching after finding that many sequence matches. A high number results in long BLAST runtimes. 
+
+.. code-block:: yaml
+
+    pricefilter:
+      highQualPercent: 85
+      calledPercent: 90
+      highQualMin: 0.98
+    bowtie2:
+      bowtieDB: /Users/happyuser/pathos/databses/test/human-bowtie/bowtie-index
+    star:
+      starDB: /Users/happyuser/pathos/databses/test/star-index-dir/
+      skip: true
+    threads: 16
+    assembly:
+      assembler: ray2
+      options: " "
+      kmer: 25
+      minimum_contig_length: 200
+    cdhitdup:
+      minDifference: 5
+    ncbi:
+      ntDB: /Users/happyuser/pathos/databses/test/nt/nt
+      nrDB: /Users/happyuser/pathos/databses/test/nr/nr
+      ktTaxonomy: /Users/happyuser/pathos/databses/test/krona
+    lzwfilter:
+      minCompressionScore: 0
+    blastn:
+      max_target_seqs: 3
+    param_file: /Users/happyuser/pathos/param.txt
+    ete2_db:
diff --git a/docs/index.rst b/docs/index.rst
new file mode 100644
index 0000000..6dc460d
--- /dev/null
+++ b/docs/index.rst
@@ -0,0 +1,35 @@
+.. pathos documentation master file, created by
+   sphinx-quickstart on Fri Mar 27 15:46:28 2015.
+   You can adapt this file completely to your liking, but it should at least
+   contain the root `toctree` directive.
+
+Welcome to pathos's documentation!
+===========================================
+
+.. automodule:: pathos.diff_rank
+    :members:
+
+.. automodule:: pathos.summary
+    :members:
+
+Contents:
+
+.. toctree::
+   :maxdepth: 2
+
+   overview
+   installation
+   configuration
+   pathos_single
+   pathos_sheet
+   pathos_summary
+
+
+
+Indices and tables
+==================
+
+* :ref:`genindex`
+* :ref:`modindex`
+* :ref:`search`
+
diff --git a/docs/installation.rst b/docs/installation.rst
new file mode 100644
index 0000000..5069f1f
--- /dev/null
+++ b/docs/installation.rst
@@ -0,0 +1,20 @@
+===============
+Installation
+===============
+
+
+With Docker:
+
+.. code-block:: bash
+
+  $ docker build -t pathos .
+  $ docker run  <...>
+
+Without:
+
+.. code-block:: bash
+
+    curl -sSL https://repo.anaconda.com/miniconda/Miniconda3-latest-Linux-x86_64.sh -o /tmp/miniconda.sh && \ 
+    conda install -y python=3.6 && \
+    git clone https://github.com/averagehat/pathos && \
+    cd install && bash assume-conda-install.sh /usr/local/bin/ 
diff --git a/docs/overview.rst b/docs/overview.rst
new file mode 100644
index 0000000..c05f928
--- /dev/null
+++ b/docs/overview.rst
@@ -0,0 +1,6 @@
+=============
+Overview
+=============
+
+.. image:: _static/diagram.png
+
diff --git a/docs/pathos_sheet.rst b/docs/pathos_sheet.rst
new file mode 100644
index 0000000..049fce8
--- /dev/null
+++ b/docs/pathos_sheet.rst
@@ -0,0 +1,15 @@
+=============
+Pathos Sheet
+============= 
+
+.. literalinclude:: ../pathos/pathos_sheet.py
+   :start-after: '''
+   :end-before: '''
+
+The input samplsheet must be in TSV form with the input sample names in the first column and the control samples on the right column (if there are multiple control samples, each one should be seperated by a semi-colon.)
+
+.. code-block:: bash
+
+  191\t132;133
+  192\t132;133
+  193;194\t144
diff --git a/docs/pathos_single.rst b/docs/pathos_single.rst
new file mode 100644
index 0000000..2e591ab
--- /dev/null
+++ b/docs/pathos_single.rst
@@ -0,0 +1,8 @@
+=============
+Single Sample
+============= 
+
+
+.. literalinclude:: ../pathos/pipeline.py
+   :start-after: '''
+   :end-before:  '''
diff --git a/docs/pathos_summary.rst b/docs/pathos_summary.rst
new file mode 100644
index 0000000..03475ab
--- /dev/null
+++ b/docs/pathos_summary.rst
@@ -0,0 +1,7 @@
+==========================
+Summary Creation
+==========================
+
+.. literalinclude:: ../pathos/summary.py
+   :start-after: '''
+   :end-before:  '''
diff --git a/docs/requirements.txt b/docs/requirements.txt
new file mode 100644
index 0000000..90dcdf7
--- /dev/null
+++ b/docs/requirements.txt
@@ -0,0 +1,4 @@
+sphinx 
+sphinx_rtd_theme
+git+https://github.com/untitaker/sphinx-autodoc-typehints@feat/always-document-params-opt
+recommonmark
diff --git a/install/conda-requirements-python.txt b/install/conda-requirements-python.txt
index 6f0ec93..d47effa 100644
--- a/install/conda-requirements-python.txt
+++ b/install/conda-requirements-python.txt
@@ -1,4 +1,4 @@
 pandas
 matplotlib
 biopython
-ete2
+ete3
diff --git a/install/conda-requirements-software.txt b/install/conda-requirements-software.txt
index e04bd2c..b61f01e 100644
--- a/install/conda-requirements-software.txt
+++ b/install/conda-requirements-software.txt
@@ -1,5 +1,6 @@
 gmap
-star
+star=2.5.2b
 samtools
 bowtie2=2.2.5
 krona
+abyss=2.1.5
diff --git a/install/package-list.txt b/install/package-list.txt
new file mode 100644
index 0000000..227aa9f
--- /dev/null
+++ b/install/package-list.txt
@@ -0,0 +1,110 @@
+# This file may be used to create an environment using:
+# $ conda create --name <env> --file <this file>
+# platform: linux-64
+asn1crypto=0.24.0=py37_0
+biopython=1.72=py37h04863e7_0
+blas=1.0=mkl
+blast=2.7.1=h4422958_6
+boost=1.67.0=py37_4
+bwa=0.7.17=h84994c4_5
+bzip2=1.0.6=h14c3975_5
+ca-certificates=2019.1.23=0
+certifi=2019.3.9=py37_0
+cffi=1.11.5=py37he75722e_1
+chardet=3.0.4=py37_1
+conda=4.6.12=py37_1
+conda-env=2.6.0=1
+cryptography=2.4.2=py37h1ba5d50_0
+cycler=0.10.0=py37_0
+dbus=1.13.6=h746ee38_0
+dill=0.2.9=py37_0
+expat=2.2.6=he6710b0_0
+fontconfig=2.13.0=h9420a91_0
+freetype=2.9.1=h8a8886c_1
+git=2.20.1=pl526hacde149_0
+glib=2.56.2=hd408876_0
+gmp=6.1.2=h6c8ec71_1
+gnutls=3.5.19=h2a4e5f8_1
+gst-plugins-base=1.14.0=hbbd80ab_1
+gstreamer=1.14.0=hb453b48_1
+icu=58.2=h9c2bf20_1
+idna=2.8=py37_0
+intel-openmp=2019.3=199
+jpeg=9b=h024ee3a_2
+kiwisolver=1.0.1=py37hf484d3e_0
+krb5=1.16.1=h173b8e3_7
+libboost=1.67.0=h46d08c1_4
+libcurl=7.64.0=h20c2e04_2
+libedit=3.1.20170329=h6b74fdf_2
+libffi=3.2.1=hd88cf55_4
+libgcc-ng=8.2.0=hdf63c60_1
+libgfortran-ng=7.3.0=hdf63c60_0
+libpng=1.6.36=hbc83047_0
+libssh2=1.8.0=h1ba5d50_4
+libstdcxx-ng=8.2.0=hdf63c60_1
+libuuid=1.0.3=h1bed415_2
+libxcb=1.13=h1bed415_1
+libxml2=2.9.9=he19cac6_0
+matplotlib=3.0.3=py37h5429711_0
+mkl=2019.3=199
+mkl_fft=1.0.10=py37ha843d7b_0
+mkl_random=1.0.2=py37hd81dba3_0
+mpi=1.0=openmpi
+multiprocess=0.70.7=py37h14c3975_0
+ncurses=6.1=he6710b0_1
+nettle=3.3=0
+numpy=1.16.2=py37h7e9f1db_0
+numpy-base=1.16.2=py37hde5b4d6_0
+openmpi=3.1.3=h1c2f66e_1001
+openssl=1.1.1b=h7b6447c_1
+pandas=0.24.2=py37he6710b0_0
+pathos=0.2.3=py_0
+pcre=8.43=he6710b0_0
+perl=5.26.2=h14c3975_0
+perl-archive-tar=2.32=pl526_0
+perl-carp=1.38=pl526_2
+perl-compress-raw-bzip2=2.084=pl526hfc679d8_0
+perl-compress-raw-zlib=2.084=pl526h2d50403_0
+perl-exporter=5.72=pl526_1
+perl-exporter-tiny=1.002001=pl526_0
+perl-extutils-makemaker=7.34=pl526_3
+perl-io-compress=2.084=pl526hfc679d8_0
+perl-io-zlib=1.10=pl526_2
+perl-list-moreutils=0.428=pl526_1
+perl-list-moreutils-xs=0.428=pl526_0
+perl-pathtools=3.73=h470a237_2
+perl-scalar-list-utils=1.45=pl526h470a237_3
+perl-test-more=1.001002=pl526_1
+perl-xsloader=0.24=pl526_0
+pip=18.1=py37_0
+pox=0.2.5=py_0
+ppft=1.6.4.9=py37_0
+py-boost=1.67.0=py37h04863e7_4
+pycosat=0.6.3=py37h14c3975_0
+pycparser=2.19=py37_0
+pyopenssl=18.0.0=py37_0
+pyparsing=2.3.1=py37_0
+pyqt=5.9.2=py37h05f1152_2
+pysocks=1.6.8=py37_0
+python=3.7.1=h0371630_7
+python-dateutil=2.8.0=py37_0
+pytz=2018.9=py37_0
+qt=5.9.7=h5867ecd_1
+ray=2.3.1=h470a237_1
+readline=7.0=h7b6447c_5
+requests=2.21.0=py37_0
+ruamel_yaml=0.15.46=py37h14c3975_0
+scipy=1.2.1=py37h7c811a0_0
+setuptools=40.6.3=py37_0
+sip=4.19.8=py37hf484d3e_0
+six=1.12.0=py37_0
+sqlite=3.26.0=h7b6447c_0
+tinyarray=1.2.1=py37h637b7d7_1000
+tk=8.6.8=hbc83047_0
+tornado=6.0.2=py37h7b6447c_0
+treetime=0.5.3=py_0
+urllib3=1.24.1=py37_0
+wheel=0.32.3=py37_0
+xz=5.2.4=h14c3975_4
+yaml=0.1.7=had09818_2
+zlib=1.2.11=h7b6447c_3
diff --git a/install/test-requirements.txt b/install/test-requirements.txt
new file mode 100644
index 0000000..00c5f85
--- /dev/null
+++ b/install/test-requirements.txt
@@ -0,0 +1,2 @@
+nosetests
+git+git://github.com/python/mypy.git
diff --git a/mk_yaml.sh b/mk_yaml.sh
index 475d60e..9992585 100644
--- a/mk_yaml.sh
+++ b/mk_yaml.sh
@@ -1 +1,2 @@
- python -c "print open('template.yaml').read().format(DB='$PWD/databses',NO_STAR='true')"
+#TODO: branch of $RUNTYPE
+python -c "print(open('template.yaml').read().format(DB='$PWD/databses/test',NO_STAR='true',PROJDIR='$PWD'))"
diff --git a/pathos/__init__.py b/pathos/__init__.py
index 7d499e2..d734350 100644
--- a/pathos/__init__.py
+++ b/pathos/__init__.py
@@ -5,3 +5,4 @@
 __description__ =   'Pathogen Discovery'
 __license__ =       'GNU PL 2'
 __url__ =           'https://github.com/averagehat/' + __projectname__
+__release__ = '0.1'
diff --git a/pathos/diff_ranks.py b/pathos/diff_ranks.py
index 7486629..7583f56 100644
--- a/pathos/diff_ranks.py
+++ b/pathos/diff_ranks.py
@@ -3,9 +3,11 @@
 #import pandas as pd
 import csv
 from io import StringIO
+from path import Path
+
 
 # need to fix so that we join on conting ID. currently joining on something else.
-test_string = u'''qseqid	read_count	contam_percentage	superkingdom	kingdom	superfamily	genus	qend	bitscore	family	evalue	gapopen	pid	send	order	class	phylum	alnlen	species	sseqid	qstart	sstart
+test_string = '''qseqid	read_count	contam_percentage	superkingdom	kingdom	superfamily	genus	qend	bitscore	family	evalue	gapopen	pid	send	order	class	phylum	alnlen	species	sseqid	qstart	sstart
 15368	2.0	0.0	Bacteria			Bacillus	1.0	5e-08	Bacillaceae	4605131.0	3.0	93.18	4605174.0	Bacillales	Bacilli	Firmicutes	44.0	Bacillus cereus	gi|300373910|gb|CP001746.1|	0.0	44.0
 15368	2.0	0.0	Bacteria			Bacillus	1.0	5e-08	Bacillaceae	4605131.0	3.0	93.18	4605174.0	Bacillales	Bacilli	Firmicutes	44.0	Bacillus cereus	gi|300373910|gb|CP001746.1|	0.0	44.0
 4142	2.0	0.0	Bacteria			Bacillus	3.0	1e-14	Bacillaceae	3013062.0	0.0	100.0	3013016.0	Bacillales	Bacilli	Firmicutes	47.0	Bacillus kochii	gi|1237941648|gb|CP022983.1|	0.0	49.0
@@ -14,7 +16,7 @@
 1476			Viruses			Flavivirus	1.0	7e-12	Flaviviridae	212.0	2.0	95.83	165.0				48.0	Kokobera virus	gi|1098496923|gb|KU059115.1|	0.0	48.0
 '''
 
-def test_differing_rank():
+def test_differing_rank() -> str:
   test_csv = StringIO(test_string)
   #rows = pd.read_csv(test_csv, sep='\t')
   rows = list(csv.DictReader(test_csv, delimiter='\t'))
@@ -24,7 +26,7 @@ def test_differing_rank():
   species_rows = rows[:3]
   assert differing_rank(species_rows) == 'species'
 
-  kingdom_rows = rows[0], rows[1], rows[2], rows[4]
+  kingdom_rows = [rows[0], rows[1], rows[2], rows[4]]
   # some columns are empty: in this case kingdom. so with that unknown, we go down to phylum.
   assert differing_rank(kingdom_rows) == 'phylum', differing_rank(kingdom_rows) # map(get('kingdom'), kingdom_rows)
 
@@ -36,13 +38,13 @@ def test_differing_rank():
 '''
 Find the smallest rank where the blast results DO NOT match.
 '''
-def differing_rank(rows):
+def differing_rank(rows: List[OrderedDict[str, Any]]) -> str:
   # no domain
   ranks = reversed(['superkingdom',	'kingdom',	 'phylum',\
    'class', 'order', 'superfamily', 'family',	'genus', 'species'])
   differ_at = 'MATCH'
   for rank in ranks:
-    row_ranks = map(get(rank), rows)
+    row_ranks = list(map(get(rank), rows))
     uniq = set(row_ranks)
     if len(uniq) > 1:
       differ_at = rank
@@ -75,18 +77,28 @@ def differing_rank(rows):
 from toolz.dicttoolz import merge
 import itertools
 from itertools import groupby
-def flag(group_obj):
+from typing import Iterator,Tuple,_T,List,Any,Dict
+from collections import OrderedDict # dictreader returns ordereddict in py 3.6+
+
+#GroupByObj = Iterator[Tuple[_T, Iterator[_T]]]
+
+def flag(group_obj: Tuple[str, Iterator[OrderedDict[str, Any]]]) -> List[Dict[Any, Any]]:
   group = list(group_obj[1])
-  rank = differing_rank(group)
+  rank = differing_rank(group) # type: str
   add_rank = lambda x: merge(x, {'different_rank' : rank})
-  return map(add_rank, group)
+  return list(map(add_rank, group))
 
-def flag_annotated_blast(input_fn, output_fn):
+def flag_annotated_blast(input_fn: Path, output_fn: Path) -> None:
+  '''
+  @param input_fn - input file
+  @param output_fn - output file
+  @returns Nothing
+  '''
   with open(input_fn) as f_in, open(output_fn, 'w') as f_out:
     rows = list(csv.DictReader(f_in, delimiter='\t'))
-    groups = groupby(rows, lambda x: x['qseqid'])
-    flagged_rows = list(itertools.chain(*map(flag, groups)))
-    writer = csv.DictWriter(f_out, flagged_rows[0].keys(), delimiter='\t')
+    groups = groupby(rows, lambda x: x['qseqid']) # Iterator[Tuple[str, Iterator[Any]]]
+    flagged_rows = list(itertools.chain(*list(map(flag, groups))))
+    writer = csv.DictWriter(f_out, list(flagged_rows[0].keys()), delimiter='\t')
     writer.writeheader()
     for row in flagged_rows:
       writer.writerow(row)
@@ -94,4 +106,4 @@ def flag_annotated_blast(input_fn, output_fn):
 
 
 if __name__ == '__main__':
-  print test_differing_rank()
+  print(test_differing_rank())
diff --git a/pathos/pathos_sheet.py b/pathos/pathos_sheet.py
index 0b3fc46..e2688e5 100644
--- a/pathos/pathos_sheet.py
+++ b/pathos/pathos_sheet.py
@@ -15,13 +15,16 @@
 from docopt import docopt
 import csv
 import os
-import pipeline
+from . import pipeline
 from path import Path
 import yaml
 import itertools
 import sys
 from functools import partial
 import multiprocessing
+
+from typing import Dict,List,Tuple,Iterator,Any
+from collections import OrderedDict # a type for csv.DicterReader
 # if there is more than one pair of read files need to handle that. I guess by concatenating.
 # need to fix so that we join on conting ID. currently joining on something else.
 # also ppl might do something with index
@@ -30,57 +33,56 @@
 SEP=';'
 
 
-def weave_files(sampledir, row):
+def weave_files(sampledir: str, row: OrderedDict[str, str]) -> Tuple[List[str], List[str]]:
   control_dirs = row['control_dirs'].split(SEP)
   sdir = partial(os.path.join, sampledir)
   read_dirs = row['read_dirs'].split(SEP)
   # control_dirs could be empty
-  c1s, c2s = reads_from_dirs(map(sdir, control_dirs)) if control_dirs else ([], [])
-  controls = list(itertools.chain(*zip(c1s, c2s)))
+  c1s, c2s = reads_from_dirs(list(map(sdir, control_dirs))) if control_dirs else ([], [])
+  controls = list(itertools.chain(*list(zip(c1s, c2s))))
   # order of contams doesn't matter but we'll zip them anyway
-  r1s, r2s = reads_from_dirs(map(sdir, read_dirs))
+  r1s, r2s = reads_from_dirs(list(map(sdir, read_dirs)))
   # weave them into a sigle list of R1, R2^1, R1^2, R2^2 ....
-  fastqs = list(itertools.chain(*zip(r1s, r2s)))
+  fastqs = list(itertools.chain(*list(zip(r1s, r2s))))
   return fastqs, controls
 
-def reads_from_dirs(dirs):
+def reads_from_dirs(dirs: List[str]) -> Tuple[List[str], List[str]]:
   """Extract all R1/R2 files from a directory, ignores index (I1/I2) files"""
   # return list(itertools.chain(*map(lambda x: glob(os.path.join(x, '*_R[12]_*')), dirs)))
-  r1s = list(itertools.chain(*map(lambda x: glob(os.path.join(x, '*_R1_*')), dirs)))
-  r2s = list(itertools.chain(*map(lambda x: glob(os.path.join(x, '*_R2_*')), dirs)))
+  r1s = list(itertools.chain(*[glob(os.path.join(x, '*_R1_*')) for x in dirs]))
+  r2s = list(itertools.chain(*[glob(os.path.join(x, '*_R2_*')) for x in dirs]))
   return r1s, r2s
 
 # run the main program
 
+def main() -> None:
+  args = docopt(__doc__, version='Version 1.0')  #TODO: use TypedDict, maybe
 
-def main():
-  args = docopt(__doc__, version='Version 1.0')
-
-  # copy-pasted from pipeline.py :(
+# copy-pasted from pipeline.py :( 
   cfg_f = args['--config']
-  cfg_y = yaml.load(open(cfg_f))
-  cfg = pipeline.Config(cfg_y)
+  cfg_y = yaml.load(open(cfg_f))  # type: Dict[str, Any] # in this case it's a dict, it's like json.loads
+  cfg = pipeline.Config(cfg_y)  # type: ignore  #TODO: dynamically defined in pipeline.py
   # it's probably better to have separate log files.
   if args['--log']:
     _log = Path(args['--log'])
     if _log.exists():
-      print "Removing old log file %s" % _log
+      print("Removing old log file %s" % _log)
       _log.remove()
     log = open(args['--log'], 'a')
   else:
     log = sys.stdout
 
   sheet = open(args['<samplesheet>'])
-  rows = csv.DictReader(sheet, fieldnames=['read_dirs', 'control_dirs'], delimiter='\t')
-  rows=list(rows)
+  _rows = csv.DictReader(sheet, fieldnames=['read_dirs', 'control_dirs'], delimiter='\t')
+  rows=list(_rows)
   base_out = args['--outdir'] or "." # os.getcwd()?
   sampledir = args['--sampledir']
-  def p_run(rows):
+  def p_run(rows: List[Dict[str, str]]) -> None:
       weave = partial(weave_files, sampledir)
       fqs_and_controls = list(map(weave, rows))
       run2_func = partial(pipeline.run2, cfg, log, base_out)
       pool = multiprocessing.Pool(len(rows))
-      print "Launching %d processes.\n==========================\n\n" % len(rows)
+      print("Launching %d processes.\n==========================\n\n" % len(rows))
       pool.map(run2_func, fqs_and_controls)
       pool.close()
       pool.join()
@@ -105,21 +107,23 @@ def p_run(rows):
       #print "qsub {script} -q batch -l nodes={node}:ppn={cores}".format(script=temp.name, node=amedpbswrair007.amed.ds.army.mil, cores=4)
       #print " -q batch -l nodes={node}:ppn={cores}".format(script=temp.name, node=amedpbswrair007.amed.ds.army.mil, cores=4)
       sample_num = row['read_dirs'].split(SEP)[0]
-      sh.qsub(script,
+      sh.qsub(script,                # type: ignore
               '-N',  "sheet-sample-%s" % sample_num,
               # "-M", "EMAIL HERE",
               # '-l', "nodes=1:ppn=8:mem=80514472881")
               '-l', "nodes=1:ppn=12",
               '-l', "mem=80514472881")
-      print "Running %s" % script
+      print("Running %s" % script)
   else:
-    print "No --qsub flag, didn't run anything."
+    print("No --qsub flag, didn't run anything.")
 #  if p:
 #
 #  else:
 #    for i, row in enumerate(rows):
 #      cfg.outdir = os.path.join(base_out, "sheet-sample-%d" % i)
 #      pipeline.run2(cfg, log, base_out, (fastqs, controls))
+  
+
 
 
    # if controls:
@@ -130,6 +134,5 @@ def p_run(rows):
     #print 'python pipeline.py', ' '.join(fastqs), '--config', args['--config'], '-o', cfg.outdir, '--control', ' '.join(controls)
 
 
-
 if __name__ == '__main__':
     main()
diff --git a/pathos/pipeline.py b/pathos/pipeline.py
index 0b86bb4..fca3af3 100644
--- a/pathos/pipeline.py
+++ b/pathos/pipeline.py
@@ -3,14 +3,21 @@
     pipeline.py (--fastq <FASTQS>...) --config <config> [-o <outdir>] [--log <log>] [--control <CONTROLS>...]
 
 Options:
-    -f <FASTQS>, --fastq <FASTQS>
+    -f <FASTQS>, --fastq <FASTQS>       
     -r <CONTROLS>, --control <CONTROLS>
     -c <config>, --config <config>
     --o <outdir>, --outdir <outdir>
     --log <log>, -l <log>
+    
+Notes: 
+   For the --fastq argument, provide any number of paired read files ordered like: 
+   --fastq   <Samp0_R1> <Samp0_R2> <Samp1_R1> <Samp1_R2> . . . 
+   The --control argument should be provided in the same way.
+   
+   --log  is the file path to store log output in.
 '''
 import sh
-from itertools import imap, izip, tee, chain, groupby, ifilter, starmap
+from itertools import tee, chain, groupby, starmap
 from toolz.dicttoolz import keymap,valfilter,keyfilter,merge,assoc
 from toolz.itertoolz import mapcat, partition
 from funcy.seqs import _icut
@@ -26,10 +33,10 @@
 from operator import itemgetter as get
 from collections import Counter
 import csv
-from ete2 import NCBITaxa
+from ete3 import NCBITaxa
 import plumbum
 import pandas as pd
-from schema import schema
+from .schema import schema
 from jsonschema import validate
 
 #import numpy as np
@@ -64,7 +71,7 @@ class Config:
     def __init__(self, entries):
         self.__dict__.update(entries)
         for k,v in self.__dict__.items():
-            if type(v) == types.DictType:
+            if type(v) == dict:
                 setattr(self, k, Config(v))
 class Sh_(object):
     def __getattr__(self, attr):
@@ -116,7 +123,7 @@ def rapsearch(log, cfg, fq, out):
     sh.rapsearch(o=out, d=cfg.rapsearch.rapsearchDB, q=fq, _err=log, _out=log)
 
 def blastn(log, cfg, fq, out):
-    print "attempting blast with %s %s" % (fq, out)
+    print("attempting blast with %s %s" % (fq, out))
     #sh_.blastn(outfmt=6, db=cfg.ncbi.ntDB, query=fq, _err=log, _out=out)
     outformat = " ".join(["6"] + blast_columns)
     sh.blastn('-max_target_seqs', cfg.blastn.max_target_seqs, outfmt=outformat, db=cfg.ncbi.ntDB, query=fq, _err=log, _out=out, _long_prefix='-')
@@ -150,7 +157,7 @@ def abyss(log, cfg, r1, r2, out):
 #def lzw_filter(log, cfg, r1, r2, out1, out2):
 def lzw_filter_single(min_complexity, x):
     un_comp_len = len(str(x.seq))
-    comp_len = sum(imap(len, sh.gzip(f=True, _in=str(x.seq))))
+    comp_len = sum(map(len, sh.gzip(f=True, _in=str(x.seq))))
     # sh.sh('lzw.sh', x) . . .
     complexity =  comp_len / float(un_comp_len)
     #print complexity
@@ -158,13 +165,13 @@ def lzw_filter_single(min_complexity, x):
 
 def unzip(seq):
     t1, t2 = tee(seq)
-    return imap(get(0), t1), imap(get(1), t2)
+    return map(get(0), t1), map(get(1), t2)
 
 def filter_pair(func, r1, r2, o1, o2, format):
     CHUNK_SIZE = 100000
     fwd = SeqIO.parse(r1, format)
     rev = SeqIO.parse(r2, format)
-    filtered = ((x, y) for (x, y) in izip(fwd, rev)
+    filtered = ((x, y) for (x, y) in zip(fwd, rev)
                 if func(x) and func(y))
     chunks = _icut(False, CHUNK_SIZE/2, filtered)
     for chunk in chunks:
@@ -206,7 +213,7 @@ def sum_sam_by_ref(log, cfg, sam):
 def readcounts_to_tsv(sam, out):
     counter, contam_counter = sum_sam_by_ref(None, None, sam)
     xs = []
-    for ref, count in counter.iteritems():
+    for ref, count in counter.items():
         xs.append({SEQID : ref,
                   'read_count' : count,
                   'contam_percentage' : contam_counter[ref] / float(count) })
@@ -232,16 +239,16 @@ def readcounts_to_tsv(sam, out):
 def fasta_add_metadata(fasta, tsv, fasta_out):
     meta = csv.DictReader(open(tsv), delimiter='\t')
     fa = list(SeqIO.parse(fasta, 'fasta'))
-    ids = map(lambda x: x.id, fa)
+    ids = [x.id for x in fa]
     meta.sort(key=lambda x: ids.index(x[SEQID]))
     def annotate(d):
         del d[SEQID]
         return ' ; ' + ';'.join(dictmap("{0}={1}".format, d))
-    for (rec, met) in izip(fa, meta):
+    for (rec, met) in zip(fa, meta):
         rec.id += annotate(meta)
     with open(fasta_out, 'w') as out:
             SeqIO.write(fa, out, 'fasta')
-from StringIO import StringIO
+from io import StringIO
 # def bam_to_counter(bam):
 def get_idxstats(bam):
     # assumes bam is sorted, and being indexed will speed up significantly
@@ -325,25 +332,25 @@ def add_id(i, line):
 # taxid = 1056490
 
 def blastdbcmd(**opts):
-    cmd_opts = keymap('-{}'.format, opts).items()
+    cmd_opts = list(keymap('-{}'.format, opts).items())
     process = plumbum.local['blastdbcmd'][cmd_opts]
-    print process
+    print(process)
     for line in process.popen().iter_lines(retcode=None):
         yield line[0]
 
 def get_taxid(db, seqids): # (Path, str) -> dict[str,str]
    #res = sh.blastdbcmd(db=db, outfmt="'%g %T'", entry="'%s'" % seqid, _long_prefix='-')
-   max_ids = 1000/80
+   max_ids = 1000 // 80
    if len(seqids) > max_ids:
       xs = [seqids[i*max_ids:(i+1)*max_ids] \
-         for i in range(len(seqids) / max_ids)]
+         for i in range(len(seqids) // max_ids)]
       xs.extend([seqids[sum(map(len, xs))-1:]])
    else: xs = [seqids]
    res = mapcat(lambda x: blastdbcmd(db=db, outfmt="'%g %T'", entry="'%s'" % ','.join(x)), xs)
    #res = blastdbcmd(db=db, outfmt="'%g %T'", entry="'%s'" % ','.join(xs))
-   res = ifilter(bool, res)
-   res = imap(lambda s: s.strip("'"), res)
-   return dict(imap(unicode.split, res))
+   res = filter(bool, res)
+   res = map(lambda s: s.strip("'"), res)
+   return dict(map(str.split, res))
 
 def taxonomy(ncbi, taxid):
     lineage = ncbi.get_lineage(taxid)
@@ -371,7 +378,7 @@ def blast2summary_dict(db, blastpath, ete2_db): # (Path, Path) -> list[dict]
   # rows = csv.DictReader(open(blastpath), delimiter='\t',fieldnames=[SEQID, 'sseqid','pid', 'alnlen','gapopen','qstart','qend','sstart','send','evalue','bitscore'])
   rows = csv.DictReader(open(blastpath), delimiter='\t',fieldnames=blast_columns)
   rows = list(rows)
-  seqids = map(get('sseqid'), rows)
+  seqids = list(map(get('sseqid'), rows))
   taxids = get_taxid(db, seqids)
   def get_gi(s):
     fields = s.split('|')
@@ -379,7 +386,7 @@ def get_gi(s):
         return fields[1]
     else:
         raise ValueError("Seq ID %s is missing GI fields and '|'" % s)
-  gis = imap(get_gi, seqids)
+  gis = map(get_gi, seqids)
   #TODO: change matches to use something unique--not the TAXID! actually, why is it a dict
   # in the first place? it should be a list of dictionaries, and then map over
   # the dictionaries to merge them with the taxonomy info
@@ -387,11 +394,14 @@ def get_gi(s):
   # matches = . . .
   # items = . . .
   #matches = dict((taxids[gi], row) for gi, row in zip(gis,rows) if gi in taxids)
-  ncbi = NCBITaxa(ete2_db) # downloads database and creates SQLite database if needed
+  if ete2_db:
+    ncbi = NCBITaxa(ete2_db) # downloads database and creates SQLite database if needed
+  else: 
+    ncbi = NCBITaxa() # downloads database and creates SQLite database if needed
  # items = dictmap(lambda tid,row: merge(row, taxonomy(ncbi, tid)), matches)
   matches = [assoc(row, 'taxid', taxids[gi]) for gi, row in zip(gis, rows) if gi in taxids]
   items = [merge(row1, taxonomy(ncbi, row1['taxid'])) for row1 in matches]
-  res =  imap(partial(keyfilter, csv_fields.__contains__), items)
+  res =  map(partial(keyfilter, csv_fields.__contains__), items)
   return res
   #return {k:v for k, v in items if k in fields}
 
@@ -471,7 +481,7 @@ def seq_reaches_length(length, seq):
 
 def filter_contigs(min_length, inc, outc):
   raw_seqs = SeqIO.parse(inc, 'fasta')
-  filtered_seqs = ifilter(partial(seq_reaches_length, min_length), raw_seqs)
+  filtered_seqs = filter(partial(seq_reaches_length, min_length), raw_seqs)
   with open(outc, 'w') as out:
     #SeqIO.write(filtered_seqs, out, 'fasta')
     for seq in filtered_seqs:
@@ -655,9 +665,9 @@ def logtime(s):
 #  if need(contig_nr):
 #    blastx(log, cfg, contigs, contig_nr)
 #    dup_blast(log, contigs_sam, contig_nr, dup_nr)
-
+  _run_type = os.environ.get('RUNTYPE', 'REAL')
   logtime('krona')
-  if need(contig_kronaNT):
+  if need(contig_kronaNT) and (_run_type != 'TEST'):
     krona(log, cfg, contig_nt, contig_kronaNT)
   if need(contig_kronaNT_dup):
     krona(log, cfg, dup_nt, contig_kronaNT_dup)
@@ -676,7 +686,7 @@ def logtime(s):
   contig_nt_almost = p("contigs.nt.almost")
   if need(contig_nt_almost):
       # joins on SEQID, which collapses data.
-    import diff_ranks
+    from . import diff_ranks
     diff_ranks.flag_annotated_blast(with_tax_tsv, contig_nt_flagged)
     join_csv(contigs_meta, contig_nt_flagged, SEQID, contig_nt_almost)
 
@@ -739,7 +749,7 @@ def run2(cfg, log, base_out, fastqs_and_controls):
   fastqs, controls = fastqs_and_controls
   controls = controls if controls else []
   fastqs, controls = list(fastqs), list(controls)
-  print 'FASTQS : %s' % fastqs, 'CONTROLS : %s' % controls
+  print('FASTQS : %s' % fastqs, 'CONTROLS : %s' % controls)
   assert len(fastqs) > 1 and (len(fastqs) % 2) == 0, "Must provide an even number of input files."
   vdbpm_id = Path(fastqs[0]).splitall()[-2]
   #print fastqs, control
@@ -795,7 +805,7 @@ def main():
   if args.log:
     _log = Path(args.log)
     if _log.exists():
-      print "Removing old log file %s" % _log
+      print("Removing old log file %s" % _log)
       _log.remove()
     log = open(args.log, 'a')
   else:
@@ -806,7 +816,7 @@ def main():
   #run(cfg, args['<r1>'], args['<r2>'], c1, c2, log)
   #TODO: fix . . .
   controls = args.control
-  print args
+  print(args)
 
   run2(cfg, log, cfg.outdir, (fastqs, controls))
 #def run2(cfg, log, base_out, fastqs_and_controls):
diff --git a/pathos/summary.py b/pathos/summary.py
index aaefce9..67c347e 100644
--- a/pathos/summary.py
+++ b/pathos/summary.py
@@ -1,16 +1,19 @@
 '''
 Usage:
     summary.py <indir> <outdir>
+    
+Run after `pathos_single` or `pathos_sheet` to get summary information on for that run.
+<indir> is the directory with `pathos` output. 
 '''
 from docopt import docopt
 import pandas as pd
 from operator import add
 # from itertools import accumulate # python 3 :(
 import os
-from StringIO import StringIO
+from io import StringIO
 from functools import partial
-from Bio import SeqIO
-from matplotlib import pyplot as plt
+from Bio import SeqIO # type: ignore
+from matplotlib import pyplot as plt # type: ignore
 import sys
 import numpy as np
 
@@ -42,7 +45,6 @@ def summ_contigs(tops):
                        'assembly_length' :  tops.qlen.sum(),
                        'species_count' : tops.species.unique().size })
 
-
 def count(gen):
   return sum(1 for _ in gen)
 
@@ -75,7 +77,6 @@ def summarize_nontaxon(files, indir):
   return summ_df
   # return None
 
-# type: rank
 descendingRanksWithNoMatch = ['NoMatch', 'superkingdom', 'kingdom', 'phylum','class', 'order', \
                    'superfamily', 'family',   'genus', 'species']
 descendingRanks = descendingRanksWithNoMatch[1:]
@@ -159,7 +160,9 @@ def make_rank_summaries(df, rankdir):
 
 in_fp = 'contigs.15383.nt.tsv'
 # def summarize(in_summary_fp, outdir):
-import filenames
+from . import filenames
+
+
 def summarize(indir, outdir):
   if not os.path.exists(outdir):
      os.mkdir(outdir)
@@ -180,7 +183,7 @@ def summarize(indir, outdir):
   #TODO: below writes the empty index in the csv. nah, fixed with index=False
   summ_df.to_csv(summ_fp, sep='\t', index=False)
 
-def main():
+def main() -> None:
   args = docopt(__doc__, version='Version 1.0')
   indir = args['<indir>']
   outdir = args['<outdir>']
diff --git a/run-linters.sh b/run-linters.sh
new file mode 100644
index 0000000..f7eb74b
--- /dev/null
+++ b/run-linters.sh
@@ -0,0 +1,3 @@
+MYPYPATH=$PWD/stubs mypy pathos/diff_ranks.py --strict --strict-equality --no-implicit-optional --disallow-untyped-calls --warn-return-any
+ # could use mypy.ini
+
diff --git a/sheet.tsv b/sheet.tsv
deleted file mode 100644
index 6bc7436..0000000
--- a/sheet.tsv
+++ /dev/null
@@ -1,11 +0,0 @@
-15151	15149;15150
-15224	15225;15226
-15327	15328;15329
-15148	15146;15147
-15330	15331;15332
-15230	15231;15232
-15392	15393;15394
-15395	15396;15397
-15145	
-15336	15337;15338
-15383	15384;15385
diff --git a/stubs/Bio/SeqIO/__init__.pyi b/stubs/Bio/SeqIO/__init__.pyi
new file mode 100644
index 0000000..0b20fba
--- /dev/null
+++ b/stubs/Bio/SeqIO/__init__.pyi
@@ -0,0 +1,13 @@
+# Stubs for Bio.SeqIO (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from typing import Any, Optional
+
+def write(sequences: Any, handle: Any, format: Any): ...
+def parse(handle: Any, format: Any, alphabet: Optional[Any] = ...) -> None: ...
+def read(handle: Any, format: Any, alphabet: Optional[Any] = ...): ...
+def to_dict(sequences: Any, key_function: Optional[Any] = ...): ...
+def index(filename: Any, format: Any, alphabet: Optional[Any] = ..., key_function: Optional[Any] = ...): ...
+def index_db(index_filename: Any, filenames: Optional[Any] = ..., format: Optional[Any] = ..., alphabet: Optional[Any] = ..., key_function: Optional[Any] = ...): ...
+def convert(in_file: Any, in_format: Any, out_file: Any, out_format: Any, alphabet: Optional[Any] = ...): ...
diff --git a/stubs/docopt.pyi b/stubs/docopt.pyi
new file mode 100644
index 0000000..1ed4a06
--- /dev/null
+++ b/stubs/docopt.pyi
@@ -0,0 +1,76 @@
+# Stubs for docopt (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from typing import Any, Optional
+
+class DocoptLanguageError(Exception): ...
+
+class DocoptExit(SystemExit):
+    usage: str = ...
+    def __init__(self, message: str = ...) -> None: ...
+
+class Pattern:
+    def __eq__(self, other: Any): ...
+    def __hash__(self): ...
+    def fix(self): ...
+    def fix_identities(self, uniq: Optional[Any] = ...): ...
+    def fix_repeating_arguments(self): ...
+    @property
+    def either(self): ...
+
+class ChildPattern(Pattern):
+    name: Any = ...
+    value: Any = ...
+    def __init__(self, name: Any, value: Optional[Any] = ...) -> None: ...
+    def flat(self, *types: Any): ...
+    def match(self, left: Any, collected: Optional[Any] = ...): ...
+
+class ParentPattern(Pattern):
+    children: Any = ...
+    def __init__(self, *children: Any) -> None: ...
+    def flat(self, *types: Any): ...
+
+class Argument(ChildPattern):
+    def single_match(self, left: Any): ...
+    @classmethod
+    def parse(class_: Any, source: Any): ...
+
+class Command(Argument):
+    name: Any = ...
+    value: Any = ...
+    def __init__(self, name: Any, value: bool = ...) -> None: ...
+    def single_match(self, left: Any): ...
+
+class Option(ChildPattern):
+    value: Any = ...
+    def __init__(self, short: Optional[Any] = ..., long: Optional[Any] = ..., argcount: int = ..., value: bool = ...) -> None: ...
+    @classmethod
+    def parse(class_: Any, option_description: Any): ...
+    def single_match(self, left: Any): ...
+    @property
+    def name(self): ...
+
+class Required(ParentPattern):
+    def match(self, left: Any, collected: Optional[Any] = ...): ...
+
+class Optional(ParentPattern):
+    def match(self, left: Any, collected: Optional[Any] = ...): ...
+
+class AnyOptions(Optional): ...
+
+class OneOrMore(ParentPattern):
+    def match(self, left: Any, collected: Optional[Any] = ...): ...
+
+class Either(ParentPattern):
+    def match(self, left: Any, collected: Optional[Any] = ...): ...
+
+class TokenStream(list):
+    error: Any = ...
+    def __init__(self, source: Any, error: Any) -> None: ...
+    def move(self): ...
+    def current(self): ...
+
+# class Dict(dict): ... # this is just a Dict with special __repr__
+from typing import Dict
+def docopt(doc: Any, argv: Optional[Any] = ..., help: bool = ..., version: Optional[Any] = ..., options_first: bool = ...) -> Dict[str, str]: ...
diff --git a/stubs/ete3/__init__.pyi b/stubs/ete3/__init__.pyi
new file mode 100644
index 0000000..e01446e
--- /dev/null
+++ b/stubs/ete3/__init__.pyi
@@ -0,0 +1,21 @@
+# Stubs for ete3 (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from .ncbi_taxonomy import *
+from .coretype.tree import *
+from .coretype.seqgroup import *
+from .phylo.phylotree import *
+from .evol.evoltree import *
+from .webplugin.webapp import *
+from .coretype.arraytable import *
+from .clustering.clustertree import *
+from .phylomedb.phylomeDB3 import *
+from .treeview.svg_colors import *
+from .treeview.main import *
+from .treeview.faces import *
+from .evol import EvolTree
+from .nexml import Nexml, NexmlTree
+from .phyloxml import Phyloxml, PhyloxmlTree
+from .treeview import faces, layouts
+from .version import __version__
diff --git a/stubs/funcy/__init__.pyi b/stubs/funcy/__init__.pyi
new file mode 100644
index 0000000..8a857f3
--- /dev/null
+++ b/stubs/funcy/__init__.pyi
@@ -0,0 +1,198 @@
+# Stubs for funcy (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from .py2 import *
+from .py3 import *
+
+# Names in __all__ with no definition:
+#   ContextDecorator
+#   ErrorRateExceeded
+#   LazyObject
+#   all
+#   all_fn
+#   any
+#   any_fn
+#   autocurry
+#   butlast
+#   cache
+#   cached_property
+#   caller
+#   cat
+#   chain
+#   chunks
+#   collecting
+#   compact
+#   complement
+#   compose
+#   concat
+#   constantly
+#   contextmanager
+#   count
+#   count_by
+#   count_reps
+#   curry
+#   cut_prefix
+#   cut_suffix
+#   cycle
+#   dec
+#   decorator
+#   distinct
+#   drop
+#   dropwhile
+#   empty
+#   even
+#   fallback
+#   filter
+#   first
+#   flatten
+#   flip
+#   func_partial
+#   get_in
+#   group_by
+#   group_by_keys
+#   group_values
+#   identity
+#   iffy
+#   ignore
+#   ilen
+#   inc
+#   interleave
+#   interpose
+#   invoke
+#   is_distinct
+#   is_iter
+#   is_list
+#   is_mapping
+#   is_seq
+#   is_seqcoll
+#   is_seqcont
+#   is_set
+#   is_tuple
+#   isa
+#   isnone
+#   iterable
+#   iterate
+#   iteritems
+#   itervalues
+#   join
+#   join_with
+#   joining
+#   juxt
+#   keep
+#   last
+#   lcat
+#   lchunks
+#   lconcat
+#   ldistinct
+#   lfilter
+#   lflatten
+#   limit_error_rate
+#   linvoke
+#   ljuxt
+#   lkeep
+#   lmap
+#   lmapcat
+#   log_calls
+#   log_durations
+#   log_enters
+#   log_errors
+#   log_exits
+#   log_iter_durations
+#   lpartition
+#   lpartition_by
+#   lpluck
+#   lpluck_attr
+#   lreductions
+#   lremove
+#   lsplit
+#   lsplit_at
+#   lsplit_by
+#   lsums
+#   ltree_leaves
+#   ltree_nodes
+#   lwhere
+#   lwithout
+#   lzip
+#   make_lookuper
+#   map
+#   mapcat
+#   memoize
+#   merge
+#   merge_with
+#   monkey
+#   namespace
+#   none
+#   none_fn
+#   notnone
+#   nth
+#   odd
+#   once
+#   once_per
+#   once_per_args
+#   one
+#   one_fn
+#   pairwise
+#   partial
+#   partition
+#   partition_by
+#   pluck
+#   pluck_attr
+#   post_processing
+#   print_calls
+#   print_durations
+#   print_enters
+#   print_errors
+#   print_exits
+#   print_iter_durations
+#   project
+#   raiser
+#   rcompose
+#   rcurry
+#   re_all
+#   re_find
+#   re_finder
+#   re_iter
+#   re_test
+#   re_tester
+#   reductions
+#   remove
+#   repeat
+#   repeatedly
+#   rest
+#   retry
+#   rpartial
+#   second
+#   select
+#   select_keys
+#   select_values
+#   set_in
+#   silent
+#   silent_lookuper
+#   some
+#   some_fn
+#   split
+#   split_at
+#   split_by
+#   str_join
+#   sums
+#   suppress
+#   take
+#   takewhile
+#   tap
+#   tree_leaves
+#   tree_nodes
+#   unwrap
+#   update_in
+#   walk
+#   walk_keys
+#   walk_values
+#   where
+#   with_next
+#   with_prev
+#   without
+#   wraps
+#   zip
+#   zip_dicts
+#   zip_values
+#   zipdict
diff --git a/stubs/jsonschema/__init__.pyi b/stubs/jsonschema/__init__.pyi
new file mode 100644
index 0000000..2626951
--- /dev/null
+++ b/stubs/jsonschema/__init__.pyi
@@ -0,0 +1,4 @@
+# Stubs for jsonschema (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
diff --git a/stubs/matplotlib/pyplot.pyi b/stubs/matplotlib/pyplot.pyi
new file mode 100644
index 0000000..519d613
--- /dev/null
+++ b/stubs/matplotlib/pyplot.pyi
@@ -0,0 +1,166 @@
+# Stubs for matplotlib.pyplot (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from .ticker import AutoLocator, FixedFormatter, FixedLocator, FormatStrFormatter, Formatter, FuncFormatter, IndexLocator, LinearLocator, Locator, LogFormatter, LogFormatterExponent, LogFormatterMathtext, LogLocator, MaxNLocator, MultipleLocator, NullFormatter, NullLocator, ScalarFormatter, TickHelper
+from typing import Any, Optional
+
+def install_repl_displayhook() -> None: ...
+def uninstall_repl_displayhook() -> None: ...
+
+draw_all: Any
+
+def set_loglevel(*args: Any, **kwargs: Any): ...
+def findobj(o: Optional[Any] = ..., match: Optional[Any] = ..., include_self: bool = ...): ...
+def switch_backend(newbackend: Any) -> None: ...
+def show(*args: Any, **kw: Any): ...
+def isinteractive(): ...
+def ioff() -> None: ...
+def ion() -> None: ...
+def pause(interval: Any) -> None: ...
+def rc(group: Any, **kwargs: Any) -> None: ...
+def rcdefaults() -> None: ...
+def gci(): ...
+def setp(obj: Any, *args: Any, **kwargs: Any): ...
+def xkcd(scale: int = ..., length: int = ..., randomness: int = ...): ...
+def figure(num: Optional[Any] = ..., figsize: Optional[Any] = ..., dpi: Optional[Any] = ..., facecolor: Optional[Any] = ..., edgecolor: Optional[Any] = ..., frameon: bool = ..., FigureClass: Any = ..., clear: bool = ..., **kwargs: Any): ...
+def gcf(): ...
+def fignum_exists(num: Any): ...
+def get_fignums(): ...
+def get_figlabels(): ...
+def get_current_fig_manager(): ...
+def connect(s: Any, func: Any): ...
+def disconnect(cid: Any): ...
+def close(fig: Optional[Any] = ...) -> None: ...
+def clf() -> None: ...
+def draw() -> None: ...
+def savefig(*args: Any, **kwargs: Any): ...
+def ginput(*args: Any, **kwargs: Any): ...
+def waitforbuttonpress(*args: Any, **kwargs: Any): ...
+def figtext(x: Any, y: Any, s: Any, *args: Any, **kwargs: Any): ...
+def suptitle(t: Any, **kwargs: Any): ...
+def figimage(*args: Any, **kwargs: Any): ...
+def figlegend(*args: Any, **kwargs: Any): ...
+def axes(arg: Optional[Any] = ..., **kwargs: Any): ...
+def delaxes(ax: Optional[Any] = ...) -> None: ...
+def sca(ax: Any) -> None: ...
+def gca(**kwargs: Any): ...
+def subplot(*args: Any, **kwargs: Any): ...
+def subplots(nrows: int = ..., ncols: int = ..., sharex: bool = ..., sharey: bool = ..., squeeze: bool = ..., subplot_kw: Optional[Any] = ..., gridspec_kw: Optional[Any] = ..., **fig_kw: Any): ...
+def subplot2grid(shape: Any, loc: Any, rowspan: int = ..., colspan: int = ..., fig: Optional[Any] = ..., **kwargs: Any): ...
+def twinx(ax: Optional[Any] = ...): ...
+def twiny(ax: Optional[Any] = ...): ...
+def subplots_adjust(left: Optional[Any] = ..., bottom: Optional[Any] = ..., right: Optional[Any] = ..., top: Optional[Any] = ..., wspace: Optional[Any] = ..., hspace: Optional[Any] = ...) -> None: ...
+def subplot_tool(targetfig: Optional[Any] = ...): ...
+def tight_layout(pad: float = ..., h_pad: Optional[Any] = ..., w_pad: Optional[Any] = ..., rect: Optional[Any] = ...) -> None: ...
+def box(on: Optional[Any] = ...) -> None: ...
+def xlim(*args: Any, **kwargs: Any): ...
+def ylim(*args: Any, **kwargs: Any): ...
+def xticks(ticks: Optional[Any] = ..., labels: Optional[Any] = ..., **kwargs: Any): ...
+def yticks(ticks: Optional[Any] = ..., labels: Optional[Any] = ..., **kwargs: Any): ...
+def rgrids(*args: Any, **kwargs: Any): ...
+def thetagrids(*args: Any, **kwargs: Any): ...
+def plotting() -> None: ...
+def get_plot_commands(): ...
+def colormaps(): ...
+def colorbar(mappable: Optional[Any] = ..., cax: Optional[Any] = ..., ax: Optional[Any] = ..., **kw: Any): ...
+def clim(vmin: Optional[Any] = ..., vmax: Optional[Any] = ...) -> None: ...
+def set_cmap(cmap: Any) -> None: ...
+def imread(fname: Any, format: Optional[Any] = ...): ...
+def imsave(fname: Any, arr: Any, **kwargs: Any): ...
+def matshow(A: Any, fignum: Optional[Any] = ..., **kwargs: Any): ...
+def polar(*args: Any, **kwargs: Any): ...
+def plotfile(fname: Any, cols: Any = ..., plotfuncs: Optional[Any] = ..., comments: str = ..., skiprows: int = ..., checkrows: int = ..., delimiter: str = ..., names: Optional[Any] = ..., subplots: bool = ..., newfig: bool = ..., **kwargs: Any): ...
+def acorr(x: Any, *, data: Optional[Any] = ..., **kwargs: Any): ...
+def angle_spectrum(x: Any, Fs: Optional[Any] = ..., Fc: Optional[Any] = ..., window: Optional[Any] = ..., pad_to: Optional[Any] = ..., sides: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def annotate(s: Any, xy: Any, *args: Any, **kwargs: Any): ...
+def arrow(x: Any, y: Any, dx: Any, dy: Any, **kwargs: Any): ...
+def autoscale(enable: bool = ..., axis: str = ..., tight: Optional[Any] = ...): ...
+def axhline(y: int = ..., xmin: int = ..., xmax: int = ..., **kwargs: Any): ...
+def axhspan(ymin: Any, ymax: Any, xmin: int = ..., xmax: int = ..., **kwargs: Any): ...
+def axis(*args: Any, **kwargs: Any): ...
+def axvline(x: int = ..., ymin: int = ..., ymax: int = ..., **kwargs: Any): ...
+def axvspan(xmin: Any, xmax: Any, ymin: int = ..., ymax: int = ..., **kwargs: Any): ...
+def bar(x: Any, height: Any, width: float = ..., bottom: Optional[Any] = ..., *, align: str = ..., data: Optional[Any] = ..., **kwargs: Any): ...
+def barbs(*args: Any, data: Optional[Any] = ..., **kw: Any): ...
+def barh(y: Any, width: Any, height: float = ..., left: Optional[Any] = ..., *, align: str = ..., **kwargs: Any): ...
+def boxplot(x: Any, notch: Optional[Any] = ..., sym: Optional[Any] = ..., vert: Optional[Any] = ..., whis: Optional[Any] = ..., positions: Optional[Any] = ..., widths: Optional[Any] = ..., patch_artist: Optional[Any] = ..., bootstrap: Optional[Any] = ..., usermedians: Optional[Any] = ..., conf_intervals: Optional[Any] = ..., meanline: Optional[Any] = ..., showmeans: Optional[Any] = ..., showcaps: Optional[Any] = ..., showbox: Optional[Any] = ..., showfliers: Optional[Any] = ..., boxprops: Optional[Any] = ..., labels: Optional[Any] = ..., flierprops: Optional[Any] = ..., medianprops: Optional[Any] = ..., meanprops: Optional[Any] = ..., capprops: Optional[Any] = ..., whiskerprops: Optional[Any] = ..., manage_ticks: bool = ..., autorange: bool = ..., zorder: Optional[Any] = ..., *, data: Optional[Any] = ...): ...
+def broken_barh(xranges: Any, yrange: Any, *, data: Optional[Any] = ..., **kwargs: Any): ...
+def cla(): ...
+def clabel(CS: Any, *args: Any, **kwargs: Any): ...
+def cohere(x: Any, y: Any, NFFT: int = ..., Fs: int = ..., Fc: int = ..., detrend: Any = ..., window: Any = ..., noverlap: int = ..., pad_to: Optional[Any] = ..., sides: str = ..., scale_by_freq: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def contour(*args: Any, data: Optional[Any] = ..., **kwargs: Any): ...
+def contourf(*args: Any, data: Optional[Any] = ..., **kwargs: Any): ...
+def csd(x: Any, y: Any, NFFT: Optional[Any] = ..., Fs: Optional[Any] = ..., Fc: Optional[Any] = ..., detrend: Optional[Any] = ..., window: Optional[Any] = ..., noverlap: Optional[Any] = ..., pad_to: Optional[Any] = ..., sides: Optional[Any] = ..., scale_by_freq: Optional[Any] = ..., return_line: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def errorbar(x: Any, y: Any, yerr: Optional[Any] = ..., xerr: Optional[Any] = ..., fmt: str = ..., ecolor: Optional[Any] = ..., elinewidth: Optional[Any] = ..., capsize: Optional[Any] = ..., barsabove: bool = ..., lolims: bool = ..., uplims: bool = ..., xlolims: bool = ..., xuplims: bool = ..., errorevery: int = ..., capthick: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def eventplot(positions: Any, orientation: str = ..., lineoffsets: int = ..., linelengths: int = ..., linewidths: Optional[Any] = ..., colors: Optional[Any] = ..., linestyles: str = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def fill(*args: Any, data: Optional[Any] = ..., **kwargs: Any): ...
+def fill_between(x: Any, y1: Any, y2: int = ..., where: Optional[Any] = ..., interpolate: bool = ..., step: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def fill_betweenx(y: Any, x1: Any, x2: int = ..., where: Optional[Any] = ..., step: Optional[Any] = ..., interpolate: bool = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def grid(b: Optional[Any] = ..., which: str = ..., axis: str = ..., **kwargs: Any): ...
+def hexbin(x: Any, y: Any, C: Optional[Any] = ..., gridsize: int = ..., bins: Optional[Any] = ..., xscale: str = ..., yscale: str = ..., extent: Optional[Any] = ..., cmap: Optional[Any] = ..., norm: Optional[Any] = ..., vmin: Optional[Any] = ..., vmax: Optional[Any] = ..., alpha: Optional[Any] = ..., linewidths: Optional[Any] = ..., edgecolors: str = ..., reduce_C_function: Any = ..., mincnt: Optional[Any] = ..., marginals: bool = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def hist(x: Any, bins: Optional[Any] = ..., range: Optional[Any] = ..., density: Optional[Any] = ..., weights: Optional[Any] = ..., cumulative: bool = ..., bottom: Optional[Any] = ..., histtype: str = ..., align: str = ..., orientation: str = ..., rwidth: Optional[Any] = ..., log: bool = ..., color: Optional[Any] = ..., label: Optional[Any] = ..., stacked: bool = ..., normed: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def hist2d(x: Any, y: Any, bins: int = ..., range: Optional[Any] = ..., density: bool = ..., weights: Optional[Any] = ..., cmin: Optional[Any] = ..., cmax: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def hlines(y: Any, xmin: Any, xmax: Any, colors: str = ..., linestyles: str = ..., label: str = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def imshow(X: Any, cmap: Optional[Any] = ..., norm: Optional[Any] = ..., aspect: Optional[Any] = ..., interpolation: Optional[Any] = ..., alpha: Optional[Any] = ..., vmin: Optional[Any] = ..., vmax: Optional[Any] = ..., origin: Optional[Any] = ..., extent: Optional[Any] = ..., shape: Any = ..., filternorm: int = ..., filterrad: float = ..., imlim: Any = ..., resample: Optional[Any] = ..., url: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def legend(*args: Any, **kwargs: Any): ...
+def locator_params(axis: str = ..., tight: Optional[Any] = ..., **kwargs: Any): ...
+def loglog(*args: Any, **kwargs: Any): ...
+def magnitude_spectrum(x: Any, Fs: Optional[Any] = ..., Fc: Optional[Any] = ..., window: Optional[Any] = ..., pad_to: Optional[Any] = ..., sides: Optional[Any] = ..., scale: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def margins(*margins: Any, x: Optional[Any] = ..., y: Optional[Any] = ..., tight: bool = ...): ...
+def minorticks_off(): ...
+def minorticks_on(): ...
+def pcolor(*args: Any, alpha: Optional[Any] = ..., norm: Optional[Any] = ..., cmap: Optional[Any] = ..., vmin: Optional[Any] = ..., vmax: Optional[Any] = ..., data: Optional[Any] = ..., **kwargs: Any): ...
+def pcolormesh(*args: Any, alpha: Optional[Any] = ..., norm: Optional[Any] = ..., cmap: Optional[Any] = ..., vmin: Optional[Any] = ..., vmax: Optional[Any] = ..., shading: str = ..., antialiased: bool = ..., data: Optional[Any] = ..., **kwargs: Any): ...
+def phase_spectrum(x: Any, Fs: Optional[Any] = ..., Fc: Optional[Any] = ..., window: Optional[Any] = ..., pad_to: Optional[Any] = ..., sides: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def pie(x: Any, explode: Optional[Any] = ..., labels: Optional[Any] = ..., colors: Optional[Any] = ..., autopct: Optional[Any] = ..., pctdistance: float = ..., shadow: bool = ..., labeldistance: float = ..., startangle: Optional[Any] = ..., radius: Optional[Any] = ..., counterclock: bool = ..., wedgeprops: Optional[Any] = ..., textprops: Optional[Any] = ..., center: Any = ..., frame: bool = ..., rotatelabels: bool = ..., *, data: Optional[Any] = ...): ...
+def plot(*args: Any, scalex: bool = ..., scaley: bool = ..., data: Optional[Any] = ..., **kwargs: Any): ...
+def plot_date(x: Any, y: Any, fmt: str = ..., tz: Optional[Any] = ..., xdate: bool = ..., ydate: bool = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def psd(x: Any, NFFT: Optional[Any] = ..., Fs: Optional[Any] = ..., Fc: Optional[Any] = ..., detrend: Optional[Any] = ..., window: Optional[Any] = ..., noverlap: Optional[Any] = ..., pad_to: Optional[Any] = ..., sides: Optional[Any] = ..., scale_by_freq: Optional[Any] = ..., return_line: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def quiver(*args: Any, data: Optional[Any] = ..., **kw: Any): ...
+def quiverkey(Q: Any, X: Any, Y: Any, U: Any, label: Any, **kw: Any): ...
+def scatter(x: Any, y: Any, s: Optional[Any] = ..., c: Optional[Any] = ..., marker: Optional[Any] = ..., cmap: Optional[Any] = ..., norm: Optional[Any] = ..., vmin: Optional[Any] = ..., vmax: Optional[Any] = ..., alpha: Optional[Any] = ..., linewidths: Optional[Any] = ..., verts: Optional[Any] = ..., edgecolors: Optional[Any] = ..., *, plotnonfinite: bool = ..., data: Optional[Any] = ..., **kwargs: Any): ...
+def semilogx(*args: Any, **kwargs: Any): ...
+def semilogy(*args: Any, **kwargs: Any): ...
+def specgram(x: Any, NFFT: Optional[Any] = ..., Fs: Optional[Any] = ..., Fc: Optional[Any] = ..., detrend: Optional[Any] = ..., window: Optional[Any] = ..., noverlap: Optional[Any] = ..., cmap: Optional[Any] = ..., xextent: Optional[Any] = ..., pad_to: Optional[Any] = ..., sides: Optional[Any] = ..., scale_by_freq: Optional[Any] = ..., mode: Optional[Any] = ..., scale: Optional[Any] = ..., vmin: Optional[Any] = ..., vmax: Optional[Any] = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def spy(Z: Any, precision: int = ..., marker: Optional[Any] = ..., markersize: Optional[Any] = ..., aspect: str = ..., origin: str = ..., **kwargs: Any): ...
+def stackplot(x: Any, *args: Any, labels: Any = ..., colors: Optional[Any] = ..., baseline: str = ..., data: Optional[Any] = ..., **kwargs: Any): ...
+def stem(*args: Any, linefmt: Optional[Any] = ..., markerfmt: Optional[Any] = ..., basefmt: Optional[Any] = ..., bottom: int = ..., label: Optional[Any] = ..., use_line_collection: bool = ..., data: Optional[Any] = ...): ...
+def step(x: Any, y: Any, *args: Any, where: str = ..., data: Optional[Any] = ..., **kwargs: Any): ...
+def streamplot(x: Any, y: Any, u: Any, v: Any, density: int = ..., linewidth: Optional[Any] = ..., color: Optional[Any] = ..., cmap: Optional[Any] = ..., norm: Optional[Any] = ..., arrowsize: int = ..., arrowstyle: str = ..., minlength: float = ..., transform: Optional[Any] = ..., zorder: Optional[Any] = ..., start_points: Optional[Any] = ..., maxlength: float = ..., integration_direction: str = ..., *, data: Optional[Any] = ...): ...
+def table(cellText: Optional[Any] = ..., cellColours: Optional[Any] = ..., cellLoc: str = ..., colWidths: Optional[Any] = ..., rowLabels: Optional[Any] = ..., rowColours: Optional[Any] = ..., rowLoc: str = ..., colLabels: Optional[Any] = ..., colColours: Optional[Any] = ..., colLoc: str = ..., loc: str = ..., bbox: Optional[Any] = ..., edges: str = ..., **kwargs: Any): ...
+def text(x: Any, y: Any, s: Any, fontdict: Optional[Any] = ..., withdash: Any = ..., **kwargs: Any): ...
+def tick_params(axis: str = ..., **kwargs: Any): ...
+def ticklabel_format(*, axis: str = ..., style: str = ..., scilimits: Optional[Any] = ..., useOffset: Optional[Any] = ..., useLocale: Optional[Any] = ..., useMathText: Optional[Any] = ...): ...
+def tricontour(*args: Any, **kwargs: Any): ...
+def tricontourf(*args: Any, **kwargs: Any): ...
+def tripcolor(*args: Any, alpha: float = ..., norm: Optional[Any] = ..., cmap: Optional[Any] = ..., vmin: Optional[Any] = ..., vmax: Optional[Any] = ..., shading: str = ..., facecolors: Optional[Any] = ..., **kwargs: Any): ...
+def triplot(*args: Any, **kwargs: Any): ...
+def violinplot(dataset: Any, positions: Optional[Any] = ..., vert: bool = ..., widths: float = ..., showmeans: bool = ..., showextrema: bool = ..., showmedians: bool = ..., points: int = ..., bw_method: Optional[Any] = ..., *, data: Optional[Any] = ...): ...
+def vlines(x: Any, ymin: Any, ymax: Any, colors: str = ..., linestyles: str = ..., label: str = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def xcorr(x: Any, y: Any, normed: bool = ..., detrend: Any = ..., usevlines: bool = ..., maxlags: int = ..., *, data: Optional[Any] = ..., **kwargs: Any): ...
+def sci(im: Any): ...
+def title(label: Any, fontdict: Optional[Any] = ..., loc: str = ..., pad: Optional[Any] = ..., **kwargs: Any): ...
+def xlabel(xlabel: Any, fontdict: Optional[Any] = ..., labelpad: Optional[Any] = ..., **kwargs: Any): ...
+def ylabel(ylabel: Any, fontdict: Optional[Any] = ..., labelpad: Optional[Any] = ..., **kwargs: Any): ...
+def xscale(value: Any, **kwargs: Any): ...
+def yscale(value: Any, **kwargs: Any): ...
+def autumn() -> None: ...
+def bone() -> None: ...
+def cool() -> None: ...
+def copper() -> None: ...
+def flag() -> None: ...
+def gray() -> None: ...
+def hot() -> None: ...
+def hsv() -> None: ...
+def jet() -> None: ...
+def pink() -> None: ...
+def prism() -> None: ...
+def spring() -> None: ...
+def summer() -> None: ...
+def winter() -> None: ...
+def magma() -> None: ...
+def inferno() -> None: ...
+def plasma() -> None: ...
+def viridis() -> None: ...
+def nipy_spectral() -> None: ...
diff --git a/stubs/numpy/__init__.pyi b/stubs/numpy/__init__.pyi
new file mode 100644
index 0000000..2816fd0
--- /dev/null
+++ b/stubs/numpy/__init__.pyi
@@ -0,0 +1,455 @@
+import builtins
+import sys
+
+from numpy.core._internal import _ctypes
+from typing import (
+    Any,
+    Container,
+    Dict,
+    IO,
+    Iterable,
+    List,
+    Mapping,
+    Optional,
+    overload,
+    Sequence,
+    Sized,
+    SupportsAbs,
+    SupportsComplex,
+    SupportsFloat,
+    SupportsInt,
+    Text,
+    Tuple,
+    Type,
+    TypeVar,
+    Union,
+)
+
+if sys.version_info[0] < 3:
+    class SupportsBytes: ...
+
+else:
+    from typing import SupportsBytes
+
+_Shape = Tuple[int, ...]
+
+# Anything that can be coerced to a shape tuple
+_ShapeLike = Union[int, Sequence[int]]
+
+_DtypeLikeNested = Any  # TODO: wait for support for recursive types
+
+# Anything that can be coerced into numpy.dtype.
+# Reference: https://docs.scipy.org/doc/numpy/reference/arrays.dtypes.html
+_DtypeLike = Union[
+    dtype,
+    # default data type (float64)
+    None,
+    # array-scalar types and generic types
+    type,  # TODO: enumerate these when we add type hints for numpy scalars
+    # TODO: add a protocol for anything with a dtype attribute
+    # character codes, type strings or comma-separated fields, e.g., 'float64'
+    str,
+    # (flexible_dtype, itemsize)
+    Tuple[_DtypeLikeNested, int],
+    # (fixed_dtype, shape)
+    Tuple[_DtypeLikeNested, _ShapeLike],
+    # [(field_name, field_dtype, field_shape), ...]
+    List[
+        Union[
+            Tuple[Union[str, Tuple[str, str]], _DtypeLikeNested],
+            Tuple[Union[str, Tuple[str, str]], _DtypeLikeNested, _ShapeLike],
+        ]
+    ],
+    # {'names': ..., 'formats': ..., 'offsets': ..., 'titles': ...,
+    #  'itemsize': ...}
+    # TODO: use TypedDict when/if it's officially supported
+    Dict[
+        str,
+        Union[
+            Sequence[str],  # names
+            Sequence[_DtypeLikeNested],  # formats
+            Sequence[int],  # offsets
+            Sequence[Union[bytes, Text, None]],  # titles
+            int,  # itemsize
+        ],
+    ],
+    # {'field1': ..., 'field2': ..., ...}
+    Dict[str, Tuple[_DtypeLikeNested, int]],
+    # (base_dtype, new_dtype)
+    Tuple[_DtypeLikeNested, _DtypeLikeNested],
+]
+
+_NdArraySubClass = TypeVar("_NdArraySubClass", bound=ndarray)
+
+class dtype:
+    names: Optional[Tuple[str, ...]]
+    def __init__(
+        self, obj: _DtypeLike, align: bool = ..., copy: bool = ...
+    ) -> None: ...
+    @property
+    def alignment(self) -> int: ...
+    @property
+    def base(self) -> dtype: ...
+    @property
+    def byteorder(self) -> str: ...
+    @property
+    def char(self) -> str: ...
+    @property
+    def descr(self) -> List[Union[Tuple[str, str], Tuple[str, str, _Shape]]]: ...
+    @property
+    def fields(
+        self
+    ) -> Optional[Mapping[str, Union[Tuple[dtype, int], Tuple[dtype, int, Any]]]]: ...
+    @property
+    def flags(self) -> int: ...
+    @property
+    def hasobject(self) -> bool: ...
+    @property
+    def isbuiltin(self) -> int: ...
+    @property
+    def isnative(self) -> bool: ...
+    @property
+    def isalignedstruct(self) -> bool: ...
+    @property
+    def itemsize(self) -> int: ...
+    @property
+    def kind(self) -> str: ...
+    @property
+    def metadata(self) -> Optional[Mapping[str, Any]]: ...
+    @property
+    def name(self) -> str: ...
+    @property
+    def num(self) -> int: ...
+    @property
+    def shape(self) -> _Shape: ...
+    @property
+    def ndim(self) -> int: ...
+    @property
+    def subdtype(self) -> Optional[Tuple[dtype, _Shape]]: ...
+    def newbyteorder(self, new_order: str = ...) -> dtype: ...
+    # Leave str and type for end to avoid having to use `builtins.str`
+    # everywhere. See https://github.com/python/mypy/issues/3775
+    @property
+    def str(self) -> builtins.str: ...
+    @property
+    def type(self) -> Type[generic]: ...
+
+_Dtype = dtype  # to avoid name conflicts with ndarray.dtype
+
+class _flagsobj:
+    aligned: bool
+    updateifcopy: bool
+    writeable: bool
+    writebackifcopy: bool
+    @property
+    def behaved(self) -> bool: ...
+    @property
+    def c_contiguous(self) -> bool: ...
+    @property
+    def carray(self) -> bool: ...
+    @property
+    def contiguous(self) -> bool: ...
+    @property
+    def f_contiguous(self) -> bool: ...
+    @property
+    def farray(self) -> bool: ...
+    @property
+    def fnc(self) -> bool: ...
+    @property
+    def forc(self) -> bool: ...
+    @property
+    def fortran(self) -> bool: ...
+    @property
+    def num(self) -> int: ...
+    @property
+    def owndata(self) -> bool: ...
+    def __getitem__(self, key: str) -> bool: ...
+    def __setitem__(self, key: str, value: bool) -> None: ...
+
+class flatiter:
+    @property
+    def base(self) -> ndarray: ...
+    @property
+    def coords(self) -> _Shape: ...
+    @property
+    def index(self) -> int: ...
+    def copy(self) -> ndarray: ...
+    def __iter__(self) -> flatiter: ...
+    def __next__(self) -> Any: ...
+
+_ArraySelf = TypeVar("_ArraySelf", bound=_ArrayOrScalarCommon)
+
+class _ArrayOrScalarCommon(
+    SupportsInt, SupportsFloat, SupportsComplex, SupportsBytes, SupportsAbs[Any]
+):
+    @property
+    def T(self: _ArraySelf) -> _ArraySelf: ...
+    @property
+    def base(self) -> Optional[ndarray]: ...
+    @property
+    def dtype(self) -> _Dtype: ...
+    @property
+    def data(self) -> memoryview: ...
+    @property
+    def flags(self) -> _flagsobj: ...
+    @property
+    def size(self) -> int: ...
+    @property
+    def itemsize(self) -> int: ...
+    @property
+    def nbytes(self) -> int: ...
+    @property
+    def ndim(self) -> int: ...
+    @property
+    def shape(self) -> _Shape: ...
+    @property
+    def strides(self) -> _Shape: ...
+    def __int__(self) -> int: ...
+    def __float__(self) -> float: ...
+    def __complex__(self) -> complex: ...
+    if sys.version_info[0] < 3:
+        def __oct__(self) -> str: ...
+        def __hex__(self) -> str: ...
+        def __nonzero__(self) -> bool: ...
+        def __unicode__(self) -> Text: ...
+    else:
+        def __bool__(self) -> bool: ...
+        def __bytes__(self) -> bytes: ...
+    def __str__(self) -> str: ...
+    def __repr__(self) -> str: ...
+    def __copy__(self: _ArraySelf, order: str = ...) -> _ArraySelf: ...
+    def __deepcopy__(self: _ArraySelf, memo: dict) -> _ArraySelf: ...
+    def __lt__(self, other): ...
+    def __le__(self, other): ...
+    def __eq__(self, other): ...
+    def __ne__(self, other): ...
+    def __gt__(self, other): ...
+    def __ge__(self, other): ...
+    def __add__(self, other): ...
+    def __radd__(self, other): ...
+    def __iadd__(self, other): ...
+    def __sub__(self, other): ...
+    def __rsub__(self, other): ...
+    def __isub__(self, other): ...
+    def __mul__(self, other): ...
+    def __rmul__(self, other): ...
+    def __imul__(self, other): ...
+    if sys.version_info[0] < 3:
+        def __div__(self, other): ...
+        def __rdiv__(self, other): ...
+        def __idiv__(self, other): ...
+    def __truediv__(self, other): ...
+    def __rtruediv__(self, other): ...
+    def __itruediv__(self, other): ...
+    def __floordiv__(self, other): ...
+    def __rfloordiv__(self, other): ...
+    def __ifloordiv__(self, other): ...
+    def __mod__(self, other): ...
+    def __rmod__(self, other): ...
+    def __imod__(self, other): ...
+    def __divmod__(self, other): ...
+    def __rdivmod__(self, other): ...
+    # NumPy's __pow__ doesn't handle a third argument
+    def __pow__(self, other): ...
+    def __rpow__(self, other): ...
+    def __ipow__(self, other): ...
+    def __lshift__(self, other): ...
+    def __rlshift__(self, other): ...
+    def __ilshift__(self, other): ...
+    def __rshift__(self, other): ...
+    def __rrshift__(self, other): ...
+    def __irshift__(self, other): ...
+    def __and__(self, other): ...
+    def __rand__(self, other): ...
+    def __iand__(self, other): ...
+    def __xor__(self, other): ...
+    def __rxor__(self, other): ...
+    def __ixor__(self, other): ...
+    def __or__(self, other): ...
+    def __ror__(self, other): ...
+    def __ior__(self, other): ...
+    if sys.version_info[:2] >= (3, 5):
+        def __matmul__(self, other): ...
+        def __rmatmul__(self, other): ...
+    def __neg__(self: _ArraySelf) -> _ArraySelf: ...
+    def __pos__(self: _ArraySelf) -> _ArraySelf: ...
+    def __abs__(self: _ArraySelf) -> _ArraySelf: ...
+    def __invert__(self: _ArraySelf) -> _ArraySelf: ...
+    # TODO(shoyer): remove when all methods are defined
+    def __getattr__(self, name) -> Any: ...
+
+_BufferType = Union[ndarray, bytes, bytearray, memoryview]
+
+class ndarray(_ArrayOrScalarCommon, Iterable, Sized, Container):
+    real: ndarray
+    imag: ndarray
+    def __new__(
+        cls,
+        shape: Sequence[int],
+        dtype: Union[_DtypeLike, str] = ...,
+        buffer: _BufferType = ...,
+        offset: int = ...,
+        strides: _ShapeLike = ...,
+        order: Optional[str] = ...,
+    ) -> ndarray: ...
+    @property
+    def dtype(self) -> _Dtype: ...
+    @dtype.setter
+    def dtype(self, value: _DtypeLike): ...
+    @property
+    def ctypes(self) -> _ctypes: ...
+    @property
+    def shape(self) -> _Shape: ...
+    @shape.setter
+    def shape(self, value: _ShapeLike): ...
+    @property
+    def flat(self) -> flatiter: ...
+    @property
+    def strides(self) -> _Shape: ...
+    @strides.setter
+    def strides(self, value: _ShapeLike): ...
+    # Array conversion
+    @overload
+    def item(self, *args: int) -> Any: ...
+    @overload
+    def item(self, args: Tuple[int, ...]) -> Any: ...
+    def tolist(self) -> List[Any]: ...
+    @overload
+    def itemset(self, __value: Any) -> None: ...
+    @overload
+    def itemset(self, __item: _ShapeLike, __value: Any) -> None: ...
+    def tostring(self, order: Optional[str] = ...) -> bytes: ...
+    def tobytes(self, order: Optional[str] = ...) -> bytes: ...
+    def tofile(
+        self, fid: Union[IO[bytes], str], sep: str = ..., format: str = ...
+    ) -> None: ...
+    def dump(self, file: str) -> None: ...
+    def dumps(self) -> bytes: ...
+    def astype(
+        self,
+        dtype: _DtypeLike,
+        order: str = ...,
+        casting: str = ...,
+        subok: bool = ...,
+        copy: bool = ...,
+    ) -> ndarray: ...
+    def byteswap(self, inplace: bool = ...) -> ndarray: ...
+    def copy(self, order: str = ...) -> ndarray: ...
+    @overload
+    def view(self, dtype: Type[_NdArraySubClass]) -> _NdArraySubClass: ...
+    @overload
+    def view(self, dtype: _DtypeLike = ...) -> ndarray: ...
+    @overload
+    def view(
+        self, dtype: _DtypeLike, type: Type[_NdArraySubClass]
+    ) -> _NdArraySubClass: ...
+    @overload
+    def view(self, *, type: Type[_NdArraySubClass]) -> _NdArraySubClass: ...
+    def getfield(self, dtype: Union[_DtypeLike, str], offset: int = ...) -> ndarray: ...
+    def setflags(
+        self, write: bool = ..., align: bool = ..., uic: bool = ...
+    ) -> None: ...
+    def fill(self, value: Any) -> None: ...
+    # Shape manipulation
+    @overload
+    def reshape(self, shape: Sequence[int], *, order: str = ...) -> ndarray: ...
+    @overload
+    def reshape(self, *shape: int, order: str = ...) -> ndarray: ...
+    @overload
+    def resize(self, new_shape: Sequence[int], *, refcheck: bool = ...) -> None: ...
+    @overload
+    def resize(self, *new_shape: int, refcheck: bool = ...) -> None: ...
+    @overload
+    def transpose(self, axes: Sequence[int]) -> ndarray: ...
+    @overload
+    def transpose(self, *axes: int) -> ndarray: ...
+    def swapaxes(self, axis1: int, axis2: int) -> ndarray: ...
+    def flatten(self, order: str = ...) -> ndarray: ...
+    def ravel(self, order: str = ...) -> ndarray: ...
+    def squeeze(self, axis: Union[int, Tuple[int, ...]] = ...) -> ndarray: ...
+    # Many of these special methods are irrelevant currently, since protocols
+    # aren't supported yet. That said, I'm adding them for completeness.
+    # https://docs.python.org/3/reference/datamodel.html
+    def __len__(self) -> int: ...
+    def __getitem__(self, key) -> Any: ...
+    def __setitem__(self, key, value): ...
+    def __iter__(self) -> Any: ...
+    def __contains__(self, key) -> bool: ...
+    def __index__(self) -> int: ...
+
+class generic(_ArrayOrScalarCommon):
+    def __init__(self, value: Any = ...) -> None: ...
+    @property
+    def base(self) -> None: ...
+
+class _real_generic(generic):
+    @property
+    def real(self: _ArraySelf) -> _ArraySelf: ...
+    @property
+    def imag(self: _ArraySelf) -> _ArraySelf: ...
+
+class number(generic):
+    def __init__(self, value: Union[SupportsInt, SupportsFloat] = ...) -> None: ...
+
+class bool_(_real_generic): ...
+class object_(generic): ...
+class datetime64(_real_generic): ...
+class integer(number, _real_generic): ...
+class signedinteger(integer): ...
+class int8(signedinteger): ...
+class int16(signedinteger): ...
+class int32(signedinteger): ...
+class int64(signedinteger): ...
+class timedelta64(signedinteger): ...
+class unsignedinteger(integer): ...
+class uint8(unsignedinteger): ...
+class uint16(unsignedinteger): ...
+class uint32(unsignedinteger): ...
+class uint64(unsignedinteger): ...
+class inexact(number): ...
+class floating(inexact, _real_generic): ...
+class float16(floating): ...
+class float32(floating): ...
+class float64(floating): ...
+
+class complexfloating(inexact):
+    def __init__(
+        self, value: Union[SupportsInt, SupportsFloat, SupportsComplex, complex] = ...
+    ) -> None: ...
+
+class complex64(complexfloating):
+    @property
+    def real(self) -> float32: ...
+    @property
+    def imag(self) -> float32: ...
+
+class complex128(complexfloating):
+    @property
+    def real(self) -> float64: ...
+    @property
+    def imag(self) -> float64: ...
+
+class flexible(_real_generic): ...
+class void(flexible): ...
+class character(_real_generic): ...
+class bytes_(character): ...
+class str_(character): ...
+
+# TODO(alan): Platform dependent types
+# longcomplex, longdouble, longfloat
+# bytes, short, intc, intp, longlong
+# half, single, double, longdouble
+# uint_, int_, float_, complex_
+# float128, complex256
+# float96
+
+def array(
+    object: object,
+    dtype: _DtypeLike = ...,
+    copy: bool = ...,
+    subok: bool = ...,
+    ndmin: int = ...,
+) -> ndarray: ...
+
+# TODO(shoyer): remove when the full numpy namespace is defined
+def __getattr__(name: str) -> Any: ...
diff --git a/stubs/numpy/core/__init__.pyi b/stubs/numpy/core/__init__.pyi
new file mode 100644
index 0000000..e69de29
diff --git a/stubs/numpy/core/_internal.pyi b/stubs/numpy/core/_internal.pyi
new file mode 100644
index 0000000..1b3889e
--- /dev/null
+++ b/stubs/numpy/core/_internal.pyi
@@ -0,0 +1,18 @@
+from typing import Any
+
+# TODO: add better annotations when ctypes is stubbed out
+
+class _ctypes:
+    @property
+    def data(self) -> int: ...
+    @property
+    def shape(self) -> Any: ...
+    @property
+    def strides(self) -> Any: ...
+    def data_as(self, obj: Any) -> Any: ...
+    def shape_as(self, obj: Any) -> Any: ...
+    def strides_as(self, obj: Any) -> Any: ...
+    def get_data(self) -> int: ...
+    def get_shape(self) -> Any: ...
+    def get_strides(self) -> Any: ...
+    def get_as_parameter(self) -> Any: ...
diff --git a/stubs/pandas/__init__.pyi b/stubs/pandas/__init__.pyi
new file mode 100644
index 0000000..f048edc
--- /dev/null
+++ b/stubs/pandas/__init__.pyi
@@ -0,0 +1,21 @@
+# Stubs for pandas (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from pandas.compat.numpy import *
+from pandas.core.api import *
+from pandas.core.sparse.api import *
+from pandas.tseries.api import *
+from pandas.core.computation.api import *
+from pandas.core.reshape.api import *
+from pandas.io.api import *
+from ._version import get_versions
+from typing import Any
+
+__docformat__: str
+hard_dependencies: Any
+missing_dependencies: Any
+module: Any
+v: Any
+__git_version__: Any
+__doc__: str
diff --git a/stubs/path/__init__.pyi b/stubs/path/__init__.pyi
new file mode 100644
index 0000000..9a2033a
--- /dev/null
+++ b/stubs/path/__init__.pyi
@@ -0,0 +1,179 @@
+# Stubs for path (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from . import matchers
+from typing import Any, Optional
+
+class TreeWalkWarning(Warning): ...
+
+class ClassProperty(property):
+    def __get__(self, cls: Any, owner: Any): ...
+
+class multimethod:
+    func: Any = ...
+    def __init__(self, func: Any) -> None: ...
+    def __get__(self, instance: Any, owner: Any): ...
+
+class Path(str):
+    module: Any = ...
+    def __init__(self, other: str = ...) -> None: ...
+    @classmethod
+    def using_module(cls, module: Any): ...
+    def __add__(self, more: Any): ...
+    def __radd__(self, other: Any): ...
+    def __div__(self, rel: Any): ...
+    __truediv__: Any = ...
+    def __rdiv__(self, rel: Any): ...
+    __rtruediv__: Any = ...
+    def __enter__(self): ...
+    def __exit__(self, *_: Any) -> None: ...
+    def __fspath__(self): ...
+    @classmethod
+    def getcwd(cls): ...
+    def abspath(self): ...
+    def normcase(self): ...
+    def normpath(self): ...
+    def realpath(self): ...
+    def expanduser(self): ...
+    def expandvars(self): ...
+    def dirname(self): ...
+    def basename(self): ...
+    def expand(self): ...
+    @property
+    def stem(self): ...
+    @property
+    def namebase(self): ...
+    @property
+    def ext(self): ...
+    def with_suffix(self, suffix: Any): ...
+    @property
+    def drive(self): ...
+    parent: Any = ...
+    name: Any = ...
+    def splitpath(self): ...
+    def splitdrive(self): ...
+    def splitext(self): ...
+    def stripext(self): ...
+    def splitunc(self): ...
+    @property
+    def uncshare(self): ...
+    def joinpath(cls, first: Any, *others: Any): ...
+    def splitall(self): ...
+    def relpath(self, start: str = ...): ...
+    def relpathto(self, dest: Any): ...
+    def listdir(self, match: Optional[Any] = ...): ...
+    def dirs(self, *args: Any, **kwargs: Any): ...
+    def files(self, *args: Any, **kwargs: Any): ...
+    def walk(self, match: Optional[Any] = ..., errors: str = ...) -> None: ...
+    def walkdirs(self, *args: Any, **kwargs: Any): ...
+    def walkfiles(self, *args: Any, **kwargs: Any): ...
+    def fnmatch(self, pattern: Any, normcase: Optional[Any] = ...): ...
+    def glob(self, pattern: Any): ...
+    def iglob(self, pattern: Any): ...
+    def open(self, *args: Any, **kwargs: Any): ...
+    def bytes(self): ...
+    def chunks(self, size: Any, *args: Any, **kwargs: Any): ...
+    def write_bytes(self, bytes: Any, append: bool = ...) -> None: ...
+    def text(self, encoding: Optional[Any] = ..., errors: str = ...): ...
+    def write_text(self, text: Any, encoding: Optional[Any] = ..., errors: str = ..., linesep: Any = ..., append: bool = ...) -> None: ...
+    def lines(self, encoding: Optional[Any] = ..., errors: str = ..., retain: bool = ...): ...
+    def write_lines(self, lines: Any, encoding: Optional[Any] = ..., errors: str = ..., linesep: Any = ..., append: bool = ...) -> None: ...
+    def read_md5(self): ...
+    def read_hash(self, hash_name: Any): ...
+    def read_hexhash(self, hash_name: Any): ...
+    def isabs(self): ...
+    def exists(self) -> bool: ...
+    def isdir(self): ...
+    def isfile(self): ...
+    def islink(self): ...
+    def ismount(self): ...
+    def samefile(self, other: Any): ...
+    def getatime(self): ...
+    atime: Any = ...
+    def getmtime(self): ...
+    mtime: Any = ...
+    def getctime(self): ...
+    ctime: Any = ...
+    def getsize(self): ...
+    size: Any = ...
+    def access(self, mode: Any): ...
+    def stat(self): ...
+    def lstat(self): ...
+    get_owner: Any = ...
+    owner: Any = ...
+    def statvfs(self): ...
+    def pathconf(self, name: Any): ...
+    def utime(self, times: Any): ...
+    def chmod(self, mode: Any): ...
+    def chown(self, uid: int = ..., gid: int = ...): ...
+    def rename(self, new: Any): ...
+    def renames(self, new: Any): ...
+    def mkdir(self, mode: int = ...): ...
+    def mkdir_p(self, mode: int = ...): ...
+    def makedirs(self, mode: int = ...): ...
+    def makedirs_p(self, mode: int = ...): ...
+    def rmdir(self): ...
+    def rmdir_p(self): ...
+    def removedirs(self): ...
+    def removedirs_p(self): ...
+    def touch(self): ...
+    def remove(self) -> None: ...
+    def remove_p(self): ...
+    def unlink(self): ...
+    def unlink_p(self): ...
+    def link(self, newpath: Any): ...
+    def symlink(self, newlink: Optional[Any] = ...): ...
+    def readlink(self): ...
+    def readlinkabs(self): ...
+    copyfile: Any = ...
+    copymode: Any = ...
+    copystat: Any = ...
+    copy: Any = ...
+    copy2: Any = ...
+    copytree: Any = ...
+    move: Any = ...
+    rmtree: Any = ...
+    def rmtree_p(self): ...
+    def chdir(self) -> None: ...
+    cd: Any = ...
+    def merge_tree(self, dst: Any, symlinks: bool = ..., *, update: bool = ..., copy_function: Any = ..., ignore: Any = ...): ...
+    def chroot(self) -> None: ...
+    def startfile(self): ...
+    def in_place(self, mode: str = ..., buffering: int = ..., encoding: Optional[Any] = ..., errors: Optional[Any] = ..., newline: Optional[Any] = ..., backup_extension: Optional[Any] = ...) -> None: ...
+    @classmethod
+    def special(cls): ...
+
+class DirectoryNotEmpty(OSError):
+    @staticmethod
+    def translate() -> None: ...
+
+class SpecialResolver:
+    class ResolverScope:
+        paths: Any = ...
+        scope: Any = ...
+        def __init__(self, paths: Any, scope: Any) -> None: ...
+        def __getattr__(self, class_: Any): ...
+    def __init__(self, path_class: Any, *args: Any, **kwargs: Any) -> None: ...
+    def __getattr__(self, scope: Any): ...
+    def get_dir(self, scope: Any, class_: Any): ...
+
+class Multi:
+    @classmethod
+    def for_class(cls, path_cls: Any): ...
+    @classmethod
+    def detect(cls, input: Any): ...
+    def __iter__(self): ...
+
+class TempDir(Path):
+    def __new__(cls, *args: Any, **kwargs: Any): ...
+    def __init__(self, *args: Any, **kwargs: Any) -> None: ...
+    def __enter__(self): ...
+    def __exit__(self, exc_type: Any, exc_value: Any, traceback: Any) -> None: ...
+tempdir = TempDir
+
+class CaseInsensitivePattern(matchers.CaseInsensitive):
+    def __init__(self, value: Any) -> None: ...
+
+class FastPath(Path):
+    def __init__(self, *args: Any, **kwargs: Any) -> None: ...
diff --git a/stubs/plumbum/__init__.pyi b/stubs/plumbum/__init__.pyi
new file mode 100644
index 0000000..413f56c
--- /dev/null
+++ b/stubs/plumbum/__init__.pyi
@@ -0,0 +1,14 @@
+# Stubs for plumbum (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from types import ModuleType
+from typing import Any, List
+
+class LocalModule(ModuleType):
+    __package__: Any = ...
+    def __getattr__(self, name: Any): ...
+    __path__: List[str] = ...
+    __file__: Any = ...
+
+cmd: Any
diff --git a/stubs/schema.pyi b/stubs/schema.pyi
new file mode 100644
index 0000000..9492e2e
--- /dev/null
+++ b/stubs/schema.pyi
@@ -0,0 +1,63 @@
+# Stubs for schema (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from typing import Any, Optional as Optional
+
+class SchemaError(Exception):
+    autos: Any = ...
+    errors: Any = ...
+    def __init__(self, autos: Any, errors: Optional[Any] = ...) -> None: ...
+    @property
+    def code(self): ...
+
+class SchemaWrongKeyError(SchemaError): ...
+class SchemaMissingKeyError(SchemaError): ...
+class SchemaOnlyOneAllowedError(SchemaError): ...
+class SchemaForbiddenKeyError(SchemaError): ...
+class SchemaUnexpectedTypeError(SchemaError): ...
+
+class And:
+    def __init__(self, *args: Any, **kw: Any) -> None: ...
+    def validate(self, data: Any): ...
+
+class Or(And):
+    only_one: Any = ...
+    match_count: int = ...
+    def __init__(self, *args: Any, **kwargs: Any) -> None: ...
+    def reset(self) -> None: ...
+    def validate(self, data: Any): ...
+
+class Regex:
+    NAMES: Any = ...
+    def __init__(self, pattern_str: Any, flags: int = ..., error: Optional[Any] = ...) -> None: ...
+    def validate(self, data: Any): ...
+
+class Use:
+    def __init__(self, callable_: Any, error: Optional[Any] = ...) -> None: ...
+    def validate(self, data: Any): ...
+
+class Schema:
+    def __init__(self, schema: Any, error: Optional[Any] = ..., ignore_extra_keys: bool = ..., name: Optional[Any] = ...) -> None: ...
+    def is_valid(self, data: Any): ...
+    def validate(self, data: Any): ...
+    def json_schema(self, schema_id: Optional[Any] = ..., is_main_schema: bool = ...): ...
+
+class Optional(Schema):
+    default: Any = ...
+    key: Any = ...
+    def __init__(self, *args: Any, **kwargs: Any) -> None: ...
+    def __hash__(self): ...
+    def __eq__(self, other: Any): ...
+    def reset(self) -> None: ...
+
+class Hook(Schema):
+    handler: Any = ...
+    key: Any = ...
+    def __init__(self, *args: Any, **kwargs: Any) -> None: ...
+
+class Forbidden(Hook):
+    def __init__(self, *args: Any, **kwargs: Any) -> None: ...
+
+class Const(Schema):
+    def validate(self, data: Any): ...
diff --git a/stubs/sh.pyi b/stubs/sh.pyi
new file mode 100644
index 0000000..7d3c182
--- /dev/null
+++ b/stubs/sh.pyi
@@ -0,0 +1,323 @@
+# Stubs for sh (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from StringIO import StringIO
+from cStringIO import OutputType as cStringIO
+from types import ModuleType
+from typing import Any, Optional
+
+__project_url__: str
+IS_PY3: Any
+MINOR_VER: Any
+IS_PY26: Any
+DEFAULT_ENCODING: Any
+RUNNING_TESTS: Any
+FORCE_USE_SELECT: Any
+ioStringIO = StringIO
+iocStringIO = cStringIO
+
+def callable(ob: Any): ...
+
+IS_OSX: Any
+THIS_DIR: Any
+SH_LOGGER_NAME = __name__
+PUSHD_LOCK: Any
+
+def get_num_args(fn: Any): ...
+raw_input = input
+unicode = str
+basestring = str
+long = int
+HAS_POLL: Any
+POLLER_EVENT_READ: int
+POLLER_EVENT_WRITE: int
+POLLER_EVENT_HUP: int
+POLLER_EVENT_ERROR: int
+
+class Poller:
+    fd_lookup: Any = ...
+    fo_lookup: Any = ...
+    def __init__(self) -> None: ...
+    def __nonzero__(self): ...
+    def __len__(self): ...
+    def register_read(self, f: Any) -> None: ...
+    def register_write(self, f: Any) -> None: ...
+    def register_error(self, f: Any) -> None: ...
+    def unregister(self, f: Any) -> None: ...
+    def poll(self, timeout: Any): ...
+
+class Poller:
+    rlist: Any = ...
+    wlist: Any = ...
+    xlist: Any = ...
+    def __init__(self) -> None: ...
+    def __nonzero__(self): ...
+    def __len__(self): ...
+    def register_read(self, f: Any) -> None: ...
+    def register_write(self, f: Any) -> None: ...
+    def register_error(self, f: Any) -> None: ...
+    def unregister(self, f: Any) -> None: ...
+    def poll(self, timeout: Any): ...
+
+def encode_to_py3bytes_or_py2str(s: Any): ...
+
+class ForkException(Exception):
+    def __init__(self, orig_exc: Any) -> None: ...
+
+class ErrorReturnCodeMeta(type):
+    def __subclasscheck__(self, o: Any): ...
+
+class ErrorReturnCode(Exception):
+    __metaclass__: Any = ...
+    truncate_cap: int = ...
+    full_cmd: Any = ...
+    stdout: Any = ...
+    stderr: Any = ...
+    def __init__(self, full_cmd: Any, stdout: Any, stderr: Any, truncate: bool = ...) -> None: ...
+
+class SignalException(ErrorReturnCode): ...
+
+class TimeoutException(Exception):
+    exit_code: Any = ...
+    def __init__(self, exit_code: Any) -> None: ...
+
+SIGNALS_THAT_SHOULD_THROW_EXCEPTION: Any
+
+class CommandNotFound(AttributeError): ...
+
+rc_exc_regex: Any
+rc_exc_cache: Any
+SIGNAL_MAPPING: Any
+
+def get_exc_from_name(name: Any): ...
+def get_rc_exc(rc: Any): ...
+
+class GlobResults(list):
+    path: Any = ...
+    def __init__(self, path: Any, results: Any) -> None: ...
+
+def glob(path: Any, *args: Any, **kwargs: Any): ...
+def which(program: Any, paths: Optional[Any] = ...): ...
+def resolve_command_path(program: Any): ...
+def resolve_command(name: Any, baked_args: Optional[Any] = ...): ...
+
+class Logger:
+    name: Any = ...
+    log: Any = ...
+    def __init__(self, name: Any, context: Optional[Any] = ...) -> None: ...
+    context: Any = ...
+    def set_context(self, context: Any) -> None: ...
+    def get_child(self, name: Any, context: Any): ...
+    def info(self, msg: Any, *args: Any) -> None: ...
+    def debug(self, msg: Any, *args: Any) -> None: ...
+    def error(self, msg: Any, *args: Any) -> None: ...
+    def exception(self, msg: Any, *args: Any) -> None: ...
+
+def default_logger_str(cmd: Any, call_args: Any, pid: Optional[Any] = ...): ...
+
+class RunningCommand:
+    ran: Any = ...
+    call_args: Any = ...
+    cmd: Any = ...
+    process: Any = ...
+    log: Any = ...
+    def __init__(self, cmd: Any, call_args: Any, stdin: Any, stdout: Any, stderr: Any) -> None: ...
+    def wait(self): ...
+    def handle_command_exit_code(self, code: Any) -> None: ...
+    @property
+    def stdout(self): ...
+    @property
+    def stderr(self): ...
+    @property
+    def exit_code(self): ...
+    def __len__(self): ...
+    def __enter__(self) -> None: ...
+    def __iter__(self): ...
+    def next(self): ...
+    __next__: Any = ...
+    def __exit__(self, typ: Any, value: Any, traceback: Any) -> None: ...
+    def __unicode__(self): ...
+    def __eq__(self, other: Any): ...
+    __hash__: Any = ...
+    def __contains__(self, item: Any): ...
+    def __getattr__(self, p: Any): ...
+    def __long__(self): ...
+    def __float__(self): ...
+    def __int__(self): ...
+
+def output_redirect_is_filename(out: Any): ...
+def get_prepend_stack(): ...
+def special_kwarg_validator(kwargs: Any, invalid_list: Any): ...
+def get_fileno(ob: Any): ...
+def ob_is_tty(ob: Any): ...
+def ob_is_pipe(ob: Any): ...
+def tty_in_validator(kwargs: Any): ...
+def bufsize_validator(kwargs: Any): ...
+
+class Command:
+    thread_local: Any = ...
+    __name__: Any = ...
+    def __init__(self, path: Any, search_paths: Optional[Any] = ...) -> None: ...
+    def __getattribute__(self, name: Any): ...
+    def bake(self, *args: Any, **kwargs: Any): ...
+    def __eq__(self, other: Any): ...
+    __hash__: Any = ...
+    def __unicode__(self): ...
+    def __enter__(self) -> None: ...
+    def __exit__(self, typ: Any, value: Any, traceback: Any) -> None: ...
+    def __call__(self, *args: Any, **kwargs: Any): ...
+
+def compile_args(args: Any, kwargs: Any, sep: Any, prefix: Any): ...
+def aggregate_keywords(keywords: Any, sep: Any, prefix: Any, raw: bool = ...): ...
+def setwinsize(fd: Any, rows_cols: Any) -> None: ...
+def construct_streamreader_callback(process: Any, handler: Any): ...
+def get_exc_exit_code_would_raise(exit_code: Any, ok_codes: Any, sigpipe_ok: Any): ...
+def handle_process_exit_code(exit_code: Any): ...
+def no_interrupt(syscall: Any, *args: Any, **kwargs: Any): ...
+
+class OProc:
+    STDOUT: int = ...
+    STDERR: int = ...
+    command: Any = ...
+    call_args: Any = ...
+    ctty: Any = ...
+    sid: Any = ...
+    pgid: Any = ...
+    pid: Any = ...
+    timed_out: bool = ...
+    started: Any = ...
+    cmd: Any = ...
+    exit_code: Any = ...
+    stdin: Any = ...
+    log: Any = ...
+    def __init__(self, command: Any, parent_log: Any, cmd: Any, stdin: Any, stdout: Any, stderr: Any, call_args: Any, pipe: Any, process_assign_lock: Any) -> None: ...
+    @property
+    def output_thread_exc(self): ...
+    @property
+    def input_thread_exc(self): ...
+    @property
+    def bg_thread_exc(self): ...
+    def change_in_bufsize(self, buf: Any) -> None: ...
+    def change_out_bufsize(self, buf: Any) -> None: ...
+    def change_err_bufsize(self, buf: Any) -> None: ...
+    @property
+    def stdout(self): ...
+    @property
+    def stderr(self): ...
+    def get_pgid(self): ...
+    def get_sid(self): ...
+    def signal_group(self, sig: Any) -> None: ...
+    def signal(self, sig: Any) -> None: ...
+    def kill_group(self) -> None: ...
+    def kill(self) -> None: ...
+    def terminate(self) -> None: ...
+    def is_alive(self): ...
+    def wait(self): ...
+
+def input_thread(log: Any, stdin: Any, is_alive: Any, quit: Any, close_before_term: Any) -> None: ...
+def event_wait(ev: Any, timeout: Optional[Any] = ...): ...
+def background_thread(timeout_fn: Any, timeout_event: Any, handle_exit_code: Any, is_alive: Any, quit: Any) -> None: ...
+def output_thread(log: Any, stdout: Any, stderr: Any, timeout_event: Any, is_alive: Any, quit: Any, stop_output_event: Any) -> None: ...
+
+class DoneReadingForever(Exception): ...
+class NotYetReadyToRead(Exception): ...
+
+def determine_how_to_read_input(input_obj: Any): ...
+def get_queue_chunk_reader(stdin: Any): ...
+def get_callable_chunk_reader(stdin: Any): ...
+def get_iter_string_reader(stdin: Any): ...
+def get_iter_chunk_reader(stdin: Any): ...
+def get_file_chunk_reader(stdin: Any): ...
+def bufsize_type_to_bufsize(bf_type: Any): ...
+
+class StreamWriter:
+    stream: Any = ...
+    stdin: Any = ...
+    log: Any = ...
+    encoding: Any = ...
+    tty_in: Any = ...
+    stream_bufferer: Any = ...
+    def __init__(self, log: Any, stream: Any, stdin: Any, bufsize_type: Any, encoding: Any, tty_in: Any) -> None: ...
+    def fileno(self): ...
+    def write(self): ...
+    def close(self) -> None: ...
+
+def determine_how_to_feed_output(handler: Any, encoding: Any, decode_errors: Any): ...
+def get_fd_chunk_consumer(handler: Any): ...
+def get_file_chunk_consumer(handler: Any): ...
+def get_callback_chunk_consumer(handler: Any, encoding: Any, decode_errors: Any): ...
+def get_cstringio_chunk_consumer(handler: Any): ...
+def get_stringio_chunk_consumer(handler: Any, encoding: Any, decode_errors: Any): ...
+
+class StreamReader:
+    stream: Any = ...
+    buffer: Any = ...
+    save_data: Any = ...
+    encoding: Any = ...
+    decode_errors: Any = ...
+    pipe_queue: Any = ...
+    log: Any = ...
+    stream_bufferer: Any = ...
+    bufsize: Any = ...
+    should_quit: bool = ...
+    def __init__(self, log: Any, stream: Any, handler: Any, buffer: Any, bufsize_type: Any, encoding: Any, decode_errors: Any, pipe_queue: Optional[Any] = ..., save_data: bool = ...) -> None: ...
+    def fileno(self): ...
+    def close(self) -> None: ...
+    def write_chunk(self, chunk: Any) -> None: ...
+    def read(self): ...
+
+class StreamBufferer:
+    type: Any = ...
+    buffer: Any = ...
+    n_buffer_count: int = ...
+    encoding: Any = ...
+    decode_errors: Any = ...
+    log: Any = ...
+    def __init__(self, buffer_type: Any, encoding: Any = ..., decode_errors: str = ...) -> None: ...
+    def change_buffering(self, new_type: Any) -> None: ...
+    def process(self, chunk: Any): ...
+    def flush(self): ...
+
+def with_lock(lock: Any): ...
+def pushd(path: Any) -> None: ...
+def args(**kwargs: Any) -> None: ...
+
+class Environment(dict):
+    whitelist: Any = ...
+    globs: Any = ...
+    baked_args: Any = ...
+    disable_whitelist: bool = ...
+    def __init__(self, globs: Any, baked_args: Any = ...) -> None: ...
+    def __getitem__(self, k: Any): ...
+    def b_cd(self, path: Optional[Any] = ...) -> None: ...
+    def b_which(self, program: Any, paths: Optional[Any] = ...): ...
+
+class Contrib(ModuleType):
+    @classmethod
+    def __call__(cls, name: Any): ...
+
+mod_name: Any
+contrib: Any
+
+def git(orig: Any): ...
+def sudo(orig: Any): ...
+def run_repl(env: Any) -> None: ...
+
+class SelfWrapper(ModuleType):
+    __path__: Any = ...
+    def __init__(self, self_module: Any, baked_args: Any = ...) -> None: ...
+    def __getattr__(self, name: Any): ...
+    def __call__(self, **kwargs: Any): ...
+
+def in_importlib(frame: Any): ...
+def register_importer(): ...
+def fetch_module_from_frame(name: Any, frame: Any): ...
+
+class ModuleImporterFromVariables:
+    restrict_to: Any = ...
+    def __init__(self, restrict_to: Optional[Any] = ...) -> None: ...
+    def find_module(self, mod_fullname: Any, path: Optional[Any] = ...): ...
+    def load_module(self, mod_fullname: Any): ...
+
+def run_tests(env: Any, locale: Any, args: Any, version: Any, force_select: Any, **extra_env: Any): ...
diff --git a/stubs/toolz/__init__.pyi b/stubs/toolz/__init__.pyi
new file mode 100644
index 0000000..ddf16a2
--- /dev/null
+++ b/stubs/toolz/__init__.pyi
@@ -0,0 +1,12 @@
+# Stubs for toolz (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from .itertoolz import *
+from .functoolz import *
+from .dicttoolz import *
+from .recipes import *
+from .compatibility import filter, map
+
+sorted = sorted
+comp = compose
diff --git a/stubs/toolz/dicttoolz.pyi b/stubs/toolz/dicttoolz.pyi
new file mode 100644
index 0000000..b157218
--- /dev/null
+++ b/stubs/toolz/dicttoolz.pyi
@@ -0,0 +1,19 @@
+# Stubs for toolz.dicttoolz (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from typing import Any, Optional
+
+def merge(*dicts: Any, **kwargs: Any): ...
+def merge_with(func: Any, *dicts: Any, **kwargs: Any): ...
+def valmap(func: Any, d: Any, factory: Any = ...): ...
+def keymap(func: Any, d: Any, factory: Any = ...): ...
+def itemmap(func: Any, d: Any, factory: Any = ...): ...
+def valfilter(predicate: Any, d: Any, factory: Any = ...): ...
+def keyfilter(predicate: Any, d: Any, factory: Any = ...): ...
+def itemfilter(predicate: Any, d: Any, factory: Any = ...): ...
+def assoc(d: Any, key: Any, value: Any, factory: Any = ...): ...
+def dissoc(d: Any, *keys: Any, **kwargs: Any): ...
+def assoc_in(d: Any, keys: Any, value: Any, factory: Any = ...): ...
+def update_in(d: Any, keys: Any, func: Any, default: Optional[Any] = ..., factory: Any = ...): ...
+def get_in(keys: Any, coll: Any, default: Optional[Any] = ..., no_default: bool = ...): ...
diff --git a/stubs/yaml/__init__.pyi b/stubs/yaml/__init__.pyi
new file mode 100644
index 0000000..2971aaf
--- /dev/null
+++ b/stubs/yaml/__init__.pyi
@@ -0,0 +1,58 @@
+# Stubs for yaml (Python 3)
+#
+# NOTE: This dynamically typed stub was automatically generated by stubgen.
+
+from .error import *
+from .tokens import *
+from .events import *
+from .nodes import *
+from .loader import *
+from .dumper import *
+from .cyaml import *
+from typing import Any, Optional
+
+__with_libyaml__: bool
+
+def warnings(settings: Optional[Any] = ...): ...
+
+class YAMLLoadWarning(RuntimeWarning): ...
+
+def load_warning(method: Any) -> None: ...
+def scan(stream: Any, Loader: Any = ...) -> None: ...
+def parse(stream: Any, Loader: Any = ...) -> None: ...
+def compose(stream: Any, Loader: Any = ...): ...
+def compose_all(stream: Any, Loader: Any = ...) -> None: ...
+def load(stream: Any, Loader: Optional[Any] = ...): ...
+def load_all(stream: Any, Loader: Optional[Any] = ...) -> None: ...
+def full_load(stream: Any): ...
+def full_load_all(stream: Any): ...
+def safe_load(stream: Any): ...
+def safe_load_all(stream: Any): ...
+def unsafe_load(stream: Any): ...
+def unsafe_load_all(stream: Any): ...
+def emit(events: Any, stream: Optional[Any] = ..., Dumper: Any = ..., canonical: Optional[Any] = ..., indent: Optional[Any] = ..., width: Optional[Any] = ..., allow_unicode: Optional[Any] = ..., line_break: Optional[Any] = ...): ...
+def serialize_all(nodes: Any, stream: Optional[Any] = ..., Dumper: Any = ..., canonical: Optional[Any] = ..., indent: Optional[Any] = ..., width: Optional[Any] = ..., allow_unicode: Optional[Any] = ..., line_break: Optional[Any] = ..., encoding: Optional[Any] = ..., explicit_start: Optional[Any] = ..., explicit_end: Optional[Any] = ..., version: Optional[Any] = ..., tags: Optional[Any] = ...): ...
+def serialize(node: Any, stream: Optional[Any] = ..., Dumper: Any = ..., **kwds: Any): ...
+def dump_all(documents: Any, stream: Optional[Any] = ..., Dumper: Any = ..., default_style: Optional[Any] = ..., default_flow_style: bool = ..., canonical: Optional[Any] = ..., indent: Optional[Any] = ..., width: Optional[Any] = ..., allow_unicode: Optional[Any] = ..., line_break: Optional[Any] = ..., encoding: Optional[Any] = ..., explicit_start: Optional[Any] = ..., explicit_end: Optional[Any] = ..., version: Optional[Any] = ..., tags: Optional[Any] = ..., sort_keys: bool = ...): ...
+def dump(data: Any, stream: Optional[Any] = ..., Dumper: Any = ..., **kwds: Any): ...
+def safe_dump_all(documents: Any, stream: Optional[Any] = ..., **kwds: Any): ...
+def safe_dump(data: Any, stream: Optional[Any] = ..., **kwds: Any): ...
+def add_implicit_resolver(tag: Any, regexp: Any, first: Optional[Any] = ..., Loader: Any = ..., Dumper: Any = ...) -> None: ...
+def add_path_resolver(tag: Any, path: Any, kind: Optional[Any] = ..., Loader: Any = ..., Dumper: Any = ...) -> None: ...
+def add_constructor(tag: Any, constructor: Any, Loader: Any = ...) -> None: ...
+def add_multi_constructor(tag_prefix: Any, multi_constructor: Any, Loader: Any = ...) -> None: ...
+def add_representer(data_type: Any, representer: Any, Dumper: Any = ...) -> None: ...
+def add_multi_representer(data_type: Any, multi_representer: Any, Dumper: Any = ...) -> None: ...
+
+class YAMLObjectMetaclass(type):
+    def __init__(cls, name: Any, bases: Any, kwds: Any) -> None: ...
+
+class YAMLObject(metaclass=YAMLObjectMetaclass):
+    yaml_loader: Any = ...
+    yaml_dumper: Any = ...
+    yaml_tag: Any = ...
+    yaml_flow_style: Any = ...
+    @classmethod
+    def from_yaml(cls, loader: Any, node: Any): ...
+    @classmethod
+    def to_yaml(cls, dumper: Any, data: Any): ...
diff --git a/template.yaml b/template.yaml
index db98351..7af88bc 100644
--- a/template.yaml
+++ b/template.yaml
@@ -16,10 +16,12 @@ assembly:
 cdhitdup:
   minDifference: 5
 ncbi:
-  ntDB: {DB}/ncbi/blast/nt/nt
-  nrDB: {DB}/ncbi/blast/nr/nr
+  ntDB: {DB}/nt/nt
+  nrDB: {DB}/nr/nr
   ktTaxonomy: {DB}/krona
 lzwfilter:
   minCompressionScore: 0
 blastn:
   max_target_seqs: 3
+param_file: {PROJDIR}/param.txt
+ete2_db:
diff --git a/test/test_pathos.py b/test/test_pathos.py
new file mode 100644
index 0000000..a2708f2
--- /dev/null
+++ b/test/test_pathos.py
@@ -0,0 +1,4 @@
+import sh
+
+def integrated1_test():
+    sh.pathos_single(c='template.yaml', fastq="test/smalldata/R1.fq test/smalldata/R2.fq", o=testout_)