From 099221644ed926db8396a60429e30f0a1b9daa03 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 12:07:32 -0400 Subject: [PATCH 01/30] initial python3 switch --- Dockerfile | 5 +-- install/conda-requirements-python.txt | 2 +- pathos/diff_ranks.py | 12 +++---- pathos/pathos_sheet.py | 22 ++++++------ pathos/pipeline.py | 48 +++++++++++++-------------- pathos/summary.py | 4 +-- 6 files changed, 47 insertions(+), 46 deletions(-) diff --git a/Dockerfile b/Dockerfile index 4a53fc7..3bcb7fa 100644 --- a/Dockerfile +++ b/Dockerfile @@ -3,13 +3,14 @@ MAINTAINER Michael Panciera ARG GIT_USER ARG GIT_TOKEN +ENV PYTHON_VERSION 3.7 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 \ 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/pathos/diff_ranks.py b/pathos/diff_ranks.py index 7486629..59dfe0e 100644 --- a/pathos/diff_ranks.py +++ b/pathos/diff_ranks.py @@ -5,7 +5,7 @@ from io import StringIO # 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 @@ -42,7 +42,7 @@ def differing_rank(rows): '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 @@ -79,14 +79,14 @@ def flag(group_obj): group = list(group_obj[1]) rank = differing_rank(group) 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): 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') + 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 +94,4 @@ 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..be45df3 100644 --- a/pathos/pathos_sheet.py +++ b/pathos/pathos_sheet.py @@ -15,7 +15,7 @@ from docopt import docopt import csv import os -import pipeline +from . import pipeline from path import Path import yaml import itertools @@ -35,19 +35,19 @@ def weave_files(sampledir, row): 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): """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 @@ -64,7 +64,7 @@ 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: @@ -80,7 +80,7 @@ def p_run(rows): 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() @@ -111,9 +111,9 @@ def p_run(rows): # '-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: diff --git a/pathos/pipeline.py b/pathos/pipeline.py index 0b86bb4..9b0d299 100644 --- a/pathos/pipeline.py +++ b/pathos/pipeline.py @@ -10,7 +10,7 @@ --log , -l ''' 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 @@ -29,7 +29,7 @@ from ete2 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 +64,7 @@ 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 +116,7 @@ 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 +150,7 @@ 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 +158,13 @@ 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 +206,7 @@ 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 +232,16 @@ 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 @@ -325,9 +325,9 @@ 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] @@ -341,9 +341,9 @@ def get_taxid(db, seqids): # (Path, str) -> dict[str,str] 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 +371,7 @@ 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 +379,7 @@ 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 @@ -391,7 +391,7 @@ def get_gi(s): # 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 +471,7 @@ 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: @@ -676,7 +676,7 @@ 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 +739,7 @@ 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 +795,7 @@ 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 +806,7 @@ def main(): #run(cfg, args[''], args[''], 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..ebc1eb6 100644 --- a/pathos/summary.py +++ b/pathos/summary.py @@ -7,7 +7,7 @@ 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 @@ -159,7 +159,7 @@ 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) From f9e3be27dffac37e696a9dc8744062020e224a5e Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 12:59:09 -0400 Subject: [PATCH 02/30] version fixes --- install/conda-requirements-software.txt | 2 +- pathos/pipeline.py | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/install/conda-requirements-software.txt b/install/conda-requirements-software.txt index e04bd2c..0e28e9e 100644 --- a/install/conda-requirements-software.txt +++ b/install/conda-requirements-software.txt @@ -1,5 +1,5 @@ gmap -star +star=2.5.2b samtools bowtie2=2.2.5 krona diff --git a/pathos/pipeline.py b/pathos/pipeline.py index 9b0d299..7df51e4 100644 --- a/pathos/pipeline.py +++ b/pathos/pipeline.py @@ -26,7 +26,7 @@ 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 079e6465bd71d3f5b4d5da0ef9a5c34bdde3d531 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 12:59:36 -0400 Subject: [PATCH 03/30] conda list --export --- install/package-list.txt | 110 +++++++++++++++++++++++++++++++++++++++ 1 file changed, 110 insertions(+) create mode 100644 install/package-list.txt 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 --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 From 547be67d80ca0068da808f29e59d4342c8b2f544 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 13:05:50 -0400 Subject: [PATCH 04/30] missing abyss dep --- install/conda-requirements-software.txt | 1 + 1 file changed, 1 insertion(+) diff --git a/install/conda-requirements-software.txt b/install/conda-requirements-software.txt index 0e28e9e..b61f01e 100644 --- a/install/conda-requirements-software.txt +++ b/install/conda-requirements-software.txt @@ -3,3 +3,4 @@ star=2.5.2b samtools bowtie2=2.2.5 krona +abyss=2.1.5 From 2679bcd405cc7cbac4247b8143c006592c9ed4ff Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 13:35:57 -0400 Subject: [PATCH 05/30] initial stubs for mypy --- stubs/Bio/SeqIO/__init__.pyi | 13 ++ stubs/docopt.pyi | 76 ++++++++ stubs/ete3/__init__.pyi | 21 +++ stubs/funcy/__init__.pyi | 198 +++++++++++++++++++++ stubs/jsonschema/__init__.pyi | 4 + stubs/matplotlib/pyplot.pyi | 166 +++++++++++++++++ stubs/pandas/__init__.pyi | 21 +++ stubs/path/__init__.pyi | 179 +++++++++++++++++++ stubs/plumbum/__init__.pyi | 14 ++ stubs/schema.pyi | 63 +++++++ stubs/sh.pyi | 323 ++++++++++++++++++++++++++++++++++ stubs/toolz/__init__.pyi | 12 ++ stubs/yaml/__init__.pyi | 58 ++++++ 13 files changed, 1148 insertions(+) create mode 100644 stubs/Bio/SeqIO/__init__.pyi create mode 100644 stubs/docopt.pyi create mode 100644 stubs/ete3/__init__.pyi create mode 100644 stubs/funcy/__init__.pyi create mode 100644 stubs/jsonschema/__init__.pyi create mode 100644 stubs/matplotlib/pyplot.pyi create mode 100644 stubs/pandas/__init__.pyi create mode 100644 stubs/path/__init__.pyi create mode 100644 stubs/plumbum/__init__.pyi create mode 100644 stubs/schema.pyi create mode 100644 stubs/sh.pyi create mode 100644 stubs/toolz/__init__.pyi create mode 100644 stubs/yaml/__init__.pyi 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..0f0ecad --- /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): ... + +def docopt(doc: Any, argv: Optional[Any] = ..., help: bool = ..., version: Optional[Any] = ..., options_first: bool = ...): ... 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/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..56f5796 --- /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): ... + 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): ... + 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/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): ... From a58386c965ea4cc00ff23f22b13b72878d667ea8 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 13:38:57 -0400 Subject: [PATCH 06/30] py3 fix back to integer division operator --- pathos/pipeline.py | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/pathos/pipeline.py b/pathos/pipeline.py index 7df51e4..9389509 100644 --- a/pathos/pipeline.py +++ b/pathos/pipeline.py @@ -333,10 +333,10 @@ def blastdbcmd(**opts): 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) From 7309708402616fa82cee54107a5f6fa37058dfc0 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 13:52:53 -0400 Subject: [PATCH 07/30] bad, meaningless type signature --- pathos/summary.py | 1 - 1 file changed, 1 deletion(-) diff --git a/pathos/summary.py b/pathos/summary.py index ebc1eb6..32dc4f6 100644 --- a/pathos/summary.py +++ b/pathos/summary.py @@ -75,7 +75,6 @@ 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:] From b261a2b04dccab34f65393721c64a3fc6869947a Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 13:53:22 -0400 Subject: [PATCH 08/30] more stubgen output --- stubs/numpy/__init__.pyi | 455 +++++++++++++++++++++++++++++++++ stubs/numpy/core/__init__.pyi | 0 stubs/numpy/core/_internal.pyi | 18 ++ stubs/toolz/dicttoolz.pyi | 19 ++ 4 files changed, 492 insertions(+) create mode 100644 stubs/numpy/__init__.pyi create mode 100644 stubs/numpy/core/__init__.pyi create mode 100644 stubs/numpy/core/_internal.pyi create mode 100644 stubs/toolz/dicttoolz.pyi 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/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 = ...): ... From 1b95aca88bb2f127d0db86806e026e6f24c71ab7 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 13:53:38 -0400 Subject: [PATCH 09/30] no github dockerfile --- Dockerfile.local | 31 +++++++++++++++++++++++++++++++ 1 file changed, 31 insertions(+) create mode 100644 Dockerfile.local diff --git a/Dockerfile.local b/Dockerfile.local new file mode 100644 index 0000000..ba1d9dd --- /dev/null +++ b/Dockerfile.local @@ -0,0 +1,31 @@ +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" + +ADD . /pathos/ + +WORKDIR /pathos/ + +RUN cd install \ + && sh assume-conda-install.sh /usr/local/bin/ \ + && cd .. \ + && sh mk_yaml.sh > test.yaml +# && cd databases \ +# && make krona + From 3e9b430094af4b6c1e5c618a22578499cacbc526 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 14:23:19 -0400 Subject: [PATCH 10/30] diff_ranks is now mypy compliant --- pathos/diff_ranks.py | 20 +++++++++++++------- 1 file changed, 13 insertions(+), 7 deletions(-) diff --git a/pathos/diff_ranks.py b/pathos/diff_ranks.py index 59dfe0e..a55a05f 100644 --- a/pathos/diff_ranks.py +++ b/pathos/diff_ranks.py @@ -3,6 +3,7 @@ #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 = '''qseqid read_count contam_percentage superkingdom kingdom superfamily genus qend bitscore family evalue gapopen pid send order class phylum alnlen species sseqid qstart sstart @@ -14,7 +15,7 @@ 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 +25,7 @@ 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) @@ -36,7 +37,7 @@ 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']) @@ -75,16 +76,21 @@ 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 list(map(add_rank, group)) -def flag_annotated_blast(input_fn, output_fn): +def flag_annotated_blast(input_fn: Path, output_fn: Path) -> None: 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']) + 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() From 91eb02801b292a5834413e78cbc8b8dddacdc380 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 14:24:16 -0400 Subject: [PATCH 11/30] linter script --- run-linters.sh | 3 +++ 1 file changed, 3 insertions(+) create mode 100644 run-linters.sh 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 + From f87ae81c3adceee69a07b00deb6d1e21dea63145 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 15:01:43 -0400 Subject: [PATCH 12/30] pathos_sheet typed --- pathos/pathos_sheet.py | 19 +++++++++++-------- stubs/path/__init__.pyi | 4 ++-- 2 files changed, 13 insertions(+), 10 deletions(-) diff --git a/pathos/pathos_sheet.py b/pathos/pathos_sheet.py index be45df3..904ed8b 100644 --- a/pathos/pathos_sheet.py +++ b/pathos/pathos_sheet.py @@ -22,6 +22,9 @@ import sys from functools import partial import multiprocessing + +from typing import Dict,List,Tuple,Iterator +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 @@ -30,7 +33,7 @@ SEP=';' -def weave_files(sampledir, row): +def weave_files(sampledir: Path, 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) @@ -43,7 +46,7 @@ def weave_files(sampledir, row): 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(*[glob(os.path.join(x, '*_R1_*')) for x in dirs])) @@ -53,13 +56,13 @@ def reads_from_dirs(dirs): # run the main program -def main(): +def main() -> None: args = docopt(__doc__, version='Version 1.0') # copy-pasted from pipeline.py :( cfg_f = args['--config'] cfg_y = yaml.load(open(cfg_f)) - cfg = pipeline.Config(cfg_y) + cfg = pipeline.Config(cfg_y) # type: ignore #TODO: fix pipeline imports # it's probably better to have separate log files. if args['--log']: _log = Path(args['--log']) @@ -71,11 +74,11 @@ def main(): log = sys.stdout sheet = open(args['']) - 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) @@ -105,7 +108,7 @@ 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") diff --git a/stubs/path/__init__.pyi b/stubs/path/__init__.pyi index 56f5796..9a2033a 100644 --- a/stubs/path/__init__.pyi +++ b/stubs/path/__init__.pyi @@ -83,7 +83,7 @@ class Path(str): def read_hash(self, hash_name: Any): ... def read_hexhash(self, hash_name: Any): ... def isabs(self): ... - def exists(self): ... + def exists(self) -> bool: ... def isdir(self): ... def isfile(self): ... def islink(self): ... @@ -118,7 +118,7 @@ class Path(str): def removedirs(self): ... def removedirs_p(self): ... def touch(self): ... - def remove(self): ... + def remove(self) -> None: ... def remove_p(self): ... def unlink(self): ... def unlink_p(self): ... From b9994d94b35f952a90483c6ba1cab3a680c50560 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 15:56:57 -0400 Subject: [PATCH 13/30] more precise typing, working on eliminating Any --- pathos/diff_ranks.py | 1 + pathos/pathos_sheet.py | 16 ++++++++-------- pathos/summary.py | 9 +++++---- stubs/docopt.pyi | 6 +++--- 4 files changed, 17 insertions(+), 15 deletions(-) diff --git a/pathos/diff_ranks.py b/pathos/diff_ranks.py index a55a05f..cc8f591 100644 --- a/pathos/diff_ranks.py +++ b/pathos/diff_ranks.py @@ -5,6 +5,7 @@ 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 = '''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 diff --git a/pathos/pathos_sheet.py b/pathos/pathos_sheet.py index 904ed8b..e2688e5 100644 --- a/pathos/pathos_sheet.py +++ b/pathos/pathos_sheet.py @@ -23,7 +23,7 @@ from functools import partial import multiprocessing -from typing import Dict,List,Tuple,Iterator +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. @@ -33,7 +33,7 @@ SEP=';' -def weave_files(sampledir: Path, row: OrderedDict[str, str]) -> Tuple[List[str], List[str]]: +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) @@ -55,14 +55,13 @@ def reads_from_dirs(dirs: List[str]) -> Tuple[List[str], List[str]]: # run the main program - def main() -> None: - args = docopt(__doc__, version='Version 1.0') + args = docopt(__doc__, version='Version 1.0') #TODO: use TypedDict, maybe - # 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) # type: ignore #TODO: fix pipeline imports + 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']) @@ -123,6 +122,8 @@ def p_run(rows: List[Dict[str, str]]) -> None: # 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: @@ -133,6 +134,5 @@ def p_run(rows: List[Dict[str, str]]) -> None: #print 'python pipeline.py', ' '.join(fastqs), '--config', args['--config'], '-o', cfg.outdir, '--control', ' '.join(controls) - if __name__ == '__main__': main() diff --git a/pathos/summary.py b/pathos/summary.py index 32dc4f6..ce84270 100644 --- a/pathos/summary.py +++ b/pathos/summary.py @@ -9,8 +9,8 @@ import os 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 +42,6 @@ def summ_contigs(tops): 'assembly_length' : tops.qlen.sum(), 'species_count' : tops.species.unique().size }) - def count(gen): return sum(1 for _ in gen) @@ -159,6 +158,8 @@ def make_rank_summaries(df, rankdir): in_fp = 'contigs.15383.nt.tsv' # def summarize(in_summary_fp, outdir): from . import filenames + + def summarize(indir, outdir): if not os.path.exists(outdir): os.mkdir(outdir) @@ -179,7 +180,7 @@ 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[''] outdir = args[''] diff --git a/stubs/docopt.pyi b/stubs/docopt.pyi index 0f0ecad..1ed4a06 100644 --- a/stubs/docopt.pyi +++ b/stubs/docopt.pyi @@ -71,6 +71,6 @@ class TokenStream(list): def move(self): ... def current(self): ... -class Dict(dict): ... - -def docopt(doc: Any, argv: Optional[Any] = ..., help: bool = ..., version: Optional[Any] = ..., options_first: bool = ...): ... +# 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]: ... From 9b0daf8c3bdeb43ac92d3fe99a4d3dc99b8ce4e5 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Thu, 18 Jul 2019 15:59:57 -0400 Subject: [PATCH 14/30] mypy.ini --- .gitignore | 2 +- .mypy.ini | 22 ++++++++++++++++++++++ 2 files changed, 23 insertions(+), 1 deletion(-) create mode 100644 .mypy.ini diff --git a/.gitignore b/.gitignore index 8d98f9d..8b13789 100644 --- a/.gitignore +++ b/.gitignore @@ -1 +1 @@ -.* + 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 From 655c9dd5ec0247f1948f68fd1c0af9acf9272fc9 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Fri, 19 Jul 2019 10:50:02 -0400 Subject: [PATCH 15/30] smart gitignore --- .gitignore | 13 +++++++++++++ 1 file changed, 13 insertions(+) diff --git a/.gitignore b/.gitignore index 8b13789..2869808 100644 --- a/.gitignore +++ b/.gitignore @@ -1 +1,14 @@ +.nfs* +*.swp +*.swo +*~ +*.so +*.egg +*.bak +*.pyc +.mypy_cache +install/PriceSource* +install/cdhit +*.egg-info +*__pycache__* From 5b1af80b85947e0a9fface2d4c9e442609d8dc7f Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Fri, 19 Jul 2019 10:50:49 -0400 Subject: [PATCH 16/30] file shouldn't exist --- sheet.tsv | 11 ----------- 1 file changed, 11 deletions(-) delete mode 100644 sheet.tsv 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 From 757a268fb799688bfbfff6d1c7b12e864817f043 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Fri, 19 Jul 2019 12:45:08 -0400 Subject: [PATCH 17/30] stuff for miniature NT --- databases/cut_10k.fa | 9992 +++++++++++++ databases/fake_human.fa | 12000 ++++++++++++++++ databases/taxid_map.txt | 0 databases/test-setup.sh | 11 + databases/test_local_setup/head_nt_10k.fa | 9992 +++++++++++++ databases/test_local_setup/ids.lst | 656 + .../test_local_setup/original_head_nt_10.fa | 9992 +++++++++++++ databases/test_local_setup/setup.sh | 11 + 8 files changed, 42654 insertions(+) create mode 100644 databases/cut_10k.fa create mode 100644 databases/fake_human.fa create mode 100644 databases/taxid_map.txt create mode 100644 databases/test-setup.sh create mode 100644 databases/test_local_setup/head_nt_10k.fa create mode 100644 databases/test_local_setup/ids.lst create mode 100644 databases/test_local_setup/original_head_nt_10.fa create mode 100644 databases/test_local_setup/setup.sh 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 rRNAU13103.1 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 rRNAU13080.1 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 gene4W1Z_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), mRNAX62294.1 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), mRNAX05219.1 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), mRNAX17019.1 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), mRNAX64898.1 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 geneM55158.1 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-1DAF327250.1 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), mRNAX03006.1 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), mRNAX00564.1 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), mRNAX53061.1 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), mRNAX04270.1 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), mRNAX13627.1 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), mRNAX59048.1 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), mRNAX63221.1 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), mRNAX63220.1 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), mRNAX63215.1 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), mRNAX59418.1 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), mRNAX59419.1 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), mRNAX63216.1 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), mRNAX63213.1 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), mRNAX63218.1 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), mRNAX63211.1 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), mRNAX63212.1 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), mRNAX63210.1 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), mRNAX63219.1 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), mRNAX63217.1 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), mRNAX63214.1 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), mRNAX56739.1 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), mRNAX12783.1 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), mRNAX51657.1 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), mRNAX12710.1 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), mRNAX15556.1 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), mRNAX12582.1 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), mRNAX14558.1 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), mRNAX03642.1 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), mRNAX61233.1 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), mRNAX54014.1 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), mRNAX67340.1 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), mRNAX14330.1 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), mRNAX61585.1 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), mRNAX05340.1 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), mRNAZ18245.1 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), mRNAX16581.1 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), mRNAX53699.1 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), mRNAX06295.1 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, mRNAX00076.1 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), mRNAX16171.1 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 liverM16251.1 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), mRNAX65450.1 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), mRNAX53592.1 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), mRNAX17146.1 Canine mRNA for thyrotropin (TSH) receptorM29957.1 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 variantM90047.1 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 rRNAU13082.1 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), mRNAX14051.1 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), mRNAX14052.1 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), mRNAX53744.1 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), mRNAX51367.1 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), mRNAX51448.1 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), mRNAX63678.1 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), mRNAX60763.1 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 rRNAU13106.1 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 rRNAU13083.1 Delphinus delphis mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAATCCCAAAACAAGATTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAACTCACACGAAAGTTTTTAT +GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATGAGGCCA +>ref|ref|Z18639.1|| D.leucas gene for large subunit rRNAU13107.1 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 rRNAU13109.1 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 rRNAU13090.1 Lagenorhynchus albirostris mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCTTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATAGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTATACGAAAGTTTTTAT +GAAACCTAGAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAAAAAGGCC +>ref|ref|Z18649.1|| L.obscurus gene for large subunit rRNAU13114.1 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 rRNAU13091.1 Lagenorhynchus obscurus mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTATTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTACACGAAAGTTTTTAT +GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA +>ref|ref|Z18665.1|| L.peronii gene for large subunit rRNAU13115.1 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 rRNAU13092.1 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 rRNAU13116.1 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 rRNAU13093.1 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 rRNAU13117.1 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 rRNAU13118.1 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), mRNAX60195.1 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), mRNAX03883.1 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), mRNAX69904.1 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), mRNAX69905.1 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), mRNAX03238.1 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), mRNAX03237.1 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), mRNAX60167.1 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), mRNAZ11560.1 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), mRNAZ18291.1 Ovis aries interleukin-3 gene +CGAAGGACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCC +TGCTTTCTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAA +ATTATGGATGACCTAAAGAAAATAACTCCGAGTCCAGAAGGCTCCTTGAACTCAGATGAGAAGAATATCCTGGCGAATAA +GAGCCTCCTACAGGCAAACCTGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAA +ATCTTAAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGG +GATTTTCGGATGAAATTGGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTAT +CTGAAGTCCAAGAACATACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGT +GACAAC +>ref|ref|NM_001009378.1|| Ovis aries casein kappa (CSN3), mRNAX51822.1 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 sequenceU24089.1 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), mRNAY00287.1 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), mRNAY00750.1 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), mRNAX16578.1 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), mRNAX56031.1 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), mRNAX58727.1 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), mRNAX16428.1 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), mRNAX64298.1 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), mRNAX13043.1 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), mRNAX57476.1 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), mRNAZ11846.1 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), mRNAX64393.1 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), mRNAX05921.1 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), mRNAX62994.1 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), mRNAX02852.1 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 metallothioneinM23602.1 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 metallothioneinM20015.1 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), mRNAX59935.1 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), mRNAX60421.1 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), mRNAY00684.1 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), mRNAD00040.1 Oryctolagus cuniculus mRNA for glycogen phosphorylase, complete cdsX04265.1 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), mRNAY00701.1 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), mRNAZ12841.1 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 RNAX06778.1 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), mRNAX15209.1 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), mRNAX55355.1 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), mRNAX14696.1 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), mRNAZ12840.1 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), mRNAX07943.1 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 rRNAU13119.1 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 rRNAU13122.1 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 rRNAU13099.1 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), mRNAX04708.1 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), mRNAX14844.1 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), mRNAX56750.1 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), mRNAX67109.1 S.scrofa PEC-60 mRNAS46866.1 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), mRNAX07382.1 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), mRNAX15075.1 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), mRNAX13381.1 Pig mRNA for protamine 1 +CATCCCCGTCTCTGAGCATCAAGACTGAGTCCATCCATCACCATGGCCAGATACAGATGTTGCCGCAGCCATAGCCGGAG +CAGGTGCCGCCCCCGAAGACGAAGATGTCGCAGACGAAGGAGGAGATGTTGTCCGAGGCGGAGGAGAGCGGTGTGCTGCC +GCCGCTACACCGTTATAAGGTGTAGAAGATGCTAAACATGCAGTAGCAAGACCACCGCACTCCTGCCTGAAATAGTACCA +GCCTTCAAGACCCTCTCGCCGCATCTTGAACATGCCACTACTGCAGTGACTGACAGGAGCCTGCTAAGCACAACGCCCCC +TGCCAATAAATGTTGA +>ref|ref|NM_214252.1|| Sus scrofa protamine 2 (PRM2), mRNAX16558.1 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), mRNAX16575.1 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 +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 +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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+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 +aattgccaacacatggctgggcgcgatggcttgtgctttttttttttttt +tttttgagacggagtctcgctctgtcgcccaggctggagtgcagtggcgc +tatctcggctcactgcaagctctgcctcccgggttcacgccattctcctg +cctcagcctcctgagtagctgggactacaggcgcccgccaccacgcccag +gtaatttttttttttttttttttgtatttctttgtagagacggggtttca +ccatgttagccaggatggtctcgatctcctgacctcgtgatccacccatc +tcggtctcccaaagtgctaggattgcaggcctgagccaccgcacccagct +gccttgtgcttttaatcccagcactttcagaggccaaggcaggcgatcac +ctgaggtcaggagttcaagaccagcctggccaacatggtgaaaccccatc +tctaatacaaatacaaaaaAAAAacaaaaaacgttagccaggaatgaggc +ccggtgcttgtaatcctaaggaaggagaccaccactcctcctgctgccct 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+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 +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN 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+NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNCCCTCTTCCTGTCACGGCCCGAGACTCCC +TCTTCCTGTCACGGCCCGAGATCCCCTCTTCCTGTCACGGCCCGAGACTC +CCTCTTCCTATCACGGCCCGAGACTCCCTCTTCCTGTCACGGCCCGAGAC +TCCCTCTTCCTGTCACGGCCCGAGACCCCCTCTTCCTGTCACGGCCCGAG +ACCCCCTCTTCCTGTCACGGCCCGAGACCCCCTCTTCCTGTCACGGCCCG +AGACCCCCTCTTCCTGTCACGGCCCGAGACCCCCTCTTCCTGTCACGGCC +CGAGACCCCCTCTTCCAGTCACGGCCCGAGACTCCCTCTTCCTGTCACGG +CCCGAGACTCCCTCTTCCTGTCACGGCCCGAGACTCCCTCTTCCTGTCAC +GGCCCGAGATcccctcttcctgtcacggcctgagttgtttttcaggtttc +tttgggatccccttggctacaaacaggtccactcagtcagctgaggggct +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 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+caagaacccaccaattccagacacaCTAGGACCCTGAGACAACCCCTAGA +AGAGCACCTGGTNGATAACCCAGTTCCCATCTGGGATTTAGGGGACCTGG +ACAGCCCGGAAAATGAGCTCCTCATCTCTAACCCAGTTCCCCTGTGGGGA +TTTAGGGGACCAGGGACAGCCCGTTNCATNAGCCCCTGGNCTCTAACCCA +GTTCCCTTCTGGAATTTAGGGGCCCTGGGACAGCCCTGTACATGAGCTCC +TGGTCTGTAACACAGTTCCCCTGTGGGGATTTAGGGACTTGGGCCTTCTG +TCTTTGGGATCTACTCTCTATGGGCCACACAGATATGTCTTCCAACTTCC +CTACACAGGGGGGACTTCAAAGAGTGCCTTGAGCTGATCTGGTGATTGCT +TTTTTGTACTGTTATTTATCTTATTCTTTTCATTGTGAGGTACTGATGCA +AACACTTTGTACGAAAAGGTCTTTCTCATCTCGGGAGTCCCCGTCTATTT +GTCCCGGTCCCTGTTAACCCAGTCCCCGACAGGAGCCCCTTCTGCACCTT +GAGCTCTCACCACTCACCGTCCATCCAGCCCCAGCTCTGCCTGCAACCCA +CCCATCCCTGGGACTCGGGCCTCCCCTCTCTAGTGGTCTGGTCATCAGGC +CAGGGGCACGTGGAAGAAGCTATCGTGGCAAAGGGAGCAGTCATATCCCC +AAAATCTGTGGTTGGTTTACCACCACCATGGAAACCCCAGGGTGGGACTC +TAGTTTCAGGTTGGAGCTGAGCCCTGTCGGGAATGAGCTTTCCCCAGCTA +TGGCTTCTTGGGGCCCCTGTGCCCTGAGCTGTGTCTCCCAGCATCGGGTC +CCCACCATGCATATGGCCCACTCAGGCACAGTGCCGCGATGGCTGCATGC +GTGAGGGGGGCCTGGGCCCAGGGCTGGGAGTCCTTTGTGTCTCATGGCCA +TGATTGTCCTTCCGAGTATGATATGGTGGCCAATTTCTTTTATTCTGTCG +TTCAGAGTGAGTAAATGATGTAGAGTTCATGCAGAAAAAAATACAACAAA +AACCAAGGGAACATAGAATTGGAAAACGCGTCACAGCAATGAGTTAAATA +GGTAACAAATTTCATCATTTGAAGAAAGACTTAGAGTGCCAAAAGTGCCT +CTTAAGTCTCCTTTAAAAAGTAGCAAAATTCATCCCTGAAGAAGCATCTT +GGCCTTTTTCATGTACTCAGAGTGCTGGTGAAGAACAAAGATTGCTGAAA +CATTATGTACCTAACAGCGTTACAGGGTGTAGATAACACACTGGAAAACC +TGGTCGTTACAGTGGACATATTCCAGGAAGTCCTTGCCTGAGGTTTTCCA +AGTTATGGAATTGCTTGAGATTGGAAGAGGCGATGGAGGGTACAACtgta +atgcccaacctcatttttgctaaccctgtttttagactctccctttcctt +caatcacctagccttctttccacctgaaaggactctcccttaactgagag +aaccggacagactccatcttggctctttcactggcagccccttcctcaaa +gacttaactcgtgcaagctgactcccaggacatccgagaatgcaattaac +tgacaacctactgtggcgagctacatccgcagtccccaggaattcgtccg +attgataacgcccaattacccgcgtctatcaccttgtaatagtcttaaag +cacctgcacctggaactgtttactttcctgtaaccatttatccttttaac +attttgcctgatttacttatgtaaaattcttttaactagaccgccactcc +cctttctaaacaaaagtataaaagaaaatctagccccttctttgggactg +agacaattttgaggttaacGCAGGGTGCCTGTAATCCtaagggaggagac +cgccacttctgctgcccttcccttccccacacccccttctctagtttatg +aaacagggaaaaagggagaaagcaaaaagataaaaaaaacagaagtaaga +taaatagctagacgaccttggcagcaccacccggcactggtggttaaaat +aataataataataatattaacccctgacctaaactacttgtgttatctgt +aaattccagacactgtatgaggaagccctgcaaaactttctgttctgtta +tctgatgcgtgtagcccccagtcacgttccgatgcttcctcgatctatca +cgaccctttcacgtgaaccccttagagtcgtaaacccttaaaagggccag +gaatttcgttttcggggagctcggctcttcaggcccaagtaaacctgccg +TATCTCACCTGAGACCAACCCCCAACTACAAAACTCAACCTGGAATTTTC +CCAGGACCAAACCCATCTATATTCTGtaacccgaaacctcaaagcctaac +cctaaccctaacccCTACAGTTGAGGTCCCCCCGCCCCTGTGGTTCCAGC +TCAAGACAACCTGCCCCTCCGTGGGTTTGCAGGCCCTCTGGTGGGGGTGG +GAGCTGGGGGCCACATACAGCTCTCTGAGCTTAAGCCAttttcttccttc +attccttccttcctccctcccttcccttccttcctccctccctccctcct +tccctccctcccttttttttttcagggtcttgctctgtcacccaggctgg +agtgcagtggcatgatcacagctgactgcagcctcggactcccaggctca +agttatcttccctcctcagcctccagagtaggtgggactacaggagtgtg +ccattgcacccagcgaatttcttaatttttattttgtagagatgaggcct +ctcgatattgtccaggctTGGAAGTAGTTCTTGAAATTCAAGAGGATCTT +GAAGTTCTGACCTCCTGTCAATATCCCTTCCCCTCACCTTGACCCTCCCA +TTCTGCCCCACCTGTCAGGATCACAAGGACCCCCAGATCAGCAGATGGGA +ACCGGACCAAAAAGAGAAATAGTGCTGTCCCGCCCATAAGTACCACCCCC +AGACTCCCTGCTCCACCCTCTGGACCACAGGGAGGCCCCATGCTCCATCC +CTGAAAACCACCCCCAGACTCCCTGCTCCTCCCCACGGGACCGCCCCCAG +ATCCACTGTTCCTGTCCTCCGGACCACACCGGACAGCTCCTTCCCTCGGC +GCCATCCCCAGACCCCAGCTCCTCCCCTCAGGATCATCCCCAGACCCCCG +CTCCTCCCCTAAGGACCACCCACAGACCCCCACGCTTCCCCTCGGGATCA +CCCCCAGACCCCCGCTCCTCCCATCAGGACCGCCCCCAGAACCCCCTGCT +CCTCCCCACAGGACCACCCCCAGACCCCCGCTCCTCCCCTAAGGACCACC +CACAGACCCCCACGCTTCCCCTCGGGACCACCCCCAGACCCCCGCTCCTC +CCATCAGGACCACCCCCAGATCCACTGTTCCTGTCCTCCGGACCACACCA +GACAGCTCCTTCCCTCGGCGCCATCCNNNNNNNNNNNNNNNNNNNNNNNN +NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN +NCCCGCTCCTCCCCTCGGGACCACCCCCAGACCCCCTGCTCCTCCCCACG +AAACCACCCCCAGACTCCCTGCTCCTGTCCTCCGGACCACGCGACTGCTC +CTTCCCTCAGCGCCACCCCCAGACTGCCGCTCCTCCTGTCGGGACCCCCT +TCGGGCCACCTCCAGACCCTACCCCCGGTACACCCCTCGGGTCCCTCTCG +GAACCATCCCCAGACGCTCGCTCCTCCCCTCGGAACCCCCTCGCCGCCAC +CCCCAGACCCCCGCTCCTTCCCTTGGGATCACCTCGAGACCTCCCGCTCA +CCACCATCATTCAGGCCGGGTAGTGGGGAGAGGCCTCTCAGGAGGGACCA +GGCCACTCTCCCAGGAGTGAAGGGAGGAGGACAGAGTCACGAGCAGACCA +GAAATAACCAGGGACTGACAGACAGCAGGATCGGAGAGGGACAGAAAAGG +GCTAAGGGCAGGAAAAGTCCCTGAGGCTTTCTCCACCCGGAGTGCGGGGT +AGGGAGCAgacggagagtgacggagggtgacggagagtgacgAAAGTAGA +CGATGTCTGACGGAGAAGAGCCGAGCGGAGCTGAAGGGCGGCGGAGAGTG +ACGGAAAGTGGCGAGAATTGACGGAAAGTGACGGGGACTGACGGACAGTG +ACGAAGAGTCACGAAATTTATCAGAGGGCGACAAAGAGGAAAGCGAAATG +GTGAGATGCAGCCGGCCGAGCCTAATCGGAGATGACGGAAAGTGACGGAG +AGGAACGAGGAGTAAAGAGGGGTGACGAAAAGAGCCGAAGCTGGTGGAGG +CGAAGAACTGAGTGAGGGAAGATAGCCGAGATTAGCGGGTGGGCTGCAGC +CGGGGCAGTCGCCCGAATGGGCGGGACCCCACGGAGTTAGCGAGAGGATG +CGAACAGCGGCCAGCCGGGCAGCACGCGAGCGAGGGAGGGCGTGGAGGGC +CGTGGGTCCGCCTGCACTGAGGCAGGCATGGGTGGCACCGAGGTGACCCG +GGCGGGAGGTGCACCGCCGCCCACTCGCAGGTTCTGCGCGGAGCCCAAGG +CCGTCTTCTCCGCCCCTTTGCAGACCTCGGCGCCCAGCCTGGCCCCTGAC +GCCCACCCGCGGCCCCACCCAGCGCCCGGGCCCACGAGGCCGAGGAGCGG +CGGAGACTAACGGCCCCTGGACCCCAGGCAGCACATGGCCCAGAGCATCC +CAGCCCAGTGGAGGGCGGCACATGGCGGGAGGGCGGGAGTCTGTGTCCAC +TCATGGCCGAGGAGGGGAGGGCAAGTTCTGGTGGCTGGGGAGGCCTAGAG +CATCACAGCCCAGTGGAGGGCTGCACATGGCAGGGGAGGGGAGAGCAAGA +GTGTGCGGGCGAGGGAGGAGAGGGCAAGACTgcgtgtccgctccagtctc +tcttcctcatcttataaagccacgagtcccatgactggggacccaaccta +ataacattatctaatcctaattgcctcccaaaggccatatctccaatcag +gacatgaattcggggattaaattgccaacacatgGCTGGGCGCGATGCCT +TGTGCtttttttttttttttttttgagacggagtctcgctctgtcgccca +ggctggagtgcagtggcgctatctcggctcactgcaagctctgcctcccg +ggttcacgccattctcctgcctcagcctcctgagtagctgggactacagg +cgcccgccaccacgcccagctaattttttttttttttttgtatttctttg +tagagacagggtttcaccatgttagccaggatggtctcgatctcctgacc +tcgtgatccacccatctcggtctcccaaagtgctaggattgcaggcctga +gccaccgcgcccagctgccttgtgcttttaatcccagcactttcagaggc +caaggcaggcgatcagctgaggtcaggagttcaagaccagcctggccaac +atggtgaaaccccatctctaatacaaatacaaaaaaaaaacaaaaaacgt +tagccaggaatgaggcccggtgcttgtaatcctaaggaaggagaccacca +ctcctcctgctgcccttcccttccccacaccgcttccttagtttataaaa +cagggaaaaagggagaaagcaaaaagcttaaaaaaaaaaaaaaacagaag +taagataaatagctagatgaccttggcagcaccacccgaccctggtggtt +aaaataataataataataatattaacccctgacctaaactacttgtgtta +tctgtaaattccagacactgtatgaggaagccctgcaaaactttctgttc +tgttatctgatgcgtgtagcccccagtcacgttccccacgcttcctcgat +ctatcacaaccctttcacgtaaaccccttagagttgtaaacccttaaaag +ggctaggaatttcgttttcggggagcttggctcttcaggcgcaagtgtgc +cgatgctcctggcagagtaaagcccttccttctttaacccagtgtctgag +gaattttgtctgcggcttgtcctgccacaatgccagctaccaggaggctg +aggtgtgagaatcgctcgaacctgggaggcagaggttgcagcgagccgag +atcccacgattgcactccagcctgggtgatagatgacagagcaagacacc +atgtcaaaaagaaaagaaaaaaaaTTGCCAACACATGAAATCTGGAGAAC +ACATTCAAGCAATAGCACCATATAAATCTGTACATACCTTGCAAACACTG +TAAACCTGCCGCATCTCACCTGAGACCAACCCCCAACTGCAAAACCCAGA +CCTGGAATTTTCCCAGGACCAAACCCATCTATATTCTGtaacccgaaatc +tcaaagcctaaccctaaccctaacccCGACAGTTCAGGTCCCCCCGTCCC +CGTAGCTCCAGCTCAAGACAACCTGCCCCTCCGTGGGTTTGCAGGCCCTT +TGGTAGGGGTTGGGAGCTGGGGGCCACACACAGCTCTCTGAGCTTAAGCC +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 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+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 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+GGCGGAGGGGAAGACGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGGG +AGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGCA +GGGGGAAGGGAGGCCGTGCAGGGGGAAGGGAGGCCGTGCAGGCGGAGGGG +GGTACGTGCAGGGGGCAGCGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGC +AGGGGGAAGGGGGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGG +GAGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGGGGGCCGTGCA +GGGGGAAGGGAGGCCGTGCAGGGGGAGGGGAGGCCGTGCAGGGGGAGGGG +GGGCCGTGCAGGCGGAGGGGGGCCGTGCAGGGGGAGGGGGGGCCGTGCAG +GCGGAGCGGGGGGCGTGCAGGGGGAGGGGAAGCCGTCCTGGGCCTTTTCC +AGCTGGCTGCAGAGAAGGGGCCAGCTCCCTCCTGGGGACCCGGAGCCGCG +GTACAGGTGTGGTTGCTTCTCTTGGAGAAAGAGGCTGAGCTGACATCCCC +CGGGCTGATAAAGAATGGGCTCCTCCTCCTGGGCCCAGCAGGCTCCCGGG +AccctccctccctccctccctccctccctccTTCCGGGCAGCAGGGAAGA +TCTGAGTTCATGTAGCTGGTGTTGGCTTAGGGTCTGGGAGGAAGGCTTTT +GGGAAGATGTAAATAAGAACAAAATCTGCAGCCACCTGGGAAGCCTGGCC +TCAGTGTGGAAGAGAAGGCAGCAGGATTATTACAGAACCTTGTGAAGCCA +ACGCGGGCAGCCGCCAGGAGCTGCAGACCGAGAGGATCTCGTCCTTTCTT +GCGGCCCAGGGAGACCAGGCCTTTCATTCTGGGCTCGAGACCAACAATTC +GAATTCCGAACTCCCCCTGCGTGTGGGACTCAAGGTGGGTTTGCAGTTTG 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+TGCACACATGTGCACACATacacaggcatacatgcacacacgcacacacg +cacacacgcacacatgcacatctgcacacgcacatctgcacacacacatg +cacatctgcacacacacatgcacatctgcacacATACGCATGTGCATACt +gtgttggtctgttctcacgctgctaacaaagacatacccgagactgggta +atttataaaagaggtttaatggactcagttccacctggctggggaggcct +cacaatcacggcagaaggtgaatgcggagcaaagtcacatgttacatggt +ggcagccaacagagcgtgtgctggagaactgccctttgtacaaccatcag +atctcgtgagacttattcacgatcacgagaacagcatgggaaagacccgc +cccgtgattcggtgacctcccaccaggtccctcccatgacagatgggaat +tatgggagctacaattcaagatgagatttgggtggggacacagccgagcc +atatcaCATACATAGGTGCACATAGGCACACATGCAGGCACACACAGACA +CATACATACACACACACATGCATGCGCACACACATACATGCATGCACACA +TGCACATCCCCACACATATGCACATGGATGCATATACATGCACACACACA +GGTGTACACACATGCAGGCACATGTATACATGGATGTAGGCACATACTAA +TGCACACATGTATACATGCACATAGGCTCATACACACATGGATGCACATA +CACATGCATGCACATGTGCGGGTGTGTACACATGCACATGCACACGTGTA +CACATGTACACACATGCACACATGTATATATATATTTGCACCTATGCACA +CATATATACACCTGCAGATATACACAGGTGTAGACATGTACATGCACAGA +CACACGTGCACACATAAACATTTGCACCTATGCACGCAGAGACACGTCTA 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+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 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+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 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+GCCTCACTACCTTAGACGGCCACCAAGGCCAGTGCCGCTGTGCGTGGAAG +CGAGGTGACACCGAGAACTGAGTCCTGGAAGGAAAATGACATGAAACGCG +CACATGAGAACCAGGCGCCGAGGCGGGGAAGCACCGCGGAGGGGGGGTGG +CCGCTGTGGGGGGCGGCACCACGGTGGGGGGAGGCGCCGTTGGGGAGAAG +CACCGTGGGGATGAAGCACCGCGTGGGGAGGGGCGCTGTGGCGGGGAAGC +ACCGTGGGGACGGGCGCCCTGGCGGGGAAGCACCGCGGCGGGGGTAGGGG +AGGGCGGGGCGGCGCCCTGGCGGGGAAGCACCGCGGCCGGGGAGGGGCAT +CGTGGCGGGGAAGCACTGAGGGGAATACATGGGTCCCATGCAGGAACCTC +ACTGGGCTGCGCGAGCGGCTTTGTAGGACCCGAAGCGGACGCAGCGCGTG +AGCTGCAAAAGAGGTGTCTGACCCAGCCCGAGGCGCGCagagaccctgtg +ggtggggccgggcgcactccgcgagggtgagttctccacacaacggaggc +tgtactgaaaaggatgaaggtgtcccagcagacggaatgccagcaaagag +acctcccagtgaaggaactctcagagataccccacaacttcaagagcacc +aaggataaaacgcggaagctgagcaaggcgtgttaagtcgagtgagtctg +ccagggcacggagcaggtgctcactccacacgggacaaggagatggcact +gctgtaactacttttggcaagtttttactgagagatgaaacaattcttaa +tgcttctggtgttttaagttacagcatactaggtaaatattagttctttt +cattcactacatgtttgcaaccgactgtaagaaagtttctaatatttcaa +caaaaatgattatagAATGATCCTAATTTTTACTGGAAGATGGTTTTGCA 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+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 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+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 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+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 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+GAGCCGGCGGGAGACATTTGGCCTGGAGTATGAGGCTGGCTGGACCTGGA +AGGTCCTCAGCGTTAGAGGGACTGTTTCGGGAAGGTTTTCTGGCAGCTGA +GTCCCAATTCCAGGAGGAAGTAGGCATTGAGTAGATAATTTCAGCTCCCC +CATTGAAGCCGTCCAGCCTGCAGAGAAAGATAGCAGTGGCCCCCTGCCCT +ATCCCGGCAAAGCTGACCCCGAGAATGCCCGGGTCACAAGCCCAGGTGGA +CAGTGTCTCCTTGTGCCTCGGAAGAGAATTCTGCATTAGGAAGGAATCCA +GGGGGAATGGGGAGAAAAGGCCCGAGATACGTGAGCAGAGGTGAGAGCCG +TGCCAGGGCTGAGCCACGCTTCAGGAGAGACCAGCTATGTCTCTCTCTGT +GTTGGGAGCCGTTGGGTAAAGCGGGGACTTCTGGGTGAGCCAACATTACA +GACTTATATGGGAATTTAAGGCTCGGTTAAATATGCCCCTCAAAAAAGTT +TCCTGACTTTTTTTTGATACGCCAGTTTCATTATCAGGGGGCTCATCAGC +CGGGGACGCGGTGCAGGACGGATGGAAGCCGTGGGCCGTGTCAACTCTAC +AGGGCTGTATTTCTTTTTTTTTTTCGTGCTCATTACGATTCTTGGATGTG +TGTAATTTACATCTAAATGCACTGACTAATTTTGATCCAATCATGTCAAA +AATGATAGGTACTGTGTGGGAGGAGATGACAGCCGTACCAGCGCGCGTTG +CCAGAGTGAGAGTCCCTCGGGGCAATGATTTAATGCCCCCAGTCAGCCGG +GCCTGTCAGCTTCGGAGGCCAAATTATGACACATCATGTCGACGACCGGT +CCACACGGAGGCTGCGGTGGGGGGAGCCCTGGTTCACCCAGCACCGTCCT +GGCCGACCCCCGGCCCCGGCTGCCGCCCCGTGCCCCGTCACACACGCAAG 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+GATGGGGAGAGAGAGATGCTAGCCAGGGCTCAGCTGCCCGGCTGCCAAGA +ACTGTCAGAATTGATCACGTATGTGTTCACGTTTCCTACAGTCTCATTGG +AGTTCTCTGAGATTGACAGGAGAAAGTATCACATACTTtgtgtgtgtgtg +tgtgtgtgtgtgtctgtgtgtgtCAGAGACAGAGGGACACAGAGGCCGGG +AGCAGGGGTGTGTAAGTGTGAGGTTCTGAACGCAAAGACAGGCCGTTCTG +CTCACAATCCACAGGCCAGCGACCTTGTGGACCATTGCATTATGTATTAG +CAATAtttattttcattttatgattttatttatttgagacagcttcttgg +tctgtcgcccatgctggagggcagtggtgcaatcatagctcactgcagcc +ttgatcttccaggctcaagaaatcttccctcctcagcctcccaactagct +gggactacaggtgcatgccaccatgcctgtctatttttttttttttggag +gcagggtcagtcacccaggctggagagcagcggtgtgatcttggcttacc +acaacctccgcctcccaggttcaagcgattctcctgtgtcagcctcccga +gtagctgggatgacaggcacccgccaccacgtctggctaatttttgtatt +ttcagtagagacagggtttcaccaagctggccacgctggactcgaactcc +tgacctcaggtgatccacctgcctcggcctcccaaagtgctgggattata +ggcgtgagccaccacgccgggccCATACCTGGCtatatatatatatatat +atatatatatatatatatatatattttaatgttttgtagagatgggggtc +tcactatattgcaaaccaggctggtctcaaacccttgggctcaagtgatc +ctcccacatcagcctcccaaagtgctgggattataTATTTATCTACtttt 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+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 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+GGCGCCATCCCCAGACCCCAGCTCCTCCCCTCAGGATCATCCCCAGACCC +CCGCTCCTCCCATCAGGACCGCCCCCAGAACCCCCTGCTCCTCCCCACAG +GACCACCCCCAGACCCCCGCTCCTCCCCTAAGGACCACCCACAGACCCCC +ACGCTTCCCCTCGGGACCACCCCCAGACCCCCGCTCCTCCCCTCAGGACC +ACCCCCAGATCCACTGTTCCTGTCCTCCGGACCACACCAGACAGCTCCTT +CCCTCGGCGCCATCCCCAGACCCCCACGCTTCCCCTCGGGACCACCCCCA +GACCCCCGCTCCTGCCCTCGGGACCACGCCCAGACCCCCTGCTCCTCCCC +ACGAAACCACGCCCAGTAACCCCCCTCTTCTCCCCTCAGGACCACCCCCA +GACCCCCGCTCCTCCCCTGGGAACCACCCCCAGACCCCCTGCTCCTCCCC +ACGAAACCACCCCCAGACTCCCTGCTCCTGTCCTCCGGACCACGCGACTG +CTCCTTCCCTCAGCGCCACCCCCAGACTGCCGCTCCTCCTGTCGGGACCC +CCTGAGGCTTTCTCCACCCGGAGTGCGGGGTAGGGAGCAgacggagagtg +acggagggtgacggagagtgacgAAAGTAGACGATGTCTGACGGAGAAGA +GCCGAGCGGAGCTGAAGGGCGGCGGAGAGTGACGGAAAGTGGCGAGAATT +GACGGAAAGTGACGGGGACTGACGGACAGTGACGAAGAGTCACGAAATTT +ATCAGAGGGCGACAAAGAGGAAAGCGAAATGGTGAGATGCAGCCGGCCGA +GCCTAATCGGAGATGACGGAAAGTGACGGAGAGGAACGAGGAGTAAAGAG +GGGTGACGAAAAGAGCCGAAGCTGGTGGAGGCGAAGAACTGAGTGAGGGA +AGATAGCCGAGATTAGCGGGTGGGCTGCAGCCGGGGCAGTCGCCCGAATG 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+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 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+atgggagaaaatttttgcaacctactcatctgacaaagggctaatatcca +gaatctacaatgaactcaaaccaatttacaagaaaaaaacaaacaacccc +atcaaaaagtgggcaaaggacacaaacagacacttctcaaaagaagacat +ttatgcagccaaaaaacacatgaaaaaatgctcatcatcactggccatca +gagaaatgcaaatcaaaaccacaatgagataccatctcacaccagttaga +atggcaatcattaaaaagtcaggaaacaacaggtgctggagaggatgtgg +agaaataggaacacttttacactgttggtgggactgtcaactagttcaac +cattgtggaagtcagtgtggcgattcctcagggatctagaactagaaata +ccatttgacccagccatcccattactgggtatatacccaaaggactgtaa +atcatgctgctataaagacacatgcacacgtatgtttattgcggcactat +tcacaatagcaaagacttggaaccaacgcaaatgtccaacaatgataaac +tggattaagaaaatgtggcacatatacaccatggaatactatgcagccat +aaaaaatgatgagttcatgtcctttgtagggacatggatgaaactggaaa +tcatcattctcagtaaactatcgcaagaacaaaaaaccaaacaccgcata +ttctcactcataggtgggaattgaacaatgagatcacatggacacaggaa +ggggaacatcacactctggggactgttgtggggtggggggaggggggagg +gatagcattgggagatatacctaatgctagatgaccagttagtgggtgca +gtgcaccagcgtggcacatgtatacatatgtaaataacctgcacaatgtg +cacatgtaccctaaaacttaaagtataataataaaagaaaaaatatatat +ataacataaaaaataataaataaataaataaatttttaaaaattaaaaaa +atagattaaaaataaattcatgaagggaaagaaaatattcacacattatg +tatttggtaagtaattaatatccgggctatataaagacctcagcaacaac +aacaaaacaatcaaatttaaacatgagcaaaggttttaaaatacacattt +ctctaaagaagatatgcaaatgaccagtaagcacaggataaggtgctcag +catcactaatcatgagaaaaaagtaaatccaaaccacaatgcaataccaa +ctgacacatgtaagcatagctgccatcaaaaaaaccccaccagcaaagca +aaacaacaaagccccagagaacagcaaatgctggatgtggagaagtcagg +actcctgcacactgctggtgggaaagtaagatggcacagccactgtggaa +aacagtaatcaccatatgatccagtaatcccacatctgggtatatacccc +aaaaaactgaaagtgggaatttgtacacccatgtttatagcagcattcac +aagagccaaagggtagaaaaagcccaaatctccatctacagatgaatgga +taagcaaatatgattgatacacacaatattattcagccttaaaaagaaaa +gaaattctaatacatgctacaacataaaccttgaaaacattaaaacaaaa +aaatgcaaatactccatgctttccacttttatagtgtacctagagcagtt +aaattcatagacacagaaagtaggatgtggtttccaggggatggggggaa +gggaaaggggagctattgttccgtggatacagagtttcactttgggatga +taacacaggtttggaatggatactggtgatagttgcacaacaatgtattt +ctacttaatgTACTTAAATTTTCTCTTATACATATTTCACCACAGAAAAA +AAATTAGcaaatatttaaaaatctacatgtttctttgaactgtttcttta +cgtcccttgtccatttttcaatttggctgttggtcttttaataatttagg +atagctatatagctatatatatacatatatattacacaaattagcttttt +gtctgtcatgtatgttgcagatctgtttccccagtctgttgacttttgac +tttgatgcatttttcttgcctataaagttttaatttttatggagtcaaat +gcatcagtcttCTATTCAAAGACTTATTTatgggtttggtgtttcagttt +aggatgaaaaagaagttgtagatatggataaaggagatggttgtacaaca +cattatattggaccactcaactgtacgtttaaacatggttaaaatggtaa +gttttatgttgtatatattttaccaccaaaaaaGGGCCAGGCTTAGATAT +TTATATGTTAGGGGTTTGGAGTACCTCTAACATTTATTCCCCTACAGGGC +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..d75bbd7 --- /dev/null +++ b/databases/test-setup.sh @@ -0,0 +1,11 @@ +HUM_STAR=star-index-dir +HUM_BOWTIE_DIR=human-bowtie +FAKE_HUMAN=fake_human.fa + +mkdir -p $HUM_STAR +STAR --runMode genomeGenerate --runThreadN 24 --genomeFastaFiles $FAKE_HUMAN --genomeDir $(HUM_STAR) --limitGenomeGenerateRAM 35085737173 2>&1 > star-build.log + +mkdir -p $HUM_BOWTIE_DIR +bowtie2-build $FAKE_HUMAN $HUM_BOWTIE 2>&1 > bowtie-build.log + +mkdir -p smallnt && cd smallnt/ && 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 rRNAU13103.1 Balaenoptera physalus mitochondrion 16S rRNA gene, partial sequence +AACCAGTATTAGAGCACTGCCTGCCCGGTGACTAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAAT +CACTTGTTCTCTAATTAGGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA +CCTCTCCGTGAAGAGGCGGAGATAACAAAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAAAAACCATA +ACCTTAAACCACCAAGGGATAACAAAACCTTATATGGGCTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAACCC +TCCGAGTGATTAAAACTTAGGCCCACTAGCCAAAGTACAATATCACTTATTGATCCAATCCTTTGATCAACGGAACAAGT +TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC +ATCCTAATGGTGCAGCTGCTATTAAGGGTTCGTTTGTT +>ref|Z18632.1| B.physalus gene for small subunit rRNAU13080.1 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 gene4W1Z_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), mRNAX62294.1 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), mRNAX05219.1 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), mRNAX17019.1 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), mRNAX64898.1 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 geneM55158.1 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-1DAF327250.1 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), mRNAX03006.1 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), mRNAX00564.1 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), mRNAX53061.1 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), mRNAX04270.1 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), mRNAX13627.1 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), mRNAX59048.1 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), mRNAX63221.1 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), mRNAX63220.1 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), mRNAX63215.1 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), mRNAX59418.1 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), mRNAX59419.1 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), mRNAX63216.1 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), mRNAX63213.1 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), mRNAX63218.1 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), mRNAX63211.1 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), mRNAX63212.1 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), mRNAX63210.1 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), mRNAX63219.1 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), mRNAX63217.1 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), mRNAX63214.1 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), mRNAX56739.1 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), mRNAX12783.1 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), mRNAX51657.1 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), mRNAX12710.1 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), mRNAX15556.1 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), mRNAX12582.1 Bovine preprogalanin mRNA +CTTCCGCGTCCCCGAGGCCGCGCCATGCGGTGAGCGTCCCCGGCCCTGCCCCGACCCGACTCGACGGACGCGCGGCCCCG +CCGACACAGGACCTGCAGACACCCCAGGACCCGCAGACATCCCCCGACCCTCCGGGCCCCGCTCAAGATGCCCAGAGGCT +CCGTCCTGCTGCTCGCCTCCCTGCTCCTCGCAGCGGCCCTTTCAGCCACCCTGGGCCTCGGGTCACCGGTGAAGGAGAAG +AGAGGCTGGACCCTGAACAGCGCTGGGTACCTTCTCGGACCACATGCGCTCGACAGCCACAGGTCATTTCAAGACAAGCA +TGGCCTCGCCGGCAAGCGGGAACTCGAGCCTGAAGACGAAGCCCGGCCAGGAAGCTTTGACAGACCACTGGCGGAGAACA +ACGTCGTGCGCACGATAATCGAGTTTCTGACTTTCCTGCATCTCAAAGACGCCGGCGCCCTGGAGCGCCTGCCCAGTCTC +CCCACAGCAGAGTCCGCAGAAGACGCCGAGAGGTCCTGAGCGGGCTCCCGCGCGTCGGTCTCCCTGTGTCACGCGCAGTC +GTGCTCCCAGGAGGATGCCCATCGCATGGCAACCGCCCCATCCCCGCTGCCCTGATGCTGTGTCCGTACCATTTCAGGTT +TTTCCCCTTTGGTCATAAGTTTCAGTGGCAAAATT +>ref|NM_177512.2| Bos taurus beta-1,4-galactosyltransferase 1 (B4GALT1), mRNAX14558.1 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), mRNAX03642.1 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), mRNAX61233.1 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), mRNAX54014.1 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), mRNAX67340.1 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), mRNAX14330.1 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), mRNAX61585.1 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), mRNAX05340.1 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), mRNAZ18245.1 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), mRNAX16581.1 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), mRNAX53699.1 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), mRNAX06295.1 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, mRNAX00076.1 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), mRNAX16171.1 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 liverM16251.1 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), mRNAX65450.1 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), mRNAX53592.1 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), mRNAX17146.1 Canine mRNA for thyrotropin (TSH) receptorM29957.1 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 variantM90047.1 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 rRNAU13082.1 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), mRNAX14051.1 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), mRNAX14052.1 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), mRNAX53744.1 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), mRNAX51367.1 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), mRNAX51448.1 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), mRNAX63678.1 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), mRNAX60763.1 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 rRNAU13106.1 Delphinus delphis mitochondrion 16S rRNA gene, partial sequence +AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT +CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA +CCTCCCCGTGAAGAGGCGGGGATAATACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA +AAACAATACCACCAAGGGATAACAAAGCTTTAAATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCC +TCCGAGTGATTAAAACTTAGGCCTACTAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGT +TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC +ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT +>ref|Z18636.1| D.delphis gene for small subunit rRNAU13083.1 Delphinus delphis mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAATCCCAAAACAAGATTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAACTCACACGAAAGTTTTTAT +GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATGAGGCCA +>ref|Z18639.1| D.leucas gene for large subunit rRNAU13107.1 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 rRNAU13109.1 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 rRNAU13090.1 Lagenorhynchus albirostris mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCTTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATAGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTATACGAAAGTTTTTAT +GAAACCTAGAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAAAAAGGCC +>ref|Z18649.1| L.obscurus gene for large subunit rRNAU13114.1 Lagenorhynchus obscurus mitochondrion 16S rRNA gene, partial sequence +GGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCACTTGTTCTCTA +AATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCTCCCCGTGAAG +AGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAATAATACCACC +AAGGGATAACAAAGCTTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCCTCCGAGTGATTAA +AACTTAGGCCTACCAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTACCCTAGGGATA +ACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCTAATGGTGC +AGCAGCTATTAAGGGTTCGTTTGTT +>ref|Z18648.1| L.obscurus gene for small subunit rRNAU13091.1 Lagenorhynchus obscurus mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTATTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTACACGAAAGTTTTTAT +GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA +>ref|Z18665.1| L.peronii gene for large subunit rRNAU13115.1 Lissodelphis peronii mitochondrion 16S rRNA gene, partial sequence +AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATAGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT +CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA +CCTCCCCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA +AAATAATACCACCAAGGGATAACAAAGCTTTATATGAATTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAATCC +TCCGAGTGATTAAAACTTAGGCCTACCAGCCAAGGTGTAGTATCACTTATTGATCCAAAACTTTGATCAACGGAACAAGT +TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC +ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT +>ref|Z18664.1| L.peronii gene for small subunit rRNAU13092.1 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 rRNAU13116.1 Mesoplodon europaeus mitochondrion 16S rRNA gene, partial sequence +AATCAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTACTCTGACCGTGCAAAGGTAGCATAAT +CATTTGTTCTTTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA +CCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAACCAACCCAAAAAATATA +AATTTAAACCACCAAGGAATAACAAAACTTTATATGGGTTGACAATTTTGGTTGGGGTGACCTCGGAGCACAAAAAAACC +TCCGAGTGATTAAAACCTAGGCCTACCAGCCAAAGTGTTAAATCACTTATTGATCCAATTTTTTTGATCAACGGAACAAG +TTACCCTAGGGATAACAGCGCAATCCTATTTTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA +CATCCTAATGGTGTAGCCGCTATTAAGGGTTCGTTTGTT +>ref|Z18650.1| M.europaeus gene for small subunit rRNAU13093.1 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 rRNAU13117.1 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 rRNAU13118.1 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), mRNAX60195.1 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), mRNAX03883.1 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), mRNAX69904.1 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), mRNAX69905.1 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), mRNAX03238.1 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), mRNAX03237.1 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), mRNAX60167.1 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), mRNAZ11560.1 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), mRNAZ18291.1 Ovis aries interleukin-3 gene +CGAAGGACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCC +TGCTTTCTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAA +ATTATGGATGACCTAAAGAAAATAACTCCGAGTCCAGAAGGCTCCTTGAACTCAGATGAGAAGAATATCCTGGCGAATAA +GAGCCTCCTACAGGCAAACCTGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAA +ATCTTAAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGG +GATTTTCGGATGAAATTGGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTAT +CTGAAGTCCAAGAACATACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGT +GACAAC +>ref|NM_001009378.1| Ovis aries casein kappa (CSN3), mRNAX51822.1 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 sequenceU24089.1 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), mRNAY00287.1 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), mRNAY00750.1 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), mRNAX16578.1 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), mRNAX56031.1 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), mRNAX58727.1 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), mRNAX16428.1 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), mRNAX64298.1 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), mRNAX13043.1 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), mRNAX57476.1 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), mRNAZ11846.1 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), mRNAX64393.1 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), mRNAX05921.1 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), mRNAX62994.1 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), mRNAX02852.1 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 metallothioneinM23602.1 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 metallothioneinM20015.1 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), mRNAX59935.1 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), mRNAX60421.1 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), mRNAY00684.1 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), mRNAD00040.1 Oryctolagus cuniculus mRNA for glycogen phosphorylase, complete cdsX04265.1 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), mRNAY00701.1 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), mRNAZ12841.1 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 RNAX06778.1 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), mRNAX15209.1 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), mRNAX55355.1 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), mRNAX14696.1 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), mRNAZ12840.1 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), mRNAX07943.1 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 rRNAU13119.1 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 rRNAU13122.1 Phocoena spinipinnis mitochondrion 16S rRNA gene, partial sequence +AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA +ATCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATT +GACCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAATCA +GAAAACAATACCACTAAGGGATAACAGAATTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAAACC +CTCCGAGTGATTAAAACCTAGGCCTACTAGCCAAAGTGTAATATCACTTATTGATCCAAATTTTTGATCAACGGAACAAG +TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA +CATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT +>ref|Z18658.1| P.spinipinnis gene for small subunit rRNAU13099.1 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), mRNAX04708.1 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), mRNAX14844.1 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), mRNAX56750.1 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), mRNAX67109.1 S.scrofa PEC-60 mRNAS46866.1 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), mRNAX07382.1 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), mRNAX15075.1 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), mRNAX13381.1 Pig mRNA for protamine 1 +CATCCCCGTCTCTGAGCATCAAGACTGAGTCCATCCATCACCATGGCCAGATACAGATGTTGCCGCAGCCATAGCCGGAG +CAGGTGCCGCCCCCGAAGACGAAGATGTCGCAGACGAAGGAGGAGATGTTGTCCGAGGCGGAGGAGAGCGGTGTGCTGCC +GCCGCTACACCGTTATAAGGTGTAGAAGATGCTAAACATGCAGTAGCAAGACCACCGCACTCCTGCCTGAAATAGTACCA +GCCTTCAAGACCCTCTCGCCGCATCTTGAACATGCCACTACTGCAGTGACTGACAGGAGCCTGCTAAGCACAACGCCCCC +TGCCAATAAATGTTGA +>ref|NM_214252.1| Sus scrofa protamine 2 (PRM2), mRNAX16558.1 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), mRNAX16575.1 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 rRNAU13103.1 Balaenoptera physalus mitochondrion 16S rRNA gene, partial sequence +AACCAGTATTAGAGCACTGCCTGCCCGGTGACTAATCGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAAT +CACTTGTTCTCTAATTAGGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA +CCTCTCCGTGAAGAGGCGGAGATAACAAAATAAGACGAGAAGACCCTATGGAGCTTCAATTAATCAACCCAAAAACCATA +ACCTTAAACCACCAAGGGATAACAAAACCTTATATGGGCTGACAATTTCGGTTGGGGTGACCTCGGAGTACAAAAAACCC +TCCGAGTGATTAAAACTTAGGCCCACTAGCCAAAGTACAATATCACTTATTGATCCAATCCTTTGATCAACGGAACAAGT +TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC +ATCCTAATGGTGCAGCTGCTATTAAGGGTTCGTTTGTT +>ref|Z18632.1| B.physalus gene for small subunit rRNAU13080.1 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 gene4W1Z_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), mRNAX62294.1 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), mRNAX05219.1 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), mRNAX17019.1 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), mRNAX64898.1 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 geneM55158.1 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-1DAF327250.1 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), mRNAX03006.1 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), mRNAX00564.1 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), mRNAX53061.1 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), mRNAX04270.1 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), mRNAX13627.1 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), mRNAX59048.1 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), mRNAX63221.1 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), mRNAX63220.1 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), mRNAX63215.1 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), mRNAX59418.1 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), mRNAX59419.1 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), mRNAX63216.1 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), mRNAX63213.1 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), mRNAX63218.1 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), mRNAX63211.1 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), mRNAX63212.1 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), mRNAX63210.1 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), mRNAX63219.1 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), mRNAX63217.1 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), mRNAX63214.1 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), mRNAX56739.1 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), mRNAX12783.1 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), mRNAX51657.1 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), mRNAX12710.1 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), mRNAX15556.1 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), mRNAX12582.1 Bovine preprogalanin mRNA +CTTCCGCGTCCCCGAGGCCGCGCCATGCGGTGAGCGTCCCCGGCCCTGCCCCGACCCGACTCGACGGACGCGCGGCCCCG +CCGACACAGGACCTGCAGACACCCCAGGACCCGCAGACATCCCCCGACCCTCCGGGCCCCGCTCAAGATGCCCAGAGGCT +CCGTCCTGCTGCTCGCCTCCCTGCTCCTCGCAGCGGCCCTTTCAGCCACCCTGGGCCTCGGGTCACCGGTGAAGGAGAAG +AGAGGCTGGACCCTGAACAGCGCTGGGTACCTTCTCGGACCACATGCGCTCGACAGCCACAGGTCATTTCAAGACAAGCA +TGGCCTCGCCGGCAAGCGGGAACTCGAGCCTGAAGACGAAGCCCGGCCAGGAAGCTTTGACAGACCACTGGCGGAGAACA +ACGTCGTGCGCACGATAATCGAGTTTCTGACTTTCCTGCATCTCAAAGACGCCGGCGCCCTGGAGCGCCTGCCCAGTCTC +CCCACAGCAGAGTCCGCAGAAGACGCCGAGAGGTCCTGAGCGGGCTCCCGCGCGTCGGTCTCCCTGTGTCACGCGCAGTC +GTGCTCCCAGGAGGATGCCCATCGCATGGCAACCGCCCCATCCCCGCTGCCCTGATGCTGTGTCCGTACCATTTCAGGTT +TTTCCCCTTTGGTCATAAGTTTCAGTGGCAAAATT +>ref|NM_177512.2| Bos taurus beta-1,4-galactosyltransferase 1 (B4GALT1), mRNAX14558.1 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), mRNAX03642.1 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), mRNAX61233.1 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), mRNAX54014.1 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), mRNAX67340.1 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), mRNAX14330.1 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), mRNAX61585.1 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), mRNAX05340.1 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), mRNAZ18245.1 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), mRNAX16581.1 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), mRNAX53699.1 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), mRNAX06295.1 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, mRNAX00076.1 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), mRNAX16171.1 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 liverM16251.1 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), mRNAX65450.1 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), mRNAX53592.1 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), mRNAX17146.1 Canine mRNA for thyrotropin (TSH) receptorM29957.1 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 variantM90047.1 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 rRNAU13082.1 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), mRNAX14051.1 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), mRNAX14052.1 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), mRNAX53744.1 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), mRNAX51367.1 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), mRNAX51448.1 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), mRNAX63678.1 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), mRNAX60763.1 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 rRNAU13106.1 Delphinus delphis mitochondrion 16S rRNA gene, partial sequence +AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT +CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA +CCTCCCCGTGAAGAGGCGGGGATAATACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA +AAACAATACCACCAAGGGATAACAAAGCTTTAAATGAGCTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCC +TCCGAGTGATTAAAACTTAGGCCTACTAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGT +TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC +ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT +>ref|Z18636.1| D.delphis gene for small subunit rRNAU13083.1 Delphinus delphis mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAATCCCAAAACAAGATTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAATAAGAACACCCCTTAAACTCACACGAAAGTTTTTAT +GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATGAGGCCA +>ref|Z18639.1| D.leucas gene for large subunit rRNAU13107.1 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 rRNAU13109.1 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 rRNAU13090.1 Lagenorhynchus albirostris mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCTTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAATGAAAGTAAGCACAACTACTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATAGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTATACGAAAGTTTTTAT +GAAACCTAGAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAAAAAGGCC +>ref|Z18649.1| L.obscurus gene for large subunit rRNAU13114.1 Lagenorhynchus obscurus mitochondrion 16S rRNA gene, partial sequence +GGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAATCACTTGTTCTCTA +AATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGACCTCCCCGTGAAG +AGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATAAAATAATACCACC +AAGGGATAACAAAGCTTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAACCCTCCGAGTGATTAA +AACTTAGGCCTACCAGCCAAAGTATAGTATCACTTATTGATCCAAAATTTTGATCAACGGAACAAGTTACCCTAGGGATA +ACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCTAATGGTGC +AGCAGCTATTAAGGGTTCGTTTGTT +>ref|Z18648.1| L.obscurus gene for small subunit rRNAU13091.1 Lagenorhynchus obscurus mitochondrion 12S rRNA gene, partial sequence +TCGTAAACTTAAATAGTCCTAAAACAAGACTATTCGCCAGAGTACTATCGGCAACAGCCCAAAACTCAAAGGACTTGGCG +GTGCTTCATATCCTTCTAGAGGAGCCTGTTCTGTAAACGATAAACCACGATTAACCTCACCAATCCTTGCTACTTCAGTC +TATATACCGCCATCTTCAGCAAACCCTAAAAAAGGAACGAAAGTAAGCACAACTATTGCACGTAAAAACGTTAGGTCAAG +GTGTAACCTATGGATTGGGAAGAAATGGGCTACATTTTCTATAACAAGAACACCCCTTAAACTTACACGAAAGTTTTTAT +GAAACCTAAAAACTAAAGGAGGATTTAGCAGTAAATTAAGAATAGAATGCTTAATTGAATAAGGCCA +>ref|Z18665.1| L.peronii gene for large subunit rRNAU13115.1 Lissodelphis peronii mitochondrion 16S rRNA gene, partial sequence +AACTAGTATTAGAGGCACTGCCTGCCCAGTGACAATAGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATAAT +CACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTCTTAATCAGTGAAATTGA +CCTCCCCGTGAAGAGGCGGGGATAACACAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAAGCATA +AAATAATACCACCAAGGGATAACAAAGCTTTATATGAATTGACAATTTCGGTTGGGGTGACCTCGGAGTATAAAAAATCC +TCCGAGTGATTAAAACTTAGGCCTACCAGCCAAGGTGTAGTATCACTTATTGATCCAAAACTTTGATCAACGGAACAAGT +TACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGAC +ATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT +>ref|Z18664.1| L.peronii gene for small subunit rRNAU13092.1 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 rRNAU13116.1 Mesoplodon europaeus mitochondrion 16S rRNA gene, partial sequence +AATCAGTATTAGAGGCACTGCCTGCCCAGTGACAATCGTTAAACGGCCGCGGTACTCTGACCGTGCAAAGGTAGCATAAT +CATTTGTTCTTTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATTGA +CCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAACCAACCCAAAAAATATA +AATTTAAACCACCAAGGAATAACAAAACTTTATATGGGTTGACAATTTTGGTTGGGGTGACCTCGGAGCACAAAAAAACC +TCCGAGTGATTAAAACCTAGGCCTACCAGCCAAAGTGTTAAATCACTTATTGATCCAATTTTTTTGATCAACGGAACAAG +TTACCCTAGGGATAACAGCGCAATCCTATTTTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA +CATCCTAATGGTGTAGCCGCTATTAAGGGTTCGTTTGTT +>ref|Z18650.1| M.europaeus gene for small subunit rRNAU13093.1 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 rRNAU13117.1 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 rRNAU13118.1 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), mRNAX60195.1 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), mRNAX03883.1 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), mRNAX69904.1 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), mRNAX69905.1 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), mRNAX03238.1 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), mRNAX03237.1 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), mRNAX60167.1 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), mRNAZ11560.1 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), mRNAZ18291.1 Ovis aries interleukin-3 gene +CGAAGGACCTGGACAAGACAGAATCCGCCCTGCCAGCCCAAACATGAGCAGCCTCTCTATCTTGCATCTGCTCCTGCTCC +TGCTTTCTCTCCATGCCCCTCAGGCACAGGGGCTGCCTTTGAGGACACCGAGGACTCCATATTCTAGCTTGATGGAGGAA +ATTATGGATGACCTAAAGAAAATAACTCCGAGTCCAGAAGGCTCCTTGAACTCAGATGAGAAGAATATCCTGGCGAATAA +GAGCCTCCTACAGGCAAACCTGAAAGCGTTCATGACATTTGCCACAGATACTTTTGGAAGTGATTCAAAAATCATGAAAA +ATCTTAAGGAATTCCAGCCAGTGCTGCCCACAGCCACACCCACGGAAGATTCAATTCTTATTGAGGACAGCAACTTGGGG +GATTTTCGGATGAAATTGGAAGAATATTTGGCTACCATTAGAGGCTATCTCAGACACGACTTAGCAGCAGCAGAGACTAT +CTGAAGTCCAAGAACATACGGTTTTTCTAACATCTGAAGTCTGAAGCCTAGTTCCCTCTCTGAAGCCTCAGATCATCAGT +GACAAC +>ref|NM_001009378.1| Ovis aries casein kappa (CSN3), mRNAX51822.1 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 sequenceU24089.1 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), mRNAY00287.1 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), mRNAY00750.1 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), mRNAX16578.1 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), mRNAX56031.1 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), mRNAX58727.1 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), mRNAX16428.1 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), mRNAX64298.1 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), mRNAX13043.1 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), mRNAX57476.1 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), mRNAZ11846.1 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), mRNAX64393.1 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), mRNAX05921.1 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), mRNAX62994.1 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), mRNAX02852.1 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 metallothioneinM23602.1 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 metallothioneinM20015.1 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), mRNAX59935.1 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), mRNAX60421.1 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), mRNAY00684.1 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), mRNAD00040.1 Oryctolagus cuniculus mRNA for glycogen phosphorylase, complete cdsX04265.1 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), mRNAY00701.1 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), mRNAZ12841.1 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 RNAX06778.1 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), mRNAX15209.1 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), mRNAX55355.1 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), mRNAX14696.1 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), mRNAZ12840.1 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), mRNAX07943.1 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 rRNAU13119.1 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 rRNAU13122.1 Phocoena spinipinnis mitochondrion 16S rRNA gene, partial sequence +AGCCAGTATTAGAGGCACTGCCTGCCCAGTGACTTAATCGTTAAACGGCCGCGGTATCTTGACCGTGCAAAGGTAGCATA +ATCACTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTTTAATCAGTGAAATT +GACCTCCCCGTGAAGAGGCGGGGATAATAAAATAAGACGAGAAGACCCTATGGAGCTTTAATTAATCAACTCAAAAATCA +GAAAACAATACCACTAAGGGATAACAGAATTTATATGAGTTGACAATTTCGGTTGGGGTGACCTCGGAGCACAAAAAACC +CTCCGAGTGATTAAAACCTAGGCCTACTAGCCAAAGTGTAATATCACTTATTGATCCAAATTTTTGATCAACGGAACAAG +TTACCCTAGGGATAACAGCGCAATCCTATTCTAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGA +CATCCTAATGGTGCAGCAGCTATTAAGGGTTCGTTTGTT +>ref|Z18658.1| P.spinipinnis gene for small subunit rRNAU13099.1 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), mRNAX04708.1 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), mRNAX14844.1 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), mRNAX56750.1 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), mRNAX67109.1 S.scrofa PEC-60 mRNAS46866.1 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), mRNAX07382.1 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), mRNAX15075.1 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), mRNAX13381.1 Pig mRNA for protamine 1 +CATCCCCGTCTCTGAGCATCAAGACTGAGTCCATCCATCACCATGGCCAGATACAGATGTTGCCGCAGCCATAGCCGGAG +CAGGTGCCGCCCCCGAAGACGAAGATGTCGCAGACGAAGGAGGAGATGTTGTCCGAGGCGGAGGAGAGCGGTGTGCTGCC +GCCGCTACACCGTTATAAGGTGTAGAAGATGCTAAACATGCAGTAGCAAGACCACCGCACTCCTGCCTGAAATAGTACCA +GCCTTCAAGACCCTCTCGCCGCATCTTGAACATGCCACTACTGCAGTGACTGACAGGAGCCTGCTAAGCACAACGCCCCC +TGCCAATAAATGTTGA +>ref|NM_214252.1| Sus scrofa protamine 2 (PRM2), mRNAX16558.1 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), mRNAX16575.1 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 From a74bf81780a9044fe46b1bb68dbcbb9db20818c9 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Fri, 19 Jul 2019 12:48:09 -0400 Subject: [PATCH 18/30] minimal test environment --- Dockerfile | 4 +++- Dockerfile.local | 5 ++++- pathos/pipeline.py | 4 ++-- 3 files changed, 9 insertions(+), 4 deletions(-) diff --git a/Dockerfile b/Dockerfile index 3bcb7fa..809d98f 100644 --- a/Dockerfile +++ b/Dockerfile @@ -18,10 +18,12 @@ RUN yum -y update \ ENV PATH "/usr/local/bin/:$PATH" +ENV RUNTYPE "TEST" + RUN mkdir /HERE && cd /HERE && git clone https://${GIT_USER}:${GIT_TOKEN}@github.com/averagehat/pathos.git \ && cd pathos/install \ && sh assume-conda-install.sh /usr/local/bin/ \ && cd .. \ && sh mk_yaml.sh > test.yaml \ && cd databases \ - && make krona + && sh test-setup.sh diff --git a/Dockerfile.local b/Dockerfile.local index ba1d9dd..8cbf28b 100644 --- a/Dockerfile.local +++ b/Dockerfile.local @@ -18,6 +18,8 @@ RUN yum -y update \ ENV PATH "/usr/local/bin/:$PATH" +ENV RUNTYPE "TEST" + ADD . /pathos/ WORKDIR /pathos/ @@ -25,7 +27,8 @@ WORKDIR /pathos/ RUN cd install \ && sh assume-conda-install.sh /usr/local/bin/ \ && cd .. \ - && sh mk_yaml.sh > test.yaml + && sh mk_yaml.sh > test.yaml \ + && sh test-setup.sh # && cd databases \ # && make krona diff --git a/pathos/pipeline.py b/pathos/pipeline.py index 9389509..121fb72 100644 --- a/pathos/pipeline.py +++ b/pathos/pipeline.py @@ -655,9 +655,9 @@ 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) From 4161171c4b57d3329240dfcd1761c4381ba99e03 Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Fri, 19 Jul 2019 12:59:06 -0400 Subject: [PATCH 19/30] rounding out test stuff --- databases/test-setup.sh | 12 ++++++------ mk_yaml.sh | 3 ++- pathos/pipeline.py | 5 ++++- template.yaml | 6 ++++-- 4 files changed, 16 insertions(+), 10 deletions(-) diff --git a/databases/test-setup.sh b/databases/test-setup.sh index d75bbd7..c86a2d4 100644 --- a/databases/test-setup.sh +++ b/databases/test-setup.sh @@ -1,11 +1,11 @@ -HUM_STAR=star-index-dir -HUM_BOWTIE_DIR=human-bowtie +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) --limitGenomeGenerateRAM 35085737173 2>&1 > star-build.log +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 2>&1 > bowtie-build.log +bowtie2-build $FAKE_HUMAN $HUM_BOWTIE_DIR 2>&1 > bowtie-build.log -mkdir -p smallnt && cd smallnt/ && makeblastdb -taxid_map ../taxid_map.txt -in ../cut_10k.fa -dbtype nucl -parse_seqids -out ./nt +mkdir -p test/nt && cd test/nt && makeblastdb -taxid_map ../../taxid_map.txt -in ../../cut_10k.fa -dbtype nucl -parse_seqids -out ./nt diff --git a/mk_yaml.sh b/mk_yaml.sh index 475d60e..9992585 100644 --- a/mk_yaml.sh +++ b/mk_yaml.sh @@ -1 +1,2 @@ - python -c "print open('template.yaml').read().format(DB='$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/pipeline.py b/pathos/pipeline.py index 121fb72..e9a1402 100644 --- a/pathos/pipeline.py +++ b/pathos/pipeline.py @@ -387,7 +387,10 @@ 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] 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: From fcb588f6dc68504034fbb5332bd5669b071e809b Mon Sep 17 00:00:00 2001 From: Michael Panciera Date: Fri, 19 Jul 2019 13:06:40 -0400 Subject: [PATCH 20/30] more tests --- .gitignore | 7 +++++++ Dockerfile | 3 ++- Dockerfile.local | 3 ++- docker-compose.test.yml | 3 +++ install/test-requirements.txt | 2 ++ test/test_pathos.py | 4 ++++ 6 files changed, 20 insertions(+), 2 deletions(-) create mode 100644 docker-compose.test.yml create mode 100644 install/test-requirements.txt create mode 100644 test/test_pathos.py diff --git a/.gitignore b/.gitignore index 2869808..8d4befb 100644 --- a/.gitignore +++ b/.gitignore @@ -6,9 +6,16 @@ *.egg *.bak *.pyc +*Log.out +*.log .mypy_cache install/PriceSource* install/cdhit *.egg-info *__pycache__* + + +databases/test/ +databases/human-bowtie +databases/star-index-dir/ diff --git a/Dockerfile b/Dockerfile index 809d98f..6e2bbdb 100644 --- a/Dockerfile +++ b/Dockerfile @@ -26,4 +26,5 @@ RUN mkdir /HERE && cd /HERE && git clone https://${GIT_USER}:${GIT_TOKEN}@github && cd .. \ && sh mk_yaml.sh > test.yaml \ && cd databases \ - && sh test-setup.sh + && sh test-setup.sh \ + && pip install -r ../install/test-requirements.txt diff --git a/Dockerfile.local b/Dockerfile.local index 8cbf28b..4d632c9 100644 --- a/Dockerfile.local +++ b/Dockerfile.local @@ -28,7 +28,8 @@ RUN cd install \ && sh assume-conda-install.sh /usr/local/bin/ \ && cd .. \ && sh mk_yaml.sh > test.yaml \ - && sh test-setup.sh + && sh test-setup.sh \ + && pip install -r ../install/test-requirements.txt # && cd databases \ # && make krona diff --git a/docker-compose.test.yml b/docker-compose.test.yml new file mode 100644 index 0000000..64f547b --- /dev/null +++ b/docker-compose.test.yml @@ -0,0 +1,3 @@ +sut: + build: . + command: nosetests test/test_pathos.py diff --git a/install/test-requirements.txt b/install/test-requirements.txt new file mode 100644 index 0000000..00c5f85 --- /dev/null +++ b/install/test-requirements.txt @@ -0,0 +1,2 @@ +nosetests +git+git://github.com/python/mypy.git diff --git a/test/test_pathos.py b/test/test_pathos.py new file mode 100644 index 0000000..a2708f2 --- /dev/null +++ b/test/test_pathos.py @@ -0,0 +1,4 @@ +import sh + +def integrated1_test(): + sh.pathos_single(c='template.yaml', fastq="test/smalldata/R1.fq test/smalldata/R2.fq", o=testout_) From 90a1e9be7bd743d47ab4856ccf3247091c53728c Mon Sep 17 00:00:00 2001 From: michael panciera Date: Sat, 20 Jul 2019 10:30:24 -0400 Subject: [PATCH 21/30] fixed shell type --- Dockerfile | 8 ++++---- 1 file changed, 4 insertions(+), 4 deletions(-) diff --git a/Dockerfile b/Dockerfile index 6e2bbdb..ce3b5ff 100644 --- a/Dockerfile +++ b/Dockerfile @@ -19,10 +19,10 @@ RUN yum -y update \ ENV PATH "/usr/local/bin/:$PATH" ENV RUNTYPE "TEST" - -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/ \ +ADD . /app +WORKDIR /app +RUN cd install \ + && bash assume-conda-install.sh /usr/local/bin/ \ && cd .. \ && sh mk_yaml.sh > test.yaml \ && cd databases \ From 4095cf474c6af6bdc3a622661bb52d072045b67d Mon Sep 17 00:00:00 2001 From: Mike Panciera Date: Sat, 20 Jul 2019 10:38:40 -0400 Subject: [PATCH 22/30] Update Dockerfile --- Dockerfile | 7 +++---- 1 file changed, 3 insertions(+), 4 deletions(-) diff --git a/Dockerfile b/Dockerfile index 6e2bbdb..0a3c5e0 100644 --- a/Dockerfile +++ b/Dockerfile @@ -1,8 +1,6 @@ FROM centos:centos7 MAINTAINER Michael Panciera -ARG GIT_USER -ARG GIT_TOKEN ENV PYTHON_VERSION 3.7 RUN yum -y update \ @@ -19,9 +17,10 @@ RUN yum -y update \ ENV PATH "/usr/local/bin/:$PATH" ENV RUNTYPE "TEST" +ADD . /app +WORKDIR /app -RUN mkdir /HERE && cd /HERE && git clone https://${GIT_USER}:${GIT_TOKEN}@github.com/averagehat/pathos.git \ - && cd pathos/install \ +RUN cd install \ && sh assume-conda-install.sh /usr/local/bin/ \ && cd .. \ && sh mk_yaml.sh > test.yaml \ From dffd29e5b3acd60d1a408ad76dcbf54af09f0444 Mon Sep 17 00:00:00 2001 From: michael panciera Date: Sun, 21 Jul 2019 23:13:32 -0400 Subject: [PATCH 23/30] initial docs commit --- .gitignore | 2 + docs/Makefile | 192 +++++++++++++++++++++++ docs/_static/diagram.png | Bin 0 -> 261681 bytes docs/conf.py | 326 +++++++++++++++++++++++++++++++++++++++ docs/index.rst | 29 ++++ docs/overview.rst | 6 + docs/requirements.txt | 4 + pathos/__init__.py | 1 + 8 files changed, 560 insertions(+) create mode 100644 docs/Makefile create mode 100644 docs/_static/diagram.png create mode 100644 docs/conf.py create mode 100644 docs/index.rst create mode 100644 docs/overview.rst create mode 100644 docs/requirements.txt diff --git a/.gitignore b/.gitignore index 8d4befb..7fd74c9 100644 --- a/.gitignore +++ b/.gitignore @@ -8,6 +8,7 @@ *.pyc *Log.out *.log +*.DS_Store .mypy_cache install/PriceSource* @@ -19,3 +20,4 @@ install/cdhit databases/test/ databases/human-bowtie databases/star-index-dir/ +docs/_build diff --git a/docs/Makefile b/docs/Makefile new file mode 100644 index 0000000..0b88bcf --- /dev/null +++ b/docs/Makefile @@ -0,0 +1,192 @@ +# Makefile for Sphinx documentation +# + +# You can set these variables from the command line. +SPHINXOPTS = +SPHINXBUILD = sphinx-build +PAPER = +BUILDDIR = _build + +# User-friendly check for sphinx-build +ifeq ($(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 ' where 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. 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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 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/index.rst b/docs/index.rst new file mode 100644 index 0000000..5c581d2 --- /dev/null +++ b/docs/index.rst @@ -0,0 +1,29 @@ +.. 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! +=========================================== + +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/overview.rst b/docs/overview.rst new file mode 100644 index 0000000..5b7efac --- /dev/null +++ b/docs/overview.rst @@ -0,0 +1,6 @@ +============= +Pipeline Info +============= + +.. image:: _static/diagram.png + 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/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' From 9a2082d43cf901842032252b009787740f4390a5 Mon Sep 17 00:00:00 2001 From: averagehat Date: Sun, 21 Jul 2019 23:19:00 -0400 Subject: [PATCH 24/30] ete3 requires 3.6 --- Dockerfile | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/Dockerfile b/Dockerfile index 8b16c14..78b1d24 100644 --- a/Dockerfile +++ b/Dockerfile @@ -1,7 +1,7 @@ FROM centos:centos7 MAINTAINER Michael Panciera -ENV PYTHON_VERSION 3.7 +ENV PYTHON_VERSION 3.6 RUN yum -y update \ && yum -y install curl bzip2 git wget make gcc-c++ \ From 6d023b9ed27d18181098f56f5c6733a5bda245e8 Mon Sep 17 00:00:00 2001 From: averagehat Date: Sun, 21 Jul 2019 23:26:58 -0400 Subject: [PATCH 25/30] typehints in autodoc --- docs/conf.py | 4 +++- 1 file changed, 3 insertions(+), 1 deletion(-) diff --git a/docs/conf.py b/docs/conf.py index a26df80..23648b4 100644 --- a/docs/conf.py +++ b/docs/conf.py @@ -51,7 +51,9 @@ 'sphinx.ext.coverage', 'sphinx.ext.ifconfig', 'sphinx.ext.viewcode', - 'recommonmark' + 'recommonmark', + 'sphinx_autodoc_typehints' + ] # Add any paths that contain templates here, relative to this directory. From 221f906313ef62731e8d8d3b4325b81cb2b290d2 Mon Sep 17 00:00:00 2001 From: averagehat Date: Mon, 22 Jul 2019 00:23:07 -0400 Subject: [PATCH 26/30] test scaffold --- docs/configuration.rst | 47 +++++++++++++++++++++++++++++++++++++++++ docs/installation.rst | 20 ++++++++++++++++++ docs/overview.rst | 2 +- docs/pathos_sheet.rst | 15 +++++++++++++ docs/pathos_single.rst | 8 +++++++ docs/pathos_summary.rst | 7 ++++++ 6 files changed, 98 insertions(+), 1 deletion(-) create mode 100644 docs/configuration.rst create mode 100644 docs/installation.rst create mode 100644 docs/pathos_sheet.rst create mode 100644 docs/pathos_single.rst create mode 100644 docs/pathos_summary.rst 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/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 index 5b7efac..c05f928 100644 --- a/docs/overview.rst +++ b/docs/overview.rst @@ -1,5 +1,5 @@ ============= -Pipeline Info +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: ''' From 71cda8eddfe6ff78636c0616046a6270763d7a7b Mon Sep 17 00:00:00 2001 From: averagehat Date: Mon, 22 Jul 2019 00:40:29 -0400 Subject: [PATCH 27/30] should autodoc work --- docs/index.rst | 6 ++++++ 1 file changed, 6 insertions(+) diff --git a/docs/index.rst b/docs/index.rst index 5c581d2..6dc460d 100644 --- a/docs/index.rst +++ b/docs/index.rst @@ -6,6 +6,12 @@ Welcome to pathos's documentation! =========================================== +.. automodule:: pathos.diff_rank + :members: + +.. automodule:: pathos.summary + :members: + Contents: .. toctree:: From a5c6ab8c02e2ce97b4a951bfd2c901ce7945b681 Mon Sep 17 00:00:00 2001 From: averagehat Date: Mon, 22 Jul 2019 00:40:50 -0400 Subject: [PATCH 28/30] function doc --- pathos/diff_ranks.py | 5 +++++ 1 file changed, 5 insertions(+) diff --git a/pathos/diff_ranks.py b/pathos/diff_ranks.py index cc8f591..7583f56 100644 --- a/pathos/diff_ranks.py +++ b/pathos/diff_ranks.py @@ -89,6 +89,11 @@ def flag(group_obj: Tuple[str, Iterator[OrderedDict[str, Any]]]) -> List[Dict[An return list(map(add_rank, group)) 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']) # Iterator[Tuple[str, Iterator[Any]]] From 6c66791763956867e39c6d187dad60991f48c1d6 Mon Sep 17 00:00:00 2001 From: Mike Panciera Date: Mon, 22 Jul 2019 13:18:10 -0400 Subject: [PATCH 29/30] Update summary.py --- pathos/summary.py | 3 +++ 1 file changed, 3 insertions(+) diff --git a/pathos/summary.py b/pathos/summary.py index ce84270..67c347e 100644 --- a/pathos/summary.py +++ b/pathos/summary.py @@ -1,6 +1,9 @@ ''' Usage: summary.py + +Run after `pathos_single` or `pathos_sheet` to get summary information on for that run. + is the directory with `pathos` output. ''' from docopt import docopt import pandas as pd From 11cfc25de2c363a0148ceaa111bd2953c0a34c35 Mon Sep 17 00:00:00 2001 From: Mike Panciera Date: Mon, 22 Jul 2019 13:30:18 -0400 Subject: [PATCH 30/30] usage pipeline.py --- pathos/pipeline.py | 9 ++++++++- 1 file changed, 8 insertions(+), 1 deletion(-) diff --git a/pathos/pipeline.py b/pathos/pipeline.py index e9a1402..fca3af3 100644 --- a/pathos/pipeline.py +++ b/pathos/pipeline.py @@ -3,11 +3,18 @@ pipeline.py (--fastq ...) --config [-o ] [--log ] [--control ...] Options: - -f , --fastq + -f , --fastq -r , --control -c , --config --o , --outdir --log , -l + +Notes: + For the --fastq argument, provide any number of paired read files ordered like: + --fastq . . . + 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 tee, chain, groupby, starmap