Ethan Frome

Identification of Gene Sequences Suitable for Mutation Analysis in Marine Species: the Application of Expressed Sequence Tags of European Flounder (Platichthys flesus) Liver RNA

Zheng Ye¹, Brett Lyons², Gareth J.S. Jenkins¹, James Harvey³, James M. Parry^1*

1Centre for Molecular Genetics and Toxicology

University of Wales Swansea, Singleton Park, Swansea SA2 8PP, UK

^{2Centre for Environment, Fisheries and Aquaculture Science

Lowestoft Lab., Parkefield Road, Suffolk, NR33 OHT, UK
^{3Smithkline Beecham Laboratories, The Frythe, Welwyn

Hertfordshire AL6 9AR, UK

*corresponding author

e-mail: JMP@swansea.ac.uk

Tel. No. (44) 1792 205678

Fax. No. (44) 1792 295447

Abstract:

We report here the identification of a number of expressed genes in the
liver of the fish the European flounder. The aim of the study was to generate DNA sequence
data which are currently not available in the species and which may be used to analyse
mutational changes in flounder induced by environmental chemicals. A cDNA library of
European flounder liver was constructed in l TriplEx2. The
number of clones in this library is about 6´ 10⁷.
Two hundred and twelve clones were randomly selected and of these, 50 clones were
sequenced. These sequences were compared with those in the EMBL and EST databases. Thirty
one clones were found to encode 14 different genes, 4 unidentified sequences and 11
different ESTs respectively. Five of 14 genes had not been previously reported in fish.
Furthermore, there is a very high homology between the European flounder and Japanese
flounder in the genes identified.

Keywords: expressed sequence tags, Platichthys flesus, DNA sequence, cDNA
library,

clone, database

Abbreviations: EMBL, European Molecular Biology Laboratory sequence database;
dbEST, EST database; NMDA, N-methyl-D-aspartate receptor

Introduction:

The discovery of novel genes suitable for mutation analyses has
traditionally been a laborious task requiring months or even years of work at the bench.
However, in the current era of large scale genome sequencing, identifying suitable genes
for mutational analyses can be reduced to the few minutes it takes to perform a
computer-driven search of sequence databases (Tilghman, 1996). The database with the
highest rate of growth has been a division of Genbank called dbEST (Boguski et al, 1993).
This database is based upon expressed sequence tags, or short sequences, which are a few
hundred base pairs in length, which are derived by partial, single pass sequencing of the
inserts of randomly selected cDNA clones (Adams et al, 1991). It is a powerful strategy
for identifying new genes and determining the pattern of gene expression in a particular
tissue or cell. Information from expressed sequence tags has also been used in many other
applications, including mapping of genomes, and the identification of coding regions in
genomic sequences. This approach to cDNA characterization facilitates the tagging of genes
at a fraction of the cost of complete genomic sequencing providing new genetic markers,
and serving as a resource in diverse biological research fields.

ESTs are also a rapid and efficient way of establishing a detailed
profile of the genes expressed in a tissue or cell type. A typical mammalian cell contains
between 10,000 and 30,000 unique mRNA sequences. A large number of human cDNA clones
expressed in various organs, tissues, and cells have been sequenced. Nearly 75% of the
reported ESTs were derived from human cDNAs. However, only 0.03% ESTs in dbEST are from
fish. Some of these genes had not previously been described in fish (Sadao et al, 1997;
Ikuo and Takashi, 1997).

Fish are useful models for mutational analysis, and the identification
of mutagenic chemicals in the aquatic environment (Powers, 1989; Sueiro et al, 2000). The
European flounder (Platichthys flesus) is a common flatfish species of European
estuarine and coastal waters and is becoming increasing used as a sentinel species in both
field and laboratory based monitoring studies (Sueiro et al, 2000). However, there is a
paucity of gene sequence information for flounder when compared with many other animals
used for mutation analyses purposes such as mouse, Xenopus and Drosophia.

In this study, we have constructed cDNA library from RNA isolated from
European flounder liver, and determined the DNA sequences of a number of the clones.

Materials and Methods:

Construction of the cDNA library

Samples at the European flounder, Platichthys flesus, were
obtained from the Centre for Envieonment, Fisheries and Aquaculture Science (CEFAS),
Lowestoft. RNA was isolated from liver using RNasy Midi kit (QIAGEN, Germany). cDNA
synthesis was performed using a cDNA synthesis kit (Clontech, USA) with an oligo (dT)
primer. The cDNA library was constructed in the l expression
vector l TriplEx2, according to the manufactorer’s
instruction (Clontech, USA).

Determining of DNA sequencing

Conversion of the recombinant l TriplEx2
into pTriplEx2 plasmids was carried out by in vivo excision and circularization
according to the manufactuer’s protocol (Clontech, USA). Recombinant plasmid DNA was
isolated by QIAprep Spin Miniprep kit (QIAGEN, Germany). Inserted fragments were amplified
by Advantage2 PCR Kit (Clontech, USA). 5’-primer: 5’-ctc ggg aag cgc gcc att gtg
ttg gt-3’; 3’-primer: 5’-ata cga ctc act ata ggg cga att ggc c-3’.
Then cDNA fragments were sequenced by MWG Biotech (Germany).

Data analysis

Sequence data were compared with EMBL including dbEST for
identification using the Fasta program (http://www.menu.hgmp.mrc.ac.uk,
access to fasta program). They were submitted to Genbank to obtain accession numbers.

Results and Discussion:

A cDNA libraries of 6´ 10⁷
clones was constructed from the polyadenylated fraction of European flounder liver RNA.
The number of clones in the constructed cDNA libraries were considered adequate to cover
the predominately expressed mRNA in the liver. We randomly chose 212 clones, amplified
these by PCR. From these, 50 clones (24%) with inserted cDNA were selected and sequenced
(for sequence data see Appendix 1). Thirty one of the sequenced clones were found to be
compatible with genes in the EMBL database: they encoded 14 different genes, 4
unidentified sequences and 11 different ESTs respectively (Table 1). Among them, two
clones were homologous to transcripts of uridine phosphorylase, and another two encoded
the fibrinogen alpha subunit. Five of 14 genes had not been previously reported in fish:
i.e. BE638437, ribosomal protein; BE638431, inter-alpha-trypsin inhibitor; BE638439,
N-methyl-D-aspartate receptor modulatory subunit; BE638446, cosmids QC5E3; BE638412,
Cytosolic glycoprotein FP21. Thirty one of the 50 clones (62%) could be putatively
identified: 23 corresponding to fully characterized mRNAs, 4 were homologous to ribosomal
protein, 4 were unknown transcripts of the genome. In addition, a summary of the
identified genes shows that there is a very high homology between European flounder and
Japanese flounder in the identified genes: BE638449, to ribosomal protein s26 (94%);
BE638459, to ribosomal protein s11 (96%); BE638460, to translational regulatory factor
(95%). During our database similarity searching, we found several different clones
encoding different sections of the same genes: BE638420 and BE638451, Uridine
phosphorylase; BE638429 and BE638455, Fibrinogen alpha subunit; BE638428 and BE638439,
cloneLA10(4); BE638411 and BE638444, Embryo mouse EST39170; BE638440 and BE638454,
cloneLA6(9); BE638414 and BE638432, human EST2357681. This suggests that our cDNA library
was successfully constructed, and the results can be reproduced.

Sequences of 35 of these 50 clones (70%) had not previously been
reported in fish. These results suggest that EST analysis is a useful and powerful method
for isolating previously unreported genes from fish. These cloned ESTs can be used for
mutational studies, chromosome mapping, DNA probes for gene cloning, molecular DNA
markers, and for analysis of gene expressed in specific tissue or cells.

Current work in our laboratory includes extending the sequencing of
flounder cDNA clones, in an attempt to identify more genes expressed in the liver. We hope
to use these newly identified genes as targets for mutation detection in environmental
biomonitoring studies. We routinely employ a genotypic mutation test in our laboratory,
named the Restrition Site Mutation (RSM) assay. This assay detects mutation in DNA
sequences, specifically at restriction sites (Sueiro et al, 2000). This assay has been
employed in our laboratory to study mutation induction in flounder livers. Through the
provision of new sequence data, more mutational targets are now available in flounder. An
example of the range of restriction sites suitable for use in RSM analysis is shown in
Table 2 for BE638418, which is homologous with human EST2112059. In addition, we
ultimately hope to employ this library of flounder liver genes in differential display
experiments examining regulation of genes in fish to environmental pollution.

Table 1. Similarity searches for European flounder liver cDNA:

Accession number
Genes
Closes species (accession
number)
Homology (%)
Sequence length(bp)

BE638420
BE638451
BE638425
BE638449
BE638459
BE638429
BE638455
BE638460
BE638428
BE638440
BE638454
BE638456
BE638438
BE638443
BE638452
BE638437
BE638411
BE638444
BE638447
BE638419
BE638431
BE638439
BE638446
BE638414
BE638418
BE638422
BE638430
BE638432
BE638450
BE638445
BE638412
BE638413
BE638415
BE638416
BE638417
BE638421
BE638423
BE638424
BE638426
BE638427
BE638433
BE638434
BE638435
BE638436
BE638441
BE638442
BE638448
BE638453
BE638457
BE638458
Uridine phosphorylaseUridine phosphorylase
Ribosomal protein L23
Ribosomal protein S26
Ribosomal protein S11
Fibrinogen alpha subunit
Fibrinogen alpha subunit
Translational regulatory factor
Clone LA10(4)
Clone LA6(9)
Clone LA6(9)
Clone LE2(8)
Trypsin III
Regulatory plasma protein
Unknown gene
Ribosomal protein
Embryo mouseEST391700
Embryo mouseEST391700
MouseEST1380050
Embryo ratEST203632
Inter-alpha-trypsin inhibitor
NMDA receptor subunit
Cosmids QC5E3
Human EST2357681
Human EST2112059
Human EST182168
Human EST1700882
Human EST2357681
Human EST2263551
EST1014
Cytosolic glycoprotein FP21
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Unidentified
Japanese flounder(C23419)Japanese
flounder(C23419)
Japanese flounder(AU050130)
Japanese flounder(AU050348)
Japanese flounder(AU050271)
Japanese flounder(C23293)
Japanese flounder(C23291)
Japanese flounder(C821617)
Japanese flounder(C23127)
Japanese flounder(C23374)
Japanese flounder(C23374)
Japanese flounder(C23353)
Atlanic Salmon(x70074)
Sand bass(L21703)
Zebrafish(AI049183)
Mouse(AI049183)
Mouse(MM10434)
Mouse(W77104)
Mouse(AI049181)
Rat(AI009181)
Human(AC006254)
Human(AC006531)
Human(AF003627)
Human(AI806883)
Human(AI418527)
Human(hszz16562)
Human(AI049828)
Human(AI806883)
Human(AI683930)
Tilapia nilotica(AI001527)
Mould(DDU73686)
72
62
73
94
96
75
74
95
83
86
95
81
93
68
64
62
63
64
55
65
63
61
59
59
58
62
60
59
57
77
63
537
315
512
429
280
310
310
247
329
285
179
249
320
371
198
256
654
448
449
350
302
372
451
405
604
569
336
388
316
418
291
565
493
545
513
732
342
511
520
341
326
394
446
266
225
351
379
182
299
266

Table 2. The sequence of BE638418 can be used as RSM
analysis with HaeIII and TaqI restriction sites.

BE638418: 1-604bp

GGGGATTGGACAGGAACAACTAGAWCTTGAGTGAAGGTGCAGTAATGAAAAGTAGATTGTTTAAC

TTCATGTTCAACCATGAAAATTGTCATGGAAATTATTGAATCTAACTGTCCTCTTATAAAATATA

ACAGACCCTTCTGTCCTGACATAGCCATGCTCAAAGTTCATTTGGCTGACCTGAAAAACATCATT

                 Primer 1

TTATAAATTCCACGATGAGGATTCTGCCCCGTTTGGCCAAGTGCTTGCTTAGTAACTCTGTTTGT

                                  Hae III

TTATCTATTCTCTGTAAATTGTTTCTCTACCAATAATTAATTTACCTTTGATATCATTGAATTGA

TCACTCAGTCTGATGGTTTATTTCCTCACCTGGGAATTAAATACAAATTCCCACCACATAAATTA

TGCTTTCATGTGCGTTATATGAACCTTGACCCGTCTGAAAGTTAATAGTCACATGAAATTATTGC

AACTGAAACGTTGTTGCGGTTCAAAGGTTTTATGACACCTCAGTTTTTTCATTATACTCATATAT

         Primer 2

ACATCGACATTTTTCTCAAGGTACTGAAGCAATAGAACAAATAAACAGATTGTGATTTAAATATA

   Taq I

AAATTTGATGAAAAAAACG

Acknowledgments:

The work described here was supported in part by a Natural
Environmental Research Council ROPA award.

References:

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Ikuo, H. and Takashi, A. (1997). Expressed sequence tags of medaka (Oryzias
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Powers, D.A. (1989). Fish as model systems. Science 246,
352-358.

Sadao, I., Bo-Hye, N., Ikuo, H. and Takashi, A. (1997). A survey of
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Sueiro, R.A., Jenkins, G.J.S., Lyons, B.P., Harvey, J.S. and Parry,
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European flounder (Platichthys Flesus)

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biologist’s eye view of the genome project. Genome Res. 6, 773-783.

Appendix 1. EST Sequence Data of European Flounder (Platichthys
flesus) Liver RNA

BE638411: 1-654bp

CGGGGGGGGAACTGACATGAAGATGACCTCCTACGAGATGTATAAAGACTATGGCATGGTGGCAG

TGAGCGGGCCGACCTGGGACCAGGTGCCACCCTTCCAGTGGAGCACTTCCCCTTACAAAGRNTTG

ATGCACATGGGTCACCCTGATACTTGGGCATTCAAGCCTATAAAAGTTAGCTGGACTTCCTAATA

GTTATTATGTTGTTATACTATGTGTTCAAGTAGCATGGACAAAACTGTCAGCTGTGCTGTTTTAA

GTTTTGAAAAAGGGAAACAATACTTTGGTTTTATGTTTTTTTCTGAACAGAGGACAAGTCCTGTT

TAATTTGGAGTATTGAACTCTTTGCAACATAACCACAATTCTCACAATCTTACTAAAATGGTGTA

TTATATCAGATTTTGTGTTTTTAAGATGTTGATTTCTAATGCGAAATGTGTGAAAATGAAACAAC

TGCCTATCTGCTGGTTTAGAAATGTATTTGATAGGTGGAAGCACAACATGCTTTGGAGTATCAAT

ACTGATGTTGACGCACATGCAGACTTTCTGTCTCACCAACAGCAATTGAGTTAAATGATTTTGAG

TAATTCTGTTGTGATGCTTTATTTTAATGATCTATTATGAAAACTATTTTCTAAATAAACAGTGC

CCTG

BE638412: 1-291bp

GGGGGGCAAAAACTTACTCAAGTAAATCATGTGATCTTAAAGAAGATGAAATATATTTATCACAA

TTATTCATTTCCTTTGAAGCTGTGCACTTAGTATCTCAGAATTTATTTCTATGATCACTTCTATG

GATTCATGTTTTTATTTTAATGTTTTATTTGTTTTAAATAAACTTGACAGGATGAATTGTTGATG

TCGTTCCAATCGAACCGGTGAGTTTGTGCCAACGACCATAAGCACATGTAAAATGGTCCAGATGA

TTTAATAAAAATTAGGTTCAACTTGTGCAAT

BE638413: 1-565bp

GGGGGGGTTCACTTTTTACAGAATACCTATTATAGAATGGAAATATTTATATACACAAATGAATA

TGTTAACAAAACAATGCAACATTTTGAGCTTTTGAACACCGAGAAATGACAAATACTTGGTGCTT

GTAGCCAAAGATGGTTTTATATTGTAACACGCGGCTCTCAAGCTTCAGAAAAGTCCAGTGTAAAT

CATCGCTTCTCTCGTTTTATTTATGTATCCTTCTATGATTTTTGTTGTGTTTGTTTAAGGATTTC

TGATTCCCGATCGAGGTATTTTTTAACGGACAAGTTTTGATCAACAGCAGGAGAAATATTTAGTG

AACGCATCAACCTCGGTCCCCGCTTTTCCATGTGTATTTTCCGTGGCTGCTGTGGTGTAAGCTAC

ATGAAGGGTTACTTTTGTCATGTTAAGTGATTTCTTCACTGTAGGTGATCATGCCAAAATAACAA

CTGACTACCTACTGCTTTGAAATGCCTTTAACTTTGGAACAGGTCCCACAGTTTAAATAACAGAC

ACTACATCAAATATGCATTTTTCCAGTAATAAAATCTCTGTGCTATTTT

BE638414: 1-405bp

GGGGGACAGAAGACTGAGACTAGAGGTAGGTCCAAGACTCCAGAAATTCGTTGCTTGTCTGGATT

CGAGTTGGAAAAATGTCACAAAATACTAACTCCGGAGTTGGGCCCAACAGTAACCAGGGCACCAT

GAGTGGCAACACCATTAACCCGGTAAACAGTGGAACCATTGGATCAGGGAATACCATAAACACTG

GACAGCAAGGCCACGTGGGAATTGGAAACGTGACAGATATTAATGTCGGAACCAACACAGGACTC

ATTGGTTCAGGATGCAATGCGATCAACAAATGAGAAATCTGCCCTCCGACAGAGTAACTCAAATG

TTGTTCACAAAGTATTAAAGATGGAGGTCATCATTGATTTGAGAAGTATTGATGATAATAAAAAC

AACATATAATATCTG

BE638415: 1-493bp

GGGTGCAAGCAAAGAATAGTGTAATTAATTAAACAAGGGTTGAAAATTAGACACACTCATCTTCA

GACAGACACATACATTGATATAGTTGGTCTTTTTGATTTCTTTTATTAGAAAATTGTGGTAAAAG

TAGTGATTTCTCCTTTTTTTACAATAATGGCGTATTTCTACTGTTCCTTTTTAATGTATCAAAAC

AGAAATGTTGATTCTGGATGTCAGTTAGAAACGTCATTGTGCTATGATGACACTGCATGGTTTGA

CAGATTGCAAGCGGCATATATGTAGCAGAACTTTGTTGATCATGTTTTAATTTTCAGCCATGTCG

TTATGTCCAGGTTAATCTTTTGACTTTTGGTTCTTCTCTCAGGTTGATATGGTAACCTTTTTTTT

TCTACTGTGTGTTTGATTTATGTTTTCAGTCATTTTTAAAGGCAAAAAAATTTGTATCCTGGAAT

TCACTTACAAACATAATAAACATACTTGTGGTTAAATG

BE638416: 1-545bp

GGGAGGGACAGGAACTCAATGTGACCAGAGGCTGGCAGAGAGACTTCAGGAGGAATGTGAAGGAC

GGAGAAAAGGTTCCCTGCTGGTTCATTCACAGTAACGGAACAGGCCTCATCGACGGAGATGCAGC

AGATTACATTGTGTCAGGACTTTTCAAAACCGCTTAAACGCAGGTTACATATCAGTGTCAAACAC

AGAAACCATCACAGTGATAAAAAAAGTTATTAAAAAAGTACCTGCACAGTCATATACTCAAAGAC

AAACAGGTGTTCTGACTTTGATCTTCTAAAAATATATGAATGGAAAGTAAAATAATCCCAAAACA

GTGACAAGAACTGGGAGACATGCTCATTTGTCGTGGAAGACATGGAATACACTGTTCTTGAAGAT

GGACTAAAGCAAAAATGTCTATTAGTTAAACTTCTGTTTTTAAGTCTTGGGATCCAAACAGTTTC

TATCCAGGGAAACCTTGGTGAAAAGGTTTATTACAGTTCATGTAAAGTCTACTAAAAGCATGGCA

CCTAATAAATTTGTATTTCTATGGC

BE638417: 1-513bp

GGGGGAGAAAGGATTCTATGTCAAGCTGCCGACCMATGAGAACGGACACCGGCATCACAGTGACT

TAGTTCACAGCAGAGGCGGCAGTCTGCAACAAACCAAACGCCTCAGGATATAAAGCCTTGCATAT

TTGCAGAACTTGTTAAGCAACTGATTACAGCTGTCATAAATTCCGGAGGTGAAAGGTTCTTTAGC

CTTTGAGCAAAGTATTAATATGTTAATAATGATGTTCTGAATGTCTTTGAGATTGCAGTGTCCTC

AGGTATATTTTAATTGTACTAGGAATCAAGCTGCTTATTCAGCACAGCACGTCAAATATAGTTTA

ACTGTGGTACAACGACTTTATTGTGTCATTTATCATGCTACATGAAATGTATTTTGCATAATTTT

TTTAATTTTTGGCAACAATTATTTGACCGTGAAGTGAATCATGATTTTAAAAATGTCCTTTGTGT

GTAAAACATGCTTTTTTTTGTCAGTGTGGCTTTTGAATTAAAACAAATGTTATCTCAT

BE638418: 1-604bp

GGGGATTGGACAGGAACAACTAGAWCTTGAGTGAAGGTGCAGTAATGAAAAGTAGATTGTTTAAC

TTCATGTTCAACCATGAAAATTGTCATGGAAATTATTGAATCTAACTGTCCTCTTATAAAATATA

ACAGACCCTTCTGTCCTGACATAGCCATGCTCAAAGTTCATTTGGCTGACCTGAAAAACATCATT

TTATAAATTCCACGATGAGGATTCTGCCCCGTTTGGCCAAGTGCTTGCTTAGTAACTCTGTTTGT

TTATCTATTCTCTGTAAATTGTTTCTCTACCAATAATTAATTTACCTTTGATATCATTGAATTGA

TCACTCAGTCTGATGGTTTATTTCCTCACCTGGGAATTAAATACAAATTCCCACCACATAAATTA

TGCTTTCATGTGCGTTATATGAACCTTGACCCGTCTGAAAGTTAATAGTCACATGAAATTATTGC

AACTGAAACGTTGTTGCGGTTCAAAGGTTTTATGACACCTCAGTTTTTTCATTATACTCATATAT

ACATCGACATTTTTCTCAAGGTACTGAAGCAATAGAACAAATAAACAGATTGTGATTTAAATATA

AAATTTGATGAAAAAAACG

BE638419: 1-350bp

GGGAATGAAAAGTGCACTTATATTTTGTTTGCCTTTTTGCATATTATAGATTTTGAGTATTGTAG

TGTGAACGTTTAACTTGGATTATTTCTATTAACAGTAGACTGTCAGTATTTGAGGCTAATACTAG

GACTGAGTGACAGTTTCCCCTGAGGTACTTTGAACCATACCAGAGTTCTTATGAGACACTTGTAT

GTCTTGTTATGTTGATCTTATTGACTTGCTTCTGTTGTGTTTGCTATGTACACTGAAGATACGGC

TTGTCAAAATACTTTCCCTTCAAAAAATCCGGTGTATCAGACTACATGCAATAAATATCGATGCA

AATACAAGGCAACAGCTTAAAACAC

BE638420: 1-537bp

GGGGTACTGTATAACATGTTAATATGTGTATTAGACACCTATTTTATAAACTATTAAGATTTCTA

TGATTTATTTGATGATATTGACTTCATGTTGATTTTCAAGCTTGACTCTTGAATTTTCCTCTAGT

TGGTTTGACTCCAGATGATTTGAACATTTGGGTTAAGAATCTGCATATTGGTTTGTAGTCTCTTA

GAGAGTTGTTTTCCCCGTTATATGCTCATTAGATGAGAAACACTTGTATTCCTTAGTGATTTTCA

CTTAAAAATGAGAAGAGTAAAGGGACATTCCTGTAATTTGAACGTGTTGTTAAATACTCAGTAAA

GATTGTGCAATATAAGCTTGTTGATGCAAATGTGAACTTACGGACTGACATAAGAGGTGAATAAA

CCTCTAATAAACATTGATAAATGTACAGGAAAGCATTTCAATGTGTTGGATATATATGTTTATTA

TGACTGTGGTACTGTACTTCTCAACAGGTGCTGTAGAGTATAAAACTAAATAAAAACAATAAAAG

TTAACAATGT

BE638421: 1-732bp

GGATGCACGTAAACAAATGTACATCCGGCCACACNCCACGTACGTGTCCTCGTGACTGACCGGCT

GTAGGTCGACCGGAACTGGACCCGAGTCAGAATTCCCAAGGGGAAACCATCTGCACCGACCGGTC

GTCTCCATACATTCAGCAGGGACTTCACACGTTGATAACCAGCATGGAGGAGGTGGGTTCACACT

GGGCTCAGGTTGTTTCTACATGAATCTGTCTTTGGATTGGACTGTGATGAAGTGTGATGAAGAAC

GTTCTTGTGCAAACATGACTGTGTTCAGAAATGTTTTTATTTTCCCATGCACACAGGGAAAACCT

GCAAGTGCAACAGGATACAGTACAATTGTCTTCTGGGTCATTGGTTTTTTAAAAGCAAATCCAAA

TTACACATATACAATCATGATTTTCCCTTTTTATCACATGTGCAACTTAAGTGTTCCGTGAAGTG

CCGGTCTCAGTTCCTTAAGAAAACAAAGGAGATCATGTTGTCGTCACACAGGTGGGATCTCAACA

GATCTCAAGGGAAAAAGAAAATCCCCCTGAAGACGTTCAGAATATCAGCAATCTGTGAAGTTACA

GTTATTACCTCCACCTATGTTTTCATTGATGTTTGTTAATTGAAGTTTTTTTTTCACTTTCTTTT

ACATTTTTGTGAAATAATCATTTCGGAGGGAAATATTATGAACACTTTCTGTAATATTCAAACTA

TTTTTTCTGTCACACAG

BE638422: 1-569bp

GGGGGGGTTCACTTTTTACAGAATACCTATTATRgAATGGAAATATTTATATACACAAATGAATA

TGTTAACAAAACAATGCAACATTTTGAGCTTTTGAACACCGAGAAATGACAAATACTTGGTGCTT

GTAGCCAAAGATGGTTTTATATTGTAACACGCGGCTCTCAAGCTTCAGAAAAGTCCAGTGTAAAT

CATCGCTTCTCTCGTTTTATTTATGTATCCTTCTATGATTTTTGTTGTGTTTGTTTAAGGATTTC

TGATTCCCGATCGAGGTATTTTTTAACGGACAAGTTTTGATCAACAGCAGGAGAAATATTTAGTG

AACGCATCAACCTCGGTCCCCGCTTTTCCATGTGTATTTTCCGTGGCTGCTGTGGTGTAAGCTAC

ATGAAGGGTTACTTTTGTCATGTTAAGTGATTTCTTCACTGTAGGTGATCATGCCAAAATAACAA

CTGACTACCTACTGCTTTGAAATGCCTTTAACTTTGGAACAGGTCCCACAGTTTAAATAACAGAC

ACTACATCAAATATGCATTTTTCCAGTAATAAAATCTCTGTGCTATTTT

BE638423: 1-342bp

GGGGTGACCAATAAAAAGACTGAAATTGAAATTCNCTTACCCTTCCGTTGGAAGTCTTTCAGCAA

CTGGCCAATGTGATCAAGTCAGTGAATCATGGATTTCTTCATCAAGGCNACGACATTTATGTCCT

GATAAAAAAAATGACTTTTTGTACATTGCCAATAAATATTAGTTTAAAGGAATTTTAGTTCTTAT

GAAATATACTCAAGTTATTCTGAAGTGATATTGCTTTATACTTGACAATTTATACCGTTATGCCC

AATTAATGTTTAGCATGTTTTGAAAGATTGTTTGATGATGGCGGTCAGTTAAACAATAAATAAAA

CAAATGTTTGCATTTC

BE638424: 1-511bp

GGGAGCTGATCAAACTGGAGGCGATGAAGACTTATCTCTTTTTTTTGTTTATATAACAAAGCATG

AGGACGGTGTCAGAGAGCAAGTTATTTCTGAACACTCACCAGACATGACTCGGGTGGAAACCTCT

GCGTAAACAATCAACGTCAAGATCTACAATAGGACAAACCATTGAATCTGTACATAATGTCAATA

ATGTAGCTGATATAAATGAGCTTTGTATAGTATTCTATATGGTGTTGACTGATGCTGTGTATTTA

TGCAATGATCAAATGATCTCTGTATATCTTAATTTGATCATTATTATATTACCCATGACTTGTAT

AACCCTTATGTATTTAAGATACACATTTTTGTACAGTGCATCTTGTTGTCGGTTTTACAGTGCGA

GTGTCTTAATCGCTCAGTTATCATCCAACATGTATCAACGTATGAAGTGATTTATTTTGTTCTAC

CGATGCGCGATGGGGACATTTCAATAAAGAGAAACATTATTTAAAATGACATTCT

BE638425: 1-512bp

GGGGATGATGTGTTAAAGGTCCAGWGTGTAAGWNTTACCTTTTTAGAATAGGCCTTTTATATTTA

ACCACTTTATTTTAAGAAGGAAGTGGAGGGTGAGGTGAGGGGTATCCACCTGCAACATGCAGCTT

AACCACTAGATGTCACTAAATTCTACACACTGAACCTTTAAATACTGGAATCATGTTATCTTGTA

AATTCAGAGATATATATTTTAAATCTGAGGTTTTTATATATATGCATATATATTTATGTAAAACC

TTAAATGATGTCATCTTTAATCATGTTTATATTTTATGATTCTGCTGTGTGGGCATCGTTGGGTT

GCTTCTATCTAATTTAATTTGTACAAATCTATATCTATTCAATCTATTGAGATTTAAAAGAACAT

TTGTATATTTTGTTTAATTATCTCAACCTTCCCTGGTAACGTAATGATTTTTTGTTTTGAATGAC

TTTTACATGCTTCTGTAAAATGTAATATTTGTCTGTTCAATAAACTGGTAAAACTGG

BE638426: 1-520bp

GGGAGAGCTAAACAGATTATTTTANTGAAAGCTTNTTTGGAATCTATCAAAAATAATTCTTGGAA

GTCATGGTACTTACTGAAACTCCAAACCTGTGAAAAAAAAGGTCATCTACTTGGACGACTAATGT

TAAGTTAACTAAGTTATTTTATGTTTTGTTATTTTATGACAGTGTTTGTTTCCTTTTATCAGTGG

TGAATGTCCCATCAAACACAAACACACACACACATGGGTTGACTCGTTAAGTTATCAAAGGGAAG

TTATTCAGATGCTGTGCAGGTAATATTGCTGTTCCTTGCAGTGTAATGACCACACACCATTTTGA

GATTTCTGTTTCACAAATACTGTTCTGGTTTTGAATTACAGAGATGCTATCATATTTTTCATTAA

TATATATATATATACATATATATACACAGATTTTCTCTATTTTTTTCTTAGAAAAAGATGGTCAC

TGTTTCCAATATAATAAGAACTTGGATGCTTATTTGTCCAGTAGTTAAATAAACTGCGTCAAG

BE638427: 1-341bp

GGGGCTGTACATGAATATTTAAAGCGAACAAAGCNTTCAGTTTAACATCTTAGTCCGATCCTCGA

CATTCTTCACATGTTGTTTTTTGTGTTTGTTTTATATAGCGACTTCGGTGTAGTGTGAGACCACC

ATCGTAATGGAAACCAGTGGAACTTGTTTTACTGGTCCAAGTGACAAAACCATGTTTACTAAAAA

CACTGAATGATCCTGAAGCACAAAGGTTGTTAATAATCCTAAATGCTTGTGTTCTATAAGTGTAG

CAGCTTGGTTGTGTCTCCAATCTATGTGTTGTGTTGTGTGTGTGTCTTGATCCAGTTTAGAAATA

AAACATTCATATCAC

BE638428: 1-329bp

CGGGGAACGAGGAGAAACCGGATGTAACAAGGGCAGAGAAGAAATAGGCTGCCTGAGGAAATACA

TAGAAATCCATTCCGTGTTTCAAATACAAGTTTGTCTTTAAATAATTACAGCATGAATTTATGAT

TAGGTGAGTTATTGTTGATGTTAAAGCATTTTGTTCACAACACCCCTCTAATGTCCCCTGAGGTC

CTGTGTTGACAAATCCTCCTCAGTAATAAGTAATTTGCCGCTGGACAAAAGATGGCAAGAGATTT

TTTTGTGATGTAATTGAGTATTAAACATCCTCATGTGTAGGTACTTGAATAAACGTGTGATTAAA

AGAG

BE638429: 1-310bp

CGGGGGAGCAAGAAAAAAATTGTTGAATATCAAATATATAATTTTCTTGACATTCAGAATAAAAG

AGGAAAGAAGATGTACGAGGGTCAAAACATATTTGAGGACAAAAATCAAAGGTGGTTTCATCGAT

CTGTTTGACGTGATTGTGAAATCCCACAATAATTTACGACCAGTGTCTGTGTTTCTTCACTTGTG

TATTTGTCGACCCACTGTGTAAACATGTGTAACCTGTTTGTTAGTCCATGGAAAAACCTGATGTT

CTCCGTGCTGCTGAACTCTGCTCGATCAATAAAGATTCAATGTTCACTCC

BE638430: 1-336bp

CGGGGGGGAGGTGTACACGTAATAACAGACACAAAGGAGTTGAGTTAAAGTTTGATTTCTTCTGT

ATTTCATTTGTAAACAGAATATGGGTTAAAAAAAGGAGAAACACATTTGATGATATTTTGATGCT

TATGAGGGATATTCATTCATTACAAAATATTTTTGGTGTTTTTGTGATTGAACCGTATTCTATAA

TATAAACCATTTACAATGCATTATGTATGCACAGGACATTTAGTGTGAAATATTTGATGACGATA

ATGCATTTACAGCAGTACTCAGAAATACACTTTAATGTTCGCATTTCATGTGGCACTTAATAAAA

TCGCACAACCC

BE638431: 1-302bp

CGGGGATGATATGATTCCTTCTTTAGCTCATCTGCTAAATCTGGTCAAAATTATTCAGTAAGTGT

TGTTGTGGAAATATTCTGATGTCACGCCGCTATAGAAAAACTGTTTAGTTCAGATCTGCGGGGCA

TTTCTTATATTGGCAAAAAAAATTACAAACAAAATGAGAAGCCTTTGTTCTGCAAAATTTGTCTA

TTTGGAGAGCATTCAAATTCTGAAAACCTGGATGTGTTTGGAAATTTGTGAATTTGCATTGTTTT

TCCATCACTGTATACAATTTTGCTTCAATAAACAGTTGTCAT

BE638432: 1-388bp

CGGGGGACAGAAGACTGAGACTAGAGAAATTCGTTGCTTGTCTGGATTCGAGTTGGAAAAATGTC

ACAAAATACTAACTCCGGAGTTGGGCCCAACAGTAACCAGGGCACCATGAGTGGCAACACCATTA

ACCCGGTAAACAGTGGAACCATTGGATCAGGGAATACCATAAACACTGGACAGCAAGGCCACGTG

GGAATTGGAAACGTGACAGATATTAATGTCGGAACCAACACAGGACTCATTGGTTCAGGATGCAA

TGCGATCAACAAATGAGAAATCTGCCCTCCGACAGAGTAACTCAAATGTTGTTCACAAAGTATTA

AAGATGGAGGTCATCATTGATTTGAGAAGTATTGATGATAATAAAAACAACATATAATATCTG

BE638433: 1-326bp

CGGGGAGATTGTGTGGTGCTATTGTTCTGATAATGAAAGATTCAAAACATAATTTATCACTTTTA

TTCAGTGCTGAAGAAAAAATTCTAATTTCTTTAGTTTGACTAAATTGGCATGAGCAGGATCAAAC

TGAGCTGAAGATACAAAGATCAGATGTTCGTGTTCGGGTTAGAAACTCGACAAACCAGTTTGAAT

ACAACAAAGATTTAAGATGGAAAATATTGAGAATAAAACTTTCTAGGTTCTGACACTTTGACTGA

ATCTGCTGTTTGTAAATATCTTTTTTTCAAGCTGAAGTGAAACATTTGAATAAAACTTTATATCC

BE638434: 1-394bp

CGGGGAAACATATTCCATGTGTTTGGCGGGATTGGAGCGTGGCTGTTCGTTGCTTCAATCGCACA

ATCACTCATACCCGCTGCTGTCACAGAGATGACCATTATAGGCGTTATTGCACCTAAGGTACAGC

GAGGGAGCTCCTCCTTCCTGTTGGATGACTCATCAACGACTGACAACCAAAGCCGAGCAGGAAAC

TGATGAAATCCCTGCAGCAGAAAACAACAGTGGATTCTTTTTTAACCAGATGTATTTCAAAGATC

CTCACAGTGTTGGAGCTTGGTGCTGTTTGACAGCCGGTATCTTCATAACTGGAGCACATGATCAA

TACTACTTATACACTGTGCTGGTGTATGGCTACAGTAGTTTGAATAAAATGTCCACTATACATTC

CAAC

BE638435: 1-446bp

CGAGGACTCAAATAAATCCAATAACCCCCTTAAAAAACATTTTATCAACCAAAGATGTTAAAAAA

AAATTGTTTTGCTCTATCTTGTAATTTTTGTGTGACAGATTTTTCTTGCAGGGTCTCAAATAATT

GAGTTTACCCAAATAATGAAGGGGAACGTGATGGATGAATAGTTTATTGTGTTTAAAAAGTGTTT

TACTTTGAAACTTAATTAGAGTTTTTTTGATTAGAAGTAGTCAAATATTATCACTGCCTTTGACT

TTGCTGTGAGAGATAGTTTGTGATTAACAGCATCAGAGAGGTAGAATGTTTGAGTAGGTTCATGT

AGAAATAAAATCATTTCAGAACATTCTTACTGTTATATAATTATTTTAAGACGTTAATGTTAACA

TTTTATACATTTCATTGCTGATACAATTATTGGAATTCTTTTGCATGTCATTAAAGTTT

BE638436: 1-266bp

CGGGGGCCGAGGACATCAAGGACCGTTTGGAGAGCACAGCTGAAGAGATGAAGAGCACCCTGGAA

GAGAAGATGGAGGAGGTGCGCACCTGGTTCAAGCCCTATGTCTCCATGTTCACAGCATAACCTGT

CATCAGAGAGTCCGGACTGACTGTTGATGCACATGTAAAGAGGGATTAATAACTGAAGTTGATAA

GCTAGGAAGACGTTTTTGTGTCATGACTGATGTCGTCCAATAAAAACCAGCTGCTTAAAACCTGA

GTAAAC

BE638437: 1-256bp

CGGGGGAGCAGAAGTTGCTCTTGTGGGTGAACAGATGGACGGAGAGGGGGGGGTCAAACTTTCCC

GATGGGCCCTTAGTTTTCAGCACTTATCTATTCCTTCATTCTGAGAAGATGTGAGTGAAGCATCT

TCCTCTCAAAGTCAAGGATTCCCCCTCTTCTTAATAAATCTGCTTTTCTACATCACATCTTCTCC

GTGTAGTGTCTTTGTATTTTCATCAAACTGTGAAAACCTGATTAAATTTGAATGTGACACT

BE638438: 1-320bp

CGGGCACCTCCAACATGTTCTGTGCTGGATTCCTCGAGGGAGGCAAGGACTCCTACCAGGGAGAC

TCCGGTGGCCCCGTGGTGTGCAACGGTGTGCTGCAGGGTGTGGTGTCCTGGGGCTACGGCTGTGC

CCAGAGGAACAAGCCTGGAGTCTACGCCAAGGTCTGCAACTACAGCTCCTGGATCCGCAGCACCA

TGTCCTCCAACTAAACAAAGTCCTGCATTACAATGGATGAAAACAGTTTATAATAATAACATGTG

ACCAATAGAGCCAGAGTCACAGTGTAAACATTCTGAAGTGATGTGTAATAAAAATATACG

BE638439: 1-372bp

CGGGGGAAGATATTTTAACTTGAACTATGCCATTTATTAATTATACTGTCCTCGACCCAAAGGGA

CAACGCTAATTACCTCACTTCCAATCGTTAAATAATGCAGTGTTTGTATTCAGTGAACCGCAGTG

AACCGCCCTGAAAGTCATCTCAGTGTCTTCTGCTGCCGGTTGAACGTTGAGTTGTTGTTAGTTTG

CACAGTGATCGTCTGAACTCTTGCGTAAGACTCAGGGCAATCGCACAAACACACTAATGATCAAC

CTGTTTGCTATTATAGCACTGTGCACAGTGCACAATCTGCAGCAGTCAGTCTGTTTAGAAAGTGA

CCTGAATCATTTGCCATTTTAACTACTCTAATAAAAACCGTTAATAGC

BE638440: 1-285bp

CGAGAACGTACAGCCCATGGTAGAGAACTTCCAGAAGCAGATGGAGGACCTCGTCAAGAGGCTGA

TGGATCAGACCCGTAGCGTCGCCCAGTAAGCAAGCCGTCCTTCCAAAGGAACGTGCAAACGTGCC

ACCACAACATCATCTTCTCCATCAAGGACTGAGCTCATGGGGCGGCTTGCATTCAAGGCTGGCCA

GACAGCGCCACGGCTTAAAATGTGTTTCAGTGCTTGTCAACACTGATATTTAATTTCTTTGTCCA

GAAGCACAATTAAAAACCTTGGAAC

BE638441: 1-225bp

CGGCGTATCACAAAGTGTTCTGTACAGTTGCTGGGTAAATCGACGAACATATCCATCAGACCAAC

TGTGTTGTGTGGTTCCCAGATTCTTTGCTGTAAGTTAAACCAATGAAATGAATGCGAGTGTCACC

TTTAAAATAACCTACATTACTTACCACCATGATTAGTTCATATTGAATATTGGTTTAAGACTTGC

ATTAAAATCTGTACAATAAAAACTTAAAGG

BE638442: 1-351bp

CGGGGGGAAAAAGTCATTGTCATGTAATTAACATGAGAGCTACTTAAATTCAGGATTTGGGTTTT

GAGCCTGTAATTGTGATTCAGGATTTACCCAGACTTTGCAGACTGTGGCGTTTTAGTTTTCACTA

TACGTAAAGATGAGTTTTAAGCTTTTCCTGATGAAAGATTCAACCACCGACATCAATTAATTGCT

AAATTCAGATCAGTAAAAAAGGCAGTAAGAAATTCTCTAGATGGTTGTTTCCCGGTGGGTGTCTC

TACTGAAATGGAATTCTCCAAGAATATACGTTTCCAGATGACATATCTCCCCCAGCTAAAAAAAC

AAAACACTCTTCTGTGCCTTTTTTGTACAAGAACTGGAAAATACAAGAGACTTTTATCTGAAATA

ATCTGTTTTTCTGGTTTGGATTTAAGACTAAATGACTCCTTGTTCACATGTAGAAAGAGAT

BE638443: 1-371bp

CGGGGACAACGGATGAAATTGGGGGATGAGGTTAGATATGGATGCAAATCAGGCTACTGGAAGAC

GGGTGGTTCCACCTGGGCCAGGTGCACCAGGGAGGGCTGGAAACCAGATCCATTGTGTCAAGCTG

CTCCAGACCAGTGATCCTGATTTTCAACGTCGTTCAACGAAGTGAAAAGAATAATTCATTAAAAT

GTGTTGTTTGTTCTGATTTAGGAGAAAGAAAACCATGTTTTGTTTTTCATACCAACGTCATGAGA

TCCTGCTACATGCAACCACTGGAGTGTCCATGTGTCCCACTGGGAACATGCGATAACGTGATCTG

ATGTTGTGAAGCTTGTGTTGAATAAAAGAGGTGAATTATAAGATCTAAG

BE638444: 1-448bp

CGGGGGGGGAACTGACATGAAGATGACCTCCTACGAGATGTATAAAGACTATGGCATGGTGGCAG

TGAGCGGGCCGACCTGGGACCAGGTGCCACCCTTCCAGTGGAGCACTTCCCCTTACAAAGACTTG

ATGCACATGGGTCACCCTGATACTTGGGCATTCAAGCCTATAAAAGTTAGCTGGACTTCCTAATA

GTTATTATGTTGTTATACTATGTGTTCAAGTAGCATGGACAAAACTGTCAGCTGTGCTGTTTTAA

GTTTTGAAAAAGGGAAACAATACTTTGGTTTTATGTTTTTTTCTGAACAGAGGACAAGTCCTGTT

TAATTTGGAGTATTGAACTCTTTGCAACATAACCACAATTCTCACAATCTTACTAAAATGGTGTA

TTATATCAGATTTTGTGTTTTTAAGATGTTGATTTCTAATGCGAAATGTGTGAAAATGAAA

BE638445: 1-418bp

CGGGGGGCAGTGAAGGAAATGATGGGGATTGGTAGAAAGAAGGCAGGGATTTGTTGGAATACAAA

GGTTACATTCCATTTATTTTCAGTTGCTTAACTTTATACTCTTTATTTTGTTCTGTTTTTGGGTG

AACTGCTCTTGTATTTTTGTTTTCACTTTTGAGGTATAGAAAATGTTGAACTAAAGAGCACACAA

CCTTGTTGCTGTTTTGTATAATATGGCAGTAAGAAAATCCCACATGTTTATCTTGTTTCTACCTT

TTCAAATTTTTCTTTCAGAACTTGCCTAAACTGCATGTTGATACGTAGTTTCTCGAGATGCAAGA

AGGGTTTTTGTCTTAGGGATTACCCTAGAGAATTTTTATTGGGAGAAATGTGTAATTTCATGTAG

GTGAAATAAACAAAACAAACTTCTGTTG

BE638446: 1-451bp

CGGGGAATCTGATGTCAGATCTGTTTTGATATTGTCGTCACCATGGTAGCAGAGAATCTGATTTT

CCATTCGTGCTGTAATTTTATATGTCAACCTCTGAAATGATAAAACCTAATATTTATATTTTATA

TGAGCGACGTATATTAACCTCTACTGTTTTTTGTGTATTTATATAATTTGTGTAGCGCTTTGTGA

TGTAACCTCTTTGAAATCCACTGCAGGACATCAGCTCGATTCTTCTTTTACCTTTTGATACTTTT

CTTCACTTTCTGATCGATAATTAGAGGAATTATTTTATATAAATATAAATAAATGTACAATATTC

CTTTTTATAAACATTACATATCTATAATCTTTTCTATTCATTGCTTGTGCTTGAAAATTAGTCTT

TATCACAACTTTATCTGTATATTATTTGTATGTTAATTGTGTCATATTGAAAGTCATTTAT

BE638447: 1-449bp

CGGGGACTTCAAATTTTTTCTTTCAATTTCAAGCTTTATTTCGGTACATAATCCATTTCAGTTGA

ATTACAGTCTATTGTCACTGTTGTGAATTGTGAGCTCACGAACTCAATGCACAAGCGTTCTTGTT

AATGTGCGTTTACATTTTCATCGGATGTTTTAAACGGGTACATCAACCTGGGAAATGTGACTCCT

GCCATATATGAAGCCTTACAAATATTTCTTATTGAATGAATGTAAAACATTTTTTTAAGACCGAC

TACACCTCGAATCATCATTTAATATATACTAAATCCTCTAAGTGTTACTAAATTAACAATTTAGT

AGCACTAAGATGATTCCTTATAGCATTTTGTAGTATGAAATGTAATTTAAGTATTTATATTTGGG

TTTGACTCTTAAACTCGTTTTTGAGGAGTTTAAGAGTTTAAGTTAAAGTCAAGACATTA

BE638448: 1-379bp

TGGGGACGAAACAGTTTATTTTCTTTTAAACTAAAGCTAATATGATGCCATTAGAGTTTCTGTAG

AGAGATAAACATGAAAAATGGTGAAGGGGCAAAAACTTACTCAAGTAAATCATGTGATCTTAAAG

AAGATGAAATATATTTATCACAATTATTCATTTCCTTTGAAGCTGTGCACTTAGTATCTCAGAAT

TTATTTCTATGATCACTTCTATGGATTCATGTTTTTATTTTAATGTTTTATTTGTTTTAAATAAA

CTTGACAGGATGAATTGTTGATGTCGTTCCAATCGAACCGGTGAGTTTGTGCCAACGACCATAAG

CACATGTAAAATGGTCCAGATGATTTAATAAAAATTAGGTTCAACTTGTGCAAT

BE638449: 1-429bp

CGGGGCTCTTTCCAGCTTCCCGTGCAACATGACTAAGAAAAGGAGGAATAACGGTCGTGCCAAGA

AGGGCCGTGGGCACGTGCAGCCCATCCGCTGCACCAACTGTGCCCGCTGTGTCCCCAAGGACAAA

GCCATCAAGAAGTTTGTCATCAGGAACATAGTGGAGGCTGCTGCCGTGAGAGACATCTCAGAGGC

CAGTGTCTTTGACTCTTATGTTTTGCCCAAGCTCTATGTGAAGCTTCACTACTGTGTCAGCTGTG

CCATCCACAGTAAGGTGGTGAGGAACCGCTCCTGTGAGGCCAGGAAAGACCGAACCCCTCCACCC

AGATTCAGGCCCGCTGCTGGTGCACCAAGAGCTCCTCCAAAGCCCATGTAAAGCAGATTGTGAAG

ATGCTGTAACAGCCTAAAGAATAAACAAATCTTTACATA

BE638450: 1-316bp

CGGGGGCTGAAGCACGAAGATCTTTTCAGACCAATATTTGACCAAAAAGTAGAAAAATGTTTATCA

TAGAGGTTTTGAATGCTTTAAAATGTCCTTAAGGGGTCAAAACGTTCATTAACTGCTCAGCGTCTT

TCCATTGGGCTGAGATTTACTATGCATCATTCATCTGGCCGCTTATGTAATGTTTTAGAATTAAAT

TGTTTGATTCCGGGTGACATGTGAAATGTTGGACCAATAAATGCAACTGATATGATATTTGTCAAA

GGTGTATGCCGAGGTTGTTATTACAGTGCAATGAATAAATATTTTCAAACAC

BE638451: 1-315bp

CGGGAGATGAGAAACACTTGTATTCCTTAGTGATTTTCACTTAAAATATGAGAAGAGTAAAGGGAC

ATTCCTGTAATTTGAACGTGTTGTTAAATACTCAGAGTAAAGATTGTGCAATATAAGCTTGTTTAT

GCAAATGTGAACTTACGGACTGTGACATAAGAGGTGAATAAACCTCTAATAAACATTGATAAATGT

ACAGGAAAGTCATTTCAATGTGTTGGATATATATGTTTATTATGACTGTGGTACTGTACTTCTCAA

CAGGTGCTGTAGAGTATAAAACTAAATAAAAACAATAAAAGTTGACAATGC

BE638452: 1-198bp

CGGGGGGAGCCAGAACCCACAGTGCTATAACGGGTACGTCAGCTTGTCTTGGTCTGGGAACACTGG

CCTTCTTCACAAAAGTCAGCAAGGTGGAGGGATGGAGGCTTGTTGGACCACCCAAACTGTGAGGAT

CAAGATCACTGTAAAATAACGTATATGTTGTAAAAAGAGTTCATGAAATAAAGTTATTATGAAAAC

BE638453: 1-182bp

CGGGGTAGACGTGAAATTAGTCCAACTTTTTGTTTAGTATCTTCTATCCTATCCTATTTTTATAGA

TTTCTCTGTCTTGTCTTACCTTCTCTGACTAGTCTTGTGAACAGATTTTATATTATATGTTTCCCA

TGAATGTAATTGTAACTTTTTTAAAGAATAATAAAAACTCCCAAAAAATT

BE638454: 1-179bp

CGGGGGAACATGCAAACGTGCCACCACAACATCATCTTCTCCATCAAGGACTGAGCTCATGGAGCG

GCTTGCATTCAAGACTGGCCTGACAGCGCCACGGCTTAAAATGTGTTTCAGTGCTTGTCAACACTG

ATATTTATCTTCTTTGTCCTGAAGCACAATTAAAAACCTTGGAACAC

BE638455: 1-310bp

CGGGGGAGCAAGATGAAAATTGTTGAATATCAAATATATGATTTTCTTGACATTCAGAATAAAAGA

GGAAAGAAGATNTACGAGGGTCAAAACATATTTGAGGACAAAAATCAAAGGTGGTTTCATCGATCT

GTTTGACGTGATTGTGAAATCCCACAATAATTTACGACCAGTGTTTGTGTTTCTTCACTTGTGTAT

TTGTCGACCCACTGTGTAAACATGTGTAACCTGTTTGTTAGTTCATGGAAAAACCTGATGTTCTCC

GTGCTGCTGAACTCTGCTCGATCAATAAAGATTCAATGTTCACTTC

BE638456: 1-249bp

CGGGGATGCAAAAGCAATACTTTGTACTAGACGACCAGCAAATGTATTAACATTTCCACTTTCCTT

TGCTTTTTCACTGTATGTTARATTGACTGACACCTGACAGTTGTATTGTGTCAAATTACAGAACAA

CCTATGCAGTATTATAGTGCACTTAGTTATGCATAATCATTAAATCAAGCAAACTGCAAATAATGT

GTGTTGAACTACTTTGTTGTTTCCTAAAAACCTAATAAAGAAATGATGATTAAAAC

BE638457: 1-299bp

CGGGGTGAAACAAAAGACGTAATTTTACACTTCTGATATGTACGTAGAAGGAAAGGGTAAGAACTG

TGGCTAAAAATCACCATCAATATTAATTTACAATTAATAAAGTCTGAATATTAAGTATGTTATGTT

TTGATGTATTTCTATCATGCTTGTGTTTAAAGGTTTATGGCTTAATGTCCAAATCAATTTGTTTTC

TCATGTTTATTTACTAGTTTTATAAAAACATGTCCACTAACTGTGAATGTAATCGTTGAATAAATA

CTGAAATACTGAAAAATAAATCAATACTGAAAGAT

BE638458: 1-266bp

CGGGGGCCGAGGACATCAAGGACCGTTTGGAGAGCACAGCTGAAGAGATGAAGAGCACCCTGGAAG

AGAAGATGGAGGAGGTGCGCACCTGGTTCAAGCCCTATGTCTCCATGTTCACAGCATAACCTGTCA

TCAGAGAGTCCGGACTGACTGTTGATGCACATGTAAAGAGGGATTAATAACTGAAGTTGATAAGCT

AGGAAGACGTTTTTGTGTCATGACTGATGTCGTCCAATAAAAACCAGCTGCTTAAAACCTGAGTAA

AC

BE638459: 1-280bp

CGGGGAGACTACCTGCATTACATCCGCAAGTACAACCGATTTGAGAAGAGGCACAAGAACCTCTCT

GTCCATCTGTCACCTTGCTTCAGAGACGTCTCAGTCGGAGACATCGTCACTGTCGGAGAGTGCCGA

CCACTCAGCAAGACCGTGAGATTCAACGTCCTCAAAGTGACCAAGGCTGCTGGAGCCAAGAAGCAG

TTCCAGAAGTTTTAGGCGTGACTATGAACAGGAAAGCTGCTGTTGGCTAACTTGTCTCATTGTCAA

ATAAAGAACCTTGTTT

BE638460: 1-247bp

CCGGGAATtCGGCCATTATGGCCGGGGGTTGATGAAACCGGAGTTGAGGTTAAAGACATTGAACTC

GTCATGTCGCAAGCCAACGTGTCGCGGGCGAAGGCTGTACGGGCCCTGAAAAACAACAATAACGAC

ATTGTCAATGCTATTATGGAATTGACGATGTAAAGGGACTGTGTCAACGAGGAGTTGGAGAAATGT

TGCTGATTTAATCTAAGCTCGTTTATACAATTTATACCCAAGATGGAAATAAAGTTGTGGCTTGAT

AAAAT}}

Accession number	Genes	Closes species (accession number)	Homology (%)	Sequence length(bp)
BE638420 BE638451 BE638425 BE638449 BE638459 BE638429 BE638455 BE638460 BE638428 BE638440 BE638454 BE638456 BE638438 BE638443 BE638452 BE638437 BE638411 BE638444 BE638447 BE638419 BE638431 BE638439 BE638446 BE638414 BE638418 BE638422 BE638430 BE638432 BE638450 BE638445 BE638412 BE638413 BE638415 BE638416 BE638417 BE638421 BE638423 BE638424 BE638426 BE638427 BE638433 BE638434 BE638435 BE638436 BE638441 BE638442 BE638448 BE638453 BE638457 BE638458	Uridine phosphorylase Uridine phosphorylase Ribosomal protein L23 Ribosomal protein S26 Ribosomal protein S11 Fibrinogen alpha subunit Fibrinogen alpha subunit Translational regulatory factor Clone LA10(4) Clone LA6(9) Clone LA6(9) Clone LE2(8) Trypsin III Regulatory plasma protein Unknown gene Ribosomal protein Embryo mouseEST391700 Embryo mouseEST391700 MouseEST1380050 Embryo ratEST203632 Inter-alpha-trypsin inhibitor NMDA receptor subunit Cosmids QC5E3 Human EST2357681 Human EST2112059 Human EST182168 Human EST1700882 Human EST2357681 Human EST2263551 EST1014 Cytosolic glycoprotein FP21 Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified Unidentified	Japanese flounder(C23419) Japanese flounder(C23419) Japanese flounder(AU050130) Japanese flounder(AU050348) Japanese flounder(AU050271) Japanese flounder(C23293) Japanese flounder(C23291) Japanese flounder(C821617) Japanese flounder(C23127) Japanese flounder(C23374) Japanese flounder(C23374) Japanese flounder(C23353) Atlanic Salmon(x70074) Sand bass(L21703) Zebrafish(AI049183) Mouse(AI049183) Mouse(MM10434) Mouse(W77104) Mouse(AI049181) Rat(AI009181) Human(AC006254) Human(AC006531) Human(AF003627) Human(AI806883) Human(AI418527) Human(hszz16562) Human(AI049828) Human(AI806883) Human(AI683930) Tilapia nilotica(AI001527) Mould(DDU73686)	72 62 73 94 96 75 74 95 83 86 95 81 93 68 64 62 63 64 55 65 63 61 59 59 58 62 60 59 57 77 63	537 315 512 429 280 310 310 247 329 285 179 249 320 371 198 256 654 448 449 350 302 372 451 405 604 569 336 388 316 418 291 565 493 545 513 732 342 511 520 341 326 394 446 266 225 351 379 182 299 266