GENSCAN 1.0 Date run: 8-Nov-116 Time: 11:32:23 Sequence gi568815586r:109752558_109980374 : 227817 bp : 49.21% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 8264 8508 245 1 2 73 76 134 0.759 8.01 1.02 Intr + 8711 8732 22 2 1 85 98 -3 0.245 -2.05 1.03 Intr + 9014 9041 28 1 1 117 86 13 0.272 1.69 1.04 Term + 15455 16731 1277 0 2 138 48 1719 0.858 164.66 1.05 PlyA + 21715 21720 6 1.05 2.34 PlyA - 23418 23413 6 1.05 2.33 Term - 31221 31064 158 1 2 79 50 220 0.996 15.40 2.32 Intr - 31880 31759 122 1 2 84 84 226 0.997 21.94 2.31 Intr - 34280 34153 128 2 2 107 94 187 0.916 20.68 2.30 Intr - 36159 35843 317 1 2 110 94 630 0.982 61.58 2.29 Intr - 39872 39806 67 2 1 55 99 140 0.954 10.28 2.28 Intr - 40260 40095 166 2 1 87 102 266 0.999 27.86 2.27 Intr - 41043 40970 74 0 2 131 75 71 0.999 8.30 2.26 Intr - 41465 41373 93 2 0 112 111 191 0.998 23.96 2.25 Intr - 41930 41772 159 2 0 58 79 400 0.999 36.28 2.24 Intr - 44147 43968 180 2 0 104 64 316 0.988 30.86 2.23 Intr - 46355 46057 299 0 2 101 84 709 0.991 68.39 2.22 Intr - 48201 48061 141 1 0 88 87 296 0.893 29.82 2.21 Intr - 50586 50434 153 1 0 76 59 331 0.915 29.04 2.20 Intr - 51417 51369 49 0 1 89 94 74 0.960 6.35 2.19 Intr - 55138 55056 83 2 2 37 94 40 0.786 -1.14 2.18 Intr - 55911 55739 173 2 2 114 83 247 0.998 26.39 2.17 Intr - 62270 61854 417 1 0 144 70 388 0.537 35.74 2.16 Intr - 62518 62304 215 1 2 89 -10 153 0.660 3.11 2.15 Intr - 64611 64517 95 1 2 102 14 70 0.413 0.68 2.14 Intr - 70851 70786 66 1 0 59 101 98 0.542 7.08 2.13 Intr - 77042 76975 68 1 2 116 94 5 0.500 2.45 2.12 Intr - 84638 84614 25 0 1 86 72 27 0.022 -2.02 2.11 Intr - 93062 92927 136 2 1 86 94 93 0.770 9.84 2.10 Intr - 100180 100004 177 1 0 58 44 353 0.694 28.02 2.09 Intr - 102402 102265 138 0 0 102 76 9 0.689 1.76 2.08 Intr - 103212 103062 151 2 1 79 99 428 0.912 43.16 2.07 Intr - 103524 103410 115 1 1 69 42 95 0.727 2.51 2.06 Intr - 104069 103996 74 1 2 99 44 40 0.659 -0.25 2.05 Intr - 105102 104969 134 0 2 55 59 240 0.976 17.24 2.04 Intr - 106184 106126 59 0 2 107 92 49 0.064 5.80 2.03 Intr - 127967 127715 253 2 1 -43 97 420 0.484 26.81 2.02 Intr - 128557 128451 107 2 2 99 75 28 0.270 2.53 2.01 Init - 129692 129605 88 2 1 68 69 2 0.328 -2.84 2.00 Prom - 130706 130667 40 -4.16 3.00 Prom + 131386 131425 40 -8.56 3.01 Init + 140271 140316 46 2 1 71 107 54 0.976 6.44 3.02 Intr + 147613 147869 257 2 2 57 82 226 0.732 16.06 3.03 Intr + 150470 150657 188 1 2 103 76 263 0.995 25.09 3.04 Intr + 151380 151590 211 0 1 38 53 317 0.995 22.12 3.05 Intr + 152180 152236 57 1 0 79 52 81 0.862 2.68 3.06 Intr + 154015 154083 69 0 0 103 64 24 0.608 0.88 3.07 Intr + 154969 155142 174 0 0 90 64 224 0.944 20.34 3.08 Intr + 156029 156141 113 1 2 80 49 106 0.938 5.08 3.09 Intr + 156314 156380 67 2 1 68 119 51 0.993 5.11 3.10 Intr + 158506 158678 173 0 2 123 105 310 0.999 34.94 3.11 Intr + 160434 160515 82 0 1 88 74 36 0.877 1.84 3.12 Intr + 161885 162070 186 1 0 16 91 215 0.722 14.49 3.13 Intr + 162846 162989 144 2 0 59 97 219 0.994 20.38 3.14 Intr + 174140 174198 59 1 2 95 35 30 0.035 -3.92 3.15 Term + 175082 175163 82 2 1 97 38 118 0.450 4.87 3.16 PlyA + 176242 176247 6 1.05 4.10 PlyA - 177267 177262 6 1.05 4.09 Term - 180633 180421 213 0 0 109 48 333 0.998 28.63 4.08 Intr - 181528 181465 64 0 1 77 106 14 0.947 0.82 4.07 Intr - 186011 185823 189 1 0 96 115 86 0.991 10.80 4.06 Intr - 186690 186608 83 0 2 98 40 147 0.983 9.34 4.05 Intr - 194947 194699 249 1 0 50 113 67 0.630 3.03 4.04 Intr - 198759 198610 150 0 0 64 87 120 0.995 9.86 4.03 Intr - 200677 200535 143 2 2 46 100 182 0.998 15.27 4.02 Intr - 207401 207290 112 2 1 79 88 140 0.996 13.05 4.01 Intr - 209128 208955 174 1 0 87 54 82 0.646 4.84 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 106254 106126 129 0 0 86 92 50 0.851 3.73 S.002 Term - 127473 127382 92 1 2 103 36 76 0.812 1.78 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586r:109752558_109980374|GENSCAN_predicted_peptide_1|523_aa MCGSRGLREGDLGQVARALNATLSSSDSRKQELSGGVTERGSWELGGSGGGSDEVINPTT MPPLRAGTELSRLLTPLTEPPRSRSCLTKREGESLRGCSEAVASAMHSSRYPSPAELDAY AEKVANSPLSIKIFPTNIRVPQHKHLSRTVNGYDTSGQRYSPYPQHTAGYQGLLAIVKAA VSSSSTAAPAGPAKSVLKSAEGKRTKLSPAAVQVGIAPYPVPSTLGPLAYPKPPEAPAPP PGLPAAATAASVIPLPGRGLPLPPSNLPSIHSLLYQLNQQCQAPGAAPPACQGMAIPHPS PAKHGPVPSFPSMAYSAAAGLPDCRKGTELGQGATQALTLAGAAKPAGYADSGLDYLLWP QKPPPPPPQPLRAYSGSTVASKSPEACGGRAYERASGSPLNCGVGLPTSFTVGQYFAAPW NSVLVTPTSDCYNPAAAVVVTELGPGAARELAGPPADALSGLPSKSVCNTSVLSSSLQSL EYLINDIRPPCIKEQMLGKGYETVAVPRLLDHQHAHIRLPVYR >gi568815586r:109752558_109980374|GENSCAN_predicted_CDS_1|1572_bp atgtgtggttccaggggcctgcgggaaggagacctgggccaggtggccagggccttgaat gccaccctcagcagctcagactcacgcaagcaggagctcagtggaggggttacagaaaga ggcagctgggagcttggaggcagtggagggggctccgatgaagtcatcaaccccacaacc atgcccccactgagggcaggcactgagctaagccggctcttaacacctctcacagaacct cccaggagcagaagctgcctcaccaagagagaaggagagagcctgcgagggtgtagcgag gcggtggccagcgccatgcattcctcccgctacccgagcccagcagaactggacgcctat gccgagaaggtggccaacagcccgctgtccatcaagatcttccccaccaacatccgtgtg ccccagcacaagcacctcagccgcacagtcaatggctatgacaccagtggccagcgctac agcccctacccacagcacaccgctggctaccagggccttctggccattgtcaaggccgcg gtttcctcctccagcacggccgcaccagctgggcccgccaaaagtgtgctcaagagcgcc gagggcaagcggaccaagctgtcaccggccgccgtgcaggtgggcattgcgccctaccca gtgcccagcactctgggtcccttggcctaccccaagccacctgaggcgcctgctccacca cccggcctgcccgcagccgccactgccgcctccgtcatccccctgccgggccggggcctg cccctgccaccttccaacctgccctccatccacagcctcctgtaccagctcaaccagcag tgccaggccccgggcgccgcaccccctgcctgccagggcatggctattccccatcccagc cctgccaagcacggcccagtgcccagcttccccagcatggcctactcggctgcagccggt ctgcccgactgccggaaaggcactgagctgggccagggagccacccaagccttgacgttg gctggggccgccaagcctgcagggtacgcagacagcggcctggattacctgctgtggccg cagaaaccgcccccaccgccgccccagccactgcgtgcctacagtgggagcacggtggcc agcaagtcccctgaggcttgcgggggccgggcatacgagcgggccagcgggtcacccctc aactgtggcgtggggctgcccaccagcttcaccgtaggccagtactttgcggccccgtgg aacagtgtgctggtgacacccaccagcgactgctacaacccagcggcggcggtggtggtc acggagctggggccgggggcagcccgggagctggctgggccccctgcagatgccctctcg ggcctgcccagcaagagtgtgtgcaacacatcggtgctgagcagcagcctgcagtcactg gagtatctcatcaacgacatccggccgccctgcatcaaggagcagatgctgggcaagggc tatgagacggtggccgtgccccggctactcgaccaccagcatgcccacatccgcctaccc gtctacagataa >gi568815586r:109752558_109980374|GENSCAN_predicted_peptide_2|1559_aa MLARLTPQVFDLALSYFSSRSQLKYHLFRGNIRLLRADWTPDFGKQELSSRAVAELDCDF SSVQQGAVRAEVATLASPEPAAGGCDGPGADGGGRGGGVDARGAGWGITAGLDPEMALLA EHLLKPLPADKQIETGPFLEAVSHLPPFFDCLGSPVFTPIKADISGNITKIKAVYDTNPA KFRTLQNILEVEKEMYGAEWPKVGATLALMWLKREGAEQLIWGPQWDSEGQQRKEPAGAC GGHVDTEMDKAGPDPPLVDLTASVTCHGPAPGLEERRGLRFIQVFLQSICDGERDENHPN LIRVNATKAYEMALKKYHGWIVQKIFQLPLPAHPGGHENEGLTGPVQCSCGVQSASRLGQ KPVWFQRGRAGHRAALYAAPYKSDFLKALSKGQNVTEEECLEKIRLFLVNYTATIDVIYE MYTQMNAELNYKEVIWGHDPSVLLVGWWMGSRVHAGPTALRLRIERLRLSPCSSHGPASG TGPGIQPIPGHVFFQLIPQTSSESPSMPAKGLQNDQMTAVATLALPSVGREQSPNACGSH EGLGIQIPLSCLASRKDFVSPELMPRVVGPGANLCFQVRERGSCCSSRLRLAANHIWEWP PCAPVITTVALKQLAALLLVHVGGGFLEPPPLAGLSSADGPGAGMADSSEGPRAGPGEVA ELPGDESGTPGGEAFPLSSLANLFEGEDGSLSPSPADASRPAGPGDGRPNLRMKFQGAFR KGVPNPIDLLESTLYESSVVPGPKKAPMDSLFDYGTYRHHSSDNKRWRKKIIEKQPQSPK APAPQPPPILKVFNRPILFDIVSRGSTADLDGLLPFLLTHKKRLTDEEFRGHRHPPQPQA LPVNTCTQISHLQCAGFWGHQCKCFMGKGFDALTEPSTGKTCLPKALLNLSNGRNDTIPV LLDIAERTGNMREFINSPFRDIYYRGQTALHIAIERRCKHYVELLVAQGADVHAQARGRF FQPKDEGGYFYFGELPLSLAACTNQPHIVNYLTENPHKKADMRRQDSRGNTVLHALVAIA DNTRENTKFVTKMYDLLLLKCARLFPDSNLEAVLNNDGLSPLMMAAKTGKIGIFQHIIRR EVTDEDTRHLSRKFKDWAYGPVYSSLYDLSSLDTCGEEASVLEILVYNSKIENRHEMLAV EPINELLRDKWRKFGAVSFYINVVSYLCAMVIFTLTAYYQPLEGTPPYPYRTTVDYLRLA GEVITLFTGVLFFFTNIKDLFMKKCPGVNSLFIDGSFQLLYFIYSVLVIVSAALYLAGIE AYLAVMVFALVLGWMNALYFTRGLKLTGTYSIMIQKILFKDLFRFLLVYLLFMIGYASAL VSLLNPCANMKVCNEDQTNCTVPTYPSCRDSETFSTFLLDLFKLTIGMGDLEMLSSTKYP VVFIILLVTYIILTFVLLLNMLIALMGETVGQVSKESKHIWKLQWATTILDIERSFPVFL RKAFRSGEMVTVGKSSDGTPDRRWCFRVDEVNWSHWNQNLGIINEDPGKNETYQYYGFSH TVGRLRRDRWSSVVPRVVELNKNSNPDEVVVPLDSMGNPRCDGHQQGYPRKWRTDDAPL >gi568815586r:109752558_109980374|GENSCAN_predicted_CDS_2|4680_bp atgttggccagactcacaccccaagtctttgacctggctctatcctacttctcctctagg tctcagctcaaatatcacctcttcagaggtaacatcagactgttgagggcagactggacc ccagatttcgggaagcaggagttgtccagcagggcagtggctgagttagactgtgacttc agcagtgttcaacagggcgccgtgcgggcggaagtggcgacgctggcgtccccggagcct gcggcgggcggctgtgacggccccggcgctgacggcggcggccgggggggcggtgtcgac gcccgcggcgccggctggggcatcaccgcgggcctcgaccccgaaatggcgctgctggcc gaacacttgctgaagccgctgcccgcggacaagcagatcgagaccgggcccttcctcgag gcggtgtcccacctgccgcccttcttcgattgccttgggtccccagtgtttactcccatc aaggcagacataagcggcaacatcacgaaaatcaaagctgtgtacgacaccaacccagcc aagttccggaccctgcagaacatcctggaggtggagaaagaaatgtatggagcagagtgg cccaaagtaggggccacactggcgctgatgtggctgaaaagggagggagcagagcagctc atctggggaccccagtgggacagtgaggggcagcaaaggaaagagcctgctggggcctgt gggggtcatgtggacacagaaatggacaaggcaggcccagacccacccctcgtggatctt acagccagtgtgacttgtcatgggccagcaccaggcctggaggagagaagaggcctccgc ttcatccaggtcttcctccagagcatctgcgacggggagcgggacgagaaccaccccaac ctcatccgtgtcaacgccaccaaggcctacgagatggccctcaagaagtaccatggctgg atcgtgcagaagatcttccagctccctctgcctgcccaccctggcggccatgagaacgag gggctgacgggccctgtacagtgttcctgtggggtacagtctgcaagcaggctggggcag aagccagtatggttccagagaggaagagctggtcatagggcagcactgtacgcagcaccc tataagtctgacttcctgaaagcgctctccaaggggcagaatgttacggaggaggagtgc ctggagaagatccgcctcttcctagtcaactacacggcgaccatcgatgtcatctacgag atgtacacccagatgaacgctgagcttaactacaaggaggttatatggggacacgaccct tcagttttgctggttggttggtggatgggttcccgggttcacgccggccccacagccctg cgcctgcgcattgagcgcctgcgcttgagcccctgcagctcccacgggcccgcatctggc actggacctggcatacagcccattccagggcatgttttcttccagcttatcccccagaca tcctcagagagcccctccatgccagccaagggcttgcagaatgaccaaatgactgccgtg gccacgctggccttgccctccgtggggcgcgagcaaagcccaaatgcatgtggcagccat gagggactagggatccagatccccctctcctgtctggccagtcgaaaggacttcgtgtct ccagagctaatgcccagggtagttggacctggggccaatttgtgtttccaggttcgtgaa agaggctcctgttgcagttcccgcctgaggctggcggccaaccacatctgggagtggcct ccctgtgcccctgtcattacaacggtggctttgaagcagctggcagcactgctgcttgtc cacgtgggagggggcttcctggagcccccgcccctggccgggctgagcagtgcagacggg cctggggcaggcatggcggattccagcgaaggcccccgcgcggggcccggggaggtggct gagctccccggggatgagagtggcaccccaggtggggaggcttttcctctctcctccctg gccaatctgtttgagggggaggatggctccctttcgccctcaccggctgatgccagtcgc cctgctggcccaggcgatgggcgaccaaatctgcgcatgaagttccagggcgccttccgc aagggggtgcccaaccccatcgatctgctggagtccaccctatatgagtcctcggtggtg cctgggcccaagaaagcacccatggactcactgtttgactacggcacctatcgtcaccac tccagtgacaacaagaggtggaggaagaagatcatagagaagcagccgcagagccccaaa gcccctgcccctcagccgccccccatcctcaaagtcttcaaccggcctatcctctttgac atcgtgtcccggggctccactgctgacctggacgggctgctcccattcttgctgacccac aagaaacgcctaactgatgaggagtttcgaggacaccggcaccctccacagccccaggcc ttacctgtgaacacctgcacccaaatcagccacctgcaatgtgctgggttctgggggcac cagtgtaaatgcttcatgggaaaaggattcgatgctctgacagagccatctacggggaag acctgcctgcccaaggccttgctgaacctgagcaatggccgcaacgacaccatccctgtg ctgctggacatcgcggagcgcaccggcaacatgagggagttcattaactcgcccttccgt gacatctactatcgaggtcagacagccctgcacatcgccattgagcgtcgctgcaaacac tacgtggaacttctcgtggcccagggagctgatgtccacgcccaggcccgtgggcgcttc ttccagcccaaggatgaggggggctacttctactttggggagctgcccctgtcgctggct gcctgcaccaaccagccccacattgtcaactacctgacggagaacccccacaagaaggcg gacatgcggcgccaggactcgcgaggcaacacagtgctgcatgcgctggtggccattgct gacaacacccgtgagaacaccaagtttgttaccaagatgtacgacctgctgctgctcaag tgtgcccgcctcttccccgacagcaacctggaggccgtgctcaacaacgacggcctctcg cccctcatgatggctgccaagacgggcaagattgggatctttcagcacatcatccggcgg gaggtgacggatgaggacacacggcacctgtcccgcaagttcaaggactgggcctatggg ccagtgtattcctcgctttatgacctctcctccctggacacgtgtggggaagaggcctcc gtgctggagatcctggtgtacaacagcaagattgagaaccgccacgagatgctggctgtg gagcccatcaatgaactgctgcgggacaagtggcgcaagttcggggccgtctccttctac atcaacgtggtctcctacctgtgtgccatggtcatcttcactctcaccgcctactaccag ccgctggagggcacaccgccgtacccttaccgcaccacggtggactacctgcggctggct ggcgaggtcattacgctcttcactggggtcctgttcttcttcaccaacatcaaagacttg ttcatgaagaaatgccctggagtgaattctctcttcattgatggctccttccagctgctc tacttcatctactctgtcctggtgatcgtctcagcagccctctacctggcagggatcgag gcctacctggccgtgatggtctttgccctggtcctgggctggatgaatgccctttacttc acccgtgggctgaagctgacggggacctatagcatcatgatccagaagattctcttcaag gaccttttccgattcctgctcgtctacttgctcttcatgatcggctacgcttcagccctg gtctccctcctgaacccgtgtgccaacatgaaggtgtgcaatgaggaccagaccaactgc acagtgcccacttacccctcgtgccgtgacagcgagaccttcagcaccttcctcctggac ctgtttaagctgaccatcggcatgggcgacctggagatgctgagcagcaccaagtacccc gtggtcttcatcatcctgctggtgacctacatcatcctcacctttgtgctgctcctcaac atgctcattgccctcatgggcgagacagtgggccaggtctccaaggagagcaagcacatc tggaagctgcagtgggccaccaccatcctggacattgagcgctccttccccgtattcctg aggaaggccttccgctctggggagatggtcaccgtgggcaagagctcggacggcactcct gaccgcaggtggtgcttcagggtggatgaggtgaactggtctcactggaaccagaacttg ggcatcatcaacgaggacccgggcaagaatgagacctaccagtattatggcttctcgcat accgtgggccgcctccgcagggatcgctggtcctcggtggtaccccgcgtggtggaactg aacaagaactcgaacccggacgaggtggtggtgcctctggacagcatggggaacccccgc tgcgatggccaccagcagggttacccccgcaagtggaggactgatgacgccccgctctag >gi568815586r:109752558_109980374|GENSCAN_predicted_peptide_3|635_aa MKVVTQEQDNQGSVTGAATFAIYLPLATTGHQRKTQAPYALKEAWPLRRSVVGLVAGANR EETAGVAVARLGITPGDWPARFVPAGSRAGGLFGNSEPQRNMALPTLPSYWCSQQRLNQQ LARQREQEARLRQQWEQNSRYFRMSDICSSKQAEWSSKTSYQRSMHAYQREKMKEEKRRS LEARREKLRQLMQEEQDLLARELEELRLSMNLQERRIREQHGKLKSAKEEQRKLIAEQLL YEHWKKNNPKLREMELDLHQKHVVNSWEMQKEEKKQQEATAEQENKRYENEYERARREAL ERMKAEEERRQLEDKLQAEALLQQMEELKLKEVEATKLKKEQENLLKQRWELERLEEERK QMEAFRQKAELGRFLRHQYNAQLSRRTQQIQEELEADRRILQALLEKEDESQRLHLARRE QVMADVAWMKQAIEEQLQLERAREAELQMLLREEAKEMWEKREAEWARERSARDRLMSEV LTGRQQQIQEKIEQNRRAQEESLKHREQLIRNLEEVRELARREKEESEKLKSARKQELEA QVAERRLQAWEADQQEEEEEEEARRVEQLSDALLQQEAETMAEQGYRPKSRVGAKPWGHE WQQEADSPGMQDNKNSGKGTGQIFPARKIDTPEIL >gi568815586r:109752558_109980374|GENSCAN_predicted_CDS_3|1908_bp atgaaggtggtcacccaggaacaggacaatcaaggttcagtaactggagcagcgacgttt gctatttatctcccgctggccacgacggggcaccagagaaaaacacaggctccctacgcg ctgaaggaggcttggcccttgcgacgctccgtcgtcgggctcgttgccggtgcaaacagg gaggaaacagccggcgttgctgtagcgcgtctgggaattacaccgggggactggccggcc cgcttcgtgcctgcgggaagtcgggccgggggactcttcggaaactccgagcctcagaga aatatggcgctcccgacgctgccgtcctactggtgcagccagcagcgcctgaatcagcag ctagcacgacagcgagagcaggaggcccggcttcggcagcagtgggagcagaacagccgt tacttcaggatgtctgacatctgcagctccaaacaggcagaatggagctctaaaacctcc taccagcggagcatgcatgcctatcagcgggagaagatgaaggaggagaagaggaggagt ctggaggcccgacgggaaaagctcaggcagctcatgcaggaggagcaggacctgctggcc agagaactggaggagctgaggctgagcatgaacttgcaggaaagaagaatccgggagcag cacgggaagctgaaatcagccaaagaagagcagaggaaactgattgctgaacaacttttg tacgaacactggaaaaagaacaacccgaaacttcgagagatggagctggaccttcaccag aagcatgtcgtaaactcttgggaaatgcagaaagaagaaaaaaaacagcaagaagccacc gcagagcaagagaacaaacggtatgaaaatgaatatgaaagggcccgaagggaggcgcta gaaaggatgaaagctgaagaggagaggaggcagctggaggacaagctccaggccgaggca ctgctgcaacagatggaggagctgaagctgaaggaggtggaggcgaccaaactaaagaag gagcaggagaatctgttgaagcagcggtgggagctagagaggctggaggaagagcgaaag cagatggaagccttccggcagaaggcagagctggggcgtttcttgagacatcagtataac gctcaactcagcagacgcacacagcagatccaagaggagctggaggcagacaggcggatc ctgcaggccctcctcgagaaggaggacgagagccagcgcctccacctggccaggcgggag caggtcatggccgatgtggcctggatgaagcaggccattgaggagcagctgcagctggag cgggcgcgggaggcagagctgcagatgctgctgagggaggaggccaaggagatgtgggaa aagagagaggcagagtgggcccgagagcgcagcgcacgggacagactgatgagcgaggtt ctgacagggagacaacagcaaatacaagagaagattgagcagaaccgacgggcacaagag gaatccctgaaacacagggagcaacttattcgaaatcttgaggaggtgagagagttggct cgtcgcgagaaagaggagagtgaaaagctgaaatcggccaggaagcaggagctggaagcc caggttgcagagcgccggctgcaggcatgggaagcagaccagcaggaggaggaggaagag gaggaggcccggcgggtcgagcagctctcagatgccctgctgcagcaggaggcggagact atggctgagcagggctaccggcctaagagcagggttggggccaagccctggggccatgaa tggcagcaggaggcagacagtcctgggatgcaggacaacaagaactcaggcaaaggcact ggccagatatttccagccagaaaaatcgacaccccagagatcctgtaa >gi568815586r:109752558_109980374|GENSCAN_predicted_peptide_4|458_aa LSNHLFEELAMDVYDEVDRRETDAGDLTWLYLISFCYQWAVKSCQAQCFTSPISAVLMGR QKLARFNAHEFATLVIDILSDAKRRQQGSSLSGSKDNVELILKTINNQHSVESQDNDQPD YDSVASDEDTDLETTASKTNRQKSLDSDLSDGPVTVQEFMEVKNALVASEAKIQQLMKVN NNLSDELRIMQKKLQTLQSENSNLRKQATTNVYQVQTGSEYTDTSNHSSLKRRPSARGSR PMSMYETGSGQKPYLPMGEASRPEESRMRLQPFPAHASRLEKQNSTPESDYDNTPNDMEP DGMGSSRKGRQRSMVWPGDGLVPDTAEPHVAPSPTLPSTEDVIRKTEQITKNIQELLRAA QENKHDSYIPCSERIHVAVTEMAALFPKKPKSDMVRTSLRLLTSSAYRLQSECKKTLPGD PGSPTDVQLVTQQVIQCAYDIAKAAKQLVTITTKENNN >gi568815586r:109752558_109980374|GENSCAN_predicted_CDS_4|1377_bp ctaagtaatcatttgtttgaagaacttgccatggatgtgtacgatgaagttgacaggcga gagacggatgcaggtgacttgacgtggctttatctaataagcttctgttatcagtgggca gtgaaaagctgccaggctcagtgttttactagtccaatttctgctgtcctgatgggcaga cagaagttagctcggttcaacgcccatgagtttgccacgctggtcattgacattctcagt gacgccaagaggagacagcagggcagttctctctcgggttcaaaagacaatgtggagctc atactgaaaaccatcaataaccagcacagcgttgagagtcaagacaacgatcagcccgac tatgacagcgtggcatcagacgaagacacagatttggaaaccactgcaagcaaaacaaac cggcagaagagcctagattcagatttatcagatggaccagtcactgtacaggaatttatg gaggtcaaaaacgctctagtggcttctgaggccaagatacagcagctaatgaaggtgaat aacaacttgagtgacgagctgagaattatgcagaaaaagcttcaaacactccagagtgaa aattcgaacctcaggaaacaggccacaaccaatgtatatcaggtgcaaactggttctgag tacacagacacttccaaccactcttccttaaagagacgtccgtctgcccggggcagtagg cccatgtccatgtacgagaccggatcaggtcagaaaccatatctcccaatgggagaagcg agccgccccgaagagagcaggatgagactccagcccttccccgcgcacgcatccaggctg gagaagcagaacagcacacctgagagtgactacgacaacactcccaacgacatggagcca gatggcatggggtcaagccgaaagggacggcaaagaagtatggtgtggccaggggatggc ttggtaccagacacagcagaaccccatgtggccccaagccccactctccctagcaccgaa gatgtcatcaggaagactgaacagatcaccaaaaacatacaggagctcttaagagcagcc caagaaaataaacatgacagttatattccctgctcagagaggatacacgtagctgttaca gaaatggcagcattattccccaaaaaacccaagtctgatatggtgaggacttcccttcgt ttactgacgtccagtgcctaccgactgcagtcagagtgcaagaagaccctcccaggggac cccggctcacccacagacgttcagctggtcacgcagcaggtcatccagtgtgcgtacgac atcgccaaggctgccaagcagctggttaccatcaccaccaaagagaacaacaactga