GENSCAN 1.0 Date run: 6-Nov-116 Time: 09:05:57 Sequence gi568815588r:5666009_5913258 : 247250 bp : 43.01% 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 + 542 765 224 1 2 70 11 203 0.260 6.83 1.02 Intr + 6171 6305 135 0 0 58 39 125 0.081 4.28 1.03 Intr + 11558 11801 244 2 1 27 53 143 0.050 2.20 1.04 Intr + 18845 19167 323 1 2 36 114 187 0.568 10.76 1.05 Intr + 48127 48199 73 1 1 34 115 39 0.024 0.61 1.06 Intr + 54252 54389 138 2 0 67 80 75 0.973 5.26 1.07 Intr + 54536 54660 125 1 2 115 103 63 0.932 9.88 1.08 Intr + 57669 57769 101 0 2 112 66 0 0.354 -0.05 1.09 Intr + 64788 65195 408 1 0 96 99 78 0.130 3.94 1.10 Intr + 69296 69538 243 0 0 39 99 137 0.980 7.37 1.11 Intr + 73880 74489 610 0 1 53 92 233 0.399 11.68 1.12 Intr + 76089 76518 430 0 1 75 87 132 0.901 5.52 1.13 Intr + 80171 84019 3849 1 0 110 98 1258 0.961 116.41 1.14 Intr + 90605 90730 126 1 0 72 67 33 0.572 0.48 1.15 Intr + 91512 91665 154 2 1 89 63 127 0.986 9.95 1.16 Intr + 92879 92984 106 0 1 65 116 76 0.994 7.37 1.17 Intr + 95282 95463 182 2 2 79 91 66 0.777 5.51 1.18 Term + 97886 97902 17 0 2 97 42 49 0.540 -0.40 1.19 PlyA + 99031 99036 6 1.05 2.20 PlyA - 99238 99233 6 1.05 2.19 Term - 100144 99998 147 1 0 116 42 187 0.999 14.80 2.18 Intr - 100287 100233 55 2 1 137 109 16 0.998 7.58 2.17 Intr - 100630 100486 145 2 1 77 81 186 0.999 16.14 2.16 Intr - 102376 102205 172 1 1 59 94 237 0.994 20.92 2.15 Intr - 107933 107834 100 1 1 28 100 94 0.457 4.71 2.14 Intr - 119265 119134 132 2 0 90 116 69 0.935 9.66 2.13 Intr - 120042 119844 199 1 1 59 80 186 0.937 13.31 2.12 Intr - 129006 128877 130 0 1 -7 94 113 0.128 2.67 2.11 Intr - 134697 134590 108 0 0 59 95 84 0.134 6.68 2.10 Intr - 147312 147206 107 1 2 -2 64 139 0.008 2.43 2.09 Intr - 148373 148200 174 0 0 61 27 151 0.002 6.21 2.08 Intr - 174478 174361 118 1 1 17 84 151 0.882 7.64 2.07 Intr - 174673 174541 133 0 1 59 41 132 0.490 6.25 2.06 Intr - 176157 176059 99 2 0 60 58 101 0.012 3.53 2.05 Intr - 188448 188199 250 1 1 92 50 65 0.048 -0.40 2.04 Intr - 190545 190377 169 0 1 120 29 70 0.444 3.82 2.03 Intr - 190859 190746 114 2 0 63 113 38 0.291 4.44 2.02 Intr - 196643 196497 147 2 0 64 82 56 0.360 3.03 2.01 Init - 197794 197714 81 1 0 69 113 14 0.533 3.19 2.00 Prom - 198163 198124 40 -8.56 3.00 Prom + 198475 198514 40 -5.26 3.01 Init + 198535 199413 879 0 0 41 91 375 0.822 27.58 3.02 Intr + 200227 200416 190 0 1 46 106 112 0.853 7.96 3.03 Term + 202084 202232 149 2 2 122 55 33 0.600 1.46 3.04 PlyA + 202607 202612 6 1.05 4.12 PlyA - 203210 203205 6 1.05 4.11 Term - 203646 203540 107 1 2 90 49 93 0.131 4.17 4.10 Intr - 210519 210453 67 0 1 80 75 52 0.088 1.58 4.09 Intr - 217159 216998 162 1 0 101 76 108 0.939 11.07 4.08 Intr - 218069 217961 109 1 1 80 27 184 0.995 11.79 4.07 Intr - 219757 219715 43 2 1 92 94 14 0.989 -0.30 4.06 Intr - 222059 221890 170 1 2 80 51 190 0.482 14.09 4.05 Intr - 223365 223033 333 2 0 68 82 524 0.282 44.49 4.04 Intr - 223754 223492 263 2 2 41 41 175 0.076 4.39 4.03 Intr - 230415 230326 90 0 0 129 29 28 0.265 1.19 4.02 Intr - 231383 231281 103 1 1 84 76 31 0.703 1.68 4.01 Init - 232931 232861 71 2 2 53 121 73 0.641 7.62 4.00 Prom - 235737 235698 40 -7.46 5.00 Prom + 236413 236452 40 -3.16 5.01 Init + 240148 240624 477 0 0 71 105 113 0.481 4.79 5.02 Intr + 242917 243047 131 0 2 49 101 221 0.974 18.99 5.03 Intr + 243151 243286 136 1 1 80 61 18 0.910 -1.13 5.04 Intr + 244930 245120 191 0 2 88 63 288 0.540 24.68 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 148219 148435 217 1 1 121 39 161 0.942 11.12 S.002 Term + 168337 168479 143 2 2 92 47 121 0.939 6.49 S.003 Term - 173782 173688 95 2 2 102 39 26 0.827 -2.91 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815588r:5666009_5913258|GENSCAN_predicted_peptide_1|2495_aa MRLTGGRAATLGAGTWAGPRGAAGRGQSALGRASSRGDRAGSCSSRRLGEVPGGAVPGSG LRCRCPPRFARRAEENLGCLSIHQAMTPIECFDDTKLIGSDEQELVSTVSISVRRMHARG LELLPVSINSYNGTREYQEAPKCTPGLYKCSFPCSKTALPPPTHRQQSLLSRKSQLFAPA AALTQESKCPGSSFSLGFEGQRRSERKSACSRRLPGVPGLPLARDPDGRQSAGGRGVPVS ARGEDPGAGADGVPLRGVPAGARSRRLVLPTCAGVARAREDAEHGREKHGKEAEPGSQVL GGGGHAKDGQNWYVSVDSVLAAVLLPLWVIQPKGKVKFVSENYTTNYTKPSSGYDCHVSE NTNKVSNKTSHFRAFELSQYYFYELSGNTVIERPRQICPYVIVAFRYRESKTMAPPAHKS IPQELDFKYVMKVSSLKKRLPEAAFRKQNYLEEKDPSAYILEVSTALDLLAEHPQSPCVS DGICDAGFSLVMTPDPEFLVSEAEVRKETETKKDSEEMLKAKKRVFPLSPASNLRVQPKR KASMPHMVQSKKVNLCRPFPKRTASRADNSSDSPTTLKLVKGQFPQKRKRGAEVLTAQFV QKTKLDRKNQEAPISKDVPVPTNAKRARKQEKSPVKTVPRAKPPVKKSPQKQRVNIVKGN ENPRNRKQLQPENSLRGTSDHEYHRGVKTQKGELLPNPSSDRKSNSGSDLTVSQDEESLV PCSQAPAKAQSALTEEMLESSDASQSSSVSVEHSYALLLTEHSKKHLQEREILSPLFPRN GTKSPEAATPVGKVMPFRHQPGLLLQQKPPDDPVVKPKDRPPSARVKKSSCSRIVLSCDD SVKITFKCETEYAFSLDSKYTNNPLEKTVVRALHGPWNTDLPDNVEEVKLLLHMWVALFY SNQNKIIRSSRKVVEHSNPAKYVSINSTLESCELREIEESLGLEKCSADSLLETNEISRA HAAEVSFRDPNCLLPFIKTPLTQGLELCVQNEQKKTFARECDPDTQEDQNFICSYNNEVT GEEAKQESLETSNLVLSGIGSTQTNGPSVPSEEEIVQPLDSTRVASYSGTVTQATFTRTY DGPGSQPVICQSSVYGTLENKVDILDAAVQTKTGTLQDLIQHGSPINNECHPSLERKDDN MGCAVINPEPITLTFEKNAHVPIQTEGVNTADERTTFKKELIKQVSPAASLRHPVSTSEN ARTQGLRDIPSLVVAGQKGTKYLCASSVGGETLDKAVCSLQKETPLPVSLPSDKTMVMEA LSLAKSSSHLSPSEEVRCTQDFLSQTQSLLGLSSEGLLELTQVEVDSSSASTTLGRQCSL NCISSGCHTSGDSLELRKNHKNGPNTENMNLEAFDSVFIKQTSLSVSREVSLELSEEDSD IDLALTISPPTSPREEMPAGEIEQFEEAPFSNLELQDVAEEIGEPEEVALTESREVSSAD NVSVYPSVSEEPVENKERKGDNLQPVTLILSKENCTLEIAEEINVTSDFPFDSVIEEVSP ASSPEPPVPVKETRPYQAVTPCILKLHGTQCEKSNQISQCESEDLGITEKENVFVGPTHP VGQDNFTQVQQMQVSAEMPLILTDHPGRTGRPTLPGKVTEEIVSSEHDEGLSFSGKVQCY GRELNQPASAAKCTGDFSPSPEKLVKSGNPLQPVSIENRNLDLKHLVLESSEPPFGPRNV IENKSLSDTLVSTTAPSGIVNVSVKQQTSPKSSQNHLFPGDLKTDEGIYLQVKSLTAASV DGAYSTQGCMCSVVPTLCSSSDNATLTHYVRPINAEPVFQAQEIPAGRMASLLKNGEPEA ELHKETTGPGTAGPQSNTTSSLKGERKAIHTLQDVSTCETKELLNVGVSSLCAGPYQNTA DTKENLSKEPLASFVSESFDTSVCGIATEHVEIENSGEGLRAEAGSETLGRDGEVGVNSD MHYELSGDSDLDLLGDCRNPRLDLEDSYTLRGSYTRKKDVPTDGYESSLNFHNNNQEDWG CSSWVPGMETSLPPGHWTAAVKKEEKCVPPYVQIRDLHGILRTYANFSITKELKDTMRTS HGLRRHPSFSANCGLPSSWTSTWQVADDLTQNTLDLEYLRFAHKLKQTIKNGDSQHSASS ANVFPKESPTQISIGAFPSTKISEAPFLHPAPRSRSPLLVTVVESDPRPQGQPRRGYTAS SLDSSSSWRERCSHNRDLRNSQRNHTVSFHLNKLKYNSTVKESRNDISLILNEYAEFNKV MKNSNQFIFQDKELNDVSGEATAQEMYLPFPGRSASYEDIIIDVCTNLHVKLRSVVKEAC KSTFLFYLVETEDKSFFVRTKNLLRKGGHTEIEPQHFCQAFHRENDTLIIIIRNEDISSH LHQIPSLLKLKHFPSVIFAGVDSPGDVLDHTYQELFRAGGFVISDDKILEAVTLVQLKEI IKILEKLNGNGRWKWLLHYRENKKLKEDERVDSTAHKKNIMLKSFQSANIIELLHYHQCD SRSSTKAEILKCLLNLQIQHIDARFAVLLTVKYTE >gi568815588r:5666009_5913258|GENSCAN_predicted_CDS_1|7488_bp atgcggctcaccggcggccgcgcggcgactctgggcgccgggacctgggccgggccgcgc ggggccgctgggcggggccagtctgcgctgggccgcgcgtcgtcccgaggcgaccgagcc gggagttgtagttcccgccgccttggcgaggttcccggaggcgctgtccctgggtccgga ctccgctgtcgctgcccaccccgcttcgcccgtcgcgccgaggaaaatcttggctgcctc tccattcaccaggctatgactcccatcgagtgttttgatgataccaagctgattggatct gatgagcaggaattagtgtctactgtcagcatttcagtaagacgcatgcatgccagaggg ctggaattgctgcctgtgtccatcaacagttacaatgggacaagggagtaccaagaggcc cccaagtgcacccctggattgtacaagtgttccttcccgtgttcaaagacagctctacct cctcctacccatcggcagcaatcactactgtcaagaaagtcacagctgttcgcacctgct gctgccttgacacaagagtctaagtgccctggcagcagctttagcttgggattcgaaggg cagcgccggtcagagagaaagtcggcatgttctcgcaggctgccgggcgtcccggggttg cctcttgcccgtgaccctgacgggagacagagcgcgggcggccgcggcgtccctgtcagc gcccgcggcgaggaccccggggctggggcggacggcgtgcccctgaggggggtccccgcg ggagcgcggagccggcgactggtgcttcccacgtgcgccggtgtcgcgagggcccgggag gacgcagagcacggccgggagaagcatgggaaggaggccgagccgggatctcaggtcctc gggggcggcggccacgccaaggacgggcaaaattggtatgtcagtgtggactccgtgttg gcagcagtgctgttaccactctgggtgatccagccaaagggaaaagtcaagtttgtgtct gagaattatacaactaactatactaagccatcttctggctatgattgccacgtgtctgaa aatactaacaaggtttctaacaagacgagtcattttcgtgcctttgaactgagtcagtat tacttttacgaactttcaggcaacaccgttattgaacgacccagacagatctgtccttat gtaattgtagcttttcgatacagggaatctaaaactatggcaccaccagctcataaaagc ataccgcaggaactagattttaaatatgtaatgaaagtgtcttccttgaaaaaaagacta ccagaggctgccttcagaaaacagaattacttggaggagaaagaccctagtgcttacatt ttggaagtgtctactgctttggacttgctagcagagcatcctcagtctccttgtgtttca gacggaatttgtgatgctggattttccttagttatgactccagatcctgaatttcttgtc tcagaggcagaagtgagaaaagaaactgaaacaaaaaaggattctgaagaaatgttgaaa gcaaagaagagagtttttccattgagtccagcgtcaaatctgagagtgcagcctaagagg aaggccagcatgccccacatggtgcagagtaaaaaggtgaacttgtgccgcccctttccc aaaagaactgcttccagagcagacaacagctcggactctccaacaactcttaagttagtt aaaggacagtttcctcagaaaagaaaaagaggtgcggaagtgctgactgcacagtttgta cagaaaaccaaattggataggaaaaaccaagaagctcctatttctaaagatgttccagtg ccaacaaatgctaaaagggcaaggaaacaagagaaatctccagtcaaaactgttccaagg gctaagccacctgtgaagaaatctccacaaaaacagagagtaaatatagtaaaaggcaat gagaaccccagaaacagaaagcagctacaacctgaaaattctttgcgaggtacatctgac catgaatatcatagaggagttaaaactcaaaaaggtgaattactacctaacccatcttct gataggaagagtaattctggatcagacttaacagttagccaagatgaagaaagcttggtt ccttgtagtcaggcccctgctaaagcccagtcagcacttactgaggaaatgctagaatct tcagatgcaagccaaagctcttctgtttctgtggaacattcatatgccctgctccttaca gaacattcaaagaaacatctacaggagagagagatactaagccctctgtttcccaggaat gggacaaaaagccctgaagcagcaaccccagtggggaaagtcatgccatttcggcatcag cccggccttttgcttcagcaaaagcctcctgacgaccccgtggtgaagcccaaggatcga ccaccgtctgcccgtgtgaaaaaatcttcttgctctcgtatagtgcttagctgtgatgac tccgttaagatcactttcaaatgtgaaacagaatatgcattcagtttagacagcaaatat accaacaacccactggagaaaactgtagtaagagcattacatgggccctggaatactgat ttgcctgataatgtggaagaagtgaagcttttacttcatatgtgggtagctctgttttac agcaatcagaacaaaatcatacgatcttcccgaaaggttgtagaacacagcaacccagca aaatatgtgtctataaatagcacgttagaatcttgtgagctccgtgaaattgaggagtcc cttggtttggaaaaatgttctgcagactctctgttggagactaacgaaatttccagggct catgctgctgaagtatccttccgtgatcctaactgcttgcttcctttcattaaaacacca cttacccaaggcttggaactctgtgtacaaaatgaacagaaaaaaacttttgcaagagag tgtgatccagacacccaagaagaccagaatttcatctgttcttacaataatgaggtaact ggggaagaagctaaacaagaatcattggagacttctaatcttgtgctttcgggtattgga agtacacaaactaatggaccttctgttcctagtgaagaagaaattgttcagccactggat agcacaagagtggcttcttacagtggcactgttactcaagccacattcaccaggacttac gatgggcctggcagtcagccagtgatatgtcagagctctgtgtacggcacccttgaaaac aaagtggatattcttgatgcagcagtgcaaacaaaaacaggtactttacaggaccttatc caacatggcagccccataaacaatgaatgtcacccttccttggaaagaaaggatgataat atggggtgtgcagtgattaacccggaaccaattactctcacctttgaaaaaaatgcacat gtaccaatacagacagaaggtgtaaatactgctgatgaacgtacaacctttaagaaggag ttgattaagcaagtatcacctgctgcaagccttagacatcctgtatccacctcggaaaat gcacgaacacaaggcctgagggacattccctctctagtagttgcaggacagaagggcact aagtacctttgtgcctcgtcagtaggtggagagacacttgataaagcagtgtgttcatta cagaaggagacgccccttccagtctctctaccatctgataaaacaatggtcatggaggca ctatcattagctaaaagttctagtcatctatcacccagtgaagaagtgagatgcactcag gatttcctttcacagactcagagtctcctcggcctatcttcagaagggcttctagaactg acacaggttgaagtggactcatcatcagcctctaccaccttgggaaggcagtgttcactt aactgcatttcgtcaggatgccacacatcaggtgactctttagaactaaggaagaatcac aagaatggtccaaacactgaaaatatgaatttggaagcgtttgattcagtatttatcaaa caaacaagcctgtctgtgagtagagaggtcagcctagagttatcagaggaagattctgac attgacttagctctaacaatatcaccacctacaagtcccagagaagaaatgccagctggt gaaatagagcaatttgaggaggccccattctcaaatttagaacttcaggatgtagctgag gaaataggtgaaccggaagaggtggctctcacagaaagcagagaagtgagttctgctgac aatgtgtcagtatatccctcagtgtcagaagaaccagtagaaaataaggagagaaagggg gataatttacaaccagttactttaatactttctaaagaaaattgcacccttgagattgca gaggaaattaatgtgacctctgattttccctttgattctgtaattgaagaagtatcacca gcgtctagtcctgaacctccagtaccagttaaagagacacgaccatatcaggctgtgact ccatgcattttaaaacttcatggtacacagtgtgagaagagcaaccaaatctcccaatgt gagtcagaagacttaggcataacagaaaaagaaaatgtttttgttggtcctacccatcca gtggggcaagataactttacccaggtacaacaaatgcaggtctctgccgaaatgcctcta atattaactgatcatccaggaagaacaggtagaccaacccttcctggtaaagtaactgag gaaattgtctcaagtgagcatgatgagggtttatctttctcaggaaaggtgcagtgctat ggtagggagttaaaccagcctgcctcagctgccaaatgcacaggtgacttcagtccttct cctgaaaaactggtaaaatcaggaaatccattgcagccagttagtatagagaatagaaat ttggacttaaaacatcttgtcttggagtccagtgaacctccatttggtcctagaaatgtt attgaaaataagtctttgtctgacacattggtttccacaactgcaccaagtggtatagtg aatgtgtcagtaaaacagcagactagccctaaaagcagtcagaaccatctctttcccggt gatttgaaaacagatgaaggcatttatctgcaggtgaagtccttgacagctgcctcggtt gatggagcttattctacacagggatgcatgtgctcagtggtccccacgctttgttcttcc tcagacaatgctacattaacccattatgtaagaccaataaatgcagagccagtgtttcaa gcacaggaaataccagcaggcagaatggccagtttgcttaagaatggtgagcctgaagct gagttacataaagaaaccacaggtccaggcactgctggccctcagtccaacaccacatct tctctaaaaggtgaacgcaaagccatccacacgctgcaagatgtgtcaacatgtgaaaca aaggagctattgaatgtcggggtttcctccctttgtgctggtccctaccaaaatacagca gacaccaaggaaaacctcagtaaagagcctttggcctcctttgtttcagaatcctttgat acttctgtttgtggaatagccacagagcacgtagaaattgagaacagtggggaggggctc agggctgaggctggttctgaaaccctaggcagagatggagaggtcggtgtgaattccgac atgcactatgaactctctggagattctgatctagacctgcttggtgattgtagaaatccc agactggatttggaggattcttatactttaagaggtagttacaccaggaaaaaagatgtt cccacagatggctatgagtcgtcgttgaacttccacaacaacaaccaagaggactggggc tgctctagctgggttccaggcatggagacgagcctccctcccgggcactggactgctgcg gtaaagaaagaagagaagtgtgtgccgccttacgtccaaatccgagatctccacgggatc ctcaggacttacgccaacttctctataacaaaagaactcaaagataccatgagaacttca cacggcctgaggaggcacccgagtttcagtgcaaactgtggcctgcccagctcctggaca agcacttggcaggtggcagacgacctcacccagaacactttagacctggagtatctgcgt tttgcacataaactaaaacagaccataaagaatggggattctcagcattctgcctcctct gccaatgtctttccaaaggagtcaccaacccagatctccattggtgctttcccttcgaca aaaatctctgaggccccatttctgcatcctgcacctaggagcagaagcccccttctggta acagttgtggagtcagatcccagaccacaggggcagcccaggagaggctacacagccagc agtctggacagctcttcctcttggagagagagatgtagtcataatagagatcttagaaat tctcaaagaaatcacactgtttcattccacctcaacaaactgaaatacaacagtactgtg aaggaatctcggaatgatatttcacttattctcaatgagtatgctgaattcaacaaggtg atgaagaatagcaaccaattcattttccaagacaaagagctaaatgatgtttctggagaa gccactgctcaagagatgtatctgcctttcccaggacggtcagcctcctatgaagacata atcatagacgtgtgcaccaatttgcacgtcaaactaagaagtgttgtgaaagaggcttgt aaaagtaccttcctgttctaccttgtcgaaacagaagacaaatcattctttgtaagaaca aagaaccttctgaggaaaggaggccatacagaaattgaacctcagcacttctgtcaagct ttccacagagagaatgatacactaatcatcatcatcagaaatgaagatatatcatcacat ttgcatcagattccttctttgctgaagctgaagcatttccccagtgtcatctttgctgga gtagacagccctggagatgttcttgatcacacctaccaagaactgtttcgtgcaggaggc tttgtgatatcagatgacaagatactagaagctgtaacattagttcaactgaaggaaatt atcaaaatcctggaaaaactaaatggaaatggaagatggaagtggttgcttcactacagg gaaaataaaaagctaaaagaagatgaaagagtggattcaactgcacataagaagaacata atgttgaagtcatttcagagtgcaaatatcattgaattgcttcattatcaccagtgtgac tctcgatcatcaacaaaagcagaaattctgaaatgtttgctaaacctgcaaattcagcat attgatgccaggtttgctgtcctcctaacagtcaagtacaccgagtaa >gi568815588r:5666009_5913258|GENSCAN_predicted_peptide_2|859_aa MVHPELFVLPSGFVVLLTSGMKPQTLTRKPSATCFSHPEPEFNQPQPPTFDPSEIKVVYL RCTSGEVSATSALAPKCPGKRWAKWHLLPRFTVRINRVGVCQTPVQVQPMLKSKGQQLNS FFLWHKQAELCPGSLLSVYKMDSFGCLPFSGRQRTHHIKPCRAKLSLKSTCTVAAQQITP KSSRVKQPFVMLMDSMYRNSDRVQQRWLVSAPRDWGLQLEDLKAEITHVWQMLLADDLSS SSHGPLPRSLHVGCRLLPFAFRHDWKPPEASPEAVAGAMRPVQPAEPDTAGAHRGHAGNM QSFDNRPLSRPLNQSGKHADNNSSKRNRCFQARRKQELRALHTAALAGAAQTHIPRGMRV IQNGVPDPQRDLSRAESTGFPTVNVFTKFTCLGFRGVGLLELRTQLLLTPVSSMKPEIPK RILEKEERGWSRSPCAFSLLGSCVRACPAMNEEYDVIVLGTGLTECILSGIMSVNGKKVL HMDRNPYYGGESASITPLEDLVKMLLYTEVTRYLDFKVTEGSFVYKGGKIYKVPSTEAEA LASSLMGLFEKRRFRKFLVYVANFDEKDPRTFEGIDPKKTTMRDVYKKFDLGQDVIDFTG HALALYRTDDYLDQPCYETINRIKLYSESLARYGKSPYLYPLYGLGELPQGFARLSAIYG GTYMLNKPIEEIIVQNGKVIGVKSEGEIARCKQLICDPSYVKDRVEKVGQVIRVICILSH PIKNTNDANSCQIIIPQNQVNRKSDIYVCMISFAHNVAAQGKYIAIVSTTVETKEPEKEI RPALELLEPIEQKFVSISDLLVPKDLGTESQIFISRTYDATTHFETTCDDIKNIYKRMTG SEFDFEEMKRKKNDIYGED >gi568815588r:5666009_5913258|GENSCAN_predicted_CDS_2|2580_bp atggtgcatccagagttgtttgttcttcccagtgggtttgtggtcttgctgacttcagga atgaagccgcagaccctcacgagaaagccaagtgcaacttgcttcagtcatcctgaacct gagttcaaccaaccgcagccacctacgtttgaccccagcgagatcaaagttgtatatctg aggtgtaccagtggtgaagtcagtgccacatctgcactggcccccaagtgtcctggtaaa cgatgggcaaaatggcacctccttcccaggtttactgtgaggattaaccgagttggtgtg tgtcagaccccggtccaggtccagcccatgctgaagtccaagggtcagcagcttaactct ttctttctctggcacaagcaagcagagctgtgtcctggctccctcctgtctgtctacaag atggacagctttggctgtctccctttctctgggcgccagcgcacccaccacatcaagcca tgtcgagccaagctgagcctcaaaagcacctgtactgtggctgcacagcaaattaccccc aaatctagccgtgtaaagcagccctttgttatgctcatggattctatgtataggaattca gacagggtccagcagcgatggcttgtctctgctcccagggactggggattgcagctggaa gatttgaaggctgaaatcacccatgtctggcagatgctgctggctgacgacctcagttcc tcctcacatgggcctctccctcggtctctccatgtgggctgtcgcctgctccccttcgcc ttccgccatgattggaagcccccggaagcctccccagaagctgttgccggtgctatgcga cctgtacagcctgcagaaccggacactgccggggcccatcgtggccatgccgggaacatg cagtcctttgataatcgccctttatcccggcctctaaatcaaagcggcaaacatgctgac aacaactccagcaaacgcaaccgatgctttcaggctcgacggaaacaggaactgcgggcc ctgcacacagctgcgctcgccggggcagctcagactcacatccccagggggatgcgagtt atccagaacggcgttcctgacccccagagggatttatcacgtgctgaaagcacaggtttt ccaactgtcaacgtctttacgaaattcacctgcttaggctttcgtggggtcggcctcttg gagctgagaacacagcttctgcttacacctgtgtcctcaatgaagccagagattcctaag agaattctagaaaaagaggagcgggggtggtcacggagcccctgcgccttttccttgctc gggtcctgcgtccgcgcctgccccgccatgaatgaggagtacgacgtgatcgtgctgggc accggcctgacggaatgtatcctgtcaggtataatgtcagtgaatggcaagaaagttctt catatggatcgaaacccttactacggaggagagagtgcatctataacaccattggaagat ctggttaagatgctgctttatacagaggtaactcgctatctggattttaaagtgactgaa gggagctttgtctataagggtggaaaaatctacaaggttccttccactgaagcagaagcc ctggcatctagcctaatgggattgtttgaaaaacgtcgcttcaggaaattcctagtgtat gttgccaacttcgatgaaaaagatccaagaacttttgaaggcattgatcctaagaagacc acaatgcgagatgtgtataagaaatttgatttgggtcaagacgttatagattttactggt catgctcttgcactttacagaactgatgattacttagatcaaccgtgttatgaaaccatt aatagaattaaactttacagtgaatctttggcaagatatggcaaaagcccatacctttat ccactctatggccttggagaactgccccaaggatttgcaaggctaagtgctatttatgga ggtacctatatgctgaataaacccattgaagaaatcattgtacagaatggaaaagtaatt ggtgtaaaatctgaaggagaaattgctcgctgtaagcagctcatctgtgaccccagctac gtaaaagatcgggtagaaaaagtgggccaggtgatcagagttatttgcatcctcagccac cccatcaagaacaccaatgatgccaactcctgccagatcattattccacagaaccaagtc aatcgaaagtcagatatctacgtctgcatgatctcctttgcgcacaatgtagcagcacaa gggaagtacattgctatagttagtacaactgtggaaaccaaggagcctgagaaggaaatc agaccagctttggagctcttggaaccaattgaacagaaatttgttagcatcagtgacctc ctggtaccaaaagacttgggaacagaaagccagatctttatttcccgcacatatgatgcc accactcattttgagacaacgtgtgatgacattaaaaacatctataagaggatgacagga tcagagtttgactttgaggaaatgaagcgcaagaagaatgacatctatggggaagactaa >gi568815588r:5666009_5913258|GENSCAN_predicted_peptide_3|405_aa MLLLDHTLAFNEKNAALAAAREFGDTWNLSQVNDRMTAEERDKFPTGQQAVPIMDLQWDL NSDHGYWSCKHLLICVLEGQRRIRKKPVNYLMMSTITQGKEENPSAFLERLREALRKYTP LSPDSLEGQLILKGKFIIQSATDIRRELQKRALGPEQNLEALLNLATSVFYDKDQEEQAE KETLDQRKAAALVMALRQTNLGGSESTENGAGQSPGRACYQCGLQGHLKKDCPTRNKLPP RPCPLCRGNHWKVHCPRGQRFSGPEAPNQMIQQQDRGCPGQAPAHVITLTEPQDGEPIEH DCQQVIVQTYAARDEFLEVPLVNPDLNLYTDESSFVVENWIRRAGYAIVSDVTVLESPVT SILLLLTFGPCIFNLFVKFVSSRIEAIKLQMVLQMEPQMSSTNFY >gi568815588r:5666009_5913258|GENSCAN_predicted_CDS_3|1218_bp atgctattgctagatcacaccctggcctttaatgaaaagaatgcggctttagctgcagcc cgagagtttggagatacctggaatcttagtcaagtaaatgacagaatgacagccgaagaa agggacaaattccctactggtcagcaagccgtccccattatggatctccagtgggacctc aactcagaccatgggtactggagttgtaaacatctgctgatctgtgttctagaaggacaa aggagaattaggaaaaagcctgtgaattatttgatgatgtccaccataactcagggaaag gaagaaaatccttctgccttcctcgagcggctacgggaggccttaagaaaatatactccc ctgtcgcccgactcactcgagggtcaattgatcctaaaaggtaagtttattatccaatca gccacagatatcaggagagagctccaaaagcgagccctgggccctgaacaaaatctggag gcattattaaacctggcaacctctgtgttctatgataaggaccaagaggaacaggctgaa aaggaaacgttagatcagagaaaggctgcagccttagtcatggccctcagacaaaccaac cttggtggttcagagagcacagaaaatggagcaggccaatcacctggtagggcttgttac cagtgtggtttgcaaggacaccttaaaaaagactgtccaacaagaaacaagctgccccct cgcccatgtccactatgccgaggcaatcactggaaggtgcactgccccagaggacaaagg ttctctgggccagaagcccccaaccagatgatccaacaacaggaccgagggtgcccaggg caagcgccagctcatgtcatcaccctcactgagccccaggatggggaaccgatcgagcat gactgccaacaagttatagtccagacttatgctgcccgagatgaattcttagaagtcccc ttagttaatcctgaccttaatctatatactgatgaaagttcatttgtggtggagaattgg atacgaagggcaggttatgccattgttagtgatgtaacagtacttgaaagtcccgtgaca tccatcttgctattactcacctttgggccctgtatttttaacctctttgtcaaatttgtt tcctctaggatcgaggccatcaagctacagatggtcttacaaatggaaccccaaatgagc tcaactaacttctactga >gi568815588r:5666009_5913258|GENSCAN_predicted_peptide_4|505_aa MTINEMEMSHHMPESRKDSKHAPRSPVSTSSAITRFTLNVPLKPLRGCGVQEKTHTWQGS PFQDPPLFANPQLLALPQQFLAFADFEVRRAPLPYVFSPESRTGRCSSRTADASALGSPG PSVLIPDRSVPEEKPPRARNRGFSHAGQAGAVRGQPACGLGRGFEEAALPGTKPGAPARP AAMAQPGDPRRLCRLVQEGRLRALKEELQAAGGCPGPAGDTLLHCAARHGHRDVLAYLAE AWGMDIEATNRDYKRPLHEAASMGHRDCVRYLLGRGAAVDCLKKADWTPLMMACTRKNLG VIQELVEHGANPLLKNKDGWNSFHIASREGDPLILQYLLTVCPAMHGHLEAVKVLLKRCQ YEPDYRDNCGVTALMDAIQCGHIDVARLLLDEHGACLSAEDSLGAQALHRAAVTGQDEAI RFLVSELGVDVDVRATSTHLTALHYAAKRCLRQCPLGLKMVLLCGYFTCTASRGKAEQKG AEQELGPLVLGNTKLSSRCFDFSVK >gi568815588r:5666009_5913258|GENSCAN_predicted_CDS_4|1518_bp atgaccatcaatgagatggagatgtctcatcacatgcctgagagtcgaaaagacagtaag catgccccaaggagccctgtgtccacctcctctgcaattacacgctttacacttaatgtt cccttaaagcccctccgaggctgtggggtgcaggagaagacccacacttggcaggggtcc ccattccaggacccacctctctttgctaaccctcagcttttagccctaccccagcaattc ctggcctttgctgactttgaagtgcggcgcgccccactcccttacgtgttcagtcccgaa tcacgtacgggccgctgcagctccaggacggcggacgccagcgctctcggatccccaggc ccctccgtgctcatcccggaccgctccgtccctgaggaaaaaccgccccgtgcccggaac cgcggcttctcccacgcggggcaggccggggctgtgagggggcagcccgcctgcggacta ggccgggggtttgaggaggcggctctgccggggacaaagccgggggccccggcccgaccc gcggcgatggcccagcccggggacccgcggcgcctctgcaggctggtgcaggagggccgg ctgcgcgccctgaaggaggagctgcaggcggccgggggctgcccggggccggccggggat accctcctgcactgcgccgcgcgccacgggcatcgggacgtgctggcctatctggccgag gcctggggcatggacatcgaggccaccaaccgagactacaagcggcctctgcacgaggcg gcctccatgggccaccgagactgcgtgcgctacctgctgggccggggggcagcggtcgac tgcctgaagaaggccgactggactcctctgatgatggcctgcacaaggaagaacctgggg gtgatccaggagctggtggaacatggcgccaatccactcctgaagaacaaagatggctgg aacagtttccacattgccagtcgagaaggcgaccctctgatcctccagtacctgctcact gtttgcccagcaatgcatggccatttggaggcagtcaaggtgcttcttaagaggtgccaa tatgaaccagactacagagacaactgtggcgtcaccgccttgatggacgcaatccagtgt gggcacatcgacgtcgctaggctgctcctcgatgaacatggggcttgcctttcagcagaa gacagcctgggtgcccaggctctgcacagggcagctgtcacagggcaggacgaagccatc cgattcttggtctctgaacttggcgtcgatgtagatgtgagagccacatcaacccacctc acagcacttcattatgcagctaagagatgcctgcgtcaatgccctctaggtctgaagatg gtcctgttgtgcggctatttcacgtgtacagcctcaagagggaaagctgagcagaagggt gctgagcaggagctggggcccttggtgctgggaaacaccaagctgtcttctaggtgcttc gacttctcagtgaaatag >gi568815588r:5666009_5913258|GENSCAN_predicted_peptide_5|312_aa MIFPAESSCALPQEGSAGPGSPGSAPPSRKRSWSSEEESNQATGTSRWDGVSKKAPRHHL SVPCTRPREARQEAEDSTSRLSAESGETDQDAGDVGPDPIPDSYYGLLGTLPCQEALSHI CSLPSEVLRHVFAFLPVEDLYWNLSLVCHLWREIISDPLFIPWKKLYHRYLMNEEQAVSK VDGILSNCGIEKESDLCVLNLIRYTATTKCSPSVDPERVLWSLRDHPLLPEAEACVRQHL PDLYAAAGGVNIWALVAAVVLLSSSVNDIQRLLFCLRRPSSTVTMPDVTETLYCIAVLLY AMREKGINISNS >gi568815588r:5666009_5913258|GENSCAN_predicted_CDS_5|936_bp atgatctttcctgcagagagcagctgtgcactgcctcaggaaggcagtgcagggccgggc tcaccagggtctgccccgccctccaggaagcggtcttggtcctctgaggaagagagtaac caggctaccgggaccagccggtgggatggagtttctaagaaagctccacggcaccatttg tctgtgccatgcacaaggcctagggaggccaggcaagaagcagaggacagtacgtctcgg ctctctgcggagtctggtgaaaccgaccaagatgctggggacgtgggtcctgatcccatt cctgactcatactatgggcttcttgggaccttgccctgccaggaagcactgagccacatt tgcagcctgcctagtgaggtcctgaggcacgtgtttgccttcctcccggtggaagacctc tattggaacctgagcttggtgtgccacttgtggagggagatcatcagtgacccgctgttc attccttggaagaagctgtaccatcgatacctgatgaatgaagagcaagctgtcagcaaa gtggacggcatcctgtctaactgtggcatagaaaaggagtcagacctgtgtgtgctgaac ctcatacgatacacagccaccactaagtgctctccgagtgtggatcccgagagggtgctg tggagtctgagggaccaccccctcctccccgaggctgaggcgtgtgtgcggcaacacctc cccgacctctacgctgctgccgggggtgtcaacatctgggccctggtggcggctgtggtg ctcctctccagcagtgtgaatgacatccagcgactgctcttctgcctccggagacccagc tccacggtgaccatgccagatgtcaccgagaccctgtactgcatagccgtgcttctctac gccatgagggagaaggggattaacatcagcaatagn