GENSCAN 1.0 Date run: 8-Nov-116 Time: 04:53:28 Sequence gi568815597f:26218018_26420299 : 202282 bp : 49.65% 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 Intr + 1374 1481 108 2 0 93 31 50 0.105 0.28 1.02 Intr + 4596 4753 158 2 2 85 105 190 0.997 19.21 1.03 Intr + 5360 5518 159 2 0 106 49 105 0.915 7.50 1.04 Intr + 7084 7246 163 1 1 93 81 247 0.649 24.48 1.05 Intr + 21068 21092 25 1 1 91 58 24 0.012 -2.70 1.06 Intr + 26149 26301 153 2 0 66 110 168 0.755 16.84 1.07 Intr + 37310 37848 539 0 2 78 80 284 0.221 19.23 1.08 Intr + 39532 39713 182 0 2 60 71 103 0.541 4.47 1.09 Intr + 40126 40243 118 1 1 80 111 63 0.999 8.27 1.10 Intr + 41600 41785 186 1 0 13 84 178 0.628 9.79 1.11 Intr + 50466 50618 153 2 0 47 69 232 0.996 17.47 1.12 Intr + 51443 51597 155 1 2 72 67 106 0.969 5.77 1.13 Intr + 52997 53121 125 2 2 25 61 116 0.817 2.83 1.14 Intr + 53978 54054 77 0 2 74 99 95 0.471 8.43 1.15 Intr + 56947 57054 108 0 0 62 83 147 0.984 12.08 1.16 Intr + 58518 58743 226 2 1 78 74 201 0.998 15.26 1.17 Intr + 59116 59272 157 2 1 84 51 167 0.709 11.67 1.18 Intr + 62084 62186 103 2 1 37 100 156 0.359 11.88 1.19 Intr + 62748 62915 168 2 0 112 39 312 0.999 28.84 1.20 Term + 63041 63106 66 1 0 135 47 154 0.999 13.94 1.21 PlyA + 63478 63483 6 -1.75 2.39 PlyA - 63641 63636 6 -3.64 2.38 Term - 64552 64282 271 0 1 101 42 170 0.939 8.66 2.37 Intr - 64772 64632 141 1 0 46 94 196 0.999 15.47 2.36 Intr - 64920 64847 74 0 2 67 78 96 0.988 4.70 2.35 Intr - 66228 66125 104 1 2 70 94 154 0.975 14.09 2.34 Intr - 66465 66345 121 0 1 99 109 169 0.999 20.17 2.33 Intr - 67524 67447 78 0 0 145 54 57 0.990 7.75 2.32 Intr - 68020 67806 215 2 2 71 91 353 0.999 32.33 2.31 Intr - 76314 76188 127 0 1 115 80 166 0.998 18.75 2.30 Intr - 78978 78902 77 1 2 62 78 52 0.558 0.83 2.29 Intr - 79464 79410 55 0 1 102 91 77 0.988 7.95 2.28 Intr - 80078 79945 134 0 2 56 81 165 0.451 12.96 2.27 Intr - 83007 82909 99 1 0 67 100 35 0.858 2.68 2.26 Intr - 83705 83677 29 1 2 54 115 76 0.965 4.66 2.25 Intr - 88687 88575 113 1 2 108 89 73 0.742 8.58 2.24 Intr - 103241 103101 141 2 0 43 81 80 0.165 3.35 2.23 Intr - 104039 103960 80 0 2 83 1 114 0.119 1.47 2.22 Intr - 104306 104147 160 2 1 41 86 212 0.642 15.86 2.21 Intr - 106293 106135 159 0 0 97 84 233 0.989 23.98 2.20 Intr - 110315 110192 124 1 1 28 94 180 0.681 13.19 2.19 Intr - 110856 110717 140 0 2 88 84 176 0.999 16.46 2.18 Intr - 113601 113472 130 2 1 105 105 154 0.926 19.50 2.17 Intr - 118190 118078 113 2 2 118 94 70 0.991 9.78 2.16 Intr - 118353 118321 33 0 0 104 116 22 0.970 5.02 2.15 Intr - 118715 118589 127 1 1 134 96 252 0.999 31.28 2.14 Intr - 118963 118824 140 1 2 13 86 252 0.999 16.76 2.13 Intr - 119362 119236 127 0 1 108 115 234 0.999 28.78 2.12 Intr - 119657 119521 137 2 2 77 85 103 0.999 8.27 2.11 Intr - 120030 119995 36 0 0 103 90 33 0.917 3.46 2.10 Intr - 120460 120334 127 0 1 96 31 165 0.998 12.28 2.09 Intr - 121412 121273 140 2 2 122 74 141 0.999 15.36 2.08 Intr - 124866 124737 130 2 1 101 92 86 0.982 11.00 2.07 Intr - 125142 125030 113 0 2 101 105 4 0.999 2.58 2.06 Intr - 125276 125229 48 2 0 98 97 29 0.926 3.68 2.05 Intr - 128695 125728 2968 0 1 150 106 1475 0.315 142.87 2.04 Intr - 136768 136029 740 1 2 109 74 282 0.296 19.14 2.03 Intr - 138505 138442 64 0 1 98 97 43 0.992 4.92 2.02 Intr - 139677 139573 105 2 0 50 49 92 0.638 0.83 2.01 Init - 142032 141920 113 0 2 102 78 145 0.997 12.59 2.00 Prom - 142668 142629 40 -16.39 3.09 PlyA - 142835 142830 6 -1.95 3.08 Term - 144005 143634 372 2 0 82 42 352 0.962 24.69 3.07 Intr - 145137 145009 129 0 0 42 89 124 0.864 8.79 3.06 Intr - 146112 145963 150 0 0 -32 32 180 0.573 0.76 3.05 Intr - 147209 146515 695 0 2 89 65 479 0.991 36.93 3.04 Intr - 149780 149576 205 2 1 98 54 146 0.814 10.97 3.03 Intr - 150565 150441 125 2 2 83 110 43 0.341 6.30 3.02 Intr - 152679 152616 64 0 1 95 23 77 0.518 0.19 3.01 Init - 157670 157512 159 2 0 63 72 80 0.407 3.72 3.00 Prom - 177864 177825 40 -3.66 4.00 Prom + 187369 187408 40 -5.46 4.01 Init + 192875 192905 31 1 1 97 52 63 0.602 3.50 4.02 Intr + 193369 193565 197 2 2 133 94 281 0.883 32.33 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 100001 100054 54 1 0 83 110 125 0.987 13.50 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597f:26218018_26420299|GENSCAN_predicted_peptide_1|1042_aa LRDTYILLKSSISTNASANCSEERRPKSCTQDAESWTNSSHALYSLEVQLLQVLPGFISN DSTMLSFSCTYTLVVNVSQTHPYQVFSFPYSTIHVLGTGDTIIILGIFTDLQLLTLLENR TVPLGMPFYVVLKTISSDLPWCCPVSNRLLQGLRANGASLEVTLAFNLIRFSTSDTLYLH GRVTLCDTRARRPCQPVPMAKKIHGSDVIQKGSSLGTEWQTPVISEPFRSRFSRCSSVAD SGDTAIGTSCSDIAEGLAESVGMTRNGDLGAMKHSPGLSRDLMYFSGATGENGIEQSWFP AVGHERQEEARKFDIPSMESTLNQSAMMETLYSDPHHRVRFHNPRTSTSKELYRVLPEAK KAPGSGAVFERNGPHSNSSGVLPLGLQPAPGLSKPLPSQVWQPSPDTWHPREQSCELSTC RQQLELIRLQMEQMQACMGQDQAHLGLLAFQLQNGAICHHPAAFGPSLPILEPAQWISIL NSNEHLLKEKELLIDKQRKHISQLEQKVRESELQVHSALLGRPAPFGDVCLLRLQELQRE NTFLRAQFAQKTEALSREKIDLEKKLSASEVEVQLIRESLKVALQKHSEEVKKQEERVKG RDKHINNLKKKCQKESEQNREKQQRIETLERYLADLPTLEDHQKQSQQLKDSELKSTELQ EKVTELESLLEETQAICREKEIQLESLRQREAEFSSAGHSLQDKQSVEETSGEGPEVEME SWQKRYDSLQKVTEGVQAVTEAFLDNFAFQIVEKQQQKMDQLRSQVQSLEQEVAQEEGTS QALREEAQRRDSALQQLRTAVKELSVQNQDLIEKNLTLQEHLRQAQPGSPPSPDTAQLAL ELHQELASCLQDLQAVCSIVTQRAQGHDPNLSLLLGIHSAQHPETQLDLQKPDVIKRKLE EVQQLRRDIEDLRTTMSDRYAQDMGENCVTHAAAATAALCPPARLSTPSMSGLRVYSTSV TGSREIKSQQSEVTRILDGKRIQYQLVDISQDNALRDEMRALAGNPKATPPQIVNGDQYC GDYELFVEAVEQNTLQEFLKLA >gi568815597f:26218018_26420299|GENSCAN_predicted_CDS_1|3129_bp ctcagagacacatacattttattgaaaagtagtatcagcaccaatgcttctgcaaattgt tctgaagaaaggagacctaagagctgcacacaggatgcagagagctggaccaacagcagc cacgccctgtactctctggaggtgcagcttctgcaggttctccctggcttcatcagcaat gactccacaatgctcagcttcagctgcacgtataccctggtggtgaatgtcagccagacc cacccctaccaggtattctccttcccatatagcaccatccatgttctgggcactggggac accatcatcatcttgggcatcttcacagaccttcagctcttaactctgcttgaaaacaga actgttcctcttggcatgcccttctacgtagtcctcaagacaataagcagtgatttgccc tggtgctgccccgtcagcaaccggctgctccagggcctgcgggccaacggggcctctctg gaggtgaccttggccttcaacctgatccgcttctcgaccagcgatacactgtacctgcac ggccgagtgaccctgtgtgacacgcgggcaagacgcccatgccaaccagtccccatggct aagaagattcatggttccgatgtgattcagaagggcagttccctggggactgaatggcag accccagttatctcggagccctttcggagccgcttcagccgctgttcaagtgtagccgac agtggggacacagccattggtacatcatgctcagatattgcggaggggttggctgaaagt gtgggaatgacaagaaatggagacctcggtgcaatgaaacattctccaggcctatctaga gatctcatgtatttctctggtgctactggagaaaatggaattgagcagtcctggtttcca gcagtgggccatgaaagacaagaagaggcgaggaagtttgatattcctagcatggaatct accctcaatcagtcggcaatgatggagacactttattcagatcctcaccaccgagtccgc ttccacaacccaagaaccagcacaagtaaggagttgtacagagtgttgcctgaggccaag aaggcaccgggcagcggggcagtgtttgagcggaatggaccacattctaatagcagtggg gtcctccctttgggactccagcctgctcccgggctctccaagcctctgccctctcaggtg tggcagccgagtcctgacacttggcatccccgagagcaatcttgtgaactcagcacttgt cggcagcagctggaattgattcgtttacagatggagcaaatgcaggcgtgtatgggtcaa gatcaagctcatctgggcctacttgcctttcagcttcagaatggagccatctgccaccat cctgctgcttttggtccttcactgcccatcttagagccagcacagtggatcagcatcttg aacagtaatgaacaccttctgaaggaaaaagagcttctcattgacaagcagaggaaacac atctctcagctggagcagaaagtgcgagagagcgaactgcaagtccacagtgccctcttg ggccgccctgccccctttggtgatgtctgcttgctgaggctacaggaattgcagcgagaa aacactttcttacgtgcacagtttgcacagaagacagaagccttgagcagagaaaagatt gaccttgaaaagaaactctctgcttctgaagttgaagtccagctcatcagagagtcgctc aaagtggcgttgcagaagcattctgaggaagtgaagaaacaggaagaaagggtcaaaggt cgtgataaacatatcaataatttgaaaaagaaatgccagaaggaatcagagcagaaccgg gagaagcagcagcgtattgagaccttggagcgctacctggctgacctgcccacactggaa gaccatcagaagcagagccagcagcttaaggattctgagttgaagagcacagagctgcag gagaaagtgactgagctggagagtttgctggaggagacccaggcaatctgcagagagaag gagattcaactggaaagcctgaggcagagagaagcagaattctcctccgctggacatagc ctgcaagataaacagtctgtggaggagaccagtggagaaggtccagaagtggaaatggag tcctggcagaagcgatacgattcgctccaaaaggtgactgagggtgtccaggctgtaacg gaggccttccttgataactttgcctttcagattgtggagaagcagcagcagaagatggat cagttgcgctcacaagtacagagcctagagcaggaagtggctcaagaagaaggaacaagc caggccctgagagaggaggcccagcgaagggattcagccctgcagcagctgcgcacagcc gtgaaggagctttcagtgcaaaaccaggacttgattgagaagaatctgacactccaggaa cacctgcgccaggcccaaccagggtctccaccttcaccagacacggcccagctggcactt gagctgcaccaggagttggccagttgccttcaagatctgcaggctgtctgtagcattgtg acccagagggcccagggccatgaccccaatctctccctgctcctgggcattcactcagca cagcacccagagactcagctagatttgcagaagccagatgtgatcaagaggaaactagaa gaggttcaacagctgcgtcgtgacattgaggacttaaggaccaccatgtcagacagatat gcccaggacatgggagaaaactgtgtcacacatgcagctgccgctaccgccgccctctgc ccgccggcccgtctgtctacccccagcatgagcggcctgcgcgtctacagcacgtcggtc accggctcccgcgaaatcaagtcccagcagagcgaggtgacccgaatcctggatgggaag cgcatccaataccagctagtggacatctcccaggacaacgccctgagggatgagatgcga gccttggcaggcaaccccaaggccaccccaccccagattgtcaacggggaccagtactgt ggggactatgagctcttcgtggaggctgtggaacaaaacacgctgcaggagttcctgaag ctggcttga >gi568815597f:26218018_26420299|GENSCAN_predicted_peptide_2|2610_aa MAERCGGPGACLAHLLAGLGVRREHRGKEISEATSRERRKNILWKAKSKGREGSIENPRA PQLPGPTSVKSIGPLDGRSCSDLAQGTTCNVSLKAQGQSCSEWDIHVGDHDDFWIWKQQG ISGGPAQSLGRLQRPAVGSAFDLASHASLGPESLALEVASGESARTRLPQYPGPAPGHGE QGSSGCTCQQSPPTASEVPLRPEPPSNLEDAPLLLHPASFPRAEGTKGKPATPGTALPEP AQTLHTRPSSRRTRYYITVTLLGHRQAPGEEGEEPAQPAPHLCGPEESEGWWEPPQGPRP ITGCRTAPPQEPQLRAQSHQGSTAQQQELQAGWTPGSPRRLELDHSGTRTPPDRLPGPHM EEAGGPMARAKARVVSATLTWRQRPPTQEEIKHGFHKVSLVSGAQMEAPQKEMFEFSRRE EVEVNGFATQEEETVNCQGPRDTAGSKNFQSHGPIFSKKYIPPPKEKRPEGRLKEAVDQS DGSRQAPRTEPPCVGAMARTELLVPLPGPREPSPHPGVGLTSGSSRSLEEYRVTRTVRTT TVVGGHVDRRMSSSVTVRPVSSGEALPRGRQVSRMVPPVVVGSPPGSPSRSQAVKVLSNL VPAGHSPPASHLPRPTAGGPRSTGLGSTVGAALRQLPETGTAELKDSSALASTGIPASAH LPKNQDAPAACPDRDQGRAPDARACELWQVLGAPSSTELPLQTSQGQASVPSSPRLETHV PSPGLTHPAKQPVVPTHPGARLTPLVLPPKKKDGPVDPPAATVLPMVRSEHVTVPGQPPA PSTTRRKDVPSPGGLSAPSSPRNKFVQNSENVPVLPFTQREVVKGPGAPAASSPTRKEVV QGSSASAASSPTWKEVVKGPGAPAASSPTQKEVVQGSSAPAALFPTWKEVVKGPGAPDAS FPTWKEVVKGPGAPAASSPTQKEVVQGSGAPAALSTTPKEVVKGPGAPAASSPTQKEVVK GPCAPAASSPTQKEVVQGSGAPAALSPKSTEVVQGPKGSSSIQKEAVQGIAGSLAPPLTK EETVQGPIAPATSLPKQDKGVQDSEGSPISSLTQKEVVQDPDALPAPSSSVDRVSPSPGG TPAPVPTGAEASTESQLVSDPTEGKTCTETSREEDEVALAADLEIFLDTLRSMEPPEILR THRLPRAPRSSYLSMYATLPAIEEDQLGPWVLGPGPQEVPSLEEKEEEEEEEPENPYLSD DEKLQRRQEKAGPSPSRDLHPARPTQVSCSPLEMMKKHVAGTKGPHSELGLELQGGSRPT SRLGGSLLFGSLVPTAKEASTPEPLGTKLSALLPHGAPGLRKVPGQLPLLCSERSSPTEK LACSLPLEGWSPALKTQGKLNTRPGKVIFFSESGCQGSGREVWGDIVDASGWAPVASIRV VRGCWVLYEEPEFRGQKLVLPEGDMELRTPGTKWSPQGIGSLRRVVWDYSTPEISLFSEE GLKGEQVKLTEALKNSQGLEKPLQVASATVSAGLWLLYPKPLFEDTPYILEPGEYPTSEA WGTSDPSVGSLKPMRLGCPSVEKPGEPRAVVYEAPGFQGRSWEVSRDIYNLQQPEDSQSP HLASVGSLRVLGGCWVGYEKEGFRGHQYLLEEGEYPDWSHWGGYDELLTSLRVIRTDFGD PAVVLFEAMDFEGHGVEVSKALPDVELVQHGPSTQAIHVLSGVWVAYQEVGFSGEQYVLE KGVYRNCEDWGAGNSTLASLQPVLQVGEHDLHFVSKIQLFSRPDFLGDHFSFEDDQAALP ASFRPQSCRVHGGSWILFDETNFEGDQHILSEGEFPTLTAMGCLASTVLGSLQKVSLHFS EPSIFLYGLECFEGKEIELSREVRSLQAEGFNNHVLSVRIKGGIWVLCEHSDFRGRQWLV GSCEITNWLTYSGTQRVGSLYPIKQRRVYFRLWNAALGGFLAVPDHVEDMKAGRVVVADP QAGGSCIWYYEDGLLKNQMAPTMSLQVIGPPSPGSKVVLWAESRLPRQTWSISESGHICS QMFEGQILDVKGGRGYDRDHVVLWEPDEDRASQIWTIHGSAALTPTLVLEKPGQGIQVSN PAQRGQDIEERELPLSLEVLKEEAKVAQASLKLANEKCTGPGRLGNRVTTRWRRCGTASG PAWRRGIRIYGDEDEVDMLSDGCGSEEKISVPSCYGGIGAPVSRQGLGSKDFVCLAVPAS HDSELMAFMTRKLWDLEQQVKAQTDEILSKDQKIAALEDLVQTLRPHPAEATLQRQEELE TMCVQLQRQVREMERFLSDYGLQWVGEPMDQEDSESKTVSEHGERDWMTAKKFWKPGDSL APPEVDFDRLLASLQDLSELVVEGDTQVTPVPGGARLRTLEPIPLKLYRNGIMMFDGPFQ PFYDPSTQRCLRDILDGFFPSELQRLYPNGVPFKVSDLRNQVYLEDGLDPFPGEGRVVGR QLMHKALDRVEEHPGSRMTAEKFLNRLPKFVIRQGEVIDIRGPIRDTLQNCCPLPARIQE IVVETPTLAAERERSQESPNTPAPPLSMLRIKSENGEQAFLLMMQPDNTIGDVRALLAQA RVMDASAFEIFSTFPPTLYQDDTLTLQAAGLVPKAALLLRARRAPKSSLKFSPGPCPGPG PGPSPGPGPGPSPGPGPGPSPCPGPSPSPQ >gi568815597f:26218018_26420299|GENSCAN_predicted_CDS_2|7833_bp atggccgagcggtgcggaggcccgggggcctgcctggcccaccttttggctgggttaggg gtccggagggagcacagagggaaagagatctcggaggccacatcccgggagagaaggaaa aacatcctgtggaaggccaagtcaaaaggcagggaaggcagtattgagaatccgagagcc ccacagctccccggtcctacatccgtgaagagcatagggcctctggatggccggagctgc tctgacctagcccagggtaccacctgcaatgtcagcctcaaggcccaaggccagagctgc tcagaatgggacatccatgtaggggaccatgatgatttctggatttggaagcaacaagga atctcggggggtcctgctcagtccctggggcgcctacagaggccagcggtgggcagcgcc ttcgacctggccagccatgcctccctggggcctgagagcctggccctggaagtggcctca ggagagtctgctcgtaccaggctcccccaatacccagggcctgctcctggacatggggag cagggatcctcaggctgcacctgtcagcagtctccacccacagcttcagaggtccctctg aggcctgagccacccagcaacctggaagacgcacccctgctgctccaccctgcatccttc cccagggcagaggggacaaagggcaagcccgccaccccagggactgccttgccagagcct gcccagaccctacacacgcgtccctcttccaggaggacccgctactacatcactgtcacc ctgctggggcacaggcaagcaccaggggaggagggtgaagaaccggcccaaccagctcca cacctctgcggccctgaggaatctgagggctggtgggagcctccccaggggccacgcccc atcacagggtgccggacggccccgcctcaggaaccccagctgagagcccaatcgcatcag gggagcacggcccagcagcaggagctccaggctggctggacacctgggtccccacgcaga ctggagctggaccacagtgggacaaggacacctccagacaggttgccagggccccacatg gaggaggcaggtgggcccatggcccgggccaaggcccgagtggtaagtgccacattgaca tggcggcagcggccccccacccaggaagagatcaaacatggttttcacaaggtgtccctg gtgtcaggggcccagatggaagccccgcagaaggagatgtttgagttcagccgtcgagag gaagtggaagtcaatggctttgcaacacaggaagaagagactgtgaattgccagggccct cgggatacagctggctccaagaacttccagagccatggacccatcttttccaagaagtac ataccacctcccaaggagaaaaggcctgaggggaggctgaaggaggctgtggaccagagt gatggcagccgccaagctcccaggactgagcccccatgtgtgggagctatggccaggact gagcttttggttcccctgcctgggccccgagagccaagtccccacccaggtgtaggtctc accagtggtagctcccggagcctcgaggaataccgagtgacacgcactgtgcggaccacc acagtggtgggaggtcatgtggaccggcggatgagcagctctgtgactgtgaggccagtg tcctcaggcgaggccctgccacggggccgtcaggtctcccgcatggtgccgccagtggtg gtgggctccccaccaggctcgcccagccgcagccaggccgtgaaagtgctaagtaacctc gtgcctgctgggcacagcccccctgccagtcacctgcccaggcccacggctggcgggcca aggagcacaggtctgggcagcacagtgggggcagccttgaggcagctgcctgagaccggg acagcagagcttaaagacagctctgccctggcctctacaggcatcccagccagtgctcac ctgcctaagaatcaggatgcccctgcagcctgtccggacagagaccagggcagagccccg gatgccagggcctgtgagctctggcaggtgctgggagcccccagttccactgagctccct ctccagacttctcagggtcaagcatcagtcccctcctctcccagactcgagacccatgtc ccctctcctggcctaactcaccctgcaaagcagcctgtggtgcccactcaccccggggcc cggctcactccccttgttctgccccctaaaaaaaaggacgggcccgtggacccccctgct gccaccgtcctgcccatggtgaggagcgagcatgtgacagtccctggacaacctcctgct ccatccactacaagaaggaaggatgtccccagcccaggaggtctttctgctccatcgtcc ccaaggaataagtttgttcagaactctgaaaatgtccctgtcctcccctttacccagagg gaggtcgtgaagggccccggtgctcctgctgcctcatctcccacccggaaggaggtggtg caggggtccagtgcttctgctgcctcgtcccccacctggaaagaggtcgtgaagggccct ggtgctcctgctgcctcatctcccacccagaaggaggtggtgcaggggtccagtgctcct gctgccttgttccccacctggaaagaggtcgtgaagggccccggtgctcctgatgcctca tttcccacctggaaagaggttgtgaagggccctggtgctcctgctgcctcatcccccacc cagaaggaggtggtgcaggggtctggtgctcctgctgccttgtccaccaccccaaaagag gttgtgaagggccctggtgctcctgctgcctcatcgcccacccagaaagaggttgtgaag ggcccctgtgctcctgctgcctcatctcccacccagaaggaggtggtgcaggggtctggt gctcctgctgccttgtcccccaagtcaactgaggttgtccagggcccaaaaggcagcagt agcatccaaaaagaggctgtccagggtattgcaggcagccttgccccgcccctcaccaag gaagagactgttcaaggcccaattgctcctgccacctcactccccaaacaggataagggg gtccaggactctgaagggagccccatctcatctctcacccagaaagaggttgtgcaggac cctgatgctctccctgccccatcttcctcagtggacagggtgtcccccagcccaggaggc acccctgccccagtgccaacaggagcagaggccagcacggagtcccagcttgtctctgat cccaccgagggcaagacgtgcacagagacatcaagggaggaggatgaggtggccctggcc gctgacctggagatattcctggatacgctgcggagcatggagccccctgagatcctccgc actcaccggctgccacgagcccctcgctcctcctacctgtccatgtacgccacgctgcct gccattgaggaggaccagctggggccatgggtgctgggccccggaccccaggaggtgcct tcactggaagagaaagaggaggaggaggaggaggaaccagagaacccctatctgagtgac gatgagaagctccagcgcaggcaggagaaagctgggcccagcccctccagggacctccac cctgccagacccacccaggtctcctgctctcctctggagatgatgaagaagcatgtagca ggaaccaagggcccccactcagagctgggattggaactgcagggaggcagcaggcccact tcccgtcttggaggcagccttctgttcggcagtctggtgcctaccgccaaggaggcctcc accccggaaccgctgggcacaaaactatctgctctgctgccccatggggcaccggggctc aggaaggtgccaggacagttgcccctgctttgcagtgaaagatcatccccaacggagaag cttgcctgttccctgcccctggaggggtggagcccagccttaaagacccagggcaagctg aacaccaggcctggaaaggtgatcttcttctcagagtctggctgccaaggcagtggcagg gaggtctggggagacatcgttgatgcctcaggctgggcccccgtagcctccataagggta gttcgaggctgctgggtgctgtacgaagagccagagttccggggtcagaagctggtcctg cctgaaggagacatggaactcagaaccccagggacaaagtggagtccccaaggcatcggc tccctaaggagggttgtctgggactacagcaccccggaaatcagcctcttctctgaggag ggcctcaagggggagcaagtgaagctaacagaggccttgaagaattcccagggtctggag aagcccctgcaggtggcatctgccaccgtctctgcaggactgtggctactgtaccccaaa ccattattcgaagacactccctacatcctggaacctggagagtaccccacctcagaggcc tggggcacatcggaccccagcgtgggctccctgaagcccatgagattgggctgcccaagt gtggagaagccaggggagcccagggctgtggtgtatgaggccccaggctttcagggccgc agctgggaagtgagccgagacatctacaaccttcagcagccagaggacagccagagcccc cacctggcctctgtggggtccctgagagttctcggaggctgctgggtgggctacgagaag gagggcttccggggccaccagtatctgctggaggagggggaatacccagactggtcacac tggggaggctatgacgagttgctgacctccctccgggtcatccggacggacttcggggac ccggccgtcgtgctatttgaggccatggacttcgaggggcacggcgtggaggtgagcaag gcattgccggatgtggagctggtgcaacacggccccagcacacaggccatccacgtgctc agcggcgtgtgggtggcctaccaggaggtgggcttctccggggaacagtacgtgctggag aagggcgtgtatcgtaactgcgaggactggggcgctggcaacagcaccctcgcctcgctg cagccggtcctacaggtcggggagcacgatctgcacttcgtctcaaagattcagcttttc tcccgccccgactttctgggcgaccacttctctttcgaagatgaccaggccgctctgccc gcctccttccgacctcagtcctgccgggtccacggcggcagctggatcctgtttgatgag acgaacttcgagggtgaccagcacattctctctgagggcgagttccccactctcacggcc atgggctgcctcgcctccacagtcctgggctctctccagaaggtatccctgcacttttca gagccttccattttcctgtatggactcgagtgcttcgaggggaaggagatcgagctcagc agggaggtgcggagcctgcaagccgagggcttcaacaaccatgtgctgtctgtgcggatc aaggggggcatttgggtgctatgtgaacacagtgacttccggggccgccagtggctggtg ggaagctgcgagatcaccaactggctgacctacagcggcacccagagggtgggctccctc taccccatcaagcagcgccgggtttatttccgcctctggaatgcagcactggggggattc ctggcagtgccggaccatgtggaggacatgaaagcaggccgtgtggtggtcgccgacccc caagctggaggtagctgcatctggtactacgaggatgggctgctgaagaaccagatggcc cccaccatgagcctacaggtgattggaccccctagcccaggctccaaggtggtgctgtgg gccgagagccgcctgccgcgccagacgtggagcatcagtgaatcgggccacatctgcagc cagatgttcgaaggccagatcctggacgtgaagggaggccggggctacgaccgggaccac gtggtgctatgggagccggatgaggacagggcatcccagatctggactatccacggctct gctgcactcaccccaactctggtcttagagaagccaggacagggcatccaggtctctaac ccagctcagagagggcaggacatagaagagagggagctccctctgtccctggaggtcctc aaggaagaagccaaggttgctcaggcctccctcaaactagccaatgagaagtgcacgggt cctggtcgcctaggaaaccgcgtgacaacaagatggcggcgctgcgggacggctagcggc cctgcgtggaggcgaggaatccgcatctatggagatgaagatgaggtggacatgttgagt gatgggtgtggctcagaagaaaagatctcagtcccttcctgctatggcggcataggtgcc cctgtgagtcggcaaggtctgggctctaaagactttgtgtgcttggcagtccctgcatcc catgactcggagctgatggccttcatgacgaggaagttgtgggacctggagcagcaggtg aaggcccagactgatgagatactgtccaaggatcagaagatagcggccctagaggacctg gtgcagaccctccggccacacccagccgaggcaaccctgcagcggcaggaggaactggag acgatgtgtgtgcagctgcagcggcaggtcagggagatggagcggttcctcagtgactat ggcctgcagtgggtgggcgagcccatggaccaggaggactcagagagcaagacagtctca gagcatggcgagagggactggatgacagccaagaagttctggaagccaggggactcattg gcgccccctgaggtggactttgacaggctgctggccagcctgcaggatcttagtgagctg gtggtagagggtgacacccaagtgacaccagtgcccggcggggcacggctgcgtaccctc gagcccatcccgctgaagctctaccggaatggcatcatgatgttcgacgggcccttccag cccttctacgatccctccacacagcgctgcctccgagacatattggatggcttctttccc tcagagctccagcgactgtaccccaatggggtcccctttaaggtgagtgacttgcgcaat caggtctacctggaggatggactggaccccttcccaggcgagggccgtgtggtgggcagg cagctgatgcacaaggccttggacagggtggaggagcacccaggctccaggatgactgct gagaaatttctgaacaggctccccaagtttgtgatccggcaaggcgaggtgattgacatc cggggccccatcagggacaccttgcagaactgctgcccattgcctgcccggatccaggag attgtggtggagacgcccaccttggccgctgagcgagagaggagccaggagtcacccaac acgccggcacccccgctctccatgctgcgcatcaagtctgagaatggggaacaggccttc ctactgatgatgcagcctgacaacaccattggggacgtgcgagctctgctagcgcaggcc agggtcatggatgcctctgcctttgagatcttcagcacattcccgcccaccctctaccag gacgatacactcacgctgcaggctgcaggccttgtgcccaaagcagcactgctgctgcgg gcacgccgagccccgaagtccagcctgaaattcagtcctggtccctgtcccggtcccggt cccggccccagtcccggtcccggtcccggccccagtcccggtcccggtcccggccccagt ccctgtcctggacccagtcccagcccccaataa >gi568815597f:26218018_26420299|GENSCAN_predicted_peptide_3|632_aa MPRTWTPPTSDIFWPASPEEGPLREREPRNLAYQQKEAIKLQMIMQQRLQPVQPGALLQH RVESPTASSPSGVHGNGDMKEESAAQLGCCHRPMALGGTGGSLSPSLDFQLFRGDQVFSA CRPLPDMVDAHGPSCASWLCPLPLAPGRSALLACLQDLDLNLCTPQPAPLGTDLQGLQED ALSMKHEPPGLQASSTDDKKFTVKYPQNKDKLGKQPERAGEGAPCPAFSSHNSSSPPPLQ NRKSPSPLAFCPCPPVNSISKELPFLLHAFYPGYPLLLPPPHLFTYGALPSDQCPHLLML PQDPSYPTMAMPSLLMMVNELGHPSARWETLLPYPGAFQASGQALPSQARNPGAGAAPTD SPGLERGGMASPAKRVPLSSQTGTAALPYPLKKKNGKILYECNICGKSFGQLSNLKMREW VDFGESRPQSDDQPFSSGIPQICATADAIGLTIRIAQQGAPRERISVHLRVHSGERPFQC ALCQKSFTQLAHLQKHHLVHTGERPHKCSVCHKRFSSSSNLKTHLRLHSGARPFQCSVCR SRFTQHIHLKLHHRLHAPQPCGLVHTQLPLASLACLAQWHQGALDLMAVASEKHMGYDID EVKVSSTSQGKARAVSLSSAGTPLVMGQDQNN >gi568815597f:26218018_26420299|GENSCAN_predicted_CDS_3|1899_bp atgccaagaacctggacaccccccaccagtgacatattttggccagccagcccggaggaa gggccgctcagggaaagagagcccagaaacctggcataccagcaaaaggaggccatcaag cttcagatgatcatgcaacaaaggctccagccagtccagccaggagcactgctgcagcac cgagtggagagccccacagccagcagcccttcgggggtccatggtaatggggatatgaag gaagaatcagctgcacaattaggttgttgtcataggcccatggccctgggaggtacaggg ggctccctgtcccccagcctggacttccagctcttccgaggtgaccaggtcttctcagcc tgcagaccacttccagacatggtggatgctcatggcccatcctgtgccagctggctgtgt cccttgcccctggcaccgggcaggtctgcactgctggcctgcctacaggacctggacctg aacctgtgcaccccacagccggcacccctgggcacagacctgcagggcctccaagaggac gccttgagcatgaagcacgagccaccagggctgcaggccagctccaccgatgacaagaaa ttcacagtcaagtacccacagaacaaggacaagctgggaaaacagccagaaagagctggc gagggggccccctgcccagccttctcctctcataacagctcttccccaccaccgctgcag aacagaaagagccccagccccttggctttctgcccctgtccccctgtcaactccatctcc aaggagctcccatttctcctccacgccttctaccctggatacccacttctcctgcctcca ccccacctgttcacctatggggccctaccttctgaccaatgtccccacctcctcatgctg ccccaagacccctcctaccccaccatggctatgcctagcctgctgatgatggtcaatgag ctggggcaccccagcgctcggtgggagaccctgcttccctacccaggggccttccaagcc tctggccaagctctgccttcccaggcccgaaatccaggtgctggagctgccccaaccgac tccccaggcctggagcgtggtggcatggcatctccagcaaagcgggtcccattgagttcc cagacaggcaccgcagccttgccttacccgctgaaaaagaagaatggcaaaatcctgtac gagtgcaacatatgtggcaagagctttgggcagctctccaatctcaagatgagggaatgg gtagattttggtgagtctagaccacagtccgatgaccaacctttttcaagtgggatccca caaatctgcgcgaccgccgatgcgattggcctcaccatccgcatcgcccagcagggggcg cccagggagcgcatctcagtccacctgcgtgtgcacagtggagagcgtccattccagtgt gccttgtgccagaagagcttcactcaacttgcccacctgcagaagcaccacctggtgcac actggggagcggccccacaagtgctcggtgtgccacaagcgcttcagcagctccagtaac ctcaagacccacctgcgcctgcactccggggcccggcccttccagtgcagtgtctgccgg agtcgcttcacccagcacatccacctgaagctgcaccatcggctgcatgccccacagccc tgtggcctggtgcacacccagctgcccctggcctctctggcctgccttgcccaatggcac cagggggcactagatcttatggcggtggcatctgagaaacacatgggctatgacatagat gaggtcaaagtgtcctcgacatcccaggggaaagcaagagcagtgagcctgagcagtgcc gggactcccctggtgatggggcaggaccagaacaattaa >gi568815597f:26218018_26420299|GENSCAN_predicted_peptide_4|76_aa MGSVSNQQFAGGCAKAAEEAPEEAPEDAARAADEPQLLHGAGICKWFNVRMGFGFLSMTA RAGVALDPPVDVFVHQ >gi568815597f:26218018_26420299|GENSCAN_predicted_CDS_4|228_bp atgggctccgtgtccaaccagcagtttgcaggtggctgcgccaaggcggcagaagaggcg cccgaggaggcgccggaggacgcggcccgggcggcggacgagcctcagctgctgcacggt gcgggcatctgtaagtggttcaacgtgcgcatggggttcggcttcctgtccatgaccgcc cgcgccggggtcgcgctcgaccccccagtggatgtctttgtgcaccag