GENSCAN 1.0 Date run: 5-Nov-116 Time: 17:49:14 Sequence gi568815588f:26116810_26400958 : 284149 bp : 40.81% C+G : Isochore 1 ( 0 - 43 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 + 3867 3993 127 2 1 63 93 80 0.953 5.33 1.02 Intr + 8589 8799 211 1 1 123 93 98 0.990 10.85 1.03 Intr + 11582 11729 148 2 1 87 111 83 0.993 9.82 1.04 Intr + 26639 26792 154 1 1 67 95 127 0.986 10.02 1.05 Intr + 28637 28725 89 0 2 59 116 45 0.972 3.17 1.06 Intr + 30621 30750 130 2 1 65 110 68 0.976 6.05 1.07 Intr + 37041 37120 80 1 2 65 116 4 0.726 -0.75 1.08 Intr + 37937 38014 78 1 0 85 52 81 0.662 3.03 1.09 Intr + 40501 40706 206 0 2 31 80 150 0.691 5.58 1.10 Intr + 49258 49369 112 1 1 71 29 99 0.776 1.76 1.11 Intr + 51903 52065 163 2 1 87 89 29 0.966 1.53 1.12 Intr + 53607 53730 124 1 1 88 70 106 0.886 7.52 1.13 Intr + 55421 55582 162 2 0 131 -23 124 0.499 3.77 1.14 Intr + 56854 57748 895 1 1 25 91 628 0.753 47.18 1.15 Intr + 59892 60036 145 2 1 102 98 7 0.326 2.03 1.16 Intr + 60544 60588 45 2 0 107 86 12 0.121 0.36 1.17 Intr + 76396 76502 107 2 2 90 103 35 0.055 4.21 1.18 Intr + 77473 77600 128 0 2 57 93 84 0.055 4.36 1.19 Intr + 81449 81617 169 2 1 107 -5 86 0.010 0.23 1.20 Intr + 84456 84496 41 2 2 69 91 53 0.033 -0.20 1.21 Intr + 86155 86298 144 1 0 68 93 70 0.053 3.98 1.22 Intr + 94836 94969 134 0 2 80 61 66 0.056 2.47 1.23 Intr + 97992 98334 343 1 1 66 55 214 0.267 9.46 1.24 Intr + 99014 99137 124 2 1 75 74 55 0.522 2.47 1.25 Intr + 99248 99737 490 1 1 105 34 210 0.753 8.95 1.26 Intr + 99934 100076 143 2 2 52 91 161 0.740 11.95 1.27 Intr + 100801 101182 382 0 1 119 103 316 0.730 29.76 1.28 Intr + 102234 102467 234 1 0 64 72 202 0.999 12.94 1.29 Intr + 107078 107168 91 0 1 69 103 67 0.947 4.43 1.30 Intr + 107730 107842 113 0 2 61 45 94 0.816 1.50 1.31 Intr + 112853 112968 116 0 2 92 50 64 0.580 2.25 1.32 Intr + 116598 116680 83 2 2 57 99 81 0.922 3.62 1.33 Intr + 120044 120130 87 2 0 117 69 65 0.824 5.67 1.34 Intr + 122071 122131 61 1 1 26 93 54 0.523 -2.48 1.35 Intr + 127395 127507 113 2 2 48 12 175 0.013 4.16 1.36 Intr + 131565 131703 139 0 1 65 42 101 0.003 2.75 1.37 Intr + 135419 135523 105 1 0 58 73 54 0.000 0.39 1.38 Intr + 150712 150732 21 0 0 119 102 2 0.666 1.52 1.39 Intr + 150804 150848 45 2 0 117 91 29 0.836 3.79 1.40 Intr + 152149 152364 216 0 0 13 106 82 0.335 0.28 1.41 Intr + 153831 153947 117 2 0 74 95 80 0.982 7.04 1.42 Intr + 156827 156891 65 1 2 76 87 31 0.932 -1.60 1.43 Intr + 157654 157942 289 1 1 24 86 182 0.227 7.93 1.44 Intr + 162120 162281 162 2 0 58 31 128 0.304 3.35 1.45 Intr + 169536 169685 150 2 0 95 113 59 0.474 8.54 1.46 Intr + 175656 175763 108 2 0 105 95 73 0.998 9.26 1.47 Intr + 176093 176182 90 1 0 97 86 53 0.909 5.27 1.48 Term + 183979 184152 174 0 0 92 38 186 0.971 10.78 1.49 PlyA + 184556 184561 6 1.05 2.00 Prom + 190713 190752 40 -2.85 2.01 Init + 202431 202587 157 2 1 83 59 83 0.185 5.02 2.02 Intr + 211539 211591 53 1 2 109 89 32 0.196 3.11 2.03 Term + 215841 216032 192 2 0 44 49 157 0.678 3.84 2.04 PlyA + 217039 217044 6 1.05 3.09 PlyA - 217213 217208 6 1.05 3.08 Term - 218913 218602 312 0 0 54 49 220 0.091 8.72 3.07 Intr - 236239 236109 131 2 2 71 101 67 0.577 5.79 3.06 Intr - 236688 236466 223 0 1 72 80 123 0.616 6.68 3.05 Intr - 237952 237824 129 1 0 79 62 39 0.549 0.37 3.04 Intr - 239032 238932 101 2 2 87 65 74 0.895 3.91 3.03 Intr - 244820 244603 218 1 2 76 68 94 0.117 3.42 3.02 Intr - 256865 256736 130 0 1 -55 42 249 0.046 4.83 3.01 Init - 257239 257206 34 1 1 65 90 6 0.271 -1.41 3.00 Prom - 258758 258719 40 -6.15 4.00 Prom + 261639 261678 40 -5.05 4.01 Init + 262892 262949 58 1 1 68 99 36 0.346 4.22 4.02 Intr + 265094 265194 101 0 2 79 67 69 0.289 2.81 4.03 Term + 274809 275645 837 2 0 50 47 360 0.760 20.07 4.04 PlyA + 279410 279415 6 1.05 5.03 PlyA - 281014 281009 6 1.05 5.02 Term - 281396 281375 22 1 1 77 50 14 0.535 -6.69 5.01 Init - 282959 282835 125 2 2 68 83 129 0.521 10.09 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl - 16653 16480 174 0 0 77 41 194 0.892 8.24 S.002 Init - 95996 95940 57 2 0 38 54 73 0.843 0.26 S.003 Term + 127395 127532 138 2 0 48 42 188 0.866 7.18 S.004 Init + 147792 147864 73 2 1 114 93 12 0.832 5.58 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815588f:26116810_26400958|GENSCAN_predicted_peptide_1|2550_aa QLGSIYSILAAILNVGNIEFSSVATEHQIDKSHISNHTALENCASLLCIRADELQEALTS HCVVTRGETIIRPNTVEKATDVRDAMAKTLYGRLFSWIVNCINSLLKHDSSPSGNGDELS IGILDIFGFENFKKNSFEQLCINIANEQIQYYYNQHVFAWEQNEYLNEDVDARVIEYEDN WPLLDMFLQKPMGLLSLLDEESRFPKATDQTLVEKFEGNLKSQYFWRPKRMELSFGIHHY AGKVLYNASGFLAKNRDTLPTDIVLLLRSSDNSVIRQLVNHPLTKTGNLPHSKTKNVINY QMRTSEKLINLAKGDTGEATRHARETTNMKTQTVASYFRYSLMDLLSKMVVGQPHFVRCI KPNSERQARKYDKEKVLLQLRYTGILETARIRRLGFSHRILFANFIKRYYLLCYKSSEEP RMSPDTCATILEKAGLDNWALGKTKVFLKYYHVEQLNLMRKEAIDKLILIQACVRAFLCS RRYQKIQEKRKESAIIIQSAARGHLVRKQRKEIVDMKNTAVTTIQTSDQEFDYKKNFENT SYLKRLFSLNHSLSEPLNCDLEYHSGELEKGPGRQGSPADVRRDRQSSPRWSSEGESFVK KQAENAISANERFISAPNNKGSVSVVKTSTFKPEEETTNAVESNNRVYQTPKKMNNVYEE EVKQEFYLVGPEVSPKQKSVKDLEENSNLRKVEKEEAMIQSYYQRYTEERNCEESKAAYL ERKAISERPSYPVPWLAENETSFKKTLEPTLSQRSIYQNANSMEKEKKTSVVTQRAPICS QEEGRGRLRHETVKERQVEPVTQAQEEEDKAAVFIQSKYRGYKRRQQLRKDKMSSFKHQR IVTTPTEVARNTHNLYSYPTKHEEINNIKKKDNKDSKATSEREACGLAIFSKQISKLSEE YFILQKKLNEMILSQQLKSLYLGVSHHKPINRRVSSQQCLSELCKGYMALHTTKRSGVCK GEEPKILRPPRRPRKPKTLNNPEDSTYYYLLHQLLQDEVLIPSKAFFVGPVTAFQPLFLP SSCPRAIVNCLKLCWKCCCCVQNKSEPSRRSVPVEESISGVRMACCTAWANAQSCAASAK MTQGQVSSKKRKSIQEEKRRPRKDSQGKLLDLEDFYYKEFLPSRSGPKEHSPSLRERRPQ QELQNQCIKANESLEEFLKPVENYRRYVWPLSSRFDCAFPKCPRLAERGRKRTRLTRAWN RLHLARSVPAFGRTLSTPDWFPALILAPGPSCHSVDPMTPQGTPGLRHARRRQRFVERID QGQLCSSTQDLGLYASSMGPRMSLLSEGRGVLAQTGSPGLCFVSSFGGWFRSPRSSVDSS VDFNCLNQQSFSPAVTQSLDGGSRDLALGYAGTARERRLMPARGASSRGRSDLSTCLEEN GAGTPLPSPQLEPDLKQNPNRCTQKTPLGHASRLAEVSPVCPSLTLARSGCGSTRDSGRP HFPPLARPRTRWHASHPLTLTPAGVHGLPRILTTQLPPSLVFFSSAAPSFIPTGLPFPQM LWGSPRFPESGLRGPLGPSPRQLARSSHSQATCSSLQSRWHLRALAFGLSGRKMALGIPR IPAQREPGAKWLRSSRAASETNCAVSAQGPGRPRSARGVQAVFSPPHPSQRSRGFLAAGR RERGSRARRRIDEARVRCPYPALLYGDAEKPAESGGSQPPRAAARKAACACDQKPCSCSK VDVNYAFLHATDLLPACDGERPTLAFLQDVMNILLQYVVKSFDRSTKVIDFHYPNELLQE YNWELADQPQNLEEILMHCQTTLKYAIKTGHPRYFNQLSTGLDMVGLAADWLTSTANTNM FTYEIAPVFVLLEYVTLKKMREIIGWPGGSGDGIFSPGGAISNMYAMMIARFKMFPEVKE KGMAALPRLIAFTSEHGWAGGGFRSSFKAVLHLLEPLTLTILDRALIAPMLFSPLPSPSK PPLRKEPESLAEMVYCIGASEWRCQKDVKEEDTDDCYRKQKIMIVGEDVEKLETSSTESG NVKWYRHDGALPFRKKFRAKKGGQSSDLSFPSSEVYVPANPFGGSPGVLVCEKQPKDTVE GSQLRRNVPVKENSLCLSSNKPNAACGGRSCESHRSSPKPDKLITGNLSITIAQASKCIL PGSSQGVVFSEYCYQQFGVGLYPPAATYVVKTMKQIIQSKSIFLFPSRGKMIPSDLERRI LEAKQKGFVPFLVSATAGTTVYGAFDPLLAVADICKKYKIWMHVDAAWGGGLLMSRKHKW KLSGVERSDTVVSSGTPSDQESLNSSEAAKCPPSPAKSPDAAQQKRHTGSATRYLGTVSV PGQGETLMEHRGTCEPWACGRPRPEWLCRGCDLTPRPKIHREPAITPERWELDEPTSIVR PDRAAIHGSLEAAATGYSTVILSFLLYATHETPLPGPGLMQNCNQMHASYLFQQDKHYDL SYDTGDKALQCGRHVDVFKLWLMWRAKGTTGFEAHVDKCLELAEYLYNIIKNREGYEMVF DGKPQHTNVCFWYIPPSLRTLEDNEERMSRLSKVAPVIKARMMEYGTTMVSYQPLGDKVN FFRMVISNPAATHQDIDFLIEEIERLGQDL >gi568815588f:26116810_26400958|GENSCAN_predicted_CDS_1|7653_bp caacttggtagtatatacagcatactcgctgcaatcttgaatgttggcaacattgaattt tcttctgtggcaactgaacaccagattgacaagagccacatttctaatcatacagccctg gagaactgtgcttctttgctttgcattcgggcagatgagctacaagaagctctcacctcc cactgtgtggtcactagaggagaaacaattatacgacccaatactgtagaaaaagctacc gatgtcagggatgccatggctaaaactttatatggacgtctctttagttggatagtcaat tgcattaacagtttgttgaagcatgactcatcaccaagtgggaatggtgatgagctgagc attggcattcttgatatatttggctttgaaaatttcaaaaaaaattccttcgagcagctg tgcattaacattgcaaatgaacaaattcagtattattataatcaacatgtgtttgcatgg gaacagaatgaatacctaaatgaagatgtggatgctagagttattgaatatgaggataac tggcccctcttagatatgtttctgcaaaagccaatgggtttactttccctacttgatgaa gaaagtagatttcccaaggccactgaccagactcttgtagaaaaatttgaaggtaacctg aaatcacaatacttctggagacccaaaagaatggaacttagttttggaattcaccattat gcaggaaaggtcctctataatgcaagtggattcttagccaaaaacagagacactcttcct actgacattgtgctacttttgaggtcatccgacaacagtgtaattaggcaactagtcaac caccctctgaccaaaacaggtaatctgccacattctaaaactaaaaatgttataaactat caaatgaggacttcagaaaaattaatcaacctggcaaagggcgacactggagaagccaca cgtcatgccagagagacaaccaacatgaaaacacaaacggttgcatcatattttagatat tccctgatggatttgttgtctaaaatggtggtgggccaacctcattttgtccgttgcatc aaaccaaatagtgagcgtcaggcaagaaaatatgacaaagagaaagttctgctacagctt cggtacacaggaattctggaaacagcaagaattcgaagactaggattctcccatcggata ctttttgctaactttataaagcggtactaccttctctgctacaagtcgagcgaggagccc cgcatgagccctgacacctgtgccaccattttggaaaaagctggtctcgataactgggct cttggaaaaacaaaagtgttccttaagtattatcacgtggagcagttaaatctaatgcga aaggaagctattgacaagcttattttgattcaagcttgtgtcagagcattcttgtgttca agaagataccaaaaaatacaggagaaaaggaaagaaagcgctataataatacagtcagct gcaagaggacaccttgtcaggaaacaaagaaaagaaattgttgacatgaaaaacacagca gtaacaaccattcaaacttctgatcaggaattcgactacaagaaaaactttgaaaataca agctacctgaagcgcttgttttcacttaaccattccctgtcagagcccctgaactgtgac ctagaataccacagcggggagctggagaaaggcccaggccggcagggctctccagcagat gtcagaagagatcgccagtcctccccacgctggagctctgaaggggaatctttcgtgaag aaacaagcagaaaatgcaatctctgctaatgaaagattcatttcagctccaaataataaa ggaagtgtatctgtagtgaagacttccactttcaaacctgaagaggaaaccaccaatgct gtggagagtaacaacagagtgtatcagactccaaaaaaaatgaataatgtgtatgaggaa gaggttaagcaagaattctaccttgtagggccagaagtaagccccaaacagaagtctgtc aaagacctggaagagaacagcaatctaaggaaagtggagaaagaggaagctatgatccag agttactatcagaggtacacagaggagaggaattgtgaagagtcaaaagcagcatatcta gaaaggaaggccatatcagaaaggccaagctacccagtgccttggttagctgaaaatgag acttcctttaaaaaaactttggaacctacacttagccaaaggtcaatttatcaaaatgca aacagcatggaaaaagaaaagaagacatctgtagttacccagcgtgcaccgatatgcagc caggaggaaggcagaggccgtctgaggcatgagacagtcaaagagaggcaagttgaacca gtgacacaggcccaggaggaagaagataaagcagcggtattcattcagagcaaataccgg ggttacaagagaaggcagcagttgaggaaggacaagatgtcttcttttaagcatcagagg attgtcacaacaccaacagaagtagcaagaaacactcataatttgtattcctatcccaca aaacatgaggaaatcaataacatcaagaagaaggataacaaagactcgaaagcaacttca gaaagagaagcatgtggtttggcaattttttcaaaacagatatcaaagttatctgaagaa tatttcattctgcagaaaaaattgaatgaaatgattttgtcacagcaactgaagtcactt tatctgggtgtctcgcaccataagccaattaatagacgagtttcttctcagcagtgcctc tcagagctgtgcaaaggttatatggccttgcacaccaccaaaagatcaggtgtctgtaaa ggagaggagccaaaaatattgagacccccaagacgaccccggaaacccaaaacattaaat aaccctgaagactccacatactattatctacttcatcaactccttcaggatgaagtcctg attccttccaaggccttcttcgtgggacccgtgactgcttttcagcctcttttcttgccc tcttcttgtcctcgagccatagtgaactgcttgaaactctgctggaaatgctgctgctgt gtccaaaataagagtgagccaagccgcagaagcgtgcctgtggaggagagcattagcgga gtgcgcatggcctgttgtactgcctgggctaatgctcaaagctgtgcagcatcagcaaaa atgactcagggccaagtttcctcaaaaaaacgaaagtcaatccaagaagaaaaacgaaga ccaaggaaagacagtcagggaaaattattagatttggaagatttctattataaggaattt ttgcccagtcgttctggaccaaaggaacatagccctagtttaagagaacgaagaccacag caagaactccagaatcaatgtattaaggctaatgaaagcttagaggagtttttaaaacct gttgagaattatcgcagatacgtttggccattatccagtcgtttcgattgtgcctttcct aaatgtccgcggttggcagaacgtgggaggaagaggacccgcctaactcgggcctggaac agacttcacctagcacgctcagtgccagccttcggcaggacgctatcaacgcccgactgg tttcctgctctcatcctggcgcctgggcccagttgccatagtgtggatcccatgactcct cagggaacccctggactcaggcacgcgagaagaagacagcgctttgtggagagaattgac cagggacagttatgctcgagcacacaggacttgggcctgtatgcgtccagcatgggcccc aggatgtcccttctaagcgagggtcgaggggtgctcgcccagacgggatccccgggtctc tgctttgttagcagctttggtggctggttcaggagcccgaggtcctcagtagactccagc gtggattttaattgcctcaatcagcagtcattctccccagccgtcactcagagcctggac ggtgggtcccgcgatctagcccttggctacgcaggaacggctcgtgaacggcgcctgatg cccgcccggggcgcgagctctcgaggtcgcagtgacctcagcacctgcttggaggaaaac ggcgcgggaaccccgcttccttcccctcagctggagccagacctcaaacaaaaccccaat cgatgcacacagaaaactcctctgggccacgcttcccgcctcgccgaggtctccccagtc tgcccctcgctgacgctggcgcgcagcggctgtggcagcacccgggacagcggccgcccg cacttcccgcctctggctcgcccgaggacgcgctggcacgcctcccaccccctcactctg actccagctggcgtgcatggtctgcctcgcatcctcacgactcagctccctccctctctc gtgtttttttcctccgccgccccctcattcatccccactgggctccctttccctcaaatg ctctggggctctccgcgctttcctgagtccgggctccgaggacccttagggccaagcccg aggcagctcgcccgcagctcgcactcgcaggcgacctgctccagtctccaaagccgatgg catctccgggctctggcttttggtctttcgggtcggaagatggctctggggattccgaga atcccggcacagcgcgagcctggtgccaagtggctcagaagttcacgggcggcatcggaa acaaactgtgcggtgagtgcccagggaccggggcggccaaggtcggcccgcggggtccaa gcagtcttctcacctccgcatcccagtcagcggagtcggggtttcctggctgcgggtagg cgggagcgagggagccgggcccggcggaggattgacgaggcccgcgttcggtgtccttac ccagccctgctctacggagacgccgagaagccggcggagagcggcgggagccaacccccg cgggccgccgcccggaaggccgcctgcgcctgcgaccagaagccctgcagctgctccaaa gtggatgtcaactacgcgtttctccatgcaacagacctgctgccggcgtgtgatggagaa aggcccactttggcgtttctgcaagatgttatgaacattttacttcagtatgtggtgaaa agtttcgatagatcaaccaaagtgattgatttccattatcctaatgagcttctccaagaa tataattgggaattggcagaccaaccacaaaatttggaggaaattttgatgcattgccaa acaactctaaaatatgcaattaaaacagggcatcctagatacttcaatcaactttctact ggtttggatatggttggattagcagcagactggctgacatcaacagcaaatactaacatg ttcacctatgaaattgctccagtatttgtgcttttggaatatgtcacactaaagaaaatg agagaaatcattggctggccagggggctctggcgatgggatattttctcccggtggcgcc atatctaacatgtatgccatgatgatcgcacgctttaagatgttcccagaagtcaaggag aaaggaatggctgctcttcccaggctcattgccttcacgtctgaacatggttgggctgga gggggttttcggagctcatttaaagccgtcctgcatcttcttgaacccttgaccctaacc atcctggacagggccctcatcgctcccatgttattttctcctctacccagtccatccaaa cctcctctcaggaaagaacctgaaagccttgctgagatggtgtactgtataggagcaagc gaatggaggtgtcagaaggatgtgaaggaggaggatacggatgactgttatcgaaaacag aaaattatgattgttggtgaggatgtggagaaattggaaacctcgtccactgagagtggg aatgtaaaatggtaccgccatgatggagcactgcccttcaggaagaaatttagagcaaag aaaggtggtcagagttcagacctcagtttcccctcatctgaggtttacgtaccagccaat ccatttggtgggagtcctggagtcctggtttgtgaaaaacagcccaaggatacagttgaa ggttcacaactgagaagaaatgtcccagtgaaagagaatagtctgtgtctttctagcaat aagcccaatgctgcatgtggaggaagatcctgcgagtctcacagaagttccccaaagcct gacaaactaatcactggtaacttgtccattaccattgcccaggcaagtaaatgcatcctt cctggaagcagtcaaggagttgttttctccgagtattgttatcaacagtttggggttgga ctttaccctcctgcggccacttacgttgtaaagacgatgaagcaaattattcaaagcaaa tctatatttctttttccttccagagggaaaatgattccatctgatcttgaaagaaggatt cttgaagccaaacagaaagggtttgttcctttcctcgtgagtgccacagctggaaccacc gtgtacggagcatttgaccccctcttagctgtcgctgacatttgcaaaaagtataagatc tggatgcatgtggatgcagcttggggtgggggattactgatgtcccgaaaacacaagtgg aaactgagtggcgtggagaggtcagacacagtggtgagctctggcactccaagtgaccaa gaaagcctgaattcatcagaggctgccaaatgcccaccatcccctgccaagtcgccagat gctgcccagcaaaagcgtcacactggctctgccactagatatcttggcacagtttctgtt ccaggacaaggagagacgctgatggagcacagaggcacttgtgagccctgggcatgtggg aggcccaggccagagtggctgtgcagagggtgcgatctgacacccaggcccaaaatacac agagaacccgccatcacacccgagaggtgggaactggatgagcccacgtccattgtacgg ccagacagggcagcaatccatggctctctggaggcagctgccacgggttattctactgta atactttccttcctcctttatgccactcatgaaactccactgccaggacccggattgatg cagaattgcaaccaaatgcatgcctcctacctctttcagcaagataaacattatgacctg tcctatgacactggagacaaggccttacagtgcggacgccacgttgatgtttttaaacta tggctgatgtggagggcaaaggggactaccgggtttgaagcgcatgttgataaatgtttg gagttggcagagtatttatacaacatcataaaaaaccgagaaggatatgagatggtgttt gatgggaagcctcagcacacaaatgtctgcttctggtacattcctccaagcttgcgtact ctggaagacaatgaagagagaatgagtcgcctctcgaaggtggctccagtgattaaagcc agaatgatggagtatggaaccacaatggtcagctaccaacccttgggagacaaggtcaat ttcttccgcatggtcatctcaaacccagcggcaactcaccaagacattgacttcctgatt gaagaaatagaacgccttggacaagatttataa >gi568815588f:26116810_26400958|GENSCAN_predicted_peptide_2|133_aa MVQRSMTASWTRVAMADMDVPRVQCSRSLCSPENDLAASIPSCTPPLIPQPMATKTIPKE VSPVDSPIGLFICILLLGRKKQQPNPQFGLETECGMPARRDQDGAVSSSQRLVTRQCSGG SQQLPVRFSREPF >gi568815588f:26116810_26400958|GENSCAN_predicted_CDS_2|402_bp atggtccagaggagcatgacagcatcttggaccagggtggcaatggcagacatggacgtg ccacgggtccagtgttctaggagtctttgctctccagagaatgaccttgccgcctccatt ccatcatgcactcctccccttattcctcagcctatggccaccaagaccatcccaaaagaa gtcagtccagttgattccccaataggtcttttcatctgcatcttgttattgggccgcaag aaacagcagcctaaccctcagtttggcctggaaacagaatgtggcatgccagccaggaga gaccaggacggtgctgtgtccagcagccagaggcttgtgaccagacagtgttcaggagga tcccagcagctgccagtgagattttcccgggaacccttttga >gi568815588f:26116810_26400958|GENSCAN_predicted_peptide_3|425_aa MVNLISVRVQTGKENPRRTNLEEGSPPAADQLWPKALVAYADEVPELSLTRAGLQFPKPE LILTGTYYGIWSDWLGYYHSEQPISPPYQTLNILIITSAYDAVNSFHTGFYLEMEIMWNS LSTFSVAECSIQGTILEAETTLSPDNKPAGAMILASPASNTGQAVPKSDGHSFSPDVIAF NTFSHVIIKLLAYEPGQFFINDALLFDKSLQVQMPVMFYMTSLRKNDTFKEVPCEAQCLI RKSSPLMVNLPAPWKDTAEDEIFWSVMGRKFHPKADYVALCSENDPAATGRRRCFIFPTI NKIPICTKGTPEQGICSESSGMPSFKLRGTSWKCHPALTLSAPEKGRSRWTAIFPNILNS YAGKLFLSQPMGSIMSVCSQKDPEGIWELDRRGGASSPSAYNLGAALHPGQRDAKSERQF GSTML >gi568815588f:26116810_26400958|GENSCAN_predicted_CDS_3|1278_bp atggtgaatcttatatctgtcagggtccagacagggaaagagaatccacgaaggacaaac ttggaagagggatccccaccagctgcggaccagctgtggcctaaggcactggtagcctat gccgatgaagttcctgagctgtctctgacccgagctggtctgcaatttccaaaaccagag ctgatactgacaggtacgtactatggcatctggtctgactggttaggctactaccattct gagcagcccatatccccaccctaccagacactaaatattttgattatcacgtctgcctat gatgctgtaaattctttccacactggattttacctagaaatggaaataatgtggaacagt ctaagcacattttcagtggcagaatgcagcattcagggcaccatcctggaagctgagacc acactgtccccagacaataaacctgctggtgctatgatcttggcctccccagcctccaac actggccaagcagttcccaaatctgatggacacagtttctctccagatgttattgcattc aatacattcagtcatgttataatcaaattgttggcatacgaaccaggccaattttttata aatgatgctttgctatttgataaatccttacaggtgcagatgccagtgatgttctatatg acctctctcagaaaaaatgacactttcaaagaggtcccctgcgaagcacaatgcttaatc cgaaagagtagccctctaatggtaaatttacctgcaccttggaaggacacagcagaggat gaaatattttggagtgtgatgggcagaaaattccatcctaaagcagactatgtagctctg tgtagtgagaatgatccagctgccacaggtagaaggagatgctttatctttccaacaatt aataaaatccctatctgcactaaaggaacccctgaacaagggatctgttctgaatcttct ggaatgccttccttcaaactgcgaggcacttcctggaaatgtcacccagcactcacgctt tcagcaccggaaaaagggaggtcaaggtggacagccatcttccccaatatcttgaattcc tatgcaggaaagctgttcctgtctcagcccatgggaagcatcatgagtgtctgcagccag aaggaccctgagggcatctgggagctagacagaagaggtggggcaagcagccccagtgca tacaacttgggagctgctctccatcccgggcaaagagatgccaaatcagagaggcagttt ggcagcaccatgctgtag >gi568815588f:26116810_26400958|GENSCAN_predicted_peptide_4|331_aa MATRGTHGIENLVKNKLVIGHSSEGAIFEAEREPSPDTKSATAFVLDSPASRTLNVPHTE VWKPPVNFYPNPPGHKGADGPGPRLPAGQAQRGPVRQAPPPGSRIPAGKLAAGPAPGPGQ AQARQDAAATSAERGRSATSPFPPPELRGTGVPGRCHASLERTTLSGPGDPGRPGSGLGW RARPVGPHLLTGQTVPGQRLPAAPAFCLKPPAGKFRVARARGRAAVSEPQEAETQVGKAT AWPRQLMWALSPASRPPEGGVAVSPGQHRPPRAQKPGMFLSPNTHSRIPLALGSAKKATK PRGSEAAPRGSLSAGSAWETEFLEPGDVSLG >gi568815588f:26116810_26400958|GENSCAN_predicted_CDS_4|996_bp atggccaccagaggcacccatggaatagaaaatctggttaaaaacaaacttgttattgga cacagctcagaaggtgccatctttgaagcagagagggagccctcaccagacaccaaatct gctactgcctttgtcttggactctccagcctccagaactttgaatgtgccgcacaccgag gtttggaaaccacccgtgaacttctatcccaatccacccggacataagggagctgatggc ccaggcccgcgccttccagcggggcaggcccagcggggaccagttcggcaggcgcctccc ccagggtctaggatacctgctggaaagctcgcagcagggcccgctcccggtcctgggcag gcccaggcgcgtcaagacgccgcggctacctctgcggagcgcggccgctcggccaccagc cccttcccgccccccgagctccgcggcactggagtccccgggcggtgccatgcgtccctg gagcgcacgacactttcgggccctggggaccccgggaggccgggatctggcctggggtgg agggcgaggccagtcggcccccacctgctcaccgggcagactgtacccgggcaacggctc cccgcagctccggctttttgcctgaagccccctgcaggcaaattccgcgtcgcgcgggcc cgcgggcgcgctgcagtctccgagccccaggaagcagagacccaggtaggcaaagccacc gcctggccgcgtcagctcatgtgggccttgagtccagcatcgcggccacctgaaggagga gtggcagtgagccctgggcagcacagaccaccacgtgcccagaaaccagggatgttcctg tctccaaacacccactcgcgaatccctttagctcttggttcagccaagaaagctaccaag ccgcgtggctcagaagcagcgcctcgtgggtcactttctgcaggctctgcctgggaaacc gagttcttggagcctggagatgtttctctaggctga >gi568815588f:26116810_26400958|GENSCAN_predicted_peptide_5|48_aa MMGLQVNRNPSTGDTDLGVVSAYTVIESIARDEIYKGVHSGSPGGAFA >gi568815588f:26116810_26400958|GENSCAN_predicted_CDS_5|147_bp atgatgggcttgcaggttaacaggaatcctagcaccggagatacagatttgggagttgtc agtgcatatacagtaattgaaagcatagccagggatgaaatttataagggagtgcatagc gggagccccgggggtgcatttgcttag