GENSCAN 1.0 Date run: 3-Nov-116 Time: 02:29:19 Sequence gi568815576f:31654922_32006494 : 351573 bp : 46.17% 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 + 1452 1498 47 2 2 81 86 51 0.269 4.36 1.02 Intr + 6869 6954 86 2 2 109 68 49 0.249 4.46 1.03 Intr + 13510 13552 43 2 1 30 105 44 0.071 -2.40 1.04 Term + 21897 22086 190 0 1 100 39 127 0.903 5.92 1.05 PlyA + 23863 23868 6 1.05 2.09 PlyA - 26452 26447 6 1.05 2.08 Term - 30882 30606 277 2 1 96 54 241 0.999 16.43 2.07 Intr - 33306 33235 72 2 0 87 96 31 0.819 2.32 2.06 Intr - 46841 46735 107 2 2 63 105 136 0.988 11.81 2.05 Intr - 48766 48629 138 1 0 15 107 141 0.171 9.36 2.04 Intr - 57429 57278 152 1 2 89 60 72 0.778 4.38 2.03 Intr - 62370 57865 4506 1 0 58 72 1729 0.911 155.73 2.02 Intr - 70689 70617 73 0 1 79 63 42 0.638 -0.22 2.01 Init - 83891 83466 426 2 0 47 110 123 0.425 6.71 2.00 Prom - 88594 88555 40 -8.16 3.00 Prom + 89054 89093 40 -0.86 3.01 Init + 100001 100058 58 1 1 62 49 92 0.484 4.17 3.02 Intr + 103625 103712 88 0 1 62 109 74 0.675 5.93 3.03 Intr + 105735 105781 47 0 2 101 90 23 0.912 1.85 3.04 Intr + 110054 110139 86 0 2 73 95 103 0.997 9.04 3.05 Intr + 111664 111747 84 0 0 49 91 38 0.527 0.22 3.06 Intr + 113893 113942 50 0 2 135 76 68 0.950 7.78 3.07 Intr + 123178 123247 70 1 1 102 90 82 0.964 8.98 3.08 Intr + 128421 128508 88 2 1 31 58 90 0.144 -0.16 3.09 Intr + 129893 129954 62 0 2 117 83 12 0.236 2.05 3.10 Intr + 137112 137181 70 2 1 63 97 25 0.222 -0.35 3.11 Intr + 137824 137896 73 2 1 109 55 25 0.764 -0.24 3.12 Intr + 142679 142782 104 2 2 55 84 88 0.963 4.92 3.13 Intr + 143661 143735 75 1 0 68 101 56 0.948 4.39 3.14 Intr + 147783 147917 135 1 0 73 50 157 0.994 10.94 3.15 Intr + 149241 149302 62 1 2 123 86 39 0.995 5.65 3.16 Intr + 149921 149994 74 1 2 112 94 37 0.995 4.90 3.17 Intr + 151201 151270 70 1 1 112 100 16 0.806 4.38 3.18 Intr + 154690 154726 37 0 1 57 84 34 0.785 -2.26 3.19 Intr + 155600 155720 121 0 1 76 5 94 0.547 -0.55 3.20 Intr + 160071 160291 221 0 2 89 94 146 0.974 13.25 3.21 Intr + 164101 164304 204 2 0 38 106 152 0.844 11.17 3.22 Intr + 166581 166716 136 1 1 60 100 158 0.998 13.83 3.23 Intr + 167772 167869 98 0 2 72 91 71 0.782 5.45 3.24 Intr + 178994 179059 66 0 0 104 71 32 0.526 1.98 3.25 Intr + 182078 182234 157 0 1 99 82 133 0.854 12.87 3.26 Intr + 183764 183924 161 2 2 79 105 116 0.998 12.03 3.27 Intr + 188129 188291 163 0 1 43 89 103 0.441 4.93 3.28 Intr + 188724 188891 168 0 0 112 71 209 0.987 20.66 3.29 Intr + 190097 190316 220 2 1 113 90 352 0.999 36.20 3.30 Intr + 191913 192046 134 2 2 96 100 42 0.876 5.64 3.31 Intr + 202524 202632 109 0 1 134 98 86 0.972 14.49 3.32 Intr + 206447 206512 66 1 0 92 92 56 0.924 5.50 3.33 Intr + 215669 215823 155 1 2 73 94 99 0.937 7.87 3.34 Intr + 218334 218411 78 0 0 80 99 62 0.940 5.17 3.35 Intr + 219352 219484 133 1 1 52 94 181 0.979 15.75 3.36 Intr + 221236 221344 109 0 1 56 50 175 0.556 10.36 3.37 Intr + 224604 224771 168 1 0 88 32 187 0.365 13.02 3.38 Intr + 238676 238830 155 0 2 58 81 228 0.512 18.89 3.39 Intr + 242561 242732 172 1 1 78 55 130 0.786 8.22 3.40 Intr + 246821 246881 61 0 1 104 72 62 0.666 3.99 3.41 Intr + 251063 251145 83 2 2 109 94 18 0.175 3.78 3.42 Intr + 251284 251572 289 2 1 101 58 570 0.295 51.60 3.43 Term + 262569 262644 76 0 1 134 46 47 0.567 2.41 3.44 PlyA + 263370 263375 6 1.05 4.03 PlyA - 267594 267589 6 1.05 4.02 Term - 271093 270969 125 2 2 79 42 56 0.266 -1.35 4.01 Init - 273293 273242 52 2 1 77 115 32 0.625 6.12 4.00 Prom - 276313 276274 40 -1.86 5.00 Prom + 278949 278988 40 -4.26 5.01 Init + 289813 289899 87 0 0 98 89 230 0.999 24.74 5.02 Term + 301218 301871 654 2 0 86 49 1025 0.995 92.40 5.03 PlyA + 302370 302375 6 1.05 6.04 PlyA - 302529 302524 6 1.05 6.03 Term - 307858 307739 120 1 0 -2 48 125 0.141 -2.03 6.02 Intr - 313381 313329 53 2 2 127 81 27 0.169 4.53 6.01 Init - 329099 328958 142 2 1 86 80 60 0.553 5.30 6.00 Prom - 348871 348832 40 -2.46 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815576f:31654922_32006494|GENSCAN_predicted_peptide_1|121_aa MVADAYENSQHVGRPRTSFLLRKRTHEKMASEHLKALPRLKRRAGMTVGIHAFMKLIFCP AGTSKGLAASSNMDSFSDGPAPPESCSQSDGVRPAVGAAALGAAHIRIPGSARFRCQCSG S >gi568815576f:31654922_32006494|GENSCAN_predicted_CDS_1|366_bp atggtggctgacgcctatgagaactcccagcacgttggaaggccaaggacatcattcctt ctacgaaaacgaacacacgagaaaatggcatctgaacatctgaaagccctgcctcgactc aagagacgggcaggtatgaccgtgggcatccatgcctttatgaagcttatattctgcccg gcaggtaccagcaaaggactagcagcctcctccaatatggatagcttctcggatggcccc gcccctccggagagctgcagccaatcagacggcgtgaggccagcagtgggtgcggctgcg cttggcgctgcgcatatccgaataccaggaagtgcccggtttcgctgtcagtgctcgggc agctag >gi568815576f:31654922_32006494|GENSCAN_predicted_peptide_2|1916_aa MSAVVQELYSELPVSVSRELHADPEPSVIPDVKPGASSSLLSQNRALPLELQRTHVESCC EETYETLDHGSEPGRCGLVDSTAGGSVASGILDRAKRSESMEPKVFRDPGGQAGIIREPS EGAKEDPHQHSTAAEEKTSPSQEDLLMQSSKELSHVDLPEDFLRSKEGNVQITAETLLKS AEVQGMKVNGTKTDNNEGHKNGNVSKDLSAGCGEFQEVDKIMTSDEVSETSTLVTPEPLT FVDPVLTEATPKEKECEELKSCPWLSLPGNSAISNVDNGKEELCKPNLVCEADDNHQQLH GHHNEQPSSTHDSPTATSPLKENSEVSCFTSDLSGPESRTISLENCGFEGGGLLKRSAEK TDSSYFYRGDDQGKNLASREENEERLLIPRSERGGPFLFNAREPEKEISGRCSGEKEPVV SPKENIHNNCIQDSLHTGNSSSLMPNSFTEATEVMLNKNDLKITVHVQGNLTNPEDHKET FTNMSHPGGHSEESSFSSLMQIEEAGQTTPVEPNILSKSFYTKDCNSLVSIQRNLEGNTQ LNEASCNDFLFERKSIVSLMPEDQISPVSEVLKPKQGTALLLPSPEFDYRPESEKVIQTS HDDIPLLDEQSIACEMNELSCTNELVVNKVESECVLNQQVSLNSQEHANLPTDSLLHLNK EMPLATGRDAHQSHHPPLEGRADVIADIQTIPIQTKIKDISPPGNQTCGASSNCPTLNIK PVSLERKKEMADSGTKALHSRLRSNKREAAGFPQVVSVIECHSVQSQDISSCHRVRKNVS QENMCSASAAFKSSKISLQVDNSLITKYENAFQHRDHCCQGTGHSVEKSSCKVSYTSQER ELDGKETNGSLPGDKIRNKMVAGLLNSGISNKTIHTSSSIKLSEEGLEGKEQDVSKETVF CKYNISDHAIQELNQTVNIPGPEKVLDQSPTVMFSSFKNVKSVETLDQKADEVLDCQSNQ NRPDECKSEGQSAKEMLSSDQRETVTEPHGEVNHNQKDLLVSSGSNNSLPCGSPKKCNLK GAFVKMSGCDESTEGMVDIVYTDCSNKLAEGVLDVKASNLLDCGARQEKLAFQEDSRSTL SRRELDAAHTGTTGQDSDFPVTAASTVDFLKIKKSCEENVCRSLKDCEMEKCPDSCAHEM ESVADHEPNKRILGRVNLSLNDSHYGQQDKGTSLRETQEMTEGSRLEPNSEFGKESTFGI SSKESMSCHDESSVSLRSLKSIEIMPSQENSETNVNSEETDLKNLCKPKDGEMLCENVKD CTVLPEMKEIVSRDWSNSSDRDSVCTCVEKNACKACHPHENSSDRHLPLTVKTDIKVKGE ETEEHQRGRLGYLTVGEQSEELVTRETGDGDPVSNISQTHFKCRGILNHAEKQQSPEVLD YMLQKEEKYIRQQKAHTISQQCISSSLLLDDAQNQNQPKADKDESTMINEITLAKLAKDS IVAQTQKLEDQKEERLHHPLRKDTESCTSPCLLGAPRKAQDPSSAGCDQIHGAFAKKGVL PLKKQPHRTCKKVSYQEQIIVGRKIGKIRSSAFLKSSSNPIPTKAHRLLSLCTLSAPTRL EPETAPTKSLVSHIPKQMSTPCHPLRSLNFRKTTKESALLNKLSILASKLAPAMKTQKLR YRRCSSELLPMAKSYKRLRYKRLLDGFSSSTEQLNPYLAASGWDKRPNRCYRIWTKKRSF SSHMPTMQRLFMTQFTQGLKGLRSPASIADKVFCSLPYSSCLVAESAVSKLLLSASEFQV RGLDELDGVKAACPCPQSSPPEQKEAEPEKRPKKVSQIRIRKTIPRPDPNLTPMGLPRPK RLKKKEFSLEEIYTNKNYKSPPANRCLETIFEEPKERNGTLISISQQKRKRVLEFQDFTV PRKRRARGKVKVAGSFTRAQKAAVQSRELDALLIQKLMELETFFAKEEEQEQSSGC >gi568815576f:31654922_32006494|GENSCAN_predicted_CDS_2|5751_bp atgtctgccgtggtacaggaattatactctgaactcccagtaagtgtctccagagagctt catgctgaccctgagccaagtgtgattccagatgtaaaacctggagcctcaagctctctt ttaagtcagaatagggcattgcccttggagctgcagaggactcatgtggagagttgttgt gaagaaacctatgagaccttggatcatgggagtgagcctgggcgatgtgggctagtggac tccacagcaggaggttctgtggcatctgggatcttggatagggcaaagagaagcgagagc atggagccaaaggtcttcagagatccagggggccaggcaggaattataagagaaccctct gagggagcaaaggaagatccacatcaacattccacagctgctgaagaaaagactagcccg agtcaggaggatctcctgatgcagtccagcaaagaactttcacatgtggacctccctgaa gattttctaaggagcaaagaaggaaatgtacagattacagctgaaactctgctaaaatcc gccgaagtacaaggtatgaaggtcaatgggactaagacggataataatgaaggacacaaa aatggcaatgtgagtaaagatctctcagctggatgcggtgaattccaagaagtagacaaa atcatgaccagtgatgaggtttcagaaaccagcacattagttaccccagaacctttaacc tttgtggaccctgtattaacagaagcaactcctaaagaaaaagaatgtgaagaattaaaa agttgtccttggttgtcattaccaggaaacagtgccatttctaatgtggacaatgggaag gaagagttgtgtaaaccaaacctggtctgtgaagcagatgacaatcaccaacagcttcat ggccaccataatgaacaacccagttctacacatgatagtcccacagccacaagccctttg aaagaaaattctgaagtttcatgtttcacatcagacttgtctggtccagaatccagaaca atatccttagaaaactgtggttttgaaggtggtggtttgctaaagagatctgctgaaaag acagacagttcttatttttataggggggatgatcaagggaagaacttggcttctagagaa gaaaatgaggaacggcttttgattcctaggagtgaaagaggtggaccttttctttttaat gccagggaaccagaaaaggagattagtggtcgttgttctggtgaaaaagagcctgttgtt tctccaaaggaaaatatccacaataactgcattcaagacagtctccatacagggaactct agttctttaatgcccaattcttttactgaagccacagaagtaatgttaaataaaaatgat ttgaaaattactgtacacgttcaaggtaacttgacaaaccctgaggaccataaagaaact tttactaatatgagccatcctggtggacactctgaagaaagcagtttttcctccttgatg cagattgaagaggcaggacagacaacccctgtagagcccaatatattaagtaaatctttt tacactaaagactgtaactccttagtcagcatccagagaaatctggaaggcaacacccag ttaaatgaagcatcatgtaatgattttctgtttgaaagaaaatccattgtgagtttaatg ccagaggatcaaataagtcctgtaagtgaggtattaaaacccaagcaaggtactgctctg ttgctaccatccccagaatttgattacagacctgagtcagaaaaagttatacagacctca catgatgatattccacttttagatgaacagagcatagcctgtgagatgaatgaactttct tgtaccaatgaactggttgtaaacaaagtagaaagtgaatgtgttttaaatcaacaagtg tcccttaattctcaagaacatgcaaatttgccaactgactctctactgcatttaaacaaa gagatgcctttagcaacaggcagagatgcccatcagagccatcaccctccattagagggt agagcagatgtcattgctgatatacaaaccattcccattcagacaaaaataaaagacatc tctccaccaggtaaccaaacctgtggtgcctcttcaaactgtcccaccttaaacatcaaa ccagtaagcctagagagaaaaaaggaaatggctgattcaggaacaaaagctctacattcc aggctgcgctcaaataagagagaagcagctggctttcctcaagtggtctctgtcatagaa tgtcacagcgttcaatctcaggatatctctagctgtcatcgtgtaagaaaaaatgtatcc caggaaaacatgtgttctgcttctgctgctttcaagtccagcaaaatcagcctgcaagtt gataactctttgataacaaaatatgaaaatgcatttcagcaccgtgatcactgctgccaa ggaacaggacactctgtggaaaaaagcagctgtaaagtgagttacacatcacaggaaagg gaacttgatgggaaagaaacgaatggcagccttccaggagataagatcagaaacaaaatg gtagcaggcttgttaaatagtggaatttcaaacaaaaccattcacacctccagtagcatc aaactcagtgaggaagggctggaaggaaaggagcaggatgtatccaaagaaactgtattt tgtaagtataacatctctgatcatgctatacaagaactaaaccagactgtaaacattcca ggtcctgaaaaagtgttggaccagtctcctactgttatgttctccagttttaaaaatgta aaatcagttgaaacactcgatcagaaggcagatgaagtccttgactgtcagagtaaccaa aacagaccagatgaatgcaaaagtgaaggtcagtcagccaaggagatgctaagtagtgac cagagagagactgtcaccgagcctcacggggaggtaaaccacaaccaaaaggatctgctg gtcagctcaggcagtaataactcactaccttgtggtagtccaaagaaatgcaatttgaaa ggagcctttgtcaagatgtctggttgtgatgagtccacagaaggtatggtagacatcgtc tacacggactgtagtaataagcttgcagaaggtgtgctggacgtgaaggcatctaatcta ctggattgtggtgcaaggcaagagaaactggcatttcaagaggactccaggagtaccttg tctcggagagaactggatgctgcacatacaggaacaactggtcaggattcagatttccca gttactgctgcttctacagtggactttctcaaaataaaaaaatcatgtgaagaaaacgta tgcagatctttaaaagactgtgaaatggaaaagtgtccagactcttgtgcccatgagatg gagtctgttgcagatcatgaaccaaataaaagaatattgggcagagtaaatttgtcttta aatgatagccattatggacagcaagataaaggaacatctctcagagaaacacaagaaatg actgaaggatcaagactagaaccaaactctgagtttggcaaagaaagtacctttggaatt tcctcaaaagagtcgatgtcttgccatgatgaaagctctgtttccctaagaagcctgaaa tccattgaaataatgccttctcaagaaaattcagaaactaatgttaacagtgaagaaact gacctgaaaaatctttgtaaaccaaaagatggtgaaatgctttgtgaaaatgtaaaggac tgcacagtccttcctgagatgaaggaaatagtatcaagagattggagtaattctagtgac agagacagcgtatgtacctgtgtggaaaagaatgcttgcaaagcttgtcaccctcacgag aattcctctgacagacatttgcctttgacagtgaaaacagatattaaagtgaaaggagaa gaaaccgaagagcatcagaggggacgactgggttacttaactgttggggagcaatctgag gagttggttaccagagaaactggcgatggcgatcccgtgagcaacatctctcagacccat tttaaatgccgggggatacttaatcatgctgaaaaacagcagagccctgaggttttggac tacatgttgcagaaagaagagaaatatatacgtcaacaaaaagcacatacgatatcgcaa cagtgcatatcatctagtctgttgttagatgatgcacaaaatcagaaccaaccgaaggct gacaaagatgagtccaccatgatcaatgaaatcaccctagcaaagctggccaaggacagc attgtggcacagactcagaagttagaagaccagaaggaggaaaggttacatcatccatta aggaaggacactgagtcatgcacaagtccttgccttcttggtgcccctcggaaagcacaa gacccctcctctgctgggtgtgatcaaatacatggtgcctttgcgaagaaaggagttctt cccttaaagaagcagccccatcgaacttgtaagaaagtttcctatcaggagcaaatcatt gttgggagaaaaataggtaaaatcagaagttctgcctttttaaagagttcttccaatccc atccccacaaaagcgcacagacttctcagtttgtgtactctgtctgcacctacacgatta gaacctgaaacagcacctaccaagagcttggttagtcacataccaaagcagatgtctaca ccgtgccatcccttgaggagcctgaattttaggaagactaccaaagaatcagccttacta aacaagctgtccatccttgcctccaaactggccccagccatgaagactcagaagctaaga taccgacggtgttcctctgaacttcttccaatggctaaaagctacaagcgcctcagatat aaaagactcctggacggattttcatccagcacagagcagctgaatccatatttggcagct agtggatgggataagaggcctaacagatgttaccgaatctggacaaaaaaacggagcttc tccagccacatgcctaccatgcagaggctcttcatgacccagtttacacagggcctgaaa gggttacggtctccagcctccatagcagacaaggtcttctgttctctgccctactcgtct tgcttggtagcagaatcagctgtcagcaagctcctgctttcagcctctgagttccaggtt cgtggattggatgagctggatggtgtgaaagcagcatgcccctgcccacagagcagcccc ccagaacagaaagaggctgagccagagaagaggccaaagaaagtctcacagattcgcatc cggaaaaccattcctaggccagatcctaatcttacccccatgggccttcctcgacccaaa aggttaaagaagaaggagtttagtttagaagagatatataccaacaagaattataaatct cctcctgcaaacaggtgtttagagaccatctttgaggaacccaaggaacgaaatggtaca ctaatctcaatcagccaacagaagaggaagcgagttctagaatttcaggattttacagtc ccgcgaaagaggagagctcgaggcaaagtcaaggtggcaggcagctttaccagggcccag aaggcagctgtgcagagtcgagagctggatgctcttttgatacagaaactaatggaactg gagaccttctttgccaaggaagaggagcaggaacaatcatcaggctgttga >gi568815576f:31654922_32006494|GENSCAN_predicted_peptide_3|1611_aa MRTTKVYKLVIHKKGFGGSDDELVVNPKVFPHIKLGDIVEIAHPNDEYSPLLLQVKSLKE DLQKETISVDQTVTQVFRLRPYQDVYVNVVDPKDVTLDLVELTFKDQYIGRGDMWRLKKS LVSTCAYITQKVEFAGIRAQAGELWVKNEKVMCGYISEDTRLLTLTMKVRSFILEVSETK NPPEGTTSGHGDLYFEKAVNGFLADLFTKWKEKNCSHEVTVVLFSRTFYDAKSVDEFPEI NRASIRQDHKGRFYEDFYKVVVQNERREEWTSLLVTIKKLFIQYPVLVRLEQAEGFPQGD NSTSAQGNYLEAINLSFNVFDKHYINRNFDRTGQMSVVITPGVGVFEVDRLLMILTKQRM IDNGIGVDLVCMGEQPLHAVPLFKLHNRSAPRDSRLGDDYNIPHWINHSFYTSKSQLFCN SFTPRIKLAGKKPASEKAKNGRDTSLGSPKESENALPIQVDYDAYDAQVFRLPGPSRAQC LTTCRSVRERESHSRKSASSCDVSSSPSLPSRTLPTEEVRSQASDDSSLGKSANILMIPH PHLHQYEVSSSLGYTSTRDVLENMMEPPQRDSSAPGRFHVGSAESMLHVRPGGYTPQRAL INPFAPSRMPMKLTSNRRRWMHTFPVGPSGEAIQIHHQTRQNMAELQGSGQRDPTHSSAE LLELAYHEAAGRHSNSRQPGDGMSFLNFSGTEELSVGLLSNSGAGMNPRTQNKDSLEDSV STSPDPMPGFCCTVGVDWKSLTTPACLPLTTDYFPDRQGLQNDYTEGCYDLLPEADIDRR DEDGVQMTAQQVFEEFICQRLMQGYQIIVQPKTQKPNPAVPPPLSSSPLYSRGMSFKQME EIIIFLLGLVSRNRPEEEDQYWLSMGRTFHKVTLKDKMITVTRYLPKYPYESAQIHYTYS LCPSHSDSEFVSCWVEFSHERLEEYKWNYLDQYICSAGSEDFSLIESLKFWRTRFLLLPA CVTATKRITEGEAHCDIYGDRPRADEDEWQLLDGFVRFVEGLNRIRRRHRSDRMMRKGTA MKGLQMTGPISTHSLESTAPPVGKKGTSALSALLEMEASQKCLGEQQAAVHGGKSSAQSA ESSSVAMTPTYMDSPRKDGAFFMEFVRSPRTASSAFYPQVSVDQTATPMLDGTSLGICTG QSMDRGNSQTFGNSQNIGEQGYSSTNSSDSSSQQLVASSLTSSSTLTEILEAMKHPSTGV QLLSEQKGLSPYCFISAEVVHWLVNHVEGIQTQAMAIDIMQKMLEEQLITHASGEAWRTF IYGFYFYKIVTDKEPDRVAMQQPATTWHTAGVDDFASFQRKWFEVAFVAEELVHSEIPAF LLPWLPSRPASYAKQRTVTLDVDVNNRTDRLEWCSCYYHGNFSLNAAFEIKLHWMAVTAA VLFEMVQGWHRKATSCGFLLVPVLEGPFALPSYLYGDPLRAQLFIPLNISCLLKEGSEHL FDSFEPETYWDRMHLFQEAIAHRFGFVQDKYSASAFNFPAENKPQYIHVTGTVFLQLPYS KRKFSGQQRRRRNSTSSTNQNMFCEERVGYNWAYNTMLTKTWRSSATGDEKFADRLLKDF TDFCINRDNRLVTFWTSCLEKMHASAPNQESGCHHWKPDWRTTEKLASSGV >gi568815576f:31654922_32006494|GENSCAN_predicted_CDS_3|4836_bp atgagaacaacaaaggtctacaaactcgtcatccacaagaagggctttgggggcagtgat gatgagctagttgtgaaccccaaagtgttccctcacatcaagcttggagacattgtagag attgcacaccccaacgatgaatacagccctctgcttttgcaggtcaagtctcttaaggaa gatttacagaaggaaactatcagtgtggaccagactgtgactcaagtgttccggctgaga ccttatcaggatgtctatgttaatgtcgtagaccctaaggatgtgacccttgacctagtg gaattaacttttaaggatcagtatattggccgtggggatatgtggcgactaaagaaaagt ttggtcagcacatgtgcctatatcacccagaaggtggagtttgctggcatcagagcacag gctggtgaactgtgggttaagaatgagaaggtcatgtgtggctacatcagtgaagatacc aggctgttaacactcaccatgaaggtccgcagcttcattcttgaagtcagtgagaccaag aacccacctgaaggaaccacctccggacacggggatttgtattttgagaaagctgtgaat ggtttccttgctgatctatttaccaagtggaaggagaagaactgtagtcatgaagtgaca gtggtcctgttttctagaactttctatgatgcaaaatctgttgatgaatttcctgaaata aaccgagcctcaattcgacaggatcacaaggggagattctatgaagacttttacaaagtg gtggtgcagaatgagagaagagaagaatggacttcacttctcgtaaccattaaaaaactc ttcatccagtatccagtgttggtgcgactggaacaggcagagggctttcctcaaggagat aattctacctcagcacaaggaaactacctggaggccatcaatctgtcattcaatgtgttt gataagcactacatcaaccgcaactttgaccgaactgggcagatgtcagtggtgatcacg cccggggtgggtgtctttgaagtggaccgcctactcatgatcctgaccaagcagcggatg atagataatggaattggtgtggatttggtgtgcatgggagagcaaccgttacatgctgtc ccattgttcaagctccataatcggagtgctccccgtgattctcgtctgggcgatgactat aatatccctcactggataaaccacagtttctacacatccaaaagccagctcttttgtaat agtttcaccccacgaataaaactggcaggaaagaagcccgcctctgagaaagcaaaaaat ggccgtgatacatctctcgggagtccaaaagaatctgagaacgcccttcccatccaagta gattatgacgcctatgacgctcaagtgttcaggctgcccggcccatcccgggcccagtgc ctcaccacctgcagatctgtgcgagagcgagagagtcacagtcgaaagagtgccagctcc tgtgatgtttcatccagcccttccctaccaagccgcacactgcccactgaggaagtgagg agccaggcttctgacgacagctccctaggcaagagtgccaacatcctgatgatcccacac ccccacctgcaccagtatgaagtcagcagctccttgggatacaccagcactcgagatgtc ctggagaacatgatggagccaccacagcgagactccagtgcaccagggaggtttcacgtt ggcagtgcagaatccatgctgcatgttcgacctggtggatacacgccccagagagcactg attaaccccttcgctccctctcggatgcccatgaagcttacgtccaacagaaggcgctgg atgcacacttttcctgtggggccatccggagaagccatccagatccaccaccagacccga cagaatatggcggagctacaaggcagcgggcagagggatccaactcactcctctgcagag ctgctggagttagcatatcatgaagctgctggaaggcacagcaattcccgccagcctggt gacggcatgtccttcttgaacttcagtggaacagaggagctttctgtcggcctgcttagc aacagtggtgcaggtatgaatcctaggacccagaataaggattctctagaggacagtgtt tctacctctccagacccaatgccaggcttctgttgcacagttggagtggactggaagtct ctcactactccggcgtgcctcccccttaccaccgactacttccctgaccgccagggcctg cagaatgactacacagagggctgttatgatctccttccagaagcagacatcgacaggagg gacgaagatggtgtgcagatgacagcccagcaggtatttgaagagtttatttgccaacgt ctcatgcagggctaccaaatcatagtgcagcccaagacacagaaacccaatcctgctgtc ccgcccccgctgagcagtagcccactctatagccgaggaatgagcttcaaacagatggag gaaattattatttttctgttaggccttgtgtcccgaaaccgccctgaggaggaggaccag tattggctgagtatgggcagaacgttccacaaagtgacgctgaaggataagatgatcaca gtgacgcgataccttcccaagtatccttatgaatctgcccagatccactacacctacagc ctctgtccttcccactcagactcagagttcgtctcctgctgggtggaattctcccacgaa cggctggaggagtacaagtggaattacttagatcagtatatctgttctgccggctctgaa gacttcagcttaattgagtccctgaagttctggaggacccgcttcctgctgctgccagcc tgtgtcaccgccaccaagcgcatcacggagggggaggcccactgcgacatctatggggac aggccccgtgcagacgaggacgagtggcaactcctggatggttttgtccgctttgtggag ggcttgaatcgcattcgcaggcggcatcgctcggatcgcatgatgcggaaagggaccgcc atgaaaggcttgcagatgactgggcccatttccacgcattctctggagtcaactgcaccc ccagtggggaagaagggaacctcagctctctctgccctgttggagatggaggccagtcag aagtgcctgggagaacagcaggcagctgtgcatggtgggaagagctccgcccagtcagcc gagagcagcagcgttgccatgactcccacctacatggacagcccacgaaaggacggggcc ttctttatggagtttgtccgcagcccacgcacagcatcgtccgccttctaccctcaggta tctgtggaccaaacagccactcctatgttggacggcaccagtttgggcatatgcacaggc caatccatggacagaggcaacagccagacctttgggaactcccagaacataggagaacag ggctactcctccacaaactccagtgacagcagctctcagcagctggtggcaagctccttg acctcatcctctaccctgacagagatcctggaagccatgaagcacccctcgacaggagtc cagctgctctctgaacagaagggcctctcaccgtactgcttcatcagcgcggaggtggta cactggttggtgaaccacgtggaggggatccagacacaggcgatggccattgacatcatg cagaaaatgctggaagagcagctcatcacacatgcatctggcgaagcctggcggaccttc atctacggcttctatttctacaagatagtaacggacaaagagcccgaccgagtggccatg cagcagcccgccaccacctggcacacagcaggagtggacgacttcgccagcttccagcgc aagtggtttgaggtggcctttgtggcagaagagctcgtgcactctgagattcctgccttt ctcctgccctggctgcctagccggccagcctcctatgcaaagcagaggactgtgaccctg gatgttgacgtgaacaaccgcacagaccggctggagtggtgcagctgttattaccatggc aacttttctctgaatgcagcctttgagatcaagctgcactggatggcggtgaccgcagca gtactcttcgagatggtccaaggttggcatcggaaagccacctcctgtggcttcttgtta gtcccagttttggaggggccttttgcactgcccagttacctgtatggcgacccccttcgt gcccagctcttcatcccactcaacatcagctgcttgctcaaggagggcagcgagcacctg tttgatagctttgaacccgaaacgtactgggatcgaatgcacctcttccaggaagccatt gcacacaggtttgggtttgtacaagataaatattctgcctctgcttttaacttccctgct gagaacaagcctcagtatatccacgttacaggaacagtgtttctgcagctgccctactcc aagcgcaagttctcagggcagcagcggcggcggcggaactccaccagctccaccaaccag aacatgttctgcgaggagcgggtcggctacaactgggcctacaacaccatgctcaccaaa acatggcgctccagcgccacaggggatgaaaagtttgctgatcggctgctgaaggacttc acggacttctgcatcaaccgtgacaaccggctggtcacgttctggacaagttgcctggag aagatgcatgccagtgccccgaaccaggagagtggctgccaccactggaagccagattgg aggacaacagagaaactggccagctctggggtctga >gi568815576f:31654922_32006494|GENSCAN_predicted_peptide_4|58_aa MHAQHSFKHTETVKPIAVQGSIMNFLDIYIGFPQASGFHTCSSHPPLPSSVTTAKIIS >gi568815576f:31654922_32006494|GENSCAN_predicted_CDS_4|177_bp atgcatgcccagcacagcttcaagcacacagaaacagtaaaaccgattgcagtccaaggt tccatcatgaatttcctggacatctacattggcttcccacaggcctccggctttcacact tgctcatcccatcccccgcttccatcttctgtaaccacagccaaaataatctcttaa >gi568815576f:31654922_32006494|GENSCAN_predicted_peptide_5|246_aa MGDREQLLQRARLAEQAERYDDMASAMKAVTELNEPLSNEDRNLLSVAYKNVVGARRSSW RVISSIEQKTMADGNEKKLEKVKAYREKIEKELETVCNDVLSLLDKFLIKNCNDFQYESK VFYLKMKGDYYRYLAEVASGEKKNSVVEASEAAYKEAFEISKEQMQPTHPIRLGLALNFS VFYYEIQNAPEQACLLAKQAFDDAIAELDTLNEDSYKDSTLIMQLLRDNLTLWTSDQQDE EAGEGN >gi568815576f:31654922_32006494|GENSCAN_predicted_CDS_5|741_bp atgggggaccgggagcagctgctgcagcgggcgcggctggccgagcaggcggagcgctac gacgacatggcctccgctatgaaggcggtgacagagctgaatgaacctctctccaatgaa gatcgaaatctcctctctgtggcctacaagaatgtggttggtgccaggcgatcttcctgg agggtcattagcagcattgagcagaaaaccatggctgatggaaacgaaaagaaattggag aaagttaaagcttaccgggagaagattgagaaggagctggagacagtttgcaatgatgtc ctgtctctgcttgacaagttcctgatcaagaactgcaatgatttccagtatgagagcaag gtgttttacctgaaaatgaagggtgattactaccgctacttagcagaggtcgcttctggg gagaagaaaaacagtgtggtcgaagcttctgaagctgcctacaaggaagcctttgaaatc agcaaagagcagatgcaacccacgcatcccatccggctgggcctggccctcaacttctcc gtgttctactatgagatccagaatgcacctgagcaagcctgcctcttagccaaacaagcc ttcgatgatgccatagctgagctggacacactaaacgaggattcctataaggactccacg ctgatcatgcagttgctgcgagacaacctcaccctctggacgagcgaccagcaggatgaa gaagcaggagaaggcaactga >gi568815576f:31654922_32006494|GENSCAN_predicted_peptide_6|104_aa MNKFQINNKEFVRAKEKSSQRHNCYPFGNVMASRKGPRPKARSGMTPGVGLEMRATKYAV PGNQLANVKKVIEQRLPGKEERGLIKEDLEWQAFSPCLEDNIAS >gi568815576f:31654922_32006494|GENSCAN_predicted_CDS_6|315_bp atgaacaagttccagataaacaataaggaatttgtcagggcaaaagagaagagctcccaa agacacaactgttacccctttgggaacgttatggccagcaggaaaggcccaagacccaag gcaagatctgggatgacgccaggtgtaggcctggaaatgagagctacaaagtatgctgtc cctgggaaccagctggcgaatgtaaagaaggtgattgagcaaaggctacctggcaaggaa gaaagaggtcttatcaaggaagacctggagtggcaggctttcagcccctgtcttgaagac aacatcgcatcatga