Result of GENSCAN for
pF1KA1539
GENSCAN 1.0 Date run: 4-Nov-116 Time: 01:38:18 Sequence gi568815589r:35005224_35208274 : 203051 bp : 45.42% 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 Sngl + 5476 5676 201 0 0 71 38 240 0.686 12.48 1.02 PlyA + 6229 6234 6 1.05 2.00 Prom + 24046 24085 40 -2.26 2.01 Init + 30621 30864 244 2 1 70 38 125 0.054 1.64 2.02 Intr + 30949 31160 212 2 2 87 59 29 0.031 -1.47 2.03 Intr + 37638 39330 1693 2 1 71 91 385 0.704 24.42 2.04 Intr + 46304 46378 75 0 0 79 75 29 0.020 0.19 2.05 Term + 51154 51185 32 2 2 55 54 38 0.004 -4.88 2.06 PlyA + 51441 51446 6 1.05 3.54 PlyA - 51705 51700 6 1.05 3.53 Term - 51999 51894 106 2 1 99 42 86 0.984 2.98 3.52 Intr - 52307 52153 155 2 2 51 111 237 0.999 21.17 3.51 Intr - 53996 53841 156 2 0 89 101 210 0.945 22.61 3.50 Intr - 54578 54249 330 2 0 83 -19 437 0.780 28.33 3.49 Intr - 55302 55090 213 0 0 96 105 263 0.999 27.71 3.48 Intr - 55700 55578 123 2 0 97 91 116 0.998 13.58 3.47 Intr - 55956 55768 189 0 0 46 86 262 0.590 21.58 3.46 Intr - 56466 56354 113 1 2 123 72 156 0.999 17.60 3.45 Intr - 56915 56780 136 2 1 96 87 148 0.999 15.64 3.44 Intr - 57127 56994 134 2 2 98 19 198 0.999 14.26 3.43 Intr - 57857 57755 103 2 1 64 81 126 0.998 9.25 3.42 Intr - 59062 58931 132 1 0 87 105 135 0.983 15.94 3.41 Intr - 60158 60028 131 0 2 121 105 75 0.984 12.91 3.40 Intr - 61594 61452 143 0 2 60 100 277 0.991 26.10 3.39 Intr - 62840 62668 173 2 2 85 89 234 0.812 21.94 3.38 Intr - 63139 63028 112 0 1 97 115 179 0.999 21.88 3.37 Intr - 63601 63481 121 2 1 92 84 37 0.896 3.25 3.36 Intr - 66855 66668 188 2 2 61 68 74 0.333 2.03 3.35 Intr - 67400 67286 115 0 1 60 60 102 0.679 4.11 3.34 Intr - 69859 69704 156 2 0 15 91 149 0.796 7.88 3.33 Intr - 70102 70056 47 0 2 120 53 85 0.834 6.25 3.32 Intr - 70506 70242 265 1 1 126 99 86 0.966 10.07 3.31 Intr - 70805 70735 71 1 2 67 57 68 0.834 0.43 3.30 Intr - 71360 71209 152 2 2 87 78 -19 0.403 -4.04 3.29 Intr - 71647 71501 147 1 0 92 75 66 0.403 6.13 3.28 Intr - 71878 71748 131 2 2 86 58 70 0.856 4.21 3.27 Intr - 72176 72041 136 2 1 88 82 107 0.999 10.24 3.26 Intr - 73120 72918 203 2 2 51 90 132 0.996 8.70 3.25 Intr - 73513 73382 132 2 0 34 78 78 0.583 2.02 3.24 Intr - 74018 73928 91 2 1 97 102 4 0.960 2.27 3.23 Intr - 74312 74218 95 0 2 42 87 85 0.697 3.48 3.22 Intr - 75041 74855 187 2 1 17 66 186 0.145 8.56 3.21 Intr - 83998 83914 85 0 1 115 42 55 0.227 3.42 3.20 Intr - 84227 84157 71 2 2 104 78 9 0.852 -0.52 3.19 Intr - 85016 84843 174 2 0 -18 94 202 0.552 10.34 3.18 Intr - 87544 85976 1569 1 0 107 76 565 0.406 46.48 3.17 Intr - 87986 87807 180 2 0 87 96 77 0.974 8.46 3.16 Intr - 88357 88198 160 0 1 67 78 117 0.996 8.59 3.15 Intr - 88801 88678 124 2 1 78 81 122 0.999 10.14 3.14 Intr - 89136 88993 144 1 0 140 55 138 0.999 15.95 3.13 Intr - 90343 89832 512 0 2 90 82 323 0.775 24.51 3.12 Intr - 91025 90971 55 0 1 90 7 57 0.533 -4.16 3.11 Intr - 91535 91338 198 0 0 47 99 104 0.546 6.72 3.10 Intr - 94949 94817 133 2 1 112 4 142 0.549 8.42 3.09 Intr - 95503 95375 129 1 0 67 66 205 0.994 17.09 3.08 Intr - 95788 95709 80 2 2 102 47 103 0.807 6.87 3.07 Intr - 96056 95912 145 2 1 62 71 177 0.767 13.26 3.06 Intr - 96337 96203 135 1 0 62 75 241 0.975 20.96 3.05 Intr - 96588 96487 102 0 0 74 102 151 0.999 15.47 3.04 Intr - 96739 96681 59 2 2 96 77 77 0.998 6.00 3.03 Intr - 96971 96872 100 2 1 76 85 163 0.999 14.48 3.02 Intr - 97600 97463 138 1 0 125 39 113 0.983 10.76 3.01 Init - 97871 97827 45 2 0 53 76 113 0.811 5.29 3.00 Prom - 98654 98615 40 -13.52 4.19 PlyA - 98923 98918 6 1.05 4.18 Term - 100151 99998 154 1 1 98 38 118 0.992 5.19 4.17 Intr - 100634 100459 176 2 2 113 94 157 0.996 17.54 4.16 Intr - 100786 100718 69 1 0 102 89 58 0.909 6.68 4.15 Intr - 101187 101029 159 0 0 70 72 145 0.992 11.28 4.14 Intr - 101420 101315 106 1 1 104 55 82 0.938 6.72 4.13 Intr - 101668 101610 59 1 2 105 87 20 0.954 1.28 4.12 Intr - 102328 102158 171 1 0 36 99 135 0.785 9.54 4.11 Intr - 105464 105383 82 1 1 87 42 60 0.264 0.94 4.10 Intr - 111178 111039 140 1 2 67 76 39 0.254 -0.14 4.09 Intr - 111528 111319 210 0 0 88 70 52 0.231 2.51 4.08 Intr - 121489 121297 193 0 1 3 81 150 0.070 5.29 4.07 Intr - 133718 133642 77 2 2 -3 91 85 0.104 -1.99 4.06 Intr - 134201 134017 185 0 2 97 97 40 0.107 5.31 4.05 Intr - 142969 142285 685 1 1 -10 85 874 0.517 68.44 4.04 Intr - 144011 142984 1028 0 2 75 -57 602 0.021 34.71 4.03 Intr - 150075 150051 25 0 1 144 31 -5 0.044 -3.00 4.02 Intr - 157095 156928 168 0 0 86 74 149 0.174 13.44 4.01 Init - 181584 181540 45 0 0 86 72 6 0.142 -0.52 4.00 Prom - 194104 194065 40 -1.66 5.02 PlyA - 194865 194860 6 1.05 5.01 Sngl - 195873 195235 639 0 0 42 49 187 0.597 6.39 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): >gi568815589r:35005224_35208274|GENSCAN_predicted_peptide_1|66_aa MAEKVSVDSMEKEAFAAAEELATQKHEPRLHKFWELHLKETEAWKLNRQEVVEDDKRLKT TCKLGS >gi568815589r:35005224_35208274|GENSCAN_predicted_CDS_1|201_bp atggctgagaaggtgtcagtggacagcatggagaaggaggcttttgcagcagctgaggag ctggccactcagaagcatgaaccaagactgcacaaattctgggagctgcacctgaaagag actgaagcttggaaattaaatcgccaagaagttgtggaggacgataaaagacttaaaact acctgcaaactgggaagttaa >gi568815589r:35005224_35208274|GENSCAN_predicted_peptide_2|751_aa MPSWAGRAGSASAPRDSISPLAADTLTHATFRGSYFPFPPAHQGHCGLTTPSSPGKQFPQ DRGHYPSSGRRPHKPLTEGRLRGNWSWVAAGPLTLHPYGEGGTGERNSRRERQRGGWRGR TREFRWRLWLRVDAPPGRWRGGAGPTSPKAREELPLLHRVAFLDHLCKQKSEVEEEGEEE EEGEDEASLDPLKPCSPTKEAPTGEQATPAPPQPSCGSEGLLKAIGIPEQTVMQPVSPSR SFPIFQILTSFPVRHKIASGNRQQQRKSQLFWGLPSLHSESLEAIFLSSGGPSPLKWSVC SSVFFNKLAFLPRSNLLLPQYHSSAQFSTHGAHTMEDLEGMAPDPQLLPPPSSPSVSSLL LHLRPFPVDHKGVLSGAEAPTQSPGTSPLEVLPGYETHLETTGHKKMPQAFEPPMPPPCQ SPASLSEPRKVSPEGGLAISKDFWGTVGYREKPQASESSMPVPCPPLDSLPELQRESSLE DPSRYKPQWECRENSGNLWAFESPVLDLNPELSGTSPECVPPASETPWKGMQSRENIWVP ADPVSPPSLPSVPLLESLVMGPQGVLSESKALWETMGQKENLWASDSPDPVHSTPPTTLM EPHRINPGECLATSEATWKDTEHSRNSSASRSPSLALSPPPALAPELLRVRSMGVLSDSE ARCGDIQKTKNSWASKHPACNLPQDLHGASPLGVLSDSQSIVGEMEQKENCVPVFPALFS SNLSTGSESKTHHLLAKGGTKVLSSDTADKG >gi568815589r:35005224_35208274|GENSCAN_predicted_CDS_2|2256_bp atgccatcctgggccggcagggcaggttcagcttctgcccctcgggactcgatctcacct ctggccgctgacactctgacccatgcgacttttcggggctcctacttcccattcccacca gcccaccaggggcactgcggcctcacaactccctcatcccctgggaaacaattcccccag gaccgtgggcattatccctccagcggacgtcggccccacaagcccctcacggaagggcgg ctccgtggcaactggagctgggttgctgccgggcccttaacactacatccctacggagag ggcggaacaggagagaggaatagcagaagggaaaggcagaggggagggtggcgaggaaga acccgcgagttccgatggaggctgtggctgcgcgtcgatgctccaccaggacgctggaga ggcggcgcgggtcccacaagcccgaaagcccgggaggaactaccacttctgcaccgtgtg gccttccttgatcacctgtgtaagcagaaatcagaagtggaggaagaaggggaagaagag gaagagggggaagacgaggcatctctggatccactgaagccatgttctcctaccaaagaa gctcccactggagagcaagccactccagccccaccccagccatcctgtggttctgagggc ctcctcaaggctatagggataccagagcaaacagtcatgcagcccgtgagcccttccaga tccttccccatcttccagattctgaccagctttcctgtgaggcacaagatagcatcaggg aaccgccagcagcagagaaaaagccagctcttctggggtctcccctctctgcacagcgag tccttggaggccatcttcctgagctcaggtggcccctctcctctgaagtggtctgtttgt tcttctgtcttcttcaacaagcttgccttcctacctaggtccaacctgttgcttccccag tatcactcctcagcccagttttctacccatggggcccatactatggaagatctagaaggg atggcccccgatcctcagctgcttccacctccatcttctccttctgtctcatcactactc ctccatctgaggcccttccctgtggaccacaagggagttttatctggcgctgaggcaccc acacagtcccctggaactagccccctggaagttctccctggatatgagactcatttggaa accacaggacacaaaaagatgccccaagcttttgagcctccgatgccacccccctgccaa tccccagcttctctgtcagaacccagaaaagttagccctgaaggaggacttgctatatct aaggacttctggggaaccgtgggatacagagagaaacctcaggcctctgagtcttcaatg ccagtcccttgccctcccctagactccctgccagaactccagagagagagttccctggaa gatccatccagatataagccccagtgggaatgcagagaaaactcaggaaacctctgggct tttgagtctccagtcttggacctcaacccagagctctctggaaccagccctgaatgtgtc ccaccagcatctgagacaccatggaagggcatgcaaagtagagaaaatatttgggtccct gcagacccagtttcacctcccagccttccctcagtccctctcctggagtctctagtaatg ggcccccagggagtcctgtctgaatccaaagctttgtgggagaccatggggcagaaagag aacctctgggcatctgattccccagaccctgttcatagcacacctccaaccacccttatg gaaccacacagaatcaatcctggggaatgcctcgctacatcagaagctacatggaaggat actgagcattccaggaattcctcggcttctaggtctccatctctggccctcagcccaccc ccagctcttgcaccggagctgctcagagttagatccatgggggtcctgtctgattctgaa gctagatgtggggacatacaaaagacaaaaaactcctgggcctctaagcacccagcttgt aacttaccccaagacctgcatggagccagccctctgggagtcttgtctgattctcagtct attgtaggggaaatggagcaaaaagaaaactgtgttcctgtgttcccagctttatttagc tcaaacctgtcaacagggtctgagtccaaaactcaccacctgctggccaagggtggaact aaagtcctatccagtgatactgcagacaaagggtga >gi568815589r:35005224_35208274|GENSCAN_predicted_peptide_3|3007_aa MLARAARGTGALLLRGSLLASGRAPRRASSGLPRNTVVLFVPQQEAWVVERMGRFHRILE PGLNILIPVLDRIRYVQSLKEIVINVPEQSAVTLDNVTLQIDGVLYLRIMDPYKASYGVE DPEYAVTQLAQTTMRSELGKLSLDKVFRERESLNASIVDAINQAADCWGIRCLRYEIKDI HVPPRVKESMQMQVEAERRKRATVLESEGTRESAINVAEGKKQAQILASEAEKAEQINQA AGEASAVLAKAKAKAEAIRILAAALTQHNGDAAASLTVAEQYVSAFSKLAKDSNTILLPS NPGDVTSMVAQAMGVYGALTKAPVPGTPDSLSSGSSRDVQGTDASLDEELDRVKMTWSPV PNFQLLNIPSNWGQPHAPGQTSTEVPADGDGATDGPLCLAHASLCCQVAGAAAAALPGAI AGGAVGWARIPLRLRSLSTGMQKASVLLFLAWVCFLFYAGIALFTSGFLLTRLELTNHSS CQEPPGPGSLPWGSQGKPGACWMASRFSRVVLVLIDALRFDFAQPQHSHVPREPPVSLPF LGKLSSLQRILEIQPHHARLYRSQVDPPTTTMQRLKALTTGSLPTFIDAGSNFASHAIVE DNLIKQLTSAGRRVVFMGDDTWKDLFPGAFSKAFFFPSFNVRDLDTVDNGILEHLYPTMD SGEWDVLIAHFLGVDHCGHKHGPHHPEMAKKLSQMDQVIQGLVERLENDTLLVVAGDHGM TTNGDHGGDSELEVSAALFLYSPTAVFPSTPPEEPEVIPQVSLVPTLALLLGLPIPFGNI GEVMAELFSGGEDSQPHSSALAQASALHLNAQQVSRFLHTYSAATQDLQAKELHQLQNLF SKASADYQWLLQSPKGAEATLPTVIAELQQFLRGARAMCIESWARFSLVRMAGGTALLAA SCFICLLASQWAISPGFPFCPLLLTPVAWGLVGAIAYAGLLGTIELKLDLVLLGAVAAVS SFLPFLWKAWAGWGSKRPLATLFPIPGPVLLLLLFRLAVFFSDSFVVAEARATPFLLGSF ILLLVVQLHWEGQLLPPKLLTMPRLGTSATTNPPRHNGAYALRLGIGLLLCTRLAGLFHR CPEETPVCHSSPWLSPLASMVGGRAKNLWYGACVAALVALLAAVRLWLRRYGNLKSPEPP MLFVRWGLPLMALGTAAYWALASGADEAPPRLRVLVSGASMVLPRAVAGLAASGLALLLW KPVTVLVKAGAGAPRTRTVLTPFSGPPTSQADLDYVVPQIYRHMQEEFRGRLERTKSQGP LTVAAYQLGSVYSAAMVTALTLLAFPLLLLHAERISLVFLLLFLQSFLLLHLLAAGIPVT TPGKYLSSDSLKDNSDSQGLRKRQQPPGNEADARVRPEEEEEPLMEMRLRDAPQHFYAAL LQLGLKYLFILGIQILACALAASILRRHLMVWKVFAPKFIFEAVGFIVSSVGLLLGIALV MRVDGAVLLSSASTERHCQQTTRGRKPTLVSVLVLDSEQRKDGRLRSALVSSYRFLETPS AGAELFRPASATMSRQTTSVGSSCLDLWREKNDRLVRQAKVAQNSGLTLRRQQLAQDALE GLRGLLHSLQGLPAAVPVLPLELTVTCNFIILRASLAQGFTEDQAQDIQRSLERVLETQE QQGPRLEQGLRELWDSVLRASCLLPELLSALHRLVGLQAALWLSADRLGDLALLLETLNG SQSGASKDLLLLLKTWSPPAEELDAPLTLQDAQGLKDVLLTAFAYRQGLQELITGNPDKA LSSLHEAASGLCPRPVLVQVYTALGSCHRKMGNPQRALLYLVAALKEGSAWGPPLLEASR LYQQLGDTTAELESLELLVEALNVPCSSKAPQFLIEVELLLPPPDLASPLHCGTQSQTKH ILASRCLQTGRAGDAAEHYLDLLALLLDSSEPRVGPCMPEVFLEAAVALIQAGRAQDALT LCEELLSRTSSLLPKMSRLWEDARKGTKELPYCPLWVSATHLLQGQAWVQLGAQKVAISE FSRCLELLFRATPEEKEQGAAFNCEQGCKSDAALQQLRAAALISRGLEWVASGQDTKALQ DFLLSVQMCPVSAKRLRPSFESSLPLPLPLPLPPRGSGASVVRPTPRCRPRPARLAPLER TSGPGQVFRPTPPARRPGALGRQSAVRPTTRRKPLVPGESRPREPEAPAGPEEDIKVQRL GNLPKITIKQWHNWNSDPMGLTIEFLLLTTLLSKGDDLSTAILKQKNRPNRLIVDEAINE DNSVVSLSQPKMDELQLFRGDTVLLKGKKRREAVCIVLSDDTCSDEKIRMNRVVRNNLRV RLGDVISIQPCPDVKYGKRIHVLPIDDTVEGITGNLFEVYLKPYFLEAYRPIRKGDIFLV RGGMRAVEFKVVETDPSPYCIVAPDTVIHCEGEPIKREDEEESLNEVGYDDIGGCRKQLA QIKEMVELPLRHPALFKAIGVKPPRGILLYGPPGTGKTLIARAVANETGAFFFLINGPEI MSKLAGESESNLRKAFEEAEKNAPAIIFIDELDAIAPKREKTHGEVERRIVSQLLTLMDG LKQRAHVIVMAATNRPNSIDPALRRFGRFDREVDIGIPDATGRLEILQIHTKNMKLADDV DLEQVANETHGHVGADLAALCSEAALQAIRKKMDLIDLEDETIDAEVMNSLAVTMDDFRV RTTPVPQWALSQSNPSALRETVVEVPQVTWEDIGGLEDVKRELQELVQYPVEHPDKFLKF GMTPSKGVLFYGPPGCGKTLLAKAIANECQANFISIKGPELLTMWFGESEANVREIFDKA RQAAPCVLFFDELDSIAKARGGNIGDGGGAADRVINQILTEMDGMSTKKNVFIIGATNRP DIIDPAILRPGRLDQLIYIPLPDEKSRVAILKANLRKSPVAKAGARSWADVDLEFLAKMT NGFSGADLTEICQRACKLAIRESIESEIRRERERQTNPSAMEVEEDDPVPEIRRDHFEEA MRFARRSVSDNDIRKYEMFAQTLQQSRGFGSFRFPSGNQGGAGPSQGSGGGTGGSVYTED NDDDLYG >gi568815589r:35005224_35208274|GENSCAN_predicted_CDS_3|9024_bp atgctggcgcgcgcggcgcggggcactggggcccttttgctgaggggctctctactggct tctggccgcgctccgcgccgcgcctcctctggattgccccgaaacaccgtggtactgttc gtgccgcagcaggaggcctgggtggtggagcgaatgggccgattccaccggatcctggag cctggtttgaacatcctcatccctgtgttagaccggatccgatatgtgcagagtctcaag gaaattgtcatcaacgtgcctgagcagtcggctgtgactctcgacaatgtaactctgcaa atcgatggagtcctttacctgcgcatcatggacccttacaaggcaagctacggtgtggag gaccctgagtatgccgtcacccagctagctcaaacaaccatgagatcagagctcggcaaa ctctctctggacaaagtcttccgggaacgggagtccctgaatgccagcattgtggatgcc atcaaccaagctgctgactgctggggtatccgctgcctccgttatgagatcaaggatatc catgtgccaccccgggtgaaagagtctatgcagatgcaggtggaggcagagcggcggaaa cgggccacagttctagagtctgaggggacccgagagtcggccatcaatgtggcagaaggg aagaaacaggcccagatcctggcctccgaagcagaaaaggctgaacagataaatcaggca gcaggagaggccagtgcagttctggcgaaggccaaggctaaagctgaagctattcgaatc ctggctgcagctctgacacaacataatggagatgcagcagcttcactgactgtggccgag cagtatgtcagcgcgttctccaaactggccaaggactccaacactatcctactgccctcc aaccctggcgatgtcaccagcatggtggctcaggccatgggtgtatatggagccctcacc aaagccccagtgccagggactccagactcactctccagtgggagcagcagagatgtccag ggtacagatgcaagtcttgatgaggaacttgatcgagtcaagatgacttggtcccctgtc cccaattttcaattactaaatatcccatcaaactggggccagccccacgctcctggccaa acttccaccgaggtgccggcagatggcgatggagccaccgacgggccactctgtctggcg cacgcatctctgtgctgccaggtcgcaggcgccgccgccgccgcacttccgggtgccatt gcaggcggcgccgtcggctgggcccggattcccctgcggcttcgatccctttccactggg atgcagaaagcctcagtgttgctcttcctggcctgggtctgcttcctcttctacgctggc attgccctcttcaccagtggcttcctgctcacccgtttggagctcaccaaccatagcagc tgccaagagcccccaggccctgggtccctgccatgggggagccaagggaaacctggggcc tgctggatggcttcccgattttcgcgggttgtgttggtgctgatagatgctctgcgattt gacttcgcccagccccagcattcacacgtgcctagagagcctcctgtctccctacccttc ctgggcaaactaagctccttgcagaggatcctggagattcagccccaccatgcccggctc taccgatctcaggttgaccctcctaccaccaccatgcagcgcctcaaggccctcaccact ggctcactgcctacctttattgatgctggtagtaacttcgccagccacgccatagtggaa gacaatctcattaagcagctcaccagtgcaggaaggcgtgtagtcttcatgggagatgat acctggaaagaccttttccctggtgctttctccaaagctttcttcttcccatccttcaat gtcagagacctagacacagtggacaatggcatcctggaacacctctaccccaccatggac agtggtgaatgggacgtgctgattgctcacttcctgggtgtggaccactgtggccacaag catggccctcaccaccctgaaatggccaagaaacttagccagatggaccaggtgatccag ggacttgtggagcgtctggagaatgacacactgctggtagtggctggggaccatgggatg accacaaatggagaccatggaggggacagtgagctggaggtctcagctgctctctttctg tatagccccacagcagtcttccccagcaccccaccagaggagccagaggtgattcctcaa gttagccttgtgcccacgctggccctgctgctgggcctgcccatcccatttgggaatatc ggggaagtgatggctgagctattctcagggggtgaggactcccagccccactcctctgct ttagcccaagcctcagctctccatctcaatgctcagcaggtgtcccgatttcttcatacc tactcagctgctactcaggaccttcaagctaaggagcttcatcagctgcagaacctcttc tccaaggcctctgctgactaccagtggcttctccagagccccaagggggctgaggcgaca ctgccgactgtgattgctgagctgcagcagttcctgcggggagctcgggccatgtgcatc gagtcttgggctcgtttctctctggtccgcatggcggggggtactgctctcttggctgct tcctgctttatctgcctgctggcatctcagtgggcaatatccccaggctttccattctgc cctctactcctgacacctgtggcctggggcctggttggggccatagcgtatgctggactc ctgggaactattgagctgaagctagatctagtgcttctaggggctgtggctgcagtgagc tcattcctcccttttctgtggaaagcctgggctggctgggggtccaagaggcccctggca accctgtttcccatccctgggcccgtcctgttactcctgctgtttcgcttggctgtgttc ttctctgatagttttgttgtagctgaggccagggccacccccttccttttgggctcattc atcctgctcctggttgtccagcttcactgggagggccagctgcttccacctaagctactc acaatgccccgccttggcacttcagccacaacaaaccccccacggcacaatggtgcatat gccctgaggcttggaattgggttgcttttatgtacaaggctagctgggctttttcatcgt tgccctgaagagacacctgtttgccactcctctccctggctgagtcctctggcatccatg gtgggtggtcgagccaagaatttgtggtatggagcttgtgtggcggcgctggtggccctg ttagctgccgtgcgcttgtggcttcgccgctatggtaatctcaagagccccgagccaccc atgctctttgtgcgctggggactgcccctaatggcattgggtactgctgcctactgggca ttggcgtcgggggcagatgaggctcccccccgtctccgggtcctggtctctggggcatcc atggtgctgcctcgggctgtagcagggctggctgcttcagggctcgcgctgctgctctgg aagcctgtgacagtgctggtgaaggctggggcaggcgctccaaggaccaggactgtcctc actcccttctcaggcccccccacttctcaagctgacttggattatgtggtccctcaaatc taccgacacatgcaggaggagttccggggccggttagagaggaccaaatctcagggtccc ctgactgtggctgcttatcagttggggagtgtctactcagctgctatggtcacagccctc accctgttggccttcccacttctgctgttgcatgcggagcgcatcagccttgtgttcctg cttctgtttctgcagagcttccttctcctacatctgcttgctgctgggatacccgtcacc acccctggtaaatatctcagctctgattcacttaaagacaatagtgatagtcaagggctg cggaagagacagcagcccccagggaatgaagctgatgccagagtcagacccgaggaggaa gaggagccactgatggagatgcggctccgggatgcgcctcagcacttctatgcagcactg ctgcagctgggcctcaagtacctctttatccttggtattcagattctggcctgtgccttg gcagcctccatccttcgcaggcatctcatggtctggaaagtgtttgcccctaagttcata tttgaggctgtgggcttcattgtgagcagcgtgggacttctcctgggcatagctttggtg atgagagtggatggtgctgtacttttgagcagtgcaagtacagagcggcactgccagcag actacacgcggtagaaagccgaccttggtgagcgtgttggtgctcgacagtgagcagaga aaggatggacgattacggagcgccctcgtctccagttaccgctttctggaaacaccatcc gccggggcggagctgttccgccccgcctcggccaccatgtcccgccagaccacctctgtg ggctccagctgcctggacctgtggagggaaaagaatgaccggctcgttcgacaggccaag gtggctcagaactccggtctgactctgaggcgacagcagttggctcaggatgcactggaa gggctcagagggctcctccatagtctgcaagggctccctgcagctgttcctgttcttccc ttggagctgactgtcacctgcaacttcattatcctgagggcaagcttggcccagggtttc acagaggatcaggcccaggatatccagcggagcctagagagagtgctggagacacaggag cagcaggggcccaggttggaacaggggctcagggagctgtgggactctgtccttcgtgct tcctgccttctgccggagctgctgtctgccctgcaccgcctggttggcctgcaggctgcc ctctggttgagtgctgaccgtcttggggacctggccttgttactagagaccctgaatggc agccagagtggagcctctaaggatctgctgttacttctgaaaacttggagtcccccagct gaggaattagatgctccattgaccctgcaggatgcccagggattgaaggatgtcctcctg acagcatttgcctaccgccaaggtctccaggagctgatcacagggaacccagacaaggca ctaagcagccttcatgaagcggcctcaggcctgtgtccacggcctgtgttggtccaggtg tacacagcactggggtcctgtcaccgtaagatgggaaatccacagagagcactgttgtac ttggttgcagccctgaaagagggatcagcctggggtcctccacttctggaggcctctagg ctctatcagcaactgggggacacaacagcagagctggagagtctggagctgctagttgag gccttgaatgtcccatgcagttccaaagccccgcagtttctcattgaggtagaattacta ctgccaccacctgacctagcctcaccccttcattgtggcactcagagccagaccaagcac atactagcaagcaggtgcctacagacggggagggcaggagacgctgcagagcattacttg gacctgctggccctgttgctggatagctcggagccaagggtggggccctgtatgcctgag gtgtttttggaggcagcggtagcactgatccaggcaggcagagcccaagatgccttgact ctatgtgaggagttgctcagccgcacatcatctctgctacccaagatgtcccggctgtgg gaagatgccagaaaaggaaccaaggaactgccatactgcccactctgggtctctgccacc cacctgcttcagggccaggcctgggttcaactgggtgcccaaaaagtggcaattagtgaa tttagcaggtgcctcgagctgctcttccgggccacacctgaggaaaaagaacaaggggca gctttcaactgtgagcagggatgtaagtcagatgcggcactgcagcagcttcgggcagcc gccctaattagtcgtggactggaatgggtagccagcggccaggataccaaagccttacag gacttcctcctcagtgtgcagatgtgcccagtctcagcgaagcgtctgcgaccgtcgttt gagtcgtcgctgccgctgccgctgccactgccactgccacctcgcggatcaggagccagc gttgttcgcccgacgcctcgctgccggccccggcccgcccgattggctcccttagaacgg acgtctgggcctggccaggtcttccggcccactccgccggcgcggcgccccggggctttg gggcgccagtctgccgtccggcctaccacccgccgaaagcctttggtccccggagagagc aggccccgcgagcccgaggccccagccgggcccgaggaggacatcaaagttcagaggtta ggtaacttgcccaagatcacaattaagcagtggcataattggaattcagacccaatgggt ctgactatagagttcctgctcttaaccactcttctttcaaaaggtgatgacctatcaaca gccattctcaaacagaagaaccgtcccaatcggttaattgttgatgaagccatcaatgag gacaacagtgtggtgtccttgtcccagcccaagatggatgaattgcagttgttccgaggt gacacagtgttgctgaaaggaaagaagagacgagaagctgtttgcatcgtcctttctgat gatacttgttctgatgagaagattcggatgaatagagttgttcggaataaccttcgtgta cgcctaggggatgtcatcagcatccagccatgccctgatgtgaagtacggcaaacgtatc catgtgctgcccattgatgacacagtggaaggcattactggtaatctcttcgaggtatac cttaagccgtacttcctggaagcgtatcgacccatccggaaaggagacatttttcttgtc cgtggtgggatgcgtgctgtggagttcaaagtggtggaaacagatcctagcccttattgc attgttgctccagacacagtgatccactgcgaaggggagcctatcaaacgagaggatgag gaagagtccttgaatgaagtagggtatgatgacattggtggctgcaggaagcagctagct cagataaaggagatggtggaactgcccctgagacatcctgccctctttaaggcaattggt gtgaagcctcctagaggaatcctgctttacggacctcctggaacaggaaagaccctgatt gctcgagctgtagcaaatgagactggagccttcttcttcttgatcaatggtcctgagatc atgagcaaattggctggtgagtctgagagcaaccttcgtaaagcctttgaggaggctgag aagaatgctcctgccatcatcttcattgatgagctagatgccatcgctcccaaaagagag aaaactcatggcgaggtggagcggcgcattgtatcacagttgttgaccctcatggatggc ctaaagcagagggcacatgtgattgttatggcagcaaccaacagacccaacagcattgac ccagctctacggcgatttggtcgctttgacagggaggtagatattggaattcctgatgct acaggacgcttagagattcttcagatccataccaagaacatgaagctggcagatgatgtg gacctggaacaggtagccaatgagactcacgggcatgtgggtgctgacttagcagccctg tgctcagaggctgctctgcaagccatccgcaagaagatggatctcattgacctagaggat gagaccattgatgccgaggtcatgaactctctagcagttactatggatgacttccgggta aggaccacacccgtgcctcagtgggccttgagccagagtaacccatcagcactgcgggaa accgtggtagaggtgccacaggtaacctgggaagacatcgggggcctagaggatgtcaaa cgtgagctacaggagctggtccagtatcctgtggagcacccagacaaattcctgaagttt ggcatgacaccttccaagggagttctgttctatggacctcctggctgtgggaaaactttg ttggccaaagccattgctaatgaatgccaggccaacttcatctccatcaagggtcctgag ctgctcaccatgtggtttggggagtctgaggccaatgtcagagaaatctttgacaaggcc cgccaagctgccccctgtgtgctattctttgatgagctggattcgattgccaaggctcgt ggaggtaacattggagatggtggtggggctgctgaccgagtcatcaaccagatcctgaca gaaatggatggcatgtccacaaaaaaaaatgtgttcatcattggcgctaccaaccggcct gacatcattgatcctgccatcctcagacctggccgtcttgatcagctcatctacatccca cttcctgatgagaagtcccgtgttgccatcctcaaggctaacctgcgcaagtccccagtt gccaaggcaggtgcaagatcatgggctgatgtggacttggagttcctggctaaaatgact aatggcttctctggagctgacctgacagagatttgccagcgtgcttgcaagctggccatc cgtgaatccatcgagagtgagattaggcgagaacgagagaggcagacaaacccatcagcc atggaggtagaagaggatgatccagtgcctgagatccgtcgagatcactttgaagaagcc atgcgctttgcgcgccgttctgtcagtgacaatgacattcggaagtatgagatgtttgcc cagacccttcagcagagtcggggctttggcagcttcagattcccttcagggaaccagggt ggagctggccccagtcagggcagtggaggcggcacaggtggcagtgtatacacagaagac aatgatgatgacctgtatggctaa >gi568815589r:35005224_35208274|GENSCAN_predicted_peptide_4|1243_aa MAPDKGKVHLHNKIRSAHSPRTQSSDMAEDRASLCRAPAAPDRSLFPLSRCRDCSRYRPH GSGSSSWSRSQVAPRQAEPGIGRSTAETLGPPGSLEMGVLTFRDVAIEFSLEEWHCLDTA QQNLYRNVMLENYRNLVFLGIAASKPDLITCLEQGKEPWNVKRHEMVAEPPVVCSYFAQD LWPNQGIKNCFQKVILRRYKKCGHENLQLGKYRKSMDECKVHEECCNGFNQCSRTTQSKI LQCDKYVKVFHKFSNSNRYKIRHTGKKPFKCKECEKSFFMLSHSAQHKRIHSGEKPYKCK ECGKAYNEASNLSTHKRIHTGKKPYKCEDCGKAFNWLSHLTTQKIIHTGKKPYKCEDCGK AFNQSANLTTHKRIHTGEKPYKCEECGKAFSQSSTLTTHKIIHAGEKPYKCEECGKSFNQ SSIIHTGEKFYKCEERGKAFSQFSHLTTRKRIHSGEKPYKCEECGKAFKQSSTLTTHKRI HSGEKFYKCEVCSKAFSRFSHLTTHKRIHTGEKPYKCEECGKAFNLSSHLTTHKIIHTGE KPYKCEECGKAFNQSSTLSKHKVIHTGEKPYKCGECGKAFNQSSHLTTHKIIHTGEKPYK CEECGKAFNNSSILNRHKMIHTGEKLYKLESCNNACDNISNISKHKRNCAVLCPALSEPR AFMDLREEEMPANWSTGDHEQPRVAQKWHHVPPLWSVGLAARPRFRVLPGLKSPAHACFL EQEAQVCSPGCNGYSCTRPPTEKRWKIRDPWRKEVPDFSNRPISLGYKVPKPVPSTNRQA ATGRVTFTQDPSVATRCQSRIMNPHPPAQRRLQKLLNLADLNPTAQIPSFSQTPEIPCTT LQSLRTSPISANARAHPDIPTKRLEFRRQLTPTCHHRSRTWPGWDLRRPATITLSPPSSF GAATANQSQRILVGVRPPGMLGAVVLASHSLAQLFDASCCPPPERRRRLLPAGEAPDVSS EEEGPAPRRRRGSLGHPTAANSSDAKATPFWSHLLPGPKEPVLDPTDCGPMGRRLKGARR LKLSPLRSLRKGPGLLSPPSASPVPTPAVSRTLLGNFEESLLRGRFAPSGHIEGFTAEIG ASGSYCPQHVTLPVTVTFFDVSEQNAPAPFLGIVDLNPLGRKGYSVPKVGTVQVTLFNPN QTVVKMFLVTFDFSDMPAAHMTFLRHRLFLVPVGEEGNANPTHRLLCYLLHLRFRSSRSG RLSLHGDIRLLFSRRSLELDTGLPYELQAVTEAPHNPRYSPLP >gi568815589r:35005224_35208274|GENSCAN_predicted_CDS_4|3732_bp atggcaccagacaaggggaaagttcatttgcataataagattaggtccgcgcactcaccg cgcacgcagagcagtgacatggccgaggatcgggcaagcctctgccgcgccccagccgcg ccggaccgctccctctttcctctcagcaggtgccgcgactgctctcgttaccggccccac gggtctggcagctcctcatggtcccggtcgcaggtggctcctcgccaggctgagccaggt attgggagatccacagctgagacgctaggaccccctggaagcctagaaatgggagtgttg acatttagggatgtggccatagaattctctctggaggagtggcattgtctggacactgca cagcagaatttatataggaatgtgatgttagagaactacagaaacctggtcttcctgggt attgctgcctctaagccagacctgatcacctgtctggagcaaggaaaagaaccttggaat gtgaagagacatgagatggtagctgaacccccagttgtatgttcttattttgcccaagac ctttggccaaaccagggcataaaaaattgtttccaaaaagtgatactgagaagatataaa aaatgtggacatgaaaatttacagttaggaaaataccgtaaaagcatggatgagtgtaag gtgcatgaagaatgttgcaatggatttaaccagtgttcgagaactacccagagcaaaata ttacaatgtgacaaatatgtgaaagtctttcataaattttcaaattcaaacagatataag ataagacatactggaaagaaacctttcaaatgtaaagaatgcgaaaagtcatttttcatg ctttcacactcagctcaacataaaagaattcatagtggagagaaaccctacaaatgtaaa gaatgtgggaaagcctataatgaggcctcaaacctttctacacataaaagaattcatact ggaaagaaaccctacaaatgcgaagattgtggaaaagcctttaactggctttcacatctt actacacaaaaaataattcataccggaaagaaaccctacaaatgtgaggactgtggcaaa gcttttaaccaatctgcaaaccttactacacataagagaattcatactggagagaaaccc tacaaatgtgaagaatgtggcaaagcttttagccagtcctcaaccctcactacacataag ataattcatgctggagagaaaccctacaaatgtgaagaatgtggcaaatcttttaaccaa tcctcaataattcatactggagagaaattctacaaatgtgaagaacgtggcaaagccttt agccagttctcacaccttactacacgtaagagaattcattctggagagaaaccctacaaa tgtgaagaatgtggcaaagcttttaaacaatcctcaacccttactacacataagagaatt cattctggagagaaattctacaaatgtgaagtatgtagcaaagcctttagccggttctca caccttactacacataagagaattcatactggagagaagccctacaaatgtgaagaatgt ggcaaagcttttaacctatcctcacaccttactacacataagataattcatactggagag aaaccctacaaatgtgaagaatgtggcaaagcttttaaccagtcctcaactctttctaaa cacaaggttattcatactggagagaaaccctacaaatgtggagaatgtggcaaagccttt aaccagtcctcacaccttactacacataagataattcatactggtgagaaaccctacaag tgcgaagaatgtggcaaagcctttaacaactcctctattcttaacagacataagatgatt catacgggagagaaactctacaaacttgaaagttgtaacaatgcttgtgacaacatctca aacatttccaaacataaaagaaattgtgctgtcctctgccctgctctgtctgagcccagg gcttttatggatctcagagaggaggaaatgcctgccaattggtccacaggtgaccatgag cagccacgggtggcccagaaatggcaccacgtgcctccactctggtctgtgggactggcg gcacggccccgttttcgggtcctccctggtctgaagtcgccagctcatgcctgcttcctg gaacaggaggcccaggtctgcagccccgggtgcaatggctacagctgcaccaggccccca actgaaaaacgttggaagatcagggatccctggaggaaagaagtcccagacttcagcaat cgtcctatcagtttgggctataaggtgcccaagccagtaccaagcaccaataggcaagct gctacaggccgggtcaccttcactcaggatccctctgtggctaccagatgtcaatcgaga ataatgaacccacacccgcctgcacagcgtaggcttcagaaactgctcaacctcgcagac ctgaaccccaccgcccagattccctcattttcacagacccctgagattccttgcactacc ttgcaatccctacggacctcccctattagtgcaaatgcacgcgcccacccagacatccct acaaagaggttagagttccggcggcagctcacaccgacttgtcatcacagaagccgcacg tggccggggtgggacctcaggcgacctgcgaccatcactttgtctcctccttcctccttt ggggccgccaccgccaatcagagccagcggatcctggttggagtgcgaccgcccggcatg ttgggagctgtagtccttgccagccacagcctggcacagctgtttgatgccagctgctgc ccaccccctgaacgaagacgaaggctgcttcctgctggagaagccccagatgtcagctct gaggaagaggggccagcccctcggaggcgccggggatccctgggccaccctactgctgcc aacagttctgatgccaaagccacacccttctggagccacctgctgcctgggcccaaagag cctgttttggacccaacagactgcggtcccatggggcggaggctgaaaggagcccgtcgc ctgaagctgagcccccttcgaagcctccggaaggggccaggcctgctgagcccccccagt gcctcccctgttcctacccctgctgtcagccgtaccctgctgggcaactttgaggaatca ttgctgcgaggacgttttgcaccatctggccacattgagggcttcacagcagaaattgga gctagtgggtcatactgcccccagcacgtcacgctgcctgtcactgtcacattctttgat gtttctgagcaaaatgccccggctcccttcctgggcatcgtggatctgaaccccttgggg aggaagggttacagcgtgcccaaggtgggcaccgtccaagtgaccttatttaaccccaac cagactgtggtaaagatgttccttgtgacctttgacttctcggacatgcctgctgcccac atgaccttcctgcgccatcgcctctttttggtgcctgtgggtgaggagggaaatgctaac cccacccaccgcctcctctgctacttgctgcacctcaggttccggagctcccgctcaggc cgcttaagcctgcatggagatatccgcctgcttttttcccgccggagcctggagctggac acagggctcccctacgaactgcaggctgtgaccgaggcccctcataatccacgttattca cctttgccctga >gi568815589r:35005224_35208274|GENSCAN_predicted_peptide_5|212_aa MIISIDAEKAFDKIQQPVMLKTLNKLGTDGTYLKIIRAIYDKPTANIILNGQKLEAFPLK TGTRQGCPLSPLLFNIVLEVLARAIRQEKEIKGIQLGKEDVKLSLFANDMIVYLENPIIS AQNLLKLISNFRKVSGYKINVQKSQAFLYTNNRQTVSQIMRELPFTIASKRIKYLGIQLT RDVKDLFKENYKPLLNKIKEDTNNGRTFHAHG >gi568815589r:35005224_35208274|GENSCAN_predicted_CDS_5|639_bp atgattatctcaatagatgcagaaaaggccttcgacaaaattcaacagcccgtcatgcta aaaactctcaataaattaggtactgatgggacatatctcaaaataataagagctatctat gacaaacccacagccaatatcatactgaatgggcaaaaactggaagccttccctttgaaa actggcacaagacagggatgccctctctcaccactcctattcaacatagtgttggaagtt ctggccagggcaatcaggcaagagaaagaaataaagggtattcaattaggaaaagaggat gtcaaattgtccctgtttgcaaatgacatgattgtatatctagaaaaccccatcatctca gcccaaaatctccttaagctgataagcaacttcaggaaagtctcaggatacaaaatcaat gtgcaaaaatcacaagcattcctatacaccaataacagacaaacagtaagccaaatcatg agagaactcccattcacaattgcttcaaagagaataaaatacctaggaatccaacttaca agggatgtgaaggacctcttcaaggagaactacaaaccactgctcaacaaaataaaagag gacacaaacaatggaagaacattccatgctcatggatag