Result of GENSCAN for
pF1KE0013
GENSCAN 1.0 Date run: 5-Nov-116 Time: 22:11:11 Sequence gi568815590f:94626328_94889907 : 263580 bp : 40.66% 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 Init + 14992 15123 132 0 0 84 63 175 0.689 13.34 1.02 Intr + 15329 15757 429 1 0 26 61 308 0.868 14.89 1.03 Intr + 16976 17089 114 1 0 81 116 8 0.623 2.62 1.04 Intr + 28192 28210 19 0 1 117 58 15 0.114 -3.33 1.05 Intr + 35945 36043 99 0 0 64 92 85 0.941 5.66 1.06 Intr + 36174 36228 55 1 1 122 111 55 0.997 8.32 1.07 Intr + 38600 38732 133 2 1 59 87 112 0.999 7.93 1.08 Intr + 38827 38869 43 0 1 92 103 51 0.999 3.89 1.09 Intr + 41622 41923 302 1 2 106 77 362 0.917 32.43 1.10 Intr + 45198 45344 147 2 0 1 110 126 0.451 5.61 1.11 Intr + 47981 48167 187 1 1 64 103 132 0.800 10.64 1.12 Intr + 51906 52044 139 1 1 69 110 131 0.532 12.00 1.13 Intr + 66350 66500 151 2 1 108 82 77 0.339 8.34 1.14 Intr + 93372 93909 538 2 1 72 44 290 0.018 14.56 1.15 Intr + 100004 100114 111 0 0 17 111 127 0.866 7.33 1.16 Intr + 108303 108427 125 1 2 84 110 95 0.991 10.68 1.17 Intr + 112042 112132 91 0 1 82 64 107 0.992 6.35 1.18 Intr + 122130 122397 268 1 1 113 -16 166 0.005 4.37 1.19 Intr + 132979 133144 166 1 1 61 33 141 0.486 4.94 1.20 Intr + 138856 138987 132 0 0 95 93 0 0.649 1.12 1.21 Intr + 139384 139482 99 0 0 93 115 -25 0.465 0.09 1.22 Intr + 140285 140358 74 1 2 116 108 26 0.989 4.69 1.23 Intr + 144125 144244 120 2 0 57 110 71 0.963 4.89 1.24 Intr + 151339 151459 121 1 1 99 97 29 0.980 4.48 1.25 Intr + 154757 154839 83 1 2 70 78 92 0.822 3.92 1.26 Intr + 157343 157475 133 2 1 78 64 110 0.974 7.33 1.27 Intr + 161567 161725 159 1 0 85 113 47 0.938 6.16 1.28 Intr + 196551 196854 304 2 1 78 96 110 0.418 6.04 1.29 Intr + 197034 197234 201 1 0 56 88 107 0.739 5.84 1.30 Intr + 198566 198740 175 0 1 58 63 68 0.677 -0.62 1.31 Intr + 201395 201466 72 2 0 114 75 25 0.721 1.40 1.32 Intr + 202648 202699 52 1 1 85 103 29 0.973 2.09 1.33 Intr + 205665 205847 183 2 0 50 66 179 0.989 10.96 1.34 Intr + 210197 210304 108 1 0 75 84 46 0.844 2.46 1.35 Intr + 212136 212291 156 2 0 92 110 70 0.996 8.89 1.36 Intr + 215164 215264 101 0 2 73 98 75 0.781 4.99 1.37 Intr + 223589 223764 176 2 2 48 71 34 0.381 -3.64 1.38 Intr + 225226 225359 134 2 2 45 92 49 0.605 0.44 1.39 Intr + 227478 227588 111 2 0 75 113 32 0.818 4.06 1.40 Intr + 230450 230651 202 1 1 87 99 183 0.978 17.24 1.41 Intr + 233184 233305 122 1 2 108 63 32 0.970 1.99 1.42 Intr + 239179 239373 195 0 0 62 84 139 0.982 9.59 1.43 Intr + 240813 240869 57 2 0 92 114 -6 0.593 0.56 1.44 Intr + 240949 241010 62 0 2 93 108 23 0.974 1.41 1.45 Intr + 245557 245675 119 1 2 89 111 96 0.994 11.19 1.46 Intr + 247047 247150 104 1 2 115 68 76 0.891 7.27 1.47 Term + 253791 253907 117 2 0 49 47 98 0.586 -0.64 1.48 PlyA + 253953 253958 6 1.05 2.06 PlyA - 254187 254182 6 -0.45 2.05 Term - 255418 255305 114 1 0 61 43 111 0.987 1.49 2.04 Intr - 255962 255805 158 0 2 106 84 57 0.938 5.91 2.03 Intr - 256565 256454 112 2 1 79 110 73 0.993 7.63 2.02 Intr - 258874 258740 135 1 0 68 84 38 0.678 1.24 2.01 Intr - 261746 261600 147 2 0 95 107 -20 0.421 0.11 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): >gi568815590f:94626328_94889907|GENSCAN_predicted_peptide_1|2306_aa MTASPDYLVVLFGITAGATGAKLGSDEKELILLFWKVVDLANKKLRWRGRRYRAGFFARR GTLRRDEVGSRRPRGPLPGLFRPIGWGVGRGAGTHRNRWRVESFDSASGPQERRGPPQQG SEGGGCRKRLRNWGKLTRASLPSEVGQLHEVLVRPDQLELTEDCKEETKIDVESLSSASQ LDQALRQFNQSVSNELNIGVGTSFCLCTDGQLHVRQILHPEASKKGIIDLLDLNFEKSSS VSRYGASQVEDMGNIILAMISEPYNHRFSDPERVNYKFESGTWGGAALCLNAQGRRNGEA LVRFVSEEHRDLALQRHKHHMGTRYIEVYKATGEDFLKIAGGTSNEVAQFLSKENQVIVR MRGLPFTATAEEVVAFFGQHCPITGGKEGILFVTYPDGRPTGDAFVLFACEEYAQNALRK HKDLLGKRYIELFRSTAAEVQQQFVPPTNVRDCIRLRGLPYAATIEDILDFLGEFATDIR THGVHMVLNHQGRPSGDAFIQMKSADRAFMAAQKCHKKNMKDRYVEVFQCSAEEMNFVLM GGTLNRNGLSPPPSPAAVIPTEAAIYQPSVILNPRALQPSTAYYPAGTQLFMNYTAYYPS PPGSPNSLGYFPTAANLSGVPPQPGTVVRMQGLAYNTGVKEILNFFQGYQGRRRPGATAV GCTPGVESPSCPRRPRRPSETLRPLPSPNTLVPGPPAGTRLAATPEGGGSGSGGAAARSG PPEAEGFGDAEGGRVWAAREPQGALAFAETMAEEEGDCRGVQRANGCQWSREGGAGALEV WVGAAGGRGRGGGRAGRAGRSAAPRRGLRRNSGERSKWPEVLSAELGSKGPPVELRQRKK PKSSENKESAKEEKISDIPIPERAPKHVLFQRFAKIFIGCLAAVTSGMMYALYLSAYHER KFWFSNRQELEREITFQGDSAIYYSYYKDMLKAPSFERESYLSKKFFGIILYENRSSLEQ GFPTPRPQTSTHQRPVRNLASQQEVSGSSSSSDNDDDDDDDDDDDNCRFICIYCHSPLLA LLPELRLLILLIGAFYRALIGAYYRALIGAFYNPLVRQKSSPSPHSTQEVQLASPLKSAE ITGVYEVYKIYIFSLFLGYLLQFENPALLVSPLLSLVAALMLAKCLQLNVKKGSFVAKII KVINFYLVCTLTITLNIIMKMFVPHKENGHMLKFLEVKFGLNMTNGKSLKETVTLEDGRI GERPEIIYHVIHTILLGSLAMVIEGLKYIWIPYVCMLAAFGVCSPELWMTLFKWLRLRTV HPILLFFPRLMTELMELQEFYDPDTVELMTWIKRQAPVAAVFAGSPQLMGAIKLCTGWMV TSLPLYNDDDLLKRNENIYQIYSKRSAEDIYKILTSYKANYLIVEDAICNEVGPMRGCRV KDLLDIANGHEASGKLVFSAGRREHLRRGPRCEEISEMGTGKLKAQEINFAWVTTRTLRF AFTKILRPVATLDEVVSFSRWRTVREHGKPTRDPASCGAVSYGNREEAWFEGTGPHPSVR LEPGSGPGGSGGGGRMSAEAADREAATSSRPCTPPQTCWFEFLLEESLLEKHLRKPCPDP APVQLIVQFLEQASKPSVNEQNQVQPPPDNKRNRILKLLALKVAAHLKWDLDILEKRAIR TIVQSSFPVKQAKPGPPQLSVMNQMQQEKELTENILKVLKEQAADSILVLEAALKLNKDL YVHTMRTLDLLAMEPGMVNGETESSTAGLKVKTEEMQCQVCYDLGAAYFQQGSTNSAVYE NAREKFFRTKELIAEIGSLSLHCTIDEKRLAGYCQACDVLVPSSDSTSQQLTPYSQVHIC LRSGNYQEVIQIFIEDNLTLSLPVQFRQSVLRELFKKAQQGNVCLGLEDLQYVFMISSHE LFITLLKDEERKLLVDQMRKRSPRVNLCIKPVTSFYDIPASASVNIGQLEHQLILSVDPW RIRQILIELHGMTSERQFWTVSNKWEVPSVYSGVILGIKDNLTRDLVYILMAKGLHCSTV KDFSHAKQLFAACLELVTEFSPKLRQVMLNEMLLLDIHTHEAGTGQAGERPPSDLISRVR GYLEMRLPDIPLRQVIAEECVAFMLNWRENEYLTLQVPAFLLQSNPYVKLGQLLAATCKE LPGPKESRRTAKDLWEVVVQICSVSSQHKRGNDGRVSLIKQRESTLGIMYRYVLEPLVLT IILSLFVKLHNVREDIVNDITAEHISIWPSSIPNLQSVDFEAVAITVKELVRYTLSINPN NHSWLIIQADIYFATNQYSAALHYYLQAGAVCSDFFNKAVPPDVYTDQIKAIGQTELNAS NPEEVLQLAAQRRKKKFLQAMAKLYF >gi568815590f:94626328_94889907|GENSCAN_predicted_CDS_1|6921_bp atgacggcctctccggattacttggtggtgctttttgggatcactgctggggccaccggg gccaagctaggctcggatgagaaggagttgatcctgctgttctggaaagtcgtggatctg gccaacaagaagctcaggtggagaggccggcgctaccgagccgggttctttgcccgtcgg gggacgctccgccgagacgaggtggggtctcggaggccccggggtccacttccagggctt ttccgacctatcgggtggggggtggggcggggggcaggaacgcaccggaaccgatggcga gtcgagagctttgattctgcgtccggaccccaagagaggcgcgggccgccccagcagggg agcgagggaggagggtgcagaaagaggctccgaaattgggggaaactgacccgtgcttct ctaccttcggaggtgggacagttgcacgaagtgctagttagaccggatcagttggaactg acggaggactgcaaagaagaaactaaaatagacgtcgaaagcctgtcctcggcgtcgcag ctggaccaagccctccgacagtttaaccagtcagtgagcaatgaactgaatattggagta gggacttccttctgtctctgtactgatgggcagcttcatgtcaggcaaatcctgcatcct gaggcttccaagaagggtataattgacttactagatttaaattttgagaagagtagttca gtctctcgatatggagcctctcaagttgaagatatggggaatataattttagcaatgatt tcagagccttataatcacaggttttcagatccagagagagtgaattacaagtttgaaagt ggaacttggggaggtgcagcactttgtctgaatgctcagggtcgaaggaacggagaagct ctggttaggtttgtaagtgaggagcaccgagacctagcactacagaggcacaaacatcac atggggacccggtatattgaggtttacaaagcaacaggtgaagatttccttaaaattgct ggtggtacttccaatgaggtagcccagtttctctccaaggaaaatcaagtcattgtccgc atgcgggggctccctttcacggccacagctgaagaagtggtggccttctttggacagcat tgccctattactgggggaaaggaaggcatcctctttgtcacctacccagatggtaggcca acaggggacgcttttgtcctctttgcctgtgaggaatatgcacagaatgcgttgaggaag cataaagacttgttgggtaaaagatacattgaactcttcaggagcacagcagctgaagtt cagcagcaatttgtgccccctacaaatgttagagactgtatacgccttcgaggtcttccc tatgcagccacaattgaggacatcctggatttcctgggggagttcgccacagatattcgt actcatggggttcacatggttttgaatcaccagggccgcccatcaggagatgcctttatc cagatgaagtctgcggacagagcatttatggctgcacagaagtgtcataaaaaaaacatg aaggacagatatgttgaagtctttcagtgttcagctgaggagatgaactttgtgttaatg gggggcactttaaatcgaaatggcttatccccaccgccatctcctgctgcagttattcct acagaagctgccatttaccagccctctgtgattttgaatccacgagcactgcagccctcc acagcgtactacccagcaggcactcagctcttcatgaattacacagcgtactatcccagc cccccaggttcgcctaatagtcttggctacttccctacagctgctaatcttagcggtgtc cctccacagcctggcacggtggtcagaatgcagggcctggcctacaatactggagttaag gaaattcttaacttcttccaaggttaccagggcaggcggcggccaggagctacagctgtg ggctgcactcccggcgtggagtctccttcctgcccgcgcaggccccggcgccccagcgaa acgctccggccgctcccctctcccaacactctggttcccgggccgcctgcggggacgcgg ttggcggcgacaccggaggggggtgggtcaggaagtgggggcgcggcggccaggagcggg cccccggaggccgaggggttcggcgacgcggagggagggagagtctgggccgcgcgggag ccgcagggcgccctagccttcgcagaaacgatggcggaggaagaaggtgattgccgcggg gtccagcgcgccaacggctgccagtggtctcgggaaggaggggcgggggcgctggaggtc tgggttggagctgctggtggccgcggtcgcggtggcggccgcgcgggcagggcgggaagg agcgcggcgcccaggagaggactgcggagaaattcaggagagcggagcaaatggcccgaa gttttgtcggccgaattgggaagcaaaggaccacctgtagagctgcgccaaagaaaaaag ccaaagtcttcagaaaataaggaatctgccaaagaagagaaaatcagtgacattccaatt cctgaaagagctccaaaacatgtattatttcaacgctttgcaaagattttcattggctgt cttgcagcggttactagtggtatgatgtatgctctctacttatcagcataccatgaacgg aaattctggttttccaacaggcaggagcttgaacgggaaatcacgtttcagggtgacagt gccatttattactcctattataaagatatgttaaaggcaccttcatttgaaagagaaagt tacctttcaaaaaaattttttgggataatattatatgaaaataggtcatctttagaacag ggattcccaactcccaggccacagaccagtacccatcagaggcctgttaggaacctggcc tcacagcaggaggtgagtggcagcagcagcagcagtgacaatgatgatgatgatgacgat gatgatgatgatgacaactgcagatttatctgtatttactgccactccccattgcttgca ttactgcctgagctccgcctcctgatcctgctgattggtgcattttacagagcgctgatt ggtgcatattacagagcactgattggtgcattttacaatcctcttgtaagacagaaaagt tctccaagtccccactcaacccaggaagttcagctggcttcacctctcaaaagcgctgag attactggtgtttatgaagtttataaaatctacatattttccctctttctgggatattta ctacagtttgagaatccagctttgttggtatctcctttattaagtttagtagcagcctta atgcttgctaagtgccttcagctgaatgtgaagaaaggaagttttgtagctaaaataata aaagtgattaatttttacttggtgtgtactctgacaataacattgaatattataatgaag atgtttgtcccacacaaagaaaatgggcacatgctgaaattccttgaagtaaaatttgga ctaaatatgaccaatggtaagtccctgaaggaaactgttactcttgaagatggacgaatt ggagaaagaccagaaataatttatcatgtaattcacactattttattgggttctcttgca atggttatagaaggcttgaagtacatctggattccttatgtgtgcatgttagcagcattt ggtgtatgttctcccgaactttggatgacacttttcaagtggcttcgattaagaactgta cacccaatattgttgttttttcccagattaatgacagaattaatggaactacaggaattc tatgacccagatacagtggaacttatgacctggataaaaaggcaagctccagttgcagct gtgtttgcagggagtccacagttaatgggtgcgattaaattatgcactggatggatggtg acaagtttgcctctttacaatgatgatgatcttctcaagagaaatgaaaatatctaccaa atctattcaaagcgatctgctgaggatatttataaaatactgacatcttacaaagctaat tacctaattgtagaggatgctatctgcaatgaggtgggacccatgagaggctgtagggtt aaagatttattagacattgcaaatggccacgaagcgagtgggaagctggtgttctcggca ggacggcgggagcatctgaggagaggacccaggtgcgaggaaatctcagaaatgggaacg gggaaattgaaagcacaggagataaactttgcttgggtcacaactagaacccttcgcttc gcctttacgaaaatattgaggcccgttgcaaccctagatgaggttgtctcattttctcgc tggagaactgtcagggaacacggaaaacccacccgcgacccggcttcatgcggcgccgtc tcctatggcaaccgggaggaggcgtggttcgaaggcaccggcccgcatccaagtgtcagg ttggagccgggaagcggccctggtggtagcggcggcgggggcaggatgagcgcggaggcg gcggaccgggaggcggccacctccagccggccctgcaccccgccgcagacctgctggttt gagtttctgctggaggagtcactgttggagaaacatctgcgcaagccctgcccggatcct gcaccagttcaacttatagttcagtttttggaacaggcttccaaaccttcagttaatgaa caaaaccaagttcaacctccgcctgataacaagagaaatcgtattttaaaactacttgct cttaaagttgctgcacatttgaagtgggacttagacatattagagaaaagggcaattagg acaattgttcaaagtagttttccagtcaaacaggcaaaacccggaccccctcagttaagt gttatgaatcaaatgcaacaggaaaaagagctaacagaaaacattttgaaagtgctcaaa gaacaagctgctgattctattttggtactagaagcagccctaaaattaaacaaggatctt tatgtccatacgatgagaactctagatttattggccatggaaccaggcatggtaaatgga gaaactgagagttctactgctggattgaaagtcaaaaccgaagaaatgcagtgccaggtg tgctatgatttgggcgcagcatacttccagcaaggctccacaaattcagctgtctatgaa aatgccagggaaaaattttttagaaccaaagaactaattgcagagataggttcattatct cttcattgtaccatagatgagaagcggttagctggctattgtcaagcatgtgatgttctt gtaccttcttctgatagtacatctcaacagttgactccatatagtcaagtccatatttgt ttgagatctggcaactatcaggaggtaatacagattttcattgaagacaacttaaccttg agtttacctgtccagttccgacagtcagtcctaagagaactctttaagaaagctcaacag gggaatgtgtgtctggggttggaagatctgcagtatgttttcatgatttcttcacatgag cttttcattacattgttgaaagatgaagaacgaaagctacttgttgatcagatgaggaag agatcccctagagtaaatctgtgcattaaacctgtaacttcattttatgatatcccagct tcagcaagtgtcaacattggtcagttagagcatcaacttatattgtcagtggatccttgg aggattagacaaattttaattgaattacatggtatgacttcagagcgccagttctggaca gtgtctaataagtgggaagtaccttctgtctatagtggtgttatcctgggaattaaagac aatttaacaagagatttggtttatattcttatggccaaaggtttgcactgcagtactgtt aaggacttttcccatgctaaacagctctttgctgcttgtttggagttggtaacagagttc tcaccgaagcttcgtcaggtcatgctgaatgagatgttgcttttggatattcatacacac gaagctgggacagggcaggcaggagagagaccgccatccgaccttataagtagagtacga ggctatctggaaatgaggcttcctgatattcctcttcgtcaagttatagctgaggaatgt gttgcctttatgttaaactggagagaaaatgaataccttacactccaagttcctgcattt ttgcttcagagtaatccatatgtaaagcttggacagcttttagcagctacatgcaaagaa cttccaggccctaaagaaagtagacggactgccaaagacctttgggaagttgttgttcaa atctgtagtgtgtccagtcagcacaaacgaggaaatgatggcagagttagtttaataaaa cagagggaatctacgttaggtatcatgtatcggtatgtattggaaccactcgttttgact attattttatcactctttgtgaaacttcacaatgttcgggaggacattgtgaatgatatt acagctgaacacatttctatttggccatcttccattcccaacctccagtctgtggacttt gaagctgtggcaatcacagtgaaagagctagttcgatatacactcagtataaatccaaat aaccattcttggttaattatccaggcagatatttactttgcaacgaatcagtattcagca gctcttcactattacctccaggcaggagctgtgtgttctgacttctttaacaaggctgtg ccccctgatgtttatacagaccagatcaaagccatcggccagacagagttgaatgcaagc aatccagaagaagtgttacagctggcagcgcagagaaggaaaaaaaagtttctccaagca atggcaaaactttacttttaa >gi568815590f:94626328_94889907|GENSCAN_predicted_peptide_2|221_aa VCEVYTLHRETFYLAQDFFDRFMLTQKDINKNMLQLIGITSLFIASKLEALKWELCPVTI ISWLNLFLQVDALKDAPKVLLPQYSQETFIQIAQLLDLCILAIDSLEFQYRILTAAALCH FTSIEVVKKASGLEWDSISECVDWMVPFVNVVKSTSPVKLKTFKKIPMEDRHNIQTHTNY LAMLEEVNYINTFRKGGQLSPVCNGGIMTPPKSTEKPPGKH >gi568815590f:94626328_94889907|GENSCAN_predicted_CDS_2|666_bp gtatgtgaagtatacacacttcatagggaaacattttatcttgcacaagacttttttgat agatttatgttgacacaaaaggatataaataaaaatatgcttcaactcattggaattacc tcattattcattgcttccaaacttgaggctttaaaatgggaactttgtcctgtaacaatc atctcctggctaaatctctttctccaagttgatgctcttaaagatgctcctaaagttctt ctacctcagtattctcaggaaacattcattcaaatagctcagcttttagatctgtgtatt ctagccattgattcattagagttccagtacagaatactgactgctgctgccttgtgccat tttacctccattgaagtggttaagaaagcctcaggtttggagtgggacagtatttcagaa tgtgtagattggatggtaccttttgtcaatgtagtaaaaagtactagtccagtgaagctg aagacttttaagaagattcctatggaagacagacataatatccagacacatacaaactat ttggctatgctggaggaagtaaattacataaacaccttcagaaaagggggacagttgtca ccagtgtgcaatggaggcattatgacaccaccgaagagcactgaaaaaccaccaggaaaa cactaa