Result of GENSCAN for
pF1KE5294
GENSCAN 1.0 Date run: 7-Nov-116 Time: 23:29:37 Sequence gi568815596r:162210724_162418307 : 207584 bp : 35.92% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.45 Intr - 3350 3215 136 1 1 93 97 51 0.339 6.15 1.44 Intr - 5278 5175 104 1 2 84 63 85 0.519 3.65 1.43 Intr - 7417 7263 155 2 2 48 95 134 0.066 8.97 1.42 Intr - 8460 8340 121 0 1 44 121 -8 0.042 -2.75 1.41 Intr - 13817 13743 75 2 0 57 64 102 0.068 3.49 1.40 Intr - 20093 20025 69 2 0 54 89 55 0.050 0.66 1.39 Intr - 24653 24460 194 0 2 21 46 152 0.046 2.59 1.38 Intr - 35313 35261 53 2 2 97 72 38 0.190 0.73 1.37 Intr - 42957 42743 215 0 2 39 54 174 0.106 5.69 1.36 Intr - 56846 56756 91 1 1 90 109 70 0.991 8.38 1.35 Intr - 57554 57364 191 2 2 91 89 57 0.993 3.56 1.34 Intr - 61664 61503 162 2 0 88 67 221 0.994 19.25 1.33 Intr - 63221 63072 150 2 0 55 88 197 0.975 15.84 1.32 Intr - 66223 65964 260 2 2 46 75 137 0.976 4.46 1.31 Intr - 66970 66692 279 2 0 70 91 333 0.989 28.33 1.30 Intr - 67605 67482 124 0 1 41 86 56 0.857 -0.06 1.29 Intr - 69389 69273 117 2 0 72 19 123 0.792 3.54 1.28 Intr - 70822 70605 218 2 2 52 106 147 0.997 10.20 1.27 Intr - 71853 71643 211 0 1 75 82 164 0.992 12.06 1.26 Intr - 77632 77412 221 2 2 99 61 199 0.998 15.40 1.25 Intr - 82945 82841 105 2 0 85 84 106 0.983 9.17 1.24 Intr - 89218 89099 120 2 0 12 58 122 0.051 1.15 1.23 Intr - 96132 95986 147 1 0 51 80 130 0.144 7.79 1.22 Intr - 100210 100042 169 1 1 78 68 159 0.939 11.50 1.21 Intr - 107463 107132 332 1 2 94 77 421 0.080 36.02 1.20 Intr - 107708 107504 205 2 1 52 49 179 0.566 8.25 1.19 Intr - 114961 114850 112 0 1 3 69 124 0.662 1.46 1.18 Intr - 116612 116435 178 0 1 63 61 150 0.799 7.86 1.17 Intr - 117439 117241 199 1 1 59 40 178 0.642 8.10 1.16 Intr - 118130 118010 121 1 1 48 75 77 0.102 1.98 1.15 Intr - 123479 123272 208 0 1 61 15 103 0.025 -2.49 1.14 Intr - 123780 123673 108 1 0 70 80 57 0.284 2.44 1.13 Intr - 132396 132255 142 0 1 -7 84 122 0.100 1.31 1.12 Intr - 133367 133126 242 0 2 102 11 150 0.070 5.05 1.11 Intr - 133780 133429 352 1 1 55 94 276 0.492 18.87 1.10 Intr - 161372 161154 219 2 0 74 28 108 0.163 0.98 1.09 Intr - 162939 162747 193 2 1 93 108 207 0.931 21.77 1.08 Intr - 169298 169130 169 0 1 77 75 256 0.936 21.28 1.07 Intr - 169571 169493 79 2 1 89 75 54 0.853 2.41 1.06 Intr - 172603 172497 107 2 2 53 42 92 0.795 0.11 1.05 Intr - 174216 173965 252 1 0 26 84 144 0.870 4.28 1.04 Intr - 183762 183666 97 0 1 28 86 85 0.871 0.96 1.03 Intr - 186222 186017 206 1 2 99 71 127 0.971 10.10 1.02 Intr - 189718 189466 253 1 1 110 92 175 0.988 16.18 1.01 Intr - 207095 206981 115 1 1 59 87 98 0.290 6.33 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 89183 89099 85 2 1 91 58 114 0.889 9.73 S.002 Init + 146053 146182 130 0 1 73 86 134 0.915 12.06 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:162210724_162418307|GENSCAN_predicted_peptide_1|2526_aa XSQMVHVHLAQVMMVTSSWSPTIIKEDLFTVGMMLLLCKVLKGFPECLQADICLHLNQTL LQNCKAFRGASKGCLRALAMKFKTTHAPPGDTLVHCGDVLTALYFLSRGSIEILKDDIVV AILGKNDIFGEMVHLYAKPGKSNADVRALTYCDLHKIQREDLLEVLDMYPEFSDHFLTNL ELTFNLRHESAKADLLRSQSMNDSEGDNCKLRRRKLSFESEGEKENSTNDPEDSADTIRH YQSSKRHFEEKKSRSSSFISSIDDEQKPLFSGIVDSSPGIGKASGLDFEETVPTSGRMHI DKRSHSCKVIYENGFWEVLKIETGCIMEVTSSEELAEPSLLSPKHKQKENKILNTQDLLH VFVHMETDMGDITDMRSWERENAHPQPEDSSPSALQRAAWGISETESDLTYGEVEQRLDL LQEQLNRLESQMTTDIQTILQLLQKQTTVVPPAYSMVTAGSEYQRPIIQLMRTSQPEASI KTDRSFSPSSQCPEFLDLEKSKLKSKESLSSGVHLNTASEDNLTSLLKQDSDLSLELHLR QRKTYVHPIRHPSLPDSSLSTVGIDAPRGSSTTRKPAAPSQPRINARPGPGPQQPRNPAP PSTRRGRREQEPRADPHVGTAPGGATPREEEGHDQAAGTHPSSVSRVGHDERDERSERHP RVASAVLGEKAQAQVQGGAAAGQPRPARFRLAESHTLEPTQLQSAPSRSLAPPISALIGY TPSGALQSLLDSYWLPQVLARSPSKSRRSLGCCNGIPTLCGKEISLAELSICCSAMLQKR MLDLVKQFSEETAERKEDCRCPSYSWESVYIYTLFPDSVAEVSWALSSLILNDFFLKIGE NISSRVKISQLKPHKVAAEETSSVSRSVEKSQEGSKGRLSHLHLSEKGMDKTMSRIWPGL LCPCHLFKGDTISSSHLHSIKPCTHSPSPDVIDSDFSSTPRQERKIQKALCPCNKVIHSP RPTKVLVCPDSLHTSLQAEGDSSGLGQPRKGLPQCSDGLKGSSSAAKVGAQADEAPRASE GWKLTEERPLLADNCKFSKARLRYSKQIQIATNIPFWSQTRFKLQTEAPERKTGPKESKA SVREGGKHYPTGREAVPMDDPKWDPSDDMGNWKRKHFQAQSGRPCFSKWAADSGTHISPV PQTTAPSAWENPLPSLRKKDVEWVFHRREFPLSHLVLQGQGENVHPEVKEQIQRTVATSG NMQAVELLLSTLEKGVWHLGWTREFVEALRRTGSPLAARYMNPELTDLPSPSFENAHDEY LQLLNLLQPTLVDKLLVRDVLDKCMEEELLTIEDRNRIAAAENNGNESGVRELLKRIVQK ENWFSAFLNVLRQTGNNELVQELTGSDCSESNAEIENLSQVDGPQVEEQLLSTTVQPNLE KEVWGMENNSSESSFADSSVVSEVAGNISGFRGIMSKSTSTRELKMCSEEQSDERGAFVE EGESDTSLAEGSVSCLDESLGHNSNMGSDSGTMGSDSDEENVAARASPEPELQLRPYQME VAQPALEGKNIIICLPTGSGKTRVAVYIAKDHLDKKKKASEPGKVIVLVNKVLLVEQLFR KEFQPFLKKWYRVIGLSGDTQLKISFPEVVKSCDIIISTAQILENSLLNLENGEDAGVQL SDFSLIIIDECHHTNKEAVYNNIMRHYLMQKLKNNRLKKENKPVIPLPQILGLTASPGVG GATKQAKAEEHILKLCANLDAFTIKTVKENLDQLKNQIQEPCKKFAIADATREDPFKEKL LEIMTRIQTYCQMSPMSDFGTQPYEQWAIQMEKKAAKEGNRKERVCAEHLRKYNEALQIN DTIRMIDAYTHLETFYNEEKDKKFAVIEDDSDEGGDDEYCDGDEDEDDLKKPLKLDETDR FLMTLFFENNKMLKRLAENPEYENEKLTKLRNTIMEQYTRTEESARGIIFTKTRQSAYAL SQWITENEKFAEVGVKAHHLIGAGHSSEFKPMTQNEQKEVISKFRTGKINLLIATTVAEE GLDIKECNIVIRYGLVTNEIAMVQARGRARADESTYVLVAHSGSGVIEHETVNDFREKMM YKAIHCVQNMKPEEYAHKILELQMQSIMEKKMKTKRNIAKHYKNNPSLITFLCKNCSVLA CSGEDIHVIEKMHHVNMTPEFKELYIVRENKALQKKCADYQINGEIICKCGQDESGGGGS MKGRTCCIRVCANWRESAIPQQPDGPDGPKGFAELRGPQTTPCLHQLSIATKIDVIPSHP PKACILIDPELLSEKSLSTNKGAQLASPSGSRTGAAGGAARQSRAMRWHSSALGPSMGPG TVEQGEVLVGEAQAVQEPMAEGEGQEKNHQGDWVKTKTTRTPPPRDLDSKSVNASNYGLS PDRQFVYLESDYSKAYVYQNNIYLKQRPGDPPFQITFNGRENKIFNGIPDWVYEEEMLAT KYALWWSPNGKFLAYAEFNDTDIPVIAYSYYGDEQYPRTINIPYPKAGAKNPVVRIFIID TTYPAYVGPQEVPVPAMIASSDYYFSWLTWVTDERVCLQWLKRVQNVSVLSICDFREDWQ TWDCPK >gi568815596r:162210724_162418307|GENSCAN_predicted_CDS_1|7578_bp nngtcacaaatggtacatgttcatcttgcacaagtgatgatggtcacttcatcctggtct ccaaccatcatcaaggaggacttatttacagttggaatgatgctgcttctatgcaaagtc ctaaagggtttcccagaatgcttacaagcagacatttgtctacatctcaaccagacattg ctgcaaaactgcaaagcctttcggggggcaagtaaaggttgccttagagctttggcaatg aagttcaaaaccacccatgcacctccaggagacaccctcgttcactgtggggatgtcctc actgcactttatttcttatccagaggctccattgaaattctcaaagatgacattgtggtg gctattctgggaaaaaatgatatatttggagaaatggttcatctttatgccaaacctgga aagtctaatgcagatgtaagagccctcacatactgtgacttgcataagattcagcgagaa gacttgttagaggttttggatatgtatcctgagttttctgatcactttctaacaaaccta gagttgactttcaacctaaggcatgagagcgcaaaggctgatctcctacgatcacaatcc atgaatgattcagaaggagacaactgtaaactaagaagaaggaaattgtcatttgaaagt gaaggagagaaagaaaacagtacaaatgatcctgaagactctgcagataccataagacat tatcagagttccaagagacactttgaagagaaaaaaagcagatcctcatctttcatctcc tccattgatgatgaacaaaagccgctcttctcaggaatagtagactcttctccaggaata gggaaagcatctgggctcgattttgaagaaacagtgcccacctcaggaagaatgcacata gataaaagaagtcactcttgcaaagttatttatgaaaatggattctgggaagtgctaaaa atagaaacaggttgtatcatggaagtcacaagttctgaagagcttgctgaaccatctctg ctatctccaaagcacaaacagaaagaaaacaaaatcctaaacactcaggacctgctacat gtttttgttcacatggaaacggatatgggagatatcactgacatgcgaagctgggaacga gaaaatgcacatccccagcctgaagactccagtccatctgcacttcagcgagctgcctgg ggtatctctgaaaccgaaagcgacctcacctacggggaagtggaacaaagattagatctg ctccaggagcaacttaacaggcttgaatcccaaatgaccactgacatccagaccatctta cagttgctgcagaaacaaaccactgtggtccccccagcctacagtatggtaacagcagga tcagaatatcagagacccatcatccagctgatgagaaccagtcaaccggaagcatccatc aaaactgaccgaagtttcagcccttcctcacaatgtcctgaatttctagaccttgaaaaa tctaaacttaaatccaaagaatccctttcaagtggggtgcatctgaacacagcttcagaa gacaacttgacttcacttttaaaacaagacagtgatctctctttagagcttcacctgcgg caaagaaaaacttacgttcatccaattaggcatccttctttgccagattcatccctaagc actgtaggaatcgacgctcctcgagggtcctcaacgaccagaaaacctgcggctccaagt cagcccaggatcaatgctcgcccaggccctggcccccaacagccccggaatccggcgccg ccgagtaccaggcgcggacgcagggagcaggagccaagggcggacccgcacgttggcacc gcccccgggggcgccacaccccgcgaggaagagggacacgaccaagcggctgggactcac ccctcctccgtatcccgggtaggccatgacgagcgggacgagcggagcgagcgtcaccct cgagtcgcgtccgcagtgctgggagaaaaagcacaggcgcaggtgcaaggaggcgcagct gcaggccagccccgccctgcacggttccgattggctgagtcccacactttggagccaact cagctgcagtccgccccttcccgcagcctagccccacccatctctgccctgattggctac accccatcgggagccctccagtccctgctcgactcttactggctccctcaggttctcgcg cgctctccttctaaatcccgaagaagccttggctgctgcaacggaattcccactctctgt ggaaaggaaatcagccttgcagagctgagtatctgttgttcagctatgctacagaagagg atgttggaccttgtgaaacaattctcagaggaaacagcagagagaaaggaagattgccga tgtcctagctactcttgggaaagtgtctatatttatacccttttccctgattctgtagca gaagtatcttgggccctgagcagcttaattttaaatgatttttttctgaagattggagag aacattagcagtagagttaagatctcacagttaaagccccacaaggtggcggcagaggaa acatcatctgtgagtcgcagtgtggagaagtctcaggaaggaagcaagggaaggctttcc cacttacacctttctgagaaaggcatggataagacgatgtctaggatttggcctgggctg ctttgtccctgccacctcttcaaaggagacaccatatcatcaagccacctccactcaata aaaccttgcactcattctccaagcccagatgtgattgattccgatttttccagtacacca aggcaagaacgcaagatacagaaagccctctgtccttgcaacaaggtgatccactcacct cggcctaccaaagtactggtgtgtccggactccctccacacctccttgcaagctgaggga gacagctccggccttggccagcccagaaaggggctcccacagtgcagcgacgggctaaag ggctcctcaagtgccgccaaagtgggagcccaggcagacgaggcgccaagagccagcgag ggctggaagttaacagaggagcgacccctgctggctgataactgcaaattcagcaaggca cgtttgagatactctaaacagatacaaatagccactaacatacctttttggtcccaaact cgatttaagcttcagactgaggccccagaaagaaaaactgggcctaaggaatccaaagcc agtgtcagggaagggggcaaacattatccaaccggaagagaagcagtaccaatggatgac cctaaatgggatcccagtgatgacatgggaaactggaagaggaaacactttcaggcacag agcggtagaccctgcttctctaagtgggcagcggacagcggcacgcacatttcacctgtc ccgcagacaacagcaccatctgcttgggagaaccctctcccttctctgagaaagaaagat gtcgaatgggtattccacagacgagaatttccgctatctcatctcgtgcttcagggccag ggtgaaaatgtacatccagaggtgaaggagcagattcagaggacagtcgccacctccggg aacatgcaggcagttgaactgctgctgagcaccttggagaagggagtctggcaccttggt tggactcgggaattcgtggaggccctccggagaaccggcagccctctggccgcccgctac atgaaccctgagctcacggacttgccctctccatcgtttgagaacgctcatgatgaatat ctccaactgctgaacctccttcagcccactctggtggacaagcttctagttagagacgtc ttggataagtgcatggaggaggaactgttgacaattgaagacagaaaccggattgctgct gcagaaaacaatggaaatgaatcaggtgtaagagagctactaaaaaggattgtgcagaaa gaaaactggttctctgcatttctgaatgttcttcgtcaaacaggaaacaatgaacttgtc caagagttaacaggctctgattgctcagaaagcaatgcagagattgagaatttatcacaa gttgatggtcctcaagtggaagagcaacttctttcaaccacagttcagccaaatctggag aaggaggtctggggcatggagaataactcatcagaatcatcttttgcagattcttctgta gtttcagaagtggcaggcaacatttcaggtttcagaggcatcatgagcaaaagcacaagc acaagagagctcaaaatgtgttcagaggaacagtctgatgagagaggagcatttgtggag gagggcgaatcagacacaagtttggcagaaggaagtgtcagctgcttagatgaaagtctt ggacataacagcaacatgggcagtgattcaggcaccatgggaagtgattcagatgaagag aatgtggcagcaagagcatccccggagccagaactccagctcaggccttaccaaatggaa gttgcccagccagccttggaagggaagaatatcatcatctgcctccctacagggagtgga aaaaccagagtggctgtttacattgccaaggatcacttagacaagaagaaaaaagcatct gagcctggaaaagttatagttcttgtcaataaggtactgctagttgaacagctcttccgc aaggagttccaaccatttttgaagaaatggtatcgtgttattggattaagtggtgatacc caactgaaaatatcatttccagaagttgtcaagtcctgtgatattattatcagtacagct caaatccttgaaaactccctcttaaacttggaaaatggagaagatgctggtgttcaattg tcagacttttccctcattatcattgatgaatgtcatcacaccaacaaagaagcagtgtat aataacatcatgaggcattatttgatgcagaagttgaaaaacaatagactcaagaaagaa aacaaaccagtgattccccttcctcagatactgggactaacagcttcacctggtgttgga ggggccacgaagcaagccaaagctgaagaacacattttaaaactatgtgccaatcttgat gcatttactattaaaactgttaaagaaaaccttgatcaactgaaaaaccaaatacaggag ccatgcaagaagtttgccattgcagatgcaaccagagaagatccatttaaagagaaactt ctagaaataatgacaaggattcaaacttattgtcaaatgagtccaatgtcagattttgga actcaaccctatgaacaatgggccattcaaatggaaaaaaaagctgcaaaagaaggaaat cgcaaagaacgtgtttgtgcagaacatttgaggaagtacaatgaggccctacaaattaat gacacaattcgaatgatagatgcgtatactcatcttgaaactttctataatgaagagaaa gataagaagtttgcagtcatagaagatgatagtgatgagggtggtgatgatgagtattgt gatggtgatgaagatgaggatgatttaaagaaacctttgaaactggatgaaacagataga tttctcatgactttattttttgaaaacaataaaatgttgaaaaggctggctgaaaaccca gaatatgaaaatgaaaagctgaccaaattaagaaataccataatggagcaatatactagg actgaggaatcagcacgaggaataatctttacaaaaacacgacagagtgcatatgcgctt tcccagtggattactgaaaatgaaaaatttgctgaagtaggagtcaaagcccaccatctg attggagctggacacagcagtgagttcaaacccatgacacagaatgaacaaaaagaagtc attagtaaatttcgcactggaaaaataaatctgcttatcgctaccacagtggcagaagaa ggtctggatattaaagaatgtaacattgttatccgttatggtctcgtcaccaatgaaata gccatggtccaggcccgtggtcgagccagagctgatgagagcacctacgtcctggttgct cacagtggttcaggagttatcgaacatgagacagttaatgatttccgagagaagatgatg tataaagctatacattgtgttcaaaatatgaaaccagaggagtatgctcataagattttg gaattacagatgcaaagtataatggaaaagaaaatgaaaaccaagagaaatattgccaag cattacaagaataacccatcactaataactttcctttgcaaaaactgcagtgtgctagcc tgttctggggaagatatccatgtaattgagaaaatgcatcacgtcaatatgaccccagaa ttcaaggaactttacattgtaagagaaaacaaagcactgcaaaagaagtgtgccgactat caaataaatggtgaaatcatctgcaaatgtggccaggatgagtctggaggaggaggcagc atgaaagggagaacttgctgcatcagagtttgtgccaattggagggaaagcgcaatccct cagcagcctgatggtccagatggccccaaaggctttgcagagctcagaggcccccagaca actccttgtctacatcagcttagcattgccactaaaattgatgttataccaagtcatccc ccaaaagcatgcattttaatagacccagagttgctttctgagaaaagtctcagtactaac aaaggagcccagctggcctcacccagtggatctcgcaccggagccgcaggtggagctgcc cgccagtcccgcgccatgcgctggcactcctcagcccttgggccatccatgggaccgggc actgtggagcagggggaagtgcttgttggggaggctcaggccgtgcaggagcccatggcg gagggggaggggcaggagaagaatcatcaaggagactgggtaaaaactaaaactaccagg accccaccccccagagatttggattcaaaaagtgtgaatgcttcaaattacggcttatca cctgatcggcaatttgtatatctagaaagtgattattcaaaggcatatgtctatcaaaac aatatctatttgaaacaaagaccaggagatccaccttttcaaataacatttaatggaaga gaaaataaaatatttaatggaatcccagactgggtttatgaagaggaaatgcttgctaca aaatatgctctctggtggtctcctaatggaaaatttttggcatatgcggaatttaatgat acggatataccagttattgcctattcctattatggcgatgaacaatatcctagaacaata aatattccatacccaaaggctggagctaagaatcccgttgttcggatatttattatcgat accacttaccctgcgtatgtaggtccccaggaagtgcctgttccagcaatgatagcctca agtgattattatttcagttggctcacgtgggttactgatgaacgagtatgtttgcagtgg ctaaaaagagtccagaatgtttcggtcctgtctatatgtgacttcagggaagactggcag acatgggattgtccaaag