GENSCAN 1.0 Date run: 7-Nov-116 Time: 02:52:38 Sequence gi568815581f:63450678_63689169 : 238492 bp : 48.54% 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 + 2370 2542 173 2 2 70 76 60 0.522 1.91 1.02 Intr + 2646 2850 205 0 1 43 55 143 0.516 5.70 1.03 Intr + 4414 4554 141 0 0 99 82 -6 0.124 0.45 1.04 Term + 16672 16980 309 0 0 57 48 142 0.033 2.16 1.05 PlyA + 18875 18880 6 1.05 2.00 Prom + 18941 18980 40 -5.36 2.01 Sngl + 20912 21418 507 1 0 23 38 532 0.824 37.74 2.02 PlyA + 21632 21637 6 1.05 3.00 Prom + 22407 22446 40 -4.16 3.01 Init + 26418 26666 249 2 0 91 80 585 0.943 53.46 3.02 Intr + 27254 27421 168 1 0 73 80 277 0.994 25.54 3.03 Intr + 28330 28423 94 0 1 65 96 92 0.698 7.24 3.04 Intr + 29092 29235 144 2 0 107 101 252 0.985 28.65 3.05 Intr + 29660 29851 192 0 0 87 82 248 0.728 23.56 3.06 Intr + 30414 30511 98 1 2 85 115 143 0.999 16.43 3.07 Intr + 30889 31061 173 0 2 114 31 152 0.976 10.84 3.08 Intr + 31789 32012 224 1 2 122 55 344 0.989 32.27 3.09 Intr + 32352 32496 145 1 1 102 89 173 0.994 18.14 3.10 Intr + 33172 33294 123 1 0 123 82 166 0.998 19.20 3.11 Intr + 33653 34061 409 2 1 73 49 371 0.228 25.97 3.12 Intr + 34274 34424 151 1 1 80 27 120 0.311 4.84 3.13 Intr + 34559 34695 137 0 2 102 48 274 0.999 25.09 3.14 Intr + 35880 36038 159 2 0 104 85 204 0.947 21.88 3.15 Intr + 36309 36396 88 2 1 95 94 168 0.995 17.64 3.16 Intr + 37971 38114 144 1 0 18 101 115 0.974 6.05 3.17 Intr + 38264 38455 192 0 0 49 82 283 0.948 23.26 3.18 Intr + 40277 40374 98 0 2 89 62 90 0.986 6.23 3.19 Intr + 40532 40725 194 1 2 89 24 235 0.639 15.49 3.20 Intr + 42759 42982 224 0 2 98 93 320 0.917 31.27 3.21 Intr + 43245 43470 226 1 1 116 49 191 0.687 15.04 3.22 Intr + 43695 43793 99 0 0 62 97 98 0.851 7.33 3.23 Intr + 45717 45839 123 0 0 71 69 222 0.921 18.30 3.24 Intr + 46121 46308 188 2 2 131 43 293 0.999 28.43 3.25 Intr + 46460 46668 209 0 2 101 34 372 0.195 31.90 3.26 Intr + 56887 57101 215 0 2 100 58 179 0.248 13.61 3.27 Intr + 57473 57672 200 2 2 83 101 233 0.489 23.09 3.28 Intr + 58406 58621 216 0 0 100 113 310 0.997 33.18 3.29 Intr + 58687 58784 98 2 2 120 92 104 0.999 13.73 3.30 Intr + 59646 59757 112 2 1 94 50 158 0.980 12.55 3.31 Intr + 60011 60155 145 0 1 103 94 260 0.992 27.44 3.32 Intr + 62705 62803 99 2 0 89 55 81 0.932 4.13 3.33 Intr + 63295 63417 123 1 0 104 84 191 0.865 20.00 3.34 Intr + 67222 67310 89 1 2 103 66 11 0.384 0.01 3.35 Intr + 68834 69146 313 0 1 97 -6 275 0.114 14.24 3.36 Intr + 72721 72812 92 1 2 43 87 171 0.114 12.14 3.37 Intr + 73462 73692 231 2 0 111 77 483 0.999 47.24 3.38 Intr + 79414 79575 162 2 0 79 93 255 0.977 25.05 3.39 Intr + 79660 79865 206 2 2 81 80 274 0.965 24.82 3.40 Intr + 83209 83634 426 0 0 116 83 991 0.960 95.39 3.41 Intr + 84992 85391 400 1 1 121 68 911 0.963 86.48 3.42 Intr + 87388 87587 200 2 2 67 89 469 0.966 43.97 3.43 Intr + 87733 87985 253 0 1 82 80 492 0.999 44.81 3.44 Intr + 91564 91772 209 2 2 56 80 330 0.559 27.80 3.45 Intr + 92932 92983 52 0 1 78 99 26 0.808 1.18 3.46 Intr + 93335 93442 108 0 0 43 110 32 0.526 1.16 3.47 Intr + 93572 93734 163 0 1 108 89 29 0.986 4.03 3.48 Intr + 94401 94587 187 0 1 117 110 122 0.998 16.99 3.49 Intr + 95077 95268 192 0 0 46 100 119 0.631 8.59 3.50 Term + 96156 96218 63 2 0 35 47 48 0.439 -6.71 3.51 PlyA + 96555 96560 6 1.05 4.00 Prom + 98848 98887 40 -6.86 4.01 Init + 100001 100138 138 1 0 102 86 306 0.290 31.94 4.02 Intr + 127793 127951 159 1 0 76 98 102 0.956 10.18 4.03 Intr + 128660 128771 112 1 1 103 82 -17 0.975 -0.85 4.04 Intr + 129148 129266 119 2 2 120 94 109 0.999 14.88 4.05 Intr + 132825 133034 210 2 0 82 83 171 0.996 15.11 4.06 Intr + 134534 134651 118 1 1 118 89 23 0.990 5.44 4.07 Term + 138323 138495 173 0 2 108 36 241 0.994 18.89 4.08 PlyA + 141276 141281 6 1.05 5.00 Prom + 149852 149891 40 -4.26 5.01 Init + 150407 150686 280 1 1 54 100 211 0.984 14.07 5.02 Intr + 153857 153963 107 0 2 86 85 85 0.963 7.93 5.03 Intr + 155636 155763 128 1 2 56 106 126 0.999 10.68 5.04 Intr + 156610 156787 178 1 1 71 80 224 0.998 19.82 5.05 Term + 157125 157325 201 2 0 115 41 220 0.999 17.39 5.06 PlyA + 158798 158803 6 -1.75 6.03 PlyA - 158811 158806 6 1.05 6.02 Term - 160299 160092 208 2 1 40 42 276 0.978 15.01 6.01 Init - 160509 160367 143 0 2 97 42 160 0.988 11.91 6.00 Prom - 161102 161063 40 -4.66 7.00 Prom + 165065 165104 40 -5.86 7.01 Init + 172083 172086 4 2 1 113 106 0 0.033 4.46 7.02 Intr + 182004 182125 122 1 2 91 89 99 0.407 10.51 7.03 Intr + 184032 184124 93 2 0 70 87 59 0.703 4.16 7.04 Intr + 185897 186268 372 1 0 -13 -10 517 0.018 27.06 7.05 Intr + 186288 186479 192 2 0 -43 28 206 0.013 1.19 7.06 Intr + 195357 195397 41 2 2 80 115 39 0.787 2.82 7.07 Intr + 201880 201979 100 1 1 132 78 109 0.996 14.41 7.08 Intr + 207117 207230 114 2 0 87 103 38 0.973 5.84 7.09 Intr + 216263 216383 121 1 1 101 70 15 0.111 1.07 7.10 Intr + 231089 231222 134 0 2 68 66 170 0.824 13.16 7.11 Intr + 234840 234913 74 2 2 87 80 28 0.538 0.10 7.12 Intr + 237850 237917 68 1 2 95 109 62 0.985 7.55 7.13 Intr + 238112 238204 93 0 0 64 101 127 0.621 11.54 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 68834 69150 317 0 2 97 42 265 0.856 17.90 S.002 Init + 72737 72812 76 1 1 81 87 144 0.883 14.85 S.003 Sngl - 172021 171533 489 1 0 64 46 212 0.882 8.66 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581f:63450678_63689169|GENSCAN_predicted_peptide_1|275_aa MPQLGTLNFVTPPRYQQVSCTIVLSERFHLTLLCSLLYSILMLLLALAIASCLSMPISHW ETLRGGLEPEESHAQLVARFQLISASGLIAPLDQSVLPSLPGIKGRLLEQGQGPPTLTAK VAQGFWSLSFCLSRGSLGFQRQMMVSSSSDSGCFHSISWPLSGNNEEESRRHQNKQPICA PFSLLSLTPSPGVLFHEAASSRIHIYLLSVATQMRVQNMALWELDPGWVMAQAPTCTCLA ARGLRKYCRVNRSSRGPVMWMERTGAINLSCSLDS >gi568815581f:63450678_63689169|GENSCAN_predicted_CDS_1|828_bp atgccccaactgggcacactgaacttcgtgactcctccaaggtatcagcaagtcagctgc acaattgtcctgagtgagagatttcacctgaccctgctctgctccctcctctactccatc cttatgcttctcttggccctggccattgcctcctgcctgagcatgcctatcagccattgg gagaccctcagaggtggcctggagccagaggaatcacacgctcagctggtggcccggttc cagctgatctcagcctctggactcatcgcccctctggatcagtcagtgcttccttctctt ccagggatcaaggggcggctcctggagcaggggcagggccctcctactcttacagcaaaa gtagctcagggcttctggtctctgtccttctgtctgagccgaggttctctgggcttccag aggcagatgatggtctccagctcttcagacagtggctgctttcattccatttcctggccc ctgtctgggaacaatgaagaagaatcacgcaggcaccagaacaaacagcccatctgtgca cccttctccctcctctccctgaccccctcgcctggtgtactcttccacgaagcagcatca tcccggattcacatttatttgttgtctgttgccacccagatgcgtgtgcagaatatggct ctatgggagctggaccctggctgggtcatggcccaagccccgacgtgcacatgcctggcg gcaagggggctcaggaaatactgcagagttaacagaagcagccgggggcctgtgatgtgg atggagagaactggggctatcaacctgagctgctctcttgacagctga >gi568815581f:63450678_63689169|GENSCAN_predicted_peptide_2|168_aa MPSHGQPTVFFDITINSKPLGHVSFKLFADKFPKTAENFPALSTGEKGFGYKSSCFHRII PGFMCQGGDFTHHNGTGVKSIYGEKFDDENFILKHTGPGIFSMANAGPNTNGSQFCNCTA KTAWLDGMHVVLGKVKEGMNIAEAMERFGSRNGKTSKKITIADCGQLY >gi568815581f:63450678_63689169|GENSCAN_predicted_CDS_2|507_bp atgcccagccatggtcaacccaccgtgttctttgacatcaccatcaacagcaagcccttg ggccacgtctccttcaagctgtttgcagacaagtttccaaagacggcagaaaactttcct gctctgagcactggagagaaagggtttggttataagagttcctgctttcacagaattatt ccagggtttatgtgtcagggtggtgacttcacacaccataatggcactggtgtcaagtcc atctatggggagaaatttgatgatgagaacttcattctgaagcatacaggtcctggcatc ttttccatggcaaatgctggacccaacacaaatggttcccagttttgcaactgcactgcc aagactgcgtggttggatggcatgcatgtggtccttggcaaagtgaaagaaggcatgaat attgcggaggctatggagcgctttgggtccaggaatggcaagaccagcaagaagatcacc attgccgactgtggacaactctactaa >gi568815581f:63450678_63689169|GENSCAN_predicted_peptide_3|2934_aa MGAASGRRGPGLLLPLPLLLLLPPQPALALDPGLQPGNFSADEAGAQLFAQSYNSSAEQV LFQSVAASWAHDTNITAENARRQEEAALLSQEFAEAWGQKAKELYEPIWQNFTDPQLRRI IGAVRTLGSANLPLAKRQQYNALLSNMSRIYSTAKVCLPNKTATCWSLDPDLTNILASSR SYAMLLFAWEGWHNAAGIPLKPLYEDFTALSNEAYKQDGFTDTGAYWRSWYNSPTFEDDL EHLYQQLEPLYLNLHAFVRRALHRRYGDRYINLRGPIPAHLLGDMWAQSWENIYDMVVPF PDKPNLDVTSTMLQQGWNATHMFRVAEEFFTSLELSPMPPEFWEGSMLEKPADGREVVCH ASAWDFYNRKDFRIKQCTRVTMDQLSTVHHEMGHIQYYLQYKDLPVSLRRGANPGFHEAI GDVLALSVSTPEHLHKIGLLDRVTNDTESDINYLLKMALEKIAFLPFGYLVDQWRWGVFS GRTPPSRYNFDWWYLRYFVSFVLQFQFHEALCKEAGYEGPLHQCDIYRSTKAGAKLRKVL QAGSSRPWQEVLKDMVGLDALDAQPLLKYFQPVTQWLQEQNQQNGEVLGWPEYQWHPPLP DNYPEGIGKALSEDGVGLRWVLNSGLGPGPRFLVSSYQLSPGTLSWRARQPPKLISRACE WGQACLSPSILERPGGIPTGDSHPWDKQPGNNQQPDNHPPGDGPPDISPEPKWDHAGEGQ GARDLVTDEAEASKFVEEYDRTSQVVWNEYAEANWNYNTNITTETSKILLQKNMQIANHT LKYGTQARKFDVNQLQNTTIKRIIKKVQDLERAALPAQELEEYNKILLDMETTYSVATVC HPNGSCLQLEPDLTNVMATSRKYEDLLWAWEGWRDKAGRAILQFYPKYVELINQAARLNG YVDAGDSWRSMYETPSLEQDLERLFQELQPLYLNLHAYVRRALHRHYGAQHINLEGPIPA HLLGNMWAQTWSNIYDLVVPFPSAPSMDTTEAMLKQGWTPRRMFKEADDFFTSLGLLPVP PEFWNKSMLEKPTDGREVVCHASAWDFYNGKDFRYIQLGLRIKQCTTVNLEDLVVAHHEM GHIQYFMQYKDLPVALREGANPGFHEAIGDVLALSVSTPKHLHSLNLLSSEGGSDEHDIN FLMKMALDKIAFIPFSYLVDQWRWRVFDGSITKENYNQEWWSLRFWNTPTGCGLGDLCEC LHVPGCLDGPGLKYQGLCPPVPRTQGDFDPGAKFHIPSSVPYIRYFVSFIIQFQFHEALC QAAGHTGPLHKCDIYQSKEAGQRLATAMKLGFSRPWPEAMQLITGQPNMSASAMLSYFKP LLDWLRTENELHGEKLGWPQYNWTPNSARSEGPLPDSGRVSFLGLDLDAQQARVGQWLLL FLGIALLVATLGLSQRLFSIRHRSLHRHSHGPQFGSELHKDMERSQFMIYFGTQAHLFKV TQFKDPDVNGMLSKLQNIDKAALSKDELREVMDGTPRPLGTCSLVLGVWRVREEASGSGS PMAPFLGIELEVMATSRDKEELLWAWQGWQDAVGRQICTTFEHYVELSNKAAQLNGYKDM GALWHSKYESDTLEQDLERLFQELRPLYLNLHTYVRRALHRHYGPELIDLRGPIPAHLLG KGPAGGQENTLAQSWVNILDPVLPFLKKIPEDVTKIMKVQNKEVRGSDHRRPALHLPRNG PFQYFLQYKNLSIIFRAEDEVNFLMHIALEKIAFIPFGYLMDLLRWKVFDGTIWKDIYNQ EWWNLRLKYQGLCPAIPHSEEDFDPGAKFHFSAGVPYIRYFLSLVLQFQFHETLCKASGH MGPLHQCDIYNSKIAGKLLGCLLSDAHKPLQATNPPSSLWDLVLITMRAEKDTDKVTFLS LKLDPNQAKFGYWVLLALGFVMSLVVLGLACRLQSLEKQSLTQDTEIFSPLPNACFLGIA MEPCQAAKGQWMLLGLCLVLMLCSISLAIWIFTQGRGRKMPVRRGHVAPQNTYLDTIIRK FEGQSRKFLIANAQMENCAIIYCNDGFCELFGYSRVEVMQQPCTCDFLTGPNTPSSAVSR LAQALLGAEECKVDILYYRKDASSFRCLVDVVPVKNEDGAVIMFILNFEDLAQLLAKCSS RSLSQRLLSQSFLGSEGSHGRPGGPGPGTGRGKYRTISQIPQFTLNFVEFNLEKHRSSST TEIEIIAPHKVVERTQNVTEKVTQVLSLGADVLPEYKLQAPRIHRWTILHYSPFKAVWDW LILLLVIYTAVFTPYSAAFLLSDQDESRRGACSYTCSPLTVVDLIVDIMFVVDIVINFRT TYVNTNDEVVSHPRRIAVHYFKGWFLIDMVAAIPFDLLIFRTGSDETTTLIGLLKTARLL RLVRVARKLDRYSEYGAAVLFLLMCTFALIAHWLACIWYAIGNVERPYLEHKIGWLDSLG VQLGKRYNGSDPASGPSVQDKYVTALYFTFSSLTSVGFGNVSPNTNSEKVFSICVMLIGS LMYASIFGNVSAIIQRLYSGTARYHTQMLRVKEFIRFHQIPNPLRQRLEEYFQHAWSYTN GIDMNAVLKGFPECLQADICLHLHRALLQHCPAFSGAGKGCLRALAVKFKTTHAPPGDTL VHLGDVLSTLYFISRGSIEILRDDVVVAILGKNDIFGEPVSLHAQPGKSSADVRALTYCD LHKIQRADLLEVLDMYPAFAESFWSKLEVTFNLRDVSQGQAPGSQDHQGFFLSDNQSGSP HELGPQFPSKGYSLLGPGSQNSMGAGPCAPGHPDAAPPLSISDASGLWPELLQEMPPRHS PQSPQEDPDCWPLKLGSRLEQLQAQMNRLESRVSSDLSRILQLLQKPMPQGHASYILEAP ASNDLALVPIASETTSPGPRLPQGFLPPAQPHLYIPWKYKDSSVVPASPPSLNTLALFPS SWTSRDMAQILDLQGVGATELQDKDTMRGLKVGKCVGDLKVVLLGPEAPGAWGC >gi568815581f:63450678_63689169|GENSCAN_predicted_CDS_3|8805_bp atgggggccgcctcgggccgccgggggccggggctgctgctgccgctgccgctgctgttg ctgctgccgccgcagcccgccctggcgttggaccccgggctgcagcccggcaacttttct gctgacgaggccggggcgcagctcttcgcgcagagctacaactccagcgccgaacaggtg ctgttccagagcgtggccgccagctgggcgcacgacaccaacatcaccgcggagaatgca aggcgccaggaggaagcagccctgctcagccaggagtttgcggaggcctggggccagaag gccaaggagctgtatgaaccgatctggcagaacttcacggacccgcagctgcgcaggatc atcggagctgtgcgcaccctgggctctgccaacctgcccctggctaagcggcagcagtac aacgccctgctaagcaacatgagcaggatctactccaccgccaaggtctgcctccccaac aagactgccacctgctggtccctggacccagatctcaccaacatcctggcttcctcgcga agctacgccatgctcctgtttgcctgggagggctggcacaacgctgcgggcatcccgctg aaaccgctgtacgaggatttcactgccctcagcaatgaagcctacaagcaggacggcttc acagacacgggggcctactggcgctcctggtacaactcccccaccttcgaggacgatctg gaacacctctaccaacagctagagcccctctacctgaacctccatgccttcgtccgccgc gcactgcatcgccgatacggagacagatacatcaacctcaggggacccatccctgctcat ctgctgggagacatgtgggcccagagctgggaaaacatctacgacatggtggtgcctttc ccagacaagcccaacctcgatgtcaccagtactatgctgcagcagggctggaacgccacg cacatgttccgggtggcagaggagttcttcacctccctggagctctcccccatgcctccc gagttctgggaagggtcgatgctggagaagccggccgacgggcgggaagtggtgtgccac gcctcggcttgggacttctacaacaggaaagacttcaggatcaagcagtgcacacgggtc acgatggaccagctctccacagtgcaccatgagatgggccatatacagtactacctgcag tacaaggatctgcccgtctccctgcgtcggggggccaaccccggcttccatgaggccatt ggggacgtgctggcgctctcggtctccactcctgaacatctgcacaaaatcggcctgctg gaccgtgtcaccaatgacacggaaagtgacatcaattacttgctaaaaatggcactggaa aaaattgccttcctgccctttggctacttggtggaccagtggcgctggggggtctttagt gggcgtacccccccttcccgctacaacttcgactggtggtatcttcggtactttgtgagt tttgtcctgcagttccagttccatgaagccctgtgcaaggaggcaggctatgagggccca ctgcaccagtgtgacatctaccggtccaccaaggcaggggccaagctccggaaggtgctg caggctggctcctccaggccctggcaggaggtgctgaaggacatggtcggcttagatgcc ctggatgcccagccgctgctcaagtacttccagccagtcacccagtggctgcaggagcag aaccagcagaacggcgaggtcctgggctggcccgagtaccagtggcacccgccgttgcct gacaactacccggagggcataggtaaagccctgagtgaggatggtgtggggctaaggtgg gtcctcaactctgggcttggcccaggccccaggttcctggtcagctcctaccagctgagc cctggtaccctgtcctggagggccaggcagccccccaagctcatcagcagggcctgcgag tggggacaggcatgtctttcccccagcatcctagagaggccaggaggcatcccaacaggt gacagtcacccatgggacaagcagccaggcaacaaccagcagccagacaaccacccacca ggcgacggcccaccagacatcagcccagagcccaagtgggaccatgcaggggaggggcag ggtgccagggacctggtgactgatgaggctgaggccagcaagtttgtggaggaatatgac cggacatcccaggtggtgtggaacgagtatgccgaggccaactggaactacaacaccaac atcaccacagagaccagcaagattctgctgcagaagaacatgcaaatagccaaccacacc ctgaagtacggcacccaggccaggaagtttgatgtgaaccagttgcagaacaccactatc aagcggatcataaagaaggttcaggacctagaacgggcagcactgcctgcccaggagctg gaggagtacaacaagatcctgttggatatggaaaccacctacagcgtggccactgtgtgc cacccgaatggcagctgcctgcagctcgagccagatctgacgaatgtgatggccacgtcc cggaaatatgaagacctgttatgggcatgggagggctggcgagacaaggcggggagagcc atcctccagttttacccgaaatacgtggaactcatcaaccaggctgcccggctcaatggc tatgtagatgcaggggactcgtggaggtctatgtacgagacaccatccctggagcaagac ctggagcggctcttccaggagctgcagccactctacctcaacctgcatgcctacgtgcgc cgggccctgcaccgtcactacggggcccagcacatcaacctggaggggcccattcctgct cacctgctggggaacatgtgggcgcagacctggtccaacatctatgacttggtggtgccc ttcccttcagccccctcgatggacaccacagaggctatgctaaagcagggctggacgccc aggaggatgtttaaggaggctgatgatttcttcacctccctggggctgctgcccgtgcct cctgagttctggaacaagtcgatgctggagaagccaaccgacgggcgggaggtggtctgc cacgcctcggcctgggacttctacaacggcaaggacttccggtacatccagctagggctc aggatcaagcagtgcaccaccgtgaacttggaggacctggtggtggcccaccacgaaatg ggccacatccagtatttcatgcagtacaaagacttacctgtggccttgagggagggtgcc aaccccggcttccatgaggccattggggacgtgctagccctctcagtgtctacgcccaag cacctgcacagtctcaacctgctgagcagtgagggtggcagcgacgagcatgacatcaac tttctgatgaagatggcccttgacaagatcgcctttatccccttcagctacctcgtcgat cagtggcgctggagggtatttgatggaagcatcaccaaggagaactataaccaggagtgg tggagcctcaggttctggaacactcccacgggatgcgggctgggggatctctgcgagtgt ctgcatgtgcctgggtgtctggatgggccagggctgaagtaccagggcctctgcccccca gtgcccaggactcaaggtgactttgacccaggggccaagttccacattccttctagcgtg ccttacatcaggtactttgtcagcttcatcatccagttccagttccacgaggcactgtgc caggcagctggccacacgggccccctgcacaagtgtgacatctaccagtccaaggaggcc gggcagcgcctggcgaccgccatgaagctgggcttcagtaggccgtggccggaagccatg cagctgatcacgggccagcccaacatgagcgcctcggccatgttgagctacttcaagccg ctgctggactggctccgcacggagaacgagctgcatggggagaagctgggctggccgcag tacaactggacgccgaactccgctcgctcagaagggcccctcccagacagcggccgcgtc agcttcctgggcctggacctggatgcgcagcaggcccgcgtgggccagtggctgctgctc ttcctgggcatcgccctgctggtagccaccctgggcctcagccagcggctcttcagcatc cgccaccgcagcctccaccggcactcccacgggccccagttcggctccgagctgcacaag gacatggagaggtcccagttcatgatttactttggcacccaggcccacctgtttaaagtc acccagttcaaggacccggatgtgaatggcatgctgagtaagctgcagaacatagacaag gcggctctgtccaaggacgagctgcgggaggtgatggatggaacccccaggcctttaggc acatgctccctggtcctaggggtctggagggtgagggaagaggcaagtgggagtgggtcc cccatggctccttttctgggcatagaactcgaagtcatggccacctccagggacaaagag gagctgctgtgggcctggcagggctggcaggatgccgtgggccgccagatctgcaccacc ttcgagcactatgtggagctcagcaacaaggctgcacagctcaacggttacaaagacatg ggggccttgtggcactccaagtatgagtcggataccctggagcaagacctggagcggcta ttccaggagctgcggccactctacctgaacctgcacacctacgtgcgcagggccctccac cgccactatgggcccgagctcatcgacctgagggggcccatccctgcccacctcctgggt aaaggccctgctggtggccaagagaacacgttggctcagtcctgggtcaacatcttagac ccggtcctgcccttcctgaagaagatcccagaggatgtcacaaagatcatgaaagtccag aataaagaagtgcgcggaagtgaccacagaagacccgctctccatcttccacgaaatggg ccattccagtacttcctgcagtacaagaacctctccatcatcttccgcgcagaggatgag gtcaatttcctgatgcatattgccctggagaagatcgccttcatcccctttggctacctg atggacctccttcgctggaaggtctttgacggcaccatctggaaggacatctacaatcag gagtggtggaacctcaggttgaaataccagggcttgtgccccgctattcctcactcagag gaagactttgatccaggtgccaagttccacttttctgcaggtgtgccctacatacggtac ttcctcagtctggtgctccagttccagttccacgaaacactgtgcaaagcctcgggccac atgggtccactgcaccagtgtgacatctacaactccaagattgccgggaagctcctgggt tgtttattaagtgatgcgcataagcctttgcaagctacaaaccctccttcatcattgtgg gacttagtcctcatcacaatgagggcagaaaaagacacagacaaagtgacattcctgagt ctgaagctggaccccaaccaggctaaatttgggtactgggtgctgttggccctgggcttt gtcatgtctctggtggtgctggggctggcctgcaggctgcagtccctggaaaaacagtca ctgactcaagacactgagatattcagcccactgcccaatgcctgcttcctgggcatagcc atggaaccctgccaggctgctaaaggacagtggatgctgctgggcctctgccttgtcctg atgctgtgctcaatcagcctggccatctggattttcacacagggccgcggccgaaagatg ccggtccgcaggggccacgtcgctccccaaaacacttacctggacaccatcatccgcaag ttcgagggccaaagtcggaagttcctgattgccaatgctcagatggagaactgcgccatc atttactgcaacgacggcttctgcgaactcttcggctactcccgagtggaggtgatgcag caaccctgcacctgcgacttcctcacaggccccaacacaccaagcagcgccgtgtcccgc ctagcgcaggccctgctgggggctgaggagtgcaaggtggacatcctctactaccgcaag gatgcctccagcttccgctgcctggtagatgtggtgcccgtgaagaacgaggacggggct gtcatcatgttcattctcaacttcgaggacctggcccagctcctggccaagtgcagcagc cgcagcttgtcccagcgcctgttgtcccagagcttcctgggctccgagggctctcatggc aggccaggcggaccagggccaggcacaggcaggggcaagtacaggaccatcagccagatc ccacagttcacgctcaacttcgtggagttcaacttggagaagcaccgctccagctccacc acggagattgagatcatcgcgccccataaggtggtggagcggacacagaacgtcactgag aaggtcacccaggtcctgtccctgggcgcggatgtgctgccggagtacaagctgcaggcg ccgcgcatccaccgctggaccatcctgcactacagccccttcaaggccgtgtgggactgg ctcatcctgctgctggtcatctacacggctgtcttcacgccctactcagccgccttcctg ctcagcgatcaggacgaatcacggcgtggggcctgcagctatacctgcagtcccctcact gtggtggatctcatcgtggacatcatgttcgtcgtggacatcgtcatcaacttccgcacc acctatgtcaacaccaatgatgaggtggtcagccacccccgccgcatcgccgtccactac ttcaagggctggttcctcattgacatggtggccgccatccctttcgacctcctgatcttc cgcactggctccgatgagaccacaaccctgattgggctattgaagacagcgcggctgctg cggctggtgcgcgtagcacggaagctggaccgctactctgagtatggggcggctgtgctc ttcttgctcatgtgcaccttcgcgctcatagcgcactggctggcctgcatctggtacgcc atcggcaatgtggagcggccctacctagaacacaagatcggctggctggacagcctgggt gtgcagcttggcaagcgctacaacggcagcgacccagcctcgggcccctcggtgcaggac aagtatgtcacagccctctacttcaccttcagcagcctcaccagcgtgggcttcggcaat gtctcgcccaacaccaactccgagaaggtcttctccatctgcgtcatgctcatcggctcc ctgatgtacgccagcatcttcgggaacgtgtccgcgatcatccagcgcctgtactcgggc accgcgcgctaccacacgcagatgctgcgtgtcaaggagttcatccgcttccaccagatc cccaacccactgcgccagcgcctggaggagtatttccagcacgcctggtcctacaccaat ggcattgacatgaacgcggtgctgaagggcttccccgagtgcctgcaggctgacatctgc ctgcacctgcaccgcgcactgctgcagcactgcccagctttcagcggcgccggcaagggc tgcctgcgcgcgctagccgtcaagttcaagaccacccacgcgccgcctggggacacgctg gtgcacctcggcgacgtgctctccaccctctacttcatctcccgaggctccatcgagatc ctgcgcgacgacgtggtcgtggccatcctaggaaagaatgacatctttggggaacccgtc agcctccatgcccagccaggcaagtccagtgcagacgtgcgggctctgacctactgcgac ctgcacaagatccagcgggcagatctgctggaggtgctggacatgtacccggcctttgcg gagagcttctggagtaagctggaggtcaccttcaacctgcgggacgtgagtcagggccag gctcctggcagccaagaccaccaaggtttctttctcagtgacaaccagtcagggtctccc catgagctggggccccagttcccctctaagggctacagcctcctgggtcctgggagccag aactccatgggggcaggaccttgtgctccagggcacccagatgcagcccctcccctgagc atctcagatgcatctggcctctggcctgagctactgcaggaaatgcccccaaggcacagc ccccaaagccctcaggaagacccagattgctggcctctgaagctgggctccaggctagag cagctccaggcccagatgaacaggctggagtcccgcgtgtcctcagacctcagccgcatc ttgcagctcctccagaagcccatgccccagggccacgccagctacattctggaagcccct gcctccaatgacctggccttggttcctatagcctcggagacgacgagtccagggcccagg ctgccccagggctttctgcctcctgcacagcctcacctctacatcccctggaagtacaag gactcatctgtggtccctgcttctcctccctccctgaacaccttggctctgttcccaagc agctggacttccagagacatggctcagatcctggatttgcagggagttggggccactgaa ctccaagataaagacaccatgaggggactgaaggtgggcaagtgtgttggggacctgaag gtggttctgctgggcccagaggctcctggagcctggggctgttag >gi568815581f:63450678_63689169|GENSCAN_predicted_peptide_4|342_aa MSLHGKRKEIYKYEAPWTVYAMNWSVRPDKRFRLALGSFVEEYNNKVQLVGLDEESSEFI CRNTFDHPYPTTKLMWIPDTKGVYPDLLATSGDYLRVWRVGETETRLECLLNNNKNSDFC APLTSFDWNEVDPYLLGTSSIDTTCTIWGLETGQVLGRVNLVSGHVKTQLIAHDKEVYDI AFSRAGGGRDMFASVGADGSVRMFDLRHLEHSTIIYEDPQHHPLLRLCWNKQDPNYLATM AMDGMEVVILDVRVPCTPVARLNNHRACVNGIAWAPHSSCHICTAADDHQALIWDIQQMP RAIEDPILAYTAEGEINNVQWASTQPDWIAICYNNCLEILRV >gi568815581f:63450678_63689169|GENSCAN_predicted_CDS_4|1029_bp atgtccctgcacggcaaacggaaggagatctacaagtatgaagcgccctggacagtctac gcgatgaactggagtgtgcggcccgataagcgctttcgcttggcgctgggcagcttcgtg gaggagtacaacaacaaggttcagcttgttggtttagatgaggagagttcagagtttatt tgcagaaacacctttgaccacccataccccaccacaaagctcatgtggatccctgacaca aaaggcgtctatccagacctactggcaacaagcggtgactatctccgtgtgtggagggtt ggtgaaacagagaccaggctggagtgtttgctaaacaataataagaactctgatttctgt gctcccctgacctcctttgactggaatgaggtggatccttatcttttaggtacctcaagc attgatacgacatgcaccatctgggggctggagacagggcaggtgttagggcgagtgaat ctcgtgtctggccacgtgaagacccagctgatcgcccatgacaaagaggtctatgatatt gcatttagccgggccgggggtggcagggacatgtttgcctctgtgggtgctgatggctcg gtgcggatgtttgacctccgccatctagaacacagcaccatcatttacgaagacccacag catcacccactgcttcgcctctgctggaacaagcaggaccctaactacctggccaccatg gccatggatggaatggaggtggtgattctagatgtccgggttccctgcacacctgtcgcc aggttaaacaaccatcgagcatgtgtcaatggcattgcttgggccccacattcatcctgc cacatctgcactgcagcggatgaccaccaggctctcatctgggacatccagcaaatgccc cgagccattgaggaccctatcctggcctacacagctgaaggagagatcaacaatgtgcag tgggcatcaactcagcccgactggatcgccatctgctacaacaactgcctggagatactc agagtgtag >gi568815581f:63450678_63689169|GENSCAN_predicted_peptide_5|297_aa MSAWAAASLSRAAARCLLARGPGVRAAPPRDPRPSHPEPRGCGAAPGRTLHFTAAVPAGH NKWSKVRHIKGPKDVERSRIFSKLCLNIRLAVKEGGPNPEHNSNLANILEVCRSKHMPKS TIETALKMEKSKDTYLLYEGRGPGGSSLLIEALSNSSHKCQADIRHILNKNGGVMAVGAR HSFDKKGVIVVEVEDREKKAVNLERALEMAIEAGAEDVKETEDEEERNVFKFICDASSLH QVRKKLDSLGLCSVSCALEFIPNSKVQLAEPDLEQAAHLIQALSNHEDVIHVYDNIE >gi568815581f:63450678_63689169|GENSCAN_predicted_CDS_5|894_bp atgtcggcttgggctgctgccagcctaagcagggccgctgcccgatgcttgctggcacga ggccccggggtcagggcggctcctccgcgcgacccccggccctcccaccccgagccccgg ggctgcggtgccgctccgggcaggacgctgcactttaccgcggctgtccccgccgggcac aacaagtggtccaaagtcaggcacatcaagggtccgaaggacgtcgaaaggagtcgcatc ttctccaaactctgtttgaacatccgcctggcagtgaaagaaggaggccccaaccctgag cacaacagcaacctggccaatatcttagaggtgtgtcgcagcaaacatatgcccaagtca acgattgagacagcactgaaaatggagaaatccaaggacacttatttgctgtatgagggt cgaggccctggtggctcttctctgctcatcgaggcattatctaacagtagccacaagtgc caagcagacattagacatatcctgaataagaatggaggagtgatggctgtaggagctcgt cactcttttgacaaaaagggggtgattgtggttgaagtggaggacagagagaagaaggct gtgaacctagagcgtgccctggagatggcaatcgaagcaggagctgaggatgtcaaggaa actgaagatgaagaagaaaggaacgtttttaaatttatttgtgatgcctcttcactgcac caagtgaggaagaagctggactccctgggcctgtgttctgtgtcctgtgcactagagttc atccccaactcaaaggtgcagctggctgagcccgacctggaacaggccgcacatctcatt caggctctcagcaaccacgaggatgtgattcacgtctatgataacattgaataa >gi568815581f:63450678_63689169|GENSCAN_predicted_peptide_6|116_aa MAELQQLWVQEVVDSMVKSLERENIWKMQGLMFRCSTSCCEDSQASMHELEKFRHHLARC AMHCNNKAKDSMDTGSKELQVKQQLDGCVTKCVDDHTHLIPTMAKKMKEALLSIGK >gi568815581f:63450678_63689169|GENSCAN_predicted_CDS_6|351_bp atggcagagctgcagcagctgtgggtgcaggaggtggtggactccatggtgaagagtctg gagagagagaacatctggaagatgcagggtctcatgttccggtgcagcaccagctgttgt gaggacagccaggcctccatgcatgagttggagaagttccggcaccacctggcccggtgc gccatgcattgcaacaacaaagccaaagattcaatggatactgggagtaaggagcttcag gtgaagcagcagctggacggttgtgtgaccaagtgtgtggatgaccacacgcacctcatc ccaactatggccaagaagatgaaggaggctctcttatccattgggaaataa >gi568815581f:63450678_63689169|GENSCAN_predicted_peptide_7|510_aa MDEQEALNSIMNDLVALQMNRRHRMPGYETMKNKDTGHSNRQKKHNSSSSALLNSPTVTT SSCAGASEKKKFLYSEKSAGLWLNMLEKSLPGHRDTATQIQHVSPMCQVEPPAKKAATLA EGDKDNDIDLFVSDNEEEDKEAARLWEKWLRWYVEKKAKKTALVVKSSIPLDIKPWDNET NIAQLEACMRFIQLDGLLVPMGYGIRKLQIQCVVGDDKVGTNFLEEEITKFESVCRVSML QLSTRSEALECVCVHAHVCKCSDVRIKFEHNGERRIIAFSRPVKYEDVEHKVTTVFGQPL DLHYMNNELSILLKNQDDLDKAIDILDRSSSMKSLRILLLSQDRNHNSSSPHSGVSRQVR IKASQSAGDINTIYQPPEPRSRHLSVSSQNPGRSSPPPGYVPERQQHIARQGSYTSINSE GEFIPETSEQCMLDPLSSAENSLSGSCQSLDRSADSPSFRKSRMSRAQSFPDNRQEYSDR ETQLYDKGVKGGTYPRRYHVSVHHKDYSDX >gi568815581f:63450678_63689169|GENSCAN_predicted_CDS_7|1530_bp atggacgaacaggaggcattgaactcaatcatgaacgatctggtggccctccagatgaac cgacgtcaccggatgcctggatatgagaccatgaagaacaaagacacaggtcactcaaat aggcagaaaaaacacaacagcagcagctcagcccttctgaacagccccacagtaacaaca agctcatgtgcaggggccagtgagaaaaagaaatttttgtatagtgaaaagagtgctggc ctgtggctgaacatgctggagaagagcttgcctggccacagggacacagccacgcagatc cagcatgtgtctcccatgtgccaagtggagcccccagccaagaaggcagccacactagca gagggtgacaaggacaatgacattgacctgtttgtcagcgacaatgaggaggaagacaag gaggcagcccggctgtgggagaagtggctgaggtggtatgtggagaagaaggccaagaag actgcgttggtggtcaagtcctccatcccgctggacatcaagccttgggacaatgagacc aatatagcccaattggaggcctgtatgcgcttcatccagctggacgggctgctggtgccc atgggctacggtatccggaagctgcagattcagtgtgtggtgggggacgacaaggtgggg acaaactttctggaagaggagattaccaagtttgagagcgtgtgtagagtgtcgatgttg cagctttcaacaaggtctgaagccttagagtgtgtgtgcgtgcatgcgcacgtgtgcaag tgtagtgacgtcagaatcaagttcgagcacaacggggagaggcgaattatagcgttcagc cggcctgtgaaatatgaagatgtggagcacaaggtgacaacagtatttggacaacctctt gatctacattacatgaacaatgagctctccatcctgctgaaaaaccaagatgatcttgat aaagcaattgacattttagatagaagctcaagcatgaaaagccttaggatattgctgttg tcccaggacagaaaccataacagttcctctccccactctggggtgtccagacaggtgcgg atcaaggcttcccagtccgcaggggatataaatactatctaccagccccccgagcccaga agcaggcacctctctgtcagctcccagaaccctggccgaagctcacctccccctggctat gttcctgagcggcagcagcacattgcccggcaggggtcctacaccagcatcaacagtgag ggggagttcatcccagagaccagcgagcagtgcatgctggatcccctgagcagtgcagaa aattccttgtctggaagctgccaatccttggacaggtcagcagacagcccatccttccgg aaatcacgaatgtcccgtgcccagagcttccctgacaacagacaggaatactcagatcgg gaaactcagctttatgacaaaggggtcaaaggtggaacctacccccggcgctaccacgtg tctgtgcaccacaaggactacagtgatgnn