GENSCAN 1.0 Date run: 3-Nov-116 Time: 12:03:25 Sequence gi568815587r:83161914_83385972 : 224059 bp : 39.69% 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 + 188 241 54 1 0 71 76 54 0.932 3.83 1.02 Intr + 1766 1954 189 1 0 84 123 64 0.996 8.36 1.03 Intr + 2294 2488 195 1 0 75 111 193 0.999 18.99 1.04 Intr + 3687 4801 1115 2 2 95 86 956 0.989 83.69 1.05 Intr + 5212 5395 184 1 1 71 63 168 0.998 11.47 1.06 Intr + 5502 5985 484 2 1 57 70 424 0.997 29.17 1.07 Intr + 6515 8082 1568 0 2 53 111 1141 0.999 100.79 1.08 Intr + 9905 10001 97 1 1 31 91 109 0.939 4.16 1.09 Intr + 15172 15291 120 2 0 73 113 8 0.310 1.35 1.10 Intr + 15735 15906 172 1 1 24 45 174 0.369 4.78 1.11 Intr + 19095 19278 184 0 1 48 98 188 0.988 14.67 1.12 Intr + 19941 20096 156 2 0 52 78 199 0.995 14.59 1.13 Intr + 20486 20578 93 1 0 54 86 108 0.988 6.44 1.14 Intr + 22766 22971 206 1 2 55 17 154 0.304 2.08 1.15 Intr + 31836 32815 980 0 2 42 76 970 0.589 80.84 1.16 Intr + 36566 36729 164 0 2 32 94 195 0.966 13.27 1.17 Intr + 48387 48506 120 2 0 107 89 89 0.566 10.67 1.18 Intr + 49382 49517 136 1 1 52 68 107 0.579 4.32 1.19 Term + 51006 51172 167 1 2 36 40 119 0.530 -1.00 1.20 PlyA + 51519 51524 6 1.05 2.05 PlyA - 51887 51882 6 1.05 2.04 Term - 56150 55743 408 2 0 5 37 267 0.826 7.53 2.03 Intr - 56659 56457 203 2 2 90 99 173 0.945 16.68 2.02 Intr - 57380 57334 47 1 2 47 107 33 0.625 -1.77 2.01 Init - 58198 57888 311 1 2 74 91 129 0.929 8.63 2.00 Prom - 59017 58978 40 -6.95 3.00 Prom + 62201 62240 40 -5.75 3.01 Init + 62956 63142 187 0 1 97 106 88 0.699 10.83 3.02 Intr + 65834 65959 126 0 0 62 113 121 0.945 11.73 3.03 Intr + 74491 74596 106 2 1 86 60 40 0.888 -0.65 3.04 Intr + 78846 79021 176 0 2 66 100 225 0.970 20.16 3.05 Intr + 83585 83711 127 0 1 72 29 122 0.999 3.52 3.06 Intr + 86030 86174 145 2 1 68 12 228 0.852 12.56 3.07 Intr + 93932 94014 83 1 2 123 74 60 0.700 5.62 3.08 Intr + 105299 105407 109 2 1 90 98 94 0.797 9.97 3.09 Term + 105563 106105 543 1 0 -32 49 269 0.388 4.28 3.10 PlyA + 106112 106117 6 1.05 4.00 Prom + 106650 106689 40 -6.15 4.01 Sngl + 106743 107186 444 2 0 49 53 170 0.495 5.59 4.02 PlyA + 107335 107340 6 1.05 5.17 PlyA - 109913 109908 6 1.05 5.16 Term - 110886 110707 180 0 0 74 42 43 0.523 -5.07 5.15 Intr - 111787 111734 54 1 0 76 98 54 0.681 3.46 5.14 Intr - 112079 112038 42 2 0 87 115 23 0.815 2.42 5.13 Intr - 112827 112726 102 0 0 82 44 88 0.873 3.25 5.12 Intr - 116916 116813 104 1 2 80 90 71 0.794 5.47 5.11 Intr - 118347 118228 120 1 0 44 81 94 0.548 3.85 5.10 Intr - 124600 124423 178 1 1 -5 14 182 0.000 0.07 5.09 Intr - 138105 137943 163 2 1 71 111 121 0.602 11.76 5.08 Intr - 143163 143134 30 2 0 147 84 32 0.559 5.03 5.07 Intr - 146434 146280 155 1 2 32 95 70 0.322 0.05 5.06 Intr - 177415 177375 41 2 2 120 106 14 0.417 3.42 5.05 Intr - 180081 179962 120 1 0 71 92 35 0.209 1.75 5.04 Intr - 181440 181359 82 0 1 32 115 99 0.475 5.29 5.03 Intr - 185096 184969 128 0 2 59 48 177 0.598 10.28 5.02 Intr - 189445 189369 77 0 2 91 16 79 0.153 -0.76 5.01 Init - 190966 190884 83 1 2 94 37 71 0.384 3.09 5.00 Prom - 194493 194454 40 -7.75 6.00 Prom + 199896 199935 40 -0.75 6.01 Init + 212307 212326 20 2 2 66 99 -2 0.200 -1.60 6.02 Intr + 221521 222049 529 1 1 73 73 229 0.838 11.91 6.03 Term + 222159 222485 327 2 0 55 42 238 0.913 9.62 6.04 PlyA + 222981 222986 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl + 124258 124479 222 0 0 98 45 216 0.925 13.21 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587r:83161914_83385972|GENSCAN_predicted_peptide_1|2127_aa MVVWLKQYYVEEDKGFAEVDENTRKSLFKLRSTWDEIFPLKKLYALDVRVNSLDPAWPIK PLPPNVNTSSIHVNPKFLNKSPEEPSTPGTVVSSPSISTPPIVPDIQKNLTQEQLIRQQL LAKQKQLLELQQKKLELELEQAKAQLAVSLSVQQETSNLGPGSAPSKLHVSQIPPMAVKA PHQVPVQSEKSRPGPSLQIQDLKGTNRDPRLNRISQHSHGKDQSHRKEFLMNTLNQSDTK TSKTIPSEKLNSSKQEKSKSGEKITKKELDQLDSKSKSKSKSPSPLKNKLSHTKDLKNQE SESMRLSDMNKRDPRLKKHLQDKTDGKDDDVKEKRKTAEKKDKDEHMKSSEHRLAGSRNK IINGIVQKQDTITEESEKQGTKPGRSSTRKRSRSRSPKSRSPIIHSPKRRDRRSPKRRQR SMSPTSTPKAGKIRQSGAKQSHMEEFTPPSREDRNAKRSTKQDIRDPRRMKKTEEERPQE TTNQHSTKSGTEPKENVENWQSSKSAKRWKSGWEENKSLQQVDEHSKPPHLRHRESWSST KGILSPRAPKQQQHRLSVDANLQIPKELTLASKRELLQKTSERLASGEITQDDFLVVVHQ IRQLFQYQEGKHRCNVRDSPTEENKGGLKKKPLLSDAELTYYEHKAKLKRTQVQHSFPRL DLLDPDIFDYPLTDALLSGIECEPSKSKHASRNSGAQFDRKEQFSERARRLSPISGSRTY AENLSPHEGRRRHDEQVSAKGVREEQRSPFNDRFPLKRPRYEDSDKPFVDSPASRFAGLD TNQRLTALAEDRPLFDGPSRPSVARDGPTKMIFEGPNKLSPRIDGPPTPASLRFDGSPGQ MGGGGPLRFEGPQGQLGGGCPLRFEGPPGPVGTPLRFEGPIGQAGGGGFRFEGSPGLRFE GSPGGLRFEGPGGQPVGGLRFEGHRGQPVGGLRFEGPHGQPVGGLRFDNPRGQPVGGLRF EGGHGPSGAAIRFDGPHGQPGGGIRFEGPLLQQGVGMRFEGPHGQSVAGLRFEGQHNQLG GNLRFEGPHGQPGVGIRFEGPLVQQGGGMRFEGPSVPGGGLRIEGPLGQGGPRFEGCHAL RFDGQPGQPSLLPRFDGLHGQPGPRFERTPGQPGPQRFDGPPGQQVQPRFDGVPQRFDGP QHQQASRFDIPLGLQGTRFDNHPSQRLESVSFNQTGPYNDPPGNAFNAPSQGLQFQRHEQ IFDSPQGPNFNGPHGPGNQSFSNPLNRASGHYFDEKNLQSSQFGNFGNIPAPMTVGNIQA SQQVLSGVAQPVAFGQGQQFLPVHPQNPGFVQNPSGALPKAYPDNHLSQVDVNELFSKLL KTGILKLSQTDSATTLFLCREYMENGIKKFVCLFLIEEVSEVTAQPPPEEEEDQNEDQDV PDLTNFTVEELKQRYDSVINRLYTGIQCYSCGMRFTTSQTDVYADHLDWHYRQNRTEKDV SRKVTHRRWYYSLTDWIEFEEIADLEERAKSQFFEKVHEEVVLKTQEAAKEKEFQSVPAG PAGAVESCEICQEQFEQYWDEEEEEWHLKNAIRVDGKTSSFDCTPSPSKTPVENPLNIML NIVKNELQEPCDSPKVKEERIDTPPACTEESIATPSEIKTENDTVDQVAGVGRLERDSEK VPAEGGRRYGDSQGVADEDGGRRTSHHVWRINGLHGHSGAESRERVSDDGERKCEESDRR SRVAAGSLSADAGFSRSDLRRVSENLGHCRSVSRERVRGDSGHSHSCSWERVRGDSTFCS SDVNFSEVGGHQTTDSRGTAREDRGLRLSGPWEGVSDIRDPRTSDFGDRVSDDRSRRFSG SWEGGSVEGGHSVGSSWEEVSGDRGYAASDSSGVSGSEDASYRFSGFWERESEDEGFRCS FWERAREDLGPRPSDDGEEGRCRCSGSWVRASEDRRSIRGLDSTPPQSRRCCAMPGVANS GPSTSSRETANPCSRKKVHFGSIHDAVRAGDVKQLSEIVVRGASINELDVLHKFTPLHWA AHSGSLEALIMNGANLTAQDDRGCTPLHLAATHGHSFTLQIMLRSGVDPSVTDKREWRPV HYAAFHGRLGCLQLLVKWGCSIEDVDYNGNLPVKFKLKSQKTKSPSLGAAYGGGSHLLLS IMATLRPLVKPRIIKKRTKKFFRHQTD >gi568815587r:83161914_83385972|GENSCAN_predicted_CDS_1|6384_bp atggtggtttggttaaagcagtattatgttgaggaggacaagggatttgctgaggtggat gaaaatactaggaaaagtttatttaagttacgttctacatgggatgaaatattccctttg aagaaactttatgccctggatgtcagagtcaattcattagatcctgcttggcctattaaa cctctaccccccaatgtgaatacgtctagcatccatgtgaatcctaaatttttaaataaa tcgcccgaggagccttcaacacctggtacagtggtcagttcccctagcatctccactcct ccaattgttcctgatatacaaaagaatcttacacaagaacaactaataaggcagcagtta ctggcaaagcaaaaacagttgttagaacttcagcagaaaaagctggagcttgagctagag caagctaaggcacagttggcagtttctcttagtgttcagcaggaaacatccaatttaggt cctggatctgcaccatccaaattacatgtttcacagattccccctatggcagttaaagct cctcatcaggttcctgtgcaatctgagaaaagccgtccaggaccatccttacaaattcag gatttaaaaggaactaaccgggatcctcgtctgaacaggataagccaacattctcatgga aaagatcagagtcacaggaaagaatttctaatgaacacattaaaccagtctgatactaag acaagtaaaactataccctctgaaaaactaaattcatccaagcaagaaaaaagtaaatca ggtgaaaaaataaccaagaaagaacttgaccaattagattctaaatcgaaatcgaaatcg aaatcaccctcacctttgaaaaacaaattatctcacacaaaagacttgaaaaatcaagaa tcggaaagtatgaggttgtctgatatgaacaagagagatccaagattaaaaaaacatctt caggataagaccgatggcaaagatgatgatgtgaaagagaagagaaaaactgcagaaaaa aaggataaagatgagcacatgaagtcatccgaacacagactggctggaagtagaaataaa atcataaatggcattgtacaaaaacaggatacaataacagaagagtcagaaaaacagggg acaaaaccagggagatcgagtactagaaagcgatcaagatctcgatcacccaagtctagg tcaccaattatacattccccaaagagaagagataggcggtcacccaaacgaaggcaaaga agtatgtctccaacatcgacacctaaagctggaaagattcgccaatctggagctaagcag tcacatatggaagagtttacaccaccttctagggaagacagaaatgctaagagaagtact aaacaggatattcgggatccaaggcgaatgaaaaagactgaagaggagcgaccacaagaa actacaaatcagcattctacaaagtcaggcactgaaccaaaggagaatgtagaaaactgg caaagttccaagtctgccaaaagatggaaatctggttgggaagaaaataaaagcttacaa caggttgatgaacatagtaaacctcctcatctgaggcatagggagagctggtcaagcact aaaggaattttatcacctcgagccccaaagcagcaacagcatcgattaagtgtagatgcc aatcttcagattcctaaagagttaactcttgcaagcaaaagagaattacttcaaaagacg agtgaacgtttagcatctggtgaaattacacaggatgacttccttgttgttgtgcatcaa attcgacagctatttcagtatcaagaaggtaaacatagatgcaatgtacgggatagtcct acagaagaaaataaaggtggattaaaaaagaaacctctcttatctgatgctgaattaacc tactatgaacataaagcaaaactgaaaaggacacaggttcagcattcatttccaagactt gatctcttagatcctgatatttttgactaccctttgactgatgccttgttgtctggaata gaatgtgagccatccaaaagtaaacatgcaagtaggaatagtggagcacagtttgacaga aaagaacaatttagtgaaagagcaagacgtctttctcctatatctgggagtcgtacttat gctgagaatctttcaccccatgagggccggagaagacatgacgagcaagtctctgctaaa ggtgtgcgagaagagcagagatctccattcaatgatcgttttccacttaagcgacctcga tatgaagattcagataaaccatttgtagatagtccagcatcaagattcgccggcctggat acaaatcagcgacttacagctttagctgaagacagaccgttatttgatggacctagtagg ccatcagtagcaagagatggcccaacgaagatgatttttgaaggacccaataaattaagc cctcgaattgatggacctcccacaccagcttctcttcggtttgatgggtcaccaggacaa atggggggaggaggccctttgagatttgaggggccacaaggtcagctaggaggtgggtgt cctttgagatttgaaggtcctccaggaccagtggggacacctctgcggtttgagggccca attggtcaagcaggaggaggtggttttcggtttgaaggttcccctggtctgaggtttgag ggatctccaggtggtttgagatttgagggaccaggaggccagcctgtgggtggtctgagg tttgagggacatcgtggtcaacctgtgggtggtctaaggtttgagggacctcatggtcag cctgtgggtggacttagatttgataatccccgaggtcagcctgtaggtggacttagattt gaggggggtcatggtccatcaggggctgcgattaggtttgatggacctcatggtcagcca ggaggtggaatcagatttgagggccctttgctacagcaaggggttggaatgaggtttgag ggcccccatggtcagtcagtagctggtctgagatttgagggacaacataatcaacttggt gggaaccttaggtttgagggtccacatggtcagccaggggttggtatcaggtttgaaggc cctttagtccaacaaggaggtggaatgaggtttgagggtccttctgtaccaggaggtggc ctgagaattgaagggcctctgggtcaaggtggtccaagatttgaaggttgtcatgcttta aggtttgatgggcagccaggtcagccgtcactcttgccaagatttgatggattacatggt cagccaggtcctagatttgaaaggactcctggtcagccaggccctcagaggtttgatgga ccacctggacagcaggttcaacccagatttgacggtgtacctcaaagatttgatggtcca caacatcagcaagcatcaaggtttgatattcctcttggtcttcaaggcacaagatttgac aatcatccttcacaaaggcttgaatcagtatctttcaatcagactggtccatataatgat ccacctggcaatgcttttaatgccccatcccaaggactacagttccaaagacatgaacaa atatttgattcacctcaaggaccaaattttaatggaccacatggccctggaaaccagagt ttctctaatccacttaacagagcttctggacactattttgatgaaaaaaatcttcagagt tctcaatttggaaactttggcaatatacctgctccaatgacagtaggaaatattcaggca tctcaacaggttctgagtggtgttgctcagccagtagcttttggtcaaggacaacagttt ttaccagttcatccacaaaatcctggatttgttcagaatccttcaggagccctccctaag gcatatcctgataatcatctcagtcaggtggatgtaaatgaattgttttcaaaattgcta aaaacaggaattctcaaattgtcccaaactgattcagctacaacactgttcctctgtaga gaatacatggagaatggtattaagaaatttgtatgtctcttcttaattgaagaagtaagt gaagtaactgctcagcctccccctgaagaggaggaagatcaaaatgaagatcaagatgtt ccagatcttactaattttacagttgaagaattgaaacaacgttatgacagtgttataaat cgactgtacactggtattcagtgttactcttgtggaatgaggtttacaacatcacagaca gatgtttatgcagatcatttggactggcattatcggcaaaatagaactgaaaaggatgtt agccgaaaagtcactcatagacgttggtactacagtttaacagactggatagaatttgag gagatagctgatctggaagaacgggcaaagagccagttttttgaaaaggtgcatgaagaa gttgtgctcaaaactcaagaggctgctaaagaaaaagagttccaaagtgtacctgctgga ccagctggagcagttgagagttgtgaaatctgtcaagaacaatttgaacaatactgggat gaagaagaggaggaatggcatttgaaaaatgctattagagtagatggaaagacatcttca tttgattgtacaccatctcccagcaagacaccagttgaaaaccccttgaatattatgttg aacattgtcaaaaacgaattgcaggaaccctgtgacagtcccaaagttaaggaagaacga attgatacaccaccagcttgtacagaggaaagcatagcaacaccctctgaaattaaaaca gaaaatgacacagtcgaccaagtggctggagtcgggaggctggaaagagactccgagaaa gtaccagcggaaggcggccgccgctacggcgattcgcagggagtagcagacgaagacggt ggccgccgcactagccaccacgtgtggaggataaacggtctacacggccattccggcgcc gagtctagggaaagagttagcgacgacggggaaagaaaatgtgaagagagcgaccgccgc tccagggtcgctgcaggaagcctaagtgcagacgccggcttctcccgcagtgacttgaga agggtcagtgaaaacctcggccactgccgcagcgtctctagggagagagttaggggagat agtggccacagtcacagctgctcttgggagagagttaggggagacagcaccttctgcagc agcgacgtgaattttagtgaagttggaggccaccaaactaccgactccaggggaacagcc agagaagaccgaggcctccgcctcagtggtccttgggagggagtcagtgacattcgggac ccgcgaactagtgacttcggggatagagtcagtgacgatcgcagtcgccgcttcagtggc tcctgggagggagggagtgtcgaaggcggccacagcgttggtagttcttgggaggaagta agtggagaccgcggctacgcagccagcgactcctctggtgtgagcggcagtgaagacgcc agctaccgcttcagtggcttttgggagagagaaagtgaagacgaaggtttccgctgcagc ttctgggagagagcaagagaggaccttgggccccgtcctagtgacgacggagaagagggc cgctgccgctgcagtggctcgtgggtgagagcaagtgaagaccgccgcagcatcaggggc ctggactcaactcctccccagagtcggaggtgttgcgccatgcccggggtggccaattca ggcccctccacttcctctagggagactgcaaacccctgttccaggaagaaggtgcatttt ggcagcatacatgatgcagtacgagctggagatgtaaagcagctttcagaaatagtggta cgtggagccagcattaatgaacttgatgttctccataagtttacccctttacattgggca gcacattctggaagtttggaggctcttataatgaatggagcaaatctgacagcccaggat gaccggggatgcactcctttacatcttgctgcaactcatggacattctttcactttacaa ataatgctccgaagtggagtggatcccagtgtgactgataagagagaatggagacctgtg cattatgcagcttttcatgggcggcttggctgcttgcaacttcttgttaaatggggttgt agcatagaagatgtggactacaatggaaaccttccagtaaaatttaaattgaagtctcaa aaaacaaaaagcccctctctcggcgctgcctacggaggtggcagccatctcctcctcagc atcatggccaccctcagaccccttgtgaagcccaggatcatcaaaaagagaactaagaag ttcttccggcaccagactgactga >gi568815587r:83161914_83385972|GENSCAN_predicted_peptide_2|322_aa MVPPEAPPAWVTEYETATSSDSCLLDANVCRLDFFPHLASKVIPTRQDQDSLFRSLEFLE WHLEDPCSWCPPGFRQVSPFDGHFEGPVPYHSVWSPTSGQFKDSGQQAHGRGKGRFHPAD LKQIKADLGKFSDDPYNYTDVLQGLGQSSDLAWKDIMLLLDQTLSPIENEAALAAAQQFG HLWYLSQDKCITQSVADIRRKLQKFALGPEENLEALLNLATSVFCNRDQEEQAKREKQDK KKAAALVLALRQVDPGGSEGTKRGAGQLPSRACYQCSLQGYLKIVQPETNRLLTHVQYAK AITGRRTAPEDKGPLGQKHPTR >gi568815587r:83161914_83385972|GENSCAN_predicted_CDS_2|969_bp atggtcccaccagaggctccccctgcatgggttactgagtatgagacagccacatcttct gactcctgcctcctggatgctaatgtctgccggctagacttctttcctcatcttgcaagc aaggttattcccactaggcaggatcaagactccctatttagaagtcttgaattcttggag tggcacctggaagatccctgttcatggtgccctccagggtttaggcaagtgtcaccattt gatggccattttgaagggccagttccctaccatagcgtatggtcccccacatcaggacaa tttaaagacagtggtcaacaggcacatggcaggggcaagggacgtttccatcccgctgat ttaaaacaaataaaggcagatttagggaaattctcggatgatccctataactatacagat gttttacaagggttagggcagtcctctgatctagcatggaaggacatcatgttgctcctt gatcagaccttaagtcctattgaaaatgaggcagctttagcggcagcccagcaatttgga catttatggtatctcagccaggataaatgtatcacccaatcagtggctgacattaggaga aaactccaaaagtttgccttaggcccagaagaaaatttggaggcattactaaacctggca acctcggtgttctgtaacagggaccaagaggaacaggccaaaagggaaaagcaagataag aaaaaggctgcagccttagtcttggctctcagacaggtagaccctggtggctcagaggga accaaaagaggagcaggccaattgcctagtagggcttgttatcagtgcagtttgcaagga tacttaaagattgtccaaccagaaacaaaccgcctcctcacccatgtccaatatgccaag gcaatcactggaaggcgcactgccccagaggacaaaggccctctgggccagaagcaccca accagatga >gi568815587r:83161914_83385972|GENSCAN_predicted_peptide_3|533_aa MEGHLHCFKFLVSRMSSATQVLKAFNDNGENVLDLAQRFFKQNILQFIQGAEYEGKDLED QETLAFPGHVAAFKGDLGMLKKLVEDGVININERADNGSTPMHKAAGQGHIECLQWLIKM GADSNITNKAGERPSDVAKRFAHLAAVKLLEELQKYDIDDENEIDENDVKYFIRHGVEGS TDAKDDLCLSDLDKTDARMRAYKKIVELRHLLEIAESNYKHLGGITEEDLKQKKEQLESE KTIKELQGQLEYERLRREKLECQLDEYRAEVDQLRETLEKIQVPNFVAMEDSASCESNKE KRRVKKKVSSGGVFVRRGLQLLASNGKKKTGLRMTDELTEAGFTRSVITNSSKLQQLIQS SGRQVPVTEDQINEIKREDKVREKRVKRNEQSLQEIWDYVKRSNLRLIGVPESGRMEPSW KTLQDIIQENFPNLAKQANIQIQEIQRTSQRYSLRRATPRHIIIRFTKVEMKEKVLRAAR KKGQVTHKGKPIRLTADLLAETLQARREWGPIFNILIEFSTQNFISSQTKPHK >gi568815587r:83161914_83385972|GENSCAN_predicted_CDS_3|1602_bp atggaaggccaccttcactgtttcaaattcctagtcagtagaatgagcagtgcgacgcaa gttttaaaagctttcaatgataatggagaaaatgtactggatttggcccagaggttcttc aagcagaacattttacagtttatccagggggctgagtatgaaggaaaagacctagaggat caggaaactttagcatttccaggtcatgtggctgcctttaagggtgatttggggatgctt aagaaattagtggaagatggagtaatcaatattaatgagcgtgctgataatggatcaact cctatgcataaagctgctggacaaggccacatagagtgtttgcagtggttaattaaaatg ggagcagacagtaatattaccaacaaagcaggggagagacccagtgatgtggcaaagagg tttgcccatttggcagcagtgaagctgttagaggagctacagaaatatgatatagatgac gaaaatgaaattgatgaaaatgatgtgaaatattttataagacatggtgttgagggaagc actgatgccaaggatgatttatgtctgagtgacttggataaaacagatgccagaatgaga gcttacaagaaaattgtagaattgagacacctcctggaaattgccgagagcaactataaa cacttgggaggcataacagaagaagatttaaagcagaagaaagaacagcttgagtctgaa aagaccatcaaagaactgcagggccagctggagtatgaacgactacgtagagaaaaatta gaatgtcagcttgatgaatatcgagcagaagttgatcaactcagggaaacactggaaaaa attcaagtcccaaactttgtggctatggaagacagcgcttcttgtgagtcaaacaaagag aagaggcgagtaaaaaaaaaggtttcttctggaggggtgtttgtgagaagaggattgcag ctccttgccagcaatggcaagaagaaaactggactgagaatgactgatgagttgacagaa gcaggcttcacaaggtcggtaataacaaactcctccaagcttcaacagctgatacaatca agtggaagacaggtaccagtgactgaagatcaaattaatgaaataaagcgagaagacaag gttagagaaaaaagagtaaaaagaaacgaacaaagcctccaagaaatatgggactatgtg aaaagatcaaatctacgtttgattggtgtacctgaaagtgggagaatggaaccaagttgg aaaacacttcaggatattatccaggagaacttccccaacctagcaaagcaggccaacatt caaattcaggaaatacaaagaacatcacaaagatactccttaagaagagcaaccccaaga cacataattatcagattcaccaaggttgaaatgaaggaaaaagtgttaagggcagccaga aagaaaggtcaagttacccacaaagggaagcccatcagactaacagcggacctcttggca gaaaccctacaagccagaagagagtgggggccaatattcaacattcttatagaattttca acccagaatttcatatctagccaaactaagcctcataagtga >gi568815587r:83161914_83385972|GENSCAN_predicted_peptide_4|147_aa MGDFNTPLSILDRSTRQKVNKDIQDLNSALQQADLIDIYRTLQPKSTEYTFFSAPHHTYS KTDHIIGSKALALLSKCKRTEITTNCLSDHSAIKLELKIKKLTQNCTTTWKLNNLLLNDY WVHNEMKAEIKMFFETNENKDTTYQNL >gi568815587r:83161914_83385972|GENSCAN_predicted_CDS_4|444_bp atgggagactttaacactccactgtcaatattagatagatcaacgagacagaaggttaac aaggatatccaggacttgaactcagctctgcaacaagcagacttaatagacatctacaga actctccaacccaaatcaacagagtatacattcttctcagcaccacatcacacttattct aaaactgaccacataattggaagtaaagcacttgcactcctcagcaaatgtaaaagaaca gaaatcacaacaaactgtctctcagaccacagtgcaatcaaattagaactcaagattaag aaactcactcaaaactgcacaactacatggaaactgaacaacctgctactgaatgactac tgggtacataacgaaatgaaggcagaaataaagatgttctttgaaaccaatgagaacaaa gacacaacgtaccagaatctctga >gi568815587r:83161914_83385972|GENSCAN_predicted_peptide_5|552_aa MVEDKGEPARHMAREEARDAWAPYVPTSCCSTILLIYVSPKVQAVGRVKALGIEQKHCED PCPVLLHSNYRCMQPPVTYPLLAQSDHDPLTRTPLEQLKTETARLPRKPTGPSQTLWVTL TVEDARESRDLSILIKVLILNPQCHLFLVHLVPESLCGELGMKGFQILPSLPSVFMKKLP QPLQPSATTTLISQQPPKSRQDPPPAKRLQVADGLDIISIFLANKVLLRYPRVHMDNPRA GREKGVQLRDGKRRGHGQAPVPVVPEGRLRLQPCCHVSIEEEVCATKMRLVNNGEAAGCD ASRKVSGLLDYTSQKVSLALALRNHPERSAAENFRFQAAVRLNATPSPPTQAQFFTTTTK EGYDRRPVDITPLEQRKLTFDTHALVQDLETHGFDKTQAETIVSALTALSNVSLDTIYKE MVTQAQQEITVQQLMAHLDAIRKDMVILEKSEFANLRAENEKMKIELDQVKQQLMFTDQE KQLMETTTEFTKKFKAICPHSNRKYVTLAHNLIEEKVTFVLSKILFSSLTSWPDKGDKQG NQQNLLQLLSVL >gi568815587r:83161914_83385972|GENSCAN_predicted_CDS_5|1659_bp atggtggaggacaaaggggagccagcacgtcacatggcgagagaggaagcaagagatgca tgggcaccttatgtaccaaccagctgctgctcaaccatcctccttatctatgtctccccg aaagttcaggctgtaggccgagttaaggccttgggaatagaacaaaagcactgtgaagat ccctgtcctgttctgttgcattctaattaccggtgcatgcagcccccggtcacgtacccc ctgcttgctcaatccgatcacgaccctctcacacggacccccttagagcagctgaagact gagactgcccgattgcctcggaagcctacaggaccatcacagacactctgggtaactctc acagtggaagacgcacgtgaaagtagggacctaagcattttaattaaagtcctcattttg aatcctcagtgccatttgtttctggtacatttggttcctgagtccttatgtggagagttg gggatgaaaggtttccagatccttccttctctgccctctgtgtttatgaaaaaattgcca caaccactccaaccttcagcaaccaccacgctgatcagtcagcagccaccaaaatcgaga caagaccctccaccagcaaaaagattacaagtagctgatggtttggatatcattagcatt tttttagcaaataaagtacttttaagatatcctcgggtccacatggataatccaagagct ggcagggagaagggagtacaactgagagatggcaagaggcgtggtcatggtcaagcccct gttccagtagttcctgaaggcagactgcgtctgcaaccatgctgccatgtatctatagag gaggaagtttgtgcaaccaaaatgcggttggttaacaacggtgaagcagcaggatgtgac gcctcacgaaaagtgagcggcttgctggactacacttcccagaaggtttcgttggccctc gcactacgcaatcacccagaacgctcagcggccgaaaacttcaggttccaggctgctgtg cggctaaatgcgactccatctcccccgacccaagcgcagttcttcactaccacaaccaag gagggatatgataggcggccagtggatataactcctttagaacaaaggaaattaactttt gatacccatgcattggttcaggacttggaaactcatggatttgacaaaacacaagcagaa acaattgtatcagcgttaactgctttatcaaatgtcagcctggatactatctataaagag atggtcactcaagctcaacaggaaataacagtacaacagctaatggctcatttggatgct atcaggaaagacatggtcatcctagagaaaagtgaatttgcaaatctgagagcagagaat gagaaaatgaaaattgaattagaccaagttaagcaacaactaatgtttacagatcaagaa aagcaacttatggaaacaactacagaatttacaaaaaagttcaaagccatttgtccacat tctaacagaaaatatgtcactcttgctcataatttaatagaagagaaggtcacatttgtt ctttcaaagatcttattctcttcccttacttcttggccagataaaggagataagcaagga aatcagcaaaatcttttacaactactttctgtgctctag >gi568815587r:83161914_83385972|GENSCAN_predicted_peptide_6|291_aa MRNNHIRKGISERKAAASVRSLQIKLPYPWDRAPGGRGSCGRNFSRLKHSCLLALKRAAD LPENCLSSTKGQTDSLSGSLTPVPPDWEAPPSRGKQTPHTGEHRLASGECPSGMKLPEEG AGSNLCCSAASTGVTQANRVWIGPPANSSRPAAEGPVRRNTNKQKARTSTSTKRRPMQKP HPKDHNSSPGSEQNWMENEFDKLTEVGFRRWVITNSSELKEHVLTQCKEAKNLNKRLQEL LTGITSLEKNINDLMELKTQHKNFMKHTQVSIAKSIKQKKGYQRLKINLMK >gi568815587r:83161914_83385972|GENSCAN_predicted_CDS_6|876_bp atgcgcaataatcacatcaggaagggcatctctgaaagaaaggcagcagcctcagtcagg agcttacagataaaactcccatatccctgggacagagcacctgggggaaggggcagctgt gggcgcaacttcagcagacttaaacattcctgcctgctggctctgaagagagcagcagat ctcccagaaaattgcttgagctctactaagggacagactgactccttaagtgggtccctg acccccgtgcctcctgactgggaggcacctcccagcaggggtaaacagacacctcataca ggagagcaccggctggcatctggtgagtgcccctctgggatgaagcttccagaggaagga gcaggcagcaatctttgctgttctgcagcctccactggtgttacccaggcaaacagagtc tggattggacctccagcaaactccagcagacctgcagcagaggggcccgttagaaggaac actaacaaacagaaagcaagaacatcaacatcaacaaaaaggaggcccatgcaaaaaccc catccaaaggaccacaactcttcaccaggaagtgaacaaaactggatggagaatgagttt gacaaattgacagaagtaggcttcagaaggtgggtaataacaaacagctctgagctaaag gagcatgtgctaacccaatgcaaggaagctaagaaccttaataaaaggttacaggaactg ctaactggaataaccagtttagagaagaacataaatgacctgatggagctgaaaacacag cacaagaacttcatgaagcatacacaagtatcaatagccaaatcgattaaacagaagaaa ggatatcagagattgaagatcaatttaatgaaataa