GENSCAN 1.0 Date run: 3-Nov-116 Time: 10:52:46 Sequence gi568815587r:129802316_130047406 : 245091 bp : 44.12% 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 + 13773 13936 164 2 2 73 93 102 0.336 7.02 1.02 Intr + 26050 26201 152 1 2 69 69 71 0.036 3.11 1.03 Intr + 50160 50345 186 1 0 92 99 155 0.909 16.66 1.04 Intr + 52295 52501 207 0 0 117 86 56 0.972 7.35 1.05 Intr + 53393 53577 185 0 2 65 60 157 0.998 10.11 1.06 Intr + 54998 55143 146 1 2 68 84 192 0.939 15.88 1.07 Term + 56259 56370 112 0 1 59 52 107 0.916 2.23 1.08 PlyA + 61473 61478 6 1.05 2.49 PlyA - 61486 61481 6 1.05 2.48 Term - 62535 62410 126 0 0 116 38 20 0.713 -1.92 2.47 Intr - 62786 62651 136 1 1 107 110 144 0.974 19.07 2.46 Intr - 63668 63562 107 2 2 109 108 105 0.998 13.61 2.45 Intr - 67946 67179 768 2 0 101 68 689 0.971 59.87 2.44 Intr - 70781 70569 213 2 0 62 96 187 0.976 15.81 2.43 Intr - 71700 71430 271 2 1 78 97 34 0.311 0.84 2.42 Intr - 72018 71798 221 0 2 99 98 42 0.722 3.40 2.41 Intr - 72265 72186 80 2 2 104 103 60 0.993 8.37 2.40 Intr - 72601 72478 124 1 1 100 62 195 0.997 18.26 2.39 Intr - 73148 73042 107 0 2 59 91 92 0.821 6.53 2.38 Intr - 74580 74406 175 0 1 84 74 246 0.999 22.31 2.37 Intr - 75070 75010 61 0 1 73 110 26 0.554 2.04 2.36 Intr - 76040 75994 47 2 2 88 59 45 0.547 -1.19 2.35 Intr - 76228 76149 80 2 2 102 95 24 0.970 3.77 2.34 Intr - 79193 79128 66 0 0 80 111 0 0.553 0.38 2.33 Intr - 79538 79412 127 2 1 98 94 128 0.998 14.65 2.32 Intr - 79879 79771 109 0 1 82 103 9 0.909 2.09 2.31 Intr - 80316 80136 181 1 1 91 89 158 0.999 15.13 2.30 Intr - 80891 80807 85 2 1 55 99 88 0.999 5.99 2.29 Intr - 81631 81485 147 1 0 47 50 125 0.891 5.03 2.28 Intr - 81828 81755 74 1 2 69 63 111 0.916 5.83 2.27 Intr - 82567 82358 210 2 0 4 90 141 0.505 4.78 2.26 Intr - 83294 83120 175 2 1 80 96 155 0.818 15.01 2.25 Intr - 84129 84002 128 1 2 68 84 232 0.999 21.20 2.24 Intr - 86480 86279 202 2 1 79 68 153 0.931 11.26 2.23 Intr - 90573 90400 174 0 0 43 76 127 0.256 7.14 2.22 Intr - 93547 93452 96 1 0 7 94 74 0.031 0.11 2.21 Intr - 100201 100019 183 1 0 107 -19 196 0.014 10.78 2.20 Intr - 103426 103323 104 2 2 79 111 60 0.952 7.29 2.19 Intr - 108341 108161 181 2 1 132 87 116 0.949 15.34 2.18 Intr - 109910 109770 141 2 0 117 80 106 0.903 13.25 2.17 Intr - 112703 112389 315 2 0 102 9 255 0.840 15.26 2.16 Intr - 113545 113345 201 1 0 60 97 229 0.989 20.48 2.15 Intr - 114922 114812 111 1 0 135 93 55 0.998 11.28 2.14 Intr - 116403 116224 180 0 0 34 65 307 0.933 23.06 2.13 Intr - 121088 120933 156 2 0 89 86 199 0.993 20.01 2.12 Intr - 122914 122567 348 1 0 100 109 267 0.958 25.55 2.11 Intr - 128943 128701 243 0 0 58 91 276 0.569 22.59 2.10 Intr - 129916 129787 130 0 1 105 96 86 0.999 11.80 2.09 Intr - 132903 132786 118 1 1 65 91 125 0.993 10.02 2.08 Intr - 135355 135283 73 1 1 105 32 85 0.662 3.58 2.07 Intr - 140314 140111 204 1 0 92 87 182 0.998 17.90 2.06 Intr - 142697 142456 242 0 2 109 86 177 0.996 16.87 2.05 Intr - 145118 144830 289 2 1 61 75 419 0.604 34.72 2.04 Intr - 153256 153197 60 1 0 84 97 42 0.849 3.63 2.03 Intr - 155595 155446 150 0 0 86 1 232 0.894 14.66 2.02 Intr - 158684 158581 104 0 2 102 72 117 0.941 11.39 2.01 Init - 169633 169309 325 1 1 97 44 160 0.271 8.40 2.00 Prom - 176803 176764 40 -2.06 3.00 Prom + 179108 179147 40 -4.96 3.01 Init + 183059 183174 116 1 2 63 93 66 0.107 4.28 3.02 Intr + 199822 199973 152 1 2 60 69 55 0.377 0.61 3.03 Term + 201325 201440 116 2 2 78 37 109 0.908 3.53 3.04 PlyA + 203141 203146 6 1.05 4.02 PlyA - 203202 203197 6 1.05 4.01 Sngl - 230986 230549 438 1 0 77 49 841 0.680 73.36 4.00 Prom - 232447 232408 40 -3.76 5.06 PlyA - 232693 232688 6 1.05 5.05 Term - 238231 238037 195 1 0 87 33 113 0.802 3.11 5.04 Intr - 238726 238388 339 1 0 43 78 119 0.456 2.07 5.03 Intr - 239811 239724 88 2 1 8 115 105 0.530 5.17 5.02 Intr - 240026 239887 140 2 2 94 60 14 0.461 -1.54 5.01 Intr - 240374 240208 167 0 2 73 99 113 0.482 10.58 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 100201 99998 204 1 0 107 38 211 0.986 15.37 S.002 Sngl + 181513 181713 201 0 0 90 43 130 0.802 3.88 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_1|383_aa MEGPGVAEAQLGPPPGCGTGAHTTPTAPECLCPAGRGPGTNIAQSPASQVCRVARTSHTG NNNDGSSCQILKTGIDSGPPQAPEPTVEQGRDLVEVQDCGHSHTTCVLMANFKGHALPGS FFLIIGLCWSVKYPLKYFSHTRKNSPLHYYQRLEIVEAAIRTLFSVTGILAEQFVPDGPH LHLYHENHWIKLMNWQHSTMYLFFAVSGIVDMLTYLVSHVPLGVDRLVMAVAVFMEGFLF YYHVHNRPPLDQHIHSLLLYALFGGCVSISLEVIFRDHIVLELFRTSLIILQGTWFWQIG FVLFPPFGTPEWDQKDDANLMFITMCFCWHYLAALSIVAVNYSLVYCLLTRMKRHGRGEI IGIQKLNSDDTYQTALLSGSDEE >gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_1|1152_bp atggagggccctggtgtcgcggaagcccagctggggccccctccgggctgcggaaccggt gcgcacactactcccaccgcccccgagtgcctctgtccggctggccgcggccctggaacg aatattgctcagtcccccgcgagtcaggtctgccgcgttgcccgaacctcccacacagga aataacaatgatggcagtagctgtcaaattctaaagacggggatagactctggacctcct caggcccctgagcccactgtagagcagggacgtgacttagttgaagttcaggactgcggc cacagtcacaccacctgtgtcctgatggcaaatttcaagggccacgcgcttccagggagt ttcttcctgatcattgggctgtgttggtcagtgaagtacccgctgaagtactttagccac acgcggaagaacagcccactacattactatcagcgtctcgagatcgtcgaagccgcaatt aggactttgttttccgtcactgggatcctggcagagcagtttgttccggatgggccccac ctgcacctctaccatgagaaccactggataaagttaatgaattggcagcacagcaccatg tacctattctttgcagtctcaggaattgttgacatgctcacctatctggtcagccacgtt cccttgggggtggacagactggttatggctgtggcagtattcatggaaggtttcctcttc tactaccacgtccacaaccggcctccgctggaccagcacatccactcactcctgctgtat gctctgttcggagggtgtgttagtatctccctagaggtgatcttccgggaccacattgtg ctggaacttttccgaaccagtctcatcattcttcagggaacctggttctggcagattggg tttgtgctgttcccaccttttggaacacccgaatgggaccagaaggatgatgccaacctc atgttcatcaccatgtgcttctgctggcactacctggctgccctcagcattgtggccgtc aactattctcttgtttactgccttttgactcggatgaagagacacggaaggggagaaatc attggaattcagaagctgaattcagatgacacttaccagaccgccctcttgagtggctca gatgaggaatga >gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_2|2715_aa MPEPPTPSVGSCAAQASPTSAAPCSTAPSPIDHPRAEECERTARDWQAAPPAAPVRDPLG EASWAPESGGDVESLYVYLRDCKHTNQHPMSSSGFVSAPNRHSVSSCSGVPDVELSSWEK MDSKDESSHVWPTSAEHEQNAAQVHFVPDTGTVAQIVYTDDQVRPPQQVVYTADGASYTS VDGPEHTLVYIHPTLFTDPGQVAYVQQDATAQQAPANQKQVSMSAYSVPSTFAQASLPVH NQVLPSIESVDGSDPLATLQTPLGRLEAKEEEDEDEDEDTEEDEEEDGEDTDLDDWEPDP PRPFDPHDLWCEECNNAHASVCPKHGPLHPIPNRPVLTRARASLPLVLYIDRFLGGVFSK RRIPKRTQFGPVEGPLVRGSELKDCYIHLKVSLDKGDRKERDLHEDLWFELSDETLCNWM MFVRPAQNHLEQNLVAYQYGHHVYYTTIKNVEPKQELKVWYAASYAEFVNQKIHDISEEE RKVLREQEKNWPCYECNRRFISSEQLQQHLNSHDEKLDVFSRTRGRGRGRGKRRFGPGRR PGRPPKFIRLEITSENGEKSDDGTQDLLHFPTKEQFDEAEPATLNGLDQPEQTTIPIPQL PQETQSSLEHEPETHTLHLQPQHEESVVPTQSTLTADDMRRAKRIRNAALQHLFIRKSFR PFKCLQCGKAFREKDKLDQHLRFHGREGNCPLTCDLCNKGFISSTSLESHMKLHSDQKTY SCIFCPESFDRLDLLKDHVAIHINDGYFTCPTCKKRFPDFIQVKKHVRSFHSEKIYQCTE CDKAFCRPDKLRLHMLRHSDRKDFLCSTCGKQFKRKDKLREHMQRMHNPEREAKKADRIS RSKTFKPRITSTDYDSFTFKCRLCMMGFRRRGMLVNHLSKRHPDMKIEEVPELTLPIIKP NRDYFCQYCDKVYKSASKRKAHILKNHPGAELPPSIRKLRPAGPGEPDPMLSTHTQLTGT IATPPVCCPHCSKQYSSKTKMVQHIRKKHPEFAQLSNTIHTPLTTAVISATPAVLTTDSA TGETVVTTDLLTQAMTELSQTLTTDYRTPQGDYQRIQYIPVSQSASGLQQPQHIQLQVVQ VASATSPHQSQQSTVDVGQLHDPQPYPQHAIQVQHIQVSEPTASAPSSAQVSGQPLSPSA QQAQQGLSPSHIQGSSSTQGQALQQQQQQQQNSSVQHTYLPSAWNSFRGYSSEIQMMTLP PGQFVITDSGVATPVTTGQVKAVTSGHYVLSESQSELEEKQTSALSGGVQVEPPAHSDSL DPQTNSQQQTTQYIITTTTNGNGSSELIDVPSLTGYGTLIRGQAKTGTVWGLWKLLNQMH VFVQSTCGEETMDSLDHMLTDPLELGPCGDGHGTRIMEDCLLGGTRVSLPEDLLEDPEIF FDVVSLSTWQEVLSDSQREHLQQFLPQFPEDSAEQQNELILALFSGENFRFGNPLHIAQK LFRDGHFNPEVVKYRQLCFKSQYKRYLNSQQQYFHRLLKQILASRSDLLEMARRSGPALP FRQKRPSPSRTPEEREWRTQQRYLKVLREVKEECGDTALSSDEEATLDLQEQFSFEDLSS WLPSSPARSPSPAVPLRVVPTLSTTDMKTAGENQAAAVTILGHCGGDLKTPLEGDKVELG DSDLKIMLKKHHEKRKHQPEQLARLASINDVRHGGFDFAGPAECSVCLNRYSDTVEYRNR LHLSSAQEDHPDLLTGDLTLNDIMTRVNAGRKGSLAALYDLAVLKKKVKEKEEKKKKKIK TIKSEAEDLAEPLSSTEGVAPLSQAPSPLAIPAIKEEPLEDLKPCLGINEISSSFFSLLL EILLLESQASLPMLEERVLDWQSSPASSLNSWFSAAPNWAELVLPALQYLAGESRAVPSS FSPFVEFKEKTQQWKLLGQSQDNEKELAALFQLWLETKDQAFCKQENEDSSDATTPVPRV RTDYVVRPSTGEEKRVFQEQERYRYSQPHKAFTFRMHGFESVVGPVKGVFDKETSLNKAR EHSLLRSDRPAYVTILSLVRDAAARLPNGEGTRAEICELLKDSQFLAPDVTSTQVNTVVS GALDRLHYEKDPCVKYDIGRKLWIYLHRDRSEEEFERIHQAQAAAAKARKALQQKPKPPS KVKSSSKESSIKVLSSGPSEQSQMSLSDSSMPPTPVTPVTPTTPALPAIPISPPPVSAVN KSGPSTVSEPAKSSSGVLLVSSPTMPHLGTMLSPASSQTAPSSQAAARVVSHSGSAGLSQ VRVVAQPSLPAVPQQSGGPAQTLPQMPAGPQIRVPATATQTKVVPQTVMATVPVKAQTTA ATVQRPGPGQTGLTVTSLPATASPVSKPATSSPGTSAPSASTAAVIQNVTGQNIIKQVAI TGQLGVKPQTGNSIPLTATNFRIQGKDVLRLPPSSITTDAKGQTVLRITPDMMATLAKSQ VTTVKLTQDLFGTGGNTTGKGISATLHVTSNPVHAADSPAKASSASAPSSTPTGTTVVKV TPDLKPTEASSSAFRLMPALGVSVADQKGKSTVASSEAKPAATIRIVQGLGVMPPKAGQT ITVATHAKQGASVASGSGTVHTSAVSLPSMNAAVSKTVAVASGAASTPISISTGAPTVRQ VPVSTTVVSTSQAGKLPTRITVPLSVISQPMKGKSVVTAPIIKGNLGANLSGLGRNIILT TMPAGTKLIAGNKPVSFLTAQQLQQLQQQGQATQVRIQTVPASHLQQGTASGSSKAVSTV VVTTAPSPKQAPEQQ >gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_2|8148_bp atgcctgagcctcccaccccctccgtgggttcctgtgcagcccaagcctccccgacgagc gccgccccctgctctacggcacccagtcccatcgaccacccaagggctgaggaatgcgag cgcacggcacgggactggcaggcagctccacctgcagccccggtgcgggatccactgggt gaagccagctgggctcctgagtctggtggggacgtggagagtctttatgtctacctcagg gattgtaaacacaccaatcagcaccctatgtctagctcagggtttgtgagtgcacccaat cgacactctgtatctagctgctctggtgtgccagacgtggagctgtccagttgggagaag atggattccaaagatgaaagctcgcatgtgtggccgacatctgcagagcatgaacagaat gccgcacaggtgcactttgttccggacacaggaacagtggctcagattgtctataccgat gaccaggttcgccccccacagcaggtggtgtacacggcagatggtgcctcctacacatca gtggatggtccagagcacacgctggtgtacatccacccgactctgtttacagaccccggc caggtagcttatgtccaacaggatgctacagctcagcaggcaccagcgaaccaaaagcag gtgtccatgtctgcttactctgtgccttcaacttttgcccaggcctcattgccagttcat aaccaggtgctgccttccatcgagagtgtagatgggtccgaccctttggcaactctgcag acccctctaggcagactggaggccaaagaggaagaggatgaggatgaggacgaggacact gaggaagatgaggaagaagacggtgaggacacggatctggatgactgggagccagacccg ccccggcccttcgacccacacgacttgtggtgtgaggagtgcaataacgcgcatgcttca gtgtgtccgaagcacggccccttgcacccgatccccaaccggccggtgctcacccgggcc agggcgagcctccccctggtgctctacatagacaggtttctgggcggggtgttctccaag cggcgcatccccaagcgcacccagtttggccccgtggaggggcctctcgtcaggggctcg gagctgaaagactgttacattcacctcaaggtttctcttgataaaggggacaggaaagaa agggatttacatgaagacctatggtttgagttgtctgatgagacgctttgtaactggatg atgtttgtacggccagcccagaatcacctggagcagaacctggtggcttaccagtatggc caccatgtgtattatacaaccataaaaaatgtggagcccaagcaggaactgaaggtgtgg tatgccgcatcctatgctgagttcgtgaaccagaaaattcatgacatttctgaggaagaa aggaaagttcttcgagagcaagagaagaattggccctgctatgaatgtaaccgccgattt ataagctcggagcagttgcaacagcatctcaattctcatgatgagaaactagatgtgttt agcagaacaagaggcagaggaaggggacgaggcaagaggcgattcggtccaggtcgacgg ccggggcgtcctccaaaatttatccgcctggaaatcaccagcgaaaatggggaaaagagt gacgatgggacacaggacttgctacattttcccacaaaggagcaatttgatgaggctgaa ccagccactctgaatgggctggatcaaccagaacagaccactatcccaatccctcagctg ccacaggaaacccagtcttccctggaacatgaaccagaaactcacaccctgcacctgcag ccgcagcatgaagagagcgtggtgcccacccagagcacgctgacagccgacgacatgcgc agagccaagcgcatccgaaatgcagctcttcagcatctgtttattcggaagtccttccgg ccttttaaatgcttgcagtgtgggaaggccttccgggaaaaggacaaactggaccagcac ttacgcttccatgggcgggaggggaactgcccactgacctgtgatctctgtaacaagggc ttcatcagcagcacatccttggagagccacatgaagctccactcagaccagaagacttac tcttgcattttttgcccagaatcctttgaccgccttgatttgttgaaagatcatgtggcc attcatatcaatgatggctacttcacctgcccaacttgtaagaaacggttcccagatttt atccaggtgaaaaaacacgtgcgcagcttccactcagaaaagatctaccagtgcacagag tgtgacaaggccttctgtcgccccgataaactgcgactccacatgctccggcattcggac cgcaaagacttcctgtgttccacctgtgggaagcaatttaagcgaaaagacaaactacgg gaacacatgcagaggatgcataatcctgagagggaggccaagaaagccgaccgcatcagc cgctccaagacgttcaagccccgcatcacgtccacagactacgacagcttcacgttcaag tgccgcctgtgcatgatgggcttccggcggcgcggcatgctggtaaatcacttatcgaag agacacccagacatgaagatagaagaggtgccagagttaactctacccatcataaaaccc aatcgtgattacttttgtcagtattgcgataaggtttataaaagtgccagcaagcgcaaa gcccacattctgaagaaccacccaggagcagagctcccaccgagcattcggaagctccga cccgctggtcctggagagccagaccccatgctgagcacacacacccagctgacgggcacc atcgccacccctcccgtctgctgtccccactgctccaagcagtacagcagcaagaccaag atggtccagcacattcgaaagaagcatccagagttcgcccagctctccaacaccatacac acaccactgacgacagctgtgatcagtgccaccccagcggttttgactacagacagcgcc actggagagactgtggtgacgacggacctgctcacccaagcaatgacagaactgtcccag accttaacgacagactaccgaacgccacaaggggattaccagagaattcagtacatccct gtgtcgcagtcggcgtctggcctccagcagcctcagcacatacagctgcaagtggttcaa gtggcctcggccacttcccctcaccagtcacagcagtccactgtggatgttggccagctc catgatcctcagccctacccccagcacgccatccaggtgcagcacatccaggtcagcgag cctaccgcctcggccccgtcctccgcccaggtatctgggcagccgttgagtccctcagcc cagcaggctcagcaggggctcagcccctcccacatccagggcagttcttccacacagggg caggctctgcagcagcagcagcagcagcagcagaattcctctgtgcagcacacgtacctg cccagtgcttggaattccttccgtggctattcatctgagattcaaatgatgacgcttcct ccgggtcagtttgtgattacagacagtggtgtggcaactccagttactactggccaggtg aaggcggttacttcgggtcattatgtgttatcagaaagtcaatcagaattggaagaaaag caaacttctgccctctctggtggagtccaggtcgagccacctgcacacagtgactccctg gacccccagaccaacagccaacagcagaccacacagtacatcatcaccaccaccaccaac gggaacggaagcagcgaactaatagacgtgccttcgctcacgggctatggaactttgatt cgcggtcaggcaaagacaggcactgtctggggcctctggaagctcctaaatcagatgcat gtctttgtccagagtacctgtggagaagaaacaatggattccttagaccatatgctgaca gatcctctggaacttggtccgtgtggagatggccatggcacgcgcatcatggaggattgc ctcctgggaggcaccagagttagtctgcccgaggaccttctggaggatcctgagatcttc tttgatgttgtcagcctctcaacatggcaggaagtgttaagtgattctcaacgtgaacac ctccagcagtttctgccccagtttcctgaagacagtgctgagcagcagaatgaactcatc ttagccttgttcagtggggagaacttccgctttggaaaccctctgcacattgcccagaag cttttccgagacggacactttaaccccgaggtggtcaagtaccggcagttatgcttcaag tcacagtacaagcgctacctcaactcccagcagcagtatttccatcggctgctgaagcaa attcttgcttcccggagtgatctgctggagatggcccggcggagtggccccgcccttccc ttccggcagaaacgcccttcaccatcccgcacacctgaggagcgggagtggcggacccag cagcgctacttgaaggtcttaagggaagtgaaagaggagtgtggtgacacagccctgtca tctgatgaagaggccacgttggatttacaagaacaattttcttttgaagatctcagctca tggcttccgagctctccagcacgttctcctagtcctgcggtgcccctgcgggtggtgccc acactttcaaccacggatatgaaaactgcaggtgagaaccaagctgccgctgtcaccatt ctgggacattgcggtggagacctgaaaactcctttagagggagataaagtagaactgggg gacagtgacctgaagataatgttaaagaagcaccacgagaagcggaaacatcagccagag cagctggcgaggctagctagcatcaacgatgtgaggcacggtggctttgacttcgcaggg cctgctgaatgtagtgtctgccttaatcgttacagtgacactgtcgagtataggaatcgt ctccacctcagcagtgctcaagaggatcacccggaccttttgacaggggacctgactctc aatgacatcatgactcgagtaaatgctggcaggaagggctctctggcagccttatatgac ttggctgtccttaaaaaaaaggttaaggaaaaagaggaaaagaagaagaagaaaataaaa acgatcaaatcagaggcagaggacctggccgagccgctaagcagtactgaaggggtcgca cctctctcacaggccccctctccgctggcaattcctgctatcaaggaagagccccttgaa gacctcaagccttgccttggaatcaatgaaatatcttccagcttcttctctcttctatta gagatcttgctgctggagagtcaggctagccttcctatgctagaggagcgagttttggat tggcagtcatcgccagccagctccctcaacagctggttctctgcggcccccaactgggct gagttggtactaccagccctgcagtatcttgctggagaaagtcgagctgttccttccagt ttctctccatttgttgaattcaaagagaaaacccagcagtggaagttgcttggccaatcc caagataatgaaaaggaattagctgccctcttccagctatggctagagaccaaagatcag gccttctgtaagcaagaaaatgaagacagctcagatgccacaacacctgtccctcgggta agaactgactatgtggtgcgtcccagcacgggggaggagaaacgggtttttcaggagcag gagcgttacaggtatagccaaccccataaggcgttcacctttcgcatgcacggctttgag tctgtggtggggccagtgaagggcgtgtttgacaaggagacctcgctcaacaaggctcgg gagcactccctgctgcgctccgaccggcctgcctacgtcaccattctgtctcttgttcgg gacgctgcggctcgactgcctaatggagaaggcacacgggcagagatctgtgaactgctt aaggactcccagtttcttgcaccagatgtcaccagcactcaggtaaatacagtagtgagt ggtgcactggatcggctacattacgaaaaagatccctgtgtgaaatacgacattggacga aagctgtggatctacctgcatcgtgaccggagtgaagaagagtttgagcggattcaccaa gcacaagcagctgcagctaaagccagaaaagctcttcagcaaaaacccaagcccccatcc aaggtgaagtccagtagcaaggagagctccataaaggtccttagcagtggcccttctgag cagagccagatgagcctcagtgactccagtatgccacccaccccagtcacacctgtaacc cccaccacaccagcattgcccgccattcccatctcccctccacctgtatcggcagtgaac aaaagcggcccttccacagtctcagaaccagctaagtctagctcgggtgttcttctggtg tcttcaccaacaatgccacatctgggaacaatgctttccccagcttccagccagactgca cccagttctcaggctgccgcccgggtcgtgagccactctggctctgctggactgtctcag gtgcgagtggtggcccagcctagccttcctgctgttccccagcagtcgggagggccggca cagacattgccacagatgccagcaggaccgcagatccgggttccagccactgccacacag accaaagtagtgccccagacagtaatggccactgtgcccgtcaaagcgcagactacggca gccactgtgcagcggcctggacccgggcagacagggctcacggtgacaagtctccctgcc acagccagccctgtgagtaagccagccacgagttctcctgggacctctgctcccagtgcc tccacggctgccgtcattcaaaatgtcacaggacagaacatcatcaagcaggtggcaatc actgggcagcttggtgtgaagccccaaacaggcaacagcattccactcacagccactaac ttccgcatccagggtaaggatgtattgcgtctgccgccctcttccatcaccacagatgcc aagggccagacggttctgcgaatcactccggacatgatggccacattggccaagtcccag gttaccacagtcaaattgacccaggacctcttcgggacaggaggcaacactacaggcaaa ggcatctctgccaccttacacgtcacttccaatccagtacatgcagctgatagccctgcc aaggccagttcagccagtgccccttcatccactccaacaggtaccactgtggtcaaagtg actcctgacctcaagccaacagaagcctcaagttcggcttttcgcttgatgccagctctt ggcgtgagtgtggctgaccagaagggaaaaagcacagtggcctcttcagaagcaaaacca gctgccacgatccgcatcgtgcagggactgggagtgatgcctcccaaagcaggccagacc atcaccgttgcaacccacgccaagcaaggggcctcggtggccagtgggtctggaactgtc catacttcagcggtgtccttacccagtatgaatgctgctgtgtccaagactgtagctgtg gcttctggggctgcaagcacccccatcagcatcagcacaggagcccccaccgtgcggcag gtccctgtcagcaccacggttgtgtccacgtcccaggctgggaagttgcctacacggatc acagttcccctctctgtgatcagccagccaatgaagggcaagagcgtggtcacagccccc atcatcaaaggcaaccttggagccaacctcagtgggttgggccgcaacatcatcctcaca actatgccagcaggcactaagctcattgctggcaataagcctgttagtttcctcactgct cagcagttgcagcagcttcagcagcaaggtcaggccacacaggtgcgcatccagactgtc cctgcatcccatctccaacagggaacagcttctggctcctccaaagcagtctccactgtt gttgtgactacagctccgtctcctaaacaggcacctgagcaacaatga >gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_3|127_aa MQLIDDMISYNTTVKGHGTQLLPSHTKSKPVFVNAKNALPAPGPQPPVLGSRPAETCPPR PERPRNRRRRSAQAAQPPSRPNQRGQGRRGFHILLSLKIAFTKGSQEPSFGEIPSSNYPL AGNTQGS >gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_3|384_bp atgcaattgatagatgacatgatctcgtacaatacaactgtcaagggacatggaactcag ctgctcccaagccacacaaaatcaaaaccagtctttgtgaatgcaaagaacgcactcccg gcgcccggcccccagcccccggtgctcggctcccggccggcggagacctgcccgccgcgc ccggagcgcccgcgcaaccgccgccgccggagcgcgcaggccgcccaaccgccgtcccgg cccaaccaacgcgggcaggggaggagaggcttccacatcctgctgtcccttaaaattgcc ttcacaaagggcagccaagagcccagctttggagagatacccagctccaactacccactg gcaggcaatacgcagggcagctag >gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_4|145_aa MPGGARAAGNGAERGRAGAARGEAATAMDVFLVIRRHKTTIFTDAKESSTVFELKRVVEG ILKRPPDEQRLYKDYQLLDDGKTLGECGFTSQTARPQAPATVGLAFRAHDAFEALCIEPF SSPPELLDVMKPQESGSSANEQAVQ >gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_4|438_bp atgccgggcggcgcgcgggctgcagggaacggggcggagcgcggccgcgccggcgcagcg aggggagaggcagcaaccgctatggacgtgttcctcgtgatccggcgccacaagaccacc atcttcactgacgccaaggagtccagcacggtgttcgagctgaagcgcgtcgtggaggga atcctcaagcggccgcccgacgagcagcggctgtacaaggactaccaactcttggatgat ggcaagacactgggcgagtgtggcttcaccagccaaacggcacggccgcaggccccagcc acagtggggctggccttccgggcacacgacgcctttgaggccctgtgcatcgagccgttc tccagcccgcccgagctgctcgacgtgatgaagccccaggagtcgggaagcagtgccaat gaacaagctgtgcagtga >gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_5|309_aa XCEPRLSDYPILSNSPRPLTEPPRHATCHPTPTPIPSISSSASTDSDWMMMKPQEQRESK PSLGNSIHPQTKTIWPSSCLFSLYTVQSCVAEQQDMSGKRIIRLYDTAYGSQATFLRVYR TVLNTAGNCNTMGAASGDVSDPTAIWDEPLLSHMSSNSSESKVAKPSLRHLGLLAPGTCP WPCTVMCSVFRGLVRTDLTTRPLRTWPRPRGLSTGTCRPVWSLQPQRRTRPCIEDDADGV GKPWEVKDTRVGLGDTPQPPAEPRLGVQIRSCSSSNTGGAARGNAEVSRGAERKDPSIIL RDHHRIRGL >gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_5|930_bp ngctgcgagccgcgcctttcggactatcccattctcagcaattctcccaggcccctcact gaacctccacgtcatgctacctgccacccgaccccaacccctatccccagcatctccagc tccgcttccacggactctgactggatgatgatgaagccgcaggagcagagagagagcaag ccttctttaggcaacagcatccatccacaaactaagaccatttggccttcctcgtgctta ttttcactgtacactgtacagtcatgcgttgctgaacaacaggatatgtctgggaaacgc atcatcaggctgtatgatacagcctatggttcccaggctaccttcctgcgtgtataccgc acagtgctgaatactgcaggcaattgtaacacaatgggcgccgcgagtggggatgtatcg gaccctacagccatctgggatgagccgcttctcagccacatgtcttcaaattcatccgaa tcgaaggtggcaaagcccagtctccgacacctgggtcttctggcgccgggaacctgtcct tggccctgcacagtcatgtgctccgtgttccgcggtttggtgcggacggacttgacaacc cggcccctgcgaacctggccccggccgcgggggctttccacaggcacctgcaggcctgtc tggagcctgcagccccagcgcaggacgagaccttgtattgaggatgacgcggacggggtg gggaagccctgggaggtcaaagatacacgtgttggcctcggggacactccccagccccca gcggaaccgaggcttggggtgcaaattcgttcttgcagttccagcaacaccgggggcgca gcccgtggcaacgccgaggtctcccggggcgcagaaaggaaagacccctctataatctta cgtgaccaccatcgcatacgcggcctgtag