GENSCAN 1.0 Date run: 7-Nov-116 Time: 21:48:54 Sequence gi568815590r:25319422_25523330 : 203909 bp : 40.64% 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 Intr + 157 255 99 0 0 49 100 69 0.759 3.59 1.02 Intr + 1559 1631 73 1 1 84 106 64 0.659 5.86 1.03 Intr + 4427 4530 104 0 2 101 36 101 0.442 5.17 1.04 Intr + 5943 6126 184 2 1 79 58 164 0.543 10.94 1.05 Intr + 9292 9345 54 2 0 83 116 2 0.518 0.53 1.06 Intr + 12830 12927 98 0 2 83 95 76 0.989 6.61 1.07 Intr + 13182 13271 90 2 0 91 107 67 0.995 8.17 1.08 Intr + 14675 14775 101 1 2 93 75 10 0.964 -1.81 1.09 Intr + 16818 16952 135 0 0 93 80 89 0.945 7.36 1.10 Intr + 21456 21567 112 0 1 52 82 138 0.937 9.06 1.11 Intr + 22318 22388 71 0 2 92 99 66 0.988 5.16 1.12 Intr + 22980 23086 107 0 2 42 111 91 0.528 5.74 1.13 Intr + 26054 26190 137 0 2 99 89 174 0.995 17.97 1.14 Intr + 28826 28894 69 1 0 104 46 45 0.458 0.36 1.15 Intr + 32310 32405 96 2 0 61 78 129 0.025 8.49 1.16 Intr + 39222 39449 228 2 0 38 35 150 0.531 1.84 1.17 Intr + 39542 39640 99 1 0 93 97 59 0.987 6.69 1.18 Intr + 43626 43720 95 2 2 132 94 84 0.984 11.24 1.19 Intr + 45205 45283 79 1 1 122 96 77 0.985 10.53 1.20 Intr + 47449 47549 101 0 2 27 106 61 0.849 -0.21 1.21 Intr + 48771 48829 59 0 2 84 92 80 0.816 5.61 1.22 Intr + 49150 49304 155 2 2 110 95 58 0.999 7.57 1.23 Intr + 50135 50220 86 1 2 67 74 102 0.780 4.40 1.24 Intr + 53138 53297 160 2 1 105 84 205 0.734 20.87 1.25 Intr + 54197 54237 41 1 2 94 121 1 0.991 0.10 1.26 Intr + 55143 55233 91 0 1 85 68 139 0.952 10.68 1.27 Intr + 57884 58003 120 1 0 120 87 104 0.979 13.27 1.28 Intr + 59950 60109 160 0 1 66 50 14 0.517 -5.96 1.29 Intr + 60660 60973 314 1 2 64 105 274 0.934 21.68 1.30 Intr + 61339 61578 240 0 0 52 66 183 0.641 9.32 1.31 Intr + 63253 63357 105 0 0 87 94 25 0.843 2.49 1.32 Intr + 69670 69940 271 0 1 113 19 173 0.155 9.09 1.33 Intr + 70755 70866 112 1 1 27 106 36 0.156 -2.18 1.34 Intr + 72475 72559 85 1 1 66 68 106 0.962 5.30 1.35 Intr + 73375 73461 87 0 0 77 79 85 0.956 5.75 1.36 Intr + 76122 76298 177 2 0 83 63 267 0.951 22.89 1.37 Intr + 80490 80573 84 2 0 91 92 61 0.939 5.90 1.38 Intr + 81508 81645 138 0 0 107 107 195 0.999 23.04 1.39 Intr + 84137 84303 167 1 2 46 82 140 0.993 7.04 1.40 Intr + 88562 88733 172 2 1 44 53 171 0.967 8.22 1.41 Intr + 89381 89519 139 1 1 86 97 68 0.991 6.62 1.42 Intr + 90678 90781 104 1 2 122 75 68 0.561 7.87 1.43 Intr + 91773 91873 101 2 2 110 72 150 0.940 13.59 1.44 Intr + 92080 92161 82 1 1 59 29 60 0.218 -4.08 1.45 Intr + 93411 93521 111 2 0 84 53 83 0.471 4.06 1.46 Term + 98166 98321 156 2 0 69 44 125 0.521 3.15 1.47 PlyA + 98409 98414 6 -0.45 2.04 PlyA - 98541 98536 6 1.05 2.03 Term - 99558 99457 102 0 0 60 54 48 0.257 -4.10 2.02 Intr - 102247 102152 96 1 0 92 119 113 0.977 14.09 2.01 Init - 103909 103769 141 1 0 43 107 117 0.596 9.53 2.00 Prom - 104877 104838 40 -1.45 3.09 PlyA - 105798 105793 6 1.05 3.08 Term - 110552 110436 117 2 0 87 54 104 0.987 4.46 3.07 Intr - 113216 113083 134 0 2 66 105 73 0.994 6.24 3.06 Intr - 114014 113909 106 2 1 94 100 88 0.920 9.47 3.05 Intr - 116091 115942 150 0 0 81 105 163 0.999 16.74 3.04 Intr - 116909 116814 96 2 0 76 91 167 0.999 15.09 3.03 Intr - 117064 116997 68 2 2 70 121 50 0.996 4.21 3.02 Intr - 119986 119858 129 2 0 36 92 107 0.970 5.65 3.01 Init - 120200 120185 16 2 1 53 113 16 0.211 1.15 3.00 Prom - 120412 120373 40 -9.35 4.00 Prom + 122095 122134 40 -5.55 4.01 Init + 123107 123235 129 1 0 74 107 94 0.343 10.10 4.02 Intr + 138339 138466 128 2 2 89 60 83 0.279 4.16 4.03 Intr + 139831 140038 208 1 1 -46 80 199 0.781 3.86 4.04 Intr + 140819 140879 61 1 1 85 84 86 0.971 5.29 4.05 Intr + 140963 141133 171 0 0 101 110 99 0.999 12.39 4.06 Intr + 142618 142787 170 2 2 30 80 103 0.955 2.44 4.07 Intr + 146754 146904 151 2 1 83 61 133 0.998 8.91 4.08 Intr + 148796 148992 197 0 2 68 76 180 0.570 13.01 4.09 Intr + 150475 150559 85 0 1 75 115 33 0.278 3.17 4.10 Intr + 156566 156691 126 0 0 83 85 36 0.098 2.53 4.11 Intr + 159014 159049 36 0 0 91 101 12 0.303 0.12 4.12 Intr + 160492 160703 212 2 2 29 110 164 0.851 10.41 4.13 Intr + 163978 164065 88 0 1 63 110 65 0.996 4.82 4.14 Intr + 164545 164789 245 2 2 57 89 225 0.973 15.79 4.15 Intr + 166338 166416 79 2 1 92 67 16 0.693 -1.89 4.16 Intr + 167825 167913 89 0 2 90 101 36 0.779 3.87 4.17 Intr + 169131 169268 138 2 0 62 115 66 0.988 6.44 4.18 Intr + 183952 184123 172 0 1 66 68 142 0.904 8.59 4.19 Term + 187089 188317 1229 1 2 81 32 845 0.988 68.97 4.20 PlyA + 188425 188430 6 1.05 5.03 PlyA - 188547 188542 6 1.05 5.02 Term - 192119 192006 114 2 0 18 43 139 0.151 -0.01 5.01 Intr - 201914 201790 125 0 2 75 90 95 0.333 7.78 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 32310 32492 183 2 0 61 53 170 0.806 7.36 S.002 Init + 38816 38911 96 1 0 83 43 107 0.887 6.06 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815590r:25319422_25523330|GENSCAN_predicted_peptide_1|1882_aa KAIHPGAGYEGISEYKSVVYYQVKQPCWYETVKVSIAIEEVTRCHIRFTFRHRSSQETRD KSERAFGVAFVKLMNPDGTTLQDGRHDLVVYKGDNKKMEDAKFYLTLPGTKMEMEEKELQ ASKNLVTFTPSKDSTKDSFQIATLICSTKLTQNETKTDQFVWDHWFLGPLEVDLLGLLNW RSNSQNIKHNLKKLMEVDGGEIVKFLQDTLDALFNIMMEMSDSETYDFLVFDALVFIISL IGDIKFQHFNPVLETYIYKHFSATLAYVKLSKVLNFYVANADDSSKTELLFAALKALKYL FRFIIQSRVLYLRFYGQSKDGDEFNNSIRQLFLAFNMLMDRPLEEAVKIKGAALKYLPSI INDVKLVFDPVELSVLFCKFIQSIPDNQLVRQKLNCMTKIVESTLFRQSECREVLLPLLT DQLSGQLDDNSNKPDHEASSQLLSNILEVLDRKDVLCFGIVLVLSSPAAVSTSVKLSLGA TAVHIQLIMERLLRRINRTVIGMNRQSPHILCLNKKPKAPQVVTSSLVISLRCPVYRIPH FLAVNEISSLRPGRRWFEAETAKHVAFGPLECSVFPVWWDTCVAQWGSFVACMIALLQQM DDSHYSHYISTFKTRQDIIDFLMETFIMFKDLIGKNVYAKDWMVMNMTQNRVFLRAINQF AEVLTRFFMDQASFELQLWNNYFHLAVAFLTHESLQLETFSQAKRNKIVKKYGDMRKEIG FRIRDMWYNLGPHKIKFIPSMVGPILEVTLTPEVELRKATIPIFFDMMQCEFNFSGNGNF HMFENELITKLDQEVEGGRGDEQYKVLLEKLLLEHCRKHKYLSSSGEVFALLVSSLLENL LDYRTIIMQDESKENRMSCTVNVLNFYKEKKREDIYIRYLYKLRDLHRDCENYTEAAYTL LLHAELLQWSDKPCVPHLLQKDSYYVYTQQELKEKLYQEIISYFDKGKEKNLVISLLLVR PFIGSLQEEKCGCFCPTPQAVRPYGCLPLFPKNRCYSVLFQELQKTPLAKLPIYTVFMMS GNEGFTDLRDKASEEYLPKLNPPDHLLIPSDSPVAFATESMTALFSTFNLTFLFLKMWEK AIKLSKELAETYESKVFDYEGLGNLLPSVKQNKNECPVLGSHHSESSVEAATIPNAQWRQ PPFRMPSGGSTIPNAQWRQHHSKCPVEEAAILNAQWKAATILNAPAKKRASFYENIIKAM RPQPEYFAVGYYGQGFPSFLRNKIFIYRGKEYERREDFSLRLLTQFPNAEKMTSTTPPGE DIKSSPKQCILSGGSMAPRLLWLCTAPAKPENIGATVPSLQTHHLLKHSDTAPLLSLTSS SDMQCFTVKPVMSLPPSYKDKPVPEQILNYYRANEVQQFRYSRPFRKGEKDPDNEFATMW IERTTYTTAYTFPGILKWFEVKQISTEEISPLENAIETMELTNERISNCVQQHAWDRSLS VHPLSMLLSGIVDPAVMGGFSNYEKAFFTEKYLQEHPEDQEKVELLKRLIALQMPLLTEG IRIHGEKLTEQLKPLHERLSSCFRELKEKVEKHYGVITLPPNLTERKQSRTGSIVLPYIM SSTLRRLSITSVTSSVVSTSSNSSDNAPSRPGSDGSILEPLLERRASSGARVEDLSLREE NSENRISKFKRKDWSLSKSQVIAEKAPEPDLMSPTRKAQRPKSLQLMDNRLSPFHGSSPP QSTPLSPPPLTPKATRTLSSPSLQTDGIAATPVPPPPPPKSKPYEGSQRNSTELAPPLPV RREAKAPPPPPPKARKSGIPTSEPGSHPHGIPESVTASDFFQEEIAFTIVKCQPERTTPV HHEGQGSKSSQMCPGRYLRNEYADSGRGVEKLFGPLEHQGYLLKASNISIRQLDEHLFIP FKGGLQLALKKLSQRQTLAKEI >gi568815590r:25319422_25523330|GENSCAN_predicted_CDS_1|5649_bp aaagcaattcaccctggtgctggatatgaaggcatttcagaatacaaatcagtagtctat taccaagtcaagcagccctgttggtatgagactgtcaaggtatccattgctatagaagaa gtcacacgctgtcatataagatttaccttccgacacaggtcatctcaggaaaccagagat aaatcggagcgagcatttggggtggccttcgtgaagctgatgaacccggatggcaccact ctgcaggatgggaggcacgatctggtggtttataagggtgacaacaaaaaaatggaagat gctaaattctacctgaccctgcctggaaccaagatggagatggaagaaaaagagcttcaa gcatccaaaaacctggtcaccttcaccccaagcaaggatagcactaaagacagctttcag attgccaccctcatctgctccacaaagctcacccagaatgaaactaaaacagaccaattt gtgtgggatcattggtttctgggcccactggaagttgacctgttaggcttgttaaattgg cgttccaactcccagaacattaaacacaacctaaagaagttaatggaagtggatggagga gagattgttaagtttttgcaagatacactagatgcactctttaacataatgatggaaatg tcagacagtgaaacctatgacttccttgtgtttgacgcactggtatttattatttcactg ataggagacatcaagttccagcattttaatcctgtacttgaaacctacatttacaagcac ttcagcgccactttggcatatgtgaaactctccaaggtactgaacttctatgtggctaat gcagatgactccagcaagactgaactgctttttgctgcgttgaaagccttgaagtacttg tttagattcatcatccaatcccgagtgctctacttgagattttatgggcagagcaaagat ggagatgagtttaataattcaattcgccagttatttcttgctttcaatatgctgatggac aggcctctggaggaagccgtcaagatcaagggggcagctttgaagtaccttcctagcata attaatgatgtcaaacttgtatttgatcctgttgagctcagcgtgctcttctgcaaattc attcaaagcattcctgacaaccagctggttcggcagaaacttaactgcatgaccaagata gtagagagcactctttttcgacagtcagagtgcagagaagtgctgctgccactgctgaca gaccagctcagcggccagttagatgacaactccaacaagcctgaccacgaggcaagctcg cagcttctgagcaacatcctggaggtgctggacaggaaggatgtgctctgttttggaatt gtcctggttctttcaagtccagctgcagtaagcacctctgtgaagttgtctctgggtgcc actgcggtgcacattcagcttataatggaacggctgctgagaaggatcaaccggacagtg attgggatgaaccggcagtctccccacatcctctgtctcaacaagaaacccaaagcccca caagttgttacatcttcactggtaatctcattgaggtgtcctgtctataggattccacac ttcttagctgttaatgagatttcttcactcagacctggaaggaggtggtttgaagcagaa accgcaaagcacgtggcctttggacctttagaatgcagcgtgtttccagtgtggtgggat acctgcgtggctcagtgggggagttttgtggcttgcatgattgccctgctgcagcaaatg gacgacagccactatagccactacatcagcactttcaaaaccagacaagacatcatcgac ttcctcatggaaacttttatcatgttcaaggacctgattggaaagaatgtctatgccaaa gattggatggtgatgaatatgactcaaaacagggtttttctccgtgctataaatcagttt gctgaagttctcacaagattcttcatggatcaggcaagctttgaacttcagctctggaac aattacttccatttggcagttgcatttctcacccatgagtcccttcagcttgaaaccttc tcacaagccaagcgcaacaaaattgttaaaaaatatggggacatgagaaaggaaatcggc tttagaatccgggacatgtggtataacctgggtccccacaaaatcaaattcatcccatcc atggtgggtcccattctggaggtcactctgacccctgaagtagagctccggaaagccaca atccccattttctttgatatgatgcagtgtgagttcaatttcagtggaaatggcaatttc catatgtttgagaatgagctgatcacaaagctggaccaggaggtagaagggggcagagga gacgaacaatacaaggttcttctggaaaaactgctcctagaacattgccggaaacacaaa tacctctccagctctggggaggtcttcgccctcctggtcagcagcctcttagagaacctg ctggactatagaaccatcatcatgcaagatgagagcaaggagaaccgtatgagctgcact gtgaacgtgctgaacttttataaagaaaagaagagagaggacatatacataagatatctg tacaagcttcgagatttgcaccgagactgtgagaactacacagaagctgcctacacgctt ctcttgcacgctgagcttctgcagtggtctgacaagccctgtgtgcctcatttgcttcag aaggacagttactatgtttatacccagcaagagcttaaagagaagctgtatcaagaaatc atatcatatttcgacaaaggcaaagaaaagaatttagtgatatctctcctacttgtacgt ccatttataggctctctgcaagaagaaaaatgtggctgtttttgcccgaccccgcaggca gtcagaccttatggttgtcttcccttgttcccaaaaaatcgctgttattctgttcttttt caagaactacagaagacgcccctggcaaagctgccaatatacactgtctttatgatgtca ggaaatgaaggtttcactgatctaagggataaagcgagtgaggaatatctaccgaaactc aatcccccagaccacttgctcattcccagtgactcgccagtggcttttgccactgaatca atgactgccttgttctccacttttaaccttactttcctttttctgaagatgtgggagaag gccatcaagctgagcaaagagttggctgagacttacgaaagcaaagtatttgactacgag ggccttggcaacctcctgccatcagtaaagcaaaacaaaaatgagtgcccagtgttaggc agccaccattctgaaagctcagtggaggcagccaccattccgaatgcccagtggaggcag ccaccattccgaatgcccagtggaggcagcaccattccgaatgcccagtggaggcagcac cattccaaatgcccagtggaggaggcagccattctgaatgcccagtggaaggcagccacc attctaaatgccccagcgaaaaaaagggcctcattttatgagaacatcattaaggcaatg aggcctcagcctgaatactttgctgttggatactatggacagggctttccttctttccta cggaataaaatcttcatctatcggggaaaggagtatgagaggcgagaggacttcagcctg aggttgttaacccagttccccaatgcggagaagatgaccagtaccacgcctcctggggaa gacatcaagtcgtcccccaagcagtgtatcctttccggggggagtatggccccgaggctc ttatggctgtgcacagccccagctaagccagagaacataggagctacagtcccttctctg cagacacaccatcttctcaagcattctgacacagcccctctcctttccttaacgagctct tcagacatgcagtgcttcactgtaaagccagtgatgagcttgccgcccagctacaaggat aaacctgttccagagcagatcttaaactactacagagccaatgaagtgcagcagttcaga tactcccggccgttccggaaaggagaaaaggatccagacaatgaatttgctacgatgtgg attgaacggaccacgtatacgactgcatatacctttcctgggattctcaagtggtttgaa gtcaaacagatttcaacagaagagatcagtcctctggagaatgccatcgaaaccatggag ctgaccaacgagaggatcagcaactgtgttcagcagcatgcctgggaccggtccctctct gtgcaccctctctccatgctgctcagtggcatcgtggacccggccgtcatggggggcttc tccaactatgaaaaggctttttttacagaaaagtacttgcaggagcatcctgaagaccag gagaaggttgagctgctaaagcgactaatagcattacagatgcccctgctaacagaaggg atccgcatccatggggagaaactcacagagcagctgaagccgctgcatgagcggttgtct tcttgcttccgggaactcaaggagaaagtagaaaagcactatggggttataacactgcca cccaacttgacggagaggaagcaaagccgcacggggtctattgtgctcccctacatcatg tcttccactctgcggaggttgtccatcacctcagtcacttcctctgtggtttccacctct tcaaactcgtctgacaatgctccttccagaccgggatctgatggctcaatcttggagcca cttttggagcgcagggcctcgtcaggtgccagagttgaagatctgtcccttagagaggag aacagcgagaaccggatcagcaagtttaagagaaaagactggagtctgagcaagtcccag gtcattgcagagaaagcaccagaacccgatttgatgagcccaaccagaaaagcacaaagg ccaaagagtctccagttgatggataatcggctatcaccatttcacggttcttcacctcct cagtcaacacccttgagcccacctccactcactcccaaagccaccaggaccctaagctcc ccatcgttgcagacagatggaatcgcggccactcctgtcccacctccacctccccccaaa agcaagccctatgaaggcagccagaggaactccactgagctcgctcccccactgcctgtc cgaagagaagccaaagcaccaccccctccacctccaaaggctcggaagtctggcatccct acttccgagcctggatcccatccacatggaattccagaatcagtcacagcctctgatttt ttccaagaagagattgccttcaccattgttaaatgtcagcctgagagaactacaccagtt catcatgagggtcagggaagcaaaagctctcagatgtgtccagggcgttacttaagaaat gagtatgcagattctggaaggggtgtggaaaagttatttgggccattggagcatcaaggg tacctcctgaaagcctctaacatcagcatcaggcagttggatgagcatctttttatccca ttcaagggaggcctgcagctggccctcaagaaattgtcccaaagacaaactttggctaag gaaatctga >gi568815590r:25319422_25523330|GENSCAN_predicted_peptide_2|112_aa MKPIQKLLAGLILLTWCVEGCSSQHWSYGLRPGGKRDAENLIDSFQEIVKEVGQLAETQR FECTTHQPRSPLRDLKGALKLRWGHGQGFLPLGKKFPPLIVSKPFESLLEPK >gi568815590r:25319422_25523330|GENSCAN_predicted_CDS_2|339_bp atgaagccaattcaaaaactcctagctggccttattctactgacttggtgcgtggaaggc tgctccagccagcactggtcctatggactgcgccctggaggaaagagagatgccgaaaat ttgattgattctttccaagagatagtcaaagaggttggtcaactggcagaaacccaacgc ttcgaatgcaccacgcaccagccacgttctcccctccgagacctgaaaggagctctgaag ttgaggtggggccacggccaaggctttcttccacttggaaagaagttccctcccttgatc gtctccaaaccctttgaaagtttactggaacccaaatga >gi568815590r:25319422_25523330|GENSCAN_predicted_peptide_3|271_aa MFKDKGVWGNKQDHRGAFLIDRSPEYFEPILNYLRHGQLIVNDGINLLGVLEEARFFGID SLIEHLEVAIKNSQPPEDHSPISRKEFVRFLLATPTKSELRCQGLNFSGADLSRLDLRYI NFKMANLSRCNLAHANLCCANLERADLSGSVLDCANLQGVKMLCSNAEGASLKLCNFEDP SGLKANLEGANLKGVDMEGSQMTGINLRVATLKNAKLKNCNLRGATLAGTDLENCDLSGC DLQEANLRGSNVKGAIFEEMLTPLHMSQSVR >gi568815590r:25319422_25523330|GENSCAN_predicted_CDS_3|816_bp atgtttaaggacaaaggtgtctggggaaataagcaagatcatagaggagctttcttaatt gaccgaagtcctgagtacttcgaacccattttgaactacttgcgtcatggacagctcatt gtaaatgatggcattaatttattgggtgtgttagaagaagcaagattttttggtattgac tcattgattgaacacctagaagtggcaataaagaattctcaaccaccggaggatcattca ccaatatcccgaaaggaatttgtccgatttttgctagcaactccaaccaagtcagaactg cgatgccagggtttgaacttcagtggtgctgatctttctcgtttggaccttcgatacatt aacttcaaaatggccaatttaagccgctgtaatcttgcacatgcaaatctttgctgtgca aatcttgaacgagctgatctctctggatcagtgcttgactgtgcgaatctccagggagtc aagatgctctgttctaatgcagaaggagcatccctgaaactgtgtaattttgaggatcct tctggtcttaaagccaatttagaaggtgctaatctgaaaggtgtggatatggaaggaagt cagatgacaggaattaacctgagagtggctaccttaaaaaatgcaaagttgaagaactgt aacctcagaggagcaactctggcaggaactgatttagagaattgtgatctgtctgggtgt gatcttcaagaagccaacctgagagggtccaacgtgaagggagctatatttgaagagatg ctgacaccactacacatgtcacaaagtgtcagatga >gi568815590r:25319422_25523330|GENSCAN_predicted_peptide_4|1237_aa MVDGNGILPLEDVTEYCSHSILERNLLENKFQINTGNITKGLEALVLAATFRADHYSAPE PARLLPQAGAGSRGEAGRGATARAPRAQARISAGCESRSAVGTSGSGFEERLPAAGALPG EPFRTEEPGSGRSGRRDARLPRGSGSKPVCLAGLQMDANSKDKPPETKESAMNNAGNASF ILGTGKIVTPQKHAELPPNPCTPDTFKSPLNFSTVTVEQLGITPESFVRNSAESFITGKS SSYLKKCRRRSAVGARGSPETNHLIRFIARQQNIKNARKSPLAQDSPSQGSPALYRNVNT LRERISAFQSAFHSIKENEKMTGCLEFSEAGKESEMTDLTRKEGLSACQQSGFPAVLSSK RRRISYQRDSDENLTDAEGKVIGLQIFNIDTDRACAVETSVDLSEISSKLGSTQSGFLVE ESLPLSELTETSNETVGPGEFSVCGTVPVGRRAAQSNRKVSYHLFVAFLHSGVQGVFHTV ARALVLKSLKVADCVVGKGSSDAVSPDTFTAEVSSDAVPDVRSPATPACRRDLPTPKTFV LRSVLKKPSVKMCLESLQEHCNNLYDDDGTHPSLISNLPNCCKEKEAEDEENFEAPAFLN MRKRKRVTFGEDLSPEVFDESLPANTPLRKGGTPVCKKDFSGLSSLLLEQSPVPEPLPQP DFDDKGENLENIEPLQVSFAVLSSPNKSSISETLSGTDTFSSSNNHEKISSPKVGRITRT SNRRNQLVSVVEESVCNLLNTEVQPCKEKKINRRKSQETKCTKRALPKKSQVLKSCRKKK GKGKKSVQKSLYGERDIASKKPLLSPIPELPEVPEMTPSIPSIRRLGSGYFSSNGKLEEV KTPKNPVKRKDLLRHDPDLHMHQGYDKYDVSEFCSYIKSSSSLGNATSDEDPNTNIMNIN ENKNIPKAKNKSESENEPKAGTDSPVSCASVTEERVASDSPKPALTLQQGQEFSAGGQNA ENLCQFFKISPDLNIKCERKDDFLGAAEGKLQCNRLMPNSQKDCHCLGDVLIENTKESKS QSEDLGRKPMESSSVVSCRDRKDRRRSMCYSDGRSLHLEKNGNHTPSSSVGSSVEISLEN SELFKDLSDAIEQTFQRRNSETKVRRSTRLQKDLENEGLVWISLPLPSTSQKAKRRTICT FDSSGFESMSPIKETVSSRQKPQMAPPVSDPENSQGPAAGSSDEPGKRRKSFCISTLANT KATSQFKGYRRRSSLNGKGESSLTALERIEHNGERKQ >gi568815590r:25319422_25523330|GENSCAN_predicted_CDS_4|3714_bp atggtggatggcaatggcatcttgccattggaagatgtcaccgaatattgttctcatagt atcttggagagaaatctactagagaacaagtttcagataaacactggaaacataacaaaa ggactggaggctctggtgctcgccgccactttccgagcagatcattactcagcaccggag ccggcgcgcctcctcccgcaggcgggagcggggtctcggggagaggcgggaagaggcgcg accgcccgggcgcccagagcgcaggccaggatcagcgcaggctgtgagtccaggtcagcc gtcgggacctcgggctccgggttcgaagagcggctcccggctgcgggtgctttgccagga gagcccttccggacagaggagccggggtctggaaggagcggccgacgcgacgctcgcctg ccacggggctctgggagtaagcctgtctgcctggcgggccttcagatggatgccaattca aaagacaagccccctgaaaccaaggagtctgcaatgaataatgctggaaatgcctctttc attttgggaactgggaagattgtgactcctcagaagcatgccgaattacctcctaatcct tgcacaccagatacttttaaatcacctttgaacttttccacagtaaccgtagagcaattg ggaattacacctgaaagctttgttaggaactctgcagagagtttcattacaggaaagtca tcatcctaccttaaaaaatgtagacgacgttctgcagtcggtgctcggggctctcctgaa acaaaccatctgattcgtttcattgctcggcagcaaaatataaagaatgctaggaaatct cctttggcacaagattctccttcccagggcagccctgcactgtatcgaaatgttaacact ttaagagaacgaatatcagccttccagtcagcttttcactccataaaggaaaacgagaaa atgaccggctgtctggaattctcagaggcaggaaaagagtccgagatgacagacttgacc agaaaggaaggtctcagcgcttgccagcagtctgggttccctgcagtgttgtcctccaaa cgtcggagaatatcctatcagagagactctgatgaaaatctgacggatgctgaaggaaaa gtaattggtctccagatattcaatattgatacagacagagcatgtgcagttgaaacttct gtagatctttctgagatatcatctaaacttggttcaacacagtctggatttttagttgaa gagtctcttcccctttcagagctcacagagacttcaaatgaaactgtgggtccaggggaa ttctctgtgtgtggcactgtgccagttgggagaagggcagcacagtcaaacagaaaagtt tcttaccacttgtttgtggcttttctccattctggggtccaaggagtttttcacacagta gccagagcactggttttaaaatcactaaaggttgctgactgtgtagtgggcaaaggatca agtgatgccgtttcgcctgacacgttcacagcagaagtgagctcagacgcagtccctgat gtcaggtcaccagctactccagcctgcaggagggaccttcccacccccaagacctttgta cttcgttctgtactgaagaaaccctctgttaagatgtgtctagagagcttacaggaacac tgtaacaacctctatgatgatgatgggactcatccgagcttaatctcaaatctcccaaac tgttgcaaagagaaagaagcagaagatgaagaaaattttgaagcacctgcctttctaaat atgaggaagaggaagagagttacttttggagaggacttaagcccggaagtgtttgatgaa tctttgccagcaaatactccattgcgtaaaggaggaacacctgtttgtaaaaaagacttc agtggtctcagttccctgctgcttgagcagtcacctgttcctgagccattacctcaacca gattttgatgacaagggggagaatcttgaaaacatagaaccacttcaagtatcatttgcc gttctcagttctcctaataaatcatcaatctctgagaccctttcaggcactgataccttt agttcttcaaataaccatgagaaaatatcctctcctaaagttggtagaataacaaggact tctaacagaagaaatcaattggtcagtgttgtagaagagagtgtttgcaacttattgaat acagaagttcagccttgtaaagaaaagaaaattaataggaggaagtctcaagaaacaaag tgtacaaagagagcacttcctaagaagagtcaggttttaaaaagttgcagaaagaagaaa ggaaagggaaagaaaagtgttcagaaatctttatatggggaaagagacattgcttctaag aagcccctcctcagtcctattcccgagctgcctgaagtccctgagatgacaccttccatt ccgagcatccgaagactgggttcaggttatttcagttcaaatggcaaactggaagaagtg aagactcctaaaaatccagtgaaaagaaaggatcttttgcgtcatgacccagatttgcat atgcatcaaggctatgataaatatgatgtctctgaattctgctcttatataaaaagttcc tcatcgcttggcaatgctacttctgatgaagatccaaatacaaatataatgaacattaat gaaaataaaaatattccaaaagcaaaaaataagtcagaaagtgaaaatgaaccaaaagct ggaactgacagtcctgtttcttgtgcttctgtaactgaagaacgtgtggcatcagatagt cccaaacctgctctgaccctgcagcagggtcaagaattttctgctggtggtcaaaatgca gaaaacctttgtcagttctttaaaatttcaccagatttaaacataaagtgtgaaagaaag gatgacttcttaggagctgcagaaggaaaactgcaatgcaatcgtttaatgcctaattca caaaaagactgtcattgtttaggagatgtcttaattgaaaatacgaaagaatctaaaagc cagagtgaggatttgggaagaaaacccatggaaagtagcagtgttgtgagttgcagagac aggaaagatagaagacgttccatgtgttattctgatggtcgaagtttacatttggaaaaa aatggaaatcacacaccatcctccagtgtgggcagctctgtagaaattagtttagaaaat tctgaactgtttaaagatttgtctgatgccattgagcaaacctttcagaggagaaatagt gaaaccaaagtgcgacgtagcacgaggctacagaaggatttagaaaacgaaggtcttgta tggatttcacttccacttccttccacttcccaaaaagccaaaagaagaacaatatgtaca tttgacagcagtggatttgaaagtatgtctcccataaaagaaactgtgtcctccagacaa aaaccgcagatggcacctcccgtctcagatccagaaaacagccagggccctgctgctggt tcttccgatgaacctggtaagaggaggaagagcttttgtatatctacacttgcaaatact aaagccacttcccagttcaaaggctaccggagaagatcctctcttaatgggaagggagag agctctctgactgccttggaaaggattgaacataatggagaaagaaagcagtaa >gi568815590r:25319422_25523330|GENSCAN_predicted_peptide_5|79_aa XLPTEMPTAAQSTDLSLPGIKVPRMEGGLLNSDYPYNCPKNRNGYNEKRLTIPEAGEDVE QTKRVASGNAKSCSHYGKV >gi568815590r:25319422_25523330|GENSCAN_predicted_CDS_5|240_bp nacctcccaacagaaatgccaacagctgcccagagtacagacctgtctcttcctggaatt aaggtgcccaggatggagggagggctgttaaactcagattatccctacaactgtcctaag aacaggaatggctacaatgaaaaaaggctaacaataccagaggctggtgaagatgtggaa caaacaaaacgtgttgccagtggaaatgcaaaatcatgcagccactatggaaaagtttag