GENSCAN 1.0 Date run: 8-Nov-116 Time: 00:01:45 Sequence gi568815582r:81070743_81281213 : 210471 bp : 48.24% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.07 PlyA - 1648 1643 6 1.05 1.06 Term - 12221 12124 98 0 2 66 48 129 0.910 4.83 1.05 Intr - 13852 13721 132 2 0 88 103 96 0.990 11.72 1.04 Intr - 16922 16859 64 2 1 47 113 -29 0.367 -6.21 1.03 Intr - 19938 19859 80 1 2 83 72 94 0.663 6.57 1.02 Intr - 20721 20680 42 1 0 100 89 12 0.607 0.71 1.01 Init - 25536 25389 148 0 1 116 102 182 0.989 20.65 1.00 Prom - 33111 33072 40 -7.06 2.49 PlyA - 34075 34070 6 1.05 2.48 Term - 34830 34776 55 2 1 93 50 66 0.906 0.33 2.47 Intr - 37065 36896 170 0 2 71 38 132 0.941 5.24 2.46 Intr - 37951 37820 132 1 0 112 109 109 0.999 16.24 2.45 Intr - 38553 38452 102 0 0 60 82 101 0.992 7.07 2.44 Intr - 41631 41421 211 2 1 80 115 202 0.999 21.02 2.43 Intr - 41863 41669 195 0 0 37 15 159 0.536 2.03 2.42 Intr - 46789 46629 161 1 2 105 9 241 0.011 16.69 2.41 Intr - 51031 50844 188 2 2 38 110 231 0.822 19.71 2.40 Intr - 53042 52909 134 1 2 96 43 261 0.998 22.69 2.39 Intr - 56599 56410 190 2 1 -18 3 50 0.142 -15.46 2.38 Intr - 57324 57019 306 1 0 100 116 275 0.838 27.92 2.37 Intr - 59902 59717 186 2 0 67 111 217 0.998 21.56 2.36 Intr - 62958 62821 138 1 0 110 57 222 0.979 21.74 2.35 Intr - 66791 66695 97 2 1 60 95 78 0.608 5.28 2.34 Intr - 68970 68766 205 2 1 115 77 235 0.981 24.30 2.33 Intr - 70783 70555 229 2 1 107 89 164 0.737 15.33 2.32 Intr - 76772 76556 217 2 1 102 121 106 0.954 13.38 2.31 Intr - 77615 77368 248 0 2 145 5 176 0.778 12.18 2.30 Intr - 79147 78927 221 0 2 96 55 193 0.538 14.75 2.29 Intr - 81171 81025 147 2 0 93 80 187 0.999 17.75 2.28 Intr - 83397 83219 179 0 2 71 89 142 0.999 11.32 2.27 Intr - 83596 83495 102 1 0 110 77 145 0.999 15.97 2.26 Intr - 86347 86117 231 1 0 89 100 353 0.901 34.57 2.25 Intr - 89075 88882 194 0 2 113 110 157 0.999 19.61 2.24 Intr - 90163 89941 223 1 1 63 96 151 0.997 11.10 2.23 Intr - 92989 92858 132 1 0 92 60 75 0.976 5.94 2.22 Intr - 94028 93902 127 1 1 93 85 89 0.953 9.78 2.21 Intr - 95221 95097 125 1 2 88 87 135 0.998 12.78 2.20 Intr - 97359 97177 183 0 0 18 94 146 0.531 8.18 2.19 Intr - 100332 100201 132 0 0 72 109 125 0.989 13.84 2.18 Intr - 104172 103819 354 0 0 80 92 247 0.959 19.79 2.17 Intr - 104966 104863 104 0 2 62 100 129 0.515 11.39 2.16 Intr - 105757 105688 70 1 1 35 115 63 0.648 2.45 2.15 Intr - 107033 106951 83 0 2 81 54 31 0.583 -1.64 2.14 Intr - 107241 107065 177 1 0 86 86 141 0.994 13.59 2.13 Intr - 109044 108903 142 0 1 91 80 23 0.724 1.73 2.12 Intr - 110529 110409 121 2 1 124 99 105 0.917 15.70 2.11 Intr - 114957 114750 208 1 1 86 75 115 0.994 8.14 2.10 Intr - 118256 118139 118 2 1 91 66 155 0.994 13.64 2.09 Intr - 120026 119923 104 0 2 75 65 52 0.886 1.49 2.08 Intr - 124283 124134 150 0 0 108 53 136 0.984 12.23 2.07 Intr - 128324 127920 405 0 0 62 83 241 0.965 15.32 2.06 Intr - 131983 131763 221 0 2 46 105 168 0.255 12.25 2.05 Intr - 136893 136746 148 1 1 60 94 129 0.756 9.99 2.04 Intr - 137859 137749 111 1 0 60 113 112 0.992 11.25 2.03 Intr - 144452 144267 186 0 0 118 91 226 0.996 25.56 2.02 Intr - 145664 145503 162 0 0 91 75 187 0.999 17.65 2.01 Init - 149628 149328 301 0 1 66 73 214 0.988 13.14 2.00 Prom - 150092 150053 40 -6.16 3.00 Prom + 159234 159273 40 -0.96 3.01 Init + 168167 168230 64 1 1 67 99 2 0.563 0.51 3.02 Intr + 171915 172037 123 1 0 109 -9 89 0.648 1.86 3.03 Intr + 174733 174861 129 2 0 59 93 92 0.684 7.47 3.04 Intr + 188934 189063 130 1 1 126 32 72 0.977 5.15 3.05 Intr + 191394 191541 148 0 1 124 64 233 0.992 24.74 3.06 Intr + 193898 194045 148 1 1 67 96 75 0.917 6.01 3.07 Intr + 197166 197389 224 1 2 55 100 136 0.925 9.35 3.08 Intr + 199417 199674 258 0 0 100 90 518 0.911 50.86 3.09 Intr + 210115 210220 106 0 1 34 93 139 0.316 8.79 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 30601 30381 221 2 2 65 43 143 0.839 4.70 S.002 Term - 49721 49470 252 2 0 91 42 107 0.934 2.04 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815582r:81070743_81281213|GENSCAN_predicted_peptide_1|187_aa MALRVVRSVRALLCTLRAVPSPAAPCPPRPWQLGVGAVRTLRTGPALLSGFPESFDRIFR EVLMRKFTEKHEWVTTENGIGTVGISNFAQEALGDVVYCSLPEVGTKLNKQDEFGALESV KAASELYSPLSGEVTEINEALAENPGLVNKSCYEDGWLIKMTLSNPSELDELMSEEAYEK YIKSIEE >gi568815582r:81070743_81281213|GENSCAN_predicted_CDS_1|564_bp atggcgctgcgagtggtgcggagcgtgcgggccctgctctgcaccctgcgcgcggtcccg tcacccgccgcgccctgcccgccgaggccctggcagctgggggtgggcgccgtccgtacg ctgcgcactggacccgctctgctctcgggattccctgaatcgtttgaccgtatctttaga gaagtgctcatgcgtaaattcacagagaaacacgaatgggtaacaacagaaaatggcatt ggaacagtgggaatcagcaattttgcacaggaagcgttgggagatgttgtttattgtagt ctccctgaagttgggacaaaattgaacaaacaagatgagtttggtgctttggaaagtgtg aaagctgctagtgaactctattctcctttatcaggagaagtaactgaaattaatgaagct cttgcagaaaatccaggacttgtaaacaaatcttgttatgaagatggttggctgatcaag atgacactgagtaacccttcagaactagatgaacttatgagtgaagaagcatatgagaaa tacataaaatctattgaggagtga >gi568815582r:81070743_81281213|GENSCAN_predicted_peptide_2|2774_aa MSAVGLVLLVLALRLRATTVKPEEGSFCSNSQVAFRDACYEFVPLGRTFRDAQSWCEGQG GHLVFIQDEGTQWFLQKHISQDREWWIGLTWNLARNGTTEGPGTWLDTSNVTYSNWHGGQ AAAAPDTCGHIGRGPSSEWVTSDCAQTFAFMCEFRVGQSLACEGLNATVHCGLGQVIQVQ DAVYGRQNPHFCTQDAGRPSDLEQGCSWANVKEEVAGQCQELQSCQVAADETYFGNLCPT QGSYLWVQYQCREALQLMVSSESFIFDNVTISLTWLLSPYIGNLSCIISTGDSHTFDPYN PPSNVTHQFTSPGEFTVFAECTTSEWHVTAQRQVTVRDKMETLSVTACSGLSQSGAGPLC QAVFGDPLWIQVELDGGTGVTYTVLLGDITLAESTTQKGSLPYNLILDRETQKLMGPGRH RLEIQATGNTTTSTISRNITVHLVELLSGLQASWASDHLELGQDLLITISLAQGTPEELT FEVAGLNATFSHEQVSFGEPFGICRLAVPVEGTFLVTMLVRNAFSNLSLEIGNITITGKV FLQGSIKPFTKSPEHCTCLGSTFYKVSNQSLIPVPTVFTAPSGLQEPSGMNAEGKSKDKG DMEVYIQPGPYVDPFTTVTLGWPDNDKELRFQWSCGSCWALWSSCVERQLLRTDQRELVV PASCLPPPDSAVTLRLAVLRGQELENRAEQCLYVSAPWELRPRVSCERNCRPVNASKDIL LRVTMGEDSPVAMFSWYLDNTPTEQAEPLLDACRLRGFWPRSLTLLQSNTSTLLLNSSFL QSRGEVIRIRATALTRHAYGEDTYVISTVPPREVPACTIAPEEGTVLTSFAIFCNASTAL GPLEFCFCLESAPGLIFLQNRGLFSLGAAKNMFRVRERLMWKCITVKRAVNGAESERKKF KQVYLPLGEENNDFVLTVVISATNRAGDTQQTQAMAKVALGDTCVEDVAFQAAVSEKIPT ALQGEGGPEQLLQLAKAVSSMLNQEHESQGSGQSLSIDVRQKVPVGSWGAPFIPFLWGPR VCVRPFGLWIKVHGSGEKPVVSPKRLTPPPSLVFWVREHVLGSLSAVTTGLEDVQRVQEL AEVLREVTCRSKELTPSAQWEASLALQHASEALLTVSAKARPEDQRRQAATRDLFQAVGS VLEASLSNRPEEPAEASSSQIATVLRLLRVMEHVQTTLLLGKLPGGLPAMLATPSISVYT NRIQPWSWQGSSLRPDAADSATFMLPAASSLSSLEGGQEPVDIKIMSFPKSPFPARSHFD VSGTVGGLRVTSPSGQLIPVKNLSENIEILLPRHSQRHSQPTVLNLTSPEALWVNVTSGE ATLGIQLHWRPDIALTLSLGYGYHPNKSSYDAQTHLVPMVAPDELPTWILSPQDLRFGEG VYYLTVVPESDLEPAPGRDLTVGITTFLSHCVFWDEVQETWDDSGCQVGPRTSPYQTHCL CNHLTFFGSTFLVMSNAINIHQTAELFATFEDNPVVVTTVGCLCVVYVLVVIWARRKDAQ DQAKVKVTVLEDNDPFAQYHYLVTVYTGHRRGAATSSKVTVTLYGLDGEREPHHLADPDT PVFERGAVDAFLLSTLFPLGELRSLRLWHDNSGDRPSWYVSRVLVYDLVMDRKWYFLCNS WLSINVGDCVLDKVFPVATEQDRKQFSHLFFMKTSAGFQDGHIWYSIFSRCARSSFTRVQ RVSCCFSLLLCTMLTSIMFWGVPKDPAEQKMDLGNSQCHGGKIEFTWQEVMIGLESSILM FPINLLIVQIFQNTRPRVAKEQNTGKWDRGSPNLTPSPQPMEDGLLTPEAVTKAGPQPQL AWGDVSRIVSSLFKALKVPSPALGWDSVNLMDINSLLALVEDVIYPQNTSGQVFWEEAKK REDPVTLTLGSSEMKEKSQCPKPKAARSGPWKDSAYRQCLYLQLEHVEQELRLVGPRGFS QPHSHAQALRQLQTLKGGLGVQPGTWAPAHASALQVSKPPQGLPWWCILVGWLLVAATSG VAAFFTMLYGLHYGRASSLRWLISMAVSFVESMFVTQPLKVLGFAAFFALVLKRVDDEED TVAPLPGHLLGPDPYALFRARRNSSRDVYQPPLTAAIEKMKTTHLKEQKAFALIREILAY LGFLWMLLLVAYGQRDPSAYHLNRHLQHSFTRGFSGVLGFREFFKWANTTLVSNLYGHPP GFITDGNSKLVGSAQIRQVRVQESSCPLAQQPQAYLNGCRAPYSLDAEDMADYGEGWNAT TLSNGSTRARTNVKGIPSGANSLCTGEEATWSPWGLIAKARQETKDFVTAKVIAEHYTGL SQLPTKGRERCLHVPAIQSLGAFDAFTAAERSLLFVQRKASPHPTRILRYLFDNTWLDAL TRAVFVESTVYNANVNLFCIVTLTLETSALEAMALSNQVAQSEQNALCSPGTFFTHAALQ SLRLYPFTDGWHPFVVAAELIYFLFLLYYMVVQGKRMSKETWGYFCSKWNLLELAIILAS WSALAVFVKRAVLAERDLQRCRNHREDILLLLLPLIIIIIITTYLGELGWLSFPDLFLDL MAYEMMIELIPHPEMPINPVLHPDEFWLNCSRGISFSETAAADAALGYIIAFLVLLSTVK LWHLLRLNPKMNMITAALRRAWGDISGFMIVILTMLLAYSIASNLIFGWKLRSYKTLFDA AETMVSLQLGIFNYEEVLDYSPVLGSFLIGSCIVFMTFVVLNLFISVILVAFSEEQKYYQ VNEQPRLKTHTTLQNLNPRRHGSEGNKLGTRDRPPTHGRVSVLGCLQEEGYEHTDCRDLT IRGFSGDLPHPEAI >gi568815582r:81070743_81281213|GENSCAN_predicted_CDS_2|8325_bp atgagtgcagtgggcttggtactcctggtgcttgctctgaggcttagggccaccactgtt aagccagaggaaggcagcttttgctctaacagccaggtggccttcagagatgcttgctat gaatttgtgccactcggacgcaccttccgtgatgcccagagctggtgcgaggggcaagga ggccatttggtcttcattcaggacgaaggcacccagtggtttctgcagaagcacatctcc caggacagggaatggtggattggactcacgtggaacttggcacggaatggaaccacggag gggccggggacttggttggacacctccaatgtgacctacagcaactggcatggagggcag gccgccgctgcccctgacacctgcggccacatcgggagaggcccttcctctgagtgggtg acctcggactgcgcccagaccttcgccttcatgtgcgagttccgggttggccagagcctg gcctgcgagggactcaatgccaccgtgcactgtggcttggggcaggtcatccaggtccag gatgccgtctacgggcgccagaatccccatttctgcacccaggatgccgggcgtccttca gatctggagcagggatgcagctgggccaacgtcaaggaggaggtggcaggccagtgccag gagctacagtcatgccaggtggcagcagatgagacctactttggaaacctgtgtccgact cagggcagttacctgtgggtgcagtaccagtgccgggaagccctgcagctgatggtgtcc agtgagagtttcatctttgacaatgtcaccatctccctgacgtggctcctctcaccctac ataggaaacctgtcctgtataattagtacaggagacagccacacttttgatccctacaac ccgccgagcaatgtgacccaccagttcacatctcctggggaattcaccgtgtttgctgaa tgcacaaccagtgagtggcatgtgacagctcagaggcaggtgaccgtgcgagacaagatg gagacgctcagtgtgactgcatgctccggcctgtcccagtcaggagccggccctctctgc caggctgtctttggggatcctctgtggattcaggtggagcttgatggaggaacaggagtg acttacactgtgcttttgggtgacataaccctggccgagtccaccacccaaaagggctcg ctaccgtacaatctgatcctggacagagaaacccagaaactgatgggccctgggaggcac cgcctggagatccaagccaccggcaacaccaccacctctacaatctccagaaacattaca gtccacttggtggagctgctgtcagggctgcaggcctcctgggcttctgaccatttggag cttggacaggacctattgatcaccatctcattggctcagggcaccccggaagagctgacc tttgaggtggctggactcaatgcaaccttctcccacgagcaagtgagctttggagagcca tttgggatttgccgcctggctgttccggttgaaggcacctttctggtcaccatgctggtg aggaatgccttctccaacctgagtttggaaatcgggaacatcactatcacaggcaaggtg tttctgcaagggagcataaaaccttttaccaagagtccagagcattgcacctgcttgggc tccaccttttataaggtttccaaccaaagcttgatacccgttcccactgtgttcacagcc ccttccggtctccaagaaccatctgggatgaatgctgaaggaaagagtaaagataaaggc gatatggaggtgtacatccaacctggtccatatgtggatcctttcacgacagtgaccctg ggctggccagacaatgacaaggagttacgcttccaatggtcatgtgggtcttgctgggct ctgtggagcagctgtgttgagaggcagctgcttcgcacagaccagagggagctggtggtt ccagcatcctgcctgccgccgcctgactctgctgtcaccctgcgcctggctgttctgaga ggccaagagctggagaacagggcagagcagtgcctctacgtgtctgcgccctgggaactc aggcctcgagtcagctgtgagaggaactgcaggccagttaatgccagcaaagacattctg ctcagggtcaccatgggggaggactctccagtggctatgttcagctggtatttggacaac accccaacagagcaggctgagcccctcctggatgcctgcagactcagaggattttggcca aggtccttaaccctcctccagagcaacacctccacgttgctgttgaacagctcgtttctg cagtcccggggagaggtcatccgaatcagagccacagcactgaccaggcatgcctatggg gaggacacctatgtgatcagcactgtgcctccccgtgaggtgcctgcctgcactattgcc ccagaggagggcaccgttctgacgagctttgccatcttctgcaacgcctccacagccctg ggacccctggagttctgcttctgtctggaatcagctcctgggctcatcttcttgcagaac aggggcctgttctctctgggagctgcaaagaatatgttccgtgtgcgagagaggttgatg tggaaatgcatcaccgttaagagggctgtgaatggggctgagtctgaaaggaaaaagttc aagcaagtgtatctgccacttggagaggagaacaatgactttgtgctgacagtagttatt tctgccaccaatcgtgcaggggacacgcagcagacccaggccatggctaaggtggcactc ggagacacatgtgttgaggatgtagcattccaggctgccgtgtcagagaaaatccccaca gctctgcaaggcgagggtggccccgagcagctcctccagctggccaaggctgtgtcctcc atgctgaaccaagagcatgaaagccagggctcaggacagtcactgagcatagacgtcaga cagaaggtacccgtgggaagctggggggctcctttcattcccttcctctggggccccagg gtctgcgtgcggccatttgggctgtggatcaaggttcatggatcaggggagaaacctgtg gtgtctcccaagcggctgacaccacctccctctctggtcttttgggtcagagagcatgtg ctgggatcactgtctgcagtcaccaccggcttggaggacgtgcagagggtgcaggagctg gccgaggtgctgagagaggtgacctgccggagtaaggaactcacaccctcggcccagtgg gaggccagcttggctctacagcatgccagtgaggccctgttgacagtgagtgccaaggcc cgccctgaggaccagaggcgccaggcagccaccagggacctgtttcaggctgtgggcagt gtgctggaagcttccctgagcaacagaccagaagagcctgcggaggccagcagcagccag attgccacagtgctgcggctgcttcgagtcatggagcatgtgcagaccaccctcctgctg ggaaaactgccagggggccttccagccatgctggccaccccctccatctctgtgtacaca aacagaatacaaccctggagttggcaaggctcctccctgcgccctgatgccgcagactct gcaaccttcatgctgcccgctgcctcctccctcagctctctggagggcggccaggagccc gtggatataaagatcatgagtttcccaaagagcccctttccagcccgaagccactttgat gtcagcgggactgtcggtggcctccgtgtgaccagccctagtggtcaactcatacctgtg aagaatctgtcggagaatatcgagatcctgctgccccggcattcacaaagacacagccag ccgaccgtgttgaacctgaccagtcctgaagctttgtgggtgaacgtgacttcaggggag gcaaccttggggatccagctgcactggagaccagacattgcactcacgcttagcctgggc tatggctaccaccccaacaagagcagctacgatgcccaaactcacctcgtaccaatggtg gctccagatgagctgcccacgtggatcctgagcccacaggacctgcgttttggagaaggg gtctactatttgactgtggtccctgagtctgacctggagccagcccccggcagggacctc acggttggcatcaccaccttcctgtctcactgtgtgttctgggatgaggtccaggagact tgggacgactcaggatgccaggtggggcctcggaccagcccctaccagacacactgcctc tgcaaccacctcactttcttcggaagcacgttcctggtgatgtccaatgccatcaacatc caccagactgctgagctctttgccacctttgaggacaaccctgtggtcgtgaccaccgtg ggctgcctgtgtgtggtctacgtgctggtggtgatctgggcgaggaggaaggacgctcag gatcaggccaaggtgaaggtcacagtgctggaagacaatgatccctttgctcagtaccac tacctggtgacagtctacacaggacaccgacgaggggcagccacgtcctcaaaggtgact gtcaccctgtatggcctggatggagagagagagccccaccacctggctgatcccgacact ccggtttttgagcgaggagcagtggatgccttcctcctctccaccctgttccccctggga gaactgcggagcctccggctgtggcatgacaactcaggggaccggccatcgtggtatgtg agccgggtgctggtctatgacctggtgatggaccggaagtggtatttcctgtgcaactcc tggctatccatcaatgttggagattgcgtcctcgataaggtgtttcctgtggccacggag caggacagaaaacaattcagccacctgtttttcatgaagacttccgcgggcttccaggat ggacacatctggtattcgatcttcagccgctgcgctcgcagcagcttcacccgcgtccag agggtgtcctgctgcttctccctgctgctgtgcaccatgctgaccagcatcatgttctgg ggggtccccaaggacccagctgagcaaaagatggacttgggtaattcccagtgtcatgga ggtaaaattgaattcacctggcaggaggtgatgattggcctggagagctccatcctcatg ttccccatcaacctcctgattgttcagatctttcagaacacccgtccccgggtcgcgaag gagcagaacactggaaaatgggaccgggggtcccccaacctgactccctccccacagccc atggaggacggccttctgacacctgaggcagtgaccaaggcaggtcctcaacctcagcta gcctggggggatgtgtcaagaatcgtcagctccctcttcaaagctctcaaggtgccatcc cccgccttgggctgggactcagtgaacttgatggacatcaacagtctcctcgccttggtg gaagatgtcatttatccacagaacacatcagggcaggtgttctgggaggaagccaaaaag agagaggaccctgtaacactcactttggggtcatcagaaatgaaagagaaatcacagtgt cccaagcccaaggcggcacggagtggcccctggaaggacagcgcctacaggcagtgtctg taccttcagctggaacacgtggagcaagagctgcggctggtggggccccgaggcttctcc cagccccacagccatgcccaggccctcaggcagctgcagaccctgaagggcggcctgggg gtacagccgggcacctgggcccctgcacatgccagcgctcttcaggtgagcaaaccccct caaggcctgccctggtggtgcatcctggtgggctggctcctggtagcggccaccagtggc gtggcggccttcttcaccatgctctacggcctgcactacgggagggccagctccctcagg tggctcatctccatggctgtctccttcgtggagagcatgttcgtcacccagcccctgaag gtgctgggattcgctgctttctttgcactggtcttgaagagagtggacgatgaggaggat actgtggccccgctgccaggacatctgttgggcccagacccctatgccttgttccgagca cgaagaaacagcagcagggatgtctaccagccacctctcaccgctgccattgagaagatg aaaaccacccacctcaaggaacagaaagcatttgccctcatcagagaaatcctggcatac ttgggcttcctgtggatgctactgctcgtggcctacgggcagagggaccccagcgcctac cacctcaacagacacctccagcacagcttcaccaggggcttttcaggtgtgctcggcttc cgagagttcttcaagtgggccaacaccaccctcgtgagtaacctgtatggtcacccccca ggctttatcactgatgggaactccaagctggttggcagtgcccagattcgtcaagtgagg gtccaggaaagctcttgccctcttgcccagcagccgcaggcatatctcaacggatgccgt gcaccatattccctggatgctgaagacatggcagactatggggaaggctggaatgccacc accctcagtaatggcagtaccagagccaggaccaacgtcaagggtatcccatctggggca aactcactgtgtaccggggaggaggctacgtggtccccttggggactgatcgccaaagca cgtcaagagacaaaggattttgttacagcaaaagtcatagcagaacattacactggtctg agtcagttgcccacaaagggccgtgaaagatgcctgcatgtgcctgcaatacagagcctg ggggcatttgatgcttttacagcagcagaaagaagcctactctttgtccaaaggaaggca tcacctcatcccacaagaattctccgctatctctttgacaacacctggctggacgccctg accagagctgtgtttgtggagtccactgtctacaacgccaacgtcaacctgttctgcatt gtcacgctgacgctagagaccagcgctctggaagccatggctctgagcaaccaggtggcc cagagtgagcagaacgcactttgctccccaggcaccttttttacgcacgcggccctgcag agcctccgcctgtaccccttcaccgacggctggcaccccttcgtggtagcggcagagctc atctacttcctcttcctcctctactacatggtggtgcagggcaagcgcatgagtaaagag acgtggggctatttctgcagcaagtggaaccttctggagctggccatcatcctggccagc tggagcgccctggcggtgtttgtgaagagggctgtcctggccgaaagggacctccagcgc tgccggaaccacagggaggacatcctcctcctcctcctccccctcatcatcatcatcatc atcaccacctacctgggggaactgggatggctctctttcccagacctgtttctggacctg atggcctatgagatgatgatagaactaatcccacatcccgaaatgccgataaatccagtc ttgcatccagatgagttctggctgaactgctcaagaggcatcagcttcagtgagacagca gcagccgatgccgcccttggctacatcattgccttcctggtactcctgtccacagtgaag ctttggcatctgctcaggttgaatcccaaaatgaacatgatcacggcagccctacgccgt gcctggggcgacatttcaggctttatgattgtcatccttaccatgctcctggcttactcc atcgcgtcaaacttgatatttggttggaaactccgttcctacaaaaccctctttgatgcg gcggagacgatggtcagccttcagctgggaatcttcaactacgaggaggtcctggactat agcccagtgcttggctccttcctcattggatcctgcattgtttttatgacatttgtggtg ctgaacctgtttatctctgtcatcctggtggccttcagtgaggagcaaaaatactatcag gttaatgaacagccaaggttgaaaacacatactacactccaaaacctcaacccacgtcgt catggctcggagggcaacaagctgggcactcgtgatcgacctcccacccatggaagagtc agcgtgctgggctgcctgcaggaagagggatatgagcacacagactgcagagacttgacc atccgaggattttctggtgacctgcctcatcctgaagctatctag >gi568815582r:81070743_81281213|GENSCAN_predicted_peptide_3|444_aa MDIIFGRNRKEQLEPVRAKVTGNFPVHNPHHGWRQPSKLQVPIPFITGVPDPRAVDQYQS VACKIPAWLQGTLLRNGPGMHTVGESRYNHWFDGLALLHSFTIRDGEVYYRSKYLRSDTY NTNIEANRIVVSEFGTMAYPDPCKNIFSKAFSYLSHTIPDFTDNCLINIMKCGEDFYATS ETNYIRKINPQTLETLEKVDYRKYVAVNLATSHPHYDEAGNVLNMGTSIVEKGKTKYVIF KIPATVPEGKKQGKSPWKHTEVFCSIPSRSLLSPSYYHSFGVTENYVIFLEQPFRLDILK MATAYIRRMSWASCLAFHREEKTYIHIIDQRTRQPVQTKFYTDAMVVFHHVNAYEEDGCI VFDVIAYEDNSLYQLFYLANLNQDFKENSRLTSVPTLRRFAVPLHVDKNAEVGTNLIKVA STTATALKEEDGQVYCQPEFLYEX >gi568815582r:81070743_81281213|GENSCAN_predicted_CDS_3|1332_bp atggatataatatttggcaggaataggaaagaacagctggagcctgtgagggccaaagtg acagggaatttcccagtccacaatccacaccatgggtggagacaaccttcgaagctccaa gttcctattccatttataacaggggtccccgaccctcgagccgtggaccagtaccagtct gtagcctgcaagattccagcatggctgcagggaaccctgctccgcaatgggcctgggatg cacacagttggggagtccagatacaaccattggttcgacggccttgccctgctccacagc ttcaccatcagagacggtgaagtctattacaggagcaaatacctgagaagcgatacctac aacaccaatattgaggcaaacaggattgtggtgtctgagtttggaacaatggcctatccg gacccctgcaaaaacatattttccaaagctttctcctacttgtctcacaccatccccgat ttcaccgacaactgcctgatcaacatcatgaagtgcggagaagacttctacgcgacctca gagaccaattacatcaggaaaatcaacccacagactctggaaaccctggagaaggttgat tatcgtaaatacgtggcggtaaatctggcaacgtcacatccccattatgatgaggctgga aatgttctaaacatgggcacatccattgtggaaaaggggaagacaaagtatgtgattttt aagatccctgccacagtaccagagggcaagaagcaggggaagagcccctggaagcacaca gaggtgttctgctccatcccatcccgctccctgctctccccaagctactaccacagcttt ggagtcaccgagaactatgtcatcttccttgagcagcctttcaggttggatattctcaag atggcaaccgcatacatccggagaatgagctgggcctcctgcctggctttccacagggag gagaagacttatatccacatcatcgaccaaaggaccaggcagcctgtgcagaccaagttt tacacagacgccatggtggtcttccatcacgtcaacgcctacgaagaggacggctgcatc gtgtttgacgtcattgcctacgaggacaacagcctctaccagctcttctacctggccaac ctgaaccaggacttcaaggagaactccaggctcacctcggtccccaccctcaggaggttt gccgtgcccctccacgtggacaagaatgcagaagtgggcacaaatttaatcaaagtggca tctacaacagccacggccctgaaggaagaagatggccaagtctactgccagccggaattt ctttatgaagnn