GENSCAN 1.0 Date run: 7-Nov-116 Time: 01:15:13 Sequence gi568815595r:58092690_58310906 : 218217 bp : 46.74% 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 + 2167 2265 99 0 0 100 87 164 0.946 17.76 1.02 Intr + 3452 3529 78 1 0 103 69 112 0.995 10.55 1.03 Intr + 5126 5288 163 1 1 82 97 236 0.999 23.45 1.04 Intr + 6022 6219 198 2 0 90 113 205 0.997 22.52 1.05 Intr + 9514 9651 138 2 0 33 94 167 0.991 12.24 1.06 Intr + 11270 11396 127 0 1 55 78 154 0.996 10.84 1.07 Intr + 12391 12527 137 1 2 113 106 78 0.999 12.31 1.08 Intr + 13991 14184 194 0 2 70 28 364 0.983 27.81 1.09 Intr + 15769 15882 114 0 0 41 99 117 0.819 8.74 1.10 Intr + 16490 16633 144 1 0 78 73 236 0.999 21.58 1.11 Intr + 16887 17010 124 2 1 119 100 65 0.998 10.96 1.12 Intr + 17321 17481 161 0 2 54 98 201 0.999 17.41 1.13 Intr + 19102 19192 91 0 1 64 110 73 0.866 6.67 1.14 Intr + 19460 19629 170 0 2 93 91 234 0.997 23.87 1.15 Intr + 22913 23137 225 1 0 2 99 95 0.245 0.18 1.16 Intr + 26183 26300 118 1 1 94 98 95 0.918 11.14 1.17 Intr + 28552 28814 263 2 2 113 82 256 0.997 24.71 1.18 Intr + 30404 31001 598 1 1 81 98 759 0.999 68.31 1.19 Intr + 31643 31816 174 0 0 62 105 251 0.967 24.11 1.20 Intr + 32892 33054 163 1 1 41 96 210 0.964 16.13 1.21 Intr + 33913 34073 161 1 2 99 105 60 0.999 8.43 1.22 Intr + 38052 38219 168 1 0 65 107 173 0.990 16.82 1.23 Intr + 40119 40242 124 1 1 117 115 109 0.999 16.14 1.24 Intr + 41927 42083 157 2 1 15 45 178 0.945 6.21 1.25 Intr + 43290 43479 190 2 1 81 100 314 0.828 31.06 1.26 Intr + 45593 45840 248 0 2 103 91 399 0.986 38.88 1.27 Intr + 49961 50063 103 1 1 123 107 141 0.999 19.25 1.28 Intr + 50784 50924 141 1 0 94 107 159 0.801 18.72 1.29 Intr + 53232 53360 129 1 0 39 79 209 0.998 15.77 1.30 Intr + 54131 54304 174 0 0 120 91 235 0.999 26.91 1.31 Intr + 55517 55675 159 0 0 22 85 139 0.847 6.96 1.32 Intr + 55960 56163 204 2 0 62 62 342 0.994 28.17 1.33 Intr + 57161 57313 153 0 0 58 84 222 0.953 18.84 1.34 Intr + 57416 57538 123 0 0 84 80 88 0.517 8.16 1.35 Intr + 60686 60952 267 0 0 118 99 334 0.996 35.00 1.36 Intr + 62102 62239 138 0 0 107 84 92 0.990 11.14 1.37 Intr + 63271 63386 116 2 2 103 94 245 0.994 26.77 1.38 Intr + 66865 66997 133 0 1 70 99 129 0.993 12.42 1.39 Intr + 70465 70641 177 2 0 96 91 238 0.998 24.79 1.40 Intr + 75751 75969 219 2 0 84 97 297 0.997 28.47 1.41 Intr + 76901 77104 204 0 0 102 82 191 0.997 19.07 1.42 Intr + 77886 78021 136 1 1 49 3 259 0.435 13.13 1.43 Term + 87189 87813 625 0 1 98 49 380 0.854 28.96 1.44 PlyA + 88298 88303 6 -3.64 2.00 Prom + 88656 88695 40 -8.46 2.01 Init + 89006 89089 84 1 0 58 80 135 0.802 10.52 2.02 Intr + 89900 89939 40 1 1 51 88 2 0.512 -5.70 2.03 Intr + 91183 91297 115 2 1 111 94 87 0.813 11.11 2.04 Intr + 95159 95177 19 2 1 109 115 -4 0.048 1.01 2.05 Term + 99694 99705 12 0 0 108 48 0 0.008 -3.80 2.06 PlyA + 99869 99874 6 1.05 3.09 PlyA - 99958 99953 6 1.05 3.08 Term - 100114 99998 117 1 0 122 41 135 0.999 10.74 3.07 Intr - 100750 100654 97 0 1 110 94 113 0.999 14.11 3.06 Intr - 105289 105132 158 1 2 73 91 251 0.999 22.71 3.05 Intr - 108420 108308 113 1 2 99 78 215 0.999 21.70 3.04 Intr - 112192 112080 113 0 2 88 99 82 0.999 9.32 3.03 Intr - 112871 112782 90 1 0 75 108 17 0.739 1.51 3.02 Intr - 115617 115529 89 0 2 136 92 102 0.999 14.17 3.01 Init - 118217 118077 141 2 0 67 105 279 0.997 25.63 3.00 Prom - 150517 150478 40 -2.46 4.00 Prom + 163444 163483 40 -4.26 4.01 Init + 163898 164016 119 1 2 75 99 40 0.147 3.71 4.02 Intr + 168175 168375 201 1 0 16 41 166 0.092 3.10 4.03 Intr + 174500 174656 157 2 1 120 51 97 0.979 9.21 4.04 Intr + 176632 176745 114 0 0 87 115 104 0.964 13.64 4.05 Intr + 178243 178375 133 0 1 85 119 68 0.999 9.82 4.06 Intr + 181969 182126 158 2 2 59 97 208 0.201 18.53 4.07 Intr + 188865 188945 81 2 0 43 98 42 0.001 0.53 4.08 Intr + 192396 192450 55 2 1 77 84 109 0.989 7.95 4.09 Intr + 192664 192764 101 2 2 51 91 123 0.195 8.73 4.10 Term + 200900 201076 177 1 0 73 54 195 0.752 12.29 4.11 PlyA + 201804 201809 6 1.05 5.04 PlyA - 202178 202173 6 1.05 5.03 Term - 205485 205395 91 2 1 136 44 57 0.623 3.29 5.02 Intr - 205734 205571 164 0 2 91 91 37 0.129 3.07 5.01 Init - 212227 212225 3 1 0 103 81 0 0.096 0.80 5.00 Prom - 216187 216148 40 -4.26 6.00 Prom + 216554 216593 40 -6.76 6.01 Init + 217641 217717 77 2 2 74 95 61 0.824 5.96 6.02 Intr + 217818 217902 85 0 1 114 64 83 0.819 8.32 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 192664 192830 167 2 2 51 55 181 0.800 9.18 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595r:58092690_58310906|GENSCAN_predicted_peptide_1|2575_aa MVKQPAKFTVDTISAGQGDVMVFVEDPEGNKEEAQVTPDSDKNKTYSVEYLPKVTGLHKV TVLFAGQHISKSPFEVSVDKAQGDASKVTAKGPGLEAVGNIANKPTYFDIYTAGAGVGDI GVEVEDPQGKNTVELLVEDKGNQVYRCVYKPMQPGPHVVKIFFAGDTIPKSPFVVQVGEA CNPNACRASGRGLQPKGVRIRETTDFKVDTKAAGSGELGVTMKGPKGLEELVKQKDFLDG VYAFEYYPSTPGRYSIAITWGGHHIPKSPFEVQVGPEAGMQKVRAWGPGLHGGIVGRSAD FVVESIGSEVGSLGFAIEGPSQAKIEYNDQNDGSCDVKYWPKEPGEYAVHIMCDDEDIKD SPYMAFIHPATGGYNPDLVRAYGPGLEKSGCIVNNLAEFTVDPKDAGKAPLKIFAQDGEG QRIDIQMKNRMDGTYACSYTPVKAIKHTIAVVWGGVNIPHSPYRVNIGQGSHPQKVKVFG PGVERSGLKANEPTHFTVDCTEAGEGDVSVGIKCDARVLSEDEEDVDFDIIHNANDTFTV KYVPPAAGRYTIKVLFASQEIPASPFRVKVDPSHDASKVKAEGPGLSKAGVENGKPTHFT VYTKGAGKAPLNVQFNSPLPGDAVKDLDIIDNYDYSHTVKYTPTQQSHPKVTFIQFSDSS RFENCCHAEYSLRALCPDAPRMHSRSRVGLGGGRCHQVATSKLLEATHNPTTKRREDQSP QGNMQVLVTYGGDPIPKSPFTVGVAAPLDLSKIKLNGLENRVEVGKDQEFTVDTRGAGGQ GKLDVTILSPSRKVVPCLVTPVTGRENSTAKFIPREEGLYAVDVTYDGHPVPGSPYTVEA SLPPDPSKVKAHGPGLEGGLVGKPAEFTIDTKGAGTGGLGLTVEGPCEAKIECSDNGDGT CSVSYLPTKPGEYFVNILFEEVHIPGSPFKADIEMPFDPSKVVASGPGLEHGKVGEAGLL SVDCSEAGPGALGLEAVSDSGTKAEVSIQNNKDGTYAVTYVPLTAGMYTLTMKYGGELVP HFPARVKVEPAVDTSRIKVFGPGIEGKDVFREATTDFTVDSRPLTQVGGDHIKAHIANPS GASTECFVTDNADGTYQVEYTPFEKGLHVVEVTYDDVPIPNSPFKVAVTEGCQPSRVQAQ GPGLKEAFTNKPNVFTVVTRGAGIGGLGITVEGPSESKINCRDNKDGSCSAEYIPFAPGD YDVNITYGGAHIPGSPFRVPVKDVVDPSKVKIAGPGLGSGVRARVLQSFTVDSSKAGLAP LEVRVLGPRGLVEPVNVVDNGDGTHTVTYTPSQEGPYMVSVKYADEEIPRSPFKVKVLPT YDASKVTASGPGLSSYGVPASLPVDFAIDARDAGEGLLAVQITDQEGKPKRAIVHDNKDG TYAVTYIPDKTGRYMIGVTYGGDDIPLSPYRIRATQTGDASKCLATGPGIASTVKTGEEV GFVVDAKTAGKGKVTCTVLTPDGTEAEADVIENEDGTYDIFYTAAKPGTYVIYVRFGGVD IPNSPFTVMVTEEAYVPVSDMNGLGFKPFDLVIPFAVRKGEITGEVHMPSGKTATPEIVD NKDGTVTVRYAPTEVGLHEMHIKYMGSHIPESPLQFYVNYPNSGSVSAYGPGLVYGVANK TATFTIVTEDAGEGGLDLAIEGPSKAEISCIDNKDGTCTVTYLPTLPGDYSILVKYNDKH IPGSPFTAKITDDSRRCSQVKLGSAADFLLDISETDLSSLTASIKAPSGRDEPCLLKRLP NNHIGISFIPREVGEHLVSIKKNGNHVANSPVSIMVVQSEIGDARRAKVYGRGLSEGRTF EMSDFIVDTRDAGYGGISLAVEGPSKVDIQTEDLEDGTCKVSYFPTVPGVYIVSTKFADE HVPGSPFTVKISGEGRVKESITRTSRAPSVATVGSICDLNLKIPEINSSDMSAHVTSPSG RVTEAEIVPMGKNSHCVRFVPQEMGVHTVSVKYRGQHVTGSPFQFTVGPLGEGGAHKVRA GGPGLERGEAGVPAEFSIWTREAGAGGLSIAVEGPSKAEITFDDHKNGSCGVSYIAQEPG NYEVSIKFNDEHIPESPYLVPVIAPSDDARRLTVMSLQESGLKVNQPASFAIRLNGAKGK IDAKVHSPSGAVEECHVSELEPDKYAVRFIPHENGVHTIDVKFNGSHVVGSPFKVRVGEP GQAGNPALVSAYGTGLEGGTTGIQSEFFINTTRAGPGTLSVTIEGPSKVKMDCQETPEGY KVMYTPMAPGNYLISVKYGGPNHIVGSPFKAKVTGQRLVSPGSANETSSILVESVTRSST ETCYSAIPKASSDASKVTSKGAGLSKAFVGQKSSFLVDCSKAGSNMLLIGVHGPTTPCEE VSMKHVGNQQYNVTYVVKERGDYVLAVKALATQPSSAACILGDEALGAQTQAAELWEEPF FPPPPLPAPGELWTSQNQACWKECIQKEATTQVAWKINDGHKYLREGTVPRKQLQQAPSR SALVAGPVPATSSRDSKEVQVGWPETKGAQNQLSKGVGVQDSPPKGDRVWKARKATQGPA GQTRPESLEMRQVSPRILQLLFPGISHDGQGHALDLQARHRLKPEEKFQYPVMSS >gi568815595r:58092690_58310906|GENSCAN_predicted_CDS_1|7728_bp atggtgaagcagccagccaagttcactgtggacaccatcagcgccgggcaaggagacgtg atggtgtttgttgaggacccagaagggaacaaagaggaggcacaagtgacccctgacagt gacaagaacaagacatactctgtggagtatctgcccaaggtcaccgggctacacaaagtc acagtcctctttgcaggacagcacatctccaagagcccatttgaagtgagtgttgacaag gcccagggagatgccagtaaagtcactgcaaaaggtccagggttggaagctgtagggaac atcgccaataagcccacctactttgacatctatacggcaggagctggtgtgggtgacatt ggtgtggaggtggaagatccccaggggaagaacaccgtggagttgctcgtggaagacaaa ggaaaccaggtgtatcgatgtgtgtacaaacccatgcagcctggccctcacgtggtcaag atcttctttgctggggacactattcctaagagtcccttcgttgtgcaggttggggaagcc tgcaatccaaatgcctgccgggccagtggccgaggcctacaacccaaaggcgtccgtatc cgggagaccacagatttcaaggttgacaccaaagctgcaggaagtggggagctcggtgta accatgaagggtcctaagggtctggaggagctggtgaagcagaaagactttctggatggg gtctacgcattcgagtattaccccagcaccccggggagatacagcattgccatcacatgg gggggacaccacattccaaagagcccctttgaagttcaagttggccctgaagcgggtatg cagaaagtccgtgcttggggccctgggctccatggtgggattgtcgggcggtcagcggac ttcgtggtagaatccattggctctgaagtggggtctctggggtttgccattgaaggcccc tctcaggcaaagattgagtacaacgaccagaatgatggatcgtgtgatgtcaaatactgg cccaaggagcctggcgaatatgctgttcacatcatgtgtgacgacgaagacatcaaggac agcccgtacatggccttcatccacccagccacgggaggctacaaccctgatctggttcga gcatacgggccaggtttggagaaatctggatgcattgtcaacaacctggccgagttcact gtggatcctaaggatgctggaaaagctcccttaaagatatttgctcaggatggggaaggc caacgcattgacatccagatgaagaaccggatggacggcacatatgcatgctcatacacc ccggtgaaggccatcaagcacaccattgctgtggtctggggaggcgtgaacatcccgcac agcccctacagggtcaacatcgggcaaggtagccatcctcagaaggtcaaagtgtttggg ccaggtgtggagagaagtggtctgaaggcaaatgaacctacacacttcacggtggactgt actgaggctggggaaggtgatgtcagtgttggcattaagtgtgatgcccgggtgttaagt gaagatgaggaagacgtggattttgacattattcacaatgccaatgatacgttcacagtc aaatatgtgcctcctgctgctgggcgatacactatcaaagttctctttgcatctcaggaa atccccgccagccctttcagagtcaaagttgacccttcccacgatgccagcaaagtgaag gcagaaggcccagggctcagcaaagcaggtgtggaaaatgggaaaccgacccacttcact gtctacaccaagggggctgggaaagccccgctcaacgtgcagttcaacagccctcttcct ggcgatgcagtgaaggatttggatatcatcgataattatgactactctcacacggttaaa tatacacccacccaacagagtcaccccaaggtcacattcatccagttctctgatagcagc aggtttgagaactgctgccatgctgagtactcacttagggctttgtgtccggatgctccc aggatgcattcaaggagccgggtgggccttggtggcggtcgttgccaccaagtggcaaca tccaagctgcttgaagccacccacaaccccacaaccaagagaagagaagaccaaagtcct cagggcaacatgcaggttctggtgacttacggtggcgatcccatccctaaaagccctttc actgtgggtgttgctgcaccgctggatctgagcaagataaaactcaatgggctggaaaac agggtggaagttgggaaggatcaggagttcaccgttgataccaggggggcaggaggccag gggaagctggacgtgacaatcctcagcccctctcggaaggtcgtgccatgcctagtgaca cctgtgacaggccgggagaacagcacggccaagttcatccctcgggaggaggggctgtat gctgtagacgtgacctacgatggacaccctgtgcccgggagcccctacacagtggaggcc tcgctgccaccagatcccagcaaggtgaaggcccacggtcccggcctcgaaggtggtctc gtgggcaagcctgccgagttcaccatcgataccaaaggagctggtactggaggtctgggc ttaacggtggaaggtccgtgcgaggccaaaatcgagtgctccgacaatggtgatgggacc tgctccgtctcttaccttcccacaaaacccggggagtacttcgtcaacatcctctttgaa gaagtccacatacctgggtctcccttcaaagctgacattgaaatgccctttgacccctct aaagtcgtggcatcggggccaggtctcgagcacgggaaggtgggtgaagctggcctcctt agcgtcgactgctcggaagcgggaccgggggccctgggcctggaagctgtctcggactcg ggaacaaaagccgaagtcagtattcagaacaacaaagatggcacctacgcggtgacctac gtgcccctgacggccggcatgtacacgttgaccatgaagtatggtggcgaactcgtgcca cacttccccgcccgggtcaaggtggagcccgccgtggacaccagcaggatcaaagtcttt ggaccaggaatagaagggaaagatgtgttccgggaagctaccaccgactttacagttgac tctcggccgctgacccaggttgggggtgaccacatcaaggcccacattgccaacccctca ggggcctccaccgagtgctttgtcacagacaatgcggatgggacctaccaggtggaatac acaccctttgagaaaggtctccatgtagtggaggtgacatatgatgacgtgcctatccca aacagtcccttcaaggtggctgtcactgaaggctgccagccatctagggtgcaagcccaa ggacctggattgaaagaggcctttaccaacaagcccaatgtcttcaccgtggttaccaga ggcgcaggaattggtgggcttggcataactgttgagggaccatcagagtcgaagataaat tgcagagacaacaaggatggcagctgcagtgctgagtacattcctttcgcaccgggggat tacgatgttaatatcacatatggaggagcccacatccccggcagccccttcagggttcct gtgaaggatgttgtggaccccagcaaggtcaagattgccggccccgggctgggctcaggc gtccgagcccgtgtcctgcagtccttcacggtggacagcagcaaggctggcctggctccg ctggaagtgagggttctgggcccacgaggcttggtggagccagtgaacgtggtggacaat ggagatggcacacacacagtaacctacaccccatctcaggagggaccttacatggtctca gttaaatatgctgatgaagagattcctcgcagtcccttcaaggtcaaggtccttcccaca tatgatgccagcaaagtgactgccagtggccccggccttagttcctatggtgtgcctgcc agtctacctgtggactttgcaattgatgcccgagatgccggggaaggcctgcttgctgtt caaataacggaccaagaaggaaaacccaaaagagccattgtccatgacaataaagatggc acgtatgctgtcacctacatccccgacaagactgggcgctatatgattggagtcacctac gggggtgacgacatcccactttctccttatcgcatccgagccacacagacgggtgatgcc agcaagtgcctggccacgggtcctggaatcgcctccactgtgaaaactggcgaagaagta ggctttgtggttgatgccaagactgccgggaagggtaaagtgacctgcacggttctgacc ccagatggcactgaggccgaggccgatgtcattgagaatgaagatggaacctatgacatc ttctacacagctgccaagccgggcacatatgtgatctatgtgcgcttcggtggtgttgat attcctaacagccccttcactgtcatggtgaccgaagaggcctatgtcccagtgagtgac atgaacggcctgggatttaagccttttgacctggtcattccgtttgctgtcaggaaagga gaaatcactggagaggtccacatgccttctgggaagacagccacacctgagattgtggac aacaaggacggcacggtcactgttagatatgcccccactgaggtcgggctccatgagatg cacatcaaatacatgggcagccacatccctgagagcccactccagttctacgtgaactac cccaacagtggaagtgtttctgcatacggtccaggcctcgtgtatggagtggccaacaaa actgccaccttcaccatcgtcacagaggatgcaggagaaggtggtctggacttggctatt gagggcccctcaaaagcagaaatcagctgcattgacaataaagatgggacatgcacagtg acctacctgccgactctgccaggcgactacagcattctggtcaagtacaatgacaagcac atccctggcagccccttcacagccaagatcacagatgacagcaggcggtgctcccaggtg aagttgggctcagccgctgacttcctgctcgacatcagtgagactgacctcagcagcctg acggccagcattaaggccccatctggccgagacgagccctgtctcctgaagaggctgccc aacaaccacattggcatctccttcatcccccgggaagtgggcgaacatctggtcagcatc aagaaaaatggcaaccatgtggccaacagccccgtgtctatcatggtggtccagtcggag attggtgacgcccgccgagccaaagtctatggccgcggcctgtcagaaggccggactttc gagatgtctgacttcatcgtggacacaagggatgcaggttatggtggcatatccttggcg gtggaaggccccagcaaagtggacatccagacggaggacctggaagatggcacctgcaaa gtctcctacttccctaccgtgcctggggtttatatcgtctccaccaaattcgctgacgag cacgtgcctgggagcccatttaccgtgaagatcagtggggagggaagagtcaaagagagc atcacccgcaccagtcgggccccgtccgtggccactgtcgggagcatttgtgacctgaac ctgaaaatcccagaaatcaacagcagtgatatgtcggcccacgtcaccagcccctctggc cgtgtgactgaggcagagattgtgcccatggggaagaactcacactgcgtccggtttgtg ccccaggagatgggcgtgcacacggtcagcgtcaagtaccgtgggcagcacgtcaccggc agccccttccagttcaccgtggggccacttggtgaaggaggcgcccacaaggtgcgggca ggaggccctggcctggagagaggagaagcgggagtcccagctgagttcagcatttggacc cgggaagcaggcgctggaggcctctccatcgctgttgagggccccagtaaggccgagatt acattcgatgaccataaaaatgggtcgtgcggtgtatcttatattgcccaagagcctggt aactacgaggtgtccatcaagttcaatgatgagcacatcccggaaagcccctacctggtg ccggtcatcgcaccctccgacgacgcccgccgcctcactgttatgagccttcaggaatcg ggattaaaagttaaccagccagcatcctttgctataaggttgaatggcgcaaaaggcaag attgatgcaaaggtgcacagcccctctggagccgtggaggagtgccacgtgtctgagctg gagccagataagtatgctgttcgcttcatccctcatgagaatggtgtccacaccatcgat gtcaagttcaatgggagccacgtggttggaagccccttcaaagtgcgcgttggggagcct ggacaagcggggaaccctgccctggtgtccgcctatggcacgggactcgaagggggcacc acaggtatccagtcggaattctttattaacaccacccgagcaggtccagggacattatcc gtcaccatcgaaggcccatccaaggttaaaatggattgccaggaaacacctgaagggtac aaagtcatgtacacccccatggctcctggtaactacctgatcagcgtcaaatacggtggg cccaaccacatcgtgggcagtcccttcaaggccaaggtgacaggccagcgtctagttagc cctggctcagccaacgagacctcatccatcctggtggagtcagtgaccaggtcgtctaca gagacctgctatagcgccattcccaaggcatcctcggacgccagcaaggtgacctctaag ggggcagggctctcaaaggcctttgtgggccagaagagttccttcctggtggactgcagc aaagctggctccaacatgctgctgatcggggtccatgggcccaccaccccctgcgaggag gtctccatgaagcatgtaggcaaccagcaatacaacgtcacatacgtcgtcaaggagagg ggcgattatgtgctggctgtgaaggccttggcaacccagccctcatcggctgcatgtatc cttggagatgaggctctgggagcccaaacacaggccgcagagctgtgggaagagccattc ttccctcctccacctctccctgcccctggggagctgtggacctcccagaaccaggcctgc tggaaggaatgcatccaaaaggaggccaccacccaagttgcctggaagatcaacgatggc cacaagtacctaagggaggggaccgtgcccaggaagcagctccagcaggccccatccagg tcagccttggtagcgggcccagtgcctgccaccagctcccgtgatagcaaggaggtacag gttggatggccagagaccaagggggcccagaaccagctgtccaagggagtgggtgtccag gactccccacccaagggagacagagtctggaaggccagaaaagcaactcaggggccagca ggtcagaccaggccggagagtttagaaatgaggcaggtctccccaagaatcctgcagctg ctcttcccaggcatctcccacgatggccaaggccacgccctggacctccaggcacggcat cggctgaagcccgaggagaagttccagtacccagtcatgtcatcctag >gi568815595r:58092690_58310906|GENSCAN_predicted_peptide_2|89_aa MVPMLLVHGPYLEVKAKGEDKLEEGDGQIPKQQFVVYLKFKGDAMKHIKVPTYAKVQSIT KVFYTQSGICHFPRQTDQLTFTSGLKPLA >gi568815595r:58092690_58310906|GENSCAN_predicted_CDS_2|270_bp atggtgccgatgctgctggtccatggaccatacctcgaggtcaaggctaaaggagaagat aagttagaagaaggagatggccagatacctaaacaacaatttgttgtttatctgaaattc aaaggggacgctatgaagcacatcaaggttccaacttatgccaaggtccagtccatcaca aaggtgttttacacccaaagtggcatctgccatttcccacggcaaacagaccagctcacg ttcacctctggactaaagcctctcgcatga >gi568815595r:58092690_58310906|GENSCAN_predicted_peptide_3|305_aa MSRELAPLLLLLLSIHSALAMRICSFNVRSFGESKQEDKNAMDVIVKVIKRCDIILVMEI KDSNNRICPILMEKLNRNSRRGITYNYVISSRLGRNTYKEQYAFLYKEKLVSVKRSYHYH DYQDGDADVFSREPFVVWFQSPHTAVKDFVIIPLHTTPETSVKEIDELVEVYTDVKHRWK AENFIFMGDFNAGCSYVPKKAWKNIRLRTDPRFVWLIGDQEDTTVKKSTNCAYDRIVLRG QEIVSSVVPKSNSVFDFQKAYKLTEEEALDVSDHFPVEFKLQSSRAFTNSKKSVTLRKKT KSKRS >gi568815595r:58092690_58310906|GENSCAN_predicted_CDS_3|918_bp atgtcacgggagctggccccactgctgcttctcctcctctccatccacagcgccctggcc atgaggatctgctccttcaacgtcaggtcctttggggaaagcaagcaggaagacaagaat gccatggatgtcattgtgaaggtcatcaaacgctgtgacatcatactcgtgatggaaatc aaggacagcaacaacaggatctgccccatactgatggagaagctgaacagaaattcaagg agaggcataacgtacaactatgtgattagctctcggcttggaagaaacacatataaagaa caatatgcctttctctacaaggaaaagctggtgtctgtgaagaggagttatcactaccat gactatcaggatggagacgcagatgtgttttccagggagccctttgtggtctggttccaa tctccccacactgctgtcaaagacttcgtgattatccccctgcacaccaccccagagaca tccgttaaggagatcgatgagttggttgaggtctacacggacgtgaaacaccgctggaag gcggagaatttcattttcatgggtgacttcaatgccggctgcagctacgtccccaagaag gcctggaagaacatccgcttgaggactgaccccaggtttgtttggctgatcggggaccaa gaggacaccacggtgaagaagagcaccaactgtgcatatgacaggattgtgcttagagga caagaaatcgtcagttctgttgttcccaagtcaaacagtgtttttgacttccagaaagct tacaagctgactgaagaggaggccctggatgtcagcgaccactttccagttgaatttaaa ctacagtcttcaagggccttcaccaacagcaaaaaatctgtcactctaaggaagaaaaca aagagcaaacgctcctag >gi568815595r:58092690_58310906|GENSCAN_predicted_peptide_4|431_aa MDLDVVNMFVIAGGTLAIPILAFVASFLLWPSALIRIYYWEQEQVSPVGHSKSSEQLSLG LSVPGAWPAHFHNTVDYGCSCRRYQMLQHESTESHTGDAVATADDIRYWRRTLGMQVRYV HHEDYQFCYSFRGRPGHKPSILMLHGFSAHKDMWLSVVKFLPKNLHLVCVDMPGHEGTTR SSLDDLSIDGQVKRIHQFVECLKLNKKPFHLVGTSMGGQVAGVYAAYYPSDVSSLCLVCP AGLQYSTDNQFVQRLKELQGSAAVEKIPLIPSTPEEMSEMLQLCSYVRFKVPQQVRRCLP CFSSPSVGCTHCPTSPSEMNQILQGLVDVRIPHNNFYRKLFLEIVSEKSRYSLHQNMDKI KVPTQIIWGKQDQVLDVSGADMLAKSIANCQVELLENCGHSVVMERPRKTAKLIIDFLAS VHNTDNNKKLD >gi568815595r:58092690_58310906|GENSCAN_predicted_CDS_4|1296_bp atggatcttgatgtggttaacatgtttgtgattgcgggcggcacgctggccatcccaatc ctggcatttgtggcttcatttcttctgtggccttcagcactgataagaatctattattgg gaacaagaacaggtgtccccagtaggccacagcaagtcttcagagcagctctctctgggt ctaagtgtccctggagcatggccagcacacttccacaacaccgtggactatggctgctcc tgcaggaggtaccaaatgcttcaacatgagtcaacagagagccacaccggggatgctgtg gccactgcggatgacatcaggtactggcggaggacattgggcatgcaagtccgctatgtt caccatgaagactatcagttctgttattccttccggggcaggcctgggcacaaaccctcc atcctcatgctccacggattctctgcccacaaggatatgtggctcagtgtggtcaagttc cttccaaagaacctgcacttggtctgcgtggacatgccaggacatgagggcaccacccgc tcctccctggatgacctgtccatagatgggcaagttaagaggatacaccagtttgtagaa tgcctgaagctgaacaaaaaacctttccacctggtaggcacctccatgggtggccaggtg gctggggtgtatgctgcttactacccatcggatgtctccagcctgtgtctcgtgtgtcct gctggcctgcagtactcaactgacaatcaatttgtacaacggctcaaagaactgcagggc tctgccgccgtggagaagattcccttgatcccgtctaccccagaagagatgagtgaaatg cttcagctctgctcctatgtccgcttcaaggtgccccagcaggtgaggcgatgcctgccc tgcttcagctcgccctctgtgggctgcacccactgtccaaccagtcccagtgagatgaac cagatcctgcaaggccttgtcgatgtccgcatccctcataacaacttctaccgaaagttg tttttggaaatcgtcagtgagaagtccagatactctctccatcagaacatggacaagatc aaggttccgacgcagatcatctgggggaaacaagaccaggtgctggatgtgtctggggca gacatgttggccaagtcaattgccaactgccaggtggagcttctggaaaactgtgggcac tcagtagtgatggaaagacccaggaagacagccaagctcataatcgactttttagcttct gtgcacaacacagacaacaacaagaagctggactga >gi568815595r:58092690_58310906|GENSCAN_predicted_peptide_5|85_aa MTRLMMVTRLSSHCQHRQPQVHTLVGTSPREQILGPRALRQLGTPEEPAPGLSPGRKWRN CKNSTQFGVGEGEKADEKVQSVVEG >gi568815595r:58092690_58310906|GENSCAN_predicted_CDS_5|258_bp atgactaggctgatgatggtcacaagactctcctcccactgccagcacaggcaaccccaa gtccacaccctggttggtaccagccccagggagcaaatactgggccccagagccctgcgg cagctggggacaccagaagagccagccccaggactgtcacctggcaggaaatggagaaat tgcaagaacagcacccagtttggggttggggagggagaaaaggctgatgagaaggtccag tctgtggttgaagggtga >gi568815595r:58092690_58310906|GENSCAN_predicted_peptide_6|54_aa MPAPAATYERVVYKNPSEYHYMKVCLEFQDCGVGLNAAQFKQLLISAVKDLFGE >gi568815595r:58092690_58310906|GENSCAN_predicted_CDS_6|162_bp atgcctgcccctgctgccacatatgaaagagtagtttacaaaaacccttccgagtaccac tacatgaaagtctgcctagaatttcaagattgtggagttggactgaatgctgcacagttc aaacagctgcttatttcggctgtgaaggacctgtttggggag