Result of GENSCAN for
pF1KA1534
GENSCAN 1.0 Date run: 4-Nov-116 Time: 01:36:59 Sequence gi568815587r:2988208_3229148 : 240941 bp : 53.68% C+G : Isochore 3 (51 - 57 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 Sngl + 3941 4150 210 1 0 90 36 208 0.986 9.28 1.02 PlyA + 5944 5949 6 1.05 2.35 PlyA - 7586 7581 6 1.05 2.34 Term - 9030 8847 184 2 1 75 55 97 0.443 2.44 2.33 Intr - 13041 12911 131 0 2 56 53 219 0.434 15.20 2.32 Intr - 13846 13763 84 1 0 85 75 120 0.981 10.91 2.31 Intr - 14393 14334 60 2 0 81 19 98 0.681 1.62 2.30 Intr - 16531 16314 218 2 2 89 94 65 0.562 5.95 2.29 Intr - 18752 18672 81 0 0 71 98 151 0.699 14.51 2.28 Intr - 24069 23988 82 0 1 106 100 100 0.968 12.71 2.27 Intr - 26330 26198 133 1 1 50 89 153 0.973 12.75 2.26 Intr - 27468 27393 76 1 1 74 58 56 0.654 0.27 2.25 Intr - 27873 27666 208 0 1 78 31 69 0.653 -0.63 2.24 Intr - 29088 28899 190 2 1 93 121 336 0.999 37.51 2.23 Intr - 29747 29650 98 2 2 97 72 80 0.999 6.61 2.22 Intr - 30304 30201 104 2 2 95 82 137 0.998 14.19 2.21 Intr - 30542 30413 130 2 1 118 74 84 0.999 10.77 2.20 Intr - 31060 30932 129 1 0 87 92 86 0.997 10.30 2.19 Intr - 32125 32013 113 2 2 132 105 101 0.986 16.80 2.18 Intr - 38590 38469 122 0 2 111 100 160 0.995 20.14 2.17 Intr - 40877 40789 89 2 2 48 102 80 0.961 4.67 2.16 Intr - 41236 41096 141 1 0 118 101 138 0.999 19.16 2.15 Intr - 49992 49843 150 0 0 58 78 107 0.834 7.57 2.14 Intr - 51085 50987 99 1 0 98 86 166 0.975 18.21 2.13 Intr - 51724 51628 97 0 1 49 98 93 0.999 6.91 2.12 Intr - 52824 52689 136 1 1 51 96 53 0.447 2.53 2.11 Intr - 54049 53958 92 0 2 129 116 4 0.436 7.44 2.10 Intr - 54630 54567 64 1 1 95 94 6 0.309 0.17 2.09 Intr - 59794 59546 249 2 0 140 89 168 0.932 20.04 2.08 Intr - 61251 61203 49 0 1 65 76 39 0.528 -0.86 2.07 Intr - 62790 62722 69 0 0 86 71 70 0.432 4.97 2.06 Intr - 63882 63676 207 0 0 27 15 163 0.007 2.70 2.05 Intr - 72509 72327 183 2 0 2 48 122 0.001 0.10 2.04 Intr - 74590 74558 33 1 0 82 101 19 0.364 1.50 2.03 Intr - 75170 75140 31 1 1 71 90 42 0.381 1.32 2.02 Intr - 75793 75636 158 1 2 69 17 101 0.146 0.42 2.01 Init - 79949 79884 66 2 0 106 92 24 0.318 5.62 2.00 Prom - 80075 80036 40 -5.01 3.00 Prom + 81440 81479 40 -0.51 3.01 Init + 81736 81783 48 0 0 100 3 47 0.098 -1.70 3.02 Intr + 86532 86804 273 2 0 81 36 148 0.154 7.17 3.03 Intr + 96259 96289 31 0 1 87 91 37 0.047 2.09 3.04 Term + 97217 97281 65 0 2 60 47 51 0.050 -3.46 3.05 PlyA + 97813 97818 6 1.05 4.46 PlyA - 98935 98930 6 1.05 4.45 Term - 100136 99998 139 1 1 111 49 107 0.969 6.84 4.44 Intr - 101741 101639 103 0 1 78 80 147 0.933 12.63 4.43 Intr - 102489 102351 139 0 1 68 93 193 0.899 18.34 4.42 Intr - 104351 104225 127 1 1 77 60 191 0.960 16.39 4.41 Intr - 104845 104660 186 0 0 57 64 316 0.992 25.42 4.40 Intr - 105456 105320 137 0 2 72 78 125 0.945 9.77 4.39 Intr - 105628 105539 90 1 0 81 82 77 0.993 7.09 4.38 Intr - 106127 106030 98 0 2 68 69 141 0.557 10.43 4.37 Intr - 112049 111951 99 0 0 121 100 214 0.862 26.48 4.36 Intr - 113492 113396 97 2 1 72 77 147 0.999 12.08 4.35 Intr - 114074 113790 285 2 0 108 56 165 0.738 13.38 4.34 Intr - 115113 115032 82 2 1 74 105 181 0.982 18.54 4.33 Intr - 116197 115986 212 1 2 86 85 276 0.767 25.34 4.32 Intr - 119248 119056 193 0 1 71 78 302 0.959 27.52 4.31 Intr - 119738 119564 175 0 1 100 86 79 0.973 8.41 4.30 Intr - 131424 131340 85 0 1 122 101 96 0.861 14.19 4.29 Intr - 132417 132214 204 0 0 44 48 394 0.496 30.92 4.28 Intr - 134221 133790 432 1 0 110 100 301 0.433 27.92 4.27 Intr - 138348 138266 83 1 2 111 111 104 0.828 14.85 4.26 Intr - 140962 140806 157 1 1 131 111 156 0.996 22.30 4.25 Intr - 141782 141737 46 1 1 120 46 11 0.190 -1.00 4.24 Intr - 151191 150936 256 1 1 100 54 106 0.340 5.44 4.23 Intr - 154633 154395 239 0 2 46 14 164 0.369 2.59 4.22 Intr - 155517 155340 178 1 1 60 56 129 0.379 6.39 4.21 Intr - 156736 156676 61 1 1 52 56 96 0.353 1.60 4.20 Intr - 157396 157304 93 1 0 60 89 22 0.227 0.16 4.19 Intr - 160141 159724 418 0 1 137 85 64 0.312 5.60 4.18 Intr - 165901 165589 313 2 1 78 56 114 0.578 2.99 4.17 Intr - 170457 170380 78 1 0 83 75 27 0.154 0.92 4.16 Intr - 172822 172711 112 1 1 67 111 57 0.905 6.36 4.15 Intr - 173746 173660 87 1 0 145 48 26 0.889 4.96 4.14 Intr - 177082 177016 67 0 1 57 70 51 0.043 -0.40 4.13 Intr - 178181 178005 177 1 0 127 56 13 0.062 1.55 4.12 Intr - 180094 179981 114 0 0 79 44 66 0.081 1.37 4.11 Intr - 182500 182436 65 1 2 104 110 20 0.226 3.81 4.10 Intr - 183215 183064 152 0 2 70 53 105 0.145 5.59 4.09 Intr - 184483 184397 87 2 0 111 95 -6 0.157 2.84 4.08 Intr - 185762 185655 108 0 0 -33 -30 237 0.083 0.56 4.07 Intr - 186189 185773 417 1 0 19 19 662 0.217 46.97 4.06 Intr - 186668 186294 375 0 0 17 77 461 0.417 33.45 4.05 Intr - 187156 187102 55 1 1 126 72 13 0.893 2.54 4.04 Intr - 194493 194273 221 1 2 58 36 95 0.058 -0.15 4.03 Intr - 196869 196775 95 2 2 89 113 73 0.479 10.01 4.02 Intr - 198628 198559 70 2 1 60 41 89 0.169 0.13 4.01 Init - 200001 199932 70 0 1 56 49 54 0.483 -0.54 4.00 Prom - 202383 202344 40 -1.61 5.00 Prom + 202887 202926 40 -5.21 5.01 Init + 207234 207373 140 2 2 88 61 35 0.204 0.66 5.02 Intr + 208018 208206 189 1 0 125 94 -13 0.756 2.22 5.03 Intr + 209918 210043 126 2 0 110 83 44 0.858 6.40 5.04 Intr + 211010 211096 87 2 0 50 23 110 0.354 0.28 5.05 Intr + 211502 211675 174 2 0 85 75 88 0.961 6.77 5.06 Term + 213159 213285 127 0 1 84 46 85 0.182 1.96 5.07 PlyA + 214581 214586 6 -0.45 6.08 PlyA - 217615 217610 6 1.05 6.07 Term - 218986 218314 673 0 1 15 55 1699 0.999 152.96 6.06 Intr - 220820 220774 47 2 2 111 66 23 0.853 0.10 6.05 Intr - 226933 226852 82 0 1 97 103 62 0.898 8.74 6.04 Intr - 230638 229816 823 2 1 112 63 1448 0.161 135.84 6.03 Intr - 232165 231993 173 0 2 31 50 51 0.381 -4.30 6.02 Intr - 233428 233292 137 1 2 72 51 119 0.693 6.47 6.01 Init - 233994 233923 72 0 0 47 77 100 0.873 5.85 6.00 Prom - 234680 234641 40 -6.70 7.05 PlyA - 235653 235648 6 -1.95 7.04 Term - 235966 235845 122 2 2 103 55 85 0.569 5.64 7.03 Intr - 237297 237128 170 2 2 128 49 66 0.729 6.81 7.02 Intr - 238136 237934 203 2 2 78 42 106 0.038 3.61 7.01 Init - 240589 239672 918 1 0 91 3 1355 0.006 121.46 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 227320 227232 89 1 2 61 89 47 0.810 2.17 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587r:2988208_3229148|GENSCAN_predicted_peptide_1|69_aa MAAAAPAPDPRPHPPVRARPPSPARRYRPSTRVSAPHASCGSGGDPSFARFGAAPPWPPT TPAPIGRGS >gi568815587r:2988208_3229148|GENSCAN_predicted_CDS_1|210_bp atggccgccgccgcgcccgcgccggacccgcggccccacccgcccgtccgggcccggccg ccctccccagcgcgccgttaccggcccagcacccgtgtctccgcacctcacgcctcctgc ggcagtggcggcgaccctagcttcgctcgctttggggctgcgccgccgtggcctccaaca acgccggctcccattggccgaggctcctag >gi568815587r:2988208_3229148|GENSCAN_predicted_peptide_2|1351_aa MATRVTQISVLLRTSDENAAWWPRDLVPFVPAAPVAAERGTSYMVAARENKEDAKVETPD KTIRSHETYSLPREQSHIQATQMQEMFSNGLTSFSNSPQSSGPSDTLLPMDTEGDCPSSG MERAAFLENLALALRRLKGEPCTVATGGRGKSSCPGKQMLTAENVSNEEKEGIKITCHPL SSTIVTVSVRAVAGGLSIRIHSECERHVTVSSLSQLEADAVSLFLRATLADIWNVTRSVV DAEDRAVNKGRGLWTQHLVHNSRVRAPDYRSILSISDEAARAQALNEHLSTRSYVQGYSL SQADVDAFRQLSAPPADPQLFHVARWFRHIEALLGSPCGKGQPCRLQARLGGLEVASVPT RVLKILSLSRQRPACAAPVVPSCWDPAMQTPPLQQPHQEQVFLAFLVIVIPSFLTKEVFI PQDGKKVTWYCCGPTVYDASHMGHARSYISFDILRRVLKDYFKFDVFYCMNITDIDDKII KRARQNHLFEQYREKRPEAAQLLEDVQAALKPFSVKLNETTDPDKKQMLERIQHAVQLAT EPLEKAVQSRLTGEEVNSCVEVLLEEAKDLLSDWLDSTLGCDVTDNSIFSKLPKFWEGDF HRDMEALNVLPPDVLTRVSEYVPEIVNFVQKIVDNGYGYVSNGSVYFDTAKFASSEKHSY GKLVPEAVGDQKALQEGEGDLSISADRLSEKRSPNDFALWKASKPGEPSWPCPWGKGRPG WHIECSAMAGTLLGASMDIHGGGFDLRFPHHDNELAQSEAYFENDCWVRYFLHTGHLTIA GCKMSKSLKNFITIKDALKKHSARQLRLAFLMHSWKDTLDYSSNTMESALQYEKFLNEFF LNVKDILRAPVDITGQFEKWGEEEAELNKNFYDKKTAIHKALCDNVDTRTVMEEMRALVS QCNLYMAARKAVRKRPNQALLENIALYLTHMLKWLLAETELERVAVSQGHPGAMRAPSGS GFWGSWSCCFHLFPGLGAPPPVNEEHSSQLLATCRLHLAAASDPSGQRLELNGNSGSESA KCGQLPCRVFHLNGCCGCGGAFSVLWTRIRIPQAASFGLCSQLIAKKQLRRMLEATVMPY LQVLSEFREGVRKIAREQKVPEILQLSDALRDNILPELGVRFEDHEAYSPPAPHNAPRIR DGPSSSVPNRTEEQEQKRNVRISGHSAWGTLGCRQQDERHLGPQCTPWEVGHGGCCHQQV EEEKRKKKEEAARRKQEQEAAKLAKMKIPPSEMFLSETDKYSKFDENGLPTHDMEGKELS KGQAKKLKKLFEAQEKLYKEYLQMAQNGSFQKYWEQRENAGEAMKQPPHLCRRWGILPDA RLASSIRLRQREQNRAEEKDWERLEKQNHQV >gi568815587r:2988208_3229148|GENSCAN_predicted_CDS_2|4056_bp atggccacccgtgtgacccagataagtgtccttttgagaacctctgatgaaaatgctgcc tggtggcctagggacttggtgcccttcgtcccagctgctccagtcgcggctgaaaggggc acttcttacatggtggcagcaagagaaaataaggaagatgcaaaagtggaaacccctgat aaaaccatcagatctcatgagacttattcactaccacgagaacagtctcacatccaggcc acgcagatgcaagagatgttcagcaatgggttgacaagtttttcaaattcacctcaaagc agtgggcccagcgacaccctgctgcccatggacactgagggggactgtccatcctctggc atggaaagagcagcgttcttggagaacttggccttggcccttaggagactcaagggagag ccctgcacggtggccactggtggccgaggaaagtccagctgcccggggaagcagatgctt actgcagaaaatgtgagcaatgaagaaaaagagggaattaaaatcacctgtcaccccctc tcatcaaccatcgtcactgtcagtgttcgggctgttgctggtggtctctccatcagaatc cattctgagtgtgagaggcacgtgactgtcagctcgctgtctcagctggaagccgatgct gtgtcactgtttctcagggcaactttagctgatatctggaatgtcacacgctcagttgta gatgctgaagatcgagcagtgaataagggacgtgggctgtggacacagcacctggtccac aactcccgtgtcagagctcctgactacaggtccattctgagcattagtgacgaggcagcc agggcacaagccctgaacgagcacctcagcacgcgtagctatgtccaggggtactcactg tcccaggcagacgtggacgcgttcaggcagctctcggccccgcccgctgacccccagctc ttccacgtggctcggtggttcaggcacatagaagcgctcctgggtagcccctgtggcaaa ggccagccctgcaggctccaagcaaggcttggaggcttggaggtggcctctgtcccaaca agagtcctcaaaatcctcagtttgtccaggcaaaggccggcgtgtgcagccccagtggtc ccctcctgctgggacccagccatgcagactccacctttacaacagcctcaccaggaacaa gtgtttcttgcatttcttgtgatcgtcattccttcattcctaacaaaggaagtgttcata cctcaagatgggaaaaaggtgacgtggtattgctgtgggccaaccgtctatgacgcatct cacatggggcacgccaggtcctacatctcttttgatatcttgagaagagtgttgaaggat tacttcaaatttgatgtcttttattgcatgaacattacggatattgatgacaagatcatc aagagggcccggcagaaccacctgttcgagcagtatcgggagaagaggcctgaagcggca cagctcttggaggatgttcaggccgccctgaagccattttcagtaaaattaaatgagacc acggatcccgataaaaagcagatgctcgaacggattcagcacgcagtgcagcttgccaca gagccacttgagaaagctgtgcagtccagactcacgggagaggaagtcaacagctgtgtg gaggtgttgctggaagaagccaaggatttgctctctgactggctggattctacacttggc tgtgatgtcactgacaattccatcttctccaagctgcccaagttctgggagggggacttc cacagagacatggaagctctgaatgttctccctccagatgtcttaacccgggttagtgag tatgtgccagaaattgtgaactttgtccagaagattgtggacaacggttacggctatgtc tccaatgggtctgtctactttgatacagcgaagtttgcttctagcgagaagcactcctat gggaagctggtgcctgaggccgttggagatcagaaagcccttcaagaaggggaaggtgac ctgagcatctctgcagaccgcctgagtgagaagcgctctcccaacgactttgccttatgg aaggcctctaagcccggagaaccgtcctggccgtgcccttggggaaagggtcgtccgggc tggcatatcgagtgctcggccatggcaggcaccctcctaggggcttcgatggacattcac ggaggtgggttcgacctccggttcccccaccatgacaatgagctggcacagtcggaggcc tactttgaaaacgactgctgggtcaggtacttcctgcacacaggccacctgaccattgca ggctgcaaaatgtcaaagtcactaaaaaacttcatcaccattaaagatgccttgaaaaag cactcagcacggcagttgcggctggccttcctcatgcactcgtggaaggacaccctggac tactccagcaacaccatggagtcagcgcttcaatatgagaagttcttgaatgagtttttc ttaaatgtgaaagatatccttcgcgctcctgttgacatcactggtcagtttgagaagtgg ggagaagaagaagcagaactgaataagaacttttatgacaagaagacagcaattcacaaa gccctctgtgacaatgttgacacccgcaccgtcatggaagagatgcgggccttggtcagt cagtgcaacctctatatggcagcccggaaagccgtgaggaagaggcccaaccaggctctg ctggagaacatcgccctgtacctcacccatatgctgaagtggcttctggctgaaacagag ctggagagggtagctgtgagtcagggccatcctggagcaatgagggcaccctcaggctcg ggtttctggggctcctggagctgctgcttccatctctttcctggtcttggggcaccccct cccgtgaacgaggaacacagctcacagctgctcgccacatgccgccttcatcttgccgca gcttcagacccttccggacagcgcctcgagctaaatggcaattctggctctgagagtgct aagtgtggtcagctgccctgccgtgtttttcatcttaacggctgctgtggttgtgggggt gccttcagcgtgctgtggacacgcatccgcatcccccaggcagcctcatttggcctttgc agtcagctgattgcgaagaagcagctgcggcgaatgctcgaggccacagtcatgccctac cttcaggtgttatcagaattccgagaaggagtgcggaagattgcccgagagcaaaaagtc cctgagattctgcagctcagcgatgccctgcgggacaacatcctgcccgagcttggggtg cggtttgaagaccacgaagcatactccccacctgcaccccacaacgcccccaggatcagg gatggcccaagttcctcggtgcccaataggacagaagaacaggaacaaaaacgcaatgtc agaatctctgggcacagcgcatggggtaccctgggatgcaggcagcaggatgagaggcac ctgggcccccagtgcacaccatgggaggtgggccatgggggctgttgccaccagcaggtt gaagaggagaagaggaagaagaaagaggaggcggcccggaggaaacaggaacaagaagca gcaaagctggccaagatgaagattccccccagtgagatgttcttgtcagaaaccgacaaa tactccaagtttgatgaaaatggtctgcccacacatgacatggagggcaaagagctcagc aaagggcaagccaagaagctgaagaagctcttcgaggctcaggagaagctctacaaggaa tatctgcagatggcccagaatggaagcttccagaaatactgggaacagagggagaatgca ggtgaggccatgaagcagccaccacatttgtgcagaaggtggggcattctgccagatgcc cggctggcatcttcaatacgtctgcgtcaaagggagcagaatagggcagaagagaaggac tgggagagactcgagaaacaaaaccaccaggtttga >gi568815587r:2988208_3229148|GENSCAN_predicted_peptide_3|138_aa MAYRNLNLPELKPSSHRPQGVKVPAILGCPGHCTFSAKTEKVMGEARQVGPWWMPGLRLA IGIRCVKKRTLRVSLQLAACATSGDVGIGGRAHIWLWGTQPLGPGVREWRRSIITTGGAP KSDIWSSPNSDTGYSESC >gi568815587r:2988208_3229148|GENSCAN_predicted_CDS_3|417_bp atggcttatcgcaacctcaacctccctgagctcaagccatcctcccatcggcctcaggga gtgaaggtaccagccatcctgggttgcccaggacactgcactttcagtgctaaaaccgag aaagtaatgggagaagccagacaagtgggtccctggtggatgcccggccttagacttgca attggcatccggtgcgtgaagaagcggacactgagggtctctctgcagctggctgcctgt gccaccagtggtgatgttggcattggtggcagagcccacatctggctgtgggggacgcag cctttagggcctggtgtgcgggaatggagacgcagcatcatcaccacaggtggagctcca aagagtgacatctggagctctccaaatagtgacactggctacagtgaatcttgttga >gi568815587r:2988208_3229148|GENSCAN_predicted_peptide_4|2358_aa MSVKMWQQQLNAFLHPGDAHGGLPTVHESKDVEATQVPIRVDAKETCHVRLASFPFAFRH DCKFPEASQPCFLYSLRNEYEVEQLGSAAVLSQDTPGTQQLRRPMTGQDLTPGLCLHALV SGNGPDPKAELLLSRRATPHLLPSSSGKEHTEAWPPPPCKSYSWGHCDNRAQAQPKGGSN GENSHDNGGGNDGNGGGIVVMLVMVMVMLMKDVMMMMTEMIMMMMVMIVMMMVMAIMMVM VIKTMMVDDDGGGDDSDDGDVMMMVMMIMMMMKVVMVLMMVMKAMMVDDGDDDSDVMMVT MMKVVMVIMMVMVMKAMMVDDGDDDVVVMMMVMVRIVMMMMMVVVMVIMMMIKQWSFMVM MVVVVITMVMVMVETVMMMMMVVVMVIMMMMKAMMVDDDDDGDGDYDGDGDDGDDDEGGD GDDDESGDGDHDGDAMMVDDGGDDGDGADCDDDDDDGGGGDSDYDDESYDGPFHLPLSMQ VTPANQPQFHKKVTSQWWPWPLRVFEHQHSEVRDGVFLMGCQRLTRKAQGLINLEPDLDE VTLCTSGLQQHHHGAGRRPRLWQMQPMAKGDSFPICEMEPITTEPAHKVVRQIKCTKCLK PSEKGLTRERCWKEPSWAARPPQPCWEVLQTPMIARLAASRMQLQRETVETHVSVAVLPG EEPRALCGGQARAASGAPARPAGPEHRARGTGSGVSPGFLLQGLCTACASAFGPSLDLHL ARGDGKPSVSAAVPGRAEAPPQLGDSMPLTAGHGWPLAQKRPHVSLTMHQCAAQKRSHVS LMLRRVDKGPHTSGGLNAMCFPGTDLPWGLRACPGAPCCVCGADGAVGEPVTPGLPAAAT LSGLHSYGASAIQGSEKNFKCSKKENENKRLLLSSHSGHPPVTRSRAWSGVGAHMSVLDS RRNGEGSGRSHPDAPHDLGEYVVGSSPPSQKTTKKVSRCGFRPAPRGVPAVLYTHRGQTP PGGIHWHLLHVRALGVQGELSAPCNGSLCSQCAKSGCRGRAEDEEQESDQAGAQLVAPEV LGTEGSSPALGLQPGPMSPSPQEAKPPPQEHHGQDSRQVLVDVALLGIRVCTDVTEDLEP QETGTEPGRALASTSLRSVSRPARPGHCVGVEADKMWPLVSGFFDLVHLCGSSVSSHVSG QSLPFYPQGCMGLGDPQVKGDLLVFQPPPLHTTSCRAPRTRRQRDRSPPEWVYEERQRHE TSGPVDKRTTQALHPRDGCSWPHRALATAQPAPSELMPLADPSRLGHGPSPGATRPAQPP GLRSLSWPVATCSSRAGSFHLPGSQAHCLMVTPGSPEREQLWWGGNKKLASEPTGERQKP PSAHSMKEEAFLRRRFSLCPPSSTPQKVDPRKLTRNLLLSGDNELYPLSPGKDMEPNGPS LPRDEGPPTPSSATKVPPAEYRLCNGSDKECVSPTARVTKKETLKVSPGPGRVQQCHCQT DGHLSQGGHPPHLSKGGDKPHLVASTPPTSSYFLSCPCPWTHPWAGRWEELGQLGAFSHD PPRVPRAQAQKENYRQEKKRATRQLLSALTDPSVVIMADSLKIRGTLKSWTKLWCVLKPG VLLIYKTPKVGQWVGTVLLHCCELIERPSKKDGFCFKLFHPLDQSVWAVKGPKGESVGSI TQPLPSSYLIFRAASESDGRCWLDALELALRCSSLLRLGTCKPGRDGEPGTSPDASPSSL CGLPASATVHPDQDLFPLNGSSLENDAFSDKSERENPEESDTETQDHSRKTESGSDQSET PGAPVRRGTTYVEQVQEELGEGLTAACLLQLGEASQVETVSEENKSLMWTLLKQLRPGMD LSRVVLPTFVLEPRSFLNKLSDYYYHADLLSRAAVEEDAYSRMKLVLRWYLSGFYKKPKG IKKPYNPILGETFRCCWFHPQTDSRTFYIAEQARAPLLQPAWVLGSMGRGSVGAGPWQQA GASVTPRAGFQGTPHPAHRKGCGPSRCQQGFLQKVSHHPPVSAFHVSNRKDGFCISGSIT AKSRFYGNSLSALLDGKATLTFLNRAEDYTLTMPYAHCKGILYGTMTLELGGKVTIECAK NNFQAQLEFKLKPFFGGSTSINQISGKITSGEEVLASLSGHWDRDVFIKEEGSGSSALFW TPSGEVRRQRLRQHTVPLEEQTELESERLWQHVTRAISKGDQHRATQEKFALEEAQRQRA RERQESLMPWKPQLFHLDPITQEWHYRYEDHSPWDPLKDIAQFEQDGILRTLQQEAVARQ TTFLGSPGPRHERSGPDQRLRKASDQPSGHSQATESSGSTPESCPELSDEEQDGDFVPGG ESPCPRCRKEARRLQALHEAILSIREAQQELHRHLSAMLSSTARAAQAPTPGLLQSPRSW FLLCVFLACQLFINHILK >gi568815587r:2988208_3229148|GENSCAN_predicted_CDS_4|7077_bp atgagcgtcaagatgtggcaacaacagttaaatgcattcctgcaccctggagacgcccat gggggactcccaactgttcacgagagcaaagacgtggaagcaacccaggtgcccatcagg gtggatgcaaaggaaacatgccatgtaagacttgcctccttccccttcgccttccgccac gattgtaagtttcctgaggcctcccagccatgcttcctgtacagcctgcggaacgagtac gaggtggagcagctgggctctgctgctgtcctatcacaggacacacccggcacccaacag ctcaggagaccaatgactgggcaggacctgacccctggcctttgtctgcatgcacttgtg tctgggaatgggccagaccccaaggcagagctgctgctgtctaggagggccaccccacac ttgctgccaagctcctctggcaaggagcacacagaggcctggccacctcccccatgcaag tcttacagctggggccactgtgacaacagggcccaagctcagccaaagggaggcagtaat ggtgagaatagtcatgataatggtggtggcaatgatggaaatggtggtggcattgtggta atgctggtgatggtgatggtaatgctgatgaaggacgtgatgatgatgatgacagagatg attatgatgatgatggtgatgatagtgatgatgatggtgatggcgattatgatggtgatg gtgataaaaacaatgatggttgatgatgatggtggtggtgatgacagtgatgatggtgat gtgatgatgatggtgatgatgataatgatgatgatgaaggtggtgatggtgcttatgatg gtgatgaaagcaatgatggttgatgatggtgatgatgatagtgatgtgatgatggtgacg atgatgaaggtggtgatggtgatcatgatggtgatggtgatgaaagcaatgatggttgat gatggtgatgatgatgtggtggtgatgatgatggtgatggtgaggatagtgatgatgatg atgatggtggtggtgatggtgattatgatgatgataaagcaatggtcgttcatggtgatg atggtggtggtggtgataacaatggtgatggtgatggtggagacagtgatgatgatgatg atggtggtggtgatggtgattatgatgatgatgaaagcaatgatggttgatgacgatgat gatggtgatggtgattatgatggtgatggtgatgatggtgatgatgatgaaggtggtgat ggtgatgatgatgaaagtggtgatggtgatcatgatggtgatgcaatgatggttgatgat ggtggtgatgatggtgatggtgcagattgtgacgatgatgatgatgatggtggtggtggt gacagtgattatgatgatgaaagctatgatgggcctttccatctgcctctcagtatgcaa gttacacctgccaatcaaccccagttccataagaaagtgacttctcagtggtggccctgg ccactgcgtgtcttcgagcaccagcattctgaagtcagggatggggtcttcctcatgggc tgtcagcgacttactaggaaggctcaaggtctcattaacttagagccagatctggatgag gtgaccctgtgtacttctggcttacagcagcaccaccatggggcaggcagacgcccaaga ctgtggcagatgcagcccatggccaagggtgacagcttccccatctgtgaaatggagcca atcacgacagaaccagctcataaagttgtgaggcagattaaatgcaccaagtgtctaaag ccctcagaaaagggtctgacacgagaaaggtgctggaaggagccttcctgggccgctcgc cctccgcagccctgctgggaggtcttgcagacgcccatgatagccaggcttgcggcctcc cgaatgcaactgcagcgtgaaaccgtagaaacacacgtgtcagtggcagttctgcctggg gaggagcccagggctctctgcggaggccaggcccgcgccgccagtggagcccccgcgcgc ccggccggcccggagcaccgagctcgcggcacggggtctggcgtcagccccggcttctta ctccagggcctttgcactgcctgtgcctctgctttcggcccctccttggatctgcatttg gccaggggagatggcaaaccttcagtaagcgctgccgtacctggcagagcagaagcacca ccccagcttggagacagcatgcccctgactgctggtcacggatggccccttgcccagaag aggcctcatgtgtcactgaccatgcaccagtgtgcagcccagaagaggtctcatgtgtca ctgatgctccggagagtggataaggggccacacaccagcggcggtttgaatgccatgtgt ttcccgggcacagaccttccttgggggctgcgggcctgccctggggctccctgctgtgtg tgcggggctgacggcgctgttggggagccggtaaccccggggctcccagctgcagccacc ttatctgggctgcattcatatggagcctctgctatccagggctctgagaagaacttcaaa tgtagcaaaaaagaaaatgaaaacaaaaggcttctcctgagcagccatagtggacaccca cccgtcacccgcagccgggcctggtcaggggtgggggcccacatgtcagtgttggatagt agaaggaatggggaaggttctggaagatcccaccccgatgcccctcatgaccttggggag tatgtagtggggtccagcccaccttcccaaaagacaactaagaaagtcagcaggtgcggt ttccgacctgctccccggggagtcccggctgtactgtatacacatcgtggtcagactccc ccaggaggcattcactggcacctactccatgttcgggcactgggggtgcagggagagctg tctgcaccatgcaatgggagcctctgcagccagtgtgccaagtctgggtgccgggggcgt gcggaggatgaggaacaggagagtgaccaggcaggagcccagctagtggccccagaggtc ctgggaaccgagggcagctcgccggcactgggactgcagccgggtccgatgtctcccagc cctcaagaggccaaacccccaccccaagaacatcatggccaggacagcaggcaagtactt gtggatgtggccttgcttggaatccgggtctgtacagatgttactgaagatcttgagccc caggaaaccgggacagaaccgggccgggccctggcaagcaccagtctgcgttccgtgtcc agacctgcccgtcctggacactgcgtgggcgtggaagcggacaagatgtggcctttggta tctggcttctttgacttggtgcatctctgcggctcatccgtgtcgtcgcatgtgagtggg cagtcactgcccttctacccgcaaggctgcatggggctcggggatccccaggtgaaggga gacctgctggtcttccagcctccacccctgcacacgacttcctgccgggccccgcggaca cggagacagagggacaggtctccacctgagtgggtctatgaggagagacagagacatgaa accagcggtcctgttgataaacgcaccacccaggctctccacccgcgagacggttgctcg tggccccacagagcactggcaacagcacagccagcaccttcagagctgatgcccctggca gaccccagcaggcttggccacggccccagccccggggccacccgtcccgcacagcctcct ggtctccgctcactcagctggccggtggccacctgctcctccagggctggaagcttccac ctccctggctctcaggcccactgcctcatggtcaccccagggtcccctgaacgggaacag ctgtggtggggaggaaacaagaaactcgcttctgaacccacaggggaaaggcagaagccc ccgagcgcccacagcatgaaggaggaggccttcctccggcgccgcttctccctgtgtcca ccttcctccacccctcagaaagtcgacccccggaagctcacccggaacttgctcctcagc ggagacaatgagctctacccactcagcccagggaaggacatggagcccaacggcccgtcg ctgcccagggatgaagggcccccgaccccaagctctgccacgaaggtgccaccggcagag tacaggctgtgcaacgggtcagacaaggaatgtgtgtcccccaccgccagggtcaccaag aaggagactctcaaggtgagcccgggcccggggagggtgcagcagtgtcactgtcagacc gacggccacctgagccagggaggtcaccctccccacctgtcaaaaggaggggacaaaccg cacctggtcgcctccacaccccctacttcctcctacttcctctcctgcccctgcccctgg acccatccctgggctggacggtgggaggagctggggcagctcggtgccttctcccatgac ccaccgcgggtgccccgggcccaggcgcagaaggagaactaccggcaggagaagaagcgc gccacacggcagctgctcagcgctctgacagaccccagcgtggtcatcatggctgacagc ctgaagatccgcggcaccctgaagagctggaccaagctgtggtgcgtgctgaagccgggg gtgctgctcatctacaagacgcccaaggtgggccagtgggtgggcacggtgctgctgcac tgctgcgagctcatcgagcggccctccaagaaggacggcttctgcttcaagctcttccac ccgctggatcagtccgtctgggccgtgaagggccccaaaggtgagagcgtgggctccatc acacagcccctgcccagcagctacctgatcttcagggccgcctccgagtcagatggtcgc tgctggctggacgccctggagctggccctgcgctgctctagcctactgagactgggcacc tgcaagccgggccgagacggggagccagggacctcgccagacgcatcaccctcatcgctc tgtgggctgccagcctcagccaccgtccacccagaccaagacctgttcccactgaacggg tcttccctggagaacgatgcattctcagacaagtcggagagagagaaccctgaggagtca gataccgagacccaggaccatagccggaagacggagagtggcagcgaccagtcagagacc cctggggccccggtgcggagagggaccacctatgtggagcaggtccaggaggagctgggg gagggcctgactgcagcctgtctgctgcagctgggcgaggcgtcccaggtggagacagtg tcagaggagaacaagagtctgatgtggaccctgctgaagcagctacggccaggcatggac ctgtcccgcgtggtgctacccacgttcgtactggagccgcgctccttcctgaacaagctc tccgactactactaccacgcagacctgctctccagggctgcggtggaggaggatgcctac agccgcatgaagctggtgctgcggtggtacctgtctggcttctacaagaagcccaaggga atcaagaagccgtacaaccccatcctgggggagaccttccgctgctgctggttccacccg cagactgacagccgcacattctacatagcagagcaggcaagagcacctctgctgcaaccg gcctgggtgctgggctctatggggcggggctctgtgggggcggggccctggcagcaggca ggggcaagcgtgaccccgagggccggcttccaggggaccccacatcctgcacaccggaag ggctgtggacccagccgctgccaacagggattcttgcagaaggtgtcccaccacccgccc gtgtctgccttccacgtcagcaaccggaaggacggcttctgcatcagtggcagcatcaca gccaagtccaggttttatgggaactcgctgtcggcgctgctggacggcaaagccacgctc accttcctgaaccgagccgaggattacacccttaccatgccctacgcccactgcaaagga atcctgtatggcacgatgaccctggagctgggtgggaaggtcaccatcgagtgtgcgaag aacaacttccaggcccagctggaattcaaactcaagcccttcttcgggggtagcaccagc atcaaccagatctcgggaaagatcacgtcgggagaggaagtcctggcgagcctcagtggc cactgggacagggacgtgtttatcaaggaggaagggagcggaagcagtgcgcttttctgg accccgagcggggaggtccgcagacagaggctgaggcagcacacggtgccgctggaggag cagacggagctggagtccgagaggctctggcagcacgtcaccagggccatcagcaagggc gaccagcacagggccacacaggagaagtttgcactggaggaggcacagcggcagcgggcc cgtgagcggcaggagagcctcatgccctggaagccgcagctgttccacctggaccccatc acccaggagtggcactaccgatacgaggaccacagcccctgggaccccctgaaggacatc gcccagtttgagcaagacgggatcctgcggaccttgcagcaggaggccgtggcccgccag accaccttcctgggcagcccagggcccaggcacgagaggtctggcccagaccagcggctt cgcaaggccagcgaccagccctccggccacagccaggccacggagagcagcggatccacg cctgagtcctgcccagagctctcagacgaggagcaggatggtgactttgtccctggcggt gagagcccatgccctcggtgcaggaaggaggcgcggcggctgcaggccctgcacgaggcc atcctctccatccgagaggcccagcaggagctgcacaggcacctctcggccatgctgagc tccacggcacgggcagcacaggcaccgaccccaggcctcctgcagagcccccgatcctgg ttcctgctctgcgtgttcctggcgtgtcagctgttcattaaccacatcctcaaatag >gi568815587r:2988208_3229148|GENSCAN_predicted_peptide_5|280_aa MGKWEKLIAPRLRQEQAGRPAGSLAPPRPKPGWLGDFSHGPSLPGLLACDWAKRSLHKRK WEGIAHAGEKGAGPRDLALALRLCVGTPSPPLWRGPSPPYHPRSEGTAARWEPQAKEMLK NCAQWFSLLGPADSIPWEDVGPAQGSSGEMGRSLGVRNGLTGLKKHWYLGPRKTCCSEDT GSVERQRGWALRKEAAELGSAGLSCSIAACLRSIPNSSVVSRMERAVTGTGFQGCLLSRL PEPEKPGVLVTTSSNPLSSTIFSWRQLGPGSRVPALDHIT >gi568815587r:2988208_3229148|GENSCAN_predicted_CDS_5|843_bp atggggaagtgggaaaaactcatcgcacctcgactgagacaagagcaggctggaaggccg gcaggctccctggcaccaccgaggcctaagcctggctggctaggagacttctcccacggc cccagccttccgggactattggcctgtgactgggccaaacgaagtctgcacaagagaaag tgggaggggatcgcacatgcaggagagaagggggccgggccaagggatctggctctggct ctgcggctctgtgtggggaccccctctcctcctctctggaggggcccaagccctccctac cacccccgcagtgaaggcacagcagccaggtgggaaccccaggcaaaggagatgctgaag aactgtgcccagtggttcagcctcctgggaccagcagacagcatcccctgggaggatgtg ggcccagcccaggggtcctctggggagatggggaggtcactgggagtccgcaatggtttg acaggtctcaagaagcactggtacctgggaccccggaaaacctgctgctcagaggacaca ggctccgtggagaggcagagaggctgggccctgcgcaaggaggcggctgagctgggctca gctgggctcagctgctccattgcagcctgtttgcgctccatccccaattcctcggttgtc tccagaatggagcgggcagtgacgggcactggatttcagggctgtttgctctccagactc ccagagcctgagaaaccgggggtcctggtgacaacctcatccaacccgctcagttcaacc attttctcatggcggcagctgggtcctgggtctcgtgtcccagccctggaccacatcacg tga >gi568815587r:2988208_3229148|GENSCAN_predicted_peptide_6|668_aa MYEGSKLFTLRTVAEAELLIPPLMELRNAVRGRKNSLIKNILLSSVLQSKMRKTIRQRLG AQALRQTDGHHHTHHHKPGPGRGLPLPLVGLGGQATITVCPAMARHRSQGPSRTPQPLTR GNDKHKEGPSPAPSEPARMFGLFGLWRTFDSVVFYLTLIVGLGGPVGNGLVLWNLGFRIK KGPFSIYLLHLAAADFLFLSCRVGFSVAQAALGAQDTLYFVLTFLWFAVGLWLLAAFSVE RCLSDLFPACYQGCRPRHASAVLCALVWTPTLPAVPLPANACGLLRNSACPLVCPRYHVA SVTWFLVLARVAWTAGVVLFVWVTCCSTRPRPRLYGIVLGALLLLFFCGLPSVFYWSLQP LLNFLLPVFSPLATLLACVNSSSKPLIYSGLGRQPGKREPLSVCVSLEDELHEGTEPAAD LLLSPWDWQAATLPSQFLPYVDTCITHFSYHLNFTITILTITILNITIITITIIITTTII ISITIIITTILTITVITITIITTTAIIIITITTINITIITTTTIITTITTTTTITITTII IIITIITTTVITITITIITIITIITIIIITIITITTIIIITIITIITTTTIITITTIIII ITITTTTVITIIITIITIITITTIIIITIISTITIITTITITIIIIVTPPPSPHPPQSIP NSLPRKKG >gi568815587r:2988208_3229148|GENSCAN_predicted_CDS_6|2007_bp atgtacgagggatcaaaactcttcaccttgcgcactgtggctgaggctgagctcctcatc ccgcccctgatggagctgcggaacgcagtccgtggaaggaaaaactctcttatcaagaac atcttactgtccagtgttctgcagagcaaaatgcggaaaacaatccgtcaacggctggga gcccaggctctgaggcaaacagatggacatcaccacactcaccaccacaagccagggccc ggccgaggtctcccactgcccctggttgggctcggaggacaggccaccatcaccgtgtgc ccggccatggcaaggcacaggagccaaggcccgagccgcactccccaacccctgactagg ggcaatgacaagcacaaagaaggtccctcgccagcaccctctgagccggccaggatgttt gggctgttcggcctctggagaaccttcgacagtgtggtcttctacctgacgctgatcgtg ggcctcgggggaccggtaggtaacgggctggtgctctggaacctcggcttccgcatcaag aagggccccttctccatctacctgctgcacctggccgccgccgacttcctgttcctctcc tgccgtgtgggcttctccgtggctcaggctgccctgggcgcccaggacacactctacttc gtgctcaccttcctgtggttcgcggtggggctctggctgctggcggccttcagcgtggag cgctgcctctccgacctcttccccgcctgctaccagggctgccggcccagacacgcctcg gccgtcctctgcgccctggtgtggaccccgaccctgccggccgtgccgctgcccgccaac gcctgcggcctgctgcgcaacagcgcgtgccccctggtctgcccgcgctaccacgtggcc agcgtcacctggttcctggtgctggcccgcgtcgcctggacggctggcgtggtcctcttt gtctgggtgacctgctgctccactcgcccgcggcccaggctctacggcatcgtcctgggc gcgctgctcctgctcttcttctgtggcctgccctcggtcttctactggagcctgcagccc ctgctgaacttcctgctgcccgtgttttccccgctggccacgctgctggcctgcgtcaac agcagctccaagcccctcatctactcggggttgggccgacagcccgggaagcgggagccg ctgagtgtctgtgtctccctagaagatgagctccatgagggcacagagccagcagctgac ttgctgctgtctccctgggactggcaggcagccacactgccaagtcagtttcttccttat gtggacacctgtatcacccatttctcttatcatcttaacttcaccatcaccatcctcacc atcaccatcctcaacatcaccatcatcaccatcaccatcatcatcaccaccaccatcatc atttccatcaccatcatcattactaccattctcaccatcaccgtcatcaccatcaccatc atcaccaccactgccatcatcatcatcaccatcaccaccatcaacatcaccatcatcacc accaccaccattatcaccaccatcaccaccactaccactatcaccatcaccaccatcatc atcattatcaccatcatcaccaccaccgtcatcaccatcaccattaccatcatcaccatt atcaccatcatcaccattatcatcatcaccatcatcaccatcaccaccattatcatcatc accattatcaccatcatcaccaccaccaccatcatcaccatcaccaccatcatcatcatt atcaccatcaccaccaccaccgtcatcaccatcatcattaccatcatcaccattatcacc atcaccaccattatcatcatcaccatcatcagcaccatcaccattatcaccaccatcacc ataaccatcatcatcattgtcactcctcctccttctccacatcctcctcaaagtattccc aactctctgccaaggaaaaagggatga >gi568815587r:2988208_3229148|GENSCAN_predicted_peptide_7|470_aa MEPREAGQHVGAANGAQEDVAFNLIILSLTEGLGLGGLLGNGAVLWLLSSNVYRNPFAIY LLDVACADLIFLGCHMVAIVPDLLQGRLDFPGFVQTSLATLRFFCYIVGLSLLAAVSVEQ CLAALFPAWYSCRRPRHLTTCVCALTWALCLLLHLLLSGACTQFFGEPSRHLCRTLWLVA AVLLALLCCTMCGASLMLLLRVERGPQRPPPRGFPGLILLTVLLFLFCGLPFGIYWLSRN LLWYIPHYFYHFSFLMAAVHCAAKPVVYFCLGSAQGRRLPLRLVLQRALGDEAELGAVRE TSRRGLDVISNFSSSAGETRTEREVACPQIPLSAPGHKLPPEQGRTRRKSTDSSHGHDLT VDVFPGNPRNNVGRATRPHQGPLAALDPTLQDPGASLLKGHLHLGRRQSSSVSAQPTPST RNPGPLRGCRGPDSRPPGTGSRTQSSEIVPAANPKPTYTGCLIHSFLQKL >gi568815587r:2988208_3229148|GENSCAN_predicted_CDS_7|1413_bp atggagcccagagaagctggacagcacgtgggggccgccaacggcgcccaggaggatgtg gccttcaacctcatcatcctgtccctcaccgaggggctcggcctcggtgggctgctgggg aatggggcagtcctctggctgctcagctccaatgtctacagaaaccccttcgccatctac ctcctggacgtggcctgcgcggatctcatcttccttggctgccacatggtggccatcgtc cccgacttgctgcaaggccggctggacttcccgggcttcgtgcagaccagcctggcaacg ctgcgcttcttctgctacatcgtgggcctgagtctcctggcggccgtcagcgtggagcag tgcctggccgccctcttcccagcctggtactcgtgccgccgcccacgccacctgaccacc tgtgtgtgcgccctcacctgggccctctgcctgctgctgcacctgctgctcagcggcgcc tgcacccagttcttcggggagcccagccgccacttgtgccggacgctgtggctggtggca gcggtgctgctggctctgctgtgttgcaccatgtgtggggccagccttatgctgctgctg cgggtggagcgaggcccccagcggcccccaccccggggcttccctgggctcatcctcctc accgtcctcctcttcctcttctgcggcctgcccttcggcatctactggctgtcccggaac ctgctctggtacatcccccactacttctaccacttcagcttcctcatggccgccgtgcac tgcgcggccaagcccgtcgtctacttctgcctgggcagtgcccagggccgcaggctgccc ctccggctggtcctccagcgagcgctgggagacgaggctgagctgggggccgtcagggag acctcccgccggggcctggacgtgattagcaacttcagttcctcagctggagaaacaaga acagaaagggaagtggcctgtccacaaattccactttcagccccaggacataaacttccc ccagaacaaggaagaaccaggaggaaaagcacagattcatctcacggacatgacctcacc gtggacgtgttcccggggaatcctcgtaataatgtaggaagagccacaaggccccaccag ggacccctggctgccctagaccccaccctgcaggaccctggggcctcactgctcaaaggc cacctccacctgggtcgcaggcaaagctcctcggtcagtgcccagcccaccccatccacc cgcaaccccgggcccctgcggggctgccgcgggccagattccagaccaccagggacaggc tctaggacccagagctctgaaattgttccagctgccaaccctaaacccacttatactggc tgcctcatccactccttcctccagaaactatga