GENSCAN 1.0 Date run: 6-Nov-116 Time: 22:12:34 Sequence gi568815582r:58420961_58699337 : 278377 bp : 46.60% 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 - 1888 1883 6 1.05 1.06 Term - 5501 5347 155 0 2 77 43 57 0.157 -1.82 1.05 Intr - 9611 9465 147 0 0 49 59 104 0.265 3.81 1.04 Intr - 13041 12883 159 1 0 79 45 129 0.751 7.66 1.03 Intr - 13245 13200 46 0 1 66 82 -7 0.281 -5.52 1.02 Intr - 14921 14797 125 0 2 111 79 49 0.376 6.60 1.01 Init - 18134 18008 127 2 1 111 39 40 0.283 1.88 1.00 Prom - 23065 23026 40 -6.56 2.06 PlyA - 25449 25444 6 1.05 2.05 Term - 28690 28629 62 2 2 98 48 92 0.941 4.17 2.04 Intr - 30678 30538 141 1 0 70 70 44 0.425 1.12 2.03 Intr - 41623 41573 51 2 0 85 99 41 0.508 3.78 2.02 Intr - 41765 41725 41 1 2 82 40 58 0.608 -1.73 2.01 Init - 42999 42767 233 0 2 93 80 182 0.738 13.63 2.00 Prom - 57942 57903 40 -1.06 3.00 Prom + 58498 58537 40 -6.56 3.01 Init + 58610 58667 58 1 1 74 83 15 0.857 1.07 3.02 Intr + 59035 59073 39 2 0 50 91 76 0.720 2.30 3.03 Intr + 66796 66890 95 2 2 98 105 195 0.957 21.88 3.04 Intr + 71964 72008 45 2 0 134 33 35 0.582 1.21 3.05 Intr + 74004 74048 45 2 0 126 100 43 0.989 7.91 3.06 Intr + 74742 74952 211 2 1 76 59 158 0.865 10.19 3.07 Intr + 75160 75351 192 2 0 45 61 128 0.797 5.26 3.08 Intr + 75712 75837 126 2 0 80 33 68 0.280 1.15 3.09 Intr + 78184 78320 137 2 2 105 63 55 0.639 4.99 3.10 Intr + 79265 79336 72 1 0 87 86 11 0.528 0.40 3.11 Intr + 81366 81518 153 2 0 71 77 38 0.698 1.27 3.12 Intr + 82838 82943 106 1 1 81 103 153 0.936 15.89 3.13 Intr + 83194 83288 95 2 2 71 75 147 0.376 11.38 3.14 Intr + 83399 83689 291 1 0 118 73 119 0.358 10.73 3.15 Intr + 85427 85513 87 1 0 95 93 152 0.888 16.57 3.16 Intr + 85598 85654 57 1 0 113 110 38 0.995 7.58 3.17 Intr + 85952 86055 104 1 2 61 80 203 0.959 15.77 3.18 Intr + 86848 86904 57 1 0 119 117 122 0.995 16.20 3.19 Intr + 86988 87039 52 0 1 84 103 44 0.930 4.41 3.20 Intr + 88002 88049 48 2 0 109 100 56 0.992 7.78 3.21 Intr + 88194 88229 36 2 0 140 94 18 0.970 6.06 3.22 Intr + 88341 88392 52 2 1 84 79 73 0.932 4.48 3.23 Intr + 90462 90586 125 1 2 114 47 138 0.208 12.60 3.24 Intr + 94744 94920 177 0 0 79 105 126 0.521 13.52 3.25 Intr + 94993 95137 145 0 1 68 64 297 0.965 25.16 3.26 Intr + 95242 95383 142 2 1 68 85 155 0.999 12.61 3.27 Intr + 95518 95712 195 1 0 52 68 317 0.994 24.63 3.28 Intr + 95848 95968 121 1 1 26 101 135 0.994 9.10 3.29 Intr + 97091 97271 181 1 1 77 96 151 0.952 14.24 3.30 Intr + 97441 97583 143 2 2 118 92 94 0.999 12.87 3.31 Term + 97764 98069 306 2 0 88 43 198 0.982 10.42 3.32 PlyA + 98537 98542 6 1.05 4.44 PlyA - 98582 98577 6 -1.75 4.43 Term - 100076 99998 79 1 1 68 42 44 0.363 -4.96 4.42 Intr - 100357 100223 135 0 0 105 87 77 0.432 8.98 4.41 Intr - 102542 102410 133 0 1 89 121 115 0.997 14.60 4.40 Intr - 104399 104219 181 2 1 48 96 277 0.928 23.94 4.39 Intr - 105178 105029 150 1 0 83 38 102 0.813 5.06 4.38 Intr - 109387 109286 102 1 0 122 86 -17 0.625 1.87 4.37 Intr - 111115 110998 118 0 1 96 70 -20 0.754 -2.53 4.36 Intr - 111435 111272 164 0 2 72 105 77 0.911 6.57 4.35 Intr - 113435 113187 249 2 0 99 47 234 0.981 18.03 4.34 Intr - 116260 116029 232 0 1 60 80 158 0.944 9.98 4.33 Intr - 117100 116931 170 1 2 64 72 119 0.898 6.64 4.32 Intr - 117306 117198 109 2 1 65 80 107 0.999 7.89 4.31 Intr - 117954 117812 143 0 2 117 86 102 0.457 12.05 4.30 Intr - 118999 118808 192 1 0 52 81 80 0.911 3.39 4.29 Intr - 120660 120541 120 0 0 61 94 105 0.998 9.09 4.28 Intr - 121375 121271 105 1 0 108 50 30 0.753 1.61 4.27 Intr - 121608 121468 141 0 0 70 93 41 0.858 3.35 4.26 Intr - 122928 122647 282 0 0 90 86 124 0.778 10.02 4.25 Intr - 124531 124401 131 2 2 23 98 115 0.586 6.41 4.24 Intr - 125538 125361 178 0 1 27 108 195 0.997 14.89 4.23 Intr - 126336 126226 111 0 0 92 89 61 0.993 7.18 4.22 Intr - 128938 128759 180 1 0 32 69 106 0.883 3.16 4.21 Intr - 130312 130172 141 1 0 92 105 53 0.996 7.95 4.20 Intr - 130859 130629 231 2 0 93 100 181 0.998 17.77 4.19 Intr - 132900 132822 79 2 1 45 107 -11 0.765 -3.95 4.18 Intr - 134577 134291 287 0 2 107 111 80 0.916 8.34 4.17 Intr - 134948 134824 125 0 2 111 105 28 0.993 7.10 4.16 Intr - 136030 135887 144 2 0 66 89 31 0.337 1.25 4.15 Intr - 137714 137513 202 2 1 69 110 -16 0.661 -2.44 4.14 Intr - 139402 139252 151 0 1 98 99 73 0.275 9.56 4.13 Intr - 152968 152934 35 1 2 64 89 -9 0.055 -6.18 4.12 Intr - 154169 154047 123 2 0 76 86 67 0.984 6.08 4.11 Intr - 155622 155503 120 0 0 114 113 82 0.999 13.99 4.10 Intr - 157979 157739 241 1 1 96 110 23 0.609 2.85 4.09 Intr - 159800 159673 128 2 2 61 52 115 0.952 4.68 4.08 Intr - 160555 160385 171 1 0 105 109 89 0.962 12.84 4.07 Intr - 161943 161833 111 0 0 49 105 49 0.874 3.28 4.06 Intr - 162222 162096 127 2 1 50 89 51 0.945 2.08 4.05 Intr - 164546 164378 169 0 1 69 81 133 0.914 9.70 4.04 Intr - 165788 165585 204 0 0 27 94 208 0.807 14.47 4.03 Intr - 166295 166241 55 2 1 116 109 -14 0.800 2.05 4.02 Intr - 166918 166820 99 1 0 52 81 40 0.400 0.01 4.01 Init - 178377 178276 102 0 0 69 103 133 0.791 13.15 4.00 Prom - 197839 197800 40 -1.46 5.06 PlyA - 197859 197854 6 1.05 5.05 Term - 208344 208058 287 1 2 74 40 142 0.341 3.57 5.04 Intr - 209589 209544 46 0 1 92 32 25 0.028 -4.72 5.03 Intr - 220166 220017 150 2 0 83 106 188 0.953 20.46 5.02 Intr - 224032 223952 81 1 0 69 101 97 0.991 8.93 5.01 Init - 224142 224089 54 0 0 109 90 31 0.982 6.68 5.00 Prom - 226069 226030 40 -4.46 6.11 PlyA - 226313 226308 6 1.05 6.10 Term - 246527 246425 103 1 1 119 41 171 0.999 13.25 6.09 Intr - 249207 249153 55 1 1 112 103 26 0.999 4.54 6.08 Intr - 250284 250085 200 2 2 66 80 416 0.999 37.59 6.07 Intr - 251283 251136 148 1 1 120 89 269 0.992 29.49 6.06 Intr - 255094 254980 115 1 1 71 109 149 0.998 15.32 6.05 Intr - 255386 255329 58 1 1 85 50 64 0.825 1.19 6.04 Intr - 256464 256366 99 2 0 72 94 189 0.999 17.13 6.03 Intr - 257514 257373 142 1 1 105 36 148 0.920 10.71 6.02 Intr - 257934 257736 199 0 1 100 44 277 0.996 23.42 6.01 Init - 259166 258897 270 2 0 108 101 360 0.961 36.27 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815582r:58420961_58699337|GENSCAN_predicted_peptide_1|252_aa MAGSVGVTDWLGVRGIMGSSPGTYQLLWEHVNQWDGSPEDNRACSEPWMADLGVPYGLGS LTLWLLVGFSQWEHWWETGGRRRDPCDPCSPGSPGSGGVETPDGPPTAHPKGVVGTYGIE SSDQFKTLEHLTPKFELDYSDSRPQGTKEAGSTTGKESSASDTRVGEHCPEAFLSGNAPA IGQSKACTQSPSMRRFYNAQPGQTLVLPKSLELPSFFKAQILLFGEVRGNSSSLISATVV RQMNLWFATSSP >gi568815582r:58420961_58699337|GENSCAN_predicted_CDS_1|759_bp atggctgggagcgttggagttactgattggcttggggtgagaggcatcatgggctcctcc cctggaacttatcagcttctctgggaacatgtgaaccaatgggatggatccccagaggac aacagggcttgctccgaaccctggatggctgacctgggggtgccctatggcctgggatcc cttaccctgtggcttctggttggcttcagccaatgggagcactggtgggagaccggaggg aggaggagagacccatgtgacccttgcagcccggggagtcctgggagtgggggtgtggag acacctgatggtccccccacagcacatcccaagggggttgtaggtacttacggcattgag agctctgaccagttcaagaccctggagcatttgactcccaagtttgagctagattattct gactccaggccacaaggcactaaggaagcaggaagcaccacaggaaaggaatccagtgct tctgacacaagagtcggggagcattgtccagaagcgttcctgtctggtaacgcacctgcc attggccagagtaaagcctgcacacagagcccgtccatgaggaggttctacaatgcacag cctggtcaaactctggtccttcccaagtccctggaacttcctagtttcttcaaggcacag attctgctgtttggggaagtgcgtggaaattctagctcacttatttcagccacagtggtc cgccagatgaacctgtggtttgctacttcctcaccctga >gi568815582r:58420961_58699337|GENSCAN_predicted_peptide_2|175_aa MGRERVGAGLAGLGSCVGLGSCSGLGWAGRGRAQQPRRREKLALGSGARAPPTHRGDADE TDAQAGSGASAPPTRGCRTLLDQVILEVQDGAPGGCGRELTDPPAEEAGIQMLPARAVTS VSPGEDQWCPPPNPLPAPLSALLSSCSLFGSLQAPGTSTIIISKPQGLTMDCESI >gi568815582r:58420961_58699337|GENSCAN_predicted_CDS_2|528_bp atggggcgggagcgagtcggtgcgggactcgcggggctagggtcgtgcgtggggctgggg tcgtgctcggggctgggctgggctgggcggggacgcgcgcagcagccgcggcggcgagag aagctggccctgggctcaggggcgagggcgccgccgactcaccgcggagatgcggacgag acagacgcgcaggcggggagcggggcttcggcgccgccgacgcgcgggtgcaggactctg ttggaccaggtcatcttggaggtccaggatggcgctccagggggctgtggccgtgaatta accgatccaccagctgaggaagctggcatccagatgctgcctgccagagctgtgacctca gtgtcccctggagaagatcaatggtgccccccccccaaccccctgccagccccactctct gctctcctctccagctgctccctctttgggtctctgcaggctcctggaacaagcacaatc atcatcagcaagcctcaagggctcaccatggactgcgaatccatctga >gi568815582r:58420961_58699337|GENSCAN_predicted_peptide_3|1230_aa MSVCPLSQNLTNLAHYQSFRDFGKPGGETGDTGLLLHDVTMAGLQELRFPEEKPLLRGQD ATELSHHRPGTNLQKKPKWESSDAFLLAADTDWKWEQREDQCENLGLCAGPSVTRHFKDE RGDFRAANVHVLRSSGNAISKHKGLWSWKERLGFRQWGVNGSPGVWEADANSADASPSTQ AHGVGDRQRGILESWRRPYHTSGFPTAAAKLPLAPEPSELQPRSCGAQGRQAARTSRVFL RRWCPWAPHMDTQLTVTSGHQSVELAPNCLGLGRARHPDPCCPGEQGTEPEIDLVFCSPE TREPSPKLVASGNEGRRRVPSLGKMPECWDGVSEGAAGIKPWCGLLIPWVVQSAAWLTLR LITWALLEDNREIKRACKSKSVLQGRAFGHQEHDIETPYGLLHVVIRGSPKGNRPAILTY HDVGLNHKLCFNTFFNFEDMQEITKHFVVCHVDAPGQQVPVPLHGAAGCHAPQRGAAFRV SPRTAPALGPRGAYPNCRATWLQLRASGYGQGLLWMTCMGNGTPSPRVTSLLCTRFKYVI GIGVGAGAYVLAKFALIFPDLVEGLVLVNIDPNGKGWIDWAATKLSGLTSTLPDTVLSHL FSQEELVNNTELVQSYRQQIGNVVNQANLQLFWNMYNSRRDLDINRPGTVPNAKTLRCPV MLVVGDNAPAEDGVVECNSKLDPTTTTFLKMADSGGLPQVTQPGKLTEAFKYFLQGMGYM PSASMTRLARSRTASLTSASSVDGSRPQACTHSESSEGLGQPVLRSRRGLLQFPAASLGV GPGHCAHLSQVAGPVDGGDLDPVACFLSWCRRVGLELSPKVAVSRQGTVAGYGMVARESV QAGELLFVVPRAALLSQHTCSIGGLLERERVALQSQSGWVPLLLALLHELQAPASRWRPY FALWPELGRLEHPMFWPEEERRCLLQGTGVPEAVEKDLANIRSEYQSIVLPFMEAHPDLF SLRVRSLELYHQLVALVMAYSFQEPLEEEEDEKEPNSPVMVPAADILNHLANHNANLEYS ANCLRMVATQPIPKGHEIFNTYGQMANWQLIHMYGFVEPYPDNTDDTADIQMVTVREAAL QGTKTEAERHLVYERWDFLCKLEMVGEEGAFVIGREEVLTEEELTTTLKVLCMPAEEFRE LKDQDGGGDDKREEGSLTITNIPKLKASWRQLLQNSVLLTLQTYATDLKTDQGLLSNKEV YAKLSWREQQALQVRYGQKMILHQLLELTS >gi568815582r:58420961_58699337|GENSCAN_predicted_CDS_3|3693_bp atgagtgtgtgcccactttcccagaacctcaccaaccttgcacattatcagtcttttagg gatttcggcaaacctggtggggagactggagacacaggcctcctgctccacgacgtgacc atggccgggctgcaggagctgcgattccctgaggagaagccgctgctccggggccaggac gccaccgagctgagccaccacaggcctggaacgaatctgcagaagaagcccaagtgggag agctccgatgccttcctcttggctgcagacacagactggaagtgggagcaacgcgaggat cagtgtgagaatctgggcctgtgtgctggtccctcggtcacgcgccacttcaaggacgag aggggagacttcagggcagccaatgtacatgtgctcagatcctccgggaatgccatctcc aagcacaaagggctctggagctggaaggagaggctagggttccggcagtggggagtgaat gggagcccaggagtgtgggaggccgacgccaacagtgctgatgccagccccagcacacag gcccacggtgtgggggacaggcagaggggaatcctggagtcgtggaggagaccctaccat acctctgggttcccaactgctgctgcgaagctgcctctggcccctgagccctctgagctg cagccccggagttgcggggcccaggggagacaggcagcacggacctcccgagtgtttcta aggcgatggtgcccatgggcccctcatatggacactcagctgaccgtgacgagtggccac cagagtgtggagttagcaccaaactgcctgggcctcgggcgagctcgccacccagatcct tgctgcccaggagaacagggcacggagcctgagatagacctagtgttctgctccccagag acccgagagccaagccccaaactggttgcctctgggaacgagggccggaggcgggttccc tccctcggcaagatgccggagtgctgggatggggtgagtgagggcgctgcgggcatcaag ccctggtgtggcctcctcatcccctgggtggtgcaatcagccgcatggctcaccctaagg ctcattacctgggctctcctggaggacaacagggaaataaaaagggcctgcaagtcaaag agtgttctccagggtagagcctttggccaccaggaacatgacatcgagacaccctacggc cttctgcatgtagtgatccggggctcccccaaggggaaccgcccagccatcctcacctac catgatgtgggcctcaaccacaaactatgcttcaacaccttcttcaacttcgaggacatg caggagatcaccaagcactttgtggtgtgtcacgtggatgcccctggacaacaggtacca gttcccctccatggagcagctggctgccatgctccccagcgtggtgcagcatttcgggtg agtccccgcacagcccctgcgctagggcccaggggtgcctaccccaactgcagagccacc tggctccagctgagggcttcaggctatgggcagggcctgctctggatgacatgtatggga aatggcacccctagccctagagtgaccagcctgctctgcaccaggttcaagtatgtgatt ggcatcggagtgggcgccggagcctatgtgctggccaagtttgcactcatcttccccgac ctggtggaggggctggtgctggtgaacatcgaccccaatggcaaaggctggatagactgg gctgccaccaagctctccggcctaactagcactttacccgacacggtgctctcccacctc ttcagccaggaggagctggtgaacaacacagagttggtgcagagctaccggcagcagatt gggaacgtggtgaaccaggccaacctgcagctcttctggaacatgtacaacagccgcaga gacctggacattaaccggcctggaacggtgcccaatgccaagacgctccgctgccccgtg atgctggtggttggggataatgcacccgctgaggacggggtggtggagtgcaactccaaa ctggacccgaccactacgaccttcctgaagatggcagactctggagggctgccccaggtc acacagccagggaagctgactgaagccttcaaatacttcctgcaaggcatgggctacatg ccctcagccagcatgacccgcctggcacgctcccgcactgcatccctcaccagtgccagc tcggtggatggcagccgcccacaggcctgcacccactcagagagcagcgaggggctgggc cagcccgttctgcgctcgcgccgcggtctcctgcagttcccagcggcctctctgggggtc ggacctggtcactgcgcgcacttatctcaggtggcggggcccgtggacggcggcgacctg gatcctgtggcctgcttcctgagctggtgccggcgggtggggctggagctgagtcccaag gtggcggtcagccggcagggcacggtggccggctacggcatggtggcccgggagagcgtg caggccggagagctgttgttcgtggtgccgcgggccgcgctcctgtcgcagcacacctgc tccatcggcggcctgctggagcgagagcgagttgcgctgcagagccagtcgggctgggtg ccactgctgctggcgctgctccacgagctgcaggccccggcctcacgctggaggccctac tttgcgctctggcccgagctgggccgcttggagcacccgatgttctggccagaggaggag cgccggtgcctgctccagggcacaggcgtacctgaggccgtggagaaggatttggccaac atccgcagcgagtaccagtccatcgtgctgcccttcatggaagcccaccccgatctcttc agcctcagggttcgctccctagaactctaccaccagctggtggcccttgtgatggcctat agctttcaggaaccactggaggaagaagaggatgaaaaggagcccaactcccccgtgatg gtgcctgctgcagacatactaaaccacttagccaatcacaacgccaatctagaatactct gcgaattgtcttcggatggtagccactcagcccattcctaaaggccatgagattttcaac acttatgggcaaatggctaactggcaactgattcatatgtacggttttgttgaaccatat cctgacaacacagatgacacagctgacattcagatggtgacagttcgtgaggcagcatta cagggaacaaaaactgaagctgaaaggcacctagtgtacgagcgctgggatttcctatgc aaactggagatggtaggggaagagggagcctttgtgatagggagggaggaggtgctgact gaagaggagctgaccaccacactaaaggtactgtgcatgcctgctgaggagttcagagag cttaaagaccaggatggagggggagatgataaaagggaagagggcagcctgacgatcaca aatattcccaagctcaaagcatcgtggagacagctgcttcaaaacagtgttctactgact ttgcagacctatgccacagacttaaaaactgaccaaggtttactcagtaataaggaagtc tatgcgaaactcagctggagggaacagcaagccttacaggttcgctatggtcagaagatg atcttacatcagttgttggagctgacaagttag >gi568815582r:58420961_58699337|GENSCAN_predicted_peptide_4|2149_aa MNLDSLSLALSQISYLVDNLTKKNYRASQQEIQHTQFLIQECALLITKPNFISTLSYAID NPLHYQKVIFGLALLNSSSSDLRGFAAQFIKQKLPDLLRSYIDADVSGNQEGGFQDIAIE VLHLLLSHLLFGQKGAFGVGQEQIDAFLKTLRRDFPQERCPVVLAPLLYPEKRDILMDRI LPDSGGVAKTMMESSLADFMQEVGYGFCASIEECRNIIVQFGVREVTAAQVARVLGMMAR THSGLTDGIPLQSISAPGSGIWSDGKDKSDGAQAHTWNVEVLIDVLKELNPSLNFKEVTY ELDHPGFQIRDSKGLHNVVYGIQRGLGMEVFPVDLIYRPWKHAEGQLSFIQHSLINPEIF CFADYPCHTVATDILKAPPEDDNREIATWKSLDLIESLLRLAEVGQYEQVKQLFSFPIKH CPDMLVLALLQINTSWHTLRHELISTLMPIFLGNHPNSAIILHYAWHGQGQSPSIRQLIM HAMAEWYMRGEQYDQAKLSRILDVAQDLKALSMLLNGTPFAFVIDLAALASRREYLKLDK WLTDKIREHGASSTVLITIGFQSVSQELSETILTMVANCSNVMNKARQPPPGVMPKGRPP SASSLDAISPVQIDPLAGMTSLSIGGSAAPHTQSMQGFPPNLGSAFSTPQSPAKAFPPLS TPNQTTAFSGIGGLSSQLPGGLGTGSLTGIGTGALGLPAVNNDPFVQRKLGTSGLNQPTF QQSKMKPSDLSQVWPEANQHFSKEIDDEANSYFQRIYNHPPHPTMSVDEVLEMLQRFKDS TIKREREVFNCMLRNLFEEYRFFPQYPDKELHITACLFGGIIEKGLVTYMALGLALRYVL EALRKPFGSKMYYFGIAALDRFKNRLKDYPQYCQHLASISHFMQFPHHLQEYIEYGQQSR DPPVKMQGSITTPGSIALAQAQAQAQVPAKAPLAGQVSTMVTTSTTTTVAKTVTVTRPTG VSFKKDVPPSINTTNIDTLLVATDQTERIVEPPENIQEKIAFIFNNLSQSNMTQKVEELK ETVKEEFMPWVSQYLVMKRVSIEPNFHSLYSNFLDTLKNPEFNKMVLNETYRNIKDLDVK SLLLEAYVKGQQELLYVVPFVAKVLESSIRSVLNLKFEIEVLCKNLALDINELKPGNLLK DKDRLKNLDEQLSAPKKDVKQPEELPPITTTTTSTTPATNTTCTATVPPQPQYSYHDINV YSLAGLAPHITLNPTAHPQLKQCVRQAIERAVQELVHPVVDRSIKIAMTTCEQIVRKDFA LDSEESRMRIAAHHMMRNLTAGMAMITCREPLLMSISTNLKNSFASALRTASPQQREMMD QAAAQLAQDNCELACCFIQKTAVEKAGPEMDKRLATEFELRKHARQEGRRYCDPVVLTYQ AERMPEQIRLKVGGVDPKQLAVYEEFARNVPGFLPTNDLSQPTGFLAQPMKQAWATDDVA QIYDKCITELEQHLHAIPPTLAMNPQAQALRSLLEVVVLSRNSRDAIAALGLLQKAVEGL LDATSGADADLLLRYRECHLLVLKALQDGRAYGSPWCNKQITRCLIECRDEYKYNVEAVE LLIRNHLVNMQQYDLHLAQSMENGLNYMAVAFAMQLVKILLVDERSVAHVTEADLFHTIE TLMRINAHSRGNAPEGLPQLMEVVRSNYEAMIDRAHGGPNFMMHSGISQASEYDDPPGLR EKAEYLLREWVNLYHSAAAGRDSTKAFSAFVGQMHQQGILKTDDLITRFFRLCTEMCVEI SYRAQAEQQHNPAANPTMIRAKCYHNLDAFVRLIALLVKHSGEATNTVTKINLLNKVLGI VVGVLLQDHDVRQSEFQQLPYHRIFIMLLLELNAPEHVLETINFQTLTAFCNTFHILRPT KAPGFVYAWLELISHRIFIARMLAHTPQQKGWPMYAQLLIDLFKYLAPFLRNVELTKPMQ ILYKVDMLSEINIAPRILTNFTGVMPPQFKKDLDSYLKTRSPVTFLSDLRSNLQVSNEPG NRYNLQLINALVLYVGTQAIAHIHNKGSTPSMSTITHSAHMDIFQNLAVDLDTEGRYLFL NAIANQLRYPNSHTHYFSCTMLYLFAEANTEAIQEQITRVLLERLIVNRPHPWGLLITFI ELIKNPAFKFWNHEFVHCAPEIEKLFQSVAQCCMGQKQAQQVMEGTGAS >gi568815582r:58420961_58699337|GENSCAN_predicted_CDS_4|6450_bp atgaatcttgactcgctctcgctggccttgtctcaaatcagctacctggtggacaattta accaagaaaaattaccgagccagccagcaggaaatacagcatactcagtttctgattcag gagtgtgcgttgctgattacaaagccaaattttatctcgacgctgtcctatgccattgat aatccattgcactatcagaaggtaatttttggccttgccctgttgaattcttccagctca gatcttagaggtttcgctgcccagtttatcaaacagaagcttccagatcttctgcgttct tacattgacgcagacgtcagtggaaatcaagaaggtggcttccaagatatagcaatagag gtcctacacctcctcctctcccatctcctctttgggcagaagggagcctttggagttgga caagaacagatagacgcttttcttaagacgctgcgcagagattttccccaagaacgctgt cccgtggtgctcgcaccacttttataccctgaaaaacgggacattctaatggacaggatc ctgcctgattccggaggggtagctaaaaccatgatggagagctctttggctgatttcatg caagaagtaggctatggcttttgtgcaagtattgaagaatgtcgcaatataatcgtgcag tttggtgttcgggaggtcacagctgcccaggttgcaagggttttgggaatgatggctcga actcattcaggattaacagatggcattccattacagagtatttctgctccgggcagtggg atctggagtgatgggaaagataaaagtgatggagcacaggcacacacatggaatgtagaa gtcttgattgacgttcttaaagaactgaatccaagtttgaatttcaaggaagtaacttat gaactggaccatcctggatttcaaattcgtgacagtaaaggacttcataatgtggtttat ggcattcagaggggtttgggtatggaagtgttcccagtagacctcatatatagaccttgg aaacatgctgaaggccagctctccttcattcaacattcccttataaatccagagatcttc tgttttgctgactatccctgtcatactgttgccactgatattctgaaagcaccaccagag gatgacaatcgagaaattgccacatggaagagcttggatttgattgaatctctgctgagg cttgcagaggttgggcagtatgagcaagtcaaacagctcttcagcttccctatcaaacac tgtccagacatgctggtattggccttactacaaattaacacctcttggcataccttgcgc catgaacttatctccactctgatgccaattttccttggaaaccatcctaactcagctatt attttgcactatgcatggcatgggcagggacagtctccctcaattcgccaacttatcatg catgcaatggcagaatggtacatgagaggggagcagtatgatcaggccaaattgtctcga atacttgatgtggcccaggacttgaaggccttgtcaatgctgctaaatggtactccattt gcctttgttattgaccttgctgcacttgcttcacgtcgtgaatacctcaaacttgataag tggctcacagataaaattcgagagcatggggccagttccacagtcttgatcacaataggt tttcagagtgtttctcaggagctatcagaaactatcctcaccatggtagccaattgcagt aatgttatgaataaggccagacaaccaccacctggagttatgccaaaaggacgtcctcct agtgctagcagcttagatgccatttctcctgttcagattgaccctcttgctggaatgaca tctcttagtataggtggttcagctgcccctcacacccagagtatgcagggttttcctcca aatttgggttctgcattcagtacccctcagtcaccagcaaaagcatttccacccctttca acccccaatcagaccactgcattcagtggtattggaggactttcatcacagcttccaggt ggtcttggcacaggcagcctgactggtataggaactggtgctcttggactccctgcagtg aataacgacccttttgtacagaggaaactgggcacctctggactgaatcagcctacattc cagcagagtaagatgaaaccttcggacttgtctcaggtgtggccagaggcaaaccagcac tttagtaaagagatagatgatgaagcaaacagctatttccagcgaatatataatcatcca ccacatccaaccatgtctgttgatgaggtattagaaatgctgcagagatttaaagactct actataaagagggaacgagaagtatttaactgtatgctaaggaacttgtttgaagaatat cgtttttttccccagtatcctgataaagagttacatataacagcctgcctatttggtggt ataattgagaaaggactggtcacttacatggcactaggtctggctctacgatatgttctt gaagccttacgcaagccttttggatccaaaatgtattatttcgggattgctgcactagat agatttaaaaacagattgaaggactatccccagtattgtcagcatttggcttctatcagt cactttatgcaatttccacatcatttacaggagtatattgagtatggacagcagtctaga gatcctcctgtgaaaatgcaaggctctatcacaacccctggaagtattgcactggctcag gcccaggctcaggcccaggttccagcaaaagctcctcttgctggtcaagttagcactatg gtaaccacctcaacaactaccactgttgctaaaacggttacggtcaccaggccaactgga gtcagctttaagaaagatgtgccaccttctattaatactacaaatatagatacgttgctt gtggccacagatcaaactgagagaattgtggagcccccagaaaatatccaggagaaaatt gcttttattttcaataatctctcacagtcaaatatgacacaaaaggttgaagagctaaag gaaacggtgaaagaagaatttatgccttgggtttcacagtatctggttatgaagagagtc agtattgagccaaactttcatagcctgtattcaaacttccttgacacgctgaagaatcct gaatttaacaagatggttctgaatgagacctacagaaacattaaagacttggatgtgaaa tcattgctgctagaggcttatgttaaaggacaacaagaattgctctatgtagtgcccttt gttgccaaagtcttagaatctagcattcgtagtgtgttaaacttgaagtttgaaatcgag gttctctgcaagaaccttgcattagacatcaatgagctaaaacctggaaacctcctaaag gataaagatcgcctgaagaatttagatgagcaactctctgctccaaagaaagatgtcaag cagccagaagaactccctcccatcacaaccacaacaacttctactacaccagctaccaac accacttgtacagccacggttccaccacagccacagtacagctaccacgacatcaatgtc tattcccttgcgggcttggcaccacacattactctgaatccaacagcccatccacagttg aagcagtgtgtgcgtcaggcaattgaacgggctgtccaggagctggtccatcctgtggtg gatcgatcaattaagattgccatgactacttgtgagcaaatagtcaggaaggattttgcc ctggattcggaggaatctcgaatgcgaatagcagctcatcacatgatgcgtaacttgaca gctggaatggctatgattacatgcagggaacctttgctcatgagcatatctaccaactta aaaaacagttttgcctcagcccttcgtactgcttccccacaacaaagagaaatgatggat caggcagctgctcaattagctcaggacaattgtgagttggcttgctgttttattcagaag actgcagtagaaaaagcaggccctgagatggacaagagattagcaactgaatttgagctg agaaaacatgctaggcaagaaggacgcagatactgtgatcctgttgttttaacatatcaa gctgaacggatgccagagcaaatcaggctgaaagttggtggtgtggacccaaagcagttg gctgtttacgaagagtttgcacgcaatgttcctggcttcttacctacaaatgacttaagt cagcccacgggatttttagcccagcccatgaagcaagcttgggcaacagatgatgtagct cagatttatgataagtgtattacagaactggagcaacatctacatgccatcccaccaact ttggccatgaaccctcaagctcaggctcttcgaagtctcttggaggttgtagttttatct cgaaactctcgggatgccatagctgctcttggattgctccaaaaggctgtagagggctta ctagatgccacaagtggtgctgatgctgaccttctgctgcgctacagggaatgccacctc ttggtcctaaaagctctgcaggatggccgggcatatgggtctccatggtgcaacaaacag atcacaaggtgcctaattgaatgtcgagatgaatataaatataatgtggaggctgtggag ctgctaattcgcaatcatttggttaatatgcagcagtatgatcttcacctagcgcagtca atggagaatggcttaaactacatggctgtggcatttgctatgcagttagtaaaaatcctg ctggtggatgaaaggagtgttgctcatgttactgaggcagatctgttccacaccattgaa accctcatgaggattaatgctcattccagaggcaatgctccagaaggattgccccagctg atggaagtagtgcgatccaactatgaagcaatgattgatcgtgctcatggaggcccaaac tttatgatgcattctgggatctctcaagcctcagagtatgatgaccctccaggcctgagg gagaaggcagagtatcttctgagggaatgggtgaatctctaccattcagcagcagctggc cgcgacagtaccaaagctttctctgcatttgttggacagatgcaccagcaaggaatactg aagaccgatgatctcataacaaggttctttcgtctgtgtactgaaatgtgtgttgaaatc agttaccgtgctcaggctgagcagcagcacaatcctgctgccaatcccaccatgatccga gccaagtgctatcacaacctggatgcctttgttcgactcattgcactgctcgtgaaacac tcaggggaggccaccaacactgtcacaaagattaatctgctgaacaaggtccttggtata gtagtgggagttctccttcaggatcatgatgttcgtcagagtgaatttcagcaacttccc taccatcgaatttttatcatgcttctcttggaactcaatgcacctgagcatgtgttggaa accattaatttccagacacttacagctttctgcaatacattccacatcttgaggcctacc aaagctcctggctttgtatatgcctggcttgaactgatttcccatcggatatttattgca agaatgctggcacatacgccacagcagaaggggtggcctatgtatgcacagctactgatt gatttattcaaatatttagcgcctttccttagaaatgtggaactcaccaaacctatgcaa atcctctacaaggtggacatgttgagtgaaattaacattgctccccggattctcaccaat ttcactggagtaatgccacctcagttcaaaaaggatttggattcctatcttaaaactcga tcaccagtcactttcctgtctgatctgcgcagcaacctacaggtatccaatgaacctggg aatcgctacaacctccagctcatcaatgcactggtgctctatgtcgggactcaggccatt gcgcacatccacaacaagggcagcacaccttcaatgagcaccatcactcactcagcacac atggatatcttccagaatttggctgtggacttggacactgagggtcgctatctctttttg aatgcaattgcaaatcagctccggtacccaaatagccacactcactacttcagttgcacc atgctgtacctttttgcagaggccaatacggaagccatccaagaacagatcacaagagtt ctcttggaacggttgattgtaaataggccacatccttggggtcttcttattaccttcatt gagctgattaaaaacccagcgtttaagttctggaaccatgaatttgtacactgtgcccca gaaatcgaaaagttattccagtcggtcgcacagtgctgcatgggacagaagcaggcccag caagtaatggaagggacaggtgccagttag >gi568815582r:58420961_58699337|GENSCAN_predicted_peptide_5|205_aa MQANLEMAGNGVTSMGMEPLAIPHIYCCSEGTCNFSNTENHCLRAVLEAYGMIQGIGLNI YHRYSPWWEARGYQGHYTADMSNLFRRYQFNVATWGAATNEDALLLRWERVGIGFRGLGL LAGGTVFGVFACFQFFSVYSELPLSPSYAPSTLSKPPRFRVSPDGKGGREQALPYYLLQV LFHSRAWALTLSLKLAPTYSVRCLQ >gi568815582r:58420961_58699337|GENSCAN_predicted_CDS_5|618_bp atgcaggccaatttagaaatggcaggaaatggggtgacttccatgggaatggagcctctg gccattcctcacatctactgctgctctgagggcacctgcaacttcagcaacacagagaac cactgcctgagagcggtcctagaagcttatggcatgattcagggcattggcctcaacatt taccaccgctactcaccctggtgggaggcacgtggctaccaggggcattacactgctgac atgagcaaccttttccgaagataccagttcaacgtggccacctggggcgcagcgacgaac gaagacgcattacttctgcgatgggaacgggtgggcatcggcttccgaggcctagggctt ctggcgggggggaccgtgtttggagtttttgcatgtttccagttcttctccgtgtactcg gagctgccactctccccgtcttacgcccccagcacgttgtcaaagccccccaggtttcgg gtgtccccggatgggaagggcgggcgggagcaagcacttccttattacttgctacaggtt ttgttccactcgcgcgcctgggcgctcacactttctttgaagttggcccccacctactcg gtccggtgtctgcagtag >gi568815582r:58420961_58699337|GENSCAN_predicted_peptide_6|462_aa MAQVSINNDYSEWDLSTDAGERARLLQSPCVDTAPKSEWEASPGGLDRGTTSTLGAIFIV VNACLGAGLLNFPAAFSTAGGVAAGIALQMGMLVFIISGLVILAYCSQASNERTYQEVVW AVCGKLTGVLCEVAIAVYTFGTCIAFLIIIGDQQDKIIAVMAKEPEGASGPWYTDRKFTI SLTAFLFILPLSIPREIGFQKYASFLSVVGTWYVTAIVIIKYIWPDKEMTPGNILTRPAS WMAVFNAMPTICFGFQCHVSSVPVFNSMQQPEVKTWGGVVTAAMVIALAVYMGTGICGFL TFGAAVDPDVLLSYPSEDMAVAVARAFIILSVLTSYPILHFCGRAVVEGLWLRYQGVPVE EDVGRERRRRVLQTLVWFLLTLLLALFIPDIGKVISVIGGLAACFIFVFPGLCLIQAKLS EMEEVKPASWWVLVSYGVLLVTLGAFIFGQTTANAIFVDLLA >gi568815582r:58420961_58699337|GENSCAN_predicted_CDS_6|1389_bp atggcccaggtcagcatcaacaatgactacagcgagtgggacttgagcacggatgccggg gagcgggctcggctgctgcagagtccctgtgtggacacagcccccaagagtgagtgggaa gcctctcctgggggtctggacagaggcaccacttccacacttggggccatcttcatcgtc gtcaacgcgtgcctgggtgcagggttactcaacttcccagcagccttcagcactgcgggg ggcgtggcagcaggcatcgcactgcagatgggtatgctggttttcatcatcagtggcctt gtcatcctggcctactgctcccaggccagcaatgagaggacctaccaggaggtggtatgg gctgtgtgtggcaagctgacaggtgtgctatgtgaggtggccatcgctgtctacaccttt ggcacctgcattgccttcctaatcatcattggcgaccagcaggacaagattatagctgtg atggcgaaagagccggagggggccagcggcccttggtacacagaccgcaagttcaccatc agcctcactgccttcctcttcatcctgcccctctccatccccagggagattggtttccag aaatatgccagcttcctgagcgtcgtgggtacctggtacgtcacagccatcgttatcatc aagtacatctggccagataaagagatgaccccagggaacatcctgaccaggccggcttcc tggatggctgtgttcaatgccatgcccaccatctgcttcggatttcagtgccacgtcagc agtgtgcccgtcttcaacagcatgcagcagcctgaagtgaagacctggggtggagtggtg acagctgccatggtcatagccctcgctgtctacatggggacaggcatctgtggcttcctg acctttggagctgctgtggatcctgacgtgctcctgtcctatccctcggaggacatggcc gtggccgttgcccgagccttcatcatcctgagcgtgctcacctcctaccctatcctgcac ttctgtgggcgggcggtggtggaaggcctgtggctgcgctaccagggggtgccagtggag gaggacgtggggcgggagcggcggcggcgagtgctgcagacgctggtctggttcctgctc accctgctgctggcgctcttcatccctgacatcggcaaggtgatctcagtcattggaggc ctggccgcctgcttcatcttcgtcttcccagggctgtgcctcattcaagccaaactctct gagatggaagaggtcaaaccagccagctggtgggtgctggtcagctacggagtcctcttg gtcaccctgggagccttcatcttcggccagaccacagccaacgccatctttgtggatctc ttggcataa