GENSCAN 1.0 Date run: 5-Nov-116 Time: 14:06:55 Sequence gi568815586f:56239045_56440101 : 201057 bp : 47.51% 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 Intr + 734 758 25 0 1 134 51 27 0.427 0.68 1.02 Term + 980 1190 211 2 1 109 35 85 0.762 2.07 1.03 PlyA + 1568 1573 6 1.05 2.29 PlyA - 3202 3197 6 -1.75 2.28 Term - 4348 4098 251 2 2 121 41 249 0.628 19.37 2.27 Intr - 4832 4741 92 1 2 72 98 118 0.999 10.84 2.26 Intr - 5089 5007 83 1 2 109 76 92 0.999 8.54 2.25 Intr - 5391 5309 83 1 2 65 75 94 0.967 5.16 2.24 Intr - 5753 5608 146 1 2 107 57 255 0.967 24.23 2.23 Intr - 5945 5862 84 1 0 163 113 64 0.999 15.34 2.22 Intr - 6146 6059 88 0 1 100 84 10 0.954 0.83 2.21 Intr - 6552 6333 220 0 1 90 39 235 0.777 16.67 2.20 Intr - 8566 8449 118 0 1 116 84 141 0.999 16.97 2.19 Intr - 8730 8643 88 1 1 116 79 180 0.999 18.93 2.18 Intr - 9180 8979 202 0 1 42 53 408 0.999 31.56 2.17 Intr - 9522 9451 72 0 0 120 68 47 0.958 5.50 2.16 Intr - 9826 9715 112 0 1 101 84 118 0.997 13.08 2.15 Intr - 13051 12971 81 0 0 145 70 90 0.998 11.65 2.14 Intr - 13271 13131 141 1 0 120 78 79 0.998 9.57 2.13 Intr - 13853 13736 118 0 1 117 96 77 0.997 10.92 2.12 Intr - 14042 13960 83 1 2 88 91 3 0.831 -0.12 2.11 Intr - 14358 14244 115 1 1 92 117 187 0.999 21.51 2.10 Intr - 14756 14678 79 2 1 42 56 83 0.997 -0.38 2.09 Intr - 15235 15023 213 1 0 57 51 334 0.981 25.51 2.08 Intr - 15676 15534 143 2 2 104 55 211 0.820 19.47 2.07 Intr - 15908 15821 88 2 1 34 66 80 0.744 -0.06 2.06 Intr - 16940 16740 201 2 0 97 78 173 0.891 16.68 2.05 Intr - 18059 17971 89 0 2 82 69 56 0.883 2.79 2.04 Intr - 18317 18218 100 2 1 109 70 79 0.891 7.88 2.03 Intr - 19161 18784 378 0 0 136 105 207 0.979 22.36 2.02 Intr - 19345 19199 147 1 0 63 76 169 0.890 13.63 2.01 Init - 19967 19959 9 2 0 48 61 0 0.227 -6.15 2.00 Prom - 20264 20225 40 -2.96 3.00 Prom + 26440 26479 40 -5.56 3.01 Init + 28075 28208 134 0 2 73 78 133 0.994 8.41 3.02 Intr + 28768 28896 129 1 0 63 86 72 0.609 4.31 3.03 Intr + 30015 30207 193 0 1 114 100 222 0.991 25.49 3.04 Intr + 30416 30517 102 1 0 81 109 94 0.999 11.17 3.05 Term + 31106 31273 168 1 0 82 54 185 0.952 12.38 3.06 PlyA + 31626 31631 6 1.05 4.42 PlyA - 31934 31929 6 1.05 4.41 Term - 34210 34040 171 1 0 91 41 149 0.761 8.33 4.40 Intr - 34752 34543 210 0 0 101 111 170 0.999 19.71 4.39 Intr - 35834 35733 102 2 0 68 102 126 0.981 12.37 4.38 Intr - 36087 35958 130 2 1 117 110 97 0.999 15.50 4.37 Intr - 37151 36952 200 2 2 73 115 203 0.998 19.65 4.36 Intr - 43564 43376 189 1 0 128 75 116 0.991 14.08 4.35 Intr - 43947 43816 132 0 0 89 103 86 0.997 11.04 4.34 Intr - 44813 44748 66 2 0 113 94 35 0.979 5.70 4.33 Intr - 46979 46872 108 2 0 91 91 96 0.990 10.68 4.32 Intr - 47601 47551 51 0 0 107 103 -13 0.659 1.20 4.31 Intr - 48045 47959 87 0 0 68 61 48 0.485 0.27 4.30 Intr - 60351 60245 107 1 2 75 95 -7 0.063 -1.37 4.29 Intr - 61279 61116 164 0 2 69 105 16 0.011 1.02 4.28 Intr - 70985 70922 64 0 1 79 78 38 0.055 -0.32 4.27 Intr - 72010 71914 97 1 1 66 115 112 0.959 11.28 4.26 Intr - 72370 72167 204 1 0 -35 89 402 0.904 27.40 4.25 Intr - 75922 75807 116 2 2 98 78 167 0.988 16.87 4.24 Intr - 77175 76974 202 0 1 56 49 136 0.040 5.36 4.23 Intr - 79390 79227 164 2 2 75 46 196 0.271 13.79 4.22 Intr - 80137 80044 94 1 1 105 92 19 0.999 3.54 4.21 Intr - 80443 80234 210 1 0 108 33 159 0.592 11.51 4.20 Intr - 80720 80577 144 2 0 67 67 93 0.973 5.58 4.19 Intr - 80977 80820 158 2 2 80 76 194 0.951 17.13 4.18 Intr - 83124 83034 91 0 1 82 98 58 0.985 5.77 4.17 Intr - 83438 83379 60 2 0 76 96 25 0.667 1.03 4.16 Intr - 83742 83571 172 2 1 55 105 139 0.912 12.25 4.15 Intr - 84165 83974 192 2 0 43 81 131 0.679 6.51 4.14 Intr - 84340 84267 74 1 2 77 74 60 0.940 1.70 4.13 Intr - 84554 84456 99 2 0 113 94 80 0.987 11.41 4.12 Intr - 84869 84763 107 0 2 34 113 121 0.991 9.13 4.11 Intr - 85138 84993 146 0 2 53 19 117 0.343 1.23 4.10 Intr - 85449 85250 200 0 2 65 80 46 0.922 -0.35 4.09 Intr - 85665 85537 129 0 0 117 82 40 0.782 7.19 4.08 Intr - 86084 85965 120 2 0 62 110 134 0.998 13.69 4.07 Intr - 86410 86252 159 1 0 47 75 161 0.956 10.88 4.06 Intr - 87455 87269 187 1 1 80 89 139 0.512 12.89 4.05 Intr - 87915 87573 343 1 1 113 6 163 0.948 5.09 4.04 Intr - 88587 88320 268 0 1 87 80 245 0.975 20.71 4.03 Intr - 89314 89194 121 0 1 100 82 23 0.998 3.40 4.02 Intr - 89597 89428 170 2 2 112 95 152 0.997 17.04 4.01 Init - 94050 93769 282 0 0 88 78 200 0.658 16.11 4.00 Prom - 99066 99027 40 -10.15 5.00 Prom + 99537 99576 40 -10.35 5.01 Init + 100001 100162 162 1 0 59 101 144 0.976 10.53 5.02 Intr + 100382 100480 99 1 0 117 81 80 0.996 10.51 5.03 Intr + 100647 100793 147 2 0 110 80 27 0.947 4.53 5.04 Term + 100899 101060 162 2 0 99 43 76 0.990 2.14 5.05 PlyA + 101343 101348 6 1.05 6.23 PlyA - 102577 102572 6 1.05 6.22 Term - 104487 104345 143 1 2 42 49 126 0.960 2.19 6.21 Intr - 105091 104781 311 0 2 67 106 159 0.985 11.56 6.20 Intr - 107159 107102 58 0 1 77 66 42 0.996 -1.16 6.19 Intr - 107580 107398 183 1 0 79 81 279 0.979 26.06 6.18 Intr - 107911 107775 137 0 2 83 49 182 0.970 14.01 6.17 Intr - 109579 109485 95 1 2 102 82 60 0.890 5.56 6.16 Intr - 109760 109708 53 0 2 121 88 -9 0.864 1.03 6.15 Intr - 110015 109880 136 2 1 101 17 95 0.968 3.84 6.14 Intr - 110217 110119 99 0 0 108 91 -18 0.616 0.81 6.13 Intr - 110465 110382 84 2 0 87 87 113 0.999 11.12 6.12 Intr - 110592 110545 48 0 0 96 100 50 0.983 5.88 6.11 Intr - 111146 111053 94 1 1 53 99 19 0.999 -0.53 6.10 Intr - 111844 111785 60 0 0 120 99 74 0.998 9.55 6.09 Intr - 112146 112054 93 2 0 103 58 87 0.986 6.28 6.08 Intr - 112406 112248 159 1 0 66 30 122 0.905 3.30 6.07 Intr - 115570 115422 149 1 2 78 81 175 0.994 14.83 6.06 Intr - 115819 115734 86 2 2 65 81 64 0.998 2.94 6.05 Intr - 116307 116232 76 0 1 89 97 101 0.998 10.19 6.04 Intr - 116488 116399 90 1 0 57 88 87 0.982 5.79 6.03 Intr - 117241 117088 154 0 1 64 80 159 0.971 12.77 6.02 Intr - 117518 117397 122 2 2 -2 81 141 0.040 3.69 6.01 Init - 122927 122262 666 2 0 76 86 429 0.120 34.73 6.00 Prom - 131052 131013 40 -5.06 7.03 PlyA - 132666 132661 6 1.05 7.02 Term - 143565 143232 334 2 1 29 37 228 0.333 5.88 7.01 Init - 143769 143711 59 0 2 61 85 77 0.446 3.54 7.00 Prom - 147741 147702 40 -6.46 8.00 Prom + 149722 149761 40 -4.26 8.01 Init + 162504 162679 176 2 2 66 72 71 0.333 2.12 8.02 Term + 163136 163883 748 2 1 44 53 289 0.219 13.93 8.03 PlyA + 165249 165254 6 1.05 9.28 PlyA - 165481 165476 6 1.05 9.27 Term - 178742 178672 71 0 2 115 49 140 0.999 10.90 9.26 Intr - 178964 178863 102 0 0 73 75 190 0.999 16.35 9.25 Intr - 179315 179090 226 2 1 81 52 235 0.979 16.76 9.24 Intr - 181643 181525 119 0 2 58 99 106 0.742 8.88 9.23 Intr - 181837 181769 69 2 0 65 101 107 0.889 8.85 9.22 Intr - 182090 181919 172 2 1 11 100 165 0.985 9.52 9.21 Intr - 182449 182307 143 2 2 67 20 194 0.999 10.57 9.20 Intr - 182765 182683 83 1 2 68 101 74 0.999 5.98 9.19 Intr - 182972 182855 118 0 1 71 75 141 0.999 10.62 9.18 Intr - 183225 183062 164 2 2 134 100 68 0.498 12.22 9.17 Intr - 183948 183803 146 0 2 91 99 242 0.999 24.68 9.16 Intr - 184431 184230 202 2 1 87 59 167 0.975 12.99 9.15 Intr - 184663 184540 124 2 1 104 62 231 0.999 21.74 9.14 Intr - 184850 184753 98 1 2 95 86 74 0.999 7.55 9.13 Intr - 185869 185718 152 1 2 88 103 116 0.985 12.06 9.12 Intr - 186108 185971 138 0 0 104 96 102 0.999 13.26 9.11 Intr - 189361 189192 170 2 2 90 84 147 0.991 14.17 9.10 Intr - 189608 189505 104 1 2 74 42 179 0.977 11.72 9.09 Intr - 190056 189839 218 0 2 57 117 267 0.983 23.80 9.08 Intr - 191237 191061 177 2 0 2 100 194 0.576 12.12 9.07 Intr - 191924 191837 88 1 1 111 92 58 0.994 8.47 9.06 Intr - 192560 192427 134 2 2 108 109 140 0.999 17.54 9.05 Intr - 193480 193325 156 1 0 27 94 171 0.980 11.81 9.04 Intr - 194083 193982 102 1 0 80 100 80 0.989 8.77 9.03 Intr - 194399 194337 63 2 0 82 105 108 0.998 10.81 9.02 Intr - 194608 194494 115 0 1 101 78 -1 0.953 0.65 9.01 Init - 194958 194729 230 0 2 81 7 154 0.536 4.45 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 76173 76086 88 0 1 57 88 174 0.961 13.10 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_1|78_aa XPGSKKVLGTKQKEKPPPPGAAPHPNLGCTFSGFQQSYGSGGHGAGEVARQSQWTVAVTR VCWSFLGPTVCAIRFSEG >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_1|237_bp ngtccagggagtaagaaggtgctcggcaccaaacaaaaggagaagccccctcccccaggg gctgctccccaccccaacctgggctgtacattcagtggttttcagcagtcctatggctca gggggccacggggcaggggaggtggcccgtcagtctcagtggacagtggcagtgacccgg gtctgctggtccttcctgggacccacggtttgtgccattcgtttttctgaaggatag >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_2|1207_aa MESAGPRSPCSRHRSRRLGRSVSPVEPPPPPPGARCGRSPGRAMGILSITDQGSALPSRE PGDVRPRLGLSPGLPQLPPRPMPRSPQPSRCPWGPGNRRRHRGSSLQPESLEWSPSTDAP HSNLGAPPPPPPHRFRSGSSPLSECRFSLQPPLVQAIFSRDVEEVRSLLSQKENINVLDQ ERRTPLHAAAYVGDVPILQLLLMSGESGELEGNYIPTGANVNAKDTLWLTPLHRAAASRN EKVLGLLLAHSADVNARDKLWQTPLHVAAANRATKCAEALAPLLSSLNVADRSGRSALHH AVHSGHLETVNLLLNKGASLNVCDKKERQPLHWAAFLGHLEVLKLLVARGADLGCKDRKG YGLLHTAAASGQIEVVKYLLRMGAEIDEPNAFGNTALHIACYLGQDAVAIELVNAGANVN QPNDKGFTPLHVAAVSTNGALCLELLVNNGADVNYQSKEGKSPLHMAAIHGRFTRSQILI QNGSEIDCADKFGNTPLHVAARYGHELLISTLMTNGADTARRGIHDMFPLHLAVLFGFSD CCRKLLSSGQLYSIVSSLSNEHVLSAGFDINTPDNLGRTCLHAAASGGTPLHYAAANGSY QCAVTLVTAGAGVNEADCKGCSPLHYAAASDTYRRAEPHTPSSHDAEEDEPLKESRRKEA FFCLEFLLDNGADPSLRDRQGYTAVHYAAAYGNRQNLELLLEMSFNCLEDVESTIPVSPL HLAAYNGHCEALKTLAETLVNLDVRDHKGRTALFLATERGSTECVEVLTAHGASALIKER KRKWTPLHAAAASGHTDSLHLLIDSGERADITDVMDAYGQTPLMLAIMNGHVDCVHLLLE KGSTADAADLRGRTALHRGAVTGCEDCLAALLDHDAFVLCRDFKGRTPIHLASACGHTAV LRTLLQAALSTDPLDAGVDYSGYSPMHWASYTGHEDCLELLLEHSPFSYLEGNPFTPLHC AVINNQDSTTEMLLGALGAKIVNSRDAKGRTPLHAAAFADNVSGLRMLLQHQAEVNATDH TGRTALMTAAENGQTAAVEFLLYRGKADLTVLDENKNTALHLACSKGHEKCALMILAETQ DLGLINATNSALQMPLHIAARNGLASVVQALLSHGATVLAVDEEGHTPALACAPNKDVAD CLALILSTMKPFPPKDAVSPFSFSLLKNCSIAAAKTVGGCGALPHGASCPYSQERPGAIG LDGCYSE >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_2|3624_bp atggaatcagcggggccgcgctctccctgcagccgccaccgcagccgccgcctgggccgc tccgtgtccccggtggagccgccgccgccgccgccgggagctcgatgcggacggagcccg ggccgagccatggggatcctcagcatcacggaccagggctcggcgctgccgtcacgcgag cccggggatgtgcggcctaggctgggcctgagcccggggctcccgcagctcccgccccgc cccatgccgcgctcccctcaaccgagccggtgtccttggggacctggcaaccggcggagg caccgcgggagctcgctccagccagaatccctagagtggagcccctccacggacgccccc cactcaaacctaggtgctcccccacccccacccccacaccggttccgctccggctccagc ccgctctcagaatgccggttctctctgcagccgcccctggtccaggccatctttagccga gatgtggaggaagtgcgttccctactctcgcagaaggagaacatcaatgtgctggaccaa gagaggcgaactccattgcatgctgctgcctacgtaggcgatgtccccatcctccagttg ctactgatgtcaggtgaaagtggggagctggaaggaaattatatccccacaggtgctaat gtcaatgctaaggacacactgtggctgacccctcttcatcgtgctgctgcctcccgaaac gagaaggtgctggggctgctgctggcacattcagcagatgtgaatgcccgggacaagctg tggcagacaccactgcatgtggctgctgccaaccgggccaccaagtgtgctgaggctctg gcacccctgttgagcagcctcaacgtggctgacaggagcgggcgcagtgctctgcaccat gcagtgcatagtgggcatcttgagacggtgaacctgctcctcaacaagggagccagcctg aatgtctgtgacaaaaaggagcggcagcctctgcattgggcagcttttctagggcacttg gaggtcctaaaactgctggtggcacggggagcagacctcggctgcaaggaccgcaagggc tatgggctgctccatacagctgctgccagtggccagattgaagtggtgaagtacctgctt cggatgggagcggagatcgatgaacccaatgcttttggaaacacagctttgcacatcgcc tgctacctgggccaggatgctgtggctattgagctggtgaatgccggagccaatgtcaac cagccgaatgacaagggcttcacgccactgcatgtggctgcagtctccaccaatggcgct ctctgcttggagctactggttaataatggggctgacgtcaactaccagagcaaagaaggg aaaagtcctctgcacatggctgcaatccatggccgtttcacacgctcccagatcctcatc cagaatggcagcgagattgattgtgccgacaaatttgggaacacgccactgcatgtggct gctcgatatggacacgagctgctcatcagcaccctcatgaccaatggcgcagataccgcc cggcgtggcatccatgacatgttccccctgcacttagctgttctctttggattctctgac tgttgtcgtaagcttctttcctcaggtcagttgtacagcattgtgtcttcactcagcaat gagcatgtgctttcagctgggtttgacatcaatacacctgacaaccttggccgtacctgt cttcatgctgctgcttccggagggaccccactgcactatgcagctgctaacggtagctac cagtgtgcagtaacattggtgactgctggggcaggtgtcaacgaggccgactgtaaaggc tgctctcccctccactacgctgccgcttctgacacttacaggagagcggaaccccataca ccttccagccatgatgccgaagaggacgagccactgaaggagtcccgcaggaaggaggcc ttcttctgtctggagttcttactggataacggtgcagacccctccctgcgggacaggcag ggctacacagctgtgcactatgcagccgcctatggcaacagacagaacctcgaactgctc ttagaaatgtcctttaactgcctggaggatgtggagagcaccattccagtcagccctttg cacttagctgcctacaacggtcactgtgaagccttgaagacgctggcggagacgctggtg aatctggacgtaagggaccacaagggccggaccgcactcttcctggccacggagcgcggc tctactgagtgtgtggaggtgcttacagcccacggcgcctctgccctcatcaaggagcgc aagcgcaagtggacacccctgcacgctgctgctgcctctggccacactgactccctgcac ttgctgatcgacagtggggaacgagctgacatcacagatgtcatggatgcctatggacag accccactgatgctggccatcatgaatggccatgtggactgtgtacatctgctgctagag aaaggatccacagctgatgctgctgacctccggggccgcactgccctccaccgcggggca gtgactggctgtgaggactgcctggctgccctgctggaccacgacgcatttgtgctgtgc cgagactttaagggccgcacgcccattcacctggcctcagcctgtggccacactgcagta ctgcggaccctgctgcaggctgccctttccacagatcccctggatgccggggtggattac agcggatactcgcccatgcactgggcctcctacactggacatgaagattgtctggagttg ttacttgaacacagcccgttttcgtacctggaaggaaaccccttcactcctttgcactgt gcagtgattaataaccaagacagcaccacagagatgctactgggagctctgggtgccaag attgtgaacagccgagatgccaaaggacggaccccccttcacgccgctgccttcgcggac aatgtctctgggctccggatgctgctgcagcatcaagctgaggtgaacgccactgaccac actggccgcactgcgctcatgacggcggctgagaacgggcagaccgctgctgtggaattt ctgctgtatcgagggaaggcagaccttactgtgttggatgagaacaagaacacggccctc cacttggcttgtagcaagggccatgagaaatgtgccctcatgatcctggcagaaacccaa gaccttggccttatcaatgctaccaacagtgcgctgcagatgccactccacattgctgcc cggaatggtctagcttctgtggtacaggccctgctgagtcatggggccacagtgctggct gtggatgaagaaggtcacaccccagcactggcctgtgcccccaacaaagatgtggcagac tgcctggccttgatcctttccaccatgaagcctttcccacccaaggacgccgtcagtcct ttcagcttcagcctgctcaagaactgcagcattgcagccgccaagacggtgggtggctgc ggcgccctgccccatggggcctcctgcccctacagccaggagcggcccggcgccattggg ttagatggctgctactctgagtag >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_3|241_aa MAWAGSRRVPAGTRAAAERCCRLSLSPGAQPAPPPGPLPPPRPMSLLLPRAAQILAAEAG LPSSRSFMGFAAPFTNKRKAYSERRIMGYSMQEMYEVVSNVQEYREFVPWCKKSLVVSSR KGHLKAQLEVGFPPVMERYTSAVSMVKPHMVKAVCTDGKLFNHLETIWRFSPGIPAYPRT CTVDFSISFEFRSLLHSQLATMFFDEVVKQNVAAFERRAATKFGPETAIPRELMFHEVHQ T >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_3|726_bp atggcctgggcgggctcgcggcgggtcccagctgggacgcgcgcggcagccgagcgctgc tgccggctctcgctcagcccgggcgcgcaaccggccccgcccccaggccctctgccaccg ccgcgaccaatgagcctcctcttgcctcgggctgcccagatcttggcggctgaggctggc ttaccttcgagccgttccttcatgggatttgctgctcccttcaccaacaagcgaaaggct tactcggagcgtagaatcatggggtactcaatgcaggagatgtatgaggtggtgtccaac gtccaggagtatcgtgagtttgtgccctggtgtaagaagtctctggtggtatccagccgt aagggtcatttgaaagcccagctggaggttggctttccacctgtcatggaacgttacacc tctgcagtttccatggtcaaacctcacatggtcaaggctgtttgtactgatggcaagctc ttcaaccacttagagactatttggcgattcagccctggtattcctgcctatcctcgaacc tgcactgtggacttttcgatttcctttgaatttcgttctctgctgcactcccagctggcc accatgttttttgatgaggttgtcaaacagaatgttgctgcctttgagcgtcgggcagcc accaagtttggtccagaaacagccatcccccgtgaactgatgttccatgaggtgcaccag acttga >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_4|2029_aa MNFEGLDPGLAEYAPAMHSALDPVLDAHLNPSLLQNVELDPEGVALEALPVQESVHIMEG VYSELHSVVAEVGVPVSVSHFDLHEEMLWVGSHGGHATSFFGPALERYSSFQVNGSDDIR QIQSLENGILFLTKNNLKYMARGGLIIFDYLLDENEDMHSLLLTDSSTLLVGGLQNHIIE IDLNTVQETQKVSLRDLRTFKVEHEFDAFSGSLSDFDVHGNLLAACGFSSRLTGLACDRF LKVYDLRMMRAITPLQVHVDPAFLRFIPTYTSRLAIISQSGQCQFCEPTGLANPADIFHV NPVGPLLMTFDVSASKQALAFGDSEGCVHLWTDSPEPSFNPYSRETEFALPCLVDSLPPL DWSQDLLPLSLIPVPLTTDTLLSDWPAANSAPAPSIFFFSGPLGIGEWTSVHHNSLSPRT MLDCRRAPPVDAEILRTMKKVGFIGYAPNPRTRLRNQIPYRLKESDSEFDSFSQVTESPV GREEEPHLHMVSKKYRKVLGDIRACGMWGKVTIKYSKLGLEDFDFKHYNKTLFAGLEPHI PNAYCNCMIQVLYFLEPVRCLIQNHLCQKEFCLACELGFLFHMLDLSRGDPCQGNNFLRA FRTIPEASALGLILADSDEASGKGNLARLIQRWNRFILTQLHQDMQELEIPQAYRGAGGS FCSSGDSVIGQLFSCEMENCSLCRCGSETVRASSTLLFTLSYPDGSKSDKTGKNYDFAQV LKRSICLDQNTQAWCDTCEKYQPTIQTRNIRHLPDILVINCEVNSSKEADFWRMQAEVAF KMAVKKHGGEISKNKEFALADWKELGSPEGVLVCPSIEELKNVWLPFSIRMKMTKNKGLD VCNWTDGDEMQVVEKPGRGKGIRERSLAAWVPPSQWGPARAEEEHGVYVYDLMATVVHIL DSRTGGSLVAHIKVGETYHQRKEGVTHQQWYLFNDFLIEPIDKHEAVQFDMNWKVPAILY YVKRNLNSRYNLNIKNPIEASVLLAEASLARKQRKTHTTFIPLMLNEMPQIGDLVGLDAE FVTLNEEEAELRSDGTKSTIKPSQMSVARITCVRGQGPNEGIPFIDDYISTQEQVVDYLT QYSGIKPGDLDAKISSKHLTTLKSTYLKLRFLIDIGVKFVGHGLQKDFRVINLMVWQGSF KSLLVPKDQVLDTVYLFHMPRKRMISLRFLAWYFLDLKIQGETHDSIEDARTALQLYRKY LELSKNGTEPESFHKVLKGLYEKGRKMDWKATPILRLTPGGHVDLFATQVWVLRRLTGVL AVREPLLSCLFAREFGGAGLGSVSDWGSHRSTLESRLACRALVDELEWEIAQVDPKKTIQ MGSFRINPDGSQSVVEVPYARSEAHLTELLEEICDRMKEYGEQIDPSTHRKNYVRVVGRN GESSELDLQGIRIDSDISGTLKFACESIVEEYEDELIEFFSREADNVKDKLCSKRTDGGT SKNRDRKGKMDVTNSAENRLLSTLSTRRRGLWCSGGGSCSCRSSLPFLPPHQIPEIARHG FTYCGRPALGNQGYAVDLKSTLSRNFLSFFGVLYLVLIAFWDIEILLQEGQKYRYERLPS ACGLSQIREVEVLSKDQNASCLVLAARHASASSTNLKDILADLIPKEQARIKTFRQQHGK TVVGQITVDMMYGGMRGMKGLVYETSVLDPDEGIRFRGFSIPECQKLLPKAKGGEEPLPE GLFWLLVTGHIPTEEQVSWLSKEWAKRAALPSHVVTMLDNFPTNLHPMSQLSAAVTALNS ESNFARAYAQGISRTKYWELIYEDSMDLIAKLPCVAAKIYRNLYREGSGIGAIDSNLDWS HNFTNMLGYTDHQFTELTRLYLTIHSDHEGGNVSAHTSHLVGSALSDPYLSFAAAMNGLA GPLHGLANQEVLVWLTQLQKEVGKDVSDEKLRDYIWNTLNSGRVVPGYGHAVLRKTDPRY TCQREFALKHLPNDPMFKLVAQLYKIVPNVLLEQGKAKNPWPNVDAHSGVLLQYYGMTEM NYYTVLFGVSRALGVLAQLIWSRALGFPLERPKSMSTEGLMKFVDSKSG >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_4|6090_bp atgaactttgagggtctggaccctggactggcagaatatgccccagccatgcattctgcc ctggaccctgtcttggatgcccacctgaacccaagtctgctacagaatgtggagctggac ccagagggagtggccttggaggctcttcccgtccaggaatcagtgcacataatggaaggt gtctactctgaattgcacagcgtggtggctgaagtgggtgtacctgtttccgtctcccac tttgacttgcacgaggagatgctgtgggtggggagccacgggggccatgccacttcattt tttggcccagccttggagcgctactcatcctttcaagtcaatggcagtgatgatattcgg cagatccagagcctggagaatggtatcctttttctcaccaagaacaacctcaagtatatg gcccgtgggggcctcattatatttgattacctgctggatgagaatgaggatatgcacagt ctcctactgactgacagcagcactctactcgttggtgggctgcagaatcacataatagag attgatcttaacactgtccaggagactcagaaggtttccctgagagacctccgtactttt aaggtggaacatgagtttgatgccttctcaggaagtctgtcagactttgatgtgcatggc aacctgctagctgcctgtggcttctccagccgcctcactggcctggcctgcgaccgtttc ctcaaggtgtatgatttgcgcatgatgcgtgccatcacaccacttcaagtacatgtggat cctgccttcttgcgcttcattcctacatatacttctcgtcttgctatcatctctcagtca gggcagtgccaattctgtgaacccacaggcctggccaacccagccgatatctttcatgtg aatcctgtggggcctctgctaatgacatttgatgtgtcagccagcaagcaggctctggcc tttggggattctgagggctgtgtgcacctctggactgattccccggagccttccttcaac ccctactcccgtgagactgagtttgctttgccgtgtctcgtggactcactgcctcctctg gactggagccaggacctgctgcctctttccctcatccctgtcccactcaccactgacaca cttctctctgattggcctgctgccaactctgctccagctcccagtattttctttttctct ggacccttggggattggggagtggaccagtgtacaccacaactctttaagtcctagaact atgctggattgtaggcgagcaccacccgtggatgcagagattctgcgcaccatgaagaag gtgggcttcattggctatgcgcccaatccccgcaccaggctgcgcaatcagataccctac agactcaaggagtcagacagtgaatttgacagcttcagccaggtcactgagtcaccagta ggacgagaagaggaaccacatctccacatggtttctaagaaataccgcaaggtgctgggg gacatcagggcctgtgggatgtggggaaaggtgaccatcaaatattccaagctagggctg gaggactttgacttcaaacactacaataagaccttgtttgctggattagagccccacatt cccaacgcctactgtaactgcatgatccaggtgctctatttcctggagcctgtacgctgt ctaattcaaaaccacctttgccagaaggagttctgtctggcatgtgagctgggcttcctg tttcacatgttggacctctctcgtggtgacccttgccagggcaataattttcttcgggca ttccgtactattcctgaggcctcagccctcggtctaatcctggctgactcagatgaggcc tcaggcaagggcaatctggccaggctcattcagaggtggaatcgcttcattctcactcaa ctgcatcaagatatgcaggagctggaaataccacaggcttatcgaggtgctggaggcagc ttttgctcatcgggggactctgttattgggcagctcttcagctgtgagatggagaactgc agcctctgccgctgtggcagtgagaccgtgcgagcctcatccactctgcttttcacactc tcctaccctgatggtagcaaaagtgataaaactgggaagaactatgactttgctcaggtg ctgaagcgaagcatctgcctggaccagaatacacaggcctggtgtgacacctgtgaaaag taccagcccacgattcagacccgcaacatccgccatctgccagatattcttgtcatcaat tgtgaggtgaacagctcaaaagaggctgatttctggagaatgcaggctgaggttgccttc aagatggcagtaaagaaacacggtggggaaatctccaagaacaaggaatttgctttggct gattggaaggaactagggagtccagagggtgtgctggtgtgtccctccattgaggagttg aagaacgtctggcttcctttctccattcgcatgaagatgaccaaaaacaaagggctggat gtttgcaattggactgatggggatgagatgcaggttgttgaaaaaccgggaagaggaaag ggaataagggagagaagcttagcagcctgggtacccccctcacagtggggcccagccagg gcagaggaggagcatggtgtctatgtgtatgacctgatggctactgtggtacacatcctg gactcacgcacagggggcagcctggtggctcacatcaaagttggagagacctaccaccag cgcaaggagggcgttactcaccagcagtggtatctgttcaatgactttcttattgaacct attgataagcatgaagctgtgcagtttgacatgaattggaaagtacctgcaatcctttat tatgtcaaacggaatctcaattccagatacaacctgaacatcaagaaccctattgaggca agtgtcttgctggctgaagcctcgctggcacggaagcagcggaaaacacatactaccttt attccactgatgctgaatgagatgccacagattggggacctggtgggtctggatgctgag tttgtcacccttaatgaggaggaagcagagttacgcagtgatggtaccaagtctaccatt aaaccaagccagatgtcagtagccaggattacctgtgttcggggccagggacccaatgag ggtatccccttcattgatgactacatctctacccaggagcaggtggtggattacttgact caatactcgggtataaagcctggtgacctcgatgccaaaatttcctccaagcacctaaca actctcaagtctacctacttaaagcttcgttttctcattgacattggagtcaagtttgtg ggtcatggcctgcagaaggacttccgggtcatcaacctgatggtttggcagggctctttt aagagtcttcttgtgcccaaggaccaagtccttgacactgtctacctgttccatatgccc cgaaaacgaatgatttccctgcgattccttgcttggtactttctggacctgaagattcaa ggggaaacccatgacagtattgaggatgcccgcacagcccttcagctgtaccgaaagtat ctggagctaagcaaaaatggcactgagcctgagtctttccacaaggtgctcaagggtctt tatgagaagggcagaaagatggactggaaggccactcctattctacggctgacccctggt ggtcacgtggatctgttcgccacgcaagtctgggtccttcggcgattgaccggggtcctt gctgttcgggagcctctcctaagctgcctgttcgcgcgagagtttggaggggcgggtttg gggtcggtgtctgattggggctcgcaccgcagcacgctggagtcccgcttagcatgcagg gctctggtggatgaactagaatgggaaattgcccaggtggaccccaagaagaccattcag atgggatctttccggatcaatccagatggcagccagtcagtggtggaggtgccttatgcc cgctcagaggcccacctcacagagctgctggaggagatatgtgaccggatgaaggagtat ggggaacagattgatccttccacccatcgcaagaactacgtacgtgtagtgggccggaat ggagaatccagtgaactggacctacaaggcatccgaatcgactcagatattagcggcacc ctcaagtttgcgtgtgagagcattgtggaggaatacgaggatgaactcattgaattcttt tcccgagaggctgacaatgttaaagacaaactttgcagtaagcgaacagatggagggacc agcaagaacagagacaggaaggggaaaatggatgtgaccaactcagctgaaaaccgcctc ctttcaaccttgtcaacccgtcggcgcggcctctggtgcagcggcggcggctcctgttcc tgccgcagctctctccctttcttacctccccaccagatcccggagatcgcccgccatggc tttacttactgcggccgcccggctcttgggaaccaaggttatgccgttgatcttaagtct actttatccaggaactttctctccttctttggggtcctttacttggtattgattgccttt tgggacatagaaatactgttgcaggagggtcagaagtaccgttatgaaaggctgccctct gcctgtggtctttcccagattagagaggttgaagtgctgtcgaaagaccagaatgcatct tgtcttgttcttgcagcccggcatgccagtgcttcctccacgaatttgaaagacatattg gctgacctgatacctaaggagcaggccagaattaagactttcaggcagcaacatggcaag acggtggtgggccaaatcactgtggacatgatgtatggtggcatgagaggcatgaaggga ttggtctatgaaacatcagttcttgatcctgatgagggcatccgtttccgaggctttagt atccctgaatgccagaaactgctacccaaggctaagggtggggaagaacccctgcctgag ggcttattttggctgctggtaactggacatatcccaacagaggaacaggtatcttggctc tcaaaagagtgggcaaagagggcagctctgccttcccatgtggtcaccatgctggacaac tttcccaccaatctacaccccatgtctcagctcagtgcagctgttacagccctcaacagt gaaagtaactttgcccgagcatatgcacagggtatcagccgaaccaagtactgggagttg atttatgaagactctatggatctaatcgcaaagctaccttgtgttgcagcaaagatctac cgaaatctctacagagaaggcagcggtattggggccattgactctaacctggactggtct cacaatttcaccaacatgttaggctatactgatcatcagttcactgagctcacgcgcctg tacctcaccatccacagtgaccatgagggtggcaatgtaagtgcccataccagccatttg gtgggcagtgccctttccgacccttacctgtcctttgcagcagccatgaacgggctggca gggcctctccatggactggcaaatcaggaagtgcttgtctggctaacacagctgcagaag gaagttggcaaagatgtgtcagatgagaagttacgagactacatctggaacacactcaac tcaggacgggttgttccaggctatggccatgcagtactaaggaagactgatccgcgatat acctgtcagcgagagtttgctctgaaacacctgcctaatgaccccatgtttaagttggtt gctcagctgtacaagattgtgcccaatgtcctcttagagcagggtaaagccaagaatcct tggcccaatgtagatgctcacagtggggtgctgctccagtattatggcatgacggagatg aattactacacggtcctgtttggggtgtcacgagcattgggtgtactggcacagctcatc tggagccgagccttaggcttccctctagaaaggcccaagtccatgagcacagagggtctg atgaagtttgtggactctaagtcagggtaa >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_5|189_aa MLGSRAVMLLLLLPWTAQGRAVPGGSSPAWTQCQQLSQKLCTLAWSAHPLVGHMDLREEG DEETTNDVPHIQCGDGCDPQGLRDNSQFCLQRIHQGLIFYEKLLGSDIFTGEPSLLPDSP VGQLHASLLGLSQLLQPEGHHWETQQIPSLSPSQPWQRLLLRFKILRSLQAFVAVAARVF AHGAATLSP >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_5|570_bp atgctggggagcagagctgtaatgctgctgttgctgctgccctggacagctcagggcaga gctgtgcctgggggcagcagccctgcctggactcagtgccagcagctttcacagaagctc tgcacactggcctggagtgcacatccactagtgggacacatggatctaagagaagaggga gatgaagagactacaaatgatgttccccatatccagtgtggagatggctgtgacccccaa ggactcagggacaacagtcagttctgcttgcaaaggatccaccagggtctgattttttat gagaagctgctaggatcggatattttcacaggggagccttctctgctccctgatagccct gtgggccagcttcatgcctccctactgggcctcagccaactcctgcagcctgagggtcac cactgggagactcagcagattccaagcctcagtcccagccagccatggcagcgtctcctt ctccgcttcaaaatccttcgcagcctccaggcctttgtggctgtagccgcccgggtcttt gcccatggagcagcaaccctgagtccctaa >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_6|1031_aa MAPLPKFLVSLALRNALEEAGCQADVWALQLQLYRQGGVNATQVLIQHLRGLQKGRSTER NVSVEALASALQLLAREQQSTGRVGRSLPTEDCENEKEQAVHNVVQLLPGVGTFYNLGTA LYYATQNCLGKARERGRDGAIDLGYDLLMTMAGMSGGPMGLAISAALKPALRSGVQQLIQ YYQDQKDANISQPETTKEGLRAISDVSDLEETTTLASFISEVWEMLQNLDSPFQDQLHQL YSHSLLPVDIRQYLAVWIEDQNWQEAALGSDDSKATMLFFHFLDQLNYECGRCSQDPESL LLQHNLRKFCRDIQEQGEPVLETPVESQQHEIESRILDLRAMMEKLVKSISQLKDQQDVF CFRYKIQAKGKTPSLDPHQTKEQKILQETLNELDKRRKEVLDASKALLGRLTTLIELLLP KLEEWKAQQQKACIRAPIDHGLEQLETWFTAGAKLLFHLRQLLKELKGLSCLVSYQDDPL TKGVDLRNAQVTELLQRLLHRAFVVETQPCMPQTPHRPLILKTGSKFTVRTRLLVRLQEG NESLTVEVSIDSFRKFNILTSNQKTLTPEKGQSQGLIWDFGYLTLVEQRSGGSGKGSNKG PLGVTEELHIISFTVKYTYQGLKQELKTDTLPVVIISNMNQLSIAWASVLWFNLLSPNLQ NQQFFSNPPKAPWSLLGPALSWQFSSYVGRGLNSDQLSMLRNKLFGQNCRTEDPLLSWAD FTKRESPPGKLPFWTWLDKILELVHDHLKDLWNDGRIMGFVSRSQERRLLKKTMSGTFLL RFSESSEGGITCSWVEHQDDDKVLIYSVQPYTKEVLQSLPLTEIIRHYQLLTEENIPENP LRFLYPRIPRDEAFGCYYQEKVNLQERRKYLKHRLIVVSNRQVDELQQPLELKPEPELES LELELGLVPEPELSLDLEPLLKAGLDLGPELESVLESTLEPVIEPTLCMVSQTVPEPDQG PVSQPVPEPDLPCDLRHLNTEPMEIFRNCVKIEEIMPNGDPLLAGQNTVDEVYVSRPSHF YTDGPLMPSDF >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_6|3096_bp atggcccctctacccaagttcttggtaagcctggctctaaggaatgccctggaggaagct ggttgtcaggctgatgtttgggctctacagctacagctctaccgccagggtggtgtgaat gctacacaggtcctcatccagcatcttcgagggctccagaaaggcagaagcacagagagg aacgtgtcagtggaagccctggcctctgctctgcagctgttagccagggagcagcaaagc acaggaagggtcgggcgctccctcccgacagaggactgtgagaatgagaaggagcaagct gtgcacaatgtagtccagctgctgccaggagtgggaaccttctacaacctgggcacagct ttgtattatgctactcaaaactgcctgggcaaggccagggaacgaggccgagatggggcc atagatctgggatatgaccttctgatgaccatggctgggatgtcaggggggcctatgggt ctagcgatcagtgctgcacttaaacctgcattaaggtctggggttcagcagttgatccag tattaccaagatcagaaagacgcaaacatctctcagccggagaccaccaaggagggtttg agggccatctcagatgtgagtgacttggaagaaacaactactctggcttctttcatatca gaagtatgggaaatgctgcagaatcttgacagcccctttcaggatcagctgcaccagctt tactcgcacagcctcctgcctgtggacattcgacagtacttggctgtctggattgaagac cagaactggcaggaagctgcacttgggagtgatgattccaaggctaccatgctattcttc cacttcttggatcagctgaactatgagtgtggccgttgcagccaggacccagagtccttg ttgctgcagcacaatttgcggaaattctgccgggacattcaggaacaaggagagccagtt ctcgaaacacctgtggagagccagcaacatgagattgaatcccggatcctggatttaagg gctatgatggagaagctggtaaaatccatcagccaactgaaagaccagcaggatgtcttc tgcttccgatataagatccaggccaaagggaagacaccctctctggacccccatcagacc aaagagcagaagattctgcaggaaactctcaatgaactggacaaaaggagaaaggaggtg ctggatgcctccaaagcactgctaggccgattaactaccctaatcgagctactgctgcca aagttggaggagtggaaggcccagcagcaaaaagcctgcatcagagctcccattgaccac gggttggaacagctggagacatggttcacagctggagcaaagctgttgtttcacctgagg cagctgctgaaggagctgaagggactgagttgcctggttagctatcaggatgaccctctg accaaaggggtggacctacgcaacgcccaggtcacagagttgctacagcgtctgctccac agagcctttgtggtagaaacccagccctgcatgccccaaactccccatcgacccctcatc ctcaagactggcagcaagttcaccgtccgaacaaggctgctggtgagactccaggaaggc aatgagtcactgactgtggaagtctccattgacagcttccggaagttcaacattctgact tcaaaccagaaaactttgacccccgagaaggggcagagtcagggtttgatttgggacttt ggttacctgactctggtggagcaacgttcaggtggttcaggaaagggcagcaataagggg ccactaggtgtgacagaggaactgcacatcatcagcttcacggtcaaatatacctaccag ggtctgaagcaggagctgaaaacggacaccctccctgtggtgattatttccaacatgaac cagctctcaattgcctgggcttcagttctctggttcaatttgctcagcccaaaccttcag aaccagcagttcttctccaacccccccaaggccccctggagcttgctgggccctgctctc agttggcagttctcctcctatgttggccgaggcctcaactcagaccagctgagcatgctg agaaacaagctgttcgggcagaactgtaggactgaggatccattattgtcctgggctgac ttcactaagcgagagagccctcctggcaagttaccattctggacatggctggacaaaatt ctggagttggtacatgaccacctgaaggatctctggaatgatggacgcatcatgggcttt gtgagtcggagccaggagcgccggctgctgaagaagaccatgtctggcacctttctactg cgcttcagtgaatcgtcagaagggggcattacctgctcctgggtggagcaccaggatgat gacaaggtgctcatctactctgtgcaaccgtacacgaaggaggtgctgcagtcactcccg ctgactgaaatcatccgccattaccagttgctcactgaggagaatatacctgaaaaccca ctgcgcttcctctatccccgaatcccccgggatgaagcttttgggtgctactaccaggag aaagttaatctccaggaacggaggaaatacctgaaacacaggctcattgtggtctctaat agacaggtggatgaactgcaacaaccgctggagcttaagccagagccagagctggagtca ttagagctggaactagggctggtgccagagccagagctcagcctggacttagagccactg ctgaaggcagggctggatctggggccagagctagagtctgtgctggagtccactctggag cctgtgatagagcccacactatgcatggtatcacaaacagtgccagagccagaccaagga cctgtatcacagccagtgccagagccagatttgccctgtgatctgagacatttgaacact gagccaatggaaatcttcagaaactgtgtaaagattgaagaaatcatgccgaatggtgac ccactgttggctggccagaacaccgtggatgaggtttacgtctcccgccccagccacttc tacactgatggacccttgatgccttctgacttctag >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_7|130_aa MRGAVVLTRRSAAEGTCLSRKIFNYVRIRATEGSSPRLYWSTWRHIACGKLQLAKDLMWL YFEISDSLSVKIAEECLEWSEVLSNCMSEEEVEKQRNQLSVDTLQFLLFLYIQQLNKAST KDIFDWRRVA >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_7|393_bp atgcggggcgccgtggtgctcacacggagaagtgcggcagagggcacctgccttagcagg aagatattcaactatgtgcgaatccgggccacagaaggatcttccccacgcctctactgg tctacatggaggcacatcgcttgtgggaagctgcagttggccaaggacctgatgtggctt tactttgaaatatctgatagtctttcagtgaagatagctgaggagtgcctggaatggtct gaggttttgtccaactgcatgtctgaggaggaagttgaaaagcagagaaatcagctttca gtggacaccctgcagtttctgctcttcttatacattcaacaattgaacaaggcctctact aaggacatctttgattggagaagagtggcctag >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_8|307_aa MIPTTSLFDSPIWPVQKTDGSWRMTVEYCKLNQVVTPIAAAVPDVVSLLEQINISPGAWP IYQVAQKAASFEWGPEKEKALQQVQTAVQAALPLGPYDPADPMVLELSVTDRDAVWSLWK APIGESQWRPLGFWSKALPSSGDNYFPFERQLLTCYWALMETERLTIGHQVTRRPELPIM NWVLSDPSSHKVGLAQKHSVIKWKLHICDRARAGPEGTSKLHGEVAQMPMVSTLATLPFL SQPALMASQGVPYDQLTEKEKTTAWFTDGSAWYAGTIRKWTAAVLQPLSRTSLKDSGEGE SSQRAKL >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_8|924_bp atgattcccaccacatccctgttcgactctcccatctggcctgtgcagaagacggatgga tcttggagaatgacagtggagtattgtaagcttaaccaagtggtgactccaattgcagct gctgtaccagatgtggtttcattgcttgagcaaattaacatatctcctggtgcctggccc atttatcaagtggctcaaaaggctgccagttttgagtggggtccagaaaaggagaaggct ctgcaacaggtccagactgctgtgcaagctgctctgccacttgggccatatgacccggca gatccaatggtgcttgagctgtcagtcacagatagagatgctgtttggagcctttggaag gcccccataggtgaatcacagtggaggcctctaggattttggagcaaggccctgccatct tctggcgataactactttccttttgagagacagctcttgacctgttactgggctttgatg gaaactgaacgtttgactataggtcatcaagtcaccaggcgacctgaactgcctatcatg aactgggtgctttctgatccatctagccataaagtgggtcttgcacagaagcattctgtc atcaaatggaagttgcatatatgtgatcgggctagagcaggtcctgaaggcacaagtaag ttacatggggaagtggctcaaatgcccatggtctccactcttgccaccctgccttttctt tcccagcctgcactgatggcctcacagggagtgccctatgatcagctgacagagaaagag aagactacggcctggttcacagatggttctgcatggtatgcaggcaccatccgaaagtgg acagctgcagtactacagcccctttctaggacatccctgaaggacagcggtgaaggggaa tcttcccagcgggcaaaactttga >gi568815586f:56239045_56440101|GENSCAN_predicted_peptide_9|1227_aa MGVKRCGSGWSFFQGSTCMFCSVSEESVKDLIRYLRHEDETRDVRQQLGAAQILQSDLLP ILTQHHQDKPLFDAVIRLMVNLTQPALLCFGNLPKEPSFRHHFLQVLTYLQAYKEAFASE KAFGVLSETLYELLQLGWEERQEEDNLLIERILLLVRNILHVPADLDQEKKIDDDASAHD QLLWAIHLSGLDDLLLFLASSSAEEQWSLHVLEIVSLMFRDQNPEQLAGVGQGRLAQERS ADFAELEVLRQREMAEKKTRALQRGNRHSRFGGSYIVQGLKSIGERDLIFHKGLHNLRNY SSDLGKQPKKVPKRRQAARELSIQRRSALNVRLFLRDFCSEFLENCYNRLMGSVKDHLLR EKAQQHDETYYMWALAFFMAFNRAASFRPGLVSETLSVRTFHFIEQNLTNYYEMMLTDRK EAASWARRMHLALKAYQELLATVNEMDISPDEAVRESSRIIKNNIFYVMEYRELFLALFR KFDERCQPRSFLRDLVETTHLFLKMLERFCRSRGNLVVQNKQKKRRKKKKKVLDQAIVSG NVPSSPEEVEAVWPALAEQLQCCAQNSELSMDSVVPFDAASEVPVEEQRAEAMVRIQDCL LAGQAPQALTLLRSAREVWPEGDVFGSQDISPEEEIQLLKQILSAPLPRQQGPEERGAEE EEEEEEEEEEELQVVQVSEKEFNFLDYLKRFACSTVVRAYVLLLRSYQQNSAHTNHCIVK MLHRLAHDLKMEALLFQLSVFCLFNRLLSDPAAGAYKELVTFAKYILGKFFALAAVNQKA FVELLFWKNTAVVREMTEGYGSLDDRTDQRRPLVSSFWAKNLYAPFLLSPFRSSSRRAPT WSPEEEAHLRELYLANKDVEGQDVVEAILAHLNTVPRTRKQIIHHLVQMGLADSVKDFQR KGTHIVLWTGDQELELQRLFEEFRDSDDVLGHIMKNITAKRSRARIVDKLLALGLVAERR ELYKKRQKKLASSILPNGAESLKDFCQEDLEEEENLPEEDSEEEEEGGSEAEQVQGSLVL SNENLGQSLHQEGFSIPLLWLQNCLIRAADDREEDGCSQAVPLVPLTEENEEAMENEQFQ QLLRKLGVRPPASGQETFWRIPAKLSPTQLRRAAASLSQPEEEQKLQPELQPKVPGEQGS DEEHCKEHRAQALRALLLAHKKKAGLASPEEEDAVGKEPLKAAPKKRQLLDSDEEQEEDE GRNRAPELGAPGIQKKKRYQIEDDEDD >gi568815586f:56239045_56440101|GENSCAN_predicted_CDS_9|3684_bp atgggtgtgaaaagatgtgggtctggatggagcttcttccaaggttccacatgcatgttt tgttctgtctctgaagagagcgtgaaggatctgatccgctatttgaggcatgaggatgag acacgagatgtgcggcagcagctgggggcagcccagatcctacagagcgaccttctgccc atcctcacccagcaccaccaggacaagcctctctttgatgctgttatcagactgatggtg aacttgacacaaccagccttgctctgttttggcaatctgcctaaggagcccagctttcgg caccattttttgcaggtgctaacttatttgcaggcctacaaagaggcctttgccagtgag aaggcttttggagtcctcagtgaaaccttgtatgagctgctgcagctgggctgggaggaa cggcaggaggaagacaacttgctgattgaacggatcctactgctggtcagaaatattctc catgtcccagctgaccttgatcaggagaagaagattgatgatgacgccagtgcccatgac cagctcctctgggcgattcacctcagcggcctggatgacctgctcctctttctggccagc tcgtctgctgaggagcaatggagcctacatgtgctagagattgtctcccttatgtttcgt gaccagaaccccgagcagctggcgggagtagggcagggacgcttagctcaggagcggagt gcagattttgcagaactggaggtgttgcgccagcgagagatggcagaaaagaagactcga gccctccagcgaggcaacaggcattctcgatttgggggctcctatattgtccaggggttg aaatccattggggagagggacctcatctttcacaaaggccttcacaacctacgaaactac agttcagatttgggaaagcagccgaaaaaggtgcctaaacgtcgccaggccgcccgagag ctgtccattcagcgccgttctgccctcaatgtgaggctcttcctcagagacttctgctct gagttcctggagaactgttacaaccggctcatgggatcagtaaaggatcacctgcttcgg gagaaagctcagcagcatgatgagacctattatatgtgggccttggctttcttcatggcc ttcaaccgagctgcctccttccggccaggcctggtttctgagaccctcagtgtccgtacc ttccacttcattgagcagaacctcaccaactactatgagatgatgctgactgaccgcaag gaagctgcctcctgggcacgccggatgcacttggctctgaaggcctatcaggagctgctg gcaacagtgaatgagatggacatatctccagatgaggctgtgagggagagcagccgcatc atcaagaacaatattttctatgtgatggagtaccgagaactattcctggcactttttcga aagtttgatgagagatgccagccccgctctttccttcgtgacctggtggagaccacccac ctcttcctcaaaatgttggagcgattctgtcggagccgtgggaacctggtggtgcagaac aaacaaaagaagagaaggaagaagaagaagaaggtcctagaccaggccattgtttctggt aatgtcccatctagcccagaagaagtggaggctgtgtggccagccctggctgagcagcta cagtgctgtgcccagaattctgagctcagcatggactccgtggttccctttgatgcggcc tcagaggtgccagtggaggagcagcgggcagaagctatggtacggatccaagactgtctc ctggctggccaggccccacaggccctgactctcctgaggtctgctcgggaggtgtggcct gaaggagatgtgtttggctctcaagacatttctccagaggaagagatccagttgctgaaa caaatcctctctgctccacttccccggcagcagggcccagaggaacgtggggcagaggaa gaagaagaggaggaggaggaggaagaggaggagttgcaagtggtccaggtgtcggagaaa gaatttaattttctggactacctgaaacgctttgcatgttcaactgtcgttcgagcctat gtgctgctactaaggagctaccagcagaatagtgcccacactaaccattgcattgtgaag atgctgcaccggctggcccatgacctcaaaatggaagccctactttttcagctgtcagtc ttctgcctcttcaatcgtctgcttagtgaccctgctgctggagcctacaaagagctagtg acttttgccaaatacatcctgggcaaattttttgcactggctgcagtcaaccaaaaagcc tttgtggagctgttgttctggaagaacacagctgtggttcgagagatgactgagggctat ggctccctggatgacagaactgatcagagaaggcctttggtctcctctttttgggccaag aacctatatgctccctttctcctttcaccattcaggtcttccagtcgcagagcacctaca tggagccccgaagaagaggctcatcttcgggagctgtacctcgccaataaggacgtggaa gggcaggatgtggtggaagccatcttggcccacctgaatactgttcctcgaacacgcaag cagatcatccaccatctggtacagatgggactggctgacagtgtcaaggacttccaaagg aaaggaacccatattgtactgtggacgggggatcaggagttggagctgcagcggcttttt gaggaattccgggactcagatgatgtcctgggtcatatcatgaagaatatcacagccaaa cgctcacgggcccgaatagtggataaactcttggctctggggctggtggctgagcggcgg gagctgtacaagaaacggcagaaaaagttggcatcctccatcttgccaaatggagcggag tccctgaaagatttttgccaggaagatctggaagaagaggaaaacctgcctgaggaagac agcgaagaggaagaagaagggggctcagaagcagaacaagtccagggtagcttagtcctt tcaaatgaaaaccttggtcaaagcctgcatcaggaaggcttttctatcccgctcctatgg ctccagaactgcctgatccgagcagctgatgatcgggaagaggatggctgctcccaggcc gttccattggtgccactcacagaggaaaatgaggaagccatggaaaacgaacagtttcag cagctgttgcgcaagctaggggttcggccccctgcctctgggcaggaaaccttctggcga attccagccaagctgagtcctacccagctccggagggcagcagcttctttgagtcaacca gaggaggaacagaagctgcagccagagctgcagcctaaagtccctggagagcaaggctct gatgaggagcactgtaaagagcaccgagcacaagccctgagggccctcttgctagcccac aagaagaaagcgggcctggcatccccagaggaggaagacgctgttggtaaagagccgctg aaggcagcacccaagaaacgacaattgctggacagcgacgaggaacaggaagaagatgag ggcaggaacagagcaccagagttgggagctccaggaatccaaaagaagaaacgataccag attgaggatgatgaggatgactga