GENSCAN 1.0 Date run: 5-Nov-116 Time: 16:07:27 Sequence gi568815587f:118967824_119181620 : 213797 bp : 50.06% 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 + 1867 1995 129 0 0 66 89 75 0.695 5.55 1.02 Intr + 3797 4169 373 1 1 58 92 183 0.869 10.34 1.03 Intr + 10959 11033 75 1 0 87 88 38 0.899 3.19 1.04 Intr + 11134 11381 248 2 2 73 69 172 0.985 10.98 1.05 Intr + 11619 11845 227 2 2 90 88 108 0.994 7.78 1.06 Intr + 12667 12905 239 1 2 114 64 88 0.873 6.26 1.07 Term + 13385 13413 29 0 2 135 40 21 0.903 0.24 1.08 PlyA + 20687 20692 6 1.05 2.00 Prom + 22436 22475 40 -4.46 2.01 Init + 30375 30494 120 2 0 75 80 166 0.980 14.77 2.02 Intr + 30607 30770 164 0 2 100 94 290 0.999 29.57 2.03 Intr + 31188 31286 99 0 0 80 101 85 0.985 8.23 2.04 Intr + 42941 43007 67 2 1 94 107 106 0.975 12.01 2.05 Intr + 43398 43460 63 2 0 73 73 70 0.814 2.91 2.06 Intr + 45409 45439 31 0 1 77 110 28 0.993 1.60 2.07 Intr + 47171 47260 90 0 0 71 106 92 0.989 9.27 2.08 Intr + 47484 47616 133 1 1 24 91 117 0.780 5.30 2.09 Term + 47715 47775 61 0 1 114 37 27 0.788 -2.52 2.10 PlyA + 47897 47902 6 1.05 3.05 PlyA - 47910 47905 6 1.05 3.04 Term - 48116 48022 95 0 2 116 42 50 0.996 1.19 3.03 Intr - 49722 49539 184 0 1 44 100 137 0.968 9.86 3.02 Intr - 50230 50135 96 1 0 70 70 202 0.999 16.81 3.01 Init - 50461 50459 3 1 0 57 103 0 0.999 -1.60 3.00 Prom - 50691 50652 40 -7.26 4.00 Prom + 50733 50772 40 -15.42 4.01 Init + 50973 51147 175 2 1 108 64 203 0.995 19.41 4.02 Intr + 51320 51494 175 0 1 61 99 258 0.929 23.20 4.03 Intr + 52327 52430 104 1 2 54 85 109 0.988 7.02 4.04 Intr + 53937 54063 127 1 1 79 111 63 0.897 7.44 4.05 Term + 55498 55576 79 1 1 46 44 102 0.874 -1.16 4.06 PlyA + 55820 55825 6 1.05 5.35 PlyA - 56311 56306 6 -1.95 5.34 Term - 57253 57087 167 2 2 72 49 198 0.999 12.38 5.33 Intr - 57506 57368 139 2 1 90 115 109 0.999 13.84 5.32 Intr - 58257 58144 114 0 0 59 86 152 0.992 12.74 5.31 Intr - 58865 58780 86 0 2 99 105 144 0.997 16.74 5.30 Intr - 59272 59114 159 2 0 96 82 180 0.998 18.16 5.29 Intr - 60049 59899 151 1 1 92 -50 90 0.008 -4.66 5.28 Intr - 60603 60371 233 1 2 105 113 189 0.994 20.59 5.27 Intr - 61539 61399 141 1 0 54 80 197 0.569 15.82 5.26 Intr - 61741 61569 173 0 2 132 58 -15 0.510 -0.51 5.25 Intr - 62646 62347 300 2 0 87 57 75 0.181 0.15 5.24 Intr - 63025 62749 277 2 1 76 47 142 0.075 5.48 5.23 Intr - 78644 78594 51 0 0 116 105 52 0.991 8.58 5.22 Intr - 78979 78739 241 1 1 84 94 322 0.999 29.52 5.21 Intr - 79995 79911 85 2 1 107 24 100 0.979 5.32 5.20 Intr - 80257 80124 134 1 2 56 63 164 0.999 10.14 5.19 Intr - 80547 80425 123 0 0 91 65 191 0.969 17.88 5.18 Intr - 80740 80653 88 0 1 138 82 133 0.968 17.67 5.17 Intr - 81063 80891 173 0 2 83 100 195 0.999 18.94 5.16 Intr - 81380 81195 186 2 0 66 99 244 0.997 23.19 5.15 Intr - 81812 81733 80 0 2 90 109 81 0.997 9.67 5.14 Intr - 82014 81954 61 0 1 93 63 53 0.941 1.61 5.13 Intr - 83350 83212 139 0 1 113 76 209 0.988 22.67 5.12 Intr - 83802 83615 188 0 2 59 85 319 0.999 27.19 5.11 Intr - 84128 83996 133 1 1 36 105 221 0.978 19.25 5.10 Intr - 84349 84267 83 1 2 92 89 94 0.999 8.34 5.09 Intr - 84606 84472 135 0 0 75 93 165 0.975 16.46 5.08 Intr - 85006 84814 193 0 1 109 49 241 0.976 21.79 5.07 Intr - 86413 86298 116 1 2 76 110 137 0.932 13.95 5.06 Intr - 86852 86671 182 0 2 74 99 269 0.999 26.19 5.05 Intr - 87237 87161 77 2 2 113 109 55 0.999 9.26 5.04 Intr - 87516 87362 155 0 2 112 80 170 0.999 17.47 5.03 Intr - 87748 87670 79 0 1 80 89 80 0.954 6.85 5.02 Intr - 88020 87927 94 1 1 108 50 146 0.999 11.82 5.01 Init - 89381 89330 52 2 1 42 73 126 0.860 5.86 5.00 Prom - 97572 97533 40 -4.56 6.00 Prom + 98644 98683 40 -8.56 6.01 Init + 100001 100239 239 1 2 109 -13 238 0.760 13.28 6.02 Intr + 101350 101521 172 1 1 28 97 129 0.766 7.75 6.03 Intr + 101619 101754 136 2 1 51 25 76 0.995 -2.26 6.04 Intr + 102411 102574 164 1 2 123 80 133 0.999 15.69 6.05 Intr + 103773 104020 248 2 2 75 80 325 0.991 26.66 6.06 Intr + 105375 105534 160 0 1 93 3 217 0.997 13.69 6.07 Intr + 105977 106128 152 1 2 116 77 148 0.999 15.46 6.08 Intr + 109074 109260 187 0 1 55 56 392 0.961 32.39 6.09 Intr + 109678 109824 147 0 0 111 100 212 0.999 25.13 6.10 Intr + 110055 110243 189 2 0 99 72 281 0.999 27.38 6.11 Intr + 110350 110511 162 0 0 112 94 226 0.999 25.77 6.12 Intr + 110742 110881 140 2 2 127 50 267 0.999 26.06 6.13 Intr + 110972 111174 203 2 2 90 48 362 0.937 31.33 6.14 Intr + 111306 111477 172 1 1 32 80 343 0.903 26.90 6.15 Intr + 113269 113491 223 1 1 97 75 157 0.993 13.43 6.16 Intr + 120432 120485 54 2 0 77 94 72 0.766 5.88 6.17 Intr + 120812 120884 73 1 1 28 70 93 0.630 0.48 6.18 Intr + 121259 121308 50 0 2 96 87 15 0.585 0.60 6.19 Intr + 121364 121449 86 1 2 79 80 84 0.701 5.32 6.20 Intr + 121860 121937 78 0 0 84 71 76 0.947 4.17 6.21 Intr + 122167 122244 78 1 0 123 107 16 0.980 5.67 6.22 Intr + 123577 123703 127 1 1 34 91 220 0.910 17.58 6.23 Intr + 124302 124340 39 2 0 133 86 27 0.977 5.42 6.24 Intr + 124581 124700 120 2 0 47 58 135 0.970 7.09 6.25 Intr + 125112 125198 87 2 0 100 81 18 0.593 2.47 6.26 Term + 125287 125460 174 0 0 77 36 223 0.999 13.76 6.27 PlyA + 125705 125710 6 1.05 7.04 PlyA - 126075 126070 6 -1.95 7.03 Term - 126438 126203 236 1 2 108 37 141 0.956 7.48 7.02 Intr - 126882 126674 209 2 2 81 64 136 0.959 9.22 7.01 Init - 127571 127147 425 2 2 71 -30 936 0.954 75.92 7.00 Prom - 127678 127639 40 -4.66 8.10 PlyA - 128317 128312 6 1.05 8.09 Term - 129240 129175 66 0 0 97 47 108 0.903 5.54 8.08 Intr - 129474 129319 156 0 0 102 94 158 0.910 18.01 8.07 Intr - 129728 129641 88 1 1 104 87 17 0.989 3.17 8.06 Intr - 130220 130032 189 1 0 113 68 90 0.985 8.20 8.05 Intr - 130664 130580 85 0 1 107 119 -45 0.976 -0.62 8.04 Intr - 132585 132439 147 1 0 126 100 157 0.976 20.91 8.03 Intr - 133004 132807 198 0 0 70 69 218 0.936 17.42 8.02 Intr - 133315 133149 167 0 2 70 67 77 0.782 3.40 8.01 Init - 133832 133672 161 2 2 88 50 293 0.988 22.80 8.00 Prom - 136088 136049 40 -5.36 9.00 Prom + 138496 138535 40 -9.75 9.01 Init + 139919 140272 354 1 0 77 84 539 0.989 47.54 9.02 Intr + 142281 142376 96 2 0 76 91 40 0.877 3.31 9.03 Intr + 142738 142857 120 0 0 87 75 110 0.990 10.29 9.04 Intr + 143024 143134 111 1 0 76 94 78 0.995 7.78 9.05 Intr + 143229 143345 117 2 0 122 105 139 0.999 19.66 9.06 Intr + 143440 143551 112 0 1 105 100 77 0.974 10.55 9.07 Intr + 143698 143806 109 2 1 73 65 125 0.965 8.04 9.08 Intr + 144505 144569 65 1 2 138 98 58 0.908 10.16 9.09 Intr + 144659 144786 128 0 2 84 78 -25 0.649 -3.50 9.10 Intr + 144877 145051 175 0 1 72 71 227 0.996 18.91 9.11 Intr + 145788 145889 102 1 0 71 78 103 0.990 7.75 9.12 Intr + 146029 146165 137 2 2 47 87 172 0.712 13.29 9.13 Intr + 146257 146542 286 0 1 95 97 304 0.999 28.91 9.14 Intr + 148222 148410 189 2 0 140 46 213 0.528 21.86 9.15 Intr + 150908 150994 87 0 0 16 66 102 0.258 0.74 9.16 Intr + 153756 153816 61 1 1 44 115 38 0.327 -0.11 9.17 Intr + 159112 159302 191 1 2 106 91 195 0.686 20.83 9.18 Intr + 162833 163131 299 0 2 72 60 223 0.595 14.49 9.19 Intr + 163697 163823 127 1 1 43 97 173 0.530 13.95 9.20 Intr + 164007 164159 153 1 0 24 97 162 0.999 10.74 9.21 Intr + 164673 164750 78 1 0 99 101 58 0.834 7.72 9.22 Intr + 164838 164958 121 1 1 84 110 77 0.635 9.05 9.23 Intr + 165041 165179 139 2 1 72 81 180 0.981 16.17 9.24 Intr + 165272 165396 125 1 2 103 88 51 0.996 5.98 9.25 Term + 166261 166675 415 1 1 88 49 627 0.992 53.53 9.26 PlyA + 167208 167213 6 1.05 10.00 Prom + 168041 168080 40 -5.66 10.01 Init + 177298 177354 57 0 0 91 65 25 0.600 1.53 10.02 Intr + 182131 182395 265 0 1 91 58 443 0.422 38.69 10.03 Intr + 185294 185434 141 0 0 29 119 35 0.594 1.02 10.04 Intr + 186203 186320 118 0 1 109 110 108 0.986 14.62 10.05 Intr + 186437 186569 133 2 1 83 77 235 0.999 22.55 10.06 Intr + 186702 186752 51 2 0 87 105 91 0.996 9.80 10.07 Intr + 186947 187092 146 1 2 -6 68 241 0.986 11.78 10.08 Intr + 188506 188629 124 1 1 70 113 157 0.676 16.99 10.09 Intr + 188741 188855 115 1 1 112 70 88 0.850 9.42 10.10 Intr + 189049 189191 143 2 2 91 117 123 0.992 15.57 10.11 Intr + 190411 190509 99 0 0 100 89 123 0.999 13.91 10.12 Intr + 190734 190902 169 2 1 47 50 331 0.986 24.72 10.13 Intr + 191006 191106 101 0 2 24 80 165 0.331 9.13 10.14 Intr + 192404 192562 159 1 0 66 75 167 0.941 13.38 10.15 Intr + 192715 192833 119 0 2 143 82 104 0.999 14.56 10.16 Intr + 193058 193270 213 2 0 80 -3 357 0.162 23.63 10.17 Intr + 200528 200624 97 2 1 79 102 38 0.627 4.31 10.18 Intr + 201072 201219 148 2 1 74 70 65 0.393 3.11 10.19 Intr + 204533 204602 70 0 1 95 66 22 0.225 -1.06 10.20 Intr + 205516 206275 760 1 1 61 94 944 0.341 83.77 10.21 Intr + 206630 207451 822 1 0 84 87 1155 0.756 106.62 10.22 Intr + 207501 207584 84 2 0 111 86 9 0.706 3.02 10.23 Intr + 211870 212465 596 0 2 128 60 814 0.894 73.97 10.24 Intr + 213348 213434 87 0 0 84 101 112 0.887 11.19 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 59947 59805 143 0 2 33 84 133 0.988 7.40 S.002 Intr - 60049 60021 29 1 2 92 48 16 0.983 -5.09 S.003 Init + 117211 117243 33 0 0 82 101 58 0.862 6.39 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_1|439_aa MEYYAAIKKNEIMSSVGTGMKLEAIILSKLMQEQKTKCHMFSLVLDPRHVRVESRRVFLS VPRRGPEEIKGVKWTAPHLSCRQANSIRAGAFEKAPVRVAPQPPRSHSASPLRAAAPLPA PKVDVKLQHLDFWARLHGQVPGLLDWDMGNELFLAFTTSHLPLAEQKLARYKLRIVKPPK LPLEKKPNPDKDGPDYEPNLWMWVNPNIVYPPGKLEVSGRRKREDLTSTLPSSQPPQKEE DASCSEAAGVESLSQSSSKRSPPRKRFAFSPSTWELTEEEEAEDQEDSSSMALPSPHKRA PLQSRRLRQASSQAGRLWSRPPLNYFHLIALALRNSSPCGLNVQQIYSFTRKHFPFFRTA PEGWKNTVRHNLCFRDSFEKVPVSMQGGASTRPRSCLWKLTEEGHRRFAEEARALASTRL ESIQQCMSQPDVMPFLFDL >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_1|1320_bp atggaatactatgcagccataaaaaagaatgagatcatgtcttctgtgggaaccgggatg aagctggaggccattatccttagcaaactaatgcaagaacagaaaaccaaatgccacatg ttctcacttgtcctcgacccccggcatgtaagggtagagtcaaggagggtcttcttaagc gttcctcggcgcggtcctgaagagattaaaggcgtcaaatggaccgctccacacctgagc tgccgccaagctaactcaatccgagccggcgcatttgagaaggcgcctgtgagggtcgct cctcagccgccgcgctcccactccgcgtccccactccgcgccgccgcgcctctgccagcc ccgaaggtggacgtgaagctccaacacctcgacttctgggcccgcctccatggccaggtc ccgggactgctggactgggacatggggaacgagctctttctggccttcaccacatctcac ctccccttagcggagcagaaacttgccaggtataaactccgaattgttaagccaccaaaa ttacccctagagaaaaaacccaaccctgataaggatggtccagattatgagcccaacctc tggatgtgggtaaatcccaacattgtgtatccccctggaaagctggaggtctcaggacgt aggaagagggaggacctgacaagcacactcccctcctctcagccaccccagaaggaggaa gatgccagctgctcagaggccgcaggggtggaatcactgtcccagtcctccagcaagcgg tctccccctcggaagcggtttgccttttcccccagcacctgggagctcacagaagaggag gaggctgaggaccaggaagacagctcctctatggctctcccatcccctcacaaaagggcc cccctccagagtcggaggcttcggcaagccagcagccaggcggggaggctctggtcccgg ccccctctcaattacttccacctaattgccctggcattaagaaacagttccccctgtggc ctcaacgtgcaacagatctacagtttcactcgaaagcacttcccctttttccggacggcc ccggaaggctggaagaatactgtccgtcacaatctctgttttcgagacagctttgagaaa gtgcctgtcagcatgcagggcggggccagcacacggcctcgatcttgcctctggaagttg accgaggagggacaccgccgctttgcggaggaggcccgcgccttggcttccactcggcta gaaagtatccaacagtgcatgagccagccagatgtgatgcccttcctctttgatctttaa >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_2|275_aa MAPAQRCPLCRQTFFCGRGHVYSRKHQRQLKEALERLLPQVEAARKAIRAAQVERYVPEH ERCCWCLCCGCEVREHLSHGNLTVLYGGLLEHLASPEHKKATNKFWWENKAEVQMKEKFL VTPQDYARFKKSMVKGLDSYEEKEDKVIKEMAAQIREVEQSRQEVVRSVLEDIPGVGNIH SGATPPWMIQDEEYIAGNQEIGPSYEEFLKEKEKQKLKKLPPDRVGANFDHSSRTSAGWL PSFGRVWNNGRRWQSRHQFKTEAAAMKKQSHTEKS >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_2|828_bp atggcgccggcgcagcgctgccctctgtgccgccagaccttcttctgtggtcgcgggcac gtttacagccgcaagcaccagcggcagctgaaggaggctttggagaggctcctgccccag gtggaggcggcccgcaaggccatccgcgccgctcaggtggagcgctatgtgcccgaacac gagcgatgctgctggtgcctgtgctgcggctgtgaggtgcgggaacacctgagccatgga aacctgacggtgctgtacggggggctgctggagcatctggccagcccagagcacaagaaa gcaaccaacaaattctggtgggagaacaaagctgaggtccagatgaaagagaagtttctg gtcactccccaggattatgcgcgattcaagaaatccatggtgaaaggtttggattcctat gaagaaaaggaggataaagtgatcaaggagatggcagctcagatccgtgaggtggagcag agccgacaggaggtggttcggtctgtcttagaggatataccaggagttggtaacatccac tcaggtgccacacctccctggatgatccaagatgaagaatacattgctgggaaccaagaa ataggaccatcctatgaagaatttcttaaagaaaaggaaaaacagaagttgaaaaaactc cccccagaccgagttggggccaactttgatcacagctccaggaccagtgcaggctggctg ccctcttttggccgcgtctggaataatggacgccgctggcagtccagacatcaattcaaa actgaagctgcagcaatgaagaagcagtcacatacagaaaaaagctaa >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_3|125_aa MPPKDDKKKKDAGKSAKKDKDPVNKSGGKAKKKKWSKGKVRDKLNNLVLFDKATYDKLCK EVPNYKLITPAVVSERLKIRGSLARAALQELLSKGLIKLVSKHRAQVIYTRNTKGGDAPA AGEDA >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_3|378_bp atgccgcctaaggacgacaagaagaagaaggacgctggaaagtcggccaagaaagacaaa gacccagtgaacaaatccgggggcaaggccaaaaagaagaagtggtccaaaggcaaagtt cgggacaagctcaataacttagtcttgtttgacaaagctacctatgataaactctgtaag gaagttcccaactataaacttataaccccagctgtggtctctgagagactgaagattcga ggctccctggccagggcagcccttcaggagctccttagtaaaggacttatcaaactggtt tcaaagcacagagctcaagtaatttacaccagaaataccaagggtggagatgctccagct gctggtgaagatgcatga >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_4|219_aa MAIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVG HAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFA IGSQLSPEQGSSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDF ALKNPFYSLEMPIRCELFDQNLKLALEVAEKAGTFGPGS >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_4|660_bp atggcgatttttagtgtgtatgtggtgaacaaagctggcggcttgatttaccagttggac agctacgcgccacgggctgaggctgagaaaactttcagttatccgctggatctgctgctc aagctacacgatgagcgtgtgttggttgctttcggccagcgggacggcatccgagtgggt catgcagtgctggccatcaatggcatggacgtgaatggcaggtacacggccgacgggaaa gaggtgctggagtatctgggtaaccctgctaattacccggtgtccattcgatttggccgg ccccgcctcacttctaatgagaagcttatgctggcctccatgttccactcgctctttgcc atcggctcccagctgtctcctgaacagggaagctcaggcattgagatgctggagacagac acattcaaattgcactgctaccagacactgacagggatcaagtttgtggttctagcagat cctaggcaagctggaatagattctcttctccgaaagatttatgagatttactcagacttt gccctcaagaatccattctattccttagaaatgcctatcaggtgtgagctctttgaccag aacctgaagctagctctggaggtggcagagaaggctggaacttttggacctgggtcatag >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_5|1595_aa MSARRVRGRLVRETPPRDTLAVMSVDLGSESMKVAIVKPGVPMEIVLNKESRRKTPVIVT LKENERFFGDSAASMAIKNPKATLRYFQHLLGKQADNPHVALYQARFPEHELTFDPQRQT VHFQISSQLQFSPEEVLGMVLNYSRSLAEDFAEQPIKDAVITVPVFFNQAERRAVLQAAR MAGLKVLQLINDNTATALSYGVFRRKDINTTAQNIMFYDMGSGSTVCTIVTYQMVKTKEA GMQPQLQIRGVGFDRTLGGLEMELRLRERLAGLFNEQRKGQRAKDVRENPRAMAKLLREA NRLKTVLSANADHMAQIEGLMDDVDFKAKVTRVEFEELCADLFERVPGPVQQALQSAEMS LDEIEQVILVGGATRVPRVQEVLLKAVGKEELGKNINADEAAAMGAVYQAAALSKAFKVK PFVVRDAVVYPILVEFTREVEEEPGIHSLKHNKRVLFSRMGPYPQRKVITFNRYSHDFNF HINYGDLGFLGPEDLRVFGSQNLTTVKLKGVGDSFKKYPDYESKGIKAHFNLDESGVLSL DRVESVFETLVEDSAEEESTLTKLGNTISSLFGGGTTPDAKENGTDTVQEEEESPAEGSK DEPGEQVELKEEAEAPVEDGSQPPPPEPKGDATPEGEKATEKENGDKSEAQKPSEKAEAG PEGVAPAPEGEKKQKPARKRRMVEEIGVELVVLDLPDLPEDKLAQSVQKLQDLTLRDLEK QEREKAANSLEAFIFETQDKLYQPEYQEVSTEEQREEISGKLSAASTWLEDEGVGATTVM LKEKLAELRKLCQGLFFRVEERKKWPERLSALDNLLNHSSMFLKGARLIPEMDQIFTEVE MTTLEKVINETWAWKNATLAEQAKLPATEKPVLLSKDIEAKMMALDREVQYLLNKAKFTK PRPRPKDKNGTRAEPPLNASASDQGEKVIPPAGQTEDAEPISEPEKVETGRRRYAGEGSH LRAGISGLGEPLLANPNFRYDPELFLQFQRQFMGLGATEALSLTTSTRPLSIAPVLWSPH LSSSCTPGPRGSQPHSSVSWVALSLWVPEARGLRENTCGRPLRVRLRLLLQLLSQLSGKA GACCRGPGRDGCALQPEARRGTFPPTSCPVPLLAAPANVPQVGNQTLQPPASPKEAQTDV AGTLGPLGASPGLMIVQKAAIKGAWEAGWRREQKKPNSADLGTVRAASRNCGQRLCVLAA QGYGYYRTVIFSAMFGGYSLYYFNRKTFSFVMPSLVEEIPLDKDDLGFITSSQSAAYAIS KFVSGVLSDQMSARWLFSSGLLLVGLVNIFFAWSSTVPVFAALWFLNGLAQGLGWPPCGK VLRKWFEPSQFGTWWAILSTSMNLAGGLGPILATILAQSYSWRSTLALSGALWCGSLKEE STLQELLLSPYLWVLSTGYLVVFGVKTCCTDWGQFFLIQEKGQSALVGSSYMSALEVGGL VGSIAAGYLSDRAMAKAGLSNYGNPRHGLLLFMMAGMTVSMYLFRVTVTSDSPKLWILVL GAVFGFSSYGPIALFGVIANESAPPNLCGTSHAIVGLMANVGGFLAGLPFSTIAKHYSWS TAFWVAEVICAASTAAFFLLRNIRTKMGRVSKKAE >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_5|4788_bp atgagcgcgcgccgcgtccggggccggctggtgcgcgagacgccgccgagagatacactg gcagtgatgtctgtggacctgggcagtgagtccatgaaggtggccattgtcaaacctgga gtgcccatggaaattgtcttgaataaggaatctcggaggaaaacaccggtgatcgtgacc ctgaaagaaaatgaaagattctttggagacagtgcagcaagcatggcgattaagaatcca aaggctacgctacgttacttccagcacctcctggggaagcaggcagataacccccatgta gctctttaccaggcccgcttcccggagcacgagctgactttcgacccacagaggcagact gtgcactttcagatcagctcgcagctgcagttctcacctgaggaagtgttgggcatggtt ctcaattattctcgttctctagctgaagattttgcagagcagcccatcaaggatgcagtg atcaccgtgccagtcttcttcaaccaggccgagcgccgagctgtgctgcaggctgctcgt atggctggcctcaaagtgctgcagctcatcaatgacaacaccgccactgccctcagctat ggtgtcttccgccggaaagatattaacaccactgcccagaatatcatgttctatgacatg ggctcaggcagcaccgtatgcaccattgtgacctaccagatggtgaagactaaggaagct gggatgcagccacagctgcagatccggggagtaggatttgaccgtaccctggggggcctg gagatggagctccggcttcgagaacgcctggctgggcttttcaatgagcagcgcaagggt cagagagcaaaggatgtgcgggagaacccgcgtgccatggccaagctgctgcgtgaggct aatcggctcaaaaccgtcctcagtgccaacgctgaccacatggcacagattgaaggcctg atggatgatgtggacttcaaggcaaaagtgactcgtgtggaatttgaggagttgtgtgca gacttgtttgagcgggtgcctgggcctgtacagcaggccctccagagtgccgaaatgagt ctggatgagattgagcaggtgatcctggtgggtggggccactcgggtccccagagttcag gaggtgctgctgaaggccgtgggcaaggaggagctggggaagaacatcaatgcagatgaa gcagccgccatgggggcagtgtaccaggcagctgcgctcagcaaagcctttaaagtgaag ccatttgtcgtccgagatgcagtggtctaccccatcctggtggagttcacgagggaggtg gaggaggagcctgggattcacagcctgaagcacaataaacgggtactcttctctcggatg gggccctaccctcaacgcaaagtcatcacctttaaccgctacagccatgatttcaacttc cacatcaactacggcgacctgggcttcctggggcctgaagatcttcgggtatttggctcc cagaatctgaccacagtgaagctaaaaggggtgggtgacagcttcaagaagtatcctgac tacgagtccaagggcatcaaggctcacttcaacctggatgagagtggcgtgctcagtcta gacagggtggagtctgtatttgagacactggtagaggacagcgcagaagaggaatctact ctcaccaaacttggcaacaccatttccagcctgtttggaggcggtaccacaccagatgcc aaggagaatggtactgatactgtccaggaggaagaggagagccctgcagaggggagcaag gacgagcctggggagcaggtggagctcaaggaggaagctgaggccccagtggaggatggc tctcagcccccaccccctgaacctaagggagatgcaacccctgagggagaaaaggccaca gaaaaagaaaatggggacaagtctgaggcccagaaaccaagtgagaaggcagaggcaggg cctgagggcgtcgctccagccccagagggagagaagaagcagaagcccgccaggaagcgg cgaatggtagaggagatcggggtggagctggttgttctggacctgcctgacttgccagag gataagctggctcagtcggtgcagaaacttcaggacttgacactccgagacctggagaag caggaacgggaaaaagctgccaacagcttggaagcattcatatttgagacccaggacaag ctgtaccagcccgagtaccaggaagtgtccacagaggagcagcgtgaggagatctctggg aagctcagcgccgcatccacctggctggaggatgagggtgttggagccaccacagtgatg ttgaaggagaagctggctgagctgaggaagctgtgccaagggctgttttttcgggtagag gagcgcaagaagtggcccgaacggctgtctgccctcgataatctcctcaaccattccagc atgttcctcaagggggcccggctcatcccagagatggaccagatcttcactgaggtggag atgacaacgttagagaaagtcatcaatgagacctgggcctggaagaatgcaactctggcc gagcaggctaagctgcccgccacagagaagcctgtgttgctctcaaaagacattgaagct aagatgatggccctggaccgagaggtgcagtatctgctcaataaggccaagtttaccaag ccccggccccggcctaaggacaagaatgggacccgggcagagccacccctcaatgccagt gccagtgaccagggggagaaggtcatccctccagcaggccagactgaagatgcagagccc atttcagaacctgagaaagtagagactggtaggaggcggtatgcgggggaggggagtcac ctgagggcggggatctcaggtcttggggagccattgttggcgaaccccaacttccgatac gacccggagctgttcctgcagttccagagacaattcatgggtcttggggccaccgaggcg ctgtccctgaccaccagcacgagacccctttctatcgcgccagtcctgtggtctccgcac ctctccagctcctgcacccccggcccccgtggttcccagccgcacagtagcgtgtcctgg gtagcgctgagcctctgggtgccagaagcgcggggcctccgggagaatacgtgcggtcgc ccgctccgcgtgcgcctacgccttctgctccagttgctttcccaattgagcggaaaagcc ggggcatgttgccggggccctgggcgggacggttgtgccctgcagcccgaagcccgccgg ggcaccttcccgcccacgagctgcccagtccctctgcttgcggcccctgccaacgtccca caggttggaaaccagaccctgcagcccccagctagcccgaaggaagcccagactgacgtc gcagggacactgggtccccttggagcctccccaggcttaatgattgtccagaaggcggct ataaagggagcctgggaggctgggtggaggagggagcagaaaaaacccaactcagcagat ctgggaactgtgagagcggcaagcaggaactgtggtcagaggctgtgcgtcttggctgcc cagggctatggctattatcgcactgtgatcttctcagccatgtttgggggctacagcctg tattacttcaatcgcaagaccttctcctttgtcatgccatcattggtggaagagatccct ttggacaaggatgatttggggttcatcaccagcagccagtcggcagcttatgctatcagc aagtttgtcagtggggtgctgtctgaccagatgagtgctcgctggctcttctcttctggg ctgctcctggttggcctggtcaacatattctttgcctggagctccacagtacctgtcttt gctgccctctggttccttaatggcctggcccaggggctgggctggcccccatgtgggaag gtcctgcggaagtggtttgagccatctcagtttggcacttggtgggccatcctgtcaacc agcatgaacctggctggagggctgggccctatcctggcaaccatccttgcccagagctac agctggcgcagcacgctggccctatctggggcactgtggtgtggctccttgaaggaggag agcaccctgcaggagctgctgctgtccccttacctgtgggtgctctccactggttacctt gtggtgtttggagtaaagacctgctgtactgactggggccagttcttccttatccaggag aaaggacagtcagcccttgtaggtagctcctacatgagtgccctggaagttgggggcctt gtaggcagcatcgcagctggctacctgtcagaccgggccatggcaaaggcgggactgtcc aactacgggaaccctcgccatggcctgttgctgttcatgatggctggcatgacagtgtcc atgtacctcttccgggtaacagtgaccagtgactcccccaagctctggatcctggtattg ggagctgtatttggtttctcctcgtatggccccattgccctgtttggagtcatagccaac gagagtgcccctcccaacttgtgtggcacctcccacgccattgtgggactcatggccaat gtgggcggctttctggctgggctgcccttcagcaccattgccaagcactacagttggagc acagccttctgggtggctgaagtgatttgtgcggccagcacggctgccttcttcctccta cgaaacatccgcaccaagatgggccgagtgtccaagaaggctgagtga >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_6|1219_aa MAAYLQWRRFVFFDKELVKEPLSNDGAAPGATPASGSAASKFLCLPPGITVCDSGRGSLV FGDILRLELSFPSRDPEEIERLLDYPAHMEGQIWFLPRSLQLTGFQAYKLRVTHLYQLKQ HNILASVGEDEEGINPLVKIWNLEKRDGGNPLCTRIFPAIPGTEPTVVSCLTVHENLNFM AIGFTDGSVTLNKGDITRDRHSKTQILHKGNYPVTGLAFRQAGKTTHLFVVTTENVQSYI VSGKDYPRVELDTHGCGLRCSALSDPSQDLQFIVAGDECVYLYQPDERGPCFAFEGHKLI AHWFRGYLIIVSRDRKVSPKSEFTSRDSQSSDKQILNIYDLCNKFIAYSTVFEDVVDVLA EWGSLYVLTRDGRMLFKKNLFEMAINLAKSQHLDSDGLAQIFMQYGDHLYSKGNHDGAVQ QYIRTIGKLEPSYVIRKFLDAQRIHNLTAYLQTLHRQSLANADHTTLLLNCYTKLKDSSK LEEFIKKKSESEVHFDVETAIKVLRQAGYYSHALYLAENHAHHEWYLKIQLEDIKNYQEA LRYIGKLPFEQAESNMKRYGKILMHHIPEQTTQLLKGLCTDYRPSLEGRSDREAPGCRAN SEEFIPIFANNPRELKAFLEHMSEVQPDSPQGIYDTLLELRLQNWAHEKDPQVKEKLHAE AISLLKSGRFCDVFDKALVLCQMHDFQDGVLYLYEQGKLFQQIMHYHMQHEQYRQVISVC ERHGEQDPSLWEQALSYFARKEEDCKEYVAAVLKHIENKNLMPPLLVVQTLAHNSTATLS VIRDYLVQKLQKQSQQIAQDELRVRRYREETTRIRQEIQELKASPKIFQKTKCSICNSAL ELPSVHFLCGHSFHQHCFESYSESDADCPTCLPENRKVMDMIRAQEQKRDLHDQFQHQEE NSPKMRVIRVGTRKSQLARIQTDSVVATLKASYPGLQFEIIAMSTTGDKILDTALSKGFT QALSVRQIGEKSLFTKELEHALEKNEVDLVVHSLKDLPTVLPPGFTIGAICKRENPHDAV VFHPKFVGKTLETLPEKSNSPQRGNLNTRLRKLDEQQEFSAIILATAGLQRMGWHNRVGQ ILHPEECMYAVGQGALGVEVRAKDQDILDLVGVLHDPETLLRCIAERAFLRHLLYLTGGV WSLDGSDSIQETMQATIHVPAQHEDGPEDDPQLVGITARNIPRGPQLAAQNLGISLANLL LSKGAKNILDVARQLNDAH >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_6|3660_bp atggcggcctacctgcagtggcggcgcttcgttttcttcgacaaggagctggtgaaggag ccgctgagcaatgatggggccgctcccggggccacacctgcttctggatccgctgcttcc aagttcctttgcctccctcctggcatcactgtctgcgactcaggccgagggagcctggtc tttggagatatccttcgtttggagctgtcttttccctcccgggatcccgaagagatcgag aggctccttgactaccctgcacatatggaaggccagatctggttcttgccacgttcccta cagcttacaggcttccaagcctacaaactacgggtgacacacctgtaccaactgaagcag cacaatattctggcatctgttggagaagatgaagagggcatcaaccccttggttaagatc tggaacctggagaagagagatggtggcaatccactctgcactcgaatcttccctgctatt ccaggaacagagccaactgttgtatcttgtttgactgtccatgaaaatctcaactttatg gccattggtttcacagatggcagtgttacattgaacaaaggagacatcacccgggaccgg catagcaagacccagattttgcacaagggcaactatcctgtaactggattggcctttcgc caagcaggaaagaccactcacttgtttgttgtgacaacagagaacgtccagtcctatata gtttctggaaaagactaccctcgcgtggagttggacacccatggttgtggcctgcgctgc tcagccctaagtgacccttctcaggacctgcagttcattgtggccggggatgagtgtgtc tacttgtaccagcctgatgaacgtgggccctgcttcgcctttgagggccataagctcatt gcccactggtttagaggctaccttatcattgtctcccgtgaccggaaggtttctcccaag tcagagtttaccagcagggattcacagagctccgacaagcagattctaaacatctatgac ctgtgcaacaagttcatagcctatagcaccgtctttgaggatgtagtggatgtgcttgct gagtggggctccctgtacgtgctgacgcgggatgggcggatgctgtttaagaagaaccta tttgagatggcgattaaccttgccaagagccagcatctggacagtgatgggctggcccag attttcatgcagtatggagaccatctctacagcaagggcaaccacgatggggctgtccag caatatatccgaaccattggaaagttggagccatcctacgtgatccgcaagtttctggat gcccagcgcattcacaacctgactgcctacctgcagaccctgcaccgacaatccctggcc aatgccgaccataccaccctgctcctcaactgctataccaagctcaaggacagctcgaag ctggaggagttcatcaagaaaaagagtgagagtgaagtccactttgatgtggagacagcc atcaaggtcctccggcaggctggctactactcccatgccctgtatctggcggagaaccat gcacatcatgagtggtacctgaagatccagctagaagacattaagaattatcaggaagcc cttcgatacatcggcaagctgccttttgagcaggcagagagcaacatgaagcgctacggc aagatcctcatgcaccacataccagagcagacaactcagttgctgaagggactttgtact gattatcggcccagcctcgaaggccgcagcgatagggaggccccaggctgcagggccaac tctgaggagttcatccccatctttgccaataacccgcgagagctgaaagccttcctagag cacatgagtgaagtgcagccagactcaccccaggggatctacgacacactccttgagctg cgactgcagaactgggcccacgagaaggatccacaggtcaaagagaagcttcacgcagag gccatttccctgctgaagagtggtcgcttctgcgacgtctttgacaaggccctggtcctg tgccagatgcacgacttccaggatggtgtcctttacctttatgagcaggggaagctgttc cagcagatcatgcactaccacatgcagcacgagcagtaccggcaggtcatcagcgtgtgt gagcgccatggggagcaggacccctccttgtgggagcaggccctcagctacttcgctcgc aaggaggaggactgcaaggagtatgtggcagctgtcctcaagcatatcgagaacaagaac ctcatgccacctcttctagtggtgcagaccctggcccacaactccacagccacactctcc gtcatcagggactacctggtccaaaaactacagaaacagagccagcagattgcacaggat gagctgcgggtgcggcggtaccgagaggagaccacccgtatccgccaggagatccaagag ctcaaggccagtcctaagattttccaaaagaccaagtgcagcatctgtaacagtgccttg gagttgccctcagtccacttcctgtgtggccactccttccaccaacactgctttgagagt tactcggaaagtgatgctgactgccccacctgcctccctgaaaaccggaaggtcatggat atgatccgggcccaggaacagaaacgagatctccatgatcaattccagcatcaggaagaa aacagcccaaagatgagagtgattcgcgtgggtacccgcaagagccagcttgctcgcata cagacggacagtgtggtggcaacattgaaagcctcgtaccctggcctgcagtttgaaatc attgctatgtccaccacaggggacaagattcttgatactgcactctctaagggattcact caggctctttctgtccggcagattggagagaaaagcctgtttaccaaggagcttgaacat gccctggagaagaatgaagtggacctggttgttcactccttgaaggacctgcccactgtg cttcctcctggcttcaccatcggagccatctgcaagcgggaaaaccctcatgatgctgtt gtctttcacccaaaatttgttgggaagaccctagaaaccctgccagagaagagcaactct ccacagcggggaaacctcaacacccggcttcggaagctggacgagcagcaggagttcagt gccatcatcctggcaacagctggcctgcagcgcatgggctggcacaaccgggtggggcag atcctgcaccctgaggaatgcatgtatgctgtgggccagggggccttgggcgtggaagtg cgagccaaggaccaggacatcttggatctggtgggtgtgctgcacgatcccgagactctg cttcgctgcatcgctgaaagggccttcctgaggcacctgctgtacctgactggaggagtc tggagtctagacggctcagatagcatacaagagaccatgcaggctaccatccatgtccct gcccagcatgaagatggccctgaggatgacccacagttggtaggcatcactgctcgtaac attccacgagggccccagttggctgcccagaacttgggcatcagcctggccaacttgttg ctgagcaaaggagccaaaaacatcctggatgttgcacggcagcttaacgatgcccattaa >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_7|289_aa MSGRGKTGGKARAKAKSRSSRAGLQFPVGRVHRLLRKGHYAERVGAGAPVYLAAVLEYLT AEILELAGNAARDNKKTRIIPRHLQLAIRNDEELNKLLGGVTIAQGGVLPNIQAVLLPKK TSATVGPKAPSGGKKATQASQEVRAFRMRLGRSSGTSVARKTRACRGEAGGAAPARLGVR DSAAPSRVAKGLRGGRSTFWKTWPSALTQGRGLRWGRDEALGNRHIFLPSDCLLGGHLGE GRGLQFGFTAGYVDSKSRFRGSRLAARPVGPPDAAPFPFQQTQLGNPST >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_7|870_bp atgtcgggccgcggcaagactggcggcaaggcccgcgccaaggccaagtcgcgctcgtcg cgcgccggcctccagttcccagtgggccgtgtacaccggctgctgcggaagggccactac gccgagcgcgttggcgccggcgcgccagtgtacctggcggcagtgctggagtacctcacc gctgagatcctggagctggcgggcaatgcggcccgcgacaacaagaagacgcgaatcatc ccccgccacctgcagctggccatccgcaacgacgaggagctcaacaagctgctgggcggc gtgacgatcgcccagggaggcgtcctgcccaacatccaggccgtgctgctgcccaagaag accagcgccaccgtggggccgaaggcgccctcgggcggcaagaaggccacccaggcctcc caggaggttcgggccttccggatgcggcttgggcgctcttcggggacctccgtggcgcgg aagacccgagcctgccggggggaggccggcggcgccgcacctgcccgcctcggcgttcgt gactcagccgccccatcccgagtcgctaaggggctgcggggaggccgcagcaccttctgg aagacttggccttccgctctgacgcagggccgaggtctgcgctggggccgggacgaagca cttggtaacaggcacatcttcctcccgagtgactgcctcctaggaggacatttaggggag ggcagaggcctgcagtttggcttcacggctggctatgtggacagcaagagtcgttttcgc ggaagccgactggcagccaggcctgtcgggccccccgacgccgccccatttcccttccag caaactcaactcggcaatccaagcacctag >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_8|418_aa MWAFSELPMPLLINLIVSLLGFVATVTLIPAFRGHFIAARLCGQDLNKTSRQQIPESQGV ISGAVFLIILFCFIPFPFLNCFVKEQCKAFPHHEVSGFVGVIACGWDLGGALLAICCMIF LGFADDVLNLRWRHKLLLPTAASLPLLMVYFTNFGNTTIVVPKPFRPILGLHLDLGILYY VYMGLLAVFCTNAINILAGINGLEAGQSLVISASIIVFNLVELEGDCRDDHVFSLYFMIP FFFTTLGLLYHNWYPSRVFVGDTFCYFAGMTFAVVGILGHFSKTMLLFFMPQVFNFLYSL PQLLHIIPCPRHRIPRLNIKTGKLEMSYSKFKTKSLSFLGTFILKVAESLQLVTVHQSET EDGEFTECNNMTLINLLLKVLGPIHERNLTLLLLLLQILGSAITFSIRYQLVRLFYDV >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_8|1257_bp atgtgggccttctcggaattgcccatgccgctgctgatcaatttgatcgtctcgctgctg ggatttgtggccacagtcaccctcatcccggccttccggggccacttcattgctgcgcgc ctctgtggtcaggacctcaacaaaaccagccgacagcagatcccagaatcccagggagtg atcagcggtgctgttttccttatcatcctcttctgcttcatccctttccccttcctgaac tgctttgtgaaggagcagtgtaaggcattcccccaccatgaagtaagtgggttcgtgggg gtgattgcctgtggctgggacctgggaggtgccctccttgccatctgctgcatgatcttc ctgggctttgcggatgatgtactgaatctgcgctggcgccataagctgctgctacctaca gctgcctcactacctctcctcatggtctatttcaccaactttggcaacacgaccattgtg gtgcccaagcccttccgcccgatacttggcctgcatctggacttgggaatcctgtactat gtctacatggggctgctggcagtgttctgtaccaatgccatcaatatcctagcaggaatt aacggcctagaggctggccagtcactagtcatttctgcttccatcattgtcttcaacctg gtagagttggaaggtgattgtcgggatgatcatgtcttttccctctacttcatgataccc ttttttttcaccactttgggattgctctaccacaactggtacccatcacgggtgtttgtg ggagataccttctgttactttgctggcatgacctttgccgtggtgggcatcttgggacac ttcagcaagaccatgctactattcttcatgccccaggtgttcaacttcctctactcactg cctcagctcctgcatatcatcccctgccctcgccaccgcatacccagactcaatatcaag acaggcaaactggagatgagctattccaagttcaagaccaagagcctctctttcttgggc acctttattttaaaggtggcagagagcctccagctggtgacagtacaccagagtgagact gaagatggtgaattcactgaatgtaacaacatgaccctcatcaacttgctacttaaagtc cttgggcccatacatgagagaaacctcacattgctcctgctgctgctgcagatcctgggc agtgccatcaccttctccattcgatatcagctcgttcgactcttctatgatgtctga >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_9|1298_aa MDPGWGQRDVGWAALLILFAASLLTVFAWLLQYARGLWLARARGDRGPGPALAGEPAGSL RELGVWRSLLRLRATRAGAAEEPGVRGLLASLFAFKSFRENWQRAWVRALNEQACRNGSS IQIAFEEVPQLPPRASISHVTCVDQSEHTMVLRCQLSAEEVRFPVSVTQQSPAAVSMETY HVTLTLPPTQLEVNLEEIPGEGLLISWAFTDRPDLSLTVLPKLQARERGEEQVELSTIEE LIKDAIVSTQPAMMVNLRACSAPGGLVPSEKPPMMPQAQPAIPRPNRLFLRQLRASHLGN ELEGTEELCCVAELDNPMQQKWTKPARAGSEVEWTEDLALDLGPQSRELTLKVLRSSSCG DTELLGQATLPVGSPSRPLSRRQLCPLTPGPGKALGPAATMAVELHYEEGSPRNLGTPTS STPRPSITPTKKIELDRTIMPDGTIVTTVTTVQSRPRIDGKLDSPSRSPSKVEVTEKTTT VLSESSGPSNTSHSSSPGDSHLSNGLDPVAETAIRQLTEPSGRVAKKTPTKRSTLIISGV SKVPIAQDELALSLGYAASLEASVQDDAGTSGGPSSPPSDPPAMSPGPLDALSSPTSVQE ADETTRSDISERPSVDDIESETGSTGALETRSLKDHKVSFLRSGTKLIFRRRPRQKEAGL SQSHDDLSNATATPSVRKKAGSFSRRLIKRFSFKSKPKANEEQFFYQYDTTTKHSELVIA QETFVDGRTAPLRRWSEVGEELKRPGADRRVKAMPPPGKVPRKENLWLQCEWGSCSFVCS TMEKFFEHVTQHLQQHLHGSGEEEEEEEEDDPLVLQVEGDLSLGKCQTLPFKPLSTEEEF SCLWQECGFCSLDSSADLIRHVYFHCYHTKLKQWGLQALQSQADLGPCILDFQSRNVIPD IPDHFLCLWEHCELPLAQNSFDNPEWFYRHVEAHSLCCEYEAVGKDNPVVLCGWKGCTCT FKDRSKLREHLRSHTQEKVVACPTCGGMFANNTKFLDHIRRQTSLDQQHFQCSHCSKRFA TERLLRDHMRNHVNHYKCPLCDMTCPLPSSLRNHMRFRHSEDRPFKCDCCDYSCKNLIDL QKHLDTHSEEPAYRCDFENCTFSARSLCSIKSHYRKVHEGDSEPRYKCHVCDKCFTRGNN LTVHLRKKHQFKWPSGHPRFRYKEHEDGYMRLQLVRYESVELTQQLLRQPQEGSGLGTSL NESSLQGIILETVPGEPGRKEEEEEGKGSEGTALSASQDNPSSVIHVVNQTNAQGQQEIV YYVLSEAPGEPPPAPEPPSGGIMEKLQGIAEEPEIQMV >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_9|3897_bp atggatccgggctgggggcagcgggacgtgggctgggcggccttgctgatcctcttcgcc gcctcgctgctcacggtgttcgcctggctgctgcaatatgcccggggcttgtggctggcg cgggcccgcggggaccggggcccgggacccgccttagccggggaacccgcgggttccctg cgggagctgggcgtgtggcgctcgctgctgcggctgcgggcgactcgggctggcgccgcc gaggagccaggagtccggggcctcctggcgtcactcttcgccttcaagtctttccgggag aactggcagcgggcttgggtgcgagcgctgaacgagcaggcctgcagaaacgggagctcc atccaaatcgcctttgaggaggtgccccaactcccacccagagccagcatcagtcatgtg acctgcgtagaccaatctgagcataccatggtgctgcgttgccagctctctgctgaggag gtgcggttcccagtctctgtgacccagcagtcccccgctgccgtctccatggagacctac cacgtcactctgacactgccaccaacacagttggaagtcaacctggaggaaatccctggt gaggggctgctcatatcctgggccttcactgatcgcccagatctcagcctaacggtgctt cccaagcttcaggccagggagagaggtgaagaacaagtggagctctccacaattgaggaa ctgatcaaggatgccatagtcagcacccagccagccatgatggtcaacctcagggcttgc tctgccccaggaggcctggtacccagtgagaagccacccatgatgccccaggctcagcca gccatccccagacctaaccggttattcctacggcagcttcgggcatctcacttgggaaat gagctggaaggcaccgaggaactgtgctgtgtagctgaactcgacaaccccatgcagcag aagtggaccaagcccgcgagggctggatccgaggtggagtggacagaagacctggcactg gatctgggcccccagagccgggagctgaccctcaaagtgctgaggagcagcagctgtgga gacaccgaactcctaggccaggccacactgcctgtgggctccccctccagaccactgtct cgaagacagttgtgcccactcaccccagggccagggaaagccctgggaccagcagccacc atggcagtggagcttcactatgaggagggctctccccggaacctgggtactcccacctcc tccactccacgccccagcatcacacctaccaagaagattgagcttgaccggaccatcatg cccgatggcaccattgtcaccacagtcaccactgtccagtcccggccccgtatagacggc aaattagactccccctcccgctccccgtccaaggtggaggtgaccgagaagacgacaact gtgctgagtgagagcagtggccccagcaatacctcccatagcagcagcccaggggacagc cacctttccaacggcttggaccctgtagcagagacagcgattcgccagctgacagagccc agtgggcgggtggccaagaagacacccaccaagcgcagcactctcatcatctctggtgtt tccaaggtgcccattgctcaggacgagttggcgctatccctgggctatgcggcatccctg gaagcctcagtgcaggatgatgcagggaccagcggaggcccctcttcacctccctcagac ccaccagccatgtctccaggaccgctagatgccctctctagtcccacaagtgtccaggaa gcagacgagacaacccgttcggatatttctgagaggccatctgtggatgatattgagtcg gaaacggggtccactggtgccctggagacccgcagcctcaaggatcacaaagtgagtttc ctgcgcagcggcactaagctcatcttccgccggaggcctaggcagaaggaagctggcctg agccaatcacacgatgacctctccaacgcaacggccacgcccagtgtccgaaagaaggcc ggcagcttttctcgccgccttatcaagcgcttttccttcaaatccaaacccaaggccaat gaggaacagtttttctaccagtatgacacgacaaccaaacacagtgaacttgtgattgca caagaaacttttgttgatgggagaacagcgcctctccggagatggtctgaggtgggagaa gagctgaagagacctggagccgacagacgggtgaaggccatgccgcctcctgggaaagtt ccccgaaaggagaatctgtggctacagtgtgagtgggggtcctgctcctttgtgtgctca accatggaaaagttctttgagcatgtcactcagcacctgcagcagcacctgcatggctct ggggaggaggaggaagaggaagaggaggatgacccacttgtgctgcaggtggaaggtgac ctgagccttggaaagtgtcagactcttccttttaaacccctttctacagaggaagaattc tcctgcttgtggcaggaatgtggcttttgttctctggacagttctgctgacctcatccgc catgtctacttccactgctaccacaccaagctgaaacagtgggggctgcaggccttgcaa agccaggctgaccttggcccctgcatcctggacttccagagccggaacgtcatccctgat atccctgaccacttcctgtgtctgtgggagcactgtgagttgcccctggcacagaattcc ttcgacaatcctgagtggttttatcggcatgtggaagcacacagtctgtgctgtgaatac gaagcagtcggcaaggacaacccggtggtgctgtgtggctggaaaggctgtacctgcacc ttcaaggaccgcagtaaacttcgagagcacctccgcagccatacccaggagaaagtggta gcctgccccacctgtgggggcatgtttgccaacaataccaagttcttagatcacatccgt cgccagacctcattggatcagcagcacttccagtgttctcactgttccaagagatttgcc acagagcggctattgcgggaccacatgcgcaaccatgtgaatcactataagtgccctctg tgtgacatgacctgcccgctgccttcctccctccgcaaccacatgcgctttcgtcacagt gaggaccggccctttaaatgtgactgttgtgactacagctgcaagaatcttattgacctc cagaagcacctggatacccacagcgaggagccagcctacaggtgtgattttgagaactgc accttcagtgcccgatccctctgctctatcaagtcccattaccgcaaagtacatgaagga gactctgagccaaggtacaaatgtcatgtgtgtgacaaatgcttcacacggggcaacaac ctcaccgtgcaccttcgcaagaagcaccagttcaagtggccctcagggcatccccgtttt cggtacaaggaacatgaagatggctatatgcggctgcagctggttcgctacgagagtgta gagctgacacagcaactgctgcggcaaccacaagagggatcgggcctgggaacgtcgctg aacgagagcagcctgcagggcattattctagaaacagtgccaggggagccaggacgtaag gaagaggaagaggagggcaagggtagcgaagggacagccctctcagcctctcaggacaac cccagttctgtcatccacgtggtgaatcagaccaatgcccaaggccagcaagagatcgtc tactatgtgctgtctgaagccccaggggagcctcccccagcccctgagccaccttcaggg ggcatcatggaaaagcttcaaggaatagctgaggagccagagatccagatggtttga >gi568815587f:118967824_119181620|GENSCAN_predicted_peptide_10|1606_aa MVGKGGTVEERPGMVEAELVGGVMAEKALEAVGCGLGPGAVAMAVTLEDGAEPPVLTTHL KKVENHITEAQRFSHLPKRSAVDIEFVELSYSVREGPCWRKRGREQPALCHVFYIYYLIE SLQQPYEIGTIILILQMRDLELREVKQLARGHTAGYKTLLKCLSGKFCRRELIGIMGPSG AGKSTFMNILAGYRESGMKGQILVNGRPRELRTFRKMSCYIMQDDMLLPHLTVLEAMMVS ANLKLSEKQEVKKELVTEILTALGLMSCSHTRTALLSGGQRKRLAIALELVNNPPVMFFD EPTSGLDSASCFQVVSLMKSLAQGGRTIICTIHQPSAKLFEMFDKLYILSQGQCIFKGVV TNLIPYLKGLGLHCPTYHNPADFIIEVASGEYGDLNPMLFRAVQNGLCAMAEKKSSPEKN EVPAPCPPCPPEVDPIESHTFATSTLTQFCILFKRTFLSILRDTVLTHLRFMSHVVIGVL IGLLYLHIGDDASKVFNNTGCLFFSMLFLMFAALMPTVLTFPLEMAVFMREHLNYWYSLK AYYLAKTMADVPFQVVCPVVYCSIVYWMTGQPAETSRFLLFSALATATALVAQSLGLLIG AASNSLQVATFVGPVTAIPVLLFSGFFVSFKTIPTYLQWSSYLSYVRYGFEGVILTIYGM ERGDLTCLEERCPFREPQSILRALDVEDAKLYMDFLVLGIFFLALRLLAYLVLRYRVKLP AATHIGLGSEEDRIHKAEPKEALGSGLCLKVPGPRRRAEVGRKRHAEEPGTLGASGRRRR PPSRPLWAAADGSRNWAAADDRIPFLIHWSWPLQGERPFGPPRESCVPTIVGPSIYAVMS QPDLTTALIGPKLHLQAPFPDTFPLSSHSEAIQRHRRNLAEWFSRLPREERQFGPTFALD TVHVDPVIRESTPDELLRPPAELALEHQPPQAGLPPLALSQLFNPDACGRRVQTVVLYGT VGTGKSTLVRKMVLDWCYGRLPAFELLIPFSCEDLSSLGPAPASLCQLVAQRYTPLKEVL PLMAAAGSHLLFVLHGLEHLNLDFRLAGTGLCSDPEEPQEPAAIIVNLLRKYMLPQASIL VTTRPSAIGRIPSKYVGRYGEICGFSDTNLQKLYFQLRLNQPYCGYAVGGSGVSATPAQR DHLVQMLSRNLEGHHQIAAACFLPSYCWLVCATLHFLHAPTPAGQTLTSIYTSFLRLNFS GETLDSTDPSNLSLMAYAARTMGKLAYEGVSSRKTYFSEEDVCGCLEAGIRTEEEFQLLH IFRRDALRFFLAPCVEPGRAGTFVFTVPAMQEYLAALYIVLGLRKTTLQKVGKEVAELVG RVGEDVSLVLGIMAKLLPLRALPLLFNLIKHPKPPTPPHGSLFTPCSSPSRKLLLPAKVV PRVFGRMVGKSREAVAQAMVLEMFREEDYYNDDVLDQMGASILGVEGPRRHPDEPPEDEV FELFPMFMGGLLSAHNRAVLAQLGCPIKNLDALENAQAIKKKLGKLGRQVLPPSELLDHL FFHYEFQNQRFSAEVLSSLRQLNLAGVRMTPVKCTVVAAVLGSGRHALDEVNLASCQLDP AGLRTLLPVFLRARKLGLQLNSLGPEACKDLRDLLLHDQCQITTLR >gi568815587f:118967824_119181620|GENSCAN_predicted_CDS_10|4818_bp atggtgggcaagggaggcacagtggaagagagacctgggatggtggaagcagaactggtc ggcggcgtgatggcggagaaggcgctggaggccgtgggctgtggactagggccgggggct gtggccatggccgtgacgctggaggacggggcggaaccccctgtgctgaccacgcacctg aagaaggtggagaaccacatcactgaagcccagcgcttctcccacctacccaagcgctca gccgtggacatcgagttcgtggagctgtcctattccgtgcgggaggggccctgctggcgc aaaaggggtagggaacagcctgcactgtgtcatgtgttttacatatattatctcattgaa tctttacaacaaccctatgagataggtactatcatcctcattttacagatgagggacctg gagctcagagaggttaagcaacttgcccgaggtcacacagctggttataagacccttctc aagtgcctctcaggtaaattctgccgccgggagctgattggcatcatgggcccctcaggg gctggcaagtctacattcatgaacatcttggcaggatacagggagtctggaatgaagggg cagatcctggttaatggaaggccacgggagctgaggaccttccgcaagatgtcctgctac atcatgcaagatgacatgctgctgccgcacctcacggtgttggaagccatgatggtctct gctaacctgaagctgagtgagaagcaggaggtgaagaaggagctggtgacagagatcctg acggcactgggcctgatgtcgtgctcccacacgaggacagccctgctctctggcgggcag aggaagcgtctggccatcgccctggagctggtcaacaacccgcctgtcatgttctttgat gagcccaccagtggtctggatagcgcctcttgtttccaagtggtgtccctcatgaagtcc ctggcacaggggggccgtaccatcatctgcaccatccaccagcccagtgccaagctcttt gagatgtttgacaagctctacatcctgagccagggtcagtgcatcttcaaaggcgtggtc accaacctgatcccctatctaaagggactcggcttgcattgccccacctaccacaacccg gctgacttcatcatcgaggtggcctctggcgagtatggagacctgaaccccatgttgttc agggctgtgcagaatgggctgtgcgctatggctgagaagaagagcagccctgagaagaac gaggtccctgccccatgccctccttgtcctccggaagtggatcccattgaaagccacacc tttgccaccagcaccctcacacagttctgcatcctcttcaagaggaccttcctgtccatc ctcagggacacggtcctgacccacctacggttcatgtcccacgtggttattggcgtgctc atcggcctcctctacctgcatattggcgacgatgccagcaaggtcttcaacaacaccggc tgcctcttcttctccatgctgttcctcatgttcgccgccctcatgccaactgtgctcacc ttccccttagagatggcggtcttcatgagggagcacctcaactactggtacagcctcaaa gcgtattacctggccaagaccatggctgacgtgccctttcaggtggtgtgtccggtggtc tactgcagcattgtgtactggatgacgggccagcccgctgagaccagccgcttcctgctc ttctcagccctggccaccgccaccgccttggtggcccaatctttggggctgctgatcgga gctgcttccaactccctacaggtggccacttttgtgggcccagttaccgccatccctgtc ctcttgttctccggcttctttgtcagcttcaagaccatccccacttacctgcaatggagc tcctatctctcctatgtcaggtatggctttgagggtgtgatcctgacgatctatggcatg gagcgaggagacctgacatgtttagaggaacgctgcccgttccgggagccacagagcatc ctccgagcgctggatgtggaggatgccaagctctacatggacttcctggtcttgggcatc ttcttcctagccctgcggctgctggcctaccttgtgctgcgttaccgggtcaagttacca gcagccacacacataggtctgggctctgaagaggaccggatacataaggcagaacccaag gaagccttaggctcaggtctctgcctgaaggtgccagggccgcgcaggcgggcggaggtg ggcaggaagcgccacgccgaggagccggggactctgggagctagcgggagacgccggcgt ccgcccagccgacccctctgggccgcggccgacggctcccggaactgggcagccgcggat gatcgtatccccttcctgatccactggagttggccccttcaaggggagcgtccctttggg ccccctagggagtcttgtgtgcccaccattgtgggccccagcatctatgccgtgatgtcc cagcctgacctcaccaccgccctgattggccctaagctacatctccaggcccctttccct gacacatttcccttatcttcccactcagaagctatacagcggcaccgccggaacctggct gagtggttcagccggctgcccagggaggagcgccagtttggcccaacctttgccctagac acggtccacgttgaccctgtgatccgcgagagtacccctgatgagctacttcgcccaccc gcggagctggccctggagcatcagccaccccaggccgggctccccccactggccttgtct cagctctttaacccggatgcctgtgggcgccgggtgcagacagtggtgctgtatgggaca gtgggcacaggcaagagcacgctggtgcgcaagatggttctggactggtgttatgggcgg ctgccggccttcgagctgctcatccccttctcctgtgaggacctgtcatccctgggccct gccccagcctccctgtgccaacttgtggcccagcgctacacgcccctgaaggaggttctg cccctgatggctgctgctgggtcccacctcctctttgtgctccatggcttagagcatctc aacctcgacttccggctggcaggcacgggactttgtagtgacccggaggaaccgcaggaa ccagctgctatcatcgtcaacctgctgcgcaaatacatgctgcctcaggccagcattctg gtgaccactcggccctctgccattggccgtatccccagcaagtacgtgggccgctatggt gagatctgcggtttctctgataccaacctgcagaagctctacttccagctccgcctcaac cagccgtactgcgggtatgccgttggcggttcaggtgtctctgccacaccagctcagcgt gaccacctggtgcagatgctctcccggaacctggaggggcaccaccagatagccgctgcc tgcttcctgccgtcctattgctggctcgtttgtgccaccttgcacttcctgcatgccccc acgcctgctgggcagacccttacaagcatctataccagcttcctgcgcctcaacttcagc ggggaaaccctggacagcactgacccctccaatttgtccctgatggcctatgcagcccga accatgggcaagttggcctatgagggggtgtcctcccgcaagacctacttctctgaagag gatgtctgtggctgcctggaggctggcatcaggacggaggaggagtttcagctgctgcac atcttccgtcgggatgccctgaggtttttcctggccccatgtgtggagccagggcgtgca ggcaccttcgtgttcaccgtgcccgccatgcaggaatacctggctgccctctacattgtg ctgggtttgcgcaagacgaccctgcaaaaggtgggcaaggaagtggctgagctcgtgggc cgtgttggggaggacgtcagcctggtactgggcatcatggccaagctgctgcctctgcgg gctctgcctctgctcttcaacctgatcaagcaccccaagccgcccacgcccccacatggt tccctgttcaccccttgctcctctcccagcaggaaactgctgcttcctgcaaaggtggtt ccacgagtgtttgggcgcatggtgggtaaaagccgggaggcggtggctcaggccatggtg ctggagatgtttcgagaggaggactactacaacgatgatgttctggaccagatgggcgcc agtatcctgggcgtggagggcccccggcgccacccagatgagccccctgaggatgaagtc ttcgagctcttccccatgttcatgggggggcttctctctgcccacaaccgagctgtgcta gctcagcttggctgccccatcaagaacctggatgccctggagaatgcccaggccatcaag aagaagctgggcaagctgggccggcaggtgctgcccccatcagagctccttgaccacctc ttcttccactatgagttccagaaccagcgcttctccgctgaggtgctcagctccctgcgt cagctcaacctggcaggtgtgcgcatgacaccagtcaagtgcacagtggtggcagctgtg ctgggcagcggaaggcatgccctggatgaggtgaacttggcctcctgccagctagatcct gctgggctgcgcacactcctgcctgtcttcctgcgtgcccggaagctgggcttgcaactc aacagcctgggccctgaggcctgcaaggacctccgagacctgttgctgcatgaccagtgc caaattaccacactgcgn