Result of GENSCAN for
pF1KE1012
GENSCAN 1.0 Date run: 6-Nov-116 Time: 20:16:43 Sequence gi568815582r:2139982_2351566 : 211585 bp : 56.54% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 8803 8997 195 0 0 89 105 259 0.399 26.61 1.02 Intr + 9960 10070 111 2 0 117 100 89 0.999 14.08 1.03 Intr + 11588 11629 42 1 0 96 110 94 0.997 11.32 1.04 Intr + 11714 11780 67 1 1 62 89 105 0.989 6.97 1.05 Intr + 11875 11927 53 2 2 86 82 153 0.962 13.62 1.06 Intr + 12839 12904 66 1 0 95 81 177 0.995 17.29 1.07 Intr + 12939 13064 126 2 0 48 113 100 0.941 9.88 1.08 Intr + 13165 13241 77 0 2 17 106 158 0.987 9.31 1.09 Intr + 13338 13411 74 0 2 80 -8 82 0.960 -2.66 1.10 Intr + 13597 13739 143 2 2 92 94 120 0.940 13.58 1.11 Intr + 13925 14053 129 1 0 70 94 40 0.686 4.20 1.12 Term + 14197 14379 183 0 0 45 48 25 0.548 -7.94 1.13 PlyA + 14644 14649 6 -0.45 2.00 Prom + 14789 14828 40 -4.91 2.01 Init + 15832 15877 46 0 1 97 100 143 0.964 15.19 2.02 Intr + 16232 16304 73 0 1 70 0 110 0.417 -0.64 2.03 Intr + 17987 18039 53 2 2 87 86 36 0.562 2.34 2.04 Intr + 20355 20461 107 1 2 50 30 130 0.260 3.83 2.05 Intr + 21291 21429 139 2 1 130 42 80 0.512 8.14 2.06 Intr + 22619 22777 159 0 0 70 80 74 0.421 5.27 2.07 Intr + 23323 23408 86 2 2 126 13 -9 0.144 -4.56 2.08 Intr + 23937 24020 84 2 0 -1 74 122 0.320 2.41 2.09 Intr + 25898 25955 58 1 1 106 105 77 0.917 10.15 2.10 Intr + 28096 28187 92 2 2 112 78 117 0.976 13.31 2.11 Intr + 29578 29610 33 0 0 114 39 39 0.531 0.50 2.12 Intr + 30633 30749 117 2 0 79 94 133 0.915 14.17 2.13 Intr + 31283 31375 93 1 0 90 72 112 0.853 10.46 2.14 Intr + 31591 31624 34 0 1 105 96 -29 0.734 -2.12 2.15 Intr + 32210 32393 184 0 1 58 100 378 0.890 35.36 2.16 Intr + 32484 32618 135 0 0 62 100 143 0.969 13.09 2.17 Intr + 33201 33418 218 0 2 87 73 534 0.663 50.47 2.18 Intr + 33500 33573 74 0 2 95 56 129 0.993 10.02 2.19 Intr + 33807 34067 261 2 0 124 86 262 0.561 27.82 2.20 Intr + 34270 34352 83 0 2 115 84 146 0.999 15.83 2.21 Intr + 35130 35190 61 0 1 135 51 67 0.534 6.93 2.22 Intr + 35320 35436 117 0 0 81 102 294 0.973 31.27 2.23 Intr + 35519 35641 123 1 0 55 91 254 0.889 23.69 2.24 Intr + 35853 35972 120 2 0 36 85 254 0.991 21.09 2.25 Intr + 36068 36199 132 1 0 116 69 253 0.981 27.55 2.26 Intr + 36284 36403 120 1 0 95 86 162 0.948 17.89 2.27 Intr + 36904 36960 57 0 0 95 68 21 0.298 0.37 2.28 Term + 37456 37977 522 0 0 36 42 136 0.398 -1.53 2.29 PlyA + 38123 38128 6 1.05 3.24 PlyA - 38152 38147 6 -4.04 3.23 Term - 38665 38569 97 0 1 103 47 290 0.999 24.14 3.22 Intr - 39344 38921 424 0 1 64 78 554 0.997 45.50 3.21 Intr - 41618 39612 2007 0 0 98 96 2647 0.999 254.76 3.20 Intr - 41948 41810 139 2 1 90 68 428 0.999 41.54 3.19 Intr - 42460 42268 193 0 1 47 65 58 0.507 -0.58 3.18 Intr - 43380 43280 101 0 2 78 98 30 0.369 2.41 3.17 Intr - 43766 43665 102 2 0 66 77 190 0.999 16.57 3.16 Intr - 43960 43850 111 1 0 90 83 229 0.586 23.68 3.15 Intr - 44887 44796 92 2 2 115 87 114 0.997 14.21 3.14 Intr - 45054 44970 85 0 1 38 110 60 0.864 3.09 3.13 Intr - 45218 45130 89 0 2 113 100 95 0.978 13.39 3.12 Intr - 45427 45326 102 2 0 63 96 66 0.969 5.55 3.11 Intr - 46843 46651 193 1 1 56 37 231 0.563 14.39 3.10 Intr - 47091 46997 95 1 2 61 72 150 0.507 10.88 3.09 Intr - 47293 47185 109 1 1 55 64 205 0.923 15.16 3.08 Intr - 47480 47372 109 1 1 80 76 210 0.967 19.79 3.07 Intr - 49176 49046 131 0 2 83 80 220 0.976 20.70 3.06 Intr - 49352 49257 96 2 0 60 84 183 0.996 15.81 3.05 Intr - 49551 49438 114 0 0 52 65 224 0.911 17.65 3.04 Intr - 50189 50069 121 1 1 53 44 199 0.988 13.00 3.03 Intr - 50377 50326 52 2 1 115 92 101 0.997 11.65 3.02 Intr - 55605 55483 123 1 0 56 32 106 0.116 2.86 3.01 Init - 56451 56358 94 0 1 103 81 118 0.970 13.10 3.00 Prom - 62281 62242 40 -5.01 4.00 Prom + 62419 62458 40 -1.51 4.01 Init + 64699 64701 3 0 0 73 77 0 0.187 -2.67 4.02 Intr + 65439 65531 93 2 0 77 102 66 0.986 7.56 4.03 Intr + 65684 65820 137 1 2 68 59 78 0.964 2.77 4.04 Intr + 66086 66215 130 2 1 72 13 221 0.359 14.20 4.05 Intr + 66371 66428 58 1 1 96 70 76 0.982 5.55 4.06 Intr + 66516 66678 163 1 1 56 80 389 0.996 34.45 4.07 Intr + 67054 67129 76 1 1 75 94 129 0.958 12.21 4.08 Intr + 67212 67364 153 2 0 82 84 284 0.959 28.18 4.09 Intr + 68229 68353 125 2 2 85 56 236 0.999 19.99 4.10 Intr + 68469 68632 164 0 2 43 93 266 0.998 22.73 4.11 Term + 68778 68896 119 1 2 87 38 182 0.997 12.11 4.12 PlyA + 69250 69255 6 -9.79 5.08 PlyA - 69291 69286 6 1.05 5.07 Term - 69725 69381 345 2 0 32 52 207 0.676 6.35 5.06 Intr - 70070 69969 102 2 0 108 105 182 0.999 22.77 5.05 Intr - 70300 70145 156 1 0 48 75 250 0.998 20.42 5.04 Intr - 70669 70541 129 1 0 83 105 96 0.375 12.20 5.03 Intr - 72866 72781 86 0 2 68 49 59 0.205 0.04 5.02 Intr - 74072 73752 321 0 0 155 32 533 0.226 50.78 5.01 Init - 74796 74157 640 0 1 107 33 1459 0.993 137.88 5.00 Prom - 81733 81694 40 -4.81 6.00 Prom + 83072 83111 40 -5.41 6.01 Init + 83645 83948 304 1 1 96 41 285 0.242 20.04 6.02 Intr + 88364 88542 179 0 2 91 83 198 0.988 19.76 6.03 Intr + 89589 89694 106 2 1 117 99 155 0.992 19.79 6.04 Intr + 92190 92383 194 1 2 61 101 215 0.913 19.83 6.05 Intr + 92475 92595 121 2 1 116 88 245 0.988 27.87 6.06 Intr + 92775 92927 153 1 0 79 76 235 0.683 21.96 6.07 Intr + 93030 93202 173 1 2 32 59 254 0.961 17.08 6.08 Intr + 93457 93666 210 0 0 119 48 265 0.744 25.23 6.09 Intr + 93901 94009 109 0 1 53 94 53 0.517 2.76 6.10 Intr + 94190 94407 218 0 2 84 98 397 0.998 39.05 6.11 Intr + 94602 94800 199 2 1 42 47 342 0.929 24.95 6.12 Intr + 94878 95020 143 1 2 59 90 247 0.994 22.58 6.13 Intr + 95100 95162 63 2 0 82 78 148 0.999 12.61 6.14 Term + 95235 95591 357 2 0 65 39 869 0.999 74.57 6.15 PlyA + 95741 95746 6 1.05 7.00 Prom + 96344 96383 40 -11.63 7.01 Init + 96836 96979 144 1 0 99 81 383 0.999 36.78 7.02 Intr + 97057 97145 89 0 2 98 64 180 0.999 15.87 7.03 Intr + 97237 97320 84 1 0 94 94 200 0.999 20.63 7.04 Intr + 97395 97495 101 0 2 78 105 239 0.974 24.85 7.05 Intr + 97556 97668 113 0 2 88 79 332 0.885 32.90 7.06 Intr + 97786 98106 321 0 0 84 4 498 0.615 37.61 7.07 Term + 98381 98437 57 1 0 105 41 127 0.935 7.68 7.08 PlyA + 98699 98704 6 1.05 8.08 PlyA - 99413 99408 6 -3.64 8.07 Term - 100164 99998 167 1 2 61 43 326 0.999 23.79 8.06 Intr - 103243 103065 179 0 2 71 94 272 0.999 26.18 8.05 Intr - 103458 103337 122 0 2 92 95 183 0.991 19.20 8.04 Intr - 104571 104425 147 0 0 95 92 182 0.994 20.24 8.03 Intr - 107005 106878 128 2 2 54 86 170 0.692 14.30 8.02 Intr - 111448 111335 114 2 0 96 99 75 0.997 10.32 8.01 Init - 111585 111534 52 0 1 105 53 135 0.989 10.97 8.00 Prom - 112180 112141 40 -3.31 9.48 PlyA - 113163 113158 6 1.05 9.47 Term - 114082 113954 129 1 0 149 32 41 0.026 3.09 9.46 Intr - 115690 115604 87 1 0 46 92 91 0.020 5.96 9.45 Intr - 118026 117902 125 1 2 63 27 15 0.019 -6.29 9.44 Intr - 122450 122297 154 2 1 98 90 200 0.884 21.36 9.43 Intr - 122861 122759 103 1 1 71 100 46 0.999 4.78 9.42 Intr - 123306 123115 192 2 0 98 89 44 0.923 4.63 9.41 Intr - 124350 124195 156 2 0 55 75 201 0.985 15.14 9.40 Intr - 128194 128074 121 2 1 31 95 86 0.258 3.66 9.39 Intr - 129046 128897 150 2 0 90 37 107 0.215 6.45 9.38 Intr - 130892 130810 83 1 2 4 116 76 0.444 1.78 9.37 Intr - 133888 133704 185 1 2 52 91 93 0.050 5.10 9.36 Intr - 136824 136771 54 0 0 103 49 157 0.022 12.96 9.35 Intr - 137689 137616 74 2 2 82 100 56 0.988 5.82 9.34 Intr - 138088 137898 191 0 2 81 89 309 0.916 30.05 9.33 Intr - 138477 138307 171 2 0 89 80 374 0.947 36.27 9.32 Intr - 139149 138962 188 0 2 64 55 340 0.794 27.31 9.31 Intr - 141240 141046 195 0 0 77 98 247 0.689 24.73 9.30 Intr - 141577 141400 178 0 1 22 75 189 0.345 11.44 9.29 Intr - 143105 142945 161 2 2 76 26 64 0.475 -1.70 9.28 Intr - 143377 143205 173 2 2 99 105 204 0.985 23.38 9.27 Intr - 144456 144298 159 1 0 72 73 240 0.999 21.37 9.26 Intr - 145017 144798 220 0 1 86 80 490 0.923 46.40 9.25 Intr - 145665 145461 205 2 1 138 93 334 0.965 38.63 9.24 Intr - 146986 146713 274 2 1 107 38 364 0.858 30.44 9.23 Intr - 148348 148045 304 1 1 79 99 424 0.971 39.31 9.22 Intr - 149639 149441 199 1 1 67 94 437 0.612 42.08 9.21 Intr - 152257 152159 99 0 0 94 69 148 0.996 13.22 9.20 Intr - 155759 155609 151 0 1 66 101 190 0.998 17.83 9.19 Intr - 157558 157348 211 1 1 99 101 393 0.964 40.71 9.18 Intr - 158117 157785 333 2 0 65 70 475 0.711 39.72 9.17 Intr - 158559 158405 155 1 2 53 109 215 0.799 20.40 9.16 Intr - 159551 159422 130 2 1 83 94 186 0.994 19.47 9.15 Intr - 160167 160024 144 0 0 79 50 153 0.774 11.59 9.14 Intr - 164169 163988 182 1 2 100 101 348 0.792 37.40 9.13 Intr - 168447 168253 195 1 0 17 49 148 0.598 3.71 9.12 Intr - 168642 168469 174 1 0 47 113 256 0.002 24.43 9.11 Intr - 177422 177302 121 2 1 111 105 191 0.994 23.67 9.10 Intr - 177783 177667 117 0 0 96 105 124 0.082 16.07 9.09 Intr - 179859 179600 260 1 2 65 57 652 0.046 57.52 9.08 Intr - 183707 183542 166 2 1 108 85 -5 0.588 1.25 9.07 Intr - 184550 184423 128 0 2 99 81 286 0.897 29.90 9.06 Intr - 186293 186029 265 2 1 101 78 302 0.980 28.12 9.05 Intr - 186511 186432 80 2 2 51 96 111 0.191 7.97 9.04 Intr - 188595 188472 124 0 1 116 71 -34 0.180 -1.64 9.03 Intr - 189777 189667 111 0 0 65 109 64 0.262 7.28 9.02 Intr - 192763 192413 351 1 0 -56 30 645 0.006 40.38 9.01 Init - 195049 195047 3 1 0 113 22 0 0.158 -4.17 9.00 Prom - 196059 196020 40 -3.91 10.00 Prom + 196844 196883 40 -1.21 10.01 Sngl + 201929 202210 282 1 0 82 46 296 0.997 18.66 10.02 PlyA + 202608 202613 6 1.05 11.00 Prom + 204050 204089 40 -0.51 11.01 Init + 208858 208873 16 0 1 102 89 4 0.075 2.21 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 51538 51457 82 1 1 40 105 89 0.823 4.89 S.002 Term - 136824 136693 132 0 0 103 55 235 0.964 20.10 S.003 Term - 179859 179567 293 1 2 65 43 703 0.911 59.35 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_1|421_aa MSRKKTPKSKGASTPAASTLPTANGARPARSGTALSGPDAPPNGPLQPGRPSLGGGVDFY DVAFKVMLVGDSGVGKTCLLVRFKDGAFLAGTFISTVGIDFRNKVLDVDGVKVKLQMWDT AGQERFRSVTHAYYRDAHALLLLYDVTNKASFDNIQAWLTEIHEYAQHDVALMLLGNKGR AGEGAGANHGPAFTKTLCLGQVDSAHERVVKREDGEKLAKEYGLPFMETSAKTGLNVDLA FTAIAKELKQRSMKAPSEPRFRLHDYVKREATVPTSRLLRARGRTLAATEKQSSARDGER QVDRLCHGALLPPPGHVQEALAQTAIGSSSLTLEDACGLVIKCGKSQKTPETTTASPAWP QSRMLEFERLSKAQNPQQVCGYHSSMAHGCLPKEAHGNPRWCQLPSTNLKSLFGLTLGQK A >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_1|1266_bp atgtccaggaagaagacccccaagagcaaaggggccagcacccccgctgcctccacgctg cccaccgccaacggggcccgaccggcgcgctccgggactgcgctttccggccccgacgcg ccgcccaacgggcccttgcagcccggccggccctcgcttggcggcggtgtcgacttctac gacgtcgccttcaaggtcatgctggtgggggactcgggtgtggggaagacctgtctgctg gtgcgattcaaggatggtgctttcctggcggggaccttcatctccaccgtaggcattgac ttccggaacaaagttctggacgtggatggtgtgaaggtgaagctgcagatgtgggacaca gctggtcaggagcggttccgcagtgttacccatgcctactaccgggatgctcatgctctg ctgctgctctacgatgtcaccaacaaggcctcctttgacaacatccaggcctggctgacc gagatccacgagtacgcccagcacgacgtggcgctcatgctgctggggaacaagggcagg gcaggtgagggggcaggggccaaccatgggccagctttcaccaagaccctgtgcctgggc caggtggactctgcccatgagcgtgtggtgaagagggaggacggggagaagctggccaag gagtatggactgcccttcatggagaccagcgccaagacgggcctcaacgtggacttggcc ttcacagccatagcaaaggagttgaagcagcgctccatgaaggctcccagcgagccgcgc ttccggctgcatgattacgttaagagggaggcaacagtcccaacaagcaggcttctgaga gcccgtggccgcacactggccgccacggaaaagcagtcttctgcacgggacggggagcgg caagtggacagactttgccacggtgctctgctgccccctcctgggcacgtccaggaggct ctggctcaaacagcaatagggtcttcctcactgaccttggaggatgcctgtggccttgtg ataaaatgtgggaaatcacagaaaacaccagaaacaacaactgccagcccggcctggcca cagagcaggatgctggagtttgagagactcagcaaggcccagaaccctcagcaggtgtgt ggctaccattcctccatggcccatggctgcctccctaaggaggcacatgggaaccctagg tggtgtcaacttccctccacaaatctcaaaagcctttttggactcaccctggggcaaaag gcatga >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_2|1126_aa MKRAGGAAAPGRPRAGFPNLRTIDHAARVAFCCEELPCTLQGSGSIPFFEKPEARRAGWM LRFLNDFSLSKIEYSWSIQHGQCGRAGGVDGQVLALDGVLRTPHRSCGVVPVARLLLASW DFLADLHIALRAFLFTSLQTRLPQGESRAAGVGSLLLHRPQSKLVLRAPALGAEPMVCPH GVLRMGLEVDSAVRFVWSWAPVTHPAGSFSGVWLVSPRCSLSMSSGKSARYNRFSGGPSN LPTPDVTTGTRMETTFGPAFSAVTTITKADGTSTYKQHCRTPSSSSTLAYSPRDEEDSMA CLLSAPTPKRPPISTPRRSDSAISVRSLHSESSMSLRSTFSLPEEEEEPEPLVFAEQPSV KLCCQLCCSVFKDPVITTCGHTFCRRCALKSEKCPVDNVKLTVVVNNIAVAEQIGELFIH CRHGCRVAGSGKPPIFEVDPRGCPFTIKLSARKDHEGSCDYRPVRCPNNPSCPPLLRMNL EAHLKECEHIKCPHSKYGCTFIGNQDTYETHLETCRFEGLKEFLQQTDDRFHEMHVALAQ KDQEIAFLRSMLGKLSEKIDQLEKSLELKFDVLDENQSKLSEDLMEFRRDASMLNDELSH INARLNMGILGCEYGPAVAPAHPPPRAPTGPSPTAPISAAYDPQQIFKCKGTFVGHQGPV WCLCVYSMGDLLFSGSSDKTIKVWDTCTTYKCQKTLEGHDGIVLALCIQGCKLYSGSADC TIIVSGAYRRVWDIQNLQKVNTIRAHDNPVCTLVSSHNVLFSGSLKAIKVWDIVGTELKL KKELTGLNHWVRALVAAQSYLYSGSYQTIKIWDIRTLDCIHVLQTSGGSVYSIAVTNHHI VCGTYENLIHVWDIESKEQVRTLTGHVGTVYALAVISTPDQTKVFSASYDRSLRVWSMDN MICTQTLLRHQGSVTALAVSRGRLFSGAVDSTVKTVCRFGYLLVEINAPQTVAKRQSCAQ HCGSANTIEETSQYFLEGAGGERKREGENDHTTQPWTMSRSVRGNSTGVDGLPAQPLERG PGTPSEELQARGLACYMPCFHVAATLTHPHSPNPPAPWDAATPGGGHGRREQGTTSSSWG AENLGEKHGGAPGRAPAPGPQPSTCASSLGPPLWPEEGPQADSLGL >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_2|3381_bp atgaagcgggctggcggcgctgccgctcccgggcggccgcgggcggggttccccaacctc cgcaccatcgaccacgcggcccgggtcgctttttgctgcgaggagctgccctgtacatta cagggttctggctctattccgtttttcgagaagcccgaggccaggagggcagggtggatg ctgcgcttcctcaatgacttttctctttcaaagatcgaatactcctggagcatccagcat gggcagtgtggacgggcaggtggtgtggacgggcaggtgctggcgctcgatggggtcttg cgcacaccccacagatcctgtggtgttgtccccgtggcccggctgctgttggccagctgg gactttctggctgatttgcacattgccctgcgtgcctttctgttcacctcacttcagacc cggcttccccagggtgagagcagggccgcaggagtgggctccctgctgctgcaccgcccc cagagcaagcttgttctgagggctcctgccttgggagctgagcccatggtgtgtcctcat ggggtgctgcgcatgggcctcgaggtggacagtgcagtgcggtttgtgtggagttgggct ccggtgactcaccctgcaggttctttctctggggtgtggctggtgtctccccgctgcagc ctgagcatgagctcaggcaagagtgcccgctacaaccgcttctccggggggcccagcaat cttcccaccccagacgtcaccacagggaccagaatggaaacgaccttcggacccgccttt tcagccgtcaccaccatcacaaaagctgacgggaccagcacctacaagcagcactgcagg acaccctcctcctccagcacccttgcctactccccgcgggacgaggaggacagcatggcc tgcctgctgtcagcccctacgcccaagaggccccccatcagcactccccgccgctccgac tccgccatctctgtccgctccctgcactcagagtccagcatgtctctgcgctccacattc tcactgcccgaggaggaggaggagccggagccactggtgtttgcggagcagccctcggtg aagctgtgctgtcagctctgctgcagcgtcttcaaagaccccgtgatcaccacgtgtggg cacacgttctgtaggagatgcgccttgaagtcagagaagtgtcccgtggacaacgtcaaa ctgaccgtggtggtgaacaacatcgcggtggccgagcagatcggggagctcttcatccac tgccggcacggctgccgggtagcgggcagcgggaagccccccatctttgaggtggacccc cgagggtgccccttcaccatcaagctcagcgcccggaaggaccacgagggcagctgtgac tacaggcctgtgcggtgtcccaacaaccccagctgccccccgctgctcaggatgaacctg gaggcccacctcaaggagtgcgagcacatcaaatgcccccactccaagtacgggtgcacg ttcatcgggaaccaggacacttacgagacccacctggagacttgccgcttcgagggcctg aaggagtttctgcagcagacggatgaccgcttccacgagatgcacgtggctctggcccag aaggaccaggagatcgccttcctgcgctccatgctgggaaagctctcggagaagatcgac cagctagagaagagcctggagctcaagtttgacgtcctggacgaaaaccagagcaagctc agcgaggacctcatggagttccggcgggacgcatccatgttaaatgacgagctgtcccac atcaacgcgcggctgaacatgggcatcctaggctgtgagtatggacccgccgtggctccc gcccaccctcccccccgggccccaactgggccttcacccactgctcccatctctgcagcc tacgaccctcagcagatcttcaagtgcaaagggacctttgtgggccaccagggccctgtg tggtgtctctgcgtctactccatgggtgacctgctcttcagtggctcctctgacaagacc atcaaggtgtgggacacatgtaccacctacaagtgtcagaagacactggagggccatgat ggcatcgtgctggctctctgcatccaggggtgcaaactctacagcggctctgcagactgc accatcattgtgagtggggcctacaggcgggtgtgggacatccagaacctgcagaaggtg aacaccatccgggcccatgacaacccggtgtgcacgctggtctcctcacacaacgtgctc ttcagcggctccctgaaggccatcaaggtctgggacatcgtgggcactgagctgaagttg aagaaggagctcacaggcctcaaccactgggtgcgggccctggtggctgcccagagctac ctgtacagcggctcctaccagacaatcaagatctgggacatccgaacccttgactgcatc cacgtcctgcagacgtctggtggcagcgtctactccattgctgtgacaaatcaccacatt gtctgtggcacctacgagaacctcatccacgtgtgggacattgagtccaaggagcaggtg cggaccctcacgggccacgtgggcaccgtgtatgccctggcggtcatctcgacgccagac cagaccaaagtcttcagtgcatcctacgaccggtccctcagggtctggagtatggacaac atgatctgcacgcagaccctgctgcgtcaccagggcagtgtcaccgcgctggctgtgtcc cggggccgactcttctcaggggctgtggatagcactgtgaagactgtatgtagatttggt tacctcctggttgaaataaatgctccacagactgtggctaaacgtcaaagttgtgcccaa cactgtggatcagcaaacacgatagaggagaccagtcagtacttcttggagggggcagga ggagagaggaaaagggagggcgagaatgaccacacaacacagccttggaccatgagcaga agcgtccgtgggaactccactggggtggatgggctgcctgcacagcccctggagaggggg ccaggcacaccctcagaggagctgcaagcccgtggcctggcctgctacatgccctgcttc cacgtggctgccacgctgacacacccacattcaccaaacccacccgcgccctgggacgca gccacgccaggaggaggacacggccgccgagagcaaggcacaacctcgagttcttggggc gcagagaacttaggagagaagcacggaggagcccccggcagagcacccgcccccgggccc cagccttccacctgtgctagcagcctggggcctccactctggccggaggaaggaccgcag gcagacagcctgggcctctaa >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_3|1592_aa MGKEQELVQAVKAEDVGTAQRLLQRPRPGKARKGWELGALVPALILAQRVASLGAAGDGW MGVWTSRVCGCAQLLGSTKKINVNFQDPDGFSALHHAALNGNTELISLLLEAQAAVDIKD NKGKTSRGPLGRKEPMKLVLKAGSAVNIPSDEGHIPLHLAAQHGHYDVSEMLLQHQSNPC MVDNSGKTPLDLACEFGRVGVVQLLLSSNMCAALLEPRPGDATDPNGTSPLHLAAKNGHI DIIRLLLQAGIDINRQTKSGTALHEAALCGKTEVVRLLLDSGINAHVRNTYSQTALDIVH QFTTSQASREIKQLLREASAALQVRATKDYCNNYDLTSLNVKAGDIITVLEQHPDGRWKG CIHDNRTGNDRVGYFPSSLGEAIVKRAGKFHPTLGGRQEPLGLGAGSSECAEGSRAGTEP SLPQGSSSSGPSAPPEEIWVLRKPFAGGDRSGSISGMAGGRGSGGHALHAGSEGVKLLAT VLSQKSVSESGPGDSPAKPPEGSAGVARSQPPVAHAGQVYGEQPPKKLEPASEGKSSEAV SQWLTAFQLQLYAPNFISAGYDLPTISRMTPEDLTAIGVTKPGHRKKIAAEISGLSIPDW LPEHKPAAPQGPPATKPPSTATHMQTVGGHAYGLCSQAPRLLWVLARVCVVAVWHVCGPV MWVRGQSVKRDGVLVPVHGWERSVQIMCVFLYQVWPHASVSMTRANLAVWLSMIGLAQYY KVLVDNGYENIDFITDITWEDLQEIGITKLGHQKKLMLAVRKLAELQKAEYAKYEGGPLR RKAPQSLEVMAIESPPPPEPTPADCQSPKMTTFQDSELSDELQAAMTGPAEVGPTTEKPS SHLPPTPRATTRQDSSLGGRARHMSSSQELLGDGPPGPSSPMSRSQEYLLDEGPAPGTPP REARPGRHGHSIKRASVPPVPGKPRQVLPPGTSHFTPPQTPTKTRPGSPQALGGPHGPAP ATAKVKPTPQLLPPTERPMSPRSLPQSPTHRGFAYVLPQPVEGEVGPAAPGPAPPPVPTA VPTLCLPPEADAEPGRPKKRAHSLNRYAASDSEPERDELLVPAAAGPYATVQRRVGRSHS VRAPAGADKNVNRSQSFAVRPRKKGPPPPPPKRSSSALASANLADEPVPDAEPEDGLLGV RAQCRRASDLAGSVDTGSAGSVKSIAAMLELSSIGGGGRAARRPPEGHPTPRPASPEPGR VATVLASVKHKEAIGPGGEVVNRRRTLSGPVTGLLATARRGPGESADPGPFVEDGTGRQR PRGPSKGEAGVEGPPLAKVEASATLKRRIRAKQNQQENVKFILTESDTVKRRPKAKEREA GPEPPPPLSVYHNGTGTVRRRPASEQAGPPELPPPPPPAEPPPTDLAHLPPLPPPEGEAR KPAKPPVSPKPVLTQPVPKLQGSPTPTSKKVPLPGPGSPEVKRAHGTPPPVSPKPPPPPT APKPVKAVAGLPSGSAGPSPAPSPARQPPAALAKPPGTPPSLGASPAKPPSPGAPALHVP AKPPRAAAAAAAAAAAPPAPPEGASPGDSARQKLEETSACLAAALQAVEEKIRQEDAQGP RDSAAEKSTGSILDDIGSMFDDLADQLDAMLE >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_3|4779_bp atggggaaggagcaggagctggtgcaggcggtgaaggcggaggacgtagggaccgcgcag aggctgctgcagaggccgcggcccgggaaggccagaaagggctgggagcttggagccctg gtcccagcactcatcctggctcagcgcgtagcctccctgggggccgccggagatggatgg atgggcgtgtggaccagccgcgtgtgcggctgcgcacagctcctgggttccaccaagaag atcaatgtcaacttccaggacccggatggcttctcggctctgcaccatgcggccctgaac ggcaacacggaattgatcagcctgctgctggaggcccaggccgctgtggacatcaaggac aacaaaggcaagactagccgagggcctctgggccggaaggagcccatgaagctggtgctg aaggcgggctcggccgtgaacatcccgtctgatgagggccacatccccctgcacctggcg gcccagcatggtcactatgatgtgtctgagatgctgctacagcaccagtctaacccgtgc atggtggacaactcggggaagacgcccctggacctggcctgcgagttcggccgcgttggg gtggtccagctgctcctcagcagcaatatgtgtgcggcgctgctggagccccggccggga gacgccaccgaccccaacggcaccagccctttgcacctcgcagctaaaaacggccacatc gacatcatcaggctcctcctccaagccggcatcgacattaaccgccagaccaagtccggc acggccctgcacgaggctgcgctctgcggaaagacagaggtggtgcggctgctgctggat agcgggatcaatgcccacgtgaggaacacctacagccagacagccctggacatcgtgcac cagttcaccacgtcccaggccagcagggagatcaagcagctgttgcgagaggcctcagcg gccctgcaggtccgggcgaccaaggattattgcaacaattacgacctgaccagcctcaac gtgaaggcaggggacatcatcacagtcctcgagcagcatccggatggccggtggaagggc tgcatccatgacaaccggacgggcaatgaccgggtgggctacttcccgtcctccctgggc gaggccattgtcaagcgagcaggcaagttccaccccaccctggggggcaggcaggagccc ctgggcttgggggctggaagcagcgagtgtgctgagggttcccgagcaggcactgaacca agcctgccccagggaagcagctcatcgggaccctctgcacccccagaggagatctgggtg ctgaggaagccttttgcaggtggggaccgaagcggcagcattagcggcatggctggcggc cggggcagcgggggtcacgccctacacgcgggctctgaaggcgtcaagctcctggcaacg gtgctttcccagaagtccgtctctgagtccggcccgggggacagccccgccaagcctccg gaaggctctgcaggtgtggcccggtcccagcctccagtggcccacgccgggcaggtctat ggggagcagccgcccaagaagctggagccagcatcggagggcaagagctctgaggccgtg agccagtggctcaccgcgttccagctgcagctctacgcccccaacttcatcagcgccggc tacgacctgcccaccatcagccgcatgactcccgaggacctcacggccattggtgtcacc aagccgggccaccggaagaagatcgcggcagagatcagcggcctaagcatccctgactgg ctgcctgagcacaaacccgctgccccacagggacccccagccaccaagcctccaagcact gccactcacatgcagactgtagggggccatgcttacggcctttgctcacaggcacccaga ttgctgtgggtgttggcacgtgtgtgtgttgtggctgtgtggcatgtgtgtggccctgtg atgtgggtgagaggtcagagtgtgaaacgggatggggtgctggtgcctgtgcacggctgg gagcgcagcgtgcaaatcatgtgcgtgttcctgtaccaggtgtggccccatgcgtctgtg tccatgactcgggctaacctggccgtgtggctgtccatgatcggcctggcccagtactac aaggtgttggtggacaatggctacgagaacattgatttcatcaccgacatcacctgggag gacctgcaggagatcggcatcaccaagctggggcaccagaagaagctgatgctcgctgtg aggaagctggcagagctgcagaaggctgaatacgccaagtatgaggggggccccctgcgc cggaaggcgccccagtctcttgaagtgatggccatcgagtcgccgcccccgcctgagccc acaccggccgactgccagtcccctaaaatgaccaccttccaggacagcgagctcagtgac gagctgcaggctgccatgactggcccggctgaggtggggcccaccactgagaagccctcc agccacctgccacccaccccgagggccaccacgcggcaggactccagcctgggtggtcgg gcacggcacatgagcagctcgcaggagctgctgggagatgggccccctgggcccagcagc cccatgtctcgaagccaggagtacctcctggatgagggccccgcccccggcaccccgccc agggaggcccggcccggccgccacggccacagcatcaagagggccagcgtgccccccgtg cctggcaagccacggcaggtcctcccaccaggcactagccacttcacgcccccccagacg cccaccaaaacccgaccaggctctccccaggcccttgggggacctcatggtccagcccca gctacggccaaggtgaagcccaccccgcagctgctgccgccgacagagcgccccatgtca ccccgctccctgcctcagtcaccgacgcaccgcggctttgcctacgtgctgccccagccc gtggagggcgaggtggggccggctgccccggggcctgcgcccccacccgtgccgacggct gtgcccacactgtgcctgccccctgaggccgacgcggagccggggcggcccaagaagcgg gcccacagcctgaatcgctatgcggcgtccgacagcgagccggagcgggacgagctgctg gtgcctgcggctgccggcccctatgccacggtccagcggcgcgtgggccgcagccactca gtgagggcgcccgcaggtgccgacaagaacgtcaaccgcagccagtcctttgccgtgcgg ccccgaaagaaggggcccccgccgcccccacccaagcgctccagctcggccctggctagt gccaacctggcggatgagccggtgcctgacgccgagcctgaggatggcctgctgggggtc cgggcacagtgccggcgggccagtgacctggccggcagcgtggacacgggtagtgccggc agtgtgaagagcatcgcggccatgctggagctgtcctccattgggggtgggggccgggct gcccgcaggcctcctgagggccaccccactccccgccctgccagcccagagccgggccgg gtggccaccgtgctggcctcagtgaaacacaaagaggccatcgggcctggcggggaggtg gtgaaccggcgccgcacgctcagcgggccagtcaccggacttctggccactgcccgccgg gggcctggggagtcggcagacccaggcccctttgtggaggatggcactggccggcagcgg cctcggggtccctccaagggcgaggcgggtgtcgaaggcccgcccttggccaaggtggaa gccagcgccacactcaagaggcgcatccgggccaagcagaaccagcaggagaacgtcaag ttcatcctgaccgagtctgacacggtcaagcgcaggcccaaggccaaggagcgggaggcc gggcctgagccaccaccgccactgtccgtgtaccataatggcactggcaccgtgcgccgc cgaccggcctcggagcaggctgggcctccggagctgcctccaccgcccccgcctgccgaa cccccgcccaccgacctggcgcacctacccccattgcccccgcccgagggcgaagcccgg aagccggccaagccgcctgtctctcccaagcccgtcctgacgcagcctgtgcccaagctc cagggctcgcccacacccacctccaagaaggtgccgctgccaggccctggcagcccagag gtgaagcgcgcccacggcacgccaccgcccgtgtctcccaagccgccgccgccgcccaca gcgcccaagcccgtcaaggcggtcgcggggctgccttcgggcagcgccggcccttcaccc gcaccctcgcccgcgcgacagccgcccgccgccctcgccaagccgcccggtacgccgccc tcgctgggcgccagccccgccaagcccccgtcccccggcgcgcccgcgctgcacgtgccc gccaagcccccgcgagccgccgccgccgccgccgccgccgccgccgcgccccccgccccg cccgaaggcgcctcgccaggggacagcgcccggcagaaactggaggagacaagcgcgtgc ctggccgcggcgctgcaggcggtggaggagaagatccggcaggaggacgcgcagggcccg cgcgactcggcggcggaaaagagcactggcagcatcctggacgacatcggcagcatgttc gacgacctggccgaccagctggatgccatgctggagtga >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_4|406_aa MGAIDNSTLGLDRLAPAPLAVLDTAECGAARKGLPLACYACAAAALGFPRPIRRLAHAQP APAAEWRPRVTPPCRLRRARAGHTMNTSPGTVGSDPVILATAGYDHTVRFWQAHSGICTR TSQQVNALEVTPDRSMIAAAGYQHIRMYDLNSNNPNPIISYDGVNKNIASVGFHEDGRWM YTGGEDCTARIWDLRSRNLQCQRIFQVNAPINCVCLHPNQAELIVGDQSGAIHIWDLKTD HNEQLIPEPEVSITSAHIDPDASYMAAVNSTGNCYVWNLTGGIGDEVTQLIPKTKIPAHT RYALQCRFSPDSTLLATCSADQTCKIWRTSNFSLMTELSIKSGNPGESSRGWMWGCAFSG DSQYIVTASSDNLARLWCVETGEIKREYGGHQKAVVCLAFNDSVLG >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_4|1221_bp atgggagccatcgataactctacgctcggcctcgatcgactcgctccggctcccctcgcc gtcctggacacggcggagtgcggagccgcccgtaagggcctgccgctggcctgctacgca tgcgcagccgcagcgctcggctttccccggcccatccgccgccttgcgcacgcgcagccc gcccctgcggcagagtggcgcccgcgcgtgactcccccctgccggctgcggagggcccgt gcaggccacaccatgaacacctccccaggcacggtgggcagtgacccggtcatcctggcc actgcaggctacgaccacaccgtgcgcttctggcaggcccacagcggcatctgcacccgg acgtcccagcaggtgaatgccttggaggtcacaccggaccgcagcatgattgctgctgca ggttaccagcacatccgcatgtatgatctcaactccaataaccctaaccccatcatcagc tacgacggcgtcaacaagaacatcgcgtctgtgggcttccacgaagacggccgctggatg tacacgggcggcgaggactgcacagccaggatctgggacctcaggtcccggaacctgcag tgccagcggatcttccaggtgaacgcacccattaactgcgtgtgcctgcaccccaaccag gcagagctcatcgtgggtgaccagagcggggctatccacatctgggacttgaaaacagac cacaacgagcagctgatccctgagcccgaggtctccatcacgtccgcccacatcgatccc gacgccagctacatggcagctgtcaatagcaccggaaactgctatgtctggaatctgacg gggggcattggtgacgaggtgacccagctcatccccaagactaagatccctgcccacacg cgctacgccctgcagtgtcgcttcagccccgactccacgctcctcgccacctgctcggct gatcagacgtgcaagatctggaggacgtccaacttctccctgatgacggagctgagcatc aagagcggcaaccccggggagtcctcccgcggctggatgtggggctgcgccttctcgggg gactcccagtacatcgtcactgcttcctcggacaacctggcccggctctggtgtgtggag actggagagatcaagagagagtatggcggccaccagaaggctgttgtctgcctggccttc aatgacagtgtgctgggctag >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_5|592_aa MAAAEAGGDDARCVRLSAERAQALLADVDTLLFDCDGVLWRGETAVPGAPEALRALRARG KRLGFITNNSSKTRAAYAEKLRRLGFGGPAGPGASLEVFGTAYCTALYLRQRLAGAPAPK AYVLGSPALAAELEAVGVASVGVGPEPLQGEGPGDWLHAPLEPDVRAVVVGFDPHFSYMK LTKALRYLQQPGCLLVGTNMDNRLPLENGRFIAGTGCLVRAVEMAAQRQADIIGKPSRFI FDCVSQEYGINPERTVMVGDRLDTDILLGATCGLKTILTLTGVSTLGDVKNNQESDCVSK KKMVPDFYVDSIADLLPALQGKIPLKEPLCPAAGSAAEACVGQGMPVIQVKTKPSCGGWR AVSLLLLLLLLVLAAVGVVAGGLLGSAQGPPKPRLQTLRMTLPSPHMPRPNQTILVDVAR NAATITVTPPQSNHSWAVLFDGQSGCICYRPEEHQVCFLRLMEDSDRETLRLLVDTSKVQ EAWVPSQDTHHTQELLAVQGSLEVDPAQAGALVQRLCMRTPIYWARRAEGESGPLWGKAR PSGWFEELGAEPLEIHGTLATGPRRQRLIYLCIDICFPSNICVSVCFYYLPD >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_5|1779_bp atggcggcggcggaggccggtggcgacgacgcccgctgcgtgcggctgagcgccgagcgg gcacaggcgctgctggccgacgtggacacgctgctgttcgactgcgacggcgtgctgtgg cgcggggagaccgccgtgcctggcgcgcccgaggccctgcgggcgctgcgagcccgcggc aagcgcctgggcttcatcaccaacaacagcagcaagacccgcgctgcctacgccgagaag ctgcggcgcctgggcttcggcggccccgcggggcccggcgccagcctggaggtcttcggc acggcctactgcaccgcgctctacctgcgccagcgcctggccggcgcccccgcgcccaag gcctacgtgctgggcagcccagccctggccgcggagctggaggccgtgggcgtcgccagc gtgggcgtggggcccgagccactgcagggcgagggtcccggcgactggctgcacgcgccg ctggagcccgacgtgcgcgcggtggtggtgggctttgacccgcacttcagctacatgaag ctcaccaaggccctgcgctacctgcagcagcccggctgcctgctcgtgggcaccaacatg gacaaccggcttccgcttgagaacggccgcttcatcgcgggtaccgggtgtctggtccga gccgtggagatggccgcccagcgccaggccgacatcatcgggaagcccagccgcttcatt ttcgactgcgtgtcccaggaatacggcatcaaccccgagcgcaccgtcatggtgggagac cgcctggacacagacatcctcctaggcgccacctgtggcctgaagaccatcctgaccctc accggagtctccactctaggggatgtgaagaataatcaggaaagtgactgcgtgtctaag aagaaaatggtccctgacttctatgttgacagcatagccgaccttttgcctgcccttcaa ggcaaaattccactgaaggagcctctgtgccctgcagccggcagcgcggctgaagcatgt gttggccaaggaatgcctgtcatccaggtgaagaccaagccctcctgcgggggctggaga gccgtgagcctgctcctgctgctgctgctgctggtgctggccgctgtgggggttgtggct ggagggcttcttggctctgctcagggccctcccaagccaaggctgcagacgctgcgaatg accctcccgagcccccacatgccccggcccaaccaaaccatcctggtggacgtggcccgg aacgcggcgaccatcacagtgaccccacctcagagcaaccacagctgggcggtgctgttc gacgggcagagcggctgcatctgttaccgccctgaggagcaccaggtctgcttcctccgc ctgatggaggacagtgatcgggagaccctgcggctgctggtggatacctccaaggtccaa gaggcttgggtccccagccaggacacccaccacacccaggagctgctggcagtgcagggg agcctcgaagtggaccccgcccaggcgggggctttggtgcagcgcctgtgcatgaggacc cccatctactgggcccggcgagcagagggtgagtcaggaccgctgtgggggaaggccagg ccctcgggatggtttgaggagctgggggcggagcccttggagattcacggcaccctcgcc acagggccccggagacagcggctgatttatctctgcatcgacatctgcttcccgagcaac atctgcgtgtcggtctgcttttattacctcccagactga >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_6|842_aa MAVRVTAAHTAEAQAEAGREAGEGAVAAVAAALAPSGFLGLPAPFSEEGNRADPEGAAGV RAVHPGLAEARMARAAGSTDPPRPRHLADLAGPSQPSTKPPGPADSRLVADEDDVHRCGR CQAEFTALEDFVQHKIQKACQRAPPEALPATPATTALLGQEVVPAAPGPEEPITVAHIVV EAASLAADISHASDLVGGGHIKEVIVAAEAELGDGEMAEAPGSPRQQGLGLAGEGEQAQV KLLVNKDGRYVCALCHKTFKTGSILKAHMVTHSSRKDHECKLCGASFRTKGSLIRHHRRH TDERPYKCSKCGKSFRESGALTRHLKSLTPCTEKIRFSVSKDVVVSKEDARAGSGAGAAG LGTATSSVTGEPIETSPVIHLVTDAKGTVIHEVHVQMQELSLGMKALAPEPPVSQELPCS SEGSRENLLHQAMQNSGIVLERAAGEEGALEPAPAAGSSPQPLAVAAPQLPVLEVQPLET QVASEASAVPRTHPCPQCSETFPTAATLEAHKRGHTGPRPFACAQCGKAFPKAYLLKKHQ EVHVRERRFRCGDCGKLYKTIAHVRGHRRVHSDERPYPCPKCGKRYKTKNAQQVHFRTHL EEKPHVCQFCSRGFREKGSLVRHVRHHTGEKPFKCYKCGRGFAEHGTLNRHLRTKGGCLL EVEELLVSEDSPAAATTVLTEDPHTVLVEFSSVVADTQEYIIEATADDAETSEATEIIEG TQTEVDSHIMKVVQQIVHQASAGHQIIVQNVTMDEETALGPEAAAADTITIATPESLTEQ VAMTLASAISEGTVLAARAGTSGTEQATVTMVSSEDIEILEHAGELVIASPEGQLEVQTV IV >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_6|2529_bp atggcagtgcgggtgacggccgctcatacggcagaagcccaggccgaagccgggcgggaa gcgggcgagggtgcagttgcggcggtggcggcggccttggcccccagcggcttcctcggc ctcccggcgcccttcagcgaggaaggtaaccgggccgacccggagggtgcggccggggtg cgggcagttcatcccgggctggcagaggcccggatggcccgagctgcgggctcgaccgac cctcccagacccagacacctcgcggatctcgcgggaccctcacagccctccacgaaaccc ccaggccctgctgacagcaggctcgttgcagatgaggacgatgtgcacagatgcggccgc tgccaggcagagttcaccgccttggaggattttgttcagcacaagattcagaaggcctgc cagcgggcccctccggaggccctgcctgccacccctgccaccacagcgttgctgggccag gaggtggtgccggcagcaccaggcccagaggagcccatcactgtggcccacatcgtggtg gaggcggcctctctggcagcagacatcagccacgcatctgaccttgttggtggtgggcac atcaaagaggtcatcgtggctgctgaggcggagctgggagacggtgagatggccgaggcc ccgggcagcccccgccagcaggggctggggctcgcaggggagggtgagcaggcccaggtg aagctactggtgaacaaggatggccgctatgtgtgtgcgctgtgccacaagaccttcaag acgggcagcatcctcaaggcccacatggtcactcacagcagccgcaaggaccacgagtgc aagctctgtggggcctccttccgcaccaagggctcactcatccggcaccaccggcggcac acggatgagcgcccctacaagtgctccaagtgtggaaagagcttccgggagtcgggtgca ctgacccggcacctcaagtctctcaccccctgcacagagaaaatccgcttcagtgtgagc aaggacgtggttgtcagcaaagaggacgcacgtgcaggttctggagctggagctgccggc ttggggacagccacatcatcggtgacaggcgagcctatagagacttcacccgtgattcac ctggtgacagatgccaagggcaccgtcatccacgaagtccacgtccagatgcaggagctg tccctgggcatgaaagccctggccccagagccccccgtctcccaggagctcccctgctcc agcgagggcagccgtgagaacctgctgcaccaggccatgcagaactccggcatcgtcctt gagcgcgctgctggggaggagggtgccctggagccagctcctgctgccgggtccagtccc cagcccctggcagtggcagccccgcagctgccggtactggaagtgcagccgctggagaca caggtggccagcgaggcctcagcggtgcccaggacccacccatgtcctcagtgcagtgag accttcccgacagcagccaccctggaggcccacaagaggggccacaccgggccgaggccg ttcgcctgcgcgcagtgtggcaaggccttccccaaggcctacctgctcaagaagcaccag gaggtgcacgtgcgtgagcgccgcttccgctgtggcgactgcgggaagctctacaagacc attgcccatgtgcgtggccaccggcgcgtccactcagacgagcggccctacccttgtccc aagtgtggcaagcgctacaagactaagaacgcacagcaggtgcacttcaggacacacctg gaggagaagccgcacgtgtgccagttctgcagccgtggcttccgagagaagggctcactg gtgcggcacgtgcgacaccacacaggcgagaagccgttcaagtgctacaagtgcggccgt ggcttcgccgagcacggcacgctgaaccggcacctgcgcaccaaagggggctgcctgctg gaggtggaggagttgctggtgtctgaggacagccccgcggcagccaccaccgtcctcacg gaagacccgcacacagtgttggtggagttctcgtccgtggtagctgacacccaggagtat atcatcgaggccactgcggacgatgcggagaccagtgaggccacggagatcatcgagggc acccagacagaggtggacagccacatcatgaaggtggtgcagcagatcgtgcaccaggct agcgccggccaccagatcatcgtgcagaacgtcaccatggacgaggagacggcgctgggc ccagaggcggctgccgccgacaccatcaccatcgccacccccgagagcctgacagagcag gtggccatgacgctggcctcggccatcagcgagggcactgtgcttgccgcccgggcaggg acaagtggcactgaacaggccactgtgaccatggtgtcatcagaggacatcgagatcctg gagcatgcaggcgagctggtcatcgcctcgccggagggccagctggaggtgcagacggtc atcgtctag >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_7|302_aa MGGPRALLAALWALEAAGTAALRIGAFNIQSFGDSKVSDPACGSIIAKILAGYDLALVQE VRDPDLSAVSALMEQINSVSEHEYSFVSSQPLGRDQYKEMYLFVYRKDAVSVVDTYLYPD PEDVFSREPFVVKFSAPGTAAQNLVLIPLHAAPHQAVAEIDALYDVYLDVIDKWGTDDML FLGDFNADCSYVRAQDWAAIRLRSSEVFKWLIPDSADTTVGNSDCAYDRIVACGARLRRS LKPQSATVHDFQEEFGLDQTQASGPWGGAGLGSPPPGRTQAAGRALAISDHFPVEVTLKF HR >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_7|909_bp atgggcgggccccgggctctgctggccgcactctgggcgctggaagccgccgggaccgcc gcgcttcgcatcggagccttcaacattcagagcttcggtgacagcaaagtgtcggacccc gcttgcggcagcatcatcgcgaagatcctggctggctatgacctcgcgctggtgcaggag gtgcgagacccagacctcagcgccgtgtccgcgctcatggagcagatcaacagcgtgtcc gagcacgagtacagctttgtgagcagccagcccctgggccgggaccagtacaaggagatg tacctgttcgtgtacaggaaagacgcggtgtcggtcgtggacacctacctgtacccagac cccgaggacgtcttcagccgcgagcccttcgtggtcaagttctcggcccccggcaccgca gcacagaacctggtgctgatcccgctgcacgcggcgccgcatcaagccgtggcggagatc gacgcgctctacgacgtgtacctggacgtgatcgacaagtggggcaccgacgacatgctg ttcctgggcgacttcaacgccgactgcagctatgtgcgggcgcaggactgggccgccatc cgtctgaggagcagtgaggtcttcaagtggctcatccctgacagcgccgacaccacggtg ggcaactcagactgcgcctacgaccgcattgtggcctgtggcgcccgcctgcgccggagc ctgaagccccagtcggccaccgtgcacgacttccaggaggaattcggcctggaccagact caggcgagtgggccgtggggcggtgctggtcttgggtccccaccgcccgggcgcacgcag gcagcagggagggctcttgccatcagcgaccactttccagtggaggtgaccctcaagttc caccgatga >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_8|302_aa MALVASVRVPARVLLRAGARLPGAALGRTERAAGGGDGARRFGSQRVLVEPDAGAGVAVM KFKNPPVNSLSLEFLTELVISLEKLENDKSFRGVILTSDRPGVFSAGLDLTEMCGRSPAH YAGYWKAVQELWLRLYQSNLVLVSAINGACPAGGCLVALTCDYRILADNPRYCIGLNETQ LGIIAPFWLKDTLENTIGHRAAERALQLGLLFPPAEALQVGIVDQVVPEEQVQSTALSAI AQWMAIPDHARQLTKAMMRKATASRLVTQRDADVQNFVSFISKDSIQKSLQMYLERLKEE KG >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_8|909_bp atggcgctggtggcttctgtgcgagtcccggcgcgcgttctgctccgcgcgggggcccgg ctcccgggcgcggccctcgggcggacggagcgggcggccggcggcggagacggcgcgcgg cgcttcgggagccagcgggtgctggtggagccggacgcgggcgcaggggtcgctgtgatg aaattcaagaaccccccagtgaacagcctgagcctggagtttctgacggagctggtcatc agcctggagaagctggagaatgacaagagcttccgcggtgtcattctgacctcggaccgc ccgggtgtcttctcggccggcctggacctgacggagatgtgtgggaggagccccgcccac tacgctgggtactggaaggccgttcaggagctgtggctgcggttgtaccagtccaacctg gtgctggtctccgccatcaacggagcctgccccgctggaggctgcctggtggccctgacc tgtgactaccgcatcctggcggacaaccccaggtactgcataggactcaatgagacccag ctgggcatcatcgcccctttctggttgaaagacaccctggagaacaccatcgggcaccgg gcggcggagcgtgccctgcagctggggctgctcttcccgccggcggaggccctgcaggtg ggcatagtggaccaggtggtcccggaggagcaggtgcagagcactgcgctgtcagcgata gcccagtggatggccattccagaccatgctcgacagctgaccaaggccatgatgcgaaag gccacggccagccgcctggtcacgcagcgcgatgcggacgtgcagaacttcgtcagcttc atctccaaagactccatccagaagtccctgcagatgtacttagagaggctcaaagaagaa aaaggctaa >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_9|2576_aa MKWRRQSVRVFGHKKTATAVAHCKRGNGLIKVNGRPLEKIEPPTLQYKLLEPVLLLSKER FAGVDIRVRVEGGGHVAQIYATRQSISKALVAYYQKYMDEASKKEIKDILILYDRTLLRL SGPTPEPSVRSRLLLASSPVVLKGDLLCGASSGTQDRAATSAHLALFTLSFQSTFLLFPA GCSAYLNLLRPPTSLAALGVPFSKTMAVLRQLALLLWKNYTLQKRKVLVTVLELFLPLLF SGILIWLRLKIQSENVPNATIYPGQSIQELPLFFTFPPPGDTWELAYIPSHSDAAKTVTE TVRRALVINMRVRGFPSEKDFEDYIRYDNCSSSVLAAVVFEHPFNHSKEPLPLAVKYHLR FSYTRRNYMWTQTGSFFLKETEGWHTTSLFPLFPNPGPREPTSPDGGEPGYIREGFLAVQ HAVDRAIMEYHADAATRQLFQRLTVTIKRFPYPPFIADPFLVAIQYQLPLLLLLSFTYTA LTIARAVVQEKERRLKEYMRMMGLSSWLHWSAWFLLFFLFLLIAASFMTLLFCVKVKPNV AVLSRSDPSLVLAFLLCFAISTISFSFMVSTFFSKANMAAAFGGFLYFFTYIPYFFVAPR YNWMTLSQKLCSCLLSNVAMAMGAQLIGKFEAKACSFRISNLREHPTTRAASSKAPPGTV GRQLGPLKAAASAYSAECGLDSWTRPRAREAQLHGTAGGMGIQWRDLLSPVNVDDDFCFG QVLGMLLLDSVLYGLVTWYMEAVFPGQFGVPQPWYFFIMPSYWCGKPRAVAGKEEEDSDP EKALRNEYFEAEPEDLVAGIKIKHLSKVFRVGNKDRAAVRDLNLNLYEGQITVLLGHNGA GKTTTLSMLTGLFPPTSGRAYISGYEISQDMVQIRKSLGLCPQHDILFDNLTVAEHLYFY AQLRQGEVPLTRTLLAVVGLPPGALHLPSYVKERFLSPEPRWPGSASRQEPCISLRPLSL QLKGLSRQKCPEEVKQMLHIIGLEDKWNSRSRFLSGGMRRKLSIGIALIAGSKVLILDEP TSGMDAISRRAIWDLLQRQKSDRTIVLTTHFMDEADLLGDRIAIMAKGELQCCGSSLFLK QKYGAGYHMTLVKEPHCNPEDISQLVHHHVPNATLESSAGAELSFILPRESTHRFEGLFA KLEKKQKELGIASFGASITTMEEVFLRVGKLVDSSMDIQAIQLPALQYQHERRASDWAVD SNLCGAMDPSDGIGALIEEERTAVKLNTGVSAQLALHCQQFWAMFLKKAAYSWREWKMVA AQVLVPLTCVTLALLAINYSSELFDDPMLRLTLGEYGRTVVPFSVPGTSQLGQQLSEHLK DALQAEGQEPREVLGDLEEFLIFRASVEGGGFNERCLVAASFRDVGERTVVNALFNNQAY HSPATALAVVDNLLFKLLCGPHASIVVSNFPQPRSALQAAKDQFNEGRKGFDIALNLLFA MAFLASTFSILAVSERAVQAKHVQFVSGVHVASFWLSALLWDLISFLIPSLLLLVVFKAF DVRAFTRDGHMADTLLLLLLYGWAIIPLMYLMNFFFLGAATAYTRLTIFNILSGIATFLM VTIMRIPAVKLEELSKTLDHVFLVLPNHCLGMAVSSFYENYETRRYCTSSEVAAHYCKKY NIQYQENFYAWSAPGVGRFVASMAASGCAYLILLFLIETNLLQRLRGILCALRRRRTLAA PAPDGLPLYGLSTSRHLQPGRGTALATHKGCRVVSPCRGVSLGAQGRPAEESRPAAGFTH AVFVLVNQTELYTRMPVLPEDQDVADERTRILAPSPDSLLHTPLIIKELSKVYEQRVPLL AVDRLSLAVQKGECFGLLGFNGAGKTTTFKMLTGEESLTSGDAFVGGHRISSDVGKVRQR IGYCPQFDALLDHMTGREMLVMYARLRGIPERHIGACVENTLRGLLLEPHANKLVRTYSG GNKRKLSTGIALIGEPAVIFLDEPSTGMDPVARRLLWDTVARARESGKAIIITSHSMEEC EALCTRLAIMVQGQFKCLGSPQHLKSKFGSGYSLRAKVQSEGQQEALEEFKAFVDLTFPG SVLEDEHQGMVHYHLPGRDLSWAKVFGILEKAKEKYGVDDYSTTEGGHTFSTDTVPKQLW HLTEPTPALLPVHLRPGKRGFDFTALHGLVQGSREQTAHGPRARQGEELRAVARAHEKPV PSSAGDPPLWEEAPPLDSPRVGPWSTVLPARTLHRPMDEASALRRSHAPCRCREARAGLR AGVYVIAARRAAATSRSLTLTSERRRPRRLRKAGGGGGGGKMAPSPTKRKDRSDEKSKDR SKDKGATKESSEKDRGRDKTRKRRSASSGSSSTRSRSSSTSSSGSSTSTGSSSGSSSSSA SSRSGSSSTSRSSSSSSSSGSPSPSRRRHDNRRRSRSKSKPPKRDEKERKRRSPSPKPTK VHIGRLTRNVTKDHIMEIFSTYGKIKMIDMPVERMHPHLSKGYAYVEFENPDEAEKALKH MDGVQHFEACGVISAPLPAAVTEAAGTENTAHSAVWAARPGGEWSATPQEIQPSQENVAT TAYVAQVSPTDEEKVPLPEAQVPRAPEITVPGPPPPQEPLQLQLLPINRPLKLSPL >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_9|7731_bp atgaaatggaggaggcaatcggtgcgggtctttggacacaagaagacagccacagctgtg gcacactgcaaacgcggcaatggtctcatcaaggtgaacgggcggcccctggagaagatt gagccgcccacgctacagtacaagctgctggagccagttttgcttctcagcaaggagcga tttgctggtgtggacattcgtgtccgtgtggagggtggtggtcatgtggcccagatttat gctacccgtcagtccatctccaaagccctggtggcctattaccagaagtatatggatgag gcttccaagaaggagatcaaagacatcctcatcctgtatgaccggaccctgctgaggctc tcaggccccaccccggagccctctgtgcggagccgcctcctcctggccagttccccagta gtcctgaagggagacctgctgtgtggagcctcttctgggacccaggacagagcagccacg tctgcacacctcgccctctttacactcagttttcagagcacgtttctcctatttcctgcg ggttgcagcgcctacttgaacttactcagaccacctacttctctagcagcactgggcgtc cctttcagcaagacgatggctgtgctcaggcagctggcgctcctcctctggaagaactac accctgcagaagcggaaggtcctggtgacggtcctggaactcttcctgccattgctgttt tctgggatcctcatctggctccgcttgaagattcagtcggaaaatgtgcccaacgccacc atctacccgggccagtccatccaggagctgcctctgttcttcaccttccctccgccagga gacacctgggagcttgcctacatcccttctcacagtgacgctgccaagaccgtcactgag acagtgcgcagggcacttgtgatcaacatgcgagtgcgcggctttccctccgagaaggac tttgaggactacattaggtacgacaactgctcgtccagcgtgctggccgccgtggtcttc gagcaccccttcaaccacagcaaggagcccctgccgctggcggtgaaatatcacctacgg ttcagttacacacggagaaattacatgtggacccaaacaggctcctttttcctgaaagag acagaaggctggcacactacttcccttttcccgcttttcccaaacccaggaccaagggaa cctacatcccctgatggcggagaacctgggtacatccgggaaggcttcctggccgtgcag catgctgtggaccgggccatcatggagtaccatgccgatgccgccacacgccagctgttc cagagactgacggtgaccatcaagaggttcccgtacccgccgttcatcgcagaccccttc ctcgtggccatccagtaccagctgcccctgctgctgctgctcagcttcacctacaccgcg ctcaccattgcccgtgctgtcgtgcaggagaaggaaaggaggctgaaggagtacatgcgc atgatggggctcagcagctggctgcactggagtgcctggttcctcttgttcttcctcttc ctcctcatcgccgcctccttcatgaccctgctcttctgtgtcaaggtgaagccaaatgta gccgtgctgtcccgcagcgacccctccctggtgctcgccttcctgctgtgcttcgccatc tctaccatctccttcagcttcatggtcagcaccttcttcagcaaagccaacatggcagca gccttcggaggcttcctctacttcttcacctacatcccctacttcttcgtggcccctcgg tacaactggatgactctgagccagaagctctgctcctgcctcctgtctaatgtcgccatg gcaatgggagcccagctcattgggaaatttgaggcgaaagcctgttctttccgaatcagt aaccttcgagagcacccaaccacaagagccgccagcagcaaggctccacctgggacggtt ggcaggcagttgggaccactgaaggcagcagcatccgcatacagcgctgagtgtgggctg gatagctggacacggccccgggcgagggaagcccagctccacggcacagcaggaggcatg ggcatccagtggcgagacctcctgagtcccgtcaacgtggacgacgacttctgcttcggg caggtgctggggatgctgctgctggactctgtgctctatggcctggtgacctggtacatg gaggccgtcttcccagggcagttcggcgtgcctcagccctggtacttcttcatcatgccc tcctattggtgtgggaagccaagggcggttgcagggaaggaggaagaagacagtgacccc gagaaagcactcagaaacgagtactttgaagccgagccagaggacctggtggcggggatc aagatcaagcacctgtccaaggtgttcagggtgggaaataaggacagggcggccgtcaga gacctgaacctcaacctgtacgagggacagatcaccgtcctgctgggccacaacggtgcc gggaagaccaccaccctctccatgctcacaggtctctttccccccaccagtggacgggca tacatcagcgggtatgaaatttcccaggacatggttcagatccggaagagcctgggcctg tgcccgcagcacgacatcctgtttgacaacttgacagtcgcagagcacctttatttctac gcccagctacgtcaaggagaggttcctctcaccagaaccttgctggccgtggtcggcctc ccgccaggagccctgcatctccccagctacgtcaaggagaggttcctctcaccagaacct cgctggccagggtcggcctcccgccaggagccctgcatctccctgcgtcccctgtcgttg cagctgaagggcctgtcacgtcagaagtgccctgaagaagtcaagcagatgctgcacatc atcggcctggaggacaagtggaactcacggagccgcttcctgagcgggggcatgaggcgc aagctctccatcggcatcgccctcatcgcaggctccaaggtgctgatactggacgagccc acctcgggcatggacgccatctccaggagggccatctgggatcttcttcagcggcagaaa agtgaccgcaccatcgtgctgaccacccacttcatggacgaggctgacctgctgggagac cgcatcgccatcatggccaagggggagctgcagtgctgcgggtcctcgctgttcctcaag cagaaatacggtgccggctatcacatgacgctggtgaaggagccgcactgcaacccggaa gacatctcccagctggtccaccaccacgtgcccaacgccacgctggagagcagcgctggg gccgagctgtctttcatccttcccagagagagcacgcacaggtttgaaggtctctttgct aaactggagaagaagcagaaagagctgggcattgccagctttggggcatccatcaccacc atggaggaagtcttccttcgggtcgggaagctggtggacagcagtatggacatccaggcc atccagctccctgccctgcagtaccagcacgagaggcgcgccagcgactgggctgtggac agcaacctctgtggggccatggacccctccgacggcattggagccctcatcgaggaggag cgcaccgctgtcaagctcaacactggggtgagtgcccagctcgccctgcactgccagcaa ttctgggccatgttcctgaagaaggccgcatacagctggcgcgagtggaaaatggtggcg gcacaggtcctggtgcctctgacctgcgtcaccctggccctcctggccatcaactactcc tcggagctcttcgacgaccccatgctgaggctgaccttgggcgagtacggcagaaccgtc gtgcccttctcagttcccgggacctcccagctgggtcagcagctgtcagagcatctgaaa gacgcactgcaggctgagggacaggagccccgcgaggtgctcggtgacctggaggagttc ttgatcttcagggcttctgtggaggggggcggctttaatgagcggtgccttgtggcagcg tccttcagagatgtgggagagcgcacggtcgtcaacgccttgttcaacaaccaggcgtac cactctccagccactgccctggccgtcgtggacaaccttctgttcaagctgctgtgcggg cctcacgcctccattgtggtctccaacttcccccagccccggagcgccctgcaggctgcc aaggaccagtttaacgagggccggaagggattcgacattgccctcaacctgctcttcgcc atggcattcttggccagcacgttctccatcctggcggtcagcgagagggccgtgcaggcc aagcatgtgcagtttgtgagtggagtccacgtggccagtttctggctctctgctctgctg tgggacctcatctccttcctcatccccagtctgctgctgctggtggtgtttaaggccttc gacgtgcgtgccttcacgcgggacggccacatggctgacaccctgctgctgctcctgctc tacggctgggccatcatccccctcatgtacctgatgaacttcttcttcttgggggcggcc actgcctacacgaggctgaccatcttcaacatcctgtcaggcatcgccaccttcctgatg gtcaccatcatgcgcatcccagctgtaaaactggaagaactttccaaaaccctggatcac gtgttcctggtgctgcccaaccactgtctggggatggcagtcagcagtttctacgagaac tacgagacgcggaggtactgcacctcctccgaggtcgccgcccactactgcaagaaatat aacatccagtaccaggagaacttctatgcctggagcgccccgggggtcggccggtttgtg gcctccatggccgcctcagggtgcgcctacctcatcctgctcttcctcatcgagaccaac ctgcttcagagactcaggggcatcctctgcgccctccggaggaggcggacactggcagct cctgcaccagatggtctcccactgtacggcctcagcaccagccggcacttacagccaggg cggggcacagccctcgccactcacaagggctgtcgagttgtgagcccctgccgaggagtc agcctgggggcccagggccgtcctgctgaggagagccgccctgcggctgggttcacgcat gcggtctttgtcctggtcaatcagacagaattatacacccggatgcctgtgcttcctgag gaccaagatgtagcggacgagaggacccgcatcctggcccccagtccggactccctgctc cacacacctctgattatcaaggagctctccaaggtgtacgagcagcgggtgcccctcctg gccgtggacaggctctccctcgcggtgcagaaaggggagtgcttcggcctgctgggcttc aatggagccgggaagaccacgactttcaaaatgctgaccggggaggagagcctcacttct ggggatgcctttgtcgggggtcacagaatcagctctgatgtcggaaaggtgcggcagcgg atcggctactgcccgcagtttgatgccttgctggaccacatgacaggccgggagatgctg gtcatgtacgctcggctccggggcatccctgagcgccacatcggggcctgcgtggagaac actctgcggggcctgctgctggagccacatgccaacaagctggtcaggacgtacagtggt ggtaacaagcggaagctgagcaccggcatcgccctgatcggagagcctgctgtcatcttc ctggacgagccgtccactggcatggaccccgtggcccggcgcctgctttgggacaccgtg gcacgagcccgagagtctggcaaggccatcatcatcacctcccacagcatggaggagtgt gaggccctgtgcacccggctggccatcatggtgcaggggcagttcaagtgcctgggcagc ccccagcacctcaagagcaagttcggcagcggctactccctgcgggccaaggtgcagagt gaagggcaacaggaggcgctggaggagttcaaggccttcgtggacctgacctttccaggc agcgtcctggaagatgagcaccaaggcatggtccattaccacctgccgggccgtgacctc agctgggcgaaggttttcggtattctggagaaagccaaggaaaagtacggcgtggacgac tactccaccacggaggggggccacacattctctacggacactgtccccaaacaactgtgg catctgacagagccaactcctgccctgctcccagttcaccttagacctgggaaacgaggt tttgacttcactgctctgcatggcctggtgcagggctcccgtgagcagacggcccatggg ccacgagccaggcaaggggaggagctcagggccgtggccagagcccacgagaagcccgtg cccagctcagcaggtgaccctccgctctgggaagaggcgccacctctggactctcccagg gtcggaccctggtcgacagtgctccctgcccggaccctgcaccggccgatggatgaagcc tcggcgctgcgccgttcacacgctccgtgccgctgccgcgaagctcgcgcgggcctgcga gccggcgtttacgtcatcgctgcgcgccgggcggcggcgacttcccgctccttgactctg acgtcagagcggcgccggcctcggcggctgaggaaagcaggaggaggtggcggcggcggg aagatggctccttcacctaccaaacgcaaagaccgctcagatgagaagtccaaggatcgc tcaaaagataaaggggccaccaaggagtcgagtgagaaggatcgcggccgggacaaaacc cgaaagaggcgcagcgcttccagtggtagcagcagtaccaggtctcggtccagctcgact tccagctcaggctccagcaccagcactggctcaagcagtggctccagctcttcctcagca tccagccgctcaggaagctccagcacctcccgcagctccagctctagcagctcttctggc tctccaagtccttctcggcgcagacacgacaacaggaggcgctcccgctccaaatccaaa ccacctaaaagagatgaaaaggagaggaaaaggcggagcccatctcctaagcccaccaaa gtgcacattgggagactcacccggaatgtgacaaaggatcacatcatggagatattttcc acctatgggaaaattaaaatgattgacatgcccgtggaaaggatgcatccccatctgtcc aaaggctatgcgtacgtagagtttgagaatccagatgaagccgagaaggcgctgaagcac atggatggagtgcagcattttgaggcatgtggagtcatctctgctccactccctgctgct gtgactgaggccgctggcactgagaacacagcccacagtgctgtctgggctgccaggcct ggtggggagtggagtgccaccccccaggagattcagccctcccaggagaatgttgccacc accgcctatgtggcgcaggtctcccccacggatgaggagaaggtcccgctccccgaggcg caggtcccccgtgcgccggagatcacggtccccgggccgccgccgccacaggagccgctc cagctccaactcctcccgataaacaggccactgaagctctcgcccctgtaa >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_10|93_aa MRAGAARGRQLPRAGANGSPSAASGRTTVRCVRGPGAPGEGGLLPVLPLGAACDPHRQPR AQPAAGTTTRRPRPNATPRAGGGNRPPPRVLME >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_10|282_bp atgagggcgggcgccgcgcggggccgacagttgccgcgggccggggccaatgggtccccg agcgccgccagcggccggaccacagtgaggtgcgtccgtggtcccggcgccccgggtgag ggagggctgctgccggtcctgccgctgggagccgcctgcgacccgcaccgccagccccgc gcccagccagccgccggcaccacgacccgacggccccgacctaatgcaacgccccgggcc gggggcggaaatcgcccacccccaagagtcctgatggagtag >gi568815582r:2139982_2351566|GENSCAN_predicted_peptide_11|6_aa MPGHHX >gi568815582r:2139982_2351566|GENSCAN_predicted_CDS_11|18_bp atgcccggtcaccatgnn