GENSCAN 1.0 Date run: 4-Nov-116 Time: 06:11:38 Sequence gi568815579f:9913498_10121746 : 208249 bp : 51.58% 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 - 120 9 112 0 1 88 20 305 0.995 24.03 1.00 Prom - 11430 11391 40 -1.21 2.03 PlyA - 12695 12690 6 1.05 2.02 Term - 16711 16607 105 1 0 84 42 19 0.075 -4.39 2.01 Init - 22869 22807 63 0 0 68 91 211 0.950 18.50 2.00 Prom - 24928 24889 40 -5.01 3.03 PlyA - 25479 25474 6 1.05 3.02 Term - 27504 27238 267 0 0 35 42 178 0.102 3.73 3.01 Init - 42357 42295 63 0 0 56 98 37 0.280 0.60 3.00 Prom - 44706 44667 40 0.79 4.62 PlyA - 46082 46077 6 1.05 4.61 Term - 47060 46914 147 2 0 87 54 128 0.970 7.51 4.60 Intr - 47393 47154 240 2 0 96 94 441 0.957 43.78 4.59 Intr - 49390 49322 69 1 0 139 113 2 0.993 7.67 4.58 Intr - 52929 52817 113 1 2 89 78 136 0.999 13.30 4.57 Intr - 53249 53039 211 2 1 73 77 255 0.978 21.91 4.56 Intr - 53903 53850 54 2 0 82 117 55 0.907 7.46 4.55 Intr - 54442 54407 36 1 0 125 117 -14 0.946 4.14 4.54 Intr - 54582 54529 54 0 0 73 101 33 0.872 2.76 4.53 Intr - 54995 54888 108 2 0 141 76 64 0.999 11.48 4.52 Intr - 55231 55178 54 1 0 93 116 4 0.911 3.36 4.51 Intr - 55905 55852 54 0 0 99 99 7 0.850 2.56 4.50 Intr - 56185 56078 108 1 0 123 89 58 0.998 10.38 4.49 Intr - 56425 56372 54 1 0 93 113 29 0.958 5.56 4.48 Intr - 57178 57125 54 1 0 98 110 34 0.987 6.26 4.47 Intr - 57531 57478 54 0 0 112 117 36 0.989 8.56 4.46 Intr - 57761 57708 54 2 0 81 70 37 0.644 0.86 4.45 Intr - 59529 59422 108 0 0 96 89 123 0.999 14.18 4.44 Intr - 60126 60073 54 0 0 115 117 24 0.994 7.66 4.43 Intr - 60312 60259 54 0 0 114 113 7 0.921 5.46 4.42 Intr - 60727 60674 54 1 0 121 68 0 0.591 0.96 4.41 Intr - 60911 60804 108 2 0 122 94 35 0.828 8.48 4.40 Intr - 63114 63061 54 0 0 98 117 15 0.969 5.06 4.39 Intr - 63785 63732 54 2 0 90 101 57 0.965 6.86 4.38 Intr - 63975 63868 108 0 0 86 100 94 0.999 11.38 4.37 Intr - 64204 64097 108 1 0 78 114 30 0.975 5.58 4.36 Intr - 65130 65077 54 0 0 106 101 46 0.993 7.36 4.35 Intr - 65483 65394 90 2 0 99 117 30 0.995 7.69 4.34 Intr - 65742 65635 108 0 0 84 100 42 0.746 5.98 4.33 Intr - 66395 66342 54 2 0 86 105 -3 0.391 0.86 4.32 Intr - 66550 66467 84 1 0 102 55 39 0.397 2.51 4.31 Intr - 67195 67151 45 1 0 85 113 49 0.637 6.19 4.30 Intr - 67362 67309 54 0 0 115 86 -16 0.381 0.56 4.29 Intr - 68621 68568 54 2 0 103 109 35 0.634 6.76 4.28 Intr - 72437 72345 93 2 0 118 97 -17 0.669 2.86 4.27 Intr - 72925 72818 108 1 0 98 94 11 0.928 3.68 4.26 Intr - 73109 73056 54 2 0 110 110 86 0.999 12.66 4.25 Intr - 73261 73217 45 1 0 80 100 52 0.962 4.69 4.24 Intr - 75680 75627 54 2 0 85 100 21 0.863 2.66 4.23 Intr - 75869 75825 45 2 0 97 109 13 0.885 3.39 4.22 Intr - 76025 75972 54 2 0 115 85 24 0.956 4.46 4.21 Intr - 78157 78113 45 1 0 132 113 25 0.991 8.49 4.20 Intr - 78551 78507 45 2 0 106 68 66 0.978 5.49 4.19 Intr - 79383 79330 54 0 0 82 117 6 0.855 2.56 4.18 Intr - 79936 79883 54 1 0 129 110 4 0.986 6.36 4.17 Intr - 80175 80122 54 0 0 55 96 45 0.757 1.66 4.16 Intr - 80309 80256 54 2 0 109 100 12 0.944 4.16 4.15 Intr - 82120 82067 54 1 0 115 101 59 0.996 9.56 4.14 Intr - 82622 82569 54 2 0 90 94 13 0.770 1.76 4.13 Intr - 82765 82709 57 1 0 106 89 -4 0.669 1.07 4.12 Intr - 83019 82936 84 0 0 54 109 39 0.712 3.11 4.11 Intr - 83192 83118 75 2 0 134 111 73 0.999 14.41 4.10 Intr - 83936 83874 63 2 0 120 111 12 0.986 6.11 4.09 Intr - 84528 84487 42 0 0 107 108 38 0.872 6.62 4.08 Intr - 84652 84605 48 1 0 77 100 56 0.843 5.06 4.07 Intr - 88173 88027 147 0 0 48 76 192 0.980 14.94 4.06 Intr - 90217 90068 150 1 0 48 110 23 0.682 1.37 4.05 Intr - 90648 90544 105 0 0 87 89 110 0.991 11.91 4.04 Intr - 92217 92061 157 2 1 76 75 153 0.998 13.33 4.03 Intr - 92488 92299 190 2 1 98 99 151 0.999 16.36 4.02 Intr - 92734 92576 159 2 0 131 109 78 0.999 14.67 4.01 Init - 96888 96801 88 0 1 94 105 254 0.999 26.46 4.00 Prom - 98588 98549 40 -7.40 5.00 Prom + 99261 99300 40 -7.20 5.01 Init + 100001 100103 103 1 1 100 90 147 0.887 16.60 5.02 Intr + 103560 103718 159 1 0 112 72 264 0.702 27.67 5.03 Intr + 105234 105413 180 1 0 53 84 227 0.991 19.16 5.04 Intr + 107212 107305 94 2 1 98 42 189 0.993 14.82 5.05 Intr + 107758 107941 184 1 1 40 109 214 0.984 19.01 5.06 Intr + 108037 108143 107 0 2 62 42 266 0.021 18.91 5.07 Intr + 116174 116315 142 2 1 17 53 147 0.002 4.96 5.08 Intr + 124365 124583 219 2 0 33 76 178 0.035 10.13 5.09 Intr + 125035 125209 175 0 1 51 27 271 0.996 17.33 5.10 Intr + 125424 125514 91 1 1 90 23 151 0.772 8.35 5.11 Intr + 125810 125901 92 2 2 74 70 127 0.556 9.64 5.12 Intr + 126134 126221 88 0 1 94 97 58 0.808 6.83 5.13 Intr + 127076 127205 130 2 1 22 54 58 0.348 -3.00 5.14 Intr + 127240 127375 136 0 1 114 81 -41 0.715 -1.55 5.15 Intr + 127857 127982 126 1 0 59 50 128 0.939 7.26 5.16 Intr + 128233 128348 116 2 2 108 40 122 0.996 10.07 5.17 Intr + 128975 129127 153 1 0 71 66 87 0.597 5.58 5.18 Intr + 129214 129423 210 0 0 95 81 140 0.961 13.63 5.19 Intr + 129651 129860 210 2 0 113 103 94 0.999 13.03 5.20 Intr + 130150 130311 162 0 0 89 116 156 0.951 19.19 5.21 Intr + 130574 130718 145 1 1 81 -29 156 0.335 3.57 5.22 Intr + 133233 133344 112 1 1 71 78 154 0.504 12.64 5.23 Intr + 133628 133713 86 2 2 65 105 96 0.883 8.96 5.24 Intr + 133822 134003 182 2 2 96 22 173 0.517 11.60 5.25 Intr + 136499 136705 207 1 0 90 62 196 0.610 17.00 5.26 Intr + 138805 138856 52 0 1 103 76 50 0.502 4.27 5.27 Intr + 139274 139477 204 0 0 68 81 319 0.908 28.90 5.28 Intr + 141684 141825 142 1 1 87 73 106 0.872 8.92 5.29 Intr + 142096 142264 169 1 1 78 58 176 0.998 14.06 5.30 Intr + 145071 145160 90 2 0 54 97 67 0.967 4.89 5.31 Intr + 145313 145466 154 1 1 87 25 247 0.913 18.46 5.32 Intr + 148312 148484 173 2 2 73 64 166 0.989 12.88 5.33 Intr + 148688 148846 159 1 0 51 95 240 0.916 21.70 5.34 Intr + 152082 152141 60 2 0 119 86 91 0.998 11.42 5.35 Intr + 154327 154443 117 0 0 80 55 83 0.043 5.37 5.36 Intr + 157138 157224 87 0 0 76 100 121 0.972 12.76 5.37 Intr + 157485 157590 106 2 1 82 61 261 0.997 23.09 5.38 Intr + 158103 158192 90 1 0 96 76 4 0.537 0.46 5.39 Intr + 159427 159513 87 2 0 56 97 23 0.542 0.44 5.40 Intr + 159593 159682 90 0 0 89 68 125 0.785 11.06 5.41 Intr + 159803 159938 136 0 1 78 23 102 0.789 2.83 5.42 Term + 160420 160552 133 1 1 104 52 167 0.886 12.57 5.43 PlyA + 160613 160618 6 1.05 6.00 Prom + 167116 167155 40 -2.41 6.01 Init + 172931 172951 21 1 0 98 99 3 0.354 2.03 6.02 Intr + 173432 173555 124 1 1 85 89 172 0.993 17.66 6.03 Intr + 173754 173803 50 1 2 106 91 45 0.986 5.49 6.04 Intr + 176160 176198 39 2 0 91 109 60 0.992 7.31 6.05 Intr + 176401 176550 150 0 0 105 49 144 0.995 13.07 6.06 Intr + 177753 177856 104 2 2 79 93 205 0.999 19.57 6.07 Intr + 177979 178133 155 1 2 87 78 148 0.992 13.93 6.08 Term + 178573 178805 233 2 2 103 46 306 0.999 24.87 6.09 PlyA + 178823 178828 6 -8.31 7.06 PlyA - 178860 178855 6 -3.64 7.05 Term - 179282 179092 191 0 2 99 41 207 0.999 15.03 7.04 Intr - 180122 179852 271 2 1 87 95 327 0.499 30.95 7.03 Intr - 180383 180196 188 0 2 119 86 97 0.995 12.53 7.02 Intr - 181441 181261 181 1 1 104 106 108 0.990 14.16 7.01 Init - 183066 182485 582 0 0 108 91 1128 0.999 108.35 7.00 Prom - 190301 190262 40 -2.21 8.00 Prom + 190998 191037 40 -7.20 8.01 Init + 192898 192915 18 0 0 76 86 3 0.744 -1.03 8.02 Intr + 193004 193174 171 1 0 106 72 283 0.998 29.15 8.03 Intr + 194008 194109 102 0 0 124 59 104 0.999 11.97 8.04 Intr + 194307 194357 51 2 0 117 100 6 0.924 4.29 8.05 Intr + 194467 194637 171 0 0 106 98 210 0.995 24.45 8.06 Intr + 196134 196210 77 2 2 138 75 194 0.995 21.91 8.07 Intr + 196416 196523 108 0 0 72 66 227 0.990 18.80 8.08 Intr + 196626 196749 124 0 1 77 78 150 0.993 13.99 8.09 Intr + 196827 196905 79 2 1 134 73 65 0.577 9.22 8.10 Intr + 196988 197117 130 0 1 43 42 289 0.999 20.06 8.11 Intr + 197200 197369 170 1 2 76 51 247 0.516 19.91 8.12 Intr + 197448 197621 174 1 0 132 52 71 0.882 8.33 8.13 Term + 200136 201241 1106 1 2 118 41 1878 0.989 178.86 8.14 PlyA + 201501 201506 6 -3.64 9.11 PlyA - 201540 201535 6 1.05 9.10 Term - 202088 201978 111 2 0 109 47 234 0.770 20.26 9.09 Intr - 202323 202187 137 1 2 107 86 267 0.948 29.20 9.08 Intr - 202577 202470 108 0 0 91 78 202 0.805 20.26 9.07 Intr - 203492 203303 190 2 1 58 48 392 0.913 31.88 9.06 Intr - 203691 203587 105 0 0 37 99 179 0.999 14.81 9.05 Intr - 205230 205171 60 0 0 125 100 37 0.996 8.02 9.04 Intr - 205459 205371 89 2 2 88 100 123 0.979 13.69 9.03 Intr - 205674 205591 84 1 0 116 105 108 0.997 15.59 9.02 Intr - 206203 206157 47 0 2 83 127 48 0.947 6.74 9.01 Intr - 206482 206273 210 0 0 98 67 61 0.633 3.55 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 108037 108252 216 0 0 62 53 275 0.854 18.87 S.002 Init + 124169 124239 71 1 2 98 65 58 0.894 2.97 S.003 Intr + 124376 124583 208 2 1 28 76 165 0.880 8.90 S.004 Intr + 154327 154417 91 0 1 80 121 71 0.820 9.67 S.005 Init + 156819 156881 63 2 0 96 95 117 0.945 14.30 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_1|38_aa MSVPLLKIGAVLSTMAMVTNWMSQTLPSLVGLNGTVSX >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_1|114_bp atgtcggtgccgctgctcaagatcggggccgtgctgagcaccatggccatggtcaccaac tggatgtcgcagacgctgccctcgctcgtggggctcaacggcaccgtgtcccnn >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_2|55_aa MWPLTVPPPLLLLLCSGLAGQACVCGVMRVCVCLVTVCMFRDHEHRDMLVSSSHQ >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_2|168_bp atgtggccgctcacggtcccgccgccgctgctgctgctgctgtgctcaggcctggccgga caggcatgtgtctgtggtgtcatgcgtgtatgtgtatgtttggtgactgtgtgcatgttc agggaccatgagcacagggacatgcttgtatcatcatcacaccagtga >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_3|109_aa MKTIGQTRWLTPVIPALWEAKQAQDKDHSTRTEHSITRKLTVVLITTLTTTQPRMTRSDH NSDHNADPGRTRMLTAAQIPVQQDTNHNAIRTPRGPLTIPVNDQRHRMH >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_3|330_bp atgaagaccatcggccagacgcggtggctcacgcctgtaatcccagcactttgggaggcc aagcaagctcaggacaaggaccatagcactaggacagagcacagcataaccaggaaactg actgtagtactaatcaccacactgaccacaacacaaccaagaatgaccaggagtgaccac aattctgaccacaatgctgaccctggcagaaccaggatgttgacggcagcacagatcccg gttcaacaggacacaaaccacaatgccatcaggacacccagagggccactaaccatacca gtcaacgaccaacggcatcgaatgcattga >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_4|1646_aa MGNRRDLGQPRAGLCLLLAALQLLPGTQADPVDVLKALGVQGGQAGVPEGPGFCPQRTPE GDRAFRIGQASTLGIPTWELFPEGHFPENFSLLITLRGQPANQSVLLSIYDERGARQLGL ALGPALGLLGDPFRPLPQQVNLTDGRWHRVAVSIDGEMVTLVADCEAQPPVLGHGPRFIS IAGLTVLGTQDLGEKTFEGDIQELLISPDPQAAFQACERYLPDCDNLAPAATVAPQGEPE TPRPRRKGKGKGRKKGRGRKGKGRKKNKEIWTSSPPPDSAENQRSLDPDSGTELGTLETK AAREDEEGDDSTMGPDFRAAEYPSRTQFQIFPGAGEKGAKGEPAVIEKGQQFEGPPGAPG PQGVVGPSGPPGPPGFPGDPGPPGPAGLPGIPGIDGIRGPPGTVIMMPFQFAGGSFKGPP VSFQQAQAQAVLQQTQLSMKGPPGPVGLTGRPGPVGLPGHPGLKGEEGAEGPQGPRGLQG PHGPPGRVGKMGRPGADGARGLPGDTGPKGDRGFDGLPGLPGEKGQRGDFGHVGQPGPPG EDGERGPRGLLGPRGSPGPTGRPGVTGIDGAPGAKGNVGLPGPQGLIGTPGEKGPPGNPG IPGLPGSDGPLGHPGHEGPTGEKGAQGPPGSAGPPGYPGPRGVKGTSGNRGLQGEKGEKG EDGFPGFKGDVGLKGDQGKPGAPGPRGEDGPEGPKGQAGQAGEEGPPGSAGEKVAISDLC PITFLQGKLGVPGLPGYPGRPGPKGSIGFPGPLGPIGEKGKSGSRGERGQPGATGQPGPK GDVGQDGAPGIPGEKGLPGLQGPPGFPGPKGPPVSEVTLIGGWGHQGKDGRPGHPGQRGE LGKTGEVGPLGERGPPGPPGPPGEQGLPGLEGREGAKGELGPPGPLGKEGPAGLRGFPGP KGGPGDPGPTGLKGDKGPPGPVGANGSPGERGPLGPAGGIGLPGQSGSEGPVGPAGKKGS RGERGPPGPTGKDGIPGPLGPLGPPGAAGPSGEEGDKGDVGAPGHKGSKGDKGDAGPPGQ PGIRGPAGHPGPPGADGAQGRRGPPGLFGQKGDDGVRGFVGVIGPPGLQGLPGPPGEKGE VGDVGSMGTPGLPGGVGQPGAVGEKGERGDAGDPGPPGAPGIPGPKGDIGEKGDSGPSGA AGPPGKKGPPGEDGAKGSVGPTGLPGDLGPPGDPGVSGIDGSPGEKGDPGDVGGPGPPGA SGEPGAPGPPGKRGPSGHMGREGREGEKGAKGEPGPDGPPGRTGPMGARGPPGRVGPEGL RGIPGPVGEPGLLGAPGQMGPPGPLGPSGLPGLKGDTGPKGEKGHIGLIGLIGPPGEAGE KGDQGLPGVQGPPGPKGDPGPPGPIGSLGHPGPPGVAGPLGQKGSKGSPGSMGPRGDTGP AGPPGPPGAPAELHGLRRRRRFVPVPLPVVEGGLEEVLASLTSLSLELEQLRRPPGTAER PGLVCHELHRNHPHLPDGEYWIDPNQGCARDSFRVFCNFTAGGETCLYPDKKFEIVKLAS WSKEKPGGWYSTFRRGKKFSYVDADGSPVNVVQLNFLKLLSATARQNFTYSCQNAAAWLD EATGDYSHSARFLGTNGEELSFNQTTAATVSVPQDGCRLRKGQTKTLFEFSSSRAGFLPL WDVAATDFGQTNQKFGFELGPVCFSS >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_4|4941_bp atggggaaccgccgggacctgggccagccgcgggccggtctctgcctgctcctggccgcg ctgcagcttctgccggggacgcaggccgatcctgtggatgtcctgaaggccctgggtgtg cagggaggccaggctggggtccccgaggggcctggcttctgtccccagaggactccagag ggtgaccgggcattcagaattggccaggccagcacgctcggcatccccacgtgggaactc tttccagaaggccactttcctgagaacttctccttgctgatcaccttgcggggacagcca gccaatcagtctgtcctgctgtccatttatgatgaaaggggtgcccggcagttgggcctg gcactggggccagcgctgggtctcctaggtgaccccttccgccccctcccccagcaggtc aacctcacagatggcaggtggcaccgtgtggccgtcagcatagatggtgagatggtgacc ctggtagctgactgtgaagctcagccccctgttttgggccatggcccccgcttcatcagc atagctggactcactgtgctggggacccaggaccttggggaaaagactttcgagggagac attcaggagctgctgataagcccagatcctcaggctgccttccaggcttgtgagcggtac ctccccgactgtgacaacctggcaccggcagccacagtggctccccagggtgaaccagaa acccctcgtcctcggcggaaggggaagggaaaagggaggaagaaagggcgaggtcgcaag gggaagggcaggaaaaagaacaaggaaatttggacctcaagtccacctcctgactccgca gagaaccagaggagcttggaccctgacagtggaaccgagctggggaccctggagaccaag gcagccagggaggatgaagaaggagatgattccaccatgggccctgacttccgggcagca gaatatccatctcggactcagttccagatctttcctggtgctggagagaaaggagcaaaa ggagagcccgcagtgattgaaaaggggcagcagtttgagggacctccaggagccccagga ccccaaggggtggttggcccctcaggccctcccggccccccaggattccctggcgaccct ggtccaccgggccctgctggcctcccaggaatccccggcattgatgggatccgaggccca ccgggcactgtgatcatgatgccgttccagtttgcaggcggctcctttaaaggcccccca gtctcattccagcaggcccaggctcaggcagttctgcagcagactcagctctctatgaaa ggcccccctggtccagtggggctcactgggcgcccaggccctgtgggtctccccgggcat ccaggtctgaaaggagaggagggagcagaagggccacagggtccccgaggcctgcaggga cctcatggaccccctggccgagtgggcaagatgggccgccctggagcagatggagctcgg ggcctcccaggggacactggacctaagggtgatcgtggcttcgatggcctccctgggctg cctggtgagaagggccaaaggggtgactttggccatgtggggcaacccggtcccccagga gaggatggtgagaggggtccacgaggactgcttggccccagaggctctcctggccccacg ggtcgcccgggtgtgactggaattgatggtgctcctggtgccaaaggcaatgtgggactc cccggtccccagggactcattggcactcctggggagaagggtccccctggaaacccagga attccaggcctcccaggatccgatggccctctgggtcacccaggacatgagggccccacg ggagagaaaggggctcagggtccaccagggtcggcaggccctccgggctatcctggacct cggggagtgaagggcacttcaggcaaccggggcctccagggggagaaaggcgagaaggga gaggacggcttcccaggcttcaagggcgatgtggggctcaaaggtgatcaggggaaaccc ggagctccaggtccccggggagaggatggtcctgaggggccgaaggggcaggcggggcag gctggcgaggaggggcccccaggctcagctggggagaaggttgcaatttctgacctttgt cccataacctttctgcagggcaagcttggggtgccaggcctcccaggttatccaggacgc cctggacctaagggatctattggatttcccggtcccctgggacccataggagagaaaggg aagtcgggttcccgtggagagagggggcaaccgggtgccacagggcaaccaggccccaag ggcgatgtgggccaggatggagcccctgggatccctggagaaaagggcctccctggtctg caaggccctccaggattccctgggccaaagggcccccctgtgagtgaggtcaccctcatt gggggttggggtcaccaaggtaaagatgggcgaccagggcaccctggacagagaggagaa ctgggaaagacaggagaagtgggacctctaggtgaaagggggcctccaggcccccctgga cctcctggtgaacaaggtcttcctggcctggaaggcagagagggggccaagggggaactg ggaccaccaggaccccttgggaaagaagggccagctggactcaggggctttcccggcccc aaagggggccctggggacccgggacctactggcttaaagggtgataagggccccccaggg cccgtgggggccaatggctcccctggtgagcgcggtcctttgggcccagcaggaggcatt ggacttcctggccaaagtggcagcgaaggccccgttggccctgcaggcaagaaggggtcc cggggagaacgtggcccccctggccccactggcaaagatgggatcccagggcccctgggg cctctgggaccccctggagctgctgggccttctggcgaggaaggggacaagggggatgtg ggtgcccccggacacaaggggagtaaaggcgataaaggagacgcgggcccacctggacaa ccagggatacggggtcctgcaggacacccaggtcccccgggagcagacggggctcagggg cgccggggacccccaggcctctttgggcagaaaggagatgacggagtcagaggctttgtg ggggtgattggccctcctggactgcaggggctgccaggccctccgggagagaaaggggag gtcggagacgtcgggtccatgggcactccagggctgcctggaggagttggtcagccaggc gccgtgggtgagaagggtgagcgaggggacgctggagacccagggcctccaggagcccca ggcatcccggggcccaagggagacattggtgaaaagggggactcaggcccatctggagct gctggacccccaggcaagaaaggtccccctggagaggatggagccaaagggagcgtgggc cccacggggctgcccggagatctagggcccccaggagaccctggagtttcaggcatagat ggttccccaggggagaagggagaccctggtgatgttgggggaccgggtccgcctggagct tctggggagcccggcgcccccgggccccccggcaagaggggtccttcaggccacatgggt cgagaaggcagagaaggggagaaaggtgccaagggggagccaggtcctgatgggccccca gggaggacgggtccaatgggggctagagggccccctggacgtgtggggcctgagggtctt cgagggatccctggccctgtgggtgaaccaggcctcctgggagcccctggacagatgggc cctcctggccccctggggccctctggcctcccagggctgaagggagacactggccccaag ggggaaaagggccacattggattgatcggtctcattggccccccgggagaagctggtgag aaaggagatcaggggttgccaggcgtgcagggaccccctggtcccaagggagaccctggt ccccctggtcccattggctctctgggccaccctgggcccccaggtgtggcgggccctcta ggacagaaaggctcaaaagggtctccggggtccatgggcccccgtggagacactggacct gcaggcccaccaggccccccgggtgcccctgccgagctgcatgggctgcgcaggcgccgg cgcttcgtcccagtcccgcttccagtcgtggagggcggcctggaggaggtgctggcctcg ctcacatcgctgagcttggagctggagcagctgcggcgtcctcccggcactgcggagcgc ccgggcctcgtgtgccacgagctgcaccgcaaccacccgcacctgcctgatggggaatac tggattgaccccaaccagggctgcgcgcgggactcgttcagggttttttgcaacttcacg gcgggaggagagacctgcctctatcccgacaagaagtttgagatcgtgaaattggcctcc tggtccaaggaaaagcctggaggctggtatagcacattccgtcgagggaagaagttctcc tacgtggacgccgacgggtccccagtgaatgtcgtgcagctgaacttcctgaaactgctg agtgccacagctcgccagaacttcacctactcctgccagaatgcagctgcctggctggac gaagccacgggtgactacagccactccgcccgcttccttggcaccaatggagaggagctg tctttcaaccagacgacagcagccactgtcagcgtcccccaggatggctgccggctccgg aaaggacagacgaagacccttttcgaattcagctcttctcgagcgggatttctgcccctg tgggatgtggcggccactgactttggccagacgaaccaaaagtttgggtttgaactgggc cccgtctgcttcagcagctga >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_5|1885_aa MAAAPRTVLISGCSSGIGLELAVQLAHDPKKRYQVVATMRDLGKKETLEAAAGEALGQTL TVAQLDVCSDESVAQCLSCIQGEVDVLVNNAGMGLVGPLEGLSLAAMQNVFDTNFFGAVR LVKAVLPGMKRRRQGHIVVISSVMGLQGVIFNDVYAASKFALEGFFESLAIQLLQFNIFI SLVEPGPVVTEFEGKLLAQVSMAEFPGTDPETLHYFRDLYLPASRKLFCSVGQNPQDVVQ AIVNVISSTRPPLRRQTNIRYSPLTTLKTVDSSGSLKQIEASAIVEDNCTQGIDLGLEGR ECLSYIDKASREVIGETEKGSDVSTGRYILVTPRVLRVGSPESIHIQAHSDSRQPLTRTL KVNLTVWDFPMRKTVLARSQLILSPGNNFMDQAPVTVPESLMYLPKPGQQYVIIRATWAP TSGSSFMEKMVLVALHAGYIFIQTEKTIYTPEYLVHYRVFTVNHKMDPVTRTFTLDIKVV FPDEGLGTWTIEASYQSTPKQKFEAAFDVKEYGEKVLPSFEVQLVPNKTFFYLKDEALGV DIQARGVVLHLISSATSQFRPSLKVYEVVQVMFAIMRLSRPSLQLYVMTICIAMRLCRQC CPPEIVWAMSATSGHYMNHSCSSNMLHRPPSFPEQISEGLGHVSLQKDTLMAAFQGPGED FIGGSIFVNVTMFSSGGEMVQAETSGVKIIQSPYNIKFTRTPQYFKPGMPFHFRIPPQVF ISNPDGSPASRVLVHSQDQKVYTSAEGLATLTINTDANLDKLPIEVKTEESLQPEEQASA KMTAWPYLTQDGSGNFLHIEVKTLGTEVGSSIQLSLNTRHQDPKTKDKITHFTILVLSKG QTVSAKHQSKSQGSVYTSAIIDVTSAMLPSFRILAFYLLPRGASQDPELVADSIWIDVND RCIGMLKVGLKNDRFFQSLEPNSQVELKVTGDAEATVGLVAVDKAVYVLNSKHKLTQKKV WNVVEEHDIGCTGGSGKDRFAVFKDAGLDLKISTGMDSLASSGTGFGADEEEDFDDLFLD DMPVRTLFPESWLWRKFTLPKSKSGISHYPISVKVPDSITTWQFVVVSLKAGQGLCVSDP FELTVMKSFFVDLKLPSSVIRNEQVQIQAMLYNFRDRQAKVKPQALNFLPKPLLVRVEFP HKETLCSASKPGAPSHQVVVVPPTSSKIVHFVLLPLETGKVDVEVKAVGYGVQDHVKKTL LVRAGVQIQQTSYSIVLEPQGDILGETIVGSLTPSEIQQLLRVPTGCPEQTLSSLTPVII LSRYLDTTGQWGKVGVEHRDQVMKNIVSVPARQVIPDNTDCPSKPCSVSPGYTQMLTHRS SDGTYHTSKGNPGSTWLTSYVFRVFALAYSMMTTQVLSLSSLCDMANWIIIDRQAEDGHF LEKGPVVMTSMQDGYQGSEEDVSLTALVLIALNEGKELCRQKNLMASIERARGFLERKLP DIQTTFAVAIASYALALANSSQANDCLDSFASPNKTHWPVDEQNLGSLYTIEATAYGLMQ KLELGRYNETHAIAKWLLEKQELGGGFRSTQTTVVALEALTRFREAVPFKGIQDLHVQIR APKTALNVNWYIDHSNAYQQRSAKFLAQDDLEIKASGNGRGTISILTMYHKSPESREDNC NLYHLNATLHSALEGKPGVATGGLTSDVERYAFQYKTKTSTSDSTVVLYLEKLSHEKNTV LGFRVHRMLQAEFLQAALVTIYDYYEPSRRCSTFYNLPTEQSSLRKICHKDICRCAEGQC PSLQKPSGQLRQEELQTTACEAGVDFVYKTKLESVEVSASNPYVYYNTQLEDIIKSGTDP ATPLAMKKFVSHATCHDSLGLQEQESYLIMGQTSDLWRIKSDYSYVLGKETFLILWPADG DASKKELRDQLEEFLEYMRTHGCQS >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_5|5658_bp atggccgctgcaccccggactgtgttgatctccggctgctcatcaggaattggtctggaa cttgcagtgcaactggcccatgaccccaagaagcgctaccaggtcgtggccaccatgagg gacctggggaagaaggagacactggaggcagctgctggggaggctctggggcagaccctc accgtggcccagctggacgtgtgcagtgatgagtcggtggcccagtgtctcagctgtatc cagggagaagtggacgtgctggtgaataatgctggaatgggcctggtggggcccctggag gggctcagccttgctgccatgcagaatgtctttgacaccaactttttcggagctgtccgt ctcgtcaaagctgtgcttccaggcatgaagaggaggcggcagggccacatcgtggtgatc agcagtgtcatgggcctgcagggtgtcatcttcaacgatgtctatgcagcttccaagttc gccctggagggattcttcgaaagcctcgctatccagctgctgcagttcaacatcttcatc tccctggtggagccaggccccgtggtcaccgagtttgaggggaagcttctggcgcaggtt tctatggctgagttcccaggcactgaccctgagaccctgcactacttccgggacctctat ctcccagcctccaggaagctgttttgctccgtgggacagaacccacaggacgtggttcag gccattgtcaacgtcatcagctcgactcgaccacccctgcgccgacagaccaacatccgc tactcgccgctgaccacgctcaaaaccgtggattcctctggcagccttaagcagattgag gcctcggcgattgtggaggacaactgcacccaaggaatcgacctgggcttggagggcaga gagtgtttgagttatatcgataaggctagcagagaagtcattggagagactgagaaaggt agtgatgtttctactggcaggtacatcctggtgaccccccgagttctgagggttggcagt ccggagagcattcacattcaggcccactcagactccagacagcccctcacaaggaccctc aaggtgaacctcacagtgtgggacttccccatgaggaagacagtgttggcaaggagccag ctcattctctcaccaggaaacaactttatggaccaggcacctgtgacggttcccgagagc ctgatgtacctcccaaaaccagggcagcaatatgtcatcatccgggcaacttgggcaccc acctcgggctcctcattcatggagaagatggtgctggtggctcttcatgctggctacatc tttatccagacggagaagaccatctacacccctgagtacttggttcactaccgggtgttc actgtgaaccacaagatggaccctgtgaccaggacattcactctggacatcaaggtggtc tttcccgatgagggtttggggacctggaccatcgaagccagctaccaaagtacacccaag cagaagttcgaggctgcctttgatgtgaaggaatatggtgagaaagtcctcccatctttt gaggtccagctggtcccaaataagactttcttttacctcaaggatgaggctctgggcgtt gacatccaggctcgtggtgttgtactgcatctcatctcatctgccacttcacagtttaga ccatctctgaaagtctatgaggtagtacaggttatgtttgccatcatgagattgtccaga ccatctctgcagctctatgtgatgaccatctgcattgctatgaggttgtgcaggcaatgc tgtccacctgagattgtatgggctatgtctgccacttctggacattatatgaatcattcc tgcagctctaacatgctacacaggccacctagtttccctgaacagatctctgaaggcctg ggccacgtctccctccagaaggacacgctcatggccgcattccaaggcccaggagaggac ttcattggaggctcaatctttgtcaatgtcaccatgttctcctcagggggtgagatggtg caagctgagacctcaggggtgaagatcatccagagcccatacaacatcaagttcaccagg acaccccagtatttcaagccaggaatgcccttccactttcggattccacctcaggtcttc atctcaaatcctgatgggtccccagcttccagagtccttgtccactcccaagaccaaaaa gtgtacacctcagctgaggggttggccactctgaccatcaacacagatgcaaatctggac aagctccccatcgaggtgaaaactgaggaatctcttcagccagaggagcaggcttcagcc aagatgacagcttggccttacttgactcaggatgggtcaggaaacttcctacacatcgaa gtaaagacattgggcacagaggttggcagcagcatccagctgagcctcaacacaaggcat caggaccctaaaaccaaggacaagattactcacttcaccatcctggtcctgagtaagggc cagaccgtgagtgccaaacatcagtcaaaaagccaggggagtgtctacacatcagccatt attgatgtgacttcagcgatgctgccctccttccgcattctggccttttatttacttccc agaggagcaagccaagaccctgagttggtggctgattccatatggattgatgtgaatgac agatgcatagggatgctgaaagttggcttgaagaatgatagattcttccagtctttggag cccaacagccaagtcgaactgaaggtgacaggtgatgcagaagccacagtggggctggtg gctgtggacaaggctgtctatgtcttgaacagcaaacacaagctcactcagaagaaggtc tggaatgtggtggaggaacatgacattggctgcacaggaggaagtgggaaagacagattt gctgtgttcaaggatgctggattggacctgaaaatcagcacaggaatggatagcctggca agctcaggcacaggctttggggcggatgaagaagaggacttcgatgacctcttcttggat gacatgcctgtgcggaccttgttccccgagagttggctctggaggaagttcactctgcca aagagtaaatcgggcatctcccattaccccatctctgtgaaggtgccagattccatcacc acgtggcagtttgtggtggtcagcctcaaggctggacaaggtctctgtgtctcggacccc tttgagctgacagttatgaaatcgttctttgtggaccttaagttgccctcctccgtgatc aggaatgagcaggtccagatccaagccatgttgtacaatttcagggatcgccaggccaag gtgaagccccaagccctcaacttcctgccaaaacctctgctagtccgagtggagttcccc cacaaggagacactgtgcagtgcgtcaaagccaggagcaccatcccaccaggtagtggtc gtgccccccacctcctccaagatagtacactttgtgcttctccctctggagacaggcaaa gtggacgtggaggtcaaggctgtgggctacggggtccaggaccatgtgaagaagacactc ttggtccgggcaggggttcagatccagcaaacgtcctatagcatcgtcctggaaccccaa ggtgacatccttggtgagacaattgtgggcagcctgacacccagtgagattcagcagctg ctgcgggtccccacgggctgccctgagcagacgctgagctccctgacgcccgtcatcatc ctgtcccgctatttggataccaccggccagtggggcaaggtcggggtggagcacagggac caggtgatgaagaatattgtcagcgtccctgcccgccaggttattcctgataacactgac tgtccctcaaagccctgctctgtttccccaggctacactcagatgctgacccaccggagt tcagacggcacctaccacacctccaaggggaacccaggaagcacttggctcacaagctat gtgttccgcgtctttgccctggcctactctatgatgacgacccaagtgcttagcctgtcc tctctctgtgacatggccaactggatcatcatcgacaggcaggcagaggatgggcacttc ctggagaagggccctgtggtcatgacatccatgcaggatggctaccaaggctccgaggag gatgtatccctcacagctcttgtcctaatagccctgaatgagggaaaggagttgtgcaga cagaagaatttgatggccagcatcgagagagcccgtggcttcctggagagaaaacttccc gacattcagacaacctttgccgtagccatagcctcctatgcactggcccttgccaacagc tcccaagccaacgactgcctggacagctttgccagccctaacaaaacccactggccagtg gatgagcagaatctgggctccctgtacaccattgaggccacagcctatgggctcatgcag aagctggagctgggccggtacaatgagacacacgccatagccaagtggctactagagaag caggagctgggaggaggcttcaggtccacccagaccacggtggtggcccttgaagctctg acccgcttccgcgaagctgtccccttcaagggcatccaggatctccacgtccagatcaga gcccccaagacagccctgaatgtgaattggtacattgatcacagcaatgcctaccaacag cggtcagcaaagttccttgcccaggacgacctagagatcaaagccagtggcaacgggaga ggcaccatctcgatcctgacaatgtatcacaagtccccagagtcccgggaggacaactgc aacctgtaccacctgaatgcgactctccacagtgccctagaaggtaagcctggtgtggct acaggaggactcacgagtgatgtggagaggtacgcctttcagtacaaaaccaagacaagt accagcgacagcactgttgtcctctacctggaaaagctctcccatgagaagaacacggtg ctgggctttcgggttcacaggatgctgcaggcggagttcctgcaggccgccctggtcacc atctacgactactacgagccttcccggaggtgcagcactttctacaacctgcccacagag caatcttccctgagaaagatctgccacaaagacatctgcagatgtgcagagggacagtgc ccatccctgcagaagcccagtggccaattgaggcaggaggagctccagacaacagcatgt gaggcaggcgtggattttgtgtacaagacaaagctggaatctgtggaggtctctgcctcc aacccttacgtctattacaacacgcagctcgaagacatcattaagagtggtacggaccct gccacacccctggccatgaagaaattcgtctcccatgccacttgccatgactccctgggg ttgcaagaacaggaatcgtacctcatcatgggccagacgtcagacctgtggagaatcaaa tctgattacagctatgttctgggcaaggagacgttcctcatcctttggccagcagatgga gatgccagcaagaaagaattgcgggaccaactggaggaatttttggaatatatgcgcacc cacggctgccagtcctga >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_6|291_aa MSQEGVELEKSVRRLREKFHGKVSSKKAGALMRKFGSDHTGVGRSIVYGVKQKDGQELSN DLDAQDPPEDMKQDRDIQAVATSLLPLTEANLRMFQRAQDDLIPAVDRQFACSSCDHVWW RRVPQRKEVSRCRKCRKRYEPVPADKMWGLAEFHCPKCRHNFRGWAQMGSPSPCYGCGFP VYPTRILPPRWDRDPDRRSTHTHSCSAADCYNRREPHVPGTSCAHPKSRKQNHLPKVLHP SNPHISSGSTVATCLSQGGLLEDLDNLILEDLKEEEEEEEEVEDEEGGPRE >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_6|876_bp atgtctcaggaaggtgtggagctggagaagagcgtccggcgcctccgggagaagtttcat gggaaggtatcctccaagaaggcgggggctctgatgaggaaattcggcagcgaccacacg ggagtggggcgctccatcgtgtacggggtaaagcaaaaagatggccaagaactaagtaac gatctggatgcccaggatccaccagaagatatgaagcaggaccgggacattcaggcagtg gcgacctccctcctgccactgacagaagccaacctacgcatgtttcaacgtgcccaggac gaccttatccctgctgtggaccggcagtttgcctgctcctcctgcgaccacgtctggtgg cgccgcgtgccccagcggaaggaggtatcccggtgccggaaatgccggaagcgctacgag ccagtgccagctgacaagatgtggggcctggctgagttccactgcccgaagtgtcggcac aacttccggggctgggcacagatggggtccccgtccccctgctacgggtgcggcttcccc gtgtatccaacacggatcctccccccgcgctgggaccgggacccggatcgccgcagcacc cacactcactcctgctcagctgccgactgctacaaccggcgagagccccacgtgcctggg acatcctgtgctcaccccaagagccggaagcagaaccacctgcccaaagtgctccacccc agcaaccctcacattagcagtggctccactgtggccacctgcttgagccagggtggcctc ctggaagacctggacaacctcatcctggaggacctgaaggaggaggaggaggaagaggag gaggtggaggacgaggagggcgggcccagggagtga >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_7|470_aa MGKPWLRALQLLLLLGASWARAGAPRCTYTFVLPPQKFTGAVCWSGPASTRATPEAANAS ELAALRMRVGRHEELLRELQRLAAADGAVAGEVRALRKESRGLSARLGQLRAQLQHEAGP GAGPGADLGAEPAAALALLGERVLNASAEAQRAAARFHQLDVKFRELAQLVTQQSSLIAR LERLCPGGAGGQQQVLPPPPLVPVVPVRLVGSTSDTSRMLDPAPEPQRDQTQRQQEPMAS PMPAGHPAVPTKPVGPWQDCAEARQAGHEQSGVYELRVGRHVVSVWCEQQLEGGGWTVIQ RRQDGSVNFFTTWQHYKAGFGRPDGEYWLGLEPVYQLTSRGDHELLVLLEDWGGRGARAH YDGFSLEPESDHYRLRLGQYHGDAGDSLSWHNDKPFSTVDRDRDSYSGNCALYQRGGWWY HACAHSNLNGVWHHGGHYRSRYQDGVYWAEFRGGAYSLRKAAMLIRPLKL >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_7|1413_bp atggggaagccctggctgcgtgcgctacagctgctgctcctgctgggcgcgtcgtgggcg cgggcgggcgccccgcgctgcacctacaccttcgtgctgcccccgcagaagttcacgggc gctgtgtgctggagcggccccgcatccacgcgggcgacgcccgaggccgccaacgccagc gagctggcggcgctgcgcatgcgcgtcggccgccacgaggagctgttacgcgagctgcag aggctggcggcggccgacggcgccgtggccggcgaggtgcgcgcgctgcgcaaggagagc cgcggcctgagcgcgcgcctgggccagttgcgcgcgcagctgcagcacgaggcggggccc ggggcgggcccgggggcggatctgggggcggagcctgccgcggcgctggcgctgctcggg gagcgcgtgctcaacgcgtccgccgaggctcagcgcgcagccgcccggttccaccagctg gacgtcaagttccgcgagctggcgcagctcgtcacccagcagagcagtctcatcgcccgc ctggagcgcctgtgcccgggaggcgcgggcgggcagcagcaggtcctgccgccaccccca ctggtgcctgtggttccggtccgtcttgtgggtagcaccagtgacaccagtaggatgctg gacccagccccagagccccagagagaccagacccagagacagcaggagcccatggcttct cccatgcctgcaggtcaccctgcggtccccaccaagcctgtgggcccgtggcaggattgt gcagaggcccgccaggcaggccatgaacagagtggagtgtatgaactgcgagtgggccgt cacgtagtgtcagtatggtgtgagcagcaactggagggtggaggctggactgtgatccag cggaggcaagatggttcagtcaacttcttcactacctggcagcactataaggcgggcttt gggcggccagacggagaatactggctgggccttgaacccgtgtatcagctgaccagccgt ggggaccatgagctgctggttctcctggaggactgggggggccgtggagcacgtgcccac tatgatggcttctccctggaacccgagagcgaccactaccgcctgcggcttggccagtac catggtgatgctggagactctctttcctggcacaatgacaagcccttcagcaccgtggat agggaccgagactcctattctggtaactgtgccctgtaccagcggggaggctggtggtac catgcctgtgcccactccaacctcaacggtgtgtggcaccacggcggccactaccgaagc cgctaccaggatggtgtctactgggctgagtttcgtggtggggcatattctctcaggaag gccgccatgctcattcggcccctgaagctgtga >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_8|826_aa MGQSGRSRHQKRARAQAQLRNLEAYAANPHSFVFTRGCTGRNIRQLSLDVRRVMEPLTAS RLQVRKKNSLKDCVAVAGPLGVTHFLILSKTETNVYFKLMRLPGGPTLTFQVKKYSLVRD VVSSLRRHRMHEQQFAHPPLLVLNSFGPHGMHVKLMATMFQNLFPSINVHKVNLNTIKRC LLIDYNPDSQELDFRHYSIKVVPVGASRGMKKLLQEKFPNMSRLQDISELLATGAGLSES EAEPDGDHNITELPQAVAGRGNMRAQQSAVRLTEIGPRMTLQLIKVQEGVGEGKVMFHSF VSKTEEELQAILEAKEKKLRLKAQRQAQQAQNVQRKQEQREAHRKKSLEGMKKARVGGSD EEASGIPSRTASLELGEDDDEQEDDDIEYFCQAVGEAPSEDLFPEAKQKRLAKSPGRKRK RWEMDRGRGRLCDQKFPKTKDKSQGAQARRGPRGASRDGAKSCPANFLAAADDKLSGFQG DFLWPILVVEFLVAVASNGLALYRFSIRKQRPWHPAVVFSVQLAVSDLLCALTLPPLAAY LYPPKHWRYGEAACRLERFLFTCNLLGSVIFITCISLNRYLGIVHPFFARSHLRPKHAWA VSAAGWVLAALLAMPTLSFSHLKRPQQGAGNCSVARPEACIKCLGTADHGLAAYRAYSLV LAGLGCGLPLLLTLAAYGALGRAVLRSPGMTVAEKLRVAALVASGVALYASSYVPYHIMR VLNVDARRRWSTRCPSFADIAQATAALELGPYVGYQVMRGLMPLAFCVHPLLYMAAVPSL GCCCRHCPGYRDSWNPEDAKSTGQALPLNATAAPKPSEPQSRELSQ >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_8|2481_bp atgggacagtcagggaggtcccggcaccagaagcgcgcccgcgcccaggcgcagctccgc aacctcgaggcctatgccgcgaacccgcactcgttcgtgttcacgcgaggctgcacgggt cgcaacatccggcagctcagcctggacgtgcggcgggtcatggagccgctcactgccagc cgtctgcaggttcgtaagaagaactcgctgaaggactgcgtggcagtggctgggcccctc ggggtcacacactttctgatcctgagcaaaacagagaccaatgtctactttaagctgatg cgcctcccaggaggccccaccttgaccttccaggtcaagaagtactcgctggtgcgtgat gtggtctcctcactgcgccggcaccgcatgcacgagcagcagtttgcccacccacccctc ctggtactcaacagctttggcccccatggtatgcatgtgaagctcatggccaccatgttc cagaacctgttcccctccatcaacgtgcacaaggtgaacctgaacaccatcaagcgctgc ctcctcatcgactacaaccccgactcccaggagctggacttccgccactatagcatcaaa gttgttcctgtgggcgcgagtcgcgggatgaagaagctgctccaggagaagttccccaac atgagccgcctgcaggacatcagcgagctgctggccacgggcgcggggctgtcggagagc gaggcagagcctgacggcgaccacaacatcacagagctgcctcaggctgtcgctggccgt ggcaacatgcgggcccagcagagtgcagtgcggctcaccgagatcggcccgcggatgaca ctgcagctcatcaaggtccaggagggcgtcggggagggcaaagtgatgttccacagtttt gtgagcaagacggaggaggagctgcaggccatcctggaagccaaggagaagaagctgcgg ctgaaggcgcagaggcaggcccagcaggcccagaatgtgcagcgcaagcaggagcagcgg gaggcccacagaaagaagagcctggagggcatgaagaaggcacgggtcgggggtagtgat gaagaggcctctgggatcccttcaaggacggcgagcctggagttgggtgaggacgatgat gaacaggaagatgatgacatcgagtatttctgccaggcggtgggcgaggcgcccagtgag gacctgttccccgaggccaagcagaaacggcttgccaagtctccagggcggaagcggaag cggtgggaaatggatcgaggcaggggtcgcctttgtgaccagaagtttcccaagaccaag gacaagtcccagggagcccaggccaggcgggggcccagaggggcttcccgggatggtgcc aagtcctgccctgccaacttcttggcagctgccgacgacaaactcagtgggttccagggg gacttcctgtggcccatactggtggttgagttcctggtggccgtggccagcaatggcctg gccctgtaccgcttcagcatccggaagcagcgcccatggcaccccgccgtggtcttctct gtccagctggcagtcagcgacctgctctgcgccctgacgctgcccccgctggccgcctac ctctatccccccaagcactggcgctatggggaggccgcgtgccgcctggagcgcttcctc ttcacctgcaacctgctgggcagcgtcatcttcatcacctgcatcagcctcaaccgctac ctgggcatcgtgcaccccttcttcgcccgaagccacctgcgacccaagcacgcctgggcc gtgagcgctgccggctgggtcctggccgccctgctggccatgcccacactcagcttctcc cacctgaagaggccgcagcagggggcgggcaactgcagcgtggccaggcccgaggcctgc atcaagtgtctggggacagcagaccacgggctggcggcctacagagcgtatagcctggtg ctggcggggttgggctgcggcctgccgctgctgctcacgctggcagcctacggcgccctc gggcgggccgtgctacgcagcccaggcatgactgtggccgagaagctgcgtgtggcagcg ttggtggccagtggtgtggccctctacgccagctcctatgtgccctaccacatcatgcgg gtgctcaacgtggatgctcggcggcgctggagcacccgctgcccgagctttgcagacata gcccaggccacagcagccctggagctggggccctacgtgggctaccaggtgatgcggggc ctcatgcccctggccttctgtgtccaccctctactctacatggccgcagtgcccagcctg ggctgctgctgccgacactgccccggctacagggacagctggaacccagaggacgccaag agcactggccaagccctgcccctcaatgccacagccgcccctaaaccgtcagagccccag tcccgtgagctgagccaatga >gi568815579f:9913498_10121746|GENSCAN_predicted_peptide_9|380_aa XCRCGCRGWAPLGGDGGTGSLVFARFRSLAGLGLRGEYFLRCLLETLSESAIAERGTGSG WGALGSIMGPGSKPSWADQVEEEGEDDKCVTSELLKGIPLATGDTSPEPELLPGAPLPPP KEVINGNIKTVTEYKIDEDGKKFKIVRTFRIETRKASKAVARRKNWKKFGNSEFDPPGPN VATTTVSDDVSMTFITSKEDLNCQEEEDPMNKLKGQKIVSCRICKGDHWTTRCPYKDTLG PMQKELAEQLGLSTGEKEKLPGELEPVQATQNKTGKYVPPSLRDGASRRGESMQPNRRAD DNATIRVTNLSEDTRETDLQELFRPFGSISRIYLAKDKTTGQSKGFAFISFHRREDAARA IAGVSGFGYDHLILNVEWAK >gi568815579f:9913498_10121746|GENSCAN_predicted_CDS_9|1143_bp nngtgtcgctgtgggtgccgcggctgggcccctctaggcggcgacggcggcaccggaagt ctcgttttcgcccgcttccgctctctggccgggcttgggctgcgtggagaatactttttg cgatgcctactggagactttgagtgagtcggcgatcgcggaaaggggcacgggaagcggt tggggtgctctgggaagtattatggggcctggttcgaagcccagttgggccgaccaggtg gaggaggagggggaggacgacaaatgtgtcaccagcgagctcctcaaggggatccctctg gccacaggtgacaccagcccagagccagagctactgccgggagctccactgccgcctccc aaggaggtcatcaacggaaacataaagacagtgacagagtacaagatagatgaggatggc aagaagttcaagattgtccgcaccttcaggattgagacccggaaggcttcaaaggctgtc gcaaggaggaagaactggaagaagttcgggaactcagagtttgacccccccggacccaat gtggccaccaccactgtcagtgacgatgtctctatgacgttcatcaccagcaaagaggac ctgaactgccaggaggaggaggaccctatgaacaaactcaagggccagaagatcgtgtcc tgccgcatctgcaagggcgaccactggaccacccgctgcccctacaaggatacgctgggg cccatgcagaaggagctggccgagcagctgggcctgtctactggcgagaaggagaagctg ccgggagagctagagccggtgcaggccacgcagaacaagacagggaagtatgtgccgccg agcctgcgcgacggggccagccgccgcggggagtccatgcagcccaaccgcagagccgac gacaacgccaccatccgtgtcaccaacttgtcagaggacacgcgtgagaccgacctgcag gagctcttccggcctttcggctccatctcccgcatctacctggctaaggacaagaccact ggccaatccaagggctttgccttcatcagcttccaccgccgcgaggatgctgcgcgtgcc attgccggggtgtccggctttggctacgaccacctcatcctcaacgtcgagtgggccaag taa