Result of GENSCAN for
pF1KE1371
GENSCAN 1.0 Date run: 7-Nov-116 Time: 02:16:36 Sequence gi568815582r:88543356_88751013 : 207658 bp : 57.20% C+G : Isochore 4 (57 - 100 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 + 467 521 55 1 1 66 50 58 0.030 1.33 1.02 Intr + 4798 4941 144 2 0 95 27 57 0.070 1.74 1.03 Intr + 6668 7126 459 0 0 -16 69 209 0.065 3.10 1.04 Intr + 7905 8028 124 1 1 89 83 15 0.254 1.92 1.05 Intr + 9311 9359 49 2 1 26 116 13 0.035 -2.28 1.06 Term + 12455 12610 156 1 0 111 43 64 0.496 3.08 1.07 PlyA + 13816 13821 6 -0.45 2.00 Prom + 15910 15949 40 -2.96 2.01 Init + 17743 17922 180 0 0 85 97 191 0.997 19.03 2.02 Intr + 26485 26629 145 0 1 74 116 154 0.976 17.84 2.03 Term + 33755 34482 728 0 2 119 50 736 0.856 67.78 2.04 PlyA + 37825 37830 6 -0.45 3.05 PlyA - 40719 40714 6 1.05 3.04 Term - 42191 42009 183 2 0 70 32 124 0.794 3.51 3.03 Intr - 43619 43310 310 1 1 57 75 103 0.465 3.48 3.02 Intr - 43817 43709 109 0 1 102 59 144 0.818 13.41 3.01 Init - 43898 43895 4 2 1 46 40 0 0.285 -8.78 3.00 Prom - 45998 45959 40 -0.86 4.03 PlyA - 47207 47202 6 1.05 4.02 Term - 48759 48378 382 2 1 -46 48 515 0.494 29.48 4.01 Init - 49813 49758 56 1 2 73 61 27 0.359 -2.20 4.00 Prom - 52024 51985 40 -1.86 5.00 Prom + 52926 52965 40 -4.26 5.01 Init + 54347 54362 16 1 1 65 22 33 0.587 -5.16 5.02 Intr + 54823 54971 149 2 2 119 65 77 0.920 9.64 5.03 Intr + 55265 55357 93 1 0 96 82 73 0.997 8.82 5.04 Term + 56436 56597 162 2 0 65 49 254 0.967 18.09 5.05 PlyA + 57625 57630 6 1.05 6.06 PlyA - 57970 57965 6 -0.45 6.05 Term - 58640 58609 32 0 2 99 37 36 0.960 -1.50 6.04 Intr - 58989 58819 171 1 0 90 94 114 0.520 13.31 6.03 Intr - 61829 61797 33 0 0 84 98 12 0.528 1.12 6.02 Intr - 62059 61861 199 1 1 71 68 24 0.382 -1.16 6.01 Init - 63527 63225 303 2 0 82 60 208 0.957 14.89 6.00 Prom - 64971 64932 40 -4.95 7.00 Prom + 65779 65818 40 -6.05 7.01 Init + 66939 66986 48 2 0 74 84 73 0.975 6.53 7.02 Intr + 67913 68181 269 1 2 17 69 591 0.999 47.68 7.03 Intr + 68281 68470 190 1 1 99 74 93 0.958 9.80 7.04 Intr + 72005 72101 97 1 1 84 77 25 0.513 1.74 7.05 Intr + 73008 73318 311 1 2 71 55 140 0.820 6.30 7.06 Intr + 74371 74410 40 0 1 48 119 -8 0.040 -2.77 7.07 Intr + 75154 75231 78 2 0 49 85 37 0.020 0.18 7.08 Intr + 79034 79111 78 0 0 108 75 66 0.569 7.98 7.09 Intr + 79161 79348 188 1 2 91 81 45 0.574 4.72 7.10 Intr + 79864 79989 126 0 0 100 91 127 0.698 16.25 7.11 Intr + 80452 80552 101 0 2 49 32 17 0.325 -7.73 7.12 Intr + 80603 80707 105 2 0 124 96 -1 0.739 4.79 7.13 Intr + 81247 81390 144 1 0 107 83 61 0.749 8.08 7.14 Intr + 84267 84427 161 0 2 54 73 191 0.990 15.02 7.15 Intr + 84565 84764 200 2 2 40 100 208 0.996 17.48 7.16 Intr + 85403 85499 97 1 1 124 83 108 0.999 14.64 7.17 Intr + 87130 87226 97 2 1 52 109 66 0.999 5.33 7.18 Term + 87746 87944 199 2 1 82 47 359 0.997 29.04 7.19 PlyA + 88051 88056 6 -0.45 8.06 PlyA - 88464 88459 6 1.05 8.05 Term - 88888 88776 113 2 2 84 49 75 0.504 2.85 8.04 Intr - 90663 90605 59 2 2 91 63 17 0.339 -0.83 8.03 Intr - 91523 90837 687 1 0 94 89 192 0.348 12.02 8.02 Intr - 91779 91740 40 1 1 75 84 58 0.416 2.52 8.01 Init - 92201 92123 79 2 1 91 39 88 0.410 3.52 8.00 Prom - 93138 93099 40 -1.06 9.00 Prom + 93928 93967 40 -4.95 9.01 Init + 95287 95292 6 0 0 120 101 7 0.939 5.78 9.02 Intr + 95758 95954 197 0 2 44 93 73 0.954 2.82 9.03 Term + 96459 96717 259 0 1 68 47 463 0.935 36.23 9.04 PlyA + 97096 97101 6 -1.95 10.22 PlyA - 97871 97866 6 1.05 10.21 Term - 100216 99998 219 1 0 62 43 406 0.762 31.52 10.20 Intr - 100940 100893 48 2 0 101 91 -15 0.485 0.11 10.19 Intr - 102842 102761 82 1 1 105 105 147 0.999 18.89 10.18 Intr - 103483 103400 84 0 0 114 76 167 0.999 18.19 10.17 Intr - 103820 103746 75 1 0 24 105 88 0.331 3.88 10.16 Intr - 104588 104474 115 0 1 73 105 21 0.181 2.98 10.15 Intr - 104759 104703 57 0 0 99 -21 127 0.164 2.90 10.14 Intr - 106641 106602 40 0 1 72 72 88 0.114 4.53 10.13 Intr - 110053 109945 109 0 1 101 94 70 0.997 10.35 10.12 Intr - 111452 111337 116 2 2 41 94 196 0.999 15.92 10.11 Intr - 112062 111844 219 0 0 72 61 410 0.981 36.42 10.10 Intr - 112375 112301 75 1 0 84 90 105 0.998 11.16 10.09 Intr - 112949 112750 200 0 2 71 89 267 0.984 25.38 10.08 Intr - 114227 114081 147 0 0 100 80 151 0.829 16.89 10.07 Intr - 114514 114359 156 2 0 83 94 0 0.482 1.27 10.06 Intr - 114674 114560 115 2 1 73 44 277 0.999 22.99 10.05 Intr - 115365 115295 71 1 2 70 91 116 0.983 10.15 10.04 Intr - 116036 115901 136 2 1 0 54 98 0.420 -1.08 10.03 Intr - 116961 116776 186 0 0 46 71 86 0.778 3.79 10.02 Intr - 119760 119606 155 1 2 -64 75 237 0.469 8.18 10.01 Init - 120577 119884 694 1 1 89 80 251 0.488 18.08 10.00 Prom - 124500 124461 40 -4.46 11.00 Prom + 125597 125636 40 3.74 11.01 Init + 128032 128110 79 0 1 89 105 -13 0.095 0.68 11.02 Term + 128507 128631 125 0 2 60 47 78 0.041 0.38 11.03 PlyA + 131800 131805 6 -0.45 12.18 PlyA - 134351 134346 6 1.05 12.17 Term - 135274 135093 182 2 2 104 54 286 0.988 25.54 12.16 Intr - 138264 137739 526 0 1 57 91 684 0.853 59.50 12.15 Intr - 138890 138735 156 2 0 40 90 100 0.318 6.80 12.14 Intr - 143082 142872 211 2 1 51 75 118 0.002 6.93 12.13 Intr - 148242 148052 191 0 2 120 63 28 0.232 3.09 12.12 Intr - 148405 148288 118 0 1 72 -29 154 0.639 3.74 12.11 Intr - 151754 151736 19 0 1 113 51 24 0.000 -2.01 12.10 Intr - 155254 154981 274 1 1 71 75 185 0.120 13.86 12.09 Intr - 155730 155616 115 2 1 78 77 224 0.964 21.92 12.08 Intr - 156377 156265 113 2 2 117 96 91 0.996 13.15 12.07 Intr - 157585 157373 213 1 0 44 11 153 0.871 3.33 12.06 Intr - 158063 157907 157 1 1 95 75 206 0.927 21.20 12.05 Intr - 159184 158799 386 1 2 76 49 77 0.228 -2.44 12.04 Intr - 159717 159571 147 0 0 85 -18 93 0.150 0.02 12.03 Intr - 160007 159943 65 0 2 111 40 22 0.288 -0.72 12.02 Intr - 162616 162489 128 0 2 60 50 94 0.479 4.30 12.01 Init - 162970 162816 155 1 2 84 68 372 0.987 32.39 12.00 Prom - 164639 164600 40 -4.26 13.00 Prom + 165489 165528 40 -4.26 13.01 Init + 166330 166378 49 0 1 32 105 67 0.176 2.01 13.02 Intr + 166443 166569 127 1 1 27 62 58 0.218 -1.99 13.03 Intr + 166583 166681 99 2 0 72 -11 125 0.289 1.39 13.04 Intr + 166733 166808 76 2 1 115 59 90 0.404 9.47 13.05 Intr + 166868 166927 60 1 0 124 92 -30 0.653 1.07 13.06 Intr + 168280 168340 61 0 1 122 92 45 0.952 7.75 13.07 Intr + 168919 169028 110 2 2 97 59 68 0.669 5.97 13.08 Intr + 169267 169550 284 0 2 52 77 237 0.413 16.47 13.09 Intr + 169957 170092 136 1 1 82 78 175 0.998 17.65 13.10 Intr + 170292 170423 132 2 0 127 86 231 0.834 28.82 13.11 Intr + 170781 170872 92 2 2 69 64 128 0.784 8.45 13.12 Intr + 171028 171131 104 1 2 88 30 160 0.999 11.18 13.13 Intr + 171232 171382 151 2 1 124 105 47 0.999 10.41 13.14 Intr + 171505 171571 67 1 1 44 97 122 0.992 8.75 13.15 Intr + 171693 171751 59 2 2 74 69 74 0.693 2.92 13.16 Term + 171827 171896 70 2 1 81 53 101 0.788 4.22 13.17 PlyA + 172003 172008 6 1.05 14.57 PlyA - 172017 172012 6 -0.45 14.56 Term - 172499 172250 250 1 1 62 49 610 0.984 50.68 14.55 Intr - 172764 172578 187 1 1 123 100 269 0.988 31.55 14.54 Intr - 172922 172843 80 1 2 86 81 185 0.993 17.95 14.53 Intr - 173128 173006 123 0 0 76 56 238 0.856 20.28 14.52 Intr - 173376 173204 173 0 2 42 75 422 0.839 36.24 14.51 Intr - 173594 173451 144 2 0 25 131 248 0.520 24.46 14.50 Intr - 173856 173668 189 0 0 107 83 476 0.922 49.99 14.49 Intr - 176366 176219 148 1 1 68 46 228 0.997 18.02 14.48 Intr - 176605 176447 159 0 0 72 84 354 0.999 33.70 14.47 Intr - 176928 176714 215 0 2 112 64 393 0.997 38.03 14.46 Intr - 177177 177030 148 2 1 81 72 362 0.995 35.32 14.45 Intr - 177393 177261 133 1 1 38 76 54 0.920 0.08 14.44 Intr - 178075 177811 265 1 1 99 0 241 0.440 14.73 14.43 Intr - 178371 178183 189 0 0 120 105 479 0.944 53.79 14.42 Intr - 178711 178453 259 0 1 71 64 587 0.999 53.31 14.41 Intr - 179042 178863 180 1 0 77 75 292 0.725 26.99 14.40 Intr - 179334 179228 107 0 2 106 96 114 0.999 14.18 14.39 Intr - 179654 179482 173 0 2 117 99 288 0.998 33.66 14.38 Intr - 179796 179740 57 1 0 39 98 60 0.788 2.10 14.37 Intr - 179961 179871 91 0 1 5 99 61 0.562 -0.37 14.36 Intr - 180616 180516 101 2 2 50 94 149 0.922 12.69 14.35 Intr - 181725 181654 72 1 0 142 80 22 0.994 7.33 14.34 Intr - 182164 182061 104 0 2 107 109 111 0.999 16.08 14.33 Intr - 182329 182240 90 0 0 106 48 151 0.999 13.17 14.32 Intr - 183100 182866 235 2 1 100 6 195 0.461 10.48 14.31 Intr - 183288 183192 97 0 1 109 84 201 0.999 22.54 14.30 Intr - 183603 183360 244 2 1 69 97 585 0.999 56.24 14.29 Intr - 183984 183684 301 1 1 57 94 249 0.258 19.46 14.28 Intr - 184306 184202 105 2 0 102 70 111 0.963 12.05 14.27 Intr - 184508 184421 88 2 1 106 45 11 0.437 -0.70 14.26 Intr - 184912 184755 158 2 2 85 58 39 0.364 1.52 14.25 Intr - 188118 187984 135 1 0 94 68 -3 0.332 0.02 14.24 Intr - 188555 188351 205 2 1 118 73 391 0.776 40.59 14.23 Intr - 189180 188980 201 0 0 111 78 464 0.999 48.40 14.22 Intr - 189377 189252 126 2 0 43 109 255 0.999 25.15 14.21 Intr - 189572 189447 126 2 0 91 40 63 0.920 3.85 14.20 Intr - 190099 189923 177 1 0 92 71 360 0.957 36.02 14.19 Intr - 190390 190233 158 2 2 67 105 342 0.611 34.72 14.18 Intr - 190699 190551 149 0 2 53 98 236 0.673 22.17 14.17 Intr - 191183 191001 183 1 0 93 80 298 0.997 29.61 14.16 Intr - 191443 191295 149 1 2 90 73 354 0.999 34.32 14.15 Intr - 191698 191520 179 2 2 87 39 347 0.999 30.54 14.14 Intr - 191891 191780 112 2 1 96 109 197 0.981 23.72 14.13 Intr - 193053 192793 261 0 0 84 101 392 0.979 39.03 14.12 Intr - 193384 193284 101 2 2 72 66 90 0.988 6.19 14.11 Intr - 194291 194183 109 2 1 65 86 180 0.589 16.52 14.10 Intr - 194459 194373 87 2 0 47 99 113 0.768 9.62 14.09 Intr - 194750 194579 172 1 1 54 99 332 0.678 32.04 14.08 Intr - 195085 194872 214 2 1 118 65 160 0.990 15.69 14.07 Intr - 195381 195213 169 0 1 88 101 241 0.999 26.12 14.06 Intr - 198261 198123 139 2 1 120 81 199 0.587 24.05 14.05 Intr - 198740 198698 43 0 1 139 116 33 0.993 9.63 14.04 Intr - 199067 198945 123 0 0 114 68 60 0.505 8.33 14.03 Intr - 200505 200477 29 2 2 146 71 -11 0.295 1.89 14.02 Intr - 204325 204193 133 2 1 93 35 82 0.420 4.28 14.01 Intr - 206124 206029 96 1 0 81 116 155 0.992 18.74 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr + 75077 75231 155 2 2 63 85 71 0.838 5.21 S.002 Term - 109250 109170 81 2 0 99 42 74 0.819 2.51 S.003 Term - 176160 176032 129 0 0 31 48 99 0.803 -0.68 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_1|328_aa MVVMVTIVCDNDDDSDDHGGVPSGWPEGPTPVAPIPTLHVSTSQVVTVNDPVTLPGEGAS RPTALAGLRSYPWLLIRALAVREDRNLTLPEHAQCPYQNTGAAGGPLVFFCSVPIAIFQK THIMPVLSFHARPGERVAPTPTPTLLQPKEPPPVCTPVPSTAQLYHQTDKAQPALIDPGR PGTLPSGAAHMAHGWRSGPHTEGCPWAPFRSGMARRKWPAQTPPVLTPAVALPVVCILET QRHTHVASRDRHLSLCRRVSSPRTCGCGTRVFAEVMKPLHSSLSPPLRLGLLEATGPHLI IILVSTEPRTETHTAQWSVAKLGGHAAP >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_1|987_bp atggtggtgatggtgacaatagtgtgtgataatgatgatgatagtgacgatcatggtggg gttcccagtggatggccagagggtcccaccccagtggctccaatccccaccctccacgtc agcaccagccaggtggtcaccgtcaatgaccctgtcaccctcccgggggaaggggcttcc aggcccacagccctggcaggtctgcgctcctacccctggctcctgatccgagcccttgct gtcagagaagacaggaacctcacacttcctgaacacgcgcaatgcccctaccaaaacacg ggagctgcaggcgggcctttggtcttcttctgctccgtgcccattgccatcttccagaag acacacatcatgcctgttctctccttccacgccaggccaggggagagggtggcccccacc ccaaccccaactctgctccaaccgaaggagcctcctcctgtgtgcacccccgtccccagc acggcgcagctctaccaccaaacagacaaagcacagccagctctgattgacccagggagg ccggggaccttgccctctggagcagcccacatggcccacggatggcgcagtggcccccac acagaaggctgcccttgggctcctttccggagcggcatggcccggaggaagtggccagcc cagacacccccagtccttacccctgctgtggctttgcctgttgtgtgcattctggagaca cagaggcacacgcatgtagcctctcgtgaccggcatctttcactctgcagaagggtctca agccccaggacctgtggatgtggaaccagggtctttgcagaggtaatgaagcccctccac agctctttgtctccacctctaagactggggctcctggaagccactggtcctcatcttatt atcatcctggtctccacggagcccaggacggagactcacacagctcagtggagcgtcgcc aagctcggagggcacgcagcaccctag >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_2|350_aa MKCSVVINGIVYDDRDLQNPVCMPGTTLSVRMWTATVNPHGKLKSRALRLYLLNRGEASS SSSHRCSPWTPRAVDAPVGHRAEQDTRQVPSLALLALNRAGSQAAHGKEPWVPMDVAESP ERDPHSPEDEEQPQGLSDDDILRDSGSDQDLDGAGVRASDLEDEESAARGPSQEEEDNHS DEEDRASEPKSQDQDSEVNELSRGPTSSPCEEEGDEGEEDRTSDLRDEASSVTRELDEHE LDYDEEVPEEPAPAVQEDEAEKAGAEDDEEKGEGTPREEGKAGVQSVGEKESLEAAKEKK KEDDDGEIDDGEIDVSMMEQSVAGHPAQQPDIDWCWKGGTLCGTDLVICY >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_2|1053_bp atgaagtgctcggtggtaataaatggaatcgtctacgacgaccgagatttacagaaccct gtctgcatgccaggcaccacgctgagtgttcgtatgtggaccgccaccgtcaacccacac ggcaagctcaagagtagggccctacgattgtacctgctcaacagaggagaagcctcatcg agcagctcgcaccgctgcagcccctggacgccccgggctgtggacgcgcccgtgggacac cgcgctgagcaggacacgcgacaggtcccctcactggcgctgctcgcgttgaaccgcgcg gggagccaggcagcccacgggaaagaaccgtgggtaccgatggatgtggccgagagccct gaacgggatcctcactctccagaggatgaagagcagccacagggactctcggacgatgac attctgagggacagcgggtccgatcaggatttggacggggcgggggtgagggcttctgat ctggaggatgaggaaagtgcagccagggggccgagccaggaggaggaagataatcactcc gacgaggaggaccgggcaagtgagcctaaatcccaagaccaggactcagaggtgaatgag ctgagccggggcccgaccagctccccctgcgaggaggagggggacgaaggggaggaagac cggacaagcgaccttagggatgaggcctcctcagtcaccagggagctggatgagcatgag ctagactacgatgaggaggttcctgaggagccagctcccgccgtccaggaggacgaggct gagaaagcgggggctgaggatgatgaggagaaaggcgaaggcactcccagggaggagggg aaggctggtgttcagagtgtgggagaaaaggaatccctggaggctgccaaggagaaaaag aaagaggacgatgatggagaaatcgatgatggggaaatagacgtgagtatgatggagcag agcgtcgcggggcatcctgcccagcagcctgacatagactggtgctggaaaggagggact ctgtgtgggactgacttagtgatttgttactag >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_3|201_aa MGESPAAFSGHLWPFRNPFHTNKRFGHILQEKRPSLQSYGSAAIGRAWDHQCENENDQAA PTKAVIKVIKAPIKGPIVYHQYCHHHHHHHHHHLASNAQRTALSRAGPGKVSQHHSPRRW GPSWLREGLTRRQLPFMKNRQVLAAPSPAGVAATPEHPCVDDTTTCLAEPCAPPGQAHVC QGRPIAKLLGPGSIWLTVNSP >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_3|606_bp atgggagagagccctgctgccttcagcggccatctctggccatttcgaaatccattccac acgaacaaacgcttcggacacatcttgcaggaaaagcggccatctctacagagttatggg tctgctgcgatcggaagggcctgggaccaccagtgtgagaatgagaatgaccaggctgct cccaccaaggcagtcattaaagtgataaaagcaccaataaaagggcctattgtttaccat caatattgccaccaccaccaccaccaccaccaccaccacctagccagtaatgcccagaga actgccttgagcagagcagggcctggcaaggtgagccagcaccacagccccagaaggtgg ggccccagctggctgcgagaaggcctcacacgcagacaattacctttcatgaagaaccgg caggtccttgcagccccaagccctgcaggtgttgcagccacacctgagcacccttgtgtt gacgacaccaccacctgcctggctgaaccctgtgccccaccagggcaggcccacgtctgc cagggcaggcccatcgccaagttgctgggcccaggcagcatctggctcacagtaaacagt ccgtaa >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_4|145_aa MRAYFIPRHQMAEWLSAVNHCGRQLGGSSKHETYNHQVISNSTASGSAKDETHNHQVISN SAASGSSKDETYNHQVIRNSAASGSSKDETHNHQVISNSTASGSSKDETHNHHVIRNSAA SSSTKDETHNHQVISNSTARHMRKS >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_4|438_bp atgcgagcatatttcatcccacgtcatcagatggctgagtggctgagtgcagtaaaccac tgtggaagacagcttggcggctcctcaaaacatgaaacatacaaccaccaggtcatcagc aactccactgccagcggctccgcaaaagatgaaacacacaaccaccaggtcatcagcaac tccgctgccagcggttcctcaaaagatgaaacatacaaccaccaggtcatcagaaactcc gctgccagcggttcctcaaaagatgaaacacacaaccaccaggtcatcagcaactccact gccagcggttcctcaaaagatgaaacacacaaccaccacgtcatcagaaactccgctgcc agcagttccacaaaagatgaaacacacaaccaccaggtcatcagcaactccactgccagg cacatgcgaaagagctga >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_5|139_aa MQTYRGNCTWGMNCRFIHPGVNDKGNYSLITKADPFPPNGAPPLGPHPLMPANPWGGPVV DEILPPPPPEPPTESAWERGLRHAKEVLKKATIRKEQEPDFEEKRFTVTIGEDEREFDKE NEVFRDWNSRIPRDVRDTV >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_5|420_bp atgcagacgtacagagggaactgtacctggggaatgaattgtaggtttatacaccctgga gtgaacgacaaggggaactactccctaatcaccaaagccgaccccttcccgcctaatggt gccccgcctctcggacctcacccgctgatgcccgccaacccttggggtgggccggtagtt gatgaaattttgcctccaccccctccagagcccccaacagagagtgcctgggaacgagga ctccggcatgcaaaggaggttttaaaaaaagcaactattcgaaaagaacaggagcctgat tttgaagagaaaaggtttacggtgaccattggcgaagacgaacgggaatttgacaaagaa aatgaagtttttcgagattggaattctcggatcccgagagatgtcagagacacagtgtaa >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_6|245_aa MGGYEHPRGLLNSPHGLELALPKDTASVRSHQSDTVQSNVHTTQITLNYNTQETFVETCG NMTSGYIKTKRKPGQHARHRLYKKHISSQVWWCMAVAPNYSHGRPGAHLPVAHVPVATLA TESAGRGGGPQRHAEATGNAWAPIHPSALSLWDCGLTHVEQALSYSPGGFPTGHQQIPGQ EHWMRSLSCSRIATHKCCWLGLFCAIKALEPDRQLGCQPPSCTPYKLRPALPAVPATYLV DPPFP >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_6|738_bp atgggtggctacgaacaccctcgaggcctcctcaactctccacatggcctagaactggct ctcccaaaggacacagcttcagtccgttcccatcagtcggacaccgttcaatctaatgtg cacactactcaaatcacactgaattataacactcaggaaacatttgtagagacctgtggc aatatgacatcaggctacataaaaacgaagaggaagcctggacagcacgcgagacaccgt ctctacaaaaaacacatcagcagccaggtctggtggtgcatggctgtggcccccaactac tcgcatggtcgacctggtgcccacctgcctgttgcccacgttcctgttgcaacgctggcc actgaaagtgcaggcaggggaggaggtccccaaaggcatgcagaggccacaggcaatgcc tgggcacccatacatccatctgccctgagtctgtgggactgtgggcttacccatgtggag caggccctgtcttactctccagggggcttccccacagggcaccagcaaatcccaggtcag gagcactggatgcgaagcctgtcatgcagcaggattgcaacacataagtgctgctggctt ggcctcttctgtgccattaaggccctggagcctgaccgccaactgggctgccagccaccc tcctgcacaccctacaagctgcgacctgctttgccagctgttccagcaacctacctggtg gacccacccttcccttag >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_7|842_aa MSFEDQVRLSPQEPIRERERERERENRQRERERERERDRERERRQRERERERERERDKER QRRKEEWERERAKRDEKDRQHRDRDREKEREKEKGKPKPRSPQPPSSGAQGTSAGPQPEP IVPNPELSNAGPFCKTPKAVTSALSSWEAVLILEDLTDVKMLTVHVQTSCPSGALAADGP GAPPSALLPVAASVPVPESRTALACAPGAALSPFSELPAAGLTFSASLAWIHSAGFRVLG SPRSWLHSPLREPCQARYLPGGQGFPQRRISSQCSCFLLPYQPELAWLPFQEQLNSLCSN TRIEWHLLTPGSSFSLFPAAGVGVSGHVACSSLASVAPRVAAGIGKEGSWDGWGVSTLEP SADTMYLTGSDQSVGLTRRLYLQQRASMPSRTDAVTPNGAQTPATEPDCSQGVTGHTGGR GTWMREDAQTWGPVVFAVIVLLWLRLLPVAIPVFILQLLLQPLFQTQLVLRKPVQMTEQS RTEVKTEAHKWKFVAFSMGLGGSSVGLGWSRSFSSSPSPSPTPSPHRPSIRTKGEPAPPP GKAGEKSVKKPAPPPAPPQATKTTAPVPEPTKPGDPREARRKERPARTPPRRSLSVSSVS SVSSATSSSSSAHSVDSEDMYADLASPVSSASSRSPAPAQTRKEKGKSKKEDGVKEEKRK RDSSTQPPKSAKPPAGGKSSQQPSTPQQAPPGQPQQGTFVAHKEIKLTLLNKAADKGSRK RYEPSDKDRQSPPPAKRPNTSPDRGSRDRKSGGRLGSPKPERQRGQNSKAPAAPADRKRQ LSPQSKSSSKVTSVPGKASDPGAASTKSGKASTLSRREELLKQLKAVEDAIARKRAKIPG KA >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_7|2529_bp atgagctttgaggaccaggtgcggctgtctcctcaggagcccatcagggaaagggagcgg gagcgagagagagagaacagacagcgcgagcgcgagcgggagcgggagcgggaccgagag cgggagcgccggcagagggagcgcgagcgagagcgggagcgcgagcgcgacaaggagcgg cagcggaggaaggaggagtgggagcgtgagcgagccaagcgggacgagaaggaccggcag caccgtgaccgcgaccgggagaaggagcgggagaaggagaaggggaagcccaagccccgc tccccgcagccgccaagctctggagcccaggggaccagtgcaggcccacagcccgagccc atagttccaaacccagagctctccaacgcagggcctttctgtaaaactcccaaggccgtg acatctgccctgagctcctgggaggctgttctcattctagaggatctcactgatgtgaaa atgcttacagtccacgtgcaaacatcgtgcccatctggagcccttgcagcagatggtcct ggggcaccaccgtctgccctgctccccgttgcagcctctgtgcctgtcccagagtcccgc acagcacttgcttgtgctcctggggctgccctcagccccttctcggagctgccagcagca gggctgacgttctctgcgtcgcttgcctggattcattcagccggcttccgggtgctgggg agtccccggtcttggcttcactcacctttgcgggagccctgccaggcccgctacctgcct ggaggacaagggtttccccagcgcagaatttccagccagtgctcctgcttccttctccct tatcagccagaactggcctggctgccttttcaggagcagctgaattccctttgcagtaat acacgtattgaatggcacctactcaccccgggctcttcattctcactcttccctgctgct ggggttggagtttctggacacgtggcctgtagcagcctggcatctgtggcgcctcgtgtg gctgctggcatcggtaaggagggctcgtgggacggctggggtgtcagcaccttggagccg tcagctgacaccatgtacctcactgggtcagaccagtcagtgggactaacccggcgttta taccttcagcaaagagcatcaatgccaagtaggactgacgcagtgaccccaaatggggca cagaccccggcgactgagcctgactgctcccagggagtcacaggccacactggagggagg ggcacctggatgcgggaggacgcacagacctggggcccagtcgtcttcgcggtcatcgtc ctactctggctccggctcctcccggtcgcgatcccggtcttcatcctacagctcctactc cagccgctcttccagacacagctcgttctcaggaagccggtccagatgacagaacagtcc agaactgaagttaaaactgaggcacataaatggaaattcgtggccttctccatgggtctg ggtgggtcctcagtgggcttgggctggtcccggtccttctcttcgtccccgtccccgtcc ccaacaccttccccacatagaccttccatcagaaccaagggagagccggccccgccgccc gggaaagcaggagagaagtcagtgaagaagccggccccgcctccagccccaccacaggcc accaaaaccactgctcctgtccccgagcccaccaagccaggagaccctcgggaagccagg aggaaggagcggccagccaggaccccccccaggaggtccctgagcgtgagcagcgtctcc tcagtgtccagtgctacgtcgagcagcagctctgcacacagcgtggactcggaggacatg tacgcagacctggctagccccgtgtcctcagccagctctcggtccccggccccagcccag accaggaaggagaaaggaaaatctaagaaagaagacggtgttaaagaggaaaagcggaaa agggattcgtccacacaaccacccaaatctgcaaaacctccagcaggggggaagtcctcc cagcagccctcgacaccccagcaggcaccccccgggcagccccagcagggcacatttgtg gcccacaaggagatcaagttgacactgttgaataaggcggctgataaaggaagcaggaag cgctatgaaccatcagacaaggacaggcagagccctcctccagccaagcggcccaacaca tccccagaccgaggttctcgggaccggaagtcaggtgggagactgggctccccgaagcca gagcggcagagaggccagaactccaaagcccctgcagccccggctgacaggaagcgccag ctgtcaccccagtccaagagctccagcaaggtcacgagcgtgcccggcaaagcctcggat cccggcgccgccagcaccaaatcagggaaggccagcacgctgtctcggcgggaggagctg ctgaaacagctgaaggccgtggaggatgctattgcacgcaagcgggccaagatccccggg aaagcatag >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_8|325_aa MAGPGLPSALPNLPSCGLGLGLQARPGPGRPDEGSQCLRSGRRPISRFALVLRWDGRTPR HRLHRENGARDPASAARLPTFRVFSALSRGSQGQEDTPGGTCGTCGLGGARGPVGAEDGR TKGGLRSCGWLRQAQKYRVGQDWKSGGRKAGGRPGGGGPDRPSGSQTTTRARPQQTTPPD PGPEMRNEGLQTNAGPGGSEAARGTPPRRSEGRTHGQEPFSALSGPAGRGVRQGGHWTGR KEALSAGSPPYIKAQVHSGSRAAGCPQRRATASKQGLRLPAHPKPSRTAAPRPLQGKYLH LTDQGSPNPAPRMGKLRRNALLGWV >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_8|978_bp atggccgggcctggcctccccagtgctctgcccaacctgcccagctgcggcttggggcta gggctgcaggccaggccgggacctggtcggcctgatgagggcagccagtgcctgaggagc ggccgccgccccatctcccgctttgctctggttctgaggtgggacggccggactcccagg cacaggctgcaccgcgagaacggcgccagggacccggccagcgccgcgcgtctccccacc ttccgcgtgttctcagcgctgtcccgggggtcgcagggccaggaagacacgcccgggggg acctgcgggacctgcggactgggcggggcccggggtcctgtgggcgcagaggacgggagg acgaagggcggcctgcgctcctgcgggtggctgaggcaagcgcagaaataccgggttggg caagactggaaaagcggcggcaggaaggctggagggcgacccggaggcggaggcccagac aggccgagcggctctcaaaccacaacccgggcccgcccccagcagaccacgcccccggac cctggtccggagatgcggaacgaggggcttcagacaaacgcagggccgggcgggtcagag gcagcgcgggggacgccccccagacgcagcgaaggacggacccacggtcaggagcccttc agcgccctgagcgggcctgcgggaagaggggtgaggcagggagggcactggacagggcgg aaggaagcgctctctgcagggtctcccccctacatcaaggcgcaggtgcacagtgggtca cgcgctgccggctgcccacaacgcagggccaccgcctccaagcagggtctacgtctgcct gcccacccaaagcccagccgaacggcagctccacggcccctgcagggaaagtacctccac ctcacggaccaaggaagccccaacccagccccacgaatggggaaactgaggcgcaatgct ctcctgggctgggtctga >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_9|153_aa MTAPPHLLARGAKWGQALPVALVSSLEAASHRGRHERPSATTQCPVLRPEEVLEADTHQR SISPWRYRVDTDEDRYPQKLAFAECLCRGCIDARTGRETAALNSVRLLQSLLVLRRRPCS RDGSGLPTPGAFAFHTEFIHVPVGCTCVLPRSV >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_9|462_bp atgacggcccccccacacctgctggctcgaggtgccaagtgggggcaggctttgcctgta gccctggtgtccagcctggaggcagcaagccacagggggaggcacgagaggccctcagct acgacccagtgcccggtgctgcggccggaggaggtgttggaggcagacacccaccagcgc tccatctcaccctggagataccgtgtggacacggatgaggaccgctatccacagaagctg gccttcgccgagtgcctgtgcagaggctgtatcgatgcacggacgggccgcgagacagct gcgctcaactccgtgcggctgctccagagcctgctggtgctgcgccgccggccctgctcc cgcgacggctcggggctccccacacctggggcctttgccttccacaccgagttcatccac gtccccgtcggctgcacctgcgtgctgccccgttcagtgtga >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_10|1032_aa MARRRLWAAGQGAFGCRVKSGSRDTSSSACPRACVHPHTQRGRPRASRRAQRDPPSPQPR TPSHGPAQPPSHTAPHGTRTAPHGPFMVPAQRLTTRTQRLTDPLRPPQSLPHGAPHRASR TPHSASRSPHSPQHSASHSPSHSPPHSSSRAPHSCRTAPHKPAQHQQTGSPHRQQRPPRR AQTPDRRRGRQAPGHTAPAQTTPRPRPGERTLRVGRTYVSNPSSDPVHWLRVAVELGSLR GGTMASEKPLAAVTCTAPVNIAVIKYCECRGPAWDGDGRERGRRLWSSLNLTFELVFDSA LVEEGVLAQDKEAEVQVPLPTNAVPSPPGPQEFLSVCLASDKSRQGGRSVLCVKEPRELQ GVVLCQVSAFITPGTVRHPQRPPLAQNRADGGKRDEELVLPINSSLSVTLHQDQLKTTTT AVISKDFTEDRIWLNGREEDVGQPRLQACLRERSEHPESASASVPLLRQQAGWLGTRHAR WAASSRAVAHLNDQLGLGQSGVFPVRCLARKRRNSRDGDPLPSSLSCKVHVASVNNFPTA AGLASSAAGYACLAYTLARVYGVESDLSEVARRGSGSACRSLYGGFVEWQMGEQADGKDS IARQVAPESHWPELRVLILVVSAEKKLTGSTVGMRASVETSPLLRFRAESVVPARMAEMA RCIRERDFPSFAQLTMKDSNQFHATCLDTFPPISYLNAISWRIIHLVHRFNAHHGDTKVA YTFDAGPNAVIFTLDDTVAEFVAAVWHGFPPGSNGDTFLKGLQVRPAPLSAELQAALAME PTPGGVKYIIVTQESDRLLRVSGQEVVLITGGIVATAGRFTQWYFARLGHRVGCARVGQP RPQQPGPSPGPCGDQRQTRQSKSCVAGVFVCLLEYPRGKRKKGSTMERWGQKYMTAVVKL FGPFTRNYYVRAVLHLLLSVPAGFLLATILGTACLAIASGIYLLPSSFAFQNGMFPFWSQ AAVRGEQWTPIEPKPRERPQIGGTIKQPPSNPPPRPPAEARKKPSEEEAAVAAGGPPGGP QVNPIPVTDEVV >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_10|3099_bp atggcgcggagaaggctgtgggcggcgggacagggtgccttcggctgccgggttaagagt ggatcccgggatacatcctccagcgcctgccctcgggcctgtgtgcacccccatacccag cggggccgtccaagagcttcaaggagggcacagcgcgacccgccctcccctcagccccgc acaccgtcccacggccccgcacagcctccctcccacacagcgccccacggcacccgcaca gcgccccacggccccttcatggtccccgcacagcgcctcacaacccgcacacagcgcctc acggaccctttacggcccccgcagagtctcccacacggcgccccacacagagcctcacgg accccgcacagcgcctcaaggtctccgcacagcccccagcacagcgcctcacacagccct tcgcacagccccccgcacagctcctcacgggccccacacagctgccgcacagccccgcac aagcccgcacagcaccagcagacaggtagcccccacaggcaacagcgcccacctcgccgc gcccagaccccggatcgccgacgcggacgccaggcgcctgggcacacggcgcctgcgcag acaacaccacgccccaggcctggcgagcgcaccctgcgggtggggcggacctacgtcagc aacccatcgtccgatcccgtccattggctgagagtggctgtggagctggggtcactgcgc ggtgggaccatggcctcggagaagccgctggcggcagtcacttgtacagcgccggtcaac atcgcggtcatcaagtactgtgagtgccgcgggccggcctgggacggggatggccgggag cgaggccggagactctggtcttctttaaaccttacgtttgagctggtttttgatagcgcg ctggtggaggagggggtgctggctcaagataaggaggcagaagtccaggttcccctcccc accaacgctgtcccatccccaccaggccctcaggaattcctgagtgtctgcttggcctct gacaagagccggcaggggggccgctcagtgctgtgcgtgaaagagcctcgcgagctgcag ggcgtggttctctgccaggtgtccgcgtttatcacccctggaactgtccgccatcctcag agacctcccctcgcacaaaaccgagcagatgggggcaagcgcgatgaagagctggttctg cccatcaactcctccctgagcgtcactctgcaccaggaccagttaaaaaccaccacaaca gccgtcatcagcaaggacttcaccgaggaccggatttggctgaatggccgggaggaggat gtggggcagccgcggctgcaggcctgcctgcgggagaggtccgagcatccagaaagtgct tctgcctctgtgcccctcctgaggcagcaggcggggtggctgggaaccagacatgcccgc tgggccgccagctccagggcagtggcccacctcaatgaccagctgggcttgggtcagtct ggggttttcccggtccgctgcctggcccggaagcggaggaactcacgggatggggacccg ctgccctccagcctcagctgcaaggtgcacgtggcatcggtgaacaacttccccacggct gcgggcctggcctcctcagcggcgggctatgcctgcctagcctacaccctggcccgtgtc tacggcgtggagagtgacctctcagaagtggctcgccggggctcaggcagcgcctgccgg agcctgtatgggggctttgtggagtggcagatgggagagcaggccgacgggaaggacagc atcgctcggcaagtggcccccgagtcacactggcctgaactccgcgtgctcatccttgtg gtgagcgctgagaagaagctgacaggcagtaccgtgggcatgcgggccagtgtggagacc agccccctgcttcggttccgggccgagtccgtggtgcccgcgcgcatggcggagatggcc cgctgcatccgggagcgagacttccccagcttcgcccagctgaccatgaaggacagcaac cagttccacgccacctgcctcgacaccttcccgcccatctcttacctcaatgccatctcc tggcgcatcatccacctggtgcaccgcttcaacgcccaccacggggacaccaaggtggcg tacacctttgacgcgggccccaatgccgtgatcttcaccctggacgacactgtggctgag tttgtggctgctgtgtggcacggctttcccccaggctcgaatggagacacgtttctgaag gggctgcaggtgaggccggcccctctctcagctgagcttcaggctgcgctggccatggag ccgacccccggtggggtcaaatacatcattgtcactcaggaaagtgaccgcctgcttcga gtcagcggccaagaagtcgtcctcatcaccgggggcatcgtggccacagctgggcgcttc acccagtggtactttgccaggctgggacacagggtgggctgtgcacgggttgggcagccc aggccccagcagccaggcccctcgccaggaccatgtggcgatcagcggcagacccgccag tctaagtcctgtgtggcgggcgtgtttgtgtgcctgctggagtacccccgggggaagagg aagaagggctccaccatggagcgctggggacagaagtacatgaccgccgtggtgaagctg ttcgggccctttaccaggaattactatgttcgggccgtcctgcatctcctgctctcggtg cccgccggcttcctgctggccaccatccttgggaccgcctgcctggccattgcgagcggc atctacctactgccttctagttttgcttttcagaatggaatgtttccgttttggagtcag gcggctgtgcgtggcgagcagtggacgcccatcgagcccaagccccgggagcggccgcag atcggaggcaccatcaagcagccgcccagcaaccccccgccgcggcccccggccgaggcc cgcaagaagcccagcgaggaggaggctgcggtggcggcggggggacccccgggaggtccc caggtcaaccccatcccggtgaccgacgaggtcgtgtga >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_11|67_aa MLSWPLQIRVAVLGCCTKTPAVGFLQVLPSFLRVSVGCAESGPRCVRGCVHCHRSLYTSR RGPRAEL >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_11|204_bp atgctttcctggcctcttcagatcagggtggctgttcttgggtgctgcaccaaaactcca gcagtgggctttcttcaagtgctgccatctttcctccgtgtgagcgtgggctgtgcggag agtggacctcggtgtgtgcggggctgcgtgcactgccatcgctccctctacacgagccgg cgtggacccagggctgagctgtga >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_12|1051_aa MAMFRSLVASAQQRQPPAGPAGGDSGLEAQYTCPICLEVYHRPVAIGSCGHTLLRASRRR PVRLLLRFTGRPAALPKLGVPGGCGGRSGTQRAAARGRAVQPSPGLVSGSSGFTQEAFRC VVGLHASSRPNALSMGVHATPSLHPFTDGHLSCFRFSCHECLSMGKGPFLEGCGNLLTAK RTLALNSAESFVNPGPAHSPSVQWGSCTSPVALPGRREATPPGAVAFLGLGGSASVPAPR RSSAVPTVLLTRPDVAAPVLSSFSVFALGALAPGAPTGWWCTPPRAVCVCRAGGFCGECL QPCLQVPSPLCPLCRLPFDPKKVDKATHVEKQLSSYKAPCRGCNKKPSPASRYRGRRWGL QGHKGRGHSQGHLRAEHPPAARRARAGLMGTATPTSEQRKGLQLVMGLIGPHVHPVLVTL AKMRVHISSCLKVQEQMANCPKFVPVVPTSQPIPSNIPNRSTFACPYCGARNLDQQELVK HCVESHRSDPNRVVCPICSAMPWGDPSYKSANFLQHLLHRHKFSYDTFVVGIPPAPSSPT PSSSTLLLLGPLASLRVRRVQRKPETEASFQVATFPQVLWGLPAGPQFRGRHWGSKDPAD GVTQGAGHRESTFTKGLCNLLLACIRKGCQVPLSQARPCSQEPWTVLIRVPGMMRPQPLV RQALLPLWLDKRTLSGPEFFLPSAAGRGPTACRDPPRPAAREGNMPRSFLVKTHSSHRVP NYRRLETQRGTDYPIPEPLPGLDPEGRERERGPWERGLGRHLSQEMPEGRLWGDWRVISY EWADFTLSRHLAAKRLTDGCCMGTWRMPAQAGTPPEPWDRSSAVACISLPLLPRIEEALG ASGLDALEVSEVDPRASRAAIVPLKDSLNHLNLPPLLVLPTRWSPTLGPDRHGAPEKLLG AERMPRAPGGFECFHCHKPYHTLAGLARHRQLHCHLQVGRVFTCKYCDKEYTSLGALKMH IRTHTLPCTCKICGKAFSRPWLLQGHVRTHTGEKPYACSHCSRAFADRSNLRAHLQTHSD AKKYRCRRCTKTFSRMSLLARHEESGCCPGP >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_12|3156_bp atggctatgttccgcagcctggtggcctcggctcagcagcggcagccgccggccgggccg gcgggcggcgacagcggcctggaggcgcagtacacctgccccatctgcctggaggtctat caccggcccgtggccatcggcagctgcggccacaccctccttcgcgccagccgcaggcgc ccggtccgactgctgcttcggttcaccgggcgacctgcggccctgcccaagctcggggtc cccggcggctgcggcgggcgctccggtactcagagggcagcagcccgtggccgtgctgtg cagccgagccccggcctggtctctggcagctcagggttcactcaggaggccttccggtgc gtggtggggctgcacgcctcttcccggccgaacgccctttccatgggtgtgcacgccacg ccgtctcttcatccgtttaccgacgggcacctgagctgcttccgcttctcctgccatgag tgcctgagtatggggaaagggccttttcttgagggatgtggaaatctcttgacagcaaag aggactctggccctgaattcagctgagtcgtttgtgaacccagggcctgcccacagcccc tctgtccagtggggctcctgtaccagccctgtggccttgccagggagaagggaagctaca cccccgggtgctgtagccttcctgggactggggggctctgcctcagttccagctcctcgc cgcagctcagctgtccccacagtgctcctcacaaggccagatgtggctgccccagtatta agctccttctctgtgtttgcactgggggctctcgcgcctggtgctcccactggctggtgg tgcacccctccaagggctgtgtgcgtctgcagagcgggagggttctgcggggagtgtctc cagccctgcctgcaggtgccatccccgctgtgcccactctgccgcctgcccttcgacccc aagaaggtggacaaggccacccacgtggagaagcagctctcatcctacaaagcgccctgt cgaggctgcaacaaaaagccttcccctgccagccgataccggggacggcgctgggggctc caaggtcacaagggccgcgggcacagtcaaggacatctaagggccgagcaccctccagct gccaggagggccagagccgggctgatgggcactgccacacccacatcagagcagcgtaag ggcctgcagcttgtcatgggcctcattggcccccatgtccatcctgtcctggtgaccctg gcaaagatgagagtgcacatttcgtcctgcctgaaggtccaggagcagatggccaactgc cccaagttcgtccccgtggtgcccacatcacagcctatccccagcaacatccccaacagg tccaccttcgcctgcccgtactgtggtgcccgcaacctggaccagcaggagctggtgaag cactgtgtggaaagccaccgcagcgaccccaaccgcgtggtgtgccccatctgctcggca atgccctggggggaccccagctacaagagcgccaacttcctgcagcacctgcttcaccga cacaagttctcctacgacacctttgtggtaggcatcccgccagcaccgtcctcccccacg ccctcctcatccaccctcctcctgctcgggcccctcgccagcctcagggtccgcagggtt cagaggaagccagaaacagaagcctcgtttcaggtggccacattcccccaggttctgtgg gggctgcctgcaggcccccagttccgtggcaggcactggggctccaaggaccctgctgat ggggtgacccagggcgcaggccacagagaaagcacctttacgaagggcctgtgtaacctg ctgctggcctgcatccggaagggatgccaagtccccctgtcccaggcccgcccctgttcg caggagccctggacagtgctcatccgggtcccaggcatgatgcggccccagcccctcgtc cggcaggcattgctccctttgtggctggacaaaagaacactcagcgggcctgagttcttc cttccctcagctgcagggcgtggccccacagcctgccgcgacccaccccggcctgccgcc cgggaggggaacatgccgcgctccttcctggtgaaaacgcactccagccacagggtcccc aactaccggcggctggagacgcagagaggtactgactacccgatccccgagcccctgccg ggactcgaccctgaggggcgggagagagagagaggcccctgggagcgggggctggggaga cacctgtcccaggagatgcccgaggggcgactgtggggtgactggagggtgattagttat gagtgggctgattttacactcagccggcaccttgctgccaagcgtctgactgatggctgc tgcatgggcacctggaggatgccggcccaggctgggacccctccagagccctgggaccgc tcctcggccgtcgcctgcatctccctgcccctcctgccacggatcgaggaagctctgggg gcctctgggctggacgccttggaagtcagcgaggtcgaccctcgggccagccgggccgcc attgtacccctcaaagacagcctgaaccacctcaacctgcccccactgctggtgctgccc acacggtggtccccgaccttgggcccagaccggcacggggctccggaaaaactgcttggg gctgagcggatgccccgagccccgggcggctttgagtgcttccactgccacaaaccctac cacacgctggccgggctggccaggcaccggcagctgcactgccacctgcaggtggggcgt gtcttcacctgcaagtactgcgacaaggagtacaccagcctgggtgccctcaagatgcac atccgcactcacacgctgccctgcacctgcaagatctgtggcaaggccttctccaggccc tggttactgcagggccatgtccgcacccacacaggggagaagccctatgcctgctcgcac tgcagcagggcctttgccgaccgctccaaccttcgggcccatctgcaaacgcactcagac gccaagaagtaccggtgccggcgctgcaccaagaccttctcccgcatgtccctcctggcg cggcatgaggagtctggctgctgcccgggcccctga >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_13|558_aa MQPPWLCSLYLVVGGAVSGQSLDVKMLLLKMEIGKGRRHLAAPQDAAHCAGSRRFPHLRD CFKAFYVHKFRAMLGKNRLIFPGEKVASGSWGQPGLLQPASSSLAFEDRLDVLDVHEVLL AWSGGPSSSSMVWQVLEGLSQDSAKRLRFVAGVIFVDEGAACGQSLEERSKTLAEVKPIL QATGFPWHVVALEEVFSLPPSVLWCSAQELVGSEGAYKAAVDSFLQQQHVLGAGGGPGPT QGEEQPPQPPLDPQNLARPPAPAQTEALSQLFCSVRTLTAKEELLQTLRTHLILHMARAH GYSKVMTGDSCTRLAIKLMTNLALGRGAFLAWDTGFSDERHGDVVVVRPMRDHTLKEVAF YNRLFSVPSVFTPAVDTKAPEKASIHRLMEAFILRLQTQFPSTVSTVYRTSEKLVKGPRD GPAAGDSGPRCLLCMCALDVDAADSATAFGAQTSSRLSQMQSPIPLTETRTPPGPCCSPG VGWAQRCGQGACRREDPQACIEEQLCYSCRVNMKDLPSLDPLPPYILAEAQLRTQRAWGL QEIRDCLIEDSDDEAGQS >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_13|1677_bp atgcagcctccgtggctgtgcagtttgtacctggtcgtgggaggggccgtctctggacag agcctggatgtgaagatgctgcttttaaagatggagattggcaaaggacgtcgtcacctg gcagcgcctcaggacgctgctcactgtgcgggtagcaggcggttccctcatctcagggac tgtttcaaggccttctacgtccacaagttcagagccatgctgggcaagaaccggctcatc tttccaggcgagaaggtagcgtctgggtcctgggggcagcctggcctgctgcagcccgcc agctcctccttggcctttgaggacagactcgatgtcctagatgtccacgaggtgctcttg gcgtggtctggggggccttcgtccagctccatggtctggcaggttcttgagggcctgagc caagattctgccaaaagactgcgctttgtggcaggagtcatctttgttgacgagggagca gcctgtggccagagcctagaggagagatcaaagaccctggccgaagtgaagcccattctg caagcaactgggttcccatggcatgtggtggccttagaggaggtgttcagcctgccaccg tcggtgctttggtgctctgcccaggagctggtgggatccgagggggcctacaaggcggcc gtggacagcttcctccagcagcagcatgtgctgggggccgggggtggtcctggcccgact caaggggaggaacagccaccccagcccccgctggacccccagaacctggcaagaccgcct gcccctgcccagactgaggctctttcccaactgttctgctcagtgaggacactgactgcc aaggaggagcttctgcagaccctgcggacccacctgatcctccacatggcccgagcccac ggctactccaaggtcatgactggggacagctgcacacgcttggctatcaagctcatgacc aacctggcgctgggtcgaggggccttcctggcctgggatacgggcttctcggatgagcgg cacggggacgtggtggtggtgcggcccatgcgggaccacaccctgaaggaggtcgctttc tacaaccgcctgttctccgttccttctgtcttcacaccagccgtcgacaccaaggcccct gaaaaggccagcatccaccggctgatggaggccttcatcctcaggctgcagacccagttc ccctccactgtcagcactgtgtacaggacaagtgagaagctggtgaagggcccccgggat ggccctgctgctggcgactccggcccccgctgcctcctctgcatgtgtgccctggacgtc gacgccgctgacagtgccacggcttttggggctcagacctcctcgcgtctctcccagatg cagtcacccatccccctgactgagacccggacacccccggggccctgctgttctccaggg gtgggctgggcccagcgctgtggccagggggcctgcaggagggaggacccccaagcctgc attgaggagcagctgtgctacagctgccgcgtgaacatgaaggacttgccctcactggac cccctgccgccgtacatcctggctgaggcccagctccgcacacagagggcctggggcttg caggagatccgggactgtctgattgaggacagtgacgacgaggcgggccagagctga >gi568815582r:88543356_88751013|GENSCAN_predicted_peptide_14|2813_aa XCLLRFSGLSLVYLLFLLLLPWFPGPTRCGLQDSGDWGAGIIGVHRSASCRWKVALRPRD IWLEASQRLLLARGAVGSEVIAAGSAGHTGRLLRALLGLSLLFLVAHLALQICLHIVPRL DQLLGPSCSRWETLSRHIGVTRLDLKDIPNAIRLVAPDLGILVVSSVCLGICGRLARNTR QSPHPRELDDDERDVDASPTAGLQEAATLAPTRRSRLAARFRVTAHWLLVAAGRVLAVTL LALAGIAHPSALSSVYLLLFLALCTWWACHFPISTRGFSRLCVAVGCFGAGHLICLYCYQ MPLAQALLPPAGIWARVLGLKDFVGPTNCSSPHALVLNTGLDWPVYASPGVLLLLCYATA SLRKLRAYRPSGQRKEAAKGYEARELELAELDQWPQERESDQHVVPTAPDTEADNCIVHE LTGQSSVLRRPGEYRTLQVRPKRAEPREASPLHSLGHLIMDQSYVCALIAMMVWSITYHS WLTFVLLLWACLIWTVRSRHQLAMLCSPCILLYGMTLCCLRYVWAMDLRPELPTTLGPVS LRQLGLEHTRYPCLDLGAMLLYTLTFWLLLRQFVKEKLLKWAESPAALTEVTVADTEPTR TQTLLQSLGELVKGVYAKYWIYVCAGMFIVVSFAGRLVVYKIVYMFLFLLCLTLFQVYYS LWRKLLKAFWWLVVAYTMLVLIAVYTFQFQDFPAYWRNLTGFTDEQLGDLGLEQFSVSEL FSSILVPGFFLLACILQLHYFHRPFMQLTDMEHVSLPGTRLPRWAHRQDAVSGTPLLREE QQEHQQQQQEEEEEEEDSRDEGLGVATPHQATQVPEGAAKWGLVAERLLELAAGFSDVLS RVQVFLRRLLELHVFKLVALYTVWVALKEVSVMNLLLVVLWAFALPYPRFRPMASCLSTV WTCVIIVCKMLYQLKVVNPQEYSSNCTEPLPVVSLFLKHLVPFPVKVAPRLAAPVSLAGE QWTCPRAVAVPFPNSTNLLPTEISQSLLYRGPVDPANWFGVRKGFPNLGYIQNHLQVLLL LVFEAIVYRRQEHYRRQHQLAPLPAQAVFASGTRQQLDQDLLGCLKYFINFFFYKFGLEI CFLMAVNVIGQRMNFLVTLHGCWLVAILTRRHRQAIARLWPNYCLFLALFLLYQYLLCLG MPPALCIVFYLEIFQTFRKVVSHTRSTASSPGPVRVGRDASHPSAASSMRLLGSVAGGRQ CHGSLPSRPRPLPSPARGPIRTPRQQDSQQVAFRSGFFHLAEHTEGLGAELKESVCVNTQ DTRAVSSRDTRCARDYPWRWSRAVPMNSALIKWLYLPDFFRAPNSTNLIRTPGHSPRQTC VRSQRLHADRPGVGGGIYAPCPPRVGPRVAQRRLLCPAGDFLLLLCASQQWQVFSAERTE EWQRMAGVNTDRLEPLRGEPNPVPNFIHCRSYLDMLKVAVFRYLFWLVLVVVFVTGATRI SIFGLGYLLACFYLLLFGTALLQRDTRARLVLWDCLILYNVTVIISKNMLSLLACVFVEQ MQTGFCWVIQLFSLVCTVKGYYDPKEMMDRDQDCLLPVEEAGIIWDSVCFFFLLLQRRVF LSHYYLHVRADLQATALLASRQAWAQTQPRAPVLGLGGGNGRGFALYNAANLKSIDFHRR IEEKSLAQLKRQMERIRAKQEKHRQGRVDRSRPQDTLGPKDPGLEPGPDSPGGSSPPRRQ WWRPWLDHATVIHSGDYFLFESDSEEEEEAVPEDPRPSAQSAFQAWVTNAQAVLRRRQQE QEQARQEQAGQLPTGGGPSQEVEPAEGPEEAAAGRSHVVQRVLSTAQFLWMLGQALVDEL TRWLQEFTRHHGTMSDVLRAERYLLTQELLQGGEVHRGVLDQLYTSQAEATLPGPTEAPN APSTVSSGLGAEEPLSSMTDDMGSPLSTGYHTRSGSEEAVTDPGEREAGASLYQGLMRTA SELLLDRRLRIPELEEAELFAEGQGRALRLLRAVYQCVAAHSELLCYFIIILNHMVTASA GSLVLPVLVFLWAMLSIPRPSKRFWMTAIVFTEIAVVVKYLFQFGFFPWNSHVVLRRYEN KPYFPPRILGLEKTDGYIKYDLVQLMALFFHRSQLLCYGLWDHEEDSPSKEHDKSGEEEQ GAEEGPGVPAATTEDHIQVEARVGPTDGTPEPQVELRPRDTRRISLRFRRRKKEGPARKG AAAIEAEDREEEEGEEEKEAPTGREKRPSRSGGRVRAAGRRLQGFCLSLAQGTYRPLRRF FHDILHTKYRAATDVYALMFLADVVDFIIIIFGFWAFGKHSAATDITSSLSDDQVPEAFL VMLLIQFSTMVVDRALYLRKTVLGKLAFQVALVLAIHLWMFFILPAVTERMFNQNVVAQL WYFVKCIYFALSAYQIRCGYPTRILGNFLTKKYNHLNLFLFQGFRLVPFLVELRAVMDWV WTDTTLSLSSWMCVEDIYANIFIIKCSRETEKKYPQPKGQKKKKIVKYGMGGLIILFLIA IIWFPLLFMSLVRSVVGVVNQPIDVTVTLKLGGYEPLLHAHLRGPVSPCLPQPLFTMSAQ QPSIIPFTAQAYEELSRQFDPQPLAMQFISQYSPEDIVTAQIEGSSGALWRISPPSRAQM KRELYNGTADITLRFTWNFQRDLAKGGTVEYANEKHMLALAPNSTARRQLASLLEGTSDQ SVVIPNLFPKYIRAPNGPEANPVKQLQPNEEADYLGVRIQLRREQGAGATGFLEWWVIEL QECRTDCNLLPMVIFSDKVSPPSLGFLAGYGIMGLYVSIVLVIGKFVRGFFSEISHSIMF EELPCVDRILKLCQDIFLVRETRELELEEELYAKLIFLYRSPETMIKWTREKE >gi568815582r:88543356_88751013|GENSCAN_predicted_CDS_14|8442_bp ncctgcctgctccgcttcagcggactctcgctggtctacctgctcttcctgctgctgctg ccctggttccccggccccacccgatgcggcctccaagattctggggactggggtgcaggc atcattggggtccatcgttctgccagctgcaggtggaaggtcgctctccggcctcgcgac atctggctggaagcatcccagaggctcctcctagctcgtggtgctgtggggtcagaggtc atagctgcagggtcagcaggtcacacaggccgcctcctgcgggcattgctgggcctcagc ctgctcttcctggtggcccatctcgccctccagatctgcctgcatattgtgccccgcctg gaccagctcctgggacccagctgcagccgctgggagaccctctcgcgacacataggggtc acaaggctggacctgaaggacatccccaacgccatccggctggtggcccctgacctgggc atcttggtggtctcctctgtctgcctcggcatctgcgggcgccttgcaaggaacacccgg cagagcccacatccacgggagctggatgatgatgagagggatgtggatgccagcccgacg gcagggctgcaggaagcagcaacgctggcccctacacggaggtcacggctggccgctcgt ttccgagtcacggcccactggctgctggtggcggctgggcgggtcctggccgtaacactg cttgcactggcaggcatcgcccacccctcggccctctccagtgtctacctgctgctcttc ctggccctctgcacctggtgggcctgccactttcccatcagcactcggggcttcagcaga ctctgcgtcgcggtggggtgcttcggcgccggccatctcatctgcctctactgctaccag atgcccttggcacaggctctgctcccgcctgccggcatctgggctagggtgctgggtctc aaggacttcgtgggtcccaccaactgctccagcccccacgcgctggtcctcaacaccggc ctggactggcctgtgtatgccagccccggcgtcctcctgctgctgtgctacgccacggcc tctctgcgcaagctccgcgcgtaccgcccctccggccagaggaaggaggcggcaaagggg tatgaggctcgggagctggagctagcagagctggaccagtggccccaggaacgggagtct gaccagcacgtggtgcccacagcacccgacaccgaggctgataactgcatcgtgcacgag ctgaccggccagagctccgtcctgcggcggcctggtgagtaccgcacactgcaagtgcgg cccaagcgggctgagcccagggaggcgtctccgctccacagcctgggccacctcatcatg gaccagagctatgtgtgcgcgctcattgccatgatggtatggagcatcacctaccacagc tggctgaccttcgtactgctgctctgggcctgcctcatctggacggtgcgcagccgccac caactggccatgctgtgctcgccctgcatcctgctgtatgggatgacgctgtgctgccta cgctacgtgtgggccatggacctgcgccctgagctgcccaccaccctgggccccgtcagc ctgcgccagctggggctggagcacacccgctacccctgtctggaccttggtgccatgttg ctctacaccctgaccttctggctcctgctgcgccagtttgtgaaagagaagctgctgaag tgggcagagtctccagctgcgctgacggaggtcaccgtggcagacacagagcccacgcgg acgcagacgctgttgcagagcctgggggagctggtgaagggcgtgtacgccaagtactgg atctatgtgtgtgctggcatgttcatcgtggtcagcttcgccggccgcctcgtggtctac aagattgtctacatgttcctcttcctgctctgcctcaccctcttccaggtctactacagc ctgtggcggaagctgctcaaggccttctggtggctcgtggtggcctacaccatgctggtc ctcatcgccgtctacaccttccagttccaggacttccctgcctactggcgcaacctcact ggcttcaccgacgagcagctgggggacctgggcctggagcagttcagcgtgtccgagctc ttctccagcatcctggtgcccggcttcttcctcctggcctgcatcctgcagctgcactac ttccacaggcccttcatgcagctcaccgacatggagcacgtgtccctgcctggcacgcgc ctcccgcgctgggctcacaggcaggatgcagtgagtgggaccccactgctgcgggaggag cagcaggagcatcagcagcagcagcaggaggaggaggaggaggaggaggactccagggac gaggggctgggcgtggccactccccaccaggccacgcaggtgcctgaaggggcagccaag tggggcctggtggctgagcggctgctggagctggcagccggcttctcggacgtcctctca cgcgtgcaggtgttcctgcggcggctgctggagcttcacgttttcaagctggtggccctg tacaccgtctgggtggccctgaaggaggtgtcggtgatgaacctgctgctggtggtgctg tgggccttcgccctgccctacccacgcttccggcccatggcctcctgcctgtccaccgtg tggacctgcgtcatcatcgtgtgtaagatgctgtaccagctcaaggttgtcaacccccag gagtattccagcaactgcaccgagcccctgcccgtggtctccctgtttctcaaacacctg gtccccttccccgtgaaggtggctccaaggctggcagcccccgtgtccctggctggggag cagtggacctgccccagagctgtggctgtgcccttccccaacagcaccaacttgctgccc acggagatcagccagtccctgctgtaccgggggcccgtggaccctgccaactggtttggg gtgcggaaagggttccccaacctgggctacatccagaaccacctgcaagtgctgctgctg ctggtattcgaggccatcgtgtaccggcgccaggagcactaccgccggcagcaccagctg gccccgctgcctgcccaggccgtgtttgccagcggcacccgccagcagctggaccaggat ctgctcggctgcctcaagtacttcatcaacttcttcttctacaaattcgggctggagatc tgcttcctgatggccgtgaacgtgatcgggcagcgcatgaactttctggtgaccctgcac ggttgctggctggtggccatcctcacccgcaggcaccgccaggccattgcccgcctctgg cccaactactgcctcttcctggcgctgttcctgctgtaccagtacctgctgtgcctgggg atgcccccggccctgtgcattgtattctatcttgaaatatttcaaaccttcaggaaagtt gtgagtcacacaaggagcactgcgtcctctccgggccccgtgcgggtcggccgtgatgcc tcacacccaagtgctgcctcgagcatgcgtctcctgggaagtgtggccgggggccggcag tgccacggctccctccccagcaggccccggccgctcccatccccagcacgtggtcctatc agaacgccacgtcagcaggactcccagcaggtggcctttaggtctggcttctttcacttg gcagagcacactgaggggcttggtgcagagttgaaggaatctgtgtgtgtgaacacacag gacactagagctgtcagttctcgagacaccaggtgtgcgcgagattatccctggcgctgg agccgggccgtccccatgaactccgcactcatcaagtggctgtacctgcctgatttcttc cgggcccccaactccaccaacctcatcaggacacccggccactcacccaggcagacgtgt gtccgctcccagcggctgcacgccgacaggcctggggtgggaggtgggatttatgcgccg tgcccacctcgtgtgggtccccgtgtggcacagcggcggctcctgtgtcctgcaggcgac tttctcctgctgctgtgcgcctcccagcagtggcaggtgttctcagctgagcgcacagag gagtggcagcgcatggctggcgtcaacaccgaccgcctggagccgctgcggggggagccc aaccccgtgcccaactttatccactgcaggtcctaccttgacatgctgaaggtggccgtc ttccgatacctgttctggctggtgctggtggtggtgtttgtcacgggggccacccgcatc agcatcttcgggctgggctacctgctggcctgcttctacctgctgctcttcggcacggcc ctgctgcagagggacacacgggcccgcctcgtgctgtgggactgcctcattctgtacaac gtcaccgtcatcatctccaagaacatgctgtcgctcctggcctgcgtcttcgtggagcag atgcagaccggcttctgctgggtcatccagctcttcagccttgtatgcaccgtcaagggc tactatgaccccaaggagatgatggacagagaccaggactgcctgctgcctgtggaggag gctggcatcatctgggacagcgtctgcttcttcttcctgctgctgcagcgccgcgtcttc cttagccattactacctgcacgtcagggccgacctccaggccaccgccctgctagcctcc aggcaagcttgggcccagacacagcccagagctcccgtcttggggctgggagggggcaat gggaggggcttcgccctctacaacgctgccaacctcaagagcattgactttcaccgcagg atagaggagaagtccctggcccagctgaaaagacagatggagcgtatccgtgccaagcag gagaagcacaggcagggccgggtggaccgcagtcgcccccaggacaccctgggccccaag gaccccggcctggagccagggcccgacagtccagggggctcctccccgccacggaggcag tggtggcggccctggctggaccacgccacagtcatccactccggggactacttcctgttt gagtccgacagtgaggaagaggaggaggctgttcctgaagacccgaggccgtcggcacag agtgccttccaggcatgggtgaccaacgcccaggcggtgctgaggcggcggcagcaggag caggagcaggcaaggcaggaacaggcaggacagctacccacaggaggtggtcccagccag gaggtggagccagcagagggccccgaggaggcagcggcaggccggagccatgtggtgcag agggtgctgagcacggcgcagttcctgtggatgctggggcaggcgctagtggatgagctg acacgctggctgcaggagttcacccggcaccacggcaccatgagcgacgtgctgcgggca gagcgctacctcctcacacaggagctcctgcagggcggcgaagtgcacaggggcgtgctg gatcagctgtacacaagccaggccgaggccacgctgccaggccccaccgaggcccccaat gccccaagcaccgtgtccagtgggctgggcgcggaggagccactcagcagcatgacagac gacatgggcagccccctgagcaccggctaccacacgcgcagtggcagtgaggaggcagtc accgaccccggggagcgtgaggctggtgcctctctgtaccagggactgatgcggacggcc agcgagctgctcctggacaggcgcctgcgcatcccagagctggaggaggcagagctgttt gcggaggggcagggccgggcgctgcggctgctgcgggccgtgtaccagtgtgtggccgcc cactcggagctgctctgctacttcatcatcatcctcaaccacatggtcacggcctccgcc ggctcgctggtgctgcccgtgctcgtcttcctgtgggccatgctgtcgatcccgaggccc agcaagcgcttctggatgacggccatcgtcttcaccgagatcgcggtggtcgtcaagtac ctgttccagtttgggttcttcccctggaacagccacgtggtgctgcggcgctacgagaac aagccctacttcccgccccgcatcctgggcctggagaagactgacggctacatcaagtac gacctggtgcagctcatggcccttttcttccaccgctcccagctgctgtgctatggcctc tgggaccatgaggaggactcaccatccaaggagcatgacaagagcggcgaggaggagcag ggagccgaggaggggccaggggtgcctgcggccaccaccgaagaccacattcaggtggaa gccagggtcggacccacggacgggaccccagaaccccaagtggagctcaggccccgtgat acgaggcgcatcagtctacgttttagaagaaggaagaaggagggcccagcacggaaagga gcggcagccatcgaagctgaggacagggaggaagaagagggggaggaagagaaagaggcc cccacggggagagagaagaggccaagccgctctggaggaagagtaagggcggccgggcgg cggctgcagggcttctgcctgtccctggcccagggcacatatcggccgctacggcgcttc ttccacgacatcctgcacaccaagtaccgcgcagccaccgacgtctatgccctcatgttc ctggctgatgttgtcgacttcatcatcatcatttttggcttctgggcctttgggaagcac tcggcggccacagacatcacgtcctccctatcagacgaccaggtacccgaggctttcctg gtcatgctgctgatccagttcagtaccatggtggttgaccgcgccctctacctgcgcaag accgtgctgggcaagctggccttccaggtggcgctggtgctggccatccacctatggatg ttcttcatcctgcccgccgtcactgagaggatgttcaaccagaatgtggtggcccagctc tggtacttcgtgaagtgcatctacttcgccctgtccgcctaccagatccgctgcggctac cccacccgcatcctcggcaacttcctcaccaagaagtacaatcatctcaacctcttcctc ttccaggggttccggctggtgccgttcctggtggagctgcgggcagtgatggactgggtg tggacggacaccacgctgtccctgtccagctggatgtgtgtggaggacatctatgccaac atcttcatcatcaaatgcagccgagagacagagaagaaatacccgcagcccaaagggcag aagaagaagaagatcgtcaagtacggcatgggtggcctcatcatcctcttcctcatcgcc atcatctggttcccactgctcttcatgtcgctggtgcgctccgtggttggggttgtcaac cagcccatcgatgtcaccgtcaccctgaagctgggcggctatgagccgctcctccacgct catcttcgtggccccgtgtccccgtgcctgccccagccgctgttcaccatgagcgcccag cagccgtccatcatccccttcacggcccaggcctatgaggagctgtcccggcagtttgac ccccagccgctggccatgcagttcatcagccagtacagccctgaggacatcgtcacggcg cagattgagggcagctccggggcgctgtggcgcatcagtccccccagccgtgcccagatg aagcgggagctctacaacggcacggccgacatcaccctgcgcttcacctggaacttccag agggacctggcgaagggaggcactgtggagtatgccaacgagaagcacatgctggccctg gcccccaacagcactgcacggcggcagctggccagcctgctcgagggcacctcggaccag tctgtggtcatccctaatctcttccccaagtacatccgtgcccccaacgggcccgaagcc aaccctgtgaagcagctgcagcccaatgaggaggccgactacctcggcgtgcgtatccag ctgcggagggagcagggtgcgggggccaccggcttcctcgaatggtgggtcatcgagctg caggagtgccggaccgactgcaacctgctgcccatggtcattttcagtgacaaggtcagc ccaccgagcctcggcttcctggctggctacggcatcatggggctgtacgtgtccatcgtg ctggtcatcggcaagttcgtgcgcggattcttcagcgagatctcgcactccattatgttc gaggagctgccgtgcgtggaccgcatcctcaagctctgccaggacatcttcctggtgcgg gagactcgggagctggagctggaggaggagttgtacgccaagctcatcttcctctaccgc tcaccggagaccatgatcaagtggactcgtgagaaggagtag