Result of GENSCAN for
pF1KB3471
GENSCAN 1.0 Date run: 3-Nov-116 Time: 13:21:09 Sequence gi568815587r:64754336_64978464 : 224129 bp : 53.95% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.23 Intr - 501 358 144 0 0 105 76 313 0.997 32.79 1.22 Intr - 1020 938 83 1 2 91 44 157 0.996 11.45 1.21 Intr - 1223 1112 112 2 1 90 74 182 0.994 17.46 1.20 Intr - 3575 3444 132 2 0 67 94 268 0.994 26.65 1.19 Intr - 4014 3911 104 1 2 71 99 190 0.999 18.79 1.18 Intr - 4180 4102 79 1 1 114 110 154 0.999 19.82 1.17 Intr - 4369 4268 102 1 0 88 89 112 0.996 12.17 1.16 Intr - 5565 5321 245 1 2 63 48 365 0.156 27.75 1.15 Intr - 9518 9444 75 0 0 131 42 10 0.114 0.68 1.14 Intr - 11959 11687 273 2 0 61 -6 146 0.101 0.55 1.13 Intr - 12744 12565 180 1 0 127 87 76 0.975 11.76 1.12 Intr - 12916 12815 102 2 0 68 92 102 0.916 9.25 1.11 Intr - 13488 13236 253 0 1 52 106 55 0.486 1.24 1.10 Intr - 13951 13771 181 0 1 92 105 134 0.999 15.89 1.09 Intr - 14794 14687 108 0 0 94 100 15 0.900 3.20 1.08 Intr - 15003 14888 116 0 2 71 91 153 0.999 13.65 1.07 Intr - 15274 15091 184 0 1 82 99 190 0.991 19.81 1.06 Intr - 15718 15629 90 0 0 56 109 129 0.971 11.41 1.05 Intr - 16073 15921 153 1 0 50 82 218 0.954 17.10 1.04 Intr - 19170 19095 76 1 1 82 47 124 0.954 6.77 1.03 Intr - 21962 21810 153 0 0 65 84 31 0.467 0.96 1.02 Intr - 22291 22163 129 2 0 64 67 128 0.998 9.47 1.01 Init - 24057 23652 406 0 1 121 105 374 0.949 37.18 1.00 Prom - 32687 32648 40 -3.51 2.35 PlyA - 33871 33866 6 1.05 2.34 Term - 35289 35202 88 2 1 117 48 173 0.999 13.63 2.33 Intr - 35450 35395 56 2 2 97 96 56 0.999 5.57 2.32 Intr - 35624 35554 71 0 2 49 105 68 0.996 3.99 2.31 Intr - 35939 35853 87 0 0 112 92 119 0.997 15.14 2.30 Intr - 36127 36059 69 2 0 111 92 43 0.990 6.65 2.29 Intr - 37751 37574 178 2 1 76 93 160 0.903 15.31 2.28 Intr - 37940 37837 104 0 2 74 100 191 0.986 19.29 2.27 Intr - 38142 38029 114 1 0 10 86 87 0.516 1.62 2.26 Intr - 39104 38960 145 2 1 104 44 43 0.695 1.87 2.25 Intr - 39278 39176 103 1 1 49 20 51 0.362 -4.92 2.24 Intr - 42055 41938 118 2 1 94 71 132 0.975 12.13 2.23 Intr - 42218 42158 61 2 1 106 87 68 0.996 7.30 2.22 Intr - 42378 42299 80 1 2 67 100 114 0.841 10.27 2.21 Intr - 42558 42474 85 0 1 105 61 110 0.996 9.89 2.20 Intr - 42688 42647 42 1 0 123 103 24 0.976 6.32 2.19 Intr - 42833 42769 65 0 2 83 94 73 0.605 6.33 2.18 Intr - 43045 42940 106 1 1 66 109 51 0.640 5.29 2.17 Intr - 43199 43166 34 1 1 124 50 11 0.463 -0.39 2.16 Intr - 43329 43291 39 2 0 80 100 76 0.874 5.83 2.15 Intr - 44502 44459 44 0 2 80 106 -2 0.880 -1.67 2.14 Intr - 45144 45086 59 1 2 80 117 39 0.942 5.09 2.13 Intr - 45348 45270 79 0 1 92 65 63 0.735 4.02 2.12 Intr - 45881 45774 108 2 0 101 92 115 0.779 14.18 2.11 Intr - 46057 45976 82 0 1 73 75 63 0.999 3.64 2.10 Intr - 46491 46429 63 2 0 112 95 89 0.999 10.32 2.09 Intr - 46696 46565 132 0 0 73 60 199 0.956 15.87 2.08 Intr - 46848 46776 73 1 1 82 81 34 0.545 1.06 2.07 Intr - 47286 47244 43 0 1 95 52 7 0.240 -3.90 2.06 Intr - 47422 47375 48 1 0 76 102 24 0.638 1.96 2.05 Intr - 47786 47731 56 0 2 117 65 129 0.827 12.69 2.04 Intr - 48148 48084 65 0 2 87 77 60 0.999 3.65 2.03 Intr - 48318 48228 91 1 1 86 94 157 0.999 15.65 2.02 Intr - 48607 48550 58 1 1 119 94 120 0.998 14.65 2.01 Init - 48814 48719 96 1 0 102 86 272 0.999 28.66 2.00 Prom - 49734 49695 40 -7.99 3.46 PlyA - 49798 49793 6 -4.04 3.45 Term - 50481 49999 483 0 0 85 43 590 0.792 49.34 3.44 Intr - 50863 50699 165 1 0 112 94 81 0.962 11.77 3.43 Intr - 51435 51300 136 2 1 72 67 286 0.840 25.98 3.42 Intr - 52033 51897 137 1 2 84 36 257 0.999 19.97 3.41 Intr - 52763 52676 88 1 1 75 81 108 0.999 9.27 3.40 Intr - 52884 52844 41 0 2 96 86 60 0.994 4.11 3.39 Intr - 53345 53217 129 2 0 71 94 256 0.999 25.90 3.38 Intr - 53764 53556 209 2 2 116 39 273 0.999 24.52 3.37 Intr - 55797 55330 468 1 0 120 47 924 0.054 85.16 3.36 Intr - 72489 72336 154 0 1 81 72 129 0.697 10.76 3.35 Intr - 72832 72715 118 0 1 91 65 150 0.998 13.97 3.34 Intr - 73063 72943 121 2 1 80 85 343 0.973 33.26 3.33 Intr - 73276 73192 85 1 1 89 94 141 0.971 14.69 3.32 Intr - 73448 73351 98 0 2 56 100 193 0.870 17.53 3.31 Intr - 74119 74009 111 2 0 104 0 65 0.500 0.15 3.30 Intr - 75735 75136 600 1 0 88 74 826 0.968 74.30 3.29 Intr - 75921 75859 63 1 0 129 34 72 0.947 5.08 3.28 Intr - 77386 77170 217 1 1 80 97 390 0.944 37.70 3.27 Intr - 78174 78093 82 2 1 71 96 36 0.940 2.84 3.26 Intr - 78408 78269 140 0 2 98 92 103 0.998 11.47 3.25 Intr - 78624 78491 134 1 2 115 109 27 0.950 8.37 3.24 Intr - 79055 78896 160 2 1 108 81 68 0.676 8.17 3.23 Intr - 79324 79265 60 1 0 128 86 9 0.889 4.12 3.22 Intr - 79501 79403 99 1 0 112 60 73 0.927 7.71 3.21 Intr - 79642 79590 53 2 2 104 94 26 0.992 3.92 3.20 Intr - 80019 79931 89 2 2 42 92 156 0.969 11.51 3.19 Intr - 80242 80094 149 1 2 25 77 201 0.887 12.24 3.18 Intr - 80628 80514 115 2 1 106 93 147 0.997 17.95 3.17 Intr - 80818 80712 107 1 2 98 68 159 0.994 14.41 3.16 Intr - 81084 81012 73 2 1 116 88 74 0.888 10.10 3.15 Intr - 81286 81165 122 1 2 78 99 130 0.995 12.90 3.14 Intr - 81516 81427 90 0 0 70 61 77 0.924 3.89 3.13 Intr - 81961 81782 180 1 0 112 105 143 0.998 18.98 3.12 Intr - 82195 82092 104 2 2 41 76 42 0.966 -1.31 3.11 Intr - 82484 82404 81 0 0 86 68 95 0.718 7.41 3.10 Intr - 82684 82587 98 0 2 73 79 114 0.753 9.15 3.09 Intr - 83827 83748 80 1 2 154 94 85 0.999 14.54 3.08 Intr - 84567 84319 249 0 0 111 81 445 0.998 44.27 3.07 Intr - 84898 84623 276 1 0 76 94 365 0.990 34.15 3.06 Intr - 85236 85143 94 2 1 99 91 213 0.905 23.17 3.05 Intr - 85933 85785 149 1 2 74 75 270 0.904 23.84 3.04 Intr - 86313 86218 96 0 0 72 81 159 0.971 14.31 3.03 Intr - 87398 87315 84 2 0 97 78 72 0.948 7.61 3.02 Intr - 87569 87478 92 0 2 114 83 114 0.827 13.71 3.01 Init - 90234 90075 160 0 1 112 84 392 0.999 39.16 3.00 Prom - 92027 91988 40 -6.30 4.10 PlyA - 92303 92298 6 1.05 4.09 Term - 100522 99998 525 1 0 128 45 1451 0.984 139.46 4.08 Intr - 101151 100987 165 0 0 102 96 330 0.999 35.87 4.07 Intr - 106001 105589 413 0 2 144 69 1000 0.552 98.18 4.06 Intr - 114133 114019 115 1 1 60 99 18 0.296 0.62 4.05 Intr - 114976 114855 122 2 2 49 52 87 0.136 1.92 4.04 Intr - 120183 120086 98 2 2 93 82 199 0.624 19.95 4.03 Intr - 122233 122132 102 0 0 42 23 117 0.548 0.39 4.02 Intr - 124152 123726 427 1 1 84 80 1092 0.783 101.42 4.01 Init - 125295 125277 19 0 1 63 95 8 0.805 -0.86 4.00 Prom - 126269 126230 40 0.99 5.00 Prom + 127461 127500 40 -4.11 5.01 Sngl + 131248 131424 177 0 0 70 42 150 0.663 3.85 5.02 PlyA + 132584 132589 6 1.05 6.48 PlyA - 133001 132996 6 1.05 6.47 Term - 137082 136781 302 1 2 68 50 174 0.700 7.33 6.46 Intr - 137279 137175 105 0 0 14 109 62 0.113 1.59 6.45 Intr - 137622 137481 142 0 1 95 47 64 0.122 3.44 6.44 Intr - 138450 138255 196 2 1 69 99 44 0.018 3.54 6.43 Intr - 140874 140666 209 0 2 106 -18 362 0.019 25.80 6.42 Intr - 141107 140955 153 2 0 99 45 232 0.625 20.78 6.41 Intr - 142281 142127 155 1 2 95 109 168 0.991 19.90 6.40 Intr - 142534 142413 122 0 2 94 65 247 0.985 23.64 6.39 Intr - 143159 143077 83 2 2 113 100 117 0.999 14.33 6.38 Intr - 143408 143336 73 1 1 60 103 98 0.991 8.40 6.37 Intr - 143639 143504 136 0 1 118 96 40 0.999 7.93 6.36 Intr - 143835 143751 85 0 1 106 76 144 0.998 14.89 6.35 Intr - 144027 143926 102 0 0 56 109 115 0.987 11.27 6.34 Intr - 144507 144301 207 0 0 98 60 234 0.996 21.40 6.33 Intr - 146294 146159 136 1 1 111 113 79 0.999 13.78 6.32 Intr - 146757 146549 209 0 2 81 94 170 0.945 15.30 6.31 Intr - 147793 147627 167 2 2 97 90 188 0.648 20.09 6.30 Intr - 148051 147925 127 1 1 77 72 193 0.989 17.36 6.29 Intr - 148345 148175 171 1 0 104 94 205 0.609 23.35 6.28 Intr - 149029 148953 77 2 2 87 105 67 0.973 8.03 6.27 Intr - 149325 149255 71 2 2 122 64 168 0.984 17.12 6.26 Intr - 151320 151228 93 2 0 14 85 149 0.886 6.78 6.25 Intr - 151513 151395 119 1 2 45 43 169 0.658 7.87 6.24 Intr - 151858 151778 81 1 0 100 99 84 0.987 11.03 6.23 Intr - 152198 151999 200 0 2 7 86 221 0.612 13.39 6.22 Intr - 152480 152330 151 2 1 63 48 190 0.609 12.75 6.21 Intr - 153104 152920 185 0 2 70 113 195 0.889 20.23 6.20 Intr - 153329 153190 140 1 2 91 51 151 0.830 12.32 6.19 Intr - 153555 153413 143 0 2 94 49 206 0.879 16.96 6.18 Intr - 154815 154656 160 2 1 84 78 175 0.988 16.60 6.17 Intr - 155032 154936 97 2 1 133 100 114 0.999 16.67 6.16 Intr - 155589 155346 244 0 1 109 81 303 0.986 29.30 6.15 Intr - 155860 155705 156 1 0 115 85 224 0.998 25.52 6.14 Intr - 156373 156281 93 1 0 97 86 3 0.728 1.66 6.13 Intr - 156619 156472 148 0 1 139 78 203 0.992 25.15 6.12 Intr - 156940 156703 238 2 1 88 0 191 0.998 7.50 6.11 Intr - 157647 157507 141 1 0 125 105 98 0.991 16.03 6.10 Intr - 157914 157750 165 1 0 103 68 179 0.994 17.85 6.09 Intr - 158088 157992 97 0 1 69 94 73 0.998 6.08 6.08 Intr - 158801 158676 126 2 0 103 84 138 0.735 16.28 6.07 Intr - 159066 158931 136 2 1 47 99 246 0.986 22.68 6.06 Intr - 159588 159486 103 1 1 102 94 130 0.990 14.73 6.05 Intr - 159898 159746 153 2 0 125 93 127 0.998 17.46 6.04 Intr - 160165 160003 163 1 1 79 94 234 0.998 23.16 6.03 Intr - 161218 161103 116 2 2 95 -3 52 0.649 -2.53 6.02 Intr - 162148 162020 129 2 0 54 39 124 0.649 5.27 6.01 Init - 162800 162602 199 2 1 58 86 130 0.903 8.87 6.00 Prom - 166621 166582 40 -0.91 7.00 Prom + 167456 167495 40 -4.21 7.01 Init + 169076 169240 165 1 0 80 62 109 0.689 7.11 7.02 Intr + 170556 170693 138 2 0 -18 81 170 0.392 6.87 7.03 Intr + 171481 171598 118 0 1 44 105 101 0.298 7.94 7.04 Intr + 172377 172573 197 1 2 88 89 443 0.969 44.05 7.05 Intr + 173467 173568 102 0 0 76 41 136 0.863 8.57 7.06 Intr + 173731 173823 93 0 0 118 27 90 0.989 6.56 7.07 Intr + 173960 174090 131 1 2 149 117 280 0.999 37.00 7.08 Intr + 175987 176046 60 1 0 136 55 98 0.999 9.64 7.09 Intr + 176146 176254 109 1 1 110 94 177 0.961 21.29 7.10 Intr + 177101 177154 54 1 0 109 94 70 0.997 9.36 7.11 Intr + 177224 177274 51 1 0 137 64 43 0.988 6.39 7.12 Intr + 177414 177533 120 2 0 79 80 118 0.968 11.29 7.13 Intr + 178430 178557 128 1 2 109 81 154 0.999 16.78 7.14 Intr + 178810 178911 102 1 0 15 73 180 0.984 8.99 7.15 Term + 179362 179509 148 1 1 86 42 173 0.988 10.19 7.16 PlyA + 180122 180127 6 1.05 8.12 PlyA - 180157 180152 6 1.05 8.11 Term - 180539 180438 102 2 0 110 41 104 0.998 6.48 8.10 Intr - 180840 180656 185 1 2 84 100 206 0.995 21.43 8.09 Intr - 181747 181671 77 0 2 10 75 70 0.052 -2.45 8.08 Intr - 185432 185327 106 0 1 108 116 57 0.955 10.27 8.07 Intr - 186311 186239 73 2 1 74 100 48 0.967 4.07 8.06 Intr - 191818 191755 64 0 1 92 89 23 0.958 2.01 8.05 Intr - 193270 193039 232 2 1 66 82 97 0.206 4.26 8.04 Intr - 195546 195408 139 0 1 59 119 26 0.278 3.34 8.03 Intr - 200467 200422 46 0 1 100 75 37 0.286 2.50 8.02 Intr - 205087 204970 118 2 1 60 91 13 0.073 -1.17 8.01 Init - 210663 210657 7 0 1 76 100 0 0.196 0.89 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 102282 101938 345 0 0 28 56 205 0.908 6.59 S.002 Term - 140874 140638 237 0 0 106 52 418 0.980 36.50 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587r:64754336_64978464|GENSCAN_predicted_peptide_1|1160_aa MATGANATPLGKLGPPGLPPLPGPKGGFEPGPPPAPGPGAGLLAPGPPPPPPVGSMGALT AAFPFAALPPPPPPPPPPPPQQPPPPPPPPSPGASYPPPQPPPPPPLYQRVSPPQPPPPQ PPRKDQQPGPAGGGGDFPSKKRKRSRWNQDTMEQKTVIPGMPTVIPPGLTREQERAYIVF SMSIRKVGFHLGVRTVPSPAATLFSCCSLPVDEVSVICLSGQAPVENTAVQLQIEDLTRK LRTGDLGIPPNPEDRSPSPEPIYNSEGKRLNTREFRTRKKLEEERHNLITEMVALNPDFK PPADYKPPATRVSDKVMIPQDEYPEINFVGLLIGPRGNTLKNIEKECNAKIMIRGKGSVK EGKVGRKDGQMLPGEDEPLHALVTANTMENVKKAVEQIRNILKQGIETPEDQNDLRKMQL RELARLNGTLREDDNRILRPWQSSETRSITNTTVCTKCGGAGHIASDCKFQRPGDPQSAQ DKARMDKEYLSLMAELGEAPVPASVGSTSGPATTPLASAPRPAAPANNPPPPSRPPWMNS GPSESRPYHGMHGGGPGGPGGGPHSFPHPLPSLTGGHGGHPMQHNPNGPPPPWMQPPPPP MNQGPHPPGHHGPPPMDQYLGSTPVGSGVYRLHQGKGNGCLLAVGLHLGLGMMPPPPMGM MPPPPPPPSGQPPPPPSGPLPPWQQQQQQPPPPPPPSSSMASSTPLPWQQTPPTRPPPPY RMPSKEQAPLAPIPRQQPQTAAVCPRACDLGLLYHPRYDDYHHERWHRVHPAMATAAGGC RSFSRSPSDARQPHYGAPAPRGRLRDSRLPQHLAAGASNWPGLLSSSMSRPLSDQEKRKQ ISVRGLAGVENVTELKKNFNRHLHFTLVKDRNVATPRDYYFALAHTVRDHLVGRWIRTQQ HYYEKDPKRIYYLSLEFYMGRTLQNTMVNLALENACDEATYQLGLDMEELEEIEEDAGLG NGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKISGGWQMEEADDWLRYGNPWEKA RPEFTLPVHFYGHVEHTSQGAKWVDTQVVLAMPYDTPVPGYRNNVVNTMRLWSAKAPNDF NLKDFNVGGYIQAVLDRNLAENISRVLYPNDNFFEGKELRLKQEYFVVAATLQDIIRRFK SSKFGCRDPVRTNFDAFPDK >gi568815587r:64754336_64978464|GENSCAN_predicted_CDS_1|3480_bp atggcgaccggagcgaacgccacgccgttgggtaagctgggcccccccgggctgcccccg ctccccgggcccaaaggaggcttcgagccgggccctccgcctgcacccgggcctggggcg gggctgctggctcccgggccgccgccgcccccgcccgtgggctcgatgggggccctgacc gcggccttccccttcgcggcgctgcctccgccgcctccgccgccgccccctccgcctccc cagcagccgccgccgcctccaccgccaccgtcccccggcgcctcgtacccgccgccgcag ccgccccctccgccgccgctctaccagcgcgtgtcgccgccgcagccgccgccaccccag ccgccgcgtaaggaccagcagccgggcccggccggcggcggaggagacttcccaagtaag aagcggaagaggagccgctggaaccaagacacaatggaacagaagacagtgattccagga atgcctacagttattccccctggacttactcgagaacaagaaagagcttatatagtgttc tccatgagtatcaggaaggtagggtttcacttaggagtaagaacagtccccagtccagca gccacccttttcagctgctgttcattgccagttgatgaggtgagtgtcatctgcctctct ggacaggccccagtggagaacaccgcagtgcaactgcagatagaagacctgactcgtaaa ctgcgcacaggagacctgggcatcccccctaaccctgaggacaggtccccttcccctgag cccatctacaatagcgaggggaagcggcttaacacccgagagttccgcacccgcaaaaag ctggaagaggagcggcacaacctcatcacagagatggttgcactcaatccggatttcaag ccacctgcagattacaaacctccagcaacacgtgtgagtgataaagtcatgattccacaa gatgagtacccagaaatcaactttgtggggctgctcatcgggcccagagggaacaccctg aagaacatagagaaggagtgcaatgccaagattatgatccgggggaaagggtctgtgaaa gaagggaaggttgggcgcaaagatggccagatgttgccaggagaagatgagccacttcat gccctggttactgccaatacaatggagaacgtcaaaaaggcagtggaacagataagaaac atcctgaagcagggtatcgagactccagaggaccagaatgatctacggaagatgcagctt cgggagttggctcgcttaaatgggacccttcgggaagacgataacaggatcttaagaccc tggcagagctcagagacccgcagcattaccaacaccacagtgtgtaccaagtgtggaggg gctggccacattgcttcagactgtaaattccaaaggcctggtgatcctcagtcagctcag gataaagcacggatggataaagaatatttgtccctcatggctgaactgggtgaagcacct gtcccagcatctgtgggctccacctctgggcctgccaccacacccctggccagcgcacct cgtcctgctgctcccgccaacaacccacctccaccgagccgcccaccctggatgaattct ggcccttcagagagtcggccctaccacggcatgcatggaggtggtcctggtgggcccgga ggtggcccccacagcttcccacacccattacccagcctgacaggtgggcatggtggacat cccatgcagcacaaccccaatggacccccacccccttggatgcagccaccaccaccaccg atgaaccagggcccccaccctcctgggcaccatggccctcctccaatggatcagtacctg ggaagtacgcctgtgggctctggggtctatcgcctgcatcaaggaaaaggtaatggctgt ctgctggctgtgggtcttcacctaggcttgggtatgatgccgccaccacctatgggcatg atgccgccgccgccgccgcctcccagtgggcagcccccaccccctccctctggtcctctt cccccatggcaacaacagcagcagcagcctccgccaccccctccgcccagcagcagtatg gcttccagtacccccttgccatggcagcaaaccccgcccacccgccccccaccaccgtac cgcatgccaagcaaggagcaggcgcccctcgcccccatcccaaggcagcagccgcagaca gccgcggtgtgcccccgcgcgtgtgaccttgggcttctttaccaccccagatacgacgac taccaccacgagcgctggcacagggtccatcccgccatggcaacagcagcaggcggctgc cgcagcttctccaggagcccctcagatgcaaggcaaccccactatggtgcccctgccccc cgggggcggctgagggacagtaggctcccccagcatctggctgctggggccagcaactgg cctgggctgctttccagctccatgtcccggcccctgtcagaccaagagaaaagaaagcaa atcagtgtgcgtggcctggccggcgtggagaacgtgactgagctgaaaaagaacttcaac cggcacctgcatttcacactcgtaaaggaccgcaatgtggccaccccacgagactactac tttgctctggcccataccgtgcgcgaccacctcgtggggcgctggatccgcacgcagcag cactactatgagaaggaccccaagaggatctactacctgtctttagagttctatatggga cggacgctacagaacaccatggtgaacctggccttagagaatgcctgtgacgaggccacc taccagctgggcctggacatggaggagctggaggaaattgaggaggatgcggggctgggc aacgggggcctgggccggctggcagcctgctttcttgactccatggcaacactgggcctg gccgcctatggctacgggattcgctatgagtttgggatttttaaccagaagatctccggg ggctggcagatggaggaggccgatgactggcttcgctacggcaacccctgggagaaggcc cggcccgagttcacgctacctgtgcacttctacggccatgtggagcacaccagccagggt gccaagtgggtggacacacaggtggtactggccatgccctacgatacgcccgtgcctggc tatcgcaacaatgttgtcaacaccatgcgcctctggtctgccaaggctcccaatgacttc aacctcaaggacttcaatgtcggtggctacatccaggctgtgttggaccgaaacctggcg gagaacatctctcgtgtcctgtaccccaatgataatttcttcgaagggaaggagctgcgg ctgaagcaggagtatttcgtggtggctgccaccctccaggacatcatccgtcgcttcaag tcttccaagttcggctgccgtgatcccgtgcgcacgaacttcgatgccttcccagataag >gi568815587r:64754336_64978464|GENSCAN_predicted_peptide_2|913_aa MALLRDVSLQDPRDRFELLQRVGAGTYGDVYKARDTVTSELAAVKIVKLDPGDDISSLQQ EITILRECRHPNVVAYIGSYLRNDRLWICMEFCGGGSLQEIYHATGPLEERQIAYVCREA LKGLHHLHSQGKIHRDIKGANLLLTLQGDVKLADFGVSGELTASVAKRRSFIGTPYWMAP EVAAVERKGGYNELCDVWALGITAIELGELQPPLFHLHPMRALMLMSKSSFQPPKLRDKT RWTQNFHHFLKLALTKNPKKRPTAEKLLQHPFTTQQLPRALLTQLLDKASDPHLGTPSPE DCELETYDMFPDTIHSRGQHGPAERTPSEIQFHQVKFGAPRRKETDPLNEPWEEEWTLLG KEELSGSLLQSVQEALEERSLTIRSASEFQELDSPDDTMGTIKRAPFLGPLPTDPPAEEP LSSPPGPNSSPLLPTAWATMKQREDPERSSCHGLPPTPKVHMGACFSKVFNGCPLRIHAA VTWIHPVTRDQFLVVGAEEGIYTLNLHELHEDTLEKLISHRCSWLYCVNNVLLSLSGKST HIWAHDLPGLFEQRRLQQQVPLSIPTNRLTQRIIPRRYKQDMGHWVEVAGLLTGSPIPQR KKQAERVPWRQGKPPPGPTGLLPLLEKQRAGHLPFEVHSLPRACFPICEMGRVQSVQPGA LPMDGIPDTGPGYHPYRRFALSTKIPDTKGCLQCRVVRNPYTGATFLLAALPTSLLLLQW YEPLQKFLLLKNFSSPLPSPAGMLEPLVLDGKELPQVCVGAEGPEGPGCRVLFHVLPLEA GLTPDILIPPEGIPGSAQQVIQVDRDTILVSFERCVRIVNMQGEPTATLAPELTFDFPIE TVVCLQDSVLAFWSHGMQGRSLDTNEVTQEITDETRIFRVLGAHRDIILESIPTDNPEAH SNLYILTGHQSTY >gi568815587r:64754336_64978464|GENSCAN_predicted_CDS_2|2742_bp atggcgctgctgcgggatgtgtcgctgcaggacccgcgggaccgcttcgagctgctgcag cgcgtgggggccgggacctatggcgacgtctacaaggcccgcgacacggtcacgtccgaa ctggccgccgtgaagatagtcaagctagacccaggggacgacatcagctccctccagcag gaaatcaccatcctgcgtgagtgccgccaccccaatgtggtggcctacattggcagctac ctcaggaatgaccgcttgtggatctgcatggagttctgcggagggggctccctgcaggag atttaccatgccactgggcccctggaggagcggcagattgcctacgtctgccgagaggca ctgaaggggctccaccacctgcattctcaggggaagatccacagagacatcaagggagcc aaccttctcctcactctccagggagatgtcaaactggctgactttggggtgtcaggcgag ctgacagcgtctgtggccaagaggaggtctttcattgggactccctactggatggctccc gaggtggctgctgtggagcgcaaaggtggctacaatgagctatgtgacgtctgggccctg ggcatcactgccattgagctgggcgagctgcagccccctctgttccacctgcaccccatg agggccctgatgctcatgtcgaagagcagcttccagccgcccaaactgagagataagact cgctggacccagaatttccaccactttctcaaactggccctgaccaagaatcctaagaag aggccgacagcagagaagctcctgcagcacccgttcacgactcagcagctccctcgggcc ctcctcacacagctgctggacaaagccagtgaccctcatctggggaccccctcccctgag gactgtgagctggagacctatgacatgtttccagacaccattcactcccgggggcagcac ggcccagccgagaggaccccctcggagatccagtttcaccaggtgaaatttggcgcccca cgcaggaaggaaactgacccactgaatgagccgtgggaggaagagtggacactactggga aaggaagagttgagtgggagcctgctgcagtcggtccaggaggccctggaggaaaggagt ctgactattcggtcagcctcagaattccaggagctggactccccagacgataccatggga accatcaagcgggccccgttcctagggccactccccactgaccctccagcagaggagcct ctgtccagtcccccaggccccaacagctccccactgctgcccacggcctgggccaccatg aagcagcgggaggatcctgagaggtcatcctgccacgggctccccccaactcccaaggtg catatgggcgcctgcttctccaaggtcttcaatggctgccccctgcggatccacgctgct gtcacctggattcaccctgttactcgggaccagttcctggtggtaggggccgaggaaggc atctacacactcaacctgcatgaactgcatgaggatacgctggagaagctgatttcacat cgctgctcctggctctactgcgtgaacaacgtgctgctgtcactctcagggaaatccacg cacatctgggcccatgacctcccaggcctgtttgagcagcggaggctacagcaacaggtt cccctctccatccccaccaaccgcctcacccagcgcatcatccccagaaggtacaaacag gacatgggccactgggtggaggtggcagggctgctgacaggaagccccattccccagagg aagaaacaggctgagagggtcccctggaggcaaggcaagccaccccctggccccacaggg ctgttgcctctgctggagaagcagagggcaggccatttgccttttgaagttcattcactg ccccgggcctgttttcccatctgtgaaatgggccgtgtgcagtctgtgcaacctggggcc ttgcccatggatggcatcccagacacaggccctggttatcacccctacaggcgctttgct ctgtccaccaagattcctgacaccaaaggctgcttgcagtgtcgtgtggtgcggaacccc tacacgggtgccaccttcctgctggccgccctgcccaccagcctgctcctgctgcagtgg tatgagccgctgcagaagtttctgctgctgaagaacttctccagccctctgcccagccca gctgggatgctggagccgctggtgctggatgggaaggagctgccgcaggtgtgtgttggg gccgaggggcctgaggggcccggctgccgcgtcctgttccatgtcctgcccctggaggct ggcctgacgcccgacatcctcatcccacctgaggggatcccaggctcggcccagcaggtg atccaggtggacagggacacaatcctagtcagctttgaacgctgtgtgaggattgtcaac atgcagggcgagcccacggccacactggcacctgagctgacctttgatttccccatcgag actgtggtgtgcctgcaggacagtgtgctggccttctggagccatgggatgcaaggccga agcctggataccaatgaggtgacccaggagatcacagatgaaacaaggatcttccgagtg cttggggcccacagagacatcatcctggagagcattcccactgacaacccagaggcgcac agcaacctctacatcctcacgggccaccagagcacctactaa >gi568815587r:64754336_64978464|GENSCAN_predicted_peptide_3|2212_aa MERRLRALEQLARGEAGGCPGLDGLLDLLLALHHELSSGPLRRERSVAQFLSWASPFVSK VKELRLQRDDFEILKVIGRGAFGEVTVVRQRDTGQIFAMKMLHKWEMLKRAETACFREER DVLVKGDSRWVTTLHYAFQDEEYLYLVMDYYAGGDLLTLLSRFEDRLPPELAQFYLAEMV LAIHSLHQLGYVHRDVKPDNVLLDVNGHIRLADFGSCLRLNTNGMVDSSVAVGTPDYISP EILQAMEEGKGHYGPQCDWWSLGVCAYELLFGETPFYAESLVETYGKIMNHEVWTPGSGL PEGAVGPLSLCGWKYRQDHLQFPPDVPDVPASAQDLIRQLLCRQEERLGRGGLDDFRNHP FFEGVDWERLASSTAPYIPELRGPMDTSNFDVDDDTLNHPGTLPPPSHGAFSGHHLPFVG FTYTSGSHSPESSSEAWAALERKLQCLEQEKVELSRKHQEALHAPTDHRELEQLRKEVQT LRDRLPEMLRDKASLSQTDGPPAGSPGQDSDLRQELDRLHRELAEGRAGLQAQEQELCRA QGQQEELLQRLQEAQEREAATASQTRALSSQLEEARAAQRELEAQVSSLSRQVTQLQGQW EQRLEESSQAKTIHTASETNGMGPPEGGPQEAQLRKEVAALREQLEQAHSHRPSGKEEAL CQLQEENRRLSREQERLEAELAQEQESKQRLEGERRETESNWEAQLADILSWVNDEKVSR GYLQALATKMAEELESLRNVGTQTLPARPLDHQWKARRLQKMEASARLELQSALEAEIRA KQGLQERLTQVQEAQLQAERRLQEAEKQSQALQQELAMLREELRARGPVDTKPSNSLIPF LSFRSSEKDSAKDPGISGEATRHGGEPDLRPEGRRSLRMGAVFPRAPTANTASTEGLPAK GWGMGPWEALGNGCPPPQPGSHTLRPRSFPSPTKCLRCTSLMLGLGRQGLGCDACGYFCH TTCAPQAPPCPVPPDLLRTALGVHPETGTGTAYEGFLSVPRPSGVRRGWQRVFAALSDSR LLLFDAPDLRLSPPSGALLQVLDLRDPQFSATPVLASDVIHAQSRDLPRIFRVTTSQLAV PPTTCTVLLLAESEGERERWLQVLGELQRLLLDARPRPRPVYTLKEAYDNGLPLLPHTLC AAILDQDRLALGTEEGLFVIHLRSNDIFQVGECRRVQQLTLSPSAGLLVVLCGRGPSVRL FALAELENIEVAGAKIPESRGCQVLAAGSILQARTPVLCVAVKRQVLCYQLGPGPGPWQR RIRELQAPATVQSLGLLGDRLCVGAAGGFALYPLLNEAAPLALGAGLVPEELPPSRGGLG EALGAVELSLSEFLLLFTTAGIYVDGAGRKSRGHELLWPAAPMGWDLCHGSHRLHFMTGL VHWGPTEWAGAGFLIHIKPPAQGYAAPYLTVFSENSIDVFDVRRAEWVQTVPLKKVRPLN PEGSLFLYGTEKVRLTYLRNQLAEKDEFDIPDLTDNSRRQLFRTKSKRRFFFRVSEEQQK QQRREMLKDPFVRSKLISPPTNFNHLVHVGPANGRPGARDKSPSQPLRTVTQQAPEEKGR VARGSGPQRPHSFSEALRRPASMGSEGLGGDADPSRRPPPAAMGLKAAQKTLFPLRSIDD VVRLFAAELGREEPDLVLLSLVLGFVEHFLAVNRVIPTNVPELTFQPSPAPDPPGGLTYF PVADLSIIAALYARFTAQIRGAVDLSLYPREGGVSSRELVKKVSDVIWNSLSRSYFKDRA HIQSLFSFITGTKLDSSGVAFAVVGACQALGLRDVHLALSEDHAWVVFGPNGEQTAEVTW HGKGNEDRRGQTVNAGVAERSWLYLKGSYMRCDRKMEVAFMVCAINPSIDLHTDSLELLQ LQQKLLWLLYDLGHLERYPMALGNLADLEELEPTPGRPDPLTLYHKGIASAKTYYRDEHI YPYMYLAGYHCRNRNVREALQAWADTATVIQDYNYCREDEEIYKEFFEVANDVIPNLLKE AASLLEAGEERPGEQSQGTQSQGSALQDPECFAHLLRFYDGICKWEEGSPTPVLHVGWAT FLVQSLGRFEGQVRQKVRIVSREAEAAEAEEPWGEEAREGRRRGPRRESKPEEPPPPKKP ALDKGLGTGQGAVSGPPRKPPGTVAGTARGPEGGSTAQVPAPTASPPPEGPVLTFQSEKM KGMKELLVATKINSSAIKLQLTAQSQVQMKKQKVSTPSDYTLSFLKRQRKGL >gi568815587r:64754336_64978464|GENSCAN_predicted_CDS_3|6639_bp atggagcggcggctgcgcgcgctggagcagctggcgcggggcgaggccggcggctgcccg gggctcgacggcctcctagatctgctgctggcgctgcaccacgagctcagcagcggcccc ctacggcgggagcgcagcgtggcgcagttcctgagctgggccagccccttcgtatcaaag gtgaaagaactgcgtctgcagagagatgactttgagatcttgaaggtgatcggccgagga gcctttggggaggtcaccgtggtgaggcagagggacactgggcagatttttgccatgaaa atgctgcacaagtgggagatgctgaagagggctgagacagcctgtttccgggaggagcgg gatgtgctcgtgaaaggggacagccgttgggtgaccactctgcactatgccttccaagac gaggagtacctgtaccttgtgatggactactatgctggtggggacctcctgacgctgctg agccgcttcgaggaccgtctcccgcccgagctggcccagttctacctggctgagatggtg ctggccatccactcgctgcaccagctgggttatgtccacagggatgtcaagccagacaac gtcctgctggatgtgaacgggcacattcgcctggctgacttcggctcctgcctgcgtctc aacaccaacggcatggtggattcatcagtggcagtagggacgccggactatatctcccct gagatcctgcaggccatggaggagggcaagggccactacggcccacagtgtgactggtgg tcgcttggagtctgcgcctatgagctgctctttggggagacgcccttctatgctgagtcc ttggtggaaacctacggcaagatcatgaaccacgaggtctggacaccaggctctgggctt ccagagggggcagtgggacccctgagtctgtgtggttggaagtaccggcaggaccacctg cagttccccccggacgtgcctgacgtgccagccagcgcccaagacctgatccgccagctg ctgtgtcgccaggaagagcggctaggccgtggtgggctggatgacttccggaaccatcct ttcttcgaaggcgtggactgggagcggctggcgagcagcacggccccctatattcctgag ctgcgggggcccatggacacctccaactttgatgtggatgacgacaccctcaaccatcca gggaccctgccaccgccctcccacggggccttctccggccatcacctgccattcgtgggc ttcacctacacctcaggcagtcacagtcctgagagcagctctgaggcttgggctgccctg gagcggaagctccagtgtctggagcaggagaaggtggagctgagcaggaagcaccaagag gccctgcacgcccccacagaccatcgggagctggagcagctacggaaggaagtgcagact ctgcgggacaggctgccagagatgctgagggacaaggcctcattgtcccagacggatggg cccccagctggtagcccaggtcaggacagtgacctacggcaggagcttgaccgacttcac cgggagctggccgagggtcgggcagggctgcaggctcaggagcaggagctctgcagggcc caggggcagcaggaggagctgcttcagaggctacaggaggcccaggagagagaggcggcc acagctagccagacccgggccctgagctcccagctggaggaagcccgggctgcccagagg gagctggaggcccaggtgtcctccctgagccggcaggtgacgcagctgcagggacagtgg gagcaacgccttgaggagtcgtcccaggccaagaccatccacacagcctctgagaccaac gggatgggaccccctgagggtgggcctcaggaggcccaactgaggaaggaggtggccgcc ctgcgagagcagctggagcaggcccacagccacaggccgagtggtaaggaggaggctctg tgccagctgcaggaggaaaaccggaggctgagccgggagcaggagcggctagaagcagag ctggcccaggagcaggagagcaagcagcggctggagggtgagcggcgggagacggagagc aactgggaggcccagctcgccgacatcctcagctgggtgaatgatgagaaggtctcaaga ggctacctgcaggccctggccaccaagatggcagaggagctggagtccttgaggaacgta ggcacccagacgctccctgcccggccactggaccaccagtggaaggcgcggcgactgcag aagatggaggcctcggccaggctggagctgcagtcagcgctggaggccgagatccgcgcc aagcagggcctgcaggagcggctgacacaggtgcaggaggcccagctgcaggctgagcgc cgtctgcaggaggccgagaagcagagccaggccctgcaacaggagctcgccatgctgcgg gaggagctgcgggcccgagggccagtggacaccaagccctcaaactccctgattcccttc ctgtccttccggagctcagagaaggattctgccaaggaccctggcatctcaggagaggcc acaaggcatggaggagagccagatctgaggccggagggccgacgcagcctgcgcatgggg gctgtgttccccagagcacccactgccaacacagcctctacagaaggtcttcctgctaag ggatggggcatggggccctgggaggccttgggtaatggctgtccccctccccagcccggc tcacacacgctgcgcccccggagcttcccatccccgaccaagtgtctccgctgcacctcg ctgatgctgggcctgggccgccagggcctgggttgtgatgcctgcggctacttttgtcac acaacctgtgccccacaggccccaccctgccccgtgccccctgacctcctccgcacagcc ctgggagtacaccccgaaacaggcacaggcactgcctatgagggctttctgtcggtgccg cggccctcaggtgtccggcggggctggcagcgcgtgtttgctgccctgagtgactcacgc ctgctgctgtttgacgcccctgacctgaggctcagcccgcccagtggggccctcctgcag gtcctagatctgagggacccccagttctcggctacccctgtcctggcctctgatgttatc catgcccaatccagggacctgccacgcatctttagggtgacaacctcccagctggcagtg ccgcccaccacgtgcactgtgctgctgctggcagagagcgagggggagcgggaacgctgg ctgcaggtgctgggtgagctgcagcggctgctgctggacgcgcggccaagaccccggccc gtgtacacactcaaggaggcttacgacaacgggctgccgctgctgcctcacacgctctgc gctgccatcctcgaccaggatcgacttgcgcttggcaccgaggaggggctctttgtcatc catctgcgcagcaacgacatcttccaggtgggggagtgccggcgcgtgcagcagctgacc ttgagccccagtgcaggcctgctggtcgtgctgtgtggccgcggccccagcgtgcgtctc tttgccctggcggagctggagaacatagaggtagcaggtgccaagatccccgagtctcga ggctgccaggtgctggcagctggaagcatcctgcaggcccgcaccccggtgctctgtgta gccgtcaagcgccaggtgctctgctaccagctgggcccgggccctgggccctggcagcgc cgcatccgtgagctgcaggcacctgccactgtgcagagcctggggctgctgggcgaccgg ctatgtgtgggcgccgccggtggctttgcactctacccgctgctcaacgaggctgcgccg ttggcgctgggggccggtttggtgcctgaggagctgccaccatcccgcgggggcctgggt gaggcactgggtgccgtggagcttagcctcagcgagttcctgctactcttcaccactgct ggcatctacgtggatggcgcaggccgcaagtctcgtggccacgagctgttgtggccagca gcgcccatgggctgggacctgtgtcacggctctcatcgcctccacttcatgactggcttg gtgcactggggtcccacagaatgggccggggctggtttcctcatccacatcaagccccca gcccaggggtatgcggccccctacctgacagtgttcagcgagaactccatcgatgtgttt gacgtgaggagggcagaatgggtgcagaccgtgccgctcaagaaggtgcggcccctcaat ccagagggctccctgttcctctacggcaccgagaaggtccgcctgacctacctcaggaac cagctggcagagaaggacgagttcgacatcccggacctcaccgacaacagccggcgccag ctgttccgcaccaagagcaagcgccgcttctttttccgcgtgtcggaggagcagcagaag cagcagcgcagggagatgctgaaggacccttttgtgcgctccaagctcatctcgccgcct accaacttcaaccacctagtacacgtgggccctgccaacgggcggcccggcgccagggac aagtccccgtcccagcccctccgcactgtcacccaacaggctcccgaagagaagggccga gttgcccgcggctccggcccacagcggccccacagcttctccgaggcgttgcggcgccca gcctccatgggcagcgaaggcctcggtggagacgcagaccccagccgccgcccaccgccc gccgccatggggctgaaggccgcccagaagacgctgttcccgctgcgctccatcgacgac gtggtgcgcctgtttgctgccgagctgggccgagaggagccggacctggtgctcctttcc ttggtgctgggcttcgtggagcattttctggctgtcaaccgcgtcatccctaccaacgtt cccgagctcaccttccagcccagccccgcccccgacccgcctggcggcctcacctacttt cccgtggccgacctgtctatcatcgccgccctctatgcccgcttcaccgcccagatccga ggcgccgtcgacctgtccctctatcctcgagaagggggtgtctccagccgtgagctggtg aagaaggtctccgatgtcatatggaacagcctcagccgctcctacttcaaggatcgggcc cacatccagtccctcttcagcttcatcacaggcaccaaattggacagctccggtgtggcc tttgctgtggttggggcctgccaggccctgggtctccgggatgtccacctcgccctgtct gaggatcatgcctgggtagtgtttgggcccaatggggagcagacagctgaggtcacctgg cacggcaagggcaacgaggaccgcaggggccagacagtcaatgccggtgtggctgagcgg agctggctgtacctgaaaggatcatacatgcgctgtgaccgcaagatggaggtggcgttc atggtgtgtgccatcaacccttccattgacctgcacaccgactcgctggagcttctgcag ctgcagcagaagctgctctggctgctctatgacctgggacatctggaaaggtaccccatg gccttagggaacctggcagatctagaggagctggagcccacccctggccggccagaccca ctcaccctctaccacaagggcattgcctcagccaagacctactatcgggatgaacacatc tacccctacatgtacctggctggctaccactgtcgcaaccgcaatgtgcgggaagccctg caggcctgggcggacacggccactgtcatccaggactacaactactgccgggaagacgag gagatctacaaggagttctttgaagtagccaatgatgtcatccccaacctgctgaaggag gcagccagcttgctggaggcgggcgaggagcggccgggggagcaaagccagggcacccag agccaaggttccgccctccaggaccctgagtgcttcgcccacctgctgcgattctacgac ggcatctgcaaatgggaggagggcagtcccacgcctgtgctgcatgtgggctgggccacc tttcttgtgcagtccctaggccgttttgagggacaggtgcggcagaaggtgcgcatagtg agccgagaggccgaggcggccgaggccgaggagccgtggggcgaggaagcccgggaaggc cggcggcggggcccacggcgggagtccaagccagaggagcccccgccgcccaagaagcca gcactggacaagggcctgggcaccggccagggtgcagtgtcaggacccccccggaagcct cctgggactgtcgctggcacagcccgaggccctgaaggtggcagcacggctcaggtgcca gcacccacagcatcaccaccgccggagggtccagtgctcactttccagagtgagaagatg aagggcatgaaggagctgctggtggccaccaagatcaactcgagcgccatcaagctgcaa ctcacggcacagtcgcaagtgcagatgaagaagcagaaagtgtccacccctagtgactac actctgtctttcctcaagcggcagcgcaaaggcctctga >gi568815587r:64754336_64978464|GENSCAN_predicted_peptide_4|661_aa MEQPGTAASPVSGSMFSWVSKDARRKKEPELFQTVAEGLRQLYAQKLLPLEEHYRFHEFH SPALEDADFDNKPMVLLVGQYSTGKTTFIRHLIEQDFPGMRIGPEPTTDSFIAVMHGPTE GVVPGNALVVDPRRPFRKLNAFGNAFLNSQLLLSAASTRKRAIRDCFVRDRCFDDIGATG SERFMCAQLPNPVLDSISIIDTPGILSGEKQRISRGQDAKTAFGLSLCWGRAGSATEEAY QALPALSTCSPGCALAGCTIRCHPFTCWGAWVVPPGAVLSQVRGSCGRVLLLLSGYDFAA VLEWFAERVDRIILLFDAHKLDISDEFSEVIKALKNHEDKIRVVLNKADQIETQQLMRVY GALMWSLGKIINTPEVVRVYIGSFWSHPLLIPDNRKLFEAEEQDLFKDIQSLPRNAALRK LNDLIKRARLAKVHAYIISSLKKEMPNVFGKESKKKELVNNLGEIYQKIEREHQISPGDF PSLRKMQELLQTQDFSKFQALKPKLLDTVDDMLANDIARLMVMVRQEESLMPSQVVKGGA FDGTMNGPFGHGYGEGAGEGIDDVEWVVGKDKPTYDEIFYTLSPVNGKITGANAKKEMVK SKLPNTVLGKIWKLADVDKDGLLDDEEFALANHLIKVKLEGHELPADLPPHLVPPSKRRH E >gi568815587r:64754336_64978464|GENSCAN_predicted_CDS_4|1986_bp atggaacagccaggaactgcagccagccccgtgtccggcagtatgttcagctgggtcagc aaggatgcccgccgcaagaaggagccggagctcttccagacggtggctgaggggctgcgg cagctgtacgcgcagaagctgctacccctggaggagcactaccgcttccacgagttccac tcgcccgcgctggaggacgctgacttcgacaacaagcctatggtgctcctcgtggggcag tacagcacgggcaagaccaccttcatccgacacctgatcgagcaggacttcccggggatg cgcatcgggcccgagcccaccaccgactccttcatcgccgtcatgcacggccccactgag ggcgtggtgccgggcaacgcgctcgtggtggacccgcggcgccccttccgcaagctcaac gcgtttggcaacgctttcctcaacagccagttactgctttctgctgcttctacccgaaaa agagcaattcgagattgctttgtccgagaccggtgctttgatgacattggtgccacagga tctgagaggttcatgtgtgcccagctgcccaaccccgtcctggacagcatcagcatcatc gacacccccgggatcctgtctggagagaagcagcggatcagcagaggccaggatgccaag acagcttttggcctcagcctctgctgggggcgtgcaggctctgccacagaggaggcgtac caggcgctgcccgcgctcagcacctgttccccaggctgcgcactggcgggatgcaccatc cgttgtcatccattcacctgttggggcgcttgggttgttccacccggggcagttttgagt caagtacgtggttcgtgtgggcgtgtgctgctgctgctctcaggctatgactttgcagcc gtcctggagtggttcgcggagcgtgtggaccgcatcatcctgctcttcgacgcccacaag ctggacatctccgatgagttctcggaagtgatcaaggctctgaagaaccatgaggacaag atccgcgtggtgctgaacaaggcagaccagatcgagacgcagcagctgatgcgggtgtac ggggccctcatgtggtccctgggcaagatcatcaacacccccgaggtggtcagggtctac atcggctccttctggtcccacccgctcctcatccccgacaaccgcaagctctttgaggcc gaggagcaggacctcttcaaggacatccagtcactgccccgaaacgccgccctcaggaag ctcaatgacctgatcaagcgggcacggctggccaaggttcacgcctacatcatcagctcc ctcaagaaagagatgcccaatgtctttggtaaagagagcaaaaagaaagagctggtgaac aacctcggagagatctaccagaagattgagcgcgagcaccagatctcccctggggacttc ccgagcctccgcaagatgcaggaactcctgcagacccaggacttcagcaagttccaggcg ctgaagcccaagctgctggacacggtggatgacatgctggccaacgacatcgcgcggctg atggtgatggtgcggcaggaggagtccctgatgccttcccaggtggtcaagggcggcgcc tttgacggcaccatgaacgggccgttcgggcacggctacggcgagggggccggcgagggc atcgacgacgtggagtgggtggtgggcaaggacaagcccacctacgacgagatcttctac acgctgtcccctgtcaacggcaagatcacgggcgccaacgccaagaaggagatggtgaag tccaagctccccaacaccgtgctagggaagatctggaagctggccgacgtggacaaggac gggctgctggacgacgaggagttcgcgctggccaaccacctcatcaaggtcaagctggag ggccacgagctgcccgccgacctgcccccgcacctggtgccgccctccaagcgcagacat gagtga >gi568815587r:64754336_64978464|GENSCAN_predicted_peptide_5|58_aa MPIGQKLRHPDERAHATRTWLAIIEKQYSIKAKCMGFGADCSGSNPTDHMIFSKALKR >gi568815587r:64754336_64978464|GENSCAN_predicted_CDS_5|177_bp atgccaatagggcagaagctgaggcatcctgatgagcgcgcgcacgccacacgcacgtgg ctggccattattgagaagcagtatagcataaaggccaagtgcatgggctttggagcagac tgttcaggatcaaatcctacagaccatatgatctttagcaaggcactcaagagataa >gi568815587r:64754336_64978464|GENSCAN_predicted_peptide_6|2267_aa MSRWLWPWSNCVKERVCRYLLHHYLGHFFQEHLSLDQLSLDLYKGSVALRDIHLEIWVRS QARVQEGGINKPPDVYVNNRVSTSVPVLINTSCAWVAAYFLLLGEWDGPTQPAGPALKAP KETEYLGPLKWHEKKEARIPVSVPVVYWSVNEVLESMESPLELVEGFVGSIEVAVPWAAL LTDHCTVRVSGLQLTLQPRRGPAPGAADSQSWASCMTTSLQLAQECLRDGLPEPSEPPQP LEGLEMFAQTIETVLRRIKVTFLDTVVRVEHSPGDGERGVAVEVRVQRLEYCDEAVRDPS QAPPVDVHQPPAFLHKLLQLAGVRLHYEELPAQEEPPEPPLQIGSCSGYMELMVKLKQNE AFPGPKVGPQAPGEGLEVAGQLGSLHLLLTPRQLQQLQELLSAVSLTDHEGLADKLNKSR PLGAEDLWLIEQDLNQQLQAGAVAEPLSPDPLTNPLLNLDNTDLFFSMAGLTSSVASALS ELSLSDVDLASSVRSDMASRRLSAQAHPAGKMAPNPLLDTMRPDSLLKMTLGGVTLTLLQ TSAPSSGPPDLATHFFTEFDATKDGPFGSRDFHHLRPRFQRACPCSHVRLTGTAVQLSWE LRTGSRGRRTTSMEVHFGQLEVLECLWPRGTSEPEYTEILTFPGTLGSQASARPCAHLRH TQILRRVPKSRPRRSVACHCHSELALDLANFQADVELGALDRLAALLRLATVPAEPPAGL LTEPLPAMEQQTVFRLSAPRATLRLRFPIADLRPEPDPWAGQAVRAEQLRLELSEPQFRS ELSSGPGPPVPTHLELTCSDLHGIYEDGGKPPVPCLRVSKALDPKSTGRKYFLPQVVVTV NPQSSSTQWEVAPEKGEELELSVESPCELREPEPSPFSSKRTMYETEEMVIPGDPEEMRT FQSRTLALSRCSLEVILPSVHIFLPSKEVYESIYNRINNDLLMWEPADLLPTPDPAAQPS GFPGPSGFWHDSFKMCKSAFKLANCFDLTPDSDSDDEDAHFFSVGASGGPQAAAPEAPSL HLQSTFSTLVTVLKGRITALCETKDEGGKRLEAVHGELVLDMEHGTLFSVSQYCGQPGLG YFCLEAEKATLYHRAAVDDYPLPSHLDLPSFAPPAQLAPTIYPSEEGVTERGASGRKGQG RGPHMLSTAVRIHLDPHKNVKEFLVTLRLHKATLRHYMALPEQSWHSQLLEFLDVLDDPV LGYLPPTVITILHTHLFSCSVDYRYQAGPLYLPVRVLITAETFTLSSNIIMDTSTFLLRF ILDDSALYLSDKCEVETLDLRRDYVCVLDVDLLELVIKTWKGSTEGKLSQPLFELRCSNN VVHVHSCADSCALLVNLLQYVMSTGDLHPPPRPPSPTEIAGQKVQLSESPASLPSCPPVE TALINQRDLADALLDTERSLRELAQPSGERSGAPPPSPPVGGPAGSLGSCSEEKEDEREE EGDGDTLDSDEFCILDAPGLGIPPRDGEPVVTQLHPGPIVVRDGYFSRPIGSTDLLRAPA HFPVPSTRVVLREVSLVWHLYGGRDFGPHPGHRARTGLSGPRSSPSRCSGPNRPQNSWRT QGGSGRQHHVLMEIQLSKVSFQHEVYPAEPATGPAAPSQELEERPLSRQVFIVQELEVRD RLASSQINKFLYLHTSERMPRRAHSNMLTIKALHVAPTTNLGGPECCLRVSLMPLRLNVD QDALFFLKDFFTSLVAGINPVVPGETSAEARPETRAQPSSPLEGQAEGVETTGSQEAPGG GHSPSPPDQQPIYFREFRFTSEVPIWLDYHGKHVTMDQVGTFAGLLIGLAQLNCSELKLK RLCCRHGLLGVDKVLGYALNEWLQDIRKNQLPGLLGGVGPMHSVVQLFQGFRDLLWLPIE QYRKDGRLMRGLQRGAASFGSSTASAALELSNRLVQAIQATAETVYDILSPAAPVSRSLQ DKRSARRLRRGQQPADLREGVAKAYDTVREGILDTAQTICDVASRGHEQKGLTGAVGGVI RQLPPTVVKPLILATEATSSLLGGMRNQIVPDAHKDHALKTGTCHRNLSGRDENTLCKRK LCLTEPWAHSGTLASSCFLSPQRRETQGSQGGCFPPGQPSVQGGLPPTLLLSLIFSFPYE AILMKSGTGRSLGTDKCQLSLAVSLPHGCSREGRSAGSTRGARCGPRMIRSLGEKTMDLG PRRLGSPATPCGSAHWFQWGCCYLGRGPVPTKKERQVLASRPARTTVATLPGQMVAGSGG LSVGCRDRVHRALTYELTASALVSPLAANSIGHRYVRLNASHQDLQG >gi568815587r:64754336_64978464|GENSCAN_predicted_CDS_6|6804_bp atgtcacgatggctgtggccatggtcaaactgtgtgaaagagcgggtctgccgctacttg ctgcaccactacttaggtcacttcttccaagagcacctcagcctggaccagctcagcctc gatctgtacaagggcagcgttgccctgcgagacatccacctggaaatctgggtgaggagc caggcccgagtccaggaaggtgggatcaacaaaccaccggatgtgtatgtcaacaaccgc gtcagtacgtcagtaccagtgttgatcaacacctcgtgtgcctgggtcgctgcctacttc ctgcttttgggagagtgggatgggccaactcagcctgcaggccccgccttgaaggccccc aaagaaactgagtatctggggcctctgaagtggcatgaaaagaaagaggcccgcatccca gtctcagtccctgttgtatactggtctgtgaacgaggtgctggagtcaatggagtcaccg ctggagctggtggaaggcttcgtgggctccatcgaggtggccgtgccctgggctgctctg ctcaccgaccactgcacagtgcgcgtgtccggcctccagctcaccttgcagccccgccgg ggtccagcgccaggggctgccgactcacagagctgggcctcatgcatgaccacaagcctg cagctggcccaggagtgtctgcgggatgggctaccggagccctctgagccaccacagccc ctggaggggctggagatgtttgcccagaccattgagactgtgcttcggaggatcaaagtg accttcctggacactgtcgtgagggtggagcactctccgggtgatggggaacgtggtgtg gccgtcgaggtccgtgtgcagagactggagtactgtgatgaggcagtgcgggacccaagc caggcgccgccggtggacgtgcatcagccgcctgccttcctgcacaagctgctgcagctg gcaggggtccgcctgcactacgaggagctcccggcacaggaagagcctccagagcccccc ttgcagatcggcagctgctcagggtacatggagctgatggtgaagttgaagcaaaatgag gccttccctggccccaaggtgggtccccaggcccctggggaggggttggaggtggcggga cagctgggctccctgcacctgctcctgaccccgaggcagctccagcaacttcaggaactg ctcagcgccgtgagccttacagaccacgagggcctggctgacaagctgaacaagagccgc ccgctaggtgccgaagacctgtggctgattgagcaggacctgaaccagcagctgcaggca ggggcagtggctgagcccctcagcccagacccccttaccaacccccttctcaacctggat aacactgacctcttcttctccatggctggcctcacaagcagtgtggcctcagccctctct gagctctccctctccgatgtagacctggcctcctctgtgcgcagcgacatggcctcccgc cggctctctgcccaggcccacccagctggcaagatggcccccaaccccctcctggacacc atgcgccctgactcgctgctgaagatgaccttggggggtgtgaccctgaccttgcttcag acgtctgccccatcttccggaccacctgacctcgccacgcactttttcaccgagtttgat gccaccaaggatgggcccttcggttcccgagacttccatcaccttcgaccacgcttccag agggcctgtccctgtagccatgttcggctaacgggcacagccgtgcagctgtcctgggag ctgcggacgggcagtcggggccggcggacaaccagcatggaagtgcacttcgggcagctg gaggtgctggagtgtctgtggccccggggcacctctgagcctgagtacacggagatcctg acctttcctggtacgctgggctcccaggcctcagctcggccctgcgcccatctgcgccac acacagatcctgcgccgtgtgcctaagagccgaccccggcgctcagttgcctgccattgc cactcagaactggccctggacctggccaacttccaggcggacgtggagctgggggccctg gaccggctggccgccctactgcgcctggccaccgtacctgctgagcctccagccggcctg ctgacagagcccctgccggcgatggagcagcagacggtatttcggctctctgcaccccgg gccacgctgcggctgcgcttccccattgccgacctgcggcctgagccggacccctgggcg ggccaggccgtgcgggctgagcagcttcggctggagctgagtgagccccagttccggtca gagcttagcagtgggcctggtcccccagtccccacccacctggaactcacctgctccgac ctacatggtatctatgaagatggagggaagccacctgtcccttgcctgcgtgtctccaaa gccctggaccccaagagcactgggcgcaagtacttcctgccccaggtagtggtgactgtg aacccccagtccagcagcacacagtgggaggtggccccggagaagggagaggaactggag ctgtcagtggagagtccctgtgagctgcgggaacctgagccctcgcccttctcctctaag aggaccatgtatgagacagaggagatggtgatccctggagaccctgaggagatgaggacg ttccagagccggaccctggcactgtcccgctgcagcctggaagtgatcctgcccagtgtc cacatctttctgcccagcaaggaggtctacgagagcatctacaacaggatcaacaacgac ctgctcatgtgggagcctgcagatctgcttcccacccccgaccccgccgcccagccctcg ggcttccccggcccctcaggcttctggcacgacagctttaagatgtgcaagtcagccttc aagctggccaactgctttgatctcaccccagactcggactcggatgacgaggatgcccac ttcttctcagtgggggcatcaggtggcccacaggccgctgcccctgaggccccaagtctt cacttgcagagcaccttctctacactggtgacagtgctgaaggggcggatcacagccctc tgtgagaccaaggatgagggtgggaagcggctggaggctgtgcacggggagctggtgctg gacatggagcacggtaccctcttcagcgtctcccagtactgtggccagccaggacttggc tacttctgtctggaagctgaaaaggcaacactctaccaccgagcggccgtggatgactac ccgctgcccagtcacctggaccttcccagtttcgctcccccggctcagctggccccaacc atctacccatcggaggaaggggtgaccgagcggggagcctcgggccgcaagggccagggc cggggaccccacatgttgtccactgctgtgcgcatccacctggacccccacaagaatgtg aaggagttcctggtgacactgcggttgcacaaagccaccttgcgccactacatggccctg cccgagcagagctggcattcccagttgttggagttcctagacgtgctggatgaccctgtg ctgggctacctgcccccgacggtcatcaccatcctgcacacacacctgttctcctgctct gtggactataggtaccaggctgggccactctacctcccagtgcgtgtcctcatcaccgcg gagaccttcactctctccagcaacatcatcatggacacctccaccttcctgctcaggttc atcctcgatgactccgccttgtacctgtccgacaagtgtgaggtggagaccctggacctg cggcgagattatgtctgtgttttggatgttgacctcttggaacttgtgattaaaacctgg aaagggagcaccgagggcaaactgagccagccactattcgagctgcgctgctccaacaat gtggtacacgtgcacagctgtgccgactcctgtgccctgctggtcaacctgctccagtac gtaatgagcacaggcgatctgcaccccccaccccggccccccagccccacggagatcgcc ggccagaaggtacagctctcggagagtcctgcctctctgccctcgtgccccccagtggag acggccctcatcaaccagcgtgacctggccgacgccctcctggacaccgagcgcagccta cgggagctggcccagccttcaggtgaacggagtggggccccacccccttcaccacctgtc gggggccctgctggcagcttagggtcatgctcagaggagaaggaagatgaaagggaagag gagggcgatggagacaccctggacagtgatgagttctgcatccttgatgctcccggcctg ggcatcccgccccgagatggggagcctgtggtgacacagctgcatcccggccccatcgtt gtgagggacggttacttctcacggccgatcggcagcacggacttgctgcgggcacctgcc catttcccagtgcccagcactcgggtggtgctacgtgaggtctccctcgtctggcacctc tatgggggccgagactttggcccccaccccggccacagggcaagaactggcctctcaggt cccaggagctccccttcccgctgctctggccccaaccggccccagaactcatggcgcacg caggggggcagcgggcggcagcaccatgtcctcatggagatccagctgagcaaggtaagc ttccagcacgaggtgtacccagcggagccagccacaggccctgcggcccccagccaggag ctggaggagcgaccgctgtcccgtcaggtgttcatcgtgcaggagctggaggtccgagac cggctcgcctcctcccagatcaacaagttcctgtacctacacacgagtgagcggatgccg cgacgtgcccactctaacatgctcaccatcaaagcgctgcatgtggcccccactaccaac ctgggtgggcctgagtgctgtctccgcgtctcgctgatgcccctgcggctcaatgtggac caggatgccctcttcttcctcaaggacttcttcactagtctggtggccggcatcaacccc gtggtcccaggggagacctccgctgaggctcgccccgagactcgagcccagcccagcagc cccctggaagggcaggccgaaggcgtagagaccactggttcgcaggaggccccaggaggt ggacacagcccctcccctcctgaccagcagcccatctacttcagagagttccgcttcacg tctgaggtccccatctggctggattaccatggcaagcacgtcacgatggaccaggtgggc acttttgctggcctcctcatcggcctggcccaactcaactgctccgagctgaagctaaag cggctctgttgcaggcacgggctcctgggtgtggacaaggtgctgggctatgccctcaac gagtggctgcaggacatccgcaagaaccagctgcccggcctgctgggaggcgtgggcccc atgcactcggttgtccagctcttccaagggttccgggacctgctgtggctgcccattgag cagtacaggaaggatggccgcctcatgcgggggctgcagcgaggggctgcctcctttggc tcatccacagcctctgccgccctggaactcagcaaccggttggtacaggctatccaggcc acagctgagaccgtgtatgacatcctgtccccggcagcccccgtctcccgctccctgcag gataagcgctctgcgcggaggctgcgcaggggccagcagcctgccgacctgcgggagggt gtggccaaggcctacgacacagtgcgagagggcatcttggatacagctcagaccatctgt gacgtggcatcgcggggccatgagcagaaggggctgacgggcgccgtggggggcgtgatc cgccagctgcccccgactgtggtgaagccgctcatcctggccacggaggccacgtccagc ctgctcgggggcatgcgcaaccagattgtccccgacgcccacaaggaccacgccctcaag actggcacctgtcaccggaacctgtctgggagggacgagaacacgctttgcaagaggaag ctctgcctcacagagccctgggctcactcagggaccctggccagcagctgcttcctctcc ccacagcggagagagacccaagggtcccagggcggatgcttcccaccaggccagcccagc gtgcagggtggcctcccccccacacttcttcttagtctcatcttcagcttcccatacgag gccatcctcatgaaatcaggcactgggaggtccctggggactgacaagtgccagctgtcc cttgctgtctctctgccccatggctgcagcagggagggaaggagtgctggcagcacacgg ggcgccaggtgtgggccccggatgataagaagcctcggtgaaaagaccatggacctgggg ccacgaagactggggagcccagcaactccatgtggaagtgcccactggttccagtggggc tgctgttatctggggcgagggccagtacccacgaagaaggagaggcaggtgctggccagc agaccagccaggactaccgtggcgacgctcccaggccagatggtggcgggtagtggaggg ctgtcggtgggctgccgagaccgagtgcacagggctctgacctatgaattgacagccagt gctctcgtctcccctctggctgccaattccataggtcacaggtatgttcgcctcaatgcc agccaccaggacctgcagggatag >gi568815587r:64754336_64978464|GENSCAN_predicted_peptide_7|571_aa MDSHWTDRDTKGRMGKACRRFLSKQSTCWVSSAGVLDPSLVNCGPRCRPLPSVALPGREP RSAAAQPQRPERNRCEGALNGRRPPYGQPPGVGDRSLGFREVDGFSRRSLRRARPRRSHS SSQFRYQSNQQELTPLPLLKDVPASELHELLSRKLAQCGVMFDFLDCVADLKGKEVKRAA LNELVECVGSTRGVLIEPVYPDIIRMISVNIFRTLPPSENPEFDPEEDEPNLEPSWPHLQ LVYEFFLRFLESPDFQPSVAKRYVDQKFVLMLLELFDSEDPREREYLKTILHRVYGKFLG LRAYIRKQCNHIFLRFIYEFEHFNGVAELLEILGSIINGFALPLKTEHKQFLVRVLIPLH SVKSLSVFHAQLAYCVVQFLEKDATLTEHVIRGLLKYWPKTCTQKEVMFLGEMEEILDVI EPSQFVKIQEPLFKQVARCVSSPHFQVAERALYFWNNEYILSLIEDNCHTVLPAVFGTLY QVSKEHWNQTIVSLIYNVLKTFMEMNGKLFDELTASYKLEKQQEQQKAQERQELWQGLEE LRLRRLQGTQGAKEAPLQRLTPQVAASGGQS >gi568815587r:64754336_64978464|GENSCAN_predicted_CDS_7|1716_bp atggattcccattggacagacagggacaccaagggccggatgggcaaggcctgccggagg ttcctgagcaagcagagcacttgctgggtctccagtgccggagtcctggaccccagcctg gtgaactgcggccctcggtgcaggcctctgccttctgttgctttgcccgggagagaaccc aggagcgccgccgcccagccccagcgccccgagcggaaccgctgcgaaggggccctgaac ggccgtcgccctccctacgggcagcccccgggggttggcgaccgaagtctaggttttcga gaagtggacggcttctcccgccgttccctccgcagagcccggccccgccgctcccacagc tcctctcagttccgctatcagagcaaccagcaagagctcacaccgctgcccctgctcaaa gatgtgccggcttccgagctgcacgagctgctgagccggaagctggcccagtgtggggtg atgtttgacttcttggactgtgtggccgacctcaaggggaaggaggtgaagcgggcagcc ctcaacgagctggtggagtgtgtggggagcacccggggtgtcctcatcgagcccgtctac ccagacatcatccgcatgatctcagtgaatatcttccggactctgccgcccagtgagaac cctgaatttgaccctgaagaggatgagcccaatcttgagccttcgtggccacacctgcag ctggtatatgagtttttcctgcgtttcttggagagcccagacttccagccctccgtggcc aagagatatgtggatcaaaagtttgtcctgatgctcctggagctatttgatagtgaggat ccccgggagcgtgagtacctcaagaccatcctgcaccgggtctatggcaagttcctgggt ctccgggcctacatccgcaaacagtgcaaccacatcttcctccggttcatctatgaattc gagcacttcaatggtgtggctgagctgctggagatcctaggaagcatcatcaatggcttt gcgctgcccctgaagacggagcacaagcagttcctggttcgcgtcctgatccccctgcac tctgtcaagtcgctgtctgtcttccatgcccagctggcatactgtgtggtgcagttcctg gagaaggatgccactctgacagagcacgtgatccgggggctgctcaaatactggccaaaa acctgcacccagaaggaggtgatgtttctgggggagatggaagagattcttgatgtcatc gagccctcccagtttgtgaagatccaggagcccctttttaagcaggtggctcgctgtgtt tccagcccccatttccaggttgcagagcgggctctgtatttctggaacaatgagtatatc ctaagcctcattgaggacaactgccacactgtgctgcctgctgtgtttgggaccctctac caagtctccaaggagcactggaaccaaaccatcgtatcactgatctacaatgtgctcaag accttcatggagatgaatgggaagctgtttgatgagctcacagcctcctacaagctggaa aagcagcaggagcagcagaaggcccaggagcgtcaggagttatggcaaggtctggaggag ctgcggctacgccggctacaggggacccagggggccaaggaggcccccctccagcggctt acaccccaggtggccgccagtgggggtcagagctag >gi568815587r:64754336_64978464|GENSCAN_predicted_peptide_8|382_aa MQGYRLGAMSLKPFTYPFPETRFLHAGPNVYKFKIRYGKSIRGEEIENKEVITQELEHHF PDKSKWERVSHLKFKHGEIILIPYPFVFTLYVEMKWFHENLSPECLFLLAKLVLKVAFGS LRMGSFLHCAFMNCEQLWKGGVTGICFLLKVPVEKKAVGAVMRKRKHMDEPSSPSRPGLD RAKIGTSSQGPSKKKPPVETRRNRERKTQQGLQETLASDITDVQKQDSEWGHSLPGRIVP PLQHNSPPPKERAATGFFGFLSFLDRKKQKAAGAALRGPHLKEQDPPAFNVTVRSDRQGT CQGSHVAQACVGHCESSAFPSRYSVLVASGYRHNITSVSQCCTISGLKKVKVQLQCVGSR REELEIFTARACQCDMCRLSRY >gi568815587r:64754336_64978464|GENSCAN_predicted_CDS_8|1149_bp atgcaaggctatcgtttgggagcaatgagtttaaaaccctttacctacccgtttccagag acgaggtttcttcatgcaggacccaatgtgtataaattcaaaatcagatatgggaagagt atcagaggagaagagatagaaaataaggaagtcatcacccaggagctggagcaccatttt ccagataaaagcaaatgggagagagtttcccacctgaaattcaaacatggggaaattatc ttgatcccctacccatttgtttttactctatatgtggagatgaaatggttccatgaaaac ctgtcacctgaatgtctattcttacttgcaaagctggtgttaaaagttgcctttggcagt ttaaggatggggagttttcttcactgtgccttcatgaactgtgagcaactctggaaagga ggagtcacaggcatctgcttcctcctgaaggtcccagttgagaagaaagcagtaggagct gtgatgaggaaacgaaaacacatggacgagcccagctcccccagcaggccagggctggac agggccaagatagggacttccagccaaggccccagcaaaaagaagccccctgtggaaacc aggagaaatagggaaagaaaaacccaacaaggattgcaggagactctggcctctgatatc actgatgtccagaaacaagattctgagtggggacacagcctgccagggcgaattgtccca cccctgcagcacaactcacctccacctaaggagcgagcagccaccggcttctttgggttt ctaagctttttggacagaaagaagcagaaagcagcaggagctgctctccgaggaccgcac ctcaaagagcaagatcccccagccttcaatgtgacagtgcgaagtgaccgccaaggcacc tgccagggctcccacgtggcacaggcctgtgtgggccactgtgagtccagcgccttccct tctcggtactctgtgctggtggccagtggttaccgacacaacatcacctccgtctctcag tgctgcaccatcagtggcctgaagaaggtcaaagtacagctgcagtgtgtggggagccgg agggaggagctcgagatcttcacggccagggcctgccagtgtgacatgtgtcgcctctct cgctactag