Result of GENSCAN for
pF1KE3756
GENSCAN 1.0 Date run: 7-Nov-116 Time: 18:02:29 Sequence gi568815586r:6520133_6721248 : 201116 bp : 50.21% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 854 978 125 2 2 57 84 104 0.819 7.13 1.02 Intr + 1666 1905 240 2 0 81 85 270 0.984 23.52 1.03 Intr + 2696 2870 175 0 1 21 76 190 0.997 10.10 1.04 Intr + 3130 3214 85 1 1 94 59 39 0.988 1.42 1.05 Intr + 5451 5584 134 2 2 110 89 164 0.999 18.14 1.06 Intr + 5936 6068 133 2 1 104 95 99 0.994 12.85 1.07 Intr + 6155 6239 85 1 1 92 105 67 0.983 8.19 1.08 Intr + 6316 6483 168 2 0 128 91 121 0.979 16.32 1.09 Intr + 6759 6931 173 1 2 119 93 189 0.999 22.16 1.10 Intr + 7645 7756 112 0 1 86 95 150 0.999 15.45 1.11 Intr + 7836 7959 124 1 1 57 96 64 0.539 3.74 1.12 Intr + 8041 8196 156 1 0 92 103 189 0.999 19.93 1.13 Intr + 8547 8724 178 0 1 53 100 313 0.996 28.92 1.14 Intr + 8813 8907 95 1 2 132 -4 108 0.999 4.76 1.15 Intr + 9381 9461 81 0 0 95 84 155 0.997 14.55 1.16 Intr + 9643 9826 184 1 1 83 105 132 0.999 14.19 1.17 Intr + 10559 10685 127 1 1 147 92 83 0.927 14.85 1.18 Intr + 10789 10944 156 2 0 123 86 116 0.896 14.88 1.19 Intr + 14678 14729 52 0 1 104 100 30 0.792 3.77 1.20 Intr + 16362 16461 100 0 1 121 101 165 0.999 21.21 1.21 Intr + 16552 16658 107 0 2 92 64 159 0.999 12.91 1.22 Intr + 16788 16878 91 0 1 96 84 158 0.999 16.20 1.23 Intr + 16969 17084 116 0 2 99 94 138 0.761 14.75 1.24 Intr + 17177 17258 82 2 1 119 60 81 0.998 8.04 1.25 Intr + 17452 17864 413 0 2 70 84 680 0.985 58.78 1.26 Term + 17969 18038 70 2 1 108 47 141 0.987 9.41 1.27 PlyA + 18216 18221 6 1.05 2.12 PlyA - 18879 18874 6 -3.24 2.11 Term - 20456 20351 106 1 1 82 44 45 0.389 -2.62 2.10 Intr - 21510 21380 131 0 2 94 82 262 0.491 25.69 2.09 Intr - 23178 23032 147 0 0 91 98 16 0.898 3.33 2.08 Intr - 28028 27933 96 2 0 92 94 103 0.901 11.51 2.07 Intr - 28413 28293 121 2 1 101 76 160 0.999 16.60 2.06 Intr - 28693 28536 158 1 2 74 68 335 0.642 28.91 2.05 Intr - 29594 29481 114 2 0 47 74 65 0.670 1.64 2.04 Intr - 29998 29624 375 1 0 52 94 497 0.414 41.91 2.03 Intr - 30869 30563 307 1 1 84 92 247 0.451 21.15 2.02 Intr - 31123 30944 180 0 0 10 59 129 0.049 1.18 2.01 Init - 35897 35125 773 2 2 95 75 946 0.476 88.17 2.00 Prom - 36223 36184 40 -13.96 3.57 PlyA - 36378 36373 6 -0.45 3.56 Term - 37510 36861 650 2 2 80 37 504 0.998 38.74 3.55 Intr - 40194 39966 229 0 1 83 111 274 0.945 26.64 3.54 Intr - 40437 40315 123 0 0 87 42 117 0.991 7.78 3.53 Intr - 40655 40566 90 2 0 98 100 101 0.963 12.49 3.52 Intr - 40938 40799 140 1 2 89 100 238 0.784 25.28 3.51 Intr - 41672 41532 141 0 0 100 51 147 0.546 12.52 3.50 Intr - 41839 41752 88 1 1 55 111 78 0.999 6.34 3.49 Intr - 43038 42949 90 0 0 140 94 56 0.999 11.59 3.48 Intr - 43388 43183 206 0 2 11 69 244 0.548 13.72 3.47 Intr - 43639 43464 176 0 2 99 -27 302 0.604 19.38 3.46 Intr - 43814 43759 56 2 2 89 92 94 0.999 7.68 3.45 Intr - 46204 45969 236 2 2 50 81 331 0.671 26.01 3.44 Intr - 46485 46397 89 2 2 127 73 33 0.998 5.31 3.43 Intr - 46690 46645 46 2 1 81 107 55 0.996 4.17 3.42 Intr - 47790 47684 107 2 2 71 110 70 0.822 7.36 3.41 Intr - 48258 47987 272 0 2 83 75 72 0.659 1.74 3.40 Intr - 50900 50737 164 0 2 105 91 198 0.998 21.49 3.39 Intr - 53137 52942 196 1 1 66 63 187 0.958 12.99 3.38 Intr - 57785 57653 133 1 1 32 105 169 0.902 13.65 3.37 Intr - 58005 57897 109 1 1 106 2 124 0.869 4.94 3.36 Intr - 58414 58277 138 2 0 78 60 171 0.946 13.74 3.35 Intr - 58785 58714 72 1 0 93 98 105 0.999 11.38 3.34 Intr - 61041 60912 130 0 1 67 98 88 0.900 7.97 3.33 Intr - 61256 61159 98 0 2 111 94 83 0.557 10.93 3.32 Intr - 61682 61517 166 2 1 82 119 82 0.997 10.23 3.31 Intr - 62149 62005 145 0 1 110 105 74 0.999 11.58 3.30 Intr - 62616 62483 134 0 2 155 89 110 0.999 17.24 3.29 Intr - 62804 62716 89 0 2 114 100 69 0.999 10.39 3.28 Intr - 62981 62895 87 0 0 123 100 203 0.999 24.94 3.27 Intr - 63246 63066 181 0 1 102 85 300 0.999 30.54 3.26 Intr - 67427 67252 176 0 2 59 84 255 0.995 21.86 3.25 Intr - 67817 67580 238 2 1 68 78 309 0.961 25.09 3.24 Intr - 68290 68166 125 2 2 56 99 86 0.961 6.80 3.23 Intr - 71451 71334 118 0 1 99 81 231 0.999 23.54 3.22 Intr - 71693 71562 132 2 0 98 69 79 0.996 7.84 3.21 Intr - 71925 71784 142 2 1 88 80 211 0.999 20.66 3.20 Intr - 72434 72261 174 1 0 73 81 173 0.999 14.15 3.19 Intr - 72685 72564 122 1 2 71 100 46 0.987 3.39 3.18 Intr - 73096 72959 138 1 0 52 100 182 0.999 16.46 3.17 Intr - 73484 73284 201 2 0 126 65 301 0.999 31.08 3.16 Intr - 74518 74327 192 1 0 110 94 221 0.999 24.59 3.15 Intr - 75298 75202 97 0 1 87 76 105 0.996 9.21 3.14 Intr - 76005 75874 132 2 0 58 109 170 0.999 15.86 3.13 Intr - 77967 77762 206 0 2 67 81 345 0.989 29.70 3.12 Intr - 78293 78090 204 2 0 80 111 38 0.918 4.70 3.11 Intr - 79880 79641 240 2 0 94 113 173 0.996 18.15 3.10 Intr - 80263 79980 284 2 2 100 36 301 0.748 23.24 3.09 Intr - 80537 80402 136 2 1 82 93 258 0.999 25.84 3.08 Intr - 80921 80794 128 0 2 51 89 132 0.992 10.00 3.07 Intr - 81398 81157 242 1 2 82 62 275 0.999 21.49 3.06 Intr - 81634 81516 119 1 2 88 98 204 0.998 20.66 3.05 Intr - 82043 81828 216 2 0 99 46 469 0.866 42.50 3.04 Intr - 82365 82244 122 1 2 24 105 136 0.984 9.11 3.03 Intr - 95748 95629 120 1 0 63 81 29 0.009 0.17 3.02 Intr - 100021 99917 105 2 0 95 86 47 0.046 5.39 3.01 Init - 101116 100075 1042 1 1 64 -2 2079 0.068 190.71 3.00 Prom - 104808 104769 40 -2.76 4.11 PlyA - 105660 105655 6 -0.45 4.10 Term - 118272 118150 123 0 0 72 49 107 0.938 3.58 4.09 Intr - 118905 118822 84 0 0 60 105 100 0.988 8.92 4.08 Intr - 120095 119928 168 2 0 115 72 90 0.997 10.24 4.07 Intr - 120390 120211 180 0 0 116 70 161 0.997 17.16 4.06 Intr - 123539 123407 133 1 1 104 76 195 0.999 20.55 4.05 Intr - 124473 124005 469 1 1 60 80 317 0.914 20.26 4.04 Intr - 125205 125088 118 0 1 93 94 -23 0.957 -1.16 4.03 Intr - 126445 126351 95 2 2 103 100 94 0.970 11.78 4.02 Intr - 126880 126662 219 2 0 99 77 165 0.853 14.77 4.01 Init - 127234 127192 43 1 1 90 76 30 0.937 0.99 4.00 Prom - 127908 127869 40 -10.25 5.24 PlyA - 129512 129507 6 1.05 5.23 Term - 131102 131019 84 2 0 155 38 69 0.098 6.25 5.22 Intr - 132286 132139 148 0 1 76 39 161 0.994 10.24 5.21 Intr - 132638 132530 109 0 1 115 94 191 0.993 21.74 5.20 Intr - 132918 132804 115 0 1 122 42 173 0.999 16.12 5.19 Intr - 133264 133098 167 2 2 94 56 270 0.979 24.08 5.18 Intr - 136666 136595 72 2 0 141 75 -3 0.825 3.08 5.17 Intr - 143062 142933 130 1 1 36 61 47 0.034 -2.93 5.16 Intr - 143457 143386 72 0 0 48 95 37 0.021 0.00 5.15 Intr - 147983 147606 378 2 0 102 49 365 0.074 29.16 5.14 Intr - 149057 148899 159 2 0 57 70 158 0.971 11.08 5.13 Intr - 150706 150628 79 0 1 91 99 25 0.984 3.45 5.12 Intr - 152400 152218 183 2 0 143 103 313 0.999 37.20 5.11 Intr - 153308 153084 225 1 0 60 107 260 0.972 22.20 5.10 Intr - 158328 157995 334 1 1 109 110 268 0.444 25.73 5.09 Intr - 159051 158814 238 0 1 89 93 178 0.994 15.59 5.08 Intr - 159393 159323 71 1 2 124 111 0 0.970 4.80 5.07 Intr - 169027 168966 62 0 2 111 117 47 0.972 8.28 5.06 Intr - 174516 174370 147 2 0 69 90 128 0.956 10.45 5.05 Intr - 175519 175298 222 0 0 37 93 116 0.942 4.24 5.04 Intr - 176392 176311 82 2 1 88 107 161 0.999 16.70 5.03 Intr - 177531 177155 377 2 2 48 113 236 0.587 16.76 5.02 Intr - 180123 179999 125 0 2 84 89 29 0.877 1.98 5.01 Init - 180571 180482 90 1 0 104 109 91 0.993 11.29 5.00 Prom - 186964 186925 40 -6.26 6.00 Prom + 187253 187292 40 -7.66 6.01 Init + 188181 188347 167 2 2 67 62 176 0.964 10.14 6.02 Term + 196211 196403 193 2 1 65 36 164 0.267 5.79 6.03 PlyA + 196823 196828 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 31167 30944 224 0 2 82 59 152 0.917 9.75 S.002 Sngl - 101116 99998 1119 1 0 64 47 2075 0.916 197.74 S.003 Term - 131102 131063 40 1 1 155 37 39 0.888 2.16 S.004 Intr - 131253 131192 62 0 2 144 115 15 0.899 7.33 S.005 Term - 147983 147582 402 2 0 102 44 396 0.926 31.75 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586r:6520133_6721248|GENSCAN_predicted_peptide_1|1187_aa XKAIILTREATGHFQESEPFSHIDPEESEETRLLNILGLIFKGPAASTQEKNPRESTGNM VTGQTVCKNKPNMSDPEESRGNDELVKQEMLVQYLQDAYSFSRKITEAIGIISKMMYENT TTVVQEVIEFFVMVFQFGVPQALFGVRRMLPLIWSKEPGVREAVLNAYRQLYLNPKGDSA RAKAQALIQNLSLLLVDASVGTIQCLEEILCEFVQKDELKPAVTQLLWERATEKVACCPL ERCSSVMLLGMMARGKPEIVGSNLDTLVSIGLDEKFPQDYRLAQQVCHAIANISDRRKPS LGKRHPPFRLPQEHRLFERLRETVTKGFVHPDPLWIPFKEVAVTLIYQLAEGPEVICAQI LQGCAKQALEKLEEKRTSQEDPKESPAMLPTFLLMNLLSLAGDVALQQLVHLEQAVSGEL CRRRVLREEQEHKTKDPKEKNTSSETTMEEELGLVGATADDTEAELIRGICEMELLDGKQ TLAAFVPLLLKVCNNPGLYSNPDLSAAASLALGKFCMISATFCDSQLRLLFTMLEKSPLP IVRSNLMVATGDLAIRFPNLVDPWTPHLYARLRDPAQQVRKTAGLVMTHLILKDMVKVKG QVSEMAVLLIDPEPQIAALAKNFFNELSHKGNAIYNLLPDIISRLSDPELGVEEEPFHTI MKQLLSYITKDKQTESLVEKLCQRFRTSRTERQQRDLAYCVSQLPLTERGLRKMLDNFDC FGDKLSDESIFSAFLSVVGKLRRGAKPEGKAIIDEFEQKLRACHTRGLDGIKELEIGQAG SQRAPSAKKPSTGSRYQPLASTASDNDFVTPEPRRTTRRHPNTQQRASKKKPKVVFSSDE SSEEAEPHRSDTMGKVKVGVNGFGRIGRLVTRAAFNSGKVDIVAINDPFIDLNYMVYMFQ YDSTHGKFHGTVKAENGKLVINGNPITIFQERDPSKIKWGDAGAEYVVESTGVFTTMEKA GAHLQGGAKRVIISAPSADAPMFVMGVNHEKYDNSLKIISNASCTTNCLAPLAKVIHDNF GIVEGLMTTVHAITATQKTVDGPSGKLWRDGRGALQNIIPASTGAAKAVGKVIPELNGKL TGMAFRVPTANVSVVDLTCRLEKPAKYDDIKKVVKQASEGPLKGILGYTEHQVVSSDFNS DTHSSTFDAGAGIALNDHFVKLISWYDNEFGYSNRVVDLMAHMASKE >gi568815586r:6520133_6721248|GENSCAN_predicted_CDS_1|3564_bp nnaaaggccatcattctcactcgagaagccacaggccacttccaggagtccgaacccttc agtcatatagacccagaggagtcagaggagaccaggctcttgaatatcttaggacttatc ttcaaaggcccagcagcttccacacaagaaaagaatccccgggagtctacaggaaacatg gtcacaggacagactgtctgtaaaaataaacccaatatgtcggatcctgaggaatccagg ggaaatgatgaactagtgaagcaggagatgctggtacagtatctgcaggatgcctacagc ttctcccggaagattacagaggccattggcatcatcagcaagatgatgtatgaaaacaca actacagtggtgcaggaggtgattgaattctttgtgatggtcttccaatttggggtaccc caggccctgtttggggtgcgccgtatgctgcctctcatctggtctaaggagcctggtgtc cgggaagccgtgcttaatgcctaccgccaactctacctcaaccccaaaggggactctgcc agagccaaggcccaggctttgattcagaatctctctctgctgctagtggatgcctcggtt gggaccattcagtgtcttgaggaaattctctgtgagtttgtgcagaaggatgagttgaaa ccagcagtgacccagctgctgtgggagcgggccaccgagaaggtcgcctgctgtcctctg gagcgctgttcctctgtcatgcttcttggcatgatggcacgaggaaagccagaaattgtg ggaagcaatttagacacactggtgagcatagggctggatgagaagtttccacaggactac aggctggcccagcaggtgtgccatgccattgccaacatctcggacaggagaaagccttct ctgggcaaacgtcacccccccttccggctgcctcaggaacacaggttgtttgagcgactg cgggagacagtcacaaaaggctttgtccacccagacccactctggatcccattcaaagag gtggcagtgaccctcatttaccaactggcagagggccccgaagtgatctgtgcccagata ttgcagggctgtgcaaaacaggccctggagaagctagaagagaagagaaccagtcaggag gacccgaaggagtcccccgcaatgctccccactttcctgttgatgaacctgctgtccctg gctggggatgtggctctgcagcagctggtccacttggagcaggcagtgagtggagagctc tgccggcgccgagttctccgggaagaacaggagcacaagaccaaagatcccaaggagaag aatacgagctctgagaccaccatggaggaggagctggggctggttggggcaacagcagat gacacagaggcagaactaatccgtggcatctgcgagatggaactgttggatggcaaacag acactggctgcctttgttccactcttgcttaaagtctgtaacaacccaggcctctatagc aacccagacctctctgcagctgcttcacttgcccttggcaagttctgcatgatcagtgcc actttctgcgactcccagcttcgtcttctgttcaccatgctggaaaagtctccacttccc attgtccggtctaacctcatggttgccactggggatctggccatccgctttcccaatctg gtggacccctggactcctcatctgtatgctcgtctccgggaccctgctcagcaagtgcgg aaaacagcggggctggtgatgacccacctgatcctcaaggacatggtgaaggtgaagggg caggtcagcgagatggcggtgctgctcatcgaccccgagcctcagattgctgccctggcc aagaacttcttcaatgagctctcccacaagggcaacgcaatctataatctccttccagat atcatcagccgcctgtcagaccccgagctgggggtggaggaagagcctttccacaccatc atgaaacagctcctctcctacatcaccaaggacaagcagacagagagcctggtggaaaag ctgtgtcagcggttccgcacatcccgaactgagcggcagcagcgagacctggcctactgt gtgtcacagctgcccctcacagagcgaggcctccgtaagatgcttgacaattttgactgt tttggagacaaactgtcagatgagtccatcttcagtgcttttttgtcagttgtaggcaag ctgcgacgtggggccaagcctgagggcaaggctataatagatgaatttgagcagaagctt cgggcctgtcataccagaggtttggatggaatcaaggagcttgagattggccaagcaggt agccagagagcgccatcagccaagaaaccatccactggttctaggtaccagcctctggct tctacagcctcagacaatgactttgtcacaccagagccccgccgtactacccgtcggcat ccaaacacccagcagcgagcttccaaaaagaaacccaaagttgtcttctcaagtgatgag tccagtgaggaagccgagccacatcgctcagacaccatggggaaggtgaaggtcggagtc aacggatttggtcgtattgggcgcctggtcaccagggctgcttttaactctggtaaagtg gatattgttgccatcaatgaccccttcattgacctcaactacatggtttacatgttccaa tatgattccacccatggcaaattccatggcaccgtcaaggctgagaacgggaagcttgtc atcaatggaaatcccatcaccatcttccaggagcgagatccctccaaaatcaagtggggc gatgctggcgctgagtacgtcgtggagtccactggcgtcttcaccaccatggagaaggct ggggctcatttgcaggggggagccaaaagggtcatcatctctgccccctctgctgatgcc cccatgttcgtcatgggtgtgaaccatgagaagtatgacaacagcctcaagatcatcagc aatgcctcctgcaccaccaactgcttagcacccctggccaaggtcatccatgacaacttt ggtatcgtggaaggactcatgaccacagtccatgccatcactgccacccagaagactgtg gatggcccctccgggaaactgtggcgtgatggccgcggggctctccagaacatcatccct gcctctactggcgctgccaaggctgtgggcaaggtcatccctgagctgaacgggaagctc actggcatggccttccgtgtccccactgccaacgtgtcagtggtggacctgacctgccgt ctagaaaaacctgccaaatatgatgacatcaagaaggtggtgaagcaggcgtcggagggc cccctcaagggcatcctgggctacactgagcaccaggtggtctcctctgacttcaacagc gacacccactcctccacctttgacgctggggctggcattgccctcaacgaccactttgtc aagctcatttcctggtatgacaacgaatttggctacagcaacagggtggtggacctcatg gcccacatggcctccaaggagtaa >gi568815586r:6520133_6721248|GENSCAN_predicted_peptide_2|835_aa MNPLFGPNLFLLQQEQQGLAGPLGDSLGGDHFAGGGDLPPAPLSPAGPAAYSPPGPGPAP PAAMALRNDLGSNINVLKTLNLRFRCFLAKVHELERRNRLLEKQLQQALEEGKQGRRGLG RRDQAVQTGFVSPIRPLGLQLGARPAAVCSPSARVLGSPARSPAGPLAPSAASLSSSSTS TSTTYSSSARFMPGTIWSFSHARRLGPGLEPTLVQGPGLSWVHPDGVGVQIDTITPEIRA LYNVLAKVKRERDEYKRRAPGAQPGGSGKAAGELDAHQEAQSRVTAAVGHQLAGQAFLCP APPHPGNQNWGLRPEPERWEEEYTVRIQLQDRVNELQEVRVAPHLLLVLPWVPLSAHDPA AVSLSLLGIFIFLPPRQCHQHQGFSQLQEAQEADACQEELALKVEQLKAELVVFKGLMSN GFRLAREQWPEPPHAQHIHTVLWGGHRYPGRGVQSAQGDSTEEAPVQCGGKDEDLARPNS SLSGELGASSLFPGLPGQNLSELDTKIQEKAMKVDMDICRRIDITAKLCDVAQQRNCEDM IQMFQGWVGQVDASVAAGLERRPCLLLGEPYLATGALTGLDWGVPSMGGRKRERKAAVEE DTSLSESEGPRQPDGDEEESTALSINEEMQRMLNQLREYDFEDDCDSLTWEETEETLLLW EDFSGYAMAAAEAQGEQQEDSLEKVIKDTESLFKTREKEYQETIDQIEATDRYWSVAWGL GTSALGEPLGGLADLRSTQGAFIFVTFDLSGSLRWSKLELATAKNDMNRHLHEYMEMCSM KRGLDVQMETCRRLITQSGDRKSPAFTAVPLSDPPPPPSEAEDSDRDVSSDSSMR >gi568815586r:6520133_6721248|GENSCAN_predicted_CDS_2|2508_bp atgaatccgttattcggccccaacctcttcctcctgcagcaggagcagcagggcctggcc gggccactgggggactcactgggaggcgaccacttcgccgggggaggagacttgcccccg gcgcctctctcgccggccggccctgctgcctactcgccgcccgggccgggcccggccccg cctgccgccatggccctccgcaatgacctgggctccaacatcaacgtgctcaagaccctg aacctccggttccgctgcttcctggccaaggtgcatgagctggagcgccggaaccggctg ttggagaagcaactgcagcaagcgctggaggagggtaagcagggccggcggggcctgggt cgtcgcgaccaggcagtgcagaccggcttcgtcagccccatccggcccctggggctgcag ctgggcgcccggccggccgctgtctgcagcccttcggcgcgcgtgctgggctcgcccgcg cgctccccggccggccccctcgcgccctccgcggccagcctctcgtcgtcctccacctcc acctccaccacctattcctcgtcggcccgcttcatgcccggcaccatctggtcgttctcg cacgcccgccggctcgggccgggactggagcccactctggtgcaagggcctggcttgtcg tgggtgcacccggatggggtgggcgtccagatcgacaccatcacgcccgagatccgcgct ctctacaacgtgctggccaaagtgaagcgggagcgggacgagtacaagcggagagctcct ggtgcacagcccggaggttccgggaaggcagctggcgagctcgacgcccatcaggaagca cagagccgcgtgacagctgcagttggtcaccagctggctggccaggcattcctgtgccct gctcctccccatccagggaaccagaactggggtctgaggcctgagccagagaggtgggaa gaggagtacacggtgcggatccagctgcaagaccgtgtaaatgagctccaggaggtgagg gtggcgccccacttgctgctggtgcttccctgggtacccctgtctgcccatgaccctgct gccgtctccctgtccctccttggcatctttatcttcctcccacctcggcagtgccaccaa catcagggtttctcccaactgcaggaagcccaggaggctgatgcctgccaggaggagctg gcactgaaggtggaacagttgaaggctgagctggtggtcttcaaggggctcatgagtaac ggcttccgtttggccagggagcagtggcccgagccgccccatgcccagcatattcacaca gtgctgtggggaggccaccgctacccaggaagaggggtgcagtcagctcagggagactcc acagaagaggcaccggtgcaatgtggtgggaaggatgaggaccttgccaggcctaattcg tccttgtctggagaactgggcgcctcctcactgttccctgggctccctggacagaacctg tcggagctggacaccaagatccaggagaaagccatgaaggtggatatggacatctgccgc cgcatcgacatcaccgccaagctctgcgatgtggctcagcagcgcaactgcgaggacatg atccagatgttccaggggtgggtggggcaggtggatgcttccgtggcggctggcctggaa cgcaggccctgcctcctgcttggggagccttacctggcaactggggccctcacggggcta gactggggggtcccatccatgggggggcggaagcgggagcgcaaggctgccgtcgaggag gacacctccctgtcggagagtgaggggccccgccagcccgatggggatgaggaggagagc acagccctcagcatcaacgaggagatgcagcgcatgctcaaccagctgagggagtatgat tttgaggacgactgtgacagcctgacttgggaggagactgaggagaccctgctgctttgg gaggatttctcaggctatgccatggcagctgcagaggcccagggagagcagcaggaagat agcctggagaaggtgattaaagatacggagtccctgttcaaaacccgggagaaggagtat caggagaccattgaccagatagaggccacagacaggtactggtccgtggcctggggtttg gggacttctgcattaggggaaccgttaggaggacttgctgacctcaggagtacccaaggt gcctttatctttgtgacctttgatctctcagggtcactaagatggagcaagctggagttg gccacggccaagaacgacatgaaccggcacctgcacgagtacatggagatgtgcagcatg aagcgcggcctggacgtgcagatggagacctgccgccggctcatcacccagtctggagac cgaaagtctcctgctttcactgcggtcccgcttagcgacccgccgccgccgccaagcgag gctgaggactccgatcgcgatgtctcatctgacagctccatgagatag >gi568815586r:6520133_6721248|GENSCAN_predicted_peptide_3|3243_aa MLANSSSTNSSVLPCPDYRPTHRLHLVVYSLVLAAGLPLNALALWVFLRALRVHSVVSVY MCNLAASDLLFTLSLPVRLSYYALHHWPFPDLLCQTTGAIFQMNMYGSCIFLMLINVDRY AAIVHPLRLRHLRRPRVARLLCLGVWALILVFAVPAARVHRPSRCRYRDLEVRLCFESFS DELWKGRLLPLVLLAEALGFLLPLAAVVYSSGRVFWTLARPDATQSQRRRKTVRLLLANL VIFLLCFVPYNSTLAVYGLLRSKLVAASVPARDRVRGVLMVMVLLAGANCVLDPLVYYFS AEGFRNTLRGLGTPHRARTSATNGTRAALAQSERSAVTTDATRPDAAMSPGFRPLNTHAI ALSVPDSQRLSFWEAYRVYTQEACDVPYISKAALLIVYTEQGPSLGSPFLKVCLLGRMVP PHENEEDPEEDLSETETPKLKKKKKPKKPRDPKIPKSKRQKKERMLLCRQLGDSSGEGPE FVEEEEEVALRSDSEGSDYTPGKKKKKKLGPKKEKKSKSKRKEEEEEEDDDDDSKEPKSS AQLLEDWGMEDIDHVFSEEDYRTLTNYKAFSQFVRPLIAAKNPKIAVSKMMMVLGAKWRE FSTNNPFKGSSGASVAAAAAAAVAVVESMVTATEVAPPPPPVEVPIRKAKTKEGKGPNAR RKPKGSPRVPDAKKPKPKKVAPLKIKLGGFGSKRKRSSSEDDDLDVESDFDDASINSYSV SDGSTSRSSRSRKKLRTTKKKKKGEEEVTAVDGYETDHQDYCEVCQQGGEIILCDTCPRA YHMVCLDPDMEKAPEGKWSCPHCVSVWPLWPLGTHEKKGGTVKLFGAWMEMEMLVLRVEK EGIQWEAKEDNSEGEEILEEVGGDLEEEDDHHMEFCRVCKDGGELLCCDTCPSSYHIHCL NPPLPEIPNGEWLCPRCTCPALKGKVQKILIWKWGQPPSPTPVPRPPDADPNTPSPKPLE GRPERQFFVKWQGMSYWHCSWVSELQLELHCQVMFRNYQRKNDMDEPPSGDFGGDEEKSR KRKNKDPKFAEMEERFYRYGIKPEWMMIHRILNHSVDKKGHVHYLIKWRDLPYDQASWES EDVEIQDYDLFKQSYWNHRELMRGEEGRPGKKLKKVKLRKLERPPETPTVDPTVKYERQP EYLDATGGTLHPYQMEGLNWLRFSWAQGTDTILADEMGLGKTVQTAVFLYSLYKEGHSKG PFLVSAPLSTIINWEREFEMWAPDMYVVTYVGDKDSRAIIRENEFSFEDNAIRGGKKASR MKKEASVKFHVLLTSYELITIDMAILGSIDWACLIVDEAHRLKNNQSKFFRVLNGYSLQH KLLLTGTPLQNNLEELFHLLNFLTPERFHNLEGFLEEFADIAKEDQIKKLHDMLGPHMLR RLKADVFKNMPSKTELIVRVELSPMQKKYYKYILTRNFEALNARGGGNQVSLLNVVMDLK KCCNHPYLFPVAAMEAPKMPNGMYDGSALIRASGKLLLLQKMLKNLKEGGHRVLIFSQMT KMLDLLEDFLEHEGYKYERIDGGITGNMRQEAIDRFNAPGAQQFCFLLSTRAGGLGINLA TADTVIIYDSDWNPHNDIQAFSRAHRIGQNKKVMIYRFVTRASVEERITQVAKKKMMLTH LVVRPGLGSKTGSMSKQELDDILKFGTEELFKDEATDGGGDNKEGEDSSVIHYDDKAIER LLDRNQDETEDTELQGMNEYLSSFKVAQYVVREEEMGEEEEVEREIIKQEESVDPDYWEK LLRHHYEQQQEDLARNLGKGKRIRKQVNYNDGSQEDRDWQDDQSDNQSDYSVASEEGDED FDERSEAPRRPSRKGLRNDKDKPLPPLLARVGGNIEVLGFNARQRKAFLNAIMRYGMPPQ DAFTTQWLVRDLRGKSEKEFKAYVSLFMRHLCEPGADGAETFADGVPREGLSRQHVLTRI GVMSLIRKKVQEFEHVNGRWSMPELAEVEENKKMSQPGSPSPKTPTPSTPGDTQPNTPAP VPPAEDGIKIEENSLKEEESIEGEKEVKSTAPETAIECTQAPAPASEDEKVVVEPPEGEE KVEKAEVKERTEEPMETEPKGAADVEKVEEKSAIDLTPIVVEDKEEKKEEEEKKEVMLQN GETPKDLNDEKQKKNIKQRFMFNIADGGFTELHSLWQNEERAATVTKKTYEIWHRRHDYW LLAGIINHGYARWQDIQNDPRYAILNEPFKGEMNRGNFLEIKNKFLARRFKLLEQALVIE EQLRRAAYLNMSEDPSHPSMALNTRFAEVECLAESHQHLSKESMAGNKPANAVLHKVLKQ LEELLSDMKADVTRLPATIARIPPVAVRLQMSERNILSRLANRAPEPTPQQGERKFRVRR PTRRNRKRRGREASATRAPAWNDSVASAGRKLGPDCTWRAARRALSDINPHSGGSRGNWG TKSGSTDLVWDVGRRVRYLGFSTMGRKLDPTKEKRGPGRKARKQKGAETELVRFLPAVSD ENSKRLSSRARKRAAKRRLGSVEAPKTNKSPEAKPLPGKLPKGISAGAVQTAGKKGPQSL FNAPRGKKRPAPGSDEEEEEEDSEEDGMVNHGDLWGSEDDADTVDDYGADSNSEDEEEGE ALLPIERAARKQKAREAAAGIQWSEEETEDEEEEKEVTPESGPPKVEEADGGLQINVDEE PFVLPPAGEMEQDILAGQSPHAQAPDLQRVHKRIQDIVGILRDFGAQREEGRSRSEYLNR LKKDLAIYYSYGDFLLGKLMDLFPLSELVEFLEANEVPRPVTLRTNTLKTRRRDLAQALI NRGVNLDPLGKWSKTGLVVYDSSVPIGATPEYLAGHYMLQGASSMLPVMALAPQEHERIL DMCCAPGGKTSYMAQLMKNTGVILANDANAERLKSVVGNLHRLGVTNTIISHYDGRQFPK VVGGFDRVLLDAPCSGTGVISKDPAVKTNKDEKDILRCAHLQKELLLSAIDSVNATSKTG GYLVYCTCSITVEENEWVVDYALKKRNVRLVPTGLDFGQEGFTRFRERRFHPSLRSTRRF YPHTHNMDGFFIAKFKKFSNSIPQSQTGNSETATPTNVDLPQVIPKSENSSQPAKKAKGA AKTKQQLQKQQHPKKASFQKLNGISKGADSELSTVPSVTKTQASSSFQDSSQPAGKAEGI REPKVTGKLKQRSPKLQSSKKVAFLRQNAPPKGTDTQTPAVLSPSKTQATLKPKDHHQPL GRAKGVEKQQLPEQPFEKAAFQKQNDTPKGPQPPTVSPIRSSRPPPAKRKKSQSRGNSQL LLS >gi568815586r:6520133_6721248|GENSCAN_predicted_CDS_3|9732_bp atgttagccaacagctcctcaaccaacagttctgttctcccgtgtcctgactaccgacct acccaccgcctgcacttggtggtctacagcttggtgctggctgccgggctccccctcaac gcgctagccctctgggtcttcctgcgcgcgctgcgcgtgcactcggtggtgagcgtgtac atgtgtaacctggcggccagcgacctgctcttcaccctctcgctgcccgttcgtctctcc tactacgcactgcaccactggcccttccccgacctcctgtgccagacgacgggcgccatc ttccagatgaacatgtacggcagctgcatcttcctgatgctcatcaacgtggaccgctac gccgccatcgtgcacccgctgcgactgcgccacctgcggcggccccgcgtggcgcggctg ctctgcctgggcgtgtgggcgctcatcctggtgtttgccgtgcccgccgcccgcgtgcac aggccctcgcgttgccgctaccgggacctcgaggtgcgcctatgcttcgagagcttcagc gacgagctgtggaaaggcaggctgctgcccctcgtgctgctggccgaggcgctgggcttc ctgctgcccctggcggcggtggtctactcgtcgggccgagtcttctggacgctggcgcgc cccgacgccacgcagagccagcggcggcggaagaccgtgcgcctcctgctggctaacctc gtcatcttcctgctgtgcttcgtgccctacaacagcacgctggcggtctacgggctgctg cggagcaagctggtggcggccagcgtgcctgcccgcgatcgcgtgcgcggggtgctgatg gtgatggtgctgctggccggcgccaactgcgtgctggacccgctggtgtactactttagc gccgagggcttccgcaacaccctgcgcggcctgggcactccgcaccgggccaggacctcg gccaccaacgggacgcgggcggcgctcgcgcaatccgaaaggtccgccgtcaccaccgac gccaccaggccggatgccgccatgtccccaggattccgccctctgaacacacatgccatt gcgctgtccgtgcccgactcccaacgcctctcgttctgggaggcttacagggtgtacaca caagaagcctgtgatgtaccctacatctccaaggcagcactcctgattgtgtacactgag cagggaccatcccttggttcacccttcctcaaagtctgtctcctcggtaggatggtccct ccacatgaaaatgaagaggacccagaagaggatttgtcagaaacagagactccaaagctc aagaagaagaaaaagcctaagaaacctcgggaccctaaaatccctaagagcaagcgccaa aaaaaggagcgtatgctcttatgccggcagctgggggacagctctggggaggggccagag tttgtggaggaggaggaagaggtggctctgcgctcagacagtgagggcagcgactatact cctggcaagaagaagaagaagaagcttggacctaagaaagagaagaagagcaaatccaag cggaaggaggaggaggaggaggaggatgatgatgatgattcaaaggagcctaaatcatct gctcagctcctggaagactggggcatggaagacattgaccacgtgttctcagaggaggat tatcgaaccctcaccaactacaaggccttcagccagtttgtcagacccctcattgctgcc aaaaatcccaagattgctgtctccaagatgatgatggttttgggtgcaaaatggcgggag ttcagtaccaataaccccttcaaaggcagttctggggcatcagtggcagctgcggcagca gcagcggtagctgtggtggagagcatggtgacagccactgaggttgcaccaccacctccc cctgtggaggtgcctatccgcaaggccaagaccaaggagggcaaaggtcccaatgctcgg aggaagcccaagggcagccctcgtgtacctgatgccaagaagcctaaacccaagaaagta gctcccctgaaaatcaagctgggaggttttggttccaagcgtaagagatcctcgagtgag gatgatgacttagatgtggaatctgacttcgatgatgccagtatcaatagctattctgtt tctgatggttccaccagccgtagtagccgcagccgcaagaaactccgaaccactaaaaag aaaaagaaaggcgaggaggaggtgactgctgtggatggttatgagacagaccaccaggac tattgcgaggtgtgccagcaaggcggtgagatcatcctgtgtgatacctgtccccgtgct taccacatggtctgcctggatcccgacatggagaaggctcccgagggcaagtggagctgc ccacactgcgtgagtgtctggccattgtggccccttggaacccatgagaagaagggtggg acagtaaagctcttcggggcctggatggaaatggaaatgctggtgctgcgggttgagaag gaaggcatccagtgggaagctaaagaggacaattcggagggtgaggagatcctggaagag gttgggggagacctcgaagaggaggatgaccaccatatggaattctgtcgggtctgcaag gatggtggggaactgctctgctgtgatacctgtccttcttcctaccacatccactgcctg aatcccccacttccagagatccccaacggtgaatggctctgtccccgttgtacgtgtcca gctctgaagggcaaagtgcagaagatcctaatctggaagtggggtcagccaccatctccc acaccagtgcctcggcctccagatgctgatcccaacacgccctccccaaagcccttggag gggcggccagagcggcagttctttgtgaaatggcaaggcatgtcttactggcactgctcc tgggtttctgaactgcagctggagctgcactgtcaggtgatgttccgaaactatcagcgg aagaatgatatggatgagccaccttctggggactttggtggtgatgaagagaaaagccga aagcgaaagaacaaggaccctaaatttgcagagatggaggaacgcttctatcgctatggg ataaaacccgagtggatgatgatccaccgaatcctcaaccacagtgtggacaagaagggc cacgtccactacttgatcaagtggcgggacttaccttacgatcaggcttcttgggagagt gaggatgtggagatccaggattacgacctgttcaagcagagctattggaatcacagggag ttaatgaggggtgaggaaggccgaccaggcaagaagctcaagaaggtgaagcttcggaag ttggagaggcctccagaaacgccaacagttgatccaacagtgaagtatgagcgacagcca gagtacctggatgctacaggtggaaccctgcacccctatcaaatggagggcctgaattgg ttgcgcttctcctgggctcagggcactgacaccatcttggctgatgagatgggccttggg aaaactgtacagacagcagtcttcctgtattccctttacaaggagggtcattccaaaggc cccttcctagtgagcgcccctctttctaccatcatcaactgggagcgggagtttgaaatg tgggctccagacatgtatgtcgtaacctatgtgggtgacaaggacagccgtgccatcatc cgagagaatgagttctcctttgaagacaatgccattcgtggtggcaagaaggcctcccgc atgaagaaagaggcatctgtgaaattccatgtgctgctgacatcctatgaattgatcacc attgacatggctattttgggctctattgattgggcctgcctcatcgtggatgaagcccat cggctgaagaacaatcagtctaagttcttccgggtattgaatggttactcactccagcac aagctgttgctgactgggacaccattacaaaacaatctggaagagttgtttcatctgctc aactttctcacccccgagaggttccacaatttggaaggttttttggaggagtttgctgac attgccaaggaggaccagataaaaaaactgcatgacatgctggggccgcacatgttgcgg cggctcaaagccgatgtgttcaagaacatgccctccaagacagaactaattgtgcgtgtg gagctgagccctatgcagaagaaatactacaagtacatcctcactcgaaattttgaagca ctcaatgcccgaggtggtggcaaccaggtgtctctgctgaatgtggtgatggatcttaag aagtgctgcaaccatccatacctcttccctgtggctgcaatggaagctcctaagatgcct aatggcatgtatgatggcagtgccctaatcagagcatctgggaaattattgctgctgcag aaaatgctcaagaaccttaaggagggtgggcatcgtgtactcatcttttcccagatgacc aagatgctagacctgctagaggatttcttggaacatgaaggttataaatacgaacgcatc gatggtggaatcactgggaacatgcggcaagaggccattgaccgcttcaatgcaccgggt gctcagcagttctgcttcttgctttccactcgagctgggggccttggaatcaatctggcc actgctgacacagttattatctatgactctgactggaacccccataatgacattcaggcc tttagcagagctcaccggattgggcaaaataaaaaggtaatgatctaccggtttgtgacc cgtgcgtcagtggaggagcgcatcacgcaggtggcaaagaagaaaatgatgctgacgcat ctagtggtgcggcctgggctgggctccaagactggatctatgtccaaacaggagcttgat gatatcctcaaatttggcactgaggaactattcaaggatgaagccactgatggaggagga gacaacaaagagggagaagatagcagtgttatccactacgatgataaggccattgaacgg ctgctagaccgtaaccaggatgagactgaagacacagaattgcagggcatgaatgaatat ttgagctcattcaaagtggcccagtatgtggtacgggaagaagaaatgggggaggaagag gaggtagaacgggaaatcattaaacaggaagaaagtgtggatcctgactactgggagaaa ttgctgcggcaccattatgagcagcagcaagaagatctagcccgaaatctgggcaaagga aaaagaatccgtaaacaggtcaactacaatgatggctcccaggaggaccgagattggcag gacgaccagtccgacaaccagtccgattactcagtggcttcagaggaaggtgatgaagac tttgatgaacgttcagaagctccccgtaggcccagtcgtaagggcctgcggaatgataaa gataagccattgcctcctctgttggcccgtgttggtgggaatattgaagtacttggtttt aatgctcgtcagcgaaaagcctttcttaatgcaattatgcgatatggtatgccacctcag gatgcttttactacccagtggcttgtaagagacctgcgaggcaaatcagagaaagagttc aaggcatatgtctctcttttcatgcggcatttatgtgagccgggggcagatggggctgag acctttgctgatggtgtcccccgagaaggcctgtctcgccagcatgtccttactagaatt ggtgttatgtctttgattcgcaagaaggttcaggagtttgaacatgttaatgggcgctgg agcatgcctgaactggctgaggtggaggaaaacaagaagatgtcccagccagggtcaccc tccccaaaaactcctacaccctccactccaggggacacgcagcccaacactcctgcacct gtcccacctgctgaagatgggataaaaatagaggaaaatagcctcaaagaagaagagagc atagaaggagaaaaggaggttaaatctacagcccctgagactgccattgagtgtacacag gcccctgcccctgcctcagaggatgaaaaggtcgttgttgaaccccctgagggagaggag aaagtggaaaaggcagaggtgaaggagagaacagaggaacctatggagacagagcccaaa ggtgctgctgatgtagagaaggtggaggaaaagtcagcaatagatctgacccctattgtg gtagaagacaaagaagagaagaaagaagaagaagagaaaaaagaggtgatgcttcagaat ggagagacccccaaggacctgaatgatgagaaacagaagaaaaatattaaacaacgtttc atgtttaacattgcagatggtggttttactgagttgcactccctttggcagaatgaagag cgggcagccacagttaccaagaagacttatgagatctggcatcgacggcatgactactgg ctgctagccggcattataaaccatggctatgcccggtggcaagacatccagaatgaccca cgctatgccatcctcaatgagcctttcaagggtgaaatgaaccgtggcaatttcttagag atcaagaataaatttctagctcgaaggtttaagctcttagaacaagctctggtgattgag gaacagctgcgccgggctgcttacttgaacatgtcagaagacccttctcacccttccatg gccctcaacacccgctttgctgaggtggagtgtttggcggaaagtcatcagcacctgtcc aaggagtcaatggcaggaaacaagccagccaatgcagtcctgcacaaagttctgaaacag ctggaagaactgctgagtgacatgaaagctgatgtgactcgactcccagctaccattgcc cgaattcccccagttgctgtgaggttacagatgtcagagcgtaacattctcagccgcctg gcaaaccgggcacccgaacctaccccacagcagggcgagcgtaagttccgggtgcggcgg ccgactaggcgcaacaggaagaggcggggccgcgaggctagcgctacccgtgcgcctgcg tggaacgattctgtggcgagtgccggccgaaagctaggtccggattgcacgtggagggcc gcccgaagggcactctcggacattaacccgcattctggtgggtctagaggaaattggggg acgaagagtggcagcactgacctggtctgggacgtggggagaagggtgcgctacctgggt ttcagtaccatggggcgcaagttggaccctacgaaggagaagcgggggccaggccgaaag gcccggaagcagaagggtgccgagacagaactcgtcagattcttgcctgcagtaagtgac gaaaattccaagaggctgtctagtcgtgctcgaaagagggcagccaagaggagattgggc tctgttgaagcccctaagacaaataagtctcctgaggccaaaccattgcctggaaagcta ccaaaagggatctctgcaggagctgtccagacagctggtaagaagggaccccagtcccta tttaatgctcctcgaggcaagaagcgcccagcacctggcagtgatgaggaagaggaggag gaagactctgaagaagatggtatggtgaaccacggggacctctggggctccgaggacgat gctgatacggtagatgactatggagctgactccaactctgaggatgaggaggaaggtgaa gcgttgctgcccattgaaagagctgctcggaagcagaaggcccgggaagctgctgctggg atccagtggagtgaagaggagaccgaggacgaggaggaagagaaagaagtgacccctgag tcaggccccccaaaggtggaagaggcagatgggggcctgcagatcaatgtggatgaggaa ccatttgtgctgccccctgctggggagatggagcaggatatccttgcagggcagagccca catgcccaggctccagacctgcaacgagttcacaagcggatccaggatattgtgggaatt ctgcgtgattttggggctcagcgggaggaagggcggtctcgttctgaatacctgaaccgg ctcaagaaggatctggccatttactactcctatggagacttcctgcttggcaagctcatg gacctcttccctctgtctgagctggtggagttcttagaagctaatgaggtgcctcggccc gtcaccctccggaccaataccttgaaaacccgacgccgagaccttgcacaggctctaatc aatcgtggggttaacctggatcccctgggcaagtggtcaaagactggactagtggtgtat gattcttctgtgcccattggtgctacccccgagtacctggctgggcactacatgctgcag ggagcctccagcatgttgcccgtcatggccttggcaccccaggaacatgagcggatcctg gacatgtgttgtgcccctggaggaaagaccagctacatggcccagctgatgaagaacacg ggtgtgatccttgccaatgacgccaatgctgagcggctcaagagtgttgtgggcaacttg catcggctgggagtcaccaacaccattatcagccactatgatgggcgccagttccccaag gtggtggggggctttgaccgagtactgctggatgctccctgcagtggcactggggtcatc tccaaggatccagccgtgaagactaacaaggatgagaaggacatcctgcgctgtgctcac ctccagaaggagttgctcctgagtgctattgactctgtcaatgcgacctccaagacagga ggctacctggtttactgcacctgttctatcacagtagaagagaatgagtgggtggtagac tatgctctgaaaaagaggaatgtgcgactggtgcccacgggcctagactttggccaggaa ggttttacccgctttcgagaaaggcgcttccaccccagtctgcgttctacccgacgcttc taccctcatacccacaatatggatgggttcttcattgccaagttcaagaaattttccaat tctatccctcagtcccagacaggaaattctgaaacagccacacctacaaatgtagacttg cctcaggtcatccccaagtctgagaacagcagccagccagccaagaaagccaagggggct gcaaagacaaagcagcagctgcagaaacagcaacatcccaagaaggcctccttccagaag ctgaatggcatctccaaaggggcagactcagaattgtccactgtaccttctgtcacaaag acccaagcttcctccagcttccaggatagcagtcagccagctggaaaagccgaagggatc agggagccaaaggtgactgggaagctaaagcaacgatcacctaaattacagtcctccaag aaagttgctttcctcaggcagaatgcccctcccaagggcacagacacacaaacaccggct gtgttatccccatccaagactcaggccaccctgaaacctaaggaccatcatcagcccctt ggaagggccaagggggttgagaagcagcagttgccagagcagccttttgagaaagctgcc ttccagaaacagaatgatacccccaaggggcctcagcctcccactgtgtctcccatccgt tccagccgccccccaccagcaaagaggaagaaatctcagtccaggggcaacagccagctg ctgctatcttag >gi568815586r:6520133_6721248|GENSCAN_predicted_peptide_4|543_aa MRKPAAGFLPSLLKVLLLPLAPAAAQDSTQASTPGSPLSPTEYERFFALLTPTWKAETTC RLRATHGCRNPTLVQLDQYENHGLVPDGAVCSNLPYASWFESFCQFTHYRCSNHVYYAKR VLCSQPVSILSPNTLKEIEASAEVSPTTMTSPISPHFTVTERQTFQPWPERLSNNVEELL QSSLSLGGQEQAPEHKQEQGVEHRQEPTQEHKQEEGQKQEEQEEEQEEEGKQEEGQGTKE GREAVSQLQTDSEPKFHSESLSSNPSSFAPRVREVESTPMIMENIQELIRSAQEIDEMNE IYDENSYWRNQNPGSLLQLPHTEALLVLCYSIVENTCIITPTAKAWKYMEEEILGFGKSV CDSLGRRHMSTCALCDFCSLKLEQCHSEASLQRQQCDTSHKTPFVSPLLASQSLSIGNQV GSPESGRFYGLDLYGGLHMDFWCARLATKGCEDVRVSGWLQTEFLSFQDGDFPTKICDTD YIQYPNYCSFKSQQCLMRNRNRKVSRMRCLQNETYSALSPGKSEDVVLRWSQEFSTLTLG QFG >gi568815586r:6520133_6721248|GENSCAN_predicted_CDS_4|1632_bp atgaggaagccagccgctggcttccttccctcactcctgaaggtgctgctcctgcctctg gcacctgccgcagcccaggattcgactcaggcctccactccaggcagccctctctctcct accgaatacgaacgcttcttcgcactgctgactccaacctggaaggcagagactacctgc cgtctccgtgcaacccacggctgccggaatcccacactcgtccagctggaccaatatgaa aaccacggcttagtgcccgatggtgctgtctgctccaacctcccttatgcctcctggttt gagtctttctgccagttcactcactaccgttgctccaaccacgtctactatgccaagaga gtcctgtgttcccagccagtctctattctctcacctaacactctcaaggagatagaagct tcagctgaagtctcacccaccacgatgacctcccccatctcaccccacttcacagtgaca gaacgccagaccttccagccctggcctgagaggctcagcaacaacgtggaagagctccta caatcctccttgtccctgggaggccaggagcaagcgccagagcacaagcaggagcaagga gtggagcacaggcaggagccgacacaagaacacaagcaggaagaggggcagaaacaggaa gagcaagaagaggaacaggaagaggagggaaagcaggaagaaggacaggggactaaggag ggacgggaggctgtgtctcagctgcagacagactcagagcccaagtttcactctgaatct ctatcttctaacccttcctcttttgctccccgggtacgagaagtagagtctactcctatg ataatggagaacatccaggagctcattcgatcagcccaggaaatagatgaaatgaatgaa atatatgatgagaactcctactggagaaaccaaaaccctggcagcctcctgcagctgccc cacacagaggccttgctggtgctgtgctattcgatcgtggagaatacctgcatcataacc cccacagccaaggcctggaagtacatggaggaggagatccttggtttcgggaagtcggtc tgtgacagccttgggcggcgacacatgtctacctgtgccctctgtgacttctgctccttg aagctggagcagtgccactcagaggccagcctgcagcggcaacaatgcgacacctcccac aagactccctttgtcagccccttgcttgcctcccagagcctgtccatcggcaaccaggta gggtccccagaatcaggccgcttttacgggctggatttgtacggtgggctccacatggac ttctggtgtgcccggcttgccacgaaaggctgtgaagatgtccgagtctctgggtggctc cagactgagttccttagcttccaggatggggatttccctaccaagatttgtgacacagac tatatccagtacccaaactactgttccttcaaaagccagcagtgtctgatgagaaaccgc aatcggaaggtgtcccgcatgagatgtctgcagaatgagacttacagtgcgctgagccct ggcaaaagtgaggacgttgtgcttcgatggagccaggagttcagcaccttgactctaggc cagttcggatga >gi568815586r:6520133_6721248|GENSCAN_predicted_peptide_5|1222_aa MPRTPPAPATPQPRSVPSARSRRAAAPSMQPCAGSAGLRDGWDGGHAGAGARLPHPEAPA PPPARLLRTTGRGGPSAPRHVCVWERAPPPSRSPRVPRSRRQVLPGTAPPATPSGFEEGP PSSQYPWAIVWGPTVSREDGGDPNSANPGFLDYGFAAPHGLATPHPNSDSMRGDGDGLIL GEAPATLRPFLFGGRGEGVDPQLYVTITISIIIVLVATGIIFKFCWDRSQKRRRPSGQQG ALRQEESQQPLTDLSPAGVTVLGAFGDSPTPTPDHEEPRGGPRPGMPHPKGAPAFQLNRS LSGQRFLHTLPLMCVSRPDVVVVCGVLTLSLMNTHPPRFRSPCVLLQSKRRPSRALAQAL APPQPSPPGRMEESHFNSNPYFWPSIPTVSGQIENTMFINKMKDQLLPEKGCGLAPPHYP TLLTVPASVSLPSGISMDTESKSDQLTPHSQASVTQNITVVPVPSTGLMTAGPGLVITSP SGSLVTTASSAQTFPISAPMIVSALPPGSQALQVVPDLSKKVASTLTEEGGGGGGGGGSV APKPPRGRKKKRMLESGLPEMNDPYVLSPEDDDDHQKDGKTYRCRMCSLTFYSKSEMQIH SKSHTETKPHKCPHCSKTFANSSYLAQHIRIHSGAKPYSCNFCEKSFRQLSHLQQHTRIH SKMHTETIKPHKCPHCSKTFANTSYLAQHLRIHSGAKPYNCSYCQKAFRQLSHLQQHTRI HTGDRPYKCAHPGCEKAFTQLSNLQSHRRQHNKDKPFKCHNCHRAYTDAASLEVHLSTHT VKHAKVYTCTICSRAYTSETYLMKHMRKHNPPDLQQQVQAAAAAAAVAQAQAQAQAQAQA QAQAQAQAQASQASQQQQQQQQQQQQQQQQPPPHFQSPGAAPQGGGGGDSNPNPPPQCSF DLTPYKTAEHHKDICLTVTTSTIQKLTGLKKVILQKREKKLDLPVAEKGGKALAAKWLRP LSRYSHFRGGSEVALFCFEMAAGMYLEHYLDSIENLPFELQRNFQLMRDLDQRTEDLKAE IDKLATEYMSSARSLSSEEKLALLKQIQEAYGKCKEFGDDKVQLAMQTYEMVDKHIRRLD TDLARFEADLKEKQIESSDYDSSSSKGKKKGRTQKEKKAARARSKGKNSDEEAPKTAQKK LKLVRTSPEYGMPSVTFGSVHPSDVLDMPVDPNEPTYCLCHQVSYGEMIGCDNPDVLPTL LPRTEEEIDKGLGFQHSFFHIP >gi568815586r:6520133_6721248|GENSCAN_predicted_CDS_5|3669_bp atgccccgcaccccgcccgctcctgcgaccccccagccccgctcagtcccgagcgcccgc agtcgtcgcgccgccgcgccaagcatgcagccctgtgcggggagtgcgggcctgcgggat gggtgggatgggggccacgctggggctggggcccggctcccgcaccccgaggctcctgcc ccacccccagctcgtctcctgcgcacaacaggtcggggaggcccctcggccccacgtcat gtgtgcgtgtgggagcgagcacctccaccaagccgatctcctcgggtcccaagatcacgt cggcaagtcctgcctggcactgcacccccagccaccccatcaggctttgaggaggggccg ccctcatcccaatacccctgggctatcgtgtggggtcccaccgtgtctcgagaggatgga ggggaccccaactctgccaatcccggatttctggactatggttttgcagcccctcatggg ctcgcaaccccacaccccaactcagactccatgcgaggtgatggagatgggcttatcctt ggagaggcacctgccaccctgcggccattcctgttcgggggccgtggggaaggtgtggac ccccagctctatgtcacaattaccatctccatcatcattgttctcgtggccactggcatc atcttcaagttctgctgggaccgcagccagaagcgacgcagaccctcagggcagcaaggt gccctgaggcaggaggagagccagcagccactgacagacctgtccccggctggagtcact gtgctgggggccttcggggactcacctacccccacccctgaccatgaggagccccgaggg ggaccccggcctgggatgccccaccccaagggggctccagccttccagttgaaccgctca ctcagtggtcagcgtttcctgcacactttacctctcatgtgcgtttcccggcctgatgtt gtggtggtgtgcggcgtgctcactctctccctcatgaacacccacccacctcgtttccgc agcccctgcgtgctgctccagagcaaacgccgcccctcccgcgccctggctcaggctctg gcgccgccgcagccgtcgccgcccggtagaatggaagaatctcacttcaattctaacccg tacttctggccttctatccccacagtctcaggtcagatcgagaacacaatgttcatcaac aagatgaaggatcagctgttgccagagaagggctgtggtctggccccacctcactacccc accttgctgacagtgcctgcctcagtgtccctgccctcaggcatcagtatggacacagag tccaagtcagaccagctgaccccacacagccaagcgtccgttacccagaatatcacggtg gtccctgtgccgtctacaggactgatgactgctggtccgggtttggtaatcacgtccccc tcaggctctcttgtgaccacagcatcatcagctcagaccttccccatttcggctcccatg attgtctcagctcttccccctggctcacaagccctgcaggttgtccctgacctctccaag aaggtagcatcgaccctaaccgaggaaggaggcggaggtggtggtggaggtggcagtgtg gctcctaagccaccccggggccggaagaagaagcggatgctggaatcagggctgcccgag atgaatgacccttatgtcctctcccctgaggatgatgatgaccatcagaaagacggcaag acctacaggtgccggatgtgctcactgacattctactccaagtcggagatgcagatccac tccaagtcacacaccgagaccaagccccacaagtgcccacattgctccaagaccttcgcc aacagctcctacctggcccagcacatccgtatacactcaggggctaagccctacagttgt aacttctgtgagaaatccttccgccagctctcccaccttcagcagcacacccggatccac tccaagatgcacacggagaccatcaagccccacaagtgcccgcactgctccaagaccttc gccaacacctcctacctggcccagcacctccgtatccactcgggggccaagccctacaac tgttcctactgccagaaggccttccgccagctctcccacctccagcagcacacacgaatc cacactggtgatagaccatacaaatgtgcacacccaggctgtgagaaagccttcacacaa ctctccaatctgcagtcccacagacggcaacacaacaaagataaacccttcaagtgccac aactgtcatcgggcgtacacggatgcagcctcactagaggtgcacctgtctacgcacaca gtgaagcatgccaaggtgtacacctgcactatctgcagtcgggcatacacatcagaaaca taccttatgaaacatatgcgcaaacacaacccgcctgatcttcagcaacaggtgcaggca gcagcagcagcggcagcagtggcccaggcccaggctcaagctcaagcccaggctcaggct caggctcaagcccaggcccaggcccaggcctcccaggcatcacagcagcagcagcagcag cagcagcagcagcagcagcagcagcaacagccaccaccacacttccagtctcctggggca gccccccagggtgggggtggtggggacagcaatcccaaccctccaccccagtgttccttt gacctgaccccgtataagacggcggagcatcataaggacatctgcctcactgtcaccacc agcaccatccagaaactaactggcttgaaaaaagtcattctgcaaaagagggaaaaaaag ttggatcttccagttgctgagaagggcggaaaggctttagccgcaaaatggcttcggccc ctgtcgcgttacagtcacttccggggcggatcggaagttgctttgttttgcttcgagatg gctgcggggatgtatttggaacattatctggacagtattgaaaaccttccctttgaatta cagagaaactttcagctcatgagggacctagaccaaagaacagaggacctgaaggctgaa attgacaagttggccactgagtatatgagtagtgcccgcagcctgagctccgaggaaaaa ttggcccttctcaaacagatccaggaagcctatggcaagtgcaaggaatttggtgacgac aaggtgcagcttgccatgcagacctatgagatggtggacaaacacattcggcggctggac acagacctggcccgttttgaggctgatctcaaggagaaacagattgagtcaagtgactat gacagctcttccagcaaaggcaaaaagaaaggccggactcaaaaggagaagaaagctgct cgtgctcgttccaaagggaaaaactcggatgaagaagcccccaagactgcccagaagaag ttaaagctcgtgcgcacaagtcctgagtatgggatgccctcagtgacctttggcagtgtc cacccctctgatgtgttggatatgcctgtggatcccaacgaacccacctattgcctttgt caccaggtctcctatggagagatgattggctgtgacaaccctgatgttttgcccacgctg ctcccaagaacggaagaagaaatagataagggccttggattccaacacagtttcttccac atcccctga >gi568815586r:6520133_6721248|GENSCAN_predicted_peptide_6|119_aa MSEREPGLRGALAGQLEFRVAVGLVGPALGAMRDLAPGPAAAEGVLGPPAVPAHWRPSLP DERRPLSTAPSPIDHPRAEECERTARDWQAAPPAVSVRDPLGEASWAPESGGDVESLYI >gi568815586r:6520133_6721248|GENSCAN_predicted_CDS_6|360_bp atgagcgagcgggaaccggggctgcgtggggcgcttgcgggccagctggagttccgggtg gccgtgggcttggtgggccccgcactcggagcaatgagggacttagcacccgggccagca gctgcggagggtgtactgggtcccccagcagtgccggcccactggcgcccgagcctcccc gacgagcgccgccccctgtccacggcgcccagtcccatcgaccacccaagggctgaggaa tgcgagcgcacagcgcgggactggcaggcagctccacctgcagtctcggtgcgggatcca ctaggtgaagccagctgggctcctgagtctggtggggacgtggagagtctttatatctag