Result of GENSCAN for
pF1KB6271
GENSCAN 1.0 Date run: 5-Nov-116 Time: 19:01:41 Sequence gi568815590f:143268988_143482648 : 213661 bp : 57.67% 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 Intr + 1818 1929 112 1 1 55 49 73 0.256 0.71 1.02 Intr + 3442 3563 122 1 2 67 94 33 0.201 3.11 1.03 Intr + 5717 5815 99 0 0 54 117 127 0.221 13.44 1.04 Term + 6910 7817 908 2 2 97 42 1827 0.947 172.80 1.05 PlyA + 7920 7925 6 1.05 2.00 Prom + 8304 8343 40 -3.56 2.01 Init + 8743 8900 158 0 2 41 51 142 0.959 5.33 2.02 Intr + 9022 9185 164 1 2 54 94 101 0.850 8.12 2.03 Intr + 9434 9653 220 0 1 -7 94 126 0.066 2.28 2.04 Intr + 10373 10566 194 2 2 65 42 76 0.026 1.05 2.05 Intr + 13550 13680 131 0 2 54 83 51 0.008 2.79 2.06 Intr + 15993 16231 239 2 2 84 98 125 0.334 10.75 2.07 Intr + 21669 21785 117 0 0 89 22 65 0.305 0.75 2.08 Intr + 21999 22436 438 0 0 25 28 187 0.170 0.37 2.09 Intr + 22574 22695 122 2 2 83 78 47 0.288 4.51 2.10 Intr + 23944 24078 135 2 0 79 94 20 0.288 3.42 2.11 Term + 26753 27813 1061 0 2 94 52 1690 0.975 159.71 2.12 PlyA + 30178 30183 6 1.05 3.27 PlyA - 33366 33361 6 -0.45 3.26 Term - 36831 36491 341 1 2 17 48 191 0.293 3.74 3.25 Intr - 39535 38000 1536 2 0 75 53 511 0.137 37.64 3.24 Intr - 39823 39699 125 0 2 39 68 11 0.087 -4.40 3.23 Intr - 40556 40500 57 1 0 100 41 101 0.216 5.74 3.22 Intr - 41230 41081 150 0 0 65 78 349 0.955 32.07 3.21 Intr - 46834 46740 95 1 2 76 105 28 0.948 3.22 3.20 Intr - 47153 47012 142 1 1 34 64 179 0.672 11.64 3.19 Intr - 48121 47896 226 2 1 37 68 136 0.533 4.77 3.18 Intr - 48850 48736 115 1 1 66 89 273 0.971 26.39 3.17 Intr - 49099 49031 69 1 0 144 77 107 0.980 15.73 3.16 Intr - 52399 52214 186 1 0 27 117 355 0.995 33.39 3.15 Intr - 55155 55012 144 0 0 89 91 241 0.971 26.16 3.14 Intr - 55642 55498 145 0 1 65 105 256 0.998 26.47 3.13 Intr - 56546 56359 188 2 2 56 96 142 0.991 11.49 3.12 Intr - 57357 57235 123 0 0 65 47 231 0.683 18.66 3.11 Intr - 60484 60363 122 2 2 92 100 89 0.115 11.89 3.10 Intr - 62352 62237 116 2 2 120 116 134 0.999 20.66 3.09 Intr - 62605 62515 91 2 1 63 91 56 0.964 3.61 3.08 Intr - 63614 63500 115 2 1 89 75 38 0.815 3.79 3.07 Intr - 64940 64809 132 2 0 75 96 -14 0.426 0.12 3.06 Intr - 65348 65231 118 1 1 56 47 69 0.859 1.24 3.05 Intr - 65882 65753 130 0 1 15 110 116 0.003 7.43 3.04 Intr - 70656 70564 93 1 0 73 78 68 0.172 5.40 3.03 Intr - 71965 71834 132 2 0 17 40 142 0.313 4.10 3.02 Intr - 72753 72544 210 1 0 68 61 58 0.002 1.20 3.01 Init - 76313 76244 70 2 1 80 98 81 0.750 7.97 3.00 Prom - 77719 77680 40 -1.46 4.03 PlyA - 77972 77967 6 1.05 4.02 Term - 78956 78810 147 2 0 93 55 157 0.932 11.75 4.01 Init - 83766 83764 3 0 0 54 103 0 0.073 -1.84 4.00 Prom - 84707 84668 40 -2.86 5.00 Prom + 86003 86042 40 -1.56 5.01 Init + 86117 86188 72 1 0 87 86 19 0.618 2.03 5.02 Intr + 87144 87284 141 2 0 23 91 120 0.567 7.53 5.03 Intr + 89274 89480 207 2 0 51 50 72 0.412 0.19 5.04 Intr + 90220 90504 285 0 0 64 61 76 0.401 1.29 5.05 Term + 90876 91352 477 2 0 107 51 288 0.630 22.96 5.06 PlyA + 93673 93678 6 1.05 6.00 Prom + 96708 96747 40 0.84 6.01 Init + 100001 100060 60 1 0 82 85 102 0.538 10.75 6.02 Intr + 100686 100806 121 2 1 59 88 14 0.604 -0.26 6.03 Intr + 101603 101723 121 0 1 58 80 38 0.358 0.73 6.04 Intr + 101809 101940 132 1 0 115 80 5 0.378 3.34 6.05 Intr + 106293 106425 133 0 1 95 48 40 0.686 2.53 6.06 Intr + 106566 106681 116 2 2 91 82 247 0.769 24.82 6.07 Intr + 107538 107666 129 0 0 84 64 297 0.960 27.89 6.08 Intr + 108393 108468 76 0 1 70 100 130 0.979 13.07 6.09 Intr + 109282 109359 78 0 0 36 89 112 0.990 7.00 6.10 Intr + 109709 109833 125 1 2 83 58 175 0.999 14.56 6.11 Intr + 109925 110091 167 2 2 40 81 219 0.680 17.20 6.12 Intr + 110328 110521 194 1 2 115 99 153 0.990 19.52 6.13 Intr + 110842 110998 157 0 1 63 86 305 0.999 28.57 6.14 Intr + 111075 111188 114 1 0 83 87 135 0.943 14.49 6.15 Intr + 111245 111571 327 0 0 21 66 145 0.785 2.55 6.16 Intr + 111602 111796 195 0 0 41 49 376 0.913 29.60 6.17 Intr + 112607 112731 125 0 2 75 91 176 0.532 18.08 6.18 Intr + 112820 112981 162 1 0 68 85 159 0.993 14.97 6.19 Intr + 113449 113660 212 0 2 101 50 51 0.599 1.53 6.20 Intr + 114198 114305 108 0 0 79 19 77 0.242 0.47 6.21 Intr + 114504 114822 319 0 1 17 85 109 0.162 0.73 6.22 Intr + 117334 117485 152 0 2 82 27 118 0.283 5.25 6.23 Intr + 118891 118969 79 1 1 63 69 19 0.163 -1.79 6.24 Intr + 120657 120944 288 2 0 42 58 129 0.180 4.00 6.25 Intr + 125623 125698 76 0 1 80 80 38 0.221 2.44 6.26 Intr + 130411 130439 29 2 2 86 80 43 0.270 2.26 6.27 Intr + 133005 133084 80 2 2 99 69 81 0.450 6.80 6.28 Intr + 133420 133521 102 1 0 59 69 82 0.539 3.85 6.29 Intr + 135993 136065 73 0 1 105 18 96 0.565 4.86 6.30 Intr + 137213 137397 185 1 2 74 58 98 0.291 5.19 6.31 Intr + 137495 137678 184 2 1 88 75 14 0.499 1.10 6.32 Intr + 137741 137801 61 1 1 83 82 45 0.569 2.85 6.33 Intr + 138888 138935 48 1 0 76 90 32 0.623 1.99 6.34 Intr + 139296 139382 87 1 0 102 98 15 0.638 5.00 6.35 Term + 139758 139831 74 1 2 87 48 19 0.090 -3.22 6.36 PlyA + 140347 140352 6 1.05 7.14 PlyA - 140474 140469 6 1.05 7.13 Term - 141422 141236 187 1 1 25 54 258 0.158 14.03 7.12 Intr - 142079 141668 412 0 1 52 -73 601 0.010 34.97 7.11 Intr - 148149 148054 96 1 0 107 64 -4 0.271 0.24 7.10 Intr - 148541 148459 83 1 2 116 82 40 0.530 6.64 7.09 Intr - 150031 149966 66 0 0 65 62 65 0.100 0.77 7.08 Intr - 150371 150319 53 2 2 109 84 10 0.165 1.54 7.07 Intr - 153705 153675 31 2 1 72 81 56 0.091 2.56 7.06 Intr - 156045 155883 163 1 1 92 67 29 0.074 1.43 7.05 Intr - 156292 156146 147 2 0 92 -22 103 0.238 1.09 7.04 Intr - 157832 157635 198 0 0 97 9 103 0.657 3.84 7.03 Intr - 158380 158236 145 1 1 50 48 104 0.662 3.64 7.02 Intr - 160357 160233 125 2 2 54 7 164 0.011 6.38 7.01 Init - 161419 160399 1021 1 1 88 -7 1886 0.014 173.54 7.00 Prom - 163370 163331 40 -2.76 8.22 PlyA - 164285 164280 6 -3.24 8.21 Term - 164628 164419 210 0 0 46 49 69 0.320 -2.93 8.20 Intr - 165484 165374 111 1 0 88 81 33 0.534 4.34 8.19 Intr - 165819 165639 181 2 1 105 37 35 0.227 1.17 8.18 Intr - 167787 167673 115 1 1 15 78 73 0.133 -0.32 8.17 Intr - 169549 169380 170 0 2 119 17 101 0.500 6.89 8.16 Intr - 170116 170080 37 2 1 82 64 37 0.492 -0.85 8.15 Intr - 171376 171054 323 0 2 143 96 1 0.206 3.18 8.14 Intr - 172133 171949 185 2 2 129 64 134 0.224 14.89 8.13 Intr - 178441 178269 173 2 2 78 69 64 0.038 4.36 8.12 Intr - 182498 182453 46 2 1 89 74 33 0.286 1.12 8.11 Intr - 183607 183479 129 1 0 110 39 47 0.326 4.07 8.10 Intr - 196861 196730 132 1 0 115 113 253 0.990 32.52 8.09 Intr - 199291 199222 70 0 1 94 113 64 0.765 9.83 8.08 Intr - 199553 199395 159 1 0 121 49 343 0.996 34.00 8.07 Intr - 199672 199630 43 2 1 158 95 33 0.996 9.43 8.06 Intr - 202031 201981 51 0 0 99 23 59 0.230 0.52 8.05 Intr - 206598 206411 188 2 2 125 94 251 0.760 29.94 8.04 Intr - 206836 206805 32 1 2 27 59 47 0.101 -6.24 8.03 Intr - 208600 208493 108 1 0 84 25 102 0.153 5.15 8.02 Intr - 210539 210418 122 0 2 104 -3 92 0.595 3.09 8.01 Intr - 213411 213324 88 0 1 30 103 61 0.282 2.50 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 9352 9497 146 2 2 50 45 132 0.819 4.12 S.002 Term - 60484 60249 236 2 2 92 47 187 0.839 12.47 S.003 Init - 65874 65753 122 0 2 33 110 204 0.992 14.88 S.004 Init + 66882 66935 54 2 0 92 82 96 0.827 8.77 S.005 Term - 75236 75138 99 2 0 97 44 86 0.963 4.15 S.006 Intr - 75994 75929 66 1 0 84 53 103 0.931 6.65 S.007 Sngl - 161419 160358 1062 1 0 88 48 1947 0.970 188.12 S.008 Init + 192247 192381 135 0 0 63 74 62 0.962 2.60 S.009 Term + 192519 192668 150 2 0 92 38 156 0.983 9.86 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815590f:143268988_143482648|GENSCAN_predicted_peptide_1|413_aa XGQFLREGTAQQIILAQHRTHTEVAAGQFLQDKKLTPRRVQPPHLHLEDQPQQVGSPGVS PVRATLSLCHSTVGGHWPGSPGSSPKVLSQPSDLDLQDVEEVEIGRDTFWPDSEPKPEQA PRSPGSQAPDEGAGGALRSLLRSLPRRARCSAGFGPESSAERPAGQPPGAVPCAQPRGAW RVTLVQQAAAGPEGAPERAAELGVNFGRSRQGSARGAKPHRCEACGKSFKYNSLLLKHQR IHTGEKPYACHECGKRFRGWSGFIQHHRIHTGEKPYECGQCGRAFSHSSHFTQHLRIHNG EKPYKCGECGQAFSQSSNLVRHQRLHTGEKPYACSQCGKAFIWSSVLIEHQRIHTGEKPY ECSDCGKAFRGRSHFFRHLRTHTGEKPFACGACGKAFGQSSQLIQHQRVHYRE >gi568815590f:143268988_143482648|GENSCAN_predicted_CDS_1|1242_bp nggggacagtttctgagggagggcacagcccagcagatcatcttggcacagcacaggaca cacactgaggtggctgcaggccagtttctgcaggataagaaactgacgcccagacgtgta cagccacctcacctccacttggaagaccagccccagcaggtgggcagccctggtgtttct ccagttcgggccacactgtccctgtgtcacagcacagtgggagggcactggccaggctcc cctggctccagccctaaggtgctctcccagccgtccgacctggatctccaagacgtagag gaagtggagatcggcagagacaccttctggcccgactccgagcccaagccggagcaggct ccacgctctcctggctctcaggcccctgacgagggggcgggcggggcgctgcgcagcctc ctgaggagccttccccgcagggcccggtgcagcgccggcttcgggcctgaatccagcgcg gagcggccggcgggccagccgcctggggccgtcccttgcgcccagccgcggggcgcctgg cgcgtgacgctcgtgcagcaagcagcggccgggcccgagggtgcgcccgagcgggctgcc gagctgggagtcaacttcggtcggagccggcagggcagcgcgcggggggccaagccgcac aggtgcgaggcctgcggcaagagtttcaagtataactcgctgctcctgaagcaccagcgc atccacacgggcgagaagccctacgcctgccacgagtgcggcaagcgcttccgcggctgg tcgggcttcatccagcaccaccgcatccacacgggcgagaagccctacgagtgcggccag tgcggccgcgccttcagccacagctcgcacttcacgcagcacctgcgcatccacaacggc gagaagccctacaagtgcggcgagtgcggccaggccttcagccagagctccaacctggtg cgccaccagcggctgcacacgggtgagaagccctacgcctgcagccagtgcggcaaggcc ttcatctggagctccgtgctcatcgagcaccagcgcatccacactggcgagaagccctac gagtgctccgactgcggcaaagccttccgcggccgctcgcacttcttccggcacctgcgg acccacacgggcgagaagcccttcgcgtgtggcgcctgcggcaaggccttcggccagagc tcccagctcatccagcaccagcgggtgcactaccgcgagtag >gi568815590f:143268988_143482648|GENSCAN_predicted_peptide_2|992_aa MCLWRASEVTVLVKTKATVPAFWQCLRGPAQRASDVISPQQARFPEENPEAPRSPRNAAA RLGSLRHRALCSPLGKTAPGSASPRHPLQTMLWGPYGHQRSGRPTLPASHESPRSLRVLL WKTGLLGADDIRCALRRPPQTPPKSGDGSLRLQQDSDLTGPPRAHLGARPGVLEESQQEG RGTWTQTTWSISSSTANLQPTPPPSPHHHPSPSSDPGPRFSAFALSLLPEVTRDLPKDPM VSGSQVTTAKPLSKDLMPRNARAVTRDAAGSETPISFLTPNRSQGIHHEMELSPSVSPSW GEEVDQQRQALRRCTRTLLRYGLRGRRTLSGSQPLWHLQQFQQLGSSSRPATPSLLIHSK IQRSMPSPREGLSTRCKREQVHIAAVHFAPMMKSVTFAAFQLEMRDLRKPTLGTRVLPQP RGPGGSREPSGTRDKRGTPRGTDGNARGRPTAGLRHLLTRPAGARSSVGSSRIPARQRLD LAPHEAGLPARQEGLGRRLRATDELKAPRLGRPALPPPSALSSRCPERRRKCRGGGPGVE TGVSGARRGGDRSGAGPSRSRARRGGGGPAGAYPGSDTCGASCELSPRCASSGLSLAVIY FPFLLPKQKLFQLLVFCKMEPGGEPTGAKESSTLMESLAAVKAAFLAQAPSGSRSAEVQA AQSTEPAAEAGAPEGEGHRGGPPRALGSLGLCENQEARERPGGSPRGPVTSEKTGGQSGL ESDVPPNAGPGAEGGGSWKGRPFPCGACGRSFKCSSDAAKHRSIHSGEKPYECSDCGKAF IHSSHVVRHQRAHSGERPYACAECGKAFGQSFNLLRHQRVHTGEKPYACADCGKAFGQRS DAAKHRRTHTGERLYACGECGKRFLHSSNVVRHRRTHHGENPYECRECGQAFSQSSNLLQ HQRVHTGERPFACQDCGRAFSRSSFLREHRRIHTGEKPHQCGHCGRAFRALSGFFRHQRL HTGEKPFRCTECGRAFRLSFHLIQHRRVHGAE >gi568815590f:143268988_143482648|GENSCAN_predicted_CDS_2|2979_bp atgtgcctgtggcgggcctctgaggtcactgtcctggtgaagacgaaggctaccgtcccc gctttctggcagtgtctgcgagggcctgcgcagcgcgcatctgatgtcatcagcccccag caagcccgttttccagaagagaacccggaggctccgagaagcccccggaacgcggctgcc cggcttgggagcctgcggcacagggccctgtgcagccccttggggaagacggccccaggc tctgccagcccccgccaccctctccagaccatgctctgggggccctatggccaccagcgc tctggacgccccactctgccagcaagccacgagtcacctcggagcctccgggttcttctc tggaaaacgggcttgctgggggctgatgacatcagatgcgcgctgcgcaggcccccgcag acaccgccaaaaagcggggacggtagccttcgtcttcaacaggacagtgatctcacaggc ccaccacgggcacacctgggggccaggccgggggttctggaggagtcacagcaggagggc agaggaacctggacgcagaccacctggagcatctccagctcaacggccaatctccaaccc acaccacctccaagcccacaccaccacccctctccctcctccgacccaggaccccgattc tcagccttcgccctctctctcctccccgaagtgaccagggatcttcctaaagatcccatg gtatctgggagccaagtgaccaccgcaaaacctttaagcaaagatctcatgccccgaaat gccagggccgtcaccagggatgcagcagggagtgaaacacccatctcttttctcacacca aaccgtagccaagggattcaccacgagatggaactgtcgccaagtgtgtccccatcgtgg ggagaggaagtggatcagcagcgtcaggccttgcggaggtgcactcgcaccctcctgcgc tacggtctcagaggcaggaggacgctttcagggagccagccgctgtggcacctgcagcag tttcagcagttgggcagctccagccgccctgccacaccctcactcctcatccactccaaa attcaacgcagcatgccgagccccagagagggtctgtctactcgttgtaagagggaacaa gtccacattgcagctgtacactttgcacccatgatgaaaagcgtcacttttgcagcattc cagctggagatgcgtgaccttcggaagcccacgctcgggacccgcgtgctgccacagccc cgggggcctggagggtcccgtgagccgagcgggacccgggacaagcgcgggacgccgcgg ggaacggacgggaacgcgcgtggccgccccacagcgggccttcgacacctcctgacacgt cctgcgggtgcccggtcctcagttggctcgagccggatcccggcgcgccaacggctcgac cttgccccccacgaggcagggcttcctgcccggcaggaaggactcggccggcgcctgcgg gcaaccgatgagctgaaggcgccgcggctgggccgtcccgctctcccgccgccgagcgcg ctgtcctcccgctgcccagagcgtcgccggaagtgccgagggggcgggccaggggtggag actggcgtttccggcgcgcgacggggcggggaccgtagcggtgcaggccccagccgctct cgggcgcggcgtgggggaggcggccctgcaggtgcgtacccggggtccgacacgtgcggg gcttcctgcgagctgagtccccgctgcgcgtcttcaggcctttccctggctgtgatttat tttccttttcttttacctaagcagaaattgttccaactgctggtgttctgcaagatggag ccaggaggagagcccacaggtgctaaagagagcagtaccctgatggagtcccttgcagct gtgaaggctgctttcctggcgcaggccccgagtggcagccggtcagccgaggtgcaggca gctcagagcacggagcctgccgcagaggcaggcgctcccgagggagagggccacagaggg gggcctccccgggcgttggggtctcttggcctttgtgaaaaccaggaagccagagagagg cccggaggttcccctcgaggcccggtcacttctgagaaaactggaggacagagtggcctc gagtcagacgtccctccgaacgcaggccccggcgcagagggcgggggcagctggaagggg cggcctttcccgtgcggcgcctgtggccgcagcttcaagtgctcctcggacgcggcaaag caccggagcatccactcgggggagaaaccgtacgagtgcagcgactgcgggaaggccttc atccacagctcgcacgtggtccggcaccagcgggcgcacagcggggagaggccctacgcg tgcgccgagtgcggcaaggccttcggccagagcttcaacctcctccggcaccagcgcgtg cacacgggcgagaagccctacgcgtgcgccgactgcggcaaggccttcggccagaggtcg gacgccgccaagcaccgccgcacccacaccggggagaggctgtacgcgtgcggcgagtgc gggaagcgcttcctgcacagctcgaacgtggtccggcaccggcggacccaccacggggag aacccgtacgagtgccgggagtgcggccaggccttcagccagagctccaacctcctccag caccagcgcgtgcacacgggggagcggcccttcgcctgccaggactgcggccgcgccttc agccgcagctccttcctccgcgagcaccgccgcatccacaccggggagaagccccaccag tgcggccactgcgggcgcgcgttccgggcgctgtcgggcttcttccggcaccagcgactc cacacgggcgagaagccgttccgctgcaccgagtgcggccgcgccttccgcctgagcttc cacctcatccagcaccggcgggtgcatggcgccgagtga >gi568815590f:143268988_143482648|GENSCAN_predicted_peptide_3|1656_aa MGVTSAASGLVGSAPQCVALPSEGWTLAVWPVAACTCSGVGSSPKLTPGSFVHCPWFLLL TEATRAEIKRPFSKAELKASVRPMEGSHCWGGEARRTSQGHTEQKGELRARRQAQNEDED VKEVWVGKTKKEESDKLGCQGAWVPPRVPSCIGSFELWVVGYWEQPAVSWQMRVVRLLRL RAALTLLGEVPRRPASRGVPGSRRTQKGSGARTDSAWRRALTVISTSPGTSRMDPVALVA VGGPRRFPGGHELGTQREPQMGQGVLGGGSSGLRLELGLAVGPALRHISPRVHRQTLQRL PVALRTLIPADQAHQAPNSTTWLGSRAGLLALAAGLGGIRDSAAHGPLQVGGMGGYTGMG SEVRWEKEKHEDGVKWRQLEHKGPYFAPPYEPLPDGVRFFYEGRPVRLSVAAEEVATFYG RMLDHEYTTKEVFRKNFFNDWRKEMAVEEREVIKSLDKCDFTEIHRYFVDKAAARKVLSR EEKQKLKEEAEKLQQEFGYCILDGHQEKIGNFKIEPPGLFRGRGDHPKMGMLKRRITPED VVINCSRDSKIPEPPAGHQWKEVRSDNTVTWLAAWTESVQNSIKYIMLNPCSKLKGETAW QKFETARRLRGFVDEIRSQYRADWKSREMKTRQRAVALYFIDKLALRAGNEKEDGEAADT VGCCSLRVEHVQLHPEADGCQHVVEFDFLGKDCIRYYNRVPVEKPVYKNLQLFMENKDPR DDLFDRLTTTSLNKHLQELMDGLTAKVFRTYNASITLQEQLRALTRGLPGGGAEAGCSGA LTLGMCFACTRGPQRPVLCCPGDNLGAGAALGLWDAEELAGIQVRAPGEETPPPLREAED SGPCLSAEDSIAAKILSYNRANRVVAILCNHQRATPSTFEKSMQNLQTKIQAKKEQVAEA RAELRRARAEHKAQGDGKSRSVLEKKRRLLEKLQEQLAQLSVQATDKEENKQVALGTSKL NYLDPRISIAWCKRFRVPVEKIYSKTQRESLHPEHGVCWAVTSNQRPSLDPRFPLDRGGE TPSCALRLRTLALSSYDGLLPELPNPVSSQSCLSAALCHAGSSAALSATRDPLPPSSLPR GTLCRPLLCHAGPSAALFSATRDPLPPSLPRRTLCRPLLCHTGPSAALLCHAGPSAALFS AMRDPLPPSSLPRGTLCCPLLCHVGPSAALSATRDPLPPSPLPRGILCCPLLCHVGSSAM RDPLPPSPLPPSPLPPSSLPRGTLCRPLLCHAGTSAALSSATRDPLPPSPLPRGTLCRPL LCHAGPSAALSATQDPLPPSSLPRGTLCCPLLCRPLLCRAGPSAALSSATRDPLPPSPLP RGTLCHPLCHAGPSAALFSATRDPLLPSPLPRGTLCCPLCHAGPSAALSSATRDPLPPSA MRDPLLPSLLPRGTLCRPLCHAGPSAALFSATLFSATWDPLLPFPLLRRALCRPLCHTGP SAALSSATWDPLLPSSLPRGILCHAGPSAALFSATWDPLLPSATRDPLPPSPLLRGILCC PLLCHVGSSAICSALCFRGCLCGCLPHTGAPANPMRQPLCKAPEKSWVVPSTGKSSGKAS CVCWCEMRFHDGGCRALSLSCYPVACEPSLKCTKSSKGLRATSFTAAQAEKGAQALQLEL GNRPGGDSHWIPLSHDHKNRATAARVSRATDSNREP >gi568815590f:143268988_143482648|GENSCAN_predicted_CDS_3|4971_bp atgggggtgacctcggctgccagtgggcttgtgggctctgcccctcagtgcgtggctctg cccagtgaggggtggacgctggcagtatggcctgttgcggcctgcacctgctccggagtt gggagcagccccaagctgacccctggctcctttgttcattgcccttggtttctgctcctg acagaggccacaagggctgagatcaagaggccattttccaaagctgagttaaaagcatct gttaggcccatggagggcagccattgctggggtggggaagcacggaggacgagccagggc cacactgagcagaaaggagagttacgggccaggagacaagcacagaacgaggacgaggat gtaaaagaagtgtgggtgggaaaaaccaagaaagaagaaagtgacaaattaggttgccag ggagcctgggtgccccccagagtgccctcttgcatcggcagctttgagctgtgggttgta gggtactgggagcagccagcagtaagctggcagatgcgcgtggtgcggctgctgcggctc cgggcggctctgacgctgctcggggaggtcccccgccgcccggcctcccggggtgtcccg ggctcgcgcaggacgcagaagggcagtggagccaggaccgattctgcatggcggcgggcg ctcactgtcatatctacatcaccaggcacaagccgcatggatccagtggccctggtggcc gttggtggtcccaggcgctttcctggaggacatgagcttgggacccaaagagagccccag atggggcagggtgtcttgggaggagggagttctggcctgcgcttggagctggggctggct gtgggccctgcattgaggcacatctctccgagggtgcacaggcagacccttcagagactt cctgttgctctgaggacactcatcccagccgaccaggcccaccaggcccccaacagcact acctggctggggtcacgtgcaggtctcctggctctggcagctgggcttggtgggatccgt gactcagcagcacacgggcctctgcaggtggggggcatgggcgggtacacgggcatgggg tctgaggtcaggtgggagaaggagaagcacgaagacggggtgaagtggagacagctggag cacaagggcccgtacttcgcacccccatacgagccccttcccgacggagtgcgtttcttc tatgaaggaaggcctgtgagattgagcgtggcagcggaggaggtcgccactttttatggg aggatgttagatcatgaatacacaacaaaggaggttttccggaagaacttcttcaatgac tggcgaaaggaaatggcggtggaagagagggaagtcatcaagagcctggacaagtgtgac ttcacggagatccacagatactttgtggacaaggccgcagcccggaaagtcctgagcagg gaggagaagcagaagctaaaagaagaggcagaaaaacttcagcaagagttcggctactgt attttagatggtcaccaagaaaaaataggcaacttcaagattgagccgcctggcttgttc cgtggccgtggcgaccatcccaagatggggatgctgaagagaaggatcacgccagaggat gtggttatcaactgcagcagggactcgaagatccccgagccgccggcggggcaccagtgg aaggaggtgcgctccgataacaccgtcacgtggctggcagcttggaccgagagcgttcag aactccatcaagtacatcatgctgaacccttgctcgaagctgaagggggagacagcttgg cagaagtttgaaacagctcgacgcctgcggggatttgtggacgagatccgctcccagtac cgggctgactggaagtctcgggaaatgaagacgagacagcgggcggtggccctgtatttc atcgataagctggcactgagagcaggaaatgagaaggaggacggtgaggcggccgacacc gtgggctgctgttccctccgcgtggagcacgtccagctgcacccggaggccgatggctgc caacacgtggtggaatttgacttcctggggaaggactgcatccgctactacaacagagtg ccggtggagaagccggtgtacaagaacttacagctctttatggagaacaaggacccccgg gacgacctcttcgacaggctgaccacgaccagcctgaacaagcacctccaggagctgatg gacgggctgacggccaaggtgttccggacctacaacgcctccatcactctgcaggagcag ctgcgggccctgacgcgcgggcttcctggaggaggcgccgaggctgggtgctcaggggcg ctgacgctcggcatgtgtttcgcgtgcacccgtgggcctcagaggccggtgctgtgctgc cctggggacaaccttggagctggggcagcactggggctgtgggatgcggaggagctagct ggcatccaggtgagagccccaggagaggagacgccccctccactgagggaggcagaagat tctggcccgtgcctctcagccgaggacagcatagcagctaagatcttatcctacaaccga gccaaccgagtcgtggccattctctgcaaccatcagcgagcaacccccagtacgttcgag aagtcgatgcagaatctccagacgaagatccaggcaaagaaggagcaggtggctgaggcc agggcagagctgaggagggcgagggctgagcacaaagcccaaggggatggcaagtccagg agtgtcctggagaagaagaggcggctcctggagaagctgcaggagcagctggcgcagctg agtgtgcaggccacggacaaggaggagaacaagcaggtggccctgggcacgtccaagctc aactacctggaccccaggatcagcattgcctggtgcaagcggttcagggtgccagtggag aagatctacagcaaaacacagcgggagagcctccaccccgagcatggagtctgctgggct gtcacatccaatcagcgtcccagcctggacccccggttcccgctcgacaggggaggagaa acaccttcgtgtgctctgaggctgaggactttggctcttagctcttacgatggccttctg cctgagcttcccaaccctgtatcctctcagagctgcctgtcggctgccctctgccacgcg ggatcctctgccgccctctctgccacgcgggaccctctgccgccctcttctctgccacgc gggaccctctgccgccctcttctctgccacgcaggaccctctgctgccctcttctctgcc acgcgggaccctctgccaccctctctgccacgcaggaccctctgccgccctcttctctgc cacacgggaccctctgctgccctcctctgccacgcgggaccctctgctgccctcttctct gctatgcgggaccctctgccgccctcttctctgccacgtgggaccctctgctgccctctt ctctgccacgtgggaccctctgccgccctctctgccacacgggaccctctgccgccctct cctctgccacgtgggatcctctgctgccctcttctctgccacgtgggatcctctgccatg cgggaccctctgccgccctctcctctgccgccctctcctctgccgccctcttctctgcca cgcgggaccctctgccgccctctcctctgccacgcgggaacctctgccgccctctcctct gccacgcgggaccctctgccgccctctcctctgccacgcgggaccctctgccgccctctc ctctgccacgcgggaccctctgccgccctctctgccacgcaggaccctctgccgccctct tctctgccacgcgggaccctctgctgccctctcctctgccgccctcttctctgccgcgcg ggaccctctgccgccctctcctctgccacgcgggaccctctgccgccctctcctctgcca cgcgggaccctctgccaccctctctgccacgcaggaccctctgccgccctcttctctgcc acacgggaccctctgctgccctctcctctgccacgcgggaccctctgctgccctctctgc cacgcgggaccctctgccgccctctcctctgccacgcgggaccctctgccgccctctgct atgcgggaccctctgctgccctctcttctgccacgcgggaccctctgccgccctctctgc cacgcaggaccctctgctgccctcttctctgccaccctcttctctgccacgtgggaccct ctgctgccctttcctctgctacgcagggccctctgccgccctctctgccacacgggaccc tctgccgccctctcctctgccacgtgggatcctctgctgccctcttctctgccacgtggg atcctctgccacgcgggaccctctgccgccctcttctctgccacgtgggaccctctgctg ccctctgccacacgggaccctctgccgccctctcctctgctacgtgggatcctctgctgc cctctcctctgccacgtgggatcctctgccatctgctccgcgctttgctttcggggctgc ctctgtggctgtctccctcacaccggggctcccgccaaccccatgaggcagcccctgtgt aaggctcctgagaaaagctgggtggtgccatcgacgggcaaaagtagtggaaaagccagc tgcgtgtgctggtgcgagatgcgtttccatgatggaggatgccgcgcactcagcctctcc tgttatcctgtggcctgcgagccctctcttaagtgcaccaagagcagcaagggacttaga gcaacttcattcactgctgcccaggcggaaaagggcgcccaggccctgcagctggaactg ggtaacaggccgggtggagactcacactggatcccactcagccatgatcacaagaacaga gcgactgctgctcgggtctcacgggcgactgacagcaaccgggagccctga >gi568815590f:143268988_143482648|GENSCAN_predicted_peptide_4|49_aa MRGETPGCYSCVTEEPAELQVPVLTSVPELRGLACCGAQSGGPAQPTLD >gi568815590f:143268988_143482648|GENSCAN_predicted_CDS_4|150_bp atgcgtggggagacccctggctgctacagctgcgtcacagaggagcctgctgagctccag gtacccgtcctcacctcggtgcctgagcttcgaggcctggcctgctgtggggctcaaagc ggtggtcccgcacagcccaccttggactga >gi568815590f:143268988_143482648|GENSCAN_predicted_peptide_5|393_aa MAGECGSGTWQTQPGMTQLLTRGQHPACGQRADRHNSENGAGQAQATHSPAHGCLPLQFN QSLAAAVKGFQKYAPVTPKKKRQHQCQNDVFDRKKHKLHRKAVTSRPSHSSPVLILGCGS DRTYSPDSSFHPILYHCSDELGAYGFRCARPKEKKTAANLRCYKVAASKAIQEKGGRSPR QEKRRAGKRPTPGRKALGQSASKAVTLGQKTERNPISDGRFQTLFLGSQTGTAGQAESHL LCSSSRTHAVPPHHGSPGPRFPEACAETPGRPEPAHAQPPPRACLDAAGAAGKGAGCAGA GEAHAVATRGVRWLRSVGPLGSRAPWAAVLTGTQEVGWEAAGRGGGAFLGRRAVGFRDVV ESRQSLQRFCDSEDKEDRILRKAHGARSSRSKA >gi568815590f:143268988_143482648|GENSCAN_predicted_CDS_5|1182_bp atggcaggagagtgcggaagcggcacatggcagacacaaccggggatgacccagctcctc accagagggcagcatcctgcatgtggccagcgggcagacagacacaactctgagaatggg gccggccaggcccaggccactcactccccggcccacggctgcttgccattacagttcaac caaagcctggcagcagccgtcaaaggattccagaaatacgctcctgtaactccaaagaag aaacggcaacaccagtgccaaaatgatgtttttgacaggaagaaacataaacttcacagg aaagcagtgacatcacgcccctcccattcctcccctgttctgatcctgggctgtggttca gacaggacctacagcccagacagctccttccaccccattctctaccattgtagtgatgag ctgggagcttatggctttagatgcgccagaccaaaagaaaaaaaaacagctgcaaacctg aggtgttacaaggtggctgccagcaaagcgatccaggagaagggaggcaggtcaccacgc caggagaagagaagggcagggaaaaggccaactccgggaagaaaggccctggggcaaagc gcatccaaagccgtcactctggggcagaagacagagcggaatcccatcagcgacggccgt ttccagacccttttcctaggcagccagaccggcaccgctggccaggccgagtcccacctc ctctgcagctcttccaggacccacgcggtcccaccgcaccacggctcccccggaccccgc ttccccgaggcctgcgcggagacgccgggaaggcccgagcccgcgcatgcgcagccgccg ccacgtgcctgccttgacgccgccggtgctgccgggaagggggcgggctgcgcaggcgcg ggagaggcccacgcggtggccacgcggggcgtccggtggctgcgctcggttgggcccctg ggctcgcgcgctccgtgggccgcggtgctgacgggcacccaggaggtggggtgggaggcg gccggccggggtggaggggcgttcctgggccgacgtgctgttggcttccgcgacgtggtg gagtctcgccagtccctgcagcgcttctgcgactctgaagataaagaggatcgtattttg agaaaagctcatggagcaaggagctcaaggagcaaggcctga >gi568815590f:143268988_143482648|GENSCAN_predicted_peptide_6|1562_aa MILEERPDGAGAGEESPRLQPRACLFPADQLEAAPVLLPGPGRPRPPRAFSRGLLLLLAP GVMRAGFQQALTWCQGQCYSWSPAIGASQALGLSPSDEQGEGCRGSRGRTTRNTAWLYAE GSVVSWGGQWEKGEQAAEGERWSSRCQPPPLTPITSQQLTPPTTSFCIDCLLSCSGQACV HTSSVQPLPGCDSLTQIQCGQLQSRRAQIHQQIDKELQMRTGAENLYRATSNNRVRETVA LELSYVNSNLQLLKEELEELSGGVDPGRHGSEAVTVPMIPLGLKETKELDWSTPLKELIS VHFGEDGASYEAEIRELEALRQAMRTPSRNESGLELLTAYYNQLCFLDARFLTPARSLGL FFHWYDSLTGVPAQQRALAFEKGSVLFNIGALHTQIGARQDRSCTEGARRAMEAFQRAAG AFSLLRENFSHAPSPDMSAASLCALEQLMMAQAQECVFEGLSPPASMAPQDCLAQLRLAQ EAAQVAAEYRLVHRTMAQPPVHDYVPVSWTALVHVKAEYFRSLAHYHVAMALCDGSPATE GELPTHEQVFLQPPTSSKPRGPVLPQELEERRQLGCPPPPSCCLPPAVPVLTSWATYLSL DGLCLMGDGPAQGPQECWAASEQVGDHWEQLIPGPCFARGRALLHSQLLTPVARTPNESG CDEPHSPGVAHSFCHVPGPTGPHGKAHLKRAILGQEEALRLHALCRVLREVDLLRAVISQ TLQRSLAKYAELDREDDFCEAAEAPDIQPKNRWRLVGPVHLTRGEGGFGLTLRGDSPVLI AAVIPGSQAAAAGLKEGDYIVSVNGQPCRWWRHAEVVTELKAAGEAGASLQVVSLLPSSR LPSLGDRRPVLLGPRGLLRSQREHGCKTPASTWASPRPLLNWSRKAQQGKTGGCPQPCAP VKPAPPSSLKHPGWPARDSPPLRPVLVIMGSVLVNPASVPFAQESLVSWPRGSEGCLQAS VYWVDNGPQRPSARTPPPGPLQQWAQDLGTKRRGWEGLQSQGCTQEEPRSRSRSGGPHRG PQGLAGSGRDRASGSHSLQPLGGSRHPLSSPGRRHGQSPEHYVFPVPNGHGQDLCLCEVG HSGRWAGKATAVLMRRQHRGPSADMAWRSPLEPWPLSVCASYVLHIPVIIMTHEAEPHNP MPAVKLVAVPPPTIHHRTVLTPESDTCPVPRAPGGPCPGSLTTHRGCREPWGEACRRGSG VDGIESAPLVLVVSRVISCQGGIAGVAEGLVKAVARTVEQPVRGSFPGKGPGGLARCPDK IQYTQPHSAPFGITDQPQGSPEVCTDTGAHPRLGSEEQSCLDIRMGVGQFLLIWVNTESP LPDPVWVTSDATSTRKPSLSLLPLRFLQALPPRQLHPSPYSLNSLALRGPGQPECFPLHA AHATISSSKDWGDVPLWAPTPTSTHSTRPGETTRVEGNSAQGVLPTVVLRDSGGGRLLTG FLSNPRQPQLFPRGSPGSASKSFLSPQPLEKAEAGLGTDATQSRGHQGLESPPECCWGRE TGEEAGARGERLRQSSQDGDQARLTGNEPVTCSSHPAAGSRGPVAAWRGRGSQMAPGHCG EE >gi568815590f:143268988_143482648|GENSCAN_predicted_CDS_6|4689_bp atgatcctggaggagaggccggacggcgcgggcgccggcgaggagagcccgcggctgcag cccagagcctgcttgttccctgcggaccagctcgaggctgccccagtcctcctgccaggc cctgggcgcccacgcccgccacgggctttcagccgcgggctgctcctgctcctcgccccg ggcgtgatgagagcaggcttccagcaagcgcttacctggtgccagggccagtgctacagc tggagtcctgccattggtgcctcccaagccctgggcctcagcccgtctgatgaacagggt gagggctgcaggggctcccgggggaggaccacaaggaatacagcctggctgtatgcagaa ggttctgtggtttcctggggaggccagtgggagaagggggagcaggctgcagagggagag cgttggagcagcaggtgccagcctcccccgctgacccccatcacgagtcagcagcttacc ccaccgaccacgtccttctgcattgactgcctcctgtcctgctctggccaggcctgtgtt cacactagttctgtccagcccctccctggctgtgactccctgacgcagatccagtgcggc cagctgcagagccgcagggcccagattcaccagcagattgacaaggagctgcagatgcgg acgggcgctgagaacctctacagagccaccagcaacaaccgggtgagagagacggtcgcc ctggagctgagctacgtcaactccaacctgcagctgctgaaggaggagctggaggagctc agcggtggcgtggaccctggccggcatgggagcgaagctgtcactgtccccatgatcccc ctgggcctgaaggagaccaaggagctggactggtctacaccgctgaaggagctgatctca gtgcactttggagaggacggcgcctcctacgaggcagaaatcagggagctggaggccctg cggcaggccatgcggacccccagccggaatgagtcgggcctggagctgctcacagcctat tacaaccagctgtgcttcctggatgcgcgcttcctcacccctgccaggagcctcgggctc ttcttccactggtacgactcgcttactggggtcccggcccagcagcgtgccctggccttc gagaagggcagcgttctcttcaacatcggtgccctccacacgcagattggggcgcgccag gaccgctcctgcaccgagggtgcccgccgcgctatggaggccttccagagggccgctggg gccttcagcctcctgagggagaacttctcccatgcgccgagcccagacatgagcgctgcg tccctctgcgcactggagcagctcatgatggcccaggcccaggaatgtgtgtttgagggc ctctcaccacctgcctccatggccccccaagactgcctggcccagctgcgcctggcgcag gaggccgcccaggtggcagccgagtacaggctagtgcaccggaccatggcccagccaccc gtccacgactacgtgcctgtctcctggactgccctggtgcatgtcaaggccgagtacttc cgctccctggcccactaccacgtagccatggccctctgcgacggctccccagcgaccgag ggagagctccccacgcacgagcaggtcttcctgcagccccccacctcctctaagccccga ggccctgtgctgccgcaggagctggaggagcgcaggcagcttgggtgtcccccaccaccc tcatgctgtttgccacctgctgtccccgtgctgacgagttgggccacctacctatccctg gatggcctgtgcctgatgggtgacggcccagcgcaggggccccaggagtgctgggcagcc tctgagcaggtgggagaccactgggagcagctcatccctggcccctgctttgcacgtggc agagccctcctgcacagccagctcctcacccccgtggcgcgcacccccaacgaaagtggc tgtgatgagccccacagccctggcgttgcccactccttctgccacgtcccagggcccacg ggcccacatggcaaggcacacctgaagcgtgccatcctggggcaggaggaggcgctgcgg ctgcacgccctgtgccgcgtcctgcgcgaggtggacctgcttcgggctgtgatctcccag acgctgcagcgctcactggccaagtatgcggagctcgaccgtgaggatgacttctgtgag gctgccgaggccccggacatccagcccaagaaccggtggcggctggtggggcccgtccac ctgacccgaggagagggcggctttggcctcacgcttcggggagactcgcctgtcctcatc gctgccgtcattccagggagccaggccgcggcggctggcctgaaggagggcgactacatt gtgtcagtgaatgggcagccatgcaggtggtggagacacgcggaggtggtgacggagctg aaggctgcgggagaggcgggcgccagcctgcaggtggtgtcgctgctgcccagctctaga ctgcccagcttgggggaccgccggcccgtcctgctgggccccagggggcttctaaggagc cagagggagcatggttgcaagaccccggcatccacgtgggccagtccccggcccctcctc aactggagccgaaaggcccagcagggcaagactggaggctgcccccagccctgtgcccca gtgaagccagctccgccctcatccttgaagcacccagggtggccagcaagggactcccca cctctgcgccctgtgctggtcatcatgggctctgtgctggtcaacccagcaagtgtcccg tttgcccaggagtccctggtgtcgtggcccaggggaagtgagggctgcctccaggcctcc gtgtactgggtggacaatggcccccaaaggccgtcggcaagaacaccacctccaggaccc ctacagcagtgggctcaggacttgggcaccaagaggagagggtgggaagggctgcagagt cagggctgcacccaagaggagccacggagccggagccggagcggaggcccccaccgaggg ccccagggcctggcaggttccggaagagacagggccagcgggagtcattccctgcagcca ctagggggcagccgccacccgctcagcagccctgggaggcggcacgggcagtccccagag cactatgttttccctgttcccaacggccatggtcaggatctgtgcctgtgcgaggtgggc cacagtggccggtgggctggcaaggctacagctgtcctcatgcgcagacagcaccgcgga ccatctgcagacatggcatggaggagccccctggagccctggcccctctctgtgtgcgct tcttatgtcctgcacatcccagtgatcattatgacacatgaggctgagccgcataatccg atgccggctgttaaactcgtggcggtgcccccgcccaccattcatcaccgcacggtgctt actcctgagagtgacacctgcccggtgcccagagcccctgggggcccctgccctggctcc ctgaccacacacagaggctgcagggagccctggggtgaagcatgtagacggggcagtggc gtggatgggatagagagtgcgccgctggttttggtggtgtccagggtaatcagctgccag ggtggcattgccggggtggcagagggcctggtgaaggctgtggccaggacagtggagcag ccggtcaggggcagcttccccgggaaaggccctggggggcttgcaaggtgtccagataaa attcagtacacccagccccacagtgctccgtttggcatcactgatcagccgcagggctcg cccgaagtctgcactgacaccggggctcaccccaggcttggctctgaagaacagagctgc cttgacatccgcatgggggttggtcagtttctgctcatctgggtgaacactgagagtccg ctcccagaccccgtgtgggttacgtcagatgccacctccaccaggaagccctccctctcg ctgctgcccctacgcttcctgcaggccctgccgccaagacagctgcaccccagcccttac tccctcaactccctggccctgcgtggccccggccagcctgagtgctttccacttcacgct gcccatgccaccatctcctcttccaaggactggggcgatgtgcccctgtgggctcccacc cccacctctacccacagcacgcggcctggtgagacgacccgggtggaagggaactctgcc cagggcgtgctccccacagtggtcctcagggacagtggaggaggccgccttctcacaggc ttcctctccaaccccaggcagcctcagctattcccaagaggctctcctgggtccgcatcc aaaagcttcctcagcccacaacccctggagaaggcagaggctggcctgggcactgatgcc actcagagccgaggacatcagggcctggaatctccgcctgaatgctgctgggggcgggag accggagaagaagcaggtgcacggggagagcgcctcaggcagagcagccaggatggggac caggcccgccttaccgggaatgagcctgtcacctgctcctcccaccccgcagcaggttcc cgtggacctgtggctgcttggagaggccgggggtcacagatggcgccaggacactgtggt gaggagtga >gi568815590f:143268988_143482648|GENSCAN_predicted_peptide_7|908_aa MAAELAMGAELPSSPLAIEYVNDFDLMKFEVKKEPPEAERFCHRLPPGSLSSTPLSTPCS SVPSSPSFCAPSPGTGGGGGAGGGGGSSQAGGAPGPPSGGPGAVGGTSGKPALEDLYWMS GYQHHLNPEALNLTPEDAVEALIGSGHHGAHHGAHHPAAAAAYEAFRGPGFAGGGGADDM GAGHHHGAHHAAHHHHAAHHHHHHHHHHGGAGHGGGAGHHVRLEERFSDDQLVSMSVREL NRQLRGFSKEEVIRLKQKRRTLKNRGYAQSCRFKRVQQRHILESEKCQLQSQVEQLKLEV GRLAKERDLYKEKYEKLAGRGGPGSAGGAGFPREPSPPQAGAGPRARAAVAGDKFAQASR GLGSDSAVQDVDTRPGPAVLAPRRDLEEERKASPPSVPAASPFAFGSLREFKQNPSRGAG REGISVEENAGVWEPCTQGPELGFLVHGACGRCWRLAGFGTQRNPTAARAGAATGSSFLR SMAGPELWDLSSCCCWTHLDPTHTHVCARQPTWTPPRAHSPVPDSPSVPPTHTLAWARQP TWMVTGAGPSVALFPPPTAPQYVTVVAVGRAPPASYRAGSEMRARTKRKCPLPQPQHKGG HPNLAVESSKTSFLGDREKEQGEEASPPVSWPTMSASTPTITSAFEDEERQQPEASLQTP LSCSNPLNPSPAPQFDPGTLYLGLGLSFCKSRLGPCGLHGIQGLLWPIAVPAIWSQEPLG SITTITMTTTTTTITTTTTTTTMTITTTTTTITNTTSNTTTTTNSTTTTTTITITIIITI TTTTTTITITTSTTITITIITTIFTATIYHYHRLHCHHLPPPPSLPPPPPSPSIPSLPSP PLPPLSFTTSTITTTTTAITIIIIIVIIITTTTISTIITAQFTIRSYLDQSLAGCMICWQ IRHNLLKF >gi568815590f:143268988_143482648|GENSCAN_predicted_CDS_7|2727_bp atggccgcggagctggcgatgggcgccgagctgcccagcagcccgctggccatcgagtac gtcaacgacttcgacctgatgaagttcgaggtgaagaaggagcctcccgaggccgagcgc ttctgccaccgcctgccgccaggctcgctgtcctcgacgccgctcagcacgccctgctcc tccgtgccctcctcgcccagcttctgcgcgcccagcccgggcaccggcggcggcggcggc gcggggggcggcggcggctcgtctcaggccgggggcgcccccgggccgccgagcgggggc cccggcgccgtcgggggcacctcggggaagccggcgctggaggatctgtactggatgagc ggctaccagcatcacctcaaccccgaggcgctcaacctgacgcccgaggacgcggtggag gcgctcatcggcagcggccaccacggcgcgcaccacggcgcgcaccacccggcggccgcc gcagcctacgaggctttccgcggcccgggcttcgcgggcggcggcggagcggacgacatg ggcgccggccaccaccacggcgcgcaccacgccgcccaccatcaccacgccgcccaccac caccaccaccaccaccaccaccatggcggcgcgggacacggcggtggcgcgggccaccac gtgcgcctggaggagcgcttctccgacgaccagctggtgtccatgtcggtgcgcgagctg aaccggcagctccgcggcttcagcaaggaggaggtcatccggctcaagcagaagcggcgc acgctcaagaaccgcggctacgcgcagtcctgccgcttcaagcgggtgcagcagcggcac attctggagagcgagaagtgccaactccagagccaggtggagcagctgaagctggaggtg gggcgcctggccaaagagcgggacctgtacaaggagaaatacgagaagctggcgggccgg ggcggccccgggagcgcgggcggggccggtttcccgcgggagccttcgccgccgcaggcc ggcgccggaccccgagcccgcgccgccgtcgccggggacaagttcgcgcaggcctctcgg ggcctcggctcggactccgcggtacaggacgtggacaccaggcccggcccggccgtgctg gccccgcggagagacctggaggaagagaggaaggcgagtcctccgtcagtccctgccgcc tccccctttgcttttgggtctctgcgggagttcaagcagaatcccagcaggggagctggc cgtgaaggcatctctgtggaggagaatgctggcgtctgggagccctgcactcaggggcca gaactgggcttcctggtgcacggggcctgcgggcgctgctggaggcttgctgggtttggg actcagaggaaccccactgcggcacgtgccggggctgccaccggatccagctttctccgc agcatggccgggcccgagctgtgggaccttagcagctgctgctgctggacccacctggac cccacgcacacacacgtctgtgcccgacagcccacctggacccccccacgcgcacactcg cccgtgcccgacagcccatctgtaccccccacacacacgctcgcctgggcccgacagccc acctggatggtcactggcgctgggccaagtgtggccctgtttcctccccccactgccccc cagtacgtcacagtggtggctgtcggcagggcccccccagcctcctatagagccggctct gagatgagggccaggacaaagcggaagtgtcctctgccccagccccagcacaagggtggg caccccaacctggctgtggagagcagcaagacctcctttcttggtgacagggagaaggag caaggtgaggaggcttctccaccggtctcctggcccacaatgtcagcttccactccaacc atcacatctgcatttgaagatgaagaaagacagcagccagaggcgtctttgcagacacca ctgtcctgcagcaaccctctaaacccttcgccggctccacagtttgatccagggactcta tacttgggcctaggactctcattctgcaagtcccgcctgggcccttgcggcctccatggc atccagggcctcttgtggcccatagcagtcccagccatatggtcccaagagcctcttggc tctatcaccaccatcaccatgaccaccaccaccaccaccatcaccaccaccaccaccacc accaccatgaccatcaccaccaccaccaccaccatcaccaacaccaccagcaacaccacc accaccactaacagcaccaccaccaccaccaccatcactatcaccatcatcatcaccatc actaccaccaccaccaccatcaccatcaccaccagcaccactatcaccattaccatcatt accaccatcttcactgccaccatctaccattaccaccgtcttcactgccaccatctacca ccaccaccatcactaccaccaccaccaccatcaccatcaataccatcattgccatcacca ccactaccaccactatcattcaccaccagcaccatcaccactaccaccactgccatcacc atcatcattatcattgtcatcatcatcaccaccaccaccatctccaccatcatcactgcc cagtttaccatccgttcctacttggaccagagccttgctggttgcatgatctgttggcag ataagacacaacctcttgaaattctga >gi568815590f:143268988_143482648|GENSCAN_predicted_peptide_8|890_aa SPLRARHIRRARGAAVVFADTAPVLIFPSALMKFPGSVGLPDGWERPLDLQLPLRKRNYR AFREGRRALRAWCQDKLKVQAMHLLGLQAPGGRGCTGTPGSDESLECSLMTAKMSLRSLV LNRLRPVASGGGKAQPGSPWWRSKGYRCIGGVLYKVSANKLSKTSGQPSDAGSRPLLRTE PDIQRCPELALGHRAGGRLDPAGSCSRSLASRAVQRSLAIIRQARQRREKRKEYCMYYNR FGRCNRGERCPYIHDPEKVAVCTRFVRGTCKKTDGTCPFSHHVSKEKMPVCSYFLKGICS NSNCPYSHVYVSRKAEVCSDFLKGYCPLGAKHVCIACRSVFVMLFCLYEIILTPCLSALA LPLFTELGASLVLSKWIRFTEVFNVWVHVDTTFHEVTDFGMQRSVRKMESVDRSVWNTSS KVAGGGRGGSFDFGQWEGSWQLCWGQRCKKKHTLLCPDFARRGACPRGAQCQLLHRTQKR HSRRAATSPAPGPSDATARSRVSASHGPRKPSASQRPTRQTPSSAALTAAAVAAPPHCPG GSASPSSSKASSSSSSSSSPPASLDHEAPSLQEAALAAACSNRLCKLPSFISLQSSPSPG AQPRVRAPRAPLTKDSDQEPSSQFQSQWSLCAPRLSTWKLHRGRLVCLAASLNVQGSLVL CAPVLMAHPADLVAGTAARPGGPLDWACVLVRDPRFEGGHRLGMRRPDPLTSLCATGKRL PQARFPSTQSPLGAHDDFLGPTPAPMGSDLDPATLGPSRPLPGSGSGLPAPRPEGLAPPS AQVSTPGGWPDAAAVITAPYAPLRASPCWPEASGPVLGLHLGGGRPLHTRTTSMVQCSEA HAPLHLPRMHTLGTSSHAVRKPNQLQGAALWRCHKQLFWPTALTICQAWV >gi568815590f:143268988_143482648|GENSCAN_predicted_CDS_8|2673_bp agccccctgcgtgcccggcacatccgcagggccaggggtgcagcagtggtctttgcagat acggcccctgtgctcattttccccagtgcgttaatgaaatttcctggcagcgtgggcctg ccggacggatgggagaggcctttagatctgcagctcccgttgcggaaaaggaattacaga gccttccgtgagggcagacgcgcgctccgggcctggtgccaggataagctgaaggtacag gccatgcacctgctgggcctgcaggcacctggaggccggggctgcactgggaccccaggg tctgatgagagcctggagtgttccctgatgacggccaaaatgtccctgaggtccctggtg ctgaaccgcctgcgtccagttgccagcgggggtgggaaagcccaaccgggctccccttgg tggcggagcaaaggctaccgctgcatcggaggggtcctctacaaagtatctgccaacaag ctctccaagacctccggccagcccagtgatgcgggcagcaggcccctcctgcgcacagag cctgacatccagcggtgcccagagctggcactggggcaccgagcagggggccggctggat cctgcaggcagctgtagccgttccctggccagccgggcagtgcagcgcagcctggccatc atccggcaggcgcggcagcgcagggagaagaggaaggagtactgcatgtactacaaccgc ttcggcaggtgcaaccgtggcgagcgctgcccctacatccacgatcccgagaaggtggcc gtgtgcaccaggtttgtccggggcacctgcaagaaaacggatgggacctgccccttctcc caccatgtgtccaaggagaagatgccggtgtgctcctacttcctgaagggcatctgcagc aacagcaactgtccctatagccacgtgtacgtgtcccgcaaggccgaggtctgcagcgac ttcctcaaaggctactgccccctgggtgcaaagcatgtttgtattgcatgtagaagtgtc tttgtgatgctgttctgtctttatgaaataattctgacgccctgtctgtcagcgttggcg ctgcccctcttcaccgagcttggagcctcccttgttcttagtaagtggatccgttttact gaggttttcaacgtatgggtgcatgtcgatactacattccatgaagtcactgattttgga atgcagaggagcgtgagaaagatggagagcgtggatagaagtgtctggaacacgtcctcc aaggtggctggtggtggtagagggggcagctttgattttggacagtgggaaggaagctgg caactctgctggggacaaaggtgcaagaagaaacacacgctgctgtgccccgactttgcc cgcaggggggcgtgtccccgcggcgcccagtgccagctgctccaccgtacccagaaacgc cacagtcggcgggcagccacgtcccccgccccagggcccagcgacgcaaccgccaggagc agggtctcggccagccacgggcccaggaagccttcagcatcccagcgccccaccaggcag acgcccagctcggctgccctcactgcggctgccgtggctgcacctccccactgcccaggg gggtcagcctctccctcatcctcgaaggcttcctcctcctcctcctcctcctcatcccct cccgcttccttggaccacgaggcaccatctctccaggaggctgccttagcagcagcgtgc tccaacaggctctgcaagctgccttccttcatctccctgcagtcctcgccgagcccagga gcccagcccagggtccgggcccctagggcccccctcaccaaggactcagatcaggaacct agcagccagttccagagccagtggagcttgtgtgcaccccggctttccacatggaagctg catcgtggccgcctcgtgtgtctggcagcctcactgaacgtgcagggcagtctggtgctg tgtgcaccagtactgatggcccaccctgcagaccttgtggccgggactgccgcccgccca ggaggacccctggactgggcttgtgtccttgttcgggaccccagatttgagggtgggcac cggctgggcatgaggcggccagatcctctaacttcactttgtgccaccgggaagcgtctg ccgcaggcccggtttccctccacccagagccctctgggggcccacgatgacttcctgggc cctacaccagcccccatgggctctgatcttgacccagccaccctgggcccttccaggccc ctcccaggcagtggctctgggctccctgctccccggcctgaagggcttgcccctccatct gctcaggtgtctactcctggagggtggccagatgccgcagctgtgatcacggcaccttac gccccgctgagagcctctccctgctggcccgaggcgtcagggcctgtgctggggctgcac ctggggggtggccgacctctacacacgaggaccaccagcatggtgcagtgttctgaggca catgcacccctccaccttcctcggatgcacacactgggaaccagcagccatgctgtgagg aagcccaaccagctgcagggagcagccctgtggaggtgtcacaagcagctgttttggccg acagctctcaccatctgccaggcctgggtgtga