GENSCAN 1.0 Date run: 3-Nov-116 Time: 08:33:11 Sequence gi568815575r:153762666_153975836 : 213171 bp : 56.82% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 4217 5248 1032 1 0 86 70 1594 0.970 149.47 1.02 Intr + 5584 5763 180 0 0 96 100 269 0.999 29.48 1.03 Intr + 6024 6128 105 2 0 108 15 45 0.484 0.11 1.04 Intr + 6283 6411 129 0 0 107 94 118 0.913 15.70 1.05 Intr + 6497 6597 101 1 2 113 99 61 0.818 9.11 1.06 Intr + 7142 7274 133 2 1 81 115 141 0.999 17.25 1.07 Intr + 7427 7583 157 1 1 73 109 106 0.995 11.30 1.08 Intr + 7673 7781 109 0 1 110 86 181 0.999 19.94 1.09 Intr + 7863 7977 115 0 1 85 90 104 0.969 11.25 1.10 Intr + 8093 8416 324 1 0 73 109 157 0.556 12.82 1.11 Intr + 8645 8738 94 1 1 75 89 106 0.937 9.44 1.12 Intr + 8821 8990 170 2 2 75 73 153 0.999 12.68 1.13 Intr + 9199 9350 152 0 2 93 93 249 0.999 25.37 1.14 Intr + 9517 9622 106 1 1 77 82 36 0.872 2.62 1.15 Intr + 10221 10351 131 2 2 59 84 70 0.524 3.70 1.16 Intr + 10565 10741 177 2 0 11 60 267 0.946 15.75 1.17 Intr + 10853 11048 196 2 1 45 99 97 0.953 6.44 1.18 Intr + 11194 11679 486 0 0 56 89 630 0.664 53.70 1.19 Intr + 11755 11906 152 0 2 81 94 181 0.969 17.47 1.20 Intr + 12041 12141 101 2 2 51 94 218 0.999 18.95 1.21 Intr + 12215 12510 296 0 2 108 81 467 0.825 45.27 1.22 Intr + 12560 12738 179 1 2 27 52 272 0.727 16.73 1.23 Intr + 12929 12995 67 2 1 106 72 107 0.999 10.30 1.24 Intr + 13222 13549 328 0 1 17 77 581 0.993 45.72 1.25 Intr + 13691 13794 104 0 2 71 70 77 0.969 4.59 1.26 Intr + 14222 14315 94 1 1 79 70 32 0.969 0.54 1.27 Intr + 14543 14715 173 0 2 66 81 231 0.997 20.38 1.28 Intr + 14863 15023 161 0 2 116 51 432 0.961 41.60 1.29 Intr + 15283 15430 148 1 1 78 80 315 0.955 30.45 1.30 Intr + 15596 15660 65 1 2 55 90 108 0.935 5.71 1.31 Intr + 15731 15806 76 2 1 92 60 97 0.996 7.31 1.32 Intr + 15935 16009 75 1 0 99 94 57 0.993 7.61 1.33 Intr + 16270 16370 101 0 2 73 50 206 0.718 14.71 1.34 Intr + 18358 18480 123 1 0 24 91 168 0.603 10.91 1.35 Intr + 18551 18681 131 2 2 92 76 216 0.999 21.64 1.36 Intr + 18840 18948 109 1 1 86 81 177 0.968 16.64 1.37 Intr + 19078 19165 88 1 1 50 28 160 0.890 6.67 1.38 Intr + 19456 19569 114 0 0 70 -8 130 0.462 2.75 1.39 Intr + 20043 20213 171 2 0 72 109 160 0.618 17.15 1.40 Intr + 20288 20453 166 1 1 11 49 200 0.955 8.45 1.41 Intr + 20561 20586 26 0 2 70 111 -4 0.969 -1.67 1.42 Intr + 21087 21219 133 2 1 37 72 245 0.779 18.52 1.43 Intr + 21417 21548 132 1 0 100 92 80 0.985 10.72 1.44 Intr + 21629 21729 101 0 2 98 48 133 0.995 10.63 1.45 Intr + 22085 22192 108 1 0 77 76 242 0.936 22.88 1.46 Intr + 22269 22338 70 2 1 109 86 128 0.999 13.95 1.47 Intr + 22416 22508 93 1 0 144 78 142 0.987 19.23 1.48 Term + 22671 22855 185 1 2 89 47 312 0.998 25.23 1.49 PlyA + 23048 23053 6 1.05 2.11 PlyA - 23122 23117 6 1.05 2.10 Term - 23308 23207 102 1 0 89 44 271 0.994 21.38 2.09 Intr - 23607 23547 61 2 1 86 54 86 0.994 4.23 2.08 Intr - 23784 23690 95 0 2 127 89 238 0.999 27.06 2.07 Intr - 24282 24136 147 0 0 120 79 236 0.907 26.84 2.06 Intr - 24488 24386 103 1 1 43 67 135 0.975 7.58 2.05 Intr - 24932 24799 134 2 2 81 50 308 0.999 26.25 2.04 Intr - 25290 25158 133 2 1 89 53 241 0.997 21.85 2.03 Intr - 25470 25410 61 1 1 77 89 66 0.902 3.88 2.02 Intr - 27159 27047 113 2 2 90 84 286 0.966 28.93 2.01 Init - 27672 27530 143 0 2 67 80 133 0.334 8.46 2.00 Prom - 30606 30567 40 -4.91 3.00 Prom + 31024 31063 40 -12.79 3.01 Init + 31134 31271 138 2 0 80 83 24 0.403 1.21 3.02 Intr + 31588 31726 139 0 1 77 37 180 0.474 12.34 3.03 Intr + 32009 32089 81 0 0 95 74 105 0.871 9.91 3.04 Intr + 33769 33887 119 2 2 118 94 116 0.992 15.89 3.05 Intr + 34793 34867 75 1 0 87 94 51 0.975 5.81 3.06 Intr + 35060 35149 90 1 0 57 100 126 0.992 11.39 3.07 Intr + 35406 35471 66 2 0 125 100 93 0.998 13.79 3.08 Term + 35664 35768 105 2 0 129 55 131 0.999 12.61 3.09 PlyA + 35802 35807 6 1.05 4.09 PlyA - 39532 39527 6 1.05 4.08 Term - 42235 40688 1548 1 0 74 49 3006 0.999 286.37 4.07 Intr - 42542 42432 111 2 0 47 94 161 0.976 13.68 4.06 Intr - 42941 42840 102 2 0 74 89 205 0.999 20.07 4.05 Intr - 43468 43406 63 1 0 69 99 111 0.998 9.71 4.04 Intr - 44175 44077 99 0 0 63 69 204 0.700 16.81 4.03 Intr - 44704 44614 91 0 1 83 83 122 0.985 11.70 4.02 Intr - 45982 45677 306 0 0 35 68 506 0.878 39.41 4.01 Init - 48773 48766 8 2 2 77 80 11 0.400 -1.15 4.00 Prom - 48959 48920 40 1.19 5.03 PlyA - 55281 55276 6 1.05 5.02 Term - 61802 61638 165 2 0 67 42 126 0.395 4.13 5.01 Init - 67633 67574 60 1 0 86 91 63 0.069 7.60 5.00 Prom - 75707 75668 40 0.09 6.00 Prom + 77906 77945 40 -2.21 6.01 Sngl + 78586 78903 318 0 0 48 38 211 0.961 8.39 6.02 PlyA + 81149 81154 6 1.05 7.26 PlyA - 82340 82335 6 1.05 7.25 Term - 100229 99998 232 1 1 110 40 484 0.997 42.08 7.24 Intr - 100884 100812 73 1 1 63 99 112 0.999 8.76 7.23 Intr - 101352 101218 135 1 0 66 68 226 0.983 19.45 7.22 Intr - 101812 101657 156 2 0 120 94 202 0.999 24.49 7.21 Intr - 102039 101920 120 1 0 114 99 86 0.999 13.27 7.20 Intr - 102329 102156 174 0 0 102 107 247 0.998 28.43 7.19 Intr - 102545 102423 123 0 0 108 48 230 0.978 22.06 7.18 Intr - 102835 102634 202 1 1 100 105 288 0.999 31.08 7.17 Intr - 103154 103039 116 0 2 54 73 176 0.395 13.37 7.16 Intr - 104206 103984 223 1 1 83 74 333 0.962 29.63 7.15 Intr - 104459 104389 71 0 2 78 100 104 0.964 9.99 7.14 Intr - 104888 104691 198 0 0 81 109 246 0.711 25.84 7.13 Intr - 105245 105135 111 0 0 102 52 157 0.564 14.35 7.12 Intr - 105457 105333 125 0 2 42 106 185 0.996 16.43 7.11 Intr - 105793 105637 157 2 1 60 61 101 0.913 4.18 7.10 Intr - 106062 105896 167 2 2 73 77 297 0.920 27.22 7.09 Intr - 106287 106176 112 1 1 93 89 130 0.999 13.54 7.08 Intr - 106998 106855 144 1 0 46 75 319 0.999 27.16 7.07 Intr - 107269 107138 132 2 0 100 84 112 0.999 13.12 7.06 Intr - 107575 107391 185 0 2 89 51 398 0.996 36.15 7.05 Intr - 107834 107723 112 0 1 71 70 136 0.999 10.04 7.04 Intr - 108514 108125 390 2 0 85 81 419 0.661 36.16 7.03 Intr - 109689 109487 203 2 2 132 49 356 0.987 35.55 7.02 Intr - 110032 109927 106 2 1 101 73 137 0.998 13.27 7.01 Init - 113171 113096 76 2 1 86 82 161 0.990 14.56 7.00 Prom - 113815 113776 40 -4.41 8.00 Prom + 115845 115884 40 -6.20 8.01 Init + 116606 116692 87 1 0 102 76 -23 0.111 -1.46 8.02 Intr + 121046 121231 186 1 0 95 97 114 0.691 13.40 8.03 Intr + 122698 122771 74 0 2 65 88 84 0.571 4.80 8.04 Intr + 123223 123312 90 1 0 72 38 87 0.271 1.71 8.05 Intr + 124298 124392 95 2 2 117 78 32 0.551 5.21 8.06 Term + 125832 125932 101 1 2 48 49 102 0.382 0.89 8.07 PlyA + 128547 128552 6 1.05 9.00 Prom + 131664 131703 40 -3.91 9.01 Init + 131932 132058 127 0 1 74 84 91 0.787 7.58 9.02 Intr + 139464 139575 112 1 1 96 33 61 0.081 1.34 9.03 Intr + 142895 143751 857 2 2 65 98 1134 0.134 103.78 9.04 Term + 143858 144063 206 0 2 86 55 181 0.999 12.46 9.05 PlyA + 144475 144480 6 1.05 10.25 PlyA - 144737 144732 6 -3.94 10.24 Term - 145297 145064 234 1 0 105 51 45 0.659 -0.85 10.23 Intr - 146504 146405 100 1 1 116 100 16 0.899 6.21 10.22 Intr - 146870 146778 93 1 0 61 105 64 0.966 4.98 10.21 Intr - 147259 147076 184 2 1 122 100 325 0.981 36.46 10.20 Intr - 147420 147347 74 2 2 71 77 64 0.965 3.14 10.19 Intr - 147739 147506 234 0 0 78 38 416 0.797 32.93 10.18 Intr - 147946 147841 106 2 1 56 81 224 0.999 18.27 10.17 Intr - 148169 148035 135 0 0 86 76 249 0.996 24.55 10.16 Intr - 148334 148257 78 0 0 116 59 135 0.975 13.42 10.15 Intr - 148524 148464 61 0 1 54 103 106 0.978 7.50 10.14 Intr - 150137 150035 103 1 1 83 79 64 0.916 5.68 10.13 Intr - 150386 150359 28 0 1 85 97 44 0.943 2.66 10.12 Intr - 150637 150553 85 1 1 27 64 163 0.902 7.69 10.11 Intr - 150935 150744 192 2 0 129 52 224 0.934 23.11 10.10 Intr - 151214 151113 102 2 0 95 25 165 0.973 11.77 10.09 Intr - 151454 151299 156 2 0 70 11 108 0.798 2.02 10.08 Intr - 156388 156167 222 1 0 107 78 296 0.893 29.35 10.07 Intr - 156618 156490 129 0 0 8 86 208 0.905 14.00 10.06 Intr - 158143 157961 183 1 0 109 86 186 0.911 21.00 10.05 Intr - 158494 158432 63 1 0 84 89 120 0.998 11.11 10.04 Intr - 158862 158700 163 2 1 67 100 187 0.888 18.29 10.03 Intr - 159144 158940 205 1 1 97 94 339 0.987 34.18 10.02 Intr - 163209 163096 114 1 0 63 84 68 0.946 4.82 10.01 Init - 163537 163471 67 1 1 122 100 92 0.932 13.54 10.00 Prom - 166149 166110 40 -5.01 11.44 PlyA - 167283 167278 6 1.05 11.43 Term - 167558 167322 237 2 0 68 43 296 0.426 19.60 11.42 Intr - 168182 168098 85 1 1 103 99 194 0.999 22.32 11.41 Intr - 169450 169406 45 0 0 77 89 61 0.765 3.11 11.40 Intr - 169766 169651 116 2 2 124 29 114 0.865 8.85 11.39 Intr - 169919 169874 46 1 1 122 76 39 0.890 5.00 11.38 Intr - 171336 171278 59 0 2 76 82 102 0.935 6.57 11.37 Intr - 171810 171712 99 0 0 101 80 84 0.651 9.71 11.36 Intr - 172503 172001 503 1 2 82 43 156 0.631 3.79 11.35 Intr - 172911 172824 88 0 1 70 113 103 0.997 11.04 11.34 Intr - 177568 177437 132 1 0 104 94 178 0.994 21.35 11.33 Intr - 178988 178813 176 0 2 77 75 172 0.999 14.98 11.32 Intr - 179366 179285 82 2 1 59 94 67 0.991 4.11 11.31 Intr - 180414 180190 225 0 0 104 75 306 0.979 29.61 11.30 Intr - 181053 180881 173 1 2 77 89 225 0.992 21.68 11.29 Intr - 181305 181230 76 0 1 126 96 120 0.999 16.18 11.28 Intr - 181490 181415 76 1 1 91 80 28 0.972 2.31 11.27 Intr - 181753 181644 110 1 2 74 45 153 0.271 9.18 11.26 Intr - 185787 185592 196 2 1 71 -8 94 0.123 -1.96 11.25 Intr - 186951 186888 64 1 1 121 75 83 0.795 8.57 11.24 Intr - 187878 187578 301 0 1 105 96 474 0.986 46.75 11.23 Intr - 188333 188148 186 2 0 91 87 145 0.999 15.10 11.22 Intr - 188822 188685 138 2 0 89 105 124 0.999 15.37 11.21 Intr - 189042 188924 119 1 2 106 89 137 0.857 16.29 11.20 Intr - 189532 189125 408 2 0 42 78 473 0.306 36.51 11.19 Intr - 190425 189849 577 0 1 117 92 679 0.992 64.10 11.18 Intr - 191105 190942 164 0 2 126 111 246 0.994 30.91 11.17 Intr - 192877 191401 1477 1 1 114 115 1248 0.973 120.22 11.16 Intr - 193746 193526 221 1 2 130 91 160 0.993 19.05 11.15 Intr - 194098 193960 139 1 1 84 89 170 0.999 17.24 11.14 Intr - 194395 194253 143 2 2 91 94 209 0.999 22.38 11.13 Intr - 194868 194649 220 0 1 122 53 350 0.998 33.30 11.12 Intr - 195221 195117 105 2 0 110 99 133 0.999 17.51 11.11 Intr - 195584 195360 225 2 0 135 105 196 0.987 24.71 11.10 Intr - 196101 195904 198 0 0 120 89 226 0.995 25.97 11.09 Intr - 196826 196666 161 0 2 106 89 71 0.966 9.22 11.08 Intr - 197496 197137 360 1 0 105 105 270 0.961 26.15 11.07 Intr - 197749 197570 180 2 0 131 96 248 0.999 30.26 11.06 Intr - 198983 198877 107 1 2 81 47 184 0.928 13.96 11.05 Intr - 199641 199557 85 1 1 124 97 39 0.999 7.78 11.04 Intr - 200768 200476 293 1 2 71 77 280 0.498 22.52 11.03 Intr - 201619 201459 161 1 2 68 100 120 0.851 10.50 11.02 Intr - 202061 201913 149 0 2 114 103 175 0.997 22.06 11.01 Init - 208175 207983 193 2 1 81 100 355 0.999 35.11 11.00 Prom - 208461 208422 40 -11.29 12.00 Prom + 209045 209084 40 -10.40 12.01 Init + 209505 209826 322 2 1 96 1 146 0.355 4.21 12.02 Intr + 210060 210195 136 1 1 93 93 33 0.872 4.43 12.03 Term + 210261 210483 223 0 1 100 45 196 0.996 13.22 12.04 PlyA + 212434 212439 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 - 62442 62421 22 0 1 88 65 70 0.842 3.04 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_1|2588_aa MARWPPFGLCLLLLLLSPPPLPLTGAHRFSAPNTTLNHLALAPGRGTLYVGAVNRLFQLS PELQLEAVAVTGPVIDSPDCVPFRDPAECPQAQLTDNANQLLLVSSRAQELVACGQVRQG VCETRRLGDVAEVLYQAEDPGDGQFVAANTPGVATVGLVVPLPGRDLLLVARGLAGKLSA GVPPLAIRQLAGSQPFSSEGLGRLVVGDFSDYNNSYVGAFADARSAYFVFRRRGARAQAE YRSYVARVCLGDTNLYSYVEVPLACQGQGLIQAAFLAPGTLLGVFAAGPRGTQAALCAFP MVELGASMEQARRLCYTAGGRGPSGAEEATVEYGVTSRCVTLPLDSPESYPCGDEHTPSP IAGRQPLEVQPLLKLGQPVSAVAALQADGHMIAFLGDTQGQLYKLPSHLAELSLVHGASP RVPLLPRCHGSLESVLGLRVFLHGSQGQVYHSQQVGPPGSAISPDLLLDSSGSHLYVLTA HQVDRIPVAACPQFPDCASCLQAQDPLCGWCVLQGRCTRKGQCGRAGQLNQWLWSYEEDS HCLHIQSLLPGHHPRQEQGQVTLSVPRLPILDADEYFHCAFGDYDSLAHVEGPHVACVTP PQDQVPLNPPGTDHVTVPLALMFEDVTVAATNFSFYDCSAVQALEAAAPCRACVGSIWRC HWCPQSSHCVYGEHCPEGERTIYSAQEVDIQVRGPGACPQVEGLAGPHLVPVGWESHLAL RVRNLQHFRVSHQEGRGQGSEVCQQRVHTPDSVLPQGLPASFHCWLELPGELRGLPATLE ETAGDSGLIHCQAHQFYPSMSQRELPVPIYVTQGEAQRLDNTHALYVILYDCAMGHPDCS HCQAANRSLGCLWCADGQPACRYGPLCPPGAVELLCPAPSIDAVEPLTGPPEGGLALTIL GSNLGRAFADVQYAVSVASRPCNPEPSLYRTSARIVCVTSPAPNGTTGPVRVAIKSQPPG ISSQHFTYQDPVLLSLSPRWGPQAGGTQLTIRGQHLQTGGNTSAFVGGQPCPILEPVCPE AIVCRTRPQAAPGEAAVLVVFGHAQRTLLASPFRYTANPQLVAAEPSASFRGGGRLIRVR GTGLDVVQRPLLSVWLEADAEVQASRAQPQDPQPRRSCGAPAADPQACIQLGGGLLQCST VCSVNSSSLLLCRSPAVPDRAHPQRVFFTLDNVQVDFASASGGQGFLYQPNPRLAPLSRE GPARPYRLKPGHVLDVEVRATFNPAPPRCSGRLCGGQRLRLPCVSQGEGLNLGISKEEVR VHIGRGECLVKTLTRTHLYCEPPAHAPQPANGSGLPQFVVQMGNVQLALGPVQYEAEPPL SAFPVEAQAGVGMGAAVLIAAVLLLTLMYRHKSKQALRDYQKVLVQLESLETGVGDQCRK EFTDLMTEMTDLSSDLEGSGIPFLDYRTYAERAFFPGHGGCPLQPKPEGPGEDGHCATVR QGLTQLSNLLNSKLFLLTVRAVWRECPVGKEVGLGNYWPETKLIHTLEEQPSFSQRDRCH VASLLSLALHGKLEYLTDIMRTLLGDLAAHYVHRNPKLMLRRTETMVEKLLTNWLSICLY AFLREVAGEPLYMLFRAIQYQVDKGPVDAVTGKAKRTLNDSRLLREDVEFQPLTLMVLVG PGAGGAAGSSEMQRVPARVLDTDTITQVKEKVLDQVYKGTPFSQRPSVHALDLEWRSGLA GHLTLSDEDLTSVTQNHWKRLNTLQHYKVPDGATVGLVPQLHRGSTISQSLAQRCPLGEN IPTLEDGEEGGVCLWHLVKATEEPEGAKVRCSSLREREPARAKAIPEIYLTRLLSMKGTL QKFVDDTFQAILSVNRPIPIAVKYLFDLLDELAEKHGIEDPGTLHIWKTNSLLLRFWVNA LKNPQLIFDVRVSDNVDAILAVIAQTFIDSCTTSEHKVGRDSPVNKLLYAREIPRYKQMV ERYYADIRQSSPASYQEMNSALAELSGNYTSAPHCLEALQELYNHIHRYYDQIISALEED PVGQKLQLACRLQQVAALVENKVTDLPRPGPTGAAARGTGAAGCVAGMSASTGGGGDSGG SGGSSSSSQASCGPESSGSELALATPVPQMLQGLLGSDDEEQEDPKDYCKGGYHPVKIGD VFNGRYHVVRKLGWGHFSTVWLCWDIQRKRFVALKVVKSAGHYTETAVDEIKLLKCVRDS DPSDPKRETIVQLIDDFRISGVNGVRILCRKSKALRVGGACAAAGVHWPPFTPSPDVCMV LEVLGHQLLKWIIKSNYQGLPVPCVKSIVRQVLHGLDYLHTKCKIIHTDIKPENILLCVG DAYIRRLAAEATEWQQAGAPPPSRSIVSTAPQEVLQTGKLSKNKRKKMRRKRKQQKRLLE ERLRDLQRLEAMEAATQAEGGGRSLSAGSQTSGFSGSLFSPASCSILSGSSNQRETGGLL SPSTPFGASNLLVNPLEPQNADKIKIKIADLGNACWVHKHFTEDIQTRQYRAVEVLIGAE YGPPADIWSTACMAFELATGDYLFEPHSGEDYSRDEDHIAHIVELLGDIPPAFALSGRYS REFFNRRGELRHIHNLKHWGLYEVLMEKYEWPLEQATQFSAFLLPMMEYIPEKRASAADC LQHPWLNP >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_1|7767_bp atggctcgctggcctcccttcggcctctgcctcctcctgctgctgctgtccccaccgcca ctgcccttgacaggggcccatcgcttctccgcacctaataccactctcaaccacttggca ctggcacctggccgaggcacactctatgtcggcgcagtgaaccgcctcttccagctcagc cccgagctgcagctcgaggccgtggctgtcactggccctgtaatcgacagccctgactgc gtgcccttccgtgacccagccgagtgcccacaggcccagctcactgacaatgccaaccag ctgctgctggtgagcagccgcgcccaggagctggtggcctgcgggcaggtgcggcagggc gtgtgtgagacacggcgccttggggatgtggccgaggtgctgtaccaggctgaggaccct ggtgacgggcagtttgtggctgccaataccccgggagtggcaacggtggggctggtggtg cccttgcccggccgggacctcctgcttgtggccagaggcctggcgggcaagctgtcggca ggggtgccacccctggccatccgccagctggccgggtctcagcccttctccagcgagggc ctgggccgcctggtggtgggcgacttctccgactacaacaacagctacgtcggggccttt gccgacgcccgctccgcctacttcgtgttccgccgccgcggggcccgggcccaggctgag taccgctcctacgtggcccgcgtctgcctgggggacaccaacctgtactcctacgtggag gtccccctcgcctgccagggccagggcctcatccaggccgccttccttgccccgggcacc ttgctaggggtgtttgccgcgggcccaaggggcacccaggcggcgctctgtgccttcccc atggtggagctgggtgccagcatggagcaggcccggagactctgctacacggcgggcggc cggggccccagcggcgcagaggaagccaccgtggagtacggcgtcacgtcgcgctgcgtc accctgccccttgattcccccgagtcgtacccctgtggcgacgagcacacccccagcccc attgctggccgccagcccctggaggtccagcctctgctgaagctcgggcagccggtcagc gccgtggcagctctccaggcagatgggcacatgatagccttcctgggggacacccagggc cagctgtacaagctgccctcccacctggcagaactgtccctggtacacggggcctcaccc agggtgccgctgctgccccggtgtcatggttccctggagagtgtcctaggcctgagggtc tttctccacggctcccagggccaggtttaccactcccagcaagtggggcctccaggctca gccatcagcccagacctgctgctggacagcagtggcagtcacctctatgtcctgactgcc caccaggtggaccggatacctgtggcagcctgcccccagttccctgactgtgccagctgc ctccaggcccaggacccgctgtgtggctggtgtgtcctccagggcaggtgtacccggaag ggccagtgcgggcgggcaggccagctgaaccagtggctgtggagttatgaggaggacagc cactgcctgcacatccagagcctgctgccgggccaccacccccgccaggagcagggccag gtcactttgtctgtcccccggctgcccatcctggatgcagatgaatacttccattgtgcg ttcggggactatgacagcttggctcatgtggaagggccccacgtggcctgtgtcacccct ccccaagaccaggtgccacttaaccctccaggcacagaccacgtcactgtgcccctggcc ctgatgttcgaggacgtgactgtggctgccaccaacttctccttttatgactgcagtgcc gtccaggccttggaggcggctgccccgtgtcgcgcttgcgtgggcagcatctggcggtgt cactggtgcccgcagagtagccactgcgtgtacggagagcactgcccagagggcgagagg accatctacagcgcccaggaggtggacatccaggtgcgtggcccaggggcttgcccacag gtcgaaggcctggcaggtccccacctggtgcctgtgggctgggagagccatttggcccta cgcgtgcggaaccttcaacatttccgagtgagccatcaggagggaaggggacagggcagt gaggtctgccaacagcgtgtccacactcctgacagcgtccttccccagggcctgcctgcc tccttccactgctggctggagctgcctggagaacttcggggactgccggccaccctggag gagacagcaggggattcaggcctcatccactgccaggcccaccagttttatccctccatg tcccagcgggagctcccagtgcccatctacgtcacccagggtgaagcccagaggctggac aacacccatgctctttatgtgatcctgtacgactgcgccatgggccacccggactgcagc cactgccaagcggccaacaggagcctgggctgcctgtggtgtgctgacggccagcctgcc tgtcgctatgggcccttgtgcccgccgggggctgtggagctgctgtgtcctgcgcccagc attgatgcagtcgagcccctgaccggtccccctgagggaggcttggccctcaccatcctg ggctccaacctgggccgggccttcgccgatgtgcagtacgccgtgagcgtggccagccgg ccctgcaaccctgagccctctctctaccgcacgtcggcccggattgtgtgtgtgacatct cctgcccccaatggcaccactgggcccgtccgggtggccattaagagccagccaccaggc atctcaagccagcacttcacctaccaggaccctgtcctgctgagcctgagtcctcgctgg ggcccccaggcagggggcacccagctcaccatccgaggtcagcacctccagacaggtggc aacaccagtgccttcgtgggtggccaaccctgtcccatcctggagccagtgtgtccggag gccatcgtgtgccgtaccaggccccaggctgccccaggagaagcagcggtccttgtggtc tttggccatgcccagcgcacactgctcgccagccccttccgctacaccgccaacccccag cttgtagcggcggagcccagtgccagcttccgggggggtgggcgactgatccgtgtcagg ggcaccggcctagacgtggtgcagcggcccctactgtctgtgtggctggaggctgacgca gaggtgcaggcttccagggcccagccccaggacccacagccaaggaggagctgtggagcc cctgctgcggacccccaggcttgtatccagctcggtggggggctgctgcagtgctccacc gtctgctccgtcaactcgtccagcctcctcctgtgccggagccctgctgtaccagacaga gcccacccgcagcgggtcttcttcaccctagacaacgtgcaagtggacttcgccagtgcc agtgggggccagggcttcctgtaccagcccaacccccgcctggcacccctcagccgcgag gggcctgcccgcccctaccgcctcaagccaggccatgtcctggatgtggaggtgagggcc accttcaaccctgccccgccacggtgctcaggccgcctctgtgggggccagcggcttagg ctcccatgtgtgtcccagggcgagggcctcaacctgggcatcagcaaggaggaggtgcgc gtgcacatcggccgcggcgagtgcctggtgaagacgctcacgcgcacccacctgtactgc gagccgcctgcgcacgccccgcagcctgccaatggctccggcctgccacagttcgtggtg cagatgggcaatgtgcagctggccctgggccctgtgcagtacgaggctgaacccccgctg tctgcctttcccgtggaggcccaggcaggcgtgggcatgggtgctgcagtgctgattgcc gccgtgctcctcctcaccctcatgtacaggcacaagagcaagcaggccctgcgggactac cagaaggtgctagtgcagctggagagcctggagaccggcgtgggagaccagtgccgcaag gagttcacagacctcatgacggagatgaccgacctcagcagcgacctggagggcagcggg atccccttcctggactaccgcacctacgccgagcgcgccttcttccctggccatggcggt tgcccgctgcagcccaagcctgaggggccaggggaggacggccactgtgccactgtgcgc cagggcctcacgcagctctccaacctgctcaacagcaagctcttcctcctcacggtgagg gccgtgtggcgggagtgcccagtgggcaaggaggtggggctggggaactactggcctgag acaaagctcatccacaccctggaggagcagcccagcttttcccagagggatcgctgccat gtggcttcgctgctgtcgctagcgctacacggcaagctggagtacctgacggacatcatg aggaccctgctgggtgacctggcggcccattacgtgcacaggaaccccaagctcatgcta cgcaggacagagaccatggtggagaaactgctcaccaactggctgtccatctgcctgtac gccttcctgagggaggtggctggtgaaccactgtacatgctcttccgggccatccagtac caggtggacaaaggccccgtggacgccgtgacaggcaaggccaaacggaccctgaatgat agccgcttgctgcgggaggacgtggagttccagcccctgacgctgatggtgctggtgggg cccggggctggcggggccgcaggcagcagcgagatgcagcgcgtgccagcccgggtgctc gacacggacaccatcacccaggtcaaggagaaggtgttggaccaagtctacaagggcacc cccttctcccagaggccctcagtgcatgccctagaccttgagtggcgctcaggcctggct ggtcacctgaccctatcggacgaagacttgacctccgtgacccaaaaccactggaagaga ctcaacaccttgcaacactacaaggtcccagatggagcaacagtggggctcgtccctcag ctgcaccgtggcagcaccatctcccagagcctggcccagaggtgccccttgggagagaac atacccacgctggaggatggcgaggaggggggggtgtgcctctggcacctggtgaaagcc accgaggagccagaaggggccaaggtgcggtgcagcagcctgcgggagcgcgagccagca agggccaaggccattccggaaatctacctcacccgtctgctgtccatgaagggcacgctg cagaagtttgtggacgacaccttccaggccattctcagcgtgaaccggcccatccccatc gccgtcaagtacctgtttgaccttctggatgagctagcagagaagcacggcatcgaggac ccagggaccctgcacatctggaagaccaacagtctgctgctgcggttctgggtgaatgcc ttgaagaacccacagctcatctttgatgtacgggtgtcggacaatgtggacgccatcctt gctgtcatcgcccagaccttcattgactcctgtaccacctcggagcataaagtgggccgg gattccccagtgaacaaactgctctacgcccgggagatcccacgctacaagcagatggtg gagaggtactatgcggacattcgccagagctctccggcgagctaccaggagatgaactct gctttggctgagctctccgggaactacacttctgctccccactgtctggaggctctgcaa gaactctacaaccacatccacaggtactatgatcagattatcagtgccctggaggaggac cctgtgggccagaagctgcagctggcctgccgcctgcagcaggtcgccgccctggtggaa aacaaagtgactgacctgccgcggccgggccccacaggagcagccgcccggggcaccgga gctgcgggctgcgtggccgggatgagcgccagcacgggcggtggtggggacagcggcggc agcggcggcagtagcagcagctcacaggcctcctgcgggcccgagtcctcgggctccgaa ctagccctggccacaccggtgcctcagatgctgcagggccttctgggctccgacgacgag gaacaggaagaccccaaagactactgcaagggcggctaccaccctgtgaagatcggcgac gtgttcaatgggcggtaccacgtggtgcgcaaactgggctggggccacttctccaccgtc tggctctgctgggacatccagcgcaagcgctttgtggccctcaaagtggtgaagagtgcg gggcattacacggagacagctgtggatgagatcaagctcctgaaatgtgtccgggacagc gaccccagtgaccccaaaagagagaccattgtccagctcattgatgacttcaggatctca ggagtcaatggagtccgtatcctttgcaggaagagcaaagcactgagggtgggtggggcc tgtgccgcagctggtgtccactggccgcccttcactcccagcccagatgtgtgcatggtg ctggaggtgctgggccaccagctcctcaaatggatcatcaagtccaactaccagggcctg cccgtgccctgcgtgaagagcatcgtgaggcaggtgctgcacggcctggactacctccac accaagtgcaagatcatccacacggacatcaagcccgagaacatcttgctgtgtgtgggg gacgcttacatcaggcgcctggctgccgaggccacggagtggcaacaggcaggggcgccg cccccctcccgctccatagtcagcactgccccccaggaggtcttgcagaccggtaagctg tccaaaaacaagaggaagaagatgaggcgcaaacggaaacagcagaagcggctgctggag gagcggctgcgggacctgcagaggctggaggccatggaggctgccacccaggctgagggg ggcggccgtagcctcagcgcgggctcacagacctcaggcttctccggctccctcttctct cctgcctcctgctccatcctctccggctcgtccaatcagcgagagaccgggggcctcctg tcgcctagcacaccattcggtgcctcgaacctcctggtgaaccccctggagccccaaaat gcagataagatcaagatcaagatcgcagacctgggcaacgcctgctgggtgcacaagcac ttcacggaagacatccagactcggcagtaccgggccgtcgaggtgctgatcggcgccgaa tacggccccccggcagacatctggagcacagcctgcatggccttcgagctggccactggt gactacctgttcgagccgcattctggagaagactacagtcgtgatgaggaccacatcgct cacatagtggagcttctgggggacatccccccagccttcgccctctcaggccgctattcc cgggagttcttcaaccggagaggagagctgcggcacatccacaatctcaagcactggggc ctgtacgaggtactcatggaaaagtacgagtggcccctagagcaggccacacagttcagc gcctttctgctgcccatgatggagtacatccccgaaaagcgggccagtgccgctgactgc ctccagcacccctggctcaacccctag >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_2|363_aa MWDPRRPTFTLCLPQPPSAKYGGRHTVTMIPGDGIGPELMLHVKSVFRHACVPVDFEEVH VSSNADEEDIRNAIMAIRRNRVALKGNIETNHNLPPSHKSRNNILRTSLDLYANVIHCKS LPGVVTRHKDIDILIVRENTEGEYSSLEHESVAGVVESLKIITKAKSLRIAEYAFKLAQE SGRKKVTAVHKANIMKLGDGLFLQCCREVAARYPQITFENMIVDNTTMQLVSRPQQFDVM VMPNLYGNIVNNVCAGLVGGPGLVAGANYGHVYAVFETATRNTGKSIANKNIANPTATLL ASCMMLDHLKLHSYATSIRKAVLASMDNENMHTPDIGGQGTTSEAIQDVIRHIRVINGRA VEA >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_2|1092_bp atgtgggatccccgaaggcccaccttcaccctctgcctcccacagcctccgtccgctaag tatggcgggcggcacacggtgaccatgatcccaggggatggcatcgggccagagctcatg ctgcatgtcaagtccgtcttcaggcacgcatgtgtaccagtggactttgaagaggtgcac gtgagttccaatgctgatgaagaggacattcgcaatgccatcatggccatccgccggaac cgcgtggccctgaagggcaacatcgaaaccaaccataacctgccaccgtcgcacaaatct cgaaacaacatccttcgcaccagcctggacctctatgccaacgtcatccactgtaagagc cttccaggcgtggtgacccggcacaaggacatagacatcctcattgtccgggagaacaca gagggcgagtacagcagcctggagcatgagagtgtggcgggagtggtggagagcctgaag atcatcaccaaggccaagtccctgcgcattgccgagtatgccttcaagctggcgcaggag agcgggcgcaagaaagtgacggccgtgcacaaggccaacatcatgaaactgggcgatggg cttttcctccagtgctgcagggaggtggcagcccgctaccctcagatcaccttcgagaac atgattgtggataacaccaccatgcagctggtgtcccggccccagcagtttgatgtcatg gtgatgcccaatctctatggcaacatcgtcaacaatgtctgcgcgggactggtcgggggc ccaggccttgtggctggggccaactatggccatgtgtacgcggtgtttgaaacagctacg aggaacaccggcaagagtatcgccaataagaacatcgccaaccccacggccaccctgctg gccagctgcatgatgctggaccacctcaagctgcactcctatgccacctccatccgtaag gctgtcctggcatccatggacaatgagaatatgcacactccggacatcgggggccagggc acaacatctgaagccatccaggacgtcatccgccacatccgcgtcatcaacggccgggcc gtggaggcctag >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_3|270_aa MGDDWQSPVLCHRDRWQSGPRERKPWRNLSPGTGFPKRFEKGGPGYGRQRRAGPSTAFAA LPATVATFSAMTESESLRTSRHADTALARVRRGREEAMAAMASLGALALLLLSSLSRCSA EACLEPQITPSYYTTSDAVISTETVFIVEISLTCKNRVQNMALYADVGGKQFPVTRGQDV GRYQVSWSLDHKSAHAGTYEVRFFDEESYSLLRKAQRNNEDISIIPPLFTVSVDHRGTWN GPWVSTEVLAAAIGLVIYYLAFSAKSHIQA >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_3|813_bp atgggggatgactggcaaagtccggttctttgccaccgggataggtggcaaagcggtcca cgagagaggaaaccgtggagaaatttgagtcccggaaccggattcccgaagcggtttgag aaaggcgggccgggatacggacggcagagaagggctggcccgagcaccgccttcgcggcg ctgccggcgacggtcgctaccttcagcgccatgacggaaagtgagagcctccgcacgtcc cgacacgcagataccgctctcgcgagagttcgacggggcagagaagaggcgatggcggcg atggcatctctcggcgccctggcgctgctcctgctgtccagcctctcccgctgctcagcc gaggcctgcctggagccccagatcaccccttcctactacaccacttctgacgctgtcatt tccactgagaccgtcttcattgtggagatctccctgacatgcaagaacagggtccagaac atggctctctatgctgacgtcggtggaaaacaattccctgtcactcgaggccaggatgtg gggcgttatcaggtgtcctggagcctggaccacaagagcgcccacgcaggcacctatgag gttagattcttcgacgaggagtcctacagcctcctcaggaaggctcagaggaataacgag gacatttccatcatcccgcctctgtttacagtcagcgtggaccatcggggcacttggaac gggccctgggtgtccactgaggtgctggctgcggcgatcggccttgtgatctactacttg gccttcagtgcgaagagccacatccaggcctga >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_4|775_aa MARGEEQAFEGSYGGVSLPQVNGKELSKLSQEQTLQALRSSKEPLVIQVLRRSPRLRGDS SCHDLQLVDSGTQTDITFEHIMALGKLRPPTPPMVILEPYVLSELPPISHEYYDPAEFME GGPQEADRLDELEYEEVELYKSSHRDKLGLMVCYRTDDEEDLGIYVGEVNPNSIAAKDGR IREGDRIIQINGVDVQNREEAVAILSQEENTNISLLVARPESQLAKRWKDSDRDDFLDDF GSENEGELRARKLKSPPAQQPGNEEEKGAPDAGPGLSNSQELDSGVGRTDESTRNEESSE HDLLGDEPPSSTNTPGSLRKFGLQGDALQSRDFHFSMDSLLAEGAGLGGGDVPGLTDEEY ERYRELLEIKCHLENGNQLGLLFPRASGGNSALDVNRNESLGHEMAMLEEELRHLEFKCR NILRAQKMQQLRERCMKAWLLEEESLYDLAASEPKKHELSDISELPEKSDKDSTSAYNTG ESCRSTPLLVEPLPESPLRRAMAGNSNLNRTPPGPAVATPAKAAPPPGSPAKFRSLSRDP EAGRRQHAEERGRRNPKTGLTLERVGPESSPYLSRRHRGQGQEGEHYHSCVQLAPTRGLE ELGHGPLSLAGGPRVGGVAAAATEAPRMEWKVKVRSDGTRYVAKRPVRDRLLKARALKIR EERSGMTTDDDAVSEMKMGRYWSKEERKQHLIRAREQRKRREFMMQSRLECLREQQNGDS KPELNIIALSHRKTMKKRNKKILDNWITIQEMLAHGARSADGKRVYNPLLSVTTV >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_4|2328_bp atggccagaggggaggagcaagcctttgagggttcttacggaggcgtgtctctgccgcag gtgaacgggaaggagctctccaagctgtctcaggagcaaactctgcaggccctgcgctcc tccaaggagcccctggtgatccaggtgctgagacgcagcccccgcctccggggggacagc tcctgtcacgacctgcagctggtggacagtggcactcagaccgacatcaccttcgagcat atcatggcgctgggcaagctgcgtccgcccaccccgcccatggtcatcctggagccgtac gtcctctctgagctccccccaatcagccatgagtattatgacccggcggagtttatggag ggcggcccgcaggaggcagaccgcttggatgagctggagtatgaggaggtggagctgtat aaaagcagccaccgggacaagctgggcctgatggtttgctaccgcacggacgacgaggag gacctgggcatttatgtcggagaggtaaatcccaacagcattgcagccaaagacggccgg atccgtgagggagaccgcatcatccagattaacggtgtagacgtccagaaccgggaagag gcggtggccatcctgagccaggaagagaacaccaacatctccctgctggtggcccgacct gagagtcagctggcgaaaaggtggaaggacagcgaccgggatgacttcctggatgacttt ggctctgagaatgagggggagctgcgtgctcgtaaactgaaatcaccccctgcccagcag cccggaaacgaagaggagaagggggctcccgatgccggcccaggcctgagcaacagccag gagctggacagcggggtgggccggactgacgagagcacccggaacgaagagagctctgag cacgacctgctgggggacgaacccccgagctccaccaacaccccgggaagcctgcgcaag tttggcctgcaaggggacgccctgcagagccgggacttccatttcagcatggactctctg ctggccgagggggcggggctgggagggggcgacgtcccgggcctcacggatgaggagtat gagcgctaccgtgagctcctggagatcaagtgccacctggagaacggcaaccagctgggc ctcctctttccccgggcctccggaggcaacagcgccctggacgtcaaccgcaacgagagc ctgggccacgagatggccatgctggaggaggagctaaggcacctggaattcaagtgccgc aacatactgcgggcgcagaagatgcagcagctgcgtgagcgctgcatgaaggcctggctg ctggaggaggagagcctctacgacctggcggccagcgagcccaagaagcacgagctgtcc gacatctccgagctgcccgagaagtcggacaaggacagcaccagcgcctacaacactggg gagagctgccgcagcaccccgctgcttgtggagcccctgcccgagagccccctgcggcgg gccatggccggcaactccaacttgaaccggacccctcccggccccgctgttgccaccccc gccaaggcagctcctccaccggggagccccgccaagttccggtccctctcccgggatcct gaggccggccggaggcagcacgcggaggagcgcggccgccgcaaccccaagacggggttg accctggagcgtgtgggccctgaaagcagcccttacctctcgcggcgccaccgcggccag ggccaggagggcgagcactaccacagctgcgtgcagctggccccgacgcgaggcctggag gagctgggccacggccccctgagcttggccggtggccctcgggtgggcggggtggcggcc gcggccactgaagcaccgcgcatggagtggaaagtgaaggtgcgcagcgacggaacccgc tacgtggccaagcggcccgtgcgagatcggctgctgaaagcccgtgccctgaagatccgg gaggagcgcagcggtatgacgaccgacgacgacgcggtgagcgagatgaagatgggccgc tactggagcaaggaggagcggaagcagcacctgatccgggcccgtgagcagcggaagcgg cgcgagttcatgatgcagagccggctggagtgcctgcgggagcagcagaatggcgacagc aagcccgagctcaacatcattgccctgagccaccgcaaaaccatgaagaagcggaacaag aagatcctggacaactggatcaccatccaggagatgctggcccacggcgcgcgctccgcc gatggcaagcgggtctacaaccctcttctctcagtcaccaccgtgtga >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_5|74_aa MGCNMCVVQKPEEQYKVMLQHQMLPAHPRWPPPFQGKAGLSVNSVVLPQKLTGEEAGSEK VLVEWKNRGLDTEF >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_5|225_bp atgggatgtaatatgtgcgtggtccagaaaccggaggagcagtacaaagtgatgctgcag caccagatgctgccagcacatccacgctggcctccacccttccaggggaaagctggactc tcagtcaactcagtggttctgccgcagaagctgactggggaagaagcaggctctgagaaa gtccttgtggagtggaagaacagagggctggacactgaattctga >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_6|105_aa MGDVEKGKKIFIMKCSQCHTVEKGGKHKTGPNLQGLFGRKTGQAAGYSYTVASKNKGITW GEDTLMEYLENPKKHIPETKMIFVGIKKKEERADSIAFLKKATNE >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_6|318_bp atgggtgatgttgagaaaggcaagaagatttttattatgaagtgttcccagtgccacacc gttgaaaagggaggcaagcacaagactgggccaaatctccaaggcctcttcgggcggaag acaggtcaggccgctggatactcttacacggttgccagtaagaacaaaggcatcacctgg ggagaggatacactgatggagtatttggagaatcccaagaagcacatacctgaaacaaaa atgatctttgtcggcattaagaagaaggaagaaagggcagactcgatagcttttctcaaa aaagctactaatgagtaa >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_7|1280_aa MVVALRYVWPLLLCSPCLLIQIPEELMEPPVITEQSPRRLVVFPTDDISLKCEASGKPEV QFRWTRDGVHFKPKEELGVTVYQSPHSGSFTITGNNSNFAQRFQGIYRCFASNKLGTAMS HEIRLMAEGAPKWPKETVKPVEVEEGESVVLPCNPPPSAEPLRIYWMNSSGCRRAAASWG RGVSGGVFLDGVMTSASLPPAEILHIKQDERVTMGQNGNLYFANVLTSDNHSDYICHAHF PGTRTIIQKEPIDLRVKATNSMIDRKPRLLFPTNSSSHLVALQGQPLVLECIAEGFPTPT IKWLRPSGPMPADRVTYQNHNKTLQLLKVGEEDDGEYRCLAENSLGSARHAYYVTVEAAP YWLHKPQSHLYGPGETARLDCQVQGRPQPEVTWRINGIPVEELAKDQKYRIQRGALILSN VQPSDTMVTQCEARNRHGLLLANAYIYVVQLPAKILTADNQTYMAVQGSTAYLLCKAFGA PVPSVQWLDEDGTTVLQDERFFPYANGTLGIRDLQANDTGRYFCLAANDQNNVTIMANLK VKDATQITQGPRSTIEKKGSRVTFTCQASFDPSLQPSITWRGDGRDLQELGDSDKYFIED GRLVIHSLDYSDQGNYSCVASTELDVVESRAQLLVVGSPGPVPRLVLSDLHLLTQSQVRV SWSPAEDHNAPIEKYDIEFEDKEMAPEKWYSLGKVPGNQTSTTLKLSPYVHYTFRVTAIN KYGPGEPSPVSETVVTPEAAPEKNPVDVKGEGNETTNMVITWKPLRWMDWNAPQVQYRVQ WRPQGTRGPWQEQIVSDPFLVVSNTSTFVPYEIKVQAVNSQGKGPEPQVTIGYSGEDYPQ AIPELEGIEILNSSAVLVKWRPVDLAQVKGHLRGYNVTYWREGSQRKHSKRHIHKDHVVV PANTTSVILSGLRPYSSYHLEVQAFNGRGSGPASEFTFSTPEGVPGHPEALHLECQSNTS LLLRWQPPLSHNGVLTGYVLSYHPLDEGGKGQLSFNLRDPELRTHNLTDLSPHLRYRFQL QATTKEGPGEAIVREGGTMALSGISDFGNISATAGENYSVVSWVPKEGQCNFRFHILFKA LGEEKGGASLSPQYVSYNQSSYTQWDLQPDTDYEIHLFKERMFRHQMAVKTNGTGRVRLP PAGFATEGWFIGFVSAIILLLLVLLILCFIKRSKGGKYSVKDKEDTQVDSEARPMKDETF GEYSDNEEKAFGSSQPSLNGDIKPLGSDDSLADYGGSVDVQFNEDGSFIGQYSGKKEKEA AGGNDSSGATSPINPAVALE >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_7|3843_bp atggtcgtggcgctgcggtacgtgtggcctctcctcctctgcagcccctgcctgcttatc cagatccccgaggaattgatggagccacctgtcatcacggaacagtctccacggcgcctg gttgtcttccccacagatgacatcagcctcaagtgtgaggccagtggcaagcccgaagtg cagttccgctggacgagggatggtgtccacttcaaacccaaggaagagctgggtgtgacc gtgtaccagtcgccccactctggctccttcaccatcacgggcaacaacagcaactttgct cagaggttccagggcatctaccgctgctttgccagcaataagctgggcaccgccatgtcc catgagatccggctcatggccgagggtgcccccaagtggccaaaggagacagtgaagccc gtggaggtggaggaaggggagtcagtggttctgccttgcaaccctcccccaagtgcagag cctctccggatctactggatgaacagcagtgggtgccggcgagcggctgcctcgtggggt cggggtgttagcgggggtgtcttcctggacggggtcatgacttcggcctccttgccccct gcagagatcttgcacatcaagcaggacgagcgggtgacgatgggccagaacggcaacctc tactttgccaatgtgctcacctccgacaaccactcagactacatctgccacgcccacttc ccaggcaccaggaccatcattcagaaggaacccattgacctccgggtcaaggccaccaac agcatgattgacaggaagccgcgcctgctcttccccaccaactccagcagccacctggtg gccttgcaggggcagccattggtcctggagtgcatcgccgagggctttcccacgcccacc atcaaatggctgcgccccagtggccccatgccagccgaccgtgtcacctaccagaaccac aacaagaccctgcagctgctgaaagtgggcgaggaggatgatggcgagtaccgctgcctg gccgagaactcactgggcagtgcccggcatgcgtactatgtcaccgtggaggctgccccg tactggctgcacaagccccagagccatctatatgggccaggagagactgcccgcctggac tgccaagtccagggcaggccccaaccagaggtcacctggagaatcaacgggatccctgtg gaggagctggccaaagaccagaagtaccggattcagcgtggcgccctgatcctgagcaac gtgcagcccagtgacacaatggtgacccaatgtgaggcccgcaaccggcacgggctcttg ctggccaatgcctacatctacgttgtccagctgccagccaagatcctgactgcggacaat cagacgtacatggctgtccagggcagcactgcctaccttctgtgcaaggccttcggagcg cctgtgcccagtgttcagtggctggacgaggatgggacaacagtgcttcaggacgaacgc ttcttcccctatgccaatgggaccctgggcattcgagacctccaggccaatgacaccgga cgctacttctgcctggctgccaatgaccaaaacaatgttaccatcatggctaacctgaag gttaaagatgcaactcagatcactcaggggccccgcagcacaatcgagaagaaaggttcc agggtgaccttcacgtgccaggcctcctttgacccctccttgcagcccagcatcacctgg cgtggggacggtcgagacctccaggagcttggggacagtgacaagtacttcatagaggat gggcgcctggtcatccacagcctggactacagcgaccagggcaactacagctgcgtggcc agtaccgaactggatgtggtggagagtagggcacagctcttggtggtggggagccctggg ccggtgccacggctggtgctgtccgacctgcacctgctgacgcagagccaggtgcgcgtg tcctggagtcctgcagaagaccacaatgcccccattgagaaatatgacattgaatttgag gacaaggaaatggcgcctgaaaaatggtacagtctgggcaaggttccagggaaccagacc tctaccaccctcaagctgtcgccctatgtccactacacctttagggttactgccataaac aaatatggccccggggagcccagcccggtctctgagactgtggtcacacctgaggcagcc ccagagaagaaccctgtggatgtgaagggggaaggaaatgagaccaccaatatggtcatc acgtggaagccgctccggtggatggactggaacgccccccaggttcagtaccgcgtgcag tggcgccctcaggggacacgagggccctggcaggagcagattgtcagcgaccccttcctg gtggtgtccaacacgtccaccttcgtgccctatgagatcaaagtccaggccgtcaacagc cagggcaagggaccagagccccaggtcactatcggctactctggagaggactacccccag gcaatccctgagctggaaggcattgaaatcctcaactcaagtgccgtgctggtcaagtgg cggccggtggacctggcccaggtcaagggccacctccgcggatacaatgtgacgtactgg agggagggcagtcagaggaagcacagcaagagacatatccacaaagaccatgtggtggtg cccgccaacaccaccagtgtcatcctcagtggcttgcggccctatagctcctaccacctg gaggtgcaggcctttaacgggcgaggatcggggcccgccagcgagttcaccttcagcacc ccagagggagtgcctggccaccccgaggcgttgcacctggagtgccagtcgaacaccagc ctgctgctgcgctggcagcccccactcagccacaacggcgtgctcaccggctacgtgctc tcctaccaccccctggatgaggggggcaaggggcaactgtccttcaaccttcgggacccc gaacttcggacacacaacctgaccgatctcagcccccacctgcggtaccgcttccagctt caggccaccaccaaagagggccctggtgaagccatcgtacgggaaggaggcactatggcc ttgtctgggatctcagattttggcaacatctcagccacagcgggtgaaaactacagtgtc gtctcctgggtccccaaggagggccagtgcaacttcaggttccatatcttgttcaaagcc ttgggagaagagaagggtggggcttccctttcgccacagtatgtcagctacaaccagagc tcctacacgcagtgggacctgcagcctgacactgactacgagatccacttgtttaaggag aggatgttccggcaccaaatggctgtgaagaccaatggcacaggccgcgtgaggctccct cctgctggcttcgccactgagggctggttcatcggctttgtgagtgccatcatcctcctg ctcctcgtcctgctcatcctctgcttcatcaagcgcagcaagggcggcaaatactcagtg aaggataaggaggacacccaggtggactctgaggcccgaccgatgaaagatgagaccttc ggcgagtacagtgacaacgaggagaaggcctttggcagcagccagccatcgctcaacggg gacatcaagcccctgggcagtgacgacagcctggccgattatgggggcagcgtggatgtt cagttcaacgaggatggttcgttcattggccagtacagtggcaagaaggagaaggaggcg gcagggggcaatgacagctcaggggccacttcccccatcaaccctgccgtggccctagaa tag >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_8|210_aa MEMVRGWGNSETETQAAEKGREEETGAQRTRVLAGIPILADLLTGPHHYPRFSHERALLE PGPLCEAASPSHPEKHSVQPFRALKGNLVIKSLWKRAPEAPYASGEEPLALRQVFGPRCP EPDARHGWGSGSNAGYRGPDRAGTPCPAQDREGRSSSPVPPPRLKAMTSQARKQNGGALI DTVDWTREAPDSDPVMSMQKTQKPQTTVGQ >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_8|633_bp atggagatggttagggggtggggaaattccgaaacggagacccaggcagcagagaaaggg agagaagaggaaaccggagcacaaaggaccagggtcttggctgggatccccatcctggca gacctcctcacaggaccccaccactaccccaggttctcccatgaacgtgccctcctggag cctgggccactctgcgaggccgcatcaccctcacacccagaaaagcactcagtgcagcca tttcgagctttgaaagggaacttggtgatcaagagcctgtggaaacgggctccagaggcg ccctacgcctccggggaggagcccctggctctgcggcaggttttcggcccgcggtgcccg gagcccgacgcccggcatgggtggggctccggcagcaacgccggttaccgcgggccggac cgggccgggactccctgccctgcacaggatcgagaaggaaggagctcctccccagtgccc cctcctaggctcaaggccatgacctcacaggcgaggaagcaaaatggaggggccctcata gacacagtggactggacaagggaagccccagactctgaccctgtgatgagcatgcagaag acgcagaagccacagacgacagtggggcagtaa >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_9|433_aa MTVNDFLKRKTPKDRNNGKIENSSKIMGAEFHCGTHTHPENGEAHVLLGQSPGPSISAAT VLGQRHLQFGEWKVLIMGNRLPSNSSQERPLDTRDPLLARAELALLSIVFVAVALSNGLV LAALARRGRRGHWAPIHVFIGHLCLADLAVALFQVLPQLAWKATDRFRGPDALCRAVKYL QMVGMYASSYMILAMTLDRHRAICRPMLAYRHGSGAHWNRPVLVAWAFSLLLSLPQLFIF AQRNVEGGSGVTDCWACFAEPWGRRTYVTWIALMVFVAPTLGIAACQVLIFREIHASLVP GPSERPGGRRRGRRTGSPGEGAHVSAAVAKTVRMTLVIVVVYVLCWAPFFLVQLWAAWDP EAPLEGAPFVLLMLLASLNSCTNPWIYASFSSSVSSELRSLLCCARGRTPPSLGPQDESC TTASSSLAKDTSS >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_9|1302_bp atgacagtaaatgactttttaaaaagaaaaactcccaaggacagaaataatgggaaaata gaaaacagcagcaaaatcatgggagctgaatttcactgcggaacccacacgcatccagaa aatggggaagcccatgtgctcctggggcagagcccaggtccttccatctctgcagccaca gtgctaggccagcggcacttgcagtttggtgaatggaaggttctgatcatggggaaccgc ctgcccagcaacagcagccaggagaggccactggacacccgggacccgctgctagcccgg gcggagctggcgctgctctccatagtctttgtggctgtggccctgagcaatggcctggtg ctggcggccctagctcggcggggccggcggggccactgggcacccatacacgtcttcatt ggccacttgtgcctggccgacctggccgtggctctgttccaagtgctgccccagctggcc tggaaggccaccgaccgcttccgtgggccagatgccctgtgtcgggccgtgaagtatctg cagatggtgggcatgtatgcctcctcctacatgatcctggccatgacgctggaccgccac cgtgccatctgccgtcccatgctggcgtaccgccatggaagtggggctcactggaaccgg ccggtgctagtggcttgggccttctcgctccttctcagcctgccccagctcttcatcttc gcccagcgcaacgtggaaggtggcagcggggtcactgactgctgggcctgctttgcggag ccctggggccgtcgcacctatgtcacctggattgccctgatggtgttcgtggcacctacc ctgggtatcgccgcctgccaggtgctcatcttccgggagattcatgccagtctggtgcca gggccatcagagaggcctggggggcgccgcaggggacgccggacaggcagccccggtgag ggagcccacgtgtcagcagctgtggccaagactgtgaggatgacgctagtgattgtggtc gtctatgtgctgtgctgggcacccttcttcctggtgcagctgtgggccgcgtgggacccg gaggcacctctggaaggggcgccctttgtgctactcatgttgctggccagcctcaacagc tgcaccaacccctggatctatgcatctttcagcagcagcgtgtcctcagagctgcgaagc ttgctctgctgtgcccggggacgcaccccacccagcctgggtccccaagatgagtcctgc accaccgccagctcctccctggccaaggacacttcatcgtga >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_10|1036_aa MAAHGKLRRERGLQAEYETQVKGSVETLVAAGKREPDAPTCPSEGSILATVKSTSLIGLG EMRWQLSEQLRCLELQGELRRELLQELAEFMRRRAEVELEYSRGLEKLAERFSSRGGRLG SSREHQSFRKEPSLLSPLHCWAVLLQHTRQQSRESAALSEVLAGPLAQRLSHIAEDVGRL VKKSRDLEQQLQDELLEVVSELQTAKKTYQAYHMESVNAEAKLREAERQEEKRAGRSVPT TTAGATEAGPLRKSSLKKGGRLVEKRQAKFMEHKLKCTKARNEYLLSLASVNAAVSNYYL HDVLDLMDCCDTGFHLALGQVLRSYTAAESRTQASQVQGLGSLEEAVEALDPPGDKAKVL EVHATVFCPPLRFDYHPHDGDETALSLAIRQLDEWCRHEPLWTSLGLDTCVHSCHSSAER LGWWSCARPPGHKRVAEICVEMELRDEILPRAQNIQSRLDRQTIETEEVNKTLKATLQAL LEVVASDDGDVLDSFQTSPSTESLKSTSSDPGSRQAGRRRGQQQETETFYLTKLQEYLSG RSILAKLQAKHEKLQEALQRGDKEEQEVSWTQYTQRKFQKSRQPRPSSQYNQRLFGGDME KFIQSSGQPVPLVVESCIRFINLNGLQHEGIFRVSGAQLRVSEIRDAFERGEDPLVEGCT AHDLDSVAGVLKLYFRSLEPPLFPPDLFGELLASSELEATAERVEHVSRLLWRLPAPVLV VLRYLFTFLNHLAQYSDENMMDPYNLAVCFGPTLLPVPAGQDPVALQGRVNQLVQTLIVQ PDRVFPPLTSLPGPVYEKCMAPPSASCLGDAQLESLGADNEPELEAEMPAQEDDLEGVVE AVACFAYTGRTAQELSFRRGDVLRLHERASSDWWRGEHNGMRGLIPHKYITLPAGTEKQV VGAGLQTAGESGSSPEGLLASELVHRPEPCTSPEAMGPSGHRRRCLVPASPEQHVEVDKA VAQNMDSVFKELLGKTSVRQGLGPASTTSPSPGPRSPKAPPSSRLGRNKGFSRGPGAPAS PSASHPQGLDTTPKPH >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_10|3111_bp atggccgctcacgggaagctgcggcgggagcgggggctgcaggctgagtatgagacgcaa gtcaaaggttcagtggagacactggtggccgctggtaaaagagagccagatgcaccaacg tgcccctcagaaggcagtattttagctacagtgaagtcaaccagcttgattgggctgggg gagatgcgctggcagctgagcgagcagctgcgctgcctggagctgcagggcgagctgcgg cgggagttgctgcaggagctggcagagttcatgcggcgccgcgctgaggtggagctggaa tactcccggggcctggaaaagctggccgagcgcttctccagccgtggaggccgcctgggg agcagccgggagcaccaaagcttccggaaggagccgtccctcctgtcgcccttgcactgc tgggcggtgctgctgcagcacacgcggcagcagagccgggagagcgcggccctgagtgag gtgctggccgggcccctggcccagcgcctgagtcacattgcagaggacgtggggcgcctg gtcaagaagagcagggatctggagcagcagctgcaggatgagctcctggaggtggtctca gagctccagacggccaagaagacgtaccaggcatatcacatggagagcgtgaatgccgag gccaagctccgggaggccgagcggcaggaggagaagcgggcaggccggagtgtccccacc accaccgctggtgccactgaggcagggcccctccgcaagagctccctcaagaagggaggg aggctggtggagaagcggcaggccaagttcatggagcacaaactcaagtgcacaaaggcg cgcaacgagtacctgcttagcctggctagtgtcaacgctgctgtcagtaactactacctg catgacgtcttggacctcatggactgctgtgacacagggttccacctggccctggggcag gtgctccggagctacacggccgctgagagccgcacccaagcctcccaagtgcagggcctg ggcagcctggaagaagctgtggaggccctggatcctccaggggacaaagccaaggttctc gaggtgcatgctaccgtcttctgtcccccgctgcgctttgactaccacccccatgatggg gatgagaccgcgctgagtttagccatccgtcagttggatgagtggtgccgccacgaacct ctgtggacaagtcttggtttggacacgtgtgttcactcctgccattcttcagctgagcgt ctgggctggtggtcctgtgcccggccgccaggccacaaaagggtggctgagatctgcgtt gaaatggagctgcgggacgagattctgcccagagcccagaacatccagagccgcctggac cgacagaccattgagacagaggaggtgaacaagactctgaaggcgacactgcaggccctg ctggaggtggtggcctcggatgacggggatgtgcttgattccttccagaccagcccctcc accgagtccctcaagtccaccagctcagacccaggcagccggcaggcgggccggaggcgc ggccagcagcaggagaccgaaaccttctacctcacgaagctccaggagtatctgagtgga cggagcatcctcgccaagctgcaggccaagcacgagaagctgcaggaggcccttcagcga ggtgacaaggaggagcaggaggtgtcttggacccagtacacacagagaaaattccagaag agccgccagccccgccccagctcccagtataaccagagactctttgggggagacatggag aagtttatccagagctcaggccagcctgtgcccctggtggtggagagctgcattcgcttc atcaacctcaatggcctgcagcatgaaggcatcttccgggtatcgggtgcccagctccgg gtctcagagatccgtgatgccttcgagagaggggaggacccactggtggagggctgcact gcccatgacctggactcggtggccggggtgctgaagctctacttccggagcctggagccc ccactcttccccccagacctgttcggcgagctgctggcttcttcggagctggaggccaca gcggagagggtggagcacgtgagccgcctgctgtggcggctgcccgcgccggtgctggtg gttctgcgctacctcttcaccttcctcaaccacctggcccagtacagcgatgagaacatg atggacccctacaacctggccgtgtgcttcgggcccacgctgctaccggtgcccgctggg caggacccggtggcgctgcagggccgggtgaaccagctggtgcagacgctcatagtgcag cccgatcgggtcttcccgcccctgacctcgctgcctggccccgtctacgagaagtgcatg gcaccgccttccgccagctgcctgggggacgcccagctggagagcctgggggcggacaat gagccggagctggaagccgagatgcccgcacaggaggatgacctggagggggtcgtggag gctgtggcctgctttgcctacacgggccgcacagcccaggagctgagcttccggcggggg gacgtactgcggctgcacgagagggcctcgagcgactggtggcggggggagcacaacggc atgcggggcctcatcccccacaagtatatcacgctgcccgccgggacggagaagcaggtg gtgggcgcagggctgcagactgcaggggagtctgggagcagtcccgagggcctcctggca tcggagctggtccaccggccagagccatgcacctcacctgaggccatgggaccctctgga cacagacgacgctgcttggtcccagcctccccagagcaacacgtggaggtggataaggct gtggcacagaacatggactctgtgtttaaggagctcttgggaaagacctctgtccgccag ggccttgggccagcatctaccacctctcccagtcctgggccccgaagcccaaaggccccg cccagcagccgcctgggcaggaacaaaggcttctcccggggccctggggccccagcctca ccctcagcttcccacccccagggcctagacacgacccccaagccacactga >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_11|2965_aa MASAVSPANLPAVLLQPRWKRVVGWSGPVPRPRHGHRAVAIKELIVVFGGGNEGIVDELH VYNTATNQWFIPAVRGDIPPGCAAYGFVCDGTRLLVFGGMVEYGKYSNDLYELQASRWEW KRLKAKTPKNGPPPCPRLGHSFSLVGNKCYLFGGLANDSEDPKNNIPRYLNDLYILELRP GSGVVAWDIPITYGVLPPPRESHTAVVYTEKDNKKSKLVIYGGMSGCRLGDLWTLDIGEQ GGSTPAAMGQSGSASWLAPWVALLYDTLTWNKPSLSGVAPLPRSLHSATTIGNKMYVFGG WVPLVMDDVKVATHEKEWKCTNTLACLNLDTMAWETILMDTLEDNIPRARAGHCAVAINT RLYIWSGRDGYRKAWNNQVCCKDLWYLETEKPPPPARVQLVRANTNSLEVSWGAVATADS YLLQLQKYDIPATAATATSPTPNPVPSVPANPPKSPAPAAAAPAVQPLTQVGITLLPQAA PAPPTTTTIQVLPTVPGSSISVPTAARTQGVPAVLKVTGPQATTGTPLVTMRPASQAGKA PVTVTSLPAGVRMVVPTQSAQGTVIGSSPQMSGMAALAAAAAATQKIPPSSAPTVLSVPA GTTIVKTMAVTPGTTTLPATVKVASSPVMVSNPATRMLKTAAAQVGTSVSSATNTSTRPI ITVHKSGTVTVAQQAQVVTTVVGGVTKTITLVKSPISVPGGSALISNLGKVMSVVQTKPV QTSAVTGQASTGPVTQIIQTKGPLPAGTILKLVTSADGKPTTIITTTQASGAGTKPTILG ISSVSPSTTKPGTTTIIKTIPMSAIITQAGATGVTSSPGIKSPITIITTKVMTSGTGAPA KIITAVPKIATGHGQQGVTQVVLKGAPGQPGTILRTVPMGGVRLVTPVTVSAVKPAVTTL VVKGTTGVTTLGTVTGTVSTSLAGAGGHSTSASLATPITTLGTIATLSSQVINPTAITVS AAQTTLTAAGGLTTPTITMQPVSQPTQVTLITAPSGVEAQPVHDLPVSILASPTTEQPTA TVTIADSGQGDVQPGTVTLVCSNPPCETHETGTTNTATTTVVANLGGHPQPTQVQFVCDR QEAAASLVTSTVGQQNGSVVRVCSNPPCETHETGTTNTATTATSNMAGQHGCSNPPCETH ETGTTNTATTAMSSVGANHQRDARRACAAGTPAVIRISVATGALEAAQGSKSQCQTRQTS ATSTTMTVMATGAPCSAGPLLGPSMAREPGGRSPAFVQLAPLSSKVRLSSPSIKDLPAGR HSHAVSTAAMTRSSVGAGEPRMAPVCESLQGGSPSTTVTVTALEALLCPSATVTQVCSNP PCETHETGTTNTATTSNAGSAQRVCSNPPCETHETGTTHTATTATSNGGTGQPEGGQQPP AGRPCETHQTTSTGTTMSVSVGALLPDATSSHRTVESGLEVAAAPSVTPQAGTALLAPFP TQRVCSNPPCETHETGTTHTATTVTSNMSSNQDPPPAASDQGEVESTQGDSVNITSSSAI TTTVSSTLTRAVTTVTQSTPVPGPSVPKISSMTETAPRALTTEVPIPAKITVTIANTETS DMPFSAVDILQPPEELQVSPGPRQQLPPRQLLQSASTALMGESAEVLSASQTPELPAAVD LSSTGEPSSGQESAGSAVVATVVVQPPPPTQSEVDQLSLPQELMAEAQAGTTTLMVTGLT PEELAVTAAAEAAAQAAATEEAQALAIQAVLQAAQQAVMAFLVSSVSLDPGAGTGEPMDT SEAAATVTQAELGHLSAEGQEGQATTIPIVLTQQELAALVQQQQLQEAQAQQQHHHLPTE ALAPADSLNDPAIESNCLNELAGTVPSTVALLPSTATESKRLRANWCWGGGGTQGGLAPS NTFVAPQPVVVASPAKLQAAATLTEVANGIESLGVKPDLPPPPSKAPMKKENQWFDVGVI KGTNVMVTHYFLPPDDAVPSDDDLGTVPDYNQLKKQELQPGTAYKFRVAGINACGRGPFS EISAFKTCLPGFPGAPCAIKISKSPDGAHLTWEPPSVTSGKIIEYSVYLAIQSSQAGGEL KSSTPAQLAFMRVYCGPSPSCLVQSSSLSNAHIDYTTKPAIIFRIAARNEKGYGPATQVR WLQETSKDSSGTKPANKRPMSSPEMDLSGGKAGASQGRRGVKSATRGLLFATQPNFLLLA PALCPFACPQAAGTKEGQLIPHGRSLRIYRDMEKERETLQAWKERVGQELDRVVAFWMEH SHDQEHGGFFTCLGREGRVYDDLKYVWLQGRQVWMYCRLYRTFERFRHAQLLDAAKAGGE FLLRYARVAPPGKKCAFVLTRDGRPVKVQRTIFSECFYTMAMNELWRATGEVRYQTEAVE MMDQIVHWVQEDASGLGRPQLQGAPAAEPMAVPMMLLNLVEQLGEADEELAGKYAELGDW CARRILQHVQRDGQAVLENVSEGGKELPGCLGRQQNPGHTLEAGWFLLRHCIRKGDPELR AHVIDKFLLLPFHSGWDPDHGGLFYFQDADNFCPTQLEWAMKLWWPHSEAMIAFLMGYSD SGDPVLLRLFYQVAEYTFRQFRDPEYGEWFGYLSREGKVALSIKGGPFKGPPRADRLRAL ARPVRWPVPRIGQAAGRTGPAAVHFRPVAGPARTAPSAVAQRAQLRSQPRPSRRRFGARR QLTAPSRSAGTREPRRRYEHPQCEGERPGREAVRAAWAPGRVAAAHAPEGPGRARPGGPE CACGRWTYGAGPARRRGRGAGPGLRFPPVCVMSGLRWPEDLMNMQHCNLLCLPENYQMKY YFYHGLSWPQLSYIAEDENGKIVGYVLAKMEEDPDDVPHGHITSLAVKRSHRRLGLAQKL MDQASRAMIENFNAKYVSLHVRKSNRAALHLYSNTLNFQISEVEPKYYADGEDAYAMKRD LTQMADELRRHLELKEKGRHVVLGAIENKVESKGNSPPSSGEACREEKGLAAEDSGGDSK DLSEVSETTESTDVKDSSEASDSAS >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_11|8898_bp atggcttcggccgtgtcgcccgccaacttgccagcggtgcttctgcagccccgctggaag cgagtggtgggctggtcgggtccggtgccacggccccgccacggccaccgcgccgtggcc atcaaggagctcatcgtggtgtttggcggcggcaacgagggaatagtggacgaactgcac gtgtacaacacggcaaccaaccagtggttcatcccagccgtgaggggggacattccccct gggtgtgcagcctatggcttcgtgtgtgacgggactcgcctcctggtgtttggtgggatg gtggagtatgggaaatacagcaatgacctctacgaactccaggcgagccggtgggagtgg aagagactcaaagcaaagacgcccaaaaacgggccccctccgtgtcctcgactcgggcac agcttctcccttgtgggcaacaaatgctacctgtttgggggtctggccaatgatagcgag gacccaaagaacaacattccaaggtacctgaatgacttatatatcctggaattacggcca ggctctggagtggtagcctgggacattcccatcacttacggggtcctaccaccaccccgg gagtcacatactgccgtggtctacaccgaaaaagacaataagaagtccaagctggtgatc tacggcgggatgagtggctgcaggctgggggacctgtggaccctagatattggtgagcag ggtggtagcaccccagcagccatgggacaaagcgggtctgcctcttggctggccccgtgg gtggcgctgttgtatgacaccctgacgtggaataagcccagtctcagcggggtggcgcct cttcctcgcagtctccactcggcaaccaccatcggaaataaaatgtacgtgtttggtggc tgggtgcctctcgtcatggatgacgtcaaagtggccacacacgagaaggagtggaagtgt accaacacgctggcttgtctcaacctggataccatggcctgggagaccatcctgatggat acactggaggacaacatcccccgtgctcgggctggccactgcgcagtcgccatcaacacc cgcctgtacatttggagtgggcgtgacggctaccgcaaggcctggaacaaccaggtctgc tgcaaggacctctggtacctagagacagaaaagccaccacccccagcccgagtacaactg gtacgcgccaacaccaactccctggaggtgagctggggggcagtggcaacagccgacagc taccttctccagctccagaaatatgacattcctgccacggctgctactgccacctcccct acacccaatccggtcccatctgtgcctgccaaccctcccaagagccctgccccagcagca gccgcacctgctgtgcagccgctgacccaagtaggcatcacgctcctgccccaggctgcc cccgcacccccgaccaccaccaccatccaggtcttgccaacggtgcctggcagctccatt tctgtgcccaccgcagccaggactcaaggtgtccctgctgttctcaaagtgaccggtcct caggctacaacaggaactccattggtcaccatgcgacctgccagccaggctgggaaagcc cctgtcaccgtgacctcccttcccgccggagtgcggatggttgtgccaacacagagtgcc cagggaacggtgattggcagtagcccacagatgagtgggatggccgcactggccgctgcg gccgctgccacccagaagatccccccttcctcggcacccacggtgctgagtgtcccagcg ggtaccaccatcgtgaagaccatggctgtgacacctggcactaccaccctcccagccact gtgaaggtggcctcctcgccagtcatggtgagcaaccctgccactcgcatgctgaagact gcagccgcccaggtggggacatcggtttcctccgccaccaacacgtctacccgccctatc atcacagtgcacaagtcaggcactgtgacagtggcccagcaagcccaggtggtgaccaca gttgtgggcggggtcaccaagaccatcaccctggtgaagagccccatctctgtcccagga ggcagtgctctgatttccaatctgggcaaagtgatgtcggtggtccagaccaaaccagtt cagacttcagcagtcacaggccaggcgtccacgggtcctgtgactcagatcatccagacc aaagggcccctgccagcgggaacaatcctgaagctggtgacctcagcagatggcaagccc accaccatcatcactaccacgcaggccagtggggcggggaccaagcccaccatcctgggc atcagcagcgtctcccccagtaccaccaagcccggcacgaccaccatcatcaaaaccatc cccatgtcggccatcatcacccaggcgggcgccacgggtgtgaccagcagtcctggcatc aagtcccccatcaccatcatcaccaccaaggtgatgacttcaggaactggagcacctgcg aaaatcatcactgctgtccccaaaattgccactggccacgggcagcagggagtgacccag gtggtgcttaagggggccccgggacagccaggcaccatcctccgcactgtgcccatgggg ggtgttcgcctggtcacacccgtcaccgtctccgccgtcaagccagccgtcaccacgttg gttgtgaaaggcaccacaggtgtcacgaccctaggcacagtgacaggcaccgtctccacc agccttgccggggcggggggccacagcactagtgcttccctggccacgcccatcaccacc ttgggcaccattgccaccctctcaagccaggtgatcaaccccactgccatcactgtgtcg gccgcacagaccacgctgacagcggcaggcgggctcacaaccccaaccatcaccatgcag cccgtgtcccagcccacccaggtaactctgatcacggcacctagtggggtggaggcccag cctgtgcatgacctccctgtgtccattctggcctccccgactacagaacagcccaccgcc acagttaccatcgccgactcaggccagggtgatgtgcagcctggcactgtcaccttggtg tgctccaacccaccctgtgagacccacgagactggcaccaccaacacggccaccactact gttgtggctaaccttgggggacacccccagcccacccaagtgcagttcgtctgtgacaga caggaggcagctgcttctcttgtgacctcgactgtgggccagcagaatggtagcgtggtc cgagtctgttcgaacccgccctgcgagacccacgagacgggcaccaccaacaccgccacc accgccacctccaacatggccgggcagcatggctgctcaaacccaccctgcgagacccac gagacgggcaccaccaacactgccactacagccatgtcgagcgtcggcgccaaccaccag cgagatgcccgtcgggcctgtgcagctggcacccctgccgtgatccggatcagtgtggcc actggggcgctggaggcagcccagggctctaagtcccagtgccaaacccgccagaccagc gcgaccagcaccaccatgactgtgatggccaccggggccccgtgctcggccggcccactc cttgggccgagcatggcacgggagcccgggggccgcagccctgcttttgtgcagttggcc cctctgagcagcaaagtcaggctgagcagcccaagcattaaggaccttcctgcggggcgc cacagccatgcggtcagcaccgctgccatgacccgttccagcgtgggtgctggggagccc cgcatggcacctgtgtgcgagagcctccagggtggctcgcccagcaccacagtgactgtg acagccctggaggcactgctgtgcccctcggccaccgtgacccaagtctgctccaaccca ccatgtgagacccacgagacaggcaccaccaacaccgccactacctcgaatgcaggcagc gcccagagggtgtgctccaacccgccatgcgagacccacgagacgggcaccacccacacg gccaccaccgctacttcaaacgggggcacgggccagcccgagggtgggcagcagccccct gctggtcgcccctgtgagacacaccagaccacttccactggcaccaccatgtcggtcagc gtgggtgccctgcttcccgacgccacttcttcccacaggaccgtggagtctggcctagag gtggcggcggcacccagcgtcaccccccaggctggcaccgcgctgctggctcctttccca acacagagggtgtgctccaaccccccctgtgagacccacgagacgggcaccactcacacg gccaccactgtcacttccaacatgagttcaaaccaagaccccccacctgctgccagcgat cagggagaggtggagagcacccagggcgacagcgtgaacatcaccagctccagtgccatc acgacaaccgtgtcctccacactgacgcgggctgtgaccaccgtgacgcagtccacaccg gtcccgggcccctctgtgccgaagatctcatcaatgactgagactgccccaagggctctg actactgaagtccccatcccggccaaaataacagtgaccatagccaacacagaaacttct gacatgcccttctctgctgttgacatcctgcagcccccagaggaactccaggtgtcgcca ggtcctcgccagcagctgccgccacggcagcttctgcagtcggcttccacagccctgatg ggggagtccgccgaggtcctgtcagcctcccagacccctgagctcccggccgccgtggat ctgagcagcacaggggagccatcttcgggccaggagtctgccggctctgcggtggtggcc actgtggtggtccagccacccccacccacacagtccgaagtagaccagttatcacttccc caagagctaatggccgaggcccaagctggcaccaccaccctcatggtaacggggctcacc cccgaggagctggcagtgacggctgctgcagaagcagctgcccaggccgcagccacggag gaagcccaggccctggccatccaggcggtgctccaggccgcgcagcaggccgtcatggcc ttcctagtaagtagtgtttctctcgaccctggagcaggcaccggcgagcccatggacacc tccgaggcagcagcaaccgtgactcaggcggagctggggcacctgtcggccgagggtcag gagggccaggccaccaccatacccattgtgctgacacagcaggagctggctgccctggtg cagcagcagcagctgcaggaggcccaggcccagcagcagcatcaccacctccccactgag gccctggcccctgccgacagtctcaacgacccagccattgagagcaattgcctcaatgag ctggccggcacggtccccagcactgtggcgctgctgccctcaacggccactgagagtaag cgactgagggcgaattggtgctggggtggtgggggcacccagggaggcctggctccatcc aacacatttgtggccccccagccggttgtggtggccagcccagccaagctgcaggctgca gctaccctgaccgaagtggccaatggcatcgagtccctgggtgtgaagccagacctgccg cccccacccagcaaagcccccatgaagaaggaaaaccagtggtttgatgtgggagtcatt aagggcaccaatgtaatggtgacacactatttcctgccaccagatgatgctgtcccatca gacgatgatttgggcaccgtccctgactataaccagctgaagaagcaggagctgcagcca ggcacagcctataagtttcgtgttgccggaatcaatgcctgtggccgggggcccttcagc gaaatctcagcctttaagacgtgcctgcctggtttcccaggggccccttgtgccattaaa atcagcaaaagtccggatggtgctcacctcacctgggagccaccctctgtgacctccggc aagattatcgagtactccgtgtacctggccatccagagctcacaggctgggggcgagctc aagagctccaccccggcccagctggccttcatgcgggtgtactgcgggcccagcccctcc tgcctggtgcagtcctccagcctttccaacgcccacatcgactacaccaccaagcccgcc atcatcttccgcatcgccgcccgcaatgagaagggctatggcccggccacacaagtgagg tggctgcaggaaaccagtaaagacagctctggcaccaagccagccaacaagcggcccatg tcctctccagaaatggatctttctggaggaaaagctggggccagccagggcaggagaggt gtgaaatctgccacgaggggcctgctgtttgccacccagcccaacttcctgttgctggcc cctgccctctgcccttttgcctgtcctcaggccgctggaacaaaggaaggacagctcatt cctcatgggcgatcactccgcatctatagggacatggagaaagagcgagagactctgcag gcctggaaggagcgcgtggggcaggagctggaccgcgtggtggctttctggatggagcac tcccacgaccaggagcacgggggcttcttcacgtgccttggccgcgaggggcgggtgtat gatgacctcaagtatgtgtggctgcaggggaggcaggtatggatgtattgtcgcctgtac cgcactttcgagcgcttccgccatgctcagcttctggacgcagcaaaagcaggtggtgag ttcttgctgcggtatgcccgggtggcacctcctggcaagaagtgtgcctttgtgctgact cgggacggccgcccggtcaaggtgcagcgaaccatcttcagtgagtgtttctacaccatg gccatgaacgagctgtggagagccacaggggaagtgcggtaccagacggaagcggtggag atgatggatcagatcgtccactgggtgcaggaggacgcgtcgggactgggccggccccag ctccagggggccccggctgcggagcccatggcggtgcccatgatgctactgaacctggtg gagcagctcggggaggcagatgaggagctggcgggcaaatacgcagagctgggggactgg tgcgcccggaggattctgcagcacgtgcagagggatggacaagctgtgctggagaatgtg tcagagggtggcaaggaacttcctggctgcctggggagacagcagaacccaggccacacg ctggaagccggctggtttctgctccgtcattgcattcggaaaggcgaccccgaacttcga gcccacgtgattgacaagttcctattgttgcccttccactccggatgggaccctgaccac ggaggcctcttttacttccaggatgctgataacttctgccccacccagctggagtgggcc atgaagctctggtggccacacagtgaagccatgattgccttcctcatgggttacagtgac agtggggaccctgtgctgctgcgcctcttctaccaagtggctgagtacaccttccgccag tttcgcgatcccgagtacggggaatggtttggctacctgagccgagagggcaaggtggcc ctctccatcaagggaggtcctttcaaaggcccgccccgcgctgaccggctccgcgcattg gcccgccccgtgcgctggcctgtcccgcgcattggccaagcggccgggaggacgggcccg gcggccgtgcacttccggccggtggccggcccggcgcgcaccgccccttccgccgtcgcc cagcgagcccagctccggtcccagccccggccgtcccggcgtcgcttcggagcgcggcgg cagctgactgcgccttcacgatccgctgggacccgcgagccccgccgccgttatgaacat ccgcaatgcgagggtgagcgcccggggcgggaggctgtccgcgccgcgtgggcgccgggc cgggtggctgccgcgcatgctcccgagggccccggccgagcccggcccggtggccctgag tgtgcctgcggccgctggacctatggggctggcccagcccgccgaagaggccggggcgcg gggccggggctgcgattccctcctgtttgcgtgatgtcgggcctccgttggccagaggac ctaatgaacatgcagcactgcaacctcctctgcctgcccgagaactaccagatgaaatac tacttctaccatggcctttcctggccccagctctcttacattgctgaggacgagaatggg aagattgtggggtatgtcctggccaaaatggaagaggacccagatgatgtgccccatgga catatcacctcattggctgtgaagcgttcccaccggcgcctcggtctggctcagaaactg atggaccaggcctctcgagccatgatagagaacttcaatgccaaatatgtctccctgcat gtcaggaagagtaaccgggccgccctgcacctctattccaacaccctcaactttcagatc agtgaagtggagcccaaatactatgcagatggggaggacgcctatgccatgaagcgggac ctcactcagatggccgacgagctgaggcggcacctggagctgaaagagaagggcaggcac gtggtgctgggtgccatcgagaacaaggtggagagcaaaggcaattcacctccgagctca ggagaggcctgtcgcgaggagaagggcctggctgccgaggatagtggtggggacagcaag gacctcagcgaggtcagcgagaccacagagagcacagatgtcaaggacagctcagaggcc tccgactcagcctcctag >gi568815575r:153762666_153975836|GENSCAN_predicted_peptide_12|226_aa MAAAASRKCPDETANPSDALGPAPLGTVSRVDKGRTPEELPLTSTGDSGTQVAGVGEQPL QPRLRPGSEHFRALHTQQPQEAARGAPRGSRGRGDSGRRRSRAPAPGGFESRPARRRTGA ARILPFRRFEFPPARRVRRNTRMVIAGLFAPILRPPGRGGGGGGGGIRPATRRPQRGDPS CCPGAAVASRNGQTGPVRACGFCCKRLEVQLNYKIYQIYRRAELLL >gi568815575r:153762666_153975836|GENSCAN_predicted_CDS_12|681_bp atggcggcggcggcatctcggaaatgcccggatgagactgctaacccctccgacgcgctc ggccccgcccccttgggaacggtctctcgggttgataagggacgcacgcccgaagaactg cctttaaccagcactggggacagcggcacgcaggtggccggggttggcgaacagccactg cagccgcgcctgcggccgggaagcgagcattttcgcgccctgcacacccagcagccgcag gaggcggcccgaggcgcgccgcgggggagccgggggcggggcgacagtgggaggcgacgc agccgagcgccggcgcccgggggcttcgagtcccgccctgcgcgcaggcgcaccggcgct gctcggatcctcccttttcggagatttgaatttcccccagcgaggcgagtgaggcgaaat acccgtatggtgatagctggccttttcgcgccaatactgaggccgcccgggcgcggcggc ggcggcggcggcggcggcatccgccctgccacgcgcaggccgcagcgcggggacccaagc tgctgcccgggagcggcagtcgccagtagaaatggacagaccggtcctgtcagagcctgt ggcttttgttgtaaacgtctagaagttcagttaaattacaagatctaccagatctaccgg cgggcagaattattactttga