GENSCAN 1.0 Date run: 3-Nov-116 Time: 10:48:15 Sequence gi568815579r:55130613_55347103 : 216491 bp : 54.34% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.14 PlyA - 2239 2234 6 1.05 1.13 Term - 3315 3271 45 0 0 115 48 104 0.869 6.59 1.12 Intr - 3544 3454 91 0 1 78 78 168 0.951 15.30 1.11 Intr - 6600 6491 110 0 2 104 94 160 0.989 17.78 1.10 Intr - 7462 7349 114 1 0 66 113 232 0.523 24.65 1.09 Intr - 10348 10271 78 1 0 107 64 42 0.876 3.94 1.08 Intr - 10690 10574 117 1 0 90 42 278 0.956 24.57 1.07 Intr - 11308 11245 64 0 1 69 95 70 0.668 5.01 1.06 Intr - 14953 14932 22 2 1 57 100 10 0.540 -3.82 1.05 Intr - 15854 15822 33 0 0 118 91 38 0.979 5.78 1.04 Intr - 16131 16069 63 1 0 94 100 76 0.651 8.58 1.03 Intr - 16409 16396 14 1 2 111 113 11 0.899 0.80 1.02 Intr - 16556 16514 43 0 1 115 64 110 0.927 9.09 1.01 Init - 19512 19344 169 0 1 70 72 39 0.289 0.17 1.00 Prom - 20057 20018 40 -6.50 2.51 PlyA - 21179 21174 6 1.05 2.50 Term - 21305 21222 84 2 0 87 52 158 0.999 10.05 2.49 Intr - 23594 23418 177 2 0 47 113 331 0.995 32.13 2.48 Intr - 24218 24096 123 2 0 111 37 223 0.825 20.79 2.47 Intr - 25720 25589 132 1 0 83 86 173 0.980 17.95 2.46 Intr - 26032 25991 42 1 0 85 100 33 0.896 3.12 2.45 Intr - 26521 26438 84 1 0 58 81 91 0.745 5.91 2.44 Intr - 26696 26684 13 1 1 132 81 12 0.725 0.16 2.43 Intr - 27118 26967 152 1 2 61 92 66 0.508 3.77 2.42 Intr - 28837 28519 319 0 1 89 8 212 0.470 9.81 2.41 Intr - 28995 28921 75 2 0 112 117 21 0.989 6.52 2.40 Intr - 29401 29287 115 2 1 102 94 144 0.773 16.41 2.39 Intr - 29631 29608 24 1 0 122 79 -3 0.616 0.68 2.38 Intr - 30163 30028 136 1 1 61 115 174 0.746 18.05 2.37 Intr - 30575 30453 123 2 0 130 91 321 0.998 37.89 2.36 Intr - 30806 30681 126 2 0 93 45 104 0.961 7.98 2.35 Intr - 31213 31031 183 1 0 72 60 393 0.999 35.40 2.34 Intr - 31678 31521 158 2 2 94 50 212 0.997 18.24 2.33 Intr - 34851 34758 94 0 1 87 66 138 0.999 11.54 2.32 Intr - 35451 35246 206 1 2 24 66 216 0.973 12.44 2.31 Intr - 35805 35717 89 2 2 91 87 148 0.268 15.11 2.30 Intr - 36206 36142 65 2 2 85 36 37 0.051 -3.79 2.29 Intr - 43072 42896 177 1 0 79 44 319 0.168 27.23 2.28 Intr - 44038 43905 134 2 2 94 99 309 0.999 33.47 2.27 Intr - 44387 44270 118 2 1 77 89 233 0.762 22.84 2.26 Intr - 44727 44560 168 0 0 100 83 349 0.999 36.26 2.25 Intr - 45264 45097 168 0 0 79 105 340 0.999 35.46 2.24 Intr - 45512 45393 120 2 0 79 94 144 0.954 15.29 2.23 Intr - 47756 47584 173 0 2 102 70 118 0.951 11.58 2.22 Intr - 48453 48351 103 0 1 -3 99 77 0.006 -0.05 2.21 Intr - 48734 48669 66 2 0 81 30 84 0.004 1.49 2.20 Intr - 51291 51148 144 0 0 98 10 319 0.015 26.09 2.19 Intr - 51539 51404 136 1 1 101 78 176 0.960 18.98 2.18 Intr - 55050 54890 161 0 2 98 75 54 0.997 4.40 2.17 Intr - 55372 55250 123 1 0 120 96 151 0.998 20.39 2.16 Intr - 55747 55613 135 1 0 97 80 120 0.976 13.37 2.15 Intr - 55928 55852 77 0 2 85 77 130 0.999 11.33 2.14 Intr - 56991 56901 91 0 1 63 76 162 0.999 12.57 2.13 Intr - 57556 57466 91 0 1 44 75 127 0.931 7.50 2.12 Intr - 60936 60889 48 2 0 116 71 67 0.958 6.08 2.11 Intr - 61129 61051 79 2 1 104 78 145 0.985 14.20 2.10 Intr - 66176 65910 267 0 0 98 99 190 0.973 19.14 2.09 Intr - 66804 66505 300 1 0 64 47 197 0.836 10.45 2.08 Intr - 68300 68031 270 0 0 54 85 167 0.559 11.05 2.07 Intr - 69890 69624 267 0 0 46 91 199 0.953 14.04 2.06 Intr - 71710 71444 267 2 0 95 94 217 0.985 21.04 2.05 Intr - 73436 73170 267 0 0 64 110 248 0.994 22.64 2.04 Intr - 74980 74714 267 2 0 95 94 222 0.989 21.54 2.03 Intr - 76343 76077 267 0 0 58 110 242 0.698 21.44 2.02 Intr - 76587 76554 34 0 1 106 105 -23 0.991 -0.52 2.01 Init - 78821 78771 51 2 0 91 119 109 0.995 13.43 2.00 Prom - 79843 79804 40 -7.59 3.44 PlyA - 80988 80983 6 1.05 3.43 Term - 81927 81808 120 0 0 86 51 57 0.504 0.58 3.42 Intr - 86092 85931 162 1 0 80 47 138 0.668 9.59 3.41 Intr - 86418 86310 109 2 1 72 57 77 0.503 3.79 3.40 Intr - 93121 92953 169 2 1 51 64 213 0.638 14.72 3.39 Intr - 93691 93383 309 2 0 70 110 243 0.819 21.53 3.38 Intr - 93806 93729 78 0 0 94 92 28 0.641 3.82 3.37 Intr - 93976 93857 120 2 0 67 44 57 0.351 0.17 3.36 Intr - 96449 96358 92 1 2 63 -20 143 0.508 1.14 3.35 Intr - 96951 96606 346 1 1 98 -7 482 0.860 34.71 3.34 Intr - 97825 97579 247 1 1 46 105 188 0.960 13.87 3.33 Intr - 98235 98079 157 2 1 24 94 75 0.267 2.23 3.32 Intr - 100072 100001 72 0 0 99 81 7 0.407 0.12 3.31 Intr - 100879 100798 82 2 1 80 99 127 0.982 12.19 3.30 Intr - 101056 100986 71 0 2 94 99 43 0.998 5.32 3.29 Intr - 101370 101190 181 1 1 81 94 135 0.998 12.84 3.28 Intr - 101599 101463 137 0 2 34 68 204 0.999 13.72 3.27 Intr - 106209 106031 179 0 2 97 117 269 0.998 29.93 3.26 Intr - 106358 106301 58 1 1 107 92 146 0.922 16.28 3.25 Intr - 108890 108793 98 2 2 96 81 211 0.959 20.51 3.24 Intr - 109071 108982 90 0 0 142 80 125 0.974 17.79 3.23 Intr - 109302 109214 89 1 2 62 81 150 0.718 11.89 3.22 Intr - 109502 109387 116 1 2 71 72 195 0.992 16.79 3.21 Intr - 109688 109624 65 2 2 105 53 115 0.999 7.71 3.20 Intr - 110467 110333 135 1 0 113 58 81 0.985 8.87 3.19 Intr - 110779 110627 153 1 0 69 54 255 0.997 20.98 3.18 Intr - 111027 110865 163 2 1 98 77 212 0.985 21.59 3.17 Intr - 111667 111554 114 0 0 163 78 146 0.997 21.17 3.16 Intr - 111876 111764 113 0 2 103 31 154 0.938 10.88 3.15 Intr - 114573 114508 66 0 0 74 82 192 0.986 16.79 3.14 Intr - 114790 114653 138 1 0 70 56 267 0.877 22.87 3.13 Intr - 115066 114880 187 0 1 98 49 379 0.947 35.21 3.12 Intr - 116497 116265 233 1 2 100 89 534 0.089 51.80 3.11 Intr - 121517 121482 36 2 0 100 69 21 0.000 0.34 3.10 Intr - 125875 125776 100 0 1 45 105 74 0.026 5.41 3.09 Intr - 128019 127823 197 0 2 79 99 171 0.131 16.03 3.08 Intr - 128721 128542 180 0 0 -28 -22 222 0.011 0.18 3.07 Intr - 134777 134666 112 1 1 67 88 197 0.944 18.48 3.06 Intr - 135370 135274 97 2 1 105 80 135 0.928 13.97 3.05 Intr - 135883 135519 365 0 2 -21 70 476 0.403 30.29 3.04 Intr - 138906 138783 124 1 1 29 86 76 0.143 1.65 3.03 Intr - 144010 143786 225 2 0 89 76 430 0.053 40.38 3.02 Intr - 147234 147030 205 0 1 75 80 347 0.992 31.90 3.01 Init - 149134 148787 348 1 0 92 88 237 0.901 21.30 3.00 Prom - 150609 150570 40 -6.40 4.00 Prom + 151177 151216 40 -6.10 4.01 Init + 153831 153966 136 2 1 101 99 79 0.646 8.77 4.02 Intr + 156395 156489 95 0 2 99 93 190 0.980 20.78 4.03 Intr + 156602 156687 86 1 2 98 28 226 0.998 16.72 4.04 Intr + 157337 157441 105 2 0 42 64 111 0.917 3.93 4.05 Intr + 158868 159008 141 0 0 115 105 224 0.993 26.78 4.06 Intr + 163405 163521 117 1 0 18 100 226 0.301 16.88 4.07 Intr + 163602 163635 34 0 1 65 113 -1 0.629 -1.19 4.08 Intr + 163717 163785 69 0 0 73 79 86 0.744 6.07 4.09 Intr + 170900 171046 147 1 0 62 65 219 0.980 17.94 4.10 Intr + 171525 171556 32 2 2 84 76 7 0.840 -3.49 4.11 Intr + 172085 172255 171 2 0 80 46 215 0.988 16.07 4.12 Intr + 172699 172796 98 1 2 78 77 87 0.988 6.75 4.13 Intr + 173055 173214 160 1 1 62 59 184 0.989 12.46 4.14 Intr + 173438 173498 61 2 1 34 86 40 0.815 -2.37 4.15 Intr + 173939 174308 370 1 1 96 51 218 0.849 14.14 4.16 Intr + 174709 174757 49 2 1 99 64 28 0.992 -0.27 4.17 Intr + 174851 174974 124 2 1 97 85 195 0.999 21.19 4.18 Intr + 175640 175838 199 1 1 92 100 205 0.724 21.55 4.19 Intr + 178027 178116 90 2 0 110 94 89 0.994 12.16 4.20 Term + 181299 181456 158 1 2 112 46 171 0.881 13.71 4.21 PlyA + 181526 181531 6 -3.24 5.08 PlyA - 181666 181661 6 1.05 5.07 Term - 182469 182247 223 2 1 33 43 192 0.584 5.92 5.06 Intr - 186052 186003 50 1 2 78 47 98 0.647 2.67 5.05 Intr - 186354 186154 201 0 0 126 37 155 0.998 14.20 5.04 Intr - 189554 189427 128 0 2 95 94 91 0.958 11.30 5.03 Intr - 189900 189779 122 2 2 21 34 102 0.658 -1.26 5.02 Intr - 190005 189946 60 2 0 75 91 73 0.916 4.64 5.01 Init - 190424 190357 68 2 2 71 67 96 0.869 4.68 5.00 Prom - 202745 202706 40 -4.91 6.00 Prom + 202752 202791 40 -2.91 6.01 Init + 209247 209345 99 2 0 40 76 93 0.214 3.61 6.02 Intr + 211301 211434 134 1 2 87 94 223 0.801 22.75 6.03 Intr + 211603 211768 166 1 1 68 66 215 0.968 17.78 6.04 Intr + 212130 212239 110 2 2 110 91 188 0.999 20.88 6.05 Intr + 213068 213231 164 2 2 69 77 252 0.923 22.33 6.06 Intr + 215614 215737 124 2 1 53 59 256 0.865 19.35 6.07 Intr + 215888 216075 188 2 2 88 89 254 0.998 25.35 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 43072 42872 201 1 0 79 41 340 0.826 26.11 S.002 Init - 48429 48351 79 0 1 90 99 73 0.991 9.78 S.003 Term - 51291 51142 150 0 0 98 42 328 0.981 27.42 S.004 Init - 87429 87323 107 0 2 66 56 77 0.910 1.95 S.005 Init - 116677 116265 413 1 2 69 89 641 0.876 56.31 S.006 Intr + 123860 124099 240 0 0 89 37 194 0.910 12.45 S.007 Term + 128555 128943 389 0 2 80 48 127 0.813 3.37 S.008 Term - 132070 131996 75 1 0 86 47 94 0.973 3.24 S.009 Init - 143990 143786 205 2 1 54 76 556 0.833 47.99 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:55130613_55347103|GENSCAN_predicted_peptide_1|320_aa MQRQNHPETHAEKHTEGLRKRQMQREPKTDPARGPEKCTETQRPRPPETEVRRGGEGRTR MSDTEEQEYEEEQPEAPNAFSSVPPSPEEAAEEEEEAPEEPEPVAEPEEERPKPSRPVVP PLIPPKIPEGERVDFDDIHRKRMEKDLLELQTLIDVHFEQRKKEEEELVALKERIERRRS ERAEQQRFRTEKERERQAKLAEEKMRKEEEEAKKRAEDDAKKKKVLSNMGAHFGGYLVKA EQKRGKRQTGREMKVRILSERKKPLDIDYMGEEQLREKAQELSDWIHQLESEKFDLMAKL KQQKYEINVLYNRISHAQKL >gi568815579r:55130613_55347103|GENSCAN_predicted_CDS_1|963_bp atgcagagacaaaaccacccggagacacatgccgagaaacacactgaggggctcagaaag cgacagatgcagagagagcccaagacagacccagcaaggggccccgagaaatgcacagaa acacaaagaccgagaccaccagagacagaggtacggagaggcggggagggccgcaccagg atgtcggacaccgaggagcaggaatatgaggaggagcagccggaagctcctaacgccttc tcttctgtgcccccatctccagaggaggctgcggaggaggaggaggaagcccccgaagag ccggagccggtggcagagccagaagaggaacgccccaaaccaagccgccccgtggtgcct cctttgatcccgccaaagatcccagaaggggagcgcgttgacttcgatgacatccaccgc aagcgcatggagaaagacctgctggagctgcagacactcatcgatgtacatttcgagcag cggaagaaggaggaagaggagctggttgccttgaaggagcgcattgagcggcgccggtca gagagagccgagcaacagcgcttcagaactgagaaggaacgcgaacgtcaggctaagctg gcggaggagaagatgaggaaggaagaggaagaggccaagaagcgggcagaggatgatgcc aagaaaaagaaggtgctgtccaacatgggggcccattttggcggctacctggtcaaggca gaacagaagcgtggtaagcggcagacggggcgggagatgaaggtgcgcatcctctccgag cgtaagaagcctctggacattgactacatgggggaggaacagctccgggagaaagcccag gagctgtcggactggatccaccagctggagtctgagaagttcgacctgatggcgaagctg aaacagcagaaatatgagatcaacgtgctgtacaaccgcatcagccacgcccagaagttg tga >gi568815579r:55130613_55347103|GENSCAN_predicted_peptide_2|2362_aa MAGAGGGLGVWGNLVLLGLCSWTGARAPAPNPGRNLTVETQTTSSISLSWEVPDGLDSQN SNYWVQCTGDGGTTETRNTTATNVTVDGLGPGSLYTCSVWVEKDGVNSSVGTVTTATAPN PVRNLRVEAQTNSSIALTWEVPDGPDPQNSTYGVEYTGDGGRAGTRSTAHTNITVDGLEP GCLYAFSMWVGKNGINSSRETRNATTAHNPVRNLRVEAQTTSSISLSWEVPDGTDPQNST YCVQCTGDGGRTETRNTTDTRVTVDGLGPGSLYTCSVWVEKDGVNSSVEIVTSATAPNPV RNLTVEAQTNSSIALTWEVPDGPDPQNSTYGVEYTGDGGRAGTRSTAHTNITVDRLEPGC LYVFSVWVGKNGINSSRETRNATTAPNPVRNLHMETQTNSSIALCWEVPDGPYPQDYTYW VEYTGDGGGTETRNTTNTSVTAERLEPGTLYTFSVWAEKNGARGSRQNVSISTVPNAVTS LSKQDWTNSTIALRWTAPQGPGQSSYSYWVSWVREGMTDPRTQSTSGTDITLKELEAGSL YHLTVWAERNEVRGYNSTLTAATAPNEVTDLQNETQTKNSVMLWWKAPGDPHSQLYVYWV QWASKGHPRRGQDPQANWVNQTSRTNETWYKVEALEPGTLYNFTVWAERNDVASSTQSLC ASTYPDTVTITSCVSTSAGYGVNLIWSCPQGGYEAFELEVGGQRGSQDRSSCGEAVSVLG LGPARSYPATITTIWDGMKVVSHSVVCHTESAGVIAGAFVGILLFLILVGLLIFFLKRRN KKKQQKPELRDLVFSSPGDIPAEDFADHVRKNERDSNCGFADEYQQLSLVGHSQSQMVAS ASENNAKNRYRNVLPYDWSRVPLKPIHEEPGSDYINASFMPGLWSPQEFIATQGPLPQTV GDFWRLVWEQQSHTLVMLTNCMEAGRVKCEHYWPLDSQPCTHGHLRVTLVGEEVMENWTV RELLLLQVEEQKTLSVRQFHYQAWPDHGVPSSPDTLLAFWRMLRQWLDQTMEGGPPIVHC SAGVGRTGTLIALDVLLRQLQSEGLLGPFSFVRKMRESRPLMVQTEAQYVFLHQCILRFL QQSAQAPAEKEVPYEDVENLIYENVAAIQAHKLETLRRGEDEAEVSGMPVGPWRKRKRLQ DPATMFPEPPTPGPPSPDTPPDSSRISHGPVPPWALATIVLVSGLLIFSCCFCLYRKSCR RRTGKKSQAQAQVHLQEVKGLGQSYIDKVQPEVEELEPAPSGPGQQVADKHELGRLQYSL DYDFQSGQLLVGILQAMGLAALDLGGSSDPYVRVYLLPDKRRRYETKVHRQTLNPHFGET FAFKVPYVELGGRVLVMAVYDFDRFSRNDAIGEVRVPMSSVDLGRPVQAWRELQAAPREE QEKLGDICFSLRYVPTAGKLTVIVLEAKNLKKMDVGGLSDPYVKVHLLQGGKKVRKKKTT IKKNTLNPYYNEAFSFEVPCDQVQKVQVELTVLDYDKLGKNEAIGRVAVGAAAGGAGLRH WADMLANPRRPIAQWHSLRPPDRHRPFPRRRRRHDNRVHTPSSPRVMTTPAGSGSGFGSV SWWGLSPALDLQAERDATVDALPTTMVPQPAVILPGPPVDPDSQADTVHSNPELDVLLLG SVDGRHLLRTLSRAKFWPRRRFNFFVLENNLEAVARHMLIFSLALEEPEKMGLQERSETF LEVWGNALLRPPVAAFVRAQADLLAHLVPEPDRLEEQLPWLSLRALKFRERDALEAVFRF WAGGEKGPQAFPMSRLWDSRLRHYLGSRYDARRGVSDWDLRMKLHDRGAQVIHPQEFRRW RDTGVAFELRDSSAYHVPNRTLASGRLLSYRGERVAARGYWGDIATGPFVAFGIEADDES LLRTSNGQPVKTAGEITQHNVTELLRDVAAWGRARATGGDLEEQQHAEGSPEPGTPESQL PDLYTAPTPESFTVHFLPLNSAQTLHHKSCYNGRFQLLYVACGMVHLLIPELGACVAPGG NLIVELARYLVDVRQEQLQGFNTRVRELAQAAGFAPQTGARPSETFARFCKSQESALGNT VPAVEPGTPPLDILAQPLEASNPALEGLTQPLQGGTPHCEPCQLPSESPGSLSECPRGVS SSPEETDGPWDPEGHPGGPLTDPPNAPVLALPPAIPGLSLSMADGSSDAAREPRPAPAPI RRRSSNYRAYATEPHAKKKSKISASRKLQLKTLLLQIAKQELEREAEERRGEKGRALSTR CQPLELAGLGFAELQDLCRQLHARVDKVDEERYDIEAKVTKNITEVGRMGSSGTFGIADL TQKIFDLRGKFKRPTLRRVRISADAMMQALLGARAKESLDLRAHLKQVKKEDTEKENREV GDWRKNIDALSGMEGRKKKFES >gi568815579r:55130613_55347103|GENSCAN_predicted_CDS_2|7089_bp atggctggggctggcgggggcctcggggtctgggggaacctggtgctgctgggcctgtgc agctggacaggggccagggcgcctgcccccaacccagggaggaacctgacagtggagact cagaccaccagctccatctccctgagctgggaggtccccgatggcctagactcacagaac tccaactactgggttcagtgtactggagacggcggcacaacagagactcgaaacacaaca gccaccaacgtcaccgtggatggccttggacccgggtcattgtatacgtgttctgtgtgg gtggagaaagacggagtaaatagctctgtggggactgtcactactgccacagctcccaac ccagtgaggaacctgagagtggaggctcagaccaacagctccatcgccctgacctgggag gtccccgacggcccagacccacagaactccacctacggggttgagtacactggagatggt ggcagagcagggactcgaagcacagcacacactaacatcaccgtggatggacttgaaccc gggtgtttgtatgcgttttccatgtgggtgggaaagaatggaatcaacagctcccgggag actcgaaatgccaccacagctcacaacccagtgaggaacctgagagtggaggctcagacc accagctccatctccctgagctgggaggtccccgatggcacagacccacagaactcgacc tactgcgttcagtgcactggagatggtggcagaacagagactcgaaacacaacagacacc agagtcaccgtggatggccttggacccgggtcattgtatacgtgttctgtgtgggtggag aaagacggagtaaatagctctgtggagattgtcactagtgccacagctcccaacccagtg agaaacctgacagtggaggctcagaccaacagctccatcgccctgacctgggaggtcccc gatggcccagacccacagaactccacctacggggttgagtacactggagatggtggcaga gcagggactcgaagcacagcacacaccaacatcaccgtggatagacttgaacccgggtgt ttgtatgtgttttccgtgtgggtggggaagaatggaatcaacagctcccgggagactcga aatgccaccacagcccccaacccagtgagaaacctccatatggagactcagaccaacagc tccatcgccctatgctgggaagtccccgatggcccataccctcaggactacacctactgg gtagagtacactggagacggtggtggcacagagacccgaaacacaacaaataccagtgtg acagctgagagacttgagcccggaaccttgtacacattctctgtatgggcagaaaaaaat ggagcacgtggctccaggcagaatgtcagcatctccacagtccccaacgcagtgacaagc ctcagcaagcaggactggaccaacagcaccattgctttgcgctggacagctccccagggc ccaggccagtcttcctacagctactgggtctcatgggtcagggaaggcatgactgacccc aggacccaaagcacctcaggtactgacatcaccctaaaggaactggaagctggcagcctg taccacctcaccgtctgggccgagaggaatgaggtcagaggctataacagcaccctcact gcagccactgctcccaatgaggtcacagatctccagaatgaaactcagactaagaactca gtcatgctgtggtggaaggcccctggagacccccactctcagttgtacgtatactgggtc cagtgggccagcaagggacatccccggagggggcaagatccccaagcgaattgggtcaac cagaccagcaggaccaatgagacgtggtacaaagtggaggccctggaacccgggacgttg tacaatttcaccgtgtgggcagagaggaatgacgtagccagttccacgcagagcctctgt gcgtccacatacccagacacagtcaccatcacttcctgtgtcagcacctcagcgggctat ggagtcaacttgatctggtcctgcccccagggaggctacgaggcctttgagttggaggtg ggaggacagcggggctcccaggacagatcttcatgtggggaggctgtgtctgtgttgggt ctcgggccggctcggtcctacccagccaccatcacgaccatctgggacggaatgaaggtc gtgtctcactctgtggtctgccacaccgagagtgcaggggtcattgccggagcctttgtg ggcatcctcctgtttctcatcctcgtgggcctgctgattttcttcctgaagaggaggaat aagaagaagcagcagaaaccagaactcagggatctggtctttagctccccaggggacatc ccagctgaagacttcgctgaccacgtcaggaagaatgagagggacagcaactgtggtttt gcagacgagtaccagcaactctccctggtgggccacagccagtctcagatggtggcttcg gcttcagagaacaacgccaagaaccgctacagaaatgtgctgccctatgactggtcccgg gtgcccctgaagcccatccatgaggagccaggctctgactacatcaatgccagcttcatg cccggtctctggagcccccaggagttcattgcaacccagggtcccctgccacagacagtg ggtgacttctggcgcctggtgtgggaacagcagagccacaccctggtcatgctgaccaac tgcatggaggccggccgggtgaagtgtgagcattactggcctctggactcgcagccctgc acccatgggcacctgcgggtaaccctggtaggtgaggaagtgatggagaactggacggtg cgggaactgctgctcctccaggtggaggagcagaagacactgtctgtgcgccaattccac taccaggcctggccggatcacggcgttccctcctccccagacaccttgctggctttctgg aggatgcttcggcagtggctggatcagaccatggagggaggcccacccattgtgcactgc agtgctggcgtgggtcgcacaggaaccctcattgccctggacgtcctgctccggcagctg cagtccgagggtctccttgggcccttcagctttgtaaggaagatgagagagagtcggccg ttgatggtgcagactgaggctcagtacgtattcctgcatcagtgcatcctgcggttcctc caacagtcagcccaggccccagccgagaaggaagtcccgtatgaggatgtcgaaaacctc atctacgagaacgtggccgccatccaggcccacaagttggagaccctgcggaggggcgag gacgaggcagaagtcagcgggatgcctgtggggccgtggaggaagaggaaaagactccag gaccccgccaccatgttcccggagcccccaaccccggggcctccatcgcccgacacgcct cccgactccagtcgcatcagccacggcccagtgcccccctgggccctggccaccatcgtg ctggtctcaggcctcctcatcttcagctgctgtttctgtctctaccggaagagctgtcgg aggcggacaggcaagaagagccaggcccaagcccaggtccaccttcaggaagtgaagggg ctgggccagagttacatagacaaggtgcagccagaagtagaggagctggagccagcacca tccgggccagggcagcaggtggcagacaagcatgagctaggacgactgcagtactccctg gattatgacttccagagtggccagctgctggtgggcattctgcaagcaatgggattggca gccttggatcttggtggctcctcggacccctatgtgcgggtctacctgctgccggacaaa cggaggcggtacgagaccaaggtgcatcggcagacgctgaaccctcactttggggagacc ttcgccttcaaggtcccctacgtggagctggggggcagggtgctggtcatggcggtgtac gacttcgaccgcttctctcgcaatgacgccatcggggaggtgcgggtccctatgagctcc gtggacctggggcggccagtgcaggcctggcgggagctgcaggcggctccgcgggaggag caggagaagcttggggacatctgcttctccctccgctatgtccccacggccgggaagctc accgtcatcgtcctggaggctaaaaacctgaagaagatggacgtaggaggactgtcagat ccatacgtcaaggtccacctgctgcagggcggcaaaaaggtgcggaagaagaaaaccacc atcaagaagaacactctgaacccctattacaacgaagctttcagcttcgaggtgccctgt gaccaagtccagaaggtgcaggtggagctgaccgtgctggactacgacaagctgggcaag aacgaggccatcgggagggtggccgtgggggcggccgccggcggggctggcctgcggcac tgggcggacatgctggccaacccgcggcggcccattgcccagtggcactcgctgcggccc ccggaccgacaccgccccttcccccgccggcgccgtcgtcatgacaaccgcgtccacacg ccctcttctcctagggtgatgaccacacctgccggctccggcagcggcttcggctccgtg tcctggtggggcctgtccccggcgctggacctgcaggctgaaagggatgctacggtggac gctctgccaaccaccatggtgccccagccagctgtcatcttgccaggtcctcctgtggac ccagactcccaggccgatacagtgcacagcaaccccgagctagatgtgctgcttctgggc tctgtggatggacggcacctgctgcggaccctgtcccgagcgaagttctggcctcgcagg aggttcaacttctttgtgctggagaataatctggaagctgtggcccgacacatgctgatc ttcagcctagccctggaggaaccggagaagatggggctgcaagagcgaagcgagaccttc ctggaagtgtgggggaacgcgctgctgcgcccgccagtggccgccttcgtgcgtgcccag gccgacctgctggcgcacctggtccccgagcccgaccgcctggaggaacagctgccctgg ctcagcctccgcgccctcaagttccgcgagcgggatgccctggaggccgtattccgcttc tgggctggcggcgagaaagggccccaggcgttccccatgagccgcctctgggactcgcgc ctgcgccactacctgggctcccgctacgacgcccggcgcggtgtcagcgactgggacctg cgcatgaagctgcatgaccgcggggctcaagtcattcacccccaggagttccgacgctgg cgggacacaggcgtcgcctttgaactcagggactccagcgcctatcatgtgcccaaccgg accctggcgtccggtcgcctcctgagctaccgtggggagcgcgtggcagcgcgcgggtac tggggggacatcgccacggggcccttcgtggccttcggcatcgaagcggacgacgagagc ctcctgcggacgagcaacggccagccagtcaagacggccggggagatcactcaacacaac gtgacggagctgctccgcgacgtggccgcctgggggcgcgcgagagccaccgggggggac ctggaggagcagcagcacgcggagggaagcccggagccagggactccagagtctcagttg cctgatctgtacacagccccgaccccggaatctttcaccgtccacttcctgccgctcaat tctgctcagactctccaccacaagagctgctacaacggccgattccagctcctctatgtg gcctgtggtatggtccatcttctcatccctgagcttggggcctgtgtggcacccggaggg aacttgattgtggaattagcccggtacctggtggacgtgcggcaggagcagctgcaggga ttcaacacccgggtcagggagctagctcaggcagctggatttgctccacagaccggggcc aggccttcagagaccttcgcacgtttctgcaagtcccaggaatcagctctgggcaacact gtcccagctgtggaacccggaactccgccccttgacatcctggcccagcctcttgaagcc agcaacccagcccttgagggcctgacccagcctctgcagggtgggaccccacactgtgag ccctgccagctgccctctgagtctccaggttcactctcagagtgtcctcggggagtctca agcagcccggaggagactgacggtccctgggaccctgaaggtcacccgggcggccccctc actgaccctccaaacgcccctgtcctcgccctgcctcctgccattcccggcctgagtctc agcatggcggatgggagcagcgatgcggctagggaacctcgccctgcaccagccccaatc agacgccgctcctccaactaccgcgcttatgccacggagccgcacgccaagaaaaaatct aagatctccgcctcgagaaaattgcagctgaagactctgctgctgcagattgcaaagcaa gagctggagcgagaggcggaggagcggcgcggagagaaggggcgcgctctgagcacccgc tgccagccgctggagttggccgggctgggcttcgcggagctgcaggacttgtgccgacag ctccacgcccgtgtggacaaggtggatgaagagagatacgacatagaggcaaaagtcacc aagaacatcacggaggtgggacgcatgggcagctcgggtaccttcgggattgcagatctg actcagaagatctttgaccttcgaggcaagtttaagcggcccaccctgcggagagtgagg atctctgcagatgccatgatgcaggcgctgctgggggcccgggctaaggagtccctggac ctgcgggcccacctcaagcaggtgaagaaggaggacaccgagaaggaaaaccgggaggtg ggagactggcgcaagaacatcgatgcactgagtggaatggagggccgcaagaaaaagttt gagagctga >gi568815579r:55130613_55347103|GENSCAN_predicted_peptide_3|2145_aa MGGRRAPLKRRLLSRPSRIDPSGRQSCFSGDHLLPLTHSSLLHKRPMSDEGSRGSRLPLA LPPASQGCSSGGGGGGSSAGGSGNSRPPRNLQGLLQMAITAGSEEPDPPPEPMSEERRQW LQEAMSAAFRGQREEVEQMKSCLRVLSQPMPPTAGEAEQAADQQEREGALELLADLCENM DNAADFCQLSGMHLLVGRYLEAGAAGLRWRAAQLIGTCSQNVAAIQEQVLGLGALRKLLR LLDRDACDTVRVKALFAISWRCVGCSDDFGFLSKNDGSHTVIPAPNCCTEKRVNAARVGG SDGGGGEDGGDGDGGEDENGDDDDCDGGEDSGDGGDDDVGDGGCDDVGDGACDDSGGGGD CKLRTFPPLPGLVREQEAGLLQFLRLDGFSVLMRAMQQQVQKLKVKSAFLLQNLLVGHPE HKGTLCSMGMVQQLVALVRTEHSPFHEHVLGALCSLVTDFPQGVRECREPELGLEELLRH RCQLLQQHEEYQRRQNSERISKRSEWEGKSWSGIFTGPWNGAGAQLRLTELSGFIPGQTV GTNGRKRVCGGGDPAREDPTTRGRLRGPREPRRLRESPTPPPPPLTGPRSRGRSRRRRGG GGRPDEPRVRGAAAPPRSGSQLGAIVSPGGRLAISGDVFGCYNWGECCQYLELRPIPASS WKPGAMFWKFDLHTSSHLDTLLEREDLSLPELLDEEDVLQECKVVNRKLLDFLLQPPHLQ AMVAWVTQEPPDSGEERLRYKYPSVACEILTSDVPQINDALGADESLLNRLYGFLQSTGS LNPLLASFFSKVMGILINRKTDQLVSFLRKKDDFVDLLLQHIGTSAIMDLLLRLLTCVER PQLRQDVVNWLNEEKIVQRLIEQIHPSKDENQHSNASQSLCDIIRLSREQMIQVQDSPEP DQLLATLEKQETIEQLLSNMFEGEQSQSVIVSGIQVLLTLLEPRRPRSESVTVNSFFSSV DGQLELLAQGALESTVSSVGALHALRPRLSCFHQLLLEPPKLEPLQMTWGMLAPPLGNTR LHVVKLLASALSANDAALTHELLALDVPNTMLDLFFHYVFNNFLHAQVEGCVSTMLSLGP PPDSSPETPIQNPVVKHLLQQCRLVERILTSWEENDRVQCAGGPRKGYMGHLTRVAGALV QNTEKGPNAEQLRQLLKAELPSEQQEQWEAFVSGPLAETNKKNMVDLVNTHHLHSSSDDE DDRLKEFNFPEEAVLQQAFMDFQMQRMTSAFIDHFGFNDEEFGEQEESVNAPFDKTANIT FSLNADDENPNANLLEICYKDRIQQFDDDEEEEDEEEAQGSGESDGEDGAWQGSQLARGA RLGQPPGVRSGGSTDSEDEEEEDEEEEEDEEGIGCAARGGATPLSYPSPGPQPPGPSWTA TFDPVPTDAPTSPRVSGEEELHTGPPAPQGPLSVPQGLPTQSLASPPARDALQLRSQDPT PPSAPQEATEGSKVTEPSAPCQALVSIGDLQATFHGIRSAPSSSDSAQALTPPPIPNGSA PEGPASPGSQVHRTLLGLTCNHEPSPPPPEATRSQIRSLWGYQASMDAGKAGQTLKTHCS AQRPDVCRWLSPFILSCCVYFCLWIPEDQLSWFAALVKCLPVLCLAGFLWVMSPSGGYTQ LLQGALVCSAVGDACLIWPAAFVPGMAAFATAHLLYVWAFGFSPLQPGLLLLIILAPGPY LSLVLQHLEPDMVLPVAAYGLILMAMLWRGLAQGGSAGWGALLFTLSDGVLAWDTFAQPL PHAHLVIMTTYYAAQLLITLRRCRRRFWLKTFEDDLRNSKSTTGFQLPSPAGLSEVLRTS LSGSFQPCRDPDLGQGAKRRLHLPSQAGVAGQTTVGLIPHLGPPQALGTTTEATAAGRAV GFRLLFAAEASTHVSRQSRQNRECGGSDLQLHHPELGSPKGPDRQTSIYWVQGHGQREHK HVTLLARGGGLQPGTLYTTSVWAKKKGVGGPRDVLSMSTGPDSKTCPYWLCWASDSSDIR VPVEGLAAGTQYPSMWAQKHEVNSPSQTLTEATGEGLSLQPPTQTPSEHYVPHAGLRGGE WEAMGVNVGSLECEHGSRRTPALLQVDESGPCHFLDLSILAARKARKSENKGWIQRKHGN TGHSHSVRGIEKNSGDEGRANGTLISGSVEISVLKGKRGARPSLS >gi568815579r:55130613_55347103|GENSCAN_predicted_CDS_3|6438_bp atggggggtcgccgagctcccctgaaacgccgccttctcagcagaccctcaagaatcgac ccatcaggacgccagagctgcttcagcggtgaccaccttctccctctaacacattcttcc cttcttcacaaacggcccatgtcagacgaaggctcaagggggagccgcctgcccctggcg ctgcccccggcctcccagggttgctcttcagggggcggcggcggcggctcctcggctggg ggctcgggcaattcccggcccccacgcaacctccaaggcttgctgcagatggccatcacc gcgggctctgaagagccagaccctcctccagaaccgatgagtgaggagaggcgtcagtgg ctgcaggaggccatgtcggctgccttccgaggccagcgggaggaggtggagcagatgaag agctgcctccgagtgctgtcacagcccatgccccccactgctggggaggccgagcaggcg gccgaccagcaagagcgagagggggccctggagctgctggccgacctgtgtgagaacatg gacaatgccgcagacttctgccagctgtctggcatgcacctgctggtgggccggtacctg gaggcgggggctgcgggactgcggtggcgggcggcacagctcatcggcacgtgcagtcag aacgtggcagccatccaggagcaggtgctgggcctgggtgccctgcgtaagctgctgcgg ctgctggaccgcgacgcctgcgacacggtgcgcgtcaaggccctcttcgccatctcctgg agatgtgtgggctgcagtgatgactttggctttctttccaaaaatgacggcagccatact gtgatccctgcccccaactgctgcacagagaagagggtgaatgcggcgagggtgggtgga agtgatggtggtggtggtgaggatggtggtgatggtgatggtggtgaggatgagaatggt gatgatgatgattgtgatggtggtgaagatagtggtgatggtggtgatgatgatgttggt gatggtggttgtgatgatgttggtgatggtgcttgtgatgacagtggtggtggtggtgac tgcaagctcaggacctttccccctctcccaggtctggtccgagagcaggaggctgggctg ctgcagttcctccgcctggacggcttctctgtgttgatgagggccatgcagcagcaggtg cagaagctcaaggtcaaatcagcattcctgctgcagaacctgctggtgggccaccctgaa cacaaagggaccctgtgctccatggggatggtccagcagctggtggccctggtgcggaca gagcacagccccttccacgagcacgtgcttggagccctgtgcagcctggtgacagacttt ccgcagggtgtgcgcgagtgtcgggagccggaactgggcctggaggagctcctccgccac cgctgtcagctgctgcagcagcatgaggagtaccagaggagacagaacagcgaacggatt tccaaacggagcgagtgggaagggaaatcctggagcggaatattcacggggccttggaac ggagccggtgcgcagctgcggctcactgagctgtctgggtttattccggggcagaccgtt ggcaccaacgggcgcaagcgcgtctgcggcggcggggacccggcgcgcgaggaccccacg acccgcgggcgcctgcgcggaccccgcgagccccggcgcctgcgcgagtccccgacgccg cccccgcccccactcaccgggccccgcagcaggggccggagccgccggcggcggggcggg ggggggcgccccgatgagccccgagtgcgaggagccgccgccccccctcgcagtggctct caactgggggcgattgtgtcccctgggggacgattggcgatatctggagatgtttttggt tgttacaactggggggaatgctgccagtatctggaacttcgcccaatccccgccagctcc tggaagcctggcgccatgttttggaagtttgacctgcacacaagctcgcacctggacacg ctgctggagcgggaggacctgagcctgcccgagctgctggacgaggaagacgtgctgcag gagtgcaaggtcgtcaaccgcaagctgctggacttcctgctgcagccaccccacctgcaa gcaatggtggcctgggtcacccaggagccgccagatagcggtgaggagcggctgcgctac aagtaccccagtgtggcctgcgagattctgacctcagatgtgccccagatcaatgatgcc ctgggtgctgatgagtcccttctgaaccggctctacggcttcctgcagagcaccggcagc ctcaacccactgctggccagcttcttcagcaaggtcatgggcatcctcatcaaccgcaag acagaccagctcgtgtcctttcttcggaagaaggatgacttcgtggacctgctgctgcag cacattggcacctcggccatcatggacctcctgctgcgcctgctcacctgtgtggagcgg cctcagctgaggcaggatgttgtcaattggctcaacgaggagaagatcgtccagcggctg attgagcagatccacccgtcgaaggatgagaatcaacattccaacgcatcccagtccctg tgtgacatcatccgcctgagccgggagcagatgatccaagtccaggacagcccagagcct gaccaactgctggccaccctggagaagcaggagacgattgagcagctcttaagcaacatg ttcgagggggagcagagccagtctgtcatcgtcagtgggatccaggtgctgctgaccctg ctggagcccaggaggccgaggtccgagtccgtgaccgtgaacagcttcttcagcagtgtg gatgggcagctggagctcctggcccagggggccctggaaagcactgtgtccagtgtgggc gccttgcacgccctacgcccgcggctcagctgcttccaccagctcctgctggagcctccc aagctggagccgctacagatgacatggggcatgctggctccgcctctgggcaacacgcgg ctgcacgtggtcaagctcctggccagtgccctgagcgccaatgatgcagccctgacgcac gagctcctggcactggacgtgcccaacaccatgctggacctcttcttccattatgtcttc aacaacttcttgcatgcccaagtagagggatgcgtgagcaccatgctgagcttggggcca cctcctgacagcagccctgagacgcccatccaaaaccctgttgtgaaacatctgctgcag cagtgccgcctggtggagcggatcctgacgtcctgggaggagaacgaccgtgtacagtgt gcgggaggccctcggaaaggctacatgggtcacctgacaagagtggccggtgccctggtg cagaacacggagaaggggcccaatgcagagcagctgcggcagctgctgaaggcagagctg cccagcgagcagcaggagcagtgggaagccttcgtatcggggcccctggcggagaccaac aagaagaacatggtggacctggtgaacacccaccacctacactcctccagtgacgatgag gacgaccggctcaaggagttcaacttccctgaggaggctgtgctgcagcaggccttcatg gacttccagatgcagcgcatgacctctgccttcattgaccacttcggcttcaatgatgag gagtttggggagcaggaggagagtgtgaacgcaccttttgacaagacagccaacatcacc ttctccctcaatgctgacgatgagaaccccaacgccaacctacttgagatatgctacaag gaccgcatccagcagtttgatgatgatgaggaagaggaggacgaggaagaggcccagggc tcaggggagtctgatggagaagatggcgcctggcagggcagccagctggccaggggggcc cgtctgggccagccacctggtgtccggagtggaggcagcacagacagtgaggacgaagaa gaggaggacgaggaggaggaggaagacgaggagggcattggctgtgcagcccgtggaggg gccacccctctgtcctaccccagccctggccctcagcctccaggccccagctggacagcc acctttgacccagtgcctacagatgccccgaccagcccccgagtctccggggaggaagag ctgcacactgggcctccagccccacaggggcccctcagtgtgccccagggcctccccact cagagcctggccagccctcctgcccgtgacgccctgcagctcaggtctcaggaccccaca cccccctcagcacctcaggaagccacagaaggcagcaaagtcacggagccctcagcccct tgccaggccttggttagcatcggggaccttcaggccaccttccacgggatccgttctgcc cccagctcctcggacagtgcccaggccctcacgcctcctccgatacccaatggctctgcc ccggaagggcctgcatccccaggctcccaagtccacaggacgctccttgggttaacgtgt aaccatgagccctcccctccaccccctgaagccactcgctcccagattaggtcgctctgg ggctatcaggccagcatggacgctggcaaagcggggcagaccctgaagactcactgctca gcccagcgcccagatgtctgcaggtggctgagccccttcatcctctcctgctgcgtgtac ttctgcctctggattcccgaggaccagctgtcctggttcgctgccctggtcaagtgcctg cccgtcctctgcctggctgggttcctgtgggtcatgtccccaagcgggggctacacccag ctcctccagggagcccttgtgtgctcggctgtgggggacgcttgcctcatctggccggca gccttcgtccctggcatggccgcctttgccaccgcccacctcctctacgtctgggccttc ggcttctctcccctgcagcccggcctgctgctgctcatcatcctggcccctggcccctac ctcagccttgtgctccagcacctcgagccggatatggtcctgccggtggcagcctatggg ctgatcctgatggccatgctgtggcgcggcctggcccagggcgggagtgccggctggggc gcgctgctcttcacgctctctgatggcgtgctggcctgggacaccttcgcccagcccctg ccccatgcccacctggtgatcatgaccacctactatgctgcccagctcctcatcacactg cgccgctgccgccgtcgcttctggctgaagacgtttgaggacgatttgcggaattccaag tccactactgggttccagctgccttcccccgcgggactctcggaggtgctgcgcacatcc ctctcaggctccttccagccctgccgggacccagacctggggcaaggggcaaaacgccgg ctccatcttccctcccaagccggggtggctggtcagaccaccgtgggtctgattccccat ctgggccctccccaggccctcgggaccacgacagaggccacagcagcaggaagggccgtg ggattccgtcttctgtttgccgcagaggcttctacccatgtcagccgccaaagcagacag aatcgtgagtgtggaggctcggacctccagctccatcaccctgagctgggcagccccaag ggcccagaccggcagacttccatctactgggtccaggggcatggccagcgggaacacaag cacgtcacactgctggctcgtggtggagggcttcagcctgggaccctctacaccacctct gtgtgggccaagaagaaaggagtaggtggccccagggacgtcctgagcatgtctacaggc ccagactccaagacctgcccctactggctctgctgggccagtgactcctcagacatcagg gtgcctgtggagggcctggctgcagggacgcagtaccccagcatgtgggcccagaagcat gaggtcaacagccccagccagacgctcacagaggccacgggcgagggcctcagccttcaa ccccctacacagacgcccagtgagcactacgtgccgcacgcaggactgaggggtggagag tgggaggccatgggtgtcaacgtagggtccctggagtgcgagcatggatctaggagaacc ccagctctcttacaagttgatgagtcaggcccctgtcacttcctggatctttcaatcctg gctgcccgcaaggccaggaagagcgaaaacaagggctggattcagcggaaacacggcaac acaggacacagccacagcgtaagaggaattgaaaagaactcaggtgatgagggtcgtgct aatgggactctcattagtggctccgtggaaatttctgttcttaaggggaaaagaggagca cggccgagtctctcctga >gi568815579r:55130613_55347103|GENSCAN_predicted_peptide_4|813_aa MSSGAKEGGGGSPAYHLPHPHPHPPQHAQYVGPYRLEKTLGKGQTGLVKLGVHCITGQKV AIKIVNREKLSESVLMKVEREIAILKLIEHPHVLKLHDVYENKKYFPPDELTSGPSMLAQ VSPHGKLSARRSWDLLSGFPRYLVLEHVSGGELFDYLVKKGRLTPKEARKFFRQIVSALD FCHSYSICHRDLKPENLLLDEKNNIRIADFGMASLQVGDSLLETSCGSPHYACPEVIKGE KYDGRRADMWSCGVILFALLVGALPFDDDNLRQLLEKVKRGVFHMPHFIPPDCQSLLRGM IEVEPEKRLSLEQIQKHPWYLGGKHEPDPCLEPAPGRRVAMRSLPSNGELDPDVLESMAS LGCFRDRERLHRELRSEEENQEKMIYYLLLDRKERYPSCEDQDLPPRNDVDPPRKRVDSP MLSRHGKRRPERKSMEVLSITDAGGGGSPVPTRRALEMAQHSQRSRSVSGASTGLSSSPL SSPRSPVFSFSPEPGAGDEARGGGSPTSKTQTLPSRGPRGGGAGEQPPPPSARSTPLPGP PGSPRSSGGTPLHSPLHTPRASPTGTPGTTPPPSPGGGVGGAAWRSRLNSIRNSFLGSPR FHRRKMQVPTAEEMSSLTPESSPELAKRSWFGNFISLDKEEQIFLVLKDKPLSSIKADIV HAFLSIPSLSHSVLSQTSFRAEYKASGGPSVFQKPVRFQVDISSSEGPEPSPRRDGSGGG GIYSVTFTLISGPSRRFKRVVETIQAQLLSTHDQPSVQALADEKNGAQTRPAGAPPRSLQ PPPGRPDPELSSSPRRGPPKDKKLLATNGTPLP >gi568815579r:55130613_55347103|GENSCAN_predicted_CDS_4|2442_bp atgtcgtccggggccaaggagggaggtgggggctctcccgcctaccacctcccccacccc cacccccacccaccccagcacgcccaatatgtgggcccctatcggctggagaagacgctg ggcaaaggacagacagggctggttaaactcggggtccactgcatcacgggtcagaaggtc gccatcaagatcgtgaaccgggagaagctgtcggagtcggtgctgatgaaggtggagcgg gagatcgccatcctgaagctcatcgaacacccacatgtcctcaagctccacgacgtctac gagaacaagaaatattttcccccggatgaactgacatcaggtccgtcgatgctggcgcag gtttcaccacacgggaagctgtctgcccggcgctcatgggacctgctctcaggctttccc aggtacctggttctggagcacgtctcggggggtgagctattcgactacctggtaaagaag gggagactgacgcccaaggaggcccgaaagttcttccgccagattgtgtctgcgctggac ttctgccacagctactccatctgccacagagacctaaagcccgagaacctgcttttggat gagaaaaacaacatccgcattgcagacttcggcatggcgtccctgcaggtgggggacagc ctcctggagaccagctgcgggtccccccattatgcgtgtccagaggtgattaagggggaa aaatatgatggccgccgggcagacatgtggagctgtggagtcatcctcttcgccctgctc gtgggggctctgccctttgatgacgacaacctccgccagctgctggagaaggtgaaacgg ggcgtcttccacatgccccacttcattcctccagattgccagagcctcctgaggggaatg atcgaagtggagcccgaaaaaaggctcagtctggagcaaattcagaaacatccttggtac ctaggcgggaaacacgagccagacccgtgcctggagccagcccctggccgccgggtagcc atgcggagcctgccatccaacggagagctggaccccgacgtcctagagagcatggcatca ctgggctgcttcagggaccgcgagaggctgcatcgcgagctgcgcagtgaggaggagaac caagaaaagatgatatattatctgcttttggatcggaaggagcggtatcccagctgtgag gaccaggacctgcctccccggaatgatgttgaccccccccggaagcgtgtggattctccc atgctgagccgtcacgggaagcggcgaccagagcggaagtccatggaagtcctgagcatc accgatgccgggggtggtggctcccctgtacccacccgacgggccttggagatggcccag cacagccagagatcccgtagcgtcagtggagcctccacgggtctgtcctccagccctcta agcagcccaaggagtccggtcttttccttttcaccggagccgggggctggagatgaggct cgaggcgggggctccccgacttccaaaacgcagacgctgccttctcggggccccaggggt gggggcgccggggagcagcccccgccccccagtgcccgctccacacccctgcccggcccc ccaggctccccgcgctcctctggcgggacccccttgcactcgcctctgcacacgccccgg gccagtcccaccgggaccccggggacaacaccaccccccagccccggcggtggcgtcggg ggagccgcctggaggagtcgtctcaactccatccgcaacagcttcctgggctcccctcgc tttcaccggcgcaagatgcaggtccctaccgctgaggagatgtccagcttgacgccagag tcctccccggagctggcaaaacgctcctggttcgggaacttcatctccttggacaaagaa gaacaaatattcctcgtgctaaaggacaaacctctcagcagcatcaaagcagacatcgtc catgcctttctgtcgatccccagcctgagtcacagtgtgctgtcacagaccagcttcagg gccgagtacaaggccagtggcggcccctccgtcttccaaaagcccgtccgcttccaggtg gacatcagctcctctgagggtccagagccctccccgcgacgggacggcagcggaggtggt ggcatctactccgtcaccttcactctcatctcgggtcccagccgtcggttcaagcgagtg gtggagaccatccaggcacagctcctgagcactcatgaccagccctccgtgcaggccctg gcagacgagaagaacggggcccagacccggcctgctggtgccccaccccgaagcctgcag cccccacccggccgcccagacccagagctgagcagctctccccgccgaggcccccccaag gacaagaagctcctggccaccaacgggacccctctgccctga >gi568815579r:55130613_55347103|GENSCAN_predicted_peptide_5|283_aa MWGYLSLMPVFLAVWAISGVWIVFAIAVTNRTVDLSKGFPYIRKVEALAWIAQDDPFVFP SICGSFPPQSCIFSQVLNMGAALAAWICIVRYHQLRDWGVRRWPNQLILWTGLLCALGTS VVGNFQEKNQRPTHLAGAFLAFILGNVYFWLQLLLWRLKRLPQPGAAWIGPLRLGLCSVC TILIVASILLVSGDYGFVIENADFGVRLPSSVALDPGAVIVLHACSLRSVSAACEWVVAM LLFALFGLLAVDFSALESCTLCVQPWPSLSPPPASPISLPVQL >gi568815579r:55130613_55347103|GENSCAN_predicted_CDS_5|852_bp atgtggggctacctgtcgctgatgcctgtcttcctagctgtctgggctatctctggcgtc tggatcgtttttgccattgcagtgaccaacaggactgtggacctcagtaaaggctttccc tacatcaggaaagtggaggccctagcttggattgcccaggatgacccctttgtcttcccc agcatctgcggatccttcccccctcagagctgcatcttcagccaggtgctcaatatggga gctgctctggccgcgtggatctgcattgtccgttaccaccagctccgggactggggcgtc agaaggtggcctaaccagctgatcctatggacgggtcttctgtgtgccctgggcacctcc gtggtaggcaatttccaggaaaagaaccagcggcctacgcacttggcaggggccttcctt gccttcatcttgggtaacgtctacttctggctgcagctcctcctgtggaggctgaagagg ctgccccagcccggggctgcctggattgggcccctccgcctgggcctctgcagcgtctgc accatcctcattgtggccagtatccttcttgtatccggggattatggctttgtcatcgag aatgccgacttcggggtcaggttgcccagcagtgtggcccttgaccctggggcagtgatc gtcctccacgcctgctcgctgcgtagcgtctctgcggcctgcgagtgggtcgtggccatg ctgctgttcgcgctcttcggtctcttagccgttgacttctccgccctggagagctgcacc ctgtgtgttcagccgtggcccagcctcagccccccgccggcctcccccatctccctgccg gtccagctgtag >gi568815579r:55130613_55347103|GENSCAN_predicted_peptide_6|329_aa MGGAATVFDESRRRLWEVLAAAARAPEEEEEKRRQHGPQGTMGPDRVTARELCENDDLAT SLVLDPYLGFRTHKMNVSPVPPLRRQQHLRSALETFLRQRDLEAAYRALTLGGWTARYFQ SRGPRQEAALKTHVYRYLRAFLPESGFTILPCTRYSMETNGAKIVSTRAWKKNEKLELLV GCIAELREADEGLLRAGENDFSIMYSTRKRSAQLWLGPAAFINHDGNAACVKVLRDIEPG DEVTCFYGEGFFGEKNEHCECHTCERKGEGAFRTRPREPALPPRPLDKYQLRETKRRLQQ GLDSGSRQGLLGPRACVHPSPLRRDPFCX >gi568815579r:55130613_55347103|GENSCAN_predicted_CDS_6|987_bp atgggaggtgcggcgacagtgtttgacgagagccgaaggaggctgtgggaggtgttggcg gcggcggcgcgggcgcctgaggaggaggaggagaagcggaggcagcatggtccgcagggc accatggggcccgacagagtgacagcacgagaactgtgcgagaacgacgacctggccacc agcctcgtcctggacccctacctcggtttccgcacccataagatgaacgtcagccctgtg ccccccctgcggcgacagcagcacctgcgctcagcgctggaaactttcctgaggcagcgg gacctggaggctgcgtaccgggccctgacgctgggaggctggacggcccgctacttccag agccggggcccgcggcaggaggctgccctcaagacccacgtctatcgctacctccgtgcc ttcctgccggaaagtggctttaccatcctgccctgcacgcgctactccatggagaccaac ggggccaagatcgtgtccactcgtgcttggaaaaagaatgagaagctggagctgctggtg ggctgcattgcagagctgcgggaggcagatgaggggctgctgagggccggtgagaatgac ttcagcatcatgtactcaacccgcaagcggagtgctcagctgtggctgggcccagccgcc ttcatcaaccatgatgggaacgcagcctgcgtgaaggtgctccgggacattgagcctggg gacgaggtgacatgcttctacggcgagggcttcttcggcgagaagaatgagcactgtgaa tgccacacctgtgagaggaaaggtgaaggagctttccgaaccaggcctagggagcccgcg ttgccaccacggcccctggacaagtaccagctgcgtgagaccaagcggcggctgcagcaa ggcctggacagtggcagccgacagggcctgctgggccctcgggcctgcgtgcacccatcc ccgctgcgccgggacccattctgcgnn