GENSCAN 1.0 Date run: 6-Nov-116 Time: 15:17:49 Sequence gi568815588r:133262871_133473333 : 210463 bp : 54.65% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.24 Intr - 895 818 78 1 0 118 78 60 0.259 8.24 1.23 Intr - 4547 4482 66 2 0 105 99 37 0.365 6.09 1.22 Intr - 5248 5059 190 0 1 118 61 82 0.996 8.61 1.21 Intr - 5992 5878 115 2 1 116 94 243 0.999 27.71 1.20 Intr - 6305 6132 174 0 0 72 56 83 0.755 3.93 1.19 Intr - 6659 6575 85 2 1 74 96 68 0.964 6.09 1.18 Intr - 7104 7027 78 0 0 79 63 33 0.524 0.14 1.17 Intr - 7685 7490 196 1 1 48 105 232 0.698 20.84 1.16 Intr - 7935 7866 70 1 1 108 99 65 0.992 8.33 1.15 Intr - 8200 8011 190 1 1 58 72 277 0.983 22.78 1.14 Intr - 8419 8330 90 1 0 74 113 108 0.992 12.59 1.13 Intr - 8835 8658 178 2 1 95 92 245 0.847 26.04 1.12 Intr - 9084 8936 149 0 2 28 68 277 0.953 19.24 1.11 Intr - 9404 9323 82 1 1 63 94 73 0.945 5.54 1.10 Intr - 9715 9546 170 1 2 78 68 198 0.787 16.06 1.09 Intr - 9996 9928 69 0 0 72 86 107 0.752 8.77 1.08 Intr - 10149 10087 63 0 0 91 85 177 0.575 17.11 1.07 Intr - 10573 10384 190 0 1 93 72 271 0.593 26.11 1.06 Intr - 10968 10892 77 0 2 141 94 86 0.994 13.31 1.05 Intr - 11159 11081 79 1 1 22 80 144 0.687 7.05 1.04 Intr - 11365 11289 77 1 2 105 109 88 0.999 11.41 1.03 Intr - 12120 11866 255 0 0 53 38 114 0.540 1.07 1.02 Intr - 12717 12614 104 1 2 132 97 80 0.999 13.69 1.01 Init - 13947 13902 46 0 1 84 105 143 0.993 14.39 1.00 Prom - 15313 15274 40 -4.71 2.27 PlyA - 15450 15445 6 1.05 2.26 Term - 15806 15785 22 1 1 101 48 1 0.075 -4.53 2.25 Intr - 16151 16083 69 1 0 110 77 41 0.750 3.99 2.24 Intr - 17031 16900 132 2 0 105 53 99 0.918 8.37 2.23 Intr - 18566 18403 164 2 2 106 94 323 0.991 33.99 2.22 Intr - 19472 19353 120 2 0 63 100 160 0.940 15.89 2.21 Intr - 20351 20208 144 2 0 64 96 298 0.989 29.19 2.20 Intr - 21132 21012 121 2 1 96 75 176 0.999 18.10 2.19 Intr - 21538 21341 198 0 0 20 77 107 0.733 1.79 2.18 Intr - 22493 22215 279 1 0 63 62 353 0.743 27.33 2.17 Intr - 22758 22586 173 0 2 74 80 366 0.960 33.66 2.16 Intr - 25439 25259 181 1 1 84 98 454 0.998 46.39 2.15 Intr - 26150 25970 181 0 1 83 60 319 0.998 28.04 2.14 Intr - 27099 26954 146 2 2 79 80 365 0.980 35.24 2.13 Intr - 28531 28438 94 2 1 106 91 46 0.547 6.22 2.12 Intr - 28719 28626 94 0 1 106 91 -15 0.119 0.64 2.11 Intr - 28998 28908 91 2 1 -6 91 22 0.157 -6.40 2.10 Intr - 29818 29629 190 2 1 109 91 275 0.703 29.06 2.09 Intr - 30368 30169 200 1 2 40 82 330 0.994 27.12 2.08 Intr - 30899 30692 208 0 1 82 80 317 0.672 28.96 2.07 Intr - 33338 33211 128 1 2 97 71 81 0.635 8.13 2.06 Intr - 34168 34006 163 2 1 62 87 -5 0.381 -3.65 2.05 Intr - 35162 35082 81 0 0 49 84 122 0.898 8.01 2.04 Intr - 35675 35543 133 2 1 82 23 85 0.815 2.12 2.03 Intr - 36733 36557 177 1 0 68 84 283 0.872 26.53 2.02 Intr - 37243 37115 129 1 0 24 92 131 0.953 8.50 2.01 Init - 40071 39889 183 0 0 44 84 193 0.464 13.59 2.00 Prom - 42648 42609 40 -5.11 3.00 Prom + 45525 45564 40 -5.71 3.01 Init + 46074 46226 153 2 0 73 92 250 0.868 21.85 3.02 Intr + 46520 46593 74 1 2 86 115 155 0.999 16.70 3.03 Intr + 46906 47107 202 1 1 60 64 336 0.998 28.21 3.04 Intr + 47300 47418 119 1 2 22 97 96 0.558 3.67 3.05 Intr + 48846 49076 231 0 0 104 92 60 0.313 5.42 3.06 Term + 55642 55903 262 1 1 63 49 216 0.018 10.53 3.07 PlyA + 58995 59000 6 1.05 4.09 PlyA - 59824 59819 6 1.05 4.08 Term - 63250 62957 294 1 0 123 45 584 0.995 53.25 4.07 Intr - 64121 64008 114 2 0 78 90 287 0.995 29.05 4.06 Intr - 65145 65035 111 0 0 109 53 78 0.986 7.48 4.05 Intr - 66139 65985 155 2 2 97 94 119 0.421 13.70 4.04 Intr - 70334 70131 204 0 0 106 39 47 0.254 1.30 4.03 Intr - 72637 72430 208 1 1 48 54 82 0.106 -0.03 4.02 Intr - 74092 73964 129 1 0 36 50 200 0.250 12.40 4.01 Init - 77556 77404 153 0 0 84 96 63 0.294 6.65 4.00 Prom - 78343 78304 40 -5.91 5.00 Prom + 79164 79203 40 -5.71 5.01 Init + 83582 83653 72 1 0 59 72 107 0.462 5.35 5.02 Intr + 88511 88563 53 1 2 99 100 46 0.831 5.09 5.03 Intr + 89137 89243 107 1 2 29 55 167 0.594 7.86 5.04 Term + 89377 89570 194 2 2 86 49 212 0.990 15.01 5.05 PlyA + 89658 89663 6 1.05 6.07 PlyA - 91129 91124 6 1.05 6.06 Term - 92566 92500 67 0 1 106 47 81 0.948 3.50 6.05 Intr - 92941 92868 74 1 2 99 84 66 0.978 6.00 6.04 Intr - 93868 93770 99 1 0 64 91 154 0.999 14.11 6.03 Intr - 94143 94073 71 1 2 122 93 171 0.999 20.39 6.02 Intr - 94385 94317 69 0 0 36 101 79 0.757 3.65 6.01 Init - 95137 95053 85 1 1 90 97 195 0.862 20.08 6.00 Prom - 98864 98825 40 -6.60 7.10 PlyA - 100562 100557 6 1.05 7.09 Term - 102522 102005 518 1 2 6 54 250 0.431 8.27 7.08 Intr - 103225 103106 120 2 0 131 91 118 0.999 17.37 7.07 Intr - 104123 104019 105 0 0 79 80 144 0.988 13.39 7.06 Intr - 106152 106053 100 0 1 70 103 150 0.917 14.88 7.05 Intr - 107161 107034 128 2 2 71 78 192 0.997 17.40 7.04 Intr - 107887 107690 198 2 0 91 101 407 0.997 42.14 7.03 Intr - 108849 108634 216 1 0 83 7 104 0.551 0.80 7.02 Intr - 109794 109612 183 1 0 89 57 39 0.645 1.18 7.01 Init - 110463 110376 88 0 1 98 100 112 0.976 12.52 7.00 Prom - 111691 111652 40 -7.99 8.00 Prom + 114050 114089 40 -3.21 8.01 Init + 116447 116891 445 1 1 95 59 401 0.945 32.12 8.02 Intr + 117129 117615 487 1 1 97 40 796 0.397 68.36 8.03 Intr + 118209 118328 120 0 0 55 79 61 0.296 2.01 8.04 Intr + 118590 118789 200 0 2 90 82 254 0.535 24.52 8.05 Intr + 121090 121342 253 2 1 35 47 319 0.131 19.53 8.06 Intr + 126086 126198 113 2 2 88 96 95 0.488 10.83 8.07 Intr + 126720 126877 158 1 2 64 91 189 0.743 17.04 8.08 Intr + 128442 128558 117 2 0 91 61 46 0.835 3.37 8.09 Intr + 131117 131462 346 1 1 79 72 234 0.941 16.42 8.10 Intr + 132843 132892 50 1 2 112 21 95 0.617 4.09 8.11 Intr + 133326 133397 72 2 0 74 103 39 0.549 4.10 8.12 Intr + 135565 135645 81 0 0 70 96 34 0.800 2.73 8.13 Intr + 136300 136356 57 0 0 68 73 76 0.878 3.67 8.14 Intr + 136659 136749 91 2 1 107 79 112 0.975 12.27 8.15 Intr + 138659 138720 62 0 2 118 49 -1 0.759 -2.06 8.16 Intr + 139279 139375 97 0 1 104 77 158 0.942 16.38 8.17 Intr + 139822 139903 82 2 1 102 92 180 0.742 18.99 8.18 Term + 140759 140924 166 2 1 76 49 53 0.505 -2.10 8.19 PlyA + 143146 143151 6 1.05 9.02 PlyA - 145349 145344 6 1.05 9.01 Sngl - 145892 145590 303 2 0 82 47 152 0.998 6.65 9.00 Prom - 148199 148160 40 1.39 10.02 PlyA - 148558 148553 6 1.05 10.01 Sngl - 153274 153056 219 1 0 68 43 173 0.607 6.26 10.00 Prom - 154018 153979 40 0.29 11.00 Prom + 154827 154866 40 -5.61 11.01 Init + 155017 155083 67 0 1 26 86 28 0.462 -2.42 11.02 Intr + 155629 155777 149 2 2 84 84 67 0.755 6.36 11.03 Intr + 156107 156199 93 1 0 60 36 78 0.370 0.46 11.04 Intr + 156599 156722 124 1 1 48 100 236 0.805 21.46 11.05 Term + 157156 157295 140 2 2 124 43 144 0.999 11.93 11.06 PlyA + 157710 157715 6 -4.04 12.03 PlyA - 157815 157810 6 1.05 12.02 Term - 160827 160356 472 2 1 122 47 399 0.048 33.99 12.01 Init - 162049 161967 83 1 2 121 39 16 0.035 0.64 12.00 Prom - 162479 162440 40 -0.51 13.00 Prom + 165143 165182 40 -3.31 13.01 Init + 168130 168224 95 0 2 40 85 72 0.093 1.93 13.02 Intr + 170029 170144 116 1 2 58 81 113 0.211 8.19 13.03 Intr + 170427 170474 48 1 0 51 96 41 0.109 0.34 13.04 Intr + 177344 177495 152 0 2 116 57 61 0.186 6.19 13.05 Intr + 179864 180043 180 1 0 35 103 49 0.132 1.68 13.06 Term + 180316 180411 96 0 0 82 47 81 0.161 1.67 13.07 PlyA + 184797 184802 6 1.05 14.00 Prom + 185582 185621 40 -1.51 14.01 Init + 191128 191194 67 0 1 98 111 107 0.999 13.18 14.02 Intr + 193367 193684 318 0 0 114 100 149 0.934 15.18 14.03 Intr + 194409 194705 297 1 0 53 94 441 0.932 38.59 14.04 Intr + 195490 195786 297 2 0 50 72 347 0.816 26.69 14.05 Intr + 196151 196456 306 0 0 92 94 216 0.630 19.57 14.06 Intr + 196617 197300 684 1 0 106 99 740 0.827 69.07 14.07 Intr + 201736 201881 146 2 2 85 25 108 0.060 4.71 14.08 Intr + 202305 202695 391 2 1 88 84 445 0.046 38.96 14.09 Intr + 203395 203511 117 2 0 70 86 30 0.622 1.94 14.10 Intr + 204328 204483 156 2 0 87 94 259 0.891 26.89 14.11 Term + 207831 207865 35 1 2 123 29 29 0.370 -1.47 14.12 PlyA + 209141 209146 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 Term + 121090 121442 353 2 2 35 50 317 0.804 17.60 S.002 Sngl - 160811 160356 456 2 0 76 47 444 0.949 33.64 S.003 Intr + 202236 202304 69 1 0 85 80 47 0.838 3.25 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_1|957_aa MRGLGLWLLGAMMLPAIAPSRPWALMEQYEVVLPWRLPGPRVRRALPSHLGGQFRPQPCP YLSIRGTYYRPARCPGLIQPVAQLRLSQSSAGRAPACTWGLEMQWSSRRLCRHHQVRQLL EGMGPGGRQLSLEGPGLHPERVSYVLGATGHNFTLHLRKNRDLLGSGYTETYTAANGSEV TEQPRGQDHCFYQGHVEGYPDSAASLSTCAGLRGFFQVGSDLHLIEPLDEGGEGGRHAVY QAEHLLQTAGTCGVSDDSLGSLLGPRTAAVFRPRPGDSLPSRETRYVELYVVVDNAEFQM LGSEAAVRHRVLEVVNHVDKLYQKLNFRVVLVGLEIWNSQDRFHVSPDPSVTLENLLTWQ ARQRTRRHLHDNVQLITGVDFTGTTVGFARVSAMCSHSSGAVNQDHSKNPVGVACTMAHE MGHNLGMDHDENVQGCRCQERFEAGRCIMAGSIGSSFPRMFSDCSQAYLESFLERPQSVC LANAPDLSHLVGGPVCGNLFVERGEQCDCGPPEDCRNRCCNSTTCQLAEGAQCAHGTCCQ ECKVKPAGELCRPKKDMCDLEEFCDGRHPECPEDAFQENGTPCSGGYCYNGACPTLAQQC QAFWGPGGQAAEESCFSYDILPGCKASRYSMLPGKLAHDLPSIHRADMCGVLQCKGGQQP LGRAICIVDVCHALTTEDGTAYEPVPEGTRCGPEKVCWKGRCQDLHVYRSSNCSAQCHNH GVCNHKQECHCHAGWAPPHCAKLLTEVHAAPPRPGALRPPSISSPAATEHVVVQSIRPQR HSRAHSTVAQGHPAKLSNLSLASWECQSSGSLPVFVVVVLVLLAVVLVTLAGIIVYRKAR SRILSRNVAPKTTMGRSNPLFHQAASRVPAKGGAPAPSRGPQELVPTTHPGQPARHPASS VALKRPPPAPPVTVSSPPFPVPVYTRQAPKQVIKPTFAPPVPPVKPGAGAANPGPAE >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_1|2871_bp atgcgcggcctcgggctctggctgctgggcgcgatgatgctgcctgcgattgcccccagc cggccctgggccctcatggagcagtatgaggtcgtgttgccgtggcgtctgccaggcccc cgagtccgccgagctctgccctcccacttgggagggcagttccggccccagccctgtcct tacctcagcatccggggaacctactaccgacctgcccgctgccctgggctcatccagccg gtggcacagctaaggctgtcccagagctctgcaggccgagccccagcctgcacatggggg ctggagatgcagtggtccagcaggaggctctgcaggcaccaccaggtccggcagctgctg gaagggatgggtcctggaggcaggcagctgtcgctggaggggcctggcctgcacccagag agggtgagctacgtccttggggccacagggcacaacttcaccctccacctgcggaagaac agggacctgctgggctccggctacacagagacctatacggctgccaatggctccgaggtg acggagcagcctcgcgggcaggaccactgcttctaccagggccacgtagaggggtacccg gactcagccgccagcctcagcacctgtgccggcctcaggggtttcttccaggtggggtca gacctgcacctgatcgagcccctggatgaaggtggcgagggcggacggcacgccgtgtac caggctgagcacctgctgcagacggccgggacctgcggggtcagcgacgacagcctgggc agcctcctgggaccccggacggcagccgtcttcaggcctcggcccggggactctctgcca tcccgagagacccgctacgtggagctgtatgtggtcgtggacaatgcagagttccagatg ctggggagcgaagcagccgtgcgtcatcgggtgctggaggtggtgaatcacgtggacaag ctatatcagaaactcaacttccgtgtggtcctggtgggcctggagatttggaatagtcag gacaggttccacgtcagccccgaccccagtgtcacactggagaacctcctgacctggcag gcacggcaacggacacggcggcacctgcatgacaacgtacagctcatcacgggtgtcgac ttcaccgggactaccgtggggtttgccagggtgtccgccatgtgctcccacagctcaggg gctgtgaaccaggaccacagcaagaaccccgtgggcgtggcctgtaccatggcccatgag atgggccacaacctgggcatggaccatgatgagaacgtccagggctgccgctgccaggaa cgcttcgaggccggccgctgcatcatggcgggcagcattggctccagtttccccaggatg ttcagtgactgcagccaggcctacctggagagctttttggagcggccgcagtcggtgtgc ctcgccaacgcccctgacctcagccacctggtgggcggccccgtgtgtgggaacctgttt gtggagcgtggggagcagtgcgactgcggcccccccgaggactgccggaaccgctgctgc aactctaccacctgccagctggctgagggggcccagtgtgcgcacggtacctgctgccag gagtgcaaggtgaagccggctggtgagctgtgccgtcccaagaaggacatgtgtgacctc gaggagttctgtgacggccggcaccctgagtgcccggaagacgccttccaggagaacggc acgccctgctccgggggctactgctacaacggggcctgtcccacactggcccagcagtgc caggccttctgggggccaggtgggcaggctgccgaggagtcctgcttctcctatgacatc ctaccaggctgcaaggccagccggtacagcatgctcccaggcaagctggcccacgacctg ccgtccatccacagggctgacatgtgtggcgttctgcagtgcaagggtgggcagcagccc ctggggcgtgccatctgcatcgtggatgtgtgccacgcgctcaccacagaggatggcact gcgtatgaaccagtgcccgagggcacccggtgtggaccagagaaggtttgctggaaagga cgttgccaggacttacacgtttacagatccagcaactgctctgcccagtgccacaaccat ggggtgtgcaaccacaagcaggagtgccactgccacgcgggctgggccccgccccactgc gcgaagctgctgactgaggtgcacgcagcccctcctcggcccggggccctgaggccaccc agcatttcctccccggcggccactgagcatgtggtcgtccagagcatcaggcctcaaagg cacagccgtgcccacagcactgtggcccagggccaccctgccaagctctccaacctgtca ctggcaagctgggagtgccagtcgtccgggagcctccccgtcttcgtggtggtggttctg gtgctcctggcagttgtgctggtcaccctggcaggcatcatcgtctaccgcaaagcccgg agccgcatcctgagcaggaacgtggctcccaagaccacaatggggcgctccaaccccctg ttccaccaggctgccagccgcgtgccggccaagggcggggctccagccccatccaggggc ccccaagagctggtccccaccacccacccgggccagcccgcccgacacccggcctcctcg gtggctctgaagaggccgccccctgctcctccggtcactgtgtccagcccacccttccca gttcctgtctacacccggcaggcaccaaagcaggtcatcaagccaacgttcgcaccccca gtgcccccagtcaaacccggggctggtgcggccaaccctggtccagctgag >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_2|1266_aa MSEFRIHHDVNELLSLLRVHGGDGAEVYIDLLQKNRTPYVTTTVSAHSAKVSTALGVALC RVKIAEFSRTPEDFLKKYDELKSKNTRNLDPLVYLLSKLTEDKETLQYLQQNAKERAELA AAAVGSSTTSINVPAAASKISMQELEELRKQLGSVATGSTLQQGKDACLLLKPVFTHQVV FRPSHCQKEAIQLVHRAPSFETAALCLAWVYERPALIGDFLIGAGISTDTALPIVQTQEA AWSVVCFPTTHGSAMWAPRGQPLPLPETLENGDVKSTCFPHPQANRTLLEGVVQKRNALS SNAAAPWAALSVAVIGSKCVRLGCEPCSQLSGTLPLASQESAVVEDLLYVLVGVDGRYVS AQPLAGRQSRTFLVDPNLDLSIRELVHRILPVAASYSAVTRFIEEKSSFEYGQVNHALAA AMRTLVKEHLILVSQLEQLHRQGLLSLQKLWFYIQPAMRTMDILASLATSVDKGECLGGS TLSLLHDRSFSYTGDSQAQELCLYLTKAASAPYFEVLEKWIYRGIIHDPYRAPRDTGTRR DMGDTEGHGGHGGRVLPSPVQVGLPGTRGHGGTRGHGGTWGTRTVHAALSRTGRAPRDTG TRRDTGTRRDMGDTDGACCPLPYSEFMVEEHELRKERIQEDYNDKYWDQRYTIVQQQIPS FLQKMADKILSTGKYLNVVRECGHDVTCPVAKEIIYTLKERAYVEQIEKAFNYASKVLLD FLMEEKELVAHLRSIKRYFLMDQGDFFVHFMDLAEEELRKPVEDITPPRLEALLELALRM STANTDPFKDDLKIDLMPHDLITQLLRVLAIETKQEKAMAHADPTELALSGLEAFSFDYI VKWPLSLIINRGPKAALPGLQCPRDSRAVRGPRCGLWSTDAVSTTPPVTEAHLRCRHVSC RKALTRYQMLFRHMFYCKHVERQLCSVWISNKTAKQHSLHSAQCLSDSKTLSLEEKKKLE EKELILMMKHKYASVVWHFPGVGSEGSVHQGARVPVSTVQLAGGVPAGHRFAGAFTLRQR MLNFVQNIQYYMMFEVMEPTWHILEKNLKSASNIDDVLGHHTGFLDTCLKDCMLTNPELL KVFSKLMSVCVMFTNCMQKFTQSMKLDGELGGQTLEHSTVLGLPAGAEERARKELARKHL AEHADTVQLVSGFEATINKFDKNFSAHLLDLLARLSIYSTSDCEHGMASVISRLDFNGFY TERLERLSAERSQKATPQVPVLRGPPAPAPRVAVTAQATVGSTAIPSVTGPWEPQGCPAR LCRSGL >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_2|3801_bp atgagtgaatttcggattcaccatgacgtcaatgaactgcttagcctgctgcgtgtccac ggaggagatggggctgaggtctacattgacctgcttcaaaagaacaggaccccgtacgtc actaccactgtctctgctcacagtgccaaggtgagcactgcccttggtgtagcgctgtgc agggttaaaattgcagagttttctcgtactccagaagactttctaaagaaatatgatgaa ctgaaatctaaaaatacaaggaaccttgacccgctggtgtacctgttgtcaaagctcacg gaagacaaagagactctgcagtacttacaacagaatgcaaaagaaagagctgagcttgca gccgctgctgtgggcagcagtaccaccagcatcaacgtccctgccgcggcctccaagatc tccatgcaggagcttgaggaactgaggaagcagcttggcagcgtggccacaggctccacg ctgcagcagggtaaggatgcatgtctgttgctgaagcctgtcttcacccatcaagtggtg ttcagacctagtcactgccagaaagaagcaattcagcttgttcacagggcgccctccttt gaaacagcggctctgtgcctagcatgggtgtatgagagacctgccctgatcggggatttc ctgattggtgctggcatcagcacagacaccgctttgccgatagtccaaactcaagaggca gcatggagcgtggtctgcttccccactactcacggctctgcaatgtgggcaccaaggggc caacccttgcctttgccggaaaccctggagaacggtgacgtgaaatccacctgttttcct catccccaagcaaacagaaccctgctggaaggggttgtacaaaagaggaacgcactgtcc agtaacgctgcggcgccgtgggcagctctgagcgtggcggtgattggcagcaagtgtgtg agacttggctgtgaaccctgcagccagctctcaggcacgttgcccctggcctcgcaggag tcggccgtggtggaggacctgctgtacgtgctggtgggcgtggacgggaggtacgtcagt gctcagcccctggctgggaggcagagccggaccttcctcgtggaccccaacctggacctg tccatcagggagctggtgcacaggatcctcccagtggccgccagctactccgctgtgacc aggttcattgaagagaagtcttccttcgagtacgggcaggtgaaccacgccctggcggcc gccatgcgcaccctggtgaaggagcacctgattctggtgtcacagctggagcagctgcac aggcagggcctcctttcgctgcagaagctctggttctacatccagccagccatgcgcacc atggacatcctggcctccctcgccacctcggtggacaaaggcgaatgtcttggggggtcc acgctgagcctgctccacgacaggagcttcagctacacaggggacagccaggcgcaggag ctatgcctgtacctaaccaaggcggccagtgctccctacttcgaggttctggagaagtgg atctacaggggcatcatccacgacccatacagggctccccgggacacagggacacggagg gacatgggggacacggagggacatgggggacacggagggcgcgtgctgccctctcccgta caggtagggctccccgggacacggggacacggagggacacggggacacggagggacatgg gggacacggacggtgcatgctgccctctcccgtacaggtagggctccccgggacacgggg acacggagggacacggggacacggagggacatgggggacacggacggtgcatgctgccct ctcccgtacagtgagtttatggtcgaggagcacgagctgcggaaggagaggatccaggag gattacaacgacaagtactgggaccagcggtacaccatcgtccagcagcagatcccgtcc ttcctgcagaaaatggcggacaagatcctcagcacaggaaaatatctaaatgtggtcaga gagtgtggccatgacgtcacctgcccggtggctaaagagatcatctacacgttaaaagag cgggcgtatgtggagcagatcgagaaggcgtttaactacgccagcaaggtgctgctggac ttcctgatggaggagaaggagctggtggctcacctcaggtccatcaagcgctacttcctc atggaccagggcgacttcttcgtgcacttcatggacctcgcggaggaggagctccggaag ccggtggaggacatcacgccccctcgcctggaagcgctcctggagctggcgctgcgcatg agcacggccaacactgaccccttcaaggacgacctcaagatcgacctgatgccccatgac ctcatcactcagctcttgcgcgtcctggccatcgagaccaagcaggagaaggcgatggcg cacgccgaccccacggagctggcgctgagcggcctggaggccttctctttcgactacatc gtcaagtggcccctttcgctcatcatcaacagaggacccaaggcggctctccccggcctt cagtgtccgagagattcacgggctgtccgggggccacggtgcggactgtggagtacagac gccgtgtccacgacgccgccggtcacggaggcccacctgaggtgccgccacgtctcttgc aggaaagccctcactcgctaccagatgctcttcaggcacatgttctactgcaagcacgtg gagcggcagctctgcagcgtctggatcagcaacaaaaccgccaagcagcactcgctgcac tccgcccagtgtctgagcgacagcaagaccctgtctctcgaagaaaaaaagaaattagaa gaaaaagaactcatcttgatgatgaagcacaaatatgcatctgttgtgtggcactttcct ggcgtgggctccgaggggtccgtccaccaaggagcccgcgtcccagtctccaccgtccag ctggctgggggtgtccctgcagggcacaggtttgctggggctttcactctgcggcagcga atgctcaacttcgtccagaatattcaatactacatgatgtttgaagtgatggaaccgacc tggcacatcctggagaaaaacctgaaatccgcctccaacattgacgacgtccttggccac cacacaggcttcctggacacctgcctgaaggactgcatgctcaccaaccccgagctgctg aaggtcttctccaagctcatgtctgtgtgcgtcatgttcaccaactgcatgcagaaattt acacagagcatgaaattagatggcgagctgggcgggcagacgctggagcacagcaccgtc ctggggctgcccgcaggggccgaggagcgggcccggaaggagctcgccaggaagcacctg gctgagcacgcagacactgtgcagctggtgtccggcttcgaggccaccatcaacaagttt gacaagaacttctcagcccacctgctggacctcctggcccggctgagcatctatagcacc agtgactgtgagcacggcatggccagcgtcatctccaggcttgacttcaatggtttctac acggagcgcctggagcgcctgtctgcagagaggagccagaaggccaccccccaagtgcct gtcctgcgggggcccccggctcctgcacccagggtcgcagtcaccgcacaggctacagtg ggcagcaccgccatccccagtgtgacagggccctgggagcctcagggctgcccggccagg ctgtgcaggtctggcctgtga >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_3|346_aa MQLPPALCARLAAGPGAAEPLPVERDPAAGAAPFRFVARPVRFPREHQFFEDGDVQRHLY LQDVIMQVADVPEKPRVPAFACQVAGCCQVFDALDDYEHHYHTLHGNVCSFCKRAFPSGH LLDAHILEWHDSLFQILSERQDMCLVEGCTEKFKTSRDRKDHMVRMHLYPADFRFDKPKK SRSPASAEAPGDSGERSEGEAMEICSEPVAASPAPAGERRIYRHRSVSELFLKPVLNMCS VLRILGCTWAAALLILNSERDGKMAASPGTRTGGEARAQLCMDDSELKCSRGCQCRSPSS FTGNTEAGAANPGPFILWPLRPLLTRTGCACVCSTGSRSIPPGVRR >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_3|1041_bp atgcagttgccccccgcgctgtgcgcccgcctcgctgcggggcccggggcggcggagccg ctgcctgtagagcgggatcccgcggctggggccgcgccctttcgcttcgttgcgcgcccc gtgcgcttcccgcgggagcaccagttcttcgaggatggggacgtgcagcgccacctctac ctccaggacgtgatcatgcaggtggccgacgtgcctgagaagcccagggtgcccgcgttt gcctgccaggtggccggctgctgccaggtgttcgatgccctggacgactacgagcaccac taccacacgctgcacggaaatgtttgctccttttgcaagcgggccttcccttccggacac ctgctggacgcccacatcctggagtggcacgattcgctcttccagatcctgtctgagagg caggacatgtgcttggtagaaggctgcacagagaagttcaagaccagcagagaccggaag gatcacatggtgaggatgcacctgtaccccgcggacttccggtttgataagccaaagaaa agcagaagcccagcctcagcagaagccccaggggacagtggagagcggtcagaaggggag gccatggaaatctgctctgagcctgtggcagcctcccctgcaccggcaggtgagaggcgg atctacagacataggtcagtgtctgagctctttctgaaacccgttctcaacatgtgttcg gtgctgaggattctgggctgcacctgggccgcagctcttctcatactgaattcagaaaga gatggaaagatggccgcatccccgggaacacgcacaggtggagaggccagggcccagctg tgcatggacgactccgagctgaagtgcagccgtgggtgccagtgccggtctccgtcctcc ttcacaggaaacacggaggccggggccgccaaccccggtcccttcatcctctggcccctt cgcccgctcctcacacggacgggctgtgcctgtgtctgctccactggcagccggtcgata cccccgggcgtgcggagatga >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_4|455_aa MGYGLAMKTKASPTHAPVIADHPQLGAALRQMPMERLLCAGHHAGARAILRPRSRSCSPR PARPRSVWNRILRIHIRIVVLPDRVLQQLPVEPPTRLGPVCVAMETRDDVNWPSEELDLK FGSKGTPQAQLLLAGVLPERGFGRRLLARALRGVALPYGAAGPDASTLSVLEWQQLGRSS VTAGPLLLFPWCLPTPGTHSGAWPLQGEKDWSLLALAVNWTSSRCCHKLQAGQGLPSTMV KLGCSFSGKPGKDPGDQDGAAMDSVPLISPLDISQLQPPLPDQVVIKTQTEYQLSSPDQQ NFPDLEGQRLNCSHPEEGRRLPTARMIAFAMALLGCVLIMYKAIWYDQFTCPDGFLLRHK ICTPLTLEMYYTEMDPERHRSILAAIGAYPLSRKHGTETPAAWGDGYRAAKEERKGPTQA GAAAAATEPPGKPSAKAEKEAARKAAGSAAPPPAQ >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_4|1368_bp atgggttacggtttagcaatgaaaacgaaggcatcaccaacgcatgctcctgtcattgct gaccacccacagctgggagccgcactcaggcaaatgcctatggagcgccttctgtgtgct gggcaccatgcgggcgccagggccatcctcaggcctcggtctcgcagctgcagcccccgc cccgcccggccgcgaagcgtctggaaccgcatcctccgcatccacatccgcatcgtcgtc ctccccgaccgcgtcctgcagcagctgccagtggagccgcctacgcgtctcgggcctgtc tgcgttgccatggaaacccgcgatgacgtaaattggccgtccgaggagttggatttgaag tttggctcgaaggggacccctcaagcgcagctcctcctggcgggggtcctgcccgagcgg gggttcgggcggagactcctggcgcgggccctccggggcgtggccctaccctatggcgct gcgggccctgatgcctccacattatctgtacttgagtggcagcagctgggcagaagctct gtgaccgcgggtcccttgctcctgttcccgtggtgcctacccacacctggaacccacagc ggagcctggccactgcagggcgagaaagactggtcactgctggctctggcagttaattgg acatcctcgcgctgctgtcacaaattacaagcaggacaaggactgccatccaccatggtg aagctgggctgcagcttctctgggaagccaggtaaagaccctggggaccaggatggggct gccatggacagtgtgcctctgatcagccccttggacatcagccagctccagccgccactc cctgaccaggtggtcatcaagacacagacagaataccagctgtcctccccagaccagcag aatttccctgacctggagggccagaggctgaactgcagccacccagaggaagggcgcagg ctgcccaccgcacggatgatcgccttcgccatggcgctactgggctgcgtgctgatcatg tacaaggccatctggtacgaccagttcacctgccccgacggcttcctgctgcggcacaag atctgcacgccgctgaccctggagatgtactacacggagatggaccccgagcgccaccgc agcatcctggcggccatcggggcctacccgctgagccgcaagcacggcacggagacgccg gcggcctggggggacggctaccgcgcagccaaggaggagcgcaaggggcccacccaggct ggggcggcggcggcggccaccgaaccccccgggaagccgtcggccaaggcggagaaggag gcggcgcggaaggcggccgggagcgcggcgcccccgcccgcgcagtga >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_5|141_aa MRALGPVERALATQRARLLRLVCPVPIKMQVKHWPSEQDPEKAWGARVVEPPEKDDQLVV LFPVQKPKLLTTEEKPRGTKAWMETEDTLGHVLSPEPDHDSLYHPPPEEDQGEERPRLWV MPNHQVLLGPEEDQDHIYHPQ >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_5|426_bp atgagggcactgggccccgtggagcgggccctggccacacagcgtgcaagactcctcagg ctggtgtgcccagtccctatcaagatgcaagtcaaacactggccctcagagcaggaccca gagaaggcctggggcgcccgtgtggtggagcctccggagaaggacgaccagctggtggtg ctgttccctgtccagaagccgaaactcttgaccaccgaggagaagccacgaggcaccaag gcctggatggagaccgaggacaccctgggccatgtcctgagtcccgagcccgaccatgac agcctgtaccaccctccgcctgaggaggaccagggcgaggagaggccccggttgtgggtg atgccaaatcaccaggtgctcctgggaccggaggaagaccaagaccacatctaccacccc cagtag >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_6|154_aa MVALKGVPALLSPELLYALARMGHGDEIVLADLNFPASSICQCGPMEIRADGLGIPQLLE AVLKLLPLDTYVESPAAVMELVPSDKERGLQTPVWTEYESILRRAGCVRALAKIERFEFY ERAKKAFAVVATGETALYGNLILRKGVLALNPLL >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_6|465_bp atggtggcgctgaagggtgtccccgcactgctgtcccccgagctgctctacgcgctggcg cggatggggcacggggacgagatcgttcttgcggacttgaacttcccggcctcctccatc tgccagtgtgggcccatggagatccgtgcagacggcctgggcatcccgcagctcctggag gccgtgctgaagctgctgcccctggacacctatgtggagagtccggctgcagtcatggag ctggtgcccagcgacaaggagaggggcctgcagaccccagtgtggacggagtacgagtcc atcctacgcagggccggctgtgtgagagccctggcaaagatagagaggtttgagttttat gaacgggctaagaaggcttttgctgttgtggcaacgggggagacggccctctacggaaac ctcatcctcaggaagggggtgcttgccctcaaccccctgctgtag >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_7|551_aa MAALRVLLSCVRGPLRPPVRCPAWRPFASGGHSHQATSCGRPGGWLVLPQCQDLWPTGRR VGVVKIRGVPSALRAGVAPVQPASPRTGDAGSPSHPWNAIVLCLLPTLLSTQQAQVLCSR PTEKRLRLPFSGWPAAPDLCLILMLQEHPGFSHPPPCVQLARGANFEYIIAEKRGKNNTV GLIQLNRPKALNALCDGLIDELNQALKTFEEDPAVGAIVLTGGDKAFAAGADIKEMQNLS FQDCYSSKFLKHWDHLTQVKKPVIAAVNGYAFGGGCELAMMCDIIYAGEKAQFAQPEILI GTIPGAGGTQRLTRAVGKSLAMEMVLTGDRISAQDAKQAGLVSKICPVETLVEEAIQCAE KIASNSKIVVAMAKESVNAGRSPNLSECIYLEGVAVPRACRWLEAGYSEESILKERRLLS PEVFGKVVLPWERMLAPALEPQRLPPSAHLDLLCLASCKERAWNEQSQRRSWCRPRPALA LVLSFLVFILGYFSLFAAPLPPHSLSSRAQFAISPFIQFLSLLGAVGYRSVTFGGHSRAV GSARSPLGQCL >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_7|1656_bp atggccgccctgcgtgtcctgctgtcctgcgtccgcggcccgctgaggcccccggttcgc tgtcccgcctggcgtcccttcgcctcgggaggccactctcaccaggccacgtcctgcggg aggcccggcggctggctggtactgccccagtgccaagacctctggccaactgggcgcagg gtgggggttgtaaaaatccggggtgttccctcggctctaagagcaggcgtagctcctgtg cagccggccagcccgagaacaggagatgcaggttcaccttctcacccctggaacgccatt gtcctttgtctccttcccaccttgctgtccacccagcaggcgcaggtcctgtgcagcagg ccaaccgagaagcgcctgcgtctcccattttcgggctggcctgctgctccggacctgtgc ctgatcttaatgctgcaggaacacccaggattttcacatcccccaccctgcgtccagttg gccagaggtgctaactttgagtacatcatcgcagaaaaaagagggaagaataacaccgtg gggttgatccaactgaaccgccccaaggccctcaatgcactttgcgatggcctgattgac gagctcaaccaggccctgaagaccttcgaggaggacccggccgtgggggccattgtcctc accggcggggataaggcctttgcagctggagctgatatcaaggaaatgcagaacctgagt ttccaggactgttactccagcaagttcttgaagcactgggaccacctcacccaggtcaag aagccagtcatcgctgctgtcaatggctatgcctttggcgggggctgtgagcttgccatg atgtgtgatatcatctatgccggtgagaaggcccagtttgcacagccggagatcttaata ggaaccatcccaggtgcgggcggcacccagagactcacccgtgctgttgggaagtcgctg gcgatggagatggtcctcactggtgaccggatctcagcccaggacgccaagcaagcaggt cttgtcagcaagatttgtcctgttgagacactggtggaagaagccatccagtgtgcagaa aaaattgccagcaattctaaaattgtagtagcgatggccaaagaatcagtgaatgcaggc aggtcccctaacctctctgagtgcatttatctcgagggtgtggccgtcccccgggcttgc cgttggcttgaggcaggatacagtgaggagagcattttgaaagaacggaggctgctgtcg cccgaggtgtttggcaaggtcgtgctcccctgggagaggatgctggcaccagccctggag ccacagcgcctgcctccatctgcgcacctggatctgctctgcttggcctcgtgcaaagaa cgggcctggaatgagcagagccaaaggcgttcttggtgccggccgcgcccagctctggct ctcgtgctgtccttcctggttttcatccttggttatttttctctgtttgcagccccgttg ccgcctcacagcctctcctcaagggcacagtttgccatctcacctttcatccagttcctc tcccttcttggggccgtgggctaccggagtgtgacgtttgggggccatagcagagctgtt ggttctgccaggtctccgctggggcagtgcctttga >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_8|998_aa MESTGSVGEAPGGPRVLVVGGGIAGLGAAQRLCGHSAFPHLRVLEATARAGGRIRSERCF GNRPSRSPSRNPTGCARTRRPQPALRAADLPGRLTGLPEGIPARLIRQSSPPRNSGLRVS QEGAGQGRRPTAPQGRPDSAPRGPPQPRGGVVEVGAHWIHGPSRGNPVFQLAAEYGLLGE KELSQENQLVETGGHVGLPSVSYASSGASVSLQLVAEMATLFYGLIDQTREFLHAAETPV PSVGEYLKKEIGQHVAGWTEDEETRKLKLAVLNSFFNLECCVSGTHSMDLVALAPFGEYT VLPGLDCTFSKVAARYQVQMRPSSGCPVTPGVGPKAPGQAMGICESGTLWWGYQGLTNCM MAALPEDTVVFEKPVKTIHWNGSFQEAAFPGETFPVSVECEDGDRFPAHHVIVTVPLGFL REHLDTFFDPPLPAEKAEAIRKIGFGTNNKIFLEFEEPFWEPDCQLIQLVWEDTSPLEDA APELQDAWFRKLIGFVVLPAFASVHVLCGFIAGLESEFMETLSDEEVLLCLTQVLRRVTG NPRLPAPKSVLRSRWHSAPYTRGSYSYVAVGSTGGDLDLLAQPLPADGAGAQLQILFAGE ATHRTFYSTTHGALLSGWREADRLLSLWAPQSRPDARPTIRPSLWARAPPTPGFAGGGGN VVRTRRPWCGPLERRKPAVPEARSAGTSEAGRSGAEEVSCGSVSGDGAAMRLTPRALCSA AQAAWRENFPLCGRDVARWFPGHMAKGLKKMQSSLKLVDCIIEETLGLKPHLLVLNKMDL ADLTEQQKIMQHLEGEGLKNVIFTNCVKDENVKQIIPMVTELIGRSHRYHRKENLEYCIM VIGVPNVGKSSLINSLRRQHLRKGKATRVGGEPGITRAVMSKIQVSERPLMFLLDTPGVL APRIESVETGLKLALCGTVLDHLVGEETMADYLLYTLNKHQRFGRFQCPGALQSVPSPVD GYVGCLQVLAIADKAAVNIHVPTGLCVDPGFRFPWVNT >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_8|2997_bp atggagtcgaccggcagcgtcggggaggccccgggcggaccccgggtgctggtggtgggc ggcggcatcgcggggctgggcgcggcgcagaggctctgcggccactccgccttcccgcac ctgcgggtcctggaggccacggcccgcgccgggggccgcatccgctcggagcgctgcttc ggtaaccgcccctcccggagcccctcccggaacccaaccggctgcgcccgaactcgccgg ccccaacctgccctgcgcgcagccgacctgcccggccgcctcaccgggctccccgaggga atccccgctcgcttaatccgccagagttcaccgccccgaaactcagggctcagagttagt caggagggcgccggccagggaaggcgacctacggctccacaaggccgccctgattctgcc ccacgggggcccccccagccccggggtggcgtggtggaggtgggcgcgcactggatccat gggccctcccggggtaaccccgtcttccagctggctgctgagtacgggctgctgggggag aaggagctgtcccaggagaaccagctggtggagaccgggggtcacgtgggcctgccctcc gtgagctacgccagctccggggccagcgtgagcctccagctggtggcggagatggcgact ctgttctacggcctgatagaccagacccgggagttcctgcacgctgcagagaccccggtg cccagcgtcggggagtacctcaagaaggagattggccagcacgtggccggctggacagag gatgaggagaccaggaagctgaagctggccgtcctgaactccttcttcaacctggaatgc tgtgtgagcggcacccacagcatggacctggtggccctggcaccctttggggagtatacc gtgctgccggggctggactgcaccttttctaaggtggctgccaggtaccaggtgcagatg agaccctcctcgggctgtcccgtcacccctggtgttggccccaaggctcctggccaggca atgggcatttgtgagtcaggaactctgtggtggggctatcaaggactcacaaactgcatg atggccgccctgccggaggacactgtagtttttgagaagcctgtgaagaccatccactgg aacgggtccttccaggaggcagcctttcccggggagacctttccagtgtcggtagagtgt gaggatggagaccggttcccggcgcaccatgtcatcgtcaccgtgcccttaggttttctt agggaacatttggacaccttctttgaccctcccctgccggctgagaaggcagaagcaatc aggaagataggctttgggaccaacaacaaaatcttcctggagtttgaggagcccttctgg gagccagactgccagctgatccagctggtgtgggaggacacgtcgcccctggaggatgct gcccctgagctacaggacgcctggttccggaagctcattggctttgtggtcctgcctgcc tttgcgtctgtccacgttctctgtgggttcattgccggacttgagtctgagttcatggag actctgtcggatgaagaagtacttctgtgtctcacccaagtgctccggagagtgacagga aacccacggctccccgcgcccaagagcgtcctgcggtctcgctggcacagcgccccgtac actagggggtcctacagctacgtggccgtgggcagtactgggggcgacctggacctgctg gctcagcccctccctgcagacggcgccggcgcccagctccagatcctgtttgcgggggaa gccacacatcgcacgttttactccacgacgcacggggctctgctgtcgggatggagggag gccgaccgcctcctcagtctgtgggccccgcagtcccgccccgacgctcgacccaccatt cgtccctccctctgggcccgggccccgcccactccgggcttcgccggaggcggaggcaac gtcgtgcgcacgcgcaggccgtggtgcggccccttggagcgccggaagcccgcagtgccg gaggcccgcagcgccggaacctcagaggcgggtcgcagcggcgcagaggaggtcagctgc gggagcgtttccggggacggtgccgccatgagattgaccccgcgcgcgctgtgcagcgcc gcccaggccgcctggcgggagaacttccccctgtgcggtcgcgacgtggcgcgctggttc ccgggccacatggccaaggggctgaagaagatgcagagcagcctgaagctggtggactgt atcatcgaggaaacccttgggcttaagcctcacttgctggtcctcaacaagatggacttg gcggatcttacagagcagcagaaaattatgcaacacttagaaggagaaggcctaaaaaat gtcatttttaccaactgtgtaaaggatgaaaatgtcaagcagatcatcccgatggtcact gaactgattgggagaagccaccgctaccaccgaaaagagaacctggagtactgtatcatg gtcattggggtccccaacgtgggcaagtcctccctcatcaactccctccggaggcagcac ctcaggaaagggaaagccaccagggtgggtggcgagcctgggatcaccagagctgtgatg tccaaaattcaggtctctgagcggcccctgatgttcctgttggacactcctggcgtgctg gctcctcggattgaaagtgtggagacaggcctgaagctggccctgtgtggaacggtgctg gaccacctggtcggggaggagaccatggctgactacctgctgtacaccctcaacaaacac cagcgctttgggcggtttcagtgtccaggtgcgctgcagtctgtcccttcacccgttgat ggatatgtgggttgtttgcaggttttggctattgcagataaagctgctgtgaacattcat gtaccgacaggtctttgtgtagatccgggctttcgtttcccttgggttaatacctag >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_9|100_aa MKKWKNLNRSIISNKIKAVIKRLSSKKIPGPDGFTAELSTVKEELVSTVLKLFKKTEGGN TSKVTVYGIILLQKPDKDTAEKENDRPISLMNTDAEILNK >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_9|303_bp atgaagaaatggaaaaacttgaacagatcgataataagtaacaagatcaaagcagtaata aaacgtctttcatcaaagaaaatcccaggtcctgatggcttcactgctgaactatcaaca gttaaggaagaactagtatcaactgtactcaaactattcaaaaaaactgaaggggggaac acttccaaagtcactgtatatggcattatcctcctacaaaaaccagacaaggatacggca gaaaaagaaaacgacaggccaatatccctgatgaacacagatgcagaaatcctcaacaaa tga >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_10|72_aa MSEPEDTATETTKQAQSFTELRWGKAKQPDARLPDARLPDTHVPDTRLPDTRVPTPACPT PACLITACLIPT >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_10|219_bp atgagtgaacccgaagacacagcaacagaaaccacaaaacaggcacaaagctttactgag ctgcggtggggcaaagccaagcagcctgacgcccgcctgcccgacgcccgcctgcccgac acccacgtgcccgacacccgcctgcccgacacccgcgtgccgacacccgcctgcccgaca cccgcgtgcctgataactgcgtgcctgatacccacgtga >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_11|190_aa MEEHSMLIGRKNQYCENGHTAQAFLEHQGTLEAADSELMLGASEKLDLEPVLLRVLMLLW ALSSCLALLGLGENTAQTPSRVERMQVYWLPGSYRVPSLAANRPMCRYVQHYGLGSACDN VERVLKSVAVKLGKTQKVKVLTGTGNVNIIQPNYPAAARDFLQTFRRGLLGSVMLDLDVL RGHPPAETLP >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_11|573_bp atggaagaacattccatgctcattggtaggaagaatcaatattgtgaaaatggccatact gcccaagcttttttggagcaccagggcacccttgaggctgctgattcagagctcatgctt ggtgcctccgagaagttagatttagaacctgtgttactcagggttctgatgctcctatgg gctctgagctcatgtcttgctttgctgggccttggggaaaacaccgctcaaacacccagc cgggtggagaggatgcaggtgtactggctgcctggaagttaccgagtgccatccttagca gcaaacagacctatgtgcaggtacgtgcagcactacggcctgggcagtgcctgtgacaac gtagagcgcgtgctgaagagtgtggctgtgaagctggggaagacgcagaaggtgaaggtg ctcacgggcacgggtaacgtgaacattattcagcctaactatcctgcggcagcccgtgac ttcctgcagactttccgccgtgggctgctgggttccgtgatgctggacctcgacgtcctg cggggccaccccccggctgagactttgccctga >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_12|184_aa MGLVQAPSPLRTSALIPGHQGSQGDGPGFSPTKMNWAPATCWALLLAAAFLCDSGAAKGG RGGARGSARGGVRGGARGASRVRVRPAQRYGAPGSSLRVAAAGAAAGAAAGAAAGLAAGS GWRRAAGPGERGLEDEEDGVPGGNGTGPGIYSYRAWTSGAGPTRGPRLCLVLGGALGALG LLRP >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_12|555_bp atggggctggtacaagcaccctctccgctcaggacctcggccctcatcccagggcaccag ggctcacagggggatgggcccgggtttagccccacgaagatgaactgggcacccgcaacg tgctgggctctgctactggcggccgccttcctctgcgacagcggcgcagccaagggcggc cgcggaggtgcgcggggcagtgcccggggaggggtccgcgggggtgcgcgcggggcctcg agggtgcgcgtgaggccggcgcagcgctacggtgccccgggctcctccctgcgcgtggct gccgccggggcggcagccggggcggcggcgggagcggccgcgggcctggcggcgggctcg ggctggagaagggccgcgggacccggggaacgcggcctggaggacgaggaggacggggtg cccggaggcaacgggacaggccccggcatctacagctaccgggcgtggacttcgggcgct ggacccacgcgcggcccgcgtctctgtctcgtgctgggcggcgccctcggagccctgggg ctgctgcggccctag >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_13|228_aa MVVARAGSPANSFGTVTEVYRVSSTESLARKSGRVPVDKWNSWVTLDPAFYHPSLTGARG SELAAAPGPPGLRVETKVTAGPASLADKGIPERPPGHAPPRGSRVTLGLDGPGICPCDCV SVPMSSACRGPTACRLSVCGAPCALLPWGCGVWGTPAAAKYGAGELHALYTEVPTDSLAC RPYRDALTQPMCSPTPTKQVDRQGHDGDKCETTDMLSLHMAACFREAC >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_13|687_bp atggtcgtcgctcgtgctgggagtccggccaacagctttgggacggtgaccgaggtgtac agggtctccagcaccgagagtttggccaggaagagcggccgggtccccgtggacaagtgg aattcctgggtgacccttgacccagccttctaccacccctccctcaccggcgctcggggg tctgagctggcggctgctccaggcccacctggtcttcgcgtggagaccaaggtcacggcg ggccccgcctccctcgcagacaaaggcatcccagagagacccccaggccatgcaccaccc cggggcagccgggtcaccctgggcttggacggccctggcatctgtccttgtgactgtgtg tctgtgcctatgagctctgcatgcaggggccccacggcctgcaggctttcggtatgtgga gcaccctgtgctctgctgccgtggggctgtggggtgtgggggaccccagctgctgccaag tatggagcaggagagcttcacgccctttacacagaggtgcccacggacagcctggcatgc aggccctacagagatgctctcacacagcccatgtgctcccccacacctaccaaacaagtg gacagacaaggccatgacggggacaaatgtgaaaccacagacatgctgtccctccacatg gccgcctgcttcagggaagcttgttga >gi568815588r:133262871_133473333|GENSCAN_predicted_peptide_14|937_aa MRAALWTLGLGPLLLNLWAVPIGGPGALRLAYRHSTCDGVVLVRHHGAWGYVCNQEWTLA EASVVCRQLGCGPAVGAPKYVPLPGEMAQPWLHNVSCRGNESSLWECSLGSWCQSPCPHA WVVVALCSNGTFRELRLVKGRSPCAGLPEIRNVNGVDRLCVLHVEEAMVFCRELGCGPVL QAPRRDVGVVRKYLACRGTEPTIRSCRLDNNFRSGCDLRLDAEVVCSGHTEARLVGGEHP CAGRLEVTWGTVCDAALDLATAHVVCRELQCGAVVSTPEGARFGRGSGPVWTEAFRCAGN ESLLFHCPRGRGSQCGHGHDAGLRCSEFRMVNGSSSCEGRVEFQVQGSWAPLCATHWDIA DATVLCHQLNCGNAVAAPGGGHFGDGDAAIWPDAFHCEGTESYLWNCPVSTLGAPACAPG NTASAVCSGLAHALRLREGQSRCDGRVEVSLDGVWGRVLDDAWDLRGAGVVCRQLGCRGA QQAYDAPAPSRGSVQVALSRVRCLGTETRLTQCNVSATLQEPAGTSRDAGVVCSGEVGTA SPMARRHGIPGALTLSLHREPQGAAGRGAGALHGGAWGTVCDDAWDLRDAHVVCRQLGCG RALSALGAAHFGAGAGRIWLDELGCQGHESALWQCPSAGWGRHDWRHKEDAGVFCSESVA LRLRGGTCCCAGWLDVFYNGTWGAMCSNALKDLSLSIICKQLGCGVPLCPCRCPPSHPGP APAVTAAPFAEEGALRVRGGEDRCSGRVELWHAGSWGTVCDDGWDLADAEVVCRQLGCGR AVAALGAAAFGPGSGPVWLDEVGCRGSEASLWGCPAERWGRGDRAHEEDAGVRCWAPFRT FWVVSVVLGSLLGLLLLGLMAFLILPRVTQAMQRGLGRSEVSPGEAIYDVIGEMPPAGLY EEIMEAEAVLQDEEDGSVVKVDTEAAGDKVQLSDTVD >gi568815588r:133262871_133473333|GENSCAN_predicted_CDS_14|2814_bp atgagggcagctctctggaccctgggactcgggccccttcttctgaatctctgggcagtc cccattggtggaccaggtgctctgaggctggcgtacagacacagcacgtgcgacggagtg gtgttggtccgacaccacggggcatggggatacgtgtgcaaccaggagtggacgctggca gaggcctctgtcgtgtgcaggcagctgggctgcggccctgccgtgggcgcccccaagtat gtcccgctgcctggagagatggcccagccctggcttcacaacgtgtcctgccggggcaac gagtcctccctctgggagtgcagccttggctcatggtgccagagcccgtgcccccacgca tgggtggtggtcgcgctgtgctccaacggcactttccgggagctccggctggtgaagggc cgcagtccctgcgcgggactccccgagatcagaaacgtgaatggggtggaccgcctctgt gtcctgcatgtggaggaggccatggtgttctgccgggagctggggtgcggccctgtgctc caggccccccgccgggacgtgggcgtcgtcaggaagtacctggcctgcaggggtaccgag cccaccatccgcagctgcagactggacaacaacttccgcagcggctgcgacctgcggctg gacgcagaggtggtctgctcaggacacaccgaggcccgactggtgggcggcgagcacccc tgcgccgggcgcctggaggtgacctggggcaccgtctgtgatgcggccctggacctggcc acggcccacgtggtgtgccgggagctgcagtgtggggcggtcgtgtccacgcccgagggc gcccgcttcggccggggctcggggccggtgtggacggaggccttccgctgtgcgggcaac gagtcgctgctgttccactgcccacgggggcgtgggagccagtgtgggcatggtcacgac gcggggctcaggtgctcagagttcaggatggtcaacggcagcagcagctgtgagggccgc gtggagttccaggtgcaggggtcctgggcacccctctgtgccacccactgggacatagca gatgccaccgtcctctgccaccagctcaactgtggcaacgcggtggccgcacctggagga ggccattttggggacggggacgctgccatctggcctgatgcctttcactgtgaggggaca gagtcctacttgtggaattgcccagtaagcaccctgggggccccggcctgtgccccggga aacacagcctccgcggtctgctcaggtctggcccacgccctgcgactgagggaaggacag agccgctgtgacggccgcgtggaggtctccctggatggcgtgtggggccgcgtcctggac gatgcctgggacctgcgcggcgcgggcgtggtgtgccggcaactcgggtgcagaggggcc cagcaagcctatgacgcacctgcccccagccgcggatccgtccaggtggcgctgagccgc gtgcgctgtctgggcaccgaaacccgcctgactcagtgcaacgtgtccgcgaccctgcag gagcccgcggggacctcgcgggacgccggcgtggtgtgctccggtgaggtcggaaccgcg tcccccatggcccgtcgccacgggatcccgggcgccctgactctgtctctccacagggag cctcagggtgcggctggccgcggggccggggcgctgcacgggggcgcgtggggcaccgtg tgtgacgatgcctgggacctgcgggacgcgcacgtggtctgcaggcagctgggctgtggc cgcgccctgagcgccctgggggccgcacacttcggagccggggcagggcgcatctggctg gacgagctgggctgccagggccacgagtctgcgctgtggcagtgcccgtcggcgggctgg gggcggcacgactggaggcacaaggaggacgccggcgtcttctgctcagagtcggtggct ctgaggctgcgaggtgggacctgctgctgtgctgggtggctggacgtgttctacaatggg acctggggcgccatgtgcagcaatgccctgaaggacctctccttgtccatcatctgcaag cagctggggtgtggggtacccctctgtccttgtcgctgtcctccttcccatcccggtcca gcccccgcagtgaccgcagccccttttgcagaggagggcgcactgcgcgtgcgcgggggc gaggaccgctgctccgggcgcgtggagctctggcacgcgggctcctggggcaccgtgtgc gacgatggctgggacctggcggacgcggaggtcgtgtgccgccagctgggctgtggtcgg gccgtcgccgccctgggggccgccgcctttggccctggctccgggcccgtgtggctggac gaggtggggtgccggggcagcgaggcgtccctgtggggctgccctgcggagcggtgggga cgcggagaccgcgcgcacgaggaggacgcgggcgtgcgctgctgggctcccttccggaca ttctgggtggtcagtgtcgtcctgggatcccttcttggtcttctccttctgggcctcatg gcttttctgattctgcctcgagtcacacaagccatgcagaggggtctgggaagatccgag gtatctcctggagaagccatctatgatgtcattggggaaatgccgccagcaggactgtac gaggaaatcatggaggccgaggctgtgctccaagatgaggaggacggaagtgtggtgaag gtggacacagaagccgcaggtgataaagttcagctttctgacactgtagactag