GENSCAN 1.0 Date run: 2-Nov-116 Time: 23:50:08 Sequence gi568815592r:42937691_43152788 : 215098 bp : 50.46% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 30 149 120 2 0 41 92 180 0.878 13.89 1.02 Intr + 400 517 118 0 1 14 81 220 0.982 13.94 1.03 Term + 878 1101 224 0 2 79 52 190 0.876 11.58 1.04 PlyA + 4873 4878 6 1.05 2.04 PlyA - 12074 12069 6 1.05 2.03 Term - 14431 14319 113 2 2 76 54 89 0.736 3.02 2.02 Intr - 17133 16905 229 0 1 52 93 59 0.754 0.24 2.01 Init - 19038 18640 399 0 0 101 -53 391 0.957 22.97 2.00 Prom - 20120 20081 40 -8.96 3.00 Prom + 20560 20599 40 -8.86 3.01 Init + 23078 23283 206 1 2 78 80 415 0.999 38.02 3.02 Intr + 24522 24649 128 0 2 83 51 259 0.755 22.02 3.03 Intr + 25072 25188 117 2 0 92 116 100 0.998 13.64 3.04 Intr + 25382 25524 143 0 2 -16 81 236 0.663 12.57 3.05 Intr + 25638 25759 122 2 2 62 66 141 0.997 8.59 3.06 Term + 25845 26016 172 0 1 35 48 232 0.998 11.20 3.07 PlyA + 26166 26171 6 -4.04 4.18 PlyA - 26205 26200 6 1.05 4.17 Term - 26781 26645 137 1 2 100 49 200 0.997 15.48 4.16 Intr - 27239 27100 140 1 2 80 105 84 0.986 9.41 4.15 Intr - 27462 27385 78 2 0 89 29 97 0.703 2.57 4.14 Intr - 27678 27562 117 2 0 106 80 56 0.986 6.18 4.13 Intr - 28099 27991 109 2 1 112 91 6 0.989 2.64 4.12 Intr - 28415 28354 62 1 2 97 113 32 0.982 4.98 4.11 Intr - 28757 28552 206 2 2 68 37 152 0.886 6.10 4.10 Intr - 28967 28814 154 1 1 83 59 131 0.965 9.77 4.09 Intr - 29168 29092 77 2 2 114 90 57 0.998 6.81 4.08 Intr - 29873 29678 196 1 1 118 73 108 0.695 11.72 4.07 Intr - 30808 30600 209 1 2 100 80 221 0.887 20.38 4.06 Intr - 31081 30963 119 2 2 121 60 24 0.662 3.08 4.05 Intr - 31765 31630 136 1 1 93 64 21 0.873 0.34 4.04 Intr - 32297 32195 103 1 1 97 77 71 0.996 7.08 4.03 Intr - 36396 36313 84 2 0 98 85 33 0.884 2.94 4.02 Intr - 37348 37185 164 1 2 53 71 148 0.999 8.37 4.01 Init - 41460 40579 882 0 0 119 91 422 0.732 38.06 4.00 Prom - 43693 43654 40 -9.65 5.00 Prom + 43973 44012 40 -9.85 5.01 Init + 46988 47014 27 1 0 97 105 36 0.861 5.80 5.02 Intr + 51921 52034 114 2 0 135 50 133 0.425 14.84 5.03 Intr + 68872 68989 118 0 1 40 75 180 0.119 11.94 5.04 Intr + 69221 69420 200 0 2 34 52 313 0.985 21.37 5.05 Intr + 69506 69616 111 1 0 29 81 99 0.897 3.88 5.06 Intr + 69724 69816 93 0 0 93 68 95 0.980 8.16 5.07 Intr + 70245 70375 131 2 2 107 94 207 0.999 22.69 5.08 Intr + 70511 70570 60 2 0 70 94 125 0.998 9.15 5.09 Intr + 70677 70785 109 0 1 71 99 121 0.998 11.79 5.10 Intr + 71367 71537 171 2 0 101 94 181 0.999 20.14 5.11 Intr + 71632 71759 128 0 2 93 80 100 0.999 9.18 5.12 Intr + 72778 72879 102 1 0 104 81 82 0.997 8.39 5.13 Intr + 72974 73046 73 2 1 101 94 71 0.981 8.41 5.14 Intr + 73191 73307 117 2 0 73 75 109 0.998 8.76 5.15 Term + 73459 73596 138 0 0 82 46 269 0.999 20.06 5.16 PlyA + 74252 74257 6 1.05 6.04 PlyA - 74424 74419 6 1.05 6.03 Term - 74931 74780 152 1 2 59 47 53 0.956 -3.63 6.02 Intr - 75338 75236 103 2 1 77 98 109 0.970 10.55 6.01 Init - 75658 75425 234 1 0 103 91 259 0.769 25.84 6.00 Prom - 76146 76107 40 -11.04 7.00 Prom + 77306 77345 40 -5.36 7.01 Init + 79503 79656 154 2 1 19 115 113 0.819 7.25 7.02 Intr + 79697 80005 309 0 0 51 70 315 0.862 22.28 7.03 Intr + 80163 80278 116 1 2 94 96 101 0.999 11.67 7.04 Intr + 80455 80526 72 0 0 116 52 16 0.569 0.40 7.05 Intr + 80653 80866 214 0 1 106 76 136 0.999 12.49 7.06 Intr + 80943 81029 87 1 0 134 63 126 0.993 14.64 7.07 Intr + 81173 81281 109 0 1 48 66 58 0.604 -1.06 7.08 Intr + 81402 81475 74 0 2 83 83 38 0.560 1.85 7.09 Intr + 81598 81676 79 2 1 68 92 46 0.822 1.61 7.10 Intr + 82977 83039 63 0 0 109 49 101 0.545 6.13 7.11 Intr + 83901 84094 194 0 2 -86 60 314 0.526 10.34 7.12 Intr + 87295 87442 148 2 1 102 115 64 0.999 9.79 7.13 Intr + 87573 87639 67 0 1 96 116 26 0.999 5.11 7.14 Intr + 88347 88451 105 2 0 117 59 98 0.980 10.21 7.15 Intr + 89670 89787 118 2 1 121 82 143 0.893 17.04 7.16 Term + 91402 91538 137 2 2 79 38 161 0.989 8.38 7.17 PlyA + 92306 92311 6 1.05 8.26 PlyA - 96232 96227 6 1.05 8.25 Term - 100321 99998 324 1 0 98 41 198 0.577 10.86 8.24 Intr - 100782 100577 206 1 2 47 70 300 0.998 23.02 8.23 Intr - 101002 100876 127 1 1 60 69 139 0.999 9.45 8.22 Intr - 101297 101152 146 0 2 108 32 119 0.999 8.30 8.21 Intr - 102736 102466 271 1 1 73 44 207 0.869 11.91 8.20 Intr - 103056 102840 217 2 1 46 109 263 0.991 22.71 8.19 Intr - 103385 103225 161 2 2 79 81 169 0.997 14.09 8.18 Intr - 105294 105112 183 0 0 125 87 120 0.998 15.58 8.17 Intr - 105490 105384 107 2 2 101 80 103 0.993 10.73 8.16 Intr - 105940 105758 183 2 0 72 81 161 0.964 13.56 8.15 Intr - 107195 107062 134 1 2 109 51 201 0.999 18.79 8.14 Intr - 107712 107537 176 0 2 41 75 118 0.978 4.54 8.13 Intr - 107992 107897 96 1 0 83 75 176 0.992 16.01 8.12 Intr - 108401 108296 106 1 1 54 66 108 0.825 5.42 8.11 Intr - 108717 108546 172 1 1 114 93 355 0.999 37.60 8.10 Intr - 108911 108821 91 2 1 90 17 74 0.982 0.07 8.09 Intr - 109417 109190 228 1 0 103 71 270 0.997 24.87 8.08 Intr - 110563 110458 106 0 1 101 65 178 0.994 17.02 8.07 Intr - 110879 110642 238 0 1 83 78 229 0.983 18.07 8.06 Intr - 111972 111717 256 0 1 40 98 406 0.997 33.82 8.05 Intr - 112469 112273 197 0 2 59 65 170 0.931 10.93 8.04 Intr - 112708 112570 139 1 1 123 83 120 0.983 15.04 8.03 Intr - 113778 113278 501 0 0 34 109 494 0.958 39.28 8.02 Intr - 114073 113922 152 2 2 13 91 159 0.971 8.58 8.01 Init - 115098 114519 580 0 1 93 81 730 0.960 68.12 8.00 Prom - 116362 116323 40 -13.61 9.07 PlyA - 116569 116564 6 1.05 9.06 Term - 116796 116584 213 0 0 77 40 185 0.988 9.83 9.05 Intr - 117928 117855 74 2 2 34 89 71 0.984 0.93 9.04 Intr - 118317 118207 111 1 0 30 80 65 0.511 0.25 9.03 Intr - 118755 118621 135 1 0 79 19 235 0.933 16.24 9.02 Intr - 120543 120375 169 0 1 70 75 134 0.696 9.82 9.01 Init - 121691 121596 96 2 0 55 89 163 0.785 11.41 9.00 Prom - 121837 121798 40 -12.68 10.00 Prom + 121874 121913 40 -16.42 10.01 Init + 121941 121995 55 2 1 103 109 99 0.879 14.95 10.02 Intr + 122365 122548 184 2 1 74 35 119 0.923 4.05 10.03 Intr + 123621 123903 283 0 1 118 94 263 0.992 27.32 10.04 Intr + 125227 125457 231 0 0 10 109 409 0.990 33.17 10.05 Intr + 125543 125641 99 1 0 71 91 50 0.924 3.91 10.06 Intr + 127930 128011 82 0 1 125 68 153 0.999 16.21 10.07 Intr + 128631 128835 205 1 1 24 85 273 0.775 18.86 10.08 Intr + 129306 129393 88 0 1 120 13 89 0.986 4.57 10.09 Intr + 132664 132765 102 0 0 33 75 203 0.999 13.87 10.10 Intr + 133002 133175 174 2 0 131 60 318 0.997 33.44 10.11 Intr + 133585 133684 100 0 1 104 101 52 0.991 7.78 10.12 Intr + 133877 133929 53 0 2 95 87 66 0.998 5.83 10.13 Intr + 134162 134232 71 1 2 127 99 56 0.994 8.58 10.14 Intr + 134457 134565 109 0 1 109 71 74 0.991 8.09 10.15 Intr + 135134 135274 141 1 0 87 98 115 0.999 12.95 10.16 Intr + 135533 135610 78 1 0 77 73 67 0.810 3.85 10.17 Term + 137074 137085 12 0 0 112 49 4 0.442 -2.90 10.18 PlyA + 137382 137387 6 1.05 11.00 Prom + 137426 137465 40 -12.40 11.01 Init + 138799 138877 79 0 1 93 101 191 0.892 20.12 11.02 Intr + 159069 159186 118 1 1 75 96 27 0.008 1.72 11.03 Intr + 159472 159635 164 1 2 111 72 7 0.003 1.02 11.04 Intr + 179507 179615 109 0 1 75 94 53 0.010 3.94 11.05 Intr + 182889 182938 50 0 2 74 101 28 0.841 1.02 11.06 Intr + 191287 191574 288 2 0 145 45 422 0.982 40.82 11.07 Intr + 192037 192139 103 2 1 89 99 72 0.999 7.63 11.08 Intr + 192540 192730 191 0 2 123 93 185 0.999 21.73 11.09 Intr + 192821 192971 151 0 1 103 99 112 0.999 13.02 11.10 Intr + 194344 194474 131 1 2 81 109 172 0.675 18.94 11.11 Intr + 194731 195029 299 2 2 104 34 364 0.242 29.19 11.12 Intr + 198723 198792 70 2 1 79 80 63 0.637 3.35 11.13 Intr + 201159 201292 134 1 2 94 78 122 0.999 12.16 11.14 Intr + 201446 201581 136 1 1 83 80 222 0.999 21.04 11.15 Intr + 201716 201835 120 0 0 66 94 136 0.990 12.47 11.16 Intr + 203978 204127 150 0 0 112 80 143 0.999 16.03 11.17 Intr + 204241 204391 151 2 1 101 91 260 0.999 26.82 11.18 Intr + 204482 204609 128 2 2 100 47 267 0.962 24.12 11.19 Intr + 205727 205930 204 0 0 84 89 389 0.999 37.77 11.20 Intr + 206761 206916 156 2 0 139 71 173 0.999 20.68 11.21 Intr + 207510 207742 233 1 2 36 72 304 0.884 21.09 11.22 Intr + 208928 209008 81 1 0 81 100 93 0.998 9.63 11.23 Term + 209310 209435 126 2 0 43 48 102 0.902 -0.02 11.24 PlyA + 210404 210409 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 Intr - 166415 166259 157 1 1 87 27 146 0.879 8.41 S.002 Init + 179428 179615 188 0 2 114 94 65 0.933 8.23 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_1|153_aa MSETFETLHNLVHKGVKVVMDIPYELWNETSAEVADLKKQCDVLVEEFEEVIEDWYRNHQ EEDLTEFLCANHVLKGKDTSCLAEQWSGKKGDTAALGGKKSKKKSSRAKAAGGRSSSSKQ RKELGGLEGDPSPEEDEGIQKASPLTHSPPDEL >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_1|462_bp atgtcagagacctttgagacattacacaacctggtacacaaaggggtcaaggtggtgatg gacatcccctatgagctgtggaacgagacttctgcagaggtggctgacctcaagaagcag tgtgatgtgctggtggaagagtttgaggaggtgatcgaggactggtacaggaaccaccag gaggaagacctgactgaattcctctgcgccaaccacgtgctgaagggaaaagacaccagt tgcctggcagagcagtggtccggcaagaagggagacacagctgccctgggagggaagaag tccaagaagaagagcagcagggccaaggcagcaggcggcaggagtagcagcagcaaacaa aggaaggagctgggtggccttgagggagaccccagccccgaggaggatgagggcatccag aaggcatcccctctcacacacagcccccctgatgagctctga >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_2|246_aa MKVELCSFSGYKIYPGHGRRYARTDGKVFQFLNAKCELAFLSKRNPRQINWTVLYRRKHK KGQSEEIQKKRTRRAVKFQRAITGASLADITAKRNQKPEVRKTRREQAIRAAKEAKKAKQ ASKKTAMAAAKAGKGYPRQQFCHESTLNKGDRVIYNLTRPPYCCVRFPLAGMGLHILYLS RLASNLELLKEAKAEENKGRGSNLWNAEKETIKLQLIMQQSFQPVPGEDITPGHQKATLP PLDRAG >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_2|741_bp atgaaggtcgagctgtgcagttttagcgggtacaagatctaccccggacacgggaggcgc tacgccaggaccgacgggaaggttttccagtttcttaatgcgaaatgcgagttggcgttc ctttccaagaggaatcctcggcagataaactggactgtcctctacagaaggaagcacaaa aaggggcagtcggaagaaattcaaaagaaaagaacccgccgagcagtcaaattccagagg gccattactggtgcatctcttgctgatataacggccaagaggaatcagaaacctgaagtt agaaagactcgacgagaacaagctatcagggctgctaaggaagcaaaaaaggctaagcaa gcatctaaaaagactgcaatggctgctgctaaggctggaaaagggtaccctcgtcagcag ttttgccatgagagtacactgaacaaaggagacagggtcatttataacctgacgcgtcca ccctactgctgtgtccggtttccattggctggaatgggacttcacattttgtatttgtcc cgattggctagcaacttagaacttttaaaagaggcaaaggcagaggagaacaaaggaagg ggaagtaacttgtggaatgctgagaaagagaccatcaagcttcagctgatcatgcaacaa agcttccagccagttccaggtgaagacatcacccctggccatcaaaaagctaccctgcct ccactagacagagcagggtga >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_3|295_aa MVDSVYRTRSLGVAAEGLPDQYADGEAARVWQLYIGDTRSRTAEYKAWLLGLLRQHGCQR VLDVACGTGVDSIMLVEEGFSVTSVDASDKMLKYALKERWNRRHEPAFDKWVIEEANWMT LDKDVPQSAEGGFDAVICLGNSFAHLPDCKGDQSEHRLALKNIASMVRAGGLLVIDHRNY DHILSTGCAPPGKNIYYKSDLTKDVTTSVLIVNNKAHMVTLDYTVQVPGAGQDGSPGLSK FRLSYYPHCLASFTELLQAAFGGKCQHSVLGDFKPYKPGQTYIPCYFIHVLKRTD >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_3|888_bp atggtggacagcgtgtaccggacccgctccctgggggtggcggccgaagggctcccggac cagtacgcggacggggaggcggcgcgcgtgtggcagctgtatatcggagacacccgcagc cgcaccgccgagtacaaggcatggctgcttgggctgctgcgccagcacggctgccagcgg gtgctcgacgtagcctgtggcactggggtggactccattatgctggtggaagagggcttc agtgtgacgagtgtggatgccagtgacaagatgctgaagtatgcacttaaggagcgctgg aaccggcggcacgagcccgccttcgacaagtgggtcatcgaagaagccaactggatgact ctggacaaagatgtgccccagtcagcagagggtggctttgatgctgtcatctgccttgga aacagtttcgctcacttgccagactgcaaaggggaccagagtgagcaccggctggcgctg aaaaacattgcgagcatggtgcgggcagggggcctactggtcattgatcatcgcaactac gaccacatcctcagtacaggctgtgcacccccagggaagaacatctactataagagtgac ttgaccaaggacgtcacaacatcagtgctgatagtgaacaacaaggcccacatggtgacc ctggactatacggtgcaggtgccgggggctggccaggatggctctcctggcttgagtaag ttccggctctcctactacccacactgtctggcatccttcacggagctgctccaagcagcc ttcggaggtaagtgccagcacagcgtcctgggcgacttcaagccttacaagccaggccaa acctacattccctgctacttcatccacgtgctcaagaggacagactga >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_4|990_aa MALAVLRVLEPFPTETPPLAVLLPPGGPWPAAELGLVLALRPAGESPAGPALLVAALEGP DAGTEEQGPGPPQLLVSRALLRLLALGSGAWVRARAVRRPPALGWALLGTSLGPGLGPRV GPLLVRRGETLPVPGPRVLETRPALQGLLGPGTRLAVTELRGRARLCPESGDSSRPPPPP VVSSFAVSGTVRRLQGVLGGTGDSLGVSRSCLRGLGLFQGEWVWVAQARESSNTSQPHLA RVQVLEPRWDLSDRLGPGSGPLGEPLADGLALVPATLAFNLGCDPLEMGELRIQRYLEGS IAPEDKGSCSLLPGPPFARELHIEIVSSPHYSTNGNYDGVLYRHFQIPRVVQEGDVLCVP TIGQVEILEGSPEKLPRWREMFFKVKKTVGEAPDGPASAYLADTTHTSLYMGWLWRKNLQ QGHLFLRLPFPLGSSLAILHFTALALKDTTPHTSGPGPSTSAQWVRHIPMMLSYGEVLSR RRELQDIGGQSREWDRVPCSSLCAESSGAVETKLQAIFSRARRCRPAVLLLTAVDLLGRD RDGLGEDARVMAVLRHLLLNEDPLNSCPPLMVVATTSRAQDLPADVQTAFPHELEVPALS EGQRLSILRALTAHLPLGQEVNLAQLARRCAGFVVGDLYALLTHSSRAACTRIKNSGLAG GLTEEDEGELCAAGFPLLAEDFGQALEQLQTAHSQAVGAPKVETKSLEIPSVSWHDVGGL QEVKKEILETIQLPLEHPELLSLGLRRSGLLLHGPPGTGKTLLAKAVATECSLTFLSVKG PELINMYVGQSEENVREVFARARAAAPCIIFFDELDSLAPSRGRSGDSGGVMDRVVSQLL AELDGLHSTQDVFVIGATNRPDLLDPALLRPGRFDKLVFVGANEDRASQLRVLSAITRKF KLEPSVSLVNVLDCCPPQLTGADLYSLCSDAMTAALKRRVHDLEEGLEPGSSALMLTMED LLQAAARLQPSVSEQELLRYKRIQRKFAAC >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_4|2973_bp atggcgctggctgtcttgcgggtcctggagccctttccgaccgagacacccccgttggca gtgctgctgccacccgggggcccgtggccggcggcggagctgggcctggtgctggccctg aggcctgcaggggagagcccggcagggccggcgctgctggtggcagccctggaggggccg gacgcgggcaccgaagagcagggtcccgggccgccgcagctactggttagccgcgcgctg ctgcggctcctggcactgggctccggggcctgggtgcgggcgcgggcggtgcggcggccc ccggcgctaggttgggcactgcttggcacctcgctggggcctgggctcggaccgcgagtc gggccgctgctggtgaggcgcggagagaccctcccagtgcccggaccgcgggtgctggag acgcggccggcgttgcaagggctgctgggcccagggactcggctggctgtgactgagctc cgcgggcgggccagactgtgtccagagtctggggacagcagtcggcccccacccccgccc gtggtgtcctcctttgcggtttctggcacagtgcggcgactccagggagttctgggaggg actggagattcactaggggtgagccggagctgtctccgtggccttggcctcttccagggc gaatgggtgtgggtggcccaggccagagagtcatcgaacacttcacagccgcacttggct agggtgcaggtcctagaacctcgctgggacctctctgatagactgggacccggctctgga ccgctgggagagcccctcgctgacggactggcgcttgtccctgccactttggcttttaat cttggctgtgaccccctggaaatgggagagctcagaattcagaggtacttggaaggctcc atcgcccctgaagacaaaggaagctgctcattgctgcctgggcctccatttgccagagag ttacacatcgaaattgtgtcttctccccactacagcactaatggaaattatgacggtgtt ctttaccggcactttcagatacccagggtagtccaggaaggggatgttctatgtgtgcca acaattgggcaagtagagatcctggaaggaagtccagagaaactgcccaggtggcgggaa atgttttttaaagtgaagaaaacagttggggaagctccagatggaccagccagtgcctac ttggccgacaccacccatacctccttgtacatgggctggctctggaggaagaatctccag caggggcatctgtttctgagactgcccttccccttggggagctcactggccatcctgcac tttactgccctggccctgaaggacacaactcctcataccagtggcccaggccctagcact tcagcccagtgggtcaggcatattcccatgatgctgagctatggagaggtactttcaagg aggagggagttgcaagatattggtggacagtccagggaatgggatagggtgccctgctcc agcctctgtgcagaaagtagtggggctgtggagacaaaactgcaggccatcttctcccgg gcccgccgttgccggcctgcagtcctgttgctcacagctgtggaccttctgggccgggac cgtgatgggctgggtgaggatgcccgtgtgatggctgtgctgcgtcacctcctcctcaat gaggaccccctcaacagctgccctcccctcatggttgtggccaccacaagccgggcccag gacctgcctgctgatgtgcagacagcatttcctcatgagctcgaggtgcctgctctgtca gaggggcagcggctcagcatcctgcgggccctcactgcccaccttcccctgggccaggag gtgaacttggcacagctagcacggcggtgtgcaggctttgtggtaggggatctctatgcc cttctgacccacagcagccgggcagcctgcaccaggatcaagaactcaggtttggcaggt ggcttgactgaggaggatgagggggagctgtgtgctgccggctttcctctcctggctgag gactttgggcaggcactggagcaactgcagacagctcactcccaggccgttggagccccc aaggtggagaccaagtccttggagatcccctcagtgtcctggcatgatgtgggtgggctg caggaggtgaagaaggagatcctggagaccattcagctccccctggagcaccctgagcta ctgagcctgggcctgagacgctcaggccttctgctccatgggccccctggcaccggcaag acccttctggccaaggcagtagccactgagtgcagccttaccttcctcagcgtgaagggg ccagagctcattaacatgtatgtgggccaaagtgaggagaatgtgcgggaagtgtttgcc agggccagggctgcagctccatgcattatcttctttgatgaactggactctttggcccca agccgggggcgaagtggagattctggaggagtgatggacagggtggtgtctcagctcctt gccgagctagatgggctgcacagcactcaggatgtgtttgtgattggagccaccaacaga ccagatctcctggaccctgcccttctgcggcctggcagatttgacaagctggtgtttgtg ggggcaaatgaggaccgggcctcccagctacgcgttctaagtgccatcacacgcaaattc aagctagagccatctgtgagcctggtaaacgtgctagattgctgccctccccagctgacg ggcgcggacctctactctctctgctctgatgctatgacagctgccctcaaacgcagggtt catgacctggaggaagggctggagccaggtagctcagcactgatgctcaccatggaggac ttgctgcaggctgccgcccggctgcaaccctcagtcagtgagcaggagctgctccggtac aagcgcatccagcgcaagtttgctgcctgctag >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_5|563_aa MPYKLKKEKEPPKVAKCTAKPSSSGKDGGGENTEEVMNVGVALDVVQLSKIKYSGGPQIV KKERRQSSSRFNLSKNRELQKLPALKDSPTQEREELFIQKLRQCCVLFDFVSDPLSDLKF KEVKRAGLNEMVEYITHSRDVVTEAIYPEAVTMFSVNLFRTLPPSSNPTGAEFDPEEDEP TLEAAWPHLQLVYEFFLRFLESPDFQPNIAKKYIDQKFVLALLDLFDSEDPRERDFLKTI LHRIYGKFLGLRAYIRRQINHIFYRFIYETEHHNGIAELLEILGSIINGFALPLKEEHKM FLIRVLLPLHKVKSLSVYHPQVIVGLLKFWPKTHSPKEVMFLNELEEILDVIEPSEFSKV MEPLFRQLAKCVSSPHFQVAERALYYWNNEYIMSLISDNAARVLPIMFPALYRNSKSHWN KTIHGLIYNALKLFMEMNQKLFDDCTQQYKAEKQKGRFRMKEREEMWQKIEELARLNPQY PMFRAPPPLPPVYSMETETPTAEDIQLLKRTVETEAVQMLKDIKKEKVLLRRKSELPQDV YTIKALEAHKRAEEFLTASQEAL >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_5|1692_bp atgccctataaactgaaaaaggagaaggagccccccaaggttgccaaatgcacagccaag cctagcagctcgggcaaggatggtggaggcgagaacactgaggaggtaatgaatgtaggc gtagccttagatgtggtgcagctcagcaaaatcaagtactcaggggggccccagattgtc aagaaggagcgacggcaaagctcctcccgcttcaacctcagcaagaatcgggagctgcag aagcttcctgccctgaaagattcgccaacccaggagcgggaggagctgtttatccagaag ctacgccagtgctgtgtcctctttgacttcgtgtcagacccactcagtgacctcaaattc aaggaggtgaagcgggcaggactcaacgagatggtggagtacatcacccatagccgtgat gttgtcactgaggccatttaccctgaggctgtcaccatgttttcagtgaacctcttccgg acgctgccaccttcatcgaatcccacaggggctgagtttgacccagaggaagatgagccc accctggaagctgcttggccacatctccagctcgtgtatgagttcttcttacgtttcctt gagtctcctgatttccagccaaacatagccaagaagtacatcgaccagaagtttgtactt gctctcctagacctatttgacagtgaggatcctcgagagcgggacttcctcaagaccatt ttgcatcgcatctatggcaagtttttggggctccgggcttatatccgtaggcagatcaac cacatcttctacaggttcatctacgagacggagcatcacaacgggattgctgagctcctg gagatcctgggcagcatcatcaatggctttgccctgccccttaaagaagagcacaagatg ttcctcatccgtgtcctacttccccttcacaaggtcaagtccctgagtgtctaccaccct caggtaattgtgggacttctcaagttttggcccaagacccacagccccaaggaggtgatg ttcttgaatgagctggaggagattctggacgtcattgaaccttctgagttcagcaaagtg atggaacccctcttccgccagctggccaagtgtgtctctagcccccatttccaggtggca gagcgtgctctctattactggaacaatgagtacatcatgagcctgataagtgacaatgct gcccgagtcctccccatcatgttccctgcactctacaggaactccaagagccactggaac aagacaatccatggactgatctataatgccctgaagttgtttatggaaatgaatcagaag ctgtttgatgactgcacacaacaatacaaggcagagaagcagaagggccggttccgaatg aaggaaagggaagagatgtggcaaaaaatcgaggagctggcccggcttaatccccagtat cccatgttccgagcccctccaccactgccccctgtgtactcgatggagacagagaccccc acagctgaggacatccagcttctgaagaggactgtggagactgaggctgttcagatgcta aaagacatcaagaaggagaaagtgctgctgcggaggaagtcggagctgccccaggacgtg tacaccatcaaggcactggaggcgcacaagcgggcggaagagttcctaactgccagccag gaggctctctga >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_6|162_aa MGPERIFPNQTEELGHQGPSEGTGDWSSEEPEEEQEETGSGPAGYSYQPLNQDPEQEEVE LAPVGDGDVVADIQDRIQALGLHLPDPPLESEDEDEEGATALNNHSSIPMDPEHVELVKR TMAGVSLPAPGVPAWAREISDAQWEDVVQKALQARQASPAWK >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_6|489_bp atgggccctgagcgtatcttccccaatcagactgaggaactgggacatcagggcccttca gaaggcactggggattggagcagtgaggagcctgaggaagagcaggaggaaacggggtcg ggcccagctggctactcctaccagcccctgaaccaagatcctgaacaagaggaggtggaa ctggcaccagtgggggatggagatgtagttgctgacatccaggatcgaatccaggccctg gggcttcatttgccagacccaccattagagagtgaagatgaagatgaggagggagctaca gcgttgaacaaccacagctctattcccatggacccagaacatgtagagctggtgaaaagg acaatggctggagtaagcctgcctgcgccaggggttcctgcctgggctcgggagatatcg gatgcccagtgggaagatgtggtacagaaagccctccaagcccggcaggcatcccctgcc tggaagtga >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_7|681_aa MLRWTVHLEGGPRRVNHAAVAVGHRVYSFGGYCSGEDYETLRQIDVHIFNAGWERAADEV WLWSLGPRGLGTNIWFGKSGQPGGRFPGLSRAVPTVSLRWTKLPPVKSAIRGQAPVVPYM RYGHSTVLIDDTVLLWGGRNDTEGACNVLYAFDVNTHKWFTPRVSGTVPGARDGHSACVL GKIMYIFGGYEQQADCFSNDIHKLDTSTMTWTLICTKGSPARWRDFHSATMLGSHMYVFG GRADRFGPFHSNNEIYCNRIRVFDTRTEAWLDCPPTPVLPEGRRSHSAFGYNGELYIFGG YNARLNRHFHDLWKFNPVSFTWKKIEPKGKGPCPRRRQCCCIVGDKIVLFGGTSPSPEEG LGDEFDLIDHSDLHILDFSPSLKTLCKLAVIQYNLDQSCLPHDIRWELNAMTTNSNISRP IVSSHGRGRGCRERKRRHSSSERYCQLMPGANYRAGAGAGAGARRPRGARDREEDGGGLE PAAVARDLLRGTSNMSFEELLELQSQVGTKTYKQLVAGNSPKKQASRPPIQNACVADKHR PLEMSAKIRVPFLRQVVPISKKVARDPRFDDLSGEYNPEVFDKTYQFLNDIRAKEKEEQQ EMAQQERKQQQELHLALKQERRAQAQQGHRPYFLKKSEQRQLALAEKFKELKRSKKLENF LSRKRRRNAGKDRRHLPLSKE >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_7|2046_bp atgttacggtggacagtgcacctggagggcgggccccgcagggtgaaccatgctgcagtg gctgtcgggcatcgggtatactccttcgggggttactgctctggtgaagactatgagaca ctgcgtcagatagatgtgcacattttcaatgcagggtgggaacgggctgctgatgaggtt tggctgtggtctctgggaccaaggggattggggacaaacatctggtttgggaaaagtgga cagcctggagggaggttcccagggctgagcagagctgtgcccacagtgtccttgcgttgg acaaagctgcccccggtgaagtctgccatccgtgggcaagctcctgtggtaccctacatg cgctatggacactcaaccgtcctcatcgacgacacagtcctcctttggggcgggcggaat gacaccgaaggggcctgcaatgtgctctatgcctttgacgtcaatacgcacaagtggttc acaccccgagtgtcagggacagttcctggggcccgggatggacattcagcctgtgtccta ggcaagatcatgtacatttttgggggctacgagcagcaggcggactgtttttccaatgac attcacaagctagataccagcaccatgacatggactcttatctgtacaaagggcagccct gcacgctggagggacttccactcagccacaatgctgggaagtcacatgtatgtctttggg ggccgtgccgaccgctttgggccattccattccaacaatgagatttactgcaaccgcatt cgagtctttgacaccagaactgaggcttggctggactgtcccccgactccagtgctgcct gaggggcgccggagccactcggcctttggctacaatggggagctgtacatctttggtggt tataatgcaaggctgaaccggcacttccatgacctctggaagtttaatcctgtgtccttt acctggaaaaagattgaaccgaaggggaaggggccatgtccccgccggcgccagtgctgc tgtattgttggtgacaagattgtcctctttgggggtaccagtccatctcctgaggaaggc ctgggagatgaatttgaccttatagatcattctgacttacacattttggactttagccct agtctgaagactctgtgcaaactggccgtgattcagtataacctagaccagtcctgtttg cctcatgatatcaggtgggagctgaatgccatgaccaccaacagcaatatcagtcgcccc atcgtctcctcccatgggcggggcaggggctgccgtgagcggaagcggcgccattcgtct tccgagcgctactgccagctgatgccgggagctaactaccgcgccggggccggggccggg gccggggcccgacgtccccgcggggcccgggaccgcgaggaggacggcgggggcctggag cccgcggccgtggcccgcgacctattgaggggcacatctaacatgtcatttgaggagctg ttggaattgcagagccaagtggggactaagacgtacaaacaattggtagctggaaatagt cctaagaaacaagcttctagaccacctatccaaaatgcatgtgttgcagataagcacagg cctctggaaatgtcagccaagatccgagtaccatttttacgtcaggttgttcccattagt aaaaaggtagcccgggaccctcgctttgatgatctgtcaggggaatataatcctgaggtg tttgacaaaacataccaattcttgaatgacatccgagcgaaagagaaagaggagcagcaa gaaatggcacagcaggaacgaaagcaacagcaggagctgcacctggccctgaagcaagaa cgtcgggctcaggcccagcagggccatcggccatacttcctgaaaaaatctgagcagcgc cagttggcactagctgagaagttcaaggagctgaaacgcagcaagaaattggagaacttc ttgagtcgaaagaggcgacgaaatgcaggcaaggacaggagacatctccctttgagcaaa gagtaa >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_8|1698_aa MVGELRYREFRVPLGPGLHAYPDELIRQRVGHDGHPEYQIRWLILRRGDEGDGGSGQVDC KAEHILLWMSKDEIYANCHKMLGEDGQVIGPSQESAGEVGALDKSVLEEMETDVKSLIQR ALRQLEECVGTIPPAPLLHTVHVLSAYASIEPLTGVFKDPRVLDLLMHMLSSPDYQIRWS AGRMIQALSSHDAGTRTQILLSLSQQEAIEKHLDFDSRCALLALFAQATLSEHPMSFEGI QLPQVPGRVLFSLVKRYLHVTSLLDQLNDSAAEPGAQNTSAPEELSGERGQLELEFSMAM GTLISELVQAMRWDQASDRPRSSARSPGSIFQPQLADVSPGLPAAQAQPSFRRSRRFRPR SEFASGNTYALYVRDTLQPGMRVRMLDDYEEISAGDEGEFRQSNNGVPPVQVFWESTGRT YWVHWHMLEILGFEEDIEDMVEADEYQGAVASRVLGRALPAWRWRPMTELYAVPYVLPED EDTEECEHLTLAEWWELLFFIKKLDGPDHQEVLQILQENLDGEILDDEILAELAVPIELA QDLLLTLPQRLNDSALRDLINCHVYKKYGPEALAGNQAYPSLLEAQEDVLLLDAQAQAKD SEDAAKVEAKEPPSQSPNTPLQRLVEGYGPAGKILLDLEQALSSEGTQENKVKPLLLQLQ RQPQPFLALMQSLDTPETNRTLHLTVLRILKQLVDFPEALLLPWHEAVDACMACLRSPNT DREVLQELIFFLHRLTSVSRDYAVVLNQLGARDAISKALEKHLGKLELAQELRDMVFKCE KHAHLYRKLITNILGGCIQMVLGQIEDHRRTHQPINIPFFDVFLRYLCQGSSVEVKEDKC WEKVEVSSNPHRASKLTDHNPKTYWESNGSAGSHYITLHMRRGILIRQLTLLVASEDSSY MPARVVVCGGDSTSSLHTELNSVNVMPSASRVILLENLTRFWPIIQIRIKRCQQGGIDTR IRGLEILGPKPTFWPVFREQLCRHTRLFYMVRAQAWSQDMAEDRRSLLHLSSRLNGALRQ EQNFADRFLPDDEAAQALGKTCWEALVSPVVQNITSPDEDGISPLGWLLDQYLECQEAVF NPQSRGPAFFSRVRRLTHLLVHVEPCEAPPPVVATPRPKGRNRSHDWSSLATRGLPSSIM RNLTRCWRAVVEKQVNNFLTSSWRDDDFVPRYCEHFNILQNSSSELFGPRAAFLLALQNG CAGALLKLPFLKAAHVSEQFARHIDQQIQGSRIGGAQEMERLAQLQQCLQAVLIFSGLEI ATTFEHYYQHYMADRLLGVVSSWLEGAVLEQIGPCFPNRLPQQMLQSLSTSKELQRQFHV YQLQQLDQELLKLEDTEKKIQVGLGASGKEHKSEKEEEAGAAAVVDVAEGEEEEEENEDL YYEGAMPEVSVLVLSRHSWPVASICHTLNPRTCLPSYLRGTLNRYSNFYNKSQSHPALER GSQRRLQWTWLGWAELQFGNQTLHVSTVQMWLLLYLNDLKAVSVESLLAFSGLSADMLNQ AIGPLTSSRGPLDLHEQKDIPGGVLKIRDGSKEPRSRWDIVRLIPPQTYLQAEGEDGQNL EKRRNLLNCLIVRILKAHGDEGLHIDQLVCLVLEAWQKGPCPPRGLVSSLGKGSACSSTD VLSCILHLLGKGTLRRHDDRPQVLSYAVPVTVMEPHTESLNPGSSGPNPPLTFHTLQIRS RGVPYASCTATQSFSTFR >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_8|5097_bp atggtgggagaactccgctacagggaattcagggtgcccctggggcccggcttacatgcc tatcctgatgagctgatccgccagcgcgtgggccatgatgggcatcctgagtaccagatc cgttggctcatcctgcggcgtggcgatgagggggacgggggctctggccaagtggactgc aaggctgagcacatcctgctgtggatgtccaaggatgagatctatgccaactgccacaag atgctgggcgaggatggccaggtcatcgggccctcccaggagtctgcaggggaggttggg gccctggacaaatctgtgctggaggagatggaaaccgacgtgaagtccctcattcagaga gcccttcggcagctggaggagtgtgtgggcactatccctcctgctcctctacttcacact gtccacgtgctcagcgcctatgccagcattgagcccctcactggagtattcaaggaccca agggtcctggacttgctcatgcacatgttgagtagtcctgattatcagattcgctggagt gcaggccggatgatacaagccctgtcctcccatgacgctgggacccggactcagatcctt ctgtcactgagccaacaagaagccattgagaaacacctggattttgacagccgctgtgct ctgctagcactgtttgcacaggccacgctctctgaacaccccatgtctttcgagggcatt cagctaccacaggtcccaggaagggtgctcttctccctggtgaagcggtatttgcatgtc acctcgctcctggatcagctgaacgacagtgctgcggagccaggagcccagaacacctct gctcctgaggagttgagtggggagaggggtcaactggagctggagttcagtatggccatg ggcaccctgatctcggagctggtgcaagccatgcgctgggaccaggcctcagacagacca aggagctcagcacggtcccccggttccatcttccagcctcagctggcagatgtgagccca gggctccccgctgcccaggctcagccctccttcaggaggtcaagacgttttcgccctcgt tctgagttcgcaagtggcaatacctatgctttgtatgtgcgggacacactgcagccgggg atgcgagtgcggatgctggatgattatgaggagatcagtgccggggatgagggcgagttt cggcagagcaacaacggtgtgcctcctgtgcaggtattttgggagtcaacaggccgcacc tattgggtgcactggcacatgctggagatcttgggctttgaggaagacattgaggacatg gttgaggctgatgagtaccaaggggcagtggccagtagagtcctgggtagagccctgcct gcctggcgctggaggcccatgacagaactctatgctgtgccttatgtgctgcctgaggat gaggacactgaggagtgtgaacacctgaccctggctgagtggtgggaactcctcttcttc atcaagaagctggatggacctgaccatcaggaggttctccagatcctccaggagaaccta gatggggagattctggatgatgagatcctagctgaactggccgtgcccatagaattggcc caggacttgctgctgactctgccacagcgactcaatgacagtgccctcagggacctgatc aactgccatgtctacaagaagtatgggcctgaagccctagcagggaaccaagcctaccca tcccttctagaagcccaagaagatgtcctcctgctagacgcgcaggcccaggctaaggac tcagaagatgcagccaaagtggaagcaaaagaacccccatctcagagtcccaacactccc ctgcagcgtctggtggagggttatggtccagctgggaaaatcctcctggatctagagcaa gccctcagctcagaggggacccaggagaacaaggtcaagccactcctgctgcagctgcag cggcagccgcagcccttcctggcactgatgcagagcctggacactccggagactaacagg accctgcacctgactgtgctgagaatcctgaagcagctggtggacttccccgaggcactg ctgctcccctggcacgaggccgtggatgcctgcatggcctgcctgcggtccccaaacact gatcgagaggtgctccaggaactgattttcttcctgcaccgcctgacctcagtgagcagg gactatgccgtggtgctgaatcagctgggagcaagagacgctatctccaaggccctggaa aagcacctgggaaagctggagctggctcaggagctgcgggacatggtgttcaagtgtgag aagcatgcccacctctaccgcaaactcatcaccaacatcctgggaggctgcatccagatg gtgctgggccagatcgaagaccacagacgaacccaccaacccatcaacatccctttcttt gatgtgttcctcagatacctgtgccagggctccagtgtggaagtgaaggaggacaagtgc tgggagaaggtggaggtgtcctccaacccgcaccgggccagcaagctgacggaccacaac cccaagacctattgggagtccaacggcagcgccggctcccactacatcaccctgcacatg cgccggggcatcctcatcaggcaactgactctgcttgtggctagtgaggactcgagttac atgccggcccgagtggtggtgtgcgggggtgatagcactagctctcttcacacggaactc aactcggtgaatgtgatgccctctgccagccgggtgatcctcctggagaacctgacccgc ttctggcccatcatccagatccgcataaagcgctgccagcagggtggcattgatacgcgc attcgggggttagagatcctaggccccaagcccacgttctggccagtgttccgggagcag ctctgtcgtcacacacgcctcttctacatggttcgggcacaggcctggagccaggacatg gcagaggaccgcaggagcctcctgcacctgagttctagactcaacggtgctctgcgccag gagcagaattttgctgaccgcttcctccctgatgacgaggctgcccaagctctgggcaag acctgctgggaggccctggtcagccccgtggtgcagaacatcacctcccctgatgaggat ggcattagccccctgggttggctgctggaccagtacctggagtgtcaggaagctgtcttc aacccccagagccgcggcccagctttcttctcgcgggtgcgccgtctcactcacctgctg gtgcatgtcgagccctgtgaggcaccccctcctgtggtggccactcctcggcccaaaggc agaaacagaagccacgactggagctccttggctacccggggccttccaagcagcatcatg agaaacctgacgcgctgttggcgggccgtggtggagaagcaggtgaacaattttctgacc tcatcctggcgggatgatgactttgtgccacgctactgtgagcactttaatattctgcag aactcaagctctgaactgtttgggcctcgggcagccttcttgctggcgctgcaaaatggc tgtgcgggagccttgctgaagctcccttttctcaaagctgcccacgtgagtgagcagttc gcccggcacattgaccagcagatccagggcagccggatcggtggagcccaggaaatggag aggctggcacagctgcagcaatgcctgcaagctgtcctgattttctccggcttggagata gccaccacttttgagcattattaccagcactacatggcggaccgtctcctgggcgtggtc tcgagctggctggagggggccgtgctggagcagatcggtccctgcttccccaaccgcctc ccccagcagatgttgcagagcctgagcacctctaaggagctgcagcgccagttccacgtc taccagctccagcagctggatcaggaactcctgaagctggaggatacagagaagaaaata caggtgggccttggggccagtggcaaggagcacaagagcgagaaggaagaggaagctggg gcagcagcagtggtggatgtggcggagggagaggaggaagaggaggagaatgaggacctc tactatgaaggggcaatgccagaagtgtctgtgcttgtcctgtcccgacactcctggcct gttgcctcaatctgccacacactgaaccccagaacctgcctgccctcctacctgaggggc actttgaacagatactccaacttctacaacaagagtcagagccaccctgcccttgagcga ggctcacagaggcgactgcagtggacgtggctgggctgggctgagctgcagtttgggaac cagaccctgcatgtgtccaccgtgcagatgtggctactgctgtatctcaacgacctgaag gcggtctctgtggagagtctgctggcgttctcagggctctccgcagacatgctcaatcag gcgattgggcccctcacctcttcaagaggccccctggaccttcacgagcaaaaggatata ccaggaggggtcctcaagattcgagatggcagcaaggaacccaggtcgagatgggacatt gtgcggctcatcccacctcagacgtacctgcaagctgagggtgaagacggccagaacttg gagaagagacggaatcttctgaactgcctcatcgtccgaatcctcaaggcccatggagat gaggggctgcacattgaccagcttgtctgtctggtgctggaggcttggcagaagggcccg tgtcctcccaggggtttggtcagcagccttggtaaggggtctgcatgcagcagcactgac gtcctctcctgcatcctacacctcctgggcaagggcacgctgagacgccatgacgaccgg ccccaggtgctgtcctatgcagtccctgtgactgtcatggagcctcacactgagtccctg aacccaggctcctcaggccccaacccacccctcaccttccataccctacagattcgctcc cggggtgtgccctatgcctcctgcactgccacccagagcttctctaccttccggtag >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_9|265_aa MALCALTRALRSLNLAPPTVAAPAPSLFPAAQMMNNGLLQQPSALMLLPCRPVLTSVALN ANFVSWKSRTKYTITPVKMRKSGGRDHTGRIRVHGIGGGHKQRYRMIDFLRFRPEETKSG PFEEKVIQVRYDPFAAREGDAHPLGALPVGTLINNVESEPGRGAQYIRAAGTCGVLLRKV NGTAIIQLPSKRQMQVLETCVATVGRVSNVDHNKRVIGKAGRNRWLGKRPNSGRWHRKGG WAGRKIRPLPPMKSYVKLPSASAQS >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_9|798_bp atggccctgtgcgcactgacccgcgctctgcgctctctgaacctggcgcccccgaccgtc gccgcccctgccccgagtctgttccccgccgcccagatgatgaacaatggcctcctccaa cagccctctgccttgatgttgctcccctgccgcccagttcttacttctgtggcccttaat gccaactttgtgtcctggaagagtcgtaccaagtacaccattacaccagtgaagatgagg aagtctgggggccgagaccacacaggccgaatccgggtgcatggtattggcgggggccac aagcaacgttatcgaatgattgactttctgcgtttccggcctgaggagaccaagtcagga ccctttgaggagaaggttatccaagtccgctatgatccctttgctgctcgggaaggggat gcgcatcctcttggggctctgcctgtggggaccctcatcaacaacgtggaaagtgagcca ggccggggtgcccaatatatccgagctgcagggacgtgtggtgtgctactgcggaaggtg aatggcacagccattatccagctgccctctaagaggcagatgcaggtgctggaaacgtgc gtagcaacagtaggccgagtatccaacgttgatcataacaaacgggtcattggcaaggca ggtcgcaaccgctggctgggcaagaggcctaacagtgggcggtggcaccgcaaggggggc tgggctggccgaaagattcggccactaccccccatgaagagttacgtgaagctgccttct gcttctgcccaaagctga >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_10|688_aa MDLKGQYRQERQPHRQIAGPGDPLQRRGSLRPGSRSADLPFFPASSGIVEAPYGDSSQSL FVGDRDRDKTMEVTGFGVTRPGKVPQARMSGLVLGQRDEPAGHRLSQEEILGSTRLVSQG LEALRSEHQAVLQSLSQTIECLQQGGHEEGLVHEKARQLRRSMENIELGLSEAQVMLALA SHLSTVESEKQKLRAQVRRLCQENQWLRDELAGTQQRLQRSEQAVAQLEEEKKHLEFLGQ LRQYDEDGHTSGPSALPNLLSPERIPFSALTPTPGDSKGKNNIQEEKEGDATKDSLDDLF PNEEEEDPSNGCATAAQQGGYEIPARLRTLHNLVIQYAAQGRYEVAVPLCKQALEDLERT SGRGHPDVATMLNILALVYRDQNKYKEAAHLLNDALSIRESTLGPDHPAVAATLNNLAVL YGKRGKYKEAEPLCQRALEIREKVLGTNHPDVAKQLNNLALLCQNQGKYEAVERYYQRAL AIYEGQLGPDNPNVARTKNNLASCYLKQGKYAEAETLYKEILTRAHVQEFGSVDDDHKPI WMHAEEREEMSKSRHHEGGTPYAEYGGWYKACKVSSPTVNTTLRNLGALYRRQGKLEAAE TLEECALRSRRQGTDPISQTKVAELLGESDGRRTSQEGPGDSVKFEGGEDASVAVEWSGD GSGTLQRSGSLGKIRDVLRRSSELLVGQ >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_10|2067_bp atggatttaaaggggcagtaccggcaagagcggcagccacaccggcagattgcaggccca ggagacccactccagcgccgcggttccttgcgacccggcagccgttcagcagacctccca ttctttcctgcatcatcgggcattgtggaggcaccctacggtgattcctctcagagcctg tttgtaggtgaccgtgacagagacaaaaccatggaagtgactgggtttggagtgaccaga ccgggcaaggtcccccaggccaggatgtcaggcctggtgttggggcagcgggatgagcct gcaggccaccggctcagccaagaggagatcctggggagcacacggctggtcagccaaggg ctagaggccctacgcagtgaacaccaggccgtgctgcaaagcctgtcccagaccattgag tgtctgcagcagggaggccatgaggaagggctggtgcatgagaaggcccggcagcttcgc cgttctatggaaaacattgagctcgggctgagtgaggcccaggtgatgctggctctagcc agccacctgagcacagtggagtcggagaaacagaagctgcgggctcaggtgcggcggcta tgccaggagaaccagtggctgcgggatgagctggctggcacccagcagcggctacagcgc agtgaacaggctgtggctcagctggaggaggaaaagaagcacctggagttcctggggcag ctgcggcagtatgatgaggatggacatacctcgggtccatcagctctacccaacctgctc tcacctgaaagaattcctttttcagccctgacaccaactccaggtgacagcaaggggaaa aacaatattcaggaggagaaagaaggcgatgccaccaaggattccctggatgacctcttt cctaatgaggaggaagaggaccccagcaatggctgtgctacagcagctcagcagggtgga tatgagatcccagcaaggttgcggacgttgcacaacctggtgatccagtacgcagcccaa ggtcgctatgaggtggccgtgccactctgtaagcaggcactagaggacctggagcgcaca tcaggccgtggccaccctgatgtcgccaccatgctcaacatccttgctttggtgtatcgt gaccagaataagtataaggaagctgcccacctgctgaatgatgcccttagcatccgggag agcaccttgggacctgaccatcctgctgtggctgccacactcaacaatttggctgtgctc tatggcaaaaggggcaagtacaaggaggcagagcctctgtgccagcgggcactggagatt cgagaaaaggtcctgggcacgaatcatccagatgtggcaaaacagctgaacaacctggcc ctcttgtgccaaaaccagggcaagtatgaggccgtggaacgctactaccagcgagcactg gccatctacgaggggcagctggggccggacaaccctaatgtagcccggaccaagaacaac ctggcttcctgttacctgaaacagggcaaatatgctgaggctgagacactatacaaagag atcctgacccgtgcccatgtacaggagtttgggtctgtggatgatgaccacaagcccatc tggatgcatgcagaggagcgggaggaaatgagcaaaagccggcaccatgagggtgggaca ccctatgctgagtatggaggctggtacaaggcctgcaaagtgagcagccccacagtgaac actactctgagaaacctgggagctctgtataggcgccagggaaagctggaggctgctgag accctggaggaatgtgccctgcggtcccggagacagggcactgaccctatcagccagacg aaggtggcagagctgcttggggagagtgatggtagaaggacctcccaggagggccctgga gacagtgtgaaattcgagggaggtgaagatgcttctgtggctgtggagtggtccggggat ggcagtgggaccctgcagaggagtggctctcttggcaagatccgggatgtgctccgcaga agcagtgaactcttggtgggacagtga >gi568815592r:42937691_43152788|GENSCAN_predicted_peptide_11|1123_aa MGAARGSPARPRRLPLLSVLLLPLLGGPCLSWAVSKLVKPAAQRRISLQAKCFVAESFAF IKSSEGDLAELGAPGWVGGRKAPASFKGKLNLKPVLSVLPHPILPPLPWFISPVPYWWTS EKPNTLIYWGEEQDVGEGHREGSSKHSAEYEQRVGSRPGAAFTKWALRIGCADGTQTAIV FIKQPSSQDALQGRRALLRCEVEAPGPVHVYWLLDGAPVQDTERRFAQGSSLSFAAVDRL QDSGTFQCVARDDVTGEEARSANASFNIKWIEAGPVVLKHPASEAEIQPQTQVTLRCHID GHPRPTYQWFRDGTPLSDGQSNHTVSSKERNLTLRPAGPEHSGLYSCCAHSAFGQACSSQ NFTLSIADESFARVVLAPQDVVVARYEEAMFHCQFSAQPPPSLQWLFEDETPITNRSRAT VFANGSLLLTQVRPRNAGIYRCIGQGQRGPPIILEATLHLAEIEDMPLFEPRVFTAGSEE RVTCLPPKGLPEPSVWWEHAGVRLPTHGRVYQKGHELVLANIAESDAGVYTCHAANLAGQ RRQDVNITVASEHLCPEGQGEVQVGPLVYLVCYRLGVHVCSQLMAVPSWLKKPQDSQLEE GKPGYLDCLTQATPKPTVVWYRNQMLISEDSRFEVFKNGTLRINSVEVYDGTWYRCMSST PAGSIEAQARVQVLEKLKFTPPPQPQQCMEFDKEATVPCSATGREKPTIKWERADGSSLP EWVTDNAGTLHFARVTRDDAGNYTCIASNGPQGQIRAHVQLTVAVFITFKVEPERTTVYQ GHTALLQCEAQGDPKPLIQWKGKDRILDPTKLGPRMHIFQNGSLVIHDVAPEDSGRYTCI AGNSCNIKHTEAPLYVVDKPVPEESEGPGSPPPYKMIQTIGLSVGAAVAYIIAVLGLMFY CKKRCKAKRLQKQPEGEEPEMECLNGGPLQNGQPSAEIQEEVALTSLGSGPAATNKRHST SDKMHFPRSSLQPITTLGKSEFGEVFLAKAQGLEEGVAETLVLVKSLQSKDEQQQLDFRR ELEMFGKLNHANVVRLLGLCREAEPHYMVLEYVDLGDLKQFLRISKSKDEKLKSQPLSTK QKELALEQDACPPAMSSELEKQQAVLVQGPAGLAVGLSVFLQL >gi568815592r:42937691_43152788|GENSCAN_predicted_CDS_11|3372_bp atgggagctgcgcggggatccccggccagaccccgccggttgcctctgctcagcgtcctg ctgctgccgctgctgggcgggccctgcctgagctgggctgtcagcaagctggtgaaaccg gctgcacaaagacggatttcacttcaggctaagtgttttgttgctgaatcatttgcattc attaaaagtagtgaaggggaccttgctgagttgggggcaccaggttgggtggggggcagg aaggcccctgcatcttttaaagggaagctaaacctgaagccggtgctgtctgtactccct caccccatcctgcccccacttccctggtttatttcaccagtgccctactggtggacttca gaaaagcccaatacattaatctactggggagaagagcaggatgtaggagaaggccacaga gaaggatcctcaaaacatagtgctgagtatgaacaacgagtaggaagcaggcctggtgct gcatttactaagtgggctctgaggattggctgtgcggatggtacccagacagccattgtc ttcatcaagcagccgtcctcccaggatgcactgcaggggcgccgggcgctgcttcgctgt gaggttgaggctccgggcccggtacatgtgtactggctgctcgatggggcccctgtccag gacacggagcggcgtttcgcccagggcagcagcctgagctttgcagctgtggaccggctg caggactctggcaccttccagtgtgtggctcgggatgatgtcactggagaagaagcccgc agtgccaacgcctccttcaacatcaaatggattgaggcaggtcctgtggtcctgaagcat ccagcctcggaagctgagatccagccacagacccaggtcacacttcgttgccacattgat gggcaccctcggcccacctaccaatggttccgagatgggacccccctttctgatggtcag agcaaccacacagtcagcagcaaggagcggaacctgacgctccggccagctggtcctgag catagtgggctgtattcctgctgcgcccacagtgcttttggccaggcttgcagcagccag aacttcaccttgagcattgctgatgaaagctttgccagggtggtgctggcaccccaggac gtggtagtagcgaggtatgaggaggccatgttccattgccagttctcagcccagccaccc ccgagcctgcagtggctctttgaggatgagactcccatcactaaccgcagtcgagccaca gtgtttgccaacgggtctctgctgctgacccaggtccggccacgcaatgcagggatctac cgctgcattggccaggggcagaggggcccacccatcatcctggaagccacacttcaccta gcagagattgaagacatgccgctatttgagccacgggtgtttacagctggcagcgaggag cgtgtgacctgccttccccccaagggtctgccagagcccagcgtgtggtgggagcacgcg ggagtccggctgcccacccatggcagggtctaccagaagggccacgagctggtgttggcc aatattgctgaaagtgatgctggtgtctacacctgccacgcggccaacctggctggtcag cggagacaggatgtcaacatcactgtggccagtgagcacctttgccctgaaggtcaagga gaggttcaggtgggcccgctcgtctacctggtgtgctatcggctgggtgtacacgtttgc agtcagctgatggctgtgccctcctggctgaagaagccccaagacagccagctggaggag ggcaaacccggctacttggattgcctgacccaggccacaccaaaacctacagttgtctgg tacagaaaccagatgctcatctcagaggactcacggttcgaggtcttcaagaatgggacc ttgcgcatcaacagcgtggaggtgtatgatgggacatggtaccgttgtatgagcagcacc ccagccggcagcatcgaggcgcaagcccgtgtccaagtgctggaaaagctcaagttcaca ccaccaccccagccacagcagtgcatggagtttgacaaggaggccacggtgccctgttca gccacaggccgagagaagcccactattaagtgggaacgggcagatgggagcagcctccca gagtgggtgacagacaacgctgggaccctgcattttgcccgggtgactcgagatgacgct ggcaactacacttgcattgcctccaacgggccgcagggccagattcgtgcccatgtccag ctcactgtggcagtttttatcaccttcaaagtggaaccagagcgtacgactgtgtaccag ggccacacagccctactgcagtgcgaggcccagggggaccccaagccgctgattcagtgg aaaggcaaggaccgcatcctggaccccaccaagctgggacccaggatgcacatcttccag aatggctccctggtgatccatgacgtggcccctgaggactcaggccgctacacctgcatt gcaggcaacagctgcaacatcaagcacacggaggcccccctctatgtcgtggacaagcct gtgccggaggagtcggagggccctggcagccctcccccctacaagatgatccagaccatt gggttgtcggtgggtgccgctgtggcctacatcattgccgtgctgggcctcatgttctac tgcaagaagcgctgcaaagccaagcggctgcagaagcagcccgagggcgaggagccagag atggaatgcctcaacggtgggcctttgcagaacgggcagccctcagcagagatccaagaa gaagtggccttgaccagcttgggctccggccccgcggccaccaacaaacgccacagcaca agtgataagatgcacttcccacggtctagcctgcagcccatcaccacgctggggaagagt gagtttggggaggtgttcctggcaaaggctcagggcttggaggagggagtggcagagacc ctggtacttgtgaagagcctgcagagcaaggatgagcagcagcagctggacttccggagg gagttggagatgtttgggaagctgaaccacgccaacgtggtgcggctcctggggctgtgc cgggaggctgagccccactacatggtgctggaatatgtggatctgggagacctcaagcag ttcctgaggatttccaagagcaaggatgaaaaattgaagtcacagcccctcagcaccaag cagaaggagcttgcattggagcaggacgcctgcccacctgcaatgagctctgagctggag aagcagcaagcagtcctagtgcaggggcctgctgggctagctgtgggcctgagcgtgttt cttcagctctga