GENSCAN 1.0 Date run: 6-Nov-116 Time: 13:36:12 Sequence gi568815579r:1754528_1963497 : 208970 bp : 58.99% C+G : Isochore 4 (57 - 100 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 74 327 254 2 2 6 91 527 0.989 43.12 1.02 Intr + 1839 1979 141 1 0 -5 38 155 0.713 2.71 1.03 Intr + 2538 2702 165 1 0 -6 94 91 0.585 1.43 1.04 Intr + 2960 3148 189 0 0 63 51 105 0.833 5.07 1.05 Intr + 5306 5387 82 0 1 31 62 78 0.298 -0.65 1.06 Intr + 5950 6078 129 1 0 53 84 95 0.347 6.59 1.07 Intr + 7917 8037 121 0 1 44 65 81 0.207 3.07 1.08 Term + 9227 9313 87 1 0 99 38 41 0.155 -1.22 1.09 PlyA + 9477 9482 6 -4.33 2.02 PlyA - 9615 9610 6 -0.45 2.01 Sngl - 11280 11065 216 0 0 110 54 216 0.584 13.49 2.00 Prom - 12758 12719 40 -7.23 3.00 Prom + 14193 14232 40 -11.74 3.01 Init + 14330 14752 423 1 0 90 44 863 0.208 78.72 3.02 Intr + 15388 15409 22 0 1 70 59 14 0.168 -5.06 3.03 Term + 20626 20918 293 2 2 72 54 690 0.999 60.53 3.04 PlyA + 23894 23899 6 1.05 4.56 PlyA - 25009 25004 6 1.05 4.55 Term - 28115 27766 350 0 2 46 45 364 0.485 23.60 4.54 Intr - 28743 28635 109 0 1 110 56 92 0.521 9.22 4.53 Intr - 30419 30292 128 0 2 104 100 126 0.998 16.98 4.52 Intr - 31181 30632 550 2 1 39 30 686 0.895 51.74 4.51 Intr - 32659 32576 84 1 0 72 99 67 0.992 7.37 4.50 Intr - 34593 34370 224 1 2 92 96 504 0.999 50.67 4.49 Intr - 35200 34834 367 1 1 44 20 732 0.998 58.02 4.48 Intr - 35462 35363 100 1 1 113 65 106 0.995 12.08 4.47 Intr - 36356 36230 127 0 1 29 82 219 0.818 16.31 4.46 Intr - 37334 37223 112 2 1 80 96 157 0.979 16.82 4.45 Intr - 37608 37444 165 0 0 81 59 269 0.929 24.65 4.44 Intr - 41255 41172 84 2 0 60 87 39 0.645 2.17 4.43 Intr - 41460 41348 113 1 2 68 68 166 0.971 13.87 4.42 Intr - 41738 41550 189 0 0 79 80 402 0.996 39.27 4.41 Intr - 42352 42184 169 1 1 66 85 378 0.932 36.02 4.40 Intr - 42478 42447 32 2 2 67 105 46 0.814 3.18 4.39 Intr - 45628 45420 209 0 2 66 50 505 0.954 44.44 4.38 Intr - 45922 45732 191 1 2 129 76 336 0.999 36.09 4.37 Intr - 47517 47429 89 1 2 2 77 104 0.793 1.55 4.36 Intr - 48118 47960 159 2 0 96 68 191 0.662 19.05 4.35 Intr - 50929 50847 83 0 2 106 100 78 0.997 11.24 4.34 Intr - 51431 51361 71 2 2 66 76 102 0.999 5.93 4.33 Intr - 51642 51570 73 2 1 103 55 103 0.998 9.06 4.32 Intr - 52162 52101 62 1 2 92 78 29 0.975 0.98 4.31 Intr - 52739 52641 99 2 0 68 101 195 0.998 20.27 4.30 Intr - 53808 53695 114 0 0 70 94 308 0.961 31.41 4.29 Intr - 55207 55116 92 2 2 75 86 139 0.951 13.27 4.28 Intr - 56156 56064 93 0 0 126 75 29 0.972 6.50 4.27 Intr - 57188 57074 115 2 1 44 78 85 0.861 4.29 4.26 Intr - 57742 57659 84 1 0 98 105 42 0.621 8.07 4.25 Intr - 61627 61569 59 2 2 72 58 66 0.275 1.74 4.24 Intr - 61818 61698 121 0 1 100 101 181 0.987 21.84 4.23 Intr - 62042 61847 196 1 1 112 30 261 0.881 23.33 4.22 Intr - 62286 62171 116 0 2 75 64 315 0.999 28.22 4.21 Intr - 62802 62692 111 0 0 102 77 238 0.977 25.84 4.20 Intr - 63253 63180 74 2 2 125 105 23 0.999 7.98 4.19 Intr - 63593 63402 192 0 0 65 18 165 0.984 7.87 4.18 Intr - 64068 63955 114 1 0 84 74 217 0.999 21.49 4.17 Intr - 64316 64152 165 0 0 95 52 298 0.973 28.03 4.16 Intr - 64604 64491 114 0 0 132 116 102 0.897 18.99 4.15 Intr - 65530 65407 124 1 1 90 73 272 0.999 27.23 4.14 Intr - 65868 65737 132 0 0 91 100 240 0.994 27.52 4.13 Intr - 67258 66992 267 1 0 -2 68 342 0.208 22.18 4.12 Intr - 67771 67641 131 2 2 89 8 9 0.047 -5.41 4.11 Intr - 69303 69045 259 0 1 72 109 280 0.313 26.78 4.10 Intr - 71416 71312 105 1 0 28 94 52 0.458 1.38 4.09 Intr - 72142 72092 51 1 0 86 38 57 0.509 0.74 4.08 Intr - 74104 72351 1754 2 2 129 94 2242 0.982 218.22 4.07 Intr - 76624 76493 132 2 0 48 100 39 0.221 2.90 4.06 Intr - 77957 77888 70 2 1 99 92 52 0.253 6.60 4.05 Intr - 82693 82586 108 1 0 110 44 14 0.000 0.85 4.04 Intr - 85472 85333 140 0 2 104 34 104 0.005 7.97 4.03 Intr - 90519 90427 93 1 0 88 64 15 0.389 0.20 4.02 Intr - 93021 92839 183 1 0 53 69 61 0.004 1.66 4.01 Init - 93831 93675 157 0 1 67 95 193 0.030 18.14 4.00 Prom - 94630 94591 40 -5.25 5.10 PlyA - 94864 94859 6 -0.45 5.09 Term - 100233 99932 302 1 2 124 49 334 0.918 29.51 5.08 Intr - 101420 101241 180 0 0 81 28 63 0.506 0.64 5.07 Intr - 101739 101584 156 1 0 109 60 11 0.622 1.57 5.06 Intr - 103385 103304 82 2 1 111 86 -18 0.628 0.67 5.05 Intr - 104041 103895 147 1 0 100 47 79 0.777 6.62 5.04 Intr - 104508 104472 37 2 1 98 49 15 0.221 -2.00 5.03 Intr - 107683 107578 106 2 1 108 35 38 0.530 0.94 5.02 Intr - 109045 108514 532 1 1 33 109 576 0.454 48.08 5.01 Init - 109531 109433 99 1 0 94 59 119 0.634 7.97 5.00 Prom - 113635 113596 40 -6.15 6.08 PlyA - 115090 115085 6 1.05 6.07 Term - 116782 116733 50 2 2 103 41 61 0.953 1.26 6.06 Intr - 117360 117099 262 0 1 84 115 136 0.980 14.21 6.05 Intr - 119051 118957 95 0 2 55 60 38 0.473 -1.46 6.04 Intr - 119548 119462 87 2 0 52 74 82 0.911 4.30 6.03 Intr - 121278 121059 220 0 1 73 34 134 0.396 5.60 6.02 Intr - 121736 121583 154 1 1 22 103 80 0.524 4.17 6.01 Init - 122169 122060 110 0 2 94 40 99 0.697 3.86 6.00 Prom - 122332 122293 40 -12.67 7.09 PlyA - 122469 122464 6 -1.75 7.08 Term - 122898 122673 226 2 1 70 44 583 0.999 49.34 7.07 Intr - 123160 122981 180 0 0 65 52 481 0.999 42.39 7.06 Intr - 125588 125394 195 1 0 81 94 450 0.980 44.64 7.05 Intr - 126521 126369 153 1 0 103 75 19 0.813 2.48 7.04 Intr - 127097 126708 390 1 0 59 99 476 0.325 40.95 7.03 Intr - 127838 127793 46 0 1 77 60 5 0.242 -4.80 7.02 Intr - 129052 128907 146 0 2 32 70 154 0.428 9.11 7.01 Init - 130865 130825 41 2 2 107 89 61 0.473 5.85 7.00 Prom - 140812 140773 40 -2.66 8.07 PlyA - 141189 141184 6 1.05 8.06 Term - 143398 143222 177 1 0 57 47 58 0.106 -2.75 8.05 Intr - 150198 150079 120 0 0 68 72 53 0.474 3.56 8.04 Intr - 153956 153557 400 1 1 69 60 267 0.260 17.82 8.03 Intr - 154648 154615 34 2 1 107 62 -14 0.551 -3.69 8.02 Intr - 155153 155022 132 0 0 57 94 118 0.907 11.10 8.01 Init - 155801 155654 148 2 1 70 97 108 0.989 10.28 8.00 Prom - 156872 156833 40 -6.05 9.00 Prom + 157317 157356 40 -2.76 9.01 Init + 157521 158620 1100 2 2 36 37 1726 0.015 154.79 9.02 Intr + 160349 160382 34 2 1 70 76 11 0.012 -2.55 9.03 Intr + 160452 160499 48 2 0 128 109 29 0.930 9.01 9.04 Intr + 160778 160848 71 1 2 85 62 -19 0.754 -5.67 9.05 Intr + 160905 161017 113 0 2 125 76 68 0.947 10.49 9.06 Intr + 163101 163295 195 1 0 -33 56 227 0.000 8.00 9.07 Intr + 163600 163756 157 2 1 115 105 271 0.999 31.76 9.08 Intr + 164362 164463 102 1 0 124 91 154 0.996 19.75 9.09 Intr + 165902 165995 94 2 1 80 30 40 0.897 -1.47 9.10 Intr + 166121 166244 124 1 1 86 90 62 0.892 7.53 9.11 Intr + 166350 166482 133 1 1 32 61 140 0.866 6.58 9.12 Intr + 168543 168660 118 0 1 110 113 249 0.865 31.24 9.13 Intr + 169581 169711 131 2 2 140 -14 113 0.427 6.97 9.14 Intr + 169996 170104 109 1 1 105 57 53 0.115 5.35 9.15 Intr + 171121 171168 48 0 0 108 50 33 0.042 1.51 9.16 Intr + 175279 175395 117 0 0 82 89 29 0.001 4.23 9.17 Intr + 181157 181319 163 1 1 99 13 65 0.397 0.84 9.18 Term + 181504 181799 296 2 2 69 48 132 0.496 3.79 9.19 PlyA + 184427 184432 6 1.05 10.04 PlyA - 185372 185367 6 1.05 10.03 Term - 186649 186366 284 2 2 32 50 260 0.282 13.20 10.02 Intr - 189483 189289 195 1 0 68 13 96 0.093 0.70 10.01 Init - 190063 189913 151 1 1 74 96 81 0.753 5.85 10.00 Prom - 191758 191719 40 -5.75 11.11 PlyA - 191768 191763 6 1.05 11.10 Term - 193540 192902 639 1 0 76 52 296 0.950 20.20 11.09 Intr - 194480 194324 157 1 1 65 87 50 0.132 3.80 11.08 Intr - 195293 194903 391 0 1 48 33 219 0.003 7.49 11.07 Intr - 199424 199316 109 2 1 41 103 79 0.054 5.72 11.06 Intr - 201592 201388 205 0 1 113 47 23 0.092 1.12 11.05 Intr - 201806 201734 73 0 1 89 60 36 0.856 0.51 11.04 Intr - 202355 202239 117 0 0 80 51 116 0.978 8.71 11.03 Intr - 202622 202447 176 1 2 64 99 -41 0.311 -4.62 11.02 Intr - 203390 203117 274 0 1 97 77 102 0.478 7.85 11.01 Intr - 208443 208311 133 0 1 62 23 157 0.001 8.00 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 85472 85324 149 0 2 104 51 133 0.940 10.21 S.002 Term + 93145 93218 74 2 2 63 51 108 0.909 3.58 S.003 Sngl + 93830 94183 354 1 0 63 52 249 0.842 12.76 S.004 Term + 98545 98749 205 1 1 82 48 112 0.924 4.42 S.005 Sngl + 157521 158624 1104 2 0 36 48 1738 0.940 159.80 S.006 Intr + 163167 163295 129 1 0 83 56 251 0.998 23.24 S.007 Init + 175329 175395 67 2 1 104 89 61 0.983 8.18 S.008 Term + 175752 175870 119 1 2 56 42 95 0.833 1.33 S.009 Term - 198484 198326 159 1 0 113 49 61 0.844 3.59 S.010 Term + 208315 208482 168 0 0 56 41 222 0.862 13.14 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_1|389_aa XAGAAAEEINTKEVAQRITAELKRYSIPQAIFAQRILCRSQGTLSDLLRNPKPWSKLKSG RETFRRMWKWLQEPEFQRMSALRLAGRSGNLDDFSLSCSPPHDTYSGTRALTIDRRSYPH TATALEVQCEASDLGATENISQSVTEGQTAGEKSHGGGVGSPQPGQQHPAPALSGHRLLR LHLTLHPGRWGVEDDKPGPRCPPALCRVRCPRRGPAARPRGRGVHAVNLAHLSRLRCPGG RVYTTGLRLGRMHGVWIDRDRAQGHENQTHVGLRARLRWGQVTGQFHLPTPQEPHPLGVV RPALRFPLCPSSSKYDDVVGMTCWGDDCASVSITQQTPSRSTREAAESGWGRRVAHIGPW RKGELQMLRDSSPRLRSVKRASWSFLPAA >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_1|1170_bp nncgcgggcgcagcggccgaggagatcaacaccaaggaggtggcgcagcgcatcacggcg gagctgaagcgctacagcatcccgcaggcaatcttcgcgcagcggatcctgtgtcgctct cagggcacgctctccgacctgctgcgcaaccccaagccgtggagcaagctcaaatccggc cgcgagaccttccgcaggatgtggaagtggctgcaggagccagagttccagcgcatgtcg gcgctgcgcttggcagggaggtccgggaacctggacgatttcagtctgtcctgctcccct ccccatgacacatacagcggcactcgtgcgctcaccatagaccggcggtcatatccgcac acagccacggccctcgaggtgcagtgcgaggcctcagatttgggggccacagaaaacatc agccagagcgtcacagaagggcaaaccgcaggcgagaagtcccatggggggggggtgggc tccccgcagccgggtcagcagcacccagcacccgccctgagtggacaccgcctgcttcgc ctgcacctgaccctgcacccagggcgctggggcgttgaggatgataaacccggaccacgc tgcccgcctgctctctgccgggtccgctgcccacgccgtggccccgccgcgcggccccgc ggccgcggggttcacgccgtcaaccttgcgcacctgtcgcgtctcaggtgccctgggggc cgcgtctacaccaccggactccgcctggggcggatgcacggagtgtggatagaccgagac cgtgcccagggccacgagaaccagacccacgtggggctgcgcgcgagactcaggtggggc caggtgaccggccagttccacctccccaccccacaggagccacatcctttaggggtggtg aggcctgcgctgcgcttccccctgtgccccagctcctccaagtatgatgatgttgtgggc atgacctgctggggggatgactgtgcctcagtttccatcacccagcaaacgccgtcccgc agcacccgggaagctgcggagtcgggctggggccgccgcgttgcgcacatcggtccttgg cggaaaggggagcttcagatgctccgagattcttccccccggctcagatccgtgaagcgc gcatcctggtcatttttgccggccgcctag >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_2|71_aa MGTRVGSAGRVALNAHPGLSGHQVPGLSSGRSDPEPCVPTGPQSRESRRNERRSTDLQPT HPFTIQGAAAA >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_2|216_bp atggggacgcgggtgggctctgcgggccgagtggccttgaacgcgcaccctggcctctct ggacatcaggttcctggtttatcaagtggacgcagtgacccagagccctgtgtccccacc gggccgcagtcccgagagtcacgaaggaatgaacgccgaagcacggacctgcaaccgact catccattcaccattcagggagcagctgctgcgtga >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_3|245_aa MEEVAEVEVEVVEVEVVEVEVVEVKVEEVEVEVLEVEVMEVEVEVEVMVEVVEVEVEVEV TVEVVELLEVEVVEVEVEVMEEEMLEVEVMEMEVEVVAVEVVKEEVLEVEVMEVEVVKEE VMKEEVEVLEVVEEEEVLELEAPDWSLGACKRKEQEQQKERALQPKKQRLVFTDLQRRTL IAIFKENKRPSKEMQVTISQQLGLELNTVSNFFMNARRRCMNRWAEEPSTAPGGPAGATA TFSKA >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_3|738_bp atggaggaggtggcggaggtagaggtggaggtggtggaggtggaggtggtggaggtggag gtggtggaggtgaaggtggaggaggtagaggtagaggtgctggaggtggaggtaatggag gtggaagtggaggtggaggtgatggtggaggtggtggaggtggaagtggaggtggaggtg acggtggaggtggtggagttgctggaggtggaggtggtggaagtggaggtggaggtgatg gaggaggagatgctggaggtggaggtgatggagatggaggtggaggtcgtggcggtggag gtggtgaaggaagaggtgctggaggtggaggtgatggaggtggaggtggtgaaggaagag gtgatgaaggaggaggtggaggtgctggaggtggtggaggaggaggaggtgctggagttg gaggcaccagattggagcctgggagcctgcaagcgcaaggaacaggagcagcagaaggag cgcgccctgcagcccaagaagcagcgcctggtgttcaccgacctgcagcgacgcacgctg atcgccatcttcaaggagaacaagcggccgtccaaggagatgcaggtcaccatctcgcag cagctcggcttggagctcaacaccgtcagcaacttcttcatgaacgcgcggcgccgctgc atgaaccgctgggctgaggagcccagcacggcccccgggggccccgccggcgccacggcc actttctccaaggcctga >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_4|3134_aa MLRSTGFFRAIDCPYWSGAPGGPCRRPYCHFRHRGARGSGAPGDGGEAPPAAAFLGGDVG FGLEKKRDIARKVVEGGLSSVMSFRLPCYLCPLIVALCFTQPLTSFVPDFLIGRSLCPTE RQDTVFQEREPFRGGLQESPGLSRVAQRPSETKREPALPQEQALGRQDLEAMEVGLRSPE LATAPCTTAEEEVDFRGAVLQTPLPRGSVMGWALPWTQPAPALRFARPPGPGLPLSLQGS REQEGPSAFAVGVGCSINEGQIAFAVPHGTAGLVWARAPLLESDLTGFVELLFKGLGYDP YNPELPKPPAQRENGTLGLGEEPRPDVLELELVNQAIEAVRSEVELEQRRYRELLETTRE HRSAEAPALAPRGPNASPTVGPDEDAFPLAFDYSPGSHGLLSPDAGYQPTPLAAPAEPGS KYSLASLDRGQGRGGGGGGALEYVPKAVSQPRRHSRPVPSGKYVVDNSRPPTDLEYDPLS NYSARHLSRASSRDERAAKRPRGSRGSEPYTPAPKKLCDPFGSCDARFSDSEDEAATVPG NEPTTASTPKARADPEIKATGQPPSKEGLEAEGGGLRETKETAVQCDVGDLQPPPAKPAS PAQVQSSQDGGCPKEGKPKKKKTGAPPAPSCKDGAQGKDKTKDKGRGRPVEKPRADKKGP QASSPRRKAERPEGTKKKPSSATPVATSGKGRPDRPARRPSPTSGDSRPAAGRGPPRPLQ LPDRKSTKAPSGKLVERKARSLDEGASQDAPKLKKRALSHADLFGDESEDEAAGPGVPSV WPSALPSLSSDSDSDSDSSLGFPEAQGPPKRLKASPPPSPAPSSSSSSSSSTSSAGADVD YSALEKEVDFDSDPMEECLRIFNESTSVKTEDRGRLARQRSLARGHQPGFCGHVHTPPKE EKSEEKGLSGLTTLFPGQKRRISHLSKQGQEVPPLCCQALAFVVTQVEPPRRGPAVPPAR PPTAQEVCYLRAQQAQRASASLLQAPARLAEKSPSVHISAPGEKRRIAHIPNPRLAAGPD GISRDVALRLGPDVPAHSSPSWVGAEPPVQKPPCHTDVHAQMHVLLALSGRGCLVLRHVV MGSHSPCAHTPCAPPAPTGAKRTLAASGSQSSNGPEPGGQQLKTRTLSGMASKTTTTIIP KRIAHSPSLQSLKKPIIPKEFGGKVPTVIRQRYLNLFIEECLKFCTSNQEAIEKALNEEK VAYDRSPSKNIYLNVAVNTLKKLRGLAPSAVPGLSKTSGRRVVSHEVVLGGRLAAKTSFS LSRPSSPRVEDLKGAALYSRLREYLLTQDQLKENGYPFPHPERPGGAIIFTAEEKRPKDC ESLACDGLASCRTCCRCGTEYLVSSSGRCIRDEECYYHWGRLRRNRGNHAATLRAHGQPC TALWRPLKPSPQGYLEGAARGSAAKRPLQRALVSLDPGLGVLAATRLPGPVAGGWETQYM CCSAAAGSVGCQVAKQHVQDGRKERLEGFVKTFEKELSGDTHPGIYALDCEMSYTTYGLE LTRVTVVDTDVHVVYDTFVKPDNEIVDYNTRFSGVTEADLADTSVTLRDVQAVLLSMFSA DTILIGHSLESDLLALKVPCRPGSRAVLQQDLRRPHVIHSTVVDTSVLFPHRLGLPYKRS LRNLMADYLRQIIQDNVDGHSSSEDAGACMHLVIWKDRWHRANGSTTSAALDARGLPPPA SPAPTPRSTRAGPEPSPAPPGPGDTGDSDVTQEGSGPAGIRGAPPAWAASAREKISKMRT GTQVLILGRGGGAAFTWKVQANNRAYNGQFKEKVILCWQRKKYKTNVIRTAKYNFYSFLP LNLYEQFHRVSNLFFLIIIILQSIPDISTLPWFSLSTPMVCLLFIRATRDLVDDMGRHKS DRAINNRPCQILMGKSFKQKKWQDLCVGDVVCLRKDNIVPADMLLLASTEPSSLCYVETV DIDGETNLKFRQALMVTHKELATIKKMASFQGTVTCEAPNSRMHHFVGCLEWNDKKYSLD IGNLLLRGCRIRNTDTCYGLVIYAGFDTKIMKNCGKIHLKRTKLDLLMNKLVVVIFISVV LVCLVLAFGFGFSVKEFKDHHYYLSGVHGSSVAAESFFVFWSFLILLSVTIPMSMFILSE FIYLGNSVFIDWDVQMYYKPQDVPAKARSTSLNDHLGQVEYIFSDKTGTLTQNILTFNKC CISGRVYGPDSEATTRPKENPYLWNKFADGKLLFHNAALLHLVRTNGDEAVREFWRLLAI CHTVMVRESPRERPDQLLYQAASPDEGALVTAARNFGYVFLSRTQDTVTIMELGEERVYQ VLAIMDFNSTRKRMSVLVRKPEGAICLYTKGADTVIFERLHRRGAMEFATEEALAGQEEE EAGEETVRRNGRLQVPGMAMYSEAFAQETLRTLCLAYREVAEDIYEDWQQRHQEASLLLQ NRAQALQQVYNEMEQDLRLLGATAIEDRLQDGVPETIKCLKKSNIKIWVLTGDKQGSQCG AGRRGAELVCFAETAVNIGFACELLSENMLILEEKEISRILETYWENSNNLLTRESLSQV KLALVINGDFLDKLLVSLRKEPRALAQNVNMDEAWQELGQSRRDFLYARRLSLLCRRFGL PLAAPPAQDSRARRSSEVLQERAFVDLASKCQAVICCRVTPKQKALIVALVKKYHQVVTL AIGDGANDINMIKTADVGVGLAGQEGMQAVQNSDFVLGQFCFLQRLLLVHGRWSYVRICK FLRYFFYKSMASMMVQVWFACYNGFTGQPLYEGWFLALFNLLYSTLPVLYIGLFEQDVSA EQSLEKPELYVVGQKDELFNYWVFVQAIAHGVTTSLVNFFMTLWISRDTAGPASFSDHQS FAVVVALSCLLSITMEVGKVLTSPGPWTWPMEASSPGDPCFGGIARCPSWTPGAGVLVQA PLGPGFTPPLPVQVILIIKYWTALCVATILLSLGFYAIMTTTTQSFWLFRVSPTTFPFLY ADLSVMSSPSILLVVLLSVSINTFPVLALRVIFPALKELRAKEEKVEEGPSEEIFTMEPL PHVHRESRARRSSYAFSHRQLTLESQPDSSEEKSAFLKPSTPFRKSWQKEPHTPKEGTVP LPDKTHKSQVETLPPSLEESSTSTSEQPMEVELWPAEKQSSSSMEWLLVPGEEQLSLPPE EQSLPSAEGTRVQQ >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_4|9405_bp atgctacgctccactggcttcttccgggccattgactgcccctattggtctggggcgccc ggggggccctgccggcggccctactgccacttccggcaccgcggggcccggggctccggc gcgcccggtgacggcggagaggcgccccccgcagcagcgtttcttggaggagatgtggga tttggattggagaaaaagagggacatcgcaaggaaagtcgtggagggagggttatcgagt gtgatgtcattcagactcccctgttacctctgtcccttgatagtggctctctgcttcacc cagcccctgacttccttcgtcccagatttcctcattgggcggagtctgtgtcctactgag aggcaggacactgtcttccaggagagggaacccttccggggaggattgcaggaaagtcca gggctctccagagtggctcagaggccctcagagaccaaaagggagccagcactgcctcag gagcaggccctagggagacaggatctggaagccatggaagtgggcctgcgcagtcctgag ttggccaccgccccgtgcaccacggccgaggaggaggtggacttcaggggtgctgtcctc cagacccctcttcccagagggtctgttatgggatgggcgctcccgtggacacaaccagcc cctgccttgcgcttcgcgaggcctccgggtcccggcctcccgctgtccctgcagggttcc cgggaacaggaggggccttccgccttcgcagttggtgttgggtgcagcataaatgaaggc cagattgcatttgctgtaccccatgggactgcgggcttggtgtgggcccgtgcgcctttg ttggaatctgatctcactgggtttgtggagctgcttttcaaagggctgggttacgacccc tacaaccctgagctgcccaagccccccgcgcagagggagaatggcaccctgggcctgggg gaggagccgcgcccggatgtgctggagttggagctggtcaaccaggccatcgaggccgtg cgcagtgaggtggagctggagcagcggcgctaccgggagctgctggagacgacccgtgag caccgctccgccgaggcccccgccctggcgccccgcggccccaacgccagccccactgtg ggcccggacgaggatgccttcccactggccttcgactacagccccggcagccacggccta ttaagccctgatgccggctaccagcccaccccactggccgcccctgccgagccgggcagc aagtactcgctggcgtccctggacaggggtcagggcagaggtggagggggtggcggtgcc ctggaatacgtccccaaggctgtgagccagccccggcggcacagccgccccgttcccagt ggcaagtacgtggtggacaactccaggccacccacagacctggagtatgaccctctctcc aactactcggcccggcacctcagcagggccagctcccgggatgagcgggccgccaagcgg ccccggggctcccgcggcagtgagccctacacacctgctcccaagaagctctgtgacccc tttggcagttgcgatgcaaggttctcagactcagaagatgaggccgccacggtcccaggt aacgagcccaccacggccagcacccccaaagccagggccgaccctgagatcaaggccacc gggcagccaccctccaaagagggcctggaggccgaggggggcggcctgcgggagaccaag gagacggccgtgcagtgcgacgtgggggacctccagccgcccccagccaagcccgcctcc ccagcccaggtccagtcctcacaggatgggggctgccccaaggagggaaaacccaagaag aaaaaaaccggggccccacctgcccccagctgcaaagacggggcccaggggaaggacaag accaaggacaagggccgagggcggcctgtggagaagccccgtgcggacaagaagggcccg caggccagcagcccccggcgcaaggcagagcggccggaagggaccaagaagaagccatct tcggccactcctgtggccacctcagggaaagggaggcctgaccggccagcgcggcggccg agccccacaagcggggactcccgaccggcggccggcagaggcccaccccgccccctccag ctgcccgacaggaagagcaccaaggccccgtcggggaagctagtggagcggaaagcccgc tcactagacgagggcgcctcccaggacgcccccaagctgaagaagcgggccctgagccac gccgacctctttggggacgagagtgaggacgaggccgcagggccaggggtgccgagcgtg tggccctctgccctccccagcctcagctcggactcagactccgactcagactccagcctg ggcttcccggaggcgcaggggccgcccaagcggctcaaggcctccccgcccccctccccc gccccatcctcctcctcctcctcctcctcctccacctccagcgcgggggcggatgtggac tactcggccctggagaaggaggtggactttgactccgaccccatggaggagtgcctgcgg atcttcaacgagtccaccagcgtcaagacggaggacagaggccggctggcccggcagagg tcactggcccgtggccaccagccaggcttctgtggccacgtgcacacgccccccaaggaa gagaagagtgaggagaaggggctttcgggtctgaccactctgttccccgggcagaagagg aggatctcccacctttccaagcaaggccaggaggtgcccccgctgtgctgccaggcctta gcatttgtggtgacgcaggtggagcccccgaggaggggtcccgcggtgcccccggcccgg cccccgacggcgcaggaggtgtgctacctgcgggcccagcaggcgcagagggcatcggcg agcttgctgcaggcccccgccaggctggcagagaagtcgccctccgtccacatttccgcc cctggcgagaagaggaggatcgcccacatccccaacccccgcctggctgcagggccagat ggcatttcgagggatgttgctctgagactagggccagatgtccctgctcacagctcccct tcctgggtcggtgccgagcccccagtccagaagcccccctgccacacagacgtacatgcc cagatgcacgtgctgctggcgctgagcggccgcggctgcctggtgctccgccacgtggtg atgggcagccactcgccctgtgcccacaccccctgtgccccgccagcccccacaggtgcc aagaggacccttgcggccagcggcagccagtcctccaacggccctgagccaggtggccag cagctgaaaacacgcacattgtcggggatggcgtccaagactaccaccaccatcatccct aagcgaatcgcccacagtccatccttacagagtttaaagaaacccattatccccaaagag tttgggggcaaagtccccaccgtcatccgccagcgctatctcaacctgttcatcgaggag tgtctcaagttctgtacctccaaccaggaggccatagagaaggcactgaacgaggagaag gtggcctatgaccgcagccccagcaagaacatctacctgaatgtggccgtgaacaccctc aagaagctcaggggcctggcccccagcgctgtgcccggcctcagcaaaaccagtggccgc agggttgtgtcccacgaggtggtgttggggggcaggttggccgccaagaccagcttctcg ctcagccgtccaagcagcccccgggtggaggacctgaaaggggctgccctgtacagccgc ctcagggagtacctgctcacccaggaccagctcaaggagaacggctaccccttcccgcac ccagagcggcccgggggcgcaatcatcttcacagctgaggagaagaggcccaaggactgt gagtcgctggcctgcgacggcctagcttcctgcaggacctgctgccgctgtggcaccgag tacctcgtgtcctcttcaggccgctgcatccgggacgaggagtgttattaccactgggga cggctgcgccggaaccggggcaaccacgcagccacgctcagggcacatggccagccttgc acagccctgtggcggcccctaaagccatcgcctcagggatacctggagggtgctgcccgg ggcagcgctgccaagaggcctctgcagagggcactggtctccctggatccaggcctgggc gtcctggctgccacacgactgccggggcctgtggccggaggctgggagacccagtacatg tgctgctcggctgccgccggctctgtcggctgccaagtcgcaaagcaacacgtgcaggat ggccggaaggagcgccttgagggcttcgtgaagacctttgagaaagagctctcaggagac acccacccggggatctacgccctggactgcgagatgtcctacaccacatatggcctggag ctgacgcgcgtcacggtggtcgacacggacgtgcacgtggtttatgacaccttcgtgaag cctgacaacgagatcgtggactacaacaccaggttttcgggggtgacggaggctgacctt gccgacacaagtgtcacgctgcgtgacgtccaggccgttctgctgagcatgttcagcgct gacaccatcctcatcggacacagcctggagagcgacctcctggccctgaaggtgccctgc cggcccgggtcccgcgcggttctccagcaggacctgcgcaggccccacgtcatccacagc accgtggtggacacgtctgtgctcttcccccaccgcctgggcctcccctacaagcggtcc ctgcggaacctcatggccgactacctcagacagatcatccaggacaatgtggatgggcac agctccagcgaggacgccggcgcctgcatgcacctggtgatctggaaggaccgttggcac cgggctaacggttccaccacgtccgccgccctggacgcccgcggcctgcccccccctgcc tctcctgcgccgactcccaggagcaccagagctggccctgagccaagccctgccccacca ggacctggggacacgggtgactcagacgtgactcaggaaggctcaggtcctgctggcatc cgcggagccccaccagcatgggcagcctcggccagagagaagatctccaagatgaggaca ggaactcaggtgctgatcctgggcagagggggcggtgcagcattcacctggaaggtccag gccaacaaccgtgcctacaacgggcagttcaaggagaaggtgatcctgtgctggcaaagg aagaaatacaagaccaatgtcatccgcacggccaagtacaacttctactcgttcctgccg ctgaacctgtacgagcagttccaccgcgtgtccaacctgttcttcctcatcatcatcatc ctgcagagcattcccgacatctccacgctgccctggttctcgctcagtacccctatggtc tgcctcctcttcatccgtgccacccgggacctggtggacgacatggggagacacaagagt gacagagccatcaacaacagaccctgccagattctgatggggaagagcttcaagcagaag aaatggcaggatctgtgcgtgggggatgtggtctgtctccgcaaggacaacatcgtccca gccgacatgctcttgctggccagcacggagcccagcagcctgtgctatgtggagacggtg gacattgacggggagaccaacttgaagttcagacaggccctgatggtcacccacaaagaa ctggccactataaagaagatggcgtcctttcaaggcacagtgacgtgtgaggcgcctaac agtcggatgcaccacttcgtggggtgcctggaatggaatgacaagaaatactccctggac attggcaacctcctcctccgaggctgcaggattcgcaacacagacacctgctatggactg gtcatttatgctggttttgacacaaaaattatgaagaactgtggcaagatccatttgaag agaaccaagctggacctcctgatgaacaagctggtggttgtgatcttcatctccgtggtg cttgtctgcctggtgttggccttcggcttcggtttctcagtcaaagaattcaaagaccac cactactacctctcgggggtgcatgggagcagcgtggccgcagagtccttcttcgtcttc tggagcttcctcatcctgctcagcgtcaccatcccgatgtccatgttcatcctgtccgag ttcatctacctggggaacagcgtcttcatcgactgggacgtgcagatgtactacaagccg caggacgtgcctgccaaggcccgcagcaccagcctcaacgaccacctgggccaggtggaa tacatcttctcggacaagacgggcacgctcacgcagaacatcttgaccttcaacaagtgc tgcatcagcggccgcgtctatgggccggattcagaggccacgacccgacctaaggagaac ccctacctctggaacaagttcgccgacgggaagctgctcttccacaatgcggccctgctg cacctcgtgcggaccaacggggacgaggccgtgcgggagttctggcgcctgctggccatc tgccacacggtgatggtgcgggagagcccccgtgagcgcccagaccagctgttgtaccag gcggcctcccccgacgagggggcgctggtcaccgcagcccggaacttcggctacgtgttc ctgtcccgcacccaggacaccgtcacgatcatggagctgggggaggaacgggtctaccag gtcctggccataatggacttcaacagcacgcgcaaacggatgtcggtgctggttcgaaag ccagagggcgccatctgcctgtacaccaagggcgccgacacggtcatcttcgaacgcttg cacaggaggggggcaatggaatttgccacagaggaggccttggctggacaggaggaggag gaggcaggggaggagactgtacggagaaatggaaggctgcaggtacctgggatggctatg tacagtgaggcctttgcccaggagaccctgcggacactgtgcctggcctacagggaggtg gctgaggacatttacgaggactggcagcagcgccaccaggaggccagcctcctgctgcag aaccgggcacaggccctgcaacaggtgtacaacgagatggagcaggacctcaggctgctg ggagccacagccatcgaggacagactccaggacggtgtccctgaaaccatcaaatgtctc aagaagagcaacatcaaaatatgggtgctcaccggggacaagcagggcagccagtgcggg gcgggtcgcagaggcgctgagctggtctgcttcgcagaaacggctgtgaacatcggcttc gcctgcgagctgctgtcagagaatatgctcattctggaggagaaggagattagccgcatc ctggagacctactgggaaaacagtaacaaccttctaaccagggagtccctgtcgcaggtc aagctggccttggtcattaacggagacttcctggacaaactgctggtgtccctgcggaag gagccgcgcgccctggcgcagaacgtgaacatggacgaggcgtggcaggagctcggccag tccaggagggatttcctctacgccaggcgcctgtccctgctgtgccggaggttcgggctc ccgctggctgcaccgccagcccaggactccagagcccgccgtagctccgaggtgctgcag gagcgcgccttcgtggacctggcgtccaagtgccaggcggtcatctgctgccgcgtgacg cccaagcagaaggccctgatcgtggccctggtcaagaagtaccaccaggtggtgaccctg gccatcggggacggtgccaacgacatcaacatgatcaagaccgcggacgtgggcgtgggg ctggcgggccaggagggcatgcaggcagttcagaacagcgacttcgtgctcggccagttc tgcttcctgcagcgcctcctgctggtgcacggccgctggtcctacgtgcggatctgcaag ttcctgcgctacttcttctacaagagcatggccagcatgatggtgcaggtctggtttgcc tgctacaacggcttcaccggccagcccctgtatgaaggatggttcctggctcttttcaac ctcctgtacagcaccctgccagttctctacattgggctctttgagcaggacgtgagcgca gagcagagcctggagaagccggagctgtacgtggtggggcagaaggacgagctcttcaac tactgggtcttcgtccaagccatcgcccatggtgtgaccacctctctggtcaacttcttc atgacactgtggatcagccgcgacacggcgggacccgccagcttcagcgaccaccagtcc tttgcggtcgtggtggccctgtcttgcctgctgtccatcaccatggaggtgggcaaggtc ctcacctccccggggccttggacatggcctatggaggcctcctcccctggggacccctgc tttgggggcattgccaggtgcccttcctggaccccaggggctggtgtcctggtgcaagcc ccgctaggccccggatttaccccaccgctgcctgtccaggtcattcttatcatcaagtac tggaccgccctgtgcgtggcgaccatcctcctcagccttggtttctacgccatcatgact accaccacccagagcttctggctcttcagagtatcccccacgaccttcccgtttctgtat gccgacctcagcgtgatgtcctctccctccatcctgctggtggtcctgctgagtgtgtcc ataaacaccttccctgtcctggccctccgagtcatcttcccagccctcaaggagctacgt gccaaggaggagaaggtggaggagggccccagcgaggagattttcaccatggagcccttg cctcatgtacaccgggagtctcgtgcccgccgttccagctatgctttctcccaccgccag ctgacgttggagagccagccagactcctcggaggagaagtcagcatttttgaagccctcc acaccgttccggaagagctggcaaaaggagcctcacacccccaaggaggggacggtgcca cttccagacaagacccacaaatctcaggtggagactctgccaccaagtctggaagaatcg tccacgtccacgagcgagcagcctatggaggtggagctgtggcccgcggagaagcagtca tcatcatccatggagtggctgctggtgcccggggaggagcagctatccttgcccccagag gagcagtcattgccctctgcggaggggaccagggttcagcagtga >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_5|546_aa MGRGALSEGGACRRGGGVLGLPPRLEGVVLRERQPPPAGRTPLPPPPLRPPRRAPLLGMS AAVACVDYFAADVLMAISSGAVVHRGRPGPEGAGPAAGLDVRAARREAASPGTPGPPPPP PAASGPGPGAAAAPHLLAASILADLRGGPGAAPGGASPASSSSAASSPSSGRAPGAAPSA AAKSHRCPFPDCAKAYYKSSHLKSHLRTHTGFHFLDWEFGLGNRGRWALMAGPGLGIRGA CPFRGGLQSAESSWNCLQICIKHLLYTRPVLGIAGDPAVNEVPAFCSHWSAGVQILHPQD ACVFGSLRLPEAAAYRFYRTCSRITFRSSSLPWVAGLPRAAPDLRAEMSLGHPEHGRAPP AVSVPLTMVPAVGPSRPLAGCSSSWTGLQPVPRGACTSGLHPHNPPWGVTGITSRNARVQ GTWCRARKGGSFGDAGPFVLLRSLGGGERPFACDWQGCDKKFARSDELARHHRTHTGEKR FSCPLCSKRFTRSDHLAKHARRHPGFHPDLLRRPGARSTSPSDSLPCSLAGSPAPSPAPS PAPAGL >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_5|1641_bp atggggcggggcgcgctctcggaaggaggggcgtgccggagagggggcggggtcctcggc ctcccgccccggcttgagggggtggtgctccgggaaaggcagccgccgccggccggacgg acgccgctcccgccgcctccgctccgcccgccgcgccgcgcgcccttgctcggcatgtcg gcggccgtggcgtgcgtggattacttcgccgccgacgtgctcatggccatctcttcgggc gccgtggtgcaccgcgggcggcccggccccgagggcgcgggccccgccgccggcctggat gtgcgcgcggcgcgccgcgaggccgcctcacccgggaccccggggccacccccgccgccc cccgccgcttctggcccgggccccggcgccgccgcggcgccccacctgctggccgccagc atcctggccgacctgcgcggcggacccggagccgccccggggggcgcctcgcccgcctcc tcctcctcagccgcctcgtccccgtcctcgggccgcgcccccggcgccgcgccctccgcc gccgccaagagccaccgctgtcccttcccggactgcgccaaagcctactacaagtcctcg cacctaaagtcgcacctgcggacgcacacagggttccactttctggactgggagtttgga ctgggcaacaggggacggtgggccttgatggccggccctggtttgggcattagaggtgct tgtcccttccggggaggcctgcagagtgcagagagcagctggaactgcctgcagatatgc attaagcacctgctgtataccaggcctgtgctgggcattgccggggacccagccgtcaat gaagtgcctgccttctgctcccactggagtgcaggggtgcagatattacacccacaagat gcatgcgtttttggaagcctgcggctcccagaagcagctgcctataggttctatagaacc tgctcaaggatcaccttcaggagctcctcccttccctgggtggctgggctccccagggca gcccctgatcttagagcagagatgtcactcggtcaccctgagcatggccgtgcccctccc gccgtctctgtacccctcaccatggtccctgctgtgggtccttctaggcccctggctggc tgcagttcttcatggaccgggctccaaccagtgccacgaggggcatgcacatccggtctc catccacacaacccaccctggggtgtcacgggaataacgtcccggaatgccagggtccag ggtacctggtgcagggcccgaaagggtgggagcttcggggatgcagggccctttgtcctg cttcggtccctgggtggaggggaacgcccttttgcttgtgactggcagggctgcgacaag aagttcgcccgctccgacgagctggcccgccaccaccggacgcacacgggcgagaagcgc ttctcctgccctctgtgctccaagcgcttcacccgcagtgaccacctggccaagcacgcc cgccgccaccccggcttccacccggacctgctccggcgccctggtgcccgcagtacctcc cccagcgactcgctgccctgcagcctggccgggagccctgcgcccagccccgcgcccagc ccagcccccgcaggcctgtag >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_6|325_aa MRTPGVGALLPSRDCPLDSFPSVLLQRGQDSALWVLRGGGASVWAREGAASRAGPQHGRK RKWRRACGSGDGGGGGWRQAVDEEAASVRGSRFGTRLPFMPPEEPPRIPCPLLAAAADPW ALRWSRACCPLTPSEPELPASWDSAVSSLPPVQSNCLQENKIPQDTVMKRILEIEVFGAA PPSLRAVDIHGRLGAESLVHPVSPAPGTPQHGALGDGTDTSQDGGGLGVPEAAPSMDAVD PRDAPCRTPRRGFLAVGQQGDLAVSSGWRVAAAAPPSHLAGGTLSSVPQELAAAPPPPTV RGGPPGLDHGLSGGGFHRLAKVIRE >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_6|978_bp atgaggacgccaggcgtgggggccctgctgccatcgcgggactgccccctcgacagcttc ccgtcagtcctactgcagaggggccaggacagcgcactctgggtcctgagggggggcggt gcttcagtctgggcgcgagaaggcgctgcgtcacgtgcggggccgcagcacggacggaag cggaagtggcggcgtgcgtgcggcagtggagacggcggcggcggtggctggcgtcaggct gtggacgaagaggcggcctcggtgcgcggctcacgtttcggaacacgtctgcctttcatg cctcccgaagagcctccccgcatcccgtgccccctgctcgctgctgccgctgacccttgg gcgctgcgctggtccagagcgtgttgtcctctgacgccgtcagaacctgagctccctgcg agctgggactccgccgtgtcttcattgcctccagtgcaaagcaactgcttgcaagagaac aaaattccacaagacactgtgatgaagaggattttggaaatcgaagtatttggggccgcc cctccctccctgcgggctgtggatattcacgggcgcctgggggctgagtctctggtccac cctgtgtcacctgctcctggtacaccccagcacggggccctgggtgacgggacagacacc agccaggatggaggaggccttggtgtccctgaagcagctcctagcatggatgccgtggac cccagagatgctccctgcaggaccccacgcaggggcttccttgcagtcggccagcagggt gacctcgctgtgtcctccggttggagggtggcagctgctgccccaccttcccacctggct ggtggaaccttgtcctctgtcccccaggagcttgcagctgcccccccgccccccaccgtg cgtggtggcccccctggactggaccatggcctgtccggaggtggcttccacaggttggca aaggtcatccgtgaataa >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_7|458_aa MERGPGARGRGPGCGALATSVCPFVSGVSRGLLLSTGLSGPSCMMPPKLQGPPSPQHQRG STEPLFVVFPLSPDIAGRPGGVVGGGPGGGPAWAAPAMNGLSLSELCCLFCCPPCPGRIA AKLAFLPPEATYSLVPEPEPGPGGAGAAPLGTLRASSGAPGRWKLHLTERADFQYSQREL DTIEVFPTKSARGNRVSCMYVRCVPGARQGHQAQGGHPQLAWVGRLGDSNNPAPGGCLLG KSWGTGAALACGYIHLLARYTVLFSHGNAVDLGQMSSFYIGLGSRLHCNIFSYDYSGYGA SSGRPSERNLYADIDAAWQALRTRYGISPDSIILYGQSIGTVPTVDLASRYECAAVVLHS PLTSGMRVAFPDTKKTYCFDAFPNIEKVSKITSPVLIIHGTEDEVIDFSHGLALYERCPK AVEPLWVEGAGHNDIELYSQYLERLRRFISQELPSQRA >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_7|1377_bp atggagcgcggccctggggcccgggggcgcgggccggggtgtggggccctggccacctcg gtgtgccccttcgtctccggggtctccaggggcctgctgctgtccactgggctctcagga cccagctgcatgatgccacctaaactgcagggccctccaagtccccagcaccagcggggc agcaccgagcctttgtttgttgtatttcctctgtctccagacatcgcaggccggccgggc ggcgttgttggcgggggccccggtggaggcccggcctgggcggcgcccgccatgaatggg ctgtcgctgagtgagctctgctgcctcttctgctgcccgccctgccccggccgcatcgct gccaagctcgccttcctgccgccggaggccacctactccctggtgcctgagcccgagccg gggcctggtggggccggggccgcccccttggggaccctgagagcctcctcgggcgcaccc gggcgctggaagctgcacctgacggagcgtgccgacttccagtacagccagcgcgagctg gacaccatcgaggtcttccccaccaagagcgcccgcggcaaccgcgtctcctgcatgtat gttcgctgcgtgcctggtgccagacaaggacaccaggctcagggaggccatccccagctg gcatgggtgggcaggctgggcgactccaacaacccagcgcctggtggttgcctgctgggc aagagctggggcacaggggctgccctggcctgcgggtacatccaccttctcgccaggtac acggtcctcttctcgcacggcaatgccgtggacctgggccagatgagcagcttctacatt ggcctgggctcccgcctccactgcaacatcttctcctacgactactccggctacggtgcc agctcgggcaggccttccgagaggaacctctatgccgacatcgacgccgcctggcaggcc ctgcgcaccaggtacggcatcagcccggacagcatcatcctgtacgggcagagcatcggc acggtgcccaccgtggacctggcctcgcgctacgagtgtgccgcggtggtgctgcactcg ccgctcacctcgggcatgcgcgtcgccttccccgacaccaagaagacctactgcttcgac gccttccctaacatcgagaaggtgtccaagatcacgtctcccgtgctcatcatccacggc acggaggacgaggtgatcgacttctcgcacgggctggcgctctacgagcgctgccccaag gcggtggagccgctgtgggtggagggcgccgggcacaacgacatcgagctctacagccag tacctggagcgcctgcgtcgcttcatctcccaggagctgcccagccagcgcgcctag >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_8|336_aa MWPGTEQDPWSPGRKLLNSANACVSCKQMPPPLSLQMTTQPWLTPGFQPVCQGGSRVRTS RPDITSTVTIPAAGTGEDIPAAGTGEDIPATGTDSHRRPEVGLQAQGCVSGSFRSRAAVG ATPRHALPGPRLSRRGAPQMGDQQPVELQASGLGGHAEAAPALPEAHAFNKAQNRRCSGS REQEARRQRQVLPLPEAPCQVGPIAADSLGPPKTHTTRDQDREARTALLGHKHSTVSRLD RFNQVVLNGREFVIPSPNSLTVPGCNQLRLRCQSLDKPHARGQPLLLLSWQGKWDRPRLS WEPCTSLSDPPKIKRTRLPPTDQRQLHPGHGASGRI >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_8|1011_bp atgtggccaggaactgagcaggacccttggtcccccggccgcaagctgctgaattccgcc aacgcctgcgtgagttgcaagcagatgccacccccgttgagcctccagatgacaacacag ccctggctgacacctgggttccagcccgtgtgccaaggcggctctcgggtgagaacctcc cggcctgacatcaccagcactgttaccatccctgccgctggcacaggtgaggacatccct gctgctggcacaggtgaagacatcccagccactggcacagactcgcaccgcaggcctgag gttggattacaggcacagggatgtgtctctggatcatttcgcagccgcgcagctgtgggt gctactcctcgacatgcactgcctggtccacgcctcagccgccggggcgccccacagatg ggggaccagcagccagtggaactccaggccagtggccttggaggtcacgctgaagcggcc ccagcgctgcccgaagctcacgcgttcaacaaagcacagaaccggagatgcagtgggagc cgggagcaggaagcgcggaggcagcgccaggtgctgccgctgcccgaggccccgtgccag gtggggcccatagcagccgactcgctgggccctcccaaaacgcacaccacgcgcgaccag gaccgagaggcccgcacggccctgctaggccacaaacactccactgtctccaggttggac aggtttaaccaagtggttctcaacgggagggaatttgtcatcccctcccccaacagcttg acagtgcctggctgtaaccagctcaggctccgatgccagagtcttgacaaaccacatgca cgtgggcagcccttgttgctgttatcctggcaaggcaagtgggatcgcccccgcctctcc tgggagccctgcaccagcctctcggaccctcccaaaatcaagcggacacggttgccacct actgaccaaaggcagctgcaccccggtcacggggcttccggccggatctaa >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_9|1050_aa MILCSRLCLPQSASLRMEPAPGLVEQPKCLEAGSPEPEPAPWQALPVLSEKQSGDVELVL AYAAPVLDKRQTSRLLKEVSALHPLPAQPHLKRVRPSRDAGSPHALEMLLCLAGPASGPR SLAELLPRPAVDPRGLGQPFLVPVPARPPLTRGQFEEARAHWPTSFHEDKQVTSALAGRL FSTQERAAMQSHMERAVWAARRAAARGLRAVGAVVVDPASDRVLATGHDCSCADNPLLHA VMVCVDLVARGQGRGTYDFRPFPACSFAPAAAPQAVRAGAVRKLDADEDGLPYLCTGYDL YVTREPCAMCAMALVHARILRVFYGAPSPDGALGTRFRIHARPDLNHRFQVFRGVLEEQC RWLDPDTAQGTMKGFSATAAAGFSLRWLVKQRCQQRACSHVPRGPSPTHLLAAFPSGARP GTLPQAVLAEQKLLGGSQCHAECPKGCVPILIPGTWMRWGLLQETKSGSVRGFSVPTEKE NNFPPLPKFIPVKPCFYQNFSDEIPVEHQVLVKRIYRLWMFYCATLGVNLIACLAWWIGG GSGTNFGLAFVWLLLFTPCGYVCWFRPVYKAFRADSSFNFMAFFFIFGAQFVLTVIQAIG FSGWGAWPLPSCTCAWRQALQGGWDLWFVHPSDVPLKLRLWLQVKALLVILRVLLSSQLP ARLPLALPWAPVPPVSRLPETSLPPRPSCTCGSSDLALLIGAWVISRRSREKLSMRSLPE VDRSGWLSAIGFFQYSPGAAVVMLLPAIMFSVSAAMMAIAIMKVHRIYRGAGGSFQKAQT EWNTGTWRNPPSREAQYNNFSGNSLPETPSCSRKRVVTRRPLHGWYGLVFRSRGLTPGDR WQQDAVAVGRLLPWSPPQDGHRGDPGNEERKTELQAWRGTWRAAGGIVCPPPWLLPLVGR HHQSTNDAHTASLPCTKQTSPINRAAPGGNQFGSSIRLQLYPFIDKVEAQGPGRPLRLAG PRLGSEPLQAGKPFVTGAALNAAAKSQAAVVICSASFPFPGNYSSCCGEPGPPDSCVLRA LPLVEPALLVTRTLPKPGLASHLGGANARQ >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_9|3153_bp atgatcctctgctcccgtctctgtctcccacagtcggcctcgctgaggatggagcccgcc ccgggcctcgtggagcagcccaagtgcttggaggccgggagcccggagcctgagccggcg ccgtggcaggccctccctgtcctgtccgagaagcagtcaggggacgtggagctggtgctg gcctacgccgcgcccgtcctggacaagcgccagacctcacgcctcctgaaggaggtgtcg gccctgcacccgctccccgcccagcctcacctcaagcgggtgcggcccagccgcgatgcc ggcagcccccacgccctggagatgctgctttgcctggctgggccggcctcgggcccgcgc tcgctggctgagctcctgccacggccggctgtggacccccgcggcctggggcaacccttc ctggtgcccgtgcccgcccggccgcctctgaccaggggccagttcgaggaggcccgggcc cactggcccacgtccttccacgaggacaagcaggtgaccagcgccctggctgggcggctc ttctccacgcaggagcgcgccgccatgcagagccacatggagcgggcggtgtgggcggcc cggcgggcagcagcgcggggcttgcgggccgtgggggccgtggtagtggacccggcctcg gaccgcgtgctggccaccggccacgactgcagctgcgcggacaaccccctcctgcacgcc gtcatggtgtgcgtggacctcgtggcgcgcggccagggccgcggcacctacgacttcaga cccttccccgcctgctccttcgccccggccgctgccccccaggccgtccgcgcaggcgcc gtgcgtaaactggacgcagacgaggacggcctcccctacctgtgcactggctacgacctg tacgtgacccgcgagccctgcgccatgtgcgccatggccctggtgcacgcacgcatcctg cgcgtcttctacggtgcgccctcgcccgacggcgccctgggcacccgcttccgcatccac gcacggcccgacctcaaccaccgcttccaggtgttccgcggggtgctggaggagcagtgc cgctggctggaccccgacacagcacagggcacgatgaagggcttttcagccacggcggct gcaggcttcagcctgcgctggttggtgaaacagagatgtcagcagcgggcgtgttctcat gtgccccggggtccctcacccactcatttactggcagccttccccagtggggcgcgccca gggacacttcctcaggcagtgctggctgagcagaagctcctggggggctcccagtgccac gctgagtgccccaaaggctgtgttcccatcttgatccctggaacctggatgaggtggggc ctccttcaagagacaaagtctggttctgtccgtgggttctctgtccctacagaaaaggag aacaacttcccgccactgcccaagttcatccctgtgaagccctgcttctaccagaacttc tccgacgagatcccagtggagcaccaggtcctggtgaagaggatctaccggctgtggatg ttttactgcgccaccctcggcgtcaacctcattgcctgcctggcctggtggatcggcgga ggctcggggaccaacttcggcctggccttcgtgtggctgctcctgttcacgccttgcggc tacgtgtgctggttccggcctgtctacaaggccttccgagccgacagctcctttaatttc atggcgtttttcttcatcttcggagcccagtttgtcctgaccgtcatccaggcgattggc ttctccggctggggcgcgtggcctctcccctcctgcacctgcgcctggcgccaggccctc cagggtggctgggatctgtggtttgtgcacccctcggatgtgccgctgaagctgaggctg tggctgcaggtcaaggcactgctcgtcatcctccgagtcctcctgagctcccagctgcca gctcggctcccactggcccttccctgggctccagtgcctcctgtgagccgcctccccgag acctccctgccccctcggccctcgtgcacgtgcggcagcagcgacttggctcttctcatt ggagcctgggtcatctcccgcaggtcacgggagaagctgagcatgcggtccctgcccgag gtggacagaagcggctggctgtcggcaattggattcttccagtacagcccgggcgctgcc gtggtcatgctgcttccagccatcatgttctccgtgtcggctgccatgatggccatcgcg atcatgaaggtgcacaggatctaccgaggggctggcggaagcttccagaaggcacagacg gagtggaacacgggcacttggcggaacccaccgtcgagggaggcccagtacaacaacttc tcaggcaacagcctgcccgagacgccctcttgctcccggaaacgtgtggtcacccgccgt ccactgcacggctggtacggccttgtcttcaggtctcgaggcctgactccgggggacagg tggcagcaggatgctgttgctgtaggacgcctgctgccctggagccctccccaggatggt cacaggggcgatccagggaatgaggaaaggaagacggaactgcaggcatggcgggggacc tggcgggcagctgggggcatcgtgtgcccccccccatggctactgcccctggtgggcaga catcaccaatcaaccaatgatgcccacactgcttccctcccatgcacaaagcagacatca ccaatcaatcgagcagcaccaggaggaaaccaatttggcagttcaatccgtcttcaactc tatccttttatagataaggttgaggcccagggacctgggaggccactgaggctggcaggg ccaagactgggcagtgagccactccaggcgggaaagccctttgtcactggagctgctctg aacgctgccgccaagtcgcaggcagctgttgtcatctgctcagcgtccttccccttcccc ggcaactactcctcctgctgtggggaacctggcccacccgactcctgtgttctcagggcg ctgcccctcgtggaacctgcccttctggtcaccaggacattgcctaaaccaggcctggcc agtcatctgggaggggccaatgccagacaataa >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_10|209_aa MGKAVRPVPWPQGHHPSLSLLPLARRVTREAQVWESALGKHHLLLYPSRPEKVSQPHMLA CPLPPEARSPCQAVPGTRPQQHPQRCLHPPPALRQASVKALTDHEPLGAWGSSVGASASG GRQPYAPHCAAAATAPGARAADVTARGGANTRLGVSRAALRQRMAPRDGHGVLRPLRGRR AAARGGHRKRVAARARAGRKGGLTVSTPF >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_10|630_bp atggggaaggcggtgaggcccgtcccctggccgcagggccaccacccctcgctgtcactg ctcccactggcacggcgggtgaccagagaagcacaggtgtgggagtcagccctcgggaaa caccaccttctcctctacccaagcaggccagagaaagtcagccagccccacatgctggcc tgcccactgccacccgaggcccgcagcccctgccaggctgtgcccggcactcggccccaa cagcacccacagcgctgcctccatccaccacccgccctccgccaggcctcggtcaaggcc ttgacggaccatgagcccctgggggcctggggcagctcggtgggggcgtctgccagcggg gggcggcagccatacgcgccccactgcgcagccgcggccacggcgccgggggcgcgcgcc gccgacgtcacagcgcggggcggggccaacacccggctgggcgtttctcgcgccgctttg cgacaacggatggcgccgcgcgacggccacggcgttttgcggccgctacgaggccgccgg gccgctgcccgcgggggacaccgaaagcgcgtggccgcgagggcgcgcgcgggcaggaaa gggggtctaacggtttccacacccttctag >gi568815579r:1754528_1963497|GENSCAN_predicted_peptide_11|757_aa CMEGHTTPPPLLTAIWVVATVRLLESTAASAHGLLRGCGLPLHLAPGGPKQWPCHTHSAR RAPTPHKRRPPSSHPTNTAPAEHIPPTHGTHRAHTPVFPGEIWQLLKCRQTPSEAPLCPR LQSPGVLRTLQSLPVCRPCLALSTAGDPRGPIPPTNLRVAPFKPRSIRARPSKGGATTSL PSAESPPPPSFSLPGSSRLSPKFRNEPPGALWGVLLARRQKLLDGCLTAPTDVEQKAPNP HPSCTCTDDKPQPPEPVTASRHPCPMTWRQEDEKGAGPALRDPTLSGAGVKASPGCVPTL LRPANEQAAPLASVLIQWSWLLWPRQKPTSPRRLHRRRPRGQPASENAAEPSQVAISKGK SPGQRSIGPKDRRNQVTGRGEWSSLCRDPVPKTRQGTQTVQVWMAVCGSSNGPTGSGPVT SGSTARSPPDRRITQPHGNRTRVLAAATRGCHANIYHRNKHVATHTPEHDSATNRSETRT RAMARMHRGCHTHPQREHDEDRGFHEHYFHCVKSKQGFSSFCFSPHVLVSSFPHCENAAP NTTHEGQGLTSSSRVPAHEAFRGTGAVRPQEGEASARARGRADSWGPQDVTTPIAQGRGR GPRGSGGPRQLMGQPRSTQGSGSEPHTAPLSTAYRPDQRDGTARTHLCRRQRKRTPPLRS QALSQPTCRLQGSGWPARGQGPAGSPSAHPPSEELKGTPSKSEADTGQSVSSRWSRALPS GSRPGNCPQAEPGHQRQLPCPRTTGAEARGAQLPRTG >gi568815579r:1754528_1963497|GENSCAN_predicted_CDS_11|2274_bp tgcatggagggccacactacgcctcctcctctgctgacggccatctgggttgtagccacc gtccggctgctggagtccacggcggcgtctgcgcacgggcttctgcgtggctgcgggctt ccactccacctggctccagggggccctaagcagtggccgtgccacacacacagtgcccgc cgagcgcccaccccacataaacggcgcccgcctagctcccaccccacaaacacggcgccc gccgagcacataccccccacacacggcacccaccgagcacacaccccagtgtttccaggg gagatctggcagctgctcaaatgccgccagacgccctcagaggcccctctgtgcccacgt ctgcagtcacccggggtcctgcgcaccctccagtctctgcctgtgtgccgcccctgcctt gccctctccacagccggggaccccagaggcccaatcccgcccaccaatctccgggtggca ccgtttaagccacgcagcatcagggcacgaccgtcgaaggggggcgccaccaccagcctt ccctctgcagaatcccctcctcctccctccttctctcttccaggttcatcgaggctgagc cctaaattccggaacgagcctcctggggctctctggggtgtcctcctggcccggagacag aagcttctggacggctgtctcacagcccccacggatgtggaacaaaaagcaccaaatccc catcccagctgcacctgcacagatgacaagccccaacccccagaacctgtgacggcctct cggcacccctgccccatgacctggaggcaggaggatgagaaaggggcaggccctgcactc agggacccaacgctgtcgggagctggggtgaaggccagcccgggctgtgtgccgaccctg ctccgcccggccaacgagcaggctgccccgctggcgtctgttctgatacagtggtcttgg ctgttgtggcccaggcagaagccaacctcaccgcgccgactgcaccggagacgcccacga ggacagccggcctctgagaacgcagctgagccgtcacaggtcgccatcagcaaaggcaag agtccaggccagagaagcatcgggccgaaggacaggagaaaccaagtcaccggaagaggg gagtggtcgtcgctgtgcagagatccagtccccaaaacccggcaggggacccaaacagtg caggtatggatggccgtctgcggctcctcaaatggtccaaccgggagtggccctgtgacc agcggttccaccgctagaagtccacctgacagaagaatcacgcagccacacgggaaccgg acacgggtgctcgcagcagccacacgcggatgccatgcaaacatctatcacagaaataaa cacgtggccacccacacgccggaacacgactcagccacgaacaggagcgagactcggacg cgggccatggcgcggatgcaccgagggtgtcacactcaccctcaacgtgaacacgacgag gacagaggcttccatgagcattacttccactgcgtgaagagcaaacagggtttctcttcc ttctgcttttctccacatgttctggtctccagcttccctcactgtgagaacgcagcacct aacacaacacacgagggccagggtttaaccagctcatcccgggtcccggcccacgaagct ttcagaggaaccggggctgtgcgcccacaggaaggagaggccagtgcccgggcacgagga cgagctgactcatgggggccccaggacgtcaccacacccattgcccagggccgcgggcga ggtccaaggggcagcggaggtccccgacaactcatggggcagccacggtccacccagggc tcaggcagcgagccccacacagcgcccctctccacggcgtacaggcctgaccagcgtgat ggcacagcacgcacacacctgtgcagacgccagcgcaaacgcacaccacccctgcggtcg caagccctgtcccagcccacctgcaggctccagggctctggctggcctgcacgtggccag ggcccagctggatccccctcggcgcacccaccctcagaggaactcaaaggcacacccagc aagtcagaggcagacacgggccagtccgtgtcctcacgctggtcccgtgcgctgccctca ggctcccgtcctgggaactgtccccaggcagagcctgggcatcagcgccagctgccctgc cccaggaccactggagcagaagcccgaggggcacaactgccgcggacaggatga