GENSCAN 1.0 Date run: 2-Nov-116 Time: 18:01:26 Sequence gi568815597r:19119306_19351509 : 232204 bp : 46.82% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.67 Intr - 396 252 145 2 1 53 87 105 0.961 7.18 1.66 Intr - 1043 875 169 0 1 104 91 163 0.997 17.20 1.65 Intr - 2129 1884 246 0 0 93 91 222 0.941 20.43 1.64 Intr - 2707 2629 79 1 1 82 67 143 0.999 10.72 1.63 Intr - 3755 3528 228 2 0 66 72 284 0.850 22.67 1.62 Intr - 5385 5236 150 0 0 83 107 48 0.984 6.56 1.61 Intr - 7350 7141 210 0 0 83 100 193 0.579 19.11 1.60 Intr - 8434 8318 117 1 0 67 53 89 0.524 3.96 1.59 Intr - 9013 8906 108 1 0 91 93 99 0.994 11.18 1.58 Intr - 9769 9673 97 0 1 105 70 33 0.654 3.21 1.57 Intr - 18876 18702 175 1 1 51 53 152 0.574 7.00 1.56 Intr - 19915 19778 138 2 0 89 40 130 0.652 8.74 1.55 Intr - 21587 21483 105 0 0 85 93 52 0.969 5.59 1.54 Intr - 22219 22042 178 1 1 49 70 259 0.997 19.69 1.53 Intr - 22518 22342 177 0 0 26 89 222 0.975 16.22 1.52 Intr - 25602 25481 122 1 2 105 57 158 0.980 14.61 1.51 Intr - 26628 26488 141 1 0 68 91 52 0.885 3.82 1.50 Intr - 27695 27521 175 2 1 141 66 181 0.997 20.71 1.49 Intr - 28822 28688 135 1 0 92 88 126 0.992 13.76 1.48 Intr - 29321 29210 112 1 1 92 26 44 0.957 -1.02 1.47 Intr - 31488 31272 217 1 1 60 66 264 0.963 18.96 1.46 Intr - 32554 32338 217 1 1 106 70 247 0.957 22.78 1.45 Intr - 33171 33008 164 1 2 82 116 166 0.999 18.49 1.44 Intr - 34197 33996 202 0 1 86 61 314 0.989 27.36 1.43 Intr - 34634 34463 172 1 1 90 86 52 0.944 5.15 1.42 Intr - 35770 35613 158 1 2 47 81 145 0.710 8.51 1.41 Intr - 36363 36136 228 0 0 90 72 109 0.979 7.57 1.40 Intr - 37052 36966 87 2 0 51 87 115 0.965 7.87 1.39 Intr - 37620 37462 159 0 0 63 93 62 0.852 4.38 1.38 Intr - 38692 38510 183 1 0 118 98 103 0.990 14.28 1.37 Intr - 40976 40806 171 2 0 85 101 133 0.992 14.44 1.36 Intr - 41842 41612 231 1 0 79 75 242 0.999 19.97 1.35 Intr - 42431 42284 148 1 1 118 77 101 0.986 12.24 1.34 Intr - 42544 42522 23 1 2 58 87 15 0.921 -5.26 1.33 Intr - 43306 43115 192 1 0 45 89 139 0.971 9.39 1.32 Intr - 44522 44459 64 1 1 73 116 45 0.992 4.52 1.31 Intr - 45136 44948 189 0 0 102 95 85 0.995 9.30 1.30 Intr - 45692 45494 199 0 1 120 75 232 0.999 23.51 1.29 Intr - 46044 45944 101 2 2 80 61 119 0.999 8.15 1.28 Intr - 46452 46351 102 2 0 66 99 142 0.999 12.39 1.27 Intr - 47926 47717 210 0 0 36 99 169 0.449 10.83 1.26 Intr - 48879 48722 158 0 2 95 75 51 0.717 3.31 1.25 Intr - 50227 50130 98 2 2 132 92 61 0.999 10.63 1.24 Intr - 51578 51457 122 1 2 116 86 93 0.999 12.04 1.23 Intr - 53788 53559 230 1 2 44 64 215 0.811 11.37 1.22 Intr - 54001 53876 126 1 0 72 91 51 0.882 4.68 1.21 Intr - 54316 54134 183 1 0 101 87 112 0.997 12.38 1.20 Intr - 55142 55014 129 2 0 59 91 85 0.899 6.79 1.19 Intr - 58438 58156 283 0 1 67 92 247 0.869 20.42 1.18 Intr - 59915 59746 170 2 2 81 110 -15 0.832 -1.26 1.17 Intr - 64591 64506 86 2 2 75 72 84 0.829 5.04 1.16 Intr - 64870 64711 160 1 1 87 56 130 0.981 9.26 1.15 Intr - 65981 65794 188 0 2 85 91 90 0.982 8.41 1.14 Intr - 67352 67235 118 2 1 53 75 191 0.809 14.34 1.13 Intr - 67996 67859 138 1 0 85 98 78 0.997 9.16 1.12 Intr - 68235 68136 100 2 1 73 100 15 0.652 1.31 1.11 Intr - 73073 72883 191 2 2 60 75 49 0.390 -0.82 1.10 Intr - 73235 73176 60 2 0 53 94 57 0.523 1.73 1.09 Intr - 74252 74128 125 0 2 115 49 120 0.940 11.10 1.08 Intr - 77960 77836 125 1 2 60 94 25 0.938 0.53 1.07 Intr - 78506 78365 142 0 1 52 82 83 0.939 3.51 1.06 Intr - 78744 78642 103 0 1 102 91 118 0.996 13.25 1.05 Intr - 79375 79320 56 2 2 110 77 14 0.456 1.20 1.04 Intr - 79623 79494 130 0 1 101 76 69 0.958 7.27 1.03 Intr - 80449 80346 104 2 2 53 94 42 0.856 1.19 1.02 Intr - 82510 82413 98 0 2 61 89 40 0.841 1.05 1.01 Init - 90943 90768 176 1 2 91 71 322 0.746 27.62 1.00 Prom - 91949 91910 40 -7.56 2.24 PlyA - 92526 92521 6 1.05 2.23 Term - 94766 94743 24 2 0 92 53 15 0.131 -3.38 2.22 Intr - 100177 100028 150 1 0 115 72 227 0.346 24.16 2.21 Intr - 100393 100264 130 0 1 87 97 78 0.785 9.30 2.20 Intr - 101543 101459 85 0 1 55 94 -19 0.690 -5.72 2.19 Intr - 103529 103319 211 2 1 92 61 422 0.968 38.39 2.18 Intr - 104264 104091 174 2 0 73 91 239 0.810 22.84 2.17 Intr - 108145 108008 138 1 0 84 83 166 0.907 16.36 2.16 Intr - 111658 111539 120 1 0 58 97 99 0.927 8.49 2.15 Intr - 112024 111956 69 1 0 47 79 88 0.674 3.18 2.14 Intr - 113468 113319 150 2 0 67 100 149 0.996 14.36 2.13 Intr - 113830 113631 200 2 2 45 113 157 0.940 12.97 2.12 Intr - 115947 115825 123 1 0 43 80 135 0.644 8.76 2.11 Intr - 117933 117837 97 0 1 61 106 109 0.979 9.58 2.10 Intr - 118834 118712 123 1 0 94 90 125 0.997 14.08 2.09 Intr - 119552 119490 63 2 0 100 86 30 0.722 2.91 2.08 Intr - 119997 119833 165 0 0 77 65 128 0.925 9.56 2.07 Intr - 120680 120513 168 2 0 106 93 97 0.996 12.14 2.06 Intr - 121837 121711 127 0 1 84 92 166 0.995 17.28 2.05 Intr - 123168 123040 129 2 0 52 116 48 0.911 3.81 2.04 Intr - 124402 124309 94 2 1 118 91 94 0.999 11.72 2.03 Intr - 124710 124645 66 1 0 79 98 83 0.985 7.28 2.02 Intr - 125725 125601 125 0 2 96 65 107 0.992 9.43 2.01 Init - 125950 125940 11 1 2 33 77 15 0.270 -6.00 2.00 Prom - 128363 128324 40 -5.26 3.00 Prom + 131122 131161 40 -6.26 3.01 Init + 132203 132788 586 1 1 105 47 202 0.122 11.17 3.02 Intr + 135477 135535 59 1 2 75 94 43 0.502 2.20 3.03 Intr + 136643 136746 104 1 2 68 105 196 0.901 18.27 3.04 Intr + 137759 137840 82 2 1 79 111 90 0.997 10.04 3.05 Intr + 138149 138216 68 1 2 88 80 59 0.999 2.80 3.06 Intr + 138528 138679 152 0 2 117 64 171 0.999 17.41 3.07 Intr + 139172 139248 77 0 2 88 105 136 0.999 14.53 3.08 Term + 139376 139525 150 1 0 131 48 172 0.999 15.41 3.09 PlyA + 139664 139669 6 1.05 4.05 PlyA - 140840 140835 6 -0.45 4.04 Term - 141153 141113 41 1 2 44 49 29 0.363 -8.05 4.03 Intr - 141428 141275 154 2 1 90 80 179 0.910 16.95 4.02 Intr - 143002 142877 126 1 0 63 91 124 0.893 11.08 4.01 Init - 144836 144828 9 2 0 73 78 2 0.551 -1.78 4.00 Prom - 145747 145708 40 -5.96 5.08 PlyA - 146163 146158 6 1.05 5.07 Term - 148156 147995 162 1 0 88 43 250 0.999 18.44 5.06 Intr - 149444 149267 178 1 1 55 91 222 0.713 19.12 5.05 Intr - 150138 149967 172 1 1 109 13 209 0.461 14.50 5.04 Intr - 150374 150278 97 2 1 118 92 63 0.999 9.28 5.03 Intr - 151264 151146 119 2 2 -31 94 175 0.278 6.38 5.02 Intr - 154193 154056 138 0 0 104 53 47 0.632 3.24 5.01 Init - 154769 154556 214 2 1 87 77 454 0.961 41.11 5.00 Prom - 158169 158130 40 -5.46 6.08 PlyA - 159652 159647 6 1.05 6.07 Term - 163587 163426 162 0 0 88 47 236 0.999 17.44 6.06 Intr - 164820 164691 130 2 1 108 91 192 0.988 22.20 6.05 Intr - 165552 165381 172 1 1 106 111 202 0.701 23.30 6.04 Intr - 165809 165713 97 2 1 105 92 80 0.999 9.68 6.03 Intr - 166687 166583 105 1 0 17 94 129 0.971 6.81 6.02 Intr - 167067 166880 188 1 2 108 78 243 0.969 24.71 6.01 Init - 169404 169191 214 0 1 87 77 444 0.947 40.11 6.00 Prom - 172163 172124 40 -5.46 7.00 Prom + 173831 173870 40 -4.26 7.01 Init + 176539 176684 146 0 2 84 27 67 0.486 -0.21 7.02 Term + 177613 177793 181 1 1 62 49 142 0.545 4.78 7.03 PlyA + 179125 179130 6 1.05 8.08 PlyA - 180615 180610 6 1.05 8.07 Term - 185081 184920 162 2 0 88 47 228 0.999 16.64 8.06 Intr - 186842 186713 130 1 1 73 91 190 0.982 18.50 8.05 Intr - 187796 187697 100 0 1 96 97 156 0.546 16.47 8.04 Intr - 188105 188009 97 2 1 111 92 75 0.999 9.78 8.03 Intr - 188957 188853 105 2 0 55 94 97 0.979 7.41 8.02 Intr - 189337 189150 188 2 2 65 78 216 0.995 17.71 8.01 Init - 192861 192522 340 0 1 90 77 487 0.961 43.22 8.00 Prom - 195348 195309 40 -4.46 9.00 Prom + 195536 195575 40 -14.93 9.01 Init + 195951 196002 52 2 1 87 80 74 0.967 7.82 9.02 Intr + 196759 196871 113 2 2 96 52 30 0.865 0.30 9.03 Intr + 198295 198536 242 0 2 100 86 178 0.547 15.15 9.04 Intr + 205328 205457 130 2 1 108 80 192 0.642 21.10 9.05 Intr + 206190 206277 88 2 1 79 56 109 0.862 6.34 9.06 Intr + 206940 207082 143 1 2 94 100 118 0.999 13.67 9.07 Intr + 207226 207318 93 0 0 89 66 152 0.899 13.26 9.08 Intr + 207922 208132 211 0 1 97 43 312 0.891 26.09 9.09 Intr + 209335 209495 161 2 2 40 74 127 0.503 6.21 9.10 Term + 211577 211699 123 1 0 104 50 43 0.270 0.48 9.11 PlyA + 213096 213101 6 1.05 10.05 PlyA - 219495 219490 6 1.05 10.04 Term - 223913 223457 457 1 1 42 46 279 0.707 13.70 10.03 Intr - 225129 225053 77 0 2 105 80 120 0.999 11.21 10.02 Intr - 225947 225882 66 2 0 126 105 56 0.961 10.20 10.01 Intr - 226567 226496 72 1 0 88 84 63 0.723 5.50 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 220312 220225 88 0 1 158 40 107 0.910 10.03 S.002 Init - 220596 220550 47 0 2 84 77 -4 0.826 -1.73 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_1|3341_aa MATSGGEEAAAAAPAPGTPATGADTTPGWEVAVRPLLSASYSAFEMKELPQLVASVIESE SEILHHEKQYEPFYSSFVALSTHYITTVCSLIPRNQLQSVAAACKVLIEFSLLRLENPDE ACAVSQKHLILLIKGLCTGCSRLDRTEIITFTAMMKSAKLPQTVKTLSDVEDQKELASPV SPELRQKEVEGENDEQSSTDQASAIKTKNVFIAQNVASLQELGGSEKLLRVCLNLPYFLR YINRFQDAVLANSFFIMPATVADATAVRNGFHSLVIDVTMALDTLSLPVLEPLNPSRLQD VTVLSLSCLYAGVSVATCMAILHVGSAQQVRTGSTSSKEDDYESDAATIVQKCLEIYDMI GQAISSSRRAGGEHYQNFQLLGAWCLLNSLFLILNLSPTALADKGKEKDPLAALRVRDIL SRTKEGVGSPKLGPGKGHQGFGVLSVILANHAIKLLTSLFQDLQVEALHKGWETDGPPAA LSIMAQSTSIQRIQRLIDSVPLMNLLLTLLSTSYRKACVLQRQRKGSMSSDASASTDSNT YYEDDFSSTEEDSSQDDDSEPILGQWFEETISPSKEKAAPPPPPPPPPLESSPRVKSPSK QAPGEKGNILASRKDPELFLGLASNILNFITSSMLNSRNNFIRNYLSVSLSEHHMATLAS IIKEVDKDGLKGSSDEEFAAALYHFNHSLVTSDLQSPNLQNTLLQQLGVAPFSEGPWPLY IHPQSLSVLSRLLLIWQHKASAQGDPDVPECLKVWDRFLSTMKQNALQGVVPSETEDLNV EHLQMLLLIFHNFTETGRRAILSLFVQIIQELSVNMDAQMRFVPLILARLLLIFDYLLHQ YSKAPVYLFEQACDVLFSKLVKYDELYAALTALLAAGSQLDTVRRKENKNVTALEACALQ YYFLILWRILGILPPSKTYINQLSMNSPEMSECDILHTLRWSSRLRISSYVNWIKDHLIK QGMKAEHASSLLELASTTKCSSVKYDVEIVEEYFARQISSFCSIDCTTILQLHEIPSLQS IYTLDAAISKVQVSLDEHFSKMAAETDPHKSSEITKNLLPATLQLIDTYASFTRAYLLQN FNEEGTTEKPSKEKLQGFAAVLAIGSSRCKANTLGPTLVQNLPSSVQTVCESWNNINTNE FPNIGSWRNAFANDTIPSESYISAVQAAHLGTLCSQSLPLAASLKHTLLSLVRLTGDLIV WSDEMNPPQVIRTLLPLLLESSTESVAEISSNSLERILGPAESDEFLARVYEKLITGCYN ILANHADPNSGLDESILEECLQYLEKQLESSQARKAMEEFFSDSGELVQIMMATANENLS AKFCNRVLKFFTKLFQLTEKSPNPSLLHLCGSLAQLACVEPVRLQAWLTRMTTSPPKDSD QLDVIQENRQLLQLLTTYIVRENSQVGEGVCAVLLGTLTPMATEMLANGDGTGFPELMVV MATLASAGQGAGHLQLHNAAVDWLSRCKKYLSQKNVVEKLNANVMHGKHVMILECTCHIM SYLADVTNALSQSNGQGPSHLSVDGEERAIEVDSDWVEELAVEEEDSQAEDSKEFMNQHW YHCHTCKMVDGVGVCTVCAKVCHKDHEISYAKYGSFFCDCGAKEDGSCLALVKRTPSSGM SSTMKESAFQSEPRISESLVRHASTSSPADKAKVTISDGKVADEEKPKKSSLCRTVEGCR EELQNQANFSFAPLVLDMLNFLMDAIQTNFQQASAVGSSSRAQQALSELHTVEKAVEMTD QLMVPTLGSQEGAFENVRMNYSGDQGQTIRQLISAHVLRRVAMCVLSSPHGRRQHLAVSH EKGKITVLQLSALLKQADSSKRKLTLTRLASAPVPFTVLSLTGNPCKEDYLAVCGLKLAT GNFIIKAVWLPGSQTELAIVTADFVKIYDLCVDALSPTFYFLLPSSKIRDVTFLFNEEGK NIIVIMSSAGYIYTQLMEEASSAQQGPFYVTNVLEINHEDLKDSNSQVAGGGVSVYYSHV LQMLFFSYCQGKSFAATISRTTLEVLQLFPINIKSSNGGSKTSPALCQWSEVMNHPGLVC CVQQTTGVPLVVMVKPDTFLIQEIKTLPAKAKIQDMVAIRHTACNEQQRTTMILLCEDGS LRIYMANVENTSYWLQPSLQPSSVISIMKPVRKRKTATITTRTSSQVTFPIDFFEHNQQL TDVEFGGNDLLQVYNAQQIKHRLNSTGMYVANTKPGGFTIEISNNNSTMVMTGMRIQIGT QAIERAPSYIEIFGRTMQLNLSRSRWFDFPFTREEALQADKKLNLFIGASVDPAGVTMID AVKIYGKTKEQFGWPDEPPEEFPSASVSNICPSNLNQSNGTGDSDSAAPTTTSGTVLERL VVSSLEALESCFAVGPIIEKASHFFKAHGSFLKRQEERNKNAAQELATLLLSLPAPASVQ QQSKSLLASLHTSRSAYHSHKDQALLSKAVQCLNTSSKEGKDLDPEVFQRLVITARSIAI MRPNNLVHFTESKLPQMETEGMDEGKEPQKQLEGDCCSFITQLVNHFWKLHASKPKNAFL APACLPGLTHIEATVNALVDIIHGYCTCELDCINTASKIYMQMLLCPGGKQAPSGDWGFF DSGDKDDDDDDDADEKMQSSGIPNGGHIRQESQEQSEVDHGDFEMVSESMVLETAENVNN GNPSPLEALLAGAEGFPPMLDIPPDADDETMVELAIALSLQQDQQGSSSSALGLQSLGLS GQAPSSSSLDAGTLSDTTASAPASDDEGSTAATDGSTLRTSPADHGGSVGSESGGSAVDS VAGEHSVSGRSSAYGDATAEGHPAGPGSVSSSTGAISTTTGHQEGDGSEGEGEGETEGDV HTSNRLHMVRLMLLERLLQTLPQLRNVGGVRAIPYMQVILMLTTDLDGEDEKDKGALDNL LSQLIAELGMDKKDVSKKNERSALNEVHLVVMRLLSVFMSRTKSGSKSSICESSSLISSA TAAALLSSGAVDYCLHVLKSLLEYWKSQQNDEEPVATSQLLKPHTTSSPPDMSPFFLRQY VKGHAADVFEAYTQLLTEMVLRLPYQIKKITDTNSRIPPPVFDHSWFYFLSEYLMIQQTP FVRRQVRKLLLFICGSKEKYRQLRDLHTLDSHVRGIKKLLEEQGIFLRASVVTASSGSAL QYDTLISLMEHLKACAEIAAQRTINWQKFCIKDDSVLYFLLQVSFLVDEGVSPVLLQLLS CALCGSKVLAALAASSGSSSASSSSAPVAASSGQATTQSKSSTKKSKKEEKEKEKDGETS GSQEDQLCTALVNQLNKFADKETLIQFLRCFLLESNSSSVRWQAHCLTLHIYRNSSKSQQ ELLLDLMWSIWPELPAYGRKAAQFVDLLGYFSLKTPQTEKK >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_1|10023_bp atggcgacgagcggcggcgaagaggcggcggcagcggctccggcgccggggaccccggca acgggggcggacacgaccccgggctgggaggtggctgtgcggcccctgctgtccgcgtcc tactccgccttcgagatgaaggagttgccgcagctggtggcctcagtcatcgagagtgaa tcagaaatcctgcaccatgagaagcagtacgagccattctactcatcttttgttgcactt tccacacactatattacaacagtttgcagtctcattccccggaaccaacttcagtcagtg gcagcagcctgtaaagttctaattgagttttctctcctgcgtctggagaatccagatgag gcttgtgctgtgtcccagaaacacttgattctcctaatcaagggcctgtgcactggctgt agccgactagatagaactgaaattatcacatttacagcaatgatgaaatccgccaagctg ccccaaacagtgaagacactttcagacgtggaagatcagaaagagctggcctcaccagta agccctgagttgaggcaaaaggaggtggaaggagaaaatgatgagcagtcatctacagat caagcctcagctatcaaaaccaagaatgtgttcatagctcagaacgtggctagtcttcaa gagcttggtggctcggagaagctactgcgtgtatgtttgaacctgccatatttcctacgc tatatcaatcggttccaagatgcagttttagctaattccttcttcataatgcctgcaaca gtagcagatgccactgctgttcgtaatggctttcattcattggtgattgatgtaactatg gcattggataccctttctctacctgtgttggaacctctcaatccttctcgtctacaagat gtgacagtcctcagcctaagttgtctgtatgcaggtgtgagtgtggcaacgtgcatggcc atcctccatgtgggtagtgcccagcaagtgcggacagggtccacgagctccaaagaagat gactatgaaagtgacgcagctacaattgtccagaaatgtctcgaaatctatgacatgatt ggacaagcaatcagcagttctcgccgggctggtggtgagcactatcagaatttccaattg ctgggtgcttggtgcttgttaaacagccttttcctcatactgaacctcagtcctactgcg ttggctgataaggggaaagagaaggacccactggctgccctccgagtcagagacatcctt tctcgtactaaagagggagtgggctcccctaaactggggcctggaaaagggcatcaggga tttggggtactctcagtaatattggcaaaccatgccatcaaactgctaacgtctctcttt caagacctacaagtggaggcccttcacaagggttgggagacagatggcccccctgcagcc ttgagcattatggcccagagcacctccatacagaggattcaacggctgattgactctgtc ccactgatgaacctgctcttgacgttactttcaacttcctacagaaaggcatgtgtcctg cagcggcagaggaagggctccatgagcagcgatgccagcgcctccaccgactccaatact tactatgaggacgatttcagtagcacggaggaggacagcagccaagacgatgacagtgag cctattttggggcaatggtttgaggagactatttctcccagtaaagagaaagcagcacct ccgcctcctcccccacctcctccactggaaagctctcctcgggttaaaagccccagtaag caggcccctggtgagaagggcaacattctggcgagtcgcaaagatcctgagttgttctta ggtctggcttccaacattttgaacttcatcacctcttccatgctgaactctcggaacaat tttatccgaaactatctgagtgtatctctttcagaacaccatatggccaccctagccagt atcatcaaggaggtggacaaagatggactcaagggttcatcagatgaagagtttgctgca gctctctatcacttcaaccactcactggtaacctctgaccttcagtcacctaacctgcag aacacactgttgcagcagctaggagtggctcctttttctgagggcccttggcccttgtac attcaccctcaaagcctctctgtgctttcacgcctcctgctcatctggcaacataaagcc agtgctcaaggtgaccctgacgtcccagaatgccttaaagtttgggacaggtttttgtct acaatgaagcagaatgccctgcaaggtgtggtgcccagtgagacagaggatctgaatgta gaacacctgcagatgctcctcctcattttccacaatttcaccgagacaggccggcgggcc atattgtcgctttttgtccagatcatccaggagttgagcgtcaacatggatgctcagatg cgcttcgtgccgcttatcttggctcgcctccttctcatctttgattatctgcttcatcag tactccaaagcccctgtgtatctatttgagcaggcatgtgacgtccttttctccaagctt gtcaagtatgatgagctttatgctgcactgacagccctgcttgcagctgggtcccagctt gatacagttaggagaaaggaaaacaagaatgtaacagccttggaggcctgtgcccttcaa tattacttcttgatactgtggaggatcctaggaattttaccaccatcaaagacttacatt aaccagctatccatgaactcacctgagatgagcgaatgtgacatcttgcacactctgcga tggtcttctcggctccggatcagctcctatgtcaactggataaaggatcaccttatcaaa cagggaatgaaggctgagcatgctagctcgcttctagaactggcatccaccactaagtgt agctcagtgaaatatgatgttgaaatagtagaggaatacttcgctcgacagatctcatcc ttctgtagtatcgactgtaccaccatcttgcagctgcatgaaattcccagtctgcagtcc atctacacccttgatgccgcgatctcaaaggtccaggtctctttggatgagcatttttct aagatggctgctgagactgatcctcataagtcgtctgagattaccaagaacctacttcca gccacgctgcaactcattgacacctatgcatcgttcaccagagcctatttgctgcaaaac tttaatgaagagggaacaactgagaaaccttccaaggagaaactgcaaggctttgctgct gttttggctattggctctagcaggtgcaaggcaaatactctgggtccgacactggttcag aatttgccatcgtcagtgcagactgtgtgtgagtcctggaacaacatcaataccaatgaa tttcccaatattggatcctggcgcaatgcctttgccaatgacaccatcccttcagagagt tatattagtgcagtgcaggctgcacacctggggactctctgtagccaaagtctgcccctg gctgcttccctgaagcataccctcctctcactggtcaggttgactggagatcttattgtt tggtcagatgagatgaacccaccacaggtaattcggacactgctacctcttcttttggaa tcaagcactgagagtgttgccgagatcagtagcaactccctggaacgcatcttgggccct gctgagtctgatgagttcttggctcgtgtttatgagaagctgatcactggttgttacaac attctggccaatcatgcagatcctaacagtggactggatgaatccatcctggaggaatgt ctccagtacttggaaaagcagctggaaagtagccaggctcgtaaagctatggaggagttt ttctctgacagtggagaacttgtacagatcatgatggcaacagccaatgagaacctctct gctaaattctgtaaccgagttttgaaattcttcaccaaactcttccagctgactgagaag agccctaacccgagcctgttgcatctctgtggctccctggcacaactggcctgtgtggaa cctgtgcgcctgcaggcctggctcacccgcatgactacatcgcccccaaaagattctgat cagctggatgtaattcaggagaaccggcagctgctgcagttactgaccacatacattgtt cgggaaaacagccaagttggggaaggtgtgtgtgctgttcttctgggcaccctgactccc atggcaacagagatgctggccaacggtgatgggactggcttccctgaacttatggttgtg atggccactctggccagtgcaggtcaaggtgctggtcaccttcagcttcataatgctgct gtggattggctgagcagatgcaagaaatacctgtcacagaagaatgtagttgaaaaactg aatgccaatgtaatgcatggaaagcatgtgatgatcttggagtgcacatgccatatcatg tcttacttggctgatgtcacgaatgccctgagccagagtaatggtcaaggcccaagtcat ctctcagtggatggggaagagcgggccattgaagtagactcagactgggtggaggagttg gcggtggaagaggaagattcccaggctgaggattcaaaagaattcatgaaccagcattgg taccactgtcacacctgtaaaatggtggatggcgtgggtgtctgcacagtgtgtgctaag gtgtgccacaaggatcatgagatttcctatgccaagtatggatccttcttctgtgactgt ggagccaaggaagatggcagctgtttggctctggtgaagagaactcctagcagtggcatg agctctaccatgaaggagtcggcatttcagagtgaacccaggatttcagagagtctagtg cgtcatgccagcacctcctcgccagctgacaaagccaaggttaccatcagtgatggaaag gttgctgacgaagagaagcccaagaagagcagcctctgccgcacagtagagggctgccgg gaggaattacagaaccaggccaatttctccttcgctcctctcgtgttagacatgcttaat ttccttatggatgccattcagaccaacttccagcaagcttcagccgtcgggagcagcagc cgtgctcagcaagccctcagtgagctacacactgtggagaaggcagtggagatgacagac cagctgatggttcccaccttagggtcccaggaaggtgcctttgagaatgtgcggatgaat tacagtggagaccagggccagaccatccggcagctgatcagtgctcatgtgctcaggcgg gtggctatgtgtgtgctctcctctccccatgggcgccgccaacatttggctgtcagccat gagaagggcaagatcaccgttctgcagctctctgcactcctgaagcaagcagattccagc aaaaggaagttaactctgacccgcttggcttctgccccagttccttttactgtgttgagc ctcacaggaaatccctgcaaggaagactacttggcggtttgtgggctaaagttggcaacg gggaacttcatcatcaaagccgtgtggttacctggttcacagaccgagttagcaattgtc accgcagactttgttaagatttatgacctgtgtgttgatgccttgagtccaaccttctat tttctcctgccaagctcaaagataagagatgttaccttccttttcaatgaggagggaaag aacatcattgttataatgtcttcggctgggtacatctatactcagcttatggaagaggcc agcagtgcccagcagggacccttctatgtcactaatgtgttggaaatcaatcatgaggac ctgaaggacagtaacagccaggtggcgggcggtggtgtgtccgtgtactactcccacgtg ttgcagatgttgttcttcagctattgtcaaggcaaatcattcgcagccaccatcagcagg acaaccctggaggtgttgcaactcttccccatcaacatcaaaagttccaatggtggcagt aagacttctcctgctctttgccagtggtctgaggtgatgaaccaccctggcttggtgtgc tgtgtccagcaaactacaggggtgccgctggtagttatggtgaaaccagacacttttctt atccaggagattaagactcttcctgctaaagcgaagatccaagacatggttgctattagg cacacggcctgcaatgagcagcagcggacaacaatgattctgctgtgtgaggatggcagc ctgcgcatttacatggccaacgtggagaacacctcctactggctgcagccatccctgcag cccagcagtgtcatcagcatcatgaagcctgttcgaaagcgcaaaacagctacaatcaca acccgcacgtctagccaggtgactttccccattgacttttttgaacacaaccagcagctg acagatgtggagtttggtggtaacgacctcctacaggtctataatgcacaacagataaaa caccggctgaattccactggcatgtatgtggccaacaccaagcccggaggcttcaccatt gagattagtaacaacaatagcactatggtgatgacaggcatgcggatccagattgggact caagcaatagaacgggccccgtcatatatcgagatcttcggcagaactatgcagctcaac ctgagtcgctcacgctggtttgacttccccttcaccagagaagaagccctgcaggctgat aagaagctgaacctcttcattggggcctcggtggatccagcaggtgtcaccatgatagat gctgtaaaaatttatggcaagactaaggagcagtttggctggcctgatgagcccccagaa gaattcccttctgcctctgtcagcaacatctgcccttcaaatctgaaccagagcaacggc actggagatagcgactcagctgcccccactacgaccagtggaactgtcctggagaggctg gttgtgagttctttagaagccctggaaagctgctttgccgttggcccaatcatcgagaag gcaagtcactttttcaaagcacatggaagctttctgaagaggcaggaagagagaaacaag aatgctgctcaggagctggccactttgctgttgtccctgccagcacctgccagtgtccag cagcagtccaagagccttctggccagcctgcacaccagccgctcggcctaccacagccac aaggatcaggccttgctgagcaaagctgtgcagtgtctcaacacatctagcaaagagggc aaggatttggaccctgaggtgttccagaggctagtgatcacagctcgctccattgccatc atgcgccccaacaaccttgtccactttacggagtcaaagctgccccagatggaaacagaa ggaatggatgaagggaaggaaccgcagaagcagttggaaggagattgctgtagtttcatc acccagcttgtgaaccacttctggaaactccatgcatccaaacccaagaatgccttcttg gcacctgcctgccttccaggactaactcatattgaagctactgtcaatgctctggtggac atcatccatggctactgtacctgtgagctggattgtattaacacagcatccaagatctac atgcagatgctcttgtgtcctggaggaaagcaagcaccttcaggtgactggggtttcttt gactcaggagacaaggatgatgatgacgatgatgatgcagatgagaaaatgcagtcatca gggatcccgaatggtggtcacatccgtcaggaaagccaggaacagagtgaggtggaccat ggagattttgagatggtgtctgagtcgatggtcctggagacagctgaaaatgtcaacaat ggcaacccctctcccctggaggccctgctggcaggcgcagagggcttcccccccatgctg gacatcccacctgatgcagatgacgagaccatggttgaactagccattgccctgagcctg cagcaggaccaacaaggcagcagcagcagtgccctgggcctgcagagcctgggactgtcc ggccaggcacccagctcttcctctctggacgcaggaaccctctctgacaccacagcatca gctccagcctcagacgacgagggcagtacagcagcgacagatggttctacccttcggacc tctcctgctgaccacggtggtagtgtgggctcggagagcgggggcagtgcagtggactca gtggctggcgagcacagtgtatctggccggagcagtgcttatggcgatgctacagctgag gggcatccggctggaccaggaagtgtcagctcaagcactggagccatcagcaccaccact gggcaccaggagggagatggctccgagggagaaggagaaggagaaactgaaggagatgtc cacactagcaacaggctgcacatggtccgtctaatgctgttggagagattactgcagacc ctgcctcaattacgaaacgttggcggtgtccgggccatcccatacatgcaggtcattcta atgctcactacagatctggatggagaagatgagaaagacaagggggccctagacaacctg ctctcccagcttattgctgagttgggtatggataaaaaggatgtctccaagaagaatgag cgcagcgccctgaatgaagtccatctggtagtaatgagactcctgagtgtcttcatgtcc cgcaccaaatctggatccaagtcttccatatgtgagtcatcttccctcatctccagtgcc acagcagcagctctactgagctctggggctgtggactactgcctgcacgtgctcaaatca ctgctggaatattggaagagccaacagaatgacgaggagcctgtggctaccagccagttg ctgaaaccacatactacctcctccccacctgacatgagcccattctttctccgccagtat gtgaagggtcatgctgctgatgtgtttgaggcctatactcagcttctaacagaaatggta ctgaggcttccttaccaaatcaaaaagattactgacaccaattctcgaatcccacctcct gtctttgaccactcgtggttttactttctctccgagtacctcatgatccagcagactcca tttgtgcgccgtcaagtccgcaaacttctgctcttcatctgtggatccaaagagaagtac cgccagctccgggatttgcacaccctggactctcacgtgcgtgggatcaagaagctgcta gaagagcaggggatattcctccgggcaagtgtggttacagccagctcaggctccgccttg caatatgacacactcatcagcctgatggagcacctgaaagcctgtgcagagattgccgcc cagcgaaccatcaactggcagaaattctgcatcaaagatgactccgtcctgtacttcctc ctccaagtcagtttccttgtggatgagggcgtgtccccagtgctgctgcaactgctctcc tgtgctctgtgcggcagcaaggtgctcgctgcactggcagcctcttcgggatcctccagt gcttcttcctcctcagcccctgtggctgccagttctggacaagccacaacacagtccaag tcttccactaaaaagagcaagaaagaagaaaaagaaaaggagaaagatggtgagacctct ggcagccaggaggaccagctgtgcacagctctggtgaaccagctgaacaaatttgccgat aaggaaaccctgatccagttcctgcgttgtttcctgttagagtccaattcttcctcggtg cgctggcaggcccactgtctgacactgcacatctacagaaattccagcaaatctcaacag gagctcctgctagatctgatgtggtccatctggccagaactcccagcctatggtcgtaag gctgcccagtttgtggacctactaggatatttctccctgaaaactccacaaacagagaag aag >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_2|913_aa MLIRRQQYVGKVKFASLEFSPGSKKLVVATEKNVIAALNSRTGEILWRHVDKGTAEGAVD AMLLHGQDVITVSNGGRIMRSWETNIGGLNWEITLDSGSFQALGLVGLQESVRYIAVLKK TTLALHHLSSGHLKWVEHLPESDSIHYQMVYSYGSGVVWALGVVPFSHVNIVKFNVEDGE IVQQSLDLEFGSGFQPRVLPTQPNPVDASRAQFFLHLSPSHYALLQYHYGTLSLLKNFPQ TALVSFATTGEKTVAAVMACRNEVVSIENNSQHLGFSFLVSTRNPENQKSGHIDLQKSSS SEDGSMGSFSEKSSSKDSLACFNQTYTINLYLVETGRRLLDTTITFSLEQSGTRPERLYI QVFLKKDDSVGYRALVQTEDHLLLFLQQLAGKVVLWSREESLAEVVCLEMVDLPLTGAQA ELEGEFGKKADGLLGMFLKRLSSQLILLQAWTSHLWKMFYDARKPRSQIKNEINIDTLAR DEFNLQKMMVMVTASGKLFGIESSSGTILWKQYLPNVKPDSSFKLMVQRTTAHFPHPPQC TLLVKDKSLLLPVMDQDYAKVLLLIDDEYKVTAFPATRNVLRQLHELAPSIFFYLVDAEQ GRLCGYRLRKDLTTELSWELTIPPEVQRIVKVKGKRSSEHVHSQGRVMGDRSVLYKSLNP NLLAVVTESTDAHHERTFIGIFLIDGVTGRIIHSSVQKKAKGPVHIVHSENWVVYQYWNT KARRNEFTVLELYEGTEQYNATAFSSLDRPQLPQVLQQSYIFPSSISAMEATITERGITS RHLLIGLPSGAILSLPKALLDPRRPEIPTEQSREENLIPYSPDVQIHAERFINYNQTVSR MRGIYTAPSGLESTCLVVAYGLDIYQTRVYPSKQFDVLKDDYDYVLISSVLFGLVFATMI TKRLAQESECEVS >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_2|2742_bp atgttgatcaggagacagcaatatgttgggaaggtcaagtttgcctccttggaattttcc cctggatccaagaagttggttgtagccacagagaagaatgtgattgcagcattaaattcc cgaactggggagatcttgtggcgccatgttgacaagggcacggcagaaggggctgtggat gccatgctgctgcacggacaggatgtgatcactgtgtccaatggaggccgaatcatgcgt tcctgggagactaacatcgggggcctgaactgggagataaccctggacagtggcagtttc caggcacttgggctggttggcctgcaggagtctgtaaggtacatcgcagtcctgaagaag actacacttgccctccatcacctctccagtgggcacctcaagtgggtggaacatctccca gaaagtgacagcatccactaccagatggtgtattcttacggctctggggtggtgtgggcc ctcggagttgttcccttcagccatgtgaacattgtcaagtttaatgtggaagatggagag attgttcagcagtctctcgacttagaatttggaagtggattccaaccccgggtcctgcct acccagcccaacccagtggacgcttcccgggcccagttcttcctgcacttgtccccaagc cactatgctctgctgcagtaccattatggaacgctgagtttgcttaaaaacttcccacag actgccctagtgagctttgccaccactggggagaagacggtggctgcagtcatggcctgt cggaatgaagtggtgagtattgagaacaacagtcagcacttgggattttccttcctggtc tccactaggaaccctgaaaatcagaagtctgggcacattgacctgcagaaaagtagcagt tctgaagatgggtcaatggggagcttttcggagaagtctagttcaaaggactctctggct tgcttcaatcagacctacaccattaacctatacctcgtggagacaggtcggcggctgctg gacaccacgataacatttagcctggaacagagcggcactcggcctgagcggctgtatatc caggtgttcttgaagaaggatgactcagtgggctaccgggctttggtgcagacagaggat catctgctacttttcctgcagcagttggcagggaaggtggtgctgtggagccgtgaggag tccctggcagaagtggtgtgcctagagatggtggacctccccctgactggggcacaggcc gagctggaaggagaatttggcaaaaaggcagatggcttgctggggatgttcctgaaacgc ctctcgtctcagcttatcctgctgcaagcatggacttcccacctctggaaaatgttttat gatgctcggaagccccggagtcagattaagaatgagatcaacattgacaccctggccaga gatgaattcaacctccagaagatgatggtgatggtaacagcctcaggcaagctttttggc attgagagcagctctggcaccatcctgtggaaacagtatctacccaatgtcaagccagac tcctcctttaaactgatggtccagagaactactgctcatttcccccatcccccacagtgc accctgctggtgaaggacaagtccttgcttctcccagtcatggatcaagactacgccaag gtgttgctgttgatagatgatgaatacaaggtcacagcttttccagccactcggaatgtc ttgcgacagctacatgagcttgccccttccatcttcttctatttggtggatgcagagcag ggacggctgtgtggatatcggcttcgaaaggatctcaccactgagctgagttgggagctg accattcccccagaagtacagcggatcgtcaaggtgaaggggaaacgcagcagtgagcac gttcattcccagggccgtgtgatgggggaccgcagtgtgctctacaagagcctgaacccc aacctgctggccgtggtgacagagagcacagacgcgcaccatgagcgcacctttattggc atcttcctcattgatggcgtcactgggcgtatcattcactcctctgtgcagaagaaagcc aaaggccctgtccatatcgtgcattcagagaactgggtggtgtaccagtactggaacacc aaggctcggcgcaacgagtttaccgtactggagctctatgagggcactgagcaatacaac gccaccgccttcagctccctggaccgcccccagctgccccaggtcctccagcagtcctat atcttcccgtcctccatcagtgccatggaggccaccatcaccgaacggggcatcaccagc cgacacctgctgattggactaccttctggagcaattctttcccttcctaaggctttgctg gatccccgccgccccgagatcccaacagaacaaagcagagaggagaacttaatcccgtat tctccagatgtacagatacacgcagagcgattcatcaactataaccagacagtttctcga atgcgaggtatctacacagctccctcgggtctggagtccacttgtttggttgtggcctat ggtttggacatttaccaaactcgagtctacccatccaagcagtttgacgttctgaaggat gactatgactacgtgttaatcagcagcgtcctctttggcctggtttttgccaccatgatc actaagagactggcacaggaatcagagtgtgaagttagttga >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_3|425_aa MMRAHAPPTAVPACTAPRAPPPRDHRAGIAREALGRTGRSGFRDCLGTREVALQAREKAQ AAAWQGEAGCSAHWVRHTRGAAPEGRPRVPRAAGVLTGCTVFRRTWIQRDAQIQARQERW AKGESGPWGELRGLATQPAVRASGRRGRRLERQDILEVFRCLAASWNGGFGAVKPPEVAD ARSGLGSGDSFCLVSVSLTKTAKKGLELKQNLIEELRKCVDTYKYLFIFSVANMRNSKLK DIRNAWKHSRMFFGKNKVMMVALGRSPSDEYKDNLHQVSKRLRGEVGLLFTNRTKEEVNE WFTKYTEMDYARAGNKAAFTVSLDPGPLEQFPHSMEPQLRQLGLPTALKRGVVTLLSDYE VCKEGDVLTPEQARVLKLFGYEMAEFKVTIKYMWDSQSGRFQQMGDDLPESASESTEESD SEDDD >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_3|1278_bp atgatgcgagcgcatgcaccacccaccgccgtcccggcatgcaccgcgccgcgggctccg cctccgcgggaccacagagctgggatagcgcgcgaggccctcggtcggacgggacgctcg ggattcagggactgcctcggcacacgggaagttgccctacaggcgcgggagaaagcgcag gcggcggcttggcagggagaggcaggctgcagtgcacattgggtcaggcacacgcgaggg gcagcccccgagggccgtcccagagtcccccgcgccgccggggtcctaacggggtgcacc gtcttccgccgcacgtggattcagcgcgatgcccaaatccaagcgcgacaagaaaggtgg gcgaagggggagtcgggaccctggggggagctccgtgggctggctacccagcctgcggtg agggcttcggggcggcgggggcgcagattggaacgccaggacatcctcgaggtgttccgc tgcctcgctgcgagctggaatgggggcttcggggctgtaaaaccgccagaggtggctgac gcccggtcgggtctggggagcggagactcgttttgcctagtttcagtctccttaaccaaa actgccaagaaaggcttggaattgaaacaaaacctgatagaagagcttcggaaatgtgtg gacacctacaagtaccttttcatcttctctgtggccaacatgaggaacagcaagctgaag gacatccggaacgcctggaagcacagccggatgttctttggcaaaaacaaggtgatgatg gtggccttgggtcggagcccatctgatgaatacaaagacaacctgcaccaggtcagcaaa aggttgaggggtgaggtgggtctcctgttcaccaaccgcacaaaggaggaggtgaatgag tggttcacgaaatacacagaaatggactacgcccgagctggtaacaaagcagctttcact gtgagcctggatccagggcccctggagcagttcccccactccatggagccacagctcagg cagctgggcctgcccaccgccctcaagagaggtgtggtgactctgctgtctgactacgag gtgtgcaaggagggcgatgtgctgaccccagagcaggctcgcgtcctgaagctttttggg tatgagatggctgaattcaaggtgaccatcaaatacatgtgggattcacagtcgggaagg ttccagcagatgggagacgacttgccagagagcgcatctgagtccacagaagagtcagac tcagaagatgatgactga >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_4|109_aa MAFLLEQAPLQGHGPGGAGPADCVYSTSAPGMALTVLRWTTRKLQGMHRDVVILDGAIGE TGSSKGTLDSAVTEAADQAWHLTIPLPPPGLARPGSVFPVILTRREGRA >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_4|330_bp atggcatttcttctggaacaagcaccacttcaaggccatggccctggtggagcaggtcct gcagattgtgtatatagcaccagtgcccctggcatggccttgactgtcctgcgatggacc actcgcaagctgcagggcatgcatagggacgtggtcatcctggatggagcaattggagaa actggcagcagcaaagggaccctggactcggctgtcacagaggccgccgaccaagcctgg cacctgaccatcccactacctcctccaggtctggctagacctggctcagtcttcccagtc atcctcacaaggcgagagggccgggcctga >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_5|359_aa MSRQLSRARPATVLGAMEMGRRMDAPTSAAVTRAFLERGHTEIDTAFLYSDGQSETILGG LGLRMGSSDCRGALDGPDLQKFCSYRLAQSKIRVWTQHTICFLLRSCQTARVPGLCSASP EQGKFVELGLSNYAAWEVAEICTLCKSNGWILPTVYQGMYSATTRQVETELFPCLRHFGL RFYAYNPLADQSPEGCGSFWGTLGPGADCCLPAGGLLTGKYKYEDKDGKQPVGRFFGTQW AEIYRNHVTLMVLTPVPPSPLNSFWKEHHFEGIALVEKALQAAYGASAPSMTSAALRWMY HHSQLQGAHGDAVILGMSSLEQLEQNLAAAEEGPLEPAVVDAFNQAWHLFAHECPNYFI >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_5|1080_bp atgtcccggcagctgtcgcgggcccggccagccacggtgctgggcgccatggagatgggg cgccgcatggacgcgcccaccagcgccgcagtcacgcgcgccttcctggagcgcggccac accgagatagacacggccttcctgtacagcgacggccagtccgagaccatccttggcggc ctggggctccgaatgggcagcagcgactgcagaggtgcccttgacgggcctgatctgcag aaattctgttcttatcgcctggcacagtccaaaatcagagtttggacccagcacactatc tgcttcctcctacgctcatgccagactgctcgggtccctggactttgctctgcctcaccc gagcagggcaagttcgtggagcttggcctctccaactatgccgcctgggaagtggccgag atctgtaccctctgcaagagcaacggctggatcctgcccactgtgtaccagggcatgtac agcgccaccacccggcaggtggaaacggagctcttcccctgcctcaggcactttggactg aggttctatgcctacaaccctctggctgaccagagccctgagggatgtggcagcttctgg ggcactctgggcccgggggctgattgctgccttcccgcagggggcctgctgaccggcaag tacaagtatgaggacaaggacgggaaacagcccgtgggccgcttctttgggactcagtgg gcagagatctacaggaatcatgtgaccctgatggtactgacccctgtgccaccatcccca ctgaacagcttctggaaggagcaccacttcgagggcattgccctggtggagaaggccctg caggccgcgtatggcgccagcgctcccagcatgacctcggccgccctccggtggatgtac caccactcacagctgcagggtgcccacggggacgcggtcatcctgggcatgtccagcctg gagcagctggagcagaacttggcagcggcagaggaagggcccctggagccggctgtcgtg gacgcctttaatcaagcctggcatttgtttgcccacgaatgtcccaactacttcatctaa >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_6|355_aa MSRQLSRARPATVLGAMEMGRRMDAPTSAAVTRAFLERGHTEIDTAFVYSEGQSETILGG LGLRLGGSDCRVKIDTKAIPLFGNSLKPDSLRFQLETSLKRLQCPRVDLFYLHMPDHSTP VEETLRACHQLHQEGKFVELGLSNYAAWEVAEICTLCKSNGWILPTVYQGMYNAITRQVE TELFPCLRHFGLRFYAFNPLADQSPEGCGSFWGTLGPGADCCFPSGGLLTGKYKYEDKNG KQPVGRFFGNTWAEMYRNRYWKEHHFEGIALVEKALQAAYGASAPSMTSATLRWMYHHSQ LQGAHGDAVILGMSSLEQLEQNLAAAEEGPLEPAVVDAFNQAWHLVTHECPNYFR >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_6|1068_bp atgtcccggcagctgtcgcgggcccggccagccacggtgctgggcgccatggagatgggg cgccgcatggacgcgcccaccagcgccgcagtcacgcgcgccttcctggagcgcggccac accgagatagacacggccttcgtgtacagcgagggccagtccgagaccatccttggcggc ctggggctccggctgggcggcagcgactgcagagtgaaaattgataccaaggccattcca ctgtttgggaactccctgaagcctgacagtctccggttccagctggagacgtcactgaag cggctgcagtgtccccgagtggacctcttctacctgcatatgccagaccacagcaccccg gtggaagagacactgcgtgcctgccaccagctgcaccaggagggcaagttcgtggagctt ggcctctccaactatgcagcctgggaagtggccgagatctgtaccctctgcaagagcaac ggctggatcctgcccactgtgtaccagggcatgtacaatgccatcacccggcaggtggaa acggagctcttcccctgcctcaggcactttggactgaggttctatgccttcaaccctctg gctgaccagagccctgagggatgtggcagcttctggggcactctaggccccggggctgat tgctgctttccctcagggggcctgctgaccggcaagtacaagtatgaggacaagaatggg aaacagcccgtgggccgcttctttgggaatacctgggcagagatgtacaggaatcgctac tggaaggagcaccactttgagggcattgccctggtggagaaggccctgcaggccgcgtat ggcgccagcgcccccagcatgacctcggccaccctccggtggatgtaccaccactcacag ctgcagggtgcccacggggacgcggtcatcctgggcatgtccagcctggagcagctggag cagaacttggcagcggcagaggaagggcccctggagccggctgtcgtggacgcctttaat caagcctggcatttggttactcacgaatgtcccaactacttccgctag >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_7|108_aa MKQCRSSGVRPKDHCLMPRNEAVSFIWGNTQGSLRHAKEVKDTNTCEVSASLHSQGSEVP GQPAMEPVDRECIVKVAKAVEAQVMAAQEMSWEESIQELMSMEKESTL >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_7|327_bp atgaagcagtgtcgttcatctggggtaagacccaaggatcattgcctcatgccaaggaat gaagcagtgtcgttcatctggggtaatacccaaggttcactgcgtcatgccaaggaagtc aaggacacgaacacatgtgaagtgagtgcatcattgcactcacaaggttcagaagttcca ggacagccagccatggagcctgtggacagggagtgcatcgtgaaggttgccaaggcagtg gaggcccaggttatggcagcccaggaaatgagctgggaggaaagcattcaggaactgatg agcatggagaaagaaagcactttgtag >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_8|373_aa MGGAPGSQRAGAAAMLSAASRVVSRAAVHCALRSPPPEARALAMSRPPPPRVASVLGTME MGRRMDAPASAAAVRAFLERGHTELDTAFMYSDGQSETILGGLGLGLGGGDCRVKIATKA NPWDGKSLKPDSVRSQLETSLKRLQCPQVDLFYLHAPDHGTPVEETLHACQRLHQEGKFV ELGLSNYASWEVAEICTLCKSNGWILPTVYQGMYNATTRQVETELFPCLRHFGLRFYAYN PLAGGLLTGKYKYEDKDGKQPVGRFFGNSWAETYRNRFWKEHHFEAIALVEKALQAAYGA SAPSVTSAALRWMYHHSQLQGAHGDAVILGMSSLEQLEQNLAATEEGPLEPAVVDAFNQA WHLVAHECPNYFR >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_8|1122_bp atgggcggggcccccggctcccaacgcgcaggcgccgctgctatgctgagtgccgcgtct cgcgtagtctcccgcgccgccgtccactgcgcgcttcgctctccgccgcccgaggcccgc gcgctcgccatgtcccggccaccgccaccgcgggtcgcctcggtgctgggcaccatggag atggggcgccgcatggacgcgcccgccagcgccgcggccgtgcgcgcctttctggagcgc ggccacaccgaactggacacggccttcatgtacagcgacggccagtccgagaccatcctg ggcggcctggggctcgggctgggcggtggcgactgcagagtgaaaattgccaccaaggcc aacccttgggatggaaaatcactaaagcctgacagtgtccggtcccagctggagacgtca ttgaagaggctgcagtgtccccaagtggacctcttctacctacacgcacctgaccacggc accccggtggaagagacgctgcatgcctgccagcggctgcaccaggagggcaagttcgtg gagcttggcctctccaactatgctagctgggaagtggccgagatctgtaccctctgcaag agcaatggctggatcctgcccactgtgtaccagggcatgtacaacgccaccacccggcag gtggaaacggagctcttcccctgcctcaggcactttggactgaggttctatgcctacaac cctctggctgggggcctgctgactggcaagtacaagtatgaggacaaggacgggaaacag cctgtgggccgcttctttgggaatagctgggctgagacctacaggaatcgcttctggaag gagcaccacttcgaggccattgcgttggtggagaaggccctgcaggccgcatatggcgcc agcgcccccagtgtgacctcggctgccctccggtggatgtaccaccactcacagctgcag ggtgcccacggggacgcggtcatcctgggcatgtccagcctggagcagctggagcagaac ttggcagcaacagaggaagggcccctggagccggctgtcgtggatgcctttaatcaagcc tggcatttggttgctcacgaatgtcccaactacttccgctag >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_9|451_aa MEHQVKASNIICADGPPGVTQAMTALLTVQGARVAGEACPAHPCDQPYSGFVIVTNPCWP QNTSALPPVQPCLAGGPSSTAMVWKKLGSRNFSSCPSGSIQWIWDVLGECAQDGWDEASV GLGLISILCFAASTFPQFIKAYKTGNMDQALSLWFLLGWIGGDSCNLIGSFLADQLPLQT YTAVYYVLADLVMLTLYFYYKFRTRPSLLSAPINSVLLFLMGMACATPLLSAAGPVAAPR EAFRGRALLSVESGSKPFTRQEVIGFVIGSISSVLYLLSRLPQIRTNFLRKSTQGISYSL FALVMLGNTLYGLSVLLKNPEEGQSEGSYLLHHLPWLVGSLGVLLLDTIVSFRACGAADQ NQAERRRTGTTGCHTRQEEVWTVMVRRPCISLRVASGSSVDRTVPPGTHLQGTPTEPRMP SGMQLLVAHLPCAGCAACHQCTRSPRLHSQL >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_9|1356_bp atggagcatcaggtgaaggcttccaacatcatctgtgctgatggtcccccaggtgtcacg caggcaatgactgctctactcactgtccagggtgcccgggtagcgggagaggcctgccct gcccacccctgcgatcagccatattctggctttgtcattgtgacgaacccttgctggcct cagaacaccagcgccctccctccggtgcagccctgcctggccgggggcccctcctccaca gccatggtctggaagaaactgggctcccgcaacttctccagctgccccagtggctccatc cagtggatatgggatgtgttgggtgaatgtgcccaggacggctgggacgaggccagcgtg ggcctgggcttgatctccattctctgctttgctgcatctaccttcccccagttcatcaaa gcctacaagacgggcaacatggaccaggcgctgtccctgtggttcctcctgggctggatt ggcggagactcctgcaacctcatcggctccttccttgctgaccagctgcccctgcagacc tacacggctgtgtattatgtcttggcagacctggtgatgctgacgctgtacttttactac aagttcaggacgcgcccctctctgttgtctgcccccatcaactccgtgctgttgttcctc atggggatggcgtgcgccacaccgctgctgagtgctgctgggcccgtggctgcccctagg gaagccttccgggggcgggcgctcctgtccgtggagtcgggcagcaagcccttcacccgg caggaagtcattggcttcgtcatcggctccatctccagcgtgttgtacctgctttcccgg ctgcctcagatccgcaccaacttcctccggaagtccacccaggggatctcctactctctg ttcgcgctggtgatgctggggaacacgctgtatgggctgagcgtgctgctcaaaaacccc gaggagggccagagcgagggcagctacctgctgcaccacctgccctggcttgtgggcagc ctgggcgtgctgctgctcgacaccatcgtatccttcagggcgtgtggggcagctgaccag aaccaggctgagcgcaggaggacaggcaccaccggatgccacaccaggcaggaggaggtg tggacagtgatggtacggcggccctgcatcagcctgcgggtggcctctggatcctccgtg gaccgaaccgtccccccaggaacacaccttcaggggacacccacggagcccaggatgcca tctggcatgcagctgttagttgcacacttgccatgtgcgggctgcgccgcctgccatcag tgcacgagatctccccgtcttcacagccagctctga >gi568815597r:19119306_19351509|GENSCAN_predicted_peptide_10|223_aa SRTNRPWCEEGFDPGSAIATCMTRMEKDETVSDCSPHIANIGRLVEDMENKIRSTLNEIY FGKTKDIVNGLRVRAQWSLALGLPLAATARYTKHTFPPSQPAQSPGSGWEVGERSRRACG WWWRAPEYHDHRQRGPLQRRYHSTPQSRHGIPPSASWVSLNFLLSCGPLRSWLLVVLFPP TPLILNTLCRSIDAIPDNQKFKQLQRELSQVLTQRQIYIQPDN >gi568815597r:19119306_19351509|GENSCAN_predicted_CDS_10|672_bp agtagaacgaacaggccctggtgcgaggaagggtttgacccaggctctgccattgccacc tgcatgactaggatggagaaggatgaaactgtgagtgactgctccccacacatagccaac atcgggcgcctggtagaggacatggaaaataaaatcagaagtacgctgaacgagatctac tttggaaaaacaaaggatatcgtcaatgggctgagggttagagcccagtggtccctggcg ttaggcctgccactggcagccactgcccgatacaccaaacacactttcccgcccagccaa cctgcacagtccccaggcagtggctgggaagtgggggagagaagccgaagagcctgcggg tggtggtggcgagcccctgaataccacgaccaccgccagcgtggacctctgcagcggcga taccactccacaccccagagccgccacggcatccccccttccgcctcgtgggtctccctg aatttcctcctcagctgtggccccctgcgttcctggcttctcgtcgttctcttccctccc actccactcatcttgaacactctctgtagatctattgatgctatccctgacaaccaaaag tttaagcagttgcagagggagctctctcaagtgctgacccagcgccagatctacatccag cctgataattaa