Result of GENSCAN for
pF1KE3355
GENSCAN 1.0 Date run: 27-Aug-118 Time: 19:46:26 Sequence gi568815589f:35692409_35909442 : 217034 bp : 47.55% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.56 PlyA - 405 400 6 1.05 1.55 Term - 5508 5383 126 0 0 85 43 243 0.999 17.78 1.54 Intr - 5764 5636 129 1 0 80 99 199 0.999 21.09 1.53 Intr - 6097 5915 183 1 0 60 94 224 0.998 20.18 1.52 Intr - 6271 6209 63 1 0 104 87 57 0.986 6.11 1.51 Intr - 6525 6400 126 0 0 82 113 144 0.999 17.18 1.50 Intr - 6748 6624 125 2 2 96 86 169 0.997 17.80 1.49 Intr - 7053 6948 106 0 1 85 72 132 0.997 11.09 1.48 Intr - 7673 7566 108 2 0 33 95 202 0.999 15.88 1.47 Intr - 7968 7783 186 0 0 140 70 222 0.997 25.49 1.46 Intr - 11268 11152 117 0 0 94 101 127 0.997 15.26 1.45 Intr - 11492 11367 126 2 0 64 53 154 0.928 10.38 1.44 Intr - 11766 11583 184 2 1 59 72 248 0.946 20.09 1.43 Intr - 12155 11924 232 0 1 120 111 171 0.917 19.43 1.42 Intr - 12407 12236 172 2 1 105 44 261 0.920 22.92 1.41 Intr - 13262 13143 120 2 0 74 82 170 0.992 15.69 1.40 Intr - 13443 13342 102 0 0 101 101 140 0.999 16.97 1.39 Intr - 13703 13554 150 2 0 79 66 245 0.998 21.76 1.38 Intr - 13958 13788 171 2 0 93 67 123 0.994 10.84 1.37 Intr - 14143 14042 102 1 0 97 77 35 0.892 3.67 1.36 Intr - 14492 14360 133 1 1 48 78 84 0.996 4.05 1.35 Intr - 14845 14664 182 1 2 131 57 172 0.999 17.07 1.34 Intr - 15080 14940 141 2 0 76 78 178 0.999 16.15 1.33 Intr - 15484 15323 162 1 0 116 14 184 0.923 13.97 1.32 Intr - 16076 15933 144 2 0 132 93 92 0.993 14.58 1.31 Intr - 18275 18153 123 2 0 142 30 135 0.998 13.88 1.30 Intr - 18478 18389 90 1 0 91 82 73 0.892 7.19 1.29 Intr - 18674 18581 94 1 1 95 59 119 0.770 9.67 1.28 Intr - 18986 18847 140 2 2 66 111 193 0.999 18.66 1.27 Intr - 19384 19187 198 1 0 108 76 210 0.994 21.35 1.26 Intr - 19716 19597 120 0 0 124 66 175 0.994 19.59 1.25 Intr - 20635 20427 209 2 2 85 71 216 0.977 18.40 1.24 Intr - 20890 20788 103 1 1 100 91 83 0.999 9.55 1.23 Intr - 21673 21545 129 1 0 69 98 137 0.994 13.69 1.22 Intr - 21965 21831 135 2 0 70 86 135 0.979 12.26 1.21 Intr - 22468 22352 117 1 0 90 116 93 0.999 12.96 1.20 Intr - 22779 22651 129 0 0 114 78 279 0.997 30.39 1.19 Intr - 24148 23982 167 2 2 85 82 243 0.964 23.08 1.18 Intr - 25032 24738 295 0 1 96 99 267 0.997 25.18 1.17 Intr - 25378 25211 168 1 0 92 105 153 0.994 17.54 1.16 Intr - 26502 26404 99 0 0 91 77 107 0.975 10.21 1.15 Intr - 26874 26666 209 1 2 138 55 240 0.998 24.50 1.14 Intr - 27219 27111 109 0 1 98 96 121 0.996 13.76 1.13 Intr - 27445 27332 114 1 0 79 87 112 0.998 10.84 1.12 Intr - 27811 27631 181 0 1 79 119 197 0.999 21.77 1.11 Intr - 28101 27989 113 0 2 111 32 35 0.645 -0.62 1.10 Intr - 28505 28404 102 2 0 93 105 226 0.999 25.17 1.09 Intr - 29395 29240 156 1 0 93 119 211 0.999 24.91 1.08 Intr - 29815 29711 105 1 0 77 100 178 0.998 18.31 1.07 Intr - 30513 30453 61 2 1 69 68 106 0.814 5.44 1.06 Intr - 31671 31544 128 0 2 94 61 162 0.999 13.58 1.05 Intr - 31926 31784 143 1 2 36 85 194 0.999 13.97 1.04 Intr - 32316 32164 153 1 0 64 58 167 0.997 11.34 1.03 Intr - 32551 32422 130 1 1 110 87 226 0.999 24.97 1.02 Intr - 32913 32816 98 1 2 85 98 120 0.998 12.43 1.01 Init - 33286 33157 130 1 1 109 80 194 0.967 21.01 1.00 Prom - 36667 36628 40 -8.76 2.00 Prom + 38050 38089 40 -10.25 2.01 Init + 40365 40493 129 2 0 58 92 152 0.712 12.75 2.02 Intr + 40588 40735 148 0 1 43 95 74 0.959 3.41 2.03 Intr + 40807 40874 68 2 2 101 80 42 0.991 3.32 2.04 Intr + 40988 41077 90 1 0 92 116 -5 0.881 2.89 2.05 Intr + 42701 42807 107 1 2 126 80 95 0.904 11.51 2.06 Intr + 42898 42966 69 1 0 103 78 62 0.933 5.00 2.07 Intr + 43640 43724 85 2 1 134 73 56 0.972 8.52 2.08 Intr + 43819 43903 85 0 1 112 94 2 0.983 2.59 2.09 Term + 43984 44318 335 2 2 84 37 104 0.872 -0.33 2.10 PlyA + 44377 44382 6 1.05 3.18 PlyA - 44478 44473 6 1.05 3.17 Term - 45039 44761 279 0 0 82 52 253 0.935 16.55 3.16 Intr - 45531 45340 192 0 0 121 80 176 0.986 19.79 3.15 Intr - 45744 45572 173 1 2 88 100 111 0.810 11.96 3.14 Intr - 45966 45824 143 2 2 54 101 126 0.985 10.50 3.13 Intr - 46224 46118 107 0 2 73 71 159 0.986 11.71 3.12 Intr - 46495 46344 152 2 2 111 66 157 0.766 15.68 3.11 Intr - 46701 46594 108 1 0 116 98 108 0.765 14.86 3.10 Intr - 47011 46907 105 2 0 77 68 138 0.993 10.89 3.09 Intr - 47392 47220 173 0 2 116 54 129 0.999 11.89 3.08 Intr - 47715 47590 126 2 0 111 50 81 0.979 6.39 3.07 Intr - 47954 47801 154 0 1 109 94 88 0.989 10.63 3.06 Intr - 48220 48118 103 1 1 90 24 92 0.987 2.75 3.05 Intr - 48656 48417 240 2 0 100 103 198 0.999 20.25 3.04 Intr - 49482 49264 219 0 0 45 94 123 0.593 7.10 3.03 Intr - 52004 51889 116 0 2 89 71 76 0.996 6.17 3.02 Intr - 52298 52207 92 1 2 135 89 111 0.999 15.54 3.01 Init - 56296 55938 359 1 2 83 105 304 0.704 28.18 3.00 Prom - 56344 56305 40 -16.79 4.00 Prom + 56411 56450 40 -11.53 4.01 Init + 56798 56861 64 1 1 89 35 108 0.800 4.91 4.02 Intr + 57295 57463 169 2 1 69 75 100 0.484 5.80 4.03 Intr + 57835 57971 137 1 2 125 50 73 0.988 7.41 4.04 Intr + 58250 58333 84 0 0 107 84 2 0.738 1.49 4.05 Intr + 58432 58581 150 2 0 62 107 131 0.972 12.53 4.06 Intr + 58858 59004 147 2 0 123 38 109 0.623 9.61 4.07 Intr + 59219 59346 128 0 2 71 110 76 0.973 8.50 4.08 Intr + 59548 59602 55 0 1 66 8 102 0.765 -1.45 4.09 Intr + 60243 60394 152 1 2 102 48 133 0.580 10.58 4.10 Intr + 64239 64453 215 2 2 46 80 101 0.152 2.61 4.11 Intr + 93876 93915 40 0 1 97 86 34 0.001 2.33 4.12 Term + 94239 94280 42 2 0 100 38 38 0.006 -2.84 4.13 PlyA + 94716 94721 6 1.05 5.00 Prom + 97384 97423 40 -3.26 5.01 Init + 100001 100667 667 1 1 79 73 1002 0.999 91.19 5.02 Intr + 101490 101695 206 1 2 69 69 171 0.758 12.22 5.03 Intr + 107210 107323 114 1 0 58 119 144 0.976 15.14 5.04 Intr + 107614 107749 136 0 1 13 47 166 0.999 5.14 5.05 Intr + 107981 108075 95 0 2 56 64 156 0.912 9.68 5.06 Intr + 108301 108433 133 0 1 96 37 98 0.908 5.72 5.07 Intr + 108662 108746 85 0 1 85 117 61 0.928 7.58 5.08 Intr + 109124 109355 232 2 1 80 93 104 0.550 7.88 5.09 Intr + 109518 109592 75 2 0 62 61 149 0.986 9.31 5.10 Intr + 109798 109875 78 0 0 62 50 87 0.678 2.05 5.11 Intr + 110095 110199 105 0 0 72 94 54 0.965 4.81 5.12 Intr + 110324 110395 72 1 0 52 113 68 0.975 5.30 5.13 Intr + 113103 113262 160 2 1 76 53 201 0.968 14.96 5.14 Intr + 113422 113577 156 2 0 72 116 134 0.959 14.58 5.15 Intr + 113657 113825 169 0 1 59 52 186 0.999 11.10 5.16 Intr + 113984 114130 147 2 0 66 44 228 0.999 15.55 5.17 Intr + 114615 114738 124 0 1 62 94 117 0.943 10.29 5.18 Intr + 114922 114990 69 0 0 125 100 103 0.999 14.58 5.19 Intr + 116101 116275 175 0 1 74 95 148 0.998 13.61 5.20 Intr + 116320 116445 126 2 0 92 116 32 0.593 7.05 5.21 Term + 116748 117037 290 1 2 76 40 197 0.992 9.24 5.22 PlyA + 117302 117307 6 1.05 6.10 PlyA - 117428 117423 6 -3.94 6.09 Term - 117901 117821 81 1 0 49 43 101 0.966 -0.61 6.08 Intr - 118145 118031 115 1 1 5 100 89 0.937 2.25 6.07 Intr - 118308 118229 80 0 2 69 95 57 0.269 2.85 6.06 Intr - 118649 118458 192 2 0 5 61 139 0.206 2.59 6.05 Intr - 119528 118774 755 0 2 93 52 304 0.227 18.48 6.04 Intr - 120930 120858 73 0 1 87 97 45 0.620 4.28 6.03 Intr - 121141 121037 105 1 0 88 75 104 0.915 9.51 6.02 Intr - 121376 121236 141 2 0 83 75 168 0.999 15.55 6.01 Init - 122571 122491 81 0 0 101 94 170 0.922 17.87 6.00 Prom - 124922 124883 40 -10.45 7.07 PlyA - 126043 126038 6 1.05 7.06 Term - 126310 126240 71 2 2 73 47 100 0.443 2.50 7.05 Intr - 126601 126482 120 2 0 82 77 52 0.929 3.97 7.04 Intr - 126986 126909 78 0 0 76 92 44 0.647 3.12 7.03 Intr - 127592 127482 111 0 0 78 91 87 0.996 8.35 7.02 Intr - 132965 132822 144 0 0 108 99 105 0.878 13.85 7.01 Init - 133714 133126 589 1 1 94 -86 214 0.451 -0.01 7.00 Prom - 135239 135200 40 -9.06 8.00 Prom + 135406 135445 40 -12.87 8.01 Init + 135521 135527 7 1 1 59 78 0 0.929 -2.69 8.02 Intr + 135856 135993 138 2 0 22 27 286 0.826 16.34 8.03 Intr + 142053 142242 190 1 1 124 56 200 0.997 19.04 8.04 Intr + 142603 142810 208 1 1 105 98 125 0.986 14.28 8.05 Intr + 148726 148859 134 0 2 107 108 111 0.998 14.44 8.06 Intr + 149118 149386 269 0 2 87 77 150 0.512 10.98 8.07 Intr + 149984 150309 326 0 2 107 20 351 0.420 25.69 8.08 Intr + 153567 153660 94 2 1 94 100 86 0.999 9.94 8.09 Intr + 153850 153973 124 2 1 160 97 67 0.996 14.44 8.10 Intr + 154061 154203 143 2 2 18 105 312 0.897 25.90 8.11 Intr + 154409 154587 179 0 2 115 80 204 0.998 21.94 8.12 Intr + 160419 160565 147 2 0 99 82 219 0.952 22.83 8.13 Intr + 160733 160849 117 1 0 88 82 97 0.987 9.76 8.14 Term + 161097 161432 336 2 0 120 54 377 0.999 32.07 8.15 PlyA + 162399 162404 6 -4.04 9.06 PlyA - 164080 164075 6 1.05 9.05 Term - 167385 166596 790 2 1 59 39 752 0.864 60.19 9.04 Intr - 168642 168347 296 0 2 88 106 33 0.059 0.91 9.03 Intr - 178023 177085 939 0 0 92 70 1396 0.123 129.57 9.02 Intr - 205749 205635 115 2 1 7 58 85 0.008 -2.15 9.01 Init - 214209 213710 500 0 2 81 72 326 0.301 22.84 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_1|2545_aa MVALSLKISIGNVVKTMQFEPSTMVYDACRIIRERIPEAPAGPPSDFGLFLSDDDPKKGI WLEAGKALDYYMLRNGDTMEYRKKQRPLKIRMLDGTVKTIMVDDSKTVTDMLMTICARIG ITNHDEYSLVRELMEEKKEEITGTLRKDKTLLRDEKKMEKLKQKLHTDDELNWLDHGRTL REQGVEEHETLLLRRKFFYSDQNVDSRDPVQLNLLYVQARDDILNGSHPVSFDKACEFAG FQCQIQFGPHNEQKHKAGFLDLKDFLPKEYVKQKGERKIFQAHKNCGQMSEIEAKVRYVK LARSLKTYGVSFFLVKEKMKGKNKLVPRLLGITKECVMRVDEKTKEVIQEWNLTNIKRWA ASPKSFTLDFGDYQDGYYSVQTTEGEQIAQLIAGYIDIILKKKKSKDHFGLEGDEESTML EDSVSPKKYEGSWADPISQGSTVLQQQYNRVGKVEHGSVALPAIMRSGASGPENFQVGSM PPAQQQITSGQMHRGHMPPLTSAQQALTGTINSSMQAVQAAQATLDDFDTLPPLGQDAAS KAWRKNKMDESKHEIHSQVDAITAGTASVVNLTAGDPAETDYTAVGCAVTTISSNLTEMS RGVKLLAALLEDEGGSGRPLLQAAKGLAGAVSELLRSAQPASAEPRQNLLQAAGNVGQAS GELLQQIGESDTDPHFQDALMQLAKAVASAAAALVLKAKSVAQRTEDSGLQTQVIAAATQ CALSTSQLVACTKVVAPTISSPVCQEQLVEAGRLVAKAVEGCVSASQAATEDGQLLRGVG AAATAVTQALNELLQHVKAHATGAGPAGRYDQATDTILTVTENIFSSMGDAGEMVRQARI LAQATSDLVNAIKADAEGESDLENSRKLLSAAKILADATAKMVEAAKGAAAHPDSEEQQQ RLREAAEGLRMATNAAAQNAIKKKLVQRLEHAAKQAAASATQTIAAAQHAASTPKASAGP QPLLVQSCKPGGKMVAAAKASVPTIQDQASAMQLSQCAKNLGTALAELRTAAQKAQEACG PLEMDSALSVVQNLEKDLQEVKAAARDGKLKPLPGETMEKCTQDLGNSTKAVSSAIAQLL GEVAQGNENYAGIAARDVAGGLRSLAQAARGVAALTSDPAVQAIVLDTASDVLDKASSLI EEAKKAAGHPGDPESQQRLAQVAKAVTQALNRCVSCLPGQRDVDNALRAVGDASKRLLSD SLPPSTGTFQEAQSRLNEAAAGLNQAATELVQASRGTPQDLARASGRFGQDFSTFLEAGV EMAGQAPSQEDRAQVVSNLKGISMSSSKLLLAAKALSTDPAAPNLKSQLAAAARAVTDSI NQLITMCTQQAPGQKECDNALRELETVRELLENPVQPINDMSYFGCLDSVMENSKVLGEA MTGISQNAKNGNLPEFGDAISTASKALCGFTEAAAQAAYLVGVSDPNSQAGQQGLVEPTQ FARANQAIQMACQSLGEPGCTQAQVLSAATIVAKHTSALCNSCRLASARTTNPTAKRQFV QSAKEVANSTANLVKTIKALDGAFTEENRAQCRAATAPLLEAVDNLSAFASNPEFSSIPA QISPEGRAAMEPIVISAKTMLESAGGLIQTARALAVNPRDPPSWSVLAGHSRTVSDSIKK LITSMRDKAPGQLECETAIAALNSCLRDLDQASLAAVSQQLAPREGISQEALHTQMLTAV QEISHLIEPLANAARAEASQLGHKVSQMAQYFEPLTLAAVGAASKTLSHPQQMALLDQTK TLAESALQLLYTAKEAGGNPKQAAHTQEALEEAVQMMTEAVEDLTTTLNEAASAAGVVGG MVDSITQAINQLDEGPMGEPEGSFVDYQTTMVRTAKAIAVTVQEMVTKSNTSPEELGPLA NQLTSDYGRLASEAKPAAVAAENEEIGSHIKHRVQELGHGCAALVTKAGALQCSPSDAYT KKELIECARRVSEKVTVLIPADGMGNLSISHGTFHSHHVTFPTQVSHVLAALQAGNRGTQ ACITAASAVSGIIADLDTTIMFATAGTLNREGTETFADHREGILKTAKVLVEDTKVLVQN AAGSQEKLAQAAQSSVATITRLADVVKLGAASLGAEDPETQVVLINAVKDVAKALGDLIS ATKAAAGKVGDDPAVWQLKNSAKVMVTNVTSLLKTVKAVEDEATKGTRALEATTEHIRQE LAVFCSPEPPAKTSTPEDFIRMTKGITMATAKAVAAGNSCRQEDVIATANLSRRAIADML RACKEAAYHPEVAPDVRLRALHYGRECANGYLELLDHVLLTLQKPSPELKQQLTGHSKRV AGSVTELIQAAEAMKGTEWVDPEDPTVIAENELLGAAAAIEAAAKKLEQLKPRAKPKEAD ESLNFEEQILEAAKSIAAATSALVKAASAAQRELVAQGKVGAIPANALDDGQWSQGLISA ARMVAAATNNLCEAANAAVQGHASQEKLISSAKQVAASTAQLLVACKVKADQDSEAMKRL QAAGNAVKRASDNLVKAAQKAAAFEEQENETVVVKEKMVGGIAQIIAAQEEMLRKERELE EARKKLAQIRQQQYKFLPSELRDEH >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_1|7638_bp atggttgcactttcactgaagatcagcattgggaatgtggtgaagacgatgcagtttgag ccgtctaccatggtgtacgacgcctgccgcatcattcgtgagcggatcccagaggcccca gctggtcctcccagcgactttgggctctttctgtcagatgatgaccccaaaaagggtata tggctggaggctgggaaagctttggactactacatgctccgaaatggggacactatggag tacaggaagaaacagagacccctgaagatccgtatgctggatggaactgtgaagacgatc atggtggatgactctaagactgtcactgacatgctcatgaccatctgtgcccgcattggc atcaccaatcatgatgaatattcattggttcgagagctgatggaagagaaaaaggaggaa ataacagggaccttaagaaaggacaagacattgctgcgagatgaaaagaagatggagaaa ctaaagcagaaattgcacacagatgatgagttgaactggctggaccatggtcggacactg agggagcagggtgtagaggagcacgagacgctgctgctgcggaggaagttcttttactca gaccagaatgtggattcccgggaccctgtacagctgaacctcctgtatgtgcaggcacga gatgacatcctgaatggctcccaccctgtctcctttgacaaggcctgtgagtttgctggc ttccaatgccagatccagtttgggccccacaatgagcagaagcacaaggctggcttcctt gacctgaaggacttcctgcccaaggagtatgtgaagcagaagggagagcgtaagatcttc caggcacacaagaattgtgggcagatgagtgagattgaggccaaggtccgctacgtgaag ctagcccgttctctcaagacttacggtgtctccttcttcctggtgaaggaaaaaatgaaa gggaagaacaagctagtgcccaggcttctgggcatcaccaaggagtgtgtgatgcgagtg gatgagaagaccaaggaagtgatccaggagtggaacctcaccaacatcaaacgctgggct gcgtctcccaaaagcttcaccctggattttggagattaccaagatggctattactcagta cagacaactgaaggggagcagattgcacagctcattgccggctacatcgatatcatcctg aagaagaaaaaaagcaaggatcactttgggctggaaggagatgaggagtctactatgctg gaggactcagtgtcccccaaaaagtacgaagggagttgggctgatcccatttcccagggg tcaacagtcctgcagcagcaatacaaccgggtggggaaagtggagcatggctctgtggcc ctgcctgccatcatgcgctctggagcctctggtcctgagaatttccaggtgggcagcatg ccccctgcccagcagcagattaccagcggccagatgcaccgaggacacatgcctcctctg acttcagcccagcaggcactcactggaaccattaactccagcatgcaggccgtgcaggct gcccaggccaccctggatgactttgacactctgccgcctcttggccaggatgctgcctct aaggcctggcgtaaaaacaagatggatgaatcaaagcatgagatccactctcaggtagat gccatcacagctggtactgcgtctgtggtgaacctgacagcaggggaccctgctgagaca gactataccgcagtgggctgtgcagtcaccacaatctcctccaacctgacggagatgtcc cgtggggtgaagctgctggctgccttgctggaggacgaaggcggcagtggtcggcccctg ttgcaggcagcaaagggccttgcgggagcagtgtcagaactgctgcgcagtgcccaacca gccagtgctgagccccgtcagaacctgctgcaagcagctgggaacgtgggccaggccagt ggggagctgttgcaacaaattggggaaagtgatactgacccccacttccaggatgcgcta atgcagctcgccaaagctgtggcaagtgctgcagctgccctggtcctcaaggccaagagt gtggcccagcggacagaggactcgggacttcagacccaagttattgctgcagcaacacag tgtgccctatccacttcccaactagtggcctgtactaaggtggtggcacctacaatcagc tcacctgtctgccaagagcaactggtggaggctggacgactggtagccaaagccgtggag ggctgtgtgtctgcctcccaggcagctacagaggatgggcaactgttgcgaggggtagga gcagcagccacagctgtcacccaggccctaaatgagctgctgcagcatgtgaaagcccat gccacaggggctgggcctgctggccgttatgaccaggctactgacaccatcctaaccgtc actgagaacatctttagctccatgggtgatgctggggagatggtgcgacaggcccgcatc ctggcccaagccacatctgacctggtcaatgccatcaaggctgatgctgagggggaaagt gatctggagaactcccgcaagctcttaagtgctgccaagatcctagctgatgccacagcc aagatggtagaggctgccaagggagcagctgcccaccctgacagtgaggagcagcagcag cggctgcgggaggcagctgaggggctgcgcatggccaccaatgcagctgcgcagaatgcc atcaagaaaaagctggtgcagcgcctggagcatgcagccaagcaggctgcagcctcagcc acacagaccatcgctgcagctcagcacgcagcctctacccccaaggcctctgccggcccc cagcccctgctggtgcagagctgcaagccaggtgggaagatggtggcagctgcaaaggcc tcagtgccaacgattcaggaccaggcttcagccatgcagctgagtcagtgtgccaagaac ctgggcaccgcgctggctgaactccggacggctgcccagaaggctcaggaagcatgtgga cctttggagatggattctgcactgagtgtggtacagaatctagagaaagatctacaggaa gtgaaggcagcagctcgagatggcaagcttaaacccttacctggggagacaatggagaag tgtacccaggacctgggcaacagcaccaaagccgtgagctcagccatcgcccagctactg ggagaggttgcccagggcaatgagaattatgcaggtattgcagctcgggatgtggcaggt gggctgcggtcactggcccaggccgctaggggagtcgctgcactgacgtcagatcctgca gtgcaggccattgtacttgatacggccagtgatgtgctggacaaggccagcagcctcatt gaggaggcgaaaaaggcagctggccatccaggggaccctgagagccagcagcggcttgcc caggtggctaaagcagtgacccaggctctgaaccgctgtgtcagctgcctacctggccag cgcgatgtggataatgccctgagggcagttggagatgccagcaagcgactcctgagtgac tcgcttcctcctagcactgggacatttcaagaagctcagagccggttgaatgaagctgct gctgggctgaatcaggcagccacagaactggtgcaggcctctcggggaacccctcaggac ctggctcgagcctcaggccgatttggacaggacttcagcaccttcctggaagctggtgtg gagatggcaggccaggctccgagccaggaggaccgagcccaagttgtgtccaacttgaag ggcatctccatgtcttcaagcaaacttcttctggctgccaaggccctgtccacggaccct gctgcccctaacctcaagagtcagctggctgcagctgccagggcagtaactgacagcatc aatcagctcatcactatgtgcacccagcaggcacccggccagaaggagtgtgataacgcc ctgcgggaattggagacggtccgggaactcctggagaacccagtccagcccatcaatgac atgtcctactttggttgcctggacagtgtaatggagaactcaaaggtgctgggcgaggcc atgactggcatctcccaaaatgccaagaacggaaacctgccagagtttggagatgccatt tccacagcctcaaaggcactttgtggcttcaccgaggcagctgcacaggctgcatatctg gttggtgtctctgaccccaatagccaagctggacagcaagggctagtggagcccacacag tttgcccgtgcaaaccaggcaattcagatggcctgccagagtttgggagagcctggctgt acccaggcccaggtgctctctgcagccaccattgtggctaaacacacctctgcactgtgt aacagctgtcgcctggcttctgcccgtaccaccaatcctactgccaagcgccagtttgta cagtcagccaaggaggtggccaacagcacagctaatcttgtcaagaccatcaaggcgcta gatggggccttcacagaggagaaccgtgcccagtgccgagcagcaacagcccctctgctg gaggctgtggacaatctgagtgcctttgcgtccaaccctgagttctccagcattcctgcc cagatcagccctgagggtcgggctgccatggagcccattgtgatctctgccaagacaatg ttagagagtgccgggggactcatccagacagcccgggccctcgcagtcaatccccgggac cccccgagctggtcggtgctggccggccactcccgtactgtctcagactccatcaagaag ctaattacaagcatgagggacaaggctccagggcagctggagtgtgaaacggccattgca gctctgaacagttgtctacgggacctagaccaggcttccctcgctgcagtcagccagcag cttgctccccgtgagggaatctctcaagaggccttgcacactcagatgctcactgcagtc caagagatctcccatctcattgagccgctggccaatgctgcccgggctgaagcctcccag ctgggacacaaggtgtcccagatggcgcagtactttgagccgctcaccctggctgcagtg ggtgctgcctccaagaccctgagccacccgcagcagatggcactcctggaccagactaaa acattggcagagtctgccctgcagttgctatacactgccaaggaggctggtggtaaccca aagcaagcagctcacacccaggaagccctggaggaggctgtgcagatgatgaccgaggcc gtagaggacctgacaacaaccctcaacgaggcagccagtgctgctggggtcgtgggtggc atggtggactccatcacccaggccatcaaccagctagatgaaggaccaatgggtgaacca gaaggttccttcgtggattaccaaacaactatggtgcggacagccaaggccattgcagtg accgttcaggagatggttaccaagtcaaacaccagcccagaggagctgggccctcttgct aaccagctgaccagtgactatggccgtctggcctcggaggccaagcctgcagcggtggct gctgaaaatgaagagataggttcccatatcaaacaccgggtacaggagctgggccatggc tgtgccgctctggtcaccaaggcaggcgccctgcagtgcagccccagtgatgcctacacc aagaaggagctcatagagtgtgcccggagagtctctgagaaggtgacggtgctcatccct gcagatggcatgggcaacctttccatttcacatggcaccttccacagtcaccatgtgaca ttccctacccaggtctcccacgtcctggctgcgctccaggctgggaatcgtggcacccag gcctgcatcacagcagccagcgctgtgtctggtatcattgctgacctcgacaccaccatc atgttcgccactgctggcacgctcaatcgtgagggtactgaaactttcgctgaccaccgg gagggcatcctgaagactgcgaaggtgctggtggaggacaccaaggtcctggtgcaaaac gcagctgggagccaggagaagttggcgcaggctgcccagtcctccgtggcgaccatcacc cgcctcgctgatgtggtcaagctgggtgcagccagcctgggagctgaggaccctgagacc caggtggtactaatcaacgcagtgaaagatgtagccaaagccctgggagacctcatcagt gcaacgaaggctgcagctggcaaagttggagatgaccctgctgtgtggcagctaaagaac tctgccaaggtgatggtgaccaatgtgacatcattgcttaagacagtaaaagccgtggaa gatgaggccaccaaaggcactcgggccctggaggcaaccacagaacacatacggcaggag ctggcggttttctgttccccagagccacctgccaagacctctaccccagaagacttcatc cgaatgaccaagggtatcaccatggcaaccgccaaggccgttgctgctggcaattcctgt cgccaggaagatgtcattgccacagccaatctgagccgccgtgctattgcagatatgctt cgggcttgcaaggaagcagcttaccacccagaagtggcccctgatgtgcggcttcgagcc ctgcactatggccgggagtgtgccaatggctacctggaactgctggaccatgtactgctg accctgcagaagccaagcccagaactgaagcagcagttgacaggacattcaaagcgtgtg gctggttccgtcactgagctcatccaggctgctgaagccatgaagggaacagaatgggta gacccagaggaccccacagtcattgctgagaatgagctcctgggagctgcagccgccatt gaggctgcagccaaaaagctagagcagctgaagccccgggccaaacccaaggaggcagat gagtccttgaactttgaggagcagatactagaagctgccaagtccattgcagcagccacc agtgcactggtaaaggctgcgtcggctgcccagagagaactagtggcccaagggaaggtg ggtgccattccagccaatgcactggacgatgggcagtggtcccagggcctcatttctgct gcccggatggtggctgcggccaccaacaatctgtgtgaggcagccaatgcagctgtacaa ggccatgccagccaggagaagctcatctcatcagccaagcaggtagctgcctccacagcc cagctccttgtggcctgcaaggtcaaggctgaccaggactcggaggcaatgaaacgactt caggctgctggcaacgcagtgaagcgagcctcagataatctggtgaaagcagcacagaag gctgcagcctttgaagagcaggagaatgagacagtggtggtgaaagagaagatggttggc ggcattgcccagatcatcgcagcacaggaagaaatgcttcggaaggaacgagagctggaa gaggcgcggaagaaactggcccagatccggcagcagcagtacaagtttctgccttcagag cttcgagatgagcactaa >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_2|371_aa MELELDAGDQDLLAFLLEESGDLGTAPDEAVRAPLDWALPLSEVPSDWEVDDLLCSLLSP PASLNILSSSNPCLVHHDHTYSLPRETVSMDLESESCRKEGTQMTPQHMEELAEQEIARL VLTDEEKSLLEKEGLILPETLPLTKTEEQILKRVRRKIRNKRSAQESRRKKKVYVGGLES RVLKYTAQNMELQNKVQLLEEQNLSLLDQLRKLQAMVIEISNKTSSSSTCILVLLVSFCL LLVPAMYSSDTRGSLPAEHGVLSRQLRALPSEDPYQLELPALQSEVPKDSTHQWLDGSDC VLQAPGNTSCLLHYMPQAPSAEPPLEWPFPDLFSEPLCRGPILPLQANLTRKGGWLPTGS PSVILQDRYSG >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_2|1116_bp atggagctggaattggatgctggtgaccaagacctgctggccttcctgctagaggaaagt ggagatttggggacggcacccgatgaggccgtgagggccccactggactgggcgctgccg ctttctgaggtaccgagcgactgggaagtagatgatttgctgtgctccctgctgagtccc ccagcgtcgttgaacattctcagctcctccaacccctgccttgtccaccatgaccacacc tactccctcccacgggaaactgtctctatggatctagagagtgagagctgtagaaaagag gggacccagatgactccacagcatatggaggagctggcagagcaggagattgctaggcta gtactgacagatgaggagaagagtctattggagaaggaggggcttattctgcctgagaca cttcctctcactaagacagaggaacaaattctgaaacgtgtgcggaggaagattcgaaat aaaagatctgctcaagagagccgcaggaaaaagaaggtgtatgttgggggtttagagagc agggtcttgaaatacacagcccagaatatggagcttcagaacaaagtacagcttctggag gaacagaatttgtcccttctagatcaactgaggaaactccaggccatggtgattgagata tcaaacaaaaccagcagcagcagcacctgcatcttggtcctactagtctccttctgcctc ctccttgtacctgctatgtactcctctgacacaagggggagcctgccagctgagcatgga gtgttgtcccgccagcttcgtgccctccccagtgaggacccttaccagctggagctgcct gccctgcagtcagaagtgccgaaagacagcacacaccagtggttggacggctcagactgt gtactccaggcccctggcaacacttcctgcctgctgcattacatgcctcaggctcccagt gcagagcctcccctggagtggccattccctgacctcttctcagagcctctctgccgaggt cccatcctccccctgcaggcaaatctcacaaggaagggaggatggcttcctactggtagc ccctctgtcattttgcaggacagatactcaggctag >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_3|946_aa MGTQDPGNMGTGVPASEQISCAKEDPQVYCPEETGGTKDVQVTDCKSPEDSRPPKETDCC NPEDSGQLMVSYEGKAMGYQVPPFGWRICLAHEFTEKRKPFQANNVSLSNMIKHIGMGLR YLQWWYRKTHVEKKTPFIDMINSVPLRQIYGCPLGGIGGGTITRGWRGQFCRWQLNPGMY QHRTVIADQFTVCLRREGQTVYQQVLSLERPSVLRSWNWGLCGYFAFYHALYPRAWTVYQ LPGQNVTLTCRQITPILPHDYQDSSLPVGVFVWDVENEGDEALDVSIMFSMRNGLGGGDD APGGLWNEPFCLERSGETVRGLLLHHPTLPNPYTMAVAARVTAATTVTHITAFDPDSTGQ QVWQDLLQDGQLDSPTGQSTPTQKGVGIAGAVCVSSKLRPRGQCRLEFSLAWDMPRIMFG AKGQVHYRRYTRFFGQDGDAAPALSHYALCRYAEWEERISAWQSPVLDDRSLPAWYKSAL FNELYFLADGGTVWLEVLEDSLPEELGRNMCHLRPTLRDYGRFGYLEGQEYRMYNTYDVH FYASFALIMLWPKLELSLQYDMALATLREDLTRRRYLMSGVMAPVKRRNVIPHDIGDPDD EPWLRVNAYLIHDTADWKDLNLKFVLQVYRDYYLTGDQNFLKDMWPVCLAVMESEMKFDK DHDGLIENGGYADQTYDGWVTTGPSAYCGGLWLAAVAVMVQMAALCGAQDIQDKFSSILS RGQEAYERLLWNGRYYNYDSSSRPQSRSVMSDQCAGQWFLKACGLGEGDTEVREEEEQPE RKMGFPWRWEVFPTQHVVRALQTIFELNVQAFAGGAMGAVNGMQPHGVPDKSSVQSDEVW VGVVYGLAATMIQEGLTWEGFQTAEGCYRTVWERLGLAFQTPEAYCQQRVFRSLAYMRPL SIWAMQLALQQQQHKKASWPKVKQGTGLRTGPMFGPKEAMANLSPE >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_3|2841_bp atggggacccaggatccagggaacatgggaaccggcgtcccagcctcggagcagataagc tgtgccaaagaggatccacaagtttattgccctgaagagactggcggcaccaaggatgtg caggttacagactgtaagagtcccgaagacagccgacccccaaaagagacggactgctgc aatccggaggactctgggcagctgatggtttcctatgagggtaaagctatgggctaccag gtgcctccctttggctggcgcatctgtctggctcatgagtttacagagaagaggaaaccc tttcaagctaacaacgtctccctaagcaacatgataaagcatataggcatgggcttgagg tacctgcagtggtggtaccggaagacccatgtggaaaagaagacacctttcatcgacatg atcaattctgtacccctaagacagatttatggttgtcccttgggtggcatcgggggaggc actattacccgtggctggagaggccagttctgtcgttggcagcttaaccctggaatgtat cagcaccggacagtcatcgctgaccaattcacagtgtgcctgcgtcgggaagggcagact gtgtaccagcaagtcctgtccctggagcgcccaagtgtcctccgcagctggaactggggc ctgtgtgggtactttgctttctaccatgccctctatccccgagcctggactgtctatcag cttcctggccagaatgtcaccctcacctgccgtcagatcacacccatcttgccccatgac taccaggacagcagcctgcctgtaggagtctttgtgtgggatgtggaaaatgaaggggac gaagctctagatgtgtccatcatgttctccatgcggaatggactgggtggtggagacgat gccccagggggtttgtggaatgagcccttctgtctggagcgtagcggggaaactgtccgg gggctgctcctgcatcatccaacccttccaaacccctacacgatggctgtggctgcacga gtcacggcagctaccacggtaacccacatcacagcctttgaccctgacagcacggggcag caggtgtggcaggatctacttcaggatggacagctggactctcccactggccaaagcacc cctacgcagaaaggagtaggcattgctggagctgtgtgtgtttccagcaagttgcgacct cgaggccagtgccgcctggagttttcactggcttgggacatgcccaggatcatgtttgga gctaaaggccaagtccactacaggcggtatacaaggttctttggccaggatggagatgca gcacctgccctcagccactatgcactgtgccgatacgcagagtgggaagagaggatctca gcttggcagagcccggtattggatgacagatcactgcctgcctggtacaaatctgcgctg ttcaatgaactatacttcctggctgatggaggcacagtgtggctggaagttcttgaggac tccctaccagaggagctgggcagaaacatgtgtcacctccgccccaccctacgggactac ggtcgatttggctaccttgagggccaggagtaccgcatgtacaacacatatgatgtccac ttttatgcttcctttgccctcatcatgctctggcccaaacttgagctcagcctacagtat gacatggctctggccactctcagggaggacctgacacggcgacggtacctgatgagtggg gtgatggcacctgtgaaaaggaggaacgtcatcccccatgatattggggacccagatgat gaaccatggctccgcgtcaatgcatatttaatccatgatactgctgattggaaggacctg aacctgaagtttgtgctgcaggtttatcgggactattacctcacgggtgatcaaaacttc ctgaaggacatgtggcctgtgtgtctagctgtgatggaatctgaaatgaagtttgacaag gaccatgatggactcattgaaaatggaggctatgcagaccagacctatgatggatgggtg accacaggccccagtgcttactgtggagggctgtggctggcagctgtggctgtgatggtc cagatggctgctctgtgtggggcacaggacatccaggataagttttcttctatcctcagc cggggccaagaagcctatgagagactgctgtggaatggccgctattacaactatgacagc agctctcggcctcagtctcgtagtgttatgtctgaccagtgtgctggacagtggttcctg aaggcctgtggcctaggagaaggagacactgaggtgagagaggaggaggagcagccagag agaaaaatgggttttccctggaggtgggaagtgtttcctacccaacatgtggtccgtgct ctccaaactatctttgagctgaacgtccaggcctttgcaggaggggccatgggggctgtg aatgggatgcagccccatggtgtccctgataaatccagtgtgcagtctgatgaagtctgg gtgggtgtggtctacgggctggcagctaccatgatccaagagggcctgacttgggagggc ttccagacagctgaaggctgctaccgtaccgtgtgggagcgcctgggtctggccttccag accccagaggcatactgccagcagcgagtgttccgctcactggcctacatgcggccactg agcatatgggccatgcagctagccctgcaacagcagcagcacaaaaaggcctcctggcca aaagtcaaacagggcacaggactaaggacagggcctatgtttggaccaaaggaagccatg gcaaacctgagcccagagtga >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_4|460_aa MTRALSGLACRALPAGRDSAEGADLRPALFPSRSDSGAAMIEVVAELSRGPVFLAGEALE CVVTVTNPLPPTATSASSEALAWASAQIHCQFHASESRVALPPPDSSQPDVQPDSQTVFL PHRGERGQCILSTPPKILFCDLRLDPGESKSYSYSEVLPIEGPPSFRGQSVKYVYKLTIG CQRVNSPITLLRVPLRVLVLTGLQDVRFPQDEAVAPSSPFLEEDEGGKKDSWLAELAGER LMAATSCRSLHLYNISDGRGKVGTFGIFKSVYRLGEDVVGTLNLGEGTVACLQFSVSLQT EERVQPEYQRRLSLKWRLHFEFVTSREPGLVLLPPVEQPEPTTWTGPEQVPVDTFSWDLP IKRGGPGDILEGWALGHLLLLQARASPIGGGCEWGAGAHEGGGDAEGEGIASGDWCVCGN GDRSEGSSPITKMSERFCEEVEFQVEWESLAIYETISMGK >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_4|1383_bp atgacccgagccctttccggtctggcctgccgggcgcttccggccggaagggactccgcg gagggtgctgacctccgccccgccttgtttccttctagatctgattccggagctgccatg attgaagtggtagcagagctcagccggggtcctgtatttttggctggggaggcgctggag tgtgtagtgaccgtcaccaacccccttccgcccacggccacttctgcatccagtgaggcc ctggcctgggccagtgcccaaatccactgccagttccatgccagtgagagtcgagtagca ctgcctcctcctgactctagtcagccagatgtccagcccgacagccagactgtctttctg ccacaccgaggtgagaggggccagtgtatcctttctactccaccgaaaattctattctgt gacctgaggcttgatcctggagagtccaaatcatactcctacagtgaagtgctgcccata gagggaccaccctcctttcggggtcagtcagtcaagtacgtctacaaactgaccattggc tgccagcgtgtcaactcccctatcactttactcagagtccctctgagggttcttgtgctg actggccttcaggatgtccggtttccccaggatgaggctgtagccccatccagtccattc ttggaggaggatgaaggtgggaagaaagattcatggctagctgagctggctggggaacgc ctaatggctgccacatcctgccgcagcctccatctatacaatatcagtgatggccgaggg aaagttgggacgtttggcatcttcaaatctgtgtacagacttggcgaggacgtggtgggg accttaaacttaggggaaggaaccgtagcttgtttgcagttttcagtcagcttacagacc gaggagcgtgtacagcctgagtaccagcggcgactgtccttgaagtggagattgcatttt gaatttgtaacgtcccgagaaccaggattggtactcctaccccctgtggaacagcccgaa cctaccacctggacaggacctgagcaagtacctgtagacaccttcagctgggacctgccc atcaagagagggggtccaggggacatcctggaaggctgggccctgggccaccttctgctc ttgcaagctagagccagcccaatagggggcggatgtgagtggggagctggggcgcatgaa ggtgggggtgatgccgaaggggaagggatcgccagtggggattggtgcgtgtgcggaaac ggggacagaagtgaaggttcatcgcctataacgaagatgagtgaaagattttgtgaagaa gtggaatttcaagttgagtgggaatctttggccatctatgaaacaatttccatgggaaaa tga >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_5|1137_aa MALPSLLLLVAALAGGVRPPGARNLTLAVVLPEHNLSYAWAWPRVGPAVALAVEALGRAL PVDLRFVSSELEGACSEYLAPLSAVDLKLYHDPDLLLGPGCVYPAASVARFASHWRLPLL TAGAVASGFSAKNDHYRTLVRTGPSAPKLGEFVVTLHGHFNWTARAALLYLDARTDDRPH YFTIEGVFEALQGSNLSVQHQVYAREPGGPEQATHFIRANGRIVYICGPLEMLHEILLQA QRENLTNGDYVFFYLDVFGESLRAGPTRATGRPWQDNRTREQAQALREAFQTVLVITYRE PPNPEYQEFQNRLLIRAREDFGVELGPSLMNLIAGCFYDGILLYAEVLNETIQEGGTRED GLRIVEKMQGRRYHGVTGLVVMDKNNDRETDFVLWAMGDLDSGDFQPAAHYSGAEKQIWW TGRPIPWVKGAPPSDNPPCAFDLDDPSCDKTPLSTLAIVALGTGITFIMFGVSSFLIFRC NSCSFRSCREAPATLLLAWGWQDSACQSTEVCSPYRKLMLEKELASMLWRIRWEELQFGN SERYHKGAGSRLTLSLRGSSYGSLMTAHGKYQIFANTGHFKGNVVAIKHVNKKRIELTRQ VLFELKHMRDVQFNHLTRFIGACIDPPNICIVTEYCPRGSLQDILENDSINLDWMFRYSL INDLVKGMAFLHNSIISSHGSLKSSNCVVDSRFVLKITDYGLASFRSTAEPDDSHALYAK KLWTAPELLSGNPLPTTGMQKADVYSFGIILQEIALRSGPFYLEGLDLSPKEIVQKVRNG QRPYFRPSIDRTQLNEELVLLMERCWAQDPAERPDFGQIKGFIRRFNKEGGTSILDNLLL RMEQYANNLEKLVEERTQAYLEEKRKAEALLYQILPHSVAEQLKRGETVQAEAFDSVTIY FSDIVGFTALSAESTPMQVVTLLNDLYTCFDAIIDNFDVYKVETIGDAYMVVSGLPGRNG QRHAPEIARMALALLDAVSSFRIRHRPHDQLRLRIGVHTDSPNLFLLKGPVCAGVVGLKM PRYCLFGDTVNTASRMESNGQALKIHVSSTTKDALDELGCFQLELRGDVEMKVMAGHGEG GMEREGESDYGNHREREGDKGTNIEASESCPLSHFQGKGKMRTYWLLGERKGPPGLL >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_5|3414_bp atggcgctgccatcacttctgctgttggtggcagccctggcaggtggggtgcgtcctccc ggggcgcggaacctgacgctggcggtggtgctgccagaacacaacctgagctatgcctgg gcctggccacgggtgggacccgctgtggcactagctgtggaggctctgggccgggcactg cccgtggacctgcggtttgtcagctccgaactggaaggcgcctgctctgagtacctggca ccgctgagcgctgtggacctcaagctgtaccatgaccccgacctgctgttaggtcccggt tgcgtgtaccctgctgcctctgtggcccgctttgcctcccactggcgccttcccctgctg actgcgggtgctgtggcctctggtttttcggctaagaatgaccattatcgtaccctggtt cgcactggcccctctgctcccaagctgggtgagtttgtggtgacactacacgggcacttc aattggactgcccgtgctgccttgctgtacctggatgctcgcacagatgaccggcctcac tacttcaccatcgagggcgtctttgaggccctgcagggcagcaacctcagtgtgcagcac caggtgtatgcccgagagccagggggccccgagcaggccacccacttcatccgggccaac gggcgcattgtgtatatctgcggccctctggagatgctgcatgagatcctgcttcaggcc cagagggagaatctgaccaatggggattatgtcttcttttacctggatgtctttggggag agtctccgtgcaggccccacacgtgctacaggccggccctggcaggacaatcgcacccgg gaacaggcccaggccctcagagaggcctttcagactgtattggtgatcacgtaccgagaa cccccaaatcctgagtatcaggaattccagaatcgtctgctgataagagcccgggaagac tttggtgtggagctgggcccttccctgatgaacctcatcgctggctgcttctatgatggg atcctgctatatgctgaagtcctgaatgagacaatacaggaaggaggcacccgggaggat ggacttcgaattgtggaaaagatgcagggacgaagatatcacggtgtaactgggctggtt gtcatggacaagaacaatgaccgagagactgactttgtcctctgggccatgggagacctg gattctggggactttcagcctgcagcccactactcgggagctgagaagcagatttggtgg acgggacggcctattccctgggtgaagggggctcctccctcggacaatcccccctgtgcc tttgacttggacgacccatcctgtgataaaactccactttcaaccctggcaattgtggct ctgggcacaggaatcaccttcatcatgtttggtgtttccagcttcctaattttccggtgt aacagttgcagcttcaggagctgcagggaagcccctgcaaccctgctgttggcttggggg tggcaggattcggcttgccagtcaactgaggtgtgcagtccttacagaaagctgatgctg gagaaggagctggctagcatgttgtggcgtattcgctgggaagaactgcagtttggcaac tcagagcgttatcacaaaggtgcaggcagtcgcctcacactgtcgctgcggggatccagt tacggctcgctcatgacagcccatgggaaataccagatctttgccaacaccggtcacttc aagggaaatgttgtcgccatcaaacatgtgaataagaagcgcattgagctgacccggcag gttctgtttgaactcaaacatatgagagatgttcagttcaaccatctcactcgcttcatt ggcgcctgcatagaccctcccaacatttgcattgtcactgaatactgtcctcgtgggagt ttacaggatattctagaaaatgacagcatcaacttggactggatgtttcgttattcactc attaatgaccttgttaagggcatggcctttctccacaacagcattatttcatcgcatggg agtctcaagtcctccaactgtgtggtggatagtcgttttgtgctcaaaatcacagactat ggcctggccagcttccgatcaactgctgaacctgatgacagccatgccctctatgccaag aagctgtggactgccccagaactgctcagtgggaaccccttgccaaccacaggcatgcag aaggctgacgtctatagctttgggatcatcctgcaggagatagcacttcgcagtggtcct ttctacttggagggcctggacctcagccccaaagagattgtccagaaggtacgaaatggt cagcggccatatttccggccaagcattgaccggacccaactgaatgaagagctagttttg ctgatggagcgatgttgggctcaggacccagctgagcggccagactttggacagattaag ggcttcattcggcgctttaacaaggagggtggcaccagcatattggacaacctcctgctg cgcatggaacagtatgccaataacttggagaagctggtggaggaacgcacacaggcctat ctggaggaaaaacgcaaggctgaagctctgctctaccaaatcctaccccattcagtggca gagcagttaaaacggggagagactgtacaggctgaggcctttgacagtgttaccatctac ttcagtgacattgttggcttcacagcattgtcagcagagagcacccccatgcaggtagtg acacttcttaatgacctgtatacctgctttgatgccataattgacaactttgatgtctac aaggtggagacgattggggatgcttacatggtggtatctggcctcccaggccgaaatggt caacgccatgcaccagaaattgctcgtatggccctagcattactagatgcagtttcttcc tttcgcatccgccaccgaccccatgaccagctgaggctacgcataggggtccatactgac tctcccaacctgtttcttctcaaagggccagtctgtgctggggttgttggcctgaagatg ccccgttattgtctttttggagacacagtgaacactgcttctcgaatggagtctaatggt caagcgctgaagatccatgtctcctctaccaccaaggatgccctagatgagctaggatgc ttccagctagagcttcggggggatgtggaaatgaaggtgatggcaggccatggggagggg ggcatggaaagggagggtgaaagtgattatgggaatcatagggaaagagagggagacaaa gggactaacatcgaagcatctgaatcatgtccactctcccacttccagggaaaaggaaag atgcgaacatactggctcttaggagagcggaaaggacctcctggactcctgtaa >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_6|540_aa MAAAVVLAAGLRAARRAVAATGVRGGQVRGAAGVTDGNEVAKAQQATPGGAAPTIFSRIL DKSLPADILYEDQQCLVFRDVAPQAPVHFLVIPKKPIPRISQAEEEDQQLLGHLLLVAKQ TAKAEGLGDGYRLDDSPRSALAAATAAAAAAASAAAATAAFTTAKAAALSTKTPAPCSEF MEPSSDPSLLGEPCAGPGFTHNIAHGSLGFEPVYVSCIAQDTCTTTDHSSNPGPVPGSSS GPVLGSSSGAGHGSGSGSGPGCGSVPGSGSGPGPGSGPGSGPGHGSGSHPGPASGPGPDT GPDSELSPCIPPGFRNLVADRVPNYTSWSQHCPWEPQKQPPWEFLQVLEPGARGLWKPPD IKGKLMVCYETLPRGQCLLYNWEEERATNHLDQVPSMQDGSESFFFRHGHRGLLTMQLKS PMPSSTTQKDSYQPPGNVYWPLRGVKCERTPPCPPPNSLTGKREAMLEMLLQHQICKEVQ AEQEPTRKLFEVESVTHHDYRMELAQAGTPAPTKPHDYRQEQPETFWIQRAPQLPVCEGD >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_6|1623_bp atggcggcagccgtggtgctggctgctgggttgcgcgcggcgcgcagagccgtggcggcc acgggggtgcgcggggggcaggtccgaggagctgcaggtgtgactgatgggaatgaagtg gccaaggcccagcaggcaactcctgggggagcagccccaaccatcttctcccggatcctg gacaagagcctcccagctgacattctctatgaggaccagcagtgtcttgtgttccgtgat gtggcccctcaggctcctgtgcacttcctggtcattcctaagaagcccattcctcggatt agccaggctgaagaagaagaccagcagcttctaggacacctactccttgtggccaagcag acagcaaaggctgagggcctgggagatggataccgacttgatgacagtcccaggtcggcc ctggcagctgcaaccgcagcagctgcagcggctgcatcagctgctgcagctactgcagcc ttcaccactgccaaagcagctgcattatctacaaagaccccagcgccctgttctgagttc atggagccgtcctctgaccccagccttcttggggagccctgtgcgggacccggctttacc cacaatatagcccatgggagtcttggctttgagcccgtctatgtttcctgtattgctcag gacacttgcactacaactgaccatagttctaatcctggccctgttccaggctctagctct gggcctgttcttggttccagctcaggtgctggccatggctctggctctggctctggtcct ggctgtggctctgtccctggctctggctctggtcctggtcctggctctggtcctggctct ggtcctggtcatggctctggctctcatcctggtcctgcctctgggcctggtccagacact ggccctgactctgagctcagcccctgtattcctccagggttcagaaacctggtggcagat cgggtccctaactatacctcctggagtcagcactgcccctgggagccccagaaacaacca ccttgggaatttttgcaagtcttagaaccgggtgcccgaggactatggaaacccccagac attaaagggaagcttatggtttgctatgaaactttgccgcggggccagtgcctcctctac aactgggaggaagagagagccaccaaccacctggatcaagtcccaagcatgcaggatggc tctgagagttttttcttccgacacggacaccggggactgctgactatgcaactaaagtca cccatgccctccagcaccacccagaaagactcgtaccagccaccaggaaacgtctattgg ccacttcgaggtgtgaaatgtgagaggaccccaccttgcccaccccccaactctctcaca gggaagcgtgaagccatgctggagatgctcctgcagcatcagatctgtaaagaggtgcag gcagaacaggaacccacaaggaagctcttcgaggttgagtctgtgacacaccatgactac cgaatggagctggcacaagcagggactcctgccccaacaaagcctcacgactaccgccag gagcaacctgagaccttctggatacagagggcaccacagctgccggtgtgtgagggtgac tag >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_7|370_aa MDAEKHPPSKDPSAEDLQENHISESFLKPSTSETPLEPHTSESPLVPSPSQIPLEAHSPE THQEPSISETPSETPTYEASLDSPISVVPEKHLTLPPQSRDYVCLSSSDTLKEDLSSESS SNEVPWTRRSTHLSESESLPEHCLSGPSSQVQVDTTEKQEEEAGEVEKGVDASDSTAHTA QPGHQLGKKKKKKGVSCNTARPVFPARQTELVEVAKAMHREEFGAQVNNLFQWEKDAALN AIQTGLYIGWRCPHYLWDCFRIGDESRCFCGHLLREHRIISDISVPCKVSQCRCFMFCFI PSRPEEVGCCCGCFESNFLCAACDRRWEEHETFFDTQKTRQRGGRPRGADYVPFAEMAVL REAILSNSDF >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_7|1113_bp atggatgcagagaagcaccccccttcaaaggacccctctgctgaggacttacaggagaac catatctctgaaagcttcttgaagccttccacctctgagaccccgttagagccccatacc tctgaatcccctttggtgccatccccttcccagatccccttagaggcccattcccctgaa acccatcaggagccttccatctctgagactccttcagagacccctacctatgaggcttca ttggatagtcccatctcagtggtgccagagaaacaccttactcttcctccccaatcacga gactatgtctgtctgtcttcttctgatactctgaaggaagacctctcctctgagtcttct tccaatgaggtcccatggacaaggaggtctacccatctctctgaatctgagagccttcca gaacactgtctttcaggcccttcatcccaggtccaagtggacacaaccgaaaagcaggag gaagaagcaggagaggttgaaaagggagtagatgccagtgacagcactgctcacacagcc caacctggacaccaactaggcaagaagaagaagaagaaaggagttagctgtaacacagcc cgcccagtgttccctgctaggcagacagagctggtggaagtggctaaggcaatgcataga gaggagtttggtgctcaagtgaacaatcttttccagtgggagaaggatgcagccctgaat gccatccagacaggtctctacattggctggcgctgcccccattacctatgggactgtttc cggattggggatgagtccagatgcttttgtggacacttgttgagagagcaccggatcatc tcagacatatcggtgccctgcaaggtaagccagtgccgctgcttcatgttctgctttatc ccatcacgcccagaggaggtgggctgttgctgcggctgttttgagtctaatttcctctgt gcggcctgtgaccggcgctgggaggaacacgagactttctttgacacccagaagacccgg caacgaggaggaaggcctcgcggagcagactatgtaccttttgcagagatggctgtgctc cgagaagccatcctcagcaactctgacttctag >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_8|803_aa MGAWGTERDSVSNNNNNNNNNNNNNNYYYYYYYYYYYYYYYNNVKGLRGGLFLTDYSTCS PRKLSPFRSFASTELFHFHVPEDTFLAVWNLIIFKEQGGTFGDHCPDQSVTVYFRSGAPP VINPLHTHFPGDTAVPGVFSLTLSWTLPNRTSGIFNVSSPLPGDWFLAAHLPQAHGHISV KGLQDECQYLLQPQLIVRRLLDVAVLVPGRPSEQTLSPHNRSALYKVFVPSFTYRVSAQL VCVGGRGVSACPLSLRLRPKAPPLHNSSSVACGGASGCQLELALPPWGHWVYVRVETSSR GPGRTIRFQLCVRLQECPQPGLLRALVPGAAMNMPQSLGNQPLPPEPPSLGTPAEGPGTT SPPEHCWPVRPTLRNELDTFSVHFYIFFGPSVALPPERPAVFAMRLLPVLDSGGVLSLEL QLNASSVRQENVTVFGCLTHEVPLSLGDAAVTCSKESLAGFLLSVSATTRVARLRIPFPQ TGTWFLALRSLCGVGPRFVRCRNATAEVRMRTFLSPCVDDCGPYGQCKLLRTHNYLYAAC ECKAGWRGWGCTDSADALTYGFQLLSTLLLCLSNLMFLPPVVLAIRSRYVLEAAVYTFTM FFSTFYHACDQPGIVVFCIMDYDVLQFCDFLGSLMSVWVTVIAMARLQPVVKQVLYLLGA MLLSMALQLDRHGLWNLLGPSLFALGILATAWTVRSVRRRHCYPPTWRRWLFYLCPGSLI AGSAVLLYAFVETRDNYFYIHSIWHMLIAGSVGFLLPPRAKTDHGVPSGARARGCGYQLC INEQEELGLVGPGGATVSSICAS >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_8|2412_bp atgggagcctgggggacagagcgagactctgtctcaaacaacaacaacaacaacaacaac aacaacaacaacaacaactactactactactactactactactactactactactactac tacaacaatgtgaagggactgaggggaggccttttcctgactgattactccacctgctca ccccgcaagctgagtcctttccgctcctttgccagcaccgagctcttccacttccatgtt cctgaggacacattcctggctgtttggaacctcatcatcttcaaggagcaagggggaact tttggggaccactgcccagaccaaagtgtgactgtgtatttccggtccggggcaccccct gtcatcaatcccctgcatacacacttcccaggggacacagctgtgcctggggttttctca ctgaccctcagctggacactgcccaaccgcacctcaggcatctttaacgtcagcagcccc ttacctggggactggttcttggctgcccaccttccccaggcccacggccacatctctgtc aagggtctccaggatgagtgtcagtacctccttcagccgcagctgattgtccggcgtttg ctggacgtcgctgtgctggttcctggccggccctcagagcaaaccctctccccacacaat cgctcagccctgtacaaggtctttgtgcccagcttcacttacagggtttcagcacagctg gtgtgtgtggggggccgtggggtatctgcctgccccctgtcactgcgtctgcgtcccaaa gccccacccctgcacaactcaagctctgtggcctgtggaggtgcctcaggatgccagctg gagctggcactgcccccctgggggcactgggtctacgtgcgtgtggaaacatcatcccgg ggccctggtaggaccatccgcttccagctgtgtgtgcggttgcaagagtgcccacagccc ggcctgctccgagccctggtccctggagctgccatgaacatgccccagtccctgggcaac cagccactgcccccagaaccgccatcccttggaacccctgcggaggggcctgggaccacg tccccacccgagcactgctggccagtgcgcccgactctgcgcaacgagctggacaccttc tctgtccacttctacatcttctttggcccaagtgtggcccttccccctgagcgcccagcc gtgttcgccatgaggctgttgccagtgctggacagtggaggcgtcctcagcctggagctc cagctcaatgcgagctccgtgcgccaggaaaacgtgacggtgtttggatgcttgactcac gaggtgcccttgagcctgggggatgcagcagtgacctgttccaaagagtccctggccggc ttcctcctctctgtcagtgccaccaccagggttgccaggctgcgaatcccattcccgcag acggggacctggttcctggccctccgctccctgtgcggggtggggcctcggttcgtgcgg tgccgcaacgcgacggccgaggtgcggatgcgcaccttcctgtccccatgcgtggacgac tgcgggccctacggccagtgcaagctgctgcgcacacacaattatctgtacgcagcctgc gagtgcaaggccgggtggagaggctggggctgcaccgacagtgcagatgcgctcacctat ggattccagctgctgtccacactcctgctctgcctgagcaacctcatgtttctgccacct gtggtcctggccattcggagtcgatatgtgctggaagctgcagtctacaccttcaccatg ttcttctccacgttctatcatgcctgtgaccagccaggcatcgtggttttctgcatcatg gactacgatgtgctgcagttctgtgatttcctgggctccttaatgtccgtgtgggtcact gtcattgccatggctcgtttacagcccgtggtcaagcaggtgctgtatttgctgggagct atgctgctgtccatggctctgcagcttgaccgacatggactctggaacctgcttggaccc agtctcttcgccctggggatcttggccacagcctggacagtacgcagcgtccgccgccgg cactgctacccacccacgtggcgccgctggcttttctacttgtgccctggcagccttatt gcaggcagtgccgtcctgctttatgcttttgtggagacccgggacaactacttctacatt cacagcatttggcatatgctcattgcgggcagtgtgggcttcctgctgccccctcgtgcc aagactgaccacggggtcccatctggagcccgggcccggggctgtggttaccagctatgc atcaacgagcaggaggagctgggcctcgtgggcccaggaggggccactgtcagcagcatc tgtgccagctga >gi568815589f:35692409_35909442|GENSCAN_predicted_peptide_9|879_aa MVAVGVVVVVEVVRGVAGVVVVVEAHIRHMRYVARMTVMVKDSQVAPPPEGPRLGPADSV SPCSCTVPLHVTVLPSVEKAGGQQQQQQQDRHSSTCDPSHEGCAPQEAQHLGAGQSLSAQ QLLTPFSPSAASAQPSQSLNFVVSAAGWRAARECGRSLFGLATAGQGNCHSHLNLQQPPP WSVSSHPRQGKVLYQRKYYKSLKAQLWTISSELCSMEPLNRTEVSEFFLKGFSGYPALEH LLFPLCSAMYLVTLLGNTAIMAVSVLDIHLHTPVYFFLGNLSTLDICYTPTFVPLMLVHL LSSRKTISFAVCAIQMCLSLSTGSTECLLLAITAYDRYLAICQPLRYHVLMSHRLCVLLM GAAWVLCLLKSVTEMVISMRLPFCGHHVVSHFTCKILAVLKLACGNTSVSEDFLLAGSIL LLPVPLAFICLSYLLILATILRVPSAARCCKAFSTCLAHLAVVLLFYGTIIFMYLKPKSK EAHISDEVFTVLYAMVTTMLNPTIYSLRNKEVKEAARKTRGHLAIRHFSSSNKTTVLWTH LGFLLGIPDAGLSRGEVRAALHGDGGHLGETTASPTAPFAKLVTTDRTSTRFVPGFPPRV TSLSVSFLLQSNMEARNNLSLMDICGTSSFVPLMLDNFLETQRTISFPGCALQMYLTLAL GSTECLLLAVMAYDRYVAICQPLRYPELMSGQTCMQMAALSWGTGFANSLLQSILVWHLP FCGHVINYFYEILAVLKLACGDISLNALALMVATAVLTLAPLLLICLSYLFILSAILRVP SAAGRCKAFSTCSAHRTVVVVFYGTISFMYFKPKAKDPNVDKTVALFYGVVTPSLNPIIY SLRNAEVKAAVLTLLRGGLLSRKASHCYCCPLPLSAGIG >gi568815589f:35692409_35909442|GENSCAN_predicted_CDS_9|2640_bp atggtggcggtgggggtggtggtggtggtggaggtggtgaggggtgtggcgggggtggtg gtggtggtggaggcccacattcggcacatgagatacgtggccaggatgacggtgatggtg aaagattcccaggtggccccgccgccggaagggccaaggctgggcccggcggactcggtt tccccctgcagctgtacggttcctctccacgtcacagtcctgccgtccgtggaaaaggca ggtggccagcagcagcagcagcagcaggaccgccacagcagcacctgtgatccatcccac gagggctgtgctccccaggaggcccagcatctgggagccggacagtccctctctgcccag cagctcctcactcctttctccccttcagcagcctccgctcagccctctcagtcactgaac tttgttgtctctgctgcgggctggagagcagccagggaatgtgggcgaagcctgtttgga cttgcaactgctggccaaggaaattgccacagccacctcaaccttcagcaaccaccacct tggtcagtcagcagccatccacgtcaaggcaaagtcctctaccagcgaaaatattacaaa tcactgaaagctcagctgtggaccatctcttcagaactctgcagcatggagccgctcaac agaacagaggtgtccgagttctttctgaaaggattttctggctacccagccctggagcat ctgctcttccctctgtgctcagccatgtacctggtgaccctcctggggaacacagccatc atggcggtgagcgtgctagatatccacctgcacacgcccgtgtacttcttcctgggcaac ctctctaccctggacatctgctacacgcccacctttgtgcctctgatgctggtccacctc ctgtcatcccggaagaccatctcctttgctgtctgtgccatccagatgtgtctgagcctg tccacgggctccacggagtgcctgctactggccatcacggcctatgaccgctacctggcc atctgccagccactcaggtaccacgtgctcatgagccaccggctctgcgtgctgctgatg ggagctgcctgggtcctctgcctcctcaagtcggtgactgagatggtcatctccatgagg ctgcccttctgtggccaccacgtggtcagtcacttcacctgcaagatcctggcagtgctg aagctggcatgcggcaacacgtcggtcagcgaagacttcctgctggcgggctccatcctg ctgctgcctgtacccctggcattcatctgcctgtcctacttgctcatcctggccaccatc ctgagggtgccctcggccgccaggtgctgcaaagccttctccacctgcttggcacacctg gctgtagtgctgcttttctacggcaccatcatcttcatgtacttgaagcccaagagtaag gaagcccacatctctgatgaggtcttcacagtcctctatgccatggtcacgaccatgctg aaccccaccatctacagcctgaggaacaaggaggtgaaggaggccgccaggaagaccagg ggccacctggccataagacatttttccagttctaacaagactactgttctctggacacac ctgggcttcctcctaggaatacctgacgctggcctttcccgaggagaagtgagagcagct ctgcatggcgatggaggtcacctgggagagaccacagcctcgcccaccgctccctttgca aagctggtcacaactgaccgcacctccaccagattcgtgcctggcttccctcctcgtgtg acatcattgtcagtatcatttctcctacaaagcaatatggaggccagaaacaacctctcc ctcatggacatctgcggcacctcctcctttgtgcctctcatgctagacaatttcctggaa acccagaggaccatttccttccctggctgtgccctgcagatgtacctgaccctggcgctg ggatcaacggagtgcctgctgctggctgtgatggcatatgaccgttatgtggctatctgc cagccgcttaggtacccagagctcatgagtgggcagacctgcatgcagatggcagcgctg agctgggggacaggctttgccaactcactgctacagtccatccttgtctggcacctcccc ttctgtggccacgtcatcaactacttctatgagatcttggcagtgctaaaactggcctgt ggggacatctccctcaatgcgctggcattaatggtggccacagccgtcctgacactggcc cccctcttgctcatctgcctgtcttaccttttcatcctgtctgccatccttagggtaccc tctgctgcaggccggtgcaaagccttctccacctgctcagcccaccgcacagtggtggtg gttttttatgggacaatctccttcatgtacttcaaacccaaggccaaggatcccaacgtg gataagactgtcgcattgttctacggggttgtgacgccctcgctgaaccccatcatttac agcctgaggaatgcagaggtgaaagctgccgtcctaactctgctgagaggaggtttgctc tccaggaaagcatcccactgctactgctgccctctgcccctgtcagctggcataggctag