GENSCAN 1.0 Date run: 4-Nov-116 Time: 01:58:19 Sequence gi568815588r:102303203_102517038 : 213836 bp : 49.63% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 1066 1143 78 2 0 75 44 67 0.175 0.52 1.02 Intr + 11986 12085 100 2 1 41 107 97 0.163 6.07 1.03 Intr + 24733 24778 46 1 1 56 70 46 0.016 -1.99 1.04 Intr + 30153 30183 31 2 1 83 86 14 0.119 -1.60 1.05 Intr + 40849 40980 132 2 0 121 82 152 0.962 18.52 1.06 Intr + 48054 48172 119 1 2 58 115 140 0.117 13.88 1.07 Intr + 48641 48749 109 1 1 101 66 40 0.984 2.96 1.08 Intr + 49256 49316 61 0 1 81 92 72 0.992 4.69 1.09 Intr + 50398 50452 55 1 1 101 86 60 0.994 6.08 1.10 Intr + 51168 51242 75 2 0 109 41 77 0.833 4.81 1.11 Intr + 56068 56233 166 0 1 46 98 144 0.568 10.73 1.12 Intr + 56982 57193 212 1 2 96 110 228 0.984 24.43 1.13 Intr + 57820 57918 99 0 0 79 105 76 0.998 8.71 1.14 Intr + 58516 58710 195 0 0 25 48 352 0.995 24.51 1.15 Intr + 59273 59462 190 1 1 79 36 123 0.842 5.36 1.16 Intr + 60054 60194 141 1 0 109 47 107 0.853 9.02 1.17 Intr + 60508 60596 89 2 2 83 83 43 0.901 2.99 1.18 Intr + 62195 62397 203 1 2 43 78 246 0.960 17.18 1.19 Intr + 63181 63304 124 1 1 121 101 131 0.999 18.29 1.20 Intr + 63883 64008 126 0 0 68 99 132 0.999 13.18 1.21 Intr + 64276 64358 83 0 2 39 89 137 0.999 7.34 1.22 Intr + 65016 65252 237 0 0 93 68 257 0.999 20.93 1.23 Intr + 65537 65630 94 2 1 17 83 96 0.970 1.97 1.24 Intr + 66009 66185 177 2 0 116 76 206 0.965 22.32 1.25 Intr + 66509 66573 65 1 2 41 111 96 0.971 4.72 1.26 Intr + 66659 66782 124 2 1 73 88 30 0.662 2.09 1.27 Intr + 66972 67043 72 2 0 106 98 71 0.999 9.50 1.28 Intr + 67182 67276 95 2 2 116 110 98 0.999 13.56 1.29 Intr + 67505 67658 154 2 1 91 115 50 0.999 8.07 1.30 Intr + 72157 72382 226 0 1 80 119 216 0.992 21.46 1.31 Intr + 73070 73230 161 0 2 103 89 145 0.999 15.81 1.32 Intr + 73358 73598 241 1 1 93 64 179 0.999 13.12 1.33 Intr + 73733 73938 206 0 2 55 105 188 0.697 16.12 1.34 Intr + 76082 76232 151 1 1 62 59 113 0.960 5.54 1.35 Intr + 76319 76449 131 0 2 80 81 86 0.977 7.51 1.36 Intr + 77047 77160 114 0 0 39 84 136 0.973 8.94 1.37 Intr + 77304 77484 181 2 1 66 49 174 0.999 10.74 1.38 Intr + 78854 79125 272 0 2 106 32 195 0.058 12.96 1.39 Intr + 93051 93132 82 2 1 73 76 74 0.761 3.91 1.40 Intr + 93247 93287 41 2 2 63 109 78 0.856 5.34 1.41 Intr + 93442 93621 180 0 0 37 105 182 0.846 14.86 1.42 Intr + 93702 93853 152 2 2 102 50 175 0.991 14.06 1.43 Intr + 94100 94206 107 2 2 65 55 41 0.513 -1.64 1.44 Intr + 94325 94483 159 0 0 12 73 221 0.988 12.96 1.45 Intr + 94779 94883 105 1 0 45 100 101 0.993 7.19 1.46 Intr + 95010 95095 86 1 2 89 80 108 0.999 9.64 1.47 Intr + 95183 95321 139 1 1 85 44 182 0.999 13.54 1.48 Intr + 95537 95662 126 0 0 108 78 113 0.998 12.95 1.49 Intr + 96086 96295 210 0 0 92 64 185 0.987 15.38 1.50 Intr + 96375 96516 142 1 1 102 37 313 0.999 27.01 1.51 Intr + 96878 96992 115 2 1 74 80 157 0.999 13.95 1.52 Intr + 97076 97289 214 1 1 100 84 194 0.999 18.49 1.53 Intr + 97453 97622 170 2 2 55 81 181 0.957 13.77 1.54 Intr + 97745 97847 103 1 1 73 65 113 0.999 7.25 1.55 Intr + 97978 98129 152 2 2 102 100 185 0.999 20.98 1.56 Intr + 98247 98316 70 2 1 68 94 34 0.998 0.75 1.57 Intr + 98383 98508 126 2 0 127 84 -37 0.525 0.45 1.58 Intr + 98543 98715 173 0 2 77 90 167 0.945 15.46 1.59 Intr + 98846 98957 112 1 1 112 103 62 0.975 10.05 1.60 Term + 99050 99174 125 0 2 64 43 92 0.739 0.85 1.61 PlyA + 99276 99281 6 1.05 2.19 PlyA - 99438 99433 6 -1.95 2.18 Term - 100228 99998 231 1 0 76 50 134 0.988 4.87 2.17 Intr - 100783 100640 144 1 0 88 83 268 0.999 26.78 2.16 Intr - 101525 101381 145 1 1 67 68 72 0.824 3.38 2.15 Intr - 101853 101696 158 0 2 10 86 243 0.969 15.11 2.14 Intr - 102051 101981 71 1 2 143 86 118 0.980 16.00 2.13 Intr - 102334 102144 191 0 2 54 36 258 0.999 16.43 2.12 Intr - 104064 104021 44 0 2 99 84 65 0.996 4.24 2.11 Intr - 105891 105693 199 2 1 1 77 478 0.851 37.35 2.10 Intr - 106084 106032 53 1 2 79 38 81 0.783 -0.09 2.09 Intr - 107745 107656 90 0 0 95 81 185 0.967 18.69 2.08 Intr - 107914 107856 59 2 2 -7 84 116 0.991 0.30 2.07 Intr - 108617 108505 113 1 2 86 72 179 0.991 16.12 2.06 Intr - 109025 108945 81 1 0 105 94 136 0.983 14.65 2.05 Intr - 109373 109179 195 1 0 85 27 309 0.998 23.03 2.04 Intr - 110995 110567 429 0 0 101 111 110 0.904 7.43 2.03 Intr - 112027 111661 367 2 1 77 117 448 0.996 40.80 2.02 Intr - 112917 112815 103 0 1 68 110 15 0.828 1.45 2.01 Init - 113836 113183 654 1 0 101 85 469 0.948 43.19 2.00 Prom - 114484 114445 40 -7.46 3.00 Prom + 115102 115141 40 -9.26 3.01 Init + 116915 117097 183 1 0 16 81 136 0.976 4.82 3.02 Intr + 117850 117980 131 0 2 68 86 75 0.958 4.79 3.03 Intr + 118152 118305 154 0 1 96 99 284 0.969 30.37 3.04 Intr + 118585 119090 506 0 2 88 51 831 0.998 71.18 3.05 Term + 119602 119791 190 1 1 118 46 379 0.999 33.62 3.06 PlyA + 119914 119919 6 1.05 4.13 PlyA - 119929 119924 6 -5.41 4.12 Term - 120370 120224 147 1 0 80 54 322 0.999 25.90 4.11 Intr - 120563 120455 109 1 1 2 78 91 0.531 -0.21 4.10 Intr - 120657 120596 62 0 2 93 81 44 0.798 1.73 4.09 Intr - 120976 120794 183 1 0 75 70 148 0.741 11.68 4.08 Intr - 121192 121062 131 2 2 78 69 105 0.851 8.01 4.07 Intr - 121358 121297 62 1 2 100 113 76 0.999 9.68 4.06 Intr - 121590 121447 144 2 0 99 96 226 0.999 23.90 4.05 Intr - 121996 121913 84 0 0 81 80 64 0.232 3.84 4.04 Intr - 122720 122674 47 2 2 55 27 27 0.078 -9.49 4.03 Intr - 123232 123018 215 2 2 -26 91 157 0.137 3.03 4.02 Intr - 126125 125973 153 0 0 108 48 35 0.128 1.54 4.01 Init - 126590 126515 76 2 1 106 92 38 0.657 7.25 4.00 Prom - 139919 139880 40 -7.16 5.02 PlyA - 139938 139933 6 1.05 5.01 Sngl - 147891 147250 642 0 0 73 48 877 0.636 78.38 5.00 Prom - 155705 155666 40 -4.86 6.00 Prom + 157617 157656 40 -7.36 6.01 Init + 158068 158248 181 0 1 106 81 157 0.355 14.15 6.02 Intr + 165551 165640 90 0 0 120 81 -13 0.082 1.17 6.03 Intr + 165874 165995 122 2 2 82 75 175 0.140 15.81 6.04 Intr + 166791 166873 83 2 2 101 28 49 0.956 -1.36 6.05 Intr + 167463 167915 453 0 0 115 100 526 0.985 48.87 6.06 Intr + 168071 168194 124 2 1 101 80 185 0.997 19.59 6.07 Intr + 169652 169748 97 1 1 88 92 98 0.999 9.78 6.08 Intr + 170368 170539 172 2 1 112 85 186 0.999 19.70 6.09 Intr + 170617 170810 194 1 2 100 94 249 0.997 25.84 6.10 Term + 172520 172782 263 0 2 109 54 245 0.884 18.89 6.11 PlyA + 172905 172910 6 -0.45 7.13 PlyA - 173802 173797 6 1.05 7.12 Term - 177763 177661 103 0 1 105 35 139 0.976 8.05 7.11 Intr - 177970 177930 41 1 2 86 92 9 0.673 -1.88 7.10 Intr - 178696 178635 62 2 2 108 53 73 0.456 4.25 7.09 Intr - 178973 178799 175 2 1 87 76 210 0.411 19.21 7.08 Intr - 179901 179809 93 0 0 78 92 75 0.546 7.06 7.07 Intr - 181174 180958 217 0 1 72 100 373 0.982 35.41 7.06 Intr - 182531 182407 125 2 2 56 76 129 0.992 7.88 7.05 Intr - 185073 184948 126 0 0 102 78 211 0.937 22.38 7.04 Intr - 185936 185861 76 1 1 85 76 114 0.986 9.42 7.03 Intr - 187411 187347 65 1 2 144 94 58 0.983 9.52 7.02 Intr - 198826 198488 339 1 0 38 34 149 0.089 0.17 7.01 Init - 199445 199398 48 2 0 83 92 116 0.996 12.45 7.00 Prom - 200302 200263 40 -11.43 8.00 Prom + 200401 200440 40 -7.06 8.01 Init + 200951 201132 182 1 2 79 72 239 0.973 18.06 8.02 Term + 205967 206105 139 2 1 134 48 139 0.519 11.94 8.03 PlyA + 207763 207768 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 41713 41720 8 2 2 122 36 0 0.811 -3.77 S.002 Term - 44357 44160 198 2 0 113 49 120 0.836 8.00 S.003 Term + 78854 79134 281 0 2 106 48 218 0.932 15.21 S.004 Init + 165828 165995 168 2 0 110 75 217 0.835 20.13 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815588r:102303203_102517038|GENSCAN_predicted_peptide_1|2674_aa XKEVLTVMGHIVCNFENITTCKDFECQTSVEDYYVHGPLLQGVPNPLATDPLGTGPHSRR FSCLKGSVSTFRANKVWKTLKLINEELSEIEPNVFLRPFLEVIRSEDTTGPITGLALTSV NKFLSYALIDPTHEGTAEGMENMADAVTHARFVGTDPASDEVVLMKILQVLRTLLLTPVG AHLTNESVCEIMQSCFRICFEMRLSELLRKSAEHTLVDMVQLLFTRLPQFKEEPKNYVGT NMKKISPCLLNKLELSSGEQTKALNQLEREGTHVEKSQSASVESIPEVLEECTSPADHSD SASVHDMDYVNPRGVRFTQSSQKEGTALVPYGLPCIRELFRFLISLTNPHDRHNSEVMIH MGLHLLTVALESAPVAQCQTLLGLIKDEMCRHLFQLLSIERLNLYAASLRVCFLLFESMR EHLKFQMEMYIKKLMEIITVENPKMPYEMKEMALEAIVQLWRIPSFVTELYINYDCDYYC SNLFEELTKLLSKNAFPVSGQLYTTHLLSLDALLTVIDSTEAHCQAKVLNSLTQQEKKET ARPSCEIVDGTREASNTERTASDGKAVGMASDIPGLHLPGGGRLPPEHGKSGCSDLEEAV DSGADKKFARKPPRFSCLLPDPRELIEIKNKKKLLITGTEQFNQKPKKGIQFLQEKGLLT IPMDNTEVAQWLRENPRLDKKMIGEFVSDRKNIDLLESFVSTFSFQGLRLDEALRLYLEA FRLPGEAPVIQRLLEAFTERWMNCNGSPFANSDACFSLAYAVIMLNTDQHNHNVRKQNAP MTLEEFRKNLKGVNGGKDFEQDILEDMYHAIKNEEIVMPEEQTGLVRENYVWNVLLHRGA TPEGIFLRVPTASYDLDLFTMTWGPTIAALSYVFDKSLEETIIQKAISGFRKCAMISAHY GLSDVFDNLIISLCKFTALSSESIENLPSVFGSNPKAHIAAKTVFHLAHRHGDILREGWK NIMEAMLQLFRAQLLPKAMIEVEDFVDPNGKISLQREETPSNRGESTVLSFVSWLTLSGP EQSSVRGPSTENQEAKRVALECIKQCDPEKMITESKFLQLESLQELMKALVSVTPDEETY DEEDAAFCLEMLLRIVLENRDRVGCVWQTVRDHLYHLCVQAQDFCFLVERAVVGLLRLAI RLLRREEISAQVLLSLRILLLMKPSVLSRVSHQVAYGLHELLKTNAANIHSGDDWATLFT LLECIGSGVKPPAALQATARADAPDAGAQSDSELPSYHQNDVSLDRGYTSDSEVYTDHGR PGKIHRSATDADVVNSGWLVVGKDDVDNSKPGPSRPGPSPLINQYSLTVGLDLGPHDTKS LLKCVESLSFIVRDAAHITPDNFELCVKTLRIFVEASLNGGCKSQEKRGKSHKYDSKGNR FKKKSKEGSMLRRPRTSSQHASRGGQSDDDEDEGVPASYHTVSLQVSQDLLDLMHTLHTR AASIYSSWAEEQRHLETGGQKIEADSRTLWAHCWCPLLQGIACLCCDARRQVRMQALTYL QRALLVHDLQKLDALEWESCFNKVFLQHLSPLLSLSTFAALWLTILDFMDKYMHAGSSDL LSEAIPESLKNMLLVMDTAEIFHSADARGGGPSALWEITWERIDCFLPHLRDELFKQTVI QDFEKPESPRAASSSSPGSPVASSPSRLSPTPDGPPPLAQPPLILQPLASPLQVGVPPMT LPIILNPALIEATSPVPLLATPRPTDPIPTSEGLDGIIEYDDFKLNSSIVEPKEPAPETA DGPYLVIVEQPKQGYYQALRSLLAWVVFPDHNATMPLDLQRGFRFRYGCEGPSHGGLPGA SSEKGRKTYPTVKICNYEGPAKIEVDLVTHSDPPRAHAHSLVGKQCSELGICAVSVGPKD MTAQFNNLGVLHVTKKNMMGTMIQKLQRQRLRSRPQGLTEAEQRELEQEAKELKKVMDLS IVRLRFSAFLRASDGSFSLPLKPVISQPIHDSKSPGASNLKISRMDKTAGSVRGGDEVYL LCDKVQKDDIEVRFYEDDENGWQAFGDFSPTDVHKQYAIVFRTPPYHKMKIERPVTVFLQ LKRKRGGDVSDSKQFTYYPLVEDKEEVQRKRRKALPTFSQPFGGGSHMGGGSGGAAGGYG GAGGGGSLGFFPSSLAYSPYQSGAGPMGCYPGGGGGAQMAATVPSRDSGEEAAEPSAPSR TPQCEPQAPEMLQRAREYNARLFGLAQRSARALLDYGVTADARALLAGQRHLLTAQDENG DTPLHLAIIHGQTSVIEQIVYVIHHAQDLGVVNLTNHLHQTPLHLAVITGQTSVVSFLLR VGADPALLDRHGDSAMHLALRAGAGAPELLRALLQSGAPAVPQLLHMPDFEGLYPVHLAV RARSPECLDLLVDSGAEVEATERQGGRTALHLATEMEELGLVTHLVTKLRANVNARTFAG NTPLHLAAGLGYPTLTRLLLKAGADIHAENEEPLCPLPSPPTSDSDSDSEGPEKDTRSSF RGHTPLDLTCSTKVKTLLLNAAQNTMEPPLTPPSPAGPLKEASLSLPSAPSITPHGPVCR LPWEKGSVQVSMSPPNSGGPGLSLGDTALQNLEQLLDGPEAQGSWAELAERLGLRSLVDT YRQTTSPSGSLLRSYELAGGDLAGLLEALSDMGLEEGVRLLRGPETRDKLPSTAEVKEDS AYGSQSVEQEAEKLGPPPEPPGGLCHGHPQPQVH >gi568815588r:102303203_102517038|GENSCAN_predicted_CDS_1|8025_bp nctaaagaggtcctcacagtcatgggccacatcgtatgtaattttgaaaacattacaaca tgcaaagacttcgaatgccaaacatcagttgaagactactatgttcatggtcctctactt cagggggtccccaaccccctggccacggacccgttaggaactgggccgcacagcaggaga ttcagctgtcttaaaggttctgtcagcacctttcgagcaaataaggtctggaaaactttg aagctgataaacgaagaactctcagaaattgagcccaatgtattccttcgaccttttctg gaagtgattcgctctgaagataccactggccctatcactggactggcactcacctctgtc aacaagttcctgtcctatgcactcatagatcccacccatgagggcacagcagagggcatg gagaacatggcagatgctgtcacccatgctcgttttgtgggcacggatcctgccagtgat gaagttgtcctgatgaaaatccttcaggttctacggactctgctgctaaccccagtgggt gcccacctaaccaatgaatctgtgtgtgagattatgcagtcttgcttccggatctgcttt gaaatgaggctcagtgagttattgagaaaatccgcagagcacactctcgtagacatggtg cagctgctcttcacaaggttacctcagtttaaagaagaacccaagaactatgtggggacc aacatgaagaagatatctccatgtctcctcaacaaactggagctaagtagtggggagcag accaaagccctgaaccagttagagagggaagggacccatgtggaaaagtcccagtcagca tctgtggagtccatccctgaagtgttagaggagtgcacgtcccctgccgaccactctgac tctgcctctgtccatgacatggattacgtcaatccccggggcgtgcgctttacacagtcc tcccagaaagaaggcacagctttggtcccctatggtcttccctgcatccgcgagctcttc cgcttcctcatctccctcaccaatccacacgaccgccataactcagaggttatgattcac atgggactgcatttgctgacagtggcccttgagtcagcccctgtagcccagtgccagacc ctcttgggcctcatcaaggatgagatgtgccgtcacttattccagctactcagcatagag cgactaaacctttatgctgcttccctgcgagtatgcttcctactgtttgagagcatgcga gagcacctcaagttccaaatggagatgtacatcaaaaagcttatggagatcatcactgtg gagaaccccaagatgccttatgagatgaaggagatggcactggaggccattgtgcagctc tggcgcatccccagctttgtcacagagctctacatcaactatgattgtgactactactgt tccaacctctttgaggaactcacaaagctgctgtccaagaatgccttccctgtgtctggt caactctatacaacacacctactatctcttgatgccctattgacagtgattgacagcacc gaggcccactgccaggctaaagtcctcaacagcctcacccagcaagagaagaaggagaca gccagaccaagctgtgagatagtagatggcacccgagaagctagcaatactgagagaact gccagcgatgggaaagctgtaggcatggcctcagacatcccaggcctgcatctgccaggt ggagggcggctgccaccagaacatgggaaatcaggatgcagtgatctggaggaagctgtt gactctggggctgacaaaaagtttgcccggaagccaccccgattttcctgtctcctgcca gatccacgggaactaattgaaattaaaaacaaaaagaagctgctaatcactggcacagag cagttcaatcagaaaccaaagaaggggattcagtttctgcaagagaaaggcctcctcacc atcccaatggacaacacagaggttgctcagtggctccgagagaaccctcggctggacaag aagatgattggagagtttgtgagtgaccgcaaaaacattgacctgttggagagctttgtg agcaccttcagttttcagggtctgcgactggacgaagccctccgcctctacctggaagcc ttccgtttgcctggggaagcaccagtcatccagaggttgctggaggcattcacagagcgt tggatgaattgtaatggctccccatttgccaatagcgatgcctgcttttccctggcctat gctgtcatcatgcttaatactgaccagcacaaccacaatgttcgtaaacagaatgcaccc atgaccctggaggagtttcgcaaaaatctgaaaggtgtgaatggaggcaaggactttgag caagacatcctggaggacatgtaccatgccatcaagaatgaggaaattgtaatgcctgag gagcagacaggcttggttcgggagaactatgtgtggaatgtgctgcttcatcgaggtgcc acccctgagggcatattcctgcgtgtgcctactgccagctatgatcttgacctcttcacc atgacctggggccccactattgctgctctctcttatgtctttgacaaaagccttgaggag acaatcatccagaaagccatctcaggcttcaggaagtgcgccatgatctccgcccactat ggcctcagcgatgtgtttgacaatctcatcatctctctatgcaaattcacagctctcagc agtgagtctattgagaacctgcccagtgtatttggaagcaaccctaaagcccatattgca gccaagacagtattccatttggcccatcgtcatggtgacatcctgcgggagggctggaag aatatcatggaggccatgctgcagctcttccgagcccaactactgcccaaggctatgata gaggtagaagatttcgtggatcccaatggcaagatctctctacagcgggaagagacacca tcaaaccgaggagagtcaacagtgctgagctttgtgagctggctaacactgagtggtcct gagcagtctagtgttcggggcccatccactgaaaaccaagaggccaagagagtggcctta gagtgtataaagcaatgtgacccagaaaaaatgatcacagaaagcaagttcctccagctg gagtcactacaggagctcatgaaggctctggtctcagtgacaccagatgaagagacatat gatgaggaagatgctgctttctgcctagagatgctgctaaggattgtgttggagaacagg gatcgtgtgggctgtgtgtggcagactgttcgagaccatctataccacctctgtgttcag gcacaagatttctgcttccttgtggagcgggcagtggtggggttgctacgcctggccatt cggcttctccggagagaagagatcagtgctcaggtgctgctctccctgcgcattttgcta ctgatgaagcccagtgtgctatcccgagtcagccaccaggttgcgtatgggctccatgaa ctcctgaagaccaatgcagccaacatccactcaggtgatgactgggccacactcttcaca ctgctggagtgcatcggctcaggtgtgaagcctccagctgctctgcaggccacagccagg gcagatgcacctgatgccggggcccagtcagatagtgagctcccatcctaccatcagaat gacgtgagcctggatcgagggtacacttccgactcagaggtctacactgaccatggcagg ccgggcaagatacaccgatcagccacagatgccgatgtggtcaacagtggttggttagtg gttgggaaggatgacgttgataactccaagccagggcccagccgcccaggcccttcaccc ctgatcaatcaatacagcctaacagtgggactggatttggggccacacgacactaagtct ctgcttaagtgtgtggaatcgctgtccttcattgtgcgtgatgctgcccacatcacacct gacaactttgagctctgcgtcaagactctccggatctttgtggaggccagtctgaatggc ggatgcaagtcccaggagaaacgtggcaagagtcacaaatatgacagcaaagggaaccgc ttcaagaagaaatccaaagagggatcaatgcttcgccggcctcgaacctccagccaacat gcctctcggggcgggcagagtgatgatgatgaggacgaaggcgtgcctgccagctaccat acggtgtctttacaggtcagtcaggacttgctagacctgatgcacaccctgcacacgcgg gcagcctctatctacagctcatgggcggaggagcaacgccacctggagacaggtggccag aagattgaagctgattctcgcaccctctgggcccactgctggtgccctttactgcagggt attgcctgcctgtgctgcgatgcccggcgccaggtacggatgcaggcactgacctatctg cagcgagcactacttgtacatgatctgcaaaagctagatgccctggaatgggagtcctgt tttaacaaggtcttcctgcagcacctgtctccactgctgtcactctctacctttgcggcc ctctggctcaccatcttggacttcatggacaagtacatgcacgcaggctccagcgactta ctgtcagaggcgatccctgagtctctgaagaacatgcttctggtgatggacacagcggag attttccacagtgcagatgcacggggaggcggcccctcggccctctgggagatcacctgg gaacgcattgactgttttctccctcacctacgagatgaactcttcaagcagaccgtcatc caggactttgagaagcccgagagcccccgagccgccagcagcagctccccaggatcacca gtggcctcaagccccagcaggctgagccccacccccgacgggcctccacccttggctcag cccccactgatcctgcagcccttggcctccccactgcaggtgggcgtgccacctatgact ctgcccatcatcctcaaccctgcgctcatcgaggccacctcaccagtgcccctcctggcc acaccccgccccacagatcccatacccacctctgagggtctggatggtattattgaatat gatgatttcaaattgaactcctccattgtggaacccaaggagccagccccagaaacagct gatggcccctacctggtgatcgtggaacagcctaagcagggctactaccaggcactgcgg tcactgctggcctgggtggtcttccctgatcacaatgctactatgcccttggaccttcag agaggcttccgatttcgatatggctgtgaaggcccctcccatggaggactgcccggtgcc tccagtgagaagggccgaaagacctatcccactgtcaagatctgtaactacgagggacca gccaagatcgaggtggacctggtaacacacagtgacccacctcgtgctcatgcccacagt ctggtgggcaagcaatgctcggagctggggatctgcgccgtttctgtggggcccaaggac atgactgcccaatttaacaacctgggtgtcctgcatgtgactaagaagaacatgatgggg actatgatacaaaaacttcagaggcagcggctccgctctaggccccagggccttacggag gccgagcagcgggagctggagcaagaggccaaagaactgaagaaggtgatggatctgagt atagtgcggctgcgcttctctgccttccttagagccagtgatggctccttctccctgccc ctgaagccagtcatctcccagcccatccatgacagcaaatctccgggggcatcaaacctg aagatttctcgaatggacaagacagcaggctctgtgcggggtggagatgaagtttatctg ctttgtgacaaggtgcagaaagatgacattgaggttcggttctatgaggatgatgagaat ggatggcaggcctttggggacttctctcccacagatgtgcataaacagtatgccattgtg ttccggacacccccctatcacaagatgaagattgagcggcctgtaacagtgtttctgcaa ctgaaacgcaagcgaggaggggacgtgtctgattccaaacagttcacctattaccctctg gtggaagacaaggaagaggtgcagcggaagcggaggaaggccttgcccaccttctcccag cccttcgggggtggctcccacatgggtggaggctctgggggtgcagccgggggctacgga ggagctggaggaggtggcagcctcggtttcttcccctcctccctggcctacagcccctac cagtccggcgcgggccccatgggctgctacccgggaggcgggggcggggcgcagatggcc gccacggtgcccagcagggactccggggaggaagccgcggagccaagcgccccctccagg accccccagtgcgagccgcaggccccggagatgctgcagcgagctcgagagtacaacgcg cgcctgttcggcctggcgcagcgcagcgcccgagccctactcgactacggcgtcaccgcg gacgcgcgcgcgctgctggcgggacagcgccacctgctgacggcgcaggacgagaacgga gacacaccactgcacctagccatcatccacgggcagaccagtgtcattgagcagatagtc tatgtcatccaccacgcccaggacctcggcgttgtcaacctcaccaaccacctgcaccag acgcccctgcacctggcggtgatcacggggcagacgagtgtggtgagctttctgctgcgg gtaggtgcagacccagctctgctggatcggcatggagactcagccatgcatctggcgctg cgggcaggcgctggtgctcctgagctgctgcgtgcactgcttcagagtggagctcctgct gtgccccagctgttgcatatgcctgactttgagggactgtatccagtacacctggcagtc cgagcccgaagccctgagtgcctggatctgctggtggacagtggggctgaagtggaggcc acagagcggcaggggggacgaacagccttgcatctagccacagagatggaggagctgggg ttggtcacccatctggtcaccaagctccgggccaacgtgaacgctcgcacctttgcggga aacacacccctgcacctggcagctggactggggtacccgaccctcacccgcctccttctg aaggctggtgctgacatccatgctgaaaacgaggagcccctgtgcccactgccttcaccc cctacctctgatagcgactcggactctgaagggcctgagaaggacacccgaagcagcttc cggggccacacgcctcttgacctcacttgcagcaccaaggtgaagaccttgctgctaaat gctgctcagaacaccatggagccacccctgaccccgcccagcccagcaggacctctgaag gaggcctccctttctctaccctcagccccgtccatcacccctcatggtcctgtctgtcgc ttaccttgggagaaaggcagtgttcaggtgtccatgtccccacccaactctggagggccg ggactgtcacttggtgatacagctctgcagaacctggagcagctgctagacgggccagaa gcccagggcagctgggcagagctggcagagcgtctggggctgcgcagcctggtagacacg taccgacagacaacctcacccagtggcagcctcctgcgcagctacgagctggctggcggg gacctggcaggtctactggaggccctgtctgacatgggcctagaggagggagtgaggctg ctgaggggtccagaaacccgagacaagctgcccagcacagcagaggtgaaggaagacagt gcgtacgggagccagtcagtggagcaggaggcagagaagctgggcccaccccctgagcca ccaggagggctctgccacgggcacccccagcctcaggtgcactga >gi568815588r:102303203_102517038|GENSCAN_predicted_peptide_2|1108_aa MAQGAMRFCSEGDCAISPPRCPRRWLPEGPVPQSPPASMYGSTGSLLRRVAGPGPRGREL GRVTAPCTPLRGPPSPRVAPSPWAPSSPTGQPPPGAQSSVVIFRFVEKASVRPLNGLPAP GGLSRSWDLGGVSPPRPTPALGPGSNRKLRLEASTSDPLPARGGSALPGSRNLVHGPPAP PQVGADGLYSSLPNGLGGPPERLATLFGGPADTGFLNQGDTWSSPREVSSHAQRIARAKW EFFYGSLDPPSSGAKPPEQAPPSPPGVGSRQGSGVAVGRAAKYSETDLDTVPLRCYRETD IDEVLAEREEADSAIESQPSSEGPPGTAYPPAPRPGPLPGPHPSLGSGNEDEDDDEAGGE EDVDDEVFEASEGARPGSRMPLKSPVPFLPGTSPSADGPDSFSCVFEAILESHRAKGTSY TSLASLEALASPGPTQSPFFTFELPPQPPAPRPDPPAPAPLAPLEPDSGTSSAADGPWTQ RGEEEEAEARAKLAPGREPPSPCHSEDSLGLGAAPLGSEPPLSQLVSDSDSELDSTERLA LGSTDTLSNGQKADLEAAQRLAKRLYRLDGFRKADVARHLGKNNDFSKLVAGEYLKFFVF TGMTLDQALRVFLKELALMGETQERERVLAHFSQRYFQCNPEALSSEDGAHTLTCALMLL NTDLHGHNIGKRMTCGDFIGNLEGLNDGGDFPRELLKPSRRADSAAAAAAHSVRPMIGVN SIHSSAGRLRSRSLCSVRYGRTHRGAETLCYGWPQRSRSLKPVLYTDLVVSRLQSRKKKK AALYSSIKNEKLQWAIDEEELRRSLSELADPNPKVIKRISGGSGSGSSPFLDLTPEPGAA VYKHGALVRKVHADPDCRKTPRGKRGWKSFHGILKGMILYLQKEEYKPGKALSETELKNA ISIHHALATRASDYSKRPHVFYLRTADWRVFLFQAPSLEQMQSWITRINVVAAMFSAPPF PAAVSSQKKFSRPLLPSAATRLSQEEQVRTHEAKLKAMASELREHRAAQLGKKGRGKEAE EQRQKEAYLEFEKSRYSTYAALLRVKLKAGSEELDAVEAALAQAGSTEDGLPPSHSSPSL QPKPSSQPRAQRHSSEPRPGAGSGRRKP >gi568815588r:102303203_102517038|GENSCAN_predicted_CDS_2|3327_bp atggcccagggtgccatgcgcttctgctcggaaggcgactgtgccatctccccaccacga tgcccacgccgctggctccccgaaggcccggtgccccagagccccccagccagcatgtat ggcagcacaggctccttgctacggcgagtggcaggtccaggtcctcgaggccgggaactg ggacgtgtgacagcaccctgtacacctctgcgtggccccccctcaccccgtgttgctccc tcaccctgggcaccctcttcacccactgggcagcccccacccggggcccagagctctgtg gtcatcttccgctttgtggagaaggccagtgtgaggccactgaatgggctacctgctcca gggggcttgagtcggagctgggatctgggtggggtttctcctcccaggcccaccccagcc cttgggcctggctccaaccggaagttacggctggaagcatccacatcagacccactcccc gccagaggaggctcggccctacctggcagccggaaccttgtacatgggccgccagcccca ccccaggttggagcagatggcctttactcctctctccccaatgggctggggggcccccct gagcgcctggccacactcttcggaggacctgctgacactggattcctgaaccagggggat acctggtcctccccccgggaagtctcctctcatgcccagagaatcgctagagccaaatgg gaattcttctatggctccttggacccccccagctcaggtgctaagcccccagagcaggcc cccccatctccacctggggtgggctcaaggcagggctctggggtggctgtggggcgagca gccaagtactccgagacagacctggacacggtgcccctgaggtgctaccgcgagactgac atcgatgaggtgctggctgagcgggaggaggccgactcggccatcgaaagtcagcccagc tctgagggcccaccaggcactgcctacccacctgccccacggcccggcccactccctggc cctcatcccagcctcggcagtggcaatgaggatgaggacgacgatgaggcaggtggggaa gaagatgtggacgacgaggtgtttgaggcctctgaaggggcccggccagggagccggatg cctctcaagtcacctgtgccctttctacctgggacgagcccctcggctgatgggcctgac tctttcagttgtgtgttcgaagccatcctggagtcacaccgggccaaaggcacctcctat accagcctcgcctcgctggaggccttggcctcacctggcccaacccagagccccttcttc acctttgagctgcctccccaaccccctgcaccccggcccgacccaccagctcccgcccca cttgcccctcttgaaccggattctggtaccagctctgctgctgatggtccttggacacag agaggggaggaggaggaggcagaggccagagccaagctggccccagggagggagccccct agtccctgccactcagaggacagccttgggctgggggcagcaccccttggcagcgaacca cccctgagccagctggtgtccgactcagactcagagctggacagcacagagcggctggcc ctgggaagcacagacaccttgtccaatgggcagaaagcggacctggaggctgcgcagcgc ctggccaagaggctgtaccgactagatggcttcaggaaggccgatgtggcccggcacctg ggcaagaacaatgacttcagcaaactggtggctggggagtacctcaagttctttgtcttc acgggcatgactctggaccaagctctcagggtgtttctgaaggagctggccttaatgggt gagacccaggaacgagagcgcgtgctggcccacttctcccagcgatacttccagtgcaat cctgaagccctgtcctcagaggacggcgcccacacgctgacctgtgcgctcatgctgctc aacacggatctccacggccataacatcgggaagcgcatgacctgcggggacttcatcggg aacctggagggcctcaatgatggcggcgacttccctagggagctgctcaagccaagccgc agagcagacagcgccgccgccgccgccgcgcactccgtgcgtcccatgatcggcgtcaac agcatccacagcagcgccgggcggctgcgctcgcgctcgctgtgctccgtgcgctacggg cgcacccaccgcggcgcggagaccctgtgctacggctggccgcagcgctcgcgcagcctc aagcccgtgctctacaccgacctggtggtcagccgcctgcagagccgcaagaagaaaaag gcggccttgtacagctccatcaagaatgagaagctgcagtgggccatagacgaggaggag ctgagacgctctctgtctgagttggccgaccccaaccccaaggtcatcaagcggatcagc gggggcagtggcagtggctccagccctttcctggacctgactcccgagcctggggctgcc gtctacaagcacggggccctggtgcgaaaggtgcacgcagaccctgactgcaggaagaca cctcggggcaagcggggctggaagagcttccacgggatcctcaagggcatgatcctctac ctgcagaaggaggagtacaagcctgggaaggccctttcagagacggagctcaagaatgcc atcagcatccaccatgccctggccactcgtgccagtgactacagcaagaggccccacgtc ttctacctgcgcacagctgactggcgggtcttcctcttccaggccccgagcctggagcag atgcagtcctggatcactcgcatcaatgtagtagccgctatgttctctgcgccccccttc ccagctgctgttagctcccaaaagaagttcagccgccctctcctgcccagcgctgccacc cgcctctcccaggaggagcaggtgcggacccacgaggccaagctgaaggccatggcaagt gagctgcgggagcaccgggccgcccagctgggcaagaagggccggggcaaggaggctgaa gagcagcggcagaaggaggcctacctggagtttgagaaatcccgctacagcacctatgca gcgctgcttcgggtcaagctgaaggcaggcagtgaggagctggatgcagtggaggcagca ctggcccaggccgggagcacagaggatggactccctccttctcactccagtccctccctg cagcccaaaccctccagccagccccgggctcagcgtcacagctcagagcctcggccaggg gcaggcagtgggcggcggaagccctga >gi568815588r:102303203_102517038|GENSCAN_predicted_peptide_3|387_aa MRSGFRCDEPAEAVAPERQTVSGAVALASFTSPHTHPVDDGGRHYSWGSPKRILGLGPGD AAKEAGLVRPLQGQSEKILLRTRNRQPMEPPMEPSGGEQEPGAVRFLDLPWEDVLLPHVL NRVPLRQLLRLQRVSRAFRSLVQLHLAGLRRFDAAQVGPQIPRAALARLLRDAEGLQELA LAPCHEWLSDEDLVPVLARNPQLRSVALGGCGQLSRRALGALAEGCPRLQRLSLAHCDWV DGLALRGLADRCPALEELDLTACRQLKDEAIVYLAQRRGAGLRSLSLAVNANVGDAAVQE LARNCPELHHLDLTGCLRVGSDGVRTLAEYCPVLRSLRVRHCHHVAESSLSRLRKRGVDI DVEPPLHQALVLLQDMAGFAPFVNLQV >gi568815588r:102303203_102517038|GENSCAN_predicted_CDS_3|1164_bp atgagaagtggttttcgttgtgatgagccagctgaagcggttgcaccggagcgccagacc gtcagcggtgcagtggctctcgcgtccttcacatccccccacacccatcccgtggatgat gggggaaggcactactcctggggttccccgaagcggatcctgggactgggacctggggac gcggccaaggaggcgggtttggtgcggccactccaaggccaaagcgagaaaatcttactg cgcacgcgcaatagacagccgatggagccaccgatggagccgtccggaggggagcaagag cccggagccgtcaggttcctggacctgccctgggaagacgtgctgctcccacacgtcctg aaccgggtcccgctgcgccagctgctccggctgcagcgcgttagccgggccttccggtcg ctggtgcagcttcacctggccgggctgcgtcgcttcgatgccgcgcaggtgggtccgcag atcccgcgggccgcattggcccggctgctgcgggatgccgaggggctgcaggagctggca ctggcgccgtgtcacgaatggctgtcagacgaggacctggtgccggtgctggcgcggaat ccgcagctgcggagtgtggcgttgggcggctgcgggcaactgagtcgccgggcgcttggg gctttggccgagggctgcccacgcctgcagcgcctgtcgctcgcgcactgtgactgggtg gacgggctggcgctgcgcggcctcgctgatcgctgcccggccctggaggagctggatctc accgcctgccgccagctcaaggacgaggccatcgtgtacctggcgcagaggcgcggcgct ggtctccgcagcctctctctggccgtcaacgccaacgtgggggacgccgcggttcaagag ttggctcggaactgcccagaactccaccaccttgacctcaccggctgcctccgcgtcgga agcgacggtgtcaggacattggccgagtactgccccgtgctgcgttcgctgcgggtgcgg cactgccaccatgtggcggagtccagcctgagccgcttgcggaagcgcggcgtggacatc gacgtggagccgccgctgcaccaggccctggtgctgctgcaggatatggcgggcttcgca ccttttgtcaacctgcaggtctga >gi568815588r:102303203_102517038|GENSCAN_predicted_peptide_4|470_aa MGLCPGRGYHATDSPGFEGDVTQGRGKLGFNCLLSAHFMRDAEYTLVNVSPVFSPCFMRQ LEETLNIVQIIIMAVKDVCLEGDVRRSVVYDECEVRGTGGASEPSEWDDELAFGPMGLEP FITTHMLLTPKQTFGSQKHVDGNGACQQDTDRRKLSKSEGQKVGRESMELERIVSAALLA FVQTHLPEADLSGLDEVIFSYVLGVLEDLGPSGPSEENFDMEAFTEMMEAYVPGFAHIPR GTIGDMMQKLSGQLSDARNKENLQPQSSGVQGQVPISPEPLQRPEMLKEETRSSAAAAAD TQDEATGAEEELLPGVDVLLEVFPTCSVEQAQWVLAKARGDLEEAVQMLVEGKEEGPAAW EGPNQDLPRRLRGPQKDELKSFILQKGSSQGDRSFTQPVFDRYMMVDSAEDQKIHRPMAP KEAPKKLIRYIDNQVVSTKGERFKDVRNPEAEEMKATYINLKPARKYRFH >gi568815588r:102303203_102517038|GENSCAN_predicted_CDS_4|1413_bp atgggcctttgtcccggcagaggctaccatgcaactgacagcccaggattcgagggtgat gtaacccagggtcgaggtaaattggggttcaactgtttattgagtgcccacttcatgaga gatgctgagtatacactggtgaatgtcagcccggtgtttagtccctgcttcatgagacaa ctggaagaaacattaaacattgtccaaataataattatggctgtgaaagatgtgtgtttg gagggggatgtgcgcagatcagtagtctatgatgagtgtgaggtgcgtggaactggtggt gcctcggagccttctgagtgggatgatgagctggcatttggacctatgggtctggagcca ttcattaccacccatatgctcctgactcccaaacagacttttgggagtcaaaagcatgta gatgggaatggagcatgtcaacaggacacagacaggaggaagctcagcaagtctgaggga cagaaggtgggaagagagagcatggagctggagaggatcgtcagtgcagccctccttgcc tttgtccagacacacctcccggaggccgacctcagtggcttggatgaggtcatcttctcc tatgtgcttggggtcctggaggacctgggcccctcgggcccatcagaggagaacttcgat atggaggctttcactgagatgatggaggcctatgtgcctggcttcgcccacatccccagg ggcacaataggggacatgatgcagaagctctcagggcagctgagcgatgccaggaacaaa gagaacctgcaaccgcagagctctggtgtccaaggtcaggtgcccatctccccagagccc ctgcagcggcccgaaatgctcaaagaagagactaggtcttcggctgctgctgctgcagac acccaagatgaggcaactggcgctgaggaggagcttctgccaggggtggatgtactcctg gaggtgttccctacctgttcggtggagcaggcccagtgggtgctggccaaagctcggggg gacttggaagaagctgtgcagatgctggtagagggaaaggaagaggggcctgcagcctgg gagggccccaaccaggacctgcccagacgcctcagaggcccccaaaaggatgagctgaag tccttcatcctgcagaaagggtcttcccagggtgacaggagcttcacccagccagttttt gacaggtacatgatggtggatagcgcagaggatcagaagattcaccggcccatggctccc aaggaggcccccaagaagctgatccgatacatcgacaaccaggtagtgagcaccaaaggg gagcgattcaaagatgtgcggaaccctgaggccgaggagatgaaggccacatacatcaac ctcaagccagccagaaagtaccgcttccattga >gi568815588r:102303203_102517038|GENSCAN_predicted_peptide_5|213_aa MYVYSWPPPKQGVWPPPPQLLTCTYLAAPLLLPPVQAHSFRSRPGSLHAGEWAAPREYHR FYGPAAPPEAAPPWWACPPAYATTLRRPCAAAGISGLSLQAPAAVAESWAPWPEGGSLQT ELRWGRVERARGPPLQLPDFVRRELRRAYGTYPRADVRVTQRRGQFLLQATPRVLEPDHR VEWRVRRRPDSGDSSPAREAAERGRPRKSKGLS >gi568815588r:102303203_102517038|GENSCAN_predicted_CDS_5|642_bp atgtatgtgtacagctggccgccgcccaaacagggcgtctggccgccgccgccgcagctg ctcacctgcacctacctggccgcccctctgctgctacccccagtccaggcccacagcttc cgcagccggcccgggagcctgcatgcgggcgagtgggcggccccacgggaataccaccgc ttctacggccccgccgcgccacccgaggccgcgccgccctggtgggcctgccctccggcc tacgccacgaccctgcgccggccctgcgccgccgccggcatctcgggactgtcgctgcag gcgcccgcggcggtggccgagagctgggcgccgtggccggagggcgggagcctgcaaacc gagctgcgctggggccgcgtggagcgcgcgcggggcccccctctgcagctaccggacttc gtgcgccgggagctgcggcgcgcgtacggcacctacccccgcgccgacgtgcgcgtcacc cagcgccgcggccagttcctgctgcaggcgacgccgcgcgtgctcgagcccgaccaccgc gtggagtggcgcgtgcggcgccggcccgacagcggcgacagcagcccagcccgggaagcc gcggagcgcggccgccccaggaagagcaagggcctgagctga >gi568815588r:102303203_102517038|GENSCAN_predicted_peptide_6|592_aa MAAAASGAVTCRSCARGPRGANRWAGAEGEAGEALEVRAGALARTWLPPAVGLGFAGYDC GSLFPRVTPRLVVSSSALFLLYFIHNSQRCSVVYGSLALFTTILHNVFLLYYVDTFVSVY KINKMAFWVGETVFLLWNSLNDPLFGWLSDRQFLSSQPRSGAGLSSRAVVLARVQALGWH GPLLALSFLAFWVPWAPAGLQFLLCLCLYDGFLTLVDLHHHALLADLALSAHDRTHLNFY CSLFSAAGSLSVFASYAFWNKEDFSSFRAFCVTLAVSSGLGFLGATQLLRRRVEAARKDP GCSGLVVDSGLCGEELLVGSEEADSITLGRYLRQLARHRNFLWFVSMDLVQVFHCHFNSN FFPLFLEHLLSDHISLSTGSILLGLSYVAPHLNNLYFLSLCRRWGVYAVVRGLFLLKLGL SLLMLLAGPDHLSLLCLFIASNRVFTEGTCKLLTLVVTDLVDEDLVLNHRKQAASALLFG MVALVTKPGQTFAPLLGTWLLCFYTGHDLFQQSLITPVGSAHPWPEPPAPAPAQAPTLRQ GCFYLLVLVPITCALLQLFTWSQFTLHGRRLHMVKAQRQNLSQAQTLDVKMV >gi568815588r:102303203_102517038|GENSCAN_predicted_CDS_6|1779_bp atggcggcggcagcctcaggcgcagtcacctgccggagctgcgcccgggggccgcgcgga gccaatcgctgggcgggggcggagggagaggctggggaagccctagaagtgcgcgcaggc gcattggctcgcacctggctcccgccagccgtgggattaggcttcgccggctacgattgc ggctctctgtttcctcgagtcactcccagattagtggtgtctagctcagcactgtttctg ttatacttcattcataattcccagcgctgttctgtggtctatggctccctggctctcttc accaccatcctgcacaatgtcttcctgctctactatgtggacacctttgtctcagtgtac aagatcaacaaaatggccttctgggtcggagagacagtgtttctcctctggaacagcctc aatgaccccctcttcggttggctcagtgaccggcagttcctcagctcccagccccggtca ggcgccgggctctcctcaagggctgtggtgctggcccgggtgcaggccctgggctggcat gggccgctgctggcgctgtcgttcctggcgttctgggtgccctgggccccagctggcctg cagttcttgctgtgcctgtgcctctatgatggcttcctgacgctcgtggacctgcaccac catgccttgctggccgacctggccctctcagcccacgaccgcacccacctcaacttctac tgctccctcttcagcgcggccggctccctctctgtctttgcatcctatgccttttggaac aaggaggatttctcctccttccgcgctttctgcgtgacactggctgtcagctctgggctg ggctttctgggggccacacagctgctgaggcggcgggttgaggcggcccgaaaggaccca gggtgctcaggcctggttgtggatagcggcctgtgtggagaggagctgcttgtaggcagt gaggaggcggacagcatcaccttgggccggtatctccggcagctggcacgccatcggaac ttcctgtggttcgtgagcatggacctggtgcaggtcttccactgccacttcaacagcaac ttcttccctctcttcctggagcatctgttgtccgaccatatctccctttccacgggctcc atcctgttgggcctctcctatgtcgctccccatctcaacaacctctacttcctgtccctg tgccggcgctggggcgtctacgcggtggtgcgggggctcttcctgctcaagctgggactt agcctgctcatgttgttggccggcccggaccacctcagcctgctgtgcctcttcattgcc agcaaccgcgtcttcactgagggcacctgtaagctgctgaccttggtggtcactgacctg gtagacgaggacctggtgctgaaccaccgcaagcaggcagcctcggcactcctctttggc atggttgccttggtgaccaagccaggccagacctttgccccgctgctgggcacctggctg ctctgtttctacacaggtcatgacctcttccagcagtccctcataacccctgtggggagt gcccatccctggccagagcccccagctccagcccctgcacaggccccgacgctccgccag ggctgcttctacctgctggtgctggtgcccatcacctgtgctctgctgcagctcttcacc tggtcccagttcacgctgcatgggagacgcctgcacatggtcaaggcccagcgccagaac ctgtcacaggcccaaaccctggatgttaagatggtgtga >gi568815588r:102303203_102517038|GENSCAN_predicted_peptide_7|489_aa MESYDVIANQPVVIDNPALRLGGVDLGGARESGARNRCRMSAITVIINYKVGKGREERRV TKEAERLSSSLERLVLTGKKLPNLIFAWRSSASRAFSHTFELDPHKNWTHSLKGTLIFVL PMRKLKREDGSGVIKAGFAGDQIPKYCFPNYVGRPKHVRVMAGALEGDIFIGPKAEEHRG LLSIRYPMEHGIVKDWNDMERIWQYVYSKDQLQTFSEEHPVLLTEAPLNPRKNRERAAEV FFETFNVPALFISMQAVLSLYATGRTTGVVLDSGDGVTHAVPIYEGFAMPHSIMRIDIAG RDVSRFLRLYLRKEGYDFHSSSEFEIVKAIKERACYLSINPQKDETLETEKAQYYLPDGS TIEIGPSRFRAPELLFRPDLIGEESEGIHEVLVFAIQKSDMDLRRTLFSNIVLSGGSTLF KGFGDRLLSEVKKLAPKDVKIRISAPQERLYSTWIGGSILASLDTFKKMWVSKKEYEEDG ARSIHRKTF >gi568815588r:102303203_102517038|GENSCAN_predicted_CDS_7|1470_bp atggagtcctacgatgtgatcgccaaccagcctgtcgtgatcgacaacccggcgctgcgg cttggtggtgtggatctgggtggggcccgagaatctggtgccagaaaccgctgtaggatg tcagctattactgtgattataaattacaaagttggtaaaggtcgagaagaaaggagagtg acaaaggaagcagagaggttgtcctcctctttggaacgcctagttcttacggggaaaaaa ttaccaaacttaatatttgcctggcgctctagcgcttccagggcgttttcacatacattc gagttggatcctcacaaaaactggacgcatagtttaaaaggaactttgatcttcgtgtta ccgatgagaaaactgaagcgcgaagacggatccggtgtgattaaagctggttttgctggt gatcagatccccaaatactgctttccaaactatgtgggccgacccaagcacgttcgtgtc atggcaggagcccttgaaggcgacatcttcattggccccaaagctgaggagcaccgaggg ctgctttcaatccgctatcccatggagcatggcatcgtcaaggattggaacgacatggaa cgcatttggcaatatgtctattctaaggaccagctgcagactttctcagaggagcatcct gtgctcctgactgaggcgcctttaaacccacgaaaaaaccgggaacgagctgccgaagtt ttcttcgagaccttcaatgtgcccgctcttttcatctccatgcaagctgtactcagcctt tacgctacaggcaggaccacaggggtggtgctggattctggggatggagtcacccatgct gtgcccatctatgagggctttgccatgccccactccatcatgcgcatcgacatcgcgggc cgggacgtctctcgcttcctgcgcctctacctgcgtaaggagggctacgacttccactca tcctctgagtttgagattgtcaaggccataaaagaaagagcctgttacctatccataaac ccccaaaaggatgagacgctagagacagagaaagctcagtactacctgcctgatggcagc accattgagattggtccttcccgattccgggcccctgagttgctcttcaggccagatttg attggagaggagagtgaaggcatccacgaggtcctggtgttcgccattcagaagtcagac atggacctgcggcgcacgcttttctctaacattgtcctctcaggaggctctaccctgttc aaaggttttggtgacaggctcctgagtgaagtgaagaaactagctccaaaagatgtgaag atcaggatatctgcacctcaggagagactgtattccacgtggattgggggctccatcctt gcctccctggacacctttaagaagatgtgggtctccaaaaaggaatatgaggaagacggt gcccgatccatccacagaaaaaccttctaa >gi568815588r:102303203_102517038|GENSCAN_predicted_peptide_8|106_aa MAELRPSGAPGPTAPPAPGPTAPPAFASLFPPGLHAIYGECRRLYPDQPNPLQVTAIVKY WLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHE >gi568815588r:102303203_102517038|GENSCAN_predicted_CDS_8|321_bp atggcggagctgcggcctagcggcgcccccggccccaccgcgcccccggcccctggcccg actgcccccccggccttcgcttcgctctttcccccgggactgcacgccatctacggagag tgccgccgcctttaccctgaccagccgaacccgctccaggttaccgctatcgtcaagtac tggttgggtggcccagaccccttggactatgttagcatgtacaggaatgtggggagccct tctgctaacatccccgagcactggcactacatcagcttcggcctgagtgatctctatggt gacaacagagtccatgagtga