GENSCAN 1.0 Date run: 5-Nov-116 Time: 10:42:38 Sequence gi568815591f:128842082_129048815 : 206734 bp : 47.89% 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 + 150 293 144 2 0 65 73 356 0.995 32.28 1.02 Intr + 494 617 124 1 1 96 91 234 0.999 24.66 1.03 Intr + 713 873 161 0 2 99 82 411 0.999 41.31 1.04 Intr + 1148 1238 91 1 1 80 109 132 0.999 14.07 1.05 Intr + 1327 1496 170 2 2 81 85 292 0.999 27.87 1.06 Intr + 1715 1832 118 1 1 76 92 129 0.794 12.14 1.07 Intr + 1923 2185 263 1 2 68 100 287 0.820 25.11 1.08 Intr + 2577 3174 598 2 1 92 113 849 0.969 79.91 1.09 Intr + 3909 4082 174 1 0 84 72 345 0.999 32.41 1.10 Intr + 4220 4382 163 0 1 82 68 246 0.999 21.03 1.11 Intr + 4604 4824 221 2 2 108 69 297 0.980 27.75 1.12 Intr + 5616 5783 168 1 0 92 80 96 0.994 9.12 1.13 Intr + 5864 5987 124 0 1 78 94 237 0.988 22.94 1.14 Intr + 6480 6636 157 0 1 65 97 216 0.986 20.21 1.15 Intr + 6712 6901 190 0 1 109 94 421 0.999 43.96 1.16 Intr + 7100 7123 24 0 0 104 92 13 0.659 1.30 1.17 Intr + 7250 7497 248 0 2 59 119 453 0.992 42.68 1.18 Intr + 7895 7993 99 1 0 103 19 91 0.937 4.01 1.19 Intr + 8303 8402 100 1 1 124 84 138 0.965 16.68 1.20 Intr + 8722 8862 141 2 0 76 105 301 0.995 30.92 1.21 Intr + 9151 9279 129 2 0 121 100 208 0.990 25.97 1.22 Intr + 9374 9547 174 0 0 81 94 286 0.998 28.41 1.23 Intr + 10510 10671 162 2 0 77 85 315 0.992 30.05 1.24 Intr + 10747 10950 204 2 0 89 82 355 0.999 34.17 1.25 Intr + 11388 11540 153 1 0 86 95 308 0.884 31.34 1.26 Intr + 11634 11756 123 1 0 119 75 258 0.999 28.16 1.27 Intr + 11893 12135 243 2 0 91 84 367 0.988 34.07 1.28 Intr + 12332 12601 270 0 0 79 110 380 0.998 36.81 1.29 Intr + 12694 12831 138 2 0 92 80 180 0.999 18.04 1.30 Intr + 13118 13233 116 0 2 122 72 163 0.999 18.27 1.31 Intr + 14437 14569 133 0 1 99 77 189 0.996 19.12 1.32 Intr + 14664 14840 177 1 0 63 117 237 0.999 23.99 1.33 Intr + 15037 15255 219 2 0 113 105 408 0.991 43.27 1.34 Intr + 15927 16166 240 1 0 88 29 214 0.997 13.02 1.35 Intr + 16255 16433 179 2 2 108 27 301 0.124 25.64 1.36 Intr + 20800 21063 264 0 0 44 60 296 0.102 20.11 1.37 Intr + 21274 21290 17 0 2 107 77 30 0.667 -1.86 1.38 Term + 23296 23497 202 1 1 119 50 419 0.930 38.06 1.39 PlyA + 23738 23743 6 -1.75 2.00 Prom + 23857 23896 40 -13.87 2.01 Init + 24329 24749 421 1 1 91 80 594 0.981 55.45 2.02 Term + 26585 26694 110 0 2 55 47 172 0.941 8.47 2.03 PlyA + 26731 26736 6 -3.24 3.53 PlyA - 26879 26874 6 -1.95 3.52 Term - 26997 26931 67 2 1 92 39 76 0.907 0.51 3.51 Intr - 27173 27082 92 2 2 40 94 97 0.789 4.29 3.50 Intr - 27700 27542 159 1 0 -32 65 198 0.211 5.68 3.49 Intr - 28139 27765 375 2 0 -34 64 288 0.198 9.41 3.48 Intr - 28651 28406 246 1 0 105 57 38 0.137 0.06 3.47 Intr - 32367 32215 153 0 0 110 117 86 0.803 13.97 3.46 Intr - 32529 32443 87 0 0 117 110 83 0.997 13.57 3.45 Intr - 35230 35121 110 2 2 103 38 124 0.138 8.90 3.44 Intr - 35709 35403 307 0 1 75 65 142 0.806 6.62 3.43 Intr - 36641 36477 165 2 0 70 109 135 0.264 13.96 3.42 Intr - 37542 37441 102 0 0 137 80 136 0.296 18.07 3.41 Intr - 37748 37637 112 1 1 93 101 233 0.919 25.48 3.40 Intr - 38004 37832 173 0 2 -5 69 211 0.996 8.64 3.39 Intr - 38447 38305 143 0 2 93 86 146 0.954 14.97 3.38 Intr - 38640 38538 103 0 1 44 91 41 0.774 -0.25 3.37 Intr - 39004 38916 89 2 2 104 58 110 0.849 9.29 3.36 Intr - 39617 39545 73 2 1 63 98 4 0.644 -2.12 3.35 Intr - 39935 39856 80 0 2 95 99 68 0.946 7.87 3.34 Intr - 42041 41921 121 2 1 71 117 4 0.462 1.67 3.33 Intr - 42782 42700 83 0 2 45 92 92 0.607 4.66 3.32 Intr - 43189 43016 174 2 0 82 44 95 0.943 4.41 3.31 Intr - 44301 44188 114 1 0 111 53 40 0.663 3.22 3.30 Intr - 44476 44383 94 1 1 67 64 38 0.769 -1.16 3.29 Intr - 45219 45134 86 1 2 81 94 82 0.986 7.64 3.28 Intr - 46958 46782 177 0 0 87 42 122 0.359 7.39 3.27 Intr - 48432 48262 171 1 0 92 77 93 0.877 8.51 3.26 Intr - 49015 48824 192 2 0 95 49 107 0.973 6.96 3.25 Intr - 49197 49104 94 0 1 77 91 73 0.998 6.04 3.24 Intr - 49452 49370 83 1 2 102 105 26 0.984 5.06 3.23 Intr - 49738 49565 174 2 0 56 77 138 0.948 9.41 3.22 Intr - 50192 50139 54 0 0 96 97 -5 0.493 0.15 3.21 Intr - 50526 50433 94 0 1 131 91 -12 0.995 2.94 3.20 Intr - 50713 50607 107 2 2 70 93 128 0.996 11.43 3.19 Intr - 50940 50788 153 1 0 28 105 79 0.913 3.64 3.18 Intr - 51238 51157 82 1 1 98 89 50 0.994 5.31 3.17 Intr - 51429 51310 120 0 0 105 96 57 0.681 8.89 3.16 Intr - 51974 51895 80 0 2 74 68 72 0.778 3.07 3.15 Intr - 52212 52119 94 0 1 94 101 35 0.667 4.94 3.14 Intr - 57876 57843 34 2 1 77 86 -4 0.167 -3.47 3.13 Intr - 60778 60696 83 1 2 72 105 60 0.564 4.54 3.12 Intr - 62057 61975 83 0 2 80 105 92 0.989 9.46 3.11 Intr - 64282 64198 85 1 1 80 76 -2 0.369 -2.81 3.10 Intr - 65096 65020 77 0 2 71 107 153 0.998 14.73 3.09 Intr - 65372 65183 190 2 1 102 98 4 0.557 1.96 3.08 Intr - 66487 66345 143 2 2 119 81 41 0.991 6.57 3.07 Intr - 68646 68520 127 0 1 84 113 101 0.280 12.45 3.06 Intr - 70765 70626 140 2 2 108 18 203 0.444 15.48 3.05 Intr - 71093 70854 240 0 0 88 29 213 0.983 12.92 3.04 Intr - 71982 71765 218 2 2 113 105 390 0.964 41.35 3.03 Intr - 74456 74350 107 2 2 59 131 36 0.197 4.01 3.02 Intr - 78985 78929 57 1 0 77 83 39 0.575 1.38 3.01 Init - 80989 80849 141 1 0 89 86 129 0.889 12.97 3.00 Prom - 83962 83923 40 -6.26 4.05 PlyA - 83986 83981 6 1.05 4.04 Term - 84510 84343 168 0 0 51 49 109 0.967 1.18 4.03 Intr - 86347 86077 271 0 1 66 115 72 0.819 5.24 4.02 Intr - 87937 87829 109 2 1 121 94 2 0.788 3.44 4.01 Init - 90598 90556 43 1 1 88 53 55 0.303 0.66 4.00 Prom - 93942 93903 40 -10.64 5.00 Prom + 94079 94118 40 -4.96 5.01 Init + 96341 96545 205 1 1 81 80 68 0.692 4.03 5.02 Intr + 99990 100195 206 1 2 117 121 148 0.974 19.92 5.03 Intr + 103764 103953 190 2 1 80 69 370 0.999 33.46 5.04 Intr + 104420 104481 62 0 2 108 105 63 0.927 8.45 5.05 Intr + 105256 105454 199 0 1 73 71 160 0.364 11.72 5.06 Intr + 105648 106040 393 1 0 80 77 567 0.901 49.43 5.07 Intr + 106129 106247 119 2 2 45 88 137 0.903 9.58 5.08 Term + 106492 106737 246 0 0 133 42 161 0.639 11.79 5.09 PlyA + 107933 107938 6 1.05 6.26 PlyA - 108331 108326 6 1.05 6.25 Term - 115793 115781 13 1 1 144 53 2 0.480 -0.03 6.24 Intr - 125311 125199 113 1 2 110 95 68 0.908 8.88 6.23 Intr - 128234 128067 168 2 0 54 111 165 0.998 15.54 6.22 Intr - 130501 130345 157 0 1 74 95 139 0.948 13.21 6.21 Intr - 132881 132787 95 2 2 60 99 56 0.661 2.66 6.20 Intr - 133854 133738 117 0 0 68 70 101 0.988 6.96 6.19 Intr - 137042 136902 141 2 0 52 103 115 0.992 9.95 6.18 Intr - 137950 137890 61 0 1 89 100 35 0.801 3.54 6.17 Intr - 140243 140167 77 2 2 99 82 -4 0.793 -1.59 6.16 Intr - 142178 142087 92 0 2 118 115 4 0.993 5.81 6.15 Intr - 144839 144648 192 0 0 96 73 77 0.927 6.46 6.14 Intr - 148019 147880 140 1 2 64 76 190 0.902 15.51 6.13 Intr - 150009 149918 92 0 2 92 75 50 0.988 2.89 6.12 Intr - 151833 151726 108 0 0 19 115 72 0.907 3.48 6.11 Intr - 155454 155308 147 0 0 97 103 99 0.999 12.73 6.10 Intr - 158486 158348 139 1 1 115 57 33 0.998 3.37 6.09 Intr - 159153 158978 176 0 2 69 89 123 0.943 9.24 6.08 Intr - 163078 162935 144 1 0 78 111 -2 0.729 1.58 6.07 Intr - 173054 172898 157 1 1 131 97 113 0.988 16.51 6.06 Intr - 174975 174902 74 0 2 78 106 28 0.984 1.80 6.05 Intr - 176076 175876 201 0 0 65 99 74 0.263 5.68 6.04 Intr - 178938 178821 118 2 1 69 18 12 0.006 -7.23 6.03 Intr - 186683 186548 136 0 1 92 67 85 0.031 6.43 6.02 Intr - 187515 187382 134 2 2 42 20 111 0.014 -0.01 6.01 Init - 200943 200930 14 0 2 74 101 19 0.385 1.48 6.00 Prom - 205487 205448 40 -3.16 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 16255 16442 188 2 2 108 41 309 0.815 25.85 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815591f:128842082_129048815|GENSCAN_predicted_peptide_1|2206_aa DADGCPIDIKVIPNGDGTFRCSYVPTKPIKHTIIISWGGVNVPKSPFRVNVGEGSHPERV KVYGPGVEKTGLKANEPTYFTVDCSEAGQGDVSIGIKCAPGVVGPAEADIDFDIIKNDND TFTVKYTPPGAGRYTIMVLFANQEIPASPFHIKVDPSHDASKVKAEGPGLNRTGVEVGKP THFTVLTKGAGKAKLDVQFAGTAKGEVVRDFEIIDNHDYSYTVKYTAVQQGNMAVTVTYG GDPVPKSPFVVNVAPPLDLSKIKVQGLNSKVAVGQEQAFSVNTRGAGGQGQLDVRMTSPS RRPIPCKLEPGGGAEAQAVRYMPPEEGPYKVDITYDGHPVPGSPFAVEGVLPPDPSKVCA YGPGLKGGLVGTPAPFSIDTKGAGTGGLGLTVEGPCEAKIECQDNGDGSCAVSYLPTEPG EYTINILFAEAHIPGSPFKATIRPVFDPSKVRASGPGLERGKVGEAATFTVDCSEAGEAE LTIEILSDAGVKAEVLIHNNADGTYHITYSPAFPGTYTITIKYGGHPVPKFPTRVHVQPA VDTSGVKVSGPGVEPHGVLREVTTEFTVDARSLTATGGNHVTARVLNPSGAKTDTYVTDN GDGTYRVQYTAYEEGVHLVEVLYDEVAVPKSPFRVGVTEGCDPTRVRAFGPGLEGGLVNK ANRFTVETSYSLILTHWSYEADGGMLSLRGAGTGGLGLAIEGPSEAKMSCKDNKDGSCTV EYIPFTPGDYDVNITFGGRPIPGSPFRVPVKDVVDPGKVKCSGPGLGAGVRARVPQTFTV DCSQAGRAPLQVAVLGPTGVAEPVEVRDNGDGTHTVHYTPATDGPYTVAVKYADQEVPRS PFKIKVLPAHDASKVRASGPGLNASGIPASLPVEFTIDARDAGEGLLTVQILDPEGKPKK ANIRDNGDGTYTVSYLPDMSGRYTITIKYGGDEIPYSPFRIHALPTGDASKCLVTVSIGG HGLGACLGPRIQIGQETVITVDAKAAGEGKVTCTVSTPDGAELDVDVVENHDGTFDIYYT APEPGKYVITIRFGGEHIPNSPFHVLACDPLPHEEEPSEVPQLRQPYAPPRPGARPTHWA TEEPVVPVEPMESMLRPFNLVIPFAVQKGELTGEVRMPSGKTARPNITDNKDGTITVRYA PTEKGLHQMGIKYDGNHIPGSPLQFYVDAINSRHVSAYGPGLSHGMVNKPATFTIVTKDA GEGGLSLAVEGPSKAEITCKDNKDGTCTVSYLPTAPGDYSIIVRFDDKHIPGSPFTAKIT GDDSMRTSQLNVGTSTDVSLKITESDLSQLTASIRAPSGNEEPCLLKRLPNRHIGISFTP KEVGEHVVSVRKSGKHVTNSPFKILVGPSEIGDASKVRVWGKGLSEGHTFQVAEFIVDTR NAGYGGLGLSIEGPSKVDINCEDMEDGTCKVTYCPTEPGTYIINIKFADKHVPGSPFTVK VTGEGRMKESITRRRQAPSIATIGSTCDLNLKIPGNWFQMVSAQERLTRTFTRSSHTYTR TERTEISKTRGGETKREVRVEESTQVGGDPFPAVFGDFLGRERLGSFGSITRQQEGEASS QDMTAQVTSPSGKVEAAEIVEGEDSAYSVRFVPQEMGPHTVAVKYRGQHVPGSPFQFTVG PLGEGGAHKVRAGGTGLERGVAGVPAEFSIWTREAGAGGLSIAVEGPSKAEIAFEDRKDG SCGVSYVVQEPGDYEVSIKFNDEHIPDSPFVVPVASLSDDARRLTVTSLQETGLKVNQPA SFAVQLNGARGVIDARVHTPSGAVEECYVSELDSDKHTIRFIPHENGVHSIDVKFNGAHI PGSPFKIRVGEQSQAGDPGLVSAYGPGLEGGTTGVSSEFIVNTLNAGSGALSVTIDGPSK VQLDCRECPEGHVVTYTPMAPGNYLIAIKYGGPQHIVGSPFKAKVTGPRLSGGHSLHETS TVLVETVTKSSSSRGSSYSSIPKFSSDASKVVTRGPGLSQAFVGQKNSFTVDCSKAGRWR GEGVSRGTNMMMVGVHGPKTPCEEVYVKHMGNRVYNVTYTVKEKGDYILIVKWGDESVPG SPFKVKGELCPAAGMAGRGKLIAVIGDEDTVTGFLLGGIGELNKNRHPNFLVVEKDTTIN EIEDTFRYGTARGLNGPFCCSVECGARLEAARTGRLTIVPQFLNRDDIGIILINQYIAEM VRHALDAHQQSIPAVLEIPSKEHPYDAAKDSILRRARGMFTAEDLR >gi568815591f:128842082_129048815|GENSCAN_predicted_CDS_1|6621_bp gacgccgacggctgtcccatcgacatcaaggtgatccccaacggcgacggcaccttccgc tgctcctacgtgcccaccaagcccattaagcacaccatcatcatctcctggggaggcgta aacgtgcccaagagccccttccgggtgaacgtgggcgagggcagccaccccgagcgggta aaggtgtacggccccggagtggagaagacaggcctcaaggccaatgagcccacctacttc acggtggactgcagcgaggcggggcaaggcgacgtgagcatcggcatcaagtgcgcccca ggcgtggtgggccctgcagaggctgacattgacttcgacatcatcaagaatgacaacgac accttcaccgtcaagtacacgccaccaggggcgggccgctacaccatcatggtgctgttt gccaaccaggagatccccgccagccccttccacatcaaggtggacccatcccacgatgcc agcaaagtcaaggccgagggccctgggctgaatcgcacaggtgtggaagtcgggaagccc acccacttcacggtgctgaccaagggagccggcaaggccaagctggatgtgcagtttgca gggacagccaagggcgaggttgtgcgggactttgagatcatagacaaccatgactactcc tacactgtcaagtacaccgctgtccagcagggcaacatggcagtgacagtgacttatggc ggggaccctgtccccaagagcccctttgtggtgaatgtggcacccccgctggacctcagc aaaatcaaagttcagggccttaatagcaaggtggctgtgggacaggaacaagcattctct gtgaacacacgaggggctggcggtcagggccaactggatgtgcggatgacttcgccctct cgccggcccatcccctgcaagctggagccaggcggtggagcggaagcccaggctgtgcgc tacatgcccccggaggaggggccctacaaggtggatatcacctacgatggtcacccggtg cctggcagcccgtttgctgtggagggtgtcctgccccctgatccctccaaggtctgtgct tatggcccgggtctcaagggtggactggtaggcacccccgcgccattctccatcgacacc aagggggctggcacaggtggcctggggctgaccgtagagggcccctgcgaggccaagatc gagtgccaggacaatggtgatggctcatgtgctgtcagctacctgcccacggagcctggc gagtacaccatcaacatcctgtttgctgaggcccacatccctggctcgcccttcaaagcc accattcggcctgtgtttgacccgagcaaggtgcgggccagtggaccgggcctggagcgc ggcaaggtcggtgaggcagccaccttcactgtggactgctcagaggcaggcgaggcggag ctgaccattgagatcctgtcggatgccggggtcaaggccgaggtgctgatccacaacaac gcggatggcacctaccacatcacctacagccctgccttccctggcacctacaccattacc atcaagtatggcgggcatcccgtgcccaaattccccacccgtgtccatgtgcagcctgcg gtcgataccagtggcgtcaaggtctcagggcctggtgttgagccacacggtgtcctgcgg gaggtgaccactgagttcactgtggatgcaagatccctaacagccacaggcggcaaccac gtgacggctcgtgtgctcaacccctcgggggccaagacagacacctatgtgacagacaat ggggacggcacctaccgagtgcagtacaccgcctacgaggagggcgtgcatctggtggag gtcctgtatgatgaggtcgctgtgcccaagagccccttccgagtgggcgtgaccgagggc tgtgatcccacccgcgtccgagccttcgggccaggcctggagggtggcttggtcaacaag gccaaccgattcactgtggagaccagctactccctcatcctcactcactggtcttatgaa gctgatggggggatgttatctctcaggggagcgggcaccgggggccttggcctagccatc gagggtccctcggaagccaagatgtcctgcaaggacaacaaggatggtagctgcaccgtg gagtacatccccttcactcctggagactatgacgtcaacatcaccttcggggggcggccc atcccagggagcccgttccgcgtgccagtgaaggatgtggtggaccctgggaaggtgaag tgctcagggccagggctgggggctggtgtcagggcccgggttcctcagaccttcacagtg gattgcagtcaagctggccgggcgcccctgcaggtggctgtgctgggccccacaggtgtg gccgagcctgtggaggtgcgggacaatggagatggcacccacactgtccactacacccca gccactgacgggccctacacggtagccgtcaagtatgctgaccaggaggtgccacgcagc cccttcaagatcaaggtcctcccagctcatgatgccagcaaggtgcgggccagcggccca ggcctcaacgcctctggcatccctgccagcctgcctgtggagttcaccatcgacgcacgg gacgcgggcgaggggttgctcactgtccagatcttggaccccgagggtaagcccaagaag gccaacatccgggacaatggggatggcacgtacactgtgtcctacctgccggacatgagt ggccggtacaccatcaccatcaagtatggcggtgatgagatcccctactcgcccttccgc atccatgctctgcccactggggatgccagcaagtgcctcgtcacagtgtccattggaggc catggcctgggtgcctgcctgggccctcgaatccagattgggcaggagacggtgatcacg gtggatgccaaggcagccggtgaggggaaggtgacatgcacggtgtccacgccggatggg gcagagctcgatgtggatgtggttgagaaccatgacggtacctttgacatctactacaca gcgcccgagccgggcaagtacgtcatcaccatccgcttcgggggtgagcacatccccaac agccccttccacgtgctggcgtgtgaccccctgccgcacgaggaggagccctctgaagtg ccacagctgcgccagccctacgctcctccccggcccggcgcccgccccacacactgggcc acagaggagccagtggtgcctgtggagccaatggagtccatgctgaggcccttcaacctg gtcatccccttcgcggtgcagaaaggggagctcacaggagaggtgcggatgccctcgggg aagacggcacggcccaacatcaccgacaacaaggacggcaccatcacggtgaggtatgca cccactgagaaaggcctgcaccagatggggatcaagtatgacggcaaccacatccctggg agccccttacagttctatgtggatgccatcaacagccgccatgtcagtgcctatgggcca ggcctgagccatggcatggtcaacaagccagccaccttcactattgtcaccaaagatgct ggagaagggggtctgtcactggccgtggagggcccatccaaggcagagatcacctgtaag gacaacaaggatggcacctgcaccgtgtcctatctgccgactgcgcctggagactacagc atcatcgtgcgcttcgatgacaagcacatcccggggagccccttcacagccaagatcaca ggtgatgactccatgaggacctcacagctgaatgtgggcacctccacggacgtgtcactg aagatcaccgagagtgatctgagccagctgaccgccagcatccgtgccccctcgggcaac gaggagccctgcctgctgaagcgcctgcccaaccggcacattgggatctccttcaccccc aaggaggtcggggagcacgtggtgagcgtgcgcaagagtggcaagcatgtcaccaacagc cccttcaagatcctggtggggccatctgagatcggggacgccagcaaggtgcgggtctgg ggcaaggggctttccgagggacacacattccaggtggcagagttcatcgtggacactcgc aatgcaggttatgggggcttggggctgagtattgaaggcccaagcaaggtggacatcaac tgtgaggacatggaggacgggacatgcaaagtcacctactgccccaccgagcccggcacc tacatcatcaacatcaagtttgctgacaagcacgtgcctggaagccccttcactgtgaag gtgaccggcgagggccgcatgaaggagagcatcacccggcggagacaggcaccttccatc gccaccatcggcagcacctgtgacctcaacctcaagatcccaggaaactggttccagatg gtgtctgcccaggagcgcctgacacgcaccttcacacgcagcagccacacctacacccgc acggagcgcacggagatcagcaagacgcggggcggggagacaaagcgcgaggtgcgggtg gaggagtccacccaggtcggcggggaccccttccctgctgtgtttggggacttcctgggc cgggagcgcctgggatccttcggcagcatcacccggcagcaggagggtgaggccagctct caggacatgactgcacaggtgaccagcccatcgggcaaggtggaagccgcagagatcgtc gagggcgaggacagcgcctacagcgtgcgctttgtgccccaggaaatggggccccatacg gtcgctgtcaagtaccgtggccagcacgtgcccggcagcccctttcagttcactgtgggg ccgctgggtgaaggtggtgcccacaaggtgcgggccggaggcacagggctggagcgaggt gtggccggcgtgccagccgagttcagcatctggacccgggaggctggcgctgggggcctg tccattgctgtggagggtcctagcaaagcggagattgcatttgaggatcgcaaagatggc tcctgcggcgtctcctatgtcgtccaggaaccaggtgactatgaggtctccatcaagttc aatgatgagcacatcccagacagcccctttgtggtgcctgtggcctccctctcggatgac gctcgccgtctcactgtcaccagcctccaggagacggggctcaaggtgaaccagccagcg tcctttgccgtgcagctgaacggtgcccggggcgtgattgatgcccgggtgcacacaccc tcgggggctgtggaggagtgctacgtctctgagctggacagtgacaagcacaccatccgc ttcatcccccacgagaatggcgtccactccatcgatgtcaagttcaacggtgcccacatc cctggaagtcccttcaagatccgcgttggggagcagagccaggctggggacccaggcttg gtgtcagcctacggtcctgggctcgagggaggcactaccggtgtgtcatcagagttcatc gtgaacaccctgaatgccggctcgggggccttgtctgtcaccattgatggcccctccaag gtgcagctggactgtcgggagtgtcctgagggccatgtggtcacttatactcccatggcc cctggcaactacctcattgccatcaagtacggtggcccccagcacatcgtgggcagcccc ttcaaggccaaggtcactggtccgaggctgtccggaggccacagccttcacgaaacatcc acggttctggtggagactgtgaccaagtcctcctcaagccggggctccagctacagctcc atccccaagttctcctcagatgccagcaaggtggtgactcggggccctgggctgtcccag gccttcgtgggccagaagaactccttcaccgtggactgcagcaaagcaggcaggtggcgg ggggagggcgtctcccggggcaccaacatgatgatggtgggcgtgcacggccccaagacc ccctgtgaggaggtgtacgtgaagcacatggggaaccgggtgtacaatgtcacctacact gtcaaggagaaaggggactacatcctcattgtcaagtggggtgacgaaagtgtccctgga agccccttcaaagtcaagggtgagctctgcccggctgcagggatggcggggaggggtaag ctcatcgcagtgatcggagacgaggacacggtgactggtttcctgctgggcggcataggg gagcttaacaagaaccgccatcccaatttcctggtggtggagaaggatacaaccatcaat gagatcgaagacactttccggtacggtaccgcgcgaggcctgaacgggcccttctgctgc tcggtggagtgcggggcgaggctggaggctgcccggacggggaggctcaccatcgtcccg caatttctaaaccgggatgacattggcatcatcctcatcaaccagtacatcgcagagatg gtgcggcatgccctggacgcccaccagcagtccatccccgctgtcctggagatcccctcc aaggagcacccatatgacgccgccaaggactccatcctgcgcagggccaggggcatgttc actgccgaagacctgcgctag >gi568815591f:128842082_129048815|GENSCAN_predicted_peptide_2|176_aa MSRQLNIDALRQNFWKEEYLREKMLRCEWYRKYGSMVKAKQKAKAAARLPLKLPTLHPKA PLSPPPAPKSAPSKVPSPVPEAPFQSEMYPVPPITRALLYEGISHDFQGRYRYLNTRKLD MPETRYLFPITTSFTYGWQLGPPVKQELVSCKMCRIESFFRKNGAFALLDPRDLAL >gi568815591f:128842082_129048815|GENSCAN_predicted_CDS_2|531_bp atgtcacggcagctcaacatagacgcgttacggcagaacttctggaaggaggaatatctg agggaaaagatgttgcgctgtgaatggtaccgcaagtatgggtcgatggtgaaggccaag cagaaggctaaggctgcagcccgcctgcccctcaaactgcccaccctgcaccccaaagcc ccactctcacccccacccgcccccaagtcagccccttccaaggtgcccagccctgtccca gaggcgccttttcagtcggaaatgtacccggtaccacctatcacccgagccctgctgtat gaaggcatctcccacgacttccaggggcggtaccgctacctcaacactcgaaaactggac atgccagagacgcgatacctcttccccatcaccaccagcttcacgtatggctggcagctg ggccccccagtgaagcaagaactggtctcctgcaagatgtgccgcattgagtcattcttc cgcaagaacggggccttcgcactgcttgatccccgagacctggccctctga >gi568815591f:128842082_129048815|GENSCAN_predicted_peptide_3|2235_aa MAKPSSQGTPGLAPEEISLDAVAEGRPSAVETMEKLNFSVCREATWKPPNSEKKPTCYCE ECNPKVTAEEAQWSSRPPRYLSGVSLQALGLAQCSLQVSSHRCVIRDHVNALNACSGTLS VTIDGPTKVQLDCWECPEGHVVTDTPMAPGNYLIAIKYGGPQHIVGSPFKAKVTGPRLSG GHSLHETSTVLVETVTKSSSSRGSSYNSIPKFSSDASKVVTRGPGLSQAFVGQKNSFTVD CSKAGRWRGEGVSRGTNMMMVGVHGPKTPCEEVYVKHMGNRVYNVTYTVKEKGTTSLSSS GRLLSRDDRRRAERGGASMAGVGAAALSLLLHLGALALAAGAEGGAVPREPPGQQTTAHS SVLAGNSQEQWHPLREWLGRLEAAVMELREQNKDLQTRVRQLESCECHPASPQCWGLGRA WPEGARWEPDACTACVCQDGAAHCGPQAHLPHCRGCSQNGQTYGNGETFSPDACTTCRCL EGTITCNQKPCPRGPCPEPGACCPHCKPGCDYEGQLYEEGVTFLSSSNPCLQCTCLAAQK VALTGNMAKSGQHLGTPAESAGAWSETLYRDCVGKEGHIQCRQRECASLCPYPARPLPGT CCPVCDGCFLNGREHRSGEPVGSGDPCSHCRCAPYTPTPLSSHPGCEYQGHQYQSQETFR LQERGLCVRCSCQAGEVSCEEQECPVTPCALPASGRQLCPACELDGEEFAEGVQWEPDGR PCTACVCQDGVPKCGAVLCPPAPCQHPTQPPGACCPSCDSCTYHSQVYANGQNFTDADSP CHACHCQDGTVTCSLVDCPPTTCARPQSGPGQCCPRCPVTTAPRPTTLGPPPPYPPDCIL EEEVFVDGESFSHPRDPCQECRCQEGHAHCQPRPCPRAPCAHPLPGTCCPNDCSGCAFGG KEYPSGADFPHPSDPCRLCRCLSGNVQCLARRCVPLPCPEPVLLPGECCPQCPAAPAPAG CPRPGAAHARHQEYFSPPGDPCRRCLCLDGSVSCQRLPCPPAPCAHPRQGPCCPSCDGCL YQGKEFASGERFPSPTAACHLCLCWEGSVSCEPKACAPALCPFPARGDCCPDCDGCEYLG ESYLSNQEFPDPREPCNLCTCLGGFVTCGRRPCEPPGCSHPLIPSGHCCPTCQGCRYHGV TTASGETLPDPLDPTCSLCTCQAGQVSCVRLQCPPLPCKLQVTERGSCCPRCRASSSPTS LPQQLALAYTLATFSFSYLSLSGTAQTIPLPGCLAHGEEHPEGSRWVPPDSACSSCVCHE GVVTCARIQCISSCAQPRQGPHDCCPQCSDCEHEGRKYEPGESFQPGADPCEVCICEPQP EGPPSLRCHRRQCPSLVGCPPSQLLPPGPQHCCPTCAEALSNCSEGLLGSELAPPDPCYT CQCQACPELSCPLSERHTPPGSCCPVCRECVVEAEGRRVADGESWRDPSNACIACTCHRG HVECHLEECQALSCPHGWAKVPQADSCCERCQAPTQSCVHQGREVASGERWTVDTCTSCS CMAGTVRCQSQRCSPLSCGPDKAPALSPGSCCPRCLPRPASCMAFGDPHYRTFDGRLLHF QGSCSYVLAKDCHSGDFSVHVTNDDRGRSGVAWTQEVAVLLGDMAVRLLQDGAVTVDGHP VALPFLQEPLLYVELRGHTVILHAQPGLQVLWDGQSQVEVSVPGSYQGRTCGLCGNFNGF AQDDLQGPEGLLLPSEAAFGNSWQVSEGLWPGRPCSAGREVDPCRAAGYRARREANARCG VLKSSPFSRCHAVVPPEPFFAACVYDLCACGPGSSADACLCDALEAYASHCRQAGVTPTW RGPTLCVVGCPLERGFVFDECGPPCPRTCFNQHIPLGELAAHCVQEGRGYPPGLELPPVL LQMEWSRRAQEQLLWDLELLTGVELGLFWPPQAQFFGPRGQAQQAWSQCCQPGGSTGGDP EQPDLAQREERSEAEPETQKRKLTPGTPGPGDLPSQNLPSQDALEGLGSDPHLGQERAEL QRPPRMDTPESERRTLRIRKRRPLSPSEGLLRVPESTDSKACGQGEPKPPEKDYHADAEH DQRRATKVGTGGGKAGGRPGGGVGCAYPPEAPGPAAAPRSRSRSRDASDPARRGIRAAGA PRGSPGPPGLERDPHGLQGPGVGPAPGEQEALKAAWPAPLSTAKAPAGLSAAQQVTALQR LLELHSAARRQRRRRDREQQRLREDAAGRRRALREQLEQMHRERTERLRALGARNTQNFL ELLCSPGAEDPVPAK >gi568815591f:128842082_129048815|GENSCAN_predicted_CDS_3|6708_bp atggcaaagcccagctcccagggcacccctgggctggcgcccgaggagataagcctggat gccgtagcagagggaagacccagtgctgtggaaaccatggagaagctgaatttctcagtg tgccgagaagccacttggaagccaccaaactcagagaaaaaaccaacctgctactgtgaa gagtgcaacccaaaggtgactgccgaagaagcccagtggtcgtctaggccaccgcgctat ctgtctggcgtctccttacaggccctgggcctggcccaatgctccctccaggtcagtagt caccggtgtgtcatcagagatcatgtgaacgccctgaacgcctgctcggggaccttgtct gtcaccattgatggccccaccaaggtgcagctggactgttgggagtgtcctgagggccac gtggtcactgacactcccatggcccctggcaactacctcattgccatcaagtacggtggc ccccagcacatcgtgggcagccccttcaaggccaaggtcactggtccgaggctgtccgga ggccacagccttcacgaaacatccacggttctggtggagactgtgaccaagtcctcctca agccggggctccagctacaactccatccccaagttctcctcagatgccagcaaggtggtg actcggggccctgggctgtcccaggccttcgtgggccagaagaactccttcaccgtggac tgcagcaaagcaggcaggtggcggggggagggcgtctcccggggcaccaacatgatgatg gtgggcgtgcacggccccaagaccccctgtgaggaggtgtacgtgaagcacatggggaac cgggtgtacaatgtcacctacactgtcaaggagaaagggactacatccttatcgtcaagt gggcgcctgctgagccgcgacgacagacggcgagccgagcgaggcggagctagcatggcc ggggtcggggccgctgcgctgtcccttctcctgcacctcggggccctggcgctggccgcg ggcgcggaaggtggggctgtccccagggagccccctgggcagcagacaactgcccattcc tcagtccttgctgggaactcccaggagcagtggcaccccctgcgagagtggctggggcga ctggaggctgcagtgatggagctcagagaacagaataaggacctgcagacgagggtgagg cagctggagtcctgtgagtgccaccctgcatctccccagtgctgggggctggggcgtgcc tggcccgagggggcacgctgggagcctgacgcctgcacagcctgcgtctgccaggatggg gccgctcactgtggcccccaagcacacctgccccattgcaggggctgcagccaaaatggc cagacctacggcaacggggagaccttctccccagatgcctgcaccacctgccgctgtctg gaaggtaccatcacttgcaaccagaagccatgcccaagaggaccctgccctgagccagga gcatgctgcccgcactgtaagccaggctgtgattatgaggggcagctttatgaggagggg gtcaccttcctgtccagctccaacccttgtctacagtgcacctgcctggctgcacagaag gtggctctcactgggaacatggccaagagtggacaacacctggggacccctgccgaatct gccggtgcctggtcagaaaccctgtacagagactgtgtaggcaaggagggtcacatccag tgccgccagcgagaatgtgccagcctgtgtccatacccagcccggcccctcccaggcacc tgctgccctgtgtgtgatggctgtttcctaaacgggcgggagcaccgcagcggggagcct gtgggctcaggggacccctgctcgcactgccgctgtgctccctatacccccacgcccctg tcatcccatccaggctgtgagtaccagggacaccagtatcagagccaggagaccttcaga ctccaagagcggggcctctgtgtccgctgctcctgccaggctggcgaggtctcctgtgag gagcaggagtgcccagtcaccccctgtgccctgcctgcctctggccgccagctctgccca gcctgtgagctggatggagaggagtttgctgagggagtccagtgggagcctgatggtcgg ccctgcaccgcctgcgtctgtcaagatggggtacccaagtgcggggctgtgctctgcccc ccagccccctgccagcaccccacccagccccctggtgcctgctgccccagctgtgacagc tgcacctaccacagccaagtgtatgccaatgggcagaacttcacggatgcagacagccct tgccatgcctgccactgtcaggatggaactgtgacatgctccttggttgactgccctccc acgacctgtgccaggccccagagtggaccaggccagtgttgccccaggtgcccagtaact actgccccccgccccaccacgctagggcccccacccccctaccccccagactgcatcctg gaggaagaggtgtttgtggacggcgagagcttctcccacccccgagacccctgccaggag tgccgatgccaggaaggccatgcccactgccagcctcgcccctgccccagggccccctgt gcccacccgctgcctgggacctgctgcccgaacgactgcagcggctgtgcctttggcggg aaagagtaccccagcggagcggacttcccccacccctctgacccctgccgtctgtgtcgc tgtctgagcggcaacgtgcagtgcctggcccgccgctgcgtgccgctgccctgtccagag cctgtcctgctgccgggagagtgctgcccgcagtgcccagccgccccagcccccgccggc tgcccacggcccggcgcggcccacgcccgccaccaggagtacttctccccgcccggcgat ccctgccgccgctgcctctgcctcgacggctccgtgtcctgccagcggctgccctgcccg cccgcgccctgcgcgcacccgcgccaggggccttgctgcccctcctgcgacggctgcctg taccaggggaaggagtttgccagcggggagcgcttcccatcgcccactgctgcctgccac ctctgcctttgctgggagggcagcgtgagctgcgagcccaaggcatgtgcccctgcactg tgccccttccctgccaggggcgactgctgccctgactgtgatggctgtgagtacctgggg gagtcctacctgagtaaccaggagttcccagacccccgagaaccctgcaacctgtgtacc tgtcttggaggcttcgtgacctgcggccgccggccctgtgagcctccgggctgcagccac ccactcatcccctctgggcactgctgcccgacctgccagggatgccgctaccatggcgtc actactgcctccggagagacccttcctgacccacttgaccctacctgctccctctgcacc tgccaggctggccaggtcagctgtgtgcggctgcagtgcccaccccttccctgcaagctc caggtcaccgagcgggggagctgctgccctcgctgcagagccagctcttctcccacctcc ctgccccaacaactggcccttgcatacacccttgccaccttcagcttctcctacctctcc ctgtccgggactgcccagaccatccctcttccaggctgcctggctcatggggaagagcac cccgaaggcagtagatgggtgccccccgacagtgcctgctcctcctgtgtgtgtcacgag ggcgtcgtcacctgtgcacgcatccagtgcatcagctcttgcgcccagccccgccaaggg ccccatgactgctgtcctcaatgctctgactgtgagcatgagggccggaagtacgagcct ggggagagcttccagcctggggcagacccctgtgaagtgtgcatctgcgagccacagcct gaggggcctcccagccttcgctgtcaccggcggcagtgtcccagcctggtgggctgcccc cccagccagctcctgccccctgggccccagcactgctgtcccacctgtgccgaggccttg agtaactgttcagagggcctgctgggatctgagctagccccaccagacccctgctacacg tgccagtgccaggcttgtcctgagctcagctgtcccctctcagagcgccacactccccct gggagctgctgccccgtatgccgggaatgtgtggtggaggccgagggccggagagtggca gatggagagagctggcgggaccccagcaatgcgtgcatcgcctgcacctgccatcggggc catgtggagtgccacctcgaggagtgccaggccctctcctgcccccatggctgggcgaag gtgccccaggctgacagctgctgtgagcgatgccaagctcccacccagtcctgcgtgcac cagggccgtgaggtggcctctggagagcgctggactgtggacacctgcaccagctgctcc tgcatggcgggcaccgtgcgttgccagagccagcgctgctcaccgctctcgtgtggcccc gacaaggcccctgccctgagtcctggcagctgctgcccccgctgcctgcctcggcccgct tcctgcatggccttcggagacccccattaccgcaccttcgacggccgcctgctgcacttc cagggcagttgcagctatgtgctggccaaggactgccacagcggggacttcagtgtgcac gtgaccaatgatgaccggggccggagcggtgtggcctggacccaggaggtggcggtgctg ctgggagacatggccgtgcggctgctgcaggacggggcagtcacggtggatgggcacccg gtggccttgcccttcctgcaggagccgctgctgtatgtggagctgcgaggacacactgtg atcctgcacgcccagcccgggctccaggtgctgtgggatgggcagtcccaggtggaggtg agcgtacctggctcctaccagggccggacttgtgggctctgtgggaacttcaatggcttt gcccaggacgatctgcagggccctgaggggctgctcctgccctcggaggctgcgtttggg aatagctggcaggtctcagaggggctgtggcctggccggccctgttctgcaggccgagag gtggatccgtgccgggcagcaggttaccgtgccaggcgtgaggccaatgcccggtgtggg gtgctgaagtcctccccattcagtcgctgccatgctgtggtgccaccggagcccttcttt gccgcctgtgtgtatgacctgtgtgcctgtggccctggctcctccgctgatgcctgcctc tgtgatgccctggaagcctacgccagtcactgtcgccaggcaggagtgacacctacctgg cgaggccccacgctgtgtgtggtaggctgccccctggagcgtggcttcgtgtttgatgag tgcggcccaccctgtccccgcacctgcttcaatcagcatatccccctgggggagctggca gcccactgcgtgcaagagggccgcgggtatcccccagggctggagctgccccctgtactg ctgcagatggagtggagccggcgggcccaggagcagctcctgtgggacttggaactgctg actggtgtggagctgggcctcttctggccaccccaggcccagtttttcggtccgaggggc caggcccagcaagcatggagccagtgctgtcagccaggtggtagcacaggtggggaccct gagcagccggacctggcccagagggaagagaggagtgaggcagagcctgagacccagaaa agaaagctcactcccgggacccctgggccgggggacctgccctcccaaaacctgccttcc caagatgcccttgaagggctgggctcggacccgcacctgggccaggagagagcagaactt caaagaccaccaaggatggacacccctgagtctgagaggaggaccctcaggatcagaaag cggagacccctcagcccatccgagggactcctgcgggtccctgaaagcacagactccaaa gcctgtgggcagggagagcccaaacctccggagaaggactaccacgctgacgcagagcat gatcaaaggcgagccacaaaggtcggcaccggcggtggcaaagctgggggccgcccggga gggggcgtgggctgcgcttacccgcccgaagcccccggcccggcggcggctcccaggtcg cggagccggagccgagatgccagcgaccctgcgcgccgaggtatccgggcagcaggggct cctcggggctctccggggcccccaggcctggagcgcgatccgcacgggctgcagggccct ggagtgggccccgcaccgggggagcaggaggccttgaaggccgcgtggccggcgcccctc agcaccgccaaggcgcctgcgggcttaagcgcggcgcagcaggtgacggctctgcagcgg ctgctggagctgcacagcgcggccaggcggcagcgccgccggcgggaccgtgagcagcag cggctccgggaggacgcggctgggcggcggcgcgccctgcgggagcagctggagcaaatg catcgggagaggacggagcggctgcgggccctcggggccaggaacacccagaacttcctg gaactactgtgttcccctggtgctgaggatcccgtgcctgcgaagtag >gi568815591f:128842082_129048815|GENSCAN_predicted_peptide_4|196_aa MRRHIPAVPLWPLTALGRLSTVSRGLVMSRRLPGYPRDPGREPTLQLGGSRAGTSILTHK SEVIPRAVQPKNMPIKATAAVLLTGATYGHLKAPVLLLGASLSKAMHRSSGNFPAVASAQ DLCCGQLTWMGQEDSVVHCPQPLNDLQLINRFWSERASTLIRSTNKEVIDPWRVKSEAPK LVSKELDTKSQEDVLW >gi568815591f:128842082_129048815|GENSCAN_predicted_CDS_4|591_bp atgaggaggcatatcccggctgtccctctctggcccctgacggctcttgggagactgagc actgtctccaggggtttggtgatgtccaggaggctccctggctaccccagggacccaggc cgagagcccacgctccaactaggtggctccagggccgggacatctattctgactcataaa tctgaggtgattcccagggccgtgcagcccaaaaacatgcccatcaaagctacagccgct gtattgctcactggggccacctatggccatctcaaggccccagttctcctccttggggct tccttgtccaaggccatgcatcgctcttcaggcaactttcccgctgtggcctccgcccag gacctttgctgtggacagcttacctggatgggacaggaagatagtgtagtacactgccca cagcccttgaatgacctgcaattgatcaatagattttggagcgagagagccagcacactg atcaggagcactaacaaggaagtaatagatccctggagggtgaagagtgaagccccaaaa ctggtctccaaggagttagataccaagagtcaggaggacgtgctgtggtag >gi568815591f:128842082_129048815|GENSCAN_predicted_peptide_5|539_aa MGVPGSPAGGWLGPQRSEARSLLSMHSPLLLPGHPHPFGKEVEVKAFIPRDLQANGRNCA RVWGKMVSDPSAMNQSIPVAPTPPRRVRLKPWLVAQVNSCQYPGLQWVNGEKKLFCIPWR HATRHGPSQDGDNTIFKAWAKETGKYTEGVDEADPAKWKANLRCALNKSRDFRLIYDGPR DMPPQPYKIYEVCSNGPAPTDSQPPEDYSFGAGEEEEEEEEPPTLQPPVVLGPPAPDPSP LAPPPGNPAGFRELLSEVLEPGPLPASLPPAGEQLLPDLLISPHMLPLTDLEIKFQYRGR PPRALTISNPHGCRLFYSQLEATQEQVELFGPISLEQVRFPSPEDIPSDKQRFYTNQLLD VLDRGLILQLQGQDLYAIRLCQCKVFWSGPCASAHDSCPNPIQREVKTKLFSLEHFLNEL ILFQKGQTNTPPPFEIFFCFGEEWPDRKPREKKLITVQVVPVAARLLLEMFSGELSWSAD SIRLQISNPDLKDRMVEQFKELHHIWQSQQRLQPVAQAPPGAGLGVGQGPWPMHPAGMQ >gi568815591f:128842082_129048815|GENSCAN_predicted_CDS_5|1620_bp atgggggttcccgggagccccgctggaggctggcttggaccacagaggagcgaggcccga tccttactttcgatgcactcgcccttgctcttaccgggccaccctcaccctttcggaaaa gaggttgaggttaaagcgttcatcccccgggatcttcaggccaatggcaggaactgtgca agagtttgggggaagatggtgtcagacccctctgccatgaaccagtccatcccagtggct cccaccccaccccgccgcgtgcggctgaagccctggctggtggcccaggtgaacagctgc cagtacccagggcttcaatgggtcaacggggaaaagaaattattctgcatcccctggagg catgccacaaggcatggtcccagccaggacggagataacaccatcttcaaggcctgggcc aaggagacagggaaatacaccgaaggcgtggatgaagccgatccggccaagtggaaggcc aacctgcgctgtgcccttaacaagagccgggacttccgcctcatctacgacgggccccgg gacatgccacctcagccctacaagatctacgaggtctgctccaatggccctgctcccaca gactcccagccccctgaggattactcttttggtgcaggagaggaggaggaagaagaggaa gagccgcccactctgcagccgcccgtggtgctgggtccccctgctccagaccccagcccc ctggctcctccccctggcaaccctgctggcttcagggagcttctctctgaggtcctggag cctgggcccctgcctgccagcctgccccctgcaggcgaacagctcctgccagacctgctg atcagcccccacatgctgcctctgaccgacctggagatcaagtttcagtaccgggggcgg ccaccccgggccctcaccatcagcaacccccatggctgccggctcttctacagccagctg gaggccacccaggagcaggtggaactcttcggccccataagcctggagcaagtgcgcttc cccagccctgaggacatccccagtgacaagcagcgcttctacacgaaccagctgctggat gtcctggaccgcgggctcatcctccagctacagggccaggacctttatgccatccgcctg tgtcagtgcaaggtgttctggagcgggccttgtgcctcagcccatgactcatgccccaac cccatccagcgggaggtcaagaccaagcttttcagcctggagcattttctcaatgagctc atcctgttccaaaagggccagaccaacaccccaccacccttcgagatcttcttctgcttt ggggaagaatggcctgaccgcaaaccccgagagaagaagctcattactgtacaggtggtg cctgtagcagctcgactgctgctggagatgttctcaggggagctatcttggtcagctgat agtatccggctacagatctcaaacccagacctcaaagaccgcatggtggagcaattcaag gagctccatcacatctggcagtcccagcagcggttgcagcctgtggcccaggcccctcct ggagcaggccttggtgttggccaggggccctggcctatgcacccagctggcatgcaataa >gi568815591f:128842082_129048815|GENSCAN_predicted_peptide_6|1001_aa MAVKIFKPHVLRSRKATASIKQLHSETKLNSRVKDTVDIGGCLHEGLRIEQQWKHSQSTW VPQRVKMLLSEPELQDLSAVPVSALLLPARDAGPSESLLVLGVSLFLGPVDTLLFASAST FTETKTTQVLQMSLVHAWEISDQLLQIRQDVESCYFAAQTMKMKIQTSFYELPTDSHASL RDSLLTHIQNLKDLSPVIVTQLALAIADLALQMPSWKGCVQTLVEKYSNDVTSLPFLLEI LTVLPEEVHSRSLRIGANRRTEIIEDLAFYSSTVVSLLMTCVEKAGTDEKMLMKVFRCLG SWFNLGVLDSNFMANNKLLALLFEVLQQDKTSSNLHEAASDCVCSALYAIENVETNLPLA MQLFQGVLTLETAYHMAVAREDLDKVLNYCRIFTELCETFLEKIVCTPGQGLGDLRTLEL LLICAGHPQYEVVEISFNFWYRLGEHLYKTNDEVIHGIFKAYIQRLLHALARHCQLEPDH EGVPEETDDFGEFRMRVSDLVKDLIFLIGSMECFAQLYSTLKEGNPPWEVTEAVLFIMAA IAKSVDPENNPTLVEVLEGVVRLPETVHTAVRYTSIELVGEMSEVVDRNPQFLDPVLGYL MKGLCEKPLASAAAKAIHNICSVCRDHMAQHFNGLLEIARSLDSFLLSPEAAVGLLKGTA LVLARLPLDKITECLSELCSVQVMALKKLLSQEPSNGISSDPTVFLDRLAVIFRHTNPIV ENGQTHPCQKVIQEIWPVLSETLNKHRADNRIVERCCRCLRFAVRCVGKGSAALLQPLVT QMVNVYHVHQHSCFLYLGSILVDEYGMEEGCRQGLLDMLQALCIPTFQLLEQQNGLQNHP DTVDDLFRLATRFIQRSPVTLLRSQVVIPILQWAIASTTLDHRDANCSVMRFLRDLIHTG VANDHEEDFELRKELIGQVMNQLGQQLVSQLLHTCCFCLPPYTLPDVAEVLWEIMQVDRP TFCRWLENSLKGLPKETTVGAVTVTHKQLTDFHKQVTRRKS >gi568815591f:128842082_129048815|GENSCAN_predicted_CDS_6|3006_bp atggctgtgaaaatatttaagcctcacgtcctcagatccaggaaagcaactgccagtatt aagcagttacattctgaaaccaaactcaactcccgtgtcaaagacacagtggacattgga ggctgcctgcatgaaggtctcaggattgagcagcagtggaaacattctcagagcacctgg gtaccacagagagtgaagatgctgctgtctgagccagagctacaggacctctctgctgtg cctgtcagtgccttacttctgcccgccagagatgctggcccaagtgaatctctgttggtt cttggtgtttctctgttcttaggtccagtagacaccctgttgtttgcctctgcttccaca tttactgagactaaaaccacacaggtcttacagatgtcactggttcatgcatgggagatc tcagaccagttgttacagatccggcaggatgtggagtcatgctattttgctgcacagacc atgaaaatgaagattcagacctcattttatgagctccccacagactctcatgcctcttta cgggactcattgctaacccatatccagaacttgaaagacttgtcacctgttattgtaacg cagctggctttagcaatagcagatcttgccctacagatgccttcctggaagggatgtgtg caaacactggtggaaaaatacagcaatgatgtgacttctttgccttttttgctggagatc cttacagtgttacctgaagaagtacatagtcgttccttacgaattggagctaatcggcgc acagaaattatagaagatttggccttctactctagtacagtagtatctctattgatgacc tgtgtagaaaaagcaggaacagatgagaaaatgcttatgaaggtttttcgctgtttggga agttggtttaacttgggagttttggacagtaacttcatggctaacaataaattactagca ctcctttttgaggttttgcaacaggataagacctcgtctaacctacatgaagctgcttcg gactgtgtatgctcagctctctatgccattgagaatgtggagactaacttgccattagcc atgcaactttttcagggagtgctgacattggagactgcctatcatatggccgtggcacgt gaagatttagacaaagttctgaattactgccgtattttcactgaactatgtgaaactttt cttgaaaaaattgtttgtactccaggccaaggtcttggggaccttcgaactctggagctg ctgcttatctgtgcaggccatcctcaatatgaggtagtagaaatttcatttaacttttgg taccgactgggggaacatttgtacaaaactaacgatgaagttattcatggcatcttcaaa gcttacattcagaggctgcttcacgccttggctcgacactgccagctggaaccagaccat gagggggttcctgaggagactgatgactttggggagtttcgcatgagggtatcagacctg gtaaaggacttgattttcttgatagggtctatggagtgttttgctcagttatattctact ctgaaagaaggcaacccaccctgggaggtgacagaagcggttctctttatcatggctgct atagcaaagagtgttgatccggaaaacaatccaacacttgtggaagtcctagaaggagtt gtccgcctcccggagaccgtacatacggctgtgcgatacaccagcattgaattggttgga gagatgagtgaagtcgttgatcgaaatcctcagttccttgaccctgtgttgggctatttg atgaaaggcctgtgtgaaaagcccctggcttctgctgcagccaaagccattcataacatt tgctctgtctgccgagatcacatggctcagcactttaatggactcctggagattgcccgc tccctcgattccttcctgttgtctccagaagctgctgtgggcttgctaaaagggacagca cttgtcctagcccgattacctttggataagattaccgaatgtcttagtgaactatgttct gttcaggttatggcattgaaaaagctgttgtctcaagagcccagcaatggcatatcctca gatcccacagtgttcttagatcgccttgcagtgatatttaggcataccaatcccattgtg gaaaatggacagactcatccgtgtcagaaagtcatacaggaaatatggccagttttatcc gagactctaaataagcaccgagctgataatcggattgtagagcgttgttgcaggtgcctg cgctttgctgttcgctgtgtaggcaaaggatctgcagcactgctgcagccactagtcaca cagatggtgaatgtgtaccacgtacatcagcattcctgcttcctgtaccttggcagtatc cttgtggatgaatatggcatggaagaaggctgtcggcagggactgctagacatgctccag gcactgtgcatccccacctttcagctcctagaacagcagaatggtctccagaatcaccct gacactgtagatgacctgttccggctagccaccaggtttattcagcgtagccctgtcacc ttgctgcggagccaagtggtcatccctatcttacagtgggccattgcctctactaccctg gaccaccgggatgccaattgtagtgtcatgaggtttctacgagacctcattcatacaggg gtagccaatgatcatgaagaagactttgaattacggaaagaactgattggacaggtgatg aaccagcttggacagcagcttgtcagccagctgctgcacacctgctgcttttgcctcccc ccctataccctaccagatgtggctgaagtgctctgggagatcatgcaggttgacagaccg actttttgtcgatggttagaaaattccttaaaaggtttgccaaaggaaacaaccgtggga gccgtcacagtgacacacaaacaacttacagacttccacaagcaagtcactaggaggaaa tcctga