GENSCAN 1.0 Date run: 5-Nov-116 Time: 07:46:13 Sequence gi568815586f:112030523_112252788 : 222266 bp : 44.48% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.18 Intr - 2857 2711 147 1 0 85 111 -3 0.370 2.13 1.17 Intr - 8817 8707 111 0 0 95 45 62 0.712 3.18 1.16 Intr - 13346 13103 244 1 1 36 81 173 0.987 8.90 1.15 Intr - 17268 17143 126 2 0 101 93 15 0.892 3.09 1.14 Intr - 17921 17770 152 2 2 83 92 50 0.904 3.86 1.13 Intr - 23103 23036 68 1 2 63 95 9 0.311 -2.28 1.12 Intr - 29837 29748 90 0 0 97 111 10 0.706 4.17 1.11 Intr - 30866 30659 208 2 1 81 85 68 0.742 4.45 1.10 Intr - 38470 38358 113 2 2 128 106 48 0.999 10.70 1.09 Intr - 41542 41373 170 0 2 82 86 197 0.999 18.49 1.08 Intr - 44298 44153 146 0 2 19 98 73 0.627 0.48 1.07 Intr - 48219 48112 108 0 0 61 81 83 0.861 5.38 1.06 Intr - 50612 50538 75 2 0 80 89 23 0.628 1.31 1.05 Intr - 57279 57161 119 1 2 80 91 86 0.981 8.28 1.04 Intr - 60342 60204 139 0 1 98 52 125 0.998 9.94 1.03 Intr - 62614 62529 86 2 2 96 88 47 0.658 5.04 1.02 Intr - 77946 77830 117 1 0 41 39 92 0.336 0.04 1.01 Init - 78251 78194 58 2 1 107 113 0 0.733 5.45 1.00 Prom - 79138 79099 40 -7.66 2.00 Prom + 84279 84318 40 -4.36 2.01 Init + 94132 94212 81 0 0 64 96 53 0.900 2.67 2.02 Intr + 94830 94995 166 2 1 86 65 40 0.882 1.03 2.03 Intr + 95331 95542 212 1 2 90 37 120 0.052 5.73 2.04 Intr + 99989 100047 59 1 2 79 99 68 0.046 4.68 2.05 Intr + 104216 104351 136 2 1 80 99 44 0.995 5.27 2.06 Intr + 104491 104544 54 0 0 86 88 42 0.899 3.18 2.07 Intr + 110297 110702 406 1 1 104 56 179 0.890 10.22 2.08 Intr + 111567 111773 207 1 0 80 61 76 0.813 3.15 2.09 Intr + 115064 115140 77 0 2 65 89 112 0.868 8.23 2.10 Intr + 117552 117782 231 2 0 54 110 122 0.759 8.97 2.11 Intr + 121455 121618 164 2 2 26 82 96 0.824 1.57 2.12 Intr + 121905 121977 73 0 1 73 116 70 0.955 7.71 2.13 Term + 122213 122269 57 1 0 74 39 79 0.932 -0.71 2.14 PlyA + 123059 123064 6 1.05 3.51 PlyA - 124377 124372 6 1.05 3.50 Term - 132001 131865 137 2 2 102 45 217 0.971 16.98 3.49 Intr - 132742 132520 223 1 1 122 86 347 0.999 35.60 3.48 Intr - 133215 133020 196 2 1 114 69 493 0.999 49.42 3.47 Intr - 133753 133587 167 1 2 101 69 286 0.999 26.76 3.46 Intr - 137016 136795 222 0 0 89 75 390 0.997 36.12 3.45 Intr - 137395 137292 104 2 2 120 102 127 0.956 17.19 3.44 Intr - 139136 138981 156 0 0 60 100 200 0.996 18.38 3.43 Intr - 139930 139811 120 2 0 104 59 183 0.999 17.47 3.42 Intr - 140741 140595 147 0 0 96 86 368 0.984 37.61 3.41 Intr - 142339 142149 191 0 2 99 27 188 0.998 13.03 3.40 Intr - 145337 145214 124 0 1 29 94 86 0.962 2.94 3.39 Intr - 146180 146074 107 1 2 40 63 106 0.608 3.16 3.38 Intr - 148560 148409 152 0 2 110 96 276 0.999 29.56 3.37 Intr - 148875 148652 224 1 2 67 70 189 0.907 12.85 3.36 Intr - 152744 152537 208 2 1 100 98 106 0.999 11.45 3.35 Intr - 154971 153665 1307 1 2 81 77 1703 0.168 155.80 3.34 Intr - 160443 160264 180 1 0 95 66 253 0.972 23.64 3.33 Intr - 162243 162038 206 2 2 104 92 206 0.999 21.44 3.32 Intr - 162669 162539 131 0 2 80 89 145 0.999 13.29 3.31 Intr - 163152 162947 206 1 2 119 75 192 0.999 19.92 3.30 Intr - 164544 164363 182 2 2 111 98 256 0.992 28.41 3.29 Intr - 170276 170116 161 2 2 76 87 232 0.999 20.69 3.28 Intr - 173250 173114 137 1 2 89 70 158 0.962 14.39 3.27 Intr - 174101 173964 138 0 0 89 6 162 0.982 8.54 3.26 Intr - 177478 177352 127 1 1 96 13 264 0.970 19.95 3.25 Intr - 178108 177972 137 2 2 86 110 156 0.982 17.89 3.24 Intr - 179783 179493 291 0 0 75 111 238 0.360 21.91 3.23 Intr - 182128 181961 168 2 0 90 30 97 0.794 4.02 3.22 Intr - 185849 185770 80 1 2 90 117 11 0.995 3.39 3.21 Intr - 186399 186251 149 0 2 105 97 89 0.999 10.53 3.20 Intr - 188967 188864 104 1 2 57 99 128 0.950 10.69 3.19 Intr - 196236 196121 116 2 2 22 105 52 0.713 0.39 3.18 Intr - 197736 197567 170 0 2 68 113 -5 0.468 -1.26 3.17 Intr - 199358 199176 183 2 0 54 81 91 0.947 4.98 3.16 Intr - 200300 200165 136 1 1 84 77 82 0.689 7.27 3.15 Intr - 201193 200991 203 1 2 74 92 182 0.999 15.28 3.14 Intr - 202563 202482 82 2 1 71 86 109 0.938 8.64 3.13 Intr - 204744 204555 190 1 1 65 55 120 0.981 5.04 3.12 Intr - 205153 204982 172 1 1 58 94 154 0.226 12.52 3.11 Intr - 208030 208005 26 2 2 83 77 4 0.427 -3.46 3.10 Intr - 208714 208530 185 0 2 19 100 219 0.944 15.63 3.09 Intr - 209505 209359 147 2 0 91 111 74 0.944 9.35 3.08 Intr - 212997 212831 167 0 2 94 92 158 0.975 15.56 3.07 Intr - 213239 213098 142 1 1 107 49 197 0.989 18.06 3.06 Intr - 213487 213352 136 2 1 106 84 39 0.991 4.93 3.05 Intr - 216554 216379 176 1 2 68 84 145 0.992 11.68 3.04 Intr - 217028 216940 89 2 2 86 88 24 0.995 0.97 3.03 Intr - 217990 217798 193 0 1 63 99 99 0.939 7.99 3.02 Intr - 220612 220449 164 1 2 66 87 53 0.872 1.77 3.01 Intr - 222006 221902 105 0 0 60 80 68 0.741 3.61 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 154948 153665 1284 1 0 87 77 1699 0.827 158.79 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586f:112030523_112252788|GENSCAN_predicted_peptide_1|759_aa MATRGHVQDPNDRRLRPIYGPVGRVVLQTPALPAGCIVTAAPRETGDLPEGGSRLRHEDY LDNGNNKMAIQQADKLLKKHKDLHCAKVLKAIGLQRTGKQEEAFTLAQEVAALEPTDDNS LQALTILYREMHRPELVTKLYEAAVKKVPNSEEYHSHLFMAYARVGEYKKMQQAGMALYK IVPKNPYYFWSVMSLIMQSISAQDENLSKTMFLPLAERMVEKMVKEDKIEAEAEEDLSQL GFNPVCIIQSDFSSDDWQFYLTYFDSVFRLIEEAWSPPAEGEHSLEGEVHYSAEKAVKFI EDRITEESKSSRHLRGPHLAKLELIRRLRSQGCNDEYKLGDPEELMFQYFKKFGDKPCCF TDLKVFVDLLPATQCTKFINQLLGVVPLSTPTEDKLALPADIRALQQHLCVVQLTRLLGL YHTMDKNQKLSVVRELMLRYQHGLEFGKTCLKTELQFSDYYCLLAVHALIDVWRETGQYA AASQSCNFALRFFHSNQKDTSEYIIQAYKYGAFEKIPEFIAFRNRLNNSLHFAQVRTERM LLDLLLEANISTSLAESIKSMNLRPEEDDIPWEDLRDNRDLNVFFSWDPKDRDVSEEHKK LSLEEETLWLRIRSLTLRLISGLPSLNHPVEPKNSEKTAENGVSSRIDILRLLLQQLEAT LETGKRFIEKDIQTISVILWVSSYCESVLRPYKLNLQKKKKKKKETSIIMPPVFTSFQDY VTGLQTLISNVVDHIKGLETHLIALKLEELILEDTSLSP >gi568815586f:112030523_112252788|GENSCAN_predicted_CDS_1|2277_bp atggcgacgcggggccatgtgcaggaccctaacgacaggcgcctccggcccatttacggc cccgtgggacgcgtggttctgcagacacctgcgctacccgcaggctgcatcgttaccgcc gctcctagggagaccggagatctccccgaaggtggaagccggctccggcacgaggattat cttgacaatggtaataataaaatggcaattcagcaagcagataaactgttgaagaaacat aaggatcttcattgtgctaaggttttaaaggcaattggtttacagagaactggaaagcaa gaggaagcctttactcttgcacaggaggtggcagcccttgaacccacagatgacaactca ctgcaggcactgactatcctttaccgggagatgcaccgaccggagttagttacaaaactt tatgaggcagctgtgaagaaagttcccaatagtgaggagtatcactctcacctcttcatg gcctatgccagagtgggtgaatacaagaaaatgcaacaggctggcatggctctatataag attgtccccaaaaatccctactacttttggtctgtgatgagcttaattatgcaatctata tcggcacaggatgaaaacctctcaaaaacaatgtttctgccccttgctgagagaatggtc gaaaaaatggtgaaagaggacaagatagaagctgaggctgaagaagatctgtcacaactt gggtttaatcctgtgtgcatcattcaatctgattttagctcagatgactggcagttctat ctgacttatttcgattctgtctttcgactgattgaagaggcctggagtcctcctgctgaa ggtgaacactctttagaaggagaagtacattattctgcagaaaaagctgtgaagtttata gaagatcggataacggaagaatctaaaagttctcgccatctccgaggaccacatctagct aaattggagctgattaggcgtttacgaagtcaaggttgtaacgatgagtacaaactgggt gatccagaagaattaatgttccagtattttaaaaagtttggcgataaaccttgttgtttt acagaccttaaggtgtttgttgacctcttacctgctacacagtgtacaaaatttattaat cagttacttggagttgttcctttgtcgacaccaacagaggataagctggcactgcctgct gacatcagagctctgcagcaacatttgtgtgtggtgcagctgacgaggttacttggcttg taccacaccatggataaaaatcagaaattgagtgtggtcagagaattgatgttaaggtac cagcatggactggaatttgggaaaacctgtttgaaaacagaattgcaattttctgactat tactgtctccttgctgtccatgcgcttattgatgtatggagggaaacaggtcagtatgct gctgcgtcccaatcctgtaacttcgcactcaggttttttcactccaaccagaaagatacc tcagaatatattattcaagcttacaaatatggtgcatttgagaagatcccagagtttatc gcttttaggaacaggctgaataattctcttcattttgcacaagtccgtactgaacggatg ctgttagaccttctacttgaagcaaatatatcaaccagtttagcagaaagtataaagtca atgaaccttaggccagaagaagatgacattccatgggaagatttgcgagacaacagagac ttaaatgtttttttcagctgggatccaaaagacagggacgtttctgaagaacataagaaa ctttccttagaggaggagaccttgtggttaagaatccgatccttaacattgaggctgata agtggacttccaagtctcaaccaccctgtggagccaaagaactcggagaagactgccgag aatggggtatcctcccggattgatattcttcgtttgctccttcaacagctggaggcaacc ctggagacaggaaagcgatttattgagaaggatattcagactatttctgttatcctttgg gtatccagttactgtgagagtgtcctacgaccatacaaactaaatttacagaaaaagaaa aagaagaaaaaagaaaccagcatcatcatgccacctgtctttaccagtttccaagactat gttactgggcttcagactttaatttccaatgttgtggatcatattaaagggcttgaaaca catctaattgcacttaaacttgaagaacttattttagaagacacttctctctcaccg >gi568815586f:112030523_112252788|GENSCAN_predicted_peptide_2|640_aa MIRAHSSPASWARGILPPQPPKEVELQMCRGQGFQGHAPVGLQGANRRAEGGALGATTVL SNGPTAGAAPGQWARSSAMGGSGWSGEPGSGRRSQRRCDHRVPGGAGLSAGLGLESEPRA AGVGGREWPNAASKPKDPSPSSHSDPLVLWKTQEELKMAEFLDDQETRLCDNCKKEIPVF NFTIHEIHCQRNIGMCPTCKEPFPKSDMETHMAAEHCQVTCKCNKKLEKRLLKKHEETEC PLRLAVCQHCDLELSILKLKEHEDYCGARTELCGNCGRNVLVKDLKTHPEVCGREGEEKR NEVAIPPNAYDESWGQDGIWIASQLLRQIEALDPPMRLPRRPLRAFESDVFHNRTTNQRN ITAQVSIQNNLFEEQERQERNRGQQPPKEGGEESANLDFMLALSLQNEGQASSVAEQDFW RAVCEADQSHGGPRSLSDIKGAADEIMLPCEFCEELYPEELLIDHQTSCNPSRALPSLNT GSSSPRGVEEPDVIFQNFLQQAASNQLDSLMGLSNSHPVEESIIIPCEFCGVQLEEEVLF HHQLSNSDSQDIQGRNRDSQNGAIAPGHVSVIRPPQNLYPENIVPSFSPGPSGRYGASGR SEGGRNSRVTPAAANYRSRTAKAKPSKQQGAGDAEEEEEE >gi568815586f:112030523_112252788|GENSCAN_predicted_CDS_2|1923_bp atgatcagggctcactccagccctgcctcctgggctcgagggatccttccacctcagcct cccaaggaggtggaactacagatgtgcaggggccagggcttccagggacacgcccccgtg ggcctccagggagccaatcgacgcgcagaaggcggggccctgggagcgacaacggtgtta tccaatgggccgacagctggagccgcccctggccaatgggcgcgctcctccgcgatgggc ggaagtggttggtctggtgagccgggaagcgggcgtcgttcgcagcgccgctgtgaccac cgcgtcccgggcggagctgggctcagtgccggcctgggcctagagtccgagcctcgagct gccggcgtggggggtcgcgagtggcctaatgcggcctcgaagccgaaggacccgagtccg agctcgcactccgacccgctggtgctgtggaaaactcaggaagagctaaagatggctgaa tttctagatgaccaggaaactcgactgtgtgacaactgcaaaaaagaaattcctgtgttt aactttaccatccatgagatccactgtcaaaggaacattggtatgtgtcctacctgtaag gaaccatttcccaaatctgacatggagactcacatggctgcagaacactgtcaggtgacc tgcaaatgtaacaagaagttggagaagaggctgttaaagaagcatgaggagactgagtgc cctttgcggcttgctgtctgccagcactgtgatttagaactttccattctcaaactgaag gaacatgaagattattgtggtgcccggacggaactatgtggcaactgtggtcgcaatgtc cttgtgaaagatctgaagactcaccctgaagtttgtgggagagagggggaggaaaagaga aatgaggttgccatacctcctaatgcatatgatgaatcttggggtcaggatggaatctgg attgcatcccaactcctcagacaaattgaggctctggacccacccatgaggctgccgcga aggcccctgagagcctttgaatcagatgttttccacaatagaactaccaaccaaaggaac attacagcccaggtttcaattcagaataatctgtttgaagaacaagagaggcaggaaagg aatagaggccaacagccccccaaagagggtggtgaagagagtgcaaacttggacttcatg ttggccctaagtctgcaaaatgaaggccaagcctccagtgtggcagagcaggacttctgg agggccgtatgtgaggccgaccagtctcatggcggtcccaggtctctcagtgacataaag ggtgcagctgacgagatcatgttgccttgtgaattttgtgaggagctctacccagaggaa ctgctgattgaccatcagacaagctgtaacccttcacgtgccttaccttcactcaatact ggcagctcttcccccagaggggtggaggaacctgatgtcatcttccagaacttcttgcaa caggctgcaagtaaccagttagactctttgatgggcctgagcaattcacaccctgtggag gagagcatcattatcccatgtgaattctgtggggtacagctggaagaggaggtgctgttc catcaccagctcagcaactcagacagccaggacatccaggggcggaatcgagacagccag aatggggccatagcccctgggcacgtttcagtgattcgccctcctcaaaatctctaccca gaaaacattgtgccctctttctcccctgggccttcagggagatacggagctagtggtagg agtgaaggtggcaggaattcccgggtcacccctgcagctgccaactaccgcagcagaact gcaaaggcaaagccttccaagcaacagggagctggggatgcagaagaggaagaggaggag taa >gi568815586f:112030523_112252788|GENSCAN_predicted_peptide_3|2987_aa VEGDTVTFSFEMRSGREHNTPDKAMWGFACTVRAQESSEDVSGGLPFLVDLALGLSVLAC SMLRILYNGPEITKEEEACQELLRSKLLQREVIQPDVMEEMVVSCVIKHLNLVDALQSLI NFQYQEEHAEEYDLLCKIMGETFKKLNAMERQLQNKMKELELLCSMKEVSFDGNDLENMV LSLREKFLQEVNSLIQKPSHPLAKTKTLVKSLMNRAELLLHVTIAAQSGLTRSISGTPAE TPACKSASETKVISHAVRQPVFLRSMSAPSDLEMIGNEDLEFTRANQRRRHVTSHRSSSF TLLQSLAIEDSRDKPTYSVLLGQLFAFIGTNPDQAVSSSSFLLAAQTRWRRGNTRKQALV HMRELLTAAVRVGGVTHLVGPVTMVLQGGPRIEELTCGGMVEQVQEAFGETMTSVVSLCA RYPIACANSIGLLCTIPYTRSEEKCLVRSGLVQLMDRLCSLSNQTESSSSEKQTKKQKVA TMAWAAFQVLANRCVEWEKEEETGSYYVAQLCRAALPLMSVEDCGNVELPPWSYSVPSLN SEQEDPSDPASKIASLLLAKLADYVVPGCQTVLSPTASEPDTTLTKTSPKNSLKGDKDPG EESEAVDGKLSIFIHKREDQSSHEVLQPLLSSSEGRPFRLGTGANMEKVVKMDRDMTKGG CCEVITEEAAAALRKATKWAQSGLIVSIGPPVESINPETVSGLSTGDKKKTAQTSICRER NSELARTDPVRPFISGHVANSMAAEVIALLHSLLMAPESNAAQIWTTTAEKVLSRALMYI PQLGKYAESILENGSSSGRKLAKLQRIARQAVAALCALGGFKETIKIGSEVQALPLHKLS ITEKVVQAVQSMLLPQEGSLSIHTSLPATGDGSAPVMAVVRLLAEIRTRACLVMAQLLED SLFCEEFIQQCPAAVEVLNLVAQECSAGERLAVVEVQCERLRMLYRDCARPPPPPLQADR RQAPSFYWEIEIVSYGDTDDDTGPIVSFGFTTEAEKRDGAWTNPVGTCLFHNNGRAVHYN GSSLLQWKSVRLDVTLSPGDVAGIGWERTEGTPPPPGQPAKGRVYFTYCGQRLSPYLEDV SGGMWPVVHIQKKAEIKINVSLSKSFIWSPFQNTKTRANFGSRPFAYAEGQAHRNAADLC TDLAEEISANFEALPFAMASDSDNDAGTSIASDPGTHGPPCRIAAVATAQQQYDSDTSCH YKVELSYENFITSGPDPHPPPIADDESDDDDDDDIPQEDHYALLVKAWETKVFPTIRRRF RNEAERKSGLDQIKGALQLGMVDIARQTVEFLYEENGGIPRDLYLPTIEDIKDEANKFTI DKVRKGLTVVTRSPDSNNVASSAVGTALPKFAIRGMLKTFGLHGVVLDVDSVNELVQVET YLRSEGVLVRYWYPIDMLERPPAGYRRTATNGLVTLDNTNLQIHRELLRCEAALARLYCR MALLNIFAPKLPHLFTRLFHIPAIRDITLEHLQLLSNQLLAPPLPDGTISSSSILLAQSL QHCIHSQNCSATDLFYQGNSQTVREWLNVAITRTLHQGEESLLELTKQICSFLQTAPEQF PSEEFPISESKVNMDVNFPGAAFVVVSCKESQSGFRKDSSLYKAPWARVLVYGLGHKVKR NGQLNLIEAACYPRDASPANTGLAPPPTADQYPSVVLSTDRVHIKLGVSPPPGAVLVLHS LPLEFPLAMAFAEQLLSWKSEDSEGKSEDEPDTIPTSVLLQVVELLGNFLWTTDMAACVK ELVFHLLAELLRTVHTLEQRRHPAGLSSSIALQLNPCLAMLMALQSELHKLYDEETQNWV SGGACGGSGGAAAGDQGRFSTYFHALMEGCLAVAEVTLPTNMSVTASGVTSATAPNLSDS SSSSSSSPGQTPQSPSLLSKRKKVKMKREKASSSGKRQSSRTVDSDPTVLSIGGSKPEDM LWFHRALTLLIILRHLTRKDPQGLGVTSDAIADACQALVGPTAHSRLLVISGIPTHLDEG VVRGAIRKACNAHGGVFKDEIYIPLQEEDTKKPKDKAEGGDGKVEPEKTLAFPGTDSMEV STSSSLTPAMSISASASTSQASICSSQGISQTVSDLSVDPLPAGLELPIPPGLLEPHAVS SQESLDISLCSTGSLGSLGSLGEPLDNAETASVSDMGSMYTVTSLDNQPLAARPIKGFAV VEIRSRAKIEKIRASLFNNNDLIGLSSLDGEDELMEMSTEEILTVSVVNQSLFDTQGSPG LEDYFNDKSIKGEKLVPGAREVLTEIFKSCAHSEQTLSLTPAKPIRVSDIYLSKEQINSQ TPGNLLHLFFTNVRPPKKVLEDQLTQILRKYGVPKPKFDKSKYSKAGKEQHPVKVVSTKR PITKPPAKDKAVLNSVSRTALSEKKPTVKPKSPEKSKPDEKDPEKSPTKKQEVPEEKYLT LEGFHKFVIDRARQDIRSVWRAILSCGYDLHFERCACIDVRHAQKASRKWTLEMDVALVQ YINQLCRHLAITPARLHPHEVYLDPADAADPRVACLLNVPIESLRLRFALLQSLNTTLET FFLPLVELRQTPMYTHSIAALLKEAKGLIFYDTKVTVMNRVLNATVQRTADHAAPEITLD PLEIVGGEIRASENSYFCQAARQLASVPSSQLCVKLASGGDPTYAFNIRFTGEEVHGTSG SFRHFLWQVCKELQSSSLSLLLLCPSSAVNKNKGKYILTPSPITYGEEQLLHFLGQLLGI AIRADVPLPLDLLPSFWKTLVGEPLDPEQDLQEADILTYNYVKKFESINDETELEALCAE IASQHLATESPDSPNKPCCRFTYLTMTGEEVELCSRGRHILVAWENKDIYAAAIRSLRLR ELQNVECVTAVRAGLGSIIPLQLLTMLSPLEMELRTCGLPYINLEFLKAHTMYQVGLMET DQHIEFFWGALEMFTQEELCKFIKFACNQERIPFTCPCKDGGPDTAHVPPYPMKIAPPDG TAGSPDSRYIRVETCMFMIKLPQYSSLEIMLEKLRCAIHYREDPLSG >gi568815586f:112030523_112252788|GENSCAN_predicted_CDS_3|8964_bp gtggaaggagatacagtcaccttctcctttgaaatgagaagtggccgtgaacacaacact cctgataaagccatgtggggctttgcttgcacagttcgcgctcaggagtcttcggaggat gtctcaggaggcttgccctttctggtagacctggctttaggtctgtctgtgttagcttgt tccatgttaagaatcctgtacaatggaccagaaattaccaaagaagaagaagcctgtcag gagctattgcggtccaaacttttacaaagagaagtgattcagccagacgtgatggaggaa atggtggtatcttgtgttattaagcacttgaacttggttgatgcactgcagtctctaata aatttccaatatcaagaagaacatgctgaagaatatgatttattatgtaaaattatggga gagacctttaagaaactcaatgccatggagagacagctgcagaacaaaatgaaagaacta gaacttttatgttcaatgaaggaagtctcctttgatgggaatgatcttgaaaacatggtc ctatcactgagggagaagttcctacaagaagtgaattctcttattcagaaaccctcacac ccactggctaaaacaaagacgttagtgaagagtttaatgaaccgagccgagctgttgctg catgtcaccatcgcagcccagtcgggcctcacgagaagcatctctgggacccctgctgaa acaccagcttgtaaatcagcttctgaaacaaaagtgatatctcacgctgtcaggcagcct gtttttcttcgcagcatgtcagctccttctgacctggaaatgattggtaatgaagatttg gaatttactagagcaaatcagaggcgtcgccacgtgaccagccaccgcagcagctccttt acactcctgcagtcgctggccattgaggacagcagggacaagcccacctacagtgtcctg ctagggcagctgtttgctttcatcggcaccaaccctgaccaagctgtgtccagcagcagt ttccttttggctgcacagacaaggtggcggcggggaaacactcgcaagcaggcactggtg cacatgcgggaattgctgacagctgccgtacgagtcgggggagtgacgcatcttgtgggt ccagtgacgatggtccttcagggaggacccagaattgaagaactcacatgtggtgggatg gtcgagcaggtccaggaagcctttggcgagaccatgacctctgttgtgtctctgtgtgct cgttaccctatcgcttgcgcaaatagcattggactcttatgtaccataccttacaccagg agcgaagagaagtgcctggtacgcagtggccttgtgcagctcatggatcgactgtgtagc ttgagcaatcagaccgagtccagctccagtgagaaacagaccaagaagcagaaggtggcc accatggcctgggctgccttccaggtgcttgccaaccgctgtgttgagtgggaaaaagag gaagagacaggatcttactatgttgcccagctgtgccgggcggcgctgcccctgatgagc gtagaagactgtggaaacgtggagctcccaccctggagctactctgtcccctccttaaac agtgagcaggaggatcccagcgacccagcttccaagatcgcctccctgctcttagcaaag ctggcagattatgtggttccaggatgtcagacagttctttctccaaccgcttctgaacct gacaccacattgacaaaaaccagtcccaagaattccttgaaaggagataaagatcctgga gaagagagtgaggctgtggatggcaagctctcgatatttatccacaagcgggaagaccag tcatcccatgaagtcctccagccattgctaagtagttcagaaggacggcccttccgactt ggtactggcgccaacatggagaaagttgtgaagatggatcgagacatgaccaagggtggc tgttgcgaagtgattacagaagaggctgcagccgccctgcggaaagccaccaagtgggca cagtcaggcctcatcgtcagcattgggccacctgtagagtctatcaacccagagactgtg agtggactatccacaggcgacaaaaagaaaactgcccaaacttccatttgccgagagagg aactcggagcttgcaaggactgatcctgtgcgtcccttcatcagtgggcatgtggcaaac agcatggctgcagaagtgatcgccttgctacatagcttgctcatggcacctgaatcaaat gctgctcaaatatggaccacaacagcagagaaggttctgtctagagcactgatgtacatt ccacaattggggaaatacgcagaaagcattctggaaaatggcagcagcagtggcaggaaa cttgccaaacttcagagaattgcacgccaggccgttgccgcactgtgtgcacttggaggc ttcaaagagacaatcaagataggatccgaggttcaggcattgcctcttcataaactgtcc attactgagaaggtagtacaggcagtccagtccatgttgcttcctcaggagggaagtctc tctattcacacctcacttcctgcaacaggagatgggtcagctcctgtgatggcagtcgtt cggctccttgctgaaataaggacaagagcatgcctggtcatggcccagcttttagaagac agcttattttgtgaagaattcatacaacaatgtccagcagctgttgaagttcttaaccta gtagcccaggaatgtagtgctggagagcgacttgcagttgtggaggtacagtgtgaacgg ctgaggatgctctaccgggactgtgctcggcccccaccacctcctttgcaggctgaccga agacaggccccgtctttttactgggaaattgaaatcgtttcctatggagacaccgatgat gacaccggacccatagtttcctttggcttcactacagaagcagagaagcgagatggggct tggactaatccagtgggcacttgtcttttccataacaacggccgagccgtgcactataat ggctccagtttgttacagtggaagagcgttcgcttagacgtgactctctcccccggtgac gtggcaggaattggctgggagagaactgaggggactccacctcctccgggacagccagcc aagggccgggtgtacttcacatactgcgggcagcgcctctcaccatatcttgaagacgtc tctggtggcatgtggccagtggttcacattcagaaaaaggcagaaataaaaataaacgta agtctttccaaatccttcatttggtctcctttccagaacaccaaaacccgagctaacttt ggctcccggccgtttgcctacgcggaagggcaggcccaccgcaatgctgctgacctgtgc actgacctagcagaagagatcagcgctaactttgaggccctgcctttcgccatggcatct gacagtgacaatgatgctggcaccagtattgcatcagacccaggcactcatgggccacca tgccggattgctgccgtggccaccgctcagcaacaatatgatagtgacacctcctgtcat tataaagtcgagctcagctatgagaatttcatcacctctggcccagaccctcacccgcct cccattgcagatgatgaaagcgatgatgatgacgatgatgacatccctcaggaggaccac tacgccctgctggtgaaagcatgggagaccaaggtttttcctaccatccgaagacgcttc cgcaatgaagcagagcggaaatcgggcctggaccagataaagggggccttacaactaggt atggtggatattgcccgacagacggttgaatttctctacgaagagaatggtggcatccca agagacctttatcttcccaccattgaagacattaaagacgaagcaaacaagttcacaatt gataaagttcgaaaaggtctcacagtagtaacccgctctccagacagcaataatgtagcc agcagtgctgttggaactgctctgccaaaatttgccatccgagggatgctgaaaaccttt gggcttcatggagtcgtcttagatgttgattcagtgaatgaactggtgcaggtagaaacg tacctccgcagtgaaggtgtgctggtgcgatactggtatcctattgacatgttggaaagg cccccagcaggctaccgaaggactgccaccaatgggctggtcacactggacaataccaac cttcaaattcacagggagctgctgcgctgcgaggctgcgctggccaggctgtactgccgc atggccctgctcaatatcttcgccccgaagttgcctcacttgttcactcgcctcttccac atccctgccatccgggacattaccctggagcacctgcaactgctgtccaatcagctcctc gcacctcctctcccagacggcaccatcagctccagctcgatcctcctggcgcagtcttta cagcattgcatccattcccagaactgctccgccacggacctcttttaccagggcaactcc cagacagtgagagagtggctcaacgtggccatcacccggaccctgcaccagggcgaggag agccttttagagctgacgaaacagatctgctctttcctgcagacagcaccagagcagttc ccctccgaagagttcccaatttccgaatccaaagtcaacatggacgtgaatttccccggg gcagcttttgttgttgtgtcttgtaaagaaagtcaatctggattccgcaaagactcctct ctgtacaaggcaccgtgggcacgggtgctcgtatatggcctcggccacaaagtgaagcga aatggccagctgaacctcatcgaggccgcctgttacccgcgggacgcgtccccagccaac actgggcttgcacctccccccaccgctgaccagtacccctctgtggtcctctccacagac agggtccacatcaaactgggggtgtctccacctcctggagcagtcctggtgttacattcc ctgcccctggagttcccactggctatggccttcgcagagcagctgctgtcctggaaatca gaggacagtgaagggaagtccgaagatgagcctgacaccattccgacatccgtcctcctg caggtggtggagctgctaggaaacttcttgtggaccacggacatggcagcctgcgtgaag gagcttgttttccatctcctggcagagctcctgcgcacggtgcacaccctggagcagagg cggcaccccgctggcctgtcctcctcaatcgccctccagctgaacccctgcctggccatg ctgatggccttgcagtcggagctccacaagctgtacgacgaggagacgcagaactgggtc tcaggcggcgcctgcgggggctccgggggggcggcggccggtgaccagggcaggttctct acgtattttcatgcactcatggaagggtgcctggctgtggccgaagtgaccctgcctact aacatgagtgtcacagccagtggggtgacctcagcgaccgccccaaatctcagtgactcg tcctcctcctcctcgtcctccccaggacagaccccacagagtcccagcctcctctccaag aggaaaaaagtcaagatgaagcgggaaaaggcctcctcgtcgggcaagcgccagtcttcc cgcaccgtggactcggaccccaccgtgctcagcatcggaggcagcaagcccgaggacatg ctgtggttccaccgcgcactcaccctgctcatcatcctccgccacctcaccaggaaggac ccacaggggctgggcgtgacgagtgacgccatcgccgatgcctgccaggccctggtgggc cccaccgcccacagccgcttgctggtgatctccgggatccccacccacctggacgagggc gtagtcagaggcgccatccgcaaggcctgcaacgcccacggcggggtcttcaaagacgag atctacatcccgctgcaggaagaagacaccaagaagccaaaagacaaggccgagggcggg gacgggaaagttgagcccgagaagacactggccttccccggcacagacagcatggaggtc agcacgtccagcagcctgacccccgccatgagcatcagcgcctccgcctccaccagccag gcctccatctgcagctcgcagggcatctcccaaaccgtcagcgacctctctgtggatccg ctgcctgccggcctcgagctgcccatccctccgggcctgttggagccccacgcggtgtcc agccaggaaagcctggacatttccctgtgcagcaccggcagcctgggcagcctgggcagc ctgggggagcccctggacaatgcagagacggcctcggtgtcggacatgggctccatgtac acagtcacttccctggacaaccagcccctcgccgcccgccccatcaaaggcttcgcagtc gtggagataagatcccgagccaaaattgagaaaattcgagcaagtttatttaacaataat gacttgattggtttgtcaagtttggatggtgaagatgaattgatggaaatgtcaacagaa gagattctaaccgtgtctgtagtaaatcagagtctctttgatactcaagggagcccaggg ttagaagattatttcaatgataagtcaattaaaggggagaagctggtgcccggagccaga gaggttctgacggagatatttaagagttgtgcccattcagagcagacgctgagcctgaca ccagcgaagcccatcagagtctctgacatttatcttagcaaagagcagatcaactcccag accccaggcaacctcctccacctcttcttcaccaatgtccggccgccaaaaaaggtgctg gaggatcagctcacccagatcctgaggaagtatggcgtgccaaagcccaagtttgacaag agcaagtacagcaaggccgggaaggagcagcaccccgtgaaggtggtgagcaccaagcgg cctatcaccaagccgcccgccaaggacaaggctgtgctcaacagcgtcagcaggactgcc ttaagtgagaagaagccaactgtgaagccaaaatcaccagaaaagagcaaaccagatgaa aaggacccagaaaagtcacctaccaaaaaacaagaagtccctgaggaaaaatacctgacg ctggaaggatttcacaaatttgttattgaccgagccaggcaagatatccgtagcgtctgg agggcgatcttgtcctgtggttacgatcttcactttgagaggtgcgcatgcatcgatgtc cgacatgcacagaaggcctcaagaaagtggaccctggagatggacgtggcacttgtgcag tacatcaaccagctatgccgccacctcgccatcacacccgcacggctccatccccatgag gtgtacctggaccccgcggatgctgctgaccccagagtggcctgtctcctgaacgtgccc atcgagagcctgcgcctgcgcttcgccttgctgcagtccctcaacaccacactggagacc ttcttcctgcccctggtggagctgcgccagacacccatgtatacccacagcatcgccgcc ctgctgaaggaggccaaagggctgatcttctatgacacgaaggtgaccgtgatgaatcga gtgctgaatgccactgtgcagaggacagcggaccacgcggcccctgagatcaccttggac ccactggaaattgtgggaggggaaatcagagcttctgaaaactcctacttctgtcaggct gccaggcagctggcctcagtgccgtcgtctcagctctgcgtcaagctggccagtggcggt gaccccacatatgccttcaacatccgcttcactggcgaggaggtccatggcaccagcggc tctttccgccacttcctgtggcaggtgtgtaaggagctgcagagttcctcgctgtcgctg ctgctgctgtgccccagctcagctgtcaataagaacaagggcaagtatatcctgaccccg agccccatcacctacggggaggagcagctgctgcacttcctggggcagctgctggggatt gcaattcgggcagacgtcccgctgcccctggacctcctgccctccttctggaagacgctg gtgggcgagcccttggaccctgagcaagacctgcaggaagcggatatcctcacctacaat tacgtcaagaagtttgagagcatcaatgatgagaccgagctggaggccctgtgcgctgag atcgcctcccagcacctggccacggagagccctgacagccccaacaagccctgctgcagg ttcacctacctgaccatgacgggcgaggaggtggagctgtgcagccggggccggcacatc cttgtggcgtgggagaacaaggacatctacgcggcagccatccggagcctgcggctgcgg gagctgcagaatgtggagtgcgtgacggccgtgcgggccggcctgggctccatcatcccc ctgcagctgctgaccatgctcagcccactggagatggagctgcgcacctgcggcctcccc tacatcaacctcgagttcctcaaggcccacaccatgtaccaagtggggctgatggagacg gaccagcacatcgagttcttctggggggccctggagatgttcacccaggaggagctgtgc aagttcatcaagtttgcctgcaaccaggagcgcatcccgttcacctgcccctgcaaagat gggggtcccgacactgcccatgtgcccccgtaccccatgaagatcgcccccccagatggc acagcaggttccccagactctcgctacatccgcgtggagacctgcatgttcatgatcaag cttccccagtactcctctctggaaatcatgctggagaaacttcgttgtgccattcactac cgtgaagaccccctcagtggctga