GENSCAN 1.0 Date run: 3-Nov-116 Time: 09:48:11 Sequence gi568815588r:77692443_78026520 : 334078 bp : 46.92% 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 Term + 9756 9868 113 1 2 79 52 114 0.758 5.62 1.02 PlyA + 10743 10748 6 1.05 2.00 Prom + 16258 16297 40 -2.86 2.01 Init + 17930 18029 100 1 1 35 91 66 0.014 0.03 2.02 Term + 19049 19182 134 0 2 145 48 97 0.036 9.65 2.03 PlyA + 20994 20999 6 1.05 3.00 Prom + 21174 21213 40 -1.96 3.01 Init + 25772 25826 55 1 1 58 101 31 0.666 2.85 3.02 Intr + 27215 27318 104 0 2 68 44 90 0.012 2.49 3.03 Intr + 32086 32215 130 0 1 115 92 -14 0.049 1.97 3.04 Intr + 38319 38585 267 1 0 16 25 242 0.505 8.20 3.05 Intr + 38603 39035 433 0 1 28 -19 311 0.529 7.10 3.06 Intr + 39688 39806 119 1 2 124 6 110 0.756 6.51 3.07 Intr + 39808 40454 647 2 2 -18 35 474 0.290 23.20 3.08 Intr + 40760 41610 851 1 2 23 -9 468 0.197 20.77 3.09 Intr + 41633 41870 238 2 1 45 -81 343 0.286 10.72 3.10 Term + 41943 42332 390 2 0 12 42 320 0.298 14.79 3.11 PlyA + 42372 42377 6 1.05 4.00 Prom + 59399 59438 40 -1.16 4.01 Init + 80443 80578 136 0 1 21 86 99 0.460 3.30 4.02 Term + 80661 80833 173 1 2 63 48 143 0.982 5.79 4.03 PlyA + 83541 83546 6 1.05 5.45 PlyA - 84159 84154 6 1.05 5.44 Term - 88328 87892 437 0 2 -1 45 608 0.491 43.05 5.43 Intr - 88861 88361 501 2 0 -22 50 681 0.234 46.25 5.42 Intr - 89040 88911 130 0 1 -28 42 147 0.132 -1.23 5.41 Intr - 89435 89288 148 1 1 5 28 301 0.133 16.04 5.40 Intr - 99306 99255 52 1 1 98 38 32 0.109 -2.83 5.39 Intr - 101675 101566 110 1 2 111 96 132 0.958 16.23 5.38 Intr - 102516 102407 110 0 2 76 58 168 0.935 11.68 5.37 Intr - 103746 103619 128 1 2 104 75 176 0.999 18.30 5.36 Intr - 104152 104009 144 2 0 116 87 148 0.999 17.75 5.35 Intr - 112386 112231 156 1 0 67 34 80 0.298 0.48 5.34 Intr - 113419 113100 320 0 2 96 93 288 0.990 25.70 5.33 Intr - 114486 114316 171 2 0 71 75 330 0.998 29.06 5.32 Intr - 115502 115354 149 2 2 74 81 285 0.514 25.43 5.31 Intr - 117288 117105 184 2 1 38 105 221 0.993 18.59 5.30 Intr - 118792 118652 141 0 0 98 76 127 0.989 11.97 5.29 Intr - 119702 119482 221 2 2 113 109 305 0.909 32.20 5.28 Intr - 119935 119773 163 0 1 87 78 277 0.997 26.58 5.27 Intr - 124259 124109 151 0 1 102 99 58 0.992 7.52 5.26 Intr - 125447 125335 113 1 2 92 28 97 0.699 4.12 5.25 Intr - 127023 126879 145 1 1 12 91 62 0.719 -1.76 5.24 Intr - 127576 127453 124 1 1 83 92 14 0.292 1.46 5.23 Intr - 129659 128640 1020 2 0 90 65 842 0.905 72.93 5.22 Intr - 132034 131942 93 1 0 117 116 138 0.997 19.66 5.21 Intr - 136543 136440 104 2 2 80 115 49 0.999 6.69 5.20 Intr - 137088 136913 176 2 2 84 69 348 0.993 32.08 5.19 Intr - 137902 137775 128 1 2 85 116 144 0.999 16.38 5.18 Intr - 138431 138299 133 1 1 119 115 184 0.999 24.85 5.17 Intr - 141597 141472 126 2 0 99 32 239 0.998 19.19 5.16 Intr - 143480 143296 185 2 2 95 72 257 0.985 23.39 5.15 Intr - 149751 149439 313 2 1 80 96 654 0.972 61.59 5.14 Intr - 151264 151005 260 1 2 77 75 533 0.995 47.16 5.13 Intr - 161095 160912 184 0 1 31 96 329 0.903 27.79 5.12 Intr - 161300 161154 147 1 0 58 23 108 0.359 0.65 5.11 Intr - 161928 161785 144 2 0 59 81 255 0.712 21.30 5.10 Intr - 164450 164288 163 0 1 91 52 243 0.989 20.03 5.09 Intr - 176755 176687 69 2 0 116 92 72 0.898 9.55 5.08 Intr - 178845 178594 252 1 0 119 4 170 0.916 9.11 5.07 Intr - 179844 179684 161 2 2 34 78 75 0.541 0.73 5.06 Intr - 183539 183444 96 1 0 102 53 39 0.225 0.92 5.05 Intr - 185266 185166 101 1 2 128 36 40 0.269 1.71 5.04 Intr - 187353 187134 220 2 1 121 2 70 0.029 0.00 5.03 Intr - 212257 212106 152 1 2 5 105 116 0.014 3.96 5.02 Intr - 216430 216278 153 1 0 102 94 32 0.147 5.47 5.01 Init - 219372 219265 108 0 0 87 61 109 0.207 7.01 5.00 Prom - 221726 221687 40 -6.86 6.03 PlyA - 223858 223853 6 -0.45 6.02 Term - 229360 229245 116 2 2 98 42 115 0.832 6.63 6.01 Init - 234078 233775 304 0 1 123 100 597 0.896 59.84 6.00 Prom - 235628 235589 40 -5.16 7.00 Prom + 240181 240220 40 -7.26 7.01 Init + 240296 240421 126 1 0 96 62 62 0.710 2.70 7.02 Term + 247236 247454 219 2 0 49 53 232 0.975 12.84 7.03 PlyA + 249069 249074 6 1.05 8.30 PlyA - 249346 249341 6 1.05 8.29 Term - 285184 285036 149 2 2 88 37 184 0.999 11.36 8.28 Intr - 287831 287699 133 2 1 98 66 164 0.900 15.42 8.27 Intr - 289117 288986 132 1 0 79 95 243 0.992 24.94 8.26 Intr - 289876 289712 165 1 0 86 66 260 0.989 23.76 8.25 Intr - 290375 290211 165 2 0 74 62 162 0.710 12.36 8.24 Intr - 291570 291478 93 0 0 65 81 107 0.995 7.86 8.23 Intr - 291856 291763 94 0 1 85 94 90 0.994 9.27 8.22 Intr - 292898 292728 171 1 0 109 51 182 0.975 15.66 8.21 Intr - 293543 293461 83 2 2 97 75 108 0.995 8.84 8.20 Intr - 293717 293631 87 2 0 94 75 79 0.991 7.37 8.19 Intr - 298725 298612 114 0 0 32 99 130 0.935 9.14 8.18 Intr - 300925 300755 171 1 0 98 69 146 0.895 13.84 8.17 Intr - 307676 307539 138 2 0 104 91 120 0.919 14.56 8.16 Intr - 308652 308534 119 1 2 88 121 100 0.999 13.48 8.15 Intr - 309866 309755 112 2 1 84 52 178 0.952 13.75 8.14 Intr - 312446 312274 173 0 2 46 83 303 0.972 25.26 8.13 Intr - 315424 315260 165 2 0 69 75 67 0.910 3.43 8.12 Intr - 317233 317095 139 1 1 122 76 175 0.999 19.74 8.11 Intr - 317549 317422 128 0 2 57 93 69 0.995 4.70 8.10 Intr - 318098 318029 70 2 1 116 96 40 0.997 6.35 8.09 Intr - 321348 321208 141 0 0 118 63 148 0.998 15.85 8.08 Intr - 325274 325133 142 1 1 60 105 217 0.999 20.96 8.07 Intr - 326823 326720 104 0 2 120 84 26 0.999 4.37 8.06 Intr - 329240 329104 137 0 2 63 115 93 0.998 9.79 8.05 Intr - 329580 329418 163 0 1 53 73 188 0.981 13.35 8.04 Intr - 332261 332107 155 0 2 26 99 54 0.958 0.09 8.03 Intr - 332700 332529 172 0 1 14 101 194 0.992 12.82 8.02 Intr - 333317 333180 138 2 0 63 115 107 0.995 11.56 8.01 Intr - 333787 333652 136 0 1 114 91 109 0.991 14.37 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 167404 167359 46 1 1 60 86 61 0.802 3.95 S.002 Term + 209232 209458 227 1 2 82 50 140 0.874 6.54 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815588r:77692443_78026520|GENSCAN_predicted_peptide_1|37_aa XGGFYPQGYIMATGASAIMSCLGIPEKGHNSFYQDSY >gi568815588r:77692443_78026520|GENSCAN_predicted_CDS_1|114_bp naaggtggcttctaccctcaaggctacattatggctactggagcttcagccatcatgtca tgtctggggatcccagagaagggacacaatagcttttaccaggactcctactga >gi568815588r:77692443_78026520|GENSCAN_predicted_peptide_2|77_aa MEARRVARAEPTPRTSLPTACVDTQAGRVTGAAGNAQNECFSRWGTEEPGLQLPSRHSHA EPGLACTLAPPPGGERD >gi568815588r:77692443_78026520|GENSCAN_predicted_CDS_2|234_bp atggaagcaaggcgagtagccagggcagagcccaccccccgcacctccctccccacagcc tgtgtagacacacaggccggcagagtcaccggggcagcaggtaacgcccagaacgagtgc ttctcccggtggggtactgaggagcctgggctgcagctgccgagccgccacagccacgct gagcccggcctggcctgcacactggcgccaccgcctggcggggagcgggactga >gi568815588r:77692443_78026520|GENSCAN_predicted_peptide_3|1077_aa MNSVSWEDSVQTIVAIKHESFFFSPAPWHQMDKEQLQPYAAIAGCCHTVSLWKVQRLRRK EWFHGPGPGPSGPAQLQDTAPHIPAAPAPTVAQKGPAWATEGGEKDGYNPTGNGLHNGFL TASSLDSYSKDGAKSLKGDVPASEVTSKDSTFSQFSPISSAEECGDDEKIKVDDPLTRRT CNQASGSAPQQDYDKLKAFGGENSSKTGLSPSGNMEKNKVVKREAEANSINLSVYEPFKV RKAEDKLKENSDNVLENRVLDGKLSSEKNDTCLPGTAPSKTKSSSKLSSCSSAIMALSAK KAASDSCKEPVANSRESSPLPKEVNDSQARAPLQSTVMTNAVSPAELTPKQVTIKPVATA FLPVSAVNEMKTAGSRVINLKLANNTTVKATVISAASVQSASSAIIKAANAIQQQTVVVP APSRANAKLVPKTVHLANINLLPQGAQATSELRQVLTKAQQQIKQAIINAAASQPPKKVS RVQVVSSLQSSVVEAFNKVLSSVNPVPVYIPNLSPPTNAGITLPTRGYKCLECGDSFAVE KSLTQHYDRQSMRIEVTCNHGTKNLIFYNKCSLLSHARGHKEKGVAADTRGQKTCTICQM LLPNQCSYASHQRIHQHKSLYTCPECGAICRSVHFQTHVTKNCLHYMRRVGFRCVHCNVV YSDVAALQSHIQGSHCEVFYKCPICPMACKSAPSTHSHTYTQHPGIKIGEPEIIYKCSMC DTVFTLQTLLYRHFDQHIENQKLSVFKCPDCYLLYAQKQLMMDHIKSMHGTLKSIEGPPN LGINLPLSIKPATQNSANQNKEDTKSMNGKEKLEKKSPSPVKKSVETKKVASPGWTCWEC DRLFIQRDVYISHVRKEQGKQMKKHPCRHLCQHNRIKHKGIRKVYACSHCPDSRRTFTKR LMLEKHVQLMHSLKDPDLKEMTDATNEEETEIKEDTKFPSPKWKLEEPVLKSAMCGFTTE NLLQFHEHIPQHKSDSSSYQCQECGLWYTSHVSLSRHLFIVHKLKEPQPVSKQNGAGEDN QQENKPSHEDESPNGTVSDRKCKVCVKTFETEAALNTHMRIHGMAFIKSKRMSSAKK >gi568815588r:77692443_78026520|GENSCAN_predicted_CDS_3|3234_bp atgaattcagtctcctgggaagattcggtgcaaacgatagttgcaataaaacatgaatcc ttcttcttcagtcctgctccctggcaccagatggacaaagaacaactccagccctatgct gccattgctggatgctgccacacggtgtcgctatggaaggtccagaggcttagaaggaaa gaatggtttcatgggccaggcccagggcccagtggccctgcacagcttcaggacactgct ccccacatcccagctgctccagctccaactgtggctcaaaagggcccagcctgggcgaca gagggcggggagaaagacggctacaaccccactggcaatggcctacataatgggtttctc acagcgtcctcccttgacagttacagtaaagatggagcgaagtccttgaaaggagatgtg cctgcctctgaggtgacttcgaaagactcgacgttcagccagtttagtccgatctctagt gctgaagagtgtggtgacgacgagaagatcaaggtggatgaccccctgacaaggaggacg tgcaatcaagcttcagggtcggctccccagcaggactatgataagctgaaggcatttgga ggggaaaactccagtaaaactggactctctccatcaggcaatatggagaaaaacaaagtt gttaagagagaagcagaagccaattctataaacctgagtgtttatgaaccttttaaagtc agaaaagcagaggataaattgaaggaaaactctgacaatgtgctggaaaacagagtcctg gatgggaagctgagctccgagaagaatgacacctgcctccccggcactgcgccatcaaag acaaagtcatcctccaagctctcatcctgcagctctgccatcatggctctcagcgctaaa aaggcggcttcagactcctgcaaagaaccagtggccaattcgagggaatcctccccatta ccaaaagaagtaaatgacagccaggcgcgggcgcctctccagtccacggtcatgaccaat gcagtttcacctgcagagctcacccctaaacaggtcacaatcaagcctgtggctactgct ttcctcccagtgtctgctgtgaacgaaatgaagacggcaggatcccgagtcattaatttg aagctcgctaacaacaccacagtgaaagccacagtcatatctgctgcctctgtccagagc gccagcagcgccatcattaaagccgccaacgccatccagcagcaaactgtcgtggtgccg gcacccagccgggccaacgccaaactcgtgccaaagactgtgcaccttgccaacattaac cttttgcctcagggtgcccaggccacctctgaactccgccaagtgctaaccaaagctcag caacaaataaagcaggcaataatcaatgcagcagcctcgcaaccccccaaaaaggtgtct cgagtccaggtggtgtcgtccttgcagagttctgtggtggaagctttcaacaaggtgctg agcagtgtcaatccagtccctgtttacattccaaacctgagtcctcccaccaatgcaggg atcacgttaccaacgcgtgggtacaagtgcttggagtgtggggactcctttgcagttgaa aagagtctgacccagcactatgacagacagagcatgcgcatcgaagtaacatgcaaccat ggtacaaagaacctcattttttacaacaaatgcagcctcctttcccatgcccgtgggcat aaggagaaaggggtggctgcagatacacgtggacaaaagacttgcactatctgccagatg ctgcttcctaaccagtgcagttacgcatcacaccagagaatccatcagcacaaatctctc tacacctgccctgagtgcggggccatctgcaggtcggtgcacttccagacccatgtcacc aagaactgtctgcactacatgaggagagttggttttcgatgtgtgcattgcaatgttgta tactctgatgtggctgccctgcagtctcacattcaaggttctcactgtgaagtcttctac aagtgtcctatttgtccaatggcatgtaagtccgccccaagcacacattcccacacctac acacagcatcctggcatcaagataggagaaccagaaataatatataagtgttccatgtgc gacactgtgttcaccctgcaaaccttgctgtatcgccactttgaccaacacattgaaaac cagaagttgtctgttttcaagtgtccagactgttatcttttatatgcacagaagcaactt atgatggaccatatcaagtctatgcatggaacattgaaaagtattgaagggcctccaaac ttgggtataaacttgcctttgagcattaagcctgcaactcaaaattcagcaaatcagaac aaagaggacaccaaatccatgaatgggaaagagaaattggaaaagaaatctccatctcct gtgaaaaaatcagtggaaaccaagaaagtggccagtcctgggtggacgtgttgggagtgt gaccgcctgttcattcagagagatgtgtacatatcccacgtgaggaaggagcaagggaag caaatgaagaaacatccctgccgccacctgtgccagcacaaccggatcaagcacaaaggc atcaggaaagtgtatgcctgctcgcactgcccagactccagacgtacctttaccaaacga ttgatgctagagaagcacgtccagctgatgcacagcctcaaggaccctgacctgaaagaa atgacagatgccaccaatgaggaggaaacagaaataaaagaagacaccaagttccccagt cccaagtggaagttggaagaaccagttctcaagagtgccatgtgtggcttcaccaccgaa aacctgcttcagttccacgaacacatccctcagcacaaatctgatagttcttcctaccag tgccaggagtgtggcctctggtacacgtctcacgtctctctgtccaggcacctcttcatt gtacacaagttaaaggaacctcagccagtgtccaagcaaaatggagctggggaagataac caacaggagaacaaacccagccatgaggatgaatcccccaatggcaccgtgtcagacaga aagtgcaaagtgtgcgtgaaaacttttgaaactgaagctgccttaaatactcacatgcgg atacatggcatggccttcatcaaatccaaaaggatgagctcagccaagaaatag >gi568815588r:77692443_78026520|GENSCAN_predicted_peptide_4|102_aa MKAQDKEIKRKQLGPGDHYHQDMETGSGPEQLGSLIFIAHKTRGQGSQSRERRQHMTAFS VHTYKKDQRLYFHYFFYRYLLRTSKRNQEYGRSMKVDKECDH >gi568815588r:77692443_78026520|GENSCAN_predicted_CDS_4|309_bp atgaaggcacaagacaaagagataaagagaaagcagctgggcccgggggaccactaccat caagacatggagaccggtagtggccccgaacagctgggctcgctgatatttattgcacac aagacaagggggcagggtagccaaagcagagagagaaggcagcatatgacagcgttttct gttcacacgtacaagaaagatcaaagactttactttcactatttcttctaccgctatcta ctacgaacttcaaagaggaaccaggagtacgggaggagcatgaaagtggacaaggagtgt gaccattga >gi568815588r:77692443_78026520|GENSCAN_predicted_peptide_5|2761_aa MQPAVGAAGLPVWKAVPLEMAISDSELLPWWPPQARHMASVFVSKNPSDSQKGNKEDGFS PPTPQEFIVLLENLNKWVSSSTDSARQRAKGTAYNVAARKNEEEAKAETPDKPIRSPETY YHKNSMGKTGPYDSVTSPLPPFSKDQHHPSSFQAKNPGVILDFSFFPIPHWAYEQILSAL LQAKCGIGKKEKLQNIPQIQLLLTNTILVTLVQNCLSLARSDSREQGLVLVMESRNREVV PPGVRAMVNLYLPEILGLVRFPVWVSVSVALGRAFKGGGERRFEEEGQFTGRRGTADAKS KKEGSVPAEASGAQAASVVSWDGLSIEISGGFSYLAVLTVAIQTCLEMQLSPASTRCSWF GCWRPSRTNLIPSDSRIERQDTYPFPSHSLQPMLNAFRFFRVSENVIMRLLVIAGSTYSV LSTMPSDSESSSSLSSVGTTGKAPSPPPLLTDQQVNEKVENLSIQLRLMTRERNELRKRL AFATHGTAFDKRPYHRLNPDYERLKIQCVRAMSDLQSLQNQHTNALKRCEEVAKETDFYQ FVSGDLDVSGIGLLAGFGLPLSATDLPAIGSCPLYLREVLGPEAGDALGTLHSRLLSDQT RLKDDVDMLRRENGQLLRERNLLQQSWEDMKRLHEEDQKEIGDLRAQQQQVLKHNGSSEI LNKLYDTAMDKLEVVKKDYDALRKRYSEKVAIHNADLSRLEQLGEENQRLLKQTEMLTQQ RDTAIQLQHQCALSLRRFEAIHHELNKATAQNKDLQWEMELLQSELTELRTTQVKTAKES EKYREERDAVYSEYKLIMSERDQVISELDKLQTEVELAESKLKSSTSEKKAANEEMEALR QIKDTVTMDAGRANKEVEILRKQCKALCQELKEALQEADVAKCRRDWAFQERDKIVAERD SIRTLCDNLRRERDRAVSELAEALRSLDDTRKQKNDVSRELKELKEQMESQLEKEARFRQ LMAHSSHDSAIDTDSMEWETEVVEFERETEDIDLKALGFDMAEGVNEPCFPGDCGIFVTK VDKGSIADGRLRVNDWLLRINDVDLINKDKKQAIKALLNGEGAINMVVRRRKSLGGKVVT PLHINLSGQKDSGISLENGVYAAAVLPGSPAAKEGSLAVGDRIVAINGIALDNKSLNECE SLLRSCQDSLTLSLLKVFPQSSSWSGQNIFENIKDSDKMLSFRAHGPEVQAHNKRNLIQH NNSTQTDIFYTDRLEDRKEPGPPGGSSSFLHKPFPGGPLQVCPQACPSASERSLSSFRSD ASGDRGFGLVDVRGRRPLLPFETEVGPCGVGEASLDKADSEGSNSGGTWPKAMLSSTAVP EKLSVYKKPKQRKSIFDPNTFKRPQTPPKIDYLLPGPGPAHSPQPSKRAGPLTPPKPPRR SDSIKFQHRLETSSESEATLVGSSPSTSPPSALPPDVDPGEPMHASPPRKARVRIASSYY PEGDGDSSHLPAKKSCDEDLTSQKVDELGQKRRRPKSAPSFRPKLAPVVIPAQFLEEQKC VPASGELSPELQEWAPYSPGHSSRHSNPPLYPSRPSVGTVPRSLTPSTTVSSILRNPIYT VRSHRVGPCSSPPAARDAGPQGLHPSVQHQGRLSLDLSHRTCSDYSEMRATHGSNSLPSS ARLGSVSHSECSTPPQSPLNIDTLSSCSQSQTSASTLPRIAVNPASLGERRKDRPYVEEP RHVKVQKGSEPLGISIVSGEKGGIYVSKVTVGSIAHQAGLEYGDQLLEGTAVLPSPQGLL PVHSPDPPTEPILVFPQFNGINLRSATEQQARLIIGQQCDTITILAQYNPHVHQLSSHSR SSSHLDPAGTHSTLQGSGTTTPEHPSVIDPLMEQDEGPSTPPAKQSSSRIAGDANKKTLE PRVVFIKKSQLELGVHLCGGNLHGVFVAEVEDDSPAKGPDGLVPGDLILEYGSLDVRNKT VEEVYVEMLKPRDGVRLKVQYRPEEFTKAKGLPGDSFYIRALYDRLADVEQELSFKKDDI LYVDDTLPQGTFGSWMAWQLDENAQKIQRGQIPSKYVMDQEFSRRLSMSEVKDDNSATKT LSAAARRSFFRRKHKHKRSGSKDGKDLLALDAFSSDSIPLFEGKWLSSFSSGLSRWGLLW IQELHNRDLNKRESYFAFVRKSEGCLVVTKSCRFLQNFGISGLSPVFMNKSCIILMEQDA SPGLELSDRRCQTSPDSVSLAYQRVQKVDCTALRPVLILGPLLDVVKEMLVNEAPGKFCR CPLEVMKASQQAIERGVKDCLFVDYKRRSGHFDVTTVASIKEITEKNRHCLLDIAPHAIE RLHHMHIYPIVIFIHYKSAKHIKEQRDPIYLRDKVTQRHSKEQFEAAQKLEQEYSRYFTA SRFSSICAYYLRTVSAPLADYLISSGTSYVPEDGLTAQQLFTSTNGLTYNDFLILPGFID FIADDEAKMLHGFSGIPLTETGTMGSKLVGIITSRDVDFLAKKEHATFISVTLKEANEIL QRNKKGKLPIVSDRDELVAIIARTDLKKNRDYPLASKDSHKQLLCRAAVGTREDDECHLD LLTQAGVNVVVLDSSQGSSVYQITMVHYIKQKYPHLQVIGGNVVTAAQAKNLMDARVDGL HVGMGYGSICITQKVMACGWPQGTAVYKVAKYAQCFDCGARGQGPGPWSLHSDDGLLLAT TTEAPGEYFFLERVQLKKYQGMGSLDAMEKSSSSQKRYFSKGDKVKIAQGVSGSIQDKGS IQKFVPYLIAGIQHSCQDIGARSLSVLWSMMYSGELKFEKQTMSAQIKGGVHGLHSYEKQ L >gi568815588r:77692443_78026520|GENSCAN_predicted_CDS_5|8286_bp atgcagcctgccgtgggggctgcagggctgcccgtgtggaaagcggtgccattagagatg gccatctctgactcagagctgctgccctggtggccacctcaagccaggcacatggcaagt gtttttgtgtctaaaaatccatcagattctcagaagggcaacaaagaagatggcttctct ccccccaccccccaggagtttattgtcttgttggaaaacttgaacaagtgggtatctagt agtacagatagtgccagacagagggcaaaaggcactgcttacaatgtggcagcaagaaag aatgaggaagaagcaaaggcggaaacccctgataaacccatcagatctcccgagacttac tatcacaagaatagcatgggaaagaccggcccttatgattcagttacctccccgcttccc cctttcagcaaggaccaacatcatccttccagtttccaggccaagaaccctggagtcatc cttgacttttctttctttcctattccacattgggcctatgagcagatcctttcagctctg ctccaagccaaatgtggaataggaaagaaagaaaagctccaaaatatccctcaaatccag ctacttctcaccaacaccattcttgtcactctggtgcagaactgtcttagtctggccaga agtgacagcagggagcagggcttggttttggtgatggaaagcaggaaccgagaggtggtc ccacctggtgtcagggccatggtcaacctatacctccctgaaatactgggccttgtccgc ttcccagtttgggtttcagtgtctgtagccttgggccgtgcttttaaagggggaggagag agacgatttgaagaggaggggcagtttactggaagaaggggcactgctgatgccaagagt aagaaagaggggagcgttccagcagaggcatctggagcgcaggctgccagtgtcgtaagc tgggatgggttgagcatagagatttctggaggcttttcatacctggcagtgctgaccgtg gccatccagacctgtttagagatgcagctttctccagcatccacccgctgctcctggttt ggctgctggaggccatcaagaacaaatctaatcccttctgacagtcgtattgagagacaa gacacctacccattccccagtcattctcttcagcccatgctcaacgccttcagattcttc agagtctctgaaaatgtgataatgaggctactggtcattgccggttctacctacagcgtc ctgtccaccatgccctcagactcagaaagcagcagctccctcagcagtgtgggcactacc gggaaggcgccgtccccaccacccctcctcactgaccagcaagtgaatgagaaggtggag aacctctccattcagctgcggctgatgacccgggagagaaacgagctccgcaagcgcctg gcctttgctacgcatggcacggcctttgacaagaggccctaccacaggctgaatcctgac tatgagaggctgaagatccagtgcgtgcgagccatgtcggacctgcagagcctgcagaac cagcacaccaacgccttgaagaggtgtgaggaggtggccaaggagactgacttctaccag tttgtaagtggtgatttggatgtttctggaattgggctgttagcaggttttggcttgcct ctgagtgctacagacctacctgccattggctcctgtccgctgtatctacgggaagtgttg ggacctgaggctggtgatgccctgggcacactccacagccggctcctgagtgaccagact cggctgaaggatgacgtggacatgctgaggcgggagaatgggcagctgctgcgggagcga aacctgctgcagcagtcatgggaggacatgaagcggctccacgaggaggaccagaaggag atcggtgacctccgtgcccagcagcagcaggtgttgaagcacaacgggtcatccgagatt ctcaacaaactgtatgacacggccatggacaagttggaggtggtcaagaaggactatgac gcccttcggaagaggtacagtgagaaagtcgccatccacaatgcagacctgagccgcctg gagcagctgggggaggagaaccagcggttgctgaagcagacagagatgctgacccagcag agggacacggccatccagctgcagcaccagtgcgccctctccctgaggaggtttgaggcg atccaccatgagctgaacaaggccacggcgcagaacaaggacctgcagtgggagatggag ctgctgcagtcagagctgaccgagctgagaaccacgcaggtgaagacagcaaaggagtcg gagaaatacagggaggagcgggacgctgtgtacagcgagtacaagctcatcatgagtgag cgtgaccaggtcatctctgagctggacaagctgcagaccgaagtggagctggccgagtcc aagctcaagagcagcacatctgagaagaaggcggccaatgaggagatggaggcgctgcgg cagatcaaagacacggtgacaatggatgctgggagagccaacaaggaggttgaaatcctt cgaaagcagtgcaaggctctgtgccaggagctgaaggaagccctccaggaggcggatgtg gccaagtgccggcgggactgggccttccaggagcgagacaagattgtagcagagcgtgac agcatccggacactgtgtgacaacctgaggcgggagcgggaccgtgcggtgagcgagctg gctgaggccctgcgcagcctggatgacacccgcaagcagaagaatgatgtcagccgcgag ctgaaggagctcaaggaacagatggaatcccagttggaaaaggaggcccggttccgacag ctgatggcccacagctcccacgactcggccattgacacggattccatggagtgggaaacg gaagttgtagagttcgagagggagacggaggatattgacttgaaggcactggggtttgat atggcagaaggtgtgaatgagccttgtttcccgggggactgtggcatatttgtcactaaa gtggacaaaggaagcattgctgatggccgcttaagggtcaatgactggctgctgagaatc aacgatgtggacctcatcaacaaggacaagaagcaggccatcaaggcgctcctcaatggg gagggggccatcaacatggtcgtgcggcggaggaagtccctgggtgggaaggtggtcacg ccgctgcacatcaacctcagtggacagaaagacagtggcatcagtctggagaatggagtg tatgctgccgctgtgctgcctggaagccctgccgctaaagaagggtcccttgctgtggga gacaggatcgttgcgatcaatggcattgcactggacaacaagtctctgaatgaatgtgaa tctctgctgcgcagctgccaggactccctgaccctgtccctcctgaaggtattccctcag agctcctcgtggagtggccagaacatttttgaaaatatcaaagactctgataagatgctg agttttcgagcccatggcccggaggtccaggctcataacaaacggaacttgatacagcac aataactccacgcagacagacatcttctacacggacaggctggaagacaggaaggagcca ggccccccaggaggcagcagctcctttctgcataagccattccctgggggacccttgcag gtctgcccccaggcctgtcccagtgcctctgagcgtagcctgagctccttccgctcagat gcctctggggaccgtggctttgggctggtggacgtgcgtggccggcggccactgctgccc tttgagaccgaggtgggcccctgtggggttggggaggcctccctggacaaggcagactct gaaggctccaacagcggcgggacctggcccaaggccatgctcagctccacggcagtgcct gagaagctctctgtttataaaaagccaaagcaaagaaagtccatctttgaccctaacact ttcaaacgcccccagacaccccccaaaatagactacctgcttccaggtcctgggcctgct cactctccccagccctccaagagggcggggcctctgacacccccaaaacctcccagaagg agcgactccattaagttccagcacaggctggagactagctccgagtcagaagccactctg gtgggcagctccccatccactagtcccccgagcgccctgccccctgacgtggaccccggg gagcccatgcacgcatcaccccctcgcaaggccagggtccgcattgcttccagctactac cctgaaggagatggggactcctcccacctgccggccaagaaatcctgtgatgaggacctc acctcccagaaggtggatgagctggggcagaagcgtcgccggccaaaatctgctcccagt tttcggccgaagcttgctccagtagtgattcctgctcagttcctggaggaacagaagtgt gtcccggccagtggagaactctccccggagctccaggagtgggcaccttactcgcctggg cattccagccggcacagcaaccccccgctataccctagcaggccgtctgtgggcactgtt ccccggagtttgacccccagcaccactgtgagctccatcctgcggaaccccatctacact gtgcgcagtcacagggtcggcccctgcagctctccacctgcggcccgagatgctggcccc cagggtttgcatcccagtgtccagcaccagggacgcctgagcctggacctgagccacagg acctgcagcgactactccgagatgagagccacccatgggtccaactcactgccctccagc gcccgcctgggttcagtgtcacattctgaatgcagcactcctccacagtcacccctgaac atcgacaccctgtcctcttgtagccagtcccagacctcagcctccacattgcccagaatc gctgtcaaccccgcgtccctcggggagcggagaaaggacaggccttatgtggaggagcca cgccacgtgaaggtgcagaagggctcagagccgctgggcatctccatcgtgagtggagag aagggcggcatctacgtctccaaggtgaccgtggggagcatcgctcaccaggctggcctc gagtatggggatcagttactggagggaacagcagtgctcccaagtccccagggcctcctc cctgtccacagccccgacccccccactgagcccatcctggtgtttccccagttcaacggc ataaacctgcggagcgccacggagcagcaggcgcggctcatcatcgggcagcagtgtgat accatcaccatcctggcccagtacaacccccacgtgcaccagctcagcagccactcccgg tccagctcacacctggaccctgccggtacccactccactctccagggcagtggcaccacc accccggagcatccatctgtcatcgacccactgatggagcaggacgaggggcctagcacc cccccagccaagcagagcagctccaggattgcgggagatgccaacaagaagaccctggag ccacgcgttgtcttcatcaaaaagtcccagctggagcttggggtgcacttgtgtggtggg aacctgcatggggtgtttgtggccgaggtggaggatgacagtcctgccaagggtcctgac ggcctcgtgccaggggacctcatcctggagtatggcagcctggacgtgcggaacaagaca gtggaggaagtctatgtggagatgctgaagcccagggatggcgtccgcctgaaggtgcag taccgccctgaggagttcacgaaggccaagggcctgcctggtgacagcttctacatcagg gccctgtacgaccggctggcagatgtggagcaagagttgagctttaagaaggacgacatc ctctacgtggatgacaccttaccccagggcacgttcgggtcctggatggcttggcagctg gacgagaatgcccagaagatccagcgcgggcagattcccagcaaatatgtgatggaccaa gaattctccaggaggctcagcatgtctgaagtcaaagatgacaatagcgccacaaagacg ctgtcagcggctgcacgccggtccttttttcggaggaaacacaagcacaaacgcagcggg tccaaggacgggaaagacctgctcgccttggatgccttttccagtgactccattccactc tttgaaggcaagtggctgagctcattttccagtgggctctccagatggggcttgctgtgg atccaggagctccacaacagggacttaaacaaaagagagtcttactttgcttttgtgcgc aagtctgaaggctgcttggtagtgaccaagagctgtcggtttctgcagaacttcggcatt tctggcctcagtcctgtgttcatgaacaagtcttgtataatccttatggagcaagatgct agtccagggctggagttgagtgataggagatgtcagacatcccctgattcggtgagcctg gcctatcagcgggtccagaaggtggactgcaccgctctgaggcctgtcctgattctgggg cctttgctggacgtggtgaaggagatgctggtgaatgaggctcctggcaagttctgcaga tgtccccttgaggtgatgaaggcctcccagcaggccattgagcggggtgtcaaagattgc ctgtttgtcgactataagcggagaagcggccatttcgatgtgaccactgtggcgtcaata aaggagatcacagaaaagaaccgacactgcctcctggacattgctccgcacgctattgag cggctccaccacatgcacatctaccccattgtcatcttcatccactacaagagcgccaag cacatcaaggagcagagagaccccatctacctgagggacaaggtgactcagaggcattcc aaagagcagtttgaggcggcgcagaagcttgagcaggagtacagcaggtacttcacagcc tctcgtttctcctccatctgtgcttattacttgaggactgtgtctgctcccctggcagac tacctgatcagcagcggcaccagctacgtgcccgaggacgggctcaccgcgcagcagctc ttcaccagcaccaacggcctcacctacaatgacttcctgattctcccaggattcatagac ttcatagctgatgatgaggccaagatgctgcatggcttctctggtatccccctcactgag acgggcaccatgggcagcaagctggtgggcatcatcacctcccgagacgtcgactttctt gctaagaaggagcacgccaccttcatcagtgtgacgttgaaagaggcaaatgagatcctg cagcgtaacaagaaagggaagctgcctatcgtcagtgatcgcgatgagctggtggccatc attgcccgcactgacctgaagaagaatcgagactaccctctggcctccaaggattcccac aaacagctgctgtgcagggcagctgtgggcacccgtgaggatgacgaatgccacctggac ctgctcacccaggcgggtgtcaatgttgtagtcttggactcatcccaagggagctcggtg tatcagatcaccatggtgcattacatcaaacagaagtacccccacctccaggtgattggg gggaacgtggtgacagcagcccaggccaagaacctgatggacgctcgtgtggacgggctg catgtgggcatgggctacggctccatctgcattacccagaaagtgatggcctgcggttgg ccccagggcactgctgtgtacaaggtggccaagtatgcccagtgctttgactgtggggca cgtggtcaaggccctggcccttggagcctccacagtgatgatgggctcctgctggccacc accacggaggcacctggtgagtacttcttcttagaaagggtgcagctcaagaagtaccag ggcatgggctcactggatgccatggagaagagcagcagcagccagaaacgatacttcagc aagggggataaggtgaagatcgcacagggtgtctcgggctccatccaggacaaagggtcc attcagaagttcgtgccctacctcatagcgggcatccagcacagctgccaggatatcggg gcccgcagcctgtctgtcctttggtccatgatgtactcaggggagctcaagtttgagaag cagaccatgtcggcccagatcaagggtggtgtccatggcctgcactcgtatgagaagcag ctgtga >gi568815588r:77692443_78026520|GENSCAN_predicted_peptide_6|139_aa MEPQRRELLAQCQQSLAQAMTEVEAVLGLLEAAGALSPGERRQLDEEAGGAKAELLLKLL LAKERDHFQDLRAALEKTQPHLLPILYLNGVVGPPQPAEGAVNWLACFIKLKRMEPAASA GEAEESFTNVLGLGVEVKL >gi568815588r:77692443_78026520|GENSCAN_predicted_CDS_6|420_bp atggagccccagcgccgggagctgctcgcccagtgtcagcagagcctggcccaggccatg acggaggtggaagccgtgctcgggctgctcgaggccgcgggagcgctcagtcccggcgag cggcggcagctggacgaggaggcgggaggcgccaaggcggagctgctgctcaagctgctc ttggccaaggagcgggaccacttccaggacctgcgggcggcgctggagaagacgcagcct cacctgctgcccattctctacctgaacggcgtcgtcgggccgccgcagcccgccgaaggc gcggtgaactggctggcttgcttcatcaaacttaagagaatggagccagcagcgtccgct ggagaagccgaggagagcttcacgaatgtgctgggacttggtgttgaagtgaagctctga >gi568815588r:77692443_78026520|GENSCAN_predicted_peptide_7|114_aa MNSAHCRVATAGALSTRSSTLSCFVLLINLAYQAPLLFLAAQKQQLEKQLPDGTLAFTFQ LGAIQLYAALLEEFLGGKAPPWEASFKQTRSHEVLQQQQATAEIAAWVQGHEDL >gi568815588r:77692443_78026520|GENSCAN_predicted_CDS_7|345_bp atgaactctgcccactgcagagtggccactgctggggcgctaagcaccaggagctccacc ctgtcctgctttgtcctgctgataaacttggcctaccaggccccactgctcttcctagct gctcagaagcagcagctggagaaacagctgccagatggaacactggccttcactttccag ctgggagccatccagctctatgcagctttactggaggagttccttggaggaaaagctcct ccatgggaggcctcgtttaagcaaacacggtcacatgaggtgttgcagcagcagcaggcc accgcagagatagctgcttgggtgcagggccatgaagacctctga >gi568815588r:77692443_78026520|GENSCAN_predicted_peptide_8|1296_aa XSHICFGMKSPEEMRQQAHIQVVSKNLYSQDNQHAPLLYGVLDHRMGTSEKDRPCETCGK NLADCLGHYGYIDLELPCFHVGYFRAVIGILQMICKTCCHIMLSQEEKKQFLDYLKRPGL TYLQKRGLKKKISDKCRKKNICHHCGAFNGTVKKCGLLKIIHEKYKTNKKVVDPIVSNFL QSFETAIEHNKEVEPLLGRAQHRISGAKTQMIMEDWDFLQLQCALYINSELSGIPLNMAP KKWTRGFVQRLKGKQGRFRGNLSGKRVDFSGRTVISPDPNLRIDEVAVPVHVAKILTFPE KVNKANINFLRKLVQNGPEVHPGANFIQQRHTQMKRFLKYGNREKMAQELKYGDIVERHL IDGDVVLFNRQPSLHKLSIMAHLARVKPHRTFRFNECVCTPYNADFDGDEMNLHLPQTEE AKAEALVLMGTKANLVTPRNGEPLIAAIQDFLTGAYLLTLKDTFFDRAKACQIIASILVG KDEKIKVRLPPPTILKPVTLWTGKQIFSVILRPSDDNPVRANLRTKGKQYCGKGEDLCAN DSYVTIQNSELMSGSMDKGTLGSGSKNNIFYILLRDWGQNEAADAMSRLARLAPVYLSNR GFSIGIGDVTPGQGLLKAKYELLNAGYKKCDEYIEALNTGKLQQQPGCTAEETLEALILK ELSVIRDHAGSACLRELDKSNSPLTMALCGSKGSFINISQMIACVGQQAISGSRVPDGFE NRSLPHFEKHSKLPAAKGFVANSFYSGLTPTEFFFHTMAGREGLVDTAVKTAETGYMQRR LVKSLEDLCSQYDLTVRSSTGDIIQFIYGGDGLDPAAMEGKDEPLEFKRVLDNIKAVFPC PSEPALSKNELILTTESIMKKSEFLCCQDSFLQEIKKFIKGVSEKIKKTRDKYGINDNGT TEPRVLYQLDRITPTQVEKFLETCRDKYMRAQMEPGSAVGALCAQSIGEPGTQMTLKTFH FAGVASMNITLGVPRIKEIINASKAISTPIITAQLDKDDDADYARLVKGRIEKTLLGEIS EYIEEVFLPDDCFILVKLSLERIRLLRLEVNAETVRYSICTSKLRVKPGDVAVHGEAVVC VTPRENSKSSMYYVLQFLKEDLPKVVVQGIPEVSRAVIHIDEQSGKEKYKLLVEGDNLRA VMATHGVKGTRTTSNNTYEVEKTLGIEAARTTIINEIQYTMVNHGMSIDRRHVMLLSDLM TYKGEVLGITRFGLAKMKESVLMLASFEKTADHLFDAAYFGQKDSVCGVSECIIMGIPMN IGTGLFKLLHKADRDPNPPKRPLIFDTNEFHIPLVT >gi568815588r:77692443_78026520|GENSCAN_predicted_CDS_8|3891_bp nnaagccacatctgttttggaatgaagtcacctgaggagatgcgccagcaggcgcacatc caagttgtgagtaagaacctgtacagccaggacaaccaacatgcccccttgctatatggg gtgctcgaccataggatgggtacgagtgagaaggatcgtccatgtgaaacctgtgggaaa aacttggctgactgtctaggccactatgggtatatcgacctggagttgccgtgttttcat gtagggtacttcagagcagtcataggcatcttacagatgatctgcaaaacctgctgccac atcatgctgtcccaagaggagaagaagcagtttctggactatctaaagaggcccggcctg acctaccttcagaagcgaggactgaaaaagaaaatctctgacaagtgccggaagaaaaac atctgccatcactgtggcgcttttaatggtaccgtaaagaagtgtggactgctgaaaata attcatgagaaatacaagaccaacaaaaaagtggtggatcccattgtatcaaatttcctt cagtcttttgaaacagccattgaacataataaagaagtggagcctctgctgggaagggca cagcatcggatctcaggagccaagacccagatgatcatggaggactgggatttcctgcag ctgcagtgtgccctctacattaacagtgagctctcgggcattcccctcaacatggcaccc aagaagtggaccagaggcttcgtccaacgcctgaagggaaaacagggtcgatttagagga aatctctcaggaaagagagtggatttttctggcagaacagtcatctcgcccgaccccaac ctccggattgatgaggtagctgtgccagttcatgtggccaaaattctaacttttcctgag aaggtaaacaaagcaaacatcaatttcttgaggaaactggttcaaaacggccctgaggtt cacccaggagcaaacttcattcagcagagacatacgcagatgaaaaggtttttgaaatac ggaaatcgagaaaagatggctcaagagctcaagtatggtgacatcgtagagagacacctc atcgatggagatgtggtgctgttcaatcggcagccctcgctgcacaaattgagcattatg gctcatctggccagggtcaagccccaccggaccttcagatttaatgagtgtgtctgtaca ccctataatgctgactttgatggtgatgaaatgaaccttcatcttcctcaaacagaagaa gctaaagcagaggcccttgttctgatggggactaaagcaaatcttgtaaccccgaggaat ggggaaccgctgattgctgctattcaggattttctaacaggtgcctatctcctcactctc aaggacactttctttgatcgagccaaggcttgccaaatcattgcttcaatactggttggc aaggatgagaaaattaaagttcgcctcccaccgcctacaatcctaaagcctgtcaccctg tggacgggaaagcagatcttcagtgtcatcctcaggcctagcgatgacaatccagtgagg gccaacctgcgaaccaagggcaagcagtactgtggcaaaggggaagatctctgtgccaat gattcctatgttacaatccagaacagtgagttgatgagtggcagcatggacaaaggaacc ctagggtcaggatccaagaacaatattttttacattttgctgcgagactggggacagaat gaagctgcagatgccatgtcacggctcgccaggctggctcctgtctacctgtctaaccgt ggtttctcaattgggatcggtgatgtcacacctggccaaggactgctgaaggccaagtat gagttgctgaatgccggctacaagaaatgtgatgagtacatcgaagccctgaacacgggc aagctgcagcagcagcctggctgcactgctgaggagaccctggaggcactgatcctgaag gagctgtctgtgatccgtgaccacgctggcagtgcctgcctccgggagctggacaagagc aacagccccctcaccatggctctgtgcggctccaaaggttccttcattaacatatcacag atgattgcctgtgtgggacagcaggccatcagtggctctcgagtgccagacggctttgaa aacaggtccttgcctcattttgaaaaacactcaaagctcccagctgccaaaggctttgtg gctaatagcttttattccggtttgacaccaactgagtttttcttccacacaatggccggc cgggaaggtctagtcgacacggctgtaaagacagctgaaacgggatacatgcagcgaagg cttgtcaaatctcttgaagatctttgctcccagtatgatctgacagtccgaagctctact ggcgatattatccagttcatttatggaggagatggcttagatcctgcagctatggaggga aaagatgaacctttggagtttaaaagggttctggacaacatcaaagcagtcttcccgtgt cccagtgagcctgctctcagcaaaaacgagctgatcctgaccacagagtccatcatgaag aagagtgagttcctctgctgccaggacagcttcctgcaggaaataaaaaaattcattaag ggggtctctgagaagatcaagaaaaccagagataaatatggcatcaatgataacggcaca acagagccccgtgtgctgtaccagctggaccgcatcacccccacccaagtagaaaagttt ctggagacctgtagggacaagtacatgagggcacagatggagccaggttctgcagtgggt gctctgtgtgcccagagcattggtgagccaggcacccagatgaccctgaagactttccac tttgcaggtgtggcctccatgaacatcaccctgggcgtgccccggattaaagagatcatc aacgcttccaaggccatcagcactccaattatcacagcacagctagacaaggatgacgac gcggattatgctcgcctcgtgaaagggagaattgagaaaaccctcttgggagagatttcc gagtatattgaagaagtgtttcttcctgatgactgctttattctcgtcaagctctccctg gaacggattaggcttctgagactggaagtgaacgctgagacagtgagatattccatctgc acatccaagctccgtgtgaagcccggtgatgtggctgttcatggtgaggctgtggtgtgt gtcacccccagagagaacagcaagagctccatgtactacgtgctgcagttcctgaaagag gatctccccaaggtggtggtgcagggcattccagaggtgtccagagctgtcatccacatt gacgagcagagtggaaaggagaagtacaagcttctggtggaaggtgataacctgcgggca gtcatggccacacacggtgtgaagggcacccgaaccacctccaataacacctatgaggtg gagaaaactctgggcatcgaggccgcccggacaacgatcatcaatgaaatccagtacacc atggtgaaccacggcatgagcatcgacaggaggcacgtgatgctgctctccgacctcatg acctacaagggtgaagtcctgggcatcactaggtttggcctggccaagatgaaggagagt gtgctgatgctggcctcctttgagaagacggctgaccatctctttgacgctgcctacttc gggcagaaggactctgtgtgtggggtgtctgagtgcatcatcatgggaatcccaatgaac attggaaccgggctcttcaagctgcttcacaaggctgacagggacccgaaccctcccaag aggcccctgatcttcgacacaaatgaattccacatcccccttgtcacatag