GENSCAN 1.0 Date run: 5-Nov-116 Time: 07:58:19 Sequence gi568815596r:162070982_162342994 : 272013 bp : 37.62% C+G : Isochore 1 ( 0 - 43 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 + 2434 2602 169 1 1 66 75 80 0.272 3.53 1.02 Intr + 2711 3019 309 1 0 55 55 241 0.677 13.08 1.03 Term + 3409 3558 150 0 0 79 48 84 0.808 0.43 1.04 PlyA + 3824 3829 6 1.05 2.02 PlyA - 4039 4034 6 1.05 2.01 Sngl - 6684 6430 255 0 0 87 42 210 0.776 9.19 2.00 Prom - 6956 6917 40 -7.75 3.00 Prom + 7081 7120 40 -5.85 3.01 Init + 22337 22471 135 1 0 73 89 121 0.714 10.89 3.02 Term + 33194 33469 276 1 0 107 41 119 0.044 3.58 3.03 PlyA + 34775 34780 6 1.05 4.00 Prom + 39326 39365 40 -3.25 4.01 Init + 47567 47756 190 1 1 60 66 136 0.459 7.82 4.02 Intr + 49252 49298 47 2 2 102 94 8 0.082 0.01 4.03 Intr + 54937 55028 92 0 2 49 90 56 0.039 -0.23 4.04 Intr + 55872 56010 139 0 1 70 80 77 0.510 4.65 4.05 Term + 69960 70115 156 2 0 14 47 113 0.002 -3.25 4.06 PlyA + 71642 71647 6 1.05 5.50 PlyA - 71919 71914 6 1.05 5.49 Term - 73189 73042 148 0 1 29 42 164 0.292 2.29 5.48 Intr - 74696 74559 138 1 0 88 89 169 0.994 15.66 5.47 Intr - 76533 76372 162 2 0 64 110 106 0.985 8.57 5.46 Intr - 78206 78106 101 2 2 99 67 58 0.472 2.79 5.45 Intr - 98740 98573 168 1 0 63 63 106 0.457 4.82 5.44 Intr - 101903 101830 74 0 2 121 43 61 0.899 3.11 5.43 Intr - 102240 102168 73 0 1 112 77 55 0.969 4.86 5.42 Intr - 113633 113603 31 1 1 84 102 20 0.059 0.21 5.41 Intr - 117382 117188 195 0 0 90 99 189 0.387 17.81 5.40 Intr - 118191 118122 70 1 1 67 31 34 0.155 -7.08 5.39 Intr - 118773 118675 99 1 0 42 46 121 0.140 2.46 5.38 Intr - 123199 123037 163 1 1 96 9 93 0.127 0.83 5.37 Intr - 123767 123720 48 2 0 116 73 34 0.732 2.66 5.36 Intr - 127342 127198 145 0 1 50 97 74 0.521 3.86 5.35 Intr - 127900 127772 129 0 0 92 65 125 0.538 9.49 5.34 Intr - 129638 129585 54 1 0 74 91 58 0.386 1.88 5.33 Intr - 131961 131891 71 0 2 72 93 3 0.335 -3.74 5.32 Intr - 143092 142957 136 0 1 93 97 51 0.843 6.15 5.31 Intr - 145020 144917 104 0 2 84 63 85 0.957 3.65 5.30 Intr - 147159 147005 155 1 2 48 95 134 0.078 8.97 5.29 Intr - 148202 148082 121 2 1 44 121 -8 0.050 -2.75 5.28 Intr - 153559 153485 75 1 0 57 64 102 0.076 3.49 5.27 Intr - 159835 159767 69 1 0 54 89 55 0.050 0.66 5.26 Intr - 164395 164202 194 2 2 21 46 152 0.046 2.59 5.25 Intr - 175055 175003 53 1 2 97 72 38 0.190 0.73 5.24 Intr - 182699 182485 215 2 2 39 54 174 0.106 5.69 5.23 Intr - 196588 196498 91 0 1 90 109 70 0.991 8.38 5.22 Intr - 197296 197106 191 1 2 91 89 57 0.993 3.56 5.21 Intr - 201406 201245 162 1 0 88 67 221 0.994 19.25 5.20 Intr - 202963 202814 150 1 0 55 88 197 0.975 15.84 5.19 Intr - 205965 205706 260 1 2 46 75 137 0.976 4.46 5.18 Intr - 206712 206434 279 1 0 70 91 333 0.989 28.33 5.17 Intr - 207347 207224 124 2 1 41 86 56 0.857 -0.06 5.16 Intr - 209131 209015 117 1 0 72 19 123 0.792 3.54 5.15 Intr - 210564 210347 218 1 2 52 106 147 0.997 10.20 5.14 Intr - 211595 211385 211 2 1 75 82 164 0.992 12.06 5.13 Intr - 217374 217154 221 1 2 99 61 199 0.998 15.40 5.12 Intr - 222687 222583 105 1 0 85 84 106 0.983 9.17 5.11 Intr - 228960 228841 120 1 0 12 58 122 0.051 1.15 5.10 Intr - 235874 235728 147 0 0 51 80 130 0.144 7.79 5.09 Intr - 239952 239784 169 0 1 78 68 159 0.939 11.50 5.08 Intr - 247205 246874 332 0 2 94 77 421 0.080 36.02 5.07 Intr - 247450 247246 205 1 1 52 49 179 0.566 8.25 5.06 Intr - 254703 254592 112 2 1 3 69 124 0.662 1.46 5.05 Intr - 256354 256177 178 2 1 63 61 150 0.799 7.86 5.04 Intr - 257181 256983 199 0 1 59 40 178 0.642 8.10 5.03 Intr - 257872 257752 121 0 1 48 75 77 0.117 1.98 5.02 Intr - 263221 263014 208 2 1 61 15 103 0.034 -2.49 5.01 Intr - 263522 263415 108 0 0 70 80 57 0.385 2.44 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 90387 90165 223 0 1 71 75 121 0.888 7.86 S.002 Init - 147154 147005 150 1 0 52 95 139 0.907 11.09 S.003 Init - 228925 228841 85 1 1 91 58 114 0.889 9.73 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_1|209_aa XTTGTVMMVTSAAAPSSPRRTFHGVCKPSRSSPIRGKRVAPVSVGGSGLLQRQQDLQSTL ALVSLPLPGFGRAFCEWLSGTFKARRQGPSRSQGPKAKRELWDVPSPVRGWPWGFRLRGV PGPVSPAFGPFGEFGEEVPTARPGDVRGAALTFIVGVSSELKMTSAFSSSNLTWTGEGTE TQRGQGTLANSHSPPQATGTETQDSVSCQ >gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_1|630_bp nnaaccacgggcacggtgatgatggtgacaagcgcagcagcacccagcagtcccagaaga accttccacggtgtctgcaagccgagcagatcaagtccaattagagggaagcgtgtggcc ccagtttccgtaggagggtcggggctgctccagaggcagcaggatttgcagagcacatta gcgttggtttctctacccctgcccgggttcgggcgtgcgttctgtgagtggctctccggg acattcaaagctcgacgccagggtcctagcagaagccagggtccgaaagctaagcgagag ctctgggacgtcccttcacctgtcagagggtggccttggggcttccgcctaaggggagtc cctggtccggtttcgccagcttttgggccatttggggagtttggcgaagaggtccccaca gctcgccccggggacgtacgtggcgcggcactcaccttcatcgtcggcgtctcctcggaa ctaaaaatgacgtcggcgttcagctcctccaacctcacgtggacaggcgagggaaccgag acccagagagggcaggggactttggcaaactcacacagcccaccgcaggcaactggaact gaaacccaggactccgtctcttgccagtga >gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_2|84_aa MVVLGWIPPALPLRRVWVQWTRSCSIFIEVETQKQRFQQLVHQMTELCWEKCMDKPGPKL DSRAEACFVNCIERFIDTSQFILN >gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_2|255_bp atggttgtcctgggatggattcctcctgctcttcctctgcggcgggtttgggtgcagtgg acccgcagttgcagcattttcattgaggtagagactcaaaagcagcgcttccagcagctg gtgcaccagatgactgaactttgttgggagaagtgcatggacaagcctgggccaaagttg gacagtcgggctgaggcctgttttgtgaactgcattgagcgcttcattgatacaagccag ttcatcttgaattga >gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_3|136_aa MTQVLKNMIHATKNTLQLSLKRKRLGVNIPVAQMAVHEWALVRRMVLTPALWTHFPDKLP TCKPLFQGLLSEIQSTLKSMELLVGIHIIGAQGTVLQLKASSQGKERAPGKLGWGSCDLK APVSVFTCIAYLSVSG >gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_3|411_bp atgactcaagtgttgaaaaatatgatccacgcaactaaaaatacattgcaactgagtttg aagaggaaaagactgggtgtcaacattccagtggcccaaatggctgtgcatgaatgggct ttggttcgaaggatggtcctaacccctgcactctggactcatttcccagataaactaccc acatgcaagcctttatttcagggtcttctttctgagatccagagtacgctaaagtccatg gagctgctggtgggaattcatattataggtgcccaaggaacagtgctccaactcaaggcc agcagtcaggggaaagagagggcaccaggaaagctaggctggggctcctgtgaccttaag gccccagtctctgtgttcacctgtattgcatatctgtctgtttctggctga >gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_4|207_aa MPVKVPMKERLICKHLPGLESPKPVQEGHFLALYHVSLLALALAQKLAGKLRGGHQKGGG KALAVTQRKPKTATYSGSQSEMHMNRYKDYLHFVDMGGPDTHKEINKCLRLSNAPPPQRC PCPGPQDCEYVTLPGKRDFADMSKDLEMGRVSRIIQVRAEDGAATLQSGVTMGGKPFVSD GRTERKRPRAIPDMFTFDILSSGLLIL >gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_4|624_bp atgcccgtgaaagtgcccatgaaagaaagactcatctgcaaacatttgccaggcctggaa agcccgaagccagtacaagaaggacatttcctggccctttaccatgtctctcttctagct ctggccttagcccagaaactggctggcaagctgcggggagggcatcagaagggaggaggg aaagcactagctgtcacacagaggaaacccaagacagcaacatattctggaagccagagc gaaatgcacatgaatcgatataaagattatctgcattttgtggacatgggtggtccagac acccacaaggagataaataaatgtttgagactgagtaatgctcccccaccccaaagatgt ccgtgtcctggtccccaggactgtgaatatgttaccttgcctggcaaaagggactttgca gatatgagtaaggaccttgagatggggagagtatccagaattattcaggtaagagctgaa gatggagcagccacacttcaatctggagttaccatgggaggaaagccatttgttagtgat ggcagaacagaaagaaaaagaccacgagctatccctgacatgtttacctttgatattctt tcctctggacttctgattttgtga >gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_5|2339_aa XIYTLFPDSVAEVSWALSSLILNDFFLKIGENISSRVKISQLKPHKVAAEETSSVSRSVE KSQEGSKGRLSHLHLSEKGMDKTMSRIWPGLLCPCHLFKGDTISSSHLHSIKPCTHSPSP DVIDSDFSSTPRQERKIQKALCPCNKVIHSPRPTKVLVCPDSLHTSLQAEGDSSGLGQPR KGLPQCSDGLKGSSSAAKVGAQADEAPRASEGWKLTEERPLLADNCKFSKARLRYSKQIQ IATNIPFWSQTRFKLQTEAPERKTGPKESKASVREGGKHYPTGREAVPMDDPKWDPSDDM GNWKRKHFQAQSGRPCFSKWAADSGTHISPVPQTTAPSAWENPLPSLRKKDVEWVFHRRE FPLSHLVLQGQGENVHPEVKEQIQRTVATSGNMQAVELLLSTLEKGVWHLGWTREFVEAL RRTGSPLAARYMNPELTDLPSPSFENAHDEYLQLLNLLQPTLVDKLLVRDVLDKCMEEEL LTIEDRNRIAAAENNGNESGVRELLKRIVQKENWFSAFLNVLRQTGNNELVQELTGSDCS ESNAEIENLSQVDGPQVEEQLLSTTVQPNLEKEVWGMENNSSESSFADSSVVSEVAGNIS GFRGIMSKSTSTRELKMCSEEQSDERGAFVEEGESDTSLAEGSVSCLDESLGHNSNMGSD SGTMGSDSDEENVAARASPEPELQLRPYQMEVAQPALEGKNIIICLPTGSGKTRVAVYIA KDHLDKKKKASEPGKVIVLVNKVLLVEQLFRKEFQPFLKKWYRVIGLSGDTQLKISFPEV VKSCDIIISTAQILENSLLNLENGEDAGVQLSDFSLIIIDECHHTNKEAVYNNIMRHYLM QKLKNNRLKKENKPVIPLPQILGLTASPGVGGATKQAKAEEHILKLCANLDAFTIKTVKE NLDQLKNQIQEPCKKFAIADATREDPFKEKLLEIMTRIQTYCQMSPMSDFGTQPYEQWAI QMEKKAAKEGNRKERVCAEHLRKYNEALQINDTIRMIDAYTHLETFYNEEKDKKFAVIED DSDEGGDDEYCDGDEDEDDLKKPLKLDETDRFLMTLFFENNKMLKRLAENPEYENEKLTK LRNTIMEQYTRTEESARGIIFTKTRQSAYALSQWITENEKFAEVGVKAHHLIGAGHSSEF KPMTQNEQKEVISKFRTGKINLLIATTVAEEGLDIKECNIVIRYGLVTNEIAMVQARGRA RADESTYVLVAHSGSGVIEHETVNDFREKMMYKAIHCVQNMKPEEYAHKILELQMQSIME KKMKTKRNIAKHYKNNPSLITFLCKNCSVLACSGEDIHVIEKMHHVNMTPEFKELYIVRE NKALQKKCADYQINGEIICKCGQDESGGGGSMKGRTCCIRVCANWRESAIPQQPDGPDGP KGFAELRGPQTTPCLHQLSIATKIDVIPSHPPKACILIDPELLSEKSLSTNKGAQLASPS GSRTGAAGGAARQSRAMRWHSSALGPSMGPGTVEQGEVLVGEAQAVQEPMAEGEGQEKNH QGDWVKTKTTRTPPPRDLDSKSVNASNYGLSPDRQFVYLESDYSKAYVYQNNIYLKQRPG DPPFQITFNGRENKIFNGIPDWVYEEEMLATKYALWWSPNGKFLAYAEFNDTDIPVIAYS YYGDEQYPRTINIPYPKAGAKNPVVRIFIIDTTYPAYVGPQEVPVPAMIASSDYYFSWLT WVTDERVCLQWLKRVQNVSVLSICDFREDWQTWDCPKENAIQITSGKWEAINIFRVTQDS LFYSSNEFEEYPGRRNIYRISIGSYPPSKKCVTCHLRKERCQYYTASFSDYAKYYALVCY GREISNSHIQGNEQRLGNPRCPRRRSIIPQTVVSMGIEDEPLSFLNLENIAQASPFPPFM MDALIKLHHIVATYERPEIWRLFPFSTAIKTVLLYPVFVILVQNSSHLKDDQFCSQQSCP KIKILEENKELENALKNIQLPKEEIKKLEVDEITLWYKMILPPQFDRSKKYPLLIQVYGG PCSQSVRSVFAVNWISYLASKEGMVIALVDGRGTAFQGDKLLYAVYRKLGVYEVEDQITA VRLLSVLQNQCRNSTVMARAEYFRNVDYLLIHGTADDNVHFQNSAQIAKALVNAQVDFQA MLSETIAPNSGHIAPPHTSGRDVLWWSGILDNTFPDSGLATAPLFFLHAMAVALRTRTAE MKSIYFVAGLFVMLVQGSWQRSLQDTEEKSRSFSASQADPLSDPDQMNEDKRHSQGTFTS DYSKYLDSRRAQDFVQWLMNTKRNRNNIAKRHDEFERHAEGTFTSDVSSYLEGQAAKEFI AWLVKGRGRRDFPEEVAIVEELGRRHADGSFSDEMNTILDNLAARDFINWLIQTKITDR >gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_5|7020_bp natatttatacccttttccctgattctgtagcagaagtatcttgggccctgagcagctta attttaaatgatttttttctgaagattggagagaacattagcagtagagttaagatctca cagttaaagccccacaaggtggcggcagaggaaacatcatctgtgagtcgcagtgtggag aagtctcaggaaggaagcaagggaaggctttcccacttacacctttctgagaaaggcatg gataagacgatgtctaggatttggcctgggctgctttgtccctgccacctcttcaaagga gacaccatatcatcaagccacctccactcaataaaaccttgcactcattctccaagccca gatgtgattgattccgatttttccagtacaccaaggcaagaacgcaagatacagaaagcc ctctgtccttgcaacaaggtgatccactcacctcggcctaccaaagtactggtgtgtccg gactccctccacacctccttgcaagctgagggagacagctccggccttggccagcccaga aaggggctcccacagtgcagcgacgggctaaagggctcctcaagtgccgccaaagtggga gcccaggcagacgaggcgccaagagccagcgagggctggaagttaacagaggagcgaccc ctgctggctgataactgcaaattcagcaaggcacgtttgagatactctaaacagatacaa atagccactaacatacctttttggtcccaaactcgatttaagcttcagactgaggcccca gaaagaaaaactgggcctaaggaatccaaagccagtgtcagggaagggggcaaacattat ccaaccggaagagaagcagtaccaatggatgaccctaaatgggatcccagtgatgacatg ggaaactggaagaggaaacactttcaggcacagagcggtagaccctgcttctctaagtgg gcagcggacagcggcacgcacatttcacctgtcccgcagacaacagcaccatctgcttgg gagaaccctctcccttctctgagaaagaaagatgtcgaatgggtattccacagacgagaa tttccgctatctcatctcgtgcttcagggccagggtgaaaatgtacatccagaggtgaag gagcagattcagaggacagtcgccacctccgggaacatgcaggcagttgaactgctgctg agcaccttggagaagggagtctggcaccttggttggactcgggaattcgtggaggccctc cggagaaccggcagccctctggccgcccgctacatgaaccctgagctcacggacttgccc tctccatcgtttgagaacgctcatgatgaatatctccaactgctgaacctccttcagccc actctggtggacaagcttctagttagagacgtcttggataagtgcatggaggaggaactg ttgacaattgaagacagaaaccggattgctgctgcagaaaacaatggaaatgaatcaggt gtaagagagctactaaaaaggattgtgcagaaagaaaactggttctctgcatttctgaat gttcttcgtcaaacaggaaacaatgaacttgtccaagagttaacaggctctgattgctca gaaagcaatgcagagattgagaatttatcacaagttgatggtcctcaagtggaagagcaa cttctttcaaccacagttcagccaaatctggagaaggaggtctggggcatggagaataac tcatcagaatcatcttttgcagattcttctgtagtttcagaagtggcaggcaacatttca ggtttcagaggcatcatgagcaaaagcacaagcacaagagagctcaaaatgtgttcagag gaacagtctgatgagagaggagcatttgtggaggagggcgaatcagacacaagtttggca gaaggaagtgtcagctgcttagatgaaagtcttggacataacagcaacatgggcagtgat tcaggcaccatgggaagtgattcagatgaagagaatgtggcagcaagagcatccccggag ccagaactccagctcaggccttaccaaatggaagttgcccagccagccttggaagggaag aatatcatcatctgcctccctacagggagtggaaaaaccagagtggctgtttacattgcc aaggatcacttagacaagaagaaaaaagcatctgagcctggaaaagttatagttcttgtc aataaggtactgctagttgaacagctcttccgcaaggagttccaaccatttttgaagaaa tggtatcgtgttattggattaagtggtgatacccaactgaaaatatcatttccagaagtt gtcaagtcctgtgatattattatcagtacagctcaaatccttgaaaactccctcttaaac ttggaaaatggagaagatgctggtgttcaattgtcagacttttccctcattatcattgat gaatgtcatcacaccaacaaagaagcagtgtataataacatcatgaggcattatttgatg cagaagttgaaaaacaatagactcaagaaagaaaacaaaccagtgattccccttcctcag atactgggactaacagcttcacctggtgttggaggggccacgaagcaagccaaagctgaa gaacacattttaaaactatgtgccaatcttgatgcatttactattaaaactgttaaagaa aaccttgatcaactgaaaaaccaaatacaggagccatgcaagaagtttgccattgcagat gcaaccagagaagatccatttaaagagaaacttctagaaataatgacaaggattcaaact tattgtcaaatgagtccaatgtcagattttggaactcaaccctatgaacaatgggccatt caaatggaaaaaaaagctgcaaaagaaggaaatcgcaaagaacgtgtttgtgcagaacat ttgaggaagtacaatgaggccctacaaattaatgacacaattcgaatgatagatgcgtat actcatcttgaaactttctataatgaagagaaagataagaagtttgcagtcatagaagat gatagtgatgagggtggtgatgatgagtattgtgatggtgatgaagatgaggatgattta aagaaacctttgaaactggatgaaacagatagatttctcatgactttattttttgaaaac aataaaatgttgaaaaggctggctgaaaacccagaatatgaaaatgaaaagctgaccaaa ttaagaaataccataatggagcaatatactaggactgaggaatcagcacgaggaataatc tttacaaaaacacgacagagtgcatatgcgctttcccagtggattactgaaaatgaaaaa tttgctgaagtaggagtcaaagcccaccatctgattggagctggacacagcagtgagttc aaacccatgacacagaatgaacaaaaagaagtcattagtaaatttcgcactggaaaaata aatctgcttatcgctaccacagtggcagaagaaggtctggatattaaagaatgtaacatt gttatccgttatggtctcgtcaccaatgaaatagccatggtccaggcccgtggtcgagcc agagctgatgagagcacctacgtcctggttgctcacagtggttcaggagttatcgaacat gagacagttaatgatttccgagagaagatgatgtataaagctatacattgtgttcaaaat atgaaaccagaggagtatgctcataagattttggaattacagatgcaaagtataatggaa aagaaaatgaaaaccaagagaaatattgccaagcattacaagaataacccatcactaata actttcctttgcaaaaactgcagtgtgctagcctgttctggggaagatatccatgtaatt gagaaaatgcatcacgtcaatatgaccccagaattcaaggaactttacattgtaagagaa aacaaagcactgcaaaagaagtgtgccgactatcaaataaatggtgaaatcatctgcaaa tgtggccaggatgagtctggaggaggaggcagcatgaaagggagaacttgctgcatcaga gtttgtgccaattggagggaaagcgcaatccctcagcagcctgatggtccagatggcccc aaaggctttgcagagctcagaggcccccagacaactccttgtctacatcagcttagcatt gccactaaaattgatgttataccaagtcatcccccaaaagcatgcattttaatagaccca gagttgctttctgagaaaagtctcagtactaacaaaggagcccagctggcctcacccagt ggatctcgcaccggagccgcaggtggagctgcccgccagtcccgcgccatgcgctggcac tcctcagcccttgggccatccatgggaccgggcactgtggagcagggggaagtgcttgtt ggggaggctcaggccgtgcaggagcccatggcggagggggaggggcaggagaagaatcat caaggagactgggtaaaaactaaaactaccaggaccccaccccccagagatttggattca aaaagtgtgaatgcttcaaattacggcttatcacctgatcggcaatttgtatatctagaa agtgattattcaaaggcatatgtctatcaaaacaatatctatttgaaacaaagaccagga gatccaccttttcaaataacatttaatggaagagaaaataaaatatttaatggaatccca gactgggtttatgaagaggaaatgcttgctacaaaatatgctctctggtggtctcctaat ggaaaatttttggcatatgcggaatttaatgatacggatataccagttattgcctattcc tattatggcgatgaacaatatcctagaacaataaatattccatacccaaaggctggagct aagaatcccgttgttcggatatttattatcgataccacttaccctgcgtatgtaggtccc caggaagtgcctgttccagcaatgatagcctcaagtgattattatttcagttggctcacg tgggttactgatgaacgagtatgtttgcagtggctaaaaagagtccagaatgtttcggtc ctgtctatatgtgacttcagggaagactggcagacatgggattgtccaaaggaaaatgct attcaaattacaagtggcaagtgggaggccataaatatattcagagtaacacaggattca ctgttttattctagcaatgaatttgaagaataccctggaagaagaaacatctacagaatt agcattggaagctatcctccaagcaagaagtgtgttacttgccatctaaggaaagaaagg tgccaatattacacagcaagtttcagcgactacgccaagtactatgcacttgtctgctac ggtagagaaatatcaaactctcacatccaggggaatgaacaacggcttggaaacccgaga tgcccacgtcggaggtcaatcattcctcaaactgtagtttcaatggggatagaagatgaa cctttgtcctttctaaatttggaaaacatcgcccaggcatccccatttccacccttcatg atggacgcactgatcaagctacatcacattgttgccacgtatgaacgccctgaaatttgg aggctctttccattttcaactgctatcaagacagtcctcctctatcctgtatttgtgata ttggttcaaaatagttcacatctcaaagacgaccagttttgctcgcagcagagttgtcca aaaattaaaatcctggaagaaaacaaggaattggaaaatgctttgaaaaatatccagctg cctaaagaggaaattaagaaacttgaagtagatgaaattactttatggtacaagatgatt cttcctcctcaatttgacagatcaaagaagtatcccttgctaattcaagtgtatggtggt ccctgcagtcagagtgtaaggtctgtatttgctgttaattggatatcttatcttgcaagt aaggaagggatggtcattgccttggtggatggtcgaggaacagctttccaaggtgacaaa ctcctctatgcagtgtatcgaaagctgggtgtttatgaagttgaagaccagattacagct gtcagactcctcagtgtccttcagaatcagtgtcggaattcaactgtgatggcaagagca gaatatttcagaaatgtagactatcttctcatccacggaacagcagatgataatgtgcac tttcaaaactcagcacagattgctaaagctctggttaatgcacaagtggatttccaggca atgctttctgaaaccattgcccctaactcaggccacatagctccacctcacacatcagga agggatgttctgtggtggtcaggaattctggacaacaccttcccagattcaggactggcc acagcccctcttttcttcctccatgcaatggctgttgccctgaggaccagaacagcagaa atgaaaagcatttactttgtggctggattatttgtaatgctggtacaaggcagctggcaa cgttcccttcaagacacagaggagaaatccagatcattctcagcttcccaggcagaccca ctcagtgatcctgatcagatgaacgaggacaagcgccattcacagggcacattcaccagt gactacagcaagtatctggactccaggcgtgcccaagattttgtgcagtggttgatgaat accaagaggaacaggaataacattgccaaacgtcacgatgaatttgagagacatgctgaa gggacctttaccagtgatgtaagttcttatttggaaggccaagctgccaaggaattcatt gcttggctggtgaaaggccgaggaaggcgagatttcccagaagaggtcgccattgttgaa gaacttggccgcagacatgctgatggttctttctctgatgagatgaacaccattcttgat aatcttgccgccagggactttataaactggttgattcagaccaaaatcactgacaggtga