Result of GENSCAN for
pF1KB4848
GENSCAN 1.0 Date run: 3-Nov-116 Time: 15:32:29 Sequence gi568815587f:128811274_129016728 : 205455 bp : 45.14% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.03 PlyA - 2543 2538 6 1.05 1.02 Term - 13631 13266 366 2 0 108 52 101 0.474 3.10 1.01 Init - 16771 16730 42 1 0 49 94 61 0.569 3.28 1.00 Prom - 18386 18347 40 -4.56 2.03 PlyA - 18784 18779 6 1.05 2.02 Term - 28991 27852 1140 2 0 77 42 611 0.881 47.36 2.01 Init - 31144 31109 36 1 0 85 111 55 0.987 7.51 2.00 Prom - 40863 40824 40 -1.96 3.06 PlyA - 41029 41024 6 -1.95 3.05 Term - 41542 41271 272 2 2 108 47 177 0.994 11.25 3.04 Intr - 42890 42794 97 2 1 85 61 88 0.730 5.38 3.03 Intr - 48764 48740 25 1 1 65 107 52 0.236 2.83 3.02 Intr - 49388 49334 55 0 1 78 58 45 0.554 -1.46 3.01 Init - 53730 53667 64 0 1 104 78 41 0.522 6.01 3.00 Prom - 56521 56482 40 -7.26 4.00 Prom + 58830 58869 40 -5.76 4.01 Init + 59840 59854 15 1 0 62 115 -5 0.028 0.01 4.02 Intr + 65038 65283 246 0 0 67 55 129 0.006 5.16 4.03 Intr + 69088 69223 136 0 1 25 44 98 0.003 -0.76 4.04 Intr + 79174 79251 78 2 0 58 91 88 0.930 5.62 4.05 Term + 79367 79710 344 0 2 117 38 109 0.354 3.47 4.06 PlyA + 82171 82176 6 1.05 5.07 PlyA - 82366 82361 6 -0.45 5.06 Term - 83297 83170 128 0 2 103 47 106 0.983 6.44 5.05 Intr - 89436 89289 148 0 1 40 113 85 0.706 6.01 5.04 Intr - 90612 90541 72 0 0 51 94 62 0.416 2.70 5.03 Intr - 90956 90896 61 1 1 6 53 60 0.163 -6.96 5.02 Intr - 92181 92094 88 1 1 56 105 54 0.487 2.93 5.01 Init - 93293 93158 136 2 1 61 95 131 0.820 9.71 5.00 Prom - 97078 97039 40 -3.06 6.00 Prom + 97359 97398 40 -4.66 6.01 Init + 100001 100937 937 1 1 73 110 1543 0.708 148.91 6.02 Intr + 105136 105426 291 2 0 96 55 281 0.859 22.71 6.03 Intr + 121231 121346 116 2 2 3 47 144 0.541 1.97 6.04 Intr + 125461 125566 106 0 1 64 86 50 0.400 2.19 6.05 Intr + 125664 125754 91 1 1 93 34 63 0.289 0.45 6.06 Intr + 125781 125937 157 0 1 41 83 122 0.330 7.01 6.07 Intr + 126157 126302 146 0 2 70 105 47 0.679 3.68 6.08 Intr + 127699 127912 214 1 1 44 42 80 0.544 -2.28 6.09 Intr + 129248 129417 170 1 2 66 19 144 0.575 4.04 6.10 Intr + 130710 130803 94 0 1 56 115 45 0.309 3.97 6.11 Intr + 148391 148477 87 1 0 78 61 124 0.596 8.87 6.12 Term + 152526 152564 39 2 0 68 38 50 0.180 -4.81 6.13 PlyA + 152981 152986 6 1.05 7.12 PlyA - 153156 153151 6 1.05 7.11 Term - 159886 157634 2253 1 0 44 52 1436 0.960 120.98 7.10 Intr - 162159 161180 980 1 2 87 116 400 0.809 33.36 7.09 Intr - 163729 162851 879 2 0 116 86 427 0.906 36.60 7.08 Intr - 165361 165290 72 2 0 106 95 -11 0.625 0.78 7.07 Intr - 167642 167497 146 1 2 107 113 73 0.998 11.63 7.06 Intr - 169475 169280 196 0 1 59 93 97 0.999 5.77 7.05 Intr - 170288 170143 146 1 2 72 96 149 0.972 14.03 7.04 Intr - 174812 174730 83 2 2 89 76 69 0.987 4.24 7.03 Intr - 175395 175251 145 2 1 58 65 122 0.741 7.18 7.02 Intr - 176852 176750 103 0 1 45 50 107 0.980 1.83 7.01 Intr - 187195 187046 150 2 0 60 93 130 0.983 10.83 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 32980 33004 25 0 1 95 82 43 0.851 4.09 S.002 Term - 65309 64960 350 0 2 31 39 243 0.850 8.35 S.003 Init + 77960 77969 10 1 1 39 116 9 0.923 -0.58 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587f:128811274_129016728|GENSCAN_predicted_peptide_1|135_aa MNPIILQLHELELQPSAPCGSQHPRPPPPELPPASPNIPSPKAAPNPQAAPRALGHPHPA APELSPVSPGPQRPRPPPTRSCPLSSPHLPVPKAAPHPELLPEYPAPRALGCPSPLSCYP RTPPPAPSAAPHPQG >gi568815587f:128811274_129016728|GENSCAN_predicted_CDS_1|408_bp atgaatcctatcatcctacaactccacgaactggagctgcagccctcggccccctgtggc tcccagcaccctcggccacccccacccgagctgccccctgcgtcccccaacattccctcg cccaaggctgcccccaacccccaagctgctccccgcgccctcggccacccccacccggct gctcccgagctgtcccctgtatcccccggcccccaacgccctcggccaccccccacccgg agctgccccctgagttccccccacctccctgtgcccaaggctgccccccacccggagctg ctcccggagtaccccgccccgcgcgctctcggctgcccctcacccttgagctgctacccg cgtaccccgccccccgcgccctcggctgccccccacccccagggctga >gi568815587f:128811274_129016728|GENSCAN_predicted_peptide_2|391_aa MNASSRNVFDTLIRVLTESMFKHLRKWVVTRFFGHSRQRARLVSKDGRCNIEFGNVEAQS RFIFFVDIWTTVLDLKWRYKMTIFITAFLGSWFFFGLLWYAVAYIHKDLPEFHPSANHTP CVENINGLTSAFLFSLETQVTIGYGFRCVTEQCATAIFLLIFQSILGVIINSFMCGAILA KISRPKKRAKTITFSKNAVISKRGGKLCLLIRVANLRKSLLIGSHIYGKLLKTTVTPEGE TIILDQININFVVDAGNENLFFISPLTIYHVIDHNSPFFHMAAETLLQQDFELVVFLDGT VESTSATCQVRTSYVPEEVLWGYRFAPIVSKTKEGKYRVDFHNFSKTVEVETPHCAMCLY NEKDVRARMKRGYDNPNFILSEVNETDDTKM >gi568815587f:128811274_129016728|GENSCAN_predicted_CDS_2|1176_bp atgaatgcttccagtcggaatgtgtttgacacgttgatcagggtgttgacagaaagtatg ttcaaacatcttcggaaatgggtcgtcactcgcttttttgggcattctcggcaaagagca aggctagtctccaaagatggaaggtgcaacatagaatttggcaatgtggaggcacagtca aggtttatattctttgtggacatctggacaacggtacttgacctcaagtggagatacaaa atgaccattttcatcacagccttcttggggagttggtttttctttggtctcctgtggtat gcagtagcgtacattcacaaagacctcccggaattccatccttctgccaatcacactccc tgtgtggagaatattaatggcttgacctcagcttttctgttttctctggagactcaagtg accattggatatggattcaggtgtgtgacagaacagtgtgccactgccatttttctgctt atctttcagtctatacttggagttataatcaattctttcatgtgtggggccatcttagcc aagatctccaggcccaaaaaacgtgccaagaccattacgttcagcaagaacgcagtgatc agcaaacggggagggaagctttgcctcctaatccgagtggctaatctcaggaagagcctt cttattggcagtcacatttatggaaagcttctgaagaccacagtcactcctgaaggagag accattattttggaccagatcaatatcaactttgtagttgacgctgggaatgaaaattta ttcttcatctccccattgacaatttaccatgtcattgatcacaacagccctttcttccac atggcagcggagacccttctccagcaggactttgaattagtggtgtttttagatggcaca gtggagtccaccagtgctacctgccaagtccggacatcctatgtcccagaggaggtgctt tggggctaccgttttgctcccatagtatccaagacaaaggaagggaaataccgagtggat ttccataactttagcaagacagtggaagtggagacccctcactgtgccatgtgcctttat aatgagaaagatgttagagccaggatgaagagaggctatgacaaccccaacttcatcttg tcagaagtcaatgaaacagatgacaccaaaatgtaa >gi568815587f:128811274_129016728|GENSCAN_predicted_peptide_3|170_aa MKDLVCDAEELGQCPEGGENRGYCVSRPLGPADVGYKAHPRQGALLLLTCPLALGGVRDF TLELPTQDRNQTPFSDLQSPEADTRIGQEQFKTFAGGRSWEVSRAVSCSERAPGWAVPGN EDGGMLNASKKSPSEKTPAFAEGQLYGMEQRVTEAAGSAPSGSRAFPEST >gi568815587f:128811274_129016728|GENSCAN_predicted_CDS_3|513_bp atgaaggacctagtatgtgatgctgaggaacttgggcagtgtccggaaggtggtgagaac cggggctattgcgtctccaggccccttggtccagctgatgtgggttacaaggcccacccg cgccagggggcgctgctgctgctgacctgccctctggcactgggaggtgtgagggacttc accctggagctgccaacccaggatcgtaaccaaacaccgttctcagacctgcagagccca gaggcagacacgaggattggtcaagagcagttcaagacatttgctggaggacgcagctgg gaagtctcccgggcagtgtcctgttctgagagggctcctgggtgggctgtgcccggtaat gaggatgggggcatgctaaatgccagcaagaagagccccagtgagaagactccagcattt gctgaagggcagctctatggcatggaacaaagggtcaccgaagctgctggctctgctccc tctggctccagggctttcccagaaagcacttga >gi568815587f:128811274_129016728|GENSCAN_predicted_peptide_4|272_aa MCLPQVDRVERPVDSIALSWEQNLPGLCTFNPAGSQLSAVRRKAFTLQFPGDCSQDAWVS TTDSSAEGLLRGNFPPEKHRNETAMSPSHTGKGSSLREVELLDKRAEALLVMSTSHEDQA GSGAWGHQKGEGACPGSCLSYGFHELKNTLWSSSVLKAGRVSSHRRPAAAARRGEIVRGE QRARGQLAWVLSLDLLPLQLADQAPGPSLHGGNQSRRAGDAAPRLWLPRLPKGIPPSAPS LSGNGEMLPTVRLAHRGATEQPRRGSEPRFLP >gi568815587f:128811274_129016728|GENSCAN_predicted_CDS_4|819_bp atgtgtctcccccaggtagaccgcgtggagcgcccagtggactcgatagcgctgtcctgg gaacagaaccttcccggactgtgcacttttaaccctgcaggttctcagctgtctgccgtc agaaggaaagcattcacactccagttcccaggagactgcagccaggacgcttgggtttcc accacggattcctctgctgaggggctgctccgcggtaactttcctcccgagaagcacagg aatgaaacggcgatgagcccctctcacacagggaagggctccagcctgcgggaggtggag ctgctggataaaagagctgaggcccttctggtgatgtccaccagccacgaggatcaggcg gggtcaggggcctggggacaccagaaaggggagggtgcctgccctggcagctgcctttcc tacggcttccacgaattaaagaacacactctggtcatcatctgtcctcaaggcagggcgc gtttccagccatcgccgcccagccgccgccgcacgccggggagagatcgtccggggtgag cagcgagcccggggacagctagcctgggtcctgtccctggacctactccccctgcagctg gcggatcaggcccccggaccctcactccacggcgggaatcagagccgtcgggcgggggat gcagcgcccagactgtggctcccccgccttcccaaaggaatccccccatctgctccatcc ctctcgggaaacggcgaaatgctgccaaccgtccgcttagcgcaccgcggagcgactgag cagccccgccgaggctccgagccaagatttctgccctaa >gi568815587f:128811274_129016728|GENSCAN_predicted_peptide_5|210_aa MLTRLVLSAHLSSTTSPPWTHAAISWELDNVLMPSPRIWPQVTPTAGQDVHAIVTRTCES VLSSAVYTHGCGCVSGEGIVEGTAEVCEMSGMRPQRSLIAKLLSTLRKGAAGKADEASQD SGIVDTETPTVKFYVIQTLGDLAIGLPGGPGFWLHNKGGWLVLNGATEENKNKTQKDSFV ADDYLNSYLMTDPHLETLPALNDLSIAHTQ >gi568815587f:128811274_129016728|GENSCAN_predicted_CDS_5|633_bp atgttgacgcggctggtcctcagtgcacacctgagtagcacgacctctccgccctggacg cacgctgccatcagctgggagctggacaacgtgctgatgcctagtcccagaatctggccc caggtgactccaacagctgggcaggatgtgcatgccatagtaaccagaacctgtgagtct gtgctgagctctgccgtctacacccacggctgtggctgtgtgagcggtgagggcatcgtg gaagggactgcagaggtgtgcgagatgagtggaatgaggccccagcgttctctgattgcc aagctgttaagcactctgcggaagggagctgctgggaaggcggacgaggcatctcaggat tctggcattgtagacacagaaacaccgactgtgaagttttatgtaatacaaacactggga gatttagcaataggcctgccaggcggccctggcttctggctgcacaacaaaggggggtgg ctggtgctgaatggggcaacagaagaaaataaaaacaaaacacagaaagattccttcgtg gctgacgactatcttaacagttatctgatgacagatccgcacttggaaacactgccagcc ctcaatgacctgtctatagctcatacacagtga >gi568815587f:128811274_129016728|GENSCAN_predicted_peptide_6|815_aa MAGDSRNAMNQDMEIGVTPWDPKKIPKQARDYVPIATDRTRLLAEGKKPRQRYMEKSGKC NVHHGNVQETYRYLSDLFTTLVDLKWRFNLLVFTMVYTVTWLFFGFIWWLIAYIRGDLDH VGDQEWIPCVENLSGFVSAFLFSIETETTIGYGFRVITEKCPEGIILLLVQAILGSIVNA FMVGCMFVKISQPKKRAETLMFSNNAVISMRDEKLCLMFRVGDLRNSHIVEASIRAKLIK SRQTKEGEFIPLNQTDINVGFDTGDDRLFLVSPLIISHEINQKSPFWEMSQAQLHQEEFE VVVILEGMVEATGMTCQARSSYMDTEVLWGHRFTPVLTLEKGFYEVDYNTFHDTYETNTP SCCAKELAEMKREGRLLQYLPSPPLLGGCAEAGLDAEAEQNEEDEPKGLDDPLTPFTADI RSLLVELLSEFGKCECDLENAGCRREDPVFMASRGISPQQSDDAATQVPMETKLGQEEQK APQARGFVTPAHLGPAPQTLRVSFWGEKCGPPGRLLAQAWPVSASGAMRCLCWDECMAPA SLPPPQSPQASECVIFIIGHRKRLLGKPRIPRRRRAGLPLGTIDQGCQFPALSNALNWGQ SACSSEDPDAVTGSCQFGPVWYMLAMCGDHAKYCACTISRNTSCNLMKFSPNLTSTNQTQ KAFTQCCTLRKCKRTNTASIPGLSPKPCEDGSLCPFWRTQQQGTIMKAETGAITRHRTCW HLAPELWEDTFLSFVNRPLSGVVHSPSYMEGAIINLLGGCGHSASPYLWQSWHTEARALF FRMLLPLSVTDVMGEPESRVEWERYTVNCMKNMTN >gi568815587f:128811274_129016728|GENSCAN_predicted_CDS_6|2448_bp atggctggcgattctaggaatgccatgaaccaggacatggagattggagtcactccctgg gaccccaagaagattccaaaacaggcccgcgattatgtccccattgccacagaccgtacg cgcctgctggccgagggcaagaagccacgccagcgctacatggagaagagtggcaagtgc aacgtgcaccacggcaacgtccaggagacctaccggtacctgagtgacctcttcaccacc ctggtggacctcaagtggcgcttcaacttgctcgtcttcaccatggtttacactgtcacc tggctgttcttcggcttcatttggtggctcattgcttatatccggggtgacctggaccat gttggcgaccaagagtggattccttgtgttgaaaacctcagtggcttcgtgtccgctttc ctgttctccattgagaccgaaacaaccattgggtatggcttccgagtcatcacagagaag tgtccagaggggattatactcctcttggtccaggccatcctgggctccatcgtcaatgcc ttcatggtggggtgcatgtttgtcaagatcagccagcccaagaagagagcggagaccctc atgttttccaacaacgcagtcatctccatgcgggacgagaagctgtgcctcatgttccgg gtgggcgacctccgcaactcccacatcgtggaggcctccatccgggccaagctcatcaag tcccggcagaccaaagagggggagttcatccccctgaaccagacagacatcaacgtgggc tttgacacgggcgacgaccgcctcttccttgtgtctcctctgatcatctcccatgagatc aaccagaagagccctttctgggagatgtctcaggctcagctgcatcaggaagagtttgaa gttgtggtcattctagaagggatggtggaagccacaggcatgacctgccaagcccggagc tcctacatggatacagaggtgctctggggccaccgattcacaccagtcctcaccttggaa aagggcttctatgaggtggactacaacaccttccatgatacctatgagaccaacacaccc agctgctgtgccaaggagctggcagaaatgaagagggaaggccggctcctccagtacctc cccagccccccactgctggggggctgtgctgaggcagggctggatgcagaggctgagcag aatgaagaagatgagcccaaggggctggatgaccccttaacacccttcactgctgacatc cggagcctccttgtggagctgttgtcagagtttggaaagtgtgagtgtgacctagagaac gctgggtgcagacgtgaagatccagtattcatggcatccaggggcatttcacctcagcaa agtgatgacgctgccactcaggttcccatggaaaccaaactgggacaggaggaacaaaag gctcctcaagctcggggctttgtcaccccagcacacctgggccctgcacctcagacgctg cgtgtgagcttctggggagagaagtgtgggcctccagggagactcctggcccaggcctgg cctgtgtctgcttccggagccatgcgctgcctgtgctgggatgaatgcatggcccctgca tccttaccccctcctcagagcccacaagcttccgagtgcgtcatcttcattattggccac aggaaacgacttcttggaaaacccaggattccgaggaggaggagggctggccttcctctt gggactattgatcagggctgtcagttcccagctctgtccaatgctctgaactggggacag tccgcatgcagctctgaggacccagatgctgtcactgggtcctgtcaattcggaccagtt tggtacatgctggccatgtgcggtgaccacgctaagtactgtgcgtgtaccatttctcgg aatacttcctgcaaccttatgaagttctcgcccaatttaacaagcactaaccaaactcag aaggcatttacccaatgctgcacgttacgaaaatgtaaaagaacgaacacggcttcaata ccaggattgagcccaaagccatgtgaggacggcagcctttgtcccttctggaggacgcag cagcaaggcaccatcatgaaagcagagactggagccatcaccaggcacagaacctgctgg cacctggctccagagctgtgggaagatacatttctgtcctttgtgaatcgcccactctcc ggggttgttcacagcccttcctacatggagggtgctatcatcaatcttctggggggctgt ggacactctgcatccccatacctgtggcagtcctggcacacggaagctagagcactcttc ttccgcatgctgctgcccttgtcagtgacagatgtcatgggagaacctgagtcgagagtg gagtgggagaggtacactgtcaactgtatgaaaaacatgaccaactaa >gi568815587f:128811274_129016728|GENSCAN_predicted_peptide_7|1717_aa XSKKHGKLITFLRTFMKSRPTKQKLKQRGILKERVFGCDLGEHLLNSGFEVPQVLQSCTA FIERYGIVDGIYRLSGVASNIQRLRHEFDSEHVPDLTKEPYVQDIHSVGSLCKLYFRELP NPLLTYQLYEKFSDAVSAATDEERLIKIHDVIQQLPPPHYRSKQIESACFSGTAAFMEVR IQSVVVEFILNHVDVLFSGRISMAMQEGAASLSRPKSLLVSSPSTKLLTLEEAQARTQAQ VNSPIVTENKYIEVGEGPAALQGKFHTIIEFPLERKRPQNKMKKSPVGSWRSFFNLGKSS SVSKRKLQRNESEPSEMKAMALKGGRAEGTLRSAKSEESLTSLHAVDGDSKLFRPRRPRS SSDALSASFNGEMLGNRCNSYDNLPHDNESEEEGGLLHIPALMSPHSAEDVDLSPPDIGV ASLDFDPMSFQCSPPKAESECLESGASFLDSPGYSKDKPSANKKDAETGSSQCQTPGSTA SSEPVSPLQEKLSPFFTLDLSPTEDKSSKPSSFTEKVVYAFSPKIGRKLSKSPSMSISEP ISVTLPPRVSEVIGTVSNTTAQNASSSTWDKCVEERDATNRSPTQIVKMKTNETVAQEAY ESEVQPLDQVAAEEVELPGKEDQSVSSSQSKAVASGQTQTGAVTHDPPQDSVPVSSVSLI PPPPPPKNVARMLALALAESAQQASTQSLKRPGTSQAGYTNYGDIAVATTEDNLSSSYSA VALDKAYFQTDRPAEQFHLQNNAPGNCDHPLPETTATGDPTHSNTTESGEQHHQVDLTGN QPHQAYLSGDPEKARITSVPLDSEKSDDHVSFPEDQSGKNSMPTVSFLDQDQSPPRFYSG DQPPSYLGASVDKLHHPLEFADKSPTPPNLPSDKIYPPSGSPEENTSTATMTYMTTTPAT AQMSTKEASWDVAEQPTTADFAAATLQRTHRTNRPLPPPPSQRSAEQPPVVGQVQAATNI GLNNSHKVQGVVPVPERPPEPRAMDDPASAFISDSGAAAAQCPMATAVQPGLPEKVRDGA RVPLLHLRAESVPAHPCGFPAPLPPTRMMESKMIAAIHSSSADATSSSNYHSFVTASSTS VDDALPLPLPVPQPKHASQKTVYSSFARPDVTTEPFGPDNCLHFNMTPNCQYRPQSVPPH HNKLEQHQVYGARSEPPASMGLRYNTYVAPGRNASGHHSKPCSRVEYVSSLSSSVRNTCY PEDIPPYPTIRRVQSLHAPPSSMIRSVPISRTEVPPDDEPAYCPRPLYQYKPYQSSQARS DYHVTQLQPYFENGRVHYRYSPYSSSSSSYYSPDGALCDVDAYGTVQLRPLHRLPNRDFA FYNPRLQGKSLYSYAGLAPRPRANVTGYFSPNDHNVVSMPPAADVKHTYTSWDLEDMEKY RMQSIRRESRARQKVKGPVMSQYDNMTPAVQDDLGGIYVIHLRSKSDPGKTGLLSVAEGK ESRHAAKAISPEGEDRFYRRHPEAEMDRAHHHGGHGSTQPEKPSLPQKQSSLRSRKLPDM GCSLPEHRAHQEASHRQFCESKNGPPYPQGAGQLDYGSKGIPDTSEPVSYHNSGVKYAAS GQESLRLNHKEVRLSKEMERPWVRQPSAPEKHSRDCYKEEEHLTQSIVPPPKPERSHSLK LHHTQNVERDPSVLYQYQPHGKRQSSVTVVSQYDNLEDYHSLPQHQRGVFGGGGMGTYVP PGFPHPQSRTYATALGQGAFLPAELSLQHPETQIHAE >gi568815587f:128811274_129016728|GENSCAN_predicted_CDS_7|5154_bp ntgtctaaaaagcacggcaagctcattacgttcttacgaacattcatgaagtctcgtcca acaaaacagaagctgaagcagcggggaatcttgaaagagagggtgtttggttgtgacctg ggggaacaccttctaaattctggttttgaagtgccgcaggttcttcaaagctgcacagca ttcattgagagatatggcatcgtggatggaatctatcgcctttctggtgttgcctccaat atccagagactacgccatgaatttgactctgagcacgtccccgacctgacgaaagaaccg tatgttcaggacatccattctgtgggttccctatgtaagctgtacttccgggaactccca aaccctctgcttacctaccagctgtatgagaaattttctgatgcagtttcagcagcaaca gatgaagaaaggctgataaaaatccacgatgtcatccagcagctccccccaccacactac agatcaaaacagatagaatctgcctgcttcagtggaacagcagctttcatggaagtgagg attcagtctgtggttgttgagttcatcctgaatcacgttgatgtgctgttcagcggcaga atcagcatggccatgcaagagggggcagcttctctatcaaggcccaagtccctcctggta tcctctccatccaccaaactgctgacattggaagaggcccaggcacgaacacaagctcag gtcaattctccaattgtgacggaaaataaatatatcgaagtaggagaaggacctgctgca cttcaggggaaatttcataccataattgagttcccacttgaaagaaagaggcctcaaaat aagatgaaaaagtctcctgtgggtagctggcgttcctttttcaacttggggaaatcatca tctgtttctaaacgaaagctgcagcggaatgagagtgagccttcagagatgaaagccatg gctctgaaaggtggcagggcagaaggaaccctccgttcagctaaaagtgaggagtctctt acatctctccatgcagttgatggtgattctaagctcttccgacccagaagacccagatct tccagtgatgcactgtctgcctcttttaatggagaaatgctggggaaccgctgtaactcc tatgataatctgcctcatgacaatgagagtgaggaggaaggagggctgcttcatatccca gcccttatgtctcctcattcagctgaggatgttgacttgagcccaccagacattggagta gccagcctggattttgatccaatgtcatttcaatgtagtcctcctaaggccgaatcagaa tgtctggagagtggtgcttcctttttagattcaccaggatactccaaggataaaccaagt gccaataaaaaggatgcagaaacaggtagtagccaatgtcagactccaggaagcacagca agctctgaacctgtctctcctcttcaggagaaactgagtccattctttaccctggacttg agcccaactgaagataaatcatctaagccatcctcctttactgaaaaggtcgtctatgct ttctctccgaagataggacggaaattaagcaaatcaccttctatgagcatatctgagcca atttcagtgaccctaccaccacgggtgtcagaagtcattggtacagtctcaaataccaca gctcagaatgcatcatcttcaacctgggacaaatgcgttgaagaaagggatgccacaaat agatcccccacccagatagtaaagatgaaaacaaatgagacagttgcccaagaagcatat gaatctgaagtccagcccctggaccaggtggctgctgaagaagtagaattgccagggaaa gaggatcagtctgtctcaagcagtcagagtaaggctgtagcttctggacagactcagaca ggagcagttacccatgacccccctcaggattccgttcctgtcagttcagtctctcttatc ccaccaccaccgcctccgaaaaatgttgcccgaatgttggcgctagcattagctgagtcc gcacagcaagcctcaactcagtcattgaagagaccagggacctctcaggctgggtataca aattatggagacatagcggtggctacaactgaagataatctgtccagttcttactctgca gttgctctagataaggcctatttccaaaccgatcgaccagcagagcagttccacctccag aataatgcaccaggaaactgtgaccatcctctaccagagacaacagctactggggatcct acccattccaacacaactgaatctggggagcaacatcaccaagtagacttaacagggaat cagccacatcaagcatatttatctggggacccagaaaaggccagaattacttcagttccc ttagactcagagaagtctgatgatcatgtaagtttccctgaagaccagtctgggaagaac agtatgccaactgtctccttcttggatcaggaccagtctccaccccgtttctacagtgga gatcagcctccttcttatcttggtgcaagtgtggataaactccatcaccctttagaattt gcagacaaatctcccacacctcctaatttacctagcgataaaatctaccctccttctggg tcccccgaagagaataccagcacagccaccatgacttacatgacaactactccagcaaca gcccaaatgagcaccaaggaagccagctgggatgtggctgaacaacccaccactgctgat tttgctgctgccacacttcagcgcacgcacagaactaatcgtccccttccccctccgcct tcccagagatctgcagagcagccaccagttgtggggcaggtacaagcagcaaccaatata ggattaaataattcccacaaggttcaaggagtagttccagttccagagaggccacctgaa cctcgagccatggatgaccctgcgtctgccttcatcagtgacagtggtgctgctgctgct cagtgtcccatggctacagctgtccagccaggcctgcctgagaaagtgcgggacggtgcc cgggtcccgctgctgcacctgcgcgccgagtctgtccctgcgcatccctgtggctttcct gcaccactgccccccaccaggatgatggagagtaagatgattgctgccatacactccagc agtgcagatgccaccagcagttcaaattatcattcctttgtcactgcttcatccacctct gtggacgatgcattgcctttaccacttcctgtcccacaacctaagcatgcttctcagaaa acagtttactcctcctttgctaggcccgatgtcaccactgaaccctttggtccagataac tgtttgcatttcaatatgactccaaactgccagtaccgtccccagagtgtacctccccat cacaataaattggagcagcaccaagtgtatggtgccaggtcagagccaccagcctccatg ggtcttcgttataacacatatgtggccccaggaagaaacgcatctggacaccactccaag ccatgcagccgggtcgagtatgtgtcttctttgagctcctctgtcaggaatacctgttac cccgaagacattccaccgtaccctaccatccggagagtgcagtctctccatgctccgccg tcttccatgattcgctctgttcccatttcacggacagaagttcccccagatgatgagcca gcctactgcccaagacctctgtaccaatataagccatatcagtcctcccaggcccgctca gattatcatgtcactcagcttcagccttactttgagaatggccgggtccactacaggtat agcccatattccagttcttctagttcctattacagtccagatggggccctgtgtgatgtg gatgcctatggcacagtccagttgagaccccttcaccgccttcccaatcgagactttgct ttctacaatcctaggctgcaaggaaagagcttgtacagttatgctggtttggctccacgt ccccgggccaacgtgactggctatttctctcccaacgaccataatgtagtcagcatgcct ccggctgctgatgtgaagcacacctacacctcatgggatcttgaggacatggaaaaatac cgcatgcagtccatccggagagagagccgtgctcggcagaaggtgaaagggcctgtcatg tcccaatatgataacatgaccccggcggtgcaggacgacttgggtgggatctatgtcatc catctgcgtagtaaatcagatcctgggaaaactggacttctctcagtggcagaaggaaag gagagccgccatgcagccaaggccatcagtcccgagggagaggaccgcttctataggagg catcccgaggcagagatggacagagcccaccatcacggaggccatggtagcacgcagccg gagaagccatccctgcctcagaagcagagcagcctgaggagcaggaagcttcctgacatg ggctgcagtcttcctgagcacagggcacaccaagaagcaagccataggcagttctgtgag tcaaagaatgggcccccttatccccagggagctggccagttagattatgggtccaaaggg attccagacacttctgagccagtcagctaccacaactctggagtaaaatatgctgcatcc gggcaagaatctttaagactgaaccacaaagaggtaaggctctccaaagagatggagcga ccctgggttaggcagccttctgccccagagaaacactccagagactgctacaaggaggaa gaacacctcactcagtcaatcgtcccaccccctaaaccagagaggagtcatagcctcaaa ctccatcatacccagaacgtggagagggaccccagtgtgctgtaccagtaccaaccacac ggcaagcgccagagcagtgtgactgttgtgtcccagtatgataacctggaagattaccac tccctgcctcagcaccagcgaggagtctttggagggggcggcatggggacgtatgtgccc cctggctttccccatccacagagcaggacctatgctacagcgttgggtcaaggggccttc ctgcccgcagagttgtccttgcagcatcctgaaacacagatccatgcagaatga