Result of GENSCAN for
pF1KE1533
GENSCAN 1.0 Date run: 7-Nov-116 Time: 02:54:33 Sequence gi568815575f:129807365_130029605 : 222241 bp : 46.58% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.12 Intr - 3637 3541 97 0 1 87 100 40 0.954 5.11 1.11 Intr - 4145 4042 104 2 2 106 47 48 0.941 1.47 1.10 Intr - 5448 5354 95 1 2 68 86 80 0.978 5.48 1.09 Intr - 7431 7294 138 1 0 111 70 226 0.999 23.54 1.08 Intr - 16473 16315 159 1 0 70 92 159 0.996 14.46 1.07 Intr - 21777 21617 161 2 2 93 95 174 0.997 18.23 1.06 Intr - 34592 34415 178 0 1 15 61 154 0.250 4.38 1.05 Intr - 35799 35592 208 0 1 104 35 38 0.280 -1.25 1.04 Intr - 36454 36332 123 1 0 22 97 88 0.471 3.88 1.03 Intr - 48037 47870 168 1 0 15 86 89 0.085 1.54 1.02 Intr - 49198 48860 339 1 0 -22 81 274 0.816 11.37 1.01 Init - 49897 49445 453 1 0 49 20 188 0.605 3.96 1.00 Prom - 49990 49951 40 -6.16 2.02 PlyA - 50160 50155 6 1.05 2.01 Sngl - 51402 51109 294 0 0 88 54 253 0.958 17.60 2.00 Prom - 53504 53465 40 -6.36 3.00 Prom + 62005 62044 40 -2.96 3.01 Init + 69970 70138 169 0 1 87 48 127 0.181 8.30 3.02 Intr + 76873 76933 61 2 1 85 103 -25 0.002 -3.51 3.03 Intr + 100003 100078 76 1 1 70 90 89 0.840 6.82 3.04 Intr + 100696 100766 71 0 2 111 65 37 0.979 1.68 3.05 Intr + 101306 101370 65 2 2 74 115 41 0.973 3.76 3.06 Intr + 103644 103786 143 1 2 78 102 67 0.979 7.17 3.07 Intr + 104402 104557 156 1 0 76 113 105 0.997 12.01 3.08 Intr + 111811 111930 120 0 0 60 107 108 0.995 10.59 3.09 Intr + 112031 112125 95 1 2 70 78 96 0.997 5.56 3.10 Intr + 113093 113216 124 2 1 131 81 160 0.999 20.19 3.11 Intr + 113311 113388 78 0 0 123 94 65 0.999 10.35 3.12 Intr + 113830 114223 394 0 1 98 105 266 0.988 23.53 3.13 Intr + 117431 117831 401 0 2 112 93 317 0.992 28.82 3.14 Intr + 118555 118748 194 0 2 92 111 193 0.999 20.29 3.15 Intr + 118876 118975 100 1 1 104 94 140 0.999 16.31 3.16 Intr + 121972 122159 188 0 2 134 58 125 0.391 12.59 3.17 Term + 158840 158927 88 2 1 123 47 86 0.259 5.13 3.18 PlyA + 165057 165062 6 1.05 4.00 Prom + 168961 169000 40 -4.36 4.01 Init + 171372 171417 46 2 1 59 65 67 0.058 2.35 4.02 Intr + 175618 175720 103 2 1 63 71 78 0.028 2.83 4.03 Intr + 181469 181545 77 2 2 43 105 90 0.027 5.36 4.04 Intr + 197881 197953 73 2 1 48 78 197 0.174 13.16 4.05 Intr + 205214 205304 91 2 1 71 116 59 0.991 7.00 4.06 Intr + 205586 206074 489 1 0 103 19 406 0.392 28.40 4.07 Intr + 206363 208849 2487 1 0 81 113 1674 0.277 156.55 4.08 Intr + 213621 213786 166 2 1 116 102 169 0.997 20.63 4.09 Intr + 215533 215613 81 2 0 40 105 75 0.498 4.01 4.10 Intr + 217626 218015 390 1 0 94 110 441 0.856 41.60 4.11 Intr + 221271 221497 227 1 2 107 93 109 0.936 11.00 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 3401 3381 21 2 0 102 33 25 0.892 -3.29 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815575f:129807365_130029605|GENSCAN_predicted_peptide_1|741_aa MGDFNTPLSTLDRSTRQKVNKDIQELNSALYQVDLIDIYRTLQPKSTEYTFFSAPHRTYS KIDHIVGSKALLSKCKRTEIITNCLSDHSAIKLELRMKKLTQNHSTTWKLNNLLLNDYWV HNKMKAEIKMFFETNENKDTTYQNLWDTFKATASKTNKEEKREESNRCNKNAKGVITTDP TEIQTTIREYHKHLYANKLENLEDTDKFLDTYTLPRLNQEEVESLNRPITGSEIEAIINS LPTKKRPGPDGFTAEFYQRYKEEQRIKYLGIQLTRDVKDLFKENYKPLLNEIKEDTNKWK NIPCSWIGRINIMKMAILPKEETASRPGEDKSLPPLAADVIPWDGPFPAVSCRPSWVSVV QAVFGPLPSPARELAVSPSVRRAAGFRLSPASVGHVVSVNRGHNTTPERRRRVAEAEKLW AWEFRMLSRDGIPIMSVMVVRKKVTRKWEKLPGRNTFCCDGRVMMARQKGIFYLTLFLIL GTCTLFFAFECRYLAVQLSPAIPVFAAMLFLFSMATLLRTSFSDPGVIPRALPDEAAFIE MEIEATNGAVPQGQRPPPRIKNFQINNQIVKLKYCYTCKIFRPPRASHCSICDNCVERFD HHCPWVGNCVGKRNYRYFYLFILSLSLLTIYVFAFNIVYVALKVLICFFTLWSVVGLTGF HTFLVALNQTTNEDIKGSWTGKNRVQNPYSHGNIVKNCCEVLCGPLPPSVLDRRGILPLE ESGSRPPSTQETSSSLLPQSP >gi568815575f:129807365_130029605|GENSCAN_predicted_CDS_1|2223_bp atgggagactttaacaccccactgtcaacattagacagatcaacgagacagaaagttaac aaggatatccaggaattgaactcagctctgtaccaagtggacctaatagacatctaccga actctccagcctaaatcaacagaatatacattcttctcagcaccacatcgcacttattcc aaaattgaccacatagttggaagtaaagcactcctcagcaaatgtaaaagaacagaaatt ataacaaactgtctctcagaccacagtgcaatcaaactagaactcaggatgaagaaactc actcaaaatcactcaactacatggaaactgaacaacctgctcctgaatgactactgggta cataacaaaatgaaggcagaaataaagatgttctttgaaaccaacgagaacaaagacaca acataccagaatctctgggacacatttaaagcaactgctagcaagactaataaagaagaa aagagagaagaatcaaatagatgcaataaaaatgctaaaggtgttatcaccaccgatccc acagaaatacaaactaccatcagagaataccataaacacctctatgcaaataaactagaa aatctagaagatacagataaattcctggacacatacaccctcccaagactaaaccaggaa gaagttgaatctctgaatagaccaataacaggctctgaaattgaggcaataattaatagc ttaccaaccaaaaaacgtccaggaccagatggattcacagccgaattctaccagaggtac aaggaggaacagagaataaaatatctaggaatccaacttacaagggatgtgaaggacctc ttcaaggagaactacaaaccactgctcaacgaaataaaagaggacacaaacaaatggaag aacattccatgctcatggataggaagaatcaatatcatgaaaatggccatactgcccaag gaggagacagcctcccggcccggggaggacaagtcgctgccacctttggctgccgacgtg attccctgggacggtccgtttcctgccgtcagctgccggccgagttgggtctccgtggtt caggctgtttttggacctttgccctctccagcccgcgagttggctgtttctccctccgtc cgtcgggctgcaggcttccgcctcagtcctgccagcgtggggcatgtggtgtcggtaaat agaggccacaacaccacacctgagcggaggagaagggtagcagaggctgagaaactctgg gcctgggaattcaggatgctgagtagagatggaattccaatcatgtctgtgatggtggtg agaaagaaggtgacacggaaatgggagaaactcccaggcaggaacaccttttgctgtgat ggccgcgtcatgatggcccggcaaaagggcattttctacctgacccttttcctcatcctg gggacatgtacactcttcttcgcctttgagtgccgctacctggctgttcagctgtctcct gccatccctgtatttgctgccatgctcttccttttctccatggctacactgttgaggacc agcttcagtgaccctggagtgattcctcgggcgctaccagatgaagcagctttcatagaa atggagatagaagctaccaatggtgcggtgccccagggccagcgaccaccgcctcgtatc aagaatttccagataaacaaccagattgtgaaactgaaatactgttacacatgcaagatc ttccggcctccccgggcctcccattgcagcatctgtgacaactgtgtggagcgcttcgac catcactgcccctgggtggggaattgtgttggaaagaggaactaccgctacttctacctc ttcatcctttctctctccctcctcacaatctatgtcttcgccttcaacatcgtctatgtg gccctcaaagtcctcatttgcttctttacactctggtccgtcgtgggactgactggattt catactttcctcgtggctctcaaccagacaaccaatgaagacatcaaaggatcatggaca gggaagaatcgcgtccagaatccctacagccatggcaatattgtgaagaactgctgtgaa gtgctgtgtggccccttgccccccagtgtgctggatcgaaggggtattttgccactggag gaaagtggaagtcgacctcccagtactcaagagaccagtagcagcctcttgccacagagc cca >gi568815575f:129807365_130029605|GENSCAN_predicted_peptide_2|97_aa MGGIQSRKAENSKNQSASSPPKECSSSPAMEQSWMENDFDKLREEGFRQSNISELKEDVR THRKEAKNPEKRLGKWLTRIISVEKSLNDLMELKTMA >gi568815575f:129807365_130029605|GENSCAN_predicted_CDS_2|294_bp atggggggaatccagagcagaaaagctgaaaattctaaaaatcagagtgcctcttctcct ccaaaggaatgcagctcctcaccagcaatggaacaaagctggatggagaatgactttgac aagttgagagaagaaggcttcagacaatcaaacatctctgagctaaaggaggatgttcga acccatcgcaaagaagctaaaaacccggaaaaaagattaggcaaatggctaactagaata atcagtgtagagaagtccttaaatgacctgatggagctgaaaaccatggcatga >gi568815575f:129807365_130029605|GENSCAN_predicted_peptide_3|840_aa MLNSGLAMKTSEISMTQSGGVPTLPVSVGANSAVNNTAESKMDGSQSGISANVEKPAPGN HHSTFCLYKFGYSNYHILLALSQQEELADLPKDYLLSESEDEGDNDGERKHQKLLEAISS LDGKNRRKLAERSEASLKVSEFNVSSEGSGEKLVLADLLEPVKTSSSLATVKKQLSRVKS KKTVELPLNKEEIERIHREVAFNKTAQVLSKWDPVVLKNRQAEQLVFPLEKEEPAIAPIE HVLSGWKARTPLEQEIFNLLHKNKQPVTDPLLTPVEKASLRAMSLEEAKMRRAELQRARA LQSYYEAKARREKKIKSKKYHKVVKKGKAKKALKEFEQLRKVNPAAALEELEKIEKARMM ERMSLKHQNSGKWAKSKAIMAKYDLEARQAMQEQLSKNKELTQKLQVASESEEEEGGTED VEELLVPDVVNEVQMNADGPNPWMLRSCTSDTKEAATQEDPEQLPELEAHGVSESEGEER PVAEEEILLREFEERRSLRKRSELSQDAEPAGSQETKDSGSQEVLSELRVLSQKLKENHQ SRKQKASSEGTIPQVQREEPAPEEEEPLLLQRPERVQTLEELEELGKEECFQNKELPRPV LEGQQSERTPNNRPDAPKEKKKKEQMIDLQNLLTTQSPSVKSLAVPTIEELEDEEERNHR QMIKEAFAGDDVIRDFLKEKREAVEASKPKDVDLTLPGWGEWGGVGLKPSAKKRRRFLIK APEGPPRKDKNLPNVIINEKRNIHAAAHQVRVLPYPFTHHWQFERTIQTPIGSTWNTQRA FQKLTTPKVVTKPGHIINPIKAEDVGYRSSSRAALQRLHDDLQTKKKALFQSDIQSTNTY >gi568815575f:129807365_130029605|GENSCAN_predicted_CDS_3|2523_bp atgctcaacagtggtcttgccatgaagactagcgagatctctatgacccagagtggtggt gttcccaccctcccagtttctgtgggggccaactctgctgtgaataacactgctgagtcc aagatggatggctcccagtcaggtatcagtgccaatgtggaaaaaccagctcctggaaac caccattctactttctgtctctataaatttggctactctaattaccacatccttctggct ttgagccaacaggaagaactagcggatttgccaaaagactacctcttgagtgagagtgaa gatgagggggacaatgatggagagagaaagcatcaaaagcttctggaagcaatcagttcc cttgatggaaagaataggcggaaattggctgagaggtctgaggctagtctgaaggtgtca gagttcaatgtcagttctgaaggatcaggagaaaagctggtccttgcagatctgcttgag cctgttaaaacttcatcttctttggccactgtgaaaaagcaactgagtagagtcaaatca aagaagacagtggagttacctctgaacaaagaagagattgaacggatccacagagaagta gcattcaataaaaccgcacaagtcctctccaaatgggaccctgtcgtcctgaagaaccgg caggcagagcagctggtttttcccctggagaaagaggagccagccattgctcccattgaa catgtgctcagtggctggaaggcaagaactcccctggagcaggaaattttcaacctcctc cataagaacaagcagccagtgacagaccctttactgacccctgtggaaaaggcctctctc cgagccatgagcctagaagaggcaaagatgcgacgagcagagcttcagagggctcgggct ctgcagtcctactatgaggccaaggctcgaagagagaagaaaatcaaaagtaaaaagtat cacaaagtcgtgaagaaaggaaaggccaagaaagccctaaaagagtttgagcagctgcgg aaggttaatccagctgcagcactagaagaactggaaaaaattgaaaaggccagaatgatg gaaagaatgagccttaagcaccaaaacagtgggaaatgggccaagtcaaaggcaattatg gccaaatatgacctggaggctcgccaagctatgcaggaacagttgtctaagaacaaagaa ctgacacagaaactccaggtagcctctgagagtgaggaagaggagggaggcacagaagat gtggaagaactccttgtccctgatgtagtgaatgaagtgcagatgaatgcagatgggccg aatccctggatgctcaggagctgcaccagtgacaccaaagaggctgcaacccaggaggac cctgagcaactgccagagcttgaggcccatggagtttctgaaagtgagggagaagaaaga ccagtggcagaagaagaaattttgttgagagaatttgaggaaaggcgatcccttagaaaa agatctgagctcagccaagatgctgagccagcaggcagtcaagaaacaaaagattctggc agccaggaggtgctgtctgaattgagagtactatctcagaaattgaaggaaaaccatcag tccaggaagcaaaaagcaagttcagaggggactattccccaggtccagagagaggaacct gccccagaagaagaggagcccctgttgctacagagaccagagagagtacagacgctggaa gagctagaagagctgggaaaagaagaatgttttcaaaataaggagcttcccagacctgtg ttagaagggcagcagtcagagaggaccccaaataatcgccctgatgcccctaaggagaag aaaaagaaggagcaaatgatcgacctacagaacctcctaaccacacaatctccctccgtg aagtctttggcagttcccacaatagaggagctggaagatgaagaggagagaaaccatagg cagatgataaaggaagcttttgctggggatgatgtcatcagagatttcttgaaagagaag agggaagctgtggaggcgagtaagccaaaggacgtggacctgacactacctggctggggc gagtggggtggtgtgggcctaaagcccagtgccaagaaaagacgccggtttctcattaaa gcccctgagggtcctccaagaaaagataagaatttgccaaatgtgattatcaatgagaag cgcaacatccacgcagctgctcatcaggtacgagtgcttccatatccatttacccaccat tggcaatttgaaaggaccatccagacccccataggatccacatggaacacccagagggct ttccaaaagctgactactcccaaggtcgtcaccaagccaggccatatcattaaccccata aaagcagaagacgtgggctaccggtcttcctcaagagcagctctacaacgcctccatgat gacctccagaccaagaagaaggctctctttcagtcagacattcagtcaacaaacacatac tga >gi568815575f:129807365_130029605|GENSCAN_predicted_peptide_4|1410_aa MASALSTLLAIAFEGAFLQPCSFFSLRPLGLPPGGAVLFVSPDVALPGAGDKENKQIFAF PSFVEKCTVYDYDRRAPLYSGVHNWTSSDRIRMCGINEERRAPLSDEESTTGDCQHFGSQ EFCVSSSFSKVELTAVGSGSNARGADPDGSATEKLGHKSEDKPDDPQPKMDYAGNVAEAE GLLVPLSSPGDGLKLPASDSAEASNSRADCSWTPLNTQMSKQVDCSPAGVKALDSRQGVG EKNTFILATLGTGVPVEGTLPLVTTNFSPLPAPICPPAPGSASVPHSVPDAFQAPVPPSA PTLVLAPVPTPVLAPMPASTPPAAPAPPSVPMPTPTPSSGPPSTPTLIPAFAPTPVPAPT PAPIFTPAPTPMPAATPAAIPTSAPIPASFSLSRVCFPAAQAPAMQKVPLSFQPGTVLTP SQPLVYIPPPSCGQPLSVATLPTTLGVSSTLTLPVLPSYLQDRCLPGVLASPELRSYPYA FSVARPLTSDSKLVSLEVNRLPCTSPSGSTTTQPAPDGVPGPLADTSLVTASAKVLPTPQ PLLPAPSGSSAPPHPAKMPSGTEQQTEGTSVTFSPLKSPPQLEREMASPPECSEMPLDLS SKSNRQKLPLPNQRKTPPMPVLTPVHTSSKALLSTVLSRSQRTTQAAGGNVTSCLGSTSS PFVIFPEIVRNGDPSTWVKNSTALISTIPGTYVGVANPVPASLLLNKDPNLGLNRDPRHL PKQEPISIIDQGEPKGTGATCGKKGSQAGAEGQPSTVKRYTPARIAPGLPGCQTKELSLW KPTGPANIYPRCSVNGKPTSTQVLPVGWSPYHQASLLSIGISSAGQLTPSQGAPIRPTSV VSEFSGVPSLSSSEAVHGLPEGQPRPGGSFVPEQDPVTKNKTCRIAAKPYEEQVNPVLLT LSPQTGTLALSVQPSGGDIRMNQGPEESESHLCSDSTPKMEGPQGACGLKLAGDTKPKNQ VLATYMSHELVLATPQNLPKMPELPLLPHDSHPKELILDVVPSSRRGSSTERPQLGSQVD LGRVKMEKVDGDVVFNLATCFRADGLPVAPQRGQAEVRAKAGQARVKQESVGVFACKNKW QPDDVTESLPPKKMKCGKEKDSEEQQLQPQAKAVVRSSHRPKCRKLPSDPQESTKKSPRG ASDSGKEHNGVRGKHKHRKPTKPESQSPGKRADSHEEGSLEKKAKSSFRDFIPVVLSTRT RSQSGSICSSFAGMADSDMGSQEVFPTEEEEEVTPTPAKRRKVRKTQRDTQYRSHHAQDK SLLSQGRRHLWRAREMPWRTEAARQMWDTNEEEEEEEEEGLLKRKKRRRQKSRKYQTGEY LTEQEDEQRRKGRADLKARKQKTSSSQSLEHRLRNRNLLLPNKVQGISDSPNGFLPNNLE EPACLENSEKPSGKRKCKTKHMATVSEEAK >gi568815575f:129807365_130029605|GENSCAN_predicted_CDS_4|4230_bp atggccagcgccttgtccacgttgctggcaatagcttttgagggtgcctttctccaaccc tgttccttcttttccctgcggccgctcggcttgccccccgggggcgccgtcctcttcgtg tccccggacgtagcgctccctggagctggggacaaggagaacaagcagatttttgctttt ccaagttttgtggagaagtgcaccgtatatgactatgatcgcagagcaccgctctacagc ggcgtgcacaactggaccagttctgaccggattcgcatgtgtggcatcaacgaggagaga agagcacctctttctgatgaggagtcaacgacaggcgactgccagcactttggatctcag gagttttgtgtcagcagcagtttttccaaggtggagctcacggcagttggaagtggcagc aatgcccggggggcagacccagatggcagtgctacagaaaaacttgggcacaagtcagaa gacaagcctgacgatccccagccaaaaatggactacgctgggaacgtggcagaggctgag ggcctcttggtgcccctgagcagcccaggagacgggctcaagcttcccgcatctgacagc gccgaggccagcaacagcagggccgactgctcctggactccactcaacacccaaatgagc aaacaggttgactgctcacccgccggagtaaaggctttggactctcggcaaggtgttgga gagaagaatactttcattttggcaactctgggaactggagtccctgtggaggggaccctg cccctggttaccactaacttcagtcctctgccagcccctatctgtccccctgctcccggt tcggcctctgtgccccactctgttccagatgcattccaggctcctgtgcccccttcagct ccgaccttggttctcgctcccgtccccactccggttctggctcccatgccagcatccacg cctccagcggcccctgcccctccgtctgtgcccatgcccactccaaccccatcttccggc ccaccttctacccccaccctcatccccgcctttgctcctacaccggtgcctgcacccacc ccagcccccatctttactccagcccctacacccatgcctgctgccacgccagctgccatt cccacctctgcacccatcccggcctccttcagtttgagtagagtgtgctttcctgcagct caggcaccagctatgcaaaaagtccccctgtcctttcagccagggacagtgctgaccccg agccagccgctggtatatatcccgcctccaagctgtgggcagccactcagtgtggccaca ctgccaaccactctaggggtttcctccactcttacgctccctgtcctgccgtcctacctg caggacaggtgtctcccaggcgtgctagcctcccccgagctccgttcttacccgtatgca ttttctgtggcccggcctctgacttcggattccaagctggtatctctggaggtgaacagg ctcccctgcacttccccatccggtagcaccaccacccagcctgcacccgatggggtccct gggcctttggcagatacctcccttgttactgcttctgccaaggtgcttccaactccacag cctctgctgccagcccccagtgggagctcagccccaccgcaccccgccaagatgcccagt ggcaccgagcagcaaacagaagggacttccgttaccttctctcctcttaagtcaccgcca cagctggaacgagagatggcctctccacctgagtgcagcgagatgccccttgatctgtcc tccaagtccaaccgccagaagcttccattgccgaaccagcgcaagacaccccccatgcct gtgttgacccccgtgcacaccagcagcaaggccctcctctccacagtcctgtctaggtct cagcgcacaacccaggctgccggtggcaatgtcacctcctgcctgggctccacttcctcg ccctttgtcatctttcccgagatcgtgaggaatggggacccgagcacctgggtgaagaac tcaactgcactgatcagcaccattcctggcacctacgtgggagtggccaacccagtgcct gcatccctgctgctgaacaaagaccccaacctgggcctcaaccgtgacccccgccatctc cccaagcaggagcccatctccatcattgatcaaggagagcctaagggcactggtgccacg tgtggcaaaaagggcagccaggctggtgctgagggacagccaagcacagtgaaacgatat actccagcccgcattgcccctgggctgccagggtgccaaaccaaggaactctctttgtgg aaacccacggggccggcaaatatttatccccggtgttcagtcaatgggaaacctaccagc acccaggtcctgcctgttggctggtccccgtaccaccaggcgtctctgctttccattggc atttccagtgccgggcagctgacccccagtcagggggcgcccatcaggcccaccagcgtt gtttcggagttttctggtgtgccatctctcagctccagcgaagccgtgcacggacttcct gaggggcaaccacggcctgggggctccttcgttccagagcaggaccctgttacaaagaac aaaacttgccggattgctgccaagccttatgaagaacaagtcaatcctgtcctcttgacc ctcagccctcagactgggaccctggcactgtctgttcagcctagcggtggggacattcga atgaatcaggggcctgaggaatcagagagccacctctgctctgacagcactcctaagatg gaaggcccccagggggcttgtggcctgaagctggcaggagacacgaagcctaagaaccaa gtgctggccacctacatgtcccatgagctggtcctggccaccccccagaacctgcctaag atgcctgagctgcctttgctacctcacgacagccaccccaaggaacttatattggacgtg gttccgagcagcaggaggggctccagcacagagcgcccacagcttggaagccaggtggat ctggggcgagtgaaaatggagaaggtggatggtgatgtggtcttcaatttagccacctgc ttccgggctgatggcctcccagtggctccccagaggggccaagctgaagttcgggctaag gccgggcaggctcgagtgaaacaggaaagcgtaggggtctttgcttgcaagaacaagtgg cagccagatgatgtgacggaatctctgccgcccaagaagatgaagtgcggcaaagagaag gacagtgaagagcagcagctccagccacaagccaaggccgtggtccggagttcccacaga cccaagtgccggaagctgcccagtgacccccaggaatccaccaagaaaagccccaggggg gcttcagattcaggaaaagagcacaatggagtcaggggaaagcacaagcaccggaagccg acaaagccggagtcccagtctccaggaaaacgagccgacagccacgaggaaggttccttg gaaaagaaagcaaagagcagtttccgtgactttattcctgtggttctgagcacccgcacg cgcagtcagtctggaagcatctgtagctcctttgctggcatggcagacagtgacatggga agccaggaagtcttccccacagaagaagaagaggaggtaacccccaccccagctaagcgt cgaaaggtgagaaagacccaacgggacacccagtatcgcagccaccatgcccaggacaag tctctgctgagccagggccgaaggcacctgtggcgagcccgagaaatgccctggaggaca gaggctgcccggcaaatgtgggacaccaatgaggaggaggaggaagaagaggaggagggc ctgctgaagaggaagaaacgaagacggcagaagagccgaaaatatcagactggggagtac ctgacagagcaagaagacgagcagcggcggaaagggagagcagatttaaaggcccgtaag cagaagacttcctcctcccaaagtttggagcaccgcctcaggaacaggaaccttctcttg cccaacaaagtccaggggatctcggattcaccaaacggtttcctcccaaataacctggaa gagccagcctgccttgaaaattcagaaaagccatcaggaaaacgaaagtgcaagaccaag cacatggcaaccgtctcagaagaggcaaag