GENSCAN 1.0 Date run: 3-Nov-116 Time: 08:22:16 Sequence gi568815584f:91060295_91324830 : 264536 bp : 48.57% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.06 Intr - 170 38 133 2 1 78 93 231 0.805 22.82 1.05 Intr - 7633 7597 37 0 1 96 79 14 0.078 -0.44 1.04 Intr - 20011 19924 88 2 1 74 70 55 0.257 1.33 1.03 Intr - 22417 22228 190 1 1 13 84 95 0.280 0.76 1.02 Intr - 24451 24360 92 2 2 90 85 38 0.066 3.41 1.01 Init - 42926 42863 64 2 1 93 -10 88 0.010 0.81 1.00 Prom - 50910 50871 40 -5.76 2.00 Prom + 69139 69178 40 -2.96 2.01 Init + 100094 100103 10 1 1 91 107 7 0.689 3.74 2.02 Intr + 106931 107084 154 0 1 67 98 78 0.868 5.83 2.03 Intr + 109709 109907 199 2 1 95 97 208 0.981 21.75 2.04 Intr + 112995 113109 115 2 1 77 83 106 0.574 9.02 2.05 Intr + 113370 113459 90 1 0 80 45 54 0.493 0.27 2.06 Intr + 115640 115762 123 0 0 88 76 58 0.958 5.16 2.07 Intr + 120892 121095 204 2 0 86 110 161 0.979 17.27 2.08 Intr + 128616 128876 261 1 0 96 121 246 0.997 26.16 2.09 Intr + 129152 129302 151 0 1 87 80 102 0.897 8.52 2.10 Intr + 133058 133185 128 2 2 56 32 17 0.306 -6.78 2.11 Intr + 136081 136180 100 2 1 83 84 94 0.825 7.67 2.12 Intr + 139463 139611 149 2 2 120 119 187 0.999 24.88 2.13 Intr + 144412 144573 162 2 0 122 84 243 0.812 27.25 2.14 Intr + 155111 155338 228 0 0 104 71 134 0.822 11.14 2.15 Intr + 156710 156877 168 0 0 68 91 72 0.760 5.42 2.16 Intr + 160835 160905 71 0 2 110 -22 60 0.061 -3.90 2.17 Term + 164390 164539 150 1 0 121 41 234 0.516 19.91 2.18 PlyA + 165038 165043 6 1.05 3.03 PlyA - 165354 165349 6 -0.45 3.02 Term - 165938 165746 193 1 1 87 43 165 0.840 8.79 3.01 Init - 174756 173669 1088 0 2 89 52 2378 0.121 228.19 3.00 Prom - 174838 174799 40 -5.96 4.27 PlyA - 175601 175596 6 1.05 4.26 Term - 185931 185835 97 2 1 52 48 94 0.436 -0.76 4.25 Intr - 186104 186077 28 0 1 56 82 58 0.124 -0.83 4.24 Intr - 190045 189926 120 2 0 38 85 94 0.491 4.57 4.23 Intr - 192999 192866 134 2 2 37 60 84 0.409 0.79 4.22 Intr - 193652 193421 232 0 1 82 96 54 0.063 2.43 4.21 Intr - 197037 196961 77 2 2 71 13 94 0.042 -0.64 4.20 Intr - 204294 204041 254 0 2 75 61 135 0.302 5.73 4.19 Intr - 207451 207303 149 2 2 74 54 75 0.357 2.65 4.18 Intr - 213359 212471 889 2 1 128 67 524 0.166 45.19 4.17 Intr - 217917 217628 290 1 2 53 84 315 0.996 24.56 4.16 Intr - 221231 221163 69 0 0 98 113 56 0.940 8.25 4.15 Intr - 223223 223035 189 0 0 109 113 85 0.899 12.66 4.14 Intr - 229049 228811 239 1 2 52 97 223 0.840 16.86 4.13 Intr - 230790 230701 90 2 0 60 81 72 0.712 2.81 4.12 Intr - 234024 233879 146 0 2 70 77 186 0.420 14.78 4.11 Intr - 237197 237011 187 1 1 130 78 478 0.994 50.69 4.10 Intr - 239776 239633 144 0 0 79 99 284 0.995 28.00 4.09 Intr - 243684 243407 278 0 2 124 75 571 0.992 55.71 4.08 Intr - 245632 245471 162 1 0 82 99 311 0.999 31.77 4.07 Intr - 246932 246744 189 2 0 62 82 206 0.998 17.18 4.06 Intr - 248198 248057 142 1 1 80 101 143 0.999 15.16 4.05 Intr - 249692 249565 128 2 2 98 66 260 0.998 24.28 4.04 Intr - 253856 252786 1071 2 0 103 83 2072 0.992 198.63 4.03 Intr - 255493 255356 138 1 0 81 96 170 0.652 17.76 4.02 Intr - 261010 260826 185 2 2 76 77 338 0.821 31.01 4.01 Init - 263402 263393 10 2 1 94 85 11 0.639 1.50 4.00 Prom - 264119 264080 40 -1.96 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 105411 105432 22 2 1 72 90 18 0.801 0.33 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815584f:91060295_91324830|GENSCAN_predicted_peptide_1|202_aa MECVDEASVTGSSSPGSLREQGVPLSSSMLEVIPLVGVEQTKAKDYREESTLACDNEADT NRNFMRILQPAFNHFPTLKGRGLQLIVIFKLLTAGFNLTEHDKDWEMSNYKNHHLCVYPQ ELKAETQTDTCTPVFITTLFTTVKSLFNLLALYHMAKRPAGSEKKEKMEEEGGSSGGAAG TSADGGDGGEQLLTVKHELRTX >gi568815584f:91060295_91324830|GENSCAN_predicted_CDS_1|606_bp atggagtgcgtggatgaagcctcggtgactggcagcagctccccaggcagcctacgggag cagggggtgcctctctcctcctccatgctggaagtcattccactggttggagtggagcag accaaagctaaggattatagagaggaaagcaccctggcctgtgataatgaagctgatacc aacaggaacttcatgaggatccttcagcctgcctttaatcattttccaacactgaaagga agaggcttgcaattaattgtcatcttcaaacttctaacagctggcttcaaccttacagaa catgataaggattgggaaatgtccaattataagaatcaccacctctgtgtatacccacaa gaattgaaagcagagactcaaacagatacttgtacaccagtgtttatcacaacattattc acaacagtcaaaagtctcttcaacttactggctctatatcacatggcaaagcgacccgcg ggatcggaaaaaaaggagaagatggaggaggagggtggcagcagcggcggcgccgcgggg accagcgcggacggcggcgacggaggagagcagctcctcactgtcaagcacgagctgcgg actgnn >gi568815584f:91060295_91324830|GENSCAN_predicted_peptide_2|820_aa MAGELRPASLVVLPRSLAPAFERFCQVNTGPLPLLGQSEPEKWMLPPQGAISETRMGHPQ FWKYEFGACTGSLASLEQYSEQLKDMVAFFLGCSFSLEEALEKAGLPRRDPAGHSQAGAY KTTVPCVTHAGFCCPLVVTMRPIPKDKLEGLVRACCSLGGVSRGKGPEQGSKALAAVSGL GLQMPLRFKELLGIKELSKPAYGDAMVCPPGEVPVFWPSPLTSLGAVSSCETPLAFASIP GCTVMTDLKDAKAPPGCLTPERIPEVHHISQDPLHYSIASVSASQKIRELESMIGIDPGN RGIGHLLCKDELLKASLSLSHARSVLITTGFPTHFNHEPPEETDGPPGAVALVAFLQALE KEVAIIVDQRAWNLHQKIVEDAVEQVWGMTCRVFLAIRGSPGPPELGRVVEYEVAERLRQ QSHLVVMGRAAPGAPSLAWRRLPDSTQSWVLSLVLMGAQRVEFAILDFTELTLHLHEESV LKTQIPILTYQGGSVEAAQAFLCKNGDPQTPRFDHLVAIERAGRAADGNYYNARKMNIKH LVDPIDDLFLAAKKIPGISSTGVGDGGNELGMGKVKEAVRRHIRHGDVIACDVEADFAVI AGEHSDGRPVRPATQGVSNWGGYALACALYILYSCAVHSQYLRKAVGPSRAPGDQAWTQA LPSVIKVTNPSQPLAWKQLLPWMSSRPEVPSQQAPPPTPIPGSNPPPLGLLKEMGPAPLG GEAGGPDLRDIHNASVLNGTPTWGIFPGQVLSTHGDMDVEYAISPGHSSHVEEKMLGILV QHKVRSGVSGIVGMEVDGLPFHNTHAEMIQKLVDVTTAQV >gi568815584f:91060295_91324830|GENSCAN_predicted_CDS_2|2463_bp atggctggagagctccgaccagccagcctggtggtcctgcccaggtcccttgctccagct tttgaaagattctgccaggtcaacactggtcctctacccctgctgggccagagtgagcca gaaaagtggatgctgccccctcaaggtgctatctcagagaccaggatgggccatccccag ttctggaaatacgagttcggtgcctgcaccggcagcctggcttcgctggagcagtactcg gagcagctgaaggacatggtggccttcttcctgggctgcagcttctccctggaggaggcc ttggagaaagcggggctccccagaagagacccagcaggtcacagccaggcgggtgcatac aagacaacagtgccttgtgttacccatgctggcttctgctgccctctggtggtcacgatg aggcccattcccaaggacaagctggaagggctggtgcgggcctgctgctccctcggaggg gtctccaggggcaaaggccctgaacaaggctcaaaggctctggcagctgtatcagggctg ggcttacagatgcccctcaggtttaaagaactgttgggaatcaaagagctttccaaacct gcctacggggatgccatggtgtgtcccccaggggaggttccagtgttctggccttctccg ctgaccagtctcggagctgtcagcagctgtgagaccccactggcttttgccagcatccca ggctgcacagttatgactgacctgaaggatgcaaaggctccacctggttgtctcacccca gagagaattccagaggtccatcacatttcccaagatcctctgcactacagcatcgcgtca gtctctgcttctcagaagatcagagaactagagtctatgatcggcatagacccagggaac cgggggattgggcacctgctctgtaaagatgagctgctgaaggcctctctctcgctgtcc catgcccgctcagtgctcatcaccactgggttccccacacatttcaatcatgagcctcca gaagagacagatggcccaccaggagctgttgctctggttgccttcctgcaggccttggag aaggaggtcgccataatcgttgaccagagagcctggaacttgcaccagaagattgttgaa gatgctgttgagcaagtgtggggaatgacctgccgagtattcttagcaatccggggcagc cctggaccaccagagctggggagagtagtggagtatgaagtggctgaaaggctcagacag cagtcccacctggtcgtgatgggcagggctgcacctggagcacccagcctggcttggaga cgcctgccagactccactcagagctgggtcttgtctcttgtcctcatgggagctcagagg gtagaatttgctatattggattttacagaacttacattacatttgcatgaagaaagtgtt ctgaagacgcagatcccgatattaacttaccaaggtggatcagtggaagctgctcaggca ttcctgtgcaaaaatggggacccgcagacacctagatttgaccacctggtggccatagag cgtgccggaagagctgctgatggcaattactacaatgcaaggaagatgaacatcaagcac ttggttgaccccattgacgatctttttcttgctgcgaagaagattcctggaatctcatca actggagtcggtgatggaggcaacgagcttgggatgggtaaagtcaaggaggctgtgagg aggcacatacggcacggggatgtcatcgcctgcgacgtggaggctgactttgccgtcatt gctggtgagcactcggatggccgcccagtccggccggctacccagggtgtttctaactgg ggaggctatgccctggcctgcgcactctacatcctgtactcatgtgctgtccacagtcag tacctgaggaaagcagtcggaccctccagggcacctggagatcaggcctggactcaggcc ctcccgtcggtcattaaggtaacaaaccccagccagccgctcgcctggaagcagctttta ccctggatgagcagcaggcctgaggtcccaagccagcaagctccgcccccaacaccaatt ccaggctctaacccgcctcctctggggctcctcaaggagatgggacctgcccctcttgga ggagaagctggtggaccagacttgcgggacattcacaatgcctcagtgcttaacgggaca cctacttggggaatattcccagggcaggtactgagcacccatggtgacatggatgtggaa tatgccatcagcccagggcatagcagccatgtggaagaaaaaatgctgggcatcttggtg cagcacaaagtccggagtggcgtctcgggcatcgtgggcatggaggtggatgggctgccc ttccacaacacccacgccgagatgatccagaagctggtggacgtcaccacggcacaggtg taa >gi568815584f:91060295_91324830|GENSCAN_predicted_peptide_3|426_aa MGNITADNSSMSCTIDHTIHQTLAPVVYVTVLVVGFPANCLSLYFGYLQIKARNELGVYL CNLTVADLFYICSLPFWLQYVLQHDNWSHGDLSCQVCGILLYENIYISVGFLCCISVDRY LAVAHPFRFHQFRTLKAAVGVSVVIWAKELLTSIYFLMHEEVIEDENQHRVCFEHYPIQA WQRAINYYRFLVGFLFPICLLLASYQGILRAVRRSHGTQKSRKDQIQRLVLSTVVIFLAC FLPYHVLLLVRSVWEASCDFAKGVFNAYHFSLLLTSFNCVADPVLYCFVSETTHRDLARL RGACLAFLTCSRTGRAREAYPLGAPEASGKSGAQGEEPELLTKLHPAFQTPNSPGSGGFP TGRIKAVKLQIVLQMEPQMQSMTKIYHGPLDRPASPCSDVDDIEGTPPEEISTAQPLLRP NSAGSS >gi568815584f:91060295_91324830|GENSCAN_predicted_CDS_3|1281_bp atggggaacatcactgcagacaactcctcgatgagctgtaccatcgaccataccatccac cagacgctggccccggtggtctatgttaccgtgctggtggtgggcttcccggccaactgc ctgtccctctacttcggctacctgcagatcaaggcccggaacgagctgggcgtgtacctg tgcaacctgacggtggccgacctcttctacatctgctcgctgcccttctggctgcagtac gtgctgcagcacgacaactggtctcacggcgacctgtcctgccaggtgtgcggcatcctc ctgtacgagaacatctacatcagcgtgggcttcctctgctgcatctccgtggaccgctac ctggctgtggcccatcccttccgcttccaccagttccggaccctgaaggcggccgtcggc gtcagcgtggtcatctgggccaaggagctgctgaccagcatctacttcctgatgcacgag gaggtcatcgaggacgagaaccagcaccgcgtgtgctttgagcactaccccatccaggca tggcagcgcgccatcaactactaccgcttcctggtgggcttcctcttccccatctgcctg ctgctggcgtcctaccagggcatcctgcgcgccgtgcgccggagccacggcacccagaag agccgcaaggaccagatccagcggctggtgctcagcaccgtggtcatcttcctggcctgc ttcctgccctaccacgtgttgctgctggtgcgcagcgtctgggaggccagctgcgacttc gccaagggcgttttcaacgcctaccacttctccctcctgctcaccagcttcaactgcgtc gccgaccccgtgctctactgcttcgtcagcgagaccacccaccgggacctggcccgcctc cgcggggcctgcctggccttcctcacctgctccaggaccggccgggccagggaggcctac ccgctgggtgcccccgaggcctccgggaaaagcggggcccagggtgaggagcccgagctg ttgaccaagctccacccggccttccagacccctaactcgccagggtcgggcgggttcccc acgggcagaatcaaagctgtaaaactacaaatagttcttcaaatggagccccagatgcag tccatgactaagatctaccatggacccctggaccggcctgctagcccatgctccgatgtt gatgacatcgaaggcacccctcccgaggaaatctcaactgcacaacccctactacgcccc aattcagcaggaagcagttag >gi568815584f:91060295_91324830|GENSCAN_predicted_peptide_4|1878_aa MVAASRKSFVFELNECASSRILKLEKENQSLQSTIQGLRDASLVLEESGLKCGELEKENH QLSKKIEKLQTQLEREKQSNQDLETLSEELIREKEQLQSDMETLKADKARQIKDLEQEKD HLNRAMWSLRERSQVSSEARMKDVEKENKALHQTVTEANGKLSQLEFEKRQLHRDLEQAK EKGERAEKLERELQRLQEENGRLARKVTSLETATEKVEALEHESQGLQLENRTLRKSLDT LQNVSLQLEGLERDNKQLDAENLELRRLVETMRFTSTKLAQMERENQQLEREKEELRKNV DLLKALGKKSERLELSYQSVSAENLRLQQSLESSSHKTQTLESELGELEAERQALRRDLE ALRLANAQLEGAEKDRKALEQEVAQLEKDKKLLEKEAKRLWQQVELKDAVLDDSTAKLSA VEKESRALDKELARCRDAAGKLKELEKDNRDLTKQVTVHARTLTTLREDLVLEKLKSQQL SSELDKLSQELEKVGLNRELLLQEDDSGSDTKYKILEGRNESALKTTLAMKEEKIVLLEA QMEEKASLNRQLESELQMLKKECETLRQNQGEGQHLQNSFKHPAGKTAASHQGKEAWGPG HKEATMELLRVKDRAIELERNNAALQAEKQLLKEQLQHLETQNVTFSSQILTLQKQSAFL QEHNTTLQTQTAKLQVENSTLSSQSAALTAQYTLLQNHHTAKETENESLQRQQEQLTAAY EALLQDHEHLGTLHERQSAEYEALIRQHSCLKTLHRNLELEHKELGERHGDMLKRKAELE EREKVLTTEREALQQEQRTNALAMGENQRLRGELDRVNFLHHQLKGEYEELHAHTKELKT SLNNAQLELNRWQARFDELKEQHQTMDISLTKLDNHCELLSRLKGNLEEENHHLLSQIQL LSQQNQMLLEQNMENKEQYHEEQKQYIDKLNALRRHKEKLEEKIMDQYKFYDPPPKKKNH WIGAKALVKLIKPKKEGSRERLKSTVDSPPWQLESSDPASPAASQPLRSQAENPDTPALG SNCAEERDAHNGSVGKGPGDLKPKRGSPHRGSLDRTDASTDLAMRSWPSELGSRTCSTSA TTTAPSNSTPIARHPGRTKGYNSDDNLCEPSLEFEVPNHRQYGSSEQLHGRSESFSSEDL IPSRDLATLPREASTPGRNALGRHEYPLPRNGPLPQEGAQKRGTAPPYVGVRPCSASPSS EMVTLEEFLEESNRSSPTHDTPSCRDDLLSDYFRKASDPPAIGGQPGPPAKKEGAKMPTN FVAPTVKMAAPTSEGRPLKPGQYVKPNFRLTEAEAPPSVAPRQAQPPQSLSLGRPRQAPV PPASHAPASRSASLSRAFSLASADLLRASGPEACKQESPQKLGAPEALGGRETGSHTLQS PAPPSSHSLARERTPLVGKAGSSCQGPGPRSRPLDTRRFSLAPPKEERLAPLHQSATAPA IATAGAGAAAAGSGSNSQLLHFSPAAAPAARTKPKAPPRSGEVATITPVRAGLSLSEGDG VPGQGCSEGLPAKSPAAFNAKTLLTSTANPKPQPPSAVPWDPVAKRAPWITPPPEFQGPT LCVGVAPSPRPLPPAGPAEPRPRFLHPGPDRGECAGRPGRGLTAAPARGRTRERLTFSEA GSPPATGAENSNPICGIKAFGGSGAGEGLGCQDKKKIPQVTGKEEMDANITGTGGGAKPR GCGQRERQGMDPHSGLRVPDVGGGGVESEHNLALRSQEGTRRPPQATPPSACALARGGAR GNGGRRHSPAPRRARPHRPFRVRLGLYIPQICAAPQGSPEIPTAPPATDEGRAGSLLGLW SVLRLQTGEMPQAAQTFSDHRLSWLQVPGSAPGNALPRIDDDGVDGRESQPHFRNSEVAR VSKCTLLHHNKLKPLLVT >gi568815584f:91060295_91324830|GENSCAN_predicted_CDS_4|5637_bp atggtggctgcctccaggaagtcgtttgtgtttgagctgaacgaatgtgcgtccagccgc atcctgaagctggagaaggagaatcagagcctccagagcaccatccaggggctgcgggac gcgtccctggtgttggaggagagcggcctcaagtgcggggagctggagaaggagaaccac cagctcagcaagaagattgaaaagttacaaacccagctggagagagaaaagcagagcaac caagatctggagaccctcagtgaggagctgatcagagagaaggagcagctgcagagtgac atggagaccctgaaggctgacaaagccaggcagatcaaggaccttgagcaggaaaaggac cacctcaaccgagccatgtggtcgctgcgggagaggtcgcaggtcagcagtgaggcccgc atgaaagacgtggagaaggagaacaaagccctccaccagacggtgacggaggccaatggc aagctcagccagttggagtttgagaagcggcagctgcacagggacttggagcaggccaag gagaagggggagcgggcagagaagctggagagggagctacagcgactccaggaggagaac gggaggctggccaggaaggtgacctccctggagacagccaccgagaaagtcgaggccctg gagcatgagagccagggcctgcagctggagaaccggactctgaggaagtctctggacacc ttgcagaacgtgtccctgcagcttgagggcctggagcgtgacaacaagcagctggacgca gagaacctggagctgcgcaggctggtggagaccatgcgcttcaccagcaccaagctggca cagatggagagggagaaccagcagctggagcgtgagaaggaggagctgaggaagaacgtg gatctgctcaaggcgctgggcaagaagtcagagcgcctggagctcagctaccagagcgtg agcgctgagaacctccggctgcagcagagcctggagagcagcagccacaagacgcagacc ttggagagtgagctgggcgagctggaggctgagcgccaggcgctgcggcgggacctggag gccctccggctggccaatgcacagttggagggggccgagaaggacaggaaggccctggag caggaggtggcccagctcgagaaggataagaagctgctggagaaggaggccaagcggctg tggcagcaggtggagctcaaggatgcagtcttggacgatagcactgccaaactgtccgcc gttgagaaggagagccgcgcgctggacaaggagctggcccgctgcagggacgcagccggc aagctgaaggagctggagaaggacaaccgggacctcaccaagcaagtcaccgtgcatgca aggacactgacaactctgagggaggacctggtgctcgagaagctgaagagccagcagctc agcagtgagctggacaagctgagccaggaactggagaaggtcggcctcaacagggagctg ctgttgcaggaggacgacagcggcagtgacacaaaatacaagattttggagggcagaaat gaatcagcattaaaaacaacactagccatgaaagaagaaaagattgtgctcttagaagca cagatggaagagaaagcgagcctaaatcgccagttagagagtgagctgcagatgctaaag aaggagtgtgagaccctcaggcagaaccagggagaggggcagcacttgcagaactctttc aagcaccctgcggggaagacagccgccagtcaccaggggaaggaggcctgggggcccggc cataaggaagccaccatggagcttctccgagtgaaggaccgggccatcgagctggagcgg aataatgcagctctgcaggctgagaagcagctgctaaaggaacagctgcagcacctggag acccagaacgtgaccttcagcagccagatcttgacactgcagaaacagagcgccttcctg caggagcacaacaccacactgcagacccagaccgccaagctgcaggtggagaactccacg ctgagttcccagagcgcagcgctcaccgcgcagtacacgctgctgcagaaccaccacacg gccaaggagacggagaacgaaagcctgcagaggcagcaggagcaacttacagcggcctac gaggccctgctgcaggaccacgagcacctgggcacgctgcacgagcggcaatcggccgag tacgaggccctcatccgccagcacagctgcctaaagacactgcatcggaatctggagctg gagcacaaggagctcggggagaggcacggtgacatgctgaagcgcaaggcggagctggag gagcgggagaaggtcttgaccactgagcgagaggcgctgcagcaggagcagaggacaaac gccctcgccatgggcgagaaccagaggctgcggggcgagctggacagggtcaatttcctg caccaccagctgaagggggagtacgaggagctgcacgcccacaccaaggagctgaaaacc tcactgaacaacgcgcagctggagctcaaccgctggcaggcccgcttcgacgagctgaag gagcagcaccagaccatggacatctcgctgaccaagctggacaaccactgtgagctgctc tcccgtctcaaggggaacttggaggaagaaaatcatcacctcctgagccagatccagctg ttgagccagcagaaccagatgcttctggagcagaacatggagaacaaggagcagtaccat gaggagcagaagcagtacatagacaaattaaatgccttacgaagacataaggaaaagctg gaagaaaaaatcatggatcaatacaagttctatgatcctcctccaaagaagaagaaccac tggattggagccaaagccttagtcaaactcatcaaaccaaagaaagagggttcgagggaa cgcttaaaatccaccgtggacagccctccctggcagctggagtcctcagaccccgcctcg ccggcggcctctcagccgctcagatcacaggccgagaaccccgacacccccgcactgggc tccaactgtgcagaagagcgcgacgcccacaacgggtctgtggggaaaggccctggggat ctaaaaccaaagcgaggctccccacacagaggcagccttgaccgcacagatgcctccacc gatctggccatgaggtcctggccctcggagctgggctcccggacttgctcaacttcagcc accactacagccccttccaactccacccccatcgcccggcacccaggccgcaccaaaggc tataactcagatgacaacctctgtgagccatccctggagtttgaggtccccaaccacagg cagtacggctcctccgagcagctccatggccggtctgagagcttcagcagcgaagacctg atccccagcagggacctggccactttgccccgggaagccagcacaccgggacgcaacgcc ctcggccgccacgagtaccccttgcctcggaacgggcctctcccacaggagggtgcccag aagaggggcacagcccctccctacgtcggagtgcggccctgctcggcctcccccagcagt gagatggtcaccttggaggagttcctggaggagagcaaccgcagctcccccacccatgac actcccagttgccgggatgacctgctgagtgactacttccgaaaggccagcgatccccca gccatcggaggccaaccaggaccacctgccaagaaagaaggggccaagatgcccaccaac tttgtggcccccaccgtcaaaatggccgcccccacctcggaggggaggccgctgaagccc gggcagtacgtaaagccaaacttcagactgactgaggccgaggccccacccagcgtggcc ccgagacaggcccagcctccccagagcctgtctctgggcagaccccggcaggctccggtg cccccagcttcccatgcacctgccagccgcagtgcctccttgagccgggccttcagcctg gcctcagctgaccttctccgggccagcgggccagaggcctgcaaacaggagtcccctcag aagctgggggctcctgaggccttagggggcagagagacaggcagccacaccctgcaaagc cccgcaccccccagctcccatagcctggcccgggagcggaccccacttgtgggaaaggct ggcagctcctgtcagggcccaggtccccgcagccggccgctggacacgaggcgcttctcc ctggctcccccaaaggaggagaggctggcccccctgcatcagtctgccacagcccccgcc attgccactgcaggtgctggtgctgctgctgctggcagtggcagcaactcccagctcctg cacttctcacctgctgcagccccggctgccaggaccaagcccaaggcgcccccacgctca ggggaggtggccaccatcacccctgtccgggcagggctcagcctctcagagggagacggg gtcccggggcagggctgcagtgaggggcttccggccaagagcccagctgctttcaacgct aagaccctgctcacctccacagccaatcccaagccacagcccccttcagcagtaccatgg gatcctgtggctaagagagcaccctggatcacgccccctcctgagttccagggccccacc ctctgcgttggtgtggcgccgtccccgcggccactccctcccgcgggcccagccgaaccg cggccgcgcttcctgcacccgggacccgacagaggtgagtgcgccgggcggccggggcga gggttgacggcggcgccagcgcggggacgcacccgggaacggctgaccttcagcgaggcc ggctccccgccagctaccggggcggaaaattcaaatccaatctgtggaataaaggccttc gggggaagtggagcaggagaaggactgggatgccaggataaaaagaaaatcccacaagtg actggaaaagaagaaatggatgcaaacatcactggcactgggggtggcgccaagcctagg ggctgtggtcagcgtgaaaggcagggcatggaccctcactcagggctgcgtgtgcccgac gtgggtggggggggcgtggaatcggagcacaacttggccctgcgttcccaggaagggacc cgaagacctccccaggccaccccgccatctgcgtgcgcgctggcaagaggaggggcgcgg ggtaatggtggccggcgccacagccccgcgccgcgcagagcccggccgcaccggccattc cgagtccgtttgggcctttacatcccccagatctgcgcggcccctcagggcagccctgag atcccgacagctccccctgccaccgatgaggggagagctggctcactgctcggtctgtgg tctgtgctgcggctgcagacaggagagatgccccaggcagctcagaccttctcagaccac agactctcctggctgcaagtccccggttcagcaccaggaaatgcacttccacgtatagac gatgatggtgtagacggccgggaaagccagccacacttccgcaactcagaagtagcacgt gtgtctaaatgcacgctactgcaccacaacaagctgaagcctttgctcgtaacataa