Gene list
Applied filters:
COG category: Replication, recombination and repair
Genomic element: pOU1113
Number of genes found: 10
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Salmonella enterica, OU7025 >gid:1162827 single-strand binding protein ATGGCAGCACGTGGCGTAAACAAAGTTATTCTGGTCGGTCATATCGGGCA GGACCCGGAAGTACGTTACATGCCCAACGGGGGCGCGGTGGCAAATCTTA CCCTTGCCACGTCAGAAACATGGCGTGTCAGGCAGGACGGGGAGATGCGC GAACACACCGAATGGCACCGTGTTGTCGTGTTTGGCAAGCTCGCTGAAAT TGCCAGTGAATATCTGCGTAAAGGTGCTCAGGTCTACATCGAGGGCCAGT TACGCACCCGCAAATGGACCGATCAGTCCGGTCAGGACAAATCCACCACC GAAGTGATCGTTAACGTGGGCGGCACCATGCAGATGCTCGGTCGCCACAA CAGCCAGCCACAGCAGGAGCCTCAGACCCCACCTACGGCGGCAAAGGGAG AAGGCAAAGCGGTAAAAGGGGCGGGAAATGCAGCAAAAGGGAAAAACGCA GCAGCACCGCAGCAGCCGCCAGCGCAACCCGATCCGGCGTATGACTTCGA CGATGATATTCCCTTTTGA >gid:1162770 putative transposase ATGTTAAGAGCCACGAAAGTATGCATATATCCGACACCGGAACAGGCGGA GCACCTTAACGCCCAGTTCGGTGCAGTCCGTTTTGTGTACAGCAAATCTC TGCATATCAAGAAACACGCTTATCAACGACACGGCGTAAGTTTAACCCCG CGTAAAGACATTAAACCGCTTCTGGCTGTAGCGAAAAAATTCCGTAAATT CCGTAAATACGCATGGCTAAAGGAATATGACTCTATTGCGTTGCAACAGG CGGTGATCAATCTCGATGTTGCCTTTTCCAACTGCTTCAATCCGAAGCTA AAAGCCCGCTTCCCTATGTTCAAGCGCAAACACGGCAAGCTGTTGGGGTA A >gid:1162848 IS630 transposase of IS630 ATGCCGATCATAGCAGCAATTCCTGATGAAGAACGACAACTGATGCGCAA AGAGGCCCAACAAACCCACGATAAAAACCATGCGCGACGGCTTATCGCCA TGCTGATGCTGCATCAGGGAATGACCGTCACTGACGTTGCCAGATTACTC TGTGCCGCCCGTTCATCCGTTGGTCGATGGATAAACTGGTTTACTTTACA TGGTGTTGAAGGACTAAAAAGCCTCAGACCCGGACGTGCTCCACGCTGGC CGGTCGCTGATATCCTTCAGCTCTTGCCACTATTGGTACAGCGTTCCCCG AAGGATTTTGGCTGGCTGCGCTCACGCTGGAGCACGGAGCTTCTGGCACT CGTCATCAACCGACTTTTTGATGTGACGCTGCACCGCTCCACCCTGCACC GATATCTGAGGCAGGCAGATATGGTCTGGCGCAGGGCAGCGCCAACGCTG AAAATCAAAGATCTGCACTATGAAGAAAAACGGCTTGTCATTGATCAGGC GCTGGCTCAGGAGCAGACTGCACATCCTGTGTTTTATCAGGATGAAGTCG ACATCGACCTGAACCCAAAAATTGGCGCTGACTGGATGCCCAAAGGGCAA CAGAAACGCATCGCCACGCCGGGACAGAACCAGAAGCATTATCTGGCAGG CGCACTGCATTCAGGTACGGGACGGGTTCACTACGTCAGTGGCAGCAGCA AGAGTTCTGATTTATTTATCAGTCTGTTAGAAACGTTACGCCGTACATAC AGGCGGGCGAAAACCATCACACTGGTGGCGGATAACTACATCATCCATAA AAGCCGCAAAGTGGAACGCTGGCTGGAAGAAAACCCGAAGTTCCGGTTGC TGTTCCTGCCGATGTATTCGCCGTGGCTGAATCCGATAGAGCGACTGTGG TTGTCGTTACACGAAACCATAACGAGAAATCATCAGTGTCGGTACATGTG GCAGTTACTGAAACAGGTAGCACAATTTATGAATGCCGCTTCACTGTTTC CCGGCAATCAACAGGGTCTGGCTTTAGTGGAGCCGTAA >gid:1162769 PSLT035 conjugative transfer assembly protein TTGGAGTGCGAAATTATCGAGATGGATGGTGAACAAGATCACGTCCATCT GCTGATAGCGTATCCGCTAAAACTGGGGGTCAGCGTGATGGTAAATAATT TAAAGTCGGTATCGTCGCGGCTTCTCCGTCAGCAGAATACCCACTTGCGG ATGCAGAGCAAAACCGGGCTGCTGTGGTCTCGTTCTTACTTTGCCTGTAG CGCCGGTGGTGCCACGATAGAAACGCTTAAAGCATACGTGCTCAGACAGA ATACGCCGGAGTAG >gid:1162833 PSLT059 putative adenine-specific DNA methylase ATGTCCCGTTTAATCCTGGGGAACTGTGTCGATATTATGTCCGGCTTTCC GGAGCGCGCCGTCGATTTCATTCTGACCGACCCGCCTTACCTTGTCGGAT TCCGTGATCGTTCCGGCCGCAGTATTGCCGGTGACAGAACCGACGAGTGG CTGCAACCCGCCTGTAACCAGATGTACCGCGTACTCAAGAAAGATGCGCT GCTGGTCAGTTTCTACGGCTGGAACCGCGTGGACCGTTTCATGGCGGCCT GGAAAAGTGCCGGTTTCAGCGTGGTCGGACACCTGGTATTCACCAAAAAC TACTCGTCAAAATCCGCGTATGTCGGCTACCGCCATGAATGCGCTTACGT GCTGGCGAAAGGCCGTCCGGCCCTGCCACAGAACCCGCTGCCGGATGTCC TCGGCTGGAAGTATTCCGGCAATCGCCACCACCCCGACGGAAAAGCCCGT TACCAGCCTGCAACCGCTGATTGA >gid:1162846 rlgA putative integrase protein ATGAGCAGCCGGCGTAGCGCGATTCCGTCTGACTCCCTGTTGCAACTACG GCAACGGCTCGATCGCCTGCCGCCAAAAAGCCCTGAACGTGCCAATCAGA TTGCCGCTACCGCCCAGCTGTATGGTATTTCAGTCACGACGGTTTATCGC GCTCTTCACCTTGTTTTGAAACCGCGAACGGCCCACCGCAGTGATCATGG TCAACCCCGGATACTGCCACCGTCCGAGCTGGAGCATTACTGCGAACTGA TTGCTGCACTGAAATTACGAACCACAAATAAATCCGGCCGCCATCTGTCG ACCGGACGGGCAATACAGCTGCTGGAAGAGCATGGCGTGGAGACGGTCCA GGGATTGATTAAAAGTCCCAAAGGCTTACTTCGTAAGCAGACCGTCAATC GCTGGCTTTCCCGCTGGCGTCTCGACCAGCCCCGCCTGTTACGGGAGCCT CCGGCGGTAAGATTTCAGGCTGAAAACAGCAATGACTGTTGGCAGTTTGA TATGTCGCCATCCGATCTCAAACATATTGAGCGGCCTGACTGGGTAGATC CTGCCCGGGGCGAACCCACGCTGATGCTGTTCAGCGTAGTGGATGACCGG AGCGGTGTCGCATACCAGGAATACCGGTGTGTGTACGGTGAGGATGCGGA ATCTGCGCTGCGTTTTCTCTTTAACGCCATGGCCCCAAAAACCAGGTCTG ATTTTCCTTTTCAGGGCCGCCCGAAATTGCTGTACCTCGATAATGGACCG GTGGCCAAAAACCATGTATTCCAGAATGTGATGCAGTCCCTGAAGGTTGA CTGGCTGACGCATACGCCGGCAGGCAAGGACGGCACCCGGACGACGGCAC GGTCCAAAGGTAAAGTTGAACGTCCTTTTCGGACCGTCAAGGAGGCACAT GAAACTCTGTACCATTTCCATAAACCGGAAACGGAGCTGCAGGCCAACGA ATGGCTCTGGAACTATCTGAGCCGTTATAACGCGCAGCGTCACCGCAGCG AGAAACACTCCCGACTGGAGGACTGGCTGGCAAATATCGGCCAGGAAGGT GTGAGGGATATGTGCAGCTGGGAACAATACTGTCGGTTCGCCCGGGAGCC GGAATCCCGCAAGGTGGGTGTTGATGCGCGGATAACGATAGACGGCACCG CATGGGAAGTTGAACCGGATATGGCGGGTGAAACCGTCATTCTGCTGTGG GGGCTGTTTGACGAAGAGATGTATGTGGAGTTTACCGGTGAAACATGGGG GCCTTATTCATCGGTGTCGGGGCCTGTGCCGCTGCACCGTTACCGGACGT TCACACGCGGTAAAGCGGCTGAACGGGCCGATCGTATCCATGCTCTGGCC AGGCAGCTGAACATCCCCATCAGCGCATTGTCCGGCAGCGATCTCCGCGT GGTCAGTGATGACACTCAGCAGCGCATTGATGCGTTGCCACATCAGCCCT TTGATACCCGAAAATTTGAATACCACTTTCCCACCGTTATTGCGGCAAAA CTGGCAATTGCCGACGATCTGGCCATACCGCTGGCCAGAATGTCGGATGA AGACCGGGCGTTTACCGACAGTATTCTGACTGAGACGCTTAACCGTAGTG AAGTACTCGCCCGCATCAGAGACTATTTTCGTAGCAGACAATCAGGAGAG GACCATGCGGGTTGA >gid:1162845 rlgA putative resolvase protein ATGGCACTTTACGGCTATGCCCGCGTTTCAACCAGCGATCAGGATCTTAC TCTGCAGACACAAATTCTCCGCGCTGCTGGTTGTGAAATTATTCGTGCAG AAAAAGCCAGCGGAAGCGGCCGGACCGGAAGGAGCGAGTTGCAGCTGCTG CTGGAGTTCCTGCGCCCTGGTGATACGTTGATGGTGACACGCGTGGATCG CCTGGCCCGCAGCATTAAGGACCTGCAGGACATTGTGTATGCCCTGAATC AACAGGGCGTAACGCTCAGGGCAACAGAACAGCCAGTGGACACGCGTTCA GCTGCAGGCAAAGCCTTCCTCGATATGCTGGGTGTTTTCGCTGAGTTTGA AACCAATCTGAGACGTGAACGCCAGATGGAAGGCATTGCCGCGGCGAAAG CCAGGGGCGTATACCGGGGAAGGAAACCGTCCATAGATCCTGCTGAGGTA TATCGTCTGTATACCATTGAGAAGATGGGAGCCACAGCCATCGCCCGCCA GCTCGGGATTGGGAGGGCGTCAGTCTACCGGGCGCTGGAAAATTATGAGC AGCCGGCGTAG >gid:1162774 rsdB resolvase ATGAGTCAGCCACCGTTACCTGCTGTCTGTACGCAGGCAGCGTCCGCCCT GCTGCCGGTGGCCATTGATTACCCGGCGGCCCTCGCACTGCGCCAGATGG CAATGCAGCATGACGACTACCCGAAATATCTGCTGGCTCCGGAGGTAAGT GCCCTGCTCCACTACGTCCCTGATCTGCATCGCAGGATGCTGCTGGCCAC TCTATGGAATACCGGCGCACGGATTAACGAGGCGCTGGCCTTGACACGGG GAGACTTTTCGCTGGCACCACCTTATCCGTTTGTGCAGCTGGCCACTCTG AAACAGCGGGCGGAAAAGGCGGCCAGAACGGCAGGACGGATGCCGTCCGG CAGCCAGCCCCACCGCTTGGTGCCGCTTTCTGATAACCAGTATGTCAGCG AACTGCAGATGATGGTGGCCACGCTGAAAATCCCGCTGGAGCGTCGTAAC AGACGTACCGGCAGAACGGAAAAGGCGCGCCTCTGGGAGATCACCGACCG GACGGTCCGTACCTGGATTGGGGAGGCGGTTGAGGCCGCAGCGGCTGACG ACGTGACGTTCTCAGTCCCGGTGACACCCCATACATTCCGCCACTCCTAT GCGATGCACATGCTGTACGCCGGCATACCGCTGAAGGTGCTGCAGGCGCT GATGGGACACAAATCGGTGAGCTCGACGGAAGTGTACACGAAAGTGTTTG CGCTTGATGTTGCCGCACGACACCGGGTGCAGTTTCAGATGCCGGGTGCT GATGCAGTGGCTATGCTCAAAGGAGGTTCATAG >gid:1162837 samB SamB ATGTTCGCTTTGGCTGACGTCAACTCGTTCTATGCCAGTTGCGAAAAGGT CTTTCGCCCCGATTTGCGTGACAGGTCTGTGGTGGTCCTGAGTAACAACG ATGGTTGTGTAATCGTACGCAGCGCTGAAGCAAAAAAACTGGGCATAAAA ATGGGGGTGCCGTGGTTTCAACTGAGGTCGGCGAAATTTCCGGAGCCGGT TATCGCGTTCTCCAGTAATTACGCCCTCTACGCATCAATGTCGAACAGGG TCATGGTTCACCTGGAAGAGCTGGCGCCACGCGTTGAGCAGTACTCCATT GACGAGATGTTTCTGGATATTCGCGGTATAGACAGTTGCATCGATTTCGA GGATTTCGGCCGACAGCTGCGTGAGCACGTTCGTTCCGGCACAGGGCTGA CCATCGGCGTCGGAATGGGACCGACCAAAACGCTGGCTAAAAGCGCGCAA TGGGCATCGAAAGAATGGTCACAGTTCGGAGGCGTGCTTGCCCTGACGTT ACACAATCAGAAACGAACGGAGAAACTGCTGTCACTGCAACCGGTGGAGG AAATCTGGGGTGTGGGCCGCAGGATCTCAAAGAAGCTGAACACAATGGGG ATCACCACAGCACTGCAGCTGGCCCGCGCGAATCCAACGTTCATCAGGAA AAACTTTAATGTGGTTCTGGAGAGAACGGTCCGGGAACTCAATGGAGAAA GCTGTATTTCCCTGGAGGAAGCACCGCCCCCCAAACAGCAGATAGTCTGC AGCAGAAGCTTTGGAGAACGAGTCACGACTTATGAAGCGATGCGGCAGGC AGTCTGTCAGCACGCTGAACGTGCCGCCGAAAAGCTGCGTGGGGAACGGC AGTTCTGCAGGCATATTGCCGTGTTTGTGAAAACATCGCCGTTCGCCGTA ACTGAGCCCTACTACGGTAATCTGGCCAGTGAAAAACTGCTCATCCCCAC GCAGGATACACGGGACATCATTGCCGCTGCCGTCAGAGCTCTGGACAGGA TCTGGGTGGATGGTCACCGTTACGCAAAGGCAGGCTGTATGCTGAACGAT TTCACGCCAACCGGGGTATCGCAGCTTAATTTGTTTGATGAAGTACAGCC GCGGGAACGGAGCGAGCAGCTGATGCAAGTCCTGGATGGGATTAACCATC CGGGCAAGGGGAAAATATGGTTCGCCGGTCGGGGGATTGCCCCCGAGTGG CAGATGAAAAGGGAACTACTTTCGCCAGCTTATACGACACGTTGGGCAGA TATTCCTGCAGCGAAATTGACTTGA >gid:1162803 traI conjugative transfer oriT nicking-unwinding protein ATGATGAGCATTGCACAGGTCCGGTCAGCGGGGAGTGCCGCCGGTTATTA CAGCGACAGGGATAACTACTACGTGCTGGGCAGTCTGGAGGAACGCTGGG CCGGAAAAGGCGCGGAGCAACTGGGGGTGCAGGGCACCGTCGATAAGGAG GTGTTCACCCGGGTACTGGAAGGCCGACTGCCCGACGGGGCTGATCTGAG CCGACAGCAGGACGGCGGCAACAAACACCGCCCCGGCTATGATCTGACCT TCTCTGCCCCCAAAAGTGTTTCCCTGATAGCCATGCTGGCCGGCGATAAA CGCCTGACTGAGGCACACAACCAGGCGGTGGATATCGCTGTCCGTCAGGT TGAGGCGCTGGCCTCCACCAGAGTGATGACGGACGGGCAGTCAGAAACCG TGCTCACCGGGAACCTGGTGATGGCGCTGTTCAATCATGACACCAGTCGT GACCAGGAGCCGCAGCTGCATACCCATGCCGTGGTGGCCAACGTCACGCT GCATGACGGGGAATGGAAGACCCTGAGCAGTGATAAGGTGGGAAAAACGG GATTTATCGAGAATGTCTATGCTAACCAGATAGCCTTCGGGAAGATTTAC CGCGCGGTGCTGAAAGAGAAGGTTGAAGCGCTGGGCTATGAAACGGAAGT GGTCGGTAAGCACGGTATGTGGGAGATGCCCGGTGTCCCGGTGGAGGCCT TTTCCAGCCGTTCGCAGGCCATCCGGGAGGCGGTCGGGGAGGATGCCTCG CTGAAATCCCGGGATGTGGCGGCGCTGGATACGCGTAAATCCAAACAGCA TGTCGATCCGGAAGTGAAAATGGCTGAGTGGATGCAGACCCTGAAAGATA CCGGGTTTGATATCAGCGCATACCGTGAGGCTGCGGACAGGCGGCCGGAA ATACAGGCAGCACAGCCTGTTCCGTCACAGGAGCAGCCGGATATTCAGCA GGCGGTGACGCAGGCCATTGCCGGATTAAGCGACCGGAAGGTTCAGTTTA CGTATACCGACGTGCTGGCCAGAACGGTTGGCATGCTGCCGCCGGAAGCC GGCGTGATTGAGAAAGCCCGGGCCGGGATTGATGAGGCCATCAGCCGCGA GCGGCTTATCCCCCTCGACCGGGAGAAAGGACTGTTCACCTCCGGTATTC ATGTGCTCGATGAGCTGTCTGTCCGGGCACTCAGCAGCGATATCATGAAG CAGAACCGGGTGACCGTCCATCCGGAGAAGAGCGTGCCCCGCACGGGAAG TTACAGCGACGCGGTGAGTGTCTTGGCTCAGGATCGCCCGTCACTGGCCA TTATCAGTGGTCAGGGCAGTGCTGCCGGTCAGCGGGAGCGGGTGGCGGAG CTGACGATGATGGCCCGGGAGCAGGGGCGTGAGGTGCAGATTATTGCCGC CGACCGCCGTTCGCAGACGAACCTGAAGCAGGATGAACGTCTGTCCGGTG AGCTGATAACCGGGCGTCGTCAGTTGCAGGAGGGCATGTCATTTTCCCCG GGCAGTACCGTTATTGTCGACCAGGGCGAAAAGCTGTCCCTGAAGGAGAC TCTGACCCTGCTGGATGGCGCGGCGCGTCATAACATCCAGGTGCTCATTA CCGACAGCGGTCAGCGCACCGGTACCGGCAGCGCGCTGATGGCCATGAAG GAGGCCGGCGTGAACAGTTACCGCTGGCAGGGCGGGCAGCAGACCCCGGC GACCGTTATCAGCGAGCCGGACCGGAATGTCCGCTATGCCCGGCTGGCCG GGGATTTTGTGGCCGCGGTGAAAGCCGGGGAAGAGAGCGTGGCGCAGGTC AGCGGCGTGCGTGAGCAGGCCATACTGGCGGGGATGATACGCAGTGAGCT GAAGACGCAGGGGGTACTCGGGCAGCAGGACACCATGATGACCGCGCTGT CACCGGTCTGGCTGGACAGCCGGAACCGTTACCTGCGCGACATGTACCGT GAAGGGATGGTGATGGAGCAGTGGAACCCGGAGAAACGGTCCCATGACCG GTATGTGATTGACCGGGTGACCGCACAAAGTCACAGTCTGACCCTGCGGG ATGCGCAGGGAGAGACGCAGATGGTGCGGATTTCAGCCCTGGACAGCAGC TGGTCACTCTTCCGGCCGGAGAAGATACCGGTGGCAGACGGCGAGCGTCT TATGGTGACGGGAAAAATTCCCGGGCTTCGCGTCTCCGGCGGCGACCGGC TGCAGGTATCAGCGGTGAACGATGGCATGATGACGGTCATCGTTCCGGGA CGGGCTGAGCCGGCTTCCCTGCCTGTGGGGGATTCCCCGTTCACGGCGCT GAAGCTGGAAAACGGCTGGGTGGAAACACCCGGGCATTCCGTCAGTGACA GTGCGAAAGTTTTTGTTTCCGTCACACAGATGGCGATGGACAACGCCACC CTGAACGGTCTGGCCCGCAGCGGCCGGGATGTCCGGCTGTATTCCTCACT GGATGAGCCCCGCACTGCTGAAAAACTCTCCCGTCACCCGTCTTTTACGG TCGTTTCTGAGCAGATAAAGGCGCGTGCCGGTGAGGTATCGCTGGAAACC GCCATCAGCCGCCAGAAAGCCGGGCTTCACACGCCGGCACAGCAGCCCAT TCACCTTGCCCTTCCGGTGGTGGAAAGTAAAAACCTGGCATTCAGTCAGG TGGAGCTGCTGACGGAGGCGAAGTCGTTTGCTGCAGAGGGAACCGGTTTT GCTGAACTGGGACGGGAAATTGATGCGCAGATAAAACGGGGCGATTTACT GCATGTGGATGTGGCAAAAGGTTATGGTACAGACCTGCTGATTTCCCGTG CATCGTATGACGCTGAAAAGAGTATTCTGCATCATATCCTTGAGGGAAAG GAGGCGGTCACGCCACTGATGGAGAGGGTATCCGGCGAACTCATGGAGAC TCTGACATCCGGACAGCGTGCCGCCACCCGTATGATACTCGAAACGAAAG ACCGTTTCACCGTGGTACAGGGCTACGCCGGGGTGGGCAAGACCACCCAG TTCCGGGCGGTGATGTCTGCCGTGAACCTACTGCCTGGGAGTGAGCGTCC CCGCGTCGTGGGGCTGGGGCCGACCCACAGGGCGGTCGGGGAGATGCGCA GTGCCGGCGTGGAAGCACAGACGCTGGCGTCCTTTCTGCATGACACGCAG CTGCAGCAGCGCAGCGGTGAAACACCGGATTTCAGCAACACGCTGTTCCT CCTTGATGAGAGTTCGATGGTGGGCAACACCGATATGGCGCGGGCATACG CCCTGATTGCGGCCGGTGGTGGTCGTGCCGTGGCTAGTGGTGACACGGAC CAACTGCAGGCCATCGCACCCGGTCAGCCTTTCCGTCTGCAGCAGACACG CAGTGCCGCCGATGTGGCCATCATGAAAGAGATTGTGCGCCAGACACCGG AACTGCGGGACGCCGTGTACAGCCTGATTAACCGGGATGTGAATAAGGCA CTGTCCGGCTTTGAAAACGTGAAAGCCGGTTCAGGTTCCCCGCCTGAAGG GGCATGGTGCCCGGAAAACTCGGTGACGGAGTTCAGCCGTCTGCAGGAGC GGGAACTGGTGAAAGCCGCACAGGAGGCGGAGAAAAAGGGCGAAGCCTTT CCGGATGTGCTCGTGACGCTGTATGAGGCCATTGTCCGCGACTATACCGG CAGAACGCCGGACGCCCGGGAGCAGACGCTGATTGTCACGCATCTGAATG AGGATCGTCGGGTGCTGAACAGCATGATTCAGGATGCACTGGCGAAACCG GGTGAGCAGCAGGTCACTGTCCCTGTACTGACCACCGCGAATATCCGTGA CGGGGAGCTGCGCCGTCTGTCCACCTGGGAGAATCATCAGTGCGCGCTTG CCCTGGTGGATAAAGTGTATCACCGGATTGCCGGTATCAGTAAGGAGGAC GGGCTGATAACCCTGCAGGATGCCGACGGCAACACGCGCCTGATTTCCCC TCGGGAAGCAGCGGCAGAGGGCGTCACACTGTACAATCCGGAAACTATCC GGGTGGGGGCCGGTGACCGGATGCGTTTCACGAAGAGTGACAGGGAACGC GGGTATGTGGCCAACAGCGTCTGGCCGGTGACCGCGGTTTCCGGTGACGG TGTCACGCTGTCAGACGGGAAACAGACCCGCGTGGTGCGTCCCGGGCAGG ACAGGGCAGAGCAGCATATTGACCTGGCGTATGCCATCACCGCCCACGGT GCGCAGGGGGCCAGTGAGACGTTTGCCATTGCGCTGGAGGGAACCGAAGG GGGCCGGAAACAGATGGCCGGTTTTGAGTCGGCGTATGTGGCCCTGTCGC GTATGAAACAGCATGTGCAGGTGTACACCGACGATCGTCAGGGCTGGACT GATGCCATCAACAGAGCCGCACAGAAAGGTACTGCCCACGATGTGCTGGA GCCGAAAGCAGACCGGGAGGCCATGAATGCAGAGCGGCTGTTCAGCACCG CCCGGGAACTGCGGGACGTGGCCGCCGGCCGTGCCGTGCTGCGAAACGCC GGACTGGCGCTGGGAGACAGCCGGGCGCGTTTTATTGCACCGGGGCGCAA ATATCCGCAGCCGTATGTGGCGCTGCCGGCGTTTGACCGTAACGGTAAAT CCGCCGGTATCTGGCTGAACCCACTGACAACGGATGACGGTGCCGGGCTG CGGGGCTTCAGCGGTGAAGGACGGGTGAAAGGCAGCGAAGAGGCGCAGTT TGTGGCCCTGCAGGGCAGTCGTAACGGCGAAAGCCTGCTGGCTGATAACA TGCAGGAGGGCGTCCGGATTGCCCGCGATAACCCTGACAGCGGCGTGGTG GTGAGAATTGCCGGTGACGGGCGTCCGTGGAATCCCGGCGCCATTACCGG CGGCAGGGTGTGGGGCGATATTCCTGACAGCAGTGTGCAACCCGGCGCGG TCAACGGGGAGCCGGTCACGGCAGAGATTCTGGCACAGCGGCAGGCAGAA GAGGCAGTCCGCCGTGAAACAGAGCAGCGTGCCGCAGAGATTGTCCGTAA AATGGCTGAGGATAAACCTGACCTGCCGGAGGAGAAAACCGCGCAGGCGG TCAGAGAGATTGCCGGCCAGGAGCATGACAGAATGACCCCGCCTGAACGG GAAACCCCGCTGCCGGAGAGTGTGCTGCGCGAACCGGTACGGGAGCGGGA GACCATTCCGGGAAGTGGCGCCGGAAAACCGGGTTCGGGAGCCGCTGCAG CAGACGGAGCAGGAGATGGTGCGTCGACCTGCAGAAAGAGAGAACCCCCG GACGGGGACTGA