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