Gene list
Applied filters:
COG category: Replication, recombination and repair
Genomic element: pA81
Number of genes found: 9
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Achromobacter xylosoxidans, A8 >gid:1157733 putative DNA-damage-inducible protein ATGGCTGCAAACCAGCTCGTACAAACGCGCATCGACGGCGCGATCAAGGA AGAAGCGGCGGCCGTCCTGGCCGCGATGGGCCTTACCGTGTCCGACGCGG TGCGGCTGCTGCTCACGAAGGTGGCCCAGGACAAGGCGCTGCCCTTCGAG CCGCTGATTCCGAACGCCACCACCATCGAGGCGATGAAGGAAGCCCGCAA GGGCAAGCTGCCGCGCTTCGCCACCGTCAACGATCTGATGGCCGATCTGC ATGCGGCAGATTGA >gid:1157703 putative IS element ATP binding protein ATGACCCATGAACCCATTGCCGAACGCATCCGTCGGCATCTGATCGGCCT GAAGATGCCCCGCGCGCTGGAGGCTTTGCAGACGGTGCAGTCCCAGATCG AACAAGGGCAGCTTACTGCCCTGGAAGCCATCGAAGCCTTGCTGGGCGAG GAGTACAGCACACGCGAGAGTCGACGCATCAAGATCGCTCTGCAGACTGC ACGCCTGACAGTGCTCAAGACGCTCGCCGGTTACGACTTCAGCTTCCAGC CATCGCTGGAGCGCAGCCGTGTCATGGCGCTGGCGGAATTGGGGTTCATT GAGCGACGCCAGTGCGTGCACTTCCTTGGGCCACCCGGAACAGGGAAGAG CCACCTTGCCGTGGCACTCGGTGTAGAAGCCATCAGAGCTGGCAAGAGCG TGTACTTCGCCACACTGGCCGAGCTGGTCGATTCCATGCGCAAGGCCGAG CGCGAAGGCAAGCTGCGTGAGCGGGTGAAGTTCCTGTCGCGCCACAGCGT ACTCATCGTTGACGAGATTGGCTACCTGGCGTTGGGCTCGACCGGCGGCA ATCTGTTCTTCCAGCTGGTCAATGCCTGCTACGAGCGCTGCGCGATGATC CTGACCAGCAATCGTGGCTTTAGTGAATGGGGCGAGATCTTCGGCGATCC AGTTGTGGCCACTGCGCTGCTGGACCGGTTGCTACACCATGCGATCGTCA TTCCCATTGAAGGCAATTCATACCGTCTGCGGGAACATGCCGCCCTGATT CCAGAGCACTTGCGCAACCGTCCTGCATTCAATGAAATGGGTAGCCCTGT ACCGGAAAAGCGCCGGCCCGGCCGTCCCAAAAGGGAGGAAGCCGCGTCAC TGCCGGGTTGA >gid:1157741 int integrase/recombinase ATGAATGCCCTCGTCAGCCTGGATCAGATGATGGTGCCGGCCCCACCTGA CGGTCGCAAGGGCCGAAATCGCGCTACCTCGCGATCGCAGTTGGCCGCAG TCGACGACCGCTCGGCTGTGCTGGCCTGGCTGGCCCGCTATACCGATTCA CCCGCCACGCTTGCCAGCTATCGCAAGGAAGCTGAACGCCTACTGCTGTG GTGCGTGCTGCAGCGTGGCGCAGCCCTTTCAGACCTAACGCACGAGGATC TGCTGCTCTACCAGCGTTTCCTCGCTGATCCCCAGCCCGCCGAGCGCTGG GTCATGGAGCCGGGTCAGAAACCGGGCCGCAACTCGCCGCGCTGGCGACC CTTTGCCGGGCCGCTGTGGGCCTCGAGCCTGCGCCAGGCGCTGTCGATCC TCAACGCCATGTTTTCGTGGCTCGTGGAGGCCGGACACCTGGCCGGCCAT CCGTTGGCGCTGAGCCGGCGCAAACGCCGGCAGGCTGCACCTCGTGTGAG CCGCTTTCTGCCCGAGGAACACTGGGACGTGGTGAAAGCCGCGATCGAAG CAATGCCGGTCGGCAGCGAACGCGAAAGGCTGCACGCATCGCGCTGCCGA TGGCTGTTTTCACTGCTGTACATCGGTGGGCTGCGCGTGTCCGAGATCTG CGACGCCCGCATGGGCGGATTCTTCAGCCGGCGCGGCGCCGATGGGCGCG AGCGCTGGTGGCTGCGAAATCACCGGCAACAGGCAGCCAGACCCGCCTGG TGCCGGCCACGGGCGATATTGATGACCGAGTTGATGCGCTACCGCAAGGC TCACGCTTTGAGCCCGCTTCCACTGGAAGGGCGAAGACATGCCATTGGTG ATGACGCTGATCGCCCCGGTCAAGCCTATGGCACGAGCGCCATTCACGAG CTCGTCAAGGGGGTGATGCAGGCTGCCGCGGCCGCGCTGCGGCGGCGTGG TTCCGACTTTGGTGCCGCAGCAGCCCATCTCGAGCAGGCGTCGACGCACT GGATTCGCCACACCGCTGGAAGCCACCTGAGCGAAAAGGTCGACCTGAAA GTTGTCCGCGACAACCTGGGTCACGCCAACATCAGCACGACCAGCATCTA TTTGCACACCGAGGACGATGCCCGTCACGATGCGACGGCGGCAGGGCATC GGGTCGGTTGGCGTTCGCCGTGA >gid:1157668 istB22 IstB protein ATGCGTCATGACCCTGCCAGCGGCGCCATCGTGATCATGCTGCGAGAGCT CAAGATGTATGGCATGGCCCAGGCCGTGGCCGAGCTGACCGCACAAGGGG CACCGGCGTTCGAGGCGGCACAACCCATCCTGGCCCAACTGCTCAAGGCG GAAACCGCCGAGCGCGAGGTGCGCTCCGTGGCCTACCAATTGAAGGTGGC CCGTTTCCCTGTGTACCGGGACTTGGCCGGTTTCGACTTCGCCCACAGCG AAGTCAATGAGGCGCTGGCGCGGCAGTTGCACCGTTGCGAGTTTCTGGAG GAGGCCAACAATGTGGTGTTGGTCGGGGGCCCGGGCACTGGTAAGACCCA CCTGGCCACGGCGCTCGGTGTGCAGGCCATCGAGCATCATCACCGGCGAG TCCGGTTCTTCTCCACGGTCGAACTGGTCAATGCGCTGGAGGTCGAGAAG GCGCAGGGCAAGTCGGGACAGATCGCCACCCGGCTCATGTACGCCGATCT GGTGATCCTCGACGAACTGGGTTATCTGCCATTCAGCGCGTCCGGTGGGG CCTTGCTGTTCCACCTGCTGTCCAAGCTTTACGAACGCACCAGCGTCGTG ATCACGACCAACCTGAGCTTCAGCGAATGGGCGTCGGTGTTCGGTGATGC GAAGATGACGACGGCGCTGTTGGACCGGCTTACGCACCACTGCCATATCC TGGAAACTGGCAACGACAGCTTCCGATTCAAGAACAGCTCGGCGCTGCCG GCACAATCCAAGAAGGAGAAAACCAAGAACTTATCCACACCGTGA >gid:1157706 istB60 transposase IstB protein ATGCGTCATGACCCTGCCAGCGGCGCCATCGTGATCATGCTGCGAGAGCT CAAGATGTATGGCATGGCCCAGGCCGTGGCCGAGCTGACCGCACAAGGGG CACCGGCGTTCGAGGCGGCACAACCCATCCTGGCCCAACTGCTCAAGGCG GAAACCGCCGAGCGCGAGGTGCGCTCCGTGGCCTACCAATTGAAGGTGGC CCGTTTCCCTGTGTACCGGGACTTGGCCGGTTTCGACTTCGCCCACAGCG AAGTCAATGAGGCGCTGGCGCGGCAGTTGCACCGTTGCGAGTTTCTGGAG GAGGCCAACAATGTGGTGTTGGTCGGGGGCCCGGGCACTGGTAAGACCCA CCTGGCCACGGCGCTCGGTGTGCAGGCCATCGAGCATCATCACCGGCGAG TCCGGTTCTTCTCCACGGTCGAACTGGTCAATGCGCTGGAGGTCGAGAAG GCGCAGGGCAAGTCGGGACAGATCGCCACCCGGCTCATGTACGCCGATCT GGTGATCCTCGACGAACTGGGTTATCTGCCATTCAGCGCGTCCGGTGGGG CCTTGCTGTTCCACCTGCTGTCCAAGCTTTACGAACGCACCAGCGTCGTG ATCACGACCAACCTGAGCTTCAGCGAATGGGCGTCGGTGTTCGGTGATGC GAAGATGACGACGGCGCTGTTGGACCGGCTTACGCACCACTGCCATATCC TGGAAACTGGCAACGACAGCTTCCGATTCAAGAACAGCTCGGCGCTGCCG GCACAATCCAAGAAGGAGAAAACCAAGAACTTATCCACACCGTGA >gid:1157648 ssb single-strand DNA binding protein ATGAGCCATAACCAATTCCAGTTTATCGGCAATCTTACCCGTGATACTGA TGTTCGCCATAGCGAAAACAGCGCCCGCGCCGTATTCGACCTGGCCGTGA ACCGCGTGTGGCGCGACCGCGCCGGCGAGAAGAAAGAGCAAACCGACTTC TTCCGCATCAAGTCGTTTGCCGGCCTGGCAGAGAACGCGGGCAAGTACCT TGGCAAAGGCTCCAAGGTGTTCGTCCAGGGCCGCATCGAGCCGACGAAGT TCGAGAAGGACGGCCAGACCGAGTACGGCTTTGACTTCATCGCCGACGTG ATCGAGTACCTGGATACCAAGGAACCAGGCGGCAAATGA >gid:1157685 tnp39 transposase ATGAGCCAGTTGGGATTCTCCGACGCCGAGTTTGCCGGCAAGCGCAAGGT CACCCGCCGCGAGAAGTTTCTCGCCCAGATGGAACGGGCCGTTCCCTGGA AGGTTTTCGCCGATCTGGTCGAACCGCACTACCCGAAGCCGGGCAATGGC CGCAGGCCCTATCCGTTGGAAGTGATGCTGCGCATCCACTTCATGCAGCA GTGGTTCAATCTGTCGGACCCGGCCATGGAAGAGGCGCTGTATGACAGTA CCTCGATACGCCACTTTGCCAAGCTCTCGCTGAGCCGTGGCAGTATTCCT GACGAGACGACGATCTTGAACTTCCGCCACCTGCTGGAGAAGCACGACAT CGCGGCCGATGCGCTGGAGGCGGTCAATCTGCTGTTGGCCGACCAGGGCA TCACGGTGCGCAAGGGCACGATCGTGGATGCCACGATCATCGAAGCGCCC AGTTCCACCAAGAATGCCACGGGTACCCGCGACCCCGAGATGCACCAGGC CAAGAAGGGCAATCAGTGGCACTTTGGCATGAAGGCGCATATCGGCGTGG ACATGACGGGGCTGGTGCATACCGTGATCGGCACAGCGGCCAACATCAGC GATGTCACCCAGGCGCATGCGCTGCTGCATGGTGAGGAGGAACTGGTGCT GGGCGATGCGGGCTACCAGGGCGTCGAGAAGCGCGAGGAAAATCAAGGCT TGAAGGTACGGTGGCACATTGCCATGCGCCCTGGCAAGCGTCGGGCATTG GGCAAGGGCAATATGGGCCGGATGCTGGAATCTTATGAACGTGCCAAGGC GAGCCTGCGCTCTCGCGTGGAACATCCGTTCAGGGTGATCAAATGCCAGT TTGGCTTCACCAAGGTGCGCTACCGGGGCCTGGCCAAGAACACGGCGCAG TTGAAGATGCTGTTTACGTTGGCCAACCTGTGGAAGGTGCGCCATCATTT GATGGCCACGGCAGGATAG >gid:1157691 tnp45 transposase ATGAGCCAGTTGGGATTCTCCGACGCCGAGTTTGCCGGCAAGCGCAAGGT CACCCGCCGCGAGAAGTTTCTCGCCCAGATGGAACGGGCCGTTCCCTGGA AGGTTTTCGCCGATCTGGTCGAACCGCACTACCCGAAGCCGGGCAATGGC CGCAGGCCCTATCCGTTGGAAGTGATGCTGCGCATCCACTTCATGCAGCA GTGGTTCAATCTGTCGGACCCGGCCATGGAAGAGGCGCTGTATGACAGTA CCTCGATACGCCACTTTGCCAAGCTCTCGCTGAGCCGTGGCAGTATTCCT GACGAGACGACGATCTTGAACTTCCGCCACCTGCTGGAGAAGCACGACAT CGCGGCCGATGCGCTGGAGGCGGTCAATCTGCTGTTGGCCGACCAGGGCA TCACGGTGCGCAAGGGCACGATCGTGGATGCCACGATCATCGAAGCGCCC AGTTCCACCAAGAATGCCACGGGTACCCGCGACCCCGAGATGCACCAGGC CAAGAAGGGCAATCAGTGGCACTTTGGCATGAAGGCGCATATCGGCGTGG ACATGACGGGGCTGGTGCATACCGTGATCGGCACAGCGGCCAACATCAGC GATGTCACCCAGGCGCATGCGCTGCTGCATGGTGAGGAGGAACTGGTGCT GGGCGATGCGGGCTACCAGGGCGTCGAGAAGCGCGAGGAAAATCAAGGCT TGAAGGTACGGTGGCACATTGCCATGCGCCCTGGCAAGCGTCGGGCATTG GGCAAGGGCAATATGGGCCGGATGCTGGAATCTTATGAACGTGCCAAGGC GAGCCTGCGCTCTCGCGTGGAACATCCGTTCAGGGTGATCAAATGCCAGT TTGGCTTCACCAAGGTGCGCTACCGGGGCCTGGCCAAGAACACGGCGCAG TTGAAGATGCTGTTTACGTTGGCCAACCTGTGGAAGGTGCGCCATCATTT GATGGCCACGGCAGGATAG >gid:1157711 traE DNA topoisomerase ATGCGACTGTTCATCGCGGAAAAACCATCCGTCGCAAAAGCCATCGCCGG CGAGCTGGGCATCACCGGCAAGGGCGACGGCTTCATCGAGTGCGGCGGCG ACAAAGTGACCTGGTGCTTTGGGCACATGCTGGAGCAGGCCGACCCGGAC GAGTACACGCCCGATGACGTGCCGACCGGCAAATCAGGCAAGAAGCTATG GCGCGTCGATGAGCTGCCCATCATCCCGCAGACGTGGGTTCTTCACCCGA AGGACGATGCCAAGAAGCAGCTCGCCGTGATCGGCAAGCTGCTGAAAGAA GCCAAGGAGATCGTCAACGCCGGCGACCCCGACCGTGAAGGCCAGTTGCT GGTCGATGAAGTGCTGGAGCACTTCAAGAGCAGCAAGCCGGCGCGCCGCT TTTGGGTGTCTGCCCAGGATTCGGTTTCCGTCAAGCGCGGCCTGGCCGCC TTGAAGGAAAACACCACGTACAAGGGCTGGGCCGATGCCGCACGCGGGCG GCAGCGGGCCGACTGGCTGATCGGCATGAACCTAAGTCGCGCCTACACCC TGCGGGCGCAGCGCGGCGGTTCGCGCGCCCTGCTGACCGTGGGCCGCGTG CAGACCCCGACGCTCGCGCTTGTTGTCGGCCGCGACCGCGAGATCGAGGC GTTCAAGCCGGTGCCGTACCACACCATCAAGGCCGTGGTCGAGCACGCCG GCGGCAGCTTCGCCGCCGCCTGGAAAGCGAAGGAAGATCAAGCCGGCCTG GACAGCGAAGGCCGCCTTGTTGATACCGCCGTCGCGGATGCCCTGGTGGC CGCCGTCAAGGGCCAGCCGGGCACCATCGCCACCTACAAGCAGGAAGCCA AGAAGAAGAACCAGCCGCTGGCCTTCGCGCTGTCCGACATTACCGCGCTG GCGTCCGCGCGCTACGGGTACAGCGCCGAGGACGTGCTGAACACCTGCCA GGCGCTCTACGAGACGCACAAGCTGACCAGCTACCCGCGCACCGACTGCG CCTACCTGCCGGAGTCGCAGCACGCCGACGCGCCGCGCGTCCTGGAGGCC GTCAAGCACGTGAACCCCGAGCTGGCCGGCCTGGTCGATGCTGCCGACCC GCGCATCAAGTCCAAGACGTGGGACGACTCGAAGATCACCGCCCACCACG GCATCGTGCCGACCATGCAGAAAGGCAGCAAGGCCGGCTTGAGCGAGCGC GAGCGCAACATCTACGAGCTGATCGTCCGCGCCTACCTGGCGCAGTTCTA CCCGCTGCACGAGTACATGCAAACCACGGTCGGCGTGGAGATCGCCGGCG AGAACTTCGCCGCGTCCGGCAAGGTGGTCACGCGCAACGGCTGGCGTGAC GTGTTTGAGCAGGCCGACGAAGAGGACGCCAAGGAAGGCGACGACGAGAA CGGCGCGCAGACCCTGCCACCGATGAAGCAAGGCGACGGTGTGACCTGCA CCGAGGCCACCCGACGCGATGCGAAAACCAAGCCGCCGGCGCGCTTCACC GAGGGCACGCTGATTCGCGCGATGGAGAACATCCACAAGTTCGTGAGCGA CCCGGAGCACAAGAAGATGCTGCGCGAAGGCGATGGCATCGGCACGTCCG CCACGCGCGCATCCATCATTTCCGAGCTGAAACGCCGCGAGTTCCTGGAA ACCAAGGGCAAGCAGATCGTCAGCACGACGCTGGGCCGCAGCGTCATCGA CGCGCTGCCCGAGGTGGTGCGAAGCCCGGTGCTGACCGCCCTTTACGAAC GCATGTTGAAGGGCGTCGAGCTGGGCACGGCGGCCCTGGACGCCTTCATT ACGAAGCAAGAGGCGTTCATCCGCGACCAGGTGGCGAAGGCCAACAGCGG AGCCGTGAGCATCGCCGGCGGCAAGGAAGCCACGCCGGTTTCGTCCCTGC ACAAGTGCATGGCTTGCGGCAATGGCTTGTCGCGCAGGCCGGCCAAGCGC AAGGGGCAATTCTGGTGGGGATGCAGCAACTTCCCCACGTGCAAGCAGAC CTATCCCGACCTGAAAGGCCGGCCCGACTACAGCAAGGGCCGCAATGGCC CAGCCGAGTAA