Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Plasmid ColIb-P9
Number of genes found: 7
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Plasmid ColIb-P9 >gid:859489 impB ATGTTTGCACTGGCTGATATCAACAGTTTCTACGCCTCATGTGAAAAAGT TTTCCGCCCGGACCTTCGCAACGAACCGGTCATCGTACTCAGCAATAACG ATGGCTGTGTGATCGCGCGCAGCCCGGAGGCAAAAGCCCTTGGCATCAGA ATGGGGCAGCCCTGGTTTCAGGTGAGACAAATGCGCCTGGAGAAGAAAAT ACATGTATTTTCCAGCAATTATGCGCTGTACCACAGCATGAGCCAACGGG TTATGGCTGTTCTGGAGTCGCTTTCTCCCGCAGTTGAGCCCTACTCAATT GATGAAATGTTCATTGATTTGCGGGGGATAAATCATTGCATCTCTCCGGA GTTTTTTGGTCATCAGCTCAGGGAACAGGTAAAGAGCTGGACAGGACTCA CCATGGGGGTGGGCATTGCGCCTACAAAAACGCTGGCTAAAAGTGCACAG TGGGCAACAAAGCAATGGCCACAGTTTTCCGGAGTGGTCGCGCTGACGGC AGAAAACCGTAATCGGATCTTGAAGCTACTGGGGCTGCAGCCAGTTGGTG AGGTCTGGGGAGTAGGACACAGACTGACGGAAAAGCTGAATGCGCTGGGT ATTAACACAGCACTGCAGCTGGCGCAGGCTAACACGGCATTCATCCGGAA AAACTTCAGCGTCATTCTTGAGCGTACGGTACGCGAACTCAACGGCGAGT CCTGCATATCCCTGGAAGAAGCACCACCGGCAAAACAGCAGATTGTCTGT AGTCGCAGTTTTGGTGAACGAATCACAGACAAAGATGCCATGCACCAGGC TGTTGTTCAGTATGCAGAGCGGGCCGCAGAGAAACTACGTGGGGAGCGTC AGTATTGCCGGCAGGTGACGACATTTGTACGGACATCACCCTTTGCAGTA AAAGAACCCTGTTACAGCAATGCCGCTGTGGAAAAGCTTCCATTGCCCAC ACAGGACAGCCGGGACATTATTGCCGCCGCATGCAGAGCCTTAAACCATG TCTGGCGTGAAGGGTACCGCTATATGAAGGCAGGTGTCATGCTGGCTGAT TTCACACCATCGGGTATAGCGCAGCCGGGATTATTTGATGAAATCCAGCC CCGTAAAAACAGTGAAAAGTTAATGAAAACACTCGATGAACTGAACCAGT CGGGAAAAGGGAAAGTGTGGTTTGCGGGGCGAGGAACCGCCCCTGAATGG CAAATGAAACGGGAAATGTTGAGTCAGTGTTATACAACTAAATGGCGAGA TATTCCCCTGGCCAGGCTGGGTTAG >gid:859559 rci shufflon-specific recombinase ATGCCGTCTCCACGCATCCGTAAAATGTCCCTGTCACGCGCACTGGATAA GTACCTGAAAACAGTTTCTGTTCACAAGAAAGGGCATCAACAGGAGTTTT ACCGGAGCAATGTTATCAAGCGATATCCCATTGCCCTTCGGAATATGGAC GAAATAACAACCGTTGATATTGCTACATACAGAGACGTTCGTTTAGCAGA AATCAACCCCCGAACGGGTAAACCCATTACAGGTAATACTGTACGTCTTG AACTCGCCCTTCTGTCATCTCTGTTCAATATTGCTCGTGTTGAATGGGGA ACCTGTCGTACTAACCCGGTTGAACTGGTTCGCAAGCCGAAAGTATCCTC CGGACGAGATCGCCGGCTAACGTCTTCAGAAGAACGTCGCCTTTCTCGCT ATTTCCGCGAAAAAAATCTGATGTTGTATGTCATTTTCCATCTTGCCCTT GAGACAGCCATGCGGCAGGGCGAAATACTGGCCTTACGTTGGGAGCACAT TGATTTGCGCCACGGTGTGGCTCATTTACCTGAAACCAAAAACGGTCACT CACGGGATGTTCCTCTGTCCAGACGTGCCCGTAACTTTCTTCAGATGATG CCCGTTAATCTCCACGGCAATGTTTTTGATTACACCGCATCCGGCTTTAA AAATGCCTGGAGAATAGCCACACAACGACTTCGCATCGAGGACCTGCATT TTCACGATCTACGGCATGAAGCAATAAGCCGCTTCTTCGAACTGGGTAGC CTGAATGTAATGGAGATTGCTGCAATATCAGGACATCGTTCCATGAATAT GCTGAAACGGTATACTCATCTTCGTGCATGGCAACTGGTCAGTAAACTTG ATGCCCGCCGGCGGCAGACACAAAAAGTGGCAGCATGGTTTGTGCCGTAT CCTGCCCATATCACGACCATCAATGAAGAAAATGGGCAGAAAGCGCATCG TATTGAGATCGGTGATTTTGATAACCTTCACGTCACTGCCACAACGAAAG AGGAAGCAGTTCACCGCGCCAGTGAGGTTTTGTTGCGTACACTGGCCATT GCAGCACAGAAAGGCGAACGTGTCCCATCTCCCGGAGCGTTACCTGTTAA CGACCCTGACTACATTATGATTTGCCCTCTGAACCCGGGCAGCACCCCGC TGTAA >gid:859478 resA resolvase ATGCAGCACCTGCCGGCACCGATACACCATGCCCGGGATGCCGCTCAGCT TCCTGTTGCCATCGATTATCCGGCAGCGCTGGCACTCCGCCAGATGTCGA TGGTTCATGATGAACTGCCAAAATACCTGCTGGCCCCTGAAGTGAGCGCC CTGCTCCATTACGTCCCGGATCTGCGCCGCAAGATGCTGCTGGCCACACT GTGGAACACCGGTGCACGCATTAATGAAGCACTGGCGCTGACGCGGGGGG ATTTTTCGCTCACGCCTCCGTATCCGTTTGTGCAGCTGGCCACTCTGAAG CAGCGGACCGAAAAAGCCGCCAGGACGGCAGGAAGGATGCCCGCCGGTCA GCAGACTCACCGGCTGGTTCCGCTCTCCGACGCCTGGTACGTCAGCCAGC TGCAGACGATGGTGGCCACACTGAAAATCCCCATGGAACGGCGTAATAAA CGAACAGGCAGGACAGAGAAAGCGCGGATCTGGGAAGTGACGGACAGAAC GGTCAGGACCTGGATTGGGGAGGCGGTTGCCGCCGCTGCCGCTGATGGAG TGACGTTCTCTGTCCCGGTCACGCCACATACGTTCCGCCATTCCTATGCG ATGCATATGCTGTATGCCGGTATACCGCTGAAGGTCCTGCAGAGTCTGAT GGGGCATAAGTCCATCAGCTCAACGGAGGTCTACACGAAGGTGTTTGCAC TGGATGTGGCTGCACGGCACCGGGTGCAGTTTTCGATGCCTGAGTCCGAT GCGGTGTCTATGCTCAAAAGAATTCCATAA >gid:859505 ssb single-stranded DNA binding protein ATGAGTGCACGTGGTATCAACAAGGTCATCCTCGTCGGGCGTCTGGGCAA TGATCCGGAGGTCCGTTACATCCCCAACGGTGGCGCAGTGGCAAACCTGC AGGTGGCCACGTCAGAAAGCTGGCGCGACAAACAGACGGGGGAGATGCGG GAGCAGACGGAATGGCACCGTGTTGTGCTGTTCGGCAAGCTCGCGGAAGT GGCAGGTGAATATCTGCGCAAGGGCGCGCAGGTCTACATCGAGGGGCAAC TCCGTACCCGTAGCTGGGACGACAACGGCATCACCCGCTACATCACTGAA ATTCTTGTTAAGACCACGGGCACCATGCAGATGCTGGGGAGTGCACCACA GCAGAACGCTCAGGCGCAACCGAAGCCTCAGCAGAATGGGCAGCCACAGA GTGCTGACGCGACGAAAAAAGGTGGCGCGAAAACGAAAGGCCGTGGACGT AAGGCCGCGCAGCCCGAGCCTCAGCCGCAAACGCCGGAGGGGGAGGATTA CGGGTTTTCAGACGACATCCCGTTCTGA >gid:859459 yacC ATGAATAATGATGAGCTGGCCACCAGACGTGCGCAGGCGATTGCCGAAGA CAGGTGTTTCTCGAAAGGACGTTTGCGCGATGAATTCAGAATGAAACCAG CCCCCGGTGCTGAGCCGGTTAAGTGGTATAAAAACACTTATGGTGGCAGG TTCGCTGTATACCGAATTGCAGACTGTGTTCCGATGCGTGAGAAACGCCC TCTGACGAGTAAACAACAGCTGGCTGGCCAGCGACTTTCCGTTTTATCCA GACTTAACAGCACCAGTGGCCGGATGGCACGGCAGGCATATGACTGGCTG AGTCTGGCACCGCTCTTTCTGGATACTGAAACGACAGGACTGGATAATAC CGCGGAAGCCCTGGAAATCGGCCTGACCGATGCGGCCGGTCAGGTGGTAT TTGAAACCAGGCTGAAGCCCACGGTCGCCATCGGGGCGCAGGCCGCCGCT GTGCATGGTATCAGCGAGCAGGCTCTCTGCGGCGCACCATCATGGACAGA TGTGGCGCGGCAACTGCGTCATGCAATCGGGGACCGACCAGTAATTATCT TTAATGCCCGGTTCGACATCCGCATTCTGAAACAGACTGCTGCCGCACAT AGCGATCCGGCTGACTGGCTGGAAGAACTGACGGTATATTGTGCGATGGA GCTGGCTGCAGGATATTATGGGGCCACCAACCGCTATGGCACGATTTCAC TGGCCTGTGCTGCCAGTCAGGCCGGACTGACCTGGGAAGGGCAGGCACAC TCAGCGATCGCCGACGCACGGATGACGGCAGGGGTGGTAAACGCTATTGC TGCATATCATCTGGAACTGCTGCAGGAACAGGCACGGCTGAAAATCTGA >gid:859495 ycdB ATGTCCCGTTTTGTCCTCGGTAACTGCATTGATGTTATGGCGCGTATTCC TGATAACGGCATTGATTTCATACTGACTGACCCGCCATACCTCGTCGGTT TTCGTGACCGACAGGGGCGTACCATCGCCGGCGATAAAACCGATGAATGG CTGCAACCAGCCTGTAATGAAATGTATCGCGTACTCAAAAAAGATGCGCT GATGGTCAGCTTCTACGGCTGGAACCGCGTCGATCGCTTTATGGCCGCCT GGAAAAATGCGGGATTCAGTGTGGTTGGGCACCTGGTCTTCACCAAAAAC TACACATCGAAGGCCGCATATGTGGGTTATCGCCACGAATGCGCCTACGT TCTGGCAAAAGGCCGTCCGGCGCTGCCTCAGAAGCCATTACCCGACGTGC TGGGCTGGAAATATTCAGGCAATCGTCATCACCCGACGGAAAAGCCTGTT ACCAGCCTGCAACCACTGATTGAGAGCTTCACACATCCGAACGCGATTGT GCTGGACCCGTTTGCAGGCAGCGGCTCAACCTGCGTGGCTGCCCTTCAGT CCGGACGCCGGTATATCGGTATCGAGCTGCTTGAGCAGTATCACCGTGCC GGACAGCAACGTCTGGCTGCCGTACAGCGGGCCATGCAGCAGGGGGCCGC AAATGATGACTGGTTTATGCCGGAGGCTGCGTAA >gid:859509 ydcA transposase GTGACTATGTTAAGAGCAACAAAAATACGCATCTATCCTACTCCTGAACA GGCTGCATTTCTCAACGCCCAGTTCGGTGCGGTACGTTTTGCGTACAACA AAGCTCTTCACATCAAAAAACACGCTTACCAGAGACACGGAGTAAATTTA AGTCCGCGTAACGATCTGAAACCGTTGTTGTCTGTGGCCAAAAAGTCCCG TAAATATGCCTGGCTCAAAGAATTTGACTCAATGGCATTGCAACAGGCGG TAATCAATATTGATGTGGCATTTTCCAACTTTTTTAATCCGAAGCTGAAA GCGCGGTTCCCGACGTTTAAACGCAAACACGGAAAACAATCGAGCTATCA CTGTGTCGGGATTAAGGTGCTGGATAATGCCATCAAAATCCCCAAACTGG CCCCGATAGAAGCACGCCTTCATCGTGAACTTCATGGAAAGCTGAAAAGC ATCACTGTCACCCGTTCTGCAACGGGGAAATACTACGCTTCCATTCTTTG TGACGATGGCGCTTCCGCACCAGAGAAACCCACGTACCTGAAGGAAGAAA AGATTACAGGTCTGGATATGGGACTGGAGCACTATGCCATCACTTCTGAT GCTGTAAAAGTTCCGAATCCTCGCCATCTTATCAATGTAAGTCGTAATCT GCGACGCAAACAAAAAGCATTATCCCGTAAGCAAAAGGGAAGCGCGAATC GTAAAAAGGCCAGAATCCGTCTTGCGGCCTTACACGAACGGGTGGCGAAT GCCCGTGCTGATTTTCAACACAAGCTCTCTCGCGCGATTGTCGACGAAAA CCAAGCGGTAATTGTGGAGACGCTGAAAACAGCCAACATGATGAAAAACC ACAATCTGGCAAGAGCGATAGGTGATGCTGGCTGGCACAGCTTCATCACA AAGCTGGAGTACAAGGCAGCGACAAAAGGCGTTCACCTGGTAAAACTCGA CCAGTGGTTTGCCAGTTCGAAAACGTGCCATTGTTGTGGTTACAAAATGC CGGAAATGCCACTTCATAAACGCATCTGGCGATGCCCTGAGTGTGGAGCA GAGCACGACCGCGATATCAATGCGGCACTCAACATCCGGCAAAAAGGAAT ACTGGAACTAAAGGCGGCGGGACTCGTCGTCTCTGCCCATGGAGGCCAGC GTAAATCCGTCGCACAGACGGTTGCGGCCTGA