Gene list
Applied filters:
COG category: Replication, recombination and repair
Genomic element: pSD15
Number of genes found: 9
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Microscilla sp. PRE1, PRE1 >gid:1155036 MS136, hypothetical protein ATGATGTGGCTTGCAGCCATGAATCGTCCAGATCATAATACAATTGCCCG ATTCAGAAGTGAGCGACTTAAAGATGCCTTGAGGCAAGTATTCGGTCAGG TTGTTGAGTTATTGGTTGAAGAGGGACTGGTAAGTATCAAAAACATCTAC ACCGATGGCACCAAAATAGAAGCCAACGCTAATAAATACACTTTTGTCTG GGGACGTGCTATCCAAACCAGCAGAGAGCGCATAGCCAAGCAGCTAGATG AGCTTTGGGATTACACACAGAGGCTAGCAGAAGAGGAGTTATTCAGTGAA GAAAAGCCTGACTTTAAAGAGATAGACAAGGAAAAAGTCAGTCAGACTAT AGAGAGGATAGACAAAGCACTGGAAGACAAGCCTGTCAGCAAGAAAGTCA AACAAAAGCTCAACTATGCTAAAAAGAACTGGCCAGCTAAGCTAGAAGAG TATGCTGAAAAGGAAGCCATCATGGGTGAAAACAGGAATAGCTACTCCAA AACAGACCATGGAGCCACTTTCATGAGAATGAAAGAGGATCACATGCTCA ATGGCCAGCTCAAGCCAGGCTATAACCTTCAAATCAGCACCTCAGACCAG TTCATTGTCAACTACAGTATCCACCAAAACCCTACAGATACACTTACTCT CAAACCACACCTTCAGCAGTATCAAAACCTTTACAAAACCAACCCTGAAT CGATCTGTGCAGATGCAGGATATGGCAGTGAAGAAAACTACGACTATCTG GAAGAACAAACAATAGAATCCTATGTGAAGTACAATTACTTCCACAAGGA GCAGTCAAAGAAATGGAAGGAAAACCCCTTCAGAACAGACAATCTGCATT ATAACGAAGAGCAGGACAAGCTATACTGTCCAATGGGGCAACCGATGGAT CGGATAGCTGATCGAAAATCAGAATCATCGGCAGGTTATAAACAAACTTA TGCACGATATCAGGCTAAAAACTGTAATGGATGCTCCTTGAGAGGCTCTT GTCATAAGAGTAAAGGCAATCGTATTGTAGAAATCAATCATAATCTGCGG CGACATAAGCAGAAAGTGAGGCAAAACTTATTCTCTGAACAAGGATTAGC TCATAGAGCCAAAAGACCTTGGGATGTAGAGGCTGTCTTTGCAGCCATCA AACACAATCGAGGCTTCCGAAGGTTTATGCTTAAAGGCATCGATAAGGTA GAAATAGAGGTAGGATTACTCGCTATAGCTCAAAATCTGGCCAAGAAGGC CGCTTGA >gid:1155061 MS161, putative HsdS of type I restriction-modification system ATGCCCCAAAACTGGAAAAAATATAAGCTCGAAAATGTCTCAGAAAGAGT AACAGTTGGCTTTGTTGGATCAATGGCACAAGAGTATGTTGATAAGGGTG TTCCAATGCTTCGATCTCAAAATATTAAACCTTTTAGTTTAGATTTTGAT AATGTTAAATTCATTTCAGAGAAATTTCATGCTAAAATTTCTAAGTCAAG TTTAAAGGCTGATGATGTTGCAATTGTAAGAACTGGAACGCCAGGAACTG CTTGTGCTATTCCTGAAAGGATAGGACAAATGAACTGTTCTGATTTAGTG ATTGTAACTCCTAACTTAAACCTGATCAATCCTCATTTTCTGTGTTATTA TTTTTATAGTATTGCTTCTCACTATGTGAATTCCCAACTGGTTGGTGCGG TTCAGCAGCATTTTAACGTTGGGTCTGCTAAGAAGATGGAAATTCTACTT CCTTCTTTAAAAGAGCAAGACACTATTGTTGATGTACTAAAGAGTATAAT TGACAAAATCGAGCTCAACCTCCAGATGAACAGAACGCTAGAAGAAATGG CCATGACCTTGTATAAGCATTGGTTTGTGGATTTTGGGCCGTTTAAATCC CCACTTGAGGGGGGTGATTGGAAGGCGGGGGGTGTAAGTGCCAAAGACGA AATACACCTTGCTTTGGCTCCGGCAAGTTCATAG >gid:1155018 MS118, putative transposase ATGCAAAACTATCGAAAGGGTTCTCATACACTGTTTGACCTAAAGTACCA TTTAGTTTGGATTACGAAATATCGCAAACAAGTTTTGGTTGGTTCTGTGG CAGAAAGGTCACGTGAGTTGATCCGCGAGATATGTAAAGCAAACGATGTT GAAATAGTGAAAGGTCACGTTTCGAAGGATCATATTCATCTTTTTGTTTC GGTTCCTCCAAAATTGTCTGTGAGTAAACTTATGCAATATTTGAAAGGCA AGACTTCTCATAAAATGTTATTTGAGTTTAAGCATTTGCAGCGACAATTT TGGGGTAAACATATATGGACACGAGGCTACTTTGCTGTAAGTAATGTAAC AGACGAAGTGATCATGCAATACATAGAGAATCAAGATGTAGAACAAAAGG ATGATAACTTTGAAATTGGTAGTTGA >gid:1155003 MS103, putative transposase ATGAATCAACAAGAAAAACAACAGCTAAAGCAAAAAGCACTTAAGCAATT TTTTAACGGAGAATCACTGTTTGGAAAGGATGGGGCTTTTGCCCCAATGC TCAAAGAGTTTTTAGAAGAGGCTCTGGAAGCAGAGATGGAAGGGCACCTT TCCAGTGATCAGAAGGGCCGCCCAATGGGTAACAAGCGCAATGGAAAAGG TCAAAAAACTGTAAAGAGCAGTCACGGGGAAGTACAGATACAGACCCCTC AAGACCGTCACAGCAACTTTGAACCCCAAATCATTGAGAAGCGGCAGCGG ATACTTGCTGACAACCTTGAGAAACAGATAATAGCCATGTATGGCCTTGG CAATAGCCTGAGGGATATCCAGGACCATATCAAAGAGATGTATGATACAG ACATCTCTACAGAGGTGCTGAGTGATATCACAGACCGTGTGGTACCTAAG GTAAAGGAGTGGCAAAACAGGCCTTTGGAGCCAGTCTATTGCATTGTCTG GCTAGACGCTATGCACTTCAAGGTGAGAGATGAAGGCAAGGTAAAGCATA AAGCTCTCTACAATATTTTAGGGATCAATAAGCATGGGGAGAAGGAAGTA CTGGGAATGTATATCTCTGAGAGTGAAGGGGCTAACTTCTGGCTTCAGGT GCTTACCCAGCTGCAAAACAGAGGATTAAAAGACATTTTGATTGCCTGTA CTGATAATCTGACAGGGTTCAGTGAAGCCATACACTCGATCTATCCACAA ACAGACATTCAGCTATGTATTGTCCACCAGATCCGCAACAGCTTGAAGTA TGTAGCTAGCAAAGAGCAGAAGGTGTTTATGAAGGACCTAAAGCCGATTT ACCAGGCTGATACCAGGGATCAGCCTGGTAAACCAGCTTTGTTAGAGTTG GAAGAGAAGTGGGGAAAAAAGTATCCGGTAGTGATCCGTTCCTGGAATGA CAACTGGGAACTGCTCAGCACTTACTTTGATTACAGCAGGCCAATTAGAA AGTTAATCTACACCACCAATCCAGTGGAAGGCTTTCATCGGCAGGTAAGA AAAGTCACGAAGAGCAAAGGAGCCTTTACCAGCGATATGGCTTTGCTGAA GTTAGTTTATCTGGTCACCAGGCGCATCGAGAAAAAGTGGACCTCTCCAT TACAGAATTGGGGGTTGACCGTTCAGCAATTGGCCATTAGATTTGAGGGG AGATTGGAGCTGGACCTTAGGACCAGCGAAACAAAAAATTAA >gid:1155017 MS117, putative maturase ATGAGTCTGTTAGACGAATGGGAAAGAGATAGCCTTCCGGTGAAGGGCAC AGACGTATTCTGTAAACGAACCGGCAAGGTAGGTCATCAGTGGCTATCAG CGTGTGAAGAAGAACGAGCCTTGACGAGAGGTTTGATGTATAAGGTATGC GATCTATCAAATCTTACTGCATCATTGAAGCAGGTAGTAAAGAACGGAGG ATCACCGGGAGTAGACGGAATGCAGGTCAAAGAACTGCGATATTGGTTTT CCAATAACCACCAGAAGTTAATTGAACAACTGAAGGAAGGGAACTACAGA CCAATGACAATCAAAGGACAGGAAATTCCCAAACCTGGCGGTGGCGTTCG TCAACTAGGCATACCCACTGTCCAAGACCGGTTGGTTCAACAAGCCATTG CTCAGCAATTAAGTAAAAGATACGATCCCACCTTTTCACAGTACAGTTAT GGCTTCCGCAAGGGCAGAAATGCCCACCAAGCTTTAAGGCAAGCTGGAGC GTATGTAAAGGAAGGGTTCAATTATGTAGTAGACCTTGACTTGGAGAAAT TCTTTGACAAGGTGAACCATGATCGTTTAATGTGGCTGCTGGGGAGACGT ATATCAGACAAGCGGGTACTAAAGCTGATAGGTAAGTTTCTGCGATCTGG CATATTAATAGGAGGCTTAGAGAACCAACGGATAAGCGGTACTCCTCAGG GAAGCCCCTTGTCCCCACTGCTATCCAACATCGTACTGGATGAACTAGAC AAAGAGTTAGAGCGAAGAGGCCACCGTTTTGTACGCTATGCAGATGATAT GATCCTTCTAGTAAGGAGCCAAGAGGCAGCAGAGCGTGCATATTCATCGA TTACCAGCTTTATCGAAAATCGCCTTCTATTGAAGGTGAACAAAGATAAG AGCCGGATATGTAGGCCTTACCAGCTTAACTTTCTGGGACACTCGATAAT GTGGGATGGTAAGTTGGGTCTTAGTCGGCAAAGCGAACAACGATTTAAGG AAAAGGTAAAGAAAGTCACCCGCAGAAACCGTGGTATCAGCCTTGAGCAG ATGGTCAAGGAGCTTAACAGGGTACTTCGGGGATGGCTTAATTACTTCAG GAGCGCAAAGATGCTAAGCAAGCTACAGCGGCTAAGCAGTTGGATACATC GTAGGATAAGATGTTTTCGGCTCAAACAATGTAAACGTGCAATAGGCATA ACGCGATTTCTGGTAAGCCTTGGACTACCGAAATGGCGCAGTTTACTTTT GGCAACCTCCCACAAGGGATGGTTCAGAAAAGCTGGAAGTCCGCAAGCCC ATGAAGGTATGAATAAGGAGTGGTTCCGACAGATCGGATTGTTCAATCTA GTTGAATATTATAGTTTAAACTTCAAAGAAACCGCCTAG >gid:1155063 MS163, putative HsdM of type I restriction-modification system ATGGCAAAAGCAGATATTGATTTTGAGAAAGAACTATGGGATGCAGCTAA CGAACTAAGGGGCGCCGTATCTGAGAATAACTACAAGAATTACATCCTTC CTCTGGTGTTTGTCAAGCACTTAAGTGAGCGCTATGAGATGGTGCACGAC GAACTGGACAACATGCTGCACGACCCCAAATCCGACTATTACACGACGGA CAATGAGGAGATCAGCTACGTACTGGAAGATCAGGATGAGTACCGATCTA GAAATACTTTTAAGATTCCCAAAACTGCCTCATGGCAGTACCTTAAGGAC AATGCCGAGCAGGACGACATCAAGGTCATCGTGGATGATGCTTTTGATGT CATGCAGGATTTGCTGACTGCGTATAATCCACAGCTCAATAACCTGCTTC CGAGGATATTTGTACGCAGTGAACTTTCAGCCAAACAAACAGGCGGGATT ATCAATCTGCTGTCACATCCCAAGTTTAGTGAAAAGGAGAATCCGGAGAG TGATATCCTCGGGCGCATCTATGAATACTACATTGGTCGCTTTGCTATGG CCGAAGGATCCGGCGCAGGTCAGTTCTTTACCCCGGGGAGTATTGTTCGT TTGTTAGTAGAACTTTTAGAGCCTTACAAAGGAAGGATTTTCGATCCGGC GTGTGGGAGTTGGGGTATGTTTGTCCAAAGTTTAAAATTTGTAAAAGAGC ATGGCGGAAACAAAAGCGATATCTCCATCTATGGCCAGGAGATGACGGCC CAGACGCTTCGGCTTTGTCTGATGAACCTCATGCTCCGTGAATTATCGTT TGATATTAAGCTGGGCAACTCGCTGCTCGATGATAAATTTCCTGATCTCA AGGTCGACTTTATCATAGCCAATCCCCCCTTTAACGTGAGTAACTGGCAC CCGGAAGACTTACCGGAGGGAGATCCAAGGCTTTTCGGCCCAAAGGAAGA ATTTACAACAGACGGTAATGCCAACTACATGTGGATGCAAACCTTCTGGC ACCATTTGAGTGATACAGGTACTGCCGGTATTGTGATGGCGAATGGTGCG ATGACCTCCAACACCAAAGGAGAGAAAAGCGCACGATAG >gid:1155060 MS160, putative transposase ATGCCAATATCCGTGGAGCCGGCTATTACCAATGAAATTTTTAAAACCAA TAAGTATATGAACAACACACAGACATGTGAAAAACTACGTGCCATGAGGC TACAAGCCATGGCTGAGCTACATGAGCAATACCTTGCTTCTAATCAAAAC GCTTCGGTGACTACAGACGAATACCTTGCCTTACTCACCGACCATCAATG GGAAGCCCGACAGCATCAAAAATCAAGTAGGTTACTCAAACAAGCACACT TTAAACAACGAATAAGTCTGGAGGAGATCAATTATGCACAGCAACGTAAT CTGGATAAAAACATGTTCCAGCGACTGGCTACACTTGATTTTATAGCTAA AAAAGAAAACCTAATCATTACAGGACCTTCCGGGTTGGGTAAAAGCTTTA TGAGCCAAGCATTAGGTCATCAGGCTTGTATGGAAGAATACAAAGTGCTC TATCAGAATACCGGCAGAATGCTCAAAAAACTTAAACTCGCCAAAGTAGA CGGCACCTACCTGAAAGAACTCAGGAAAATCAATCATGTACACTTGCTAA TACTTGACGACTTTGGACTACAAGCCATGGATAATCAGGCAAGAGAAACG ATGCTAGACATTATAGACGAAAGATACCAACAACAATCCACCATCATTAC TTCTCAAATACCAGTTTCTGCATGGTATGATGTTATTGGAGAAGGCACCA TTGCTGATGCCATCCTGGATAGACTAGTCAACTCGTCGCACCGCATTGAC TTGAAAGGAGAATCAATGAGAAAACTAAAAGTGCTTTAA >gid:1155002 MS102, putative replicative DNA helicase ATGAAATCTGGTAGTACAAGGGATATAAAAGATCAAAAGATAGATCTTAC AAGTCTGGTGTATAATCCACAGGTGCTTCCAAAGCATTTTGAAGTTGTTA TAGAGGGAGAGCAGCAGGTTCTAGGAGAGTTGTTAATGATCCATAATGCC TATTATGAAGTGGACGATGTAATGAAGTCACACTTTTTTTATCAGAAAAG GCACCAGATATTATTCGAAGCTATTGAAGCCATGCATGGGAAGGCGATTG AGGTGGATCTTAAAAGTGCTGTTCACTACCTCAGAAGCATTGACAAACTG GACGATGCCGGTGGAGCTGCTTATTTAGCTGATCTTGTTGCAAAGGCTAC AGGCAATATCAACAGATATGTTCATGGAATAATTAGAGAAGAGTACTTGC GTCGGAAAGTAATAGAAATCTGTGCGCGGGCTGTCAATACCTCAAAAGAT CCTGCAAATGAAATATTCGATGTATTGGATAGGATCGAGGATGAAACTAA TAAATTACATCATGAGCTGCAGCCAGGTACAGTCAAGGACTTGAAGCAAG AAGTTATTTCTTTGATTGATAATTTAGGAAAAAATCTGGCTAAAAATAAT GAATTTACAGGGATACCGTCCGGTTTCATCCGACTTGATCGTTTGACTCA GGGCTGGCAGAAAAGCGATTTGATTATTATAGCTGCCAGACCTGGTATGG GAAAGACTTCTCTAGTGGTCACCATGATGCTTAATTCTGCTATTCATTTC AAGAAGCCTGCCGTGCTGTTTTCTCTAGAGATGTCTACTCGACAGATACT TCAACGAATGATATCTAATCTTGGACAGGTAGATATGGACAATTGGAAAA AAAGAGGAGTAGACTTTCATTCTCAAGCTGAAAAAGAACATTTTCAAGAA GAAGTGGCTAAATGGGGTTCTGTTATTACAGAAAGCGAGTCGTTACATAT TGATGATACGCCTTCTATAGCATTAAATGAGTTACGCAATAGGGCGAAGA GGCTGGTTAGAGAAAAGGGCGTAGAGCTTATTGTAGTAGATTATCTTCAG TTAATGAAAGATTCCGGAGAAACGAACCGTACCGATAATCGTGAACAAGT AATTTCAGCTATCTCAAGGGGATTAAAAGCTTTGGCTAAAGAACTGGACG TGCCGGTAATAGCGCTTTCACAGCTCAGCAGAGCAGTAGAGACTAGGGGA GGGGACAAGCGTCCGATTCTTTCAGACTTACGTGAATCAGGCTCCATCGA ACAAGATGCTGATGTTGTAATGTTTATCTATCGTCCGGAATATTATGGAA TTACTATGGATGAAATGGGTAATTCTACATTGGGGCAGGCTGAGTTTATT GTGGCAAAGCACAGAAATGGAAGTTTGGATAACATTAAATCAAGGTATAT AGGTGAATATGTGAAATTTCAAGATCCTTGA >gid:1155056 MS156, putative transposase GTGGGTAATTCAAATTTAGTCTTTAAAGATTACACCCCATCACAAGTGAT GCTACTTCCTCCATCCCTGGAGGAATTAATAGAAGAAAATCATCCAGTGC GGGTGGTTAATGCTGTAATCGACCAAATCAGTGTGGAACCTTTATTGAAG CAGTATAAGCCTGGTGGTACTTCCGTTTACCACCCCAGGATGTTGCTAAA AGTACTTGTTTACGGATATCTGACCAATATTTATTCGTCCAGAAAGCTTG AAGCAGCTTTAAAGGAAAACATCCACATGATGTGGCTTGCAGCCATGAAT CGTCCAGATCATAATACAATTGCCCGATTCAGAAGTGAGCGACTTAAAGA TGCCTTGAGGCAAGTATTCGGTCAGGTTGTTGAGTTATTGGTTGAAGAGG GACTGGTAAGTATCAAAAACATCTACACCGATGGCACCAAAATAGAAGCC AACGCTAATAAATACACTTTTGTCTGGGGACGTGCTATCCAAACCAGCAG AGAGCGCATAGCCAAGCAGCTAGATGAGCTTTGGGATTACACACAGAGGC TAGCAGAAGAGGAGTTATTCAGTGAAGAAAAGCCTGACTTTAAAGAGATA GACAAGGAAAAAGTCAGTCAGACTATAGAGAGGATAGACAAAGCACTGGA AGACAAGCCTGTCAGCAAGAAAGTCAAACAAAAGCTCAACTATGCTAAAA AGAACTGGCCAGCTAAGCTAGAAGAGTATGCTGAAAAGGAAGCCATCATG GGTGAAAACAGGAATAGCTACTCCAAAACAGACCATGGAGCCACTTTCAT GAGAATGAAAGAGGATCACATGCTCAATGGCCAGCTCAAGCCAGGCTATA ACCTTCAAATCAGCACCTCAGACCAGTTCATTGTCAACTACAGTATCCAC CAAAACCCTACAGATACACTTACTCTCAAACCACACCTTCAGCAGTATCA AAACCTTTACAAAACCAACCCTGAATCGATCTGTGCAGATGCAGGATATG GCAGTGAAGAAAACTACGACTATCTGGAAGAACAAACAATAGAATCCTAT GTGAAGTACAATTACTTCCACAAGGAGCAGTCAAAGAAATGGAAGGAAAA CCCCTTCAGAACAGACAATCTGCATTATAACGAAGAGCAGGACAAGCTAT ACTGTCCAATGGGGCAACCGATGGATCGGATAGCTGATCGAAAATCAGAA TCATCGGCAGGTTATAAACAAACTTATGCACGATATCAGGCTAAAAACTG TAATGGATGCTCCTTGAGAGGCTCTTGTCATAAGAGTAAAGGCAATCGTA TTGTAGAAATCAATCATAATCTGCGGCGACATAAGCAGAAAGTGAGGCAA AACTTATTCTCTGAACAAGGATTAGCTCATAGAGCCAAAAGACCTTGGGA TGTAGAGGCTGTCTTTGCAGCCATCAAACACAATCGAGGCTTCCGAAGGT TTATGCTTAAAGGCATCGATAAGGTAGAAATAGAGGTAGGATTACTCGCT ATTGCTCAAAATCTGGCCAAGAAGGCCGCTTGA