Detailed information
Bioinformatically predicted
Overview
| Name | recC | Type | Machinery gene |
| Locus tag | BWP33_RS03410 | Genome accession | NZ_CP019448 |
| Coordinates | 690931..694299 (+) | Length | 1122 a.a. |
| NCBI ID | WP_002642908.1 | Uniprot ID | V9H7P7 |
| Organism | Simonsiella muelleri ATCC 29453 | ||
| Function | homologous recombination (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 685931..699299
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| BWP33_RS03385 (BWP33_03395) | - | 686434..687249 (+) | 816 | WP_040629492.1 | hypothetical protein | - |
| BWP33_RS03390 (BWP33_03400) | lpdA | 687336..688769 (+) | 1434 | WP_002642912.1 | dihydrolipoyl dehydrogenase | - |
| BWP33_RS03395 (BWP33_03405) | - | 689131..689496 (+) | 366 | WP_002642911.1 | hypothetical protein | - |
| BWP33_RS03400 (BWP33_03410) | - | 689577..689783 (-) | 207 | WP_002642910.1 | (2Fe-2S)-binding protein | - |
| BWP33_RS03405 (BWP33_03415) | galU | 689967..690851 (+) | 885 | WP_002642909.1 | UTP--glucose-1-phosphate uridylyltransferase GalU | - |
| BWP33_RS03410 (BWP33_03420) | recC | 690931..694299 (+) | 3369 | WP_002642908.1 | exodeoxyribonuclease V subunit gamma | Machinery gene |
| BWP33_RS03415 (BWP33_03425) | - | 694459..695133 (-) | 675 | WP_002642907.1 | DnaA/Hda family protein | - |
| BWP33_RS03420 (BWP33_03430) | - | 695384..695908 (+) | 525 | WP_002642906.1 | Spy/CpxP family protein refolding chaperone | - |
| BWP33_RS03425 (BWP33_03435) | - | 696172..697095 (+) | 924 | WP_002642905.1 | OmpA family protein | - |
Sequence
Protein
Download Length: 1122 a.a. Molecular weight: 129248.78 Da Isoelectric Point: 5.0324
>NTDB_id=215861 BWP33_RS03410 WP_002642908.1 690931..694299(+) (recC) [Simonsiella muelleri ATCC 29453]
MLHLYQSNRLEDLAEMLATLHAVQPVPSSFAPEQIVVQSQGMRRFINQYLAKKQGIAANIQFSLPAGFSFRLMRETMPDT
PELNPFDTEVMRWRLLDLFQSDEFQQDEFQAARTVLHTYLQNGDYAAYQLAGQLADVFDQYLVYRPNWIETWHKGQLVDG
LSDEQIWQAPLWRYLDDGRQTAPHRVQLWYNLMNILDNPPDWLPERFFVFGIATLAPMYLELLIRLSKMREVHIFALNPS
AEYWGQVIEPSQILDKSEILDLSLQGHPLLASLGKQGRDFFDALAEADVAVDVSAYDDEYFSGSLLHQLQRDIQTQTLPE
NSQWREINQTDSENSLDYLKHHDRSIQIHSAHSPLRELQILKDQLLELLDKNPNWRPHDIAVLTPHIEPYAPYLQAVFGQ
ETGSGQALPYSLSDVKLSRQQPFLYALEQVLDLLTSRFEVDKLLGVLDNEIILQKFDLTKKDLPLIHDTVAKLNIHWGAN
SEQRAQFGDRQRLFTWQQGLERIVLGWMLPENTRQSLWQGMSPWYTRPDYLEILSKFVLLIRVLTKSQQKWQKPADVAIW
TERLRELVNQLFLPNDEDRDVIQKLEQSLSEWIAESELAHFHHNLSPEVVIQHIKRFLNQSDEAGFLRGGITFCGMVPMR
SLPFKVIALIGLNDGDFPRNTKAASFDLIAKHPKKGDRARRDDDRYLFLEALFSARDVLYLSFVGKDIRTDEVRAPSTLL
NELVDCVADMAGVSSGLLLSEWVVAHPLQAFSRQYFISNKSDNLIKSVNYNELISSRTDYADALNQPVKPLGDFFRQPEK
LIHQSDELIEQNSFIQFWRNPIRSYLRDSLNWQPPYLHMEWDAKEPFEPTKIRLLSDAYVLARRKNQSFEELAQELTAQS
LLPTGVLGKLVQRDFAAQAAMLDGELLHSPALAERSGMLHMESGSLNYRLNHLTQCGQMIYASQFLRESNEHGKLSASDK
IELILQHLIFCAATPDNQTQTENRQTYLIQLPDVLTFPAVSQDEALTILNIWIKYYKQGINSPLPFFPRVQLAAANKLFD
PKTGQLNREAAIKKAAEIYHKGYQGFAQEDYPEVKLVYGRNPDAEPPYLSDEFINLTIDLFENLQGSLKALEGKLENDEV
EQ
MLHLYQSNRLEDLAEMLATLHAVQPVPSSFAPEQIVVQSQGMRRFINQYLAKKQGIAANIQFSLPAGFSFRLMRETMPDT
PELNPFDTEVMRWRLLDLFQSDEFQQDEFQAARTVLHTYLQNGDYAAYQLAGQLADVFDQYLVYRPNWIETWHKGQLVDG
LSDEQIWQAPLWRYLDDGRQTAPHRVQLWYNLMNILDNPPDWLPERFFVFGIATLAPMYLELLIRLSKMREVHIFALNPS
AEYWGQVIEPSQILDKSEILDLSLQGHPLLASLGKQGRDFFDALAEADVAVDVSAYDDEYFSGSLLHQLQRDIQTQTLPE
NSQWREINQTDSENSLDYLKHHDRSIQIHSAHSPLRELQILKDQLLELLDKNPNWRPHDIAVLTPHIEPYAPYLQAVFGQ
ETGSGQALPYSLSDVKLSRQQPFLYALEQVLDLLTSRFEVDKLLGVLDNEIILQKFDLTKKDLPLIHDTVAKLNIHWGAN
SEQRAQFGDRQRLFTWQQGLERIVLGWMLPENTRQSLWQGMSPWYTRPDYLEILSKFVLLIRVLTKSQQKWQKPADVAIW
TERLRELVNQLFLPNDEDRDVIQKLEQSLSEWIAESELAHFHHNLSPEVVIQHIKRFLNQSDEAGFLRGGITFCGMVPMR
SLPFKVIALIGLNDGDFPRNTKAASFDLIAKHPKKGDRARRDDDRYLFLEALFSARDVLYLSFVGKDIRTDEVRAPSTLL
NELVDCVADMAGVSSGLLLSEWVVAHPLQAFSRQYFISNKSDNLIKSVNYNELISSRTDYADALNQPVKPLGDFFRQPEK
LIHQSDELIEQNSFIQFWRNPIRSYLRDSLNWQPPYLHMEWDAKEPFEPTKIRLLSDAYVLARRKNQSFEELAQELTAQS
LLPTGVLGKLVQRDFAAQAAMLDGELLHSPALAERSGMLHMESGSLNYRLNHLTQCGQMIYASQFLRESNEHGKLSASDK
IELILQHLIFCAATPDNQTQTENRQTYLIQLPDVLTFPAVSQDEALTILNIWIKYYKQGINSPLPFFPRVQLAAANKLFD
PKTGQLNREAAIKKAAEIYHKGYQGFAQEDYPEVKLVYGRNPDAEPPYLSDEFINLTIDLFENLQGSLKALEGKLENDEV
EQ
Nucleotide
Download Length: 3369 bp
>NTDB_id=215861 BWP33_RS03410 WP_002642908.1 690931..694299(+) (recC) [Simonsiella muelleri ATCC 29453]
ATGTTACATTTATATCAATCCAATCGCTTAGAAGATTTGGCGGAAATGTTGGCAACTTTGCACGCCGTTCAGCCTGTGCC
ATCGTCTTTTGCGCCCGAGCAAATTGTGGTGCAAAGTCAAGGAATGCGCCGATTTATTAATCAATATTTAGCAAAAAAAC
AAGGAATTGCAGCAAATATTCAATTCAGCCTGCCTGCTGGATTCAGTTTCCGTTTGATGCGCGAGACCATGCCCGATACG
CCCGAATTGAATCCGTTTGATACGGAAGTGATGCGTTGGCGGTTGTTGGATTTGTTCCAATCTGATGAATTTCAACAAGA
TGAGTTTCAGGCAGCCCGAACAGTGTTGCACACTTATTTGCAAAATGGCGATTATGCGGCGTATCAATTAGCGGGGCAAC
TGGCGGACGTATTTGACCAATATTTGGTTTATCGCCCGAATTGGATTGAAACGTGGCACAAAGGGCAATTAGTAGATGGA
TTGTCAGATGAGCAAATTTGGCAAGCACCGCTTTGGCGATATTTGGACGATGGGCGACAAACTGCGCCTCATCGTGTTCA
ATTGTGGTATAACTTAATGAATATTTTGGATAATCCACCTGATTGGCTGCCTGAAAGATTTTTTGTCTTCGGTATTGCCA
CGCTTGCACCAATGTATCTAGAATTATTGATACGTTTGTCAAAAATGCGTGAAGTGCATATTTTCGCATTGAATCCAAGT
GCAGAGTATTGGGGTCAAGTTATTGAACCATCACAAATTTTAGATAAATCTGAAATTTTAGATTTAAGTTTACAAGGACA
TCCCTTGTTGGCATCACTTGGAAAACAAGGACGCGATTTTTTTGATGCGTTGGCGGAAGCTGATGTAGCGGTTGATGTGA
GTGCGTATGATGATGAATATTTTTCAGGCAGTCTTTTGCATCAATTGCAACGCGATATTCAAACACAAACGCTGCCTGAA
AACAGCCAATGGCGTGAAATCAATCAAACTGATTCTGAAAATTCATTGGATTATCTGAAGCATCATGATCGCAGTATTCA
AATTCACAGTGCGCACAGTCCCTTGCGTGAATTACAAATTTTAAAAGATCAATTGCTTGAATTATTAGATAAAAATCCAA
ATTGGCGACCGCACGATATCGCTGTTCTCACGCCACACATTGAGCCGTATGCACCATATTTGCAGGCGGTTTTTGGGCAG
GAAACGGGCAGTGGGCAGGCGTTGCCTTATTCGCTTTCGGACGTGAAATTGTCACGCCAGCAGCCGTTTTTGTATGCGTT
GGAGCAGGTGTTGGATTTGTTGACCAGTCGGTTTGAAGTGGATAAATTGTTGGGTGTTTTGGATAATGAAATTATTTTAC
AAAAGTTTGATTTAACAAAAAAAGATTTGCCATTAATCCACGATACCGTAGCCAAATTAAACATTCATTGGGGGGCGAAC
AGCGAACAACGCGCTCAATTTGGTGATAGACAGCGATTATTCACATGGCAACAAGGTTTGGAGCGTATTGTGTTGGGTTG
GATGCTGCCTGAAAACACGCGCCAATCTTTGTGGCAGGGCATGAGTCCGTGGTATACGCGCCCTGATTATTTGGAAATTT
TGAGTAAATTTGTTTTGTTAATCAGAGTGCTGACTAAATCTCAACAAAAATGGCAAAAGCCTGCCGATGTAGCCATATGG
ACGGAGCGTCTGCGTGAATTGGTTAATCAGTTGTTTTTACCCAATGACGAAGACCGTGATGTGATTCAGAAGTTAGAACA
ATCACTTAGTGAATGGATAGCAGAAAGTGAATTGGCGCATTTTCATCATAATTTATCGCCAGAAGTGGTAATTCAGCATA
TTAAACGATTTTTAAATCAATCAGATGAGGCAGGATTTTTACGTGGAGGCATCACGTTTTGTGGCATGGTGCCAATGAGG
TCTTTGCCGTTCAAAGTGATTGCGCTGATTGGTTTGAATGATGGTGATTTTCCACGTAATACGAAAGCTGCCAGTTTTGA
TTTGATTGCGAAACACCCGAAAAAAGGCGATCGTGCTAGGCGTGATGATGATAGATATTTGTTTTTAGAAGCTTTATTTT
CAGCACGGGACGTGTTGTATTTGTCGTTTGTTGGTAAAGATATTCGCACCGATGAAGTCCGCGCGCCTTCTACTTTATTG
AATGAGTTGGTGGATTGTGTGGCAGATATGGCGGGTGTGTCATCGGGGTTGTTGTTATCGGAATGGGTGGTTGCCCATCC
TTTGCAAGCATTTTCACGACAGTATTTTATATCTAATAAATCAGATAATTTAATTAAATCAGTAAATTATAATGAATTAA
TTAGCAGTAGAACCGATTATGCTGATGCCTTGAATCAACCAGTCAAACCATTAGGCGATTTTTTCAGGCAGCCTGAAAAG
TTAATTCATCAATCAGATGAATTAATTGAACAAAATTCTTTTATTCAATTTTGGCGTAATCCCATTCGCAGTTATTTGCG
TGATTCATTGAATTGGCAACCGCCCTATTTGCACATGGAGTGGGACGCGAAAGAACCTTTTGAACCTACTAAGATTCGTT
TATTATCTGATGCTTATGTTTTAGCCAGACGCAAGAACCAATCATTTGAAGAGTTGGCGCAAGAATTGACGGCACAAAGT
TTGTTGCCAACTGGTGTATTGGGTAAATTGGTGCAACGTGATTTTGCGGCACAAGCGGCGATGTTGGACGGCGAATTGCT
GCATAGTCCTGCTTTGGCTGAACGCAGTGGCATGCTGCACATGGAATCAGGCAGCCTGAATTATCGTTTGAATCATTTGA
CGCAATGCGGACAAATGATTTACGCCAGTCAATTTTTGCGTGAATCCAATGAACATGGTAAATTGTCTGCATCAGATAAA
ATTGAATTGATTTTACAACATCTTATATTTTGTGCTGCCACGCCTGACAATCAAACACAGACTGAAAATCGTCAAACTTA
TTTGATTCAATTGCCTGATGTTTTAACTTTCCCAGCCGTGTCGCAAGATGAAGCTTTAACAATTCTAAATATTTGGATAA
AATATTATAAACAAGGAATTAATTCGCCATTGCCATTTTTCCCACGTGTGCAGTTGGCGGCGGCGAACAAATTATTTGAC
CCCAAAACAGGTCAGTTGAATCGTGAAGCGGCGATTAAAAAAGCAGCTGAAATTTATCACAAAGGTTATCAAGGATTTGC
GCAAGAAGATTATCCTGAAGTTAAATTGGTGTATGGGCGTAATCCCGATGCTGAACCACCGTATTTATCCGATGAATTTA
TAAATTTAACAATTGATTTATTTGAAAATTTGCAAGGCAGCCTGAAAGCGTTAGAGGGTAAATTGGAAAATGATGAAGTG
GAGCAATAA
ATGTTACATTTATATCAATCCAATCGCTTAGAAGATTTGGCGGAAATGTTGGCAACTTTGCACGCCGTTCAGCCTGTGCC
ATCGTCTTTTGCGCCCGAGCAAATTGTGGTGCAAAGTCAAGGAATGCGCCGATTTATTAATCAATATTTAGCAAAAAAAC
AAGGAATTGCAGCAAATATTCAATTCAGCCTGCCTGCTGGATTCAGTTTCCGTTTGATGCGCGAGACCATGCCCGATACG
CCCGAATTGAATCCGTTTGATACGGAAGTGATGCGTTGGCGGTTGTTGGATTTGTTCCAATCTGATGAATTTCAACAAGA
TGAGTTTCAGGCAGCCCGAACAGTGTTGCACACTTATTTGCAAAATGGCGATTATGCGGCGTATCAATTAGCGGGGCAAC
TGGCGGACGTATTTGACCAATATTTGGTTTATCGCCCGAATTGGATTGAAACGTGGCACAAAGGGCAATTAGTAGATGGA
TTGTCAGATGAGCAAATTTGGCAAGCACCGCTTTGGCGATATTTGGACGATGGGCGACAAACTGCGCCTCATCGTGTTCA
ATTGTGGTATAACTTAATGAATATTTTGGATAATCCACCTGATTGGCTGCCTGAAAGATTTTTTGTCTTCGGTATTGCCA
CGCTTGCACCAATGTATCTAGAATTATTGATACGTTTGTCAAAAATGCGTGAAGTGCATATTTTCGCATTGAATCCAAGT
GCAGAGTATTGGGGTCAAGTTATTGAACCATCACAAATTTTAGATAAATCTGAAATTTTAGATTTAAGTTTACAAGGACA
TCCCTTGTTGGCATCACTTGGAAAACAAGGACGCGATTTTTTTGATGCGTTGGCGGAAGCTGATGTAGCGGTTGATGTGA
GTGCGTATGATGATGAATATTTTTCAGGCAGTCTTTTGCATCAATTGCAACGCGATATTCAAACACAAACGCTGCCTGAA
AACAGCCAATGGCGTGAAATCAATCAAACTGATTCTGAAAATTCATTGGATTATCTGAAGCATCATGATCGCAGTATTCA
AATTCACAGTGCGCACAGTCCCTTGCGTGAATTACAAATTTTAAAAGATCAATTGCTTGAATTATTAGATAAAAATCCAA
ATTGGCGACCGCACGATATCGCTGTTCTCACGCCACACATTGAGCCGTATGCACCATATTTGCAGGCGGTTTTTGGGCAG
GAAACGGGCAGTGGGCAGGCGTTGCCTTATTCGCTTTCGGACGTGAAATTGTCACGCCAGCAGCCGTTTTTGTATGCGTT
GGAGCAGGTGTTGGATTTGTTGACCAGTCGGTTTGAAGTGGATAAATTGTTGGGTGTTTTGGATAATGAAATTATTTTAC
AAAAGTTTGATTTAACAAAAAAAGATTTGCCATTAATCCACGATACCGTAGCCAAATTAAACATTCATTGGGGGGCGAAC
AGCGAACAACGCGCTCAATTTGGTGATAGACAGCGATTATTCACATGGCAACAAGGTTTGGAGCGTATTGTGTTGGGTTG
GATGCTGCCTGAAAACACGCGCCAATCTTTGTGGCAGGGCATGAGTCCGTGGTATACGCGCCCTGATTATTTGGAAATTT
TGAGTAAATTTGTTTTGTTAATCAGAGTGCTGACTAAATCTCAACAAAAATGGCAAAAGCCTGCCGATGTAGCCATATGG
ACGGAGCGTCTGCGTGAATTGGTTAATCAGTTGTTTTTACCCAATGACGAAGACCGTGATGTGATTCAGAAGTTAGAACA
ATCACTTAGTGAATGGATAGCAGAAAGTGAATTGGCGCATTTTCATCATAATTTATCGCCAGAAGTGGTAATTCAGCATA
TTAAACGATTTTTAAATCAATCAGATGAGGCAGGATTTTTACGTGGAGGCATCACGTTTTGTGGCATGGTGCCAATGAGG
TCTTTGCCGTTCAAAGTGATTGCGCTGATTGGTTTGAATGATGGTGATTTTCCACGTAATACGAAAGCTGCCAGTTTTGA
TTTGATTGCGAAACACCCGAAAAAAGGCGATCGTGCTAGGCGTGATGATGATAGATATTTGTTTTTAGAAGCTTTATTTT
CAGCACGGGACGTGTTGTATTTGTCGTTTGTTGGTAAAGATATTCGCACCGATGAAGTCCGCGCGCCTTCTACTTTATTG
AATGAGTTGGTGGATTGTGTGGCAGATATGGCGGGTGTGTCATCGGGGTTGTTGTTATCGGAATGGGTGGTTGCCCATCC
TTTGCAAGCATTTTCACGACAGTATTTTATATCTAATAAATCAGATAATTTAATTAAATCAGTAAATTATAATGAATTAA
TTAGCAGTAGAACCGATTATGCTGATGCCTTGAATCAACCAGTCAAACCATTAGGCGATTTTTTCAGGCAGCCTGAAAAG
TTAATTCATCAATCAGATGAATTAATTGAACAAAATTCTTTTATTCAATTTTGGCGTAATCCCATTCGCAGTTATTTGCG
TGATTCATTGAATTGGCAACCGCCCTATTTGCACATGGAGTGGGACGCGAAAGAACCTTTTGAACCTACTAAGATTCGTT
TATTATCTGATGCTTATGTTTTAGCCAGACGCAAGAACCAATCATTTGAAGAGTTGGCGCAAGAATTGACGGCACAAAGT
TTGTTGCCAACTGGTGTATTGGGTAAATTGGTGCAACGTGATTTTGCGGCACAAGCGGCGATGTTGGACGGCGAATTGCT
GCATAGTCCTGCTTTGGCTGAACGCAGTGGCATGCTGCACATGGAATCAGGCAGCCTGAATTATCGTTTGAATCATTTGA
CGCAATGCGGACAAATGATTTACGCCAGTCAATTTTTGCGTGAATCCAATGAACATGGTAAATTGTCTGCATCAGATAAA
ATTGAATTGATTTTACAACATCTTATATTTTGTGCTGCCACGCCTGACAATCAAACACAGACTGAAAATCGTCAAACTTA
TTTGATTCAATTGCCTGATGTTTTAACTTTCCCAGCCGTGTCGCAAGATGAAGCTTTAACAATTCTAAATATTTGGATAA
AATATTATAAACAAGGAATTAATTCGCCATTGCCATTTTTCCCACGTGTGCAGTTGGCGGCGGCGAACAAATTATTTGAC
CCCAAAACAGGTCAGTTGAATCGTGAAGCGGCGATTAAAAAAGCAGCTGAAATTTATCACAAAGGTTATCAAGGATTTGC
GCAAGAAGATTATCCTGAAGTTAAATTGGTGTATGGGCGTAATCCCGATGCTGAACCACCGTATTTATCCGATGAATTTA
TAAATTTAACAATTGATTTATTTGAAAATTTGCAAGGCAGCCTGAAAGCGTTAGAGGGTAAATTGGAAAATGATGAAGTG
GAGCAATAA
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| recC | Neisseria gonorrhoeae strain FA1090 |
50.045 |
98.841 |
0.495 |