Detailed information
Bioinformatically predicted
Overview
| Name | addA | Type | Machinery gene |
| Locus tag | LGQ02_RS10535 | Genome accession | NZ_CP084703 |
| Coordinates | 2130973..2134701 (+) | Length | 1242 a.a. |
| NCBI ID | WP_226518102.1 | Uniprot ID | - |
| Organism | Bacillus shivajii strain JCM 32183 | ||
| Function | homologous recombination; plasmid transformation (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 2125973..2139701
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| LGQ02_RS10525 (LGQ02_10525) | - | 2126856..2127005 (+) | 150 | WP_226518100.1 | hypothetical protein | - |
| LGQ02_RS10530 (LGQ02_10530) | addB | 2127474..2130983 (+) | 3510 | WP_226518101.1 | helicase-exonuclease AddAB subunit AddB | - |
| LGQ02_RS10535 (LGQ02_10535) | addA | 2130973..2134701 (+) | 3729 | WP_226518102.1 | helicase-exonuclease AddAB subunit AddA | Machinery gene |
| LGQ02_RS10540 (LGQ02_10540) | - | 2134704..2135876 (+) | 1173 | WP_226518103.1 | exonuclease SbcCD subunit D | - |
| LGQ02_RS10545 (LGQ02_10545) | - | 2135873..2139256 (+) | 3384 | WP_226518104.1 | AAA family ATPase | - |
Sequence
Protein
Download Length: 1242 a.a. Molecular weight: 143776.10 Da Isoelectric Point: 4.6881
>NTDB_id=612542 LGQ02_RS10535 WP_226518102.1 2130973..2134701(+) (addA) [Bacillus shivajii strain JCM 32183]
MNVNPKPLDVTWTDDQWKAIDARGNNILVAAAAGSGKTAVLVERIIRTIVDHQADVDRLLIVTFTNAAAAEMRTRIGEAI
EKELKKDPGSLHLRRQLTLLNRANISTLHSFCMKVLKKYYFEVEIDPNFRLLDETEGELIREEVIDDLFEEEYGKENNHE
FYAVVDRYSGDRSDDALRNLIRKLYNFSRSNPNPNQWLDELVHAYNLDDVGSMEELIWTKELFFDIHQQLEGAEAWIQKG
MELTKEPAGPYKYAENFEEDLKVLYTLRQCKTWSEMYEAFQQAKFGRLKSIPKKDHVDENLKERAKKYRDTTKKVVEAIQ
KDYFSKEPEAFMHELKEMAPTVETTVRLVKEFAKRYMDAKKEKAVLDFNDLEHLCLQVLLDADGNELKPSKAALEFKDHF
VEVLIDEYQDTNLVQETILYLLAKENNRFMVGDVKQSIYRFRLAEPSLFLDKYKTYVKSGDGDGWRIDLSKNFRSRSEIL
DATNFIFRQIMDESVGEIPYDTDAELHLGNLDYPEQEGLEAELAVINKGDPLEVKDPQDESQSLEEDLETSQLETRYIIQ
QVKKLVKEQHLVYDKSIKGQRPITYRDIVILMRSMPWASTMMEECKKEGIPVYADLSTGYFSAIEVQIVMSLLKIIDNPY
QDIPLASVLRSPIVGFNEQELAHIRMMKKEVSYYDALKTTAEESPEDEIKEKAADFLEKLTNWRTNARSGALFELIWQIY
RETGYFDYVGGMPGGKQRQANLRALYDRARSYESTSFRGLFRFLRFIERMQERGDDLGTARALGEQEDVVRIMTIHKSKG
LEFPVVFVAGMNKKFNLQDMSASYLLHKELGFGTKFIDPKLRVAYPSIPQLAIKKRMHLESLAEEMRVLYVALTRAKEKL
YLVGTVQNAEKSLENWQDLLGEDDWLLPAMDRQRGKTFMDWVGPAVLRHGSSSCYHGPGGVICENEVAEDASKWSMDIIE
RDTLQVEEKTEVEIQEDKLHKLYYLEPVEGAANESWVDEKLNWQYDRIQASIHRSKQTVSEMKRELEDEYSDVMFGVSKS
FQSAYADRPQFLQEKGLSSTEIGTVMHTVMQHVPLTEPPTTEKIDRLLVGMYEKELLTRDQVEAVDVNHVIEFFNTDIGE
RMLNAKWVEREIPFSYGLPAVEAYQTWEEDEHTDGEKVLIQGVIDCIFEDENGKIILVDYKTDKITGKYKSFEDAKEALL
GRYELQLSIYSGALEEIWKRDIDESILYFFDGGHVLNLEEGV
MNVNPKPLDVTWTDDQWKAIDARGNNILVAAAAGSGKTAVLVERIIRTIVDHQADVDRLLIVTFTNAAAAEMRTRIGEAI
EKELKKDPGSLHLRRQLTLLNRANISTLHSFCMKVLKKYYFEVEIDPNFRLLDETEGELIREEVIDDLFEEEYGKENNHE
FYAVVDRYSGDRSDDALRNLIRKLYNFSRSNPNPNQWLDELVHAYNLDDVGSMEELIWTKELFFDIHQQLEGAEAWIQKG
MELTKEPAGPYKYAENFEEDLKVLYTLRQCKTWSEMYEAFQQAKFGRLKSIPKKDHVDENLKERAKKYRDTTKKVVEAIQ
KDYFSKEPEAFMHELKEMAPTVETTVRLVKEFAKRYMDAKKEKAVLDFNDLEHLCLQVLLDADGNELKPSKAALEFKDHF
VEVLIDEYQDTNLVQETILYLLAKENNRFMVGDVKQSIYRFRLAEPSLFLDKYKTYVKSGDGDGWRIDLSKNFRSRSEIL
DATNFIFRQIMDESVGEIPYDTDAELHLGNLDYPEQEGLEAELAVINKGDPLEVKDPQDESQSLEEDLETSQLETRYIIQ
QVKKLVKEQHLVYDKSIKGQRPITYRDIVILMRSMPWASTMMEECKKEGIPVYADLSTGYFSAIEVQIVMSLLKIIDNPY
QDIPLASVLRSPIVGFNEQELAHIRMMKKEVSYYDALKTTAEESPEDEIKEKAADFLEKLTNWRTNARSGALFELIWQIY
RETGYFDYVGGMPGGKQRQANLRALYDRARSYESTSFRGLFRFLRFIERMQERGDDLGTARALGEQEDVVRIMTIHKSKG
LEFPVVFVAGMNKKFNLQDMSASYLLHKELGFGTKFIDPKLRVAYPSIPQLAIKKRMHLESLAEEMRVLYVALTRAKEKL
YLVGTVQNAEKSLENWQDLLGEDDWLLPAMDRQRGKTFMDWVGPAVLRHGSSSCYHGPGGVICENEVAEDASKWSMDIIE
RDTLQVEEKTEVEIQEDKLHKLYYLEPVEGAANESWVDEKLNWQYDRIQASIHRSKQTVSEMKRELEDEYSDVMFGVSKS
FQSAYADRPQFLQEKGLSSTEIGTVMHTVMQHVPLTEPPTTEKIDRLLVGMYEKELLTRDQVEAVDVNHVIEFFNTDIGE
RMLNAKWVEREIPFSYGLPAVEAYQTWEEDEHTDGEKVLIQGVIDCIFEDENGKIILVDYKTDKITGKYKSFEDAKEALL
GRYELQLSIYSGALEEIWKRDIDESILYFFDGGHVLNLEEGV
Nucleotide
Download Length: 3729 bp
>NTDB_id=612542 LGQ02_RS10535 WP_226518102.1 2130973..2134701(+) (addA) [Bacillus shivajii strain JCM 32183]
ATGAACGTTAATCCTAAACCTCTTGATGTGACATGGACCGATGATCAATGGAAAGCAATCGATGCAAGAGGAAACAACAT
TTTAGTTGCAGCCGCAGCGGGAAGCGGGAAGACAGCCGTTTTAGTAGAAAGAATTATCCGTACGATCGTGGATCATCAAG
CTGATGTCGACCGCTTACTAATCGTGACGTTCACAAACGCAGCAGCGGCTGAAATGAGGACAAGAATTGGTGAAGCGATT
GAAAAAGAATTAAAAAAAGATCCCGGTTCCCTACACCTGCGTAGACAATTAACGTTATTAAACCGTGCGAACATCTCAAC
CCTTCATTCGTTTTGTATGAAAGTGTTGAAGAAGTATTACTTTGAAGTTGAAATTGATCCGAACTTTCGTCTCCTAGATG
AAACAGAAGGGGAACTCATCCGTGAAGAAGTGATCGACGACCTTTTTGAAGAGGAGTACGGAAAGGAAAATAATCACGAG
TTTTATGCTGTTGTTGATCGGTATAGTGGAGACCGAAGTGATGATGCGCTTCGAAATTTAATTCGAAAGCTATATAACTT
CTCTCGCTCCAACCCGAATCCAAATCAATGGTTAGATGAGCTCGTTCATGCATACAACTTAGATGATGTAGGAAGCATGG
AAGAGTTAATTTGGACAAAAGAGCTATTTTTTGACATCCATCAGCAATTAGAAGGTGCGGAAGCATGGATTCAAAAAGGG
ATGGAACTGACGAAAGAGCCAGCTGGACCGTATAAGTACGCGGAAAACTTTGAAGAAGATTTAAAAGTTCTTTATACGCT
CCGCCAATGTAAAACGTGGAGCGAAATGTATGAAGCGTTCCAACAAGCGAAGTTTGGCCGCTTAAAATCGATTCCGAAAA
AAGACCATGTTGATGAGAACCTAAAGGAACGTGCGAAAAAATATCGCGATACGACGAAAAAGGTCGTTGAAGCGATTCAA
AAAGATTACTTTTCAAAAGAACCTGAAGCGTTCATGCATGAATTAAAAGAAATGGCACCAACCGTTGAAACGACTGTTCG
GTTAGTGAAAGAGTTCGCTAAAAGGTATATGGACGCGAAAAAAGAGAAAGCTGTCCTCGATTTTAACGACCTTGAGCACC
TTTGTTTACAAGTGTTGCTCGACGCTGATGGTAATGAATTAAAACCGTCAAAAGCCGCGTTAGAATTTAAAGATCACTTT
GTTGAAGTGTTGATTGACGAGTATCAAGATACGAACCTCGTCCAAGAAACGATTCTTTATTTATTAGCAAAAGAAAATAA
CCGCTTTATGGTTGGGGACGTAAAGCAAAGTATTTATCGTTTCCGTTTAGCAGAACCATCGTTATTCCTAGATAAGTACA
AAACGTACGTAAAGTCTGGTGATGGAGATGGCTGGCGTATTGACTTATCGAAAAACTTTCGAAGCCGTAGCGAAATATTA
GATGCAACAAACTTTATTTTTCGCCAAATCATGGATGAATCTGTAGGAGAAATCCCATATGATACCGATGCTGAGCTTCA
TTTAGGGAACTTAGATTATCCAGAGCAAGAAGGGCTTGAAGCAGAGCTTGCCGTCATTAATAAAGGGGATCCGTTAGAAG
TAAAAGACCCACAAGATGAGTCACAATCATTAGAAGAAGATTTAGAAACATCCCAGCTTGAAACGAGATACATCATTCAA
CAAGTGAAAAAGCTCGTGAAAGAACAACATCTTGTTTATGACAAAAGTATAAAAGGGCAGCGCCCAATCACGTACCGTGA
CATCGTTATTTTAATGCGTTCAATGCCATGGGCCTCGACCATGATGGAAGAGTGTAAAAAAGAAGGCATTCCTGTATACG
CGGATCTATCAACAGGTTACTTTAGTGCGATTGAAGTGCAAATTGTCATGTCGCTTTTAAAAATCATTGATAATCCGTAT
CAAGATATTCCGCTCGCATCTGTATTACGCTCACCAATTGTCGGCTTTAATGAGCAAGAGCTTGCGCACATTCGTATGAT
GAAGAAAGAAGTATCCTATTATGATGCGTTAAAAACGACAGCGGAAGAATCGCCAGAAGACGAGATCAAAGAAAAGGCAG
CGGACTTCTTAGAAAAATTAACGAACTGGCGAACGAATGCTAGATCAGGTGCACTGTTTGAACTCATTTGGCAAATTTAC
CGTGAAACAGGTTACTTTGACTATGTCGGTGGGATGCCTGGAGGTAAGCAGCGTCAAGCGAACCTCCGTGCGTTATATGA
CCGTGCTCGATCCTATGAATCGACGTCGTTCCGCGGTTTGTTCCGTTTCCTTCGTTTTATTGAGCGAATGCAAGAGCGTG
GTGATGATTTAGGTACGGCACGAGCATTAGGGGAACAAGAAGATGTCGTGCGCATTATGACGATTCATAAAAGTAAAGGT
CTGGAATTCCCCGTCGTGTTTGTTGCGGGAATGAACAAAAAGTTTAATTTACAAGACATGAGTGCGTCTTATTTACTTCA
TAAAGAGTTAGGTTTCGGCACAAAGTTCATCGATCCAAAGTTACGTGTCGCTTACCCAAGCATTCCGCAACTTGCGATTA
AAAAGCGTATGCATTTAGAAAGCTTAGCAGAAGAAATGCGTGTCTTATATGTAGCGCTCACTCGTGCGAAAGAGAAGCTC
TATTTAGTCGGAACGGTTCAAAATGCTGAAAAGTCATTAGAGAACTGGCAAGACTTACTCGGGGAAGATGACTGGCTTTT
ACCTGCAATGGACAGGCAGCGTGGTAAAACATTTATGGACTGGGTTGGACCTGCTGTTTTAAGGCACGGCTCATCAAGCT
GTTATCACGGCCCAGGTGGTGTCATCTGTGAAAATGAGGTGGCTGAAGACGCGTCAAAATGGTCGATGGATATTATTGAA
CGAGACACGTTACAAGTCGAAGAAAAAACAGAAGTAGAAATACAAGAAGATAAGCTTCATAAGTTATATTATCTAGAACC
TGTTGAAGGTGCAGCAAATGAAAGCTGGGTTGATGAAAAGCTAAATTGGCAATATGACCGTATTCAAGCGTCGATTCACC
GTTCAAAACAAACGGTTAGTGAAATGAAGCGTGAGTTAGAAGATGAGTATAGTGATGTCATGTTCGGCGTTTCGAAATCG
TTTCAATCTGCGTATGCGGACAGACCTCAGTTTTTACAAGAAAAAGGTTTAAGTTCAACAGAAATTGGAACCGTCATGCA
TACTGTTATGCAGCATGTCCCATTAACTGAGCCACCGACCACGGAAAAAATCGATCGCTTATTAGTTGGGATGTATGAAA
AAGAATTGTTAACGAGAGATCAAGTCGAAGCTGTTGATGTGAACCATGTCATTGAGTTTTTCAATACAGATATCGGCGAG
AGAATGTTAAATGCGAAATGGGTGGAGCGTGAAATTCCATTTAGTTACGGACTTCCGGCTGTTGAAGCTTACCAAACGTG
GGAAGAAGACGAGCATACTGATGGGGAGAAAGTTCTCATCCAAGGGGTCATTGACTGTATTTTTGAAGATGAAAATGGCA
AGATCATCTTAGTTGATTACAAAACAGACAAGATTACTGGGAAGTATAAAAGTTTTGAAGATGCGAAGGAAGCACTTCTC
GGCAGATATGAACTCCAACTATCGATTTATTCCGGGGCGCTTGAAGAAATTTGGAAGCGTGATATCGATGAATCGATTCT
TTATTTCTTTGATGGTGGCCATGTCTTGAATTTGGAAGAAGGTGTGTAA
ATGAACGTTAATCCTAAACCTCTTGATGTGACATGGACCGATGATCAATGGAAAGCAATCGATGCAAGAGGAAACAACAT
TTTAGTTGCAGCCGCAGCGGGAAGCGGGAAGACAGCCGTTTTAGTAGAAAGAATTATCCGTACGATCGTGGATCATCAAG
CTGATGTCGACCGCTTACTAATCGTGACGTTCACAAACGCAGCAGCGGCTGAAATGAGGACAAGAATTGGTGAAGCGATT
GAAAAAGAATTAAAAAAAGATCCCGGTTCCCTACACCTGCGTAGACAATTAACGTTATTAAACCGTGCGAACATCTCAAC
CCTTCATTCGTTTTGTATGAAAGTGTTGAAGAAGTATTACTTTGAAGTTGAAATTGATCCGAACTTTCGTCTCCTAGATG
AAACAGAAGGGGAACTCATCCGTGAAGAAGTGATCGACGACCTTTTTGAAGAGGAGTACGGAAAGGAAAATAATCACGAG
TTTTATGCTGTTGTTGATCGGTATAGTGGAGACCGAAGTGATGATGCGCTTCGAAATTTAATTCGAAAGCTATATAACTT
CTCTCGCTCCAACCCGAATCCAAATCAATGGTTAGATGAGCTCGTTCATGCATACAACTTAGATGATGTAGGAAGCATGG
AAGAGTTAATTTGGACAAAAGAGCTATTTTTTGACATCCATCAGCAATTAGAAGGTGCGGAAGCATGGATTCAAAAAGGG
ATGGAACTGACGAAAGAGCCAGCTGGACCGTATAAGTACGCGGAAAACTTTGAAGAAGATTTAAAAGTTCTTTATACGCT
CCGCCAATGTAAAACGTGGAGCGAAATGTATGAAGCGTTCCAACAAGCGAAGTTTGGCCGCTTAAAATCGATTCCGAAAA
AAGACCATGTTGATGAGAACCTAAAGGAACGTGCGAAAAAATATCGCGATACGACGAAAAAGGTCGTTGAAGCGATTCAA
AAAGATTACTTTTCAAAAGAACCTGAAGCGTTCATGCATGAATTAAAAGAAATGGCACCAACCGTTGAAACGACTGTTCG
GTTAGTGAAAGAGTTCGCTAAAAGGTATATGGACGCGAAAAAAGAGAAAGCTGTCCTCGATTTTAACGACCTTGAGCACC
TTTGTTTACAAGTGTTGCTCGACGCTGATGGTAATGAATTAAAACCGTCAAAAGCCGCGTTAGAATTTAAAGATCACTTT
GTTGAAGTGTTGATTGACGAGTATCAAGATACGAACCTCGTCCAAGAAACGATTCTTTATTTATTAGCAAAAGAAAATAA
CCGCTTTATGGTTGGGGACGTAAAGCAAAGTATTTATCGTTTCCGTTTAGCAGAACCATCGTTATTCCTAGATAAGTACA
AAACGTACGTAAAGTCTGGTGATGGAGATGGCTGGCGTATTGACTTATCGAAAAACTTTCGAAGCCGTAGCGAAATATTA
GATGCAACAAACTTTATTTTTCGCCAAATCATGGATGAATCTGTAGGAGAAATCCCATATGATACCGATGCTGAGCTTCA
TTTAGGGAACTTAGATTATCCAGAGCAAGAAGGGCTTGAAGCAGAGCTTGCCGTCATTAATAAAGGGGATCCGTTAGAAG
TAAAAGACCCACAAGATGAGTCACAATCATTAGAAGAAGATTTAGAAACATCCCAGCTTGAAACGAGATACATCATTCAA
CAAGTGAAAAAGCTCGTGAAAGAACAACATCTTGTTTATGACAAAAGTATAAAAGGGCAGCGCCCAATCACGTACCGTGA
CATCGTTATTTTAATGCGTTCAATGCCATGGGCCTCGACCATGATGGAAGAGTGTAAAAAAGAAGGCATTCCTGTATACG
CGGATCTATCAACAGGTTACTTTAGTGCGATTGAAGTGCAAATTGTCATGTCGCTTTTAAAAATCATTGATAATCCGTAT
CAAGATATTCCGCTCGCATCTGTATTACGCTCACCAATTGTCGGCTTTAATGAGCAAGAGCTTGCGCACATTCGTATGAT
GAAGAAAGAAGTATCCTATTATGATGCGTTAAAAACGACAGCGGAAGAATCGCCAGAAGACGAGATCAAAGAAAAGGCAG
CGGACTTCTTAGAAAAATTAACGAACTGGCGAACGAATGCTAGATCAGGTGCACTGTTTGAACTCATTTGGCAAATTTAC
CGTGAAACAGGTTACTTTGACTATGTCGGTGGGATGCCTGGAGGTAAGCAGCGTCAAGCGAACCTCCGTGCGTTATATGA
CCGTGCTCGATCCTATGAATCGACGTCGTTCCGCGGTTTGTTCCGTTTCCTTCGTTTTATTGAGCGAATGCAAGAGCGTG
GTGATGATTTAGGTACGGCACGAGCATTAGGGGAACAAGAAGATGTCGTGCGCATTATGACGATTCATAAAAGTAAAGGT
CTGGAATTCCCCGTCGTGTTTGTTGCGGGAATGAACAAAAAGTTTAATTTACAAGACATGAGTGCGTCTTATTTACTTCA
TAAAGAGTTAGGTTTCGGCACAAAGTTCATCGATCCAAAGTTACGTGTCGCTTACCCAAGCATTCCGCAACTTGCGATTA
AAAAGCGTATGCATTTAGAAAGCTTAGCAGAAGAAATGCGTGTCTTATATGTAGCGCTCACTCGTGCGAAAGAGAAGCTC
TATTTAGTCGGAACGGTTCAAAATGCTGAAAAGTCATTAGAGAACTGGCAAGACTTACTCGGGGAAGATGACTGGCTTTT
ACCTGCAATGGACAGGCAGCGTGGTAAAACATTTATGGACTGGGTTGGACCTGCTGTTTTAAGGCACGGCTCATCAAGCT
GTTATCACGGCCCAGGTGGTGTCATCTGTGAAAATGAGGTGGCTGAAGACGCGTCAAAATGGTCGATGGATATTATTGAA
CGAGACACGTTACAAGTCGAAGAAAAAACAGAAGTAGAAATACAAGAAGATAAGCTTCATAAGTTATATTATCTAGAACC
TGTTGAAGGTGCAGCAAATGAAAGCTGGGTTGATGAAAAGCTAAATTGGCAATATGACCGTATTCAAGCGTCGATTCACC
GTTCAAAACAAACGGTTAGTGAAATGAAGCGTGAGTTAGAAGATGAGTATAGTGATGTCATGTTCGGCGTTTCGAAATCG
TTTCAATCTGCGTATGCGGACAGACCTCAGTTTTTACAAGAAAAAGGTTTAAGTTCAACAGAAATTGGAACCGTCATGCA
TACTGTTATGCAGCATGTCCCATTAACTGAGCCACCGACCACGGAAAAAATCGATCGCTTATTAGTTGGGATGTATGAAA
AAGAATTGTTAACGAGAGATCAAGTCGAAGCTGTTGATGTGAACCATGTCATTGAGTTTTTCAATACAGATATCGGCGAG
AGAATGTTAAATGCGAAATGGGTGGAGCGTGAAATTCCATTTAGTTACGGACTTCCGGCTGTTGAAGCTTACCAAACGTG
GGAAGAAGACGAGCATACTGATGGGGAGAAAGTTCTCATCCAAGGGGTCATTGACTGTATTTTTGAAGATGAAAATGGCA
AGATCATCTTAGTTGATTACAAAACAGACAAGATTACTGGGAAGTATAAAAGTTTTGAAGATGCGAAGGAAGCACTTCTC
GGCAGATATGAACTCCAACTATCGATTTATTCCGGGGCGCTTGAAGAAATTTGGAAGCGTGATATCGATGAATCGATTCT
TTATTTCTTTGATGGTGGCCATGTCTTGAATTTGGAAGAAGGTGTGTAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| addA | Bacillus subtilis subsp. subtilis str. 168 |
51.597 |
100 |
0.52 |