Detailed information
Bioinformatically predicted
Overview
| Name | addB | Type | Machinery gene |
| Locus tag | NST15_RS05265 | Genome accession | NZ_CP151991 |
| Coordinates | 1037820..1041329 (+) | Length | 1169 a.a. |
| NCBI ID | WP_058213984.1 | Uniprot ID | - |
| Organism | Bacillus sp. FSL R5-0820 | ||
| Function | homologous recombination; plasmid transformation (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 1032820..1046329
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| NST15_RS05235 (NST15_05235) | lepB | 1033326..1033838 (+) | 513 | WP_007499139.1 | signal peptidase I | - |
| NST15_RS05240 (NST15_05240) | - | 1033874..1035016 (-) | 1143 | WP_017366972.1 | AbrB family transcriptional regulator | - |
| NST15_RS05245 (NST15_05245) | - | 1035293..1035715 (+) | 423 | WP_007499135.1 | BlaI/MecI/CopY family transcriptional regulator | - |
| NST15_RS05250 (NST15_05250) | - | 1035708..1036547 (+) | 840 | WP_035700187.1 | M56 family metallopeptidase | - |
| NST15_RS05255 (NST15_05255) | - | 1036605..1037015 (+) | 411 | WP_008348626.1 | DoxX family protein | - |
| NST15_RS05260 (NST15_05260) | - | 1037207..1037653 (-) | 447 | WP_058213983.1 | ferritin-like domain-containing protein | - |
| NST15_RS05265 (NST15_05265) | addB | 1037820..1041329 (+) | 3510 | WP_058213984.1 | helicase-exonuclease AddAB subunit AddB | Machinery gene |
| NST15_RS05270 (NST15_05270) | addA | 1041307..1045011 (+) | 3705 | WP_065460094.1 | helicase-exonuclease AddAB subunit AddA | Machinery gene |
| NST15_RS05275 (NST15_05275) | sbcD | 1045037..1046212 (+) | 1176 | WP_007499123.1 | exonuclease subunit SbcD | - |
Sequence
Protein
Download Length: 1169 a.a. Molecular weight: 134703.66 Da Isoelectric Point: 5.2762
>NTDB_id=983843 NST15_RS05265 WP_058213984.1 1037820..1041329(+) (addB) [Bacillus sp. FSL R5-0820]
MEIQFLAGRSGSGKTTAILEEIKEQLRLDPLGPPIIFLVPDQMTFLMEYELAKTSEAGGMIRAKVFSFTRLAWSILQQTG
GANRQFVTSTGIQMLLRKVIEEQKDKFKVFKKASDKPGFVEQIEKTMAEFKRYCMMPEDIEKISASSMHSEYTEERRAAE
KLHDLHVLYQQMEQHLQDEYVHSEDYLTLLAQQIPLSEELRGAHIYIDGFYQFTPQQLLVIEQLLLHAEKITAAFTVDRS
YHDTQPNELDLFRMTGKTYSQLYQLAKECGAAISENILERNKRHLHTPDLAYLENQYEQRPLQPYQEETPHLTVSKSANK
RAEIEGVARDILDLVRGEGLRLRDISIVARHVDDYKDTLKEVFRDYDIPFFIDGNESMQYHPLIEFIRSSLDVIKGNWRY
EAVFRCVKTEFLFPLELAKNKAREQADQLENYCIAYGVKGERWTNGSRFHYRRFQSLDEDFGQTDQEIEMEQMLNDVKEW
IVPPLFQLQKRLKKAQKLRDMVEAVYVFLEEAQVPEKLEKARIEAEEAGRLAEAMQHGQVWDAVIQLMDEFVEMLGEEEL
SFPLFQQMIDTGLSSLKFALIPPSLDQVFIGSMDLSRMYQVKCTFVIGVNDGVIPARPSDESVLSEDDREWLKRAGAELA
ETGKERLLDEQFLIYQALSSPSHYLYVSYSASDTEGRSLLPSTLIKYCEELMPNHQQALYVLDPEQLEDQEQLKFVTNEH
VSLSYTVSQLQQWLNQYRISGVWWSVYNHLMTSSNRDVSKKIMSSLFFTNRAKRLNPNVTKELYGDHIQGSVSRMEKFNA
CAFSHFASHGLKLKDRQFYKLEAPDIGQLFHSALKLISDTLVEQKKDWKNLTKEDCVTYSRHAIEQLAPRLQKEILLSSN
RHAYIKEKLQKILIRVSSILSEHAKVSGFSPVGLELGFGGQGPLPPFTFQLKNGCTMELVGRIDRVDKAEGSKGLLLRIV
DYKSSEKGLDLAEVYYGLALQMLTYLDLTITYSKEWLGMEATPAGILYFHIHDPLIQAPIPLAEDAIEQEILKKFKMKGL
LLEDVEAVKLMDQTLESGRSQVIQAGLKKDGSFRSDSAVLSEDHFHILTKHVRRTFEEAGERITSGEVEINPYKLKDQTP
CRFCSFKSICQFDESIEDNEFRVLTSEKDDVMLDRIKKEGDQYANTKTE
MEIQFLAGRSGSGKTTAILEEIKEQLRLDPLGPPIIFLVPDQMTFLMEYELAKTSEAGGMIRAKVFSFTRLAWSILQQTG
GANRQFVTSTGIQMLLRKVIEEQKDKFKVFKKASDKPGFVEQIEKTMAEFKRYCMMPEDIEKISASSMHSEYTEERRAAE
KLHDLHVLYQQMEQHLQDEYVHSEDYLTLLAQQIPLSEELRGAHIYIDGFYQFTPQQLLVIEQLLLHAEKITAAFTVDRS
YHDTQPNELDLFRMTGKTYSQLYQLAKECGAAISENILERNKRHLHTPDLAYLENQYEQRPLQPYQEETPHLTVSKSANK
RAEIEGVARDILDLVRGEGLRLRDISIVARHVDDYKDTLKEVFRDYDIPFFIDGNESMQYHPLIEFIRSSLDVIKGNWRY
EAVFRCVKTEFLFPLELAKNKAREQADQLENYCIAYGVKGERWTNGSRFHYRRFQSLDEDFGQTDQEIEMEQMLNDVKEW
IVPPLFQLQKRLKKAQKLRDMVEAVYVFLEEAQVPEKLEKARIEAEEAGRLAEAMQHGQVWDAVIQLMDEFVEMLGEEEL
SFPLFQQMIDTGLSSLKFALIPPSLDQVFIGSMDLSRMYQVKCTFVIGVNDGVIPARPSDESVLSEDDREWLKRAGAELA
ETGKERLLDEQFLIYQALSSPSHYLYVSYSASDTEGRSLLPSTLIKYCEELMPNHQQALYVLDPEQLEDQEQLKFVTNEH
VSLSYTVSQLQQWLNQYRISGVWWSVYNHLMTSSNRDVSKKIMSSLFFTNRAKRLNPNVTKELYGDHIQGSVSRMEKFNA
CAFSHFASHGLKLKDRQFYKLEAPDIGQLFHSALKLISDTLVEQKKDWKNLTKEDCVTYSRHAIEQLAPRLQKEILLSSN
RHAYIKEKLQKILIRVSSILSEHAKVSGFSPVGLELGFGGQGPLPPFTFQLKNGCTMELVGRIDRVDKAEGSKGLLLRIV
DYKSSEKGLDLAEVYYGLALQMLTYLDLTITYSKEWLGMEATPAGILYFHIHDPLIQAPIPLAEDAIEQEILKKFKMKGL
LLEDVEAVKLMDQTLESGRSQVIQAGLKKDGSFRSDSAVLSEDHFHILTKHVRRTFEEAGERITSGEVEINPYKLKDQTP
CRFCSFKSICQFDESIEDNEFRVLTSEKDDVMLDRIKKEGDQYANTKTE
Nucleotide
Download Length: 3510 bp
>NTDB_id=983843 NST15_RS05265 WP_058213984.1 1037820..1041329(+) (addB) [Bacillus sp. FSL R5-0820]
GTGGAGATTCAGTTTTTAGCAGGCAGATCGGGGAGTGGAAAAACGACTGCAATTCTAGAAGAAATCAAAGAACAACTGCG
GCTTGATCCGCTGGGTCCGCCAATCATTTTTTTAGTCCCGGATCAAATGACATTTTTAATGGAATATGAGCTTGCAAAAA
CGTCTGAAGCTGGTGGAATGATCAGGGCCAAAGTCTTTAGTTTTACTCGGCTTGCCTGGTCTATATTACAGCAGACTGGC
GGTGCGAACCGTCAATTTGTCACAAGCACAGGGATTCAAATGCTCTTAAGAAAAGTAATAGAAGAACAGAAAGACAAGTT
TAAGGTATTCAAAAAGGCGAGTGATAAACCGGGATTTGTTGAGCAAATAGAAAAGACGATGGCTGAATTCAAAAGGTACT
GTATGATGCCGGAGGATATTGAAAAAATCTCGGCATCCAGCATGCATTCAGAGTATACAGAAGAAAGACGTGCGGCGGAA
AAATTGCATGATCTTCATGTTCTTTATCAGCAGATGGAGCAGCATCTGCAAGATGAGTATGTGCACTCAGAGGATTACTT
GACACTTCTGGCTCAGCAAATTCCTTTATCAGAAGAATTGAGAGGGGCACACATTTATATAGATGGTTTTTATCAGTTTA
CCCCCCAGCAGCTTCTTGTCATTGAACAGCTTTTGCTACATGCCGAAAAAATAACAGCTGCATTCACAGTGGATCGTTCC
TATCATGACACGCAGCCAAATGAACTTGATTTATTTCGCATGACAGGTAAGACATATTCCCAGCTTTATCAGTTGGCCAA
AGAGTGCGGAGCGGCTATTTCTGAGAACATTTTGGAGAGAAATAAACGGCATCTTCATACCCCAGATCTAGCTTATTTAG
AAAATCAATATGAACAGAGACCTTTGCAGCCATATCAAGAAGAAACGCCTCACCTTACCGTATCGAAAAGTGCAAATAAA
CGAGCTGAAATTGAGGGAGTAGCGAGAGATATTCTTGATTTAGTAAGAGGTGAAGGTCTTAGGTTACGAGACATCTCAAT
TGTTGCAAGACATGTAGACGACTATAAAGATACGTTAAAAGAGGTGTTTCGAGATTACGATATTCCTTTCTTTATTGATG
GAAATGAATCGATGCAGTATCATCCGCTCATTGAGTTCATTCGTTCGAGCCTCGATGTCATAAAAGGGAACTGGCGGTAT
GAGGCGGTGTTTCGCTGTGTGAAAACGGAGTTCTTATTTCCGCTTGAACTCGCTAAAAACAAAGCAAGAGAACAGGCGGA
TCAGCTTGAAAACTATTGTATTGCTTACGGTGTAAAAGGTGAACGCTGGACGAATGGTTCACGCTTTCATTATCGCCGCT
TTCAATCATTAGATGAAGATTTTGGACAAACCGATCAAGAAATAGAAATGGAGCAAATGCTGAATGATGTAAAAGAATGG
ATTGTTCCGCCTCTCTTTCAATTGCAAAAAAGATTGAAAAAAGCGCAAAAGCTAAGAGACATGGTGGAGGCAGTGTATGT
CTTTCTAGAGGAAGCCCAAGTGCCAGAAAAGCTTGAAAAGGCAAGGATTGAGGCAGAAGAAGCAGGCAGGTTAGCTGAAG
CGATGCAGCATGGGCAAGTGTGGGATGCTGTCATTCAATTGATGGATGAATTTGTTGAAATGCTGGGCGAGGAGGAGCTC
TCATTTCCATTATTTCAACAGATGATAGATACAGGACTGTCCTCTCTCAAGTTCGCTTTGATTCCCCCTTCACTTGATCA
AGTGTTTATCGGAAGTATGGATTTATCCAGAATGTATCAAGTAAAGTGTACGTTTGTCATTGGAGTAAATGATGGGGTTA
TACCTGCACGACCCTCTGATGAAAGTGTATTGTCTGAAGACGACCGGGAATGGTTAAAACGGGCAGGAGCAGAGCTGGCA
GAGACAGGGAAGGAACGGCTGCTGGATGAACAATTTTTGATATATCAAGCGCTGTCCAGTCCATCGCACTACCTGTATGT
ATCCTATTCAGCTTCAGATACGGAAGGGCGGTCTCTTTTGCCTTCGACCCTCATCAAGTATTGTGAGGAACTGATGCCAA
ACCATCAGCAAGCCCTCTATGTGTTAGATCCAGAGCAGTTGGAAGATCAGGAGCAATTAAAATTTGTAACAAACGAGCAT
GTCTCGTTATCCTATACCGTTTCGCAGCTGCAACAATGGCTCAATCAATATCGGATCAGCGGCGTATGGTGGAGTGTATA
TAATCATTTGATGACCTCGTCCAACCGCGACGTATCAAAAAAAATCATGTCCAGCTTGTTCTTTACAAATAGAGCGAAAC
GTTTAAATCCGAATGTCACAAAAGAACTTTACGGTGACCATATTCAGGGGAGTGTTTCAAGAATGGAGAAATTCAATGCA
TGTGCATTTTCTCATTTTGCTTCCCACGGGTTAAAACTAAAAGATCGACAATTTTACAAATTAGAAGCACCTGATATCGG
CCAGCTCTTTCACTCGGCTTTAAAACTGATTTCAGATACGCTTGTTGAACAAAAAAAGGATTGGAAAAACTTAACGAAGG
AAGATTGTGTGACCTACTCAAGGCATGCAATTGAACAGCTAGCTCCACGTCTACAAAAAGAAATTTTATTAAGCTCTAAT
CGGCATGCTTATATAAAAGAAAAGCTTCAAAAAATCCTCATCAGGGTGTCTTCTATATTAAGCGAACATGCAAAAGTGAG
CGGATTCTCTCCGGTTGGACTTGAGTTAGGTTTTGGAGGTCAAGGACCTCTGCCGCCGTTTACTTTTCAATTAAAAAACG
GCTGCACGATGGAGCTTGTTGGAAGGATTGACCGAGTGGATAAAGCAGAAGGATCAAAAGGACTTCTTTTAAGAATTGTC
GACTATAAGTCCAGTGAGAAGGGGCTTGATCTAGCAGAAGTTTACTACGGTTTAGCCTTGCAAATGCTCACTTATTTAGA
CCTGACCATTACGTATTCTAAAGAATGGCTTGGCATGGAAGCGACACCGGCAGGAATTTTATACTTCCATATTCATGACC
CGCTGATTCAAGCGCCTATTCCGCTCGCAGAAGATGCGATTGAGCAGGAAATATTGAAGAAATTTAAAATGAAGGGTCTA
TTGCTCGAAGATGTGGAAGCAGTGAAGTTGATGGATCAAACACTCGAATCAGGAAGATCACAAGTCATCCAAGCTGGTTT
GAAAAAGGATGGTTCTTTCCGATCTGACTCTGCGGTATTAAGTGAAGATCATTTTCACATTCTCACAAAACACGTTCGGC
GAACCTTTGAAGAGGCAGGAGAAAGAATTACAAGCGGTGAGGTAGAGATAAACCCATATAAATTAAAGGATCAAACCCCT
TGCCGTTTTTGCTCCTTTAAGTCTATTTGCCAATTTGATGAATCAATAGAAGATAATGAATTTAGGGTGCTCACCTCTGA
GAAGGATGATGTCATGTTAGACCGGATCAAAAAAGAAGGGGATCAGTATGCAAATACCAAAACCGAATAA
GTGGAGATTCAGTTTTTAGCAGGCAGATCGGGGAGTGGAAAAACGACTGCAATTCTAGAAGAAATCAAAGAACAACTGCG
GCTTGATCCGCTGGGTCCGCCAATCATTTTTTTAGTCCCGGATCAAATGACATTTTTAATGGAATATGAGCTTGCAAAAA
CGTCTGAAGCTGGTGGAATGATCAGGGCCAAAGTCTTTAGTTTTACTCGGCTTGCCTGGTCTATATTACAGCAGACTGGC
GGTGCGAACCGTCAATTTGTCACAAGCACAGGGATTCAAATGCTCTTAAGAAAAGTAATAGAAGAACAGAAAGACAAGTT
TAAGGTATTCAAAAAGGCGAGTGATAAACCGGGATTTGTTGAGCAAATAGAAAAGACGATGGCTGAATTCAAAAGGTACT
GTATGATGCCGGAGGATATTGAAAAAATCTCGGCATCCAGCATGCATTCAGAGTATACAGAAGAAAGACGTGCGGCGGAA
AAATTGCATGATCTTCATGTTCTTTATCAGCAGATGGAGCAGCATCTGCAAGATGAGTATGTGCACTCAGAGGATTACTT
GACACTTCTGGCTCAGCAAATTCCTTTATCAGAAGAATTGAGAGGGGCACACATTTATATAGATGGTTTTTATCAGTTTA
CCCCCCAGCAGCTTCTTGTCATTGAACAGCTTTTGCTACATGCCGAAAAAATAACAGCTGCATTCACAGTGGATCGTTCC
TATCATGACACGCAGCCAAATGAACTTGATTTATTTCGCATGACAGGTAAGACATATTCCCAGCTTTATCAGTTGGCCAA
AGAGTGCGGAGCGGCTATTTCTGAGAACATTTTGGAGAGAAATAAACGGCATCTTCATACCCCAGATCTAGCTTATTTAG
AAAATCAATATGAACAGAGACCTTTGCAGCCATATCAAGAAGAAACGCCTCACCTTACCGTATCGAAAAGTGCAAATAAA
CGAGCTGAAATTGAGGGAGTAGCGAGAGATATTCTTGATTTAGTAAGAGGTGAAGGTCTTAGGTTACGAGACATCTCAAT
TGTTGCAAGACATGTAGACGACTATAAAGATACGTTAAAAGAGGTGTTTCGAGATTACGATATTCCTTTCTTTATTGATG
GAAATGAATCGATGCAGTATCATCCGCTCATTGAGTTCATTCGTTCGAGCCTCGATGTCATAAAAGGGAACTGGCGGTAT
GAGGCGGTGTTTCGCTGTGTGAAAACGGAGTTCTTATTTCCGCTTGAACTCGCTAAAAACAAAGCAAGAGAACAGGCGGA
TCAGCTTGAAAACTATTGTATTGCTTACGGTGTAAAAGGTGAACGCTGGACGAATGGTTCACGCTTTCATTATCGCCGCT
TTCAATCATTAGATGAAGATTTTGGACAAACCGATCAAGAAATAGAAATGGAGCAAATGCTGAATGATGTAAAAGAATGG
ATTGTTCCGCCTCTCTTTCAATTGCAAAAAAGATTGAAAAAAGCGCAAAAGCTAAGAGACATGGTGGAGGCAGTGTATGT
CTTTCTAGAGGAAGCCCAAGTGCCAGAAAAGCTTGAAAAGGCAAGGATTGAGGCAGAAGAAGCAGGCAGGTTAGCTGAAG
CGATGCAGCATGGGCAAGTGTGGGATGCTGTCATTCAATTGATGGATGAATTTGTTGAAATGCTGGGCGAGGAGGAGCTC
TCATTTCCATTATTTCAACAGATGATAGATACAGGACTGTCCTCTCTCAAGTTCGCTTTGATTCCCCCTTCACTTGATCA
AGTGTTTATCGGAAGTATGGATTTATCCAGAATGTATCAAGTAAAGTGTACGTTTGTCATTGGAGTAAATGATGGGGTTA
TACCTGCACGACCCTCTGATGAAAGTGTATTGTCTGAAGACGACCGGGAATGGTTAAAACGGGCAGGAGCAGAGCTGGCA
GAGACAGGGAAGGAACGGCTGCTGGATGAACAATTTTTGATATATCAAGCGCTGTCCAGTCCATCGCACTACCTGTATGT
ATCCTATTCAGCTTCAGATACGGAAGGGCGGTCTCTTTTGCCTTCGACCCTCATCAAGTATTGTGAGGAACTGATGCCAA
ACCATCAGCAAGCCCTCTATGTGTTAGATCCAGAGCAGTTGGAAGATCAGGAGCAATTAAAATTTGTAACAAACGAGCAT
GTCTCGTTATCCTATACCGTTTCGCAGCTGCAACAATGGCTCAATCAATATCGGATCAGCGGCGTATGGTGGAGTGTATA
TAATCATTTGATGACCTCGTCCAACCGCGACGTATCAAAAAAAATCATGTCCAGCTTGTTCTTTACAAATAGAGCGAAAC
GTTTAAATCCGAATGTCACAAAAGAACTTTACGGTGACCATATTCAGGGGAGTGTTTCAAGAATGGAGAAATTCAATGCA
TGTGCATTTTCTCATTTTGCTTCCCACGGGTTAAAACTAAAAGATCGACAATTTTACAAATTAGAAGCACCTGATATCGG
CCAGCTCTTTCACTCGGCTTTAAAACTGATTTCAGATACGCTTGTTGAACAAAAAAAGGATTGGAAAAACTTAACGAAGG
AAGATTGTGTGACCTACTCAAGGCATGCAATTGAACAGCTAGCTCCACGTCTACAAAAAGAAATTTTATTAAGCTCTAAT
CGGCATGCTTATATAAAAGAAAAGCTTCAAAAAATCCTCATCAGGGTGTCTTCTATATTAAGCGAACATGCAAAAGTGAG
CGGATTCTCTCCGGTTGGACTTGAGTTAGGTTTTGGAGGTCAAGGACCTCTGCCGCCGTTTACTTTTCAATTAAAAAACG
GCTGCACGATGGAGCTTGTTGGAAGGATTGACCGAGTGGATAAAGCAGAAGGATCAAAAGGACTTCTTTTAAGAATTGTC
GACTATAAGTCCAGTGAGAAGGGGCTTGATCTAGCAGAAGTTTACTACGGTTTAGCCTTGCAAATGCTCACTTATTTAGA
CCTGACCATTACGTATTCTAAAGAATGGCTTGGCATGGAAGCGACACCGGCAGGAATTTTATACTTCCATATTCATGACC
CGCTGATTCAAGCGCCTATTCCGCTCGCAGAAGATGCGATTGAGCAGGAAATATTGAAGAAATTTAAAATGAAGGGTCTA
TTGCTCGAAGATGTGGAAGCAGTGAAGTTGATGGATCAAACACTCGAATCAGGAAGATCACAAGTCATCCAAGCTGGTTT
GAAAAAGGATGGTTCTTTCCGATCTGACTCTGCGGTATTAAGTGAAGATCATTTTCACATTCTCACAAAACACGTTCGGC
GAACCTTTGAAGAGGCAGGAGAAAGAATTACAAGCGGTGAGGTAGAGATAAACCCATATAAATTAAAGGATCAAACCCCT
TGCCGTTTTTGCTCCTTTAAGTCTATTTGCCAATTTGATGAATCAATAGAAGATAATGAATTTAGGGTGCTCACCTCTGA
GAAGGATGATGTCATGTTAGACCGGATCAAAAAAGAAGGGGATCAGTATGCAAATACCAAAACCGAATAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| addB | Bacillus subtilis subsp. subtilis str. 168 |
66.753 |
99.316 |
0.663 |