Detailed information
Bioinformatically predicted
Overview
| Name | addB | Type | Machinery gene |
| Locus tag | I3J23_RS15185 | Genome accession | NZ_CP065159 |
| Coordinates | 2948516..2952016 (+) | Length | 1166 a.a. |
| NCBI ID | WP_046559473.1 | Uniprot ID | - |
| Organism | Bacillus amyloliquefaciens strain GXU-1 | ||
| Function | homologous recombination; plasmid transformation (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 2943516..2957016
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| I3J23_RS15160 (I3J23_15160) | - | 2943674..2944831 (-) | 1158 | WP_003155155.1 | AbrB family transcriptional regulator | - |
| I3J23_RS15165 (I3J23_15165) | - | 2944999..2946195 (-) | 1197 | WP_046559472.1 | MFS transporter | - |
| I3J23_RS15170 (I3J23_15170) | - | 2946211..2946831 (-) | 621 | WP_014304751.1 | TetR/AcrR family transcriptional regulator | - |
| I3J23_RS15175 (I3J23_15175) | - | 2947083..2947592 (-) | 510 | WP_014304752.1 | ferritin-like domain-containing protein | - |
| I3J23_RS15180 (I3J23_15180) | - | 2947661..2948374 (-) | 714 | WP_021734194.1 | DUF421 domain-containing protein | - |
| I3J23_RS15185 (I3J23_15185) | addB | 2948516..2952016 (+) | 3501 | WP_046559473.1 | helicase-exonuclease AddAB subunit AddB | Machinery gene |
| I3J23_RS15190 (I3J23_15190) | addA | 2952003..2955707 (+) | 3705 | WP_046560195.1 | helicase-exonuclease AddAB subunit AddA | Machinery gene |
| I3J23_RS15195 (I3J23_15195) | sbcD | 2955772..2956944 (+) | 1173 | WP_003155146.1 | exonuclease subunit SbcD | - |
Sequence
Protein
Download Length: 1166 a.a. Molecular weight: 133412.98 Da Isoelectric Point: 5.4981
>NTDB_id=507563 I3J23_RS15185 WP_046559473.1 2948516..2952016(+) (addB) [Bacillus amyloliquefaciens strain GXU-1]
MGVEFLVGRSGSGKTRLIIDSIQDELRREPFGKPIIFLVPDQMTFLMEYELAKTPDIGGMIRAQVFSFSRLAWRVLQHTG
GMNRPFVTTTGVQMLLRKLIEEHKHDFKVYQKASDKAGFTEQVERMLTEFKRYCIEPEDVRRMAESGTASEYRGERVLSE
KLHDLGILYQQMERSLAGHYLHSEDYLTLLAQQIPLADVVKGARVYVDGFYQFTPQELRVLEQLIMHAEHVTFSLTADSP
SAEQAPDELDLFRMTGSTYYKLYQTAKELNADISCKELHGTKRHRHVPELACIESQYDVRPAAAYTGGQEAFTVMQAQNR
RAELEGIAREIQSLVRDGGYRYKDMAILIRQPEDYKDLLKEVFADYGLPYFIDGKASMQHHPLIEFIRSSLDVVKRNWRY
EAVFRCAKTELLFPLDQPEQKIREQVDQLENYCIAYGIKGERWTNGERFVYRRFVSLDEDFAQTDQEIEMEHMLNETREW
IAAPLIRLQNRMKKAKTVQSMAEALYLFLEDTDVPLKLDRKRQRAEEAGNMIEAQQHGQAWDAVIQLLEEFAGMMGEDEI
SLALFQQMLETGTESLHFSLIPPALDQVFVGNMDLSRMYGTSCTFVIGANDGVLPARPDENGVLSDDDREWLKAVGVELS
SAGRERLLDEHFLIYMALSSPSDRLYVSYPIADAEGKTLLPSIVVNRLGELFPDHQEKLSAADPEQVSEEEQLQYLVNKQ
VAQTYTASQLRLWTREYEISDVWWSAYNVLMKESDHQRAKKLFSSLFFRNEAKRLERPVSRQLYGEHIKGSVSRMEAFNA
CQFSHFASHGLQLKERQFFKLEAPDIGQLFHSSLKLISDRLREQKLEWRDLTKDQCRHFSYEAVERLAPKLQKEILLSSN
RHFYVKEKLQKIVTRVSGILSEHAKASGFVPVGLELGFGGSGPLPPLTFTLKNGCTMELVGRIDRVDKAESSKGLLLRIV
DYKSSDRGLDLAEVYYGLALQMLTYLDLSITHSADWLGMKATPAGVLYFHIHDPMIQASLPMGLDEIEQEIFKKFKMKGL
LLGDREAISLMDTTLEEGRSNIVNAGLKKDGSLRSDSAAVSEQDFHLLTDHVRRTFEQAGEAITDGLVSITPYKLKDKTP
CTYCAFKSVCQFDESLKENEYRSLKAEKDGTILDWLKKEADDDANS
MGVEFLVGRSGSGKTRLIIDSIQDELRREPFGKPIIFLVPDQMTFLMEYELAKTPDIGGMIRAQVFSFSRLAWRVLQHTG
GMNRPFVTTTGVQMLLRKLIEEHKHDFKVYQKASDKAGFTEQVERMLTEFKRYCIEPEDVRRMAESGTASEYRGERVLSE
KLHDLGILYQQMERSLAGHYLHSEDYLTLLAQQIPLADVVKGARVYVDGFYQFTPQELRVLEQLIMHAEHVTFSLTADSP
SAEQAPDELDLFRMTGSTYYKLYQTAKELNADISCKELHGTKRHRHVPELACIESQYDVRPAAAYTGGQEAFTVMQAQNR
RAELEGIAREIQSLVRDGGYRYKDMAILIRQPEDYKDLLKEVFADYGLPYFIDGKASMQHHPLIEFIRSSLDVVKRNWRY
EAVFRCAKTELLFPLDQPEQKIREQVDQLENYCIAYGIKGERWTNGERFVYRRFVSLDEDFAQTDQEIEMEHMLNETREW
IAAPLIRLQNRMKKAKTVQSMAEALYLFLEDTDVPLKLDRKRQRAEEAGNMIEAQQHGQAWDAVIQLLEEFAGMMGEDEI
SLALFQQMLETGTESLHFSLIPPALDQVFVGNMDLSRMYGTSCTFVIGANDGVLPARPDENGVLSDDDREWLKAVGVELS
SAGRERLLDEHFLIYMALSSPSDRLYVSYPIADAEGKTLLPSIVVNRLGELFPDHQEKLSAADPEQVSEEEQLQYLVNKQ
VAQTYTASQLRLWTREYEISDVWWSAYNVLMKESDHQRAKKLFSSLFFRNEAKRLERPVSRQLYGEHIKGSVSRMEAFNA
CQFSHFASHGLQLKERQFFKLEAPDIGQLFHSSLKLISDRLREQKLEWRDLTKDQCRHFSYEAVERLAPKLQKEILLSSN
RHFYVKEKLQKIVTRVSGILSEHAKASGFVPVGLELGFGGSGPLPPLTFTLKNGCTMELVGRIDRVDKAESSKGLLLRIV
DYKSSDRGLDLAEVYYGLALQMLTYLDLSITHSADWLGMKATPAGVLYFHIHDPMIQASLPMGLDEIEQEIFKKFKMKGL
LLGDREAISLMDTTLEEGRSNIVNAGLKKDGSLRSDSAAVSEQDFHLLTDHVRRTFEQAGEAITDGLVSITPYKLKDKTP
CTYCAFKSVCQFDESLKENEYRSLKAEKDGTILDWLKKEADDDANS
Nucleotide
Download Length: 3501 bp
>NTDB_id=507563 I3J23_RS15185 WP_046559473.1 2948516..2952016(+) (addB) [Bacillus amyloliquefaciens strain GXU-1]
TTGGGTGTTGAGTTTTTAGTAGGCAGATCGGGGAGTGGGAAAACGAGGCTGATTATCGACAGCATTCAAGATGAACTGCG
CCGGGAGCCGTTCGGGAAACCGATCATTTTTCTAGTCCCGGATCAAATGACGTTTTTAATGGAATATGAGCTTGCTAAAA
CGCCGGATATCGGCGGCATGATACGCGCTCAAGTGTTCAGTTTTTCGCGTTTGGCGTGGCGCGTGCTTCAGCATACCGGG
GGCATGAACCGTCCGTTTGTGACGACGACGGGTGTGCAGATGCTTTTAAGGAAACTGATTGAAGAACATAAGCACGATTT
TAAAGTGTATCAAAAAGCGAGTGACAAAGCCGGATTCACTGAGCAGGTGGAACGGATGCTGACAGAGTTTAAGCGATACT
GTATTGAGCCTGAAGACGTCCGCCGCATGGCGGAAAGCGGAACGGCGTCAGAGTATCGCGGAGAGCGGGTGCTGTCTGAA
AAACTTCATGACTTAGGCATTTTATATCAGCAGATGGAAAGAAGCCTCGCCGGACACTATTTGCATTCGGAGGATTATTT
GACGCTGCTCGCTCAGCAGATTCCTTTGGCGGACGTTGTAAAAGGCGCCCGTGTTTACGTCGACGGATTCTATCAATTTA
CGCCGCAGGAATTAAGGGTGCTGGAGCAGCTGATCATGCATGCTGAACATGTCACATTCTCGCTGACGGCGGACAGCCCT
TCGGCGGAACAGGCACCGGATGAGCTCGATCTGTTCAGAATGACGGGAAGCACTTACTATAAGCTTTATCAGACGGCAAA
GGAATTGAATGCCGATATTTCCTGCAAGGAACTGCATGGCACGAAGCGGCATCGGCATGTGCCGGAGCTTGCCTGTATAG
AGTCGCAGTACGATGTGCGTCCCGCCGCGGCGTATACCGGCGGACAGGAAGCTTTTACCGTCATGCAGGCGCAAAACAGA
AGAGCTGAGCTCGAAGGTATTGCCCGGGAAATTCAATCGCTTGTCCGGGACGGAGGATACCGGTACAAAGATATGGCGAT
TCTCATCCGTCAGCCGGAAGATTATAAAGATTTGCTGAAGGAAGTGTTTGCCGATTACGGGCTTCCTTATTTTATTGACG
GAAAAGCTTCTATGCAGCATCACCCGCTTATTGAATTCATCCGTTCAAGCCTGGATGTCGTGAAGAGGAACTGGAGATAT
GAAGCGGTGTTCCGCTGTGCGAAAACCGAACTGTTATTCCCGCTTGATCAGCCGGAGCAGAAAATAAGAGAGCAGGTAGA
TCAGCTTGAAAATTACTGTATCGCCTACGGCATTAAAGGGGAGCGCTGGACGAACGGCGAGCGGTTTGTATACAGGCGCT
TCGTATCGCTCGATGAGGATTTCGCGCAGACGGATCAGGAAATCGAGATGGAACACATGCTGAATGAGACGAGAGAGTGG
ATAGCTGCACCCCTTATCCGGCTGCAGAACCGGATGAAAAAAGCGAAAACGGTTCAAAGCATGGCGGAGGCTCTTTATCT
CTTTTTGGAAGATACCGATGTTCCCCTGAAGCTGGACCGGAAAAGGCAGCGGGCCGAAGAGGCCGGAAACATGATCGAAG
CGCAGCAGCACGGCCAGGCGTGGGATGCCGTTATCCAGCTTCTCGAGGAGTTTGCCGGCATGATGGGTGAAGATGAAATA
TCTTTGGCGCTGTTCCAGCAAATGCTTGAAACGGGAACGGAATCGCTTCATTTTTCTTTAATTCCTCCTGCGCTTGACCA
AGTATTTGTAGGGAATATGGATCTCTCAAGAATGTACGGCACGTCCTGCACATTCGTCATCGGGGCCAATGACGGCGTTC
TTCCGGCGCGCCCGGATGAAAACGGCGTGCTGTCTGATGATGACCGGGAGTGGCTGAAAGCGGTCGGAGTGGAGCTGTCT
TCCGCGGGGCGTGAGCGGCTGCTTGATGAGCATTTTCTCATCTATATGGCGCTGTCGAGTCCGTCTGACCGTCTTTATGT
GTCATACCCGATTGCTGATGCGGAAGGAAAAACGCTTCTGCCGTCAATCGTTGTAAACAGGCTTGGCGAGCTGTTTCCCG
ATCATCAGGAAAAGCTGTCAGCGGCTGATCCCGAGCAGGTAAGCGAAGAAGAGCAGCTTCAGTATCTCGTCAATAAACAG
GTGGCTCAGACGTATACGGCAAGTCAGCTCAGGCTGTGGACAAGAGAGTACGAGATCAGTGACGTATGGTGGAGCGCATA
CAATGTGCTGATGAAAGAGTCTGATCACCAGCGTGCGAAAAAGCTGTTTTCAAGCCTGTTTTTCCGCAATGAGGCGAAGC
GTCTTGAACGGCCTGTTTCGCGCCAGCTTTACGGCGAGCATATTAAAGGAAGCGTCTCCCGGATGGAGGCGTTTAATGCC
TGCCAGTTTTCTCATTTTGCATCTCACGGGCTGCAATTAAAAGAGCGGCAGTTTTTCAAGCTGGAAGCGCCGGATATCGG
CCAGCTGTTTCACTCCAGTCTGAAGCTGATTTCAGACCGGCTTCGTGAGCAGAAGCTGGAATGGCGCGATCTGACGAAAG
ATCAGTGCCGGCATTTCTCCTATGAAGCGGTGGAACGGCTTGCGCCAAAGCTGCAAAAAGAGATTCTGCTCAGCTCAAAC
AGACACTTTTATGTGAAGGAAAAACTGCAGAAGATCGTCACGCGTGTTTCTGGCATATTAAGCGAGCATGCGAAGGCGAG
CGGTTTCGTCCCGGTCGGTCTTGAACTCGGTTTCGGCGGAAGCGGACCGCTGCCTCCGCTCACTTTCACGCTGAAAAACG
GCTGTACGATGGAACTCGTCGGACGGATCGACCGCGTGGATAAAGCGGAAAGTTCAAAAGGCCTGCTGCTGAGAATCGTT
GATTATAAATCAAGCGACAGGGGGCTTGATCTGGCTGAGGTGTATTACGGGCTCGCTCTGCAAATGCTCACATATCTTGA
CTTATCGATTACACATTCTGCGGATTGGCTCGGCATGAAAGCGACCCCGGCAGGCGTTTTGTATTTCCATATCCATGATC
CGATGATTCAGGCCAGTCTGCCGATGGGGCTTGATGAAATCGAGCAGGAAATTTTCAAGAAATTTAAAATGAAAGGCCTT
CTCCTCGGTGACCGGGAGGCGATCAGCCTGATGGACACGACTTTGGAGGAAGGGCGTTCAAATATCGTCAATGCCGGTTT
GAAAAAGGACGGGTCTTTAAGATCCGACTCAGCGGCGGTCAGCGAACAGGACTTTCATCTGCTGACAGACCACGTGCGGC
GGACATTTGAACAGGCGGGCGAAGCGATAACGGACGGGCTTGTGTCCATTACCCCGTATAAGCTGAAAGATAAGACGCCT
TGTACGTACTGTGCGTTTAAATCGGTGTGCCAGTTTGATGAGTCGCTTAAGGAAAATGAATACCGCAGCCTGAAAGCGGA
AAAAGACGGCACCATACTGGATTGGCTGAAAAAGGAGGCGGATGATGATGCAAATTCCTAA
TTGGGTGTTGAGTTTTTAGTAGGCAGATCGGGGAGTGGGAAAACGAGGCTGATTATCGACAGCATTCAAGATGAACTGCG
CCGGGAGCCGTTCGGGAAACCGATCATTTTTCTAGTCCCGGATCAAATGACGTTTTTAATGGAATATGAGCTTGCTAAAA
CGCCGGATATCGGCGGCATGATACGCGCTCAAGTGTTCAGTTTTTCGCGTTTGGCGTGGCGCGTGCTTCAGCATACCGGG
GGCATGAACCGTCCGTTTGTGACGACGACGGGTGTGCAGATGCTTTTAAGGAAACTGATTGAAGAACATAAGCACGATTT
TAAAGTGTATCAAAAAGCGAGTGACAAAGCCGGATTCACTGAGCAGGTGGAACGGATGCTGACAGAGTTTAAGCGATACT
GTATTGAGCCTGAAGACGTCCGCCGCATGGCGGAAAGCGGAACGGCGTCAGAGTATCGCGGAGAGCGGGTGCTGTCTGAA
AAACTTCATGACTTAGGCATTTTATATCAGCAGATGGAAAGAAGCCTCGCCGGACACTATTTGCATTCGGAGGATTATTT
GACGCTGCTCGCTCAGCAGATTCCTTTGGCGGACGTTGTAAAAGGCGCCCGTGTTTACGTCGACGGATTCTATCAATTTA
CGCCGCAGGAATTAAGGGTGCTGGAGCAGCTGATCATGCATGCTGAACATGTCACATTCTCGCTGACGGCGGACAGCCCT
TCGGCGGAACAGGCACCGGATGAGCTCGATCTGTTCAGAATGACGGGAAGCACTTACTATAAGCTTTATCAGACGGCAAA
GGAATTGAATGCCGATATTTCCTGCAAGGAACTGCATGGCACGAAGCGGCATCGGCATGTGCCGGAGCTTGCCTGTATAG
AGTCGCAGTACGATGTGCGTCCCGCCGCGGCGTATACCGGCGGACAGGAAGCTTTTACCGTCATGCAGGCGCAAAACAGA
AGAGCTGAGCTCGAAGGTATTGCCCGGGAAATTCAATCGCTTGTCCGGGACGGAGGATACCGGTACAAAGATATGGCGAT
TCTCATCCGTCAGCCGGAAGATTATAAAGATTTGCTGAAGGAAGTGTTTGCCGATTACGGGCTTCCTTATTTTATTGACG
GAAAAGCTTCTATGCAGCATCACCCGCTTATTGAATTCATCCGTTCAAGCCTGGATGTCGTGAAGAGGAACTGGAGATAT
GAAGCGGTGTTCCGCTGTGCGAAAACCGAACTGTTATTCCCGCTTGATCAGCCGGAGCAGAAAATAAGAGAGCAGGTAGA
TCAGCTTGAAAATTACTGTATCGCCTACGGCATTAAAGGGGAGCGCTGGACGAACGGCGAGCGGTTTGTATACAGGCGCT
TCGTATCGCTCGATGAGGATTTCGCGCAGACGGATCAGGAAATCGAGATGGAACACATGCTGAATGAGACGAGAGAGTGG
ATAGCTGCACCCCTTATCCGGCTGCAGAACCGGATGAAAAAAGCGAAAACGGTTCAAAGCATGGCGGAGGCTCTTTATCT
CTTTTTGGAAGATACCGATGTTCCCCTGAAGCTGGACCGGAAAAGGCAGCGGGCCGAAGAGGCCGGAAACATGATCGAAG
CGCAGCAGCACGGCCAGGCGTGGGATGCCGTTATCCAGCTTCTCGAGGAGTTTGCCGGCATGATGGGTGAAGATGAAATA
TCTTTGGCGCTGTTCCAGCAAATGCTTGAAACGGGAACGGAATCGCTTCATTTTTCTTTAATTCCTCCTGCGCTTGACCA
AGTATTTGTAGGGAATATGGATCTCTCAAGAATGTACGGCACGTCCTGCACATTCGTCATCGGGGCCAATGACGGCGTTC
TTCCGGCGCGCCCGGATGAAAACGGCGTGCTGTCTGATGATGACCGGGAGTGGCTGAAAGCGGTCGGAGTGGAGCTGTCT
TCCGCGGGGCGTGAGCGGCTGCTTGATGAGCATTTTCTCATCTATATGGCGCTGTCGAGTCCGTCTGACCGTCTTTATGT
GTCATACCCGATTGCTGATGCGGAAGGAAAAACGCTTCTGCCGTCAATCGTTGTAAACAGGCTTGGCGAGCTGTTTCCCG
ATCATCAGGAAAAGCTGTCAGCGGCTGATCCCGAGCAGGTAAGCGAAGAAGAGCAGCTTCAGTATCTCGTCAATAAACAG
GTGGCTCAGACGTATACGGCAAGTCAGCTCAGGCTGTGGACAAGAGAGTACGAGATCAGTGACGTATGGTGGAGCGCATA
CAATGTGCTGATGAAAGAGTCTGATCACCAGCGTGCGAAAAAGCTGTTTTCAAGCCTGTTTTTCCGCAATGAGGCGAAGC
GTCTTGAACGGCCTGTTTCGCGCCAGCTTTACGGCGAGCATATTAAAGGAAGCGTCTCCCGGATGGAGGCGTTTAATGCC
TGCCAGTTTTCTCATTTTGCATCTCACGGGCTGCAATTAAAAGAGCGGCAGTTTTTCAAGCTGGAAGCGCCGGATATCGG
CCAGCTGTTTCACTCCAGTCTGAAGCTGATTTCAGACCGGCTTCGTGAGCAGAAGCTGGAATGGCGCGATCTGACGAAAG
ATCAGTGCCGGCATTTCTCCTATGAAGCGGTGGAACGGCTTGCGCCAAAGCTGCAAAAAGAGATTCTGCTCAGCTCAAAC
AGACACTTTTATGTGAAGGAAAAACTGCAGAAGATCGTCACGCGTGTTTCTGGCATATTAAGCGAGCATGCGAAGGCGAG
CGGTTTCGTCCCGGTCGGTCTTGAACTCGGTTTCGGCGGAAGCGGACCGCTGCCTCCGCTCACTTTCACGCTGAAAAACG
GCTGTACGATGGAACTCGTCGGACGGATCGACCGCGTGGATAAAGCGGAAAGTTCAAAAGGCCTGCTGCTGAGAATCGTT
GATTATAAATCAAGCGACAGGGGGCTTGATCTGGCTGAGGTGTATTACGGGCTCGCTCTGCAAATGCTCACATATCTTGA
CTTATCGATTACACATTCTGCGGATTGGCTCGGCATGAAAGCGACCCCGGCAGGCGTTTTGTATTTCCATATCCATGATC
CGATGATTCAGGCCAGTCTGCCGATGGGGCTTGATGAAATCGAGCAGGAAATTTTCAAGAAATTTAAAATGAAAGGCCTT
CTCCTCGGTGACCGGGAGGCGATCAGCCTGATGGACACGACTTTGGAGGAAGGGCGTTCAAATATCGTCAATGCCGGTTT
GAAAAAGGACGGGTCTTTAAGATCCGACTCAGCGGCGGTCAGCGAACAGGACTTTCATCTGCTGACAGACCACGTGCGGC
GGACATTTGAACAGGCGGGCGAAGCGATAACGGACGGGCTTGTGTCCATTACCCCGTATAAGCTGAAAGATAAGACGCCT
TGTACGTACTGTGCGTTTAAATCGGTGTGCCAGTTTGATGAGTCGCTTAAGGAAAATGAATACCGCAGCCTGAAAGCGGA
AAAAGACGGCACCATACTGGATTGGCTGAAAAAGGAGGCGGATGATGATGCAAATTCCTAA
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 |
83.619 |
100 |
0.836 |