Detailed information
Bioinformatically predicted
Overview
| Name | recJ | Type | Machinery gene |
| Locus tag | KSO_RS06570 | Genome accession | NC_020272 |
| Coordinates | 1286921..1289281 (+) | Length | 786 a.a. |
| NCBI ID | WP_015387899.1 | Uniprot ID | - |
| Organism | Bacillus amyloliquefaciens IT-45 | ||
| Function | homologous recombination (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 1281921..1294281
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| KSO_RS06550 (KSO_006680) | - | 1283294..1283590 (+) | 297 | WP_003152702.1 | post-transcriptional regulator | - |
| KSO_RS06555 (KSO_006685) | secDF | 1283627..1285846 (+) | 2220 | WP_003152704.1 | protein translocase subunit SecDF | - |
| KSO_RS06560 (KSO_006690) | - | 1285978..1286475 (+) | 498 | WP_003152707.1 | cation:proton antiporter regulatory subunit | - |
| KSO_RS06565 (KSO_006695) | - | 1286539..1286865 (+) | 327 | WP_003152709.1 | lipopolysaccharide assembly LapA domain-containing protein | - |
| KSO_RS06570 (KSO_006700) | recJ | 1286921..1289281 (+) | 2361 | WP_015387899.1 | single-stranded-DNA-specific exonuclease RecJ | Machinery gene |
| KSO_RS06575 (KSO_006705) | - | 1289287..1289799 (+) | 513 | WP_003152714.1 | adenine phosphoribosyltransferase | - |
| KSO_RS06580 (KSO_006710) | relA | 1289957..1292161 (+) | 2205 | WP_003152716.1 | GTP diphosphokinase | - |
| KSO_RS06585 (KSO_006715) | dtd | 1292174..1292617 (+) | 444 | WP_007408194.1 | D-aminoacyl-tRNA deacylase | - |
| KSO_RS06590 (KSO_006720) | - | 1292644..1294206 (-) | 1563 | WP_015387900.1 | SH3 domain-containing protein | - |
Sequence
Protein
Download Length: 786 a.a. Molecular weight: 87396.76 Da Isoelectric Point: 4.9218
>NTDB_id=56091 KSO_RS06570 WP_015387899.1 1286921..1289281(+) (recJ) [Bacillus amyloliquefaciens IT-45]
MLASKMRWEIQQPDQEKVKSLTEQLDITPLVASLLVKRGFDTAESARLFLHTKDADFYDPYELKGMREAVDRIKLAVSQG
EPIMIYGDYDADGVTSTSVMLTALRQLSADVDFYIPDRFTEGYGPNEQAFRSIKERGFSLIITVDTGIAAVHEAEVAKEL
GLDVIITDHHEPGPELPDVFAIIHPKQPGCGYPFKELAGVGVAFKLAHALTGSLPEAMLDLAAIGTVADLVPLHDENRLI
ASLGIERLRTTNRPGLKALIKLSGGDIGQADEETIGFQVAPRLNAVGRIEQADPAVHLLMTEDQFEAEELASDIDRLNKE
RQKMVKTMTEEAVEMVQQQGGNPSAIVVAKAGWNPGVVGIVASKLAERFYRPAVVLGIDEEQGIAKGSARSIRGFNLFTS
LSQCRDILPHFGGHPMAAGMTLKAEDVAELRDRLNQMAEETLTEEDFIPVQEVDLVCGVEDITVESITELNMLSPFGMLN
PKPHVMVKNAVLDDVRLIGANKNHVKMTVKSDSAVLDCVGFNKGELEAGVVPGSTISIVGEMSINEWNNRKKPQLMIKDA
AVPEWQLFDIRGKRTWEDTVTALPKEKRVLISFNEKTAQKLREKELTGELAEITSESEAEALQLDGKYAVFLDVPPSADR
LQHLLDGKKPERIYFVFINHEEHFLSSFPSRNDFKWFYAFLLKRGAFDFGKHGSELARHRGWSIDTINFMTKVFFDLGFV
KIEDGVLSVVSGAKKRDLADSQTYQVKQQLMELDQKLNYSAAHELKEWLNKLMNQGSEAYESTRRT
MLASKMRWEIQQPDQEKVKSLTEQLDITPLVASLLVKRGFDTAESARLFLHTKDADFYDPYELKGMREAVDRIKLAVSQG
EPIMIYGDYDADGVTSTSVMLTALRQLSADVDFYIPDRFTEGYGPNEQAFRSIKERGFSLIITVDTGIAAVHEAEVAKEL
GLDVIITDHHEPGPELPDVFAIIHPKQPGCGYPFKELAGVGVAFKLAHALTGSLPEAMLDLAAIGTVADLVPLHDENRLI
ASLGIERLRTTNRPGLKALIKLSGGDIGQADEETIGFQVAPRLNAVGRIEQADPAVHLLMTEDQFEAEELASDIDRLNKE
RQKMVKTMTEEAVEMVQQQGGNPSAIVVAKAGWNPGVVGIVASKLAERFYRPAVVLGIDEEQGIAKGSARSIRGFNLFTS
LSQCRDILPHFGGHPMAAGMTLKAEDVAELRDRLNQMAEETLTEEDFIPVQEVDLVCGVEDITVESITELNMLSPFGMLN
PKPHVMVKNAVLDDVRLIGANKNHVKMTVKSDSAVLDCVGFNKGELEAGVVPGSTISIVGEMSINEWNNRKKPQLMIKDA
AVPEWQLFDIRGKRTWEDTVTALPKEKRVLISFNEKTAQKLREKELTGELAEITSESEAEALQLDGKYAVFLDVPPSADR
LQHLLDGKKPERIYFVFINHEEHFLSSFPSRNDFKWFYAFLLKRGAFDFGKHGSELARHRGWSIDTINFMTKVFFDLGFV
KIEDGVLSVVSGAKKRDLADSQTYQVKQQLMELDQKLNYSAAHELKEWLNKLMNQGSEAYESTRRT
Nucleotide
Download Length: 2361 bp
>NTDB_id=56091 KSO_RS06570 WP_015387899.1 1286921..1289281(+) (recJ) [Bacillus amyloliquefaciens IT-45]
ATGTTAGCGTCAAAAATGCGCTGGGAAATCCAGCAGCCGGATCAGGAAAAAGTCAAATCACTCACAGAACAATTGGACAT
AACACCTCTTGTGGCATCACTGCTTGTAAAAAGAGGTTTTGATACTGCCGAAAGCGCAAGGCTGTTTTTACATACAAAGG
ATGCAGACTTTTATGACCCGTATGAATTAAAGGGAATGCGGGAAGCAGTTGATCGGATAAAACTGGCGGTTTCTCAAGGG
GAACCGATTATGATTTACGGAGATTACGATGCAGACGGCGTTACAAGCACGTCAGTGATGCTGACGGCACTCAGACAGCT
GTCGGCGGACGTTGACTTTTATATTCCCGACCGTTTTACAGAAGGCTACGGCCCGAATGAACAAGCTTTCCGTTCCATAA
AAGAGCGGGGATTTTCGCTGATCATTACAGTGGATACGGGAATCGCCGCCGTCCATGAAGCTGAAGTCGCAAAAGAGCTG
GGCTTAGACGTCATTATTACCGACCACCATGAGCCGGGACCCGAGCTTCCTGACGTATTTGCGATCATCCACCCGAAGCA
GCCGGGATGCGGCTATCCGTTTAAAGAATTGGCCGGCGTCGGTGTGGCGTTTAAGCTTGCCCACGCGCTTACGGGTTCTT
TGCCGGAAGCTATGTTGGACTTGGCGGCAATCGGTACGGTTGCAGATCTGGTGCCTCTTCATGATGAAAACAGATTAATT
GCGTCACTCGGAATTGAAAGGCTTCGTACGACAAATCGGCCGGGCCTCAAAGCTCTGATTAAACTTTCCGGCGGAGATAT
CGGACAAGCTGATGAGGAAACGATCGGATTTCAGGTCGCACCGAGGCTCAATGCCGTCGGAAGAATAGAACAGGCCGATC
CTGCCGTACACCTGCTGATGACTGAAGATCAGTTTGAAGCGGAGGAACTGGCTTCGGATATTGACCGGCTGAATAAAGAG
CGGCAGAAAATGGTGAAAACCATGACCGAAGAGGCTGTTGAAATGGTTCAGCAGCAAGGCGGAAACCCGTCTGCCATTGT
AGTGGCAAAAGCCGGCTGGAATCCGGGCGTCGTCGGTATTGTCGCATCGAAGCTGGCTGAACGTTTTTACCGGCCCGCTG
TTGTGCTTGGGATAGATGAGGAGCAGGGAATCGCCAAAGGGTCGGCGCGAAGCATCAGAGGCTTCAACCTTTTTACGAGC
CTTTCACAGTGCAGAGACATTCTTCCTCATTTCGGCGGGCATCCGATGGCGGCCGGAATGACGCTGAAGGCTGAAGATGT
GGCGGAATTAAGGGACAGGCTGAATCAAATGGCTGAAGAAACCCTTACGGAAGAGGATTTTATTCCCGTTCAGGAGGTTG
ATCTTGTCTGCGGCGTTGAAGACATAACCGTTGAAAGCATTACAGAATTGAATATGCTGTCGCCGTTCGGCATGCTTAAC
CCTAAACCGCATGTGATGGTGAAAAATGCCGTGCTTGATGATGTGCGCCTGATCGGAGCGAATAAAAACCACGTGAAAAT
GACGGTGAAAAGTGATTCCGCCGTCCTTGACTGCGTCGGCTTTAACAAAGGAGAGCTGGAAGCCGGTGTTGTTCCCGGAT
CAACGATTTCCATTGTCGGCGAGATGTCCATTAATGAATGGAACAACAGAAAGAAGCCCCAGCTGATGATTAAAGATGCT
GCGGTGCCGGAATGGCAGCTTTTTGATATCCGGGGCAAGCGGACGTGGGAAGATACGGTCACCGCGCTGCCGAAGGAGAA
ACGGGTGCTCATCAGCTTTAACGAAAAAACCGCTCAGAAGCTCCGTGAAAAAGAGCTGACGGGCGAGCTTGCCGAGATCA
CTTCGGAATCCGAGGCGGAAGCTCTCCAGCTTGACGGAAAATATGCCGTTTTTCTGGATGTGCCGCCGTCAGCGGATCGC
CTGCAGCATTTGCTTGACGGAAAGAAGCCGGAACGGATTTATTTTGTTTTTATCAATCATGAAGAACATTTCCTGTCCTC
ATTTCCATCGCGGAATGATTTCAAGTGGTTTTACGCATTTCTCTTGAAAAGGGGCGCTTTTGACTTCGGCAAGCATGGTT
CAGAGCTTGCGAGACACAGAGGATGGTCAATTGACACAATCAATTTCATGACAAAGGTGTTTTTTGATCTCGGTTTTGTT
AAAATAGAAGATGGTGTGCTGTCTGTCGTGAGCGGTGCGAAAAAACGCGACCTGGCAGATTCGCAAACCTATCAGGTAAA
ACAGCAGCTGATGGAATTAGACCAGAAGCTCAATTATTCCGCAGCCCATGAGCTGAAGGAATGGCTGAATAAGCTGATGA
ACCAAGGTTCAGAGGCTTATGAAAGTACGAGGAGGACATAG
ATGTTAGCGTCAAAAATGCGCTGGGAAATCCAGCAGCCGGATCAGGAAAAAGTCAAATCACTCACAGAACAATTGGACAT
AACACCTCTTGTGGCATCACTGCTTGTAAAAAGAGGTTTTGATACTGCCGAAAGCGCAAGGCTGTTTTTACATACAAAGG
ATGCAGACTTTTATGACCCGTATGAATTAAAGGGAATGCGGGAAGCAGTTGATCGGATAAAACTGGCGGTTTCTCAAGGG
GAACCGATTATGATTTACGGAGATTACGATGCAGACGGCGTTACAAGCACGTCAGTGATGCTGACGGCACTCAGACAGCT
GTCGGCGGACGTTGACTTTTATATTCCCGACCGTTTTACAGAAGGCTACGGCCCGAATGAACAAGCTTTCCGTTCCATAA
AAGAGCGGGGATTTTCGCTGATCATTACAGTGGATACGGGAATCGCCGCCGTCCATGAAGCTGAAGTCGCAAAAGAGCTG
GGCTTAGACGTCATTATTACCGACCACCATGAGCCGGGACCCGAGCTTCCTGACGTATTTGCGATCATCCACCCGAAGCA
GCCGGGATGCGGCTATCCGTTTAAAGAATTGGCCGGCGTCGGTGTGGCGTTTAAGCTTGCCCACGCGCTTACGGGTTCTT
TGCCGGAAGCTATGTTGGACTTGGCGGCAATCGGTACGGTTGCAGATCTGGTGCCTCTTCATGATGAAAACAGATTAATT
GCGTCACTCGGAATTGAAAGGCTTCGTACGACAAATCGGCCGGGCCTCAAAGCTCTGATTAAACTTTCCGGCGGAGATAT
CGGACAAGCTGATGAGGAAACGATCGGATTTCAGGTCGCACCGAGGCTCAATGCCGTCGGAAGAATAGAACAGGCCGATC
CTGCCGTACACCTGCTGATGACTGAAGATCAGTTTGAAGCGGAGGAACTGGCTTCGGATATTGACCGGCTGAATAAAGAG
CGGCAGAAAATGGTGAAAACCATGACCGAAGAGGCTGTTGAAATGGTTCAGCAGCAAGGCGGAAACCCGTCTGCCATTGT
AGTGGCAAAAGCCGGCTGGAATCCGGGCGTCGTCGGTATTGTCGCATCGAAGCTGGCTGAACGTTTTTACCGGCCCGCTG
TTGTGCTTGGGATAGATGAGGAGCAGGGAATCGCCAAAGGGTCGGCGCGAAGCATCAGAGGCTTCAACCTTTTTACGAGC
CTTTCACAGTGCAGAGACATTCTTCCTCATTTCGGCGGGCATCCGATGGCGGCCGGAATGACGCTGAAGGCTGAAGATGT
GGCGGAATTAAGGGACAGGCTGAATCAAATGGCTGAAGAAACCCTTACGGAAGAGGATTTTATTCCCGTTCAGGAGGTTG
ATCTTGTCTGCGGCGTTGAAGACATAACCGTTGAAAGCATTACAGAATTGAATATGCTGTCGCCGTTCGGCATGCTTAAC
CCTAAACCGCATGTGATGGTGAAAAATGCCGTGCTTGATGATGTGCGCCTGATCGGAGCGAATAAAAACCACGTGAAAAT
GACGGTGAAAAGTGATTCCGCCGTCCTTGACTGCGTCGGCTTTAACAAAGGAGAGCTGGAAGCCGGTGTTGTTCCCGGAT
CAACGATTTCCATTGTCGGCGAGATGTCCATTAATGAATGGAACAACAGAAAGAAGCCCCAGCTGATGATTAAAGATGCT
GCGGTGCCGGAATGGCAGCTTTTTGATATCCGGGGCAAGCGGACGTGGGAAGATACGGTCACCGCGCTGCCGAAGGAGAA
ACGGGTGCTCATCAGCTTTAACGAAAAAACCGCTCAGAAGCTCCGTGAAAAAGAGCTGACGGGCGAGCTTGCCGAGATCA
CTTCGGAATCCGAGGCGGAAGCTCTCCAGCTTGACGGAAAATATGCCGTTTTTCTGGATGTGCCGCCGTCAGCGGATCGC
CTGCAGCATTTGCTTGACGGAAAGAAGCCGGAACGGATTTATTTTGTTTTTATCAATCATGAAGAACATTTCCTGTCCTC
ATTTCCATCGCGGAATGATTTCAAGTGGTTTTACGCATTTCTCTTGAAAAGGGGCGCTTTTGACTTCGGCAAGCATGGTT
CAGAGCTTGCGAGACACAGAGGATGGTCAATTGACACAATCAATTTCATGACAAAGGTGTTTTTTGATCTCGGTTTTGTT
AAAATAGAAGATGGTGTGCTGTCTGTCGTGAGCGGTGCGAAAAAACGCGACCTGGCAGATTCGCAAACCTATCAGGTAAA
ACAGCAGCTGATGGAATTAGACCAGAAGCTCAATTATTCCGCAGCCCATGAGCTGAAGGAATGGCTGAATAAGCTGATGA
ACCAAGGTTCAGAGGCTTATGAAAGTACGAGGAGGACATAG
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| recJ | Bacillus subtilis subsp. subtilis str. 168 |
82.061 |
100 |
0.821 |