Detailed information
Bioinformatically predicted
Overview
| Name | addB | Type | Machinery gene |
| Locus tag | AAYR28_RS05100 | Genome accession | NZ_CP154909 |
| Coordinates | 1010415..1013924 (+) | Length | 1169 a.a. |
| NCBI ID | WP_345808944.1 | Uniprot ID | - |
| Organism | Bacillus safensis strain FUA2117 | ||
| Function | homologous recombination; plasmid transformation (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 1005415..1018924
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| AAYR28_RS05070 (AAYR28_05070) | lepB | 1005934..1006446 (+) | 513 | WP_024425493.1 | signal peptidase I | - |
| AAYR28_RS05075 (AAYR28_05075) | - | 1006485..1007630 (-) | 1146 | WP_024425494.1 | AbrB family transcriptional regulator | - |
| AAYR28_RS05080 (AAYR28_05080) | - | 1007897..1008319 (+) | 423 | WP_034282159.1 | BlaI/MecI/CopY family transcriptional regulator | - |
| AAYR28_RS05085 (AAYR28_05085) | - | 1008312..1009151 (+) | 840 | WP_034282157.1 | M56 family metallopeptidase | - |
| AAYR28_RS05090 (AAYR28_05090) | - | 1009209..1009619 (+) | 411 | WP_034282155.1 | DoxX family protein | - |
| AAYR28_RS05095 (AAYR28_05095) | - | 1009816..1010262 (-) | 447 | WP_034282153.1 | ferritin-like domain-containing protein | - |
| AAYR28_RS05100 (AAYR28_05100) | addB | 1010415..1013924 (+) | 3510 | WP_345808944.1 | helicase-exonuclease AddAB subunit AddB | Machinery gene |
| AAYR28_RS05105 (AAYR28_05105) | addA | 1013902..1017606 (+) | 3705 | WP_070325680.1 | helicase-exonuclease AddAB subunit AddA | Machinery gene |
| AAYR28_RS05110 (AAYR28_05110) | sbcD | 1017633..1018808 (+) | 1176 | WP_070325681.1 | exonuclease subunit SbcD | - |
Sequence
Protein
Download Length: 1169 a.a. Molecular weight: 134948.15 Da Isoelectric Point: 5.4876
>NTDB_id=995170 AAYR28_RS05100 WP_345808944.1 1010415..1013924(+) (addB) [Bacillus safensis strain FUA2117]
MEIQFLAGRSGSGKTTAILEEIKEQLRLDPLGPPIIFLVPDQMTFLMEYELAKTSEAGGMIRAKVFSFTRLAWSILQQTG
GANRQFVTSTGIQMLLRKVIEEEKEKFKVFKKASDKPGFVEQIEKTMAEFKRYCMLPEDIEKISLQSMHSEYTEERRAAE
KLHDLHVLYQQMEQHLQDEYVHSEDYLTLLTEQIPLSEEIKGAHIYIDGFYQFTPQQLLVIEQLLLHAEKITAAFTVDRS
YHDKQPNELDLFRMTGKTYFQLYQLAKECGASISEHILEKNNRHLHTPDLAYLERQYEQRPVKPYQEITPHLTVSKSASK
RAEIEGVAREILHLVREEGLRLRDISIVARHVDDYKDTLKEVFRDYDIPFFIDGNESMQYHPLIELIRSSLDVIKGNWRY
EAVFRCVKTEFLFPLELAKNKAREQADQLENYCIAYGVKGERWTNGSRFHYRRFQSLDEDFGQTDQEIEMEQMLNDVKEW
IAPPLFQLQKRLKKAQKVKDMVEAVYVFLEEIQVPDKLEKARLEAEEAGRLAEAMQHGQVWDAVIQLMDEFVEMLGEEEL
SFPLFQQMMDTGLASLKFALIPPSLDQVFIGSMDLSRMYQVKCMFIIGVNDGVIPARPSDESVLSEDDREWLKRAGAELA
ETGKERLLDEQFLIYQALSSPSHHLYLSYSVSDEEGRSLLPSPLIKYCQELMPNHEHTLYVLDPEQLDDKEQLKFVANEH
VSLSYTVSQLQQWLSQYPISGVWWSVYNYLMTSSHRDVSKNILSSLFFTNRAKRLKPNVTKELYGDHIQGSVSRMEKFNA
CAFSHFASHGLKLKDRQFYKLEAPDIGQLFHSALKHISDTLVEQKKDWKNLTKDDCVNYSRHAIEQLAPRLQKEILLSSN
RHAYIKEKLQKILIRVSSILSEHARVSGFSPVGLELGFGGQGPLPPFTFKLKNGCTMELVGRIDRVDKAEGSKGLLLRIV
DYKSSEKGLDLAEVYYGLALQMLTYLDLTITYSKEWLGVEATPAGILYFHIHDPLIQAPIPLAEDEIEQEIFKKFKMKGL
LLEDVEAVKLMDQTLESGRSQVIQAGLKKDGSFRSDSAVLSEDHFHILTQHVRRTFEEAGERITNGEVAINPYKLKDQTP
CRFCSFKSICQFDESIEDNEFRVLSSEKDDVVIDRIKKEGDQYANTKTE
MEIQFLAGRSGSGKTTAILEEIKEQLRLDPLGPPIIFLVPDQMTFLMEYELAKTSEAGGMIRAKVFSFTRLAWSILQQTG
GANRQFVTSTGIQMLLRKVIEEEKEKFKVFKKASDKPGFVEQIEKTMAEFKRYCMLPEDIEKISLQSMHSEYTEERRAAE
KLHDLHVLYQQMEQHLQDEYVHSEDYLTLLTEQIPLSEEIKGAHIYIDGFYQFTPQQLLVIEQLLLHAEKITAAFTVDRS
YHDKQPNELDLFRMTGKTYFQLYQLAKECGASISEHILEKNNRHLHTPDLAYLERQYEQRPVKPYQEITPHLTVSKSASK
RAEIEGVAREILHLVREEGLRLRDISIVARHVDDYKDTLKEVFRDYDIPFFIDGNESMQYHPLIELIRSSLDVIKGNWRY
EAVFRCVKTEFLFPLELAKNKAREQADQLENYCIAYGVKGERWTNGSRFHYRRFQSLDEDFGQTDQEIEMEQMLNDVKEW
IAPPLFQLQKRLKKAQKVKDMVEAVYVFLEEIQVPDKLEKARLEAEEAGRLAEAMQHGQVWDAVIQLMDEFVEMLGEEEL
SFPLFQQMMDTGLASLKFALIPPSLDQVFIGSMDLSRMYQVKCMFIIGVNDGVIPARPSDESVLSEDDREWLKRAGAELA
ETGKERLLDEQFLIYQALSSPSHHLYLSYSVSDEEGRSLLPSPLIKYCQELMPNHEHTLYVLDPEQLDDKEQLKFVANEH
VSLSYTVSQLQQWLSQYPISGVWWSVYNYLMTSSHRDVSKNILSSLFFTNRAKRLKPNVTKELYGDHIQGSVSRMEKFNA
CAFSHFASHGLKLKDRQFYKLEAPDIGQLFHSALKHISDTLVEQKKDWKNLTKDDCVNYSRHAIEQLAPRLQKEILLSSN
RHAYIKEKLQKILIRVSSILSEHARVSGFSPVGLELGFGGQGPLPPFTFKLKNGCTMELVGRIDRVDKAEGSKGLLLRIV
DYKSSEKGLDLAEVYYGLALQMLTYLDLTITYSKEWLGVEATPAGILYFHIHDPLIQAPIPLAEDEIEQEIFKKFKMKGL
LLEDVEAVKLMDQTLESGRSQVIQAGLKKDGSFRSDSAVLSEDHFHILTQHVRRTFEEAGERITNGEVAINPYKLKDQTP
CRFCSFKSICQFDESIEDNEFRVLSSEKDDVVIDRIKKEGDQYANTKTE
Nucleotide
Download Length: 3510 bp
>NTDB_id=995170 AAYR28_RS05100 WP_345808944.1 1010415..1013924(+) (addB) [Bacillus safensis strain FUA2117]
GTGGAGATTCAGTTTTTAGCAGGCAGATCGGGGAGTGGAAAAACGACTGCAATCTTAGAGGAAATCAAAGAACAGCTTCG
GCTTGATCCGTTGGGTCCGCCAATCATTTTTTTAGTCCCGGATCAAATGACATTCTTAATGGAATACGAGCTTGCAAAAA
CGTCTGAAGCTGGCGGGATGATCAGGGCCAAAGTATTTAGTTTCACGCGTCTTGCTTGGTCTATTTTACAGCAGACTGGT
GGAGCGAACCGGCAATTTGTGACAAGCACAGGAATTCAAATGCTTTTAAGAAAAGTGATTGAAGAGGAGAAAGAAAAGTT
TAAGGTATTCAAAAAAGCGAGTGATAAGCCGGGGTTTGTCGAGCAAATCGAAAAGACGATGGCTGAGTTCAAGAGATACT
GCATGCTGCCTGAGGATATTGAAAAAATTTCATTACAGAGCATGCATTCAGAGTATACAGAAGAAAGACGGGCAGCCGAG
AAATTGCATGATCTGCATGTTCTTTATCAGCAGATGGAGCAGCATTTACAAGATGAATATGTGCACTCAGAAGACTATTT
GACGCTTCTCACGGAGCAAATTCCTTTATCTGAAGAAATAAAAGGAGCACACATTTATATAGATGGTTTTTATCAATTTA
CACCGCAGCAGCTTCTCGTCATTGAACAGCTTTTGCTGCATGCTGAGAAAATAACGGCTGCTTTCACAGTGGATCGTTCC
TATCATGATAAACAGCCAAATGAACTTGATTTATTTCGTATGACAGGTAAAACGTATTTCCAGCTCTATCAGCTTGCTAA
AGAGTGCGGCGCGTCCATTTCTGAGCACATTTTGGAGAAAAATAACCGTCATCTTCATACGCCAGATCTTGCTTATTTAG
AACGGCAATATGAGCAGAGACCGGTGAAGCCATATCAGGAAATAACCCCTCATCTCACAGTGTCTAAAAGTGCGAGTAAA
CGAGCTGAAATTGAGGGAGTAGCGAGAGAAATTCTTCATTTAGTGAGAGAAGAAGGACTTAGACTGCGAGATATTTCGAT
TGTAGCGCGGCATGTAGACGACTATAAAGATACGTTAAAAGAGGTTTTTCGAGATTACGATATTCCATTTTTTATTGATG
GAAATGAATCGATGCAGTATCATCCGCTCATTGAATTAATTCGTTCAAGCTTGGATGTCATAAAAGGAAACTGGCGTTAT
GAGGCCGTGTTTCGCTGCGTGAAGACAGAGTTCTTATTTCCGCTCGAACTTGCCAAAAACAAAGCGAGAGAACAGGCAGA
CCAGCTTGAAAACTACTGTATTGCTTATGGTGTAAAAGGAGAACGCTGGACAAACGGTTCCCGTTTCCATTACAGACGAT
TCCAATCCTTAGATGAGGATTTTGGACAAACAGATCAAGAAATTGAAATGGAACAGATGCTGAATGATGTAAAGGAATGG
ATCGCACCGCCGCTTTTCCAATTGCAAAAAAGGCTGAAAAAAGCGCAAAAGGTAAAAGACATGGTAGAGGCAGTCTATGT
CTTTTTAGAGGAAATACAAGTGCCTGATAAACTTGAAAAGGCTAGGCTGGAAGCTGAAGAAGCAGGTAGATTAGCTGAAG
CCATGCAGCATGGACAAGTATGGGATGCTGTTATTCAATTAATGGATGAATTTGTTGAAATGCTCGGTGAGGAGGAGCTC
TCATTTCCTTTATTCCAACAGATGATGGATACAGGATTGGCCTCTTTAAAATTCGCTTTAATTCCGCCTTCACTCGACCA
AGTATTTATCGGAAGTATGGATTTATCGAGAATGTATCAAGTGAAGTGTATGTTTATCATTGGGGTAAATGATGGCGTTA
TTCCCGCACGTCCTTCTGACGAAAGTGTTTTGTCTGAGGATGACCGGGAGTGGTTAAAACGAGCAGGAGCAGAACTCGCA
GAGACAGGAAAAGAACGGCTGCTAGATGAGCAATTTTTAATTTACCAGGCGCTGTCGAGTCCATCTCATCATTTGTATCT
GTCTTATTCAGTGTCAGATGAAGAGGGGCGCTCTCTATTGCCTTCGCCTCTTATCAAGTATTGTCAGGAGCTTATGCCAA
ATCATGAGCATACTTTGTATGTGTTAGACCCGGAACAGCTGGATGACAAGGAGCAATTAAAATTTGTAGCGAATGAGCAT
GTCTCGTTATCGTATACTGTCTCGCAGCTGCAGCAATGGCTCAGCCAATACCCCATCAGTGGTGTATGGTGGAGTGTCTA
TAATTATTTGATGACGTCATCTCATCGGGATGTATCAAAAAACATCTTGTCGAGTTTGTTTTTTACAAATCGAGCGAAGC
GCTTAAAACCTAACGTCACAAAAGAACTTTATGGTGATCACATTCAAGGCAGTGTTTCAAGAATGGAGAAATTCAATGCG
TGTGCATTTTCTCACTTTGCTTCCCACGGGTTAAAACTAAAGGACCGGCAATTTTATAAATTGGAAGCACCCGATATCGG
CCAGCTGTTTCACTCGGCCTTAAAGCATATTTCAGATACGCTTGTTGAACAAAAAAAGGATTGGAAAAACCTAACGAAGG
ATGACTGTGTCAACTATTCAAGACATGCAATCGAACAGCTTGCACCGCGTCTTCAAAAGGAAATCCTATTAAGCTCTAAC
CGACATGCTTATATTAAAGAAAAGCTCCAGAAAATCTTGATTCGAGTCTCTTCTATATTAAGTGAGCATGCAAGAGTGAG
TGGATTTTCTCCCGTTGGGCTTGAGTTAGGCTTTGGCGGCCAAGGGCCACTTCCGCCGTTTACTTTTAAATTGAAAAATG
GCTGCACGATGGAGCTTGTCGGAAGAATTGACCGGGTGGATAAAGCAGAAGGTTCAAAAGGGCTGCTGTTGAGAATCGTC
GACTACAAATCGAGTGAGAAAGGCCTTGATCTAGCAGAAGTATACTATGGGCTGGCCTTGCAAATGCTCACATACTTAGA
CCTGACGATTACGTATTCAAAGGAGTGGCTCGGTGTAGAAGCAACGCCAGCTGGCATTTTATATTTCCATATTCATGATC
CGCTCATTCAAGCACCGATTCCGCTTGCAGAGGATGAAATTGAGCAGGAAATATTCAAGAAATTTAAAATGAAAGGTCTT
TTGCTTGAAGATGTAGAAGCGGTAAAGCTAATGGATCAAACGCTTGAATCAGGAAGATCACAAGTCATTCAAGCTGGCTT
GAAAAAGGATGGGTCTTTCCGTTCTGACTCTGCTGTTTTAAGTGAAGATCATTTCCATATACTCACACAGCATGTTCGGC
GCACGTTTGAAGAGGCAGGCGAAAGAATTACAAATGGCGAGGTAGCCATTAATCCATATAAATTGAAGGATCAAACACCA
TGCCGCTTTTGTTCATTTAAGTCTATTTGCCAATTTGATGAATCGATAGAGGATAATGAATTTAGAGTGCTTTCATCTGA
AAAGGATGATGTTGTGATAGACCGGATCAAAAAAGAAGGGGATCAGTATGCAAATACCAAAACCGAATAA
GTGGAGATTCAGTTTTTAGCAGGCAGATCGGGGAGTGGAAAAACGACTGCAATCTTAGAGGAAATCAAAGAACAGCTTCG
GCTTGATCCGTTGGGTCCGCCAATCATTTTTTTAGTCCCGGATCAAATGACATTCTTAATGGAATACGAGCTTGCAAAAA
CGTCTGAAGCTGGCGGGATGATCAGGGCCAAAGTATTTAGTTTCACGCGTCTTGCTTGGTCTATTTTACAGCAGACTGGT
GGAGCGAACCGGCAATTTGTGACAAGCACAGGAATTCAAATGCTTTTAAGAAAAGTGATTGAAGAGGAGAAAGAAAAGTT
TAAGGTATTCAAAAAAGCGAGTGATAAGCCGGGGTTTGTCGAGCAAATCGAAAAGACGATGGCTGAGTTCAAGAGATACT
GCATGCTGCCTGAGGATATTGAAAAAATTTCATTACAGAGCATGCATTCAGAGTATACAGAAGAAAGACGGGCAGCCGAG
AAATTGCATGATCTGCATGTTCTTTATCAGCAGATGGAGCAGCATTTACAAGATGAATATGTGCACTCAGAAGACTATTT
GACGCTTCTCACGGAGCAAATTCCTTTATCTGAAGAAATAAAAGGAGCACACATTTATATAGATGGTTTTTATCAATTTA
CACCGCAGCAGCTTCTCGTCATTGAACAGCTTTTGCTGCATGCTGAGAAAATAACGGCTGCTTTCACAGTGGATCGTTCC
TATCATGATAAACAGCCAAATGAACTTGATTTATTTCGTATGACAGGTAAAACGTATTTCCAGCTCTATCAGCTTGCTAA
AGAGTGCGGCGCGTCCATTTCTGAGCACATTTTGGAGAAAAATAACCGTCATCTTCATACGCCAGATCTTGCTTATTTAG
AACGGCAATATGAGCAGAGACCGGTGAAGCCATATCAGGAAATAACCCCTCATCTCACAGTGTCTAAAAGTGCGAGTAAA
CGAGCTGAAATTGAGGGAGTAGCGAGAGAAATTCTTCATTTAGTGAGAGAAGAAGGACTTAGACTGCGAGATATTTCGAT
TGTAGCGCGGCATGTAGACGACTATAAAGATACGTTAAAAGAGGTTTTTCGAGATTACGATATTCCATTTTTTATTGATG
GAAATGAATCGATGCAGTATCATCCGCTCATTGAATTAATTCGTTCAAGCTTGGATGTCATAAAAGGAAACTGGCGTTAT
GAGGCCGTGTTTCGCTGCGTGAAGACAGAGTTCTTATTTCCGCTCGAACTTGCCAAAAACAAAGCGAGAGAACAGGCAGA
CCAGCTTGAAAACTACTGTATTGCTTATGGTGTAAAAGGAGAACGCTGGACAAACGGTTCCCGTTTCCATTACAGACGAT
TCCAATCCTTAGATGAGGATTTTGGACAAACAGATCAAGAAATTGAAATGGAACAGATGCTGAATGATGTAAAGGAATGG
ATCGCACCGCCGCTTTTCCAATTGCAAAAAAGGCTGAAAAAAGCGCAAAAGGTAAAAGACATGGTAGAGGCAGTCTATGT
CTTTTTAGAGGAAATACAAGTGCCTGATAAACTTGAAAAGGCTAGGCTGGAAGCTGAAGAAGCAGGTAGATTAGCTGAAG
CCATGCAGCATGGACAAGTATGGGATGCTGTTATTCAATTAATGGATGAATTTGTTGAAATGCTCGGTGAGGAGGAGCTC
TCATTTCCTTTATTCCAACAGATGATGGATACAGGATTGGCCTCTTTAAAATTCGCTTTAATTCCGCCTTCACTCGACCA
AGTATTTATCGGAAGTATGGATTTATCGAGAATGTATCAAGTGAAGTGTATGTTTATCATTGGGGTAAATGATGGCGTTA
TTCCCGCACGTCCTTCTGACGAAAGTGTTTTGTCTGAGGATGACCGGGAGTGGTTAAAACGAGCAGGAGCAGAACTCGCA
GAGACAGGAAAAGAACGGCTGCTAGATGAGCAATTTTTAATTTACCAGGCGCTGTCGAGTCCATCTCATCATTTGTATCT
GTCTTATTCAGTGTCAGATGAAGAGGGGCGCTCTCTATTGCCTTCGCCTCTTATCAAGTATTGTCAGGAGCTTATGCCAA
ATCATGAGCATACTTTGTATGTGTTAGACCCGGAACAGCTGGATGACAAGGAGCAATTAAAATTTGTAGCGAATGAGCAT
GTCTCGTTATCGTATACTGTCTCGCAGCTGCAGCAATGGCTCAGCCAATACCCCATCAGTGGTGTATGGTGGAGTGTCTA
TAATTATTTGATGACGTCATCTCATCGGGATGTATCAAAAAACATCTTGTCGAGTTTGTTTTTTACAAATCGAGCGAAGC
GCTTAAAACCTAACGTCACAAAAGAACTTTATGGTGATCACATTCAAGGCAGTGTTTCAAGAATGGAGAAATTCAATGCG
TGTGCATTTTCTCACTTTGCTTCCCACGGGTTAAAACTAAAGGACCGGCAATTTTATAAATTGGAAGCACCCGATATCGG
CCAGCTGTTTCACTCGGCCTTAAAGCATATTTCAGATACGCTTGTTGAACAAAAAAAGGATTGGAAAAACCTAACGAAGG
ATGACTGTGTCAACTATTCAAGACATGCAATCGAACAGCTTGCACCGCGTCTTCAAAAGGAAATCCTATTAAGCTCTAAC
CGACATGCTTATATTAAAGAAAAGCTCCAGAAAATCTTGATTCGAGTCTCTTCTATATTAAGTGAGCATGCAAGAGTGAG
TGGATTTTCTCCCGTTGGGCTTGAGTTAGGCTTTGGCGGCCAAGGGCCACTTCCGCCGTTTACTTTTAAATTGAAAAATG
GCTGCACGATGGAGCTTGTCGGAAGAATTGACCGGGTGGATAAAGCAGAAGGTTCAAAAGGGCTGCTGTTGAGAATCGTC
GACTACAAATCGAGTGAGAAAGGCCTTGATCTAGCAGAAGTATACTATGGGCTGGCCTTGCAAATGCTCACATACTTAGA
CCTGACGATTACGTATTCAAAGGAGTGGCTCGGTGTAGAAGCAACGCCAGCTGGCATTTTATATTTCCATATTCATGATC
CGCTCATTCAAGCACCGATTCCGCTTGCAGAGGATGAAATTGAGCAGGAAATATTCAAGAAATTTAAAATGAAAGGTCTT
TTGCTTGAAGATGTAGAAGCGGTAAAGCTAATGGATCAAACGCTTGAATCAGGAAGATCACAAGTCATTCAAGCTGGCTT
GAAAAAGGATGGGTCTTTCCGTTCTGACTCTGCTGTTTTAAGTGAAGATCATTTCCATATACTCACACAGCATGTTCGGC
GCACGTTTGAAGAGGCAGGCGAAAGAATTACAAATGGCGAGGTAGCCATTAATCCATATAAATTGAAGGATCAAACACCA
TGCCGCTTTTGTTCATTTAAGTCTATTTGCCAATTTGATGAATCGATAGAGGATAATGAATTTAGAGTGCTTTCATCTGA
AAAGGATGATGTTGTGATAGACCGGATCAAAAAAGAAGGGGATCAGTATGCAAATACCAAAACCGAATAA
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 |
65.891 |
99.316 |
0.654 |