Detailed information
Bioinformatically predicted
Overview
| Name | addA | Type | Machinery gene |
| Locus tag | HTY60_RS06395 | Genome accession | NZ_CP054415 |
| Coordinates | 1198793..1202497 (+) | Length | 1234 a.a. |
| NCBI ID | WP_174202063.1 | Uniprot ID | - |
| Organism | Bacillus amyloliquefaciens strain 205 | ||
| Function | homologous recombination; plasmid transformation (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 1193793..1207497
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| HTY60_RS06380 (HTY60_06380) | - | 1193856..1194383 (-) | 528 | WP_013351758.1 | ferritin-like domain-containing protein | - |
| HTY60_RS06385 (HTY60_06385) | - | 1194452..1195165 (-) | 714 | WP_013351759.1 | DUF421 domain-containing protein | - |
| HTY60_RS06390 (HTY60_06390) | addB | 1195306..1198806 (+) | 3501 | WP_013351760.1 | helicase-exonuclease AddAB subunit AddB | Machinery gene |
| HTY60_RS06395 (HTY60_06395) | addA | 1198793..1202497 (+) | 3705 | WP_174202063.1 | helicase-exonuclease AddAB subunit AddA | Machinery gene |
| HTY60_RS06400 (HTY60_06400) | sbcD | 1202564..1203736 (+) | 1173 | WP_013351762.1 | exonuclease subunit SbcD | - |
| HTY60_RS06405 (HTY60_06405) | sbcC | 1203733..1207125 (+) | 3393 | WP_013351763.1 | exonuclease subunit SbcC | - |
| HTY60_RS06410 (HTY60_06410) | - | 1207141..1207440 (+) | 300 | WP_013351764.1 | hypothetical protein | - |
Sequence
Protein
Download Length: 1234 a.a. Molecular weight: 141374.96 Da Isoelectric Point: 5.2204
>NTDB_id=452293 HTY60_RS06395 WP_174202063.1 1198793..1202497(+) (addA) [Bacillus amyloliquefaciens strain 205]
MQIPKPKDSIWTDDQWSAIVSSGRDILVAAAAGSGKTAVLVERMIRKITAEEEPVDVDRLLVVTFTNASAAEMKHRIAEA
LEKELAKNPGSLHIRRQLSLLNRASISTLHSFCLQVLKKYYYMIDLDPGFRMADQTEGELLGDEVLDELFEDEYAKGNQA
FYELVDRYTTDRHDLDLQDLVKRVYEYSRSHPDPEAWLKSFVRLYDVTEESKMEELPFYEYVREDAEMALFGAKQKLEKA
LELTKAPGGPAPRADNILDDLQQIEELISCRHDFKALYERVPAVTFKRAKAVKGDEFDKVLLDEATDLRNGAKKLIEKLK
TDYFTRSPQDHLKSLKDMKPVIETLVQLVISYGKRFEAAKQEKSIIDFSDLEHYCLAILTARDEEGRRVPSEAAVYYQDQ
FHEVLVDEYQDTNLVQESILQLVKSGNEESGNLFMVGDVKQSIYRFRLAEPLLFLGKYKRFTEDGEGAGQKIDLNQNFRS
RSDILDSTNFLFKQLMGGKIGEVDYDEQAALKLGASYPPNDAAKTELLLIDSADDADSPEDAEDFETVHWEAKAIAAEIR
KLVSSPFKVYDGKTKTHRNIQYRDIVILLRSMPWAPQLMEELKNQGIPVYANLTSGYFEAVEVAAALSVLKVIDNPYQDI
PLASVLRSPIVGCDENELALIRLEKKKAPFYEALKAYIANGDRHDDLYQKLRIFYDSLQKWRSFSTNHSVSELIWEVYRD
TGYFDYAGGMPGGKQRQANLRVLYDRARSYEATAFRGLFRFLRFIERMQERGDDLGTARALSEQEDVVRLMTIHSSKGLE
FPVVFTAGLGRSFNMMDLNKPYLLDKELGFGTKYIHPELRISYPTLPLVAMKKKMRRELLSEELRVLYVALTRAKEKLFL
VGSCKNREKQLAKWQAQADRADWLLSEFDRYQASSYLDFIGPALIRHSDMEAHRAPGLLAPEDIAHDPARFHIRMLQQSE
LLEDSPEERAEEKSKRLKAIQHGEPIPDSFSFDDQARRLLEWEYPYRKLTAIRTKQSVSELKRKQEYEDEYSGRSLIKPS
GDTLLYKRPGFMMKKGLTAAEKGTAMHTVMQHIPLTHVPTAEEAERTVRMLYEKELLTEEQQDAIDIDEVIQFFGTEIGK
NLVGALRIDREVPFSMALPASEVYKDAETAGEPLLVQGIIDCLYETADGLYLLDYKTDRIEGKFRNGFEGAAPILQKRYE
TQIELYTKAVEQITKTNVKRRALYFFDGGHVLTL
MQIPKPKDSIWTDDQWSAIVSSGRDILVAAAAGSGKTAVLVERMIRKITAEEEPVDVDRLLVVTFTNASAAEMKHRIAEA
LEKELAKNPGSLHIRRQLSLLNRASISTLHSFCLQVLKKYYYMIDLDPGFRMADQTEGELLGDEVLDELFEDEYAKGNQA
FYELVDRYTTDRHDLDLQDLVKRVYEYSRSHPDPEAWLKSFVRLYDVTEESKMEELPFYEYVREDAEMALFGAKQKLEKA
LELTKAPGGPAPRADNILDDLQQIEELISCRHDFKALYERVPAVTFKRAKAVKGDEFDKVLLDEATDLRNGAKKLIEKLK
TDYFTRSPQDHLKSLKDMKPVIETLVQLVISYGKRFEAAKQEKSIIDFSDLEHYCLAILTARDEEGRRVPSEAAVYYQDQ
FHEVLVDEYQDTNLVQESILQLVKSGNEESGNLFMVGDVKQSIYRFRLAEPLLFLGKYKRFTEDGEGAGQKIDLNQNFRS
RSDILDSTNFLFKQLMGGKIGEVDYDEQAALKLGASYPPNDAAKTELLLIDSADDADSPEDAEDFETVHWEAKAIAAEIR
KLVSSPFKVYDGKTKTHRNIQYRDIVILLRSMPWAPQLMEELKNQGIPVYANLTSGYFEAVEVAAALSVLKVIDNPYQDI
PLASVLRSPIVGCDENELALIRLEKKKAPFYEALKAYIANGDRHDDLYQKLRIFYDSLQKWRSFSTNHSVSELIWEVYRD
TGYFDYAGGMPGGKQRQANLRVLYDRARSYEATAFRGLFRFLRFIERMQERGDDLGTARALSEQEDVVRLMTIHSSKGLE
FPVVFTAGLGRSFNMMDLNKPYLLDKELGFGTKYIHPELRISYPTLPLVAMKKKMRRELLSEELRVLYVALTRAKEKLFL
VGSCKNREKQLAKWQAQADRADWLLSEFDRYQASSYLDFIGPALIRHSDMEAHRAPGLLAPEDIAHDPARFHIRMLQQSE
LLEDSPEERAEEKSKRLKAIQHGEPIPDSFSFDDQARRLLEWEYPYRKLTAIRTKQSVSELKRKQEYEDEYSGRSLIKPS
GDTLLYKRPGFMMKKGLTAAEKGTAMHTVMQHIPLTHVPTAEEAERTVRMLYEKELLTEEQQDAIDIDEVIQFFGTEIGK
NLVGALRIDREVPFSMALPASEVYKDAETAGEPLLVQGIIDCLYETADGLYLLDYKTDRIEGKFRNGFEGAAPILQKRYE
TQIELYTKAVEQITKTNVKRRALYFFDGGHVLTL
Nucleotide
Download Length: 3705 bp
>NTDB_id=452293 HTY60_RS06395 WP_174202063.1 1198793..1202497(+) (addA) [Bacillus amyloliquefaciens strain 205]
ATGCAAATTCCTAAACCGAAAGACAGCATATGGACGGATGACCAATGGAGCGCCATCGTTTCTTCCGGCCGCGATATTCT
GGTCGCTGCCGCAGCCGGATCAGGTAAAACGGCCGTGCTTGTAGAGCGGATGATCAGAAAGATAACCGCGGAAGAAGAGC
CGGTTGATGTTGACAGGCTCCTTGTGGTGACATTTACAAACGCCTCAGCAGCGGAAATGAAGCATCGGATCGCTGAAGCA
TTAGAAAAAGAACTCGCCAAAAATCCGGGGTCTTTGCATATCAGACGGCAGCTGTCTCTATTAAATCGGGCGAGCATTTC
GACGCTGCACTCTTTCTGTCTGCAGGTGCTTAAAAAATATTATTATATGATTGATCTTGACCCGGGTTTTCGGATGGCTG
ACCAAACGGAAGGCGAATTGCTCGGAGACGAAGTGCTTGATGAGCTGTTTGAGGATGAATACGCAAAAGGGAATCAGGCG
TTTTATGAGCTTGTGGACAGATATACGACGGACAGGCATGATCTGGATCTTCAAGACCTCGTCAAGCGGGTGTATGAGTA
TTCCCGGTCGCATCCTGACCCTGAAGCGTGGCTGAAAAGCTTTGTCCGCCTATATGATGTGACAGAAGAAAGCAAAATGG
AAGAGCTGCCGTTTTACGAGTATGTGAGAGAAGATGCTGAAATGGCGCTCTTCGGGGCAAAACAAAAGCTAGAGAAGGCG
CTTGAACTGACAAAAGCGCCCGGCGGGCCGGCGCCGCGTGCTGATAATATTTTGGATGACCTTCAGCAGATAGAAGAGCT
GATCAGCTGCCGGCATGACTTTAAGGCGCTGTATGAACGGGTTCCTGCGGTCACATTTAAACGGGCCAAGGCGGTAAAGG
GTGATGAATTTGACAAGGTGCTTTTGGACGAAGCGACTGATTTGCGAAACGGCGCGAAGAAACTGATCGAAAAGTTAAAA
ACCGATTACTTTACAAGAAGCCCGCAAGATCATTTAAAGAGTTTAAAAGACATGAAGCCTGTTATTGAAACCCTCGTTCA
GCTCGTAATATCGTACGGAAAACGATTTGAAGCGGCGAAACAGGAAAAATCAATCATTGATTTCTCAGATTTGGAACATT
ACTGTCTGGCGATTTTAACTGCAAGGGATGAAGAAGGCCGGCGTGTGCCGAGTGAAGCGGCCGTTTATTATCAAGATCAG
TTCCATGAAGTTCTGGTTGATGAATATCAAGATACCAATCTTGTGCAGGAATCCATTTTGCAGCTTGTTAAAAGCGGGAA
TGAAGAGTCGGGAAATCTGTTTATGGTGGGGGACGTCAAGCAATCAATCTACCGTTTCAGACTTGCCGAGCCGCTGCTTT
TTCTCGGGAAATACAAAAGGTTTACGGAAGATGGGGAAGGCGCCGGGCAGAAAATCGACCTGAACCAAAACTTCCGAAGC
CGCTCCGATATTTTGGACAGTACGAATTTCTTGTTTAAGCAGCTGATGGGCGGCAAAATCGGCGAAGTGGACTACGATGA
ACAGGCGGCATTAAAGCTTGGCGCATCGTATCCGCCAAATGACGCGGCGAAAACGGAACTGCTGCTGATTGACAGCGCTG
ATGACGCAGACAGCCCCGAGGATGCTGAAGACTTTGAAACCGTGCATTGGGAAGCGAAAGCGATAGCCGCGGAGATCCGG
AAGCTTGTCTCATCTCCGTTTAAGGTATATGACGGCAAAACAAAAACACACCGGAATATCCAGTACCGGGATATCGTGAT
TTTGCTGCGTTCCATGCCATGGGCTCCGCAATTAATGGAAGAGCTGAAAAACCAGGGCATTCCGGTTTACGCCAATTTGA
CATCAGGTTACTTTGAAGCCGTTGAGGTGGCTGCGGCGCTTTCAGTCTTAAAGGTGATTGATAATCCGTATCAGGATATT
CCGCTTGCTTCCGTGCTGCGCTCGCCTATCGTCGGTTGTGACGAAAATGAACTCGCCCTCATACGCCTTGAAAAGAAAAA
AGCGCCGTTTTATGAAGCGCTGAAAGCGTATATAGCGAACGGGGACAGACATGACGACCTGTATCAAAAACTGAGAATAT
TTTATGACAGTCTGCAAAAGTGGCGGTCATTCTCGACGAATCATTCAGTGTCTGAGCTGATTTGGGAAGTATACCGCGAC
ACCGGATATTTTGATTATGCAGGCGGCATGCCTGGCGGAAAGCAGCGTCAGGCCAATCTGCGCGTCTTGTATGACCGGGC
GCGTTCGTATGAAGCGACGGCATTCCGCGGGTTATTCCGCTTTTTGCGGTTCATTGAACGGATGCAGGAGCGCGGCGATG
ATTTGGGGACGGCGCGGGCGCTCAGCGAGCAGGAGGATGTCGTTCGGCTGATGACGATCCACAGCAGCAAAGGACTTGAA
TTCCCCGTCGTTTTCACCGCCGGTCTCGGCAGAAGTTTTAATATGATGGATCTCAACAAACCATACCTGCTTGATAAAGA
GCTCGGTTTCGGCACGAAGTATATTCATCCGGAACTTAGAATCAGCTATCCGACTCTGCCGCTTGTGGCAATGAAGAAAA
AAATGCGCAGAGAGCTTTTATCAGAAGAATTGCGCGTATTGTATGTGGCGCTGACAAGGGCGAAGGAAAAGCTGTTTCTC
GTCGGTTCCTGCAAAAACCGGGAAAAACAGCTGGCCAAATGGCAGGCGCAAGCAGACCGGGCTGATTGGCTCCTTTCTGA
ATTCGACCGCTATCAGGCGTCATCTTATTTGGACTTTATCGGTCCGGCGCTCATCCGTCACAGTGACATGGAGGCGCACA
GGGCTCCGGGGCTTTTGGCGCCGGAGGATATCGCGCACGACCCGGCGCGTTTTCACATCCGGATGCTGCAGCAAAGTGAA
TTGCTGGAAGATAGCCCTGAGGAACGTGCTGAAGAAAAGAGCAAACGTTTAAAAGCGATACAGCATGGCGAGCCGATTCC
TGATTCGTTTTCATTCGATGATCAGGCGCGCCGTCTTCTTGAATGGGAATATCCGTATCGGAAGCTGACCGCCATCAGAA
CGAAGCAGTCTGTTTCTGAGCTGAAGAGAAAGCAAGAATACGAGGATGAGTACAGCGGACGCTCTCTCATCAAACCGTCA
GGGGACACTCTTTTATACAAGCGTCCCGGCTTTATGATGAAAAAAGGGCTGACAGCCGCCGAAAAAGGGACTGCGATGCA
TACGGTGATGCAGCACATACCGCTGACGCATGTTCCGACTGCCGAAGAAGCGGAGCGGACGGTCCGGATGCTTTACGAAA
AAGAGCTGCTGACAGAAGAACAGCAGGACGCAATTGATATTGATGAAGTGATTCAGTTTTTCGGCACTGAAATCGGAAAA
AACCTTGTTGGGGCCCTGCGGATTGATCGGGAGGTGCCGTTCAGTATGGCGCTTCCGGCCAGCGAGGTGTACAAGGATGC
CGAAACGGCCGGTGAACCGCTGCTCGTCCAGGGAATTATTGACTGCCTCTATGAAACTGCGGACGGACTCTATTTGCTGG
ACTATAAAACGGATCGAATTGAGGGGAAATTCCGGAACGGATTTGAAGGCGCGGCTCCGATCCTGCAAAAAAGGTATGAA
ACACAAATCGAATTGTATACAAAAGCGGTTGAACAAATTACAAAAACGAATGTGAAAAGGCGTGCGCTCTATTTCTTCGA
TGGAGGTCACGTTCTTACACTGTAA
ATGCAAATTCCTAAACCGAAAGACAGCATATGGACGGATGACCAATGGAGCGCCATCGTTTCTTCCGGCCGCGATATTCT
GGTCGCTGCCGCAGCCGGATCAGGTAAAACGGCCGTGCTTGTAGAGCGGATGATCAGAAAGATAACCGCGGAAGAAGAGC
CGGTTGATGTTGACAGGCTCCTTGTGGTGACATTTACAAACGCCTCAGCAGCGGAAATGAAGCATCGGATCGCTGAAGCA
TTAGAAAAAGAACTCGCCAAAAATCCGGGGTCTTTGCATATCAGACGGCAGCTGTCTCTATTAAATCGGGCGAGCATTTC
GACGCTGCACTCTTTCTGTCTGCAGGTGCTTAAAAAATATTATTATATGATTGATCTTGACCCGGGTTTTCGGATGGCTG
ACCAAACGGAAGGCGAATTGCTCGGAGACGAAGTGCTTGATGAGCTGTTTGAGGATGAATACGCAAAAGGGAATCAGGCG
TTTTATGAGCTTGTGGACAGATATACGACGGACAGGCATGATCTGGATCTTCAAGACCTCGTCAAGCGGGTGTATGAGTA
TTCCCGGTCGCATCCTGACCCTGAAGCGTGGCTGAAAAGCTTTGTCCGCCTATATGATGTGACAGAAGAAAGCAAAATGG
AAGAGCTGCCGTTTTACGAGTATGTGAGAGAAGATGCTGAAATGGCGCTCTTCGGGGCAAAACAAAAGCTAGAGAAGGCG
CTTGAACTGACAAAAGCGCCCGGCGGGCCGGCGCCGCGTGCTGATAATATTTTGGATGACCTTCAGCAGATAGAAGAGCT
GATCAGCTGCCGGCATGACTTTAAGGCGCTGTATGAACGGGTTCCTGCGGTCACATTTAAACGGGCCAAGGCGGTAAAGG
GTGATGAATTTGACAAGGTGCTTTTGGACGAAGCGACTGATTTGCGAAACGGCGCGAAGAAACTGATCGAAAAGTTAAAA
ACCGATTACTTTACAAGAAGCCCGCAAGATCATTTAAAGAGTTTAAAAGACATGAAGCCTGTTATTGAAACCCTCGTTCA
GCTCGTAATATCGTACGGAAAACGATTTGAAGCGGCGAAACAGGAAAAATCAATCATTGATTTCTCAGATTTGGAACATT
ACTGTCTGGCGATTTTAACTGCAAGGGATGAAGAAGGCCGGCGTGTGCCGAGTGAAGCGGCCGTTTATTATCAAGATCAG
TTCCATGAAGTTCTGGTTGATGAATATCAAGATACCAATCTTGTGCAGGAATCCATTTTGCAGCTTGTTAAAAGCGGGAA
TGAAGAGTCGGGAAATCTGTTTATGGTGGGGGACGTCAAGCAATCAATCTACCGTTTCAGACTTGCCGAGCCGCTGCTTT
TTCTCGGGAAATACAAAAGGTTTACGGAAGATGGGGAAGGCGCCGGGCAGAAAATCGACCTGAACCAAAACTTCCGAAGC
CGCTCCGATATTTTGGACAGTACGAATTTCTTGTTTAAGCAGCTGATGGGCGGCAAAATCGGCGAAGTGGACTACGATGA
ACAGGCGGCATTAAAGCTTGGCGCATCGTATCCGCCAAATGACGCGGCGAAAACGGAACTGCTGCTGATTGACAGCGCTG
ATGACGCAGACAGCCCCGAGGATGCTGAAGACTTTGAAACCGTGCATTGGGAAGCGAAAGCGATAGCCGCGGAGATCCGG
AAGCTTGTCTCATCTCCGTTTAAGGTATATGACGGCAAAACAAAAACACACCGGAATATCCAGTACCGGGATATCGTGAT
TTTGCTGCGTTCCATGCCATGGGCTCCGCAATTAATGGAAGAGCTGAAAAACCAGGGCATTCCGGTTTACGCCAATTTGA
CATCAGGTTACTTTGAAGCCGTTGAGGTGGCTGCGGCGCTTTCAGTCTTAAAGGTGATTGATAATCCGTATCAGGATATT
CCGCTTGCTTCCGTGCTGCGCTCGCCTATCGTCGGTTGTGACGAAAATGAACTCGCCCTCATACGCCTTGAAAAGAAAAA
AGCGCCGTTTTATGAAGCGCTGAAAGCGTATATAGCGAACGGGGACAGACATGACGACCTGTATCAAAAACTGAGAATAT
TTTATGACAGTCTGCAAAAGTGGCGGTCATTCTCGACGAATCATTCAGTGTCTGAGCTGATTTGGGAAGTATACCGCGAC
ACCGGATATTTTGATTATGCAGGCGGCATGCCTGGCGGAAAGCAGCGTCAGGCCAATCTGCGCGTCTTGTATGACCGGGC
GCGTTCGTATGAAGCGACGGCATTCCGCGGGTTATTCCGCTTTTTGCGGTTCATTGAACGGATGCAGGAGCGCGGCGATG
ATTTGGGGACGGCGCGGGCGCTCAGCGAGCAGGAGGATGTCGTTCGGCTGATGACGATCCACAGCAGCAAAGGACTTGAA
TTCCCCGTCGTTTTCACCGCCGGTCTCGGCAGAAGTTTTAATATGATGGATCTCAACAAACCATACCTGCTTGATAAAGA
GCTCGGTTTCGGCACGAAGTATATTCATCCGGAACTTAGAATCAGCTATCCGACTCTGCCGCTTGTGGCAATGAAGAAAA
AAATGCGCAGAGAGCTTTTATCAGAAGAATTGCGCGTATTGTATGTGGCGCTGACAAGGGCGAAGGAAAAGCTGTTTCTC
GTCGGTTCCTGCAAAAACCGGGAAAAACAGCTGGCCAAATGGCAGGCGCAAGCAGACCGGGCTGATTGGCTCCTTTCTGA
ATTCGACCGCTATCAGGCGTCATCTTATTTGGACTTTATCGGTCCGGCGCTCATCCGTCACAGTGACATGGAGGCGCACA
GGGCTCCGGGGCTTTTGGCGCCGGAGGATATCGCGCACGACCCGGCGCGTTTTCACATCCGGATGCTGCAGCAAAGTGAA
TTGCTGGAAGATAGCCCTGAGGAACGTGCTGAAGAAAAGAGCAAACGTTTAAAAGCGATACAGCATGGCGAGCCGATTCC
TGATTCGTTTTCATTCGATGATCAGGCGCGCCGTCTTCTTGAATGGGAATATCCGTATCGGAAGCTGACCGCCATCAGAA
CGAAGCAGTCTGTTTCTGAGCTGAAGAGAAAGCAAGAATACGAGGATGAGTACAGCGGACGCTCTCTCATCAAACCGTCA
GGGGACACTCTTTTATACAAGCGTCCCGGCTTTATGATGAAAAAAGGGCTGACAGCCGCCGAAAAAGGGACTGCGATGCA
TACGGTGATGCAGCACATACCGCTGACGCATGTTCCGACTGCCGAAGAAGCGGAGCGGACGGTCCGGATGCTTTACGAAA
AAGAGCTGCTGACAGAAGAACAGCAGGACGCAATTGATATTGATGAAGTGATTCAGTTTTTCGGCACTGAAATCGGAAAA
AACCTTGTTGGGGCCCTGCGGATTGATCGGGAGGTGCCGTTCAGTATGGCGCTTCCGGCCAGCGAGGTGTACAAGGATGC
CGAAACGGCCGGTGAACCGCTGCTCGTCCAGGGAATTATTGACTGCCTCTATGAAACTGCGGACGGACTCTATTTGCTGG
ACTATAAAACGGATCGAATTGAGGGGAAATTCCGGAACGGATTTGAAGGCGCGGCTCCGATCCTGCAAAAAAGGTATGAA
ACACAAATCGAATTGTATACAAAAGCGGTTGAACAAATTACAAAAACGAATGTGAAAAGGCGTGCGCTCTATTTCTTCGA
TGGAGGTCACGTTCTTACACTGTAA
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 |
81.767 |
100 |
0.818 |