Detailed information
Bioinformatically predicted
Overview
| Name | addB | Type | Machinery gene |
| Locus tag | BtSCAC15_RS06300 | Genome accession | NZ_CP021436 |
| Coordinates | 1205277..1208792 (+) | Length | 1171 a.a. |
| NCBI ID | WP_000058589.1 | Uniprot ID | A0A9X6LZS5 |
| Organism | Bacillus thuringiensis strain C15 | ||
| Function | homologous recombination; plasmid transformation (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 1200277..1213792
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| BtSCAC15_RS06285 (BtSCAC15_06420) | - | 1200408..1201811 (-) | 1404 | WP_100909799.1 | IS66 family transposase | - |
| BtSCAC15_RS06290 (BtSCAC15_06425) | - | 1202051..1203308 (-) | 1258 | Protein_1162 | IS110 family transposase | - |
| BtSCAC15_RS06295 (BtSCAC15_06430) | - | 1203802..1204980 (-) | 1179 | WP_127063857.1 | tyrosine-type recombinase/integrase | - |
| BtSCAC15_RS06300 (BtSCAC15_06435) | addB | 1205277..1208792 (+) | 3516 | WP_000058589.1 | helicase-exonuclease AddAB subunit AddB | Machinery gene |
| BtSCAC15_RS06305 (BtSCAC15_06440) | addA | 1208789..1212514 (+) | 3726 | WP_100654936.1 | helicase-exonuclease AddAB subunit AddA | Machinery gene |
| BtSCAC15_RS06310 (BtSCAC15_06445) | - | 1212527..1212814 (+) | 288 | WP_000255728.1 | RNA polymerase alpha subunit C-terminal domain-containing protein | - |
| BtSCAC15_RS06315 (BtSCAC15_06450) | gerPF | 1212952..1213167 (-) | 216 | WP_001141566.1 | spore germination protein GerPF | - |
| BtSCAC15_RS06320 (BtSCAC15_06455) | - | 1213210..1213596 (-) | 387 | WP_000902324.1 | spore germination protein GerPE | - |
Sequence
Protein
Download Length: 1171 a.a. Molecular weight: 134136.44 Da Isoelectric Point: 5.2131
>NTDB_id=230765 BtSCAC15_RS06300 WP_000058589.1 1205277..1208792(+) (addB) [Bacillus thuringiensis strain C15]
MSLRFVIGRAGSGKSTLCLREVQEELKQRPRGKTILYLVPEQMTFQTQQALIGSEDVRGSIRAQVFSFSRLAWKVLQEVG
GASRLHIDEAGVHMLLRKIVESRKDGLSVFQKAAEQNGFFEHLGSMIAEFKRYNVTPSNVYEMWQQLDAHSSSAEQKLLA
NKVYDLQLLYDDFERALIGKYLDSEDYLQLLVEKLPQSEYVNGAEIYIDGFHSFSPQELEIVRQLMICGARVTITLTIDE
KTLAQPVNELDLFYETTLTYEKIKQVAREEKIEIEKTIPLMEQPRFHSPALAHLEAHYEARPNEKFNGEASVTISTAANL
RAEVEGVAREIRKLVADEKYRYRDIAVLLRNGESYYDVMRTLFTDYNIPHFIDEKRPMSHHPLVECIRSALEIISGNWRY
DAVFRCVKTELLYPLDVRKEAMREEMDEFENYCLAYGVQGKRWTAEDPWMYRRYRSLDDTNGMITDSEREMEEKINRLRD
VVRTPVIRMQKRLKRAGTVMQMCEAVYLFLEELDVPKKLEELRIRAEESGDFLFATDHEQVWEEVMSLLDTFVEMLGEEK
MSLSMFTDVMSTGLEALQFANIPPSLDQVLIANIDHSRLSDVRATFIIGVNEGVIPAAPMDEGMLSDEEREVLGAAGIEL
APTTRQTLLEEQFVMYQMVTRASEKLYISCPLADEEGKTLLASSFIKKIKRMFPNVKDSFITNDVNDLSRSEQISYVATP
EVTLSYVMQQLQTWKRYGFEGNLDFWWDVYNFYVTSDEWKQKSSRVLSSLFYRNRAKKLSTAVSRDLYGDIIKGSVSRME
LFNRCAYAHFAQHGLSLRERDIFKLDAPDIGELFHAALKKIADKLLRENRTWADLSIKECEHLSVLVIEEIAPLLQRQIL
LSSNRHFYLKQKLQQIIFRTSIILREHAKSSGFVPVDLEVPFGMGGTGSLPPMEFSLPNGVKMEVVGRIDRVDKAEDENG
TFLRIIDYKSSSKALDLTEVYYGLALQMLTYLDVVTSNAQTWMKKGHAASPAGVLYFHIHNPIVEMKGDATEAEIEKEIL
KKFKMKGLVLGDADVVRLMDNKLSTGSSDIISAGLKKDGSFSARSSIASEQEFNVLQKYVHHTFENIGKDITEGVIDIAP
YKMGNKAACTFCNFKSVCQFDESLEDNQFRSLKDMKDSEAMEKIREEVGGE
MSLRFVIGRAGSGKSTLCLREVQEELKQRPRGKTILYLVPEQMTFQTQQALIGSEDVRGSIRAQVFSFSRLAWKVLQEVG
GASRLHIDEAGVHMLLRKIVESRKDGLSVFQKAAEQNGFFEHLGSMIAEFKRYNVTPSNVYEMWQQLDAHSSSAEQKLLA
NKVYDLQLLYDDFERALIGKYLDSEDYLQLLVEKLPQSEYVNGAEIYIDGFHSFSPQELEIVRQLMICGARVTITLTIDE
KTLAQPVNELDLFYETTLTYEKIKQVAREEKIEIEKTIPLMEQPRFHSPALAHLEAHYEARPNEKFNGEASVTISTAANL
RAEVEGVAREIRKLVADEKYRYRDIAVLLRNGESYYDVMRTLFTDYNIPHFIDEKRPMSHHPLVECIRSALEIISGNWRY
DAVFRCVKTELLYPLDVRKEAMREEMDEFENYCLAYGVQGKRWTAEDPWMYRRYRSLDDTNGMITDSEREMEEKINRLRD
VVRTPVIRMQKRLKRAGTVMQMCEAVYLFLEELDVPKKLEELRIRAEESGDFLFATDHEQVWEEVMSLLDTFVEMLGEEK
MSLSMFTDVMSTGLEALQFANIPPSLDQVLIANIDHSRLSDVRATFIIGVNEGVIPAAPMDEGMLSDEEREVLGAAGIEL
APTTRQTLLEEQFVMYQMVTRASEKLYISCPLADEEGKTLLASSFIKKIKRMFPNVKDSFITNDVNDLSRSEQISYVATP
EVTLSYVMQQLQTWKRYGFEGNLDFWWDVYNFYVTSDEWKQKSSRVLSSLFYRNRAKKLSTAVSRDLYGDIIKGSVSRME
LFNRCAYAHFAQHGLSLRERDIFKLDAPDIGELFHAALKKIADKLLRENRTWADLSIKECEHLSVLVIEEIAPLLQRQIL
LSSNRHFYLKQKLQQIIFRTSIILREHAKSSGFVPVDLEVPFGMGGTGSLPPMEFSLPNGVKMEVVGRIDRVDKAEDENG
TFLRIIDYKSSSKALDLTEVYYGLALQMLTYLDVVTSNAQTWMKKGHAASPAGVLYFHIHNPIVEMKGDATEAEIEKEIL
KKFKMKGLVLGDADVVRLMDNKLSTGSSDIISAGLKKDGSFSARSSIASEQEFNVLQKYVHHTFENIGKDITEGVIDIAP
YKMGNKAACTFCNFKSVCQFDESLEDNQFRSLKDMKDSEAMEKIREEVGGE
Nucleotide
Download Length: 3516 bp
>NTDB_id=230765 BtSCAC15_RS06300 WP_000058589.1 1205277..1208792(+) (addB) [Bacillus thuringiensis strain C15]
ATGTCACTTCGATTTGTGATTGGTAGAGCGGGAAGTGGAAAAAGTACACTTTGTTTACGCGAAGTGCAAGAAGAGTTAAA
ACAACGCCCGAGAGGGAAAACAATATTATATCTTGTGCCAGAACAGATGACATTCCAGACGCAGCAGGCGTTAATTGGAA
GTGAGGATGTAAGAGGTTCTATTCGGGCACAAGTTTTTAGTTTTTCACGATTAGCGTGGAAGGTACTGCAAGAAGTTGGC
GGAGCGAGTCGTCTTCATATTGATGAAGCTGGTGTACATATGTTACTCCGTAAAATTGTAGAGTCTCGTAAAGATGGATT
ATCGGTGTTCCAAAAAGCAGCGGAGCAAAACGGTTTCTTTGAACATCTTGGTAGTATGATTGCAGAGTTTAAACGTTACA
ATGTAACGCCATCTAACGTATATGAAATGTGGCAACAATTAGATGCGCATAGTAGCAGTGCCGAACAAAAGTTACTAGCG
AATAAAGTGTATGATTTACAGCTGTTATACGATGATTTTGAACGTGCTTTAATTGGAAAATATTTAGATTCAGAAGACTA
CCTGCAATTGCTAGTGGAAAAGCTTCCGCAGTCTGAATATGTAAATGGTGCGGAAATTTATATAGACGGATTTCATTCAT
TCTCCCCGCAAGAGTTAGAGATTGTAAGACAGCTTATGATTTGCGGAGCGAGAGTTACGATCACGTTAACGATAGATGAA
AAAACGTTAGCGCAGCCAGTAAATGAACTTGATTTATTTTATGAAACGACGTTAACGTATGAAAAAATAAAACAAGTAGC
GCGTGAAGAGAAAATAGAAATTGAAAAAACAATTCCACTTATGGAACAGCCGCGTTTTCATTCTCCGGCATTAGCGCATT
TAGAAGCTCATTATGAAGCGCGTCCGAATGAAAAATTTAACGGTGAAGCGAGTGTAACGATTAGTACAGCTGCGAATTTA
CGAGCGGAGGTAGAAGGTGTTGCTCGTGAAATTCGTAAACTTGTTGCGGATGAAAAATATCGTTACCGAGATATTGCAGT
GCTTCTTCGTAATGGGGAAAGTTATTACGATGTGATGCGAACGTTATTTACAGATTACAATATCCCGCACTTCATCGATG
AAAAGCGCCCAATGTCACACCACCCATTGGTAGAATGTATTCGTTCTGCACTCGAGATTATTAGTGGGAATTGGCGTTAT
GATGCGGTGTTTCGCTGCGTGAAAACAGAGCTTTTATATCCATTAGACGTAAGAAAAGAAGCGATGCGTGAAGAAATGGA
TGAATTTGAAAATTACTGTTTAGCGTACGGTGTACAAGGAAAGAGATGGACTGCTGAAGATCCATGGATGTATCGCCGTT
ATCGTTCTCTTGATGATACGAACGGGATGATTACAGACAGTGAACGTGAAATGGAAGAGAAAATAAATAGGCTACGTGAC
GTTGTAAGAACACCTGTTATTCGCATGCAAAAAAGGTTAAAGCGTGCAGGAACAGTTATGCAAATGTGTGAAGCAGTTTA
CTTGTTTTTAGAAGAACTGGATGTTCCGAAAAAACTAGAAGAATTACGTATACGTGCAGAAGAAAGTGGAGATTTCTTAT
TTGCGACAGATCATGAACAAGTATGGGAAGAAGTAATGAGCCTTCTTGATACATTTGTAGAGATGCTTGGGGAAGAGAAA
ATGTCTCTTTCTATGTTTACTGACGTTATGTCGACTGGTCTTGAGGCACTTCAATTTGCTAACATTCCGCCGTCATTAGA
CCAAGTGTTAATTGCTAATATTGATCACTCCAGATTATCTGATGTGAGAGCAACGTTTATTATAGGTGTAAATGAGGGTG
TCATTCCAGCAGCACCTATGGATGAAGGTATGCTTTCTGATGAGGAAAGAGAAGTTCTTGGTGCGGCAGGGATTGAATTA
GCGCCAACGACGAGACAAACTTTGTTAGAAGAACAGTTCGTTATGTATCAAATGGTAACGAGAGCATCTGAGAAGTTATA
CATTTCATGCCCGCTTGCAGATGAAGAAGGAAAGACGTTACTTGCGTCTAGCTTTATTAAGAAAATAAAAAGAATGTTCC
CTAATGTGAAAGATTCATTTATTACGAATGACGTAAATGATTTATCACGTTCAGAACAAATTTCATATGTAGCAACGCCA
GAAGTAACGTTATCTTACGTTATGCAGCAACTACAAACGTGGAAGCGATACGGATTTGAAGGGAATTTAGACTTTTGGTG
GGACGTATATAATTTCTACGTAACTTCAGATGAATGGAAACAAAAAAGTAGCCGCGTCTTATCAAGTTTATTCTATCGAA
ATCGTGCGAAGAAACTAAGTACAGCAGTAAGTAGAGATTTATACGGAGATATAATTAAAGGAAGCGTCTCTCGTATGGAA
CTATTTAATCGTTGTGCATACGCTCATTTTGCGCAGCACGGTTTATCGCTTAGAGAGCGTGATATTTTCAAGCTTGATGC
GCCAGACATCGGCGAATTATTCCATGCGGCATTAAAGAAAATTGCGGACAAGTTATTGCGTGAAAACCGCACTTGGGCGG
ATTTATCCATAAAAGAGTGTGAGCATCTTTCTGTTTTAGTAATAGAAGAAATTGCGCCGTTATTACAACGACAAATTTTA
TTAAGTTCAAACCGTCATTTCTATTTAAAACAAAAACTACAACAAATCATTTTCCGTACGTCAATCATTCTTCGTGAACA
TGCGAAGTCAAGCGGATTCGTACCAGTTGATTTAGAGGTGCCGTTCGGTATGGGAGGTACAGGGTCACTTCCGCCGATGG
AATTCTCATTACCAAATGGTGTAAAGATGGAAGTAGTCGGCCGTATTGACCGTGTTGATAAGGCAGAAGATGAAAACGGG
ACGTTCTTACGTATTATTGATTATAAATCAAGTTCAAAAGCGTTAGATTTAACGGAAGTGTATTACGGATTAGCACTTCA
AATGTTAACGTATTTAGATGTTGTTACTTCGAATGCACAGACGTGGATGAAAAAAGGCCACGCAGCATCACCAGCTGGTG
TATTGTATTTCCATATTCATAACCCAATCGTTGAGATGAAAGGTGACGCAACGGAAGCTGAAATTGAAAAAGAAATTTTG
AAGAAATTTAAAATGAAAGGACTCGTATTAGGAGATGCTGACGTTGTTCGTTTAATGGATAACAAACTTTCAACAGGAAG
CTCAGATATTATTTCTGCTGGCCTGAAAAAAGACGGTAGCTTTAGTGCGCGTTCAAGTATTGCAAGTGAGCAAGAGTTTA
ACGTACTGCAAAAATATGTACACCATACGTTTGAAAATATCGGAAAAGATATTACAGAAGGTGTTATCGATATTGCTCCT
TATAAAATGGGGAATAAAGCAGCATGTACGTTCTGTAACTTCAAATCTGTTTGTCAATTTGATGAGTCACTGGAAGATAA
TCAGTTCCGATCGTTAAAAGATATGAAAGATAGCGAAGCGATGGAGAAAATAAGAGAGGAGGTTGGCGGAGAATGA
ATGTCACTTCGATTTGTGATTGGTAGAGCGGGAAGTGGAAAAAGTACACTTTGTTTACGCGAAGTGCAAGAAGAGTTAAA
ACAACGCCCGAGAGGGAAAACAATATTATATCTTGTGCCAGAACAGATGACATTCCAGACGCAGCAGGCGTTAATTGGAA
GTGAGGATGTAAGAGGTTCTATTCGGGCACAAGTTTTTAGTTTTTCACGATTAGCGTGGAAGGTACTGCAAGAAGTTGGC
GGAGCGAGTCGTCTTCATATTGATGAAGCTGGTGTACATATGTTACTCCGTAAAATTGTAGAGTCTCGTAAAGATGGATT
ATCGGTGTTCCAAAAAGCAGCGGAGCAAAACGGTTTCTTTGAACATCTTGGTAGTATGATTGCAGAGTTTAAACGTTACA
ATGTAACGCCATCTAACGTATATGAAATGTGGCAACAATTAGATGCGCATAGTAGCAGTGCCGAACAAAAGTTACTAGCG
AATAAAGTGTATGATTTACAGCTGTTATACGATGATTTTGAACGTGCTTTAATTGGAAAATATTTAGATTCAGAAGACTA
CCTGCAATTGCTAGTGGAAAAGCTTCCGCAGTCTGAATATGTAAATGGTGCGGAAATTTATATAGACGGATTTCATTCAT
TCTCCCCGCAAGAGTTAGAGATTGTAAGACAGCTTATGATTTGCGGAGCGAGAGTTACGATCACGTTAACGATAGATGAA
AAAACGTTAGCGCAGCCAGTAAATGAACTTGATTTATTTTATGAAACGACGTTAACGTATGAAAAAATAAAACAAGTAGC
GCGTGAAGAGAAAATAGAAATTGAAAAAACAATTCCACTTATGGAACAGCCGCGTTTTCATTCTCCGGCATTAGCGCATT
TAGAAGCTCATTATGAAGCGCGTCCGAATGAAAAATTTAACGGTGAAGCGAGTGTAACGATTAGTACAGCTGCGAATTTA
CGAGCGGAGGTAGAAGGTGTTGCTCGTGAAATTCGTAAACTTGTTGCGGATGAAAAATATCGTTACCGAGATATTGCAGT
GCTTCTTCGTAATGGGGAAAGTTATTACGATGTGATGCGAACGTTATTTACAGATTACAATATCCCGCACTTCATCGATG
AAAAGCGCCCAATGTCACACCACCCATTGGTAGAATGTATTCGTTCTGCACTCGAGATTATTAGTGGGAATTGGCGTTAT
GATGCGGTGTTTCGCTGCGTGAAAACAGAGCTTTTATATCCATTAGACGTAAGAAAAGAAGCGATGCGTGAAGAAATGGA
TGAATTTGAAAATTACTGTTTAGCGTACGGTGTACAAGGAAAGAGATGGACTGCTGAAGATCCATGGATGTATCGCCGTT
ATCGTTCTCTTGATGATACGAACGGGATGATTACAGACAGTGAACGTGAAATGGAAGAGAAAATAAATAGGCTACGTGAC
GTTGTAAGAACACCTGTTATTCGCATGCAAAAAAGGTTAAAGCGTGCAGGAACAGTTATGCAAATGTGTGAAGCAGTTTA
CTTGTTTTTAGAAGAACTGGATGTTCCGAAAAAACTAGAAGAATTACGTATACGTGCAGAAGAAAGTGGAGATTTCTTAT
TTGCGACAGATCATGAACAAGTATGGGAAGAAGTAATGAGCCTTCTTGATACATTTGTAGAGATGCTTGGGGAAGAGAAA
ATGTCTCTTTCTATGTTTACTGACGTTATGTCGACTGGTCTTGAGGCACTTCAATTTGCTAACATTCCGCCGTCATTAGA
CCAAGTGTTAATTGCTAATATTGATCACTCCAGATTATCTGATGTGAGAGCAACGTTTATTATAGGTGTAAATGAGGGTG
TCATTCCAGCAGCACCTATGGATGAAGGTATGCTTTCTGATGAGGAAAGAGAAGTTCTTGGTGCGGCAGGGATTGAATTA
GCGCCAACGACGAGACAAACTTTGTTAGAAGAACAGTTCGTTATGTATCAAATGGTAACGAGAGCATCTGAGAAGTTATA
CATTTCATGCCCGCTTGCAGATGAAGAAGGAAAGACGTTACTTGCGTCTAGCTTTATTAAGAAAATAAAAAGAATGTTCC
CTAATGTGAAAGATTCATTTATTACGAATGACGTAAATGATTTATCACGTTCAGAACAAATTTCATATGTAGCAACGCCA
GAAGTAACGTTATCTTACGTTATGCAGCAACTACAAACGTGGAAGCGATACGGATTTGAAGGGAATTTAGACTTTTGGTG
GGACGTATATAATTTCTACGTAACTTCAGATGAATGGAAACAAAAAAGTAGCCGCGTCTTATCAAGTTTATTCTATCGAA
ATCGTGCGAAGAAACTAAGTACAGCAGTAAGTAGAGATTTATACGGAGATATAATTAAAGGAAGCGTCTCTCGTATGGAA
CTATTTAATCGTTGTGCATACGCTCATTTTGCGCAGCACGGTTTATCGCTTAGAGAGCGTGATATTTTCAAGCTTGATGC
GCCAGACATCGGCGAATTATTCCATGCGGCATTAAAGAAAATTGCGGACAAGTTATTGCGTGAAAACCGCACTTGGGCGG
ATTTATCCATAAAAGAGTGTGAGCATCTTTCTGTTTTAGTAATAGAAGAAATTGCGCCGTTATTACAACGACAAATTTTA
TTAAGTTCAAACCGTCATTTCTATTTAAAACAAAAACTACAACAAATCATTTTCCGTACGTCAATCATTCTTCGTGAACA
TGCGAAGTCAAGCGGATTCGTACCAGTTGATTTAGAGGTGCCGTTCGGTATGGGAGGTACAGGGTCACTTCCGCCGATGG
AATTCTCATTACCAAATGGTGTAAAGATGGAAGTAGTCGGCCGTATTGACCGTGTTGATAAGGCAGAAGATGAAAACGGG
ACGTTCTTACGTATTATTGATTATAAATCAAGTTCAAAAGCGTTAGATTTAACGGAAGTGTATTACGGATTAGCACTTCA
AATGTTAACGTATTTAGATGTTGTTACTTCGAATGCACAGACGTGGATGAAAAAAGGCCACGCAGCATCACCAGCTGGTG
TATTGTATTTCCATATTCATAACCCAATCGTTGAGATGAAAGGTGACGCAACGGAAGCTGAAATTGAAAAAGAAATTTTG
AAGAAATTTAAAATGAAAGGACTCGTATTAGGAGATGCTGACGTTGTTCGTTTAATGGATAACAAACTTTCAACAGGAAG
CTCAGATATTATTTCTGCTGGCCTGAAAAAAGACGGTAGCTTTAGTGCGCGTTCAAGTATTGCAAGTGAGCAAGAGTTTA
ACGTACTGCAAAAATATGTACACCATACGTTTGAAAATATCGGAAAAGATATTACAGAAGGTGTTATCGATATTGCTCCT
TATAAAATGGGGAATAAAGCAGCATGTACGTTCTGTAACTTCAAATCTGTTTGTCAATTTGATGAGTCACTGGAAGATAA
TCAGTTCCGATCGTTAAAAGATATGAAAGATAGCGAAGCGATGGAGAAAATAAGAGAGGAGGTTGGCGGAGAATGA
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 |
49.403 |
100 |
0.494 |