Detailed information
Bioinformatically predicted
Overview
| Name | recA | Type | Machinery gene |
| Locus tag | QNH26_RS08715 | Genome accession | NZ_CP126089 |
| Coordinates | 1762742..1763788 (+) | Length | 348 a.a. |
| NCBI ID | WP_034313522.1 | Uniprot ID | A0AAN2PG08 |
| Organism | Peribacillus frigoritolerans strain CF29 | ||
| Function | homologous recombination (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 1757742..1768788
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| QNH26_RS08690 (QNH26_08690) | - | 1758179..1758436 (+) | 258 | WP_057278386.1 | DUF3243 domain-containing protein | - |
| QNH26_RS08695 (QNH26_08695) | - | 1758680..1759471 (+) | 792 | WP_034313530.1 | DUF3388 domain-containing protein | - |
| QNH26_RS08700 (QNH26_08700) | - | 1759480..1760388 (+) | 909 | WP_347343254.1 | RodZ family helix-turn-helix domain-containing protein | - |
| QNH26_RS08705 (QNH26_08705) | pgsA | 1760553..1761137 (+) | 585 | WP_283930325.1 | CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase | - |
| QNH26_RS08710 (QNH26_08710) | cinA | 1761161..1762393 (+) | 1233 | WP_057278384.1 | competence/damage-inducible protein A | Machinery gene |
| QNH26_RS08715 (QNH26_08715) | recA | 1762742..1763788 (+) | 1047 | WP_034313522.1 | recombinase RecA | Machinery gene |
| QNH26_RS08720 (QNH26_08720) | rny | 1764142..1765701 (+) | 1560 | WP_057278383.1 | ribonuclease Y | - |
| QNH26_RS08725 (QNH26_08725) | - | 1765855..1766652 (+) | 798 | WP_063591644.1 | TIGR00282 family metallophosphoesterase | - |
| QNH26_RS08730 (QNH26_08730) | spoVS | 1766826..1767086 (+) | 261 | WP_029281188.1 | stage V sporulation protein SpoVS | - |
| QNH26_RS08735 (QNH26_08735) | - | 1767220..1768152 (+) | 933 | WP_283930326.1 | dipeptidase | - |
Sequence
Protein
Download Length: 348 a.a. Molecular weight: 38065.09 Da Isoelectric Point: 4.7334
>NTDB_id=835228 QNH26_RS08715 WP_034313522.1 1762742..1763788(+) (recA) [Peribacillus frigoritolerans strain CF29]
MSDRQAALDMALKQIEKQFGKGSIMKLGEQTDRRISTISSGSLALDVALGVGGYPRGRVIEIYGPESSGKTTVALHAIAE
VQKTGGTAAFIDAEHALDPAYSEKLGVNIDELLLSQPDTGEQALEIAEALVRSGAVDIIVIDSVAALVPKAEIEGEMGDS
HMGLQARMMSQALRKLSGSINKSNTIAIFINQVREKIGVMFGNPETTPGGRALKFYSTVRLEVRRAEQLKQGNEIVGNKT
KIKVVKNKVAPPFRQAEVDIMYGQGISQEGEIIDMGADLDIVLKSGSWYSYNEERVGQGRENAKLFLKENQDIAQEISQK
IRDHYNLDGEHELPPEENETEEHFELLD
MSDRQAALDMALKQIEKQFGKGSIMKLGEQTDRRISTISSGSLALDVALGVGGYPRGRVIEIYGPESSGKTTVALHAIAE
VQKTGGTAAFIDAEHALDPAYSEKLGVNIDELLLSQPDTGEQALEIAEALVRSGAVDIIVIDSVAALVPKAEIEGEMGDS
HMGLQARMMSQALRKLSGSINKSNTIAIFINQVREKIGVMFGNPETTPGGRALKFYSTVRLEVRRAEQLKQGNEIVGNKT
KIKVVKNKVAPPFRQAEVDIMYGQGISQEGEIIDMGADLDIVLKSGSWYSYNEERVGQGRENAKLFLKENQDIAQEISQK
IRDHYNLDGEHELPPEENETEEHFELLD
Nucleotide
Download Length: 1047 bp
>NTDB_id=835228 QNH26_RS08715 WP_034313522.1 1762742..1763788(+) (recA) [Peribacillus frigoritolerans strain CF29]
GTGAGTGATCGTCAAGCGGCTTTAGATATGGCGTTAAAACAAATTGAGAAACAATTTGGTAAAGGTTCGATTATGAAACT
TGGGGAACAGACTGATCGTAGGATTTCAACGATCTCAAGCGGTTCTTTAGCATTGGACGTAGCGTTGGGAGTAGGCGGAT
ATCCAAGAGGCCGGGTCATTGAGATATATGGACCTGAAAGCTCCGGTAAAACGACTGTAGCATTACATGCCATTGCAGAG
GTACAAAAGACTGGCGGAACGGCTGCATTCATTGATGCCGAGCATGCTTTAGATCCAGCATATTCAGAAAAACTTGGTGT
GAATATCGATGAGTTACTGCTTTCACAACCTGATACGGGTGAACAAGCCCTAGAGATCGCTGAAGCGTTAGTTCGAAGCG
GAGCGGTAGATATCATTGTCATTGACTCGGTGGCGGCACTTGTACCAAAAGCTGAAATCGAAGGCGAAATGGGAGATTCC
CATATGGGTCTCCAAGCCCGGATGATGTCTCAGGCACTTAGAAAACTGTCTGGTTCCATTAATAAATCAAATACCATTGC
CATTTTCATTAACCAAGTCCGTGAAAAAATCGGTGTTATGTTTGGGAATCCAGAAACGACTCCGGGAGGCCGGGCATTGA
AGTTCTATTCAACTGTTCGTCTGGAAGTGCGCCGTGCGGAGCAATTAAAACAAGGTAATGAAATCGTGGGTAATAAAACG
AAAATCAAAGTTGTAAAAAACAAAGTTGCTCCACCATTCCGCCAAGCAGAAGTTGACATCATGTATGGTCAAGGGATTTC
ACAGGAAGGTGAAATCATCGATATGGGTGCAGACCTTGATATCGTCCTTAAAAGCGGCTCATGGTATTCATACAATGAAG
AGCGTGTCGGACAAGGCCGTGAAAATGCGAAGCTTTTCCTGAAAGAAAATCAGGATATCGCTCAGGAAATTTCTCAGAAA
ATCAGAGATCACTATAATCTTGATGGAGAGCATGAATTACCACCAGAAGAAAATGAAACAGAAGAGCATTTTGAATTGCT
TGATTAA
GTGAGTGATCGTCAAGCGGCTTTAGATATGGCGTTAAAACAAATTGAGAAACAATTTGGTAAAGGTTCGATTATGAAACT
TGGGGAACAGACTGATCGTAGGATTTCAACGATCTCAAGCGGTTCTTTAGCATTGGACGTAGCGTTGGGAGTAGGCGGAT
ATCCAAGAGGCCGGGTCATTGAGATATATGGACCTGAAAGCTCCGGTAAAACGACTGTAGCATTACATGCCATTGCAGAG
GTACAAAAGACTGGCGGAACGGCTGCATTCATTGATGCCGAGCATGCTTTAGATCCAGCATATTCAGAAAAACTTGGTGT
GAATATCGATGAGTTACTGCTTTCACAACCTGATACGGGTGAACAAGCCCTAGAGATCGCTGAAGCGTTAGTTCGAAGCG
GAGCGGTAGATATCATTGTCATTGACTCGGTGGCGGCACTTGTACCAAAAGCTGAAATCGAAGGCGAAATGGGAGATTCC
CATATGGGTCTCCAAGCCCGGATGATGTCTCAGGCACTTAGAAAACTGTCTGGTTCCATTAATAAATCAAATACCATTGC
CATTTTCATTAACCAAGTCCGTGAAAAAATCGGTGTTATGTTTGGGAATCCAGAAACGACTCCGGGAGGCCGGGCATTGA
AGTTCTATTCAACTGTTCGTCTGGAAGTGCGCCGTGCGGAGCAATTAAAACAAGGTAATGAAATCGTGGGTAATAAAACG
AAAATCAAAGTTGTAAAAAACAAAGTTGCTCCACCATTCCGCCAAGCAGAAGTTGACATCATGTATGGTCAAGGGATTTC
ACAGGAAGGTGAAATCATCGATATGGGTGCAGACCTTGATATCGTCCTTAAAAGCGGCTCATGGTATTCATACAATGAAG
AGCGTGTCGGACAAGGCCGTGAAAATGCGAAGCTTTTCCTGAAAGAAAATCAGGATATCGCTCAGGAAATTTCTCAGAAA
ATCAGAGATCACTATAATCTTGATGGAGAGCATGAATTACCACCAGAAGAAAATGAAACAGAAGAGCATTTTGAATTGCT
TGATTAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.