Detailed information
Bioinformatically predicted
Overview
| Name | recA | Type | Machinery gene |
| Locus tag | K5L00_RS12010 | Genome accession | NZ_CP081459 |
| Coordinates | 2362253..2363302 (-) | Length | 349 a.a. |
| NCBI ID | WP_207027884.1 | Uniprot ID | - |
| Organism | Vagococcus fluvialis strain 110B2 | ||
| Function | homologous recombination (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 2357253..2368302
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| K5L00_RS11990 (K5L00_11970) | - | 2357531..2358256 (-) | 726 | WP_227276310.1 | ThuA domain-containing protein | - |
| K5L00_RS11995 (K5L00_11975) | - | 2358326..2359405 (-) | 1080 | WP_167799677.1 | Gfo/Idh/MocA family protein | - |
| K5L00_RS12000 (K5L00_11980) | - | 2359479..2360360 (-) | 882 | WP_227276311.1 | AraC family transcriptional regulator | - |
| K5L00_RS12005 (K5L00_11985) | rny | 2360482..2362035 (-) | 1554 | WP_086341214.1 | ribonuclease Y | - |
| K5L00_RS12010 (K5L00_11990) | recA | 2362253..2363302 (-) | 1050 | WP_207027884.1 | recombinase RecA | Machinery gene |
| K5L00_RS12015 (K5L00_11995) | cinA | 2363391..2364629 (-) | 1239 | WP_227276312.1 | competence/damage-inducible protein A | Machinery gene |
| K5L00_RS12020 (K5L00_12000) | sdaAB | 2364801..2365460 (+) | 660 | WP_114289892.1 | L-serine ammonia-lyase, iron-sulfur-dependent subunit beta | - |
| K5L00_RS12025 (K5L00_12005) | sdaAA | 2365473..2366342 (+) | 870 | WP_114289893.1 | L-serine ammonia-lyase, iron-sulfur-dependent, subunit alpha | - |
| K5L00_RS12030 (K5L00_12010) | - | 2366360..2366899 (+) | 540 | WP_114289894.1 | putative glycolipid-binding domain-containing protein | - |
| K5L00_RS12035 (K5L00_12015) | - | 2366914..2367144 (-) | 231 | WP_114289895.1 | hypothetical protein | - |
Sequence
Protein
Download Length: 349 a.a. Molecular weight: 37684.84 Da Isoelectric Point: 4.6599
>NTDB_id=596569 K5L00_RS12010 WP_207027884.1 2362253..2363302(-) (recA) [Vagococcus fluvialis strain 110B2]
MSDNRKAALDAALKKIEKDFGKGSVMKLGEKVDTQISTVSSGSLALDSALGVGGYPRGRIIEVYGPESSGKTTVALHAIA
SVQKQGGTAAFIDAEHALDPKYAQALGVNIDELLLSQPDTGEQGLNIAEALVSSGAIDIVVVDSVAALVPRAEIDGEMGD
SHVGLQARLMSQALRKLSGTINKTKTIAIFINQIREKVGVMFGNPEVTPGGRALKFYATVRLEVRRAEQLKQGTDIIGNR
TKIKVVKNKVAPPFRIAEVDIMYGEGISQEGELLDMASDKDIVNKSGAWYSYNDEKIGQGRENSKKFLADNPDIMQEVYE
KVRMAYNMDGVILEEVEEDVEDLGLDLEE
MSDNRKAALDAALKKIEKDFGKGSVMKLGEKVDTQISTVSSGSLALDSALGVGGYPRGRIIEVYGPESSGKTTVALHAIA
SVQKQGGTAAFIDAEHALDPKYAQALGVNIDELLLSQPDTGEQGLNIAEALVSSGAIDIVVVDSVAALVPRAEIDGEMGD
SHVGLQARLMSQALRKLSGTINKTKTIAIFINQIREKVGVMFGNPEVTPGGRALKFYATVRLEVRRAEQLKQGTDIIGNR
TKIKVVKNKVAPPFRIAEVDIMYGEGISQEGELLDMASDKDIVNKSGAWYSYNDEKIGQGRENSKKFLADNPDIMQEVYE
KVRMAYNMDGVILEEVEEDVEDLGLDLEE
Nucleotide
Download Length: 1050 bp
>NTDB_id=596569 K5L00_RS12010 WP_207027884.1 2362253..2363302(-) (recA) [Vagococcus fluvialis strain 110B2]
ATGTCAGATAATCGTAAAGCAGCATTAGATGCAGCATTAAAGAAGATAGAAAAAGATTTTGGTAAAGGATCAGTAATGAA
GTTAGGTGAGAAAGTAGATACTCAAATTTCTACAGTTTCAAGTGGTTCTTTAGCTTTAGACTCAGCTTTAGGAGTTGGTG
GCTATCCTCGAGGTAGAATTATTGAAGTCTATGGACCAGAGAGTTCTGGTAAAACAACAGTCGCTTTACACGCTATTGCC
TCAGTTCAAAAACAAGGCGGAACAGCAGCGTTTATCGATGCTGAGCATGCCTTAGATCCTAAATATGCACAAGCTTTAGG
AGTAAATATTGATGAGTTACTATTATCTCAACCAGATACAGGTGAGCAAGGGTTAAACATTGCAGAAGCTTTAGTATCAA
GTGGTGCCATTGATATTGTAGTAGTTGACTCGGTAGCAGCTTTAGTACCACGTGCTGAGATTGATGGAGAGATGGGAGAC
AGCCACGTAGGGTTACAAGCTCGTTTAATGTCTCAAGCTCTAAGAAAATTATCAGGTACTATTAACAAAACTAAAACAAT
TGCGATTTTTATTAACCAAATCCGTGAAAAAGTTGGAGTTATGTTCGGTAACCCAGAAGTAACACCAGGTGGACGTGCAC
TTAAATTCTACGCAACAGTTCGTTTAGAAGTAAGACGTGCAGAGCAGTTAAAACAAGGTACAGACATTATTGGTAACCGT
ACTAAAATTAAAGTTGTTAAAAATAAAGTAGCTCCTCCGTTTAGAATTGCTGAAGTAGATATTATGTACGGAGAAGGTAT
CTCTCAAGAAGGAGAACTTCTTGACATGGCTTCAGATAAAGATATCGTTAATAAGAGTGGTGCTTGGTATTCTTATAACG
ATGAGAAAATTGGTCAAGGACGTGAAAATTCTAAGAAATTCTTAGCGGACAACCCTGATATCATGCAAGAGGTTTACGAG
AAAGTTCGTATGGCATACAATATGGATGGTGTTATTCTTGAAGAAGTAGAAGAAGACGTAGAAGATTTAGGATTAGATTT
AGAAGAATAA
ATGTCAGATAATCGTAAAGCAGCATTAGATGCAGCATTAAAGAAGATAGAAAAAGATTTTGGTAAAGGATCAGTAATGAA
GTTAGGTGAGAAAGTAGATACTCAAATTTCTACAGTTTCAAGTGGTTCTTTAGCTTTAGACTCAGCTTTAGGAGTTGGTG
GCTATCCTCGAGGTAGAATTATTGAAGTCTATGGACCAGAGAGTTCTGGTAAAACAACAGTCGCTTTACACGCTATTGCC
TCAGTTCAAAAACAAGGCGGAACAGCAGCGTTTATCGATGCTGAGCATGCCTTAGATCCTAAATATGCACAAGCTTTAGG
AGTAAATATTGATGAGTTACTATTATCTCAACCAGATACAGGTGAGCAAGGGTTAAACATTGCAGAAGCTTTAGTATCAA
GTGGTGCCATTGATATTGTAGTAGTTGACTCGGTAGCAGCTTTAGTACCACGTGCTGAGATTGATGGAGAGATGGGAGAC
AGCCACGTAGGGTTACAAGCTCGTTTAATGTCTCAAGCTCTAAGAAAATTATCAGGTACTATTAACAAAACTAAAACAAT
TGCGATTTTTATTAACCAAATCCGTGAAAAAGTTGGAGTTATGTTCGGTAACCCAGAAGTAACACCAGGTGGACGTGCAC
TTAAATTCTACGCAACAGTTCGTTTAGAAGTAAGACGTGCAGAGCAGTTAAAACAAGGTACAGACATTATTGGTAACCGT
ACTAAAATTAAAGTTGTTAAAAATAAAGTAGCTCCTCCGTTTAGAATTGCTGAAGTAGATATTATGTACGGAGAAGGTAT
CTCTCAAGAAGGAGAACTTCTTGACATGGCTTCAGATAAAGATATCGTTAATAAGAGTGGTGCTTGGTATTCTTATAACG
ATGAGAAAATTGGTCAAGGACGTGAAAATTCTAAGAAATTCTTAGCGGACAACCCTGATATCATGCAAGAGGTTTACGAG
AAAGTTCGTATGGCATACAATATGGATGGTGTTATTCTTGAAGAAGTAGAAGAAGACGTAGAAGATTTAGGATTAGATTT
AGAAGAATAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.