Detailed information
Bioinformatically predicted
Overview
| Name | recA | Type | Machinery gene |
| Locus tag | JRC45_RS05395 | Genome accession | NZ_CP070287 |
| Coordinates | 1117160..1118221 (+) | Length | 353 a.a. |
| NCBI ID | WP_000963142.1 | Uniprot ID | A0A2T3RPR4 |
| Organism | Escherichia albertii strain Sample 168 | ||
| Function | homologous recombination (predicted from homology) Homologous recombination |
||
Genomic Context
Location: 1112160..1123221
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| JRC45_RS05365 (JRC45_05365) | srlB | 1112881..1113252 (-) | 372 | WP_054412053.1 | PTS glucitol/sorbitol transporter subunit IIA | - |
| JRC45_RS05370 (JRC45_05370) | srlE | 1113263..1114222 (-) | 960 | WP_204629174.1 | PTS glucitol/sorbitol transporter subunit IIB | - |
| JRC45_RS05375 (JRC45_05375) | srlA | 1114219..1114782 (-) | 564 | WP_204629175.1 | PTS glucitol/sorbitol transporter subunit IIC | - |
| JRC45_RS05380 (JRC45_05380) | mltB | 1115038..1116123 (+) | 1086 | WP_000476838.1 | lytic murein transglycosylase B | - |
| JRC45_RS05385 (JRC45_05385) | - | 1116162..1116401 (-) | 240 | WP_000985460.1 | hypothetical protein | - |
| JRC45_RS05390 (JRC45_05390) | pncC | 1116583..1117080 (+) | 498 | WP_000132228.1 | nicotinamide-nucleotide amidase | - |
| JRC45_RS05395 (JRC45_05395) | recA | 1117160..1118221 (+) | 1062 | WP_000963142.1 | recombinase RecA | Machinery gene |
| JRC45_RS05400 (JRC45_05400) | recX | 1118461..1118961 (+) | 501 | WP_000140492.1 | recombination regulator RecX | - |
| JRC45_RS05405 (JRC45_05405) | alaS | 1119090..1121720 (+) | 2631 | WP_208625618.1 | alanine--tRNA ligase | - |
| JRC45_RS05410 (JRC45_05410) | csrA | 1121955..1122140 (+) | 186 | WP_000906486.1 | carbon storage regulator CsrA | - |
Sequence
Protein
Download Length: 353 a.a. Molecular weight: 37943.35 Da Isoelectric Point: 4.8171
>NTDB_id=538979 JRC45_RS05395 WP_000963142.1 1117160..1118221(+) (recA) [Escherichia albertii strain Sample 168]
MAIDENKQKALAAALGQIEKQFGKGSIMRLGEDRSMDVETISTGSLSLDIALGAGGLPMGRIVEIYGPESSGKTTLTLQV
IAAAQREGKTCAFIDAEHALDPIYARKLGVDIDNLLCSQPDTGEQALEICDALARSGAVDVIVVDSVAALTPKAEIEGEI
GDSHMGLAARMMSQAMRKLAGNLKQSNTLLIFINQIRMKIGVMFGNPETTTGGNALKFYASVRLDIRRIGAVKEGENVVG
SETRVKVVKNKIAAPFKQAEFQILYGEGINFYGELVDLGVKEKLIEKAGAWYSYKGEKIGQGKANATAWLKDNPETAKEI
EKKVRELLLSNPNSTPDFSVDDSEGVAEANEDF
MAIDENKQKALAAALGQIEKQFGKGSIMRLGEDRSMDVETISTGSLSLDIALGAGGLPMGRIVEIYGPESSGKTTLTLQV
IAAAQREGKTCAFIDAEHALDPIYARKLGVDIDNLLCSQPDTGEQALEICDALARSGAVDVIVVDSVAALTPKAEIEGEI
GDSHMGLAARMMSQAMRKLAGNLKQSNTLLIFINQIRMKIGVMFGNPETTTGGNALKFYASVRLDIRRIGAVKEGENVVG
SETRVKVVKNKIAAPFKQAEFQILYGEGINFYGELVDLGVKEKLIEKAGAWYSYKGEKIGQGKANATAWLKDNPETAKEI
EKKVRELLLSNPNSTPDFSVDDSEGVAEANEDF
Nucleotide
Download Length: 1062 bp
>NTDB_id=538979 JRC45_RS05395 WP_000963142.1 1117160..1118221(+) (recA) [Escherichia albertii strain Sample 168]
ATGGCTATCGACGAAAACAAACAGAAAGCGTTGGCGGCAGCACTGGGCCAGATTGAGAAACAATTTGGTAAAGGCTCCAT
CATGCGCCTGGGTGAAGACCGTTCCATGGATGTGGAAACCATCTCTACTGGTTCGCTTTCACTGGATATCGCGCTTGGGG
CAGGTGGTCTGCCGATGGGCCGTATCGTCGAAATCTACGGACCGGAATCTTCCGGTAAAACCACGCTGACGCTGCAGGTG
ATTGCTGCTGCCCAGCGCGAAGGTAAAACTTGTGCATTTATCGATGCTGAACACGCGCTGGATCCAATCTATGCTCGTAA
ACTGGGCGTCGATATCGACAACCTGCTGTGTTCCCAGCCGGACACTGGCGAACAGGCGCTGGAAATCTGTGACGCCCTGG
CGCGCTCTGGCGCAGTAGACGTTATCGTTGTTGACTCCGTAGCGGCACTGACGCCGAAAGCGGAAATCGAAGGTGAAATC
GGCGACTCTCACATGGGCCTTGCGGCACGTATGATGAGCCAGGCGATGCGTAAGCTGGCGGGTAACCTGAAGCAGTCCAA
CACGCTGCTGATCTTCATCAACCAGATCCGTATGAAAATTGGTGTGATGTTCGGTAACCCGGAAACCACTACCGGTGGTA
ACGCGCTGAAATTCTACGCCTCTGTTCGTCTCGACATCCGTCGTATCGGCGCGGTGAAAGAGGGCGAAAACGTGGTGGGT
AGCGAAACCCGCGTGAAAGTTGTGAAGAACAAAATCGCTGCGCCGTTTAAACAGGCTGAATTCCAGATCCTCTACGGCGA
AGGTATCAACTTCTACGGCGAACTGGTTGATCTGGGTGTGAAAGAGAAGCTGATCGAGAAAGCTGGCGCGTGGTACAGCT
ACAAAGGCGAGAAGATCGGCCAGGGTAAAGCAAATGCGACTGCCTGGCTGAAAGACAACCCGGAAACCGCGAAAGAGATC
GAGAAGAAAGTACGTGAGCTGCTGCTGAGCAACCCGAACTCAACGCCGGATTTCTCTGTAGATGACAGCGAAGGCGTAGC
AGAAGCTAACGAAGATTTTTAA
ATGGCTATCGACGAAAACAAACAGAAAGCGTTGGCGGCAGCACTGGGCCAGATTGAGAAACAATTTGGTAAAGGCTCCAT
CATGCGCCTGGGTGAAGACCGTTCCATGGATGTGGAAACCATCTCTACTGGTTCGCTTTCACTGGATATCGCGCTTGGGG
CAGGTGGTCTGCCGATGGGCCGTATCGTCGAAATCTACGGACCGGAATCTTCCGGTAAAACCACGCTGACGCTGCAGGTG
ATTGCTGCTGCCCAGCGCGAAGGTAAAACTTGTGCATTTATCGATGCTGAACACGCGCTGGATCCAATCTATGCTCGTAA
ACTGGGCGTCGATATCGACAACCTGCTGTGTTCCCAGCCGGACACTGGCGAACAGGCGCTGGAAATCTGTGACGCCCTGG
CGCGCTCTGGCGCAGTAGACGTTATCGTTGTTGACTCCGTAGCGGCACTGACGCCGAAAGCGGAAATCGAAGGTGAAATC
GGCGACTCTCACATGGGCCTTGCGGCACGTATGATGAGCCAGGCGATGCGTAAGCTGGCGGGTAACCTGAAGCAGTCCAA
CACGCTGCTGATCTTCATCAACCAGATCCGTATGAAAATTGGTGTGATGTTCGGTAACCCGGAAACCACTACCGGTGGTA
ACGCGCTGAAATTCTACGCCTCTGTTCGTCTCGACATCCGTCGTATCGGCGCGGTGAAAGAGGGCGAAAACGTGGTGGGT
AGCGAAACCCGCGTGAAAGTTGTGAAGAACAAAATCGCTGCGCCGTTTAAACAGGCTGAATTCCAGATCCTCTACGGCGA
AGGTATCAACTTCTACGGCGAACTGGTTGATCTGGGTGTGAAAGAGAAGCTGATCGAGAAAGCTGGCGCGTGGTACAGCT
ACAAAGGCGAGAAGATCGGCCAGGGTAAAGCAAATGCGACTGCCTGGCTGAAAGACAACCCGGAAACCGCGAAAGAGATC
GAGAAGAAAGTACGTGAGCTGCTGCTGAGCAACCCGAACTCAACGCCGGATTTCTCTGTAGATGACAGCGAAGGCGTAGC
AGAAGCTAACGAAGATTTTTAA
Similar proteins
Only experimentally validated proteins are listed.