Detailed information
Bioinformatically predicted
Overview
| Name | luxQ | Type | Regulator |
| Locus tag | ACG4I3_RS15535 | Genome accession | NZ_CP173266 |
| Coordinates | 322167..324740 (-) | Length | 857 a.a. |
| NCBI ID | WP_001026306.1 | Uniprot ID | Q9KLK7 |
| Organism | Vibrio cholerae strain M714 | ||
| Function | autoinducer sensor (predicted from homology) Competence regulation |
||
Genomic Context
Location: 317167..329740
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| ACG4I3_RS15515 | - | 319590..319895 (-) | 306 | WP_001181134.1 | hypothetical protein | - |
| ACG4I3_RS15520 | - | 320098..320496 (+) | 399 | WP_000831416.1 | YgiW/YdeI family stress tolerance OB fold protein | - |
| ACG4I3_RS15525 | - | 320748..321266 (+) | 519 | WP_000914961.1 | hypothetical protein | - |
| ACG4I3_RS15530 | - | 321510..322175 (+) | 666 | WP_000268204.1 | flagellar brake protein | - |
| ACG4I3_RS15535 | luxQ | 322167..324740 (-) | 2574 | WP_001026306.1 | quorum-sensing autoinducer 2 sensor kinase/phosphatase LuxQ | Regulator |
| ACG4I3_RS15540 | luxP | 324758..325852 (-) | 1095 | WP_000823678.1 | autoinducer 2-binding periplasmic protein LuxP | Regulator |
| ACG4I3_RS15545 | traF | 326064..327224 (-) | 1161 | WP_001025860.1 | conjugal transfer protein TraF | - |
| ACG4I3_RS15550 | - | 327326..327631 (-) | 306 | WP_000429067.1 | GIY-YIG nuclease family protein | - |
| ACG4I3_RS15555 | - | 327648..328298 (-) | 651 | WP_001025631.1 | YceH family protein | - |
| ACG4I3_RS15560 | - | 328340..328537 (-) | 198 | WP_001246071.1 | hypothetical protein | - |
| ACG4I3_RS15565 | - | 328725..329045 (+) | 321 | WP_001089529.1 | DUF496 family protein | - |
| ACG4I3_RS15570 | - | 329458..329709 (+) | 252 | WP_001882582.1 | YgjV family protein | - |
Sequence
Protein
Download Length: 857 a.a. Molecular weight: 96929.73 Da Isoelectric Point: 6.0197
>NTDB_id=1071275 ACG4I3_RS15535 WP_001026306.1 322167..324740(-) (luxQ) [Vibrio cholerae strain M714]
MNIRPSQIKHKQRIASFITHAVVVVMGVLIVSVLFQSYQISSRLMAQEGQRTSVQTSSLIQSLFDFRLAALRIHQDSTAK
NASLINALVSRDSSRLDEFFSSVDELELSNAPDLRFISSHDNILWDDGNASFYGIAQQELNKLIRRVAISGNWHLVQTPS
EGKSVHILMRRSSLIEAGTGQVVGYLYVGIVLNDNFALLENIRSGSNSENLVLAVDTTPLVSTLKGNEPYSLDYVVHSAK
DAMRDSFIVGQTFLEVESVPTYLCVYSIQTNQNVLTLRDNFYFWMAFALISMIGVSIASRWWLQKRIQREIETLMNYTHK
LMDLDTKSEFIGSKIYEFDYFGRTLEQSFRRLANKEKQFEDLFNFALSPTMLWNTSGRLIRMNPSAQIQFLREDAQNHFL
FEILERQLLPTITNAAQGNNPSDVTTEVDGRVYRWNLSPIMVEGQIISIITQGQDITTIAEAEKQSQAARREAEESARVR
AEFLAKMSHELRTPLNGVLGVSQLLKRTPLNDEQREHVAVLCSSGEHLLAVLNDILDFSRLEQGKFRIQKNEFRLKELVC
AIDRIYRPLCNEKGLELVVNSNITTAAIVRSDQIRINQILFNLLNNAIKFTHQGSIRVELQLIEGDPLAQLVIQVVDTGI
GIREQDLTVIFEPFMQAESTTTREYGGSGLGLTIVHSLVEMLSGQLHVSSEYGIGTRFEIQLPIELVEKPDAPQQLLPAP
DPQPLFDKTLRVLLVEDNHTNAFIAQAFCRKYGLDVSWVTDGLQAIEELKIHDYDLVLMDNQLPYLDGVETTRTIKKVLH
LPVVVYACTADGLEETRQAFFHAGAEYVLVKPLKEQTLHKALEHFKHHHGQKNAGLN
MNIRPSQIKHKQRIASFITHAVVVVMGVLIVSVLFQSYQISSRLMAQEGQRTSVQTSSLIQSLFDFRLAALRIHQDSTAK
NASLINALVSRDSSRLDEFFSSVDELELSNAPDLRFISSHDNILWDDGNASFYGIAQQELNKLIRRVAISGNWHLVQTPS
EGKSVHILMRRSSLIEAGTGQVVGYLYVGIVLNDNFALLENIRSGSNSENLVLAVDTTPLVSTLKGNEPYSLDYVVHSAK
DAMRDSFIVGQTFLEVESVPTYLCVYSIQTNQNVLTLRDNFYFWMAFALISMIGVSIASRWWLQKRIQREIETLMNYTHK
LMDLDTKSEFIGSKIYEFDYFGRTLEQSFRRLANKEKQFEDLFNFALSPTMLWNTSGRLIRMNPSAQIQFLREDAQNHFL
FEILERQLLPTITNAAQGNNPSDVTTEVDGRVYRWNLSPIMVEGQIISIITQGQDITTIAEAEKQSQAARREAEESARVR
AEFLAKMSHELRTPLNGVLGVSQLLKRTPLNDEQREHVAVLCSSGEHLLAVLNDILDFSRLEQGKFRIQKNEFRLKELVC
AIDRIYRPLCNEKGLELVVNSNITTAAIVRSDQIRINQILFNLLNNAIKFTHQGSIRVELQLIEGDPLAQLVIQVVDTGI
GIREQDLTVIFEPFMQAESTTTREYGGSGLGLTIVHSLVEMLSGQLHVSSEYGIGTRFEIQLPIELVEKPDAPQQLLPAP
DPQPLFDKTLRVLLVEDNHTNAFIAQAFCRKYGLDVSWVTDGLQAIEELKIHDYDLVLMDNQLPYLDGVETTRTIKKVLH
LPVVVYACTADGLEETRQAFFHAGAEYVLVKPLKEQTLHKALEHFKHHHGQKNAGLN
Nucleotide
Download Length: 2574 bp
>NTDB_id=1071275 ACG4I3_RS15535 WP_001026306.1 322167..324740(-) (luxQ) [Vibrio cholerae strain M714]
TTGAACATTCGACCTAGCCAAATCAAGCATAAACAGCGCATCGCTTCTTTTATCACCCATGCTGTCGTGGTGGTGATGGG
CGTTCTGATCGTCAGTGTATTATTCCAAAGTTACCAGATCAGTAGCCGCTTGATGGCTCAAGAAGGACAACGCACTTCAG
TTCAAACCTCCAGCTTGATTCAAAGTTTGTTTGATTTTCGTCTTGCGGCACTGCGAATTCACCAGGACAGCACAGCCAAG
AACGCCAGTTTAATCAACGCACTTGTCAGCCGAGATTCGAGTCGGCTGGATGAATTCTTTTCCAGTGTTGATGAACTTGA
ACTCTCTAATGCGCCAGATCTGCGTTTTATCTCCAGTCACGACAACATCTTGTGGGATGATGGCAACGCCTCTTTTTACG
GCATTGCCCAGCAAGAGCTGAATAAGCTTATCCGCAGAGTGGCGATTAGTGGCAATTGGCACTTGGTTCAAACGCCCAGC
GAGGGAAAATCAGTCCATATTTTGATGCGTCGTTCATCGCTGATTGAAGCGGGAACCGGGCAGGTTGTTGGGTATCTGTA
TGTAGGCATCGTACTCAATGATAACTTTGCGCTGTTGGAAAATATCCGCAGTGGCAGTAACTCAGAAAACCTAGTCCTTG
CCGTGGATACTACGCCGCTGGTTTCTACCTTGAAAGGCAATGAACCTTATTCGCTGGACTATGTGGTGCACAGCGCCAAA
GATGCTATGCGAGACAGCTTTATTGTTGGGCAAACCTTCTTAGAAGTGGAAAGTGTACCGACCTATCTGTGCGTCTACTC
GATTCAGACCAACCAAAATGTGCTCACCCTGCGGGATAATTTCTATTTTTGGATGGCGTTTGCGCTGATCAGTATGATCG
GTGTTTCCATAGCGTCACGCTGGTGGCTACAAAAACGCATTCAGCGTGAAATTGAAACCTTGATGAATTACACCCATAAA
TTGATGGATCTGGATACGAAAAGTGAGTTTATCGGTTCAAAAATTTATGAGTTCGACTATTTTGGGCGAACGTTGGAACA
ATCATTCCGTCGTCTCGCCAATAAAGAAAAGCAGTTTGAAGATCTGTTTAACTTTGCGCTTTCACCGACCATGCTTTGGA
ATACCTCTGGTCGGCTGATCCGCATGAACCCCTCAGCGCAAATCCAGTTTTTGCGCGAAGATGCGCAAAACCATTTCTTA
TTTGAGATTCTTGAACGCCAACTGTTGCCGACCATCACTAATGCGGCACAGGGCAATAATCCGAGTGACGTCACAACCGA
AGTGGATGGTCGTGTGTACCGCTGGAACCTTTCACCGATCATGGTGGAAGGGCAGATCATTTCCATCATTACTCAAGGGC
AAGATATCACCACCATCGCGGAAGCGGAGAAGCAAAGCCAAGCCGCAAGGCGCGAAGCGGAAGAGTCGGCACGGGTCAGG
GCCGAGTTTTTGGCCAAAATGAGTCACGAATTGCGCACGCCGCTCAATGGTGTGCTCGGTGTTTCCCAACTGCTAAAACG
GACCCCACTCAATGATGAACAGCGCGAACACGTGGCTGTGTTATGCAGCAGTGGTGAACATTTGCTCGCGGTGCTGAATG
ACATCTTGGATTTCTCACGCTTAGAGCAGGGCAAATTCCGTATTCAAAAGAATGAGTTTCGCCTTAAAGAGTTGGTGTGC
GCGATTGACCGCATTTATCGACCTTTATGTAATGAAAAAGGCTTGGAACTGGTGGTGAATTCCAATATCACTACCGCAGC
GATTGTGCGCAGCGATCAGATCCGGATTAACCAAATCTTGTTCAATTTGCTCAATAACGCGATCAAGTTTACTCACCAAG
GTTCGATACGTGTCGAATTGCAATTAATTGAAGGTGATCCATTAGCTCAGCTGGTGATTCAAGTCGTCGATACGGGGATT
GGTATCCGCGAACAAGATTTAACGGTGATTTTTGAACCCTTCATGCAAGCTGAATCGACCACCACTCGAGAGTACGGCGG
AAGTGGTTTAGGCTTAACGATTGTGCACAGTTTAGTGGAAATGCTCAGTGGTCAACTGCACGTCAGCTCCGAGTATGGCA
TTGGTACACGTTTTGAAATTCAGTTACCGATTGAGCTGGTAGAAAAACCGGATGCGCCGCAGCAGTTGTTACCAGCTCCT
GATCCTCAACCGTTATTTGATAAAACTCTGCGTGTACTGTTGGTGGAGGATAACCACACCAATGCCTTTATTGCTCAAGC
ATTCTGTCGTAAATATGGCTTAGATGTGAGCTGGGTAACGGATGGACTACAGGCGATTGAAGAGCTCAAAATACATGACT
ACGACTTAGTGCTGATGGATAACCAGTTACCCTATTTGGATGGCGTTGAGACCACGCGCACCATCAAAAAAGTGCTGCAC
CTTCCGGTGGTGGTGTATGCCTGCACTGCGGATGGCTTAGAAGAAACACGGCAAGCATTTTTCCATGCGGGCGCGGAATA
TGTGTTAGTGAAGCCACTGAAAGAGCAGACTTTGCATAAAGCGCTGGAGCATTTCAAACATCATCATGGCCAAAAAAACG
CTGGCTTAAATTGA
TTGAACATTCGACCTAGCCAAATCAAGCATAAACAGCGCATCGCTTCTTTTATCACCCATGCTGTCGTGGTGGTGATGGG
CGTTCTGATCGTCAGTGTATTATTCCAAAGTTACCAGATCAGTAGCCGCTTGATGGCTCAAGAAGGACAACGCACTTCAG
TTCAAACCTCCAGCTTGATTCAAAGTTTGTTTGATTTTCGTCTTGCGGCACTGCGAATTCACCAGGACAGCACAGCCAAG
AACGCCAGTTTAATCAACGCACTTGTCAGCCGAGATTCGAGTCGGCTGGATGAATTCTTTTCCAGTGTTGATGAACTTGA
ACTCTCTAATGCGCCAGATCTGCGTTTTATCTCCAGTCACGACAACATCTTGTGGGATGATGGCAACGCCTCTTTTTACG
GCATTGCCCAGCAAGAGCTGAATAAGCTTATCCGCAGAGTGGCGATTAGTGGCAATTGGCACTTGGTTCAAACGCCCAGC
GAGGGAAAATCAGTCCATATTTTGATGCGTCGTTCATCGCTGATTGAAGCGGGAACCGGGCAGGTTGTTGGGTATCTGTA
TGTAGGCATCGTACTCAATGATAACTTTGCGCTGTTGGAAAATATCCGCAGTGGCAGTAACTCAGAAAACCTAGTCCTTG
CCGTGGATACTACGCCGCTGGTTTCTACCTTGAAAGGCAATGAACCTTATTCGCTGGACTATGTGGTGCACAGCGCCAAA
GATGCTATGCGAGACAGCTTTATTGTTGGGCAAACCTTCTTAGAAGTGGAAAGTGTACCGACCTATCTGTGCGTCTACTC
GATTCAGACCAACCAAAATGTGCTCACCCTGCGGGATAATTTCTATTTTTGGATGGCGTTTGCGCTGATCAGTATGATCG
GTGTTTCCATAGCGTCACGCTGGTGGCTACAAAAACGCATTCAGCGTGAAATTGAAACCTTGATGAATTACACCCATAAA
TTGATGGATCTGGATACGAAAAGTGAGTTTATCGGTTCAAAAATTTATGAGTTCGACTATTTTGGGCGAACGTTGGAACA
ATCATTCCGTCGTCTCGCCAATAAAGAAAAGCAGTTTGAAGATCTGTTTAACTTTGCGCTTTCACCGACCATGCTTTGGA
ATACCTCTGGTCGGCTGATCCGCATGAACCCCTCAGCGCAAATCCAGTTTTTGCGCGAAGATGCGCAAAACCATTTCTTA
TTTGAGATTCTTGAACGCCAACTGTTGCCGACCATCACTAATGCGGCACAGGGCAATAATCCGAGTGACGTCACAACCGA
AGTGGATGGTCGTGTGTACCGCTGGAACCTTTCACCGATCATGGTGGAAGGGCAGATCATTTCCATCATTACTCAAGGGC
AAGATATCACCACCATCGCGGAAGCGGAGAAGCAAAGCCAAGCCGCAAGGCGCGAAGCGGAAGAGTCGGCACGGGTCAGG
GCCGAGTTTTTGGCCAAAATGAGTCACGAATTGCGCACGCCGCTCAATGGTGTGCTCGGTGTTTCCCAACTGCTAAAACG
GACCCCACTCAATGATGAACAGCGCGAACACGTGGCTGTGTTATGCAGCAGTGGTGAACATTTGCTCGCGGTGCTGAATG
ACATCTTGGATTTCTCACGCTTAGAGCAGGGCAAATTCCGTATTCAAAAGAATGAGTTTCGCCTTAAAGAGTTGGTGTGC
GCGATTGACCGCATTTATCGACCTTTATGTAATGAAAAAGGCTTGGAACTGGTGGTGAATTCCAATATCACTACCGCAGC
GATTGTGCGCAGCGATCAGATCCGGATTAACCAAATCTTGTTCAATTTGCTCAATAACGCGATCAAGTTTACTCACCAAG
GTTCGATACGTGTCGAATTGCAATTAATTGAAGGTGATCCATTAGCTCAGCTGGTGATTCAAGTCGTCGATACGGGGATT
GGTATCCGCGAACAAGATTTAACGGTGATTTTTGAACCCTTCATGCAAGCTGAATCGACCACCACTCGAGAGTACGGCGG
AAGTGGTTTAGGCTTAACGATTGTGCACAGTTTAGTGGAAATGCTCAGTGGTCAACTGCACGTCAGCTCCGAGTATGGCA
TTGGTACACGTTTTGAAATTCAGTTACCGATTGAGCTGGTAGAAAAACCGGATGCGCCGCAGCAGTTGTTACCAGCTCCT
GATCCTCAACCGTTATTTGATAAAACTCTGCGTGTACTGTTGGTGGAGGATAACCACACCAATGCCTTTATTGCTCAAGC
ATTCTGTCGTAAATATGGCTTAGATGTGAGCTGGGTAACGGATGGACTACAGGCGATTGAAGAGCTCAAAATACATGACT
ACGACTTAGTGCTGATGGATAACCAGTTACCCTATTTGGATGGCGTTGAGACCACGCGCACCATCAAAAAAGTGCTGCAC
CTTCCGGTGGTGGTGTATGCCTGCACTGCGGATGGCTTAGAAGAAACACGGCAAGCATTTTTCCATGCGGGCGCGGAATA
TGTGTTAGTGAAGCCACTGAAAGAGCAGACTTTGCATAAAGCGCTGGAGCATTTCAAACATCATCATGGCCAAAAAAACG
CTGGCTTAAATTGA
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| luxQ | Vibrio cholerae strain A1552 |
100 |
100 |
1 |