Detailed information
Bioinformatically predicted
Overview
| Name | luxQ | Type | Regulator |
| Locus tag | RND59_RS15775 | Genome accession | NZ_CP134781 |
| Coordinates | 9413..11998 (-) | Length | 861 a.a. |
| NCBI ID | WP_311847060.1 | Uniprot ID | - |
| Organism | Vibrio ruber strain HNIBRBA4764 | ||
| Function | autoinducer sensor (predicted from homology) Competence regulation |
||
Genomic Context
Location: 4413..16998
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| RND59_RS15755 (RND59_15755) | - | 6468..6680 (+) | 213 | WP_077333492.1 | hypothetical protein | - |
| RND59_RS15760 (RND59_15760) | - | 6787..7113 (+) | 327 | WP_139344000.1 | hypothetical protein | - |
| RND59_RS15765 (RND59_15765) | - | 7156..8631 (-) | 1476 | WP_311847059.1 | cobyric acid synthase | - |
| RND59_RS15770 (RND59_15770) | - | 8808..9335 (+) | 528 | WP_077333486.1 | hypothetical protein | - |
| RND59_RS15775 (RND59_15775) | luxQ | 9413..11998 (-) | 2586 | WP_311847060.1 | LuxQ periplasmic sensor domain-containing protein | Regulator |
| RND59_RS15780 (RND59_15780) | luxP | 12040..13125 (-) | 1086 | WP_311847061.1 | autoinducer 2-binding periplasmic protein LuxP | Regulator |
| RND59_RS15785 (RND59_15785) | traF | 13204..14349 (-) | 1146 | WP_077337560.1 | conjugal transfer protein TraF | - |
| RND59_RS15790 (RND59_15790) | - | 14425..14715 (-) | 291 | WP_077337561.1 | GIY-YIG nuclease family protein | - |
| RND59_RS15795 (RND59_15795) | - | 14722..15372 (-) | 651 | WP_311847062.1 | DUF480 domain-containing protein | - |
| RND59_RS15800 (RND59_15800) | - | 15431..15628 (-) | 198 | WP_311847063.1 | hypothetical protein | - |
| RND59_RS15805 (RND59_15805) | - | 15854..16171 (+) | 318 | WP_074371103.1 | DUF496 family protein | - |
| RND59_RS15810 (RND59_15810) | - | 16377..16850 (+) | 474 | WP_077337564.1 | peroxiredoxin | - |
Sequence
Protein
Download Length: 861 a.a. Molecular weight: 97320.73 Da Isoelectric Point: 5.3729
>NTDB_id=883683 RND59_RS15775 WP_311847060.1 9413..11998(-) (luxQ) [Vibrio ruber strain HNIBRBA4764]
MNVRPSPIRQKQKIATYFTRAITIIIAILTFSVLFQNYQISSQLIAQEVQRTANQTSGLVQGMVNFRLSLLKIHQDGSAT
NADLLRAVSSGKSQYIDQYFRAVDQLDPDNTPDVRFIAGLNHMLWDDGNAQFYGIVPNELESVSHRMVVNNAWMLVKIPS
LLETVYALARRTPLVSNQSGELIGYFYVMFVINNNYNLIEQIRTRSNSQNLILAIGSNVLSTTLNGEESYSEQDVLASQQ
NSDRLASYTVNTTELNVDENPTQLMIYAVQDNQNVVKLKRNFYYGVVFILVATTLFSFILWRWLHNRIRAEIEKLVQFSR
SIVDRGAEHVFHGSKIEEFDLFGRALEHTFKRLSEQEKQFENLFNFSIAPTILWGADGRLLRMNPAAVKQFSKESQVATF
YELKERLIPSIKKASNGETLNEVATEFDSQIFRWTISPIVTEGRVESVLTQGQDVTTIAEAEKQSHLARSEAERAAGARA
DFLARMSHEVRTPLNGILGVSQLLKESVTDEKQLEQVGVLSLCSEHLLAVLNDILDFSKIEQNKFKLNPVHFHLIETVRV
IERIYQPLCQEKELGLDVMSNIQEDTIVVIDQIRLNQIIFNLLNNAIKFTREGEICVLINLNHSENGAMFHVSISDTGIG
IGHDDLTLIFEPFIQGGTTSSREFGGSGLGLSIVKNLVELMGGVVSVSSQVGKGSCFEFTIPIEVEQYRARHVKETIEQE
LSGQLFEQSPHVLLVEDNKTNAYIAKAFCDRFGLRVTWVEDGTVAVETLKKMGFDLILMDNQLPGMDGVEVTDFVKHQLR
LDTPIYACTADDTEKTKNDFLHAGAEYILVKPIREENLHQALVHFRDHYWEPVTSSVIQSH
MNVRPSPIRQKQKIATYFTRAITIIIAILTFSVLFQNYQISSQLIAQEVQRTANQTSGLVQGMVNFRLSLLKIHQDGSAT
NADLLRAVSSGKSQYIDQYFRAVDQLDPDNTPDVRFIAGLNHMLWDDGNAQFYGIVPNELESVSHRMVVNNAWMLVKIPS
LLETVYALARRTPLVSNQSGELIGYFYVMFVINNNYNLIEQIRTRSNSQNLILAIGSNVLSTTLNGEESYSEQDVLASQQ
NSDRLASYTVNTTELNVDENPTQLMIYAVQDNQNVVKLKRNFYYGVVFILVATTLFSFILWRWLHNRIRAEIEKLVQFSR
SIVDRGAEHVFHGSKIEEFDLFGRALEHTFKRLSEQEKQFENLFNFSIAPTILWGADGRLLRMNPAAVKQFSKESQVATF
YELKERLIPSIKKASNGETLNEVATEFDSQIFRWTISPIVTEGRVESVLTQGQDVTTIAEAEKQSHLARSEAERAAGARA
DFLARMSHEVRTPLNGILGVSQLLKESVTDEKQLEQVGVLSLCSEHLLAVLNDILDFSKIEQNKFKLNPVHFHLIETVRV
IERIYQPLCQEKELGLDVMSNIQEDTIVVIDQIRLNQIIFNLLNNAIKFTREGEICVLINLNHSENGAMFHVSISDTGIG
IGHDDLTLIFEPFIQGGTTSSREFGGSGLGLSIVKNLVELMGGVVSVSSQVGKGSCFEFTIPIEVEQYRARHVKETIEQE
LSGQLFEQSPHVLLVEDNKTNAYIAKAFCDRFGLRVTWVEDGTVAVETLKKMGFDLILMDNQLPGMDGVEVTDFVKHQLR
LDTPIYACTADDTEKTKNDFLHAGAEYILVKPIREENLHQALVHFRDHYWEPVTSSVIQSH
Nucleotide
Download Length: 2586 bp
>NTDB_id=883683 RND59_RS15775 WP_311847060.1 9413..11998(-) (luxQ) [Vibrio ruber strain HNIBRBA4764]
ATGAACGTCAGACCAAGCCCTATCAGACAGAAACAGAAGATAGCGACCTATTTTACCCGGGCGATCACCATTATCATTGC
CATCCTGACATTTAGTGTTCTGTTTCAAAATTATCAGATCAGTAGTCAGCTGATCGCTCAGGAAGTGCAACGAACGGCAA
ATCAGACCTCAGGGTTAGTTCAAGGCATGGTCAACTTCCGTCTTTCTTTGCTCAAAATTCATCAAGATGGTAGTGCGACC
AATGCTGACTTATTACGTGCGGTAAGTTCCGGCAAGTCGCAGTATATCGATCAATATTTTCGTGCCGTTGACCAGCTTGA
CCCGGATAATACCCCGGATGTCCGCTTTATTGCCGGATTGAATCATATGTTGTGGGATGATGGTAATGCGCAGTTTTATG
GCATTGTGCCGAATGAATTGGAGTCTGTTTCACATCGCATGGTTGTCAATAATGCGTGGATGCTGGTGAAAATCCCATCT
TTGCTGGAAACAGTTTATGCTTTGGCCAGAAGAACCCCACTAGTAAGTAATCAATCCGGTGAGCTGATTGGTTACTTTTA
CGTGATGTTTGTGATTAATAATAATTACAATCTTATCGAACAGATTCGCACTCGCAGTAATTCGCAAAATTTGATTCTGG
CGATCGGTTCTAACGTATTGTCGACGACTCTCAACGGAGAAGAGTCATATTCAGAGCAGGATGTGCTCGCTTCCCAACAA
AATTCTGATCGACTGGCGTCTTATACGGTCAATACCACCGAACTGAATGTTGATGAAAATCCGACGCAACTGATGATTTA
TGCGGTTCAGGATAACCAGAATGTCGTCAAACTGAAGCGTAATTTTTATTACGGCGTGGTGTTTATTCTTGTGGCGACAA
CATTGTTCTCTTTTATCTTATGGCGTTGGTTGCACAATAGAATTCGTGCGGAGATTGAAAAACTGGTGCAGTTTAGCCGC
TCTATTGTTGACCGTGGGGCGGAGCATGTTTTTCATGGTTCAAAGATCGAGGAGTTTGATCTGTTCGGGCGGGCACTTGA
ACATACCTTTAAGCGCTTATCCGAACAAGAAAAGCAATTTGAGAACTTGTTTAATTTCTCGATTGCACCAACCATTTTAT
GGGGGGCTGACGGGCGTTTACTACGGATGAACCCCGCAGCGGTAAAACAGTTTTCAAAGGAGAGTCAGGTCGCTACTTTT
TATGAGCTGAAAGAACGATTAATCCCTAGTATTAAAAAGGCGTCGAACGGAGAAACACTGAATGAAGTCGCGACTGAGTT
CGACAGTCAAATATTCCGCTGGACGATTTCCCCGATTGTGACGGAAGGCCGTGTCGAATCAGTCCTGACTCAAGGGCAGG
ATGTCACCACCATTGCCGAAGCTGAGAAACAAAGTCACTTGGCCCGGAGTGAAGCAGAGAGAGCCGCTGGTGCCAGAGCT
GATTTTCTGGCTCGGATGAGTCATGAAGTCAGAACACCTTTAAACGGGATTTTGGGGGTGTCACAGTTATTAAAAGAGAG
TGTGACGGATGAAAAGCAGCTTGAACAGGTTGGGGTCCTCAGCTTATGTAGCGAACATCTGCTTGCTGTTTTGAATGATA
TTCTGGACTTCTCCAAGATCGAACAGAATAAATTCAAACTCAATCCGGTTCATTTCCACTTGATTGAAACGGTTCGGGTC
ATTGAACGGATTTATCAGCCATTGTGTCAGGAAAAGGAACTTGGGCTGGATGTCATGAGCAATATTCAGGAAGATACCAT
CGTGGTTATTGATCAAATCCGTCTCAATCAAATTATCTTCAATTTACTGAATAACGCGATTAAATTTACCCGTGAAGGGG
AGATTTGTGTTCTGATCAATTTAAACCATTCTGAAAATGGTGCGATGTTCCATGTCTCCATTTCTGATACCGGTATTGGT
ATCGGGCATGATGATCTTACGTTGATCTTTGAACCTTTTATTCAGGGGGGAACGACCTCAAGCCGTGAGTTTGGTGGCAG
TGGTTTAGGATTATCGATTGTGAAAAATCTGGTGGAGCTCATGGGGGGCGTGGTGTCAGTTTCGTCTCAGGTCGGCAAAG
GAAGCTGCTTCGAGTTCACGATTCCGATTGAAGTTGAGCAATACCGTGCCAGACACGTAAAAGAAACAATTGAGCAGGAG
CTGTCAGGCCAGTTGTTTGAACAATCTCCGCATGTTTTGTTAGTCGAAGATAACAAAACCAATGCGTATATCGCGAAGGC
ATTTTGTGACCGTTTCGGATTGCGGGTGACATGGGTTGAGGATGGAACGGTTGCGGTTGAAACGCTGAAAAAAATGGGCT
TTGATTTAATTTTAATGGATAACCAGTTGCCGGGCATGGATGGTGTGGAAGTGACGGACTTTGTCAAACATCAGCTCAGA
CTAGACACGCCAATTTATGCATGTACTGCTGATGATACTGAAAAAACGAAGAATGATTTCTTACATGCAGGAGCAGAATA
CATACTGGTCAAACCGATTCGGGAAGAAAATTTACATCAAGCGCTGGTTCATTTCAGAGATCATTATTGGGAACCAGTGA
CGTCGAGTGTCATTCAGTCTCATTAG
ATGAACGTCAGACCAAGCCCTATCAGACAGAAACAGAAGATAGCGACCTATTTTACCCGGGCGATCACCATTATCATTGC
CATCCTGACATTTAGTGTTCTGTTTCAAAATTATCAGATCAGTAGTCAGCTGATCGCTCAGGAAGTGCAACGAACGGCAA
ATCAGACCTCAGGGTTAGTTCAAGGCATGGTCAACTTCCGTCTTTCTTTGCTCAAAATTCATCAAGATGGTAGTGCGACC
AATGCTGACTTATTACGTGCGGTAAGTTCCGGCAAGTCGCAGTATATCGATCAATATTTTCGTGCCGTTGACCAGCTTGA
CCCGGATAATACCCCGGATGTCCGCTTTATTGCCGGATTGAATCATATGTTGTGGGATGATGGTAATGCGCAGTTTTATG
GCATTGTGCCGAATGAATTGGAGTCTGTTTCACATCGCATGGTTGTCAATAATGCGTGGATGCTGGTGAAAATCCCATCT
TTGCTGGAAACAGTTTATGCTTTGGCCAGAAGAACCCCACTAGTAAGTAATCAATCCGGTGAGCTGATTGGTTACTTTTA
CGTGATGTTTGTGATTAATAATAATTACAATCTTATCGAACAGATTCGCACTCGCAGTAATTCGCAAAATTTGATTCTGG
CGATCGGTTCTAACGTATTGTCGACGACTCTCAACGGAGAAGAGTCATATTCAGAGCAGGATGTGCTCGCTTCCCAACAA
AATTCTGATCGACTGGCGTCTTATACGGTCAATACCACCGAACTGAATGTTGATGAAAATCCGACGCAACTGATGATTTA
TGCGGTTCAGGATAACCAGAATGTCGTCAAACTGAAGCGTAATTTTTATTACGGCGTGGTGTTTATTCTTGTGGCGACAA
CATTGTTCTCTTTTATCTTATGGCGTTGGTTGCACAATAGAATTCGTGCGGAGATTGAAAAACTGGTGCAGTTTAGCCGC
TCTATTGTTGACCGTGGGGCGGAGCATGTTTTTCATGGTTCAAAGATCGAGGAGTTTGATCTGTTCGGGCGGGCACTTGA
ACATACCTTTAAGCGCTTATCCGAACAAGAAAAGCAATTTGAGAACTTGTTTAATTTCTCGATTGCACCAACCATTTTAT
GGGGGGCTGACGGGCGTTTACTACGGATGAACCCCGCAGCGGTAAAACAGTTTTCAAAGGAGAGTCAGGTCGCTACTTTT
TATGAGCTGAAAGAACGATTAATCCCTAGTATTAAAAAGGCGTCGAACGGAGAAACACTGAATGAAGTCGCGACTGAGTT
CGACAGTCAAATATTCCGCTGGACGATTTCCCCGATTGTGACGGAAGGCCGTGTCGAATCAGTCCTGACTCAAGGGCAGG
ATGTCACCACCATTGCCGAAGCTGAGAAACAAAGTCACTTGGCCCGGAGTGAAGCAGAGAGAGCCGCTGGTGCCAGAGCT
GATTTTCTGGCTCGGATGAGTCATGAAGTCAGAACACCTTTAAACGGGATTTTGGGGGTGTCACAGTTATTAAAAGAGAG
TGTGACGGATGAAAAGCAGCTTGAACAGGTTGGGGTCCTCAGCTTATGTAGCGAACATCTGCTTGCTGTTTTGAATGATA
TTCTGGACTTCTCCAAGATCGAACAGAATAAATTCAAACTCAATCCGGTTCATTTCCACTTGATTGAAACGGTTCGGGTC
ATTGAACGGATTTATCAGCCATTGTGTCAGGAAAAGGAACTTGGGCTGGATGTCATGAGCAATATTCAGGAAGATACCAT
CGTGGTTATTGATCAAATCCGTCTCAATCAAATTATCTTCAATTTACTGAATAACGCGATTAAATTTACCCGTGAAGGGG
AGATTTGTGTTCTGATCAATTTAAACCATTCTGAAAATGGTGCGATGTTCCATGTCTCCATTTCTGATACCGGTATTGGT
ATCGGGCATGATGATCTTACGTTGATCTTTGAACCTTTTATTCAGGGGGGAACGACCTCAAGCCGTGAGTTTGGTGGCAG
TGGTTTAGGATTATCGATTGTGAAAAATCTGGTGGAGCTCATGGGGGGCGTGGTGTCAGTTTCGTCTCAGGTCGGCAAAG
GAAGCTGCTTCGAGTTCACGATTCCGATTGAAGTTGAGCAATACCGTGCCAGACACGTAAAAGAAACAATTGAGCAGGAG
CTGTCAGGCCAGTTGTTTGAACAATCTCCGCATGTTTTGTTAGTCGAAGATAACAAAACCAATGCGTATATCGCGAAGGC
ATTTTGTGACCGTTTCGGATTGCGGGTGACATGGGTTGAGGATGGAACGGTTGCGGTTGAAACGCTGAAAAAAATGGGCT
TTGATTTAATTTTAATGGATAACCAGTTGCCGGGCATGGATGGTGTGGAAGTGACGGACTTTGTCAAACATCAGCTCAGA
CTAGACACGCCAATTTATGCATGTACTGCTGATGATACTGAAAAAACGAAGAATGATTTCTTACATGCAGGAGCAGAATA
CATACTGGTCAAACCGATTCGGGAAGAAAATTTACATCAAGCGCTGGTTCATTTCAGAGATCATTATTGGGAACCAGTGA
CGTCGAGTGTCATTCAGTCTCATTAG
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| luxQ | Vibrio cholerae strain A1552 |
50.411 |
98.839 |
0.498 |