Detailed information
Bioinformatically predicted
Overview
| Name | luxQ | Type | Regulator |
| Locus tag | BSQ33_RS16755 | Genome accession | NZ_CP018836 |
| Coordinates | 238147..240729 (+) | Length | 860 a.a. |
| NCBI ID | WP_021018705.1 | Uniprot ID | A0A1Z2SJZ8 |
| Organism | Vibrio gazogenes strain ATCC 43942 | ||
| Function | autoinducer sensor (predicted from homology) Competence regulation |
||
Genomic Context
Location: 233147..245729
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| BSQ33_RS16725 (BSQ33_16785) | - | 233831..234148 (-) | 318 | WP_021018699.1 | DUF496 family protein | - |
| BSQ33_RS16735 (BSQ33_16795) | - | 234776..235429 (+) | 654 | WP_021018701.1 | YceH family protein | - |
| BSQ33_RS16740 (BSQ33_16800) | - | 235436..235735 (+) | 300 | WP_021018702.1 | GIY-YIG nuclease family protein | - |
| BSQ33_RS16745 (BSQ33_16805) | traF | 235802..236947 (+) | 1146 | WP_021018703.1 | conjugal transfer protein TraF | - |
| BSQ33_RS16750 (BSQ33_16810) | luxP | 237024..238106 (+) | 1083 | WP_088134717.1 | autoinducer 2-binding periplasmic protein LuxP | Regulator |
| BSQ33_RS16755 (BSQ33_16815) | luxQ | 238147..240729 (+) | 2583 | WP_021018705.1 | LuxQ periplasmic sensor domain-containing protein | Regulator |
| BSQ33_RS16760 (BSQ33_16820) | - | 240818..241345 (-) | 528 | WP_232472015.1 | hypothetical protein | - |
| BSQ33_RS16765 (BSQ33_16825) | - | 241522..242997 (+) | 1476 | WP_088134718.1 | cobyric acid synthase | - |
| BSQ33_RS16770 (BSQ33_16830) | - | 243083..243412 (-) | 330 | WP_021018708.1 | hypothetical protein | - |
| BSQ33_RS16775 (BSQ33_16835) | - | 243519..243731 (-) | 213 | WP_021018709.1 | hypothetical protein | - |
Sequence
Protein
Download Length: 860 a.a. Molecular weight: 97175.56 Da Isoelectric Point: 5.6635
>NTDB_id=210795 BSQ33_RS16755 WP_021018705.1 238147..240729(+) (luxQ) [Vibrio gazogenes strain ATCC 43942]
MSVRPSPIHQKQKIATYFTRAITIIIVILTFSVLFQNYQISSQLIAQEVQRTANQTSGLVQGMVNFRLSLLKIHQDGSAK
NADLLHAVSSGKSQYIDQYFRAVDQLDPDNTPDVRFIAGLNHMLWDDGNAQFYGIVPNELESVSHRIAVNSEWMLVKIPS
LLETVYALARRTPLVSNSGELIGYLYVMFVINNNYNLIEQIRSRSNSQNLILAIGSNVLSTTLNGEESYSEQDVLANPQH
SDHLESYTVNTTELNVDENPTQLMMYAVQDNQNVVKLKRNFYYGVVFILVATALFSFILWRWLHKRIRAEIEKLVQFSRS
IVDRGAEHIFHGSKIEEFDLFGRALEHTFKRLSEQEKQFENLFNFSIAPTILWGADGRLLRMNPAAVKQFSKENQVATFY
ELKERLIPSIKKASSGETLNEVATEFEGQIFRWTISPIVAEGHVESVLTQGQDVTTIAEAEKQSHLARSEAERAAGARAD
FLARMSHEVRTPLNGILGVSQLLKESVTDDRQREQVGVLSLCSEHLLAVLNDILDFSKIEQNKFKLNPVHFHLIETVRVI
ERIYLPLCQEKGLELDVMTNIQEDTIVVIDQIRLNQIIFNLLNNAIKFTREGEICVLINLNHSEEGARFHASISDTGIGI
GHDDLSLIFEPFIQGGTTSNREFGGSGLGLSIVKNLVELMGGFVSVSSQVGKGSCFEFTIPIEVEQYHARKVKETVAQAP
SDQLFEQSPHVLLVEDNKTNAYIAKAFCDRFGLRVTWVEDGTAAVETIKKMGFDLILMDNQLPGMDGVEVTDFVKHQLRL
DTPIYACTADDTEKTKNDFLHAGAEYILVKPIREENLYKALVHFRDNHWTPLTSRELQSH
MSVRPSPIHQKQKIATYFTRAITIIIVILTFSVLFQNYQISSQLIAQEVQRTANQTSGLVQGMVNFRLSLLKIHQDGSAK
NADLLHAVSSGKSQYIDQYFRAVDQLDPDNTPDVRFIAGLNHMLWDDGNAQFYGIVPNELESVSHRIAVNSEWMLVKIPS
LLETVYALARRTPLVSNSGELIGYLYVMFVINNNYNLIEQIRSRSNSQNLILAIGSNVLSTTLNGEESYSEQDVLANPQH
SDHLESYTVNTTELNVDENPTQLMMYAVQDNQNVVKLKRNFYYGVVFILVATALFSFILWRWLHKRIRAEIEKLVQFSRS
IVDRGAEHIFHGSKIEEFDLFGRALEHTFKRLSEQEKQFENLFNFSIAPTILWGADGRLLRMNPAAVKQFSKENQVATFY
ELKERLIPSIKKASSGETLNEVATEFEGQIFRWTISPIVAEGHVESVLTQGQDVTTIAEAEKQSHLARSEAERAAGARAD
FLARMSHEVRTPLNGILGVSQLLKESVTDDRQREQVGVLSLCSEHLLAVLNDILDFSKIEQNKFKLNPVHFHLIETVRVI
ERIYLPLCQEKGLELDVMTNIQEDTIVVIDQIRLNQIIFNLLNNAIKFTREGEICVLINLNHSEEGARFHASISDTGIGI
GHDDLSLIFEPFIQGGTTSNREFGGSGLGLSIVKNLVELMGGFVSVSSQVGKGSCFEFTIPIEVEQYHARKVKETVAQAP
SDQLFEQSPHVLLVEDNKTNAYIAKAFCDRFGLRVTWVEDGTAAVETIKKMGFDLILMDNQLPGMDGVEVTDFVKHQLRL
DTPIYACTADDTEKTKNDFLHAGAEYILVKPIREENLYKALVHFRDNHWTPLTSRELQSH
Nucleotide
Download Length: 2583 bp
>NTDB_id=210795 BSQ33_RS16755 WP_021018705.1 238147..240729(+) (luxQ) [Vibrio gazogenes strain ATCC 43942]
ATGAGTGTCAGACCGAGCCCTATTCATCAGAAACAGAAGATAGCGACCTACTTTACTCGGGCGATTACAATTATTATTGT
CATTCTGACCTTTAGTGTCCTGTTTCAGAACTATCAGATCAGTAGTCAGTTGATCGCTCAGGAAGTGCAGCGAACAGCAA
ATCAGACCTCAGGATTAGTACAGGGCATGGTCAACTTTCGGCTTTCCTTACTTAAAATCCATCAAGATGGCAGTGCGAAA
AATGCTGATTTATTACATGCGGTAAGTTCTGGGAAATCGCAATATATCGATCAATATTTTCGTGCGGTTGATCAGCTTGA
TCCGGATAATACCCCGGACGTCCGATTTATTGCTGGGTTGAATCATATGCTGTGGGACGATGGGAATGCTCAATTCTATG
GCATTGTGCCGAATGAACTGGAATCTGTTTCACACCGGATTGCTGTGAACAGTGAATGGATGTTGGTGAAAATACCGTCT
TTGCTGGAAACCGTTTATGCTTTGGCAAGAAGAACACCGTTAGTGAGTAACTCTGGTGAACTGATCGGTTACTTATACGT
GATGTTTGTGATTAATAATAATTACAATCTTATCGAACAGATTCGTTCCCGCAGTAATTCGCAGAATTTGATCTTAGCGA
TAGGGTCCAATGTGCTTTCGACGACTCTCAACGGAGAAGAGTCATATTCGGAGCAGGATGTGCTTGCTAACCCCCAACAT
TCTGATCACTTAGAGTCTTATACGGTCAACACAACCGAACTGAATGTTGATGAAAATCCGACACAGTTGATGATGTATGC
CGTTCAGGATAATCAGAATGTGGTCAAATTGAAGCGTAACTTTTATTACGGCGTTGTGTTCATTCTCGTGGCGACGGCAT
TGTTTTCGTTCATTTTGTGGCGATGGCTACATAAGCGTATTCGTGCTGAGATTGAAAAACTGGTGCAGTTTAGTCGCTCG
ATCGTCGATCGTGGCGCTGAGCATATTTTTCATGGTTCAAAGATCGAGGAGTTCGACCTATTCGGGCGAGCACTTGAACA
TACCTTCAAGCGTTTATCTGAACAAGAAAAGCAATTTGAGAATTTGTTCAATTTCTCTATTGCACCAACCATTTTATGGG
GGGCTGATGGGCGTTTACTACGGATGAACCCCGCCGCGGTGAAACAGTTTTCAAAAGAAAATCAGGTCGCTACGTTCTAC
GAGCTGAAAGAGCGATTAATCCCGAGCATCAAAAAGGCGTCCAGTGGTGAGACGCTGAACGAAGTTGCGACTGAATTTGA
AGGTCAAATATTCCGTTGGACGATTTCGCCAATAGTGGCTGAGGGCCATGTTGAATCAGTCCTGACTCAAGGGCAGGACG
TTACGACCATCGCTGAAGCTGAGAAGCAAAGCCATTTAGCACGCAGTGAAGCCGAGAGAGCGGCTGGCGCCAGAGCCGAT
TTCCTGGCTCGGATGAGCCATGAAGTCAGAACGCCTTTAAATGGTATTTTGGGCGTTTCACAGCTCTTAAAAGAGAGTGT
GACGGATGATAGGCAGCGTGAACAGGTTGGTGTACTCAGTTTATGTAGTGAACATCTGCTTGCGGTTTTGAACGATATTC
TTGATTTCTCCAAGATTGAGCAAAATAAGTTCAAGCTCAATCCGGTTCATTTCCACTTGATTGAGACGGTTCGGGTTATC
GAGCGGATCTATCTGCCGTTATGTCAGGAAAAGGGACTTGAACTCGATGTTATGACCAATATTCAGGAAGACACCATCGT
GGTGATTGATCAAATCCGCCTGAATCAGATTATCTTTAACCTACTGAATAACGCGATTAAATTTACCCGTGAAGGTGAGA
TCTGTGTCCTGATTAATTTAAACCATTCAGAAGAAGGGGCAAGGTTTCATGCCTCTATCTCTGATACTGGTATTGGCATT
GGACATGACGACCTGTCGTTGATCTTTGAACCCTTCATTCAAGGTGGTACGACATCGAACCGCGAATTTGGCGGGAGTGG
TTTAGGGCTATCGATTGTGAAAAATCTGGTGGAACTCATGGGGGGCTTTGTGTCGGTTTCATCTCAGGTCGGCAAAGGAA
GCTGCTTCGAGTTCACGATCCCGATTGAGGTTGAGCAATACCATGCTAGAAAAGTGAAGGAAACGGTTGCTCAGGCACCG
TCCGATCAGTTATTTGAGCAATCTCCTCATGTACTATTGGTTGAAGATAACAAGACCAATGCCTATATCGCGAAGGCATT
CTGTGATCGTTTTGGCTTACGGGTGACATGGGTTGAAGATGGAACGGCTGCTGTTGAAACAATTAAAAAAATGGGCTTTG
ATTTAATTTTGATGGATAACCAGTTGCCGGGGATGGATGGGGTTGAAGTCACTGATTTTGTGAAACATCAACTCAGACTC
GATACACCCATTTATGCGTGTACTGCAGATGATACTGAAAAAACGAAAAATGATTTCTTACATGCAGGAGCCGAATACAT
TCTGGTTAAACCCATTCGGGAAGAGAACTTATATAAGGCGTTGGTTCATTTCAGAGATAATCATTGGACGCCACTGACGT
CGAGAGAGCTTCAATCACATTAA
ATGAGTGTCAGACCGAGCCCTATTCATCAGAAACAGAAGATAGCGACCTACTTTACTCGGGCGATTACAATTATTATTGT
CATTCTGACCTTTAGTGTCCTGTTTCAGAACTATCAGATCAGTAGTCAGTTGATCGCTCAGGAAGTGCAGCGAACAGCAA
ATCAGACCTCAGGATTAGTACAGGGCATGGTCAACTTTCGGCTTTCCTTACTTAAAATCCATCAAGATGGCAGTGCGAAA
AATGCTGATTTATTACATGCGGTAAGTTCTGGGAAATCGCAATATATCGATCAATATTTTCGTGCGGTTGATCAGCTTGA
TCCGGATAATACCCCGGACGTCCGATTTATTGCTGGGTTGAATCATATGCTGTGGGACGATGGGAATGCTCAATTCTATG
GCATTGTGCCGAATGAACTGGAATCTGTTTCACACCGGATTGCTGTGAACAGTGAATGGATGTTGGTGAAAATACCGTCT
TTGCTGGAAACCGTTTATGCTTTGGCAAGAAGAACACCGTTAGTGAGTAACTCTGGTGAACTGATCGGTTACTTATACGT
GATGTTTGTGATTAATAATAATTACAATCTTATCGAACAGATTCGTTCCCGCAGTAATTCGCAGAATTTGATCTTAGCGA
TAGGGTCCAATGTGCTTTCGACGACTCTCAACGGAGAAGAGTCATATTCGGAGCAGGATGTGCTTGCTAACCCCCAACAT
TCTGATCACTTAGAGTCTTATACGGTCAACACAACCGAACTGAATGTTGATGAAAATCCGACACAGTTGATGATGTATGC
CGTTCAGGATAATCAGAATGTGGTCAAATTGAAGCGTAACTTTTATTACGGCGTTGTGTTCATTCTCGTGGCGACGGCAT
TGTTTTCGTTCATTTTGTGGCGATGGCTACATAAGCGTATTCGTGCTGAGATTGAAAAACTGGTGCAGTTTAGTCGCTCG
ATCGTCGATCGTGGCGCTGAGCATATTTTTCATGGTTCAAAGATCGAGGAGTTCGACCTATTCGGGCGAGCACTTGAACA
TACCTTCAAGCGTTTATCTGAACAAGAAAAGCAATTTGAGAATTTGTTCAATTTCTCTATTGCACCAACCATTTTATGGG
GGGCTGATGGGCGTTTACTACGGATGAACCCCGCCGCGGTGAAACAGTTTTCAAAAGAAAATCAGGTCGCTACGTTCTAC
GAGCTGAAAGAGCGATTAATCCCGAGCATCAAAAAGGCGTCCAGTGGTGAGACGCTGAACGAAGTTGCGACTGAATTTGA
AGGTCAAATATTCCGTTGGACGATTTCGCCAATAGTGGCTGAGGGCCATGTTGAATCAGTCCTGACTCAAGGGCAGGACG
TTACGACCATCGCTGAAGCTGAGAAGCAAAGCCATTTAGCACGCAGTGAAGCCGAGAGAGCGGCTGGCGCCAGAGCCGAT
TTCCTGGCTCGGATGAGCCATGAAGTCAGAACGCCTTTAAATGGTATTTTGGGCGTTTCACAGCTCTTAAAAGAGAGTGT
GACGGATGATAGGCAGCGTGAACAGGTTGGTGTACTCAGTTTATGTAGTGAACATCTGCTTGCGGTTTTGAACGATATTC
TTGATTTCTCCAAGATTGAGCAAAATAAGTTCAAGCTCAATCCGGTTCATTTCCACTTGATTGAGACGGTTCGGGTTATC
GAGCGGATCTATCTGCCGTTATGTCAGGAAAAGGGACTTGAACTCGATGTTATGACCAATATTCAGGAAGACACCATCGT
GGTGATTGATCAAATCCGCCTGAATCAGATTATCTTTAACCTACTGAATAACGCGATTAAATTTACCCGTGAAGGTGAGA
TCTGTGTCCTGATTAATTTAAACCATTCAGAAGAAGGGGCAAGGTTTCATGCCTCTATCTCTGATACTGGTATTGGCATT
GGACATGACGACCTGTCGTTGATCTTTGAACCCTTCATTCAAGGTGGTACGACATCGAACCGCGAATTTGGCGGGAGTGG
TTTAGGGCTATCGATTGTGAAAAATCTGGTGGAACTCATGGGGGGCTTTGTGTCGGTTTCATCTCAGGTCGGCAAAGGAA
GCTGCTTCGAGTTCACGATCCCGATTGAGGTTGAGCAATACCATGCTAGAAAAGTGAAGGAAACGGTTGCTCAGGCACCG
TCCGATCAGTTATTTGAGCAATCTCCTCATGTACTATTGGTTGAAGATAACAAGACCAATGCCTATATCGCGAAGGCATT
CTGTGATCGTTTTGGCTTACGGGTGACATGGGTTGAAGATGGAACGGCTGCTGTTGAAACAATTAAAAAAATGGGCTTTG
ATTTAATTTTGATGGATAACCAGTTGCCGGGGATGGATGGGGTTGAAGTCACTGATTTTGTGAAACATCAACTCAGACTC
GATACACCCATTTATGCGTGTACTGCAGATGATACTGAAAAAACGAAAAATGATTTCTTACATGCAGGAGCCGAATACAT
TCTGGTTAAACCCATTCGGGAAGAGAACTTATATAAGGCGTTGGTTCATTTCAGAGATAATCATTGGACGCCACTGACGT
CGAGAGAGCTTCAATCACATTAA
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| luxQ | Vibrio cholerae strain A1552 |
51.348 |
99.186 |
0.509 |