Detailed information
Bioinformatically predicted
Overview
| Name | luxQ | Type | Regulator |
| Locus tag | MRO13_RS17075 | Genome accession | NZ_CP095312 |
| Coordinates | 672847..675378 (-) | Length | 843 a.a. |
| NCBI ID | WP_350940952.1 | Uniprot ID | - |
| Organism | Vibrio metschnikovii strain 20CO01TI02 | ||
| Function | autoinducer sensor (predicted from homology) Competence regulation |
||
Genomic Context
Location: 667847..680378
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| MRO13_RS17050 (MRO13_17370) | - | 668176..669435 (+) | 1260 | WP_350940701.1 | hydroxymethylglutaryl-CoA reductase | - |
| MRO13_RS17055 (MRO13_17375) | modC | 669496..670608 (-) | 1113 | WP_350940702.1 | molybdenum ABC transporter ATP-binding protein ModC | - |
| MRO13_RS17060 (MRO13_17380) | modB | 670605..671306 (-) | 702 | WP_170904469.1 | molybdate ABC transporter permease subunit | - |
| MRO13_RS17065 (MRO13_17385) | modA | 671287..672069 (-) | 783 | WP_350940703.1 | molybdate ABC transporter substrate-binding protein | - |
| MRO13_RS17070 (MRO13_17390) | - | 672259..672783 (+) | 525 | WP_350940705.1 | hypothetical protein | - |
| MRO13_RS17075 (MRO13_17395) | luxQ | 672847..675378 (-) | 2532 | WP_350940952.1 | LuxQ periplasmic sensor domain-containing protein | Regulator |
| MRO13_RS17080 (MRO13_17400) | luxP | 675436..676527 (-) | 1092 | WP_186462608.1 | substrate-binding domain-containing protein | Regulator |
| MRO13_RS17085 (MRO13_17405) | - | 676578..676859 (-) | 282 | WP_158137233.1 | GIY-YIG nuclease family protein | - |
| MRO13_RS17090 (MRO13_17410) | - | 676862..677494 (-) | 633 | WP_004396678.1 | YceH family protein | - |
| MRO13_RS17095 (MRO13_17415) | - | 677537..677740 (-) | 204 | WP_040905109.1 | hypothetical protein | - |
| MRO13_RS17100 (MRO13_17420) | - | 678131..678460 (+) | 330 | WP_004396679.1 | DUF496 family protein | - |
| MRO13_RS17105 (MRO13_17425) | - | 678784..679035 (+) | 252 | WP_004396680.1 | YgjV family protein | - |
Sequence
Protein
Download Length: 843 a.a. Molecular weight: 95017.73 Da Isoelectric Point: 4.9059
>NTDB_id=676311 MRO13_RS17075 WP_350940952.1 672847..675378(-) (luxQ) [Vibrio metschnikovii strain 20CO01TI02]
MATLISRAIVMALSVLTLGILFHTYQVSSRLITQEVIRTTNQTANLIQNIFNSRLTILKIHQDSSAKNATLVHALHGHLT
NELEQYFLSIDQTDISHMADFRFIANVTQPIWDDGNAQFYGLTDNTFIHIIEQVAFSHDWHLITTRSLIGDVYLLVRRTP
IIDTVSGESLGFLYISVVLNNNVTLVENLRERSDSQQLVLAAGGDVLASTLIGTEAYQVDEVVKEGEEGYDIHGKYVVSR
TPLTLAGAPTVLTVYAVQSNQNALALRNNYLFWMFAVVAAIAFVFIIVRWWLQRKIENEMTRLMSYTHQVVELREGAYFP
GSQIVEFDHFGRTLESTFHQLAEQEKQFEDLFSFSLSPTLLWTAQGGLIRMNPSAEAYFLSHYSQQHSLFARVKPQLIIA
VQQAAQGNIVKALKTEFDGKTILWELSPIILDERIVSIITQGQDITSMVEAEQQSRLAREQAEESARLRADFLAKMSHEL
RTPLNGILGASQLLKQNSLTQEQQELVNVLCSSGEHLLAVLNDILDFSKIEQGKFLIQNSDFPVVAMVSAIRRIYNPLCK
EKGLELIIECAIEPEIRLHSDQIRLNQILFNLLSNAVKFTHQGSICIKLALIQQGGIDKLMISIEDTGIGIAATDLQRIF
DPFVQAESTTTREYGGSGLGLSIVSSLVELLHGEITVKSEVGYGTRFDLLFPIRIVVNEELSDAEQTNTDRYQLFTQPIR
ALLVEDNRTNAFILQAFCQKYSIQVDWVSDGLQAIERVKEQDYDLIFMDNQLPYLGGIDTARIIRHEMKLSLPIYACTAD
GLLETQQAFIEAGAEYVLVKPLKEEMFYQALCFFKQQCANSER
MATLISRAIVMALSVLTLGILFHTYQVSSRLITQEVIRTTNQTANLIQNIFNSRLTILKIHQDSSAKNATLVHALHGHLT
NELEQYFLSIDQTDISHMADFRFIANVTQPIWDDGNAQFYGLTDNTFIHIIEQVAFSHDWHLITTRSLIGDVYLLVRRTP
IIDTVSGESLGFLYISVVLNNNVTLVENLRERSDSQQLVLAAGGDVLASTLIGTEAYQVDEVVKEGEEGYDIHGKYVVSR
TPLTLAGAPTVLTVYAVQSNQNALALRNNYLFWMFAVVAAIAFVFIIVRWWLQRKIENEMTRLMSYTHQVVELREGAYFP
GSQIVEFDHFGRTLESTFHQLAEQEKQFEDLFSFSLSPTLLWTAQGGLIRMNPSAEAYFLSHYSQQHSLFARVKPQLIIA
VQQAAQGNIVKALKTEFDGKTILWELSPIILDERIVSIITQGQDITSMVEAEQQSRLAREQAEESARLRADFLAKMSHEL
RTPLNGILGASQLLKQNSLTQEQQELVNVLCSSGEHLLAVLNDILDFSKIEQGKFLIQNSDFPVVAMVSAIRRIYNPLCK
EKGLELIIECAIEPEIRLHSDQIRLNQILFNLLSNAVKFTHQGSICIKLALIQQGGIDKLMISIEDTGIGIAATDLQRIF
DPFVQAESTTTREYGGSGLGLSIVSSLVELLHGEITVKSEVGYGTRFDLLFPIRIVVNEELSDAEQTNTDRYQLFTQPIR
ALLVEDNRTNAFILQAFCQKYSIQVDWVSDGLQAIERVKEQDYDLIFMDNQLPYLGGIDTARIIRHEMKLSLPIYACTAD
GLLETQQAFIEAGAEYVLVKPLKEEMFYQALCFFKQQCANSER
Nucleotide
Download Length: 2532 bp
>NTDB_id=676311 MRO13_RS17075 WP_350940952.1 672847..675378(-) (luxQ) [Vibrio metschnikovii strain 20CO01TI02]
ATGGCCACCCTGATTAGCCGAGCCATCGTGATGGCATTGAGCGTGTTAACGCTCGGTATTTTATTTCATACTTATCAAGT
TAGTAGTCGATTAATTACGCAAGAAGTGATACGGACCACCAATCAAACGGCGAATTTGATCCAGAATATATTTAATTCTC
GTCTGACTATTTTAAAAATTCATCAAGACAGCAGTGCGAAAAATGCCACTTTAGTTCATGCCTTACATGGCCACTTAACT
AATGAGCTTGAACAGTATTTTCTGAGTATTGATCAAACGGATATCAGCCATATGGCGGACTTTCGGTTTATCGCTAATGT
TACTCAGCCGATCTGGGATGATGGTAATGCCCAGTTTTATGGTTTAACTGACAACACGTTTATCCATATCATTGAACAAG
TCGCGTTTAGCCATGATTGGCACTTAATCACTACGCGATCTTTAATTGGCGATGTGTATCTTTTGGTTCGCCGTACGCCG
ATTATTGATACCGTGAGTGGTGAATCCCTAGGTTTTTTATACATCAGTGTGGTGCTGAACAATAATGTTACCTTAGTGGA
GAACTTACGTGAGCGCAGTGACTCACAGCAACTGGTACTTGCTGCGGGAGGTGATGTTTTAGCCTCGACATTGATAGGGA
CAGAAGCTTATCAAGTGGATGAGGTGGTCAAAGAAGGCGAAGAAGGTTACGACATCCATGGCAAGTATGTGGTTAGTCGC
ACGCCATTAACTTTAGCCGGAGCACCAACCGTTCTCACGGTATACGCTGTGCAGAGTAACCAAAATGCGCTCGCTCTGCG
TAATAATTACTTATTTTGGATGTTTGCTGTCGTTGCGGCGATCGCTTTCGTTTTCATTATTGTTCGTTGGTGGCTACAAC
GTAAAATTGAAAACGAAATGACGCGCTTAATGTCTTATACCCATCAAGTGGTTGAGCTACGTGAAGGTGCCTATTTCCCT
GGTTCTCAAATTGTTGAGTTTGATCACTTTGGGCGCACGTTAGAAAGCACTTTTCATCAACTGGCCGAACAAGAAAAACA
GTTTGAGGATCTCTTTAGTTTTTCGTTATCGCCGACTCTGCTATGGACGGCCCAGGGCGGTTTGATTCGCATGAATCCGT
CGGCTGAGGCTTATTTCTTGAGTCATTATTCTCAACAGCACTCCCTTTTTGCCCGCGTTAAGCCTCAGTTGATTATCGCG
GTTCAGCAAGCGGCACAAGGTAATATTGTCAAAGCGCTCAAAACAGAGTTCGATGGTAAAACCATTCTATGGGAATTATC
ACCGATCATATTGGATGAGCGGATTGTTTCGATCATTACTCAAGGACAAGATATCACGTCGATGGTGGAAGCGGAGCAGC
AAAGTCGCCTTGCTCGTGAACAAGCGGAAGAGTCCGCTCGATTACGGGCTGATTTTCTCGCCAAAATGAGCCATGAATTA
CGGACGCCGTTAAACGGTATTTTAGGCGCTTCTCAATTATTAAAACAAAATTCGCTCACTCAGGAGCAGCAAGAGTTAGT
CAATGTATTGTGCAGCAGCGGTGAGCATCTGCTCGCTGTTTTGAATGATATCCTTGATTTTTCAAAAATTGAGCAGGGAA
AATTTCTGATCCAAAATAGTGATTTCCCAGTCGTAGCTATGGTTTCAGCGATTCGGCGTATCTATAACCCTTTATGCAAA
GAGAAGGGACTTGAGTTGATCATTGAGTGCGCGATTGAACCGGAAATTCGCTTACACAGCGATCAAATACGCTTAAATCA
GATTTTATTCAATTTACTCAGTAATGCCGTTAAGTTTACTCATCAGGGGTCGATTTGCATTAAATTAGCGCTTATTCAAC
AAGGCGGCATCGATAAGTTAATGATTAGCATAGAAGATACGGGGATCGGGATTGCGGCGACGGATTTACAGCGTATTTTT
GACCCTTTTGTACAAGCAGAATCGACCACGACTCGGGAATACGGAGGTAGTGGTTTAGGCTTATCGATAGTCAGCAGTTT
AGTTGAATTATTGCATGGTGAGATCACGGTAAAATCAGAGGTTGGTTATGGTACGCGCTTTGATTTGCTGTTTCCTATTC
GTATTGTCGTGAATGAGGAATTGAGCGACGCCGAACAGACTAATACGGATCGCTATCAATTATTTACTCAGCCTATACGC
GCATTATTGGTAGAGGATAACCGTACGAATGCTTTTATTTTACAAGCATTTTGTCAGAAATATTCAATACAGGTCGATTG
GGTGAGTGATGGTTTACAAGCCATTGAGCGGGTAAAGGAACAAGATTACGATCTGATTTTCATGGACAATCAGTTACCGT
ATTTGGGGGGCATTGATACCGCACGAATCATTCGGCATGAGATGAAACTGTCGTTACCGATCTATGCCTGTACGGCCGAT
GGCTTGCTAGAGACACAACAAGCCTTCATTGAGGCCGGAGCGGAATACGTATTAGTGAAGCCGCTCAAAGAAGAGATGTT
TTATCAAGCGCTGTGCTTTTTTAAACAACAATGTGCTAATTCAGAGCGCTGA
ATGGCCACCCTGATTAGCCGAGCCATCGTGATGGCATTGAGCGTGTTAACGCTCGGTATTTTATTTCATACTTATCAAGT
TAGTAGTCGATTAATTACGCAAGAAGTGATACGGACCACCAATCAAACGGCGAATTTGATCCAGAATATATTTAATTCTC
GTCTGACTATTTTAAAAATTCATCAAGACAGCAGTGCGAAAAATGCCACTTTAGTTCATGCCTTACATGGCCACTTAACT
AATGAGCTTGAACAGTATTTTCTGAGTATTGATCAAACGGATATCAGCCATATGGCGGACTTTCGGTTTATCGCTAATGT
TACTCAGCCGATCTGGGATGATGGTAATGCCCAGTTTTATGGTTTAACTGACAACACGTTTATCCATATCATTGAACAAG
TCGCGTTTAGCCATGATTGGCACTTAATCACTACGCGATCTTTAATTGGCGATGTGTATCTTTTGGTTCGCCGTACGCCG
ATTATTGATACCGTGAGTGGTGAATCCCTAGGTTTTTTATACATCAGTGTGGTGCTGAACAATAATGTTACCTTAGTGGA
GAACTTACGTGAGCGCAGTGACTCACAGCAACTGGTACTTGCTGCGGGAGGTGATGTTTTAGCCTCGACATTGATAGGGA
CAGAAGCTTATCAAGTGGATGAGGTGGTCAAAGAAGGCGAAGAAGGTTACGACATCCATGGCAAGTATGTGGTTAGTCGC
ACGCCATTAACTTTAGCCGGAGCACCAACCGTTCTCACGGTATACGCTGTGCAGAGTAACCAAAATGCGCTCGCTCTGCG
TAATAATTACTTATTTTGGATGTTTGCTGTCGTTGCGGCGATCGCTTTCGTTTTCATTATTGTTCGTTGGTGGCTACAAC
GTAAAATTGAAAACGAAATGACGCGCTTAATGTCTTATACCCATCAAGTGGTTGAGCTACGTGAAGGTGCCTATTTCCCT
GGTTCTCAAATTGTTGAGTTTGATCACTTTGGGCGCACGTTAGAAAGCACTTTTCATCAACTGGCCGAACAAGAAAAACA
GTTTGAGGATCTCTTTAGTTTTTCGTTATCGCCGACTCTGCTATGGACGGCCCAGGGCGGTTTGATTCGCATGAATCCGT
CGGCTGAGGCTTATTTCTTGAGTCATTATTCTCAACAGCACTCCCTTTTTGCCCGCGTTAAGCCTCAGTTGATTATCGCG
GTTCAGCAAGCGGCACAAGGTAATATTGTCAAAGCGCTCAAAACAGAGTTCGATGGTAAAACCATTCTATGGGAATTATC
ACCGATCATATTGGATGAGCGGATTGTTTCGATCATTACTCAAGGACAAGATATCACGTCGATGGTGGAAGCGGAGCAGC
AAAGTCGCCTTGCTCGTGAACAAGCGGAAGAGTCCGCTCGATTACGGGCTGATTTTCTCGCCAAAATGAGCCATGAATTA
CGGACGCCGTTAAACGGTATTTTAGGCGCTTCTCAATTATTAAAACAAAATTCGCTCACTCAGGAGCAGCAAGAGTTAGT
CAATGTATTGTGCAGCAGCGGTGAGCATCTGCTCGCTGTTTTGAATGATATCCTTGATTTTTCAAAAATTGAGCAGGGAA
AATTTCTGATCCAAAATAGTGATTTCCCAGTCGTAGCTATGGTTTCAGCGATTCGGCGTATCTATAACCCTTTATGCAAA
GAGAAGGGACTTGAGTTGATCATTGAGTGCGCGATTGAACCGGAAATTCGCTTACACAGCGATCAAATACGCTTAAATCA
GATTTTATTCAATTTACTCAGTAATGCCGTTAAGTTTACTCATCAGGGGTCGATTTGCATTAAATTAGCGCTTATTCAAC
AAGGCGGCATCGATAAGTTAATGATTAGCATAGAAGATACGGGGATCGGGATTGCGGCGACGGATTTACAGCGTATTTTT
GACCCTTTTGTACAAGCAGAATCGACCACGACTCGGGAATACGGAGGTAGTGGTTTAGGCTTATCGATAGTCAGCAGTTT
AGTTGAATTATTGCATGGTGAGATCACGGTAAAATCAGAGGTTGGTTATGGTACGCGCTTTGATTTGCTGTTTCCTATTC
GTATTGTCGTGAATGAGGAATTGAGCGACGCCGAACAGACTAATACGGATCGCTATCAATTATTTACTCAGCCTATACGC
GCATTATTGGTAGAGGATAACCGTACGAATGCTTTTATTTTACAAGCATTTTGTCAGAAATATTCAATACAGGTCGATTG
GGTGAGTGATGGTTTACAAGCCATTGAGCGGGTAAAGGAACAAGATTACGATCTGATTTTCATGGACAATCAGTTACCGT
ATTTGGGGGGCATTGATACCGCACGAATCATTCGGCATGAGATGAAACTGTCGTTACCGATCTATGCCTGTACGGCCGAT
GGCTTGCTAGAGACACAACAAGCCTTCATTGAGGCCGGAGCGGAATACGTATTAGTGAAGCCGCTCAAAGAAGAGATGTT
TTATCAAGCGCTGTGCTTTTTTAAACAACAATGTGCTAATTCAGAGCGCTGA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| luxQ | Vibrio cholerae strain A1552 |
53.983 |
99.763 |
0.539 |