Detailed information
Bioinformatically predicted
Overview
| Name | luxQ | Type | Regulator |
| Locus tag | OCV39_RS18100 | Genome accession | NZ_AP025473 |
| Coordinates | 855620..858205 (+) | Length | 861 a.a. |
| NCBI ID | WP_261889607.1 | Uniprot ID | - |
| Organism | Vibrio cortegadensis strain CECT 7227 | ||
| Function | autoinducer sensor (predicted from homology) Competence regulation |
||
Genomic Context
Location: 850620..863205
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| OCV39_RS18075 | - | 852400..852714 (-) | 315 | WP_113799774.1 | DUF496 family protein | - |
| OCV39_RS18080 | - | 852890..853105 (+) | 216 | WP_240697155.1 | hypothetical protein | - |
| OCV39_RS18085 | - | 853333..854004 (+) | 672 | WP_261889605.1 | YceH family protein | - |
| OCV39_RS18090 | - | 854010..854306 (+) | 297 | WP_261889606.1 | GIY-YIG nuclease family protein | - |
| OCV39_RS18095 | luxP | 854523..855623 (+) | 1101 | WP_017053567.1 | autoinducer 2-binding periplasmic protein LuxP | Regulator |
| OCV39_RS18100 | luxQ | 855620..858205 (+) | 2586 | WP_261889607.1 | quorum-sensing autoinducer 2 sensor kinase/phosphatase LuxQ | Regulator |
| OCV39_RS18105 | - | 858310..858975 (-) | 666 | WP_261889608.1 | flagellar brake protein | - |
| OCV39_RS18110 | glpD | 859151..860758 (-) | 1608 | WP_261889609.1 | glycerol-3-phosphate dehydrogenase | - |
| OCV39_RS18115 | - | 860978..862237 (-) | 1260 | WP_261889610.1 | hydroxymethylglutaryl-CoA reductase | - |
| OCV39_RS18120 | - | 862370..862738 (-) | 369 | WP_171755841.1 | hypothetical protein | - |
| OCV39_RS18125 | - | 862800..862985 (-) | 186 | WP_113799755.1 | hypothetical protein | - |
Sequence
Protein
Download Length: 861 a.a. Molecular weight: 96066.89 Da Isoelectric Point: 5.0295
>NTDB_id=91854 OCV39_RS18100 WP_261889607.1 855620..858205(+) (luxQ) [Vibrio cortegadensis strain CECT 7227]
MKIKLGPTKKRSLVTLISQIVILVICILTLGVLVQSFQFSNRIIKQEVNRTLQQTSSLIQSLFDYRLAVLQIHQDSNAKS
DTLVDFFVAGDEELLDYYFLGLDQREPKHVPDVRFIAKPKGIIWDDGNAEFYGLSLELLNDVAEQVAFNSNWHILELHSS
IGLKHLLVRRSPIINDNSGEVLGQLYVGMILDNNVMLIESLQRRSNSDNVVLALDDRPIATTLLGSEPYTADDIISFRKQ
VDSELGETLVSATALKVNDEETPLTVFTVEYSKGVMALKRNHQYGLIFTMLAICAVFAFTRKWVQKKVSNELSKLMTYTK
LAGIKDAKRGFEGSTIYEFDHIGHTLESTFERLAEQEKSFQDLFNFALSPTIVWSGAGDVLQMNPAARKELSKANELGQY
KILPHFDVFKSQLIPHIRMSAQGATLTGVNVPIGDKVYRWNLSPIRIEGDISSIIVQGQDVTTFIEAEKQSDLARKEAEE
SAKMRADFLAKMSHEIRTPLNGILGVSQLLKRSIHDAENLKQIDVLCNSGEHLLAVLNDILDFSKLEQGKFNIQLNEFKF
SELVNTLETIYQPACAENDVQLVINNNLATNTLIYTDQVRLNQILFNLLSNAVKFTHSGTIKIGFDLEQFESANNDMLII
NIKDSGIGIDPKRLDAMFDPFVQEESTTTREYGGSGLGLTIVKNLVDMLGGDIQVGSEKGVGTEFVVTVPVKSGSVGSDF
QSTEQELLPHELFDRTLKVLLVEDNGTNAFIAQAFCKKYGMDVQWTKDGLSALKIIEAESFDLILMDNQLPNLGGIETTM
AIRNDLHISTPIYACTADSLASTNDAFIAAGANYVIVKPIKEHVLHAAFVHFKRHFLNSEE
MKIKLGPTKKRSLVTLISQIVILVICILTLGVLVQSFQFSNRIIKQEVNRTLQQTSSLIQSLFDYRLAVLQIHQDSNAKS
DTLVDFFVAGDEELLDYYFLGLDQREPKHVPDVRFIAKPKGIIWDDGNAEFYGLSLELLNDVAEQVAFNSNWHILELHSS
IGLKHLLVRRSPIINDNSGEVLGQLYVGMILDNNVMLIESLQRRSNSDNVVLALDDRPIATTLLGSEPYTADDIISFRKQ
VDSELGETLVSATALKVNDEETPLTVFTVEYSKGVMALKRNHQYGLIFTMLAICAVFAFTRKWVQKKVSNELSKLMTYTK
LAGIKDAKRGFEGSTIYEFDHIGHTLESTFERLAEQEKSFQDLFNFALSPTIVWSGAGDVLQMNPAARKELSKANELGQY
KILPHFDVFKSQLIPHIRMSAQGATLTGVNVPIGDKVYRWNLSPIRIEGDISSIIVQGQDVTTFIEAEKQSDLARKEAEE
SAKMRADFLAKMSHEIRTPLNGILGVSQLLKRSIHDAENLKQIDVLCNSGEHLLAVLNDILDFSKLEQGKFNIQLNEFKF
SELVNTLETIYQPACAENDVQLVINNNLATNTLIYTDQVRLNQILFNLLSNAVKFTHSGTIKIGFDLEQFESANNDMLII
NIKDSGIGIDPKRLDAMFDPFVQEESTTTREYGGSGLGLTIVKNLVDMLGGDIQVGSEKGVGTEFVVTVPVKSGSVGSDF
QSTEQELLPHELFDRTLKVLLVEDNGTNAFIAQAFCKKYGMDVQWTKDGLSALKIIEAESFDLILMDNQLPNLGGIETTM
AIRNDLHISTPIYACTADSLASTNDAFIAAGANYVIVKPIKEHVLHAAFVHFKRHFLNSEE
Nucleotide
Download Length: 2586 bp
>NTDB_id=91854 OCV39_RS18100 WP_261889607.1 855620..858205(+) (luxQ) [Vibrio cortegadensis strain CECT 7227]
ATGAAAATAAAGCTTGGCCCAACGAAAAAACGCTCACTTGTTACCTTAATTTCACAAATTGTCATTTTGGTGATCTGCAT
ATTGACGTTGGGCGTGCTTGTACAAAGTTTTCAATTCAGTAATCGTATAATTAAACAAGAAGTCAACCGAACACTTCAGC
AGACATCGAGTTTGATTCAAAGTCTGTTTGATTACCGATTGGCTGTTTTGCAAATCCACCAAGACAGTAATGCGAAAAGT
GACACGTTGGTGGATTTTTTTGTGGCTGGAGACGAAGAACTTCTCGATTATTATTTCCTAGGGCTGGATCAACGTGAGCC
TAAACATGTTCCTGATGTACGCTTTATTGCAAAACCAAAGGGTATTATCTGGGATGATGGCAACGCCGAATTCTACGGTT
TATCTCTTGAATTGCTTAATGATGTTGCAGAGCAAGTCGCGTTTAATAGTAATTGGCACATACTTGAACTTCATAGTTCA
ATAGGGCTTAAACACTTATTAGTGAGGCGTTCTCCGATAATCAATGATAATTCGGGAGAAGTATTAGGCCAACTTTATGT
TGGGATGATCCTCGATAACAACGTCATGTTGATCGAATCTCTTCAACGACGCAGTAATAGCGATAATGTGGTACTTGCTT
TAGATGATCGACCAATCGCGACAACCTTGCTAGGTTCTGAGCCTTATACTGCCGATGACATTATTAGTTTTAGAAAACAA
GTTGATAGCGAGCTTGGAGAGACTTTGGTGAGTGCAACGGCATTGAAGGTTAATGATGAAGAGACACCTCTGACGGTATT
TACTGTCGAGTACAGTAAAGGTGTAATGGCGTTGAAAAGAAATCATCAGTATGGCCTGATTTTCACCATGCTCGCTATTT
GCGCTGTTTTTGCATTCACACGGAAATGGGTGCAGAAAAAAGTCTCTAACGAACTGTCAAAATTAATGACTTACACTAAA
CTCGCCGGGATAAAAGACGCCAAAAGAGGGTTTGAAGGGTCTACGATCTATGAATTCGATCATATTGGTCACACCCTCGA
AAGCACATTTGAGCGGTTGGCTGAGCAGGAGAAGTCTTTTCAAGATCTATTCAACTTTGCACTCTCTCCTACTATTGTTT
GGTCTGGCGCTGGTGATGTTTTGCAGATGAATCCAGCTGCTCGCAAAGAGTTATCGAAAGCAAACGAGTTAGGACAGTAC
AAGATTTTACCTCATTTTGATGTATTTAAGTCCCAGTTAATTCCTCATATTAGAATGTCAGCTCAAGGCGCAACGCTTAC
CGGAGTTAACGTTCCGATTGGAGATAAAGTTTACCGCTGGAATTTATCCCCGATAAGGATTGAAGGGGATATCTCTAGCA
TTATTGTCCAAGGCCAAGACGTTACAACCTTCATTGAAGCTGAAAAACAGAGTGATTTAGCGAGAAAAGAGGCGGAAGAG
TCGGCAAAAATGAGGGCTGATTTCTTAGCGAAAATGAGTCATGAAATCAGAACGCCATTGAATGGTATTTTGGGTGTATC
CCAGCTATTAAAGCGCTCTATTCATGATGCTGAAAACCTTAAGCAGATTGATGTCTTATGCAATAGTGGTGAACATCTAT
TGGCTGTTCTCAATGACATTCTGGATTTTTCAAAATTAGAACAAGGTAAGTTTAATATTCAGCTTAATGAGTTCAAGTTT
TCTGAACTCGTGAATACGCTTGAAACTATCTATCAGCCTGCCTGTGCCGAAAATGATGTTCAGTTAGTTATTAATAATAA
TTTGGCAACGAATACGTTGATTTACACAGATCAAGTTCGTTTGAATCAGATTTTGTTTAATCTTTTAAGCAACGCAGTGA
AATTTACACACTCTGGAACCATTAAAATTGGCTTCGATTTAGAACAGTTCGAGTCTGCAAATAATGACATGCTGATTATT
AACATTAAGGACTCTGGAATTGGTATTGATCCGAAGCGTTTGGACGCAATGTTCGATCCTTTTGTACAAGAGGAATCAAC
AACAACACGGGAATACGGTGGTAGTGGTTTAGGTCTGACCATAGTAAAGAACCTGGTTGATATGCTAGGGGGTGATATTC
AAGTTGGGAGTGAAAAGGGAGTAGGTACAGAATTTGTAGTCACTGTCCCTGTGAAGAGTGGTTCTGTCGGTTCTGATTTT
CAATCAACAGAACAAGAACTTCTTCCTCATGAGCTTTTTGACAGAACACTGAAGGTGCTGCTAGTAGAGGATAATGGTAC
CAACGCATTTATCGCACAGGCATTTTGTAAAAAATATGGGATGGATGTGCAGTGGACGAAAGATGGGTTGAGTGCACTGA
AAATTATTGAGGCAGAGTCTTTTGATCTGATTCTGATGGATAACCAGTTGCCGAATTTAGGCGGAATCGAAACCACCATG
GCGATTCGAAACGATTTACACATATCCACGCCAATATACGCTTGTACTGCAGATAGCCTTGCTTCTACTAATGATGCATT
CATCGCCGCTGGGGCTAATTATGTGATTGTTAAGCCAATTAAGGAACATGTGCTACATGCTGCGTTCGTTCATTTTAAAA
GGCATTTTCTTAATTCAGAAGAGTGA
ATGAAAATAAAGCTTGGCCCAACGAAAAAACGCTCACTTGTTACCTTAATTTCACAAATTGTCATTTTGGTGATCTGCAT
ATTGACGTTGGGCGTGCTTGTACAAAGTTTTCAATTCAGTAATCGTATAATTAAACAAGAAGTCAACCGAACACTTCAGC
AGACATCGAGTTTGATTCAAAGTCTGTTTGATTACCGATTGGCTGTTTTGCAAATCCACCAAGACAGTAATGCGAAAAGT
GACACGTTGGTGGATTTTTTTGTGGCTGGAGACGAAGAACTTCTCGATTATTATTTCCTAGGGCTGGATCAACGTGAGCC
TAAACATGTTCCTGATGTACGCTTTATTGCAAAACCAAAGGGTATTATCTGGGATGATGGCAACGCCGAATTCTACGGTT
TATCTCTTGAATTGCTTAATGATGTTGCAGAGCAAGTCGCGTTTAATAGTAATTGGCACATACTTGAACTTCATAGTTCA
ATAGGGCTTAAACACTTATTAGTGAGGCGTTCTCCGATAATCAATGATAATTCGGGAGAAGTATTAGGCCAACTTTATGT
TGGGATGATCCTCGATAACAACGTCATGTTGATCGAATCTCTTCAACGACGCAGTAATAGCGATAATGTGGTACTTGCTT
TAGATGATCGACCAATCGCGACAACCTTGCTAGGTTCTGAGCCTTATACTGCCGATGACATTATTAGTTTTAGAAAACAA
GTTGATAGCGAGCTTGGAGAGACTTTGGTGAGTGCAACGGCATTGAAGGTTAATGATGAAGAGACACCTCTGACGGTATT
TACTGTCGAGTACAGTAAAGGTGTAATGGCGTTGAAAAGAAATCATCAGTATGGCCTGATTTTCACCATGCTCGCTATTT
GCGCTGTTTTTGCATTCACACGGAAATGGGTGCAGAAAAAAGTCTCTAACGAACTGTCAAAATTAATGACTTACACTAAA
CTCGCCGGGATAAAAGACGCCAAAAGAGGGTTTGAAGGGTCTACGATCTATGAATTCGATCATATTGGTCACACCCTCGA
AAGCACATTTGAGCGGTTGGCTGAGCAGGAGAAGTCTTTTCAAGATCTATTCAACTTTGCACTCTCTCCTACTATTGTTT
GGTCTGGCGCTGGTGATGTTTTGCAGATGAATCCAGCTGCTCGCAAAGAGTTATCGAAAGCAAACGAGTTAGGACAGTAC
AAGATTTTACCTCATTTTGATGTATTTAAGTCCCAGTTAATTCCTCATATTAGAATGTCAGCTCAAGGCGCAACGCTTAC
CGGAGTTAACGTTCCGATTGGAGATAAAGTTTACCGCTGGAATTTATCCCCGATAAGGATTGAAGGGGATATCTCTAGCA
TTATTGTCCAAGGCCAAGACGTTACAACCTTCATTGAAGCTGAAAAACAGAGTGATTTAGCGAGAAAAGAGGCGGAAGAG
TCGGCAAAAATGAGGGCTGATTTCTTAGCGAAAATGAGTCATGAAATCAGAACGCCATTGAATGGTATTTTGGGTGTATC
CCAGCTATTAAAGCGCTCTATTCATGATGCTGAAAACCTTAAGCAGATTGATGTCTTATGCAATAGTGGTGAACATCTAT
TGGCTGTTCTCAATGACATTCTGGATTTTTCAAAATTAGAACAAGGTAAGTTTAATATTCAGCTTAATGAGTTCAAGTTT
TCTGAACTCGTGAATACGCTTGAAACTATCTATCAGCCTGCCTGTGCCGAAAATGATGTTCAGTTAGTTATTAATAATAA
TTTGGCAACGAATACGTTGATTTACACAGATCAAGTTCGTTTGAATCAGATTTTGTTTAATCTTTTAAGCAACGCAGTGA
AATTTACACACTCTGGAACCATTAAAATTGGCTTCGATTTAGAACAGTTCGAGTCTGCAAATAATGACATGCTGATTATT
AACATTAAGGACTCTGGAATTGGTATTGATCCGAAGCGTTTGGACGCAATGTTCGATCCTTTTGTACAAGAGGAATCAAC
AACAACACGGGAATACGGTGGTAGTGGTTTAGGTCTGACCATAGTAAAGAACCTGGTTGATATGCTAGGGGGTGATATTC
AAGTTGGGAGTGAAAAGGGAGTAGGTACAGAATTTGTAGTCACTGTCCCTGTGAAGAGTGGTTCTGTCGGTTCTGATTTT
CAATCAACAGAACAAGAACTTCTTCCTCATGAGCTTTTTGACAGAACACTGAAGGTGCTGCTAGTAGAGGATAATGGTAC
CAACGCATTTATCGCACAGGCATTTTGTAAAAAATATGGGATGGATGTGCAGTGGACGAAAGATGGGTTGAGTGCACTGA
AAATTATTGAGGCAGAGTCTTTTGATCTGATTCTGATGGATAACCAGTTGCCGAATTTAGGCGGAATCGAAACCACCATG
GCGATTCGAAACGATTTACACATATCCACGCCAATATACGCTTGTACTGCAGATAGCCTTGCTTCTACTAATGATGCATT
CATCGCCGCTGGGGCTAATTATGTGATTGTTAAGCCAATTAAGGAACATGTGCTACATGCTGCGTTCGTTCATTTTAAAA
GGCATTTTCTTAATTCAGAAGAGTGA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| luxQ | Vibrio cholerae strain A1552 |
49.07 |
99.884 |
0.49 |