Detailed information
Bioinformatically predicted
Overview
| Name | luxQ | Type | Regulator |
| Locus tag | GO175_RS19965 | Genome accession | NZ_CP046856 |
| Coordinates | 961452..964019 (+) | Length | 855 a.a. |
| NCBI ID | WP_020433712.1 | Uniprot ID | - |
| Organism | Vibrio fluvialis strain F8658 | ||
| Function | autoinducer sensor (predicted from homology) Competence regulation |
||
Genomic Context
Location: 956452..969019
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| GO175_RS19935 | - | 957175..957492 (-) | 318 | WP_020329287.1 | DUF496 family protein | - |
| GO175_RS19940 | - | 957682..957879 (+) | 198 | WP_020329288.1 | hypothetical protein | - |
| GO175_RS19945 | - | 957924..958559 (+) | 636 | WP_154183448.1 | YceH family protein | - |
| GO175_RS19950 | - | 958570..958851 (+) | 282 | WP_143682552.1 | GIY-YIG nuclease family protein | - |
| GO175_RS19955 | - | 958965..960122 (+) | 1158 | WP_154183450.1 | conjugal transfer protein TraF | - |
| GO175_RS19960 | luxP | 960333..961430 (+) | 1098 | WP_154183452.1 | autoinducer 2-binding periplasmic protein LuxP | Regulator |
| GO175_RS19965 | luxQ | 961452..964019 (+) | 2568 | WP_020433712.1 | quorum-sensing autoinducer 2 sensor kinase/phosphatase LuxQ | Regulator |
| GO175_RS19970 | - | 964025..964705 (-) | 681 | WP_154183455.1 | flagellar brake protein | - |
| GO175_RS19975 | - | 964840..965364 (-) | 525 | WP_020329295.1 | hypothetical protein | - |
| GO175_RS19980 | - | 965517..965891 (-) | 375 | WP_154183457.1 | NirD/YgiW/YdeI family stress tolerance protein | - |
| GO175_RS19985 | - | 966057..967541 (+) | 1485 | WP_158148679.1 | cobyric acid synthase | - |
| GO175_RS19990 | modA | 967538..968323 (+) | 786 | WP_055453540.1 | molybdate ABC transporter substrate-binding protein | - |
Sequence
Protein
Download Length: 855 a.a. Molecular weight: 96307.77 Da Isoelectric Point: 5.0360
>NTDB_id=408972 GO175_RS19965 WP_020433712.1 961452..964019(+) (luxQ) [Vibrio fluvialis strain F8658]
MGIRSSTVKQKRKIATFISRAIVTVLGALTLTVLFQSYQISSRLISQEVARTSTQTSSLIQNLFNYRLATLQIHQDSSAK
NASLIQALHGDTNDALDQYFLSVDQLELNNTPDIRFITDLKEMVWEDGNSQFYGVQSKELNAIIRKVSISSNWHLIQTPS
ELGTAYLLVRRSPIVDTATGEVIGFLYVSIVLNNNFALIETIRDSSNSQNLILTVGSEVLASTLNGDESYTAFDVLQDGM
SDMLYDKNMVAKTVLEVEGVPTYLSVYSVQSNENALSLRDNYYFWMVFALVAMVGVSILTRWWLQRRIESEIEGLMTYTH
KVAERGLDDFFPGSKIYEFDHFGRTLEHTFQRLSAQEKQFEDLFNFALSPTILWTADGELIRMNPSAQKHFLRNNAEYHS
LFSVLKRQLIPQIKLAAKGEILKEVNTEVDDKVFLWNLSPIVVENRIESIITQGQDVTSIAEAEKQSRIARREAEESARV
RADFLAKMSHELRTPLNGILGVSQLLKRTVKEKEQAEQVNVLCSSGEHLLAVLNDILDFSKIEQGKFRIQKTHFPLVDVV
SAIERIYRPLCREKGLDLSIDSNIDQTMIVNADQVRLNQILFNLLNNAVKFTHQGAISIQLNLLQEAGDTRLSISVMDTG
IGIRDADLNIIFEPFVQAESTNTREYGGSGLGLAIVHSLIEMLGGTVQVSSTFGVGTRFNIELPMERVTSEKQSIERKEA
ASRYELFDGSIHVLLVEDNHTNAFIAQAFCKKYGMVVDWVTDGLQAIEKVKEQRYDLILMDNQLPYLDGVDATRIIKQEM
GLEIPVYACTADGVVETQQAFMSAGAEYVIVKPIKEDTLHKALVNFKQDHTEWSV
MGIRSSTVKQKRKIATFISRAIVTVLGALTLTVLFQSYQISSRLISQEVARTSTQTSSLIQNLFNYRLATLQIHQDSSAK
NASLIQALHGDTNDALDQYFLSVDQLELNNTPDIRFITDLKEMVWEDGNSQFYGVQSKELNAIIRKVSISSNWHLIQTPS
ELGTAYLLVRRSPIVDTATGEVIGFLYVSIVLNNNFALIETIRDSSNSQNLILTVGSEVLASTLNGDESYTAFDVLQDGM
SDMLYDKNMVAKTVLEVEGVPTYLSVYSVQSNENALSLRDNYYFWMVFALVAMVGVSILTRWWLQRRIESEIEGLMTYTH
KVAERGLDDFFPGSKIYEFDHFGRTLEHTFQRLSAQEKQFEDLFNFALSPTILWTADGELIRMNPSAQKHFLRNNAEYHS
LFSVLKRQLIPQIKLAAKGEILKEVNTEVDDKVFLWNLSPIVVENRIESIITQGQDVTSIAEAEKQSRIARREAEESARV
RADFLAKMSHELRTPLNGILGVSQLLKRTVKEKEQAEQVNVLCSSGEHLLAVLNDILDFSKIEQGKFRIQKTHFPLVDVV
SAIERIYRPLCREKGLDLSIDSNIDQTMIVNADQVRLNQILFNLLNNAVKFTHQGAISIQLNLLQEAGDTRLSISVMDTG
IGIRDADLNIIFEPFVQAESTNTREYGGSGLGLAIVHSLIEMLGGTVQVSSTFGVGTRFNIELPMERVTSEKQSIERKEA
ASRYELFDGSIHVLLVEDNHTNAFIAQAFCKKYGMVVDWVTDGLQAIEKVKEQRYDLILMDNQLPYLDGVDATRIIKQEM
GLEIPVYACTADGVVETQQAFMSAGAEYVIVKPIKEDTLHKALVNFKQDHTEWSV
Nucleotide
Download Length: 2568 bp
>NTDB_id=408972 GO175_RS19965 WP_020433712.1 961452..964019(+) (luxQ) [Vibrio fluvialis strain F8658]
GTGGGCATCAGATCAAGCACAGTCAAACAGAAAAGAAAAATCGCAACGTTCATCAGCCGAGCGATTGTGACGGTGCTTGG
TGCGCTGACGTTGACGGTGCTGTTTCAAAGCTATCAAATCAGCAGTCGTTTGATCTCACAGGAAGTGGCCCGCACTTCAA
CTCAAACCTCCAGCCTGATTCAGAACCTGTTCAATTACCGATTGGCCACGCTGCAGATTCATCAGGACAGTAGCGCAAAA
AATGCCAGTTTGATTCAGGCTCTGCACGGCGATACTAATGACGCACTGGATCAGTACTTTCTCAGTGTTGACCAGCTTGA
ACTCAACAATACGCCGGATATTCGTTTCATTACTGACCTCAAAGAGATGGTATGGGAAGACGGCAACTCTCAGTTTTATG
GGGTTCAGTCGAAAGAGCTCAATGCCATCATCCGAAAAGTGTCAATCAGCAGTAACTGGCACCTAATCCAAACGCCTTCA
GAGTTAGGCACGGCCTACCTGCTTGTTCGCCGCTCACCGATTGTGGATACCGCAACCGGCGAAGTCATCGGTTTTCTCTA
CGTCAGTATTGTACTCAACAACAACTTTGCGTTAATCGAGACCATTCGTGACAGCAGTAACTCGCAGAATCTGATTCTGA
CGGTTGGTTCAGAAGTTTTGGCGTCGACTCTGAATGGAGACGAATCGTATACAGCGTTCGATGTGTTGCAGGACGGTATG
AGCGACATGCTGTACGACAAAAACATGGTGGCGAAAACGGTTCTGGAAGTGGAAGGTGTGCCGACGTATCTCAGTGTTTA
CTCAGTGCAGAGCAACGAGAATGCGTTGAGCCTGCGTGACAACTACTATTTCTGGATGGTTTTTGCGCTGGTGGCGATGG
TCGGTGTCTCCATTCTGACGCGTTGGTGGTTGCAGCGACGAATTGAGTCGGAAATTGAAGGGCTGATGACCTACACCCAT
AAAGTGGCAGAGCGTGGACTGGATGACTTCTTCCCCGGCTCAAAAATTTACGAATTTGACCACTTCGGCCGCACGCTGGA
ACACACTTTCCAACGCCTGTCTGCGCAGGAAAAGCAATTTGAGGATCTGTTTAACTTCGCTCTGTCGCCAACCATTCTCT
GGACGGCAGACGGTGAGCTGATTCGTATGAACCCGTCGGCTCAAAAGCATTTTTTACGCAATAATGCGGAATATCATTCC
TTGTTCTCTGTGCTGAAACGTCAGTTGATCCCGCAGATCAAACTGGCGGCAAAAGGCGAGATTCTCAAAGAAGTGAACAC
CGAAGTCGACGACAAAGTGTTCCTGTGGAACCTGTCGCCGATTGTGGTGGAGAACCGTATCGAATCGATTATTACTCAGG
GCCAGGATGTCACCTCGATTGCAGAAGCGGAAAAACAGAGCCGTATTGCACGTAGAGAAGCGGAAGAGTCGGCACGCGTC
AGAGCGGATTTCCTCGCGAAAATGAGCCATGAGCTGAGAACGCCACTGAATGGGATTCTGGGTGTGTCTCAACTCCTTAA
GCGTACAGTGAAGGAAAAAGAGCAGGCCGAGCAGGTTAATGTTTTGTGCAGCAGTGGTGAACATCTGCTGGCAGTGCTGA
ATGACATTCTGGATTTCTCAAAGATAGAGCAGGGTAAATTCCGGATTCAGAAGACCCATTTCCCGTTGGTCGATGTGGTG
TCGGCCATTGAACGAATTTATCGTCCATTGTGCCGTGAGAAAGGCTTGGATCTCTCGATTGACAGCAATATCGACCAAAC
AATGATTGTAAATGCGGACCAGGTACGTCTGAATCAGATTCTGTTTAATCTGCTCAATAACGCCGTGAAGTTTACCCATC
AGGGCGCCATCAGCATTCAGCTAAATCTGTTGCAAGAGGCGGGCGACACTCGCCTGTCCATTTCGGTTATGGACACAGGT
ATTGGCATTCGCGATGCCGATTTGAATATCATCTTTGAGCCGTTTGTTCAGGCAGAATCGACCAATACCCGCGAATATGG
CGGCAGTGGATTGGGGCTGGCCATTGTGCACAGCCTGATTGAAATGCTTGGCGGCACGGTGCAGGTCAGCTCGACGTTTG
GTGTAGGCACACGTTTTAATATCGAATTGCCGATGGAACGTGTTACCTCTGAAAAGCAGTCGATTGAGCGCAAAGAAGCC
GCATCACGTTACGAGCTGTTCGATGGCAGCATTCATGTTCTGCTGGTTGAGGACAACCATACCAATGCGTTTATCGCACA
AGCCTTCTGCAAGAAATATGGCATGGTCGTCGACTGGGTCACGGATGGATTGCAGGCGATAGAAAAGGTCAAAGAGCAGC
GTTACGATCTGATTCTGATGGACAACCAACTGCCGTATCTCGACGGTGTGGATGCCACGCGCATCATCAAACAAGAAATG
GGCTTAGAAATACCAGTTTACGCCTGTACCGCAGATGGCGTGGTGGAAACTCAGCAAGCGTTTATGTCTGCCGGTGCAGA
ATACGTGATCGTCAAGCCGATCAAAGAAGATACGCTGCACAAAGCTTTGGTGAACTTTAAACAAGACCATACCGAGTGGT
CTGTGTAA
GTGGGCATCAGATCAAGCACAGTCAAACAGAAAAGAAAAATCGCAACGTTCATCAGCCGAGCGATTGTGACGGTGCTTGG
TGCGCTGACGTTGACGGTGCTGTTTCAAAGCTATCAAATCAGCAGTCGTTTGATCTCACAGGAAGTGGCCCGCACTTCAA
CTCAAACCTCCAGCCTGATTCAGAACCTGTTCAATTACCGATTGGCCACGCTGCAGATTCATCAGGACAGTAGCGCAAAA
AATGCCAGTTTGATTCAGGCTCTGCACGGCGATACTAATGACGCACTGGATCAGTACTTTCTCAGTGTTGACCAGCTTGA
ACTCAACAATACGCCGGATATTCGTTTCATTACTGACCTCAAAGAGATGGTATGGGAAGACGGCAACTCTCAGTTTTATG
GGGTTCAGTCGAAAGAGCTCAATGCCATCATCCGAAAAGTGTCAATCAGCAGTAACTGGCACCTAATCCAAACGCCTTCA
GAGTTAGGCACGGCCTACCTGCTTGTTCGCCGCTCACCGATTGTGGATACCGCAACCGGCGAAGTCATCGGTTTTCTCTA
CGTCAGTATTGTACTCAACAACAACTTTGCGTTAATCGAGACCATTCGTGACAGCAGTAACTCGCAGAATCTGATTCTGA
CGGTTGGTTCAGAAGTTTTGGCGTCGACTCTGAATGGAGACGAATCGTATACAGCGTTCGATGTGTTGCAGGACGGTATG
AGCGACATGCTGTACGACAAAAACATGGTGGCGAAAACGGTTCTGGAAGTGGAAGGTGTGCCGACGTATCTCAGTGTTTA
CTCAGTGCAGAGCAACGAGAATGCGTTGAGCCTGCGTGACAACTACTATTTCTGGATGGTTTTTGCGCTGGTGGCGATGG
TCGGTGTCTCCATTCTGACGCGTTGGTGGTTGCAGCGACGAATTGAGTCGGAAATTGAAGGGCTGATGACCTACACCCAT
AAAGTGGCAGAGCGTGGACTGGATGACTTCTTCCCCGGCTCAAAAATTTACGAATTTGACCACTTCGGCCGCACGCTGGA
ACACACTTTCCAACGCCTGTCTGCGCAGGAAAAGCAATTTGAGGATCTGTTTAACTTCGCTCTGTCGCCAACCATTCTCT
GGACGGCAGACGGTGAGCTGATTCGTATGAACCCGTCGGCTCAAAAGCATTTTTTACGCAATAATGCGGAATATCATTCC
TTGTTCTCTGTGCTGAAACGTCAGTTGATCCCGCAGATCAAACTGGCGGCAAAAGGCGAGATTCTCAAAGAAGTGAACAC
CGAAGTCGACGACAAAGTGTTCCTGTGGAACCTGTCGCCGATTGTGGTGGAGAACCGTATCGAATCGATTATTACTCAGG
GCCAGGATGTCACCTCGATTGCAGAAGCGGAAAAACAGAGCCGTATTGCACGTAGAGAAGCGGAAGAGTCGGCACGCGTC
AGAGCGGATTTCCTCGCGAAAATGAGCCATGAGCTGAGAACGCCACTGAATGGGATTCTGGGTGTGTCTCAACTCCTTAA
GCGTACAGTGAAGGAAAAAGAGCAGGCCGAGCAGGTTAATGTTTTGTGCAGCAGTGGTGAACATCTGCTGGCAGTGCTGA
ATGACATTCTGGATTTCTCAAAGATAGAGCAGGGTAAATTCCGGATTCAGAAGACCCATTTCCCGTTGGTCGATGTGGTG
TCGGCCATTGAACGAATTTATCGTCCATTGTGCCGTGAGAAAGGCTTGGATCTCTCGATTGACAGCAATATCGACCAAAC
AATGATTGTAAATGCGGACCAGGTACGTCTGAATCAGATTCTGTTTAATCTGCTCAATAACGCCGTGAAGTTTACCCATC
AGGGCGCCATCAGCATTCAGCTAAATCTGTTGCAAGAGGCGGGCGACACTCGCCTGTCCATTTCGGTTATGGACACAGGT
ATTGGCATTCGCGATGCCGATTTGAATATCATCTTTGAGCCGTTTGTTCAGGCAGAATCGACCAATACCCGCGAATATGG
CGGCAGTGGATTGGGGCTGGCCATTGTGCACAGCCTGATTGAAATGCTTGGCGGCACGGTGCAGGTCAGCTCGACGTTTG
GTGTAGGCACACGTTTTAATATCGAATTGCCGATGGAACGTGTTACCTCTGAAAAGCAGTCGATTGAGCGCAAAGAAGCC
GCATCACGTTACGAGCTGTTCGATGGCAGCATTCATGTTCTGCTGGTTGAGGACAACCATACCAATGCGTTTATCGCACA
AGCCTTCTGCAAGAAATATGGCATGGTCGTCGACTGGGTCACGGATGGATTGCAGGCGATAGAAAAGGTCAAAGAGCAGC
GTTACGATCTGATTCTGATGGACAACCAACTGCCGTATCTCGACGGTGTGGATGCCACGCGCATCATCAAACAAGAAATG
GGCTTAGAAATACCAGTTTACGCCTGTACCGCAGATGGCGTGGTGGAAACTCAGCAAGCGTTTATGTCTGCCGGTGCAGA
ATACGTGATCGTCAAGCCGATCAAAGAAGATACGCTGCACAAAGCTTTGGTGAACTTTAAACAAGACCATACCGAGTGGT
CTGTGTAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| luxQ | Vibrio cholerae strain A1552 |
63.498 |
99.649 |
0.633 |