Detailed information
Bioinformatically predicted
Overview
| Name | luxO | Type | Regulator |
| Locus tag | KC397_RS18800 | Genome accession | NZ_CP073274 |
| Coordinates | 784830..786311 (+) | Length | 493 a.a. |
| NCBI ID | WP_154182482.1 | Uniprot ID | - |
| Organism | Vibrio fluvialis strain 19-VB00936 | ||
| Function | promote HapR production (predicted from homology) Competence regulation |
||
Genomic Context
Location: 779830..791311
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| KC397_RS18785 (KC397_18785) | - | 780820..781503 (+) | 684 | WP_158143168.1 | AAA family ATPase | - |
| KC397_RS18790 (KC397_18790) | - | 781667..782455 (+) | 789 | WP_249122609.1 | phosphate/phosphite/phosphonate ABC transporter substrate-binding protein | - |
| KC397_RS18795 (KC397_18795) | - | 782484..784790 (+) | 2307 | WP_249122610.1 | ATP-binding protein | - |
| KC397_RS18800 (KC397_18800) | luxO | 784830..786311 (+) | 1482 | WP_154182482.1 | sigma-54 dependent transcriptional regulator | Regulator |
| KC397_RS18805 (KC397_18805) | - | 786283..787356 (+) | 1074 | WP_249122574.1 | glycosyltransferase family 4 protein | - |
| KC397_RS18810 (KC397_18810) | - | 787554..788762 (+) | 1209 | WP_212571881.1 | glycosyltransferase family 4 protein | - |
| KC397_RS18815 (KC397_18815) | - | 788755..790185 (+) | 1431 | WP_212571883.1 | lipopolysaccharide biosynthesis protein | - |
Sequence
Protein
Download Length: 493 a.a. Molecular weight: 55806.85 Da Isoelectric Point: 5.9837
>NTDB_id=558748 KC397_RS18800 WP_154182482.1 784830..786311(+) (luxO) [Vibrio fluvialis strain 19-VB00936]
MQPKVLLVEDATSLAILYQQYVKDEPFEFFHVETGAEAKKFIQRYLPHVVILDLNLPDIEGQEILDWIKENEFPTSVLIA
TAHGSVDIAVDLLRRGADDFLEKPIVAERLKASIHVHLKKIKLEHMVEDLKSTIERPRFHGFIGTSQPMQKVYKTIEAVA
PTNASVFIVGESGTGKEVCAEAIHKQSERRDKPFVAINCGAIPKDLMESEIFGHIKGAYTGATTDRRGAAMQADGGTLFL
DELCEMDLDLQKKLLRFLQTSTFTPLGDSRERKVDVRIICATNRDPMQEVNEGRFREDLFYRVHVIPVVMPPLRERDQDI
VTLANHFIKTFARQDHKAFIALDKETERVFKRYSWPGNVRQLQNVIRNIVVLNDGKYVTAEQVPELLHQASTNKPSLKTA
GMPMAHIEPQHSVAEPTPIVPIHAPSAVDSDATDTANLTIRPMWQVERETIQQAIDFCDGNVLNAAVLLELSPSTVYRKK
QAWENEDQQYERA
MQPKVLLVEDATSLAILYQQYVKDEPFEFFHVETGAEAKKFIQRYLPHVVILDLNLPDIEGQEILDWIKENEFPTSVLIA
TAHGSVDIAVDLLRRGADDFLEKPIVAERLKASIHVHLKKIKLEHMVEDLKSTIERPRFHGFIGTSQPMQKVYKTIEAVA
PTNASVFIVGESGTGKEVCAEAIHKQSERRDKPFVAINCGAIPKDLMESEIFGHIKGAYTGATTDRRGAAMQADGGTLFL
DELCEMDLDLQKKLLRFLQTSTFTPLGDSRERKVDVRIICATNRDPMQEVNEGRFREDLFYRVHVIPVVMPPLRERDQDI
VTLANHFIKTFARQDHKAFIALDKETERVFKRYSWPGNVRQLQNVIRNIVVLNDGKYVTAEQVPELLHQASTNKPSLKTA
GMPMAHIEPQHSVAEPTPIVPIHAPSAVDSDATDTANLTIRPMWQVERETIQQAIDFCDGNVLNAAVLLELSPSTVYRKK
QAWENEDQQYERA
Nucleotide
Download Length: 1482 bp
>NTDB_id=558748 KC397_RS18800 WP_154182482.1 784830..786311(+) (luxO) [Vibrio fluvialis strain 19-VB00936]
ATGCAGCCGAAAGTATTGTTAGTCGAAGACGCAACGTCGCTGGCCATCCTATACCAACAGTACGTTAAGGATGAACCCTT
TGAATTTTTCCATGTGGAAACCGGTGCCGAAGCCAAAAAATTTATTCAACGTTACTTGCCCCACGTGGTCATCTTAGACC
TCAACTTGCCAGACATCGAAGGTCAGGAAATTCTTGATTGGATAAAAGAAAATGAATTCCCTACTTCAGTCCTGATTGCG
ACCGCACATGGTTCCGTAGATATCGCCGTCGATTTATTGCGTCGCGGAGCAGACGACTTTCTTGAGAAACCGATTGTCGC
CGAACGCCTTAAAGCTTCCATTCATGTCCATCTCAAAAAAATCAAACTGGAACATATGGTTGAGGATCTCAAGTCGACCA
TCGAACGCCCTCGCTTTCATGGCTTTATTGGCACAAGCCAGCCAATGCAGAAAGTGTATAAAACGATTGAAGCCGTTGCC
CCGACCAACGCCAGCGTCTTTATTGTGGGTGAAAGTGGTACGGGCAAAGAAGTTTGTGCTGAAGCCATTCACAAACAGAG
TGAACGCCGGGATAAACCATTTGTCGCCATTAACTGTGGTGCCATTCCGAAAGATCTGATGGAAAGCGAAATTTTCGGCC
ATATCAAAGGCGCCTATACTGGCGCAACGACGGACCGACGTGGCGCAGCCATGCAAGCAGATGGCGGCACTCTGTTTCTC
GACGAGCTGTGTGAAATGGACTTAGACCTGCAGAAAAAGCTGCTGCGTTTTTTGCAAACCAGTACGTTTACCCCGCTGGG
TGACAGTCGGGAGCGTAAAGTGGATGTGCGTATAATCTGTGCCACCAACCGCGACCCAATGCAAGAAGTGAACGAAGGAC
GTTTTCGCGAGGACTTGTTCTACCGAGTACATGTCATCCCTGTCGTTATGCCACCTTTACGTGAACGAGATCAGGACATC
GTGACACTCGCCAATCACTTCATCAAAACCTTCGCGCGTCAGGATCACAAGGCGTTCATTGCTTTGGATAAAGAAACTGA
ACGCGTTTTCAAACGCTATTCGTGGCCGGGTAATGTGCGTCAGTTGCAAAACGTTATCCGCAATATTGTGGTGCTGAATG
ATGGCAAGTACGTGACGGCGGAACAGGTGCCGGAACTGTTGCACCAAGCCTCAACAAACAAACCTTCCTTAAAAACCGCG
GGAATGCCAATGGCACATATCGAACCGCAACACTCAGTAGCAGAGCCAACTCCCATCGTTCCGATTCATGCTCCGTCGGC
AGTCGATAGTGACGCAACTGACACTGCCAATTTGACCATCAGACCCATGTGGCAGGTCGAACGCGAAACTATACAACAGG
CTATCGATTTCTGTGACGGCAACGTCCTCAATGCTGCAGTGTTGCTGGAACTGAGTCCATCGACTGTTTATCGCAAAAAG
CAGGCCTGGGAAAATGAAGACCAACAGTATGAACGAGCTTGA
ATGCAGCCGAAAGTATTGTTAGTCGAAGACGCAACGTCGCTGGCCATCCTATACCAACAGTACGTTAAGGATGAACCCTT
TGAATTTTTCCATGTGGAAACCGGTGCCGAAGCCAAAAAATTTATTCAACGTTACTTGCCCCACGTGGTCATCTTAGACC
TCAACTTGCCAGACATCGAAGGTCAGGAAATTCTTGATTGGATAAAAGAAAATGAATTCCCTACTTCAGTCCTGATTGCG
ACCGCACATGGTTCCGTAGATATCGCCGTCGATTTATTGCGTCGCGGAGCAGACGACTTTCTTGAGAAACCGATTGTCGC
CGAACGCCTTAAAGCTTCCATTCATGTCCATCTCAAAAAAATCAAACTGGAACATATGGTTGAGGATCTCAAGTCGACCA
TCGAACGCCCTCGCTTTCATGGCTTTATTGGCACAAGCCAGCCAATGCAGAAAGTGTATAAAACGATTGAAGCCGTTGCC
CCGACCAACGCCAGCGTCTTTATTGTGGGTGAAAGTGGTACGGGCAAAGAAGTTTGTGCTGAAGCCATTCACAAACAGAG
TGAACGCCGGGATAAACCATTTGTCGCCATTAACTGTGGTGCCATTCCGAAAGATCTGATGGAAAGCGAAATTTTCGGCC
ATATCAAAGGCGCCTATACTGGCGCAACGACGGACCGACGTGGCGCAGCCATGCAAGCAGATGGCGGCACTCTGTTTCTC
GACGAGCTGTGTGAAATGGACTTAGACCTGCAGAAAAAGCTGCTGCGTTTTTTGCAAACCAGTACGTTTACCCCGCTGGG
TGACAGTCGGGAGCGTAAAGTGGATGTGCGTATAATCTGTGCCACCAACCGCGACCCAATGCAAGAAGTGAACGAAGGAC
GTTTTCGCGAGGACTTGTTCTACCGAGTACATGTCATCCCTGTCGTTATGCCACCTTTACGTGAACGAGATCAGGACATC
GTGACACTCGCCAATCACTTCATCAAAACCTTCGCGCGTCAGGATCACAAGGCGTTCATTGCTTTGGATAAAGAAACTGA
ACGCGTTTTCAAACGCTATTCGTGGCCGGGTAATGTGCGTCAGTTGCAAAACGTTATCCGCAATATTGTGGTGCTGAATG
ATGGCAAGTACGTGACGGCGGAACAGGTGCCGGAACTGTTGCACCAAGCCTCAACAAACAAACCTTCCTTAAAAACCGCG
GGAATGCCAATGGCACATATCGAACCGCAACACTCAGTAGCAGAGCCAACTCCCATCGTTCCGATTCATGCTCCGTCGGC
AGTCGATAGTGACGCAACTGACACTGCCAATTTGACCATCAGACCCATGTGGCAGGTCGAACGCGAAACTATACAACAGG
CTATCGATTTCTGTGACGGCAACGTCCTCAATGCTGCAGTGTTGCTGGAACTGAGTCCATCGACTGTTTATCGCAAAAAG
CAGGCCTGGGAAAATGAAGACCAACAGTATGAACGAGCTTGA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| luxO | Vibrio cholerae strain A1552 |
49.375 |
97.363 |
0.481 |