HTH_LUXR

helix_turn_helix, Lux Regulon
HTH_LUXR
SMART accession number:SM00421
Description: lux regulon (activates the bioluminescence operon
Interpro abstract (IPR000792):

This domain is a DNA-binding, helix-turn-helix (HTH) domain of about 65 amino acids, present in transcription regulators of the LuxR/FixJ family of response regulators. The domain is named after Vibrio fischeri luxR, a transcriptional activator for quorum-sensing control of luminescence. LuxR-type HTH domain proteins occur in a variety of organisms. The DNA-binding HTH domain is usually located in the C-terminal region; the N-terminal region often containing an autoinducer-binding domain or a response regulatory domain. Most luxR-type regulators act as transcription activators, but some can be repressors or have a dual role for different sites. LuxR-type HTH regulators control a wide variety of activities in various biological processes.

The luxR-type, DNA-binding HTH domain forms a four-helical bundle structure. The HTH motif comprises the second and third helices, known as the scaffold and recognition helix, respectively. The HTH binds DNA in the major groove, where the N-terminal part of the recognition helix makes most of the DNA contacts. The fourth helix is involved in dimerisation of gerE and traR. Signalling events by one of the four activation mechanisms described below lead to multimerisation of the regulator. The regulators bind DNA as multimers [ (PUBMED:11243786) (PUBMED:12740396) (PUBMED:12087407) ].

LuxR-type HTH proteins can be activated by one of four different mechanisms:

1) Regulators which belong to a two-component sensory transduction system where the protein is activated by its phosphorylation, generally on an aspartate residue, by a transmembrane kinase [ (PUBMED:12352954) (PUBMED:12162958) ]. Some proteins that belong to this category are:

  • Rhizobiaceae fixJ (global regulator inducing expression of nitrogen-fixation genes in microaerobiosis)
  • Escherichia coli and Salmonella typhimurium uhpA (activates hexose phosphate transport gene uhpT)
  • E. coli narL and narP (activate nitrate reductase operon)
  • Enterobacteria rcsB (regulation of exopolysaccharide biosynthesis in enteric and plant pathogenesis)
  • Bordetella pertussis bvgA (virulence factor)
  • Bacillus subtilis coma (involved in expression of late-expressing competence genes)

2) Regulators which are activated, or in very rare cases repressed, when bound to N-acyl homoserine lactones, which are used as quorum sensing molecules in a variety of Gram-negative bacteria [ (PUBMED:15255890) ]:

  • V. fischeri luxR (activates bioluminescence operon)
  • Agrobacterium tumefaciens traR (regulation of Ti plasmid transfer)
  • Erwinia carotovora carR (control of carbapenem antibiotics biosynthesis)
  • E. carotovora expR (virulence factor for soft rot disease; activates plant tissue macerating enzyme genes)
  • Pseudomonas aeruginosa lasR (activates elastase gene lasB)
  • Erwinia chrysanthemi echR and Erwinia stewartii esaR
  • Pseudomonas chlororaphis phzR (positive regulator of phenazine antibiotic production)
  • Pseudomonas aeruginosa rhlR (activates rhlAB operon and lasB gene)

3) Autonomous effector domain regulators, without a regulatory domain, represented by gerE [ (PUBMED:11243786) ].

4) Multiple ligand-binding regulators, exemplified by malT [ (PUBMED:11931562) ].

GO process:regulation of transcription, DNA-templated (GO:0006355)
Family alignment:
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There are 244814 HTH_LUXR domains in 244033 proteins in SMART's nrdb database.

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