Determinants governing ligand specificity of the Vibrio harveyiLuxN quorum-sensing receptor

Determinants governing ligand specificity of the Vibrio harveyiLuxN quorum-sensing receptor

Quorum sensing is a process of bacterial cell-cell communication that relies on the production, release and receptor-driven detection of extracellular signal molecules called autoinducers. The quorum-sensing bacterium Vibrio harveyi exclusively detects the autoinducer N-((R)-3-hydroxybutanoyl)-L-hom...

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Bibliographic Details
Published in:Molecular microbiology Vol. 95; no. 1; pp. 127 - 142
Main Authors: Ke, Xiaobo, Miller, Laura C, Bassler, Bonnie L
Format: Journal Article
Language:English
Published: 01-01-2015
Subjects:
Vibrio
Vibrio harveyi
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Summary:Quorum sensing is a process of bacterial cell-cell communication that relies on the production, release and receptor-driven detection of extracellular signal molecules called autoinducers. The quorum-sensing bacterium Vibrio harveyi exclusively detects the autoinducer N-((R)-3-hydroxybutanoyl)-L-homoserin e lactone (3OH-C4 HSL) via the two-component receptor LuxN. To discover the principles underlying the exquisite selectivity LuxN has for its ligand, we identified LuxN mutants with altered specificity. LuxN uses three mechanisms to verify that the bound molecule is the correct ligand: in the context of the overall ligand-binding site, His210 validates the C3 modification, Leu166 surveys the chain-length and a strong steady-state kinase bias imposes an energetic hurdle for inappropriate ligands to elicit signal transduction. Affinities for the LuxN kinase on and kinase off states underpin whether a ligand will act as an antagonist or an agonist. Mutations that bias LuxN to the agonized, kinase off, state are clustered in a region adjacent to the ligand-binding site, suggesting that this region acts as the switch that triggers signal transduction. Together, our analyses illuminate how a histidine sensor kinase differentiates between ligands and exploits those differences to regulate its signaling activity.
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ISSN:0950-382X
1365-2958
DOI:10.1111/mmi.12852