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D-amino acids signal a stress-dependent run-away response in Vibrio cholerae.

Oihane IrazokiJosy Ter BeekLaura AlvarezAndré MateusRemy ColinAthanasios TypasMikhail M SavitskiVictor SourjikRonnie P-A BerntssonFelipe Cava
Published in: Nature microbiology (2023)
To explore favourable niches while avoiding threats, many bacteria use a chemotaxis navigation system. Despite decades of studies on chemotaxis, most signals and sensory proteins are still unknown. Many bacterial species release D-amino acids to the environment; however, their function remains largely unrecognized. Here we reveal that D-arginine and D-lysine are chemotactic repellent signals for the cholera pathogen Vibrio cholerae. These D-amino acids are sensed by a single chemoreceptor MCP DRK co-transcribed with the racemase enzyme that synthesizes them under the control of the stress-response sigma factor RpoS. Structural characterization of this chemoreceptor bound to either D-arginine or D-lysine allowed us to pinpoint the residues defining its specificity. Interestingly, the specificity for these D-amino acids appears to be restricted to those MCP DRK orthologues transcriptionally linked to the racemase. Our results suggest that D-amino acids can shape the biodiversity and structure of complex microbial communities under adverse conditions.
Keyphrases
  • amino acid
  • nitric oxide
  • gene expression
  • stress induced
  • adverse drug