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Resolving the conflict between antibiotic production and rapid growth by recognition of peptidoglycan of susceptible competitors

Harsh Maan, Maxim Itkin, Sergey Malitsky, Jonathan Friedman, Ilana Kolodkin‐Gal

2022Nature Communications54 citationsDOIOpen Access PDF

Abstract

Microbial communities employ a variety of complex strategies to compete successfully against competitors sharing their niche, with antibiotic production being a common strategy of aggression. Here, by systematic evaluation of four non-ribosomal peptides/polyketide (NRPs/PKS) antibiotics produced by Bacillus subtilis clade, we revealed that they acted synergistically to effectively eliminate phylogenetically distinct competitors. The production of these antibiotics came with a fitness cost manifested in growth inhibition, rendering their synthesis uneconomical when growing in proximity to a phylogenetically close species, carrying resistance against the same antibiotics. To resolve this conflict and ease the fitness cost, antibiotic production was only induced by the presence of a peptidoglycan cue from a sensitive competitor, a response mediated by the global regulator of cellular competence, ComA. These results experimentally demonstrate a general ecological concept - closely related communities are favoured during competition, due to compatibility in attack and defence mechanisms.

Topics & Concepts

PeptidoglycanBiologyAntibioticsBacillus subtilisCompetitor analysisAntibiotic resistanceCompetition (biology)CladeLysinEcologyMicrobiologyBacteriaGeneticsBusinessEscherichia coliPhylogeneticsGeneMarketingBacteriophageBacteriophages and microbial interactionsBacterial biofilms and quorum sensingEvolution and Genetic Dynamics
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