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Evolutionary Stabilization of Cooperative Toxin Production through a Bacterium-Plasmid-Phage Interplay

Stefanie Spriewald, Eva Stadler, Burkhard A. Hense, Philipp C. Münch, Alice C. McHardy, Anna S. Weiß, Nancy Obeng, Johannes Müller, Bärbel Stecher

2020mBio14 citationsDOIOpen Access PDF

Abstract

Bacteria are excellent model organisms to study mechanisms of social evolution. The production of public goods, e.g., toxin release by cell lysis in clonal bacterial populations, is a frequently studied example of cooperative behavior. Here, we analyze evolutionary stabilization of toxin release by the enteric pathogen Salmonella . The release of colicin Ib (ColIb), which is used by Salmonella to gain an edge against competing microbiota following infection, is coupled to bacterial lysis mediated by temperate phages. Here, we show that phage-dependent lysis and subsequent release of colicin and phage particles occurs only in part of the ColIb-expressing Salmonella population. This phenotypic heterogeneity in lysis, which represents an essential step in the temperate phage life cycle, has evolved as a bet-hedging strategy under fluctuating environments such as the gastrointestinal tract. Our findings suggest that prophages can thereby evolutionarily stabilize costly toxin release in bacterial populations.

Topics & Concepts

ProphageBiologyMicrobiologyBacteriophageTemperatenessColicinSalmonellaBacteriaPlasmidLysisPopulationToxinBacterial cell structurePathogenSalmonella entericaGeneticsEscherichia coliGeneMolecular biologySociologyDemographyBacteriophages and microbial interactionsEvolution and Genetic DynamicsEscherichia coli research studies