Litcius/Paper detail

Genetically similar temperate phages form coalitions with their shared host that lead to niche-specific fitness effects

Jonelle T. R. Basso, Nana Y. D. Ankrah, Matthew J. Tuttle, Alex S. Grossman, Ruth‐Anne Sandaa, Alison Buchan

2020The ISME Journal35 citationsDOIOpen Access PDF

Abstract

Temperate phages engage in long-term associations with their hosts that may lead to mutually beneficial interactions, of which the full extent is presently unknown. Here, we describe an environmentally relevant model system with a single host, a species of the Roseobacter clade of marine bacteria, and two genetically similar phages (ɸ-A and ɸ-D). Superinfection of a ɸ-D lysogenized strain (CB-D) with ɸ-A particles resulted in a lytic infection, prophage induction, and conversion of a subset of the host population, leading to isolation of a newly ɸ-A lysogenized strain (CB-A). Phenotypic differences, predicted to result from divergent lysogenic-lytic switch mechanisms, are evident between these lysogens, with CB-A displaying a higher incidence of spontaneous induction. Doubling times of CB-D and CB-A in liquid culture are 75 and 100 min, respectively. As cell cultures enter stationary phase, CB-A viable counts are half of CB-D. Consistent with prior evidence that cell lysis enhances biofilm formation, CB-A produces twice as much biofilm biomass as CB-D. As strains are susceptible to infection by the opposing phage type, co-culture competitions were performed to test fitness effects. When grown planktonically, CB-A outcompeted CB-D three to one. Yet, during biofilm growth, CB-D outcompeted CB-A three to one. These results suggest that genetically similar phages can have divergent influence on the competitiveness of their shared hosts in distinct environmental niches, possibly due to a complex form of phage-mediated allelopathy. These findings have implications for enhanced understanding of the eco-evolutionary dynamics of host-phage interactions that are pervasive in all ecosystems.

Topics & Concepts

Lysogenic cycleProphageBiologyTemperatenessLytic cycleBacteriophageLysogenMicrobiologyHost (biology)BiofilmStrain (injury)PopulationExperimental evolutionGeneticsBacteriaEscherichia coliGeneVirusDemographySociologyAnatomyBacteriophages and microbial interactionsPlant Virus Research StudiesAquaculture disease management and microbiota