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Quantification of Lysogeny Caused by Phage Coinfections in Microbial Communities from Biophysical Principles

Antoni Luque, Cynthia B. Silveira

2020mSystems57 citationsDOIOpen Access PDF

Abstract

The association of temperate phages and bacterial hosts during lysogeny manipulates microbial dynamics from the oceans to the human gut. Lysogeny is well studied in laboratory models, but its environmental drivers remain unclear. Here, we quantified the probability of lysogenization caused by phage coinfections, a well-known trigger of lysogeny, in marine and gut microbial environments. Coinfections were quantified by developing a biophysical model that incorporated the traits of viral and bacterial communities. Lysogenization via coinfection was more frequent in highly productive environments like the gut, due to higher microbial densities and higher phage adsorption rates. At low cell densities, lysogenization occurred in bacteria with long duplication times. These results bridge the molecular understanding of lysogeny with the ecology of complex microbial communities.

Topics & Concepts

Lysogenic cycleLysogenBiologyCoinfectionTemperatenessHost (biology)MicrobiologyBacteriophageEcologyGeneticsEscherichia coliGeneVirusBacteriophages and microbial interactionsMicrobial Community Ecology and PhysiologyVibrio bacteria research studies