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Campylobacter phages use hypermutable polyG tracts to create phenotypic diversity and evade bacterial resistance

Martine C. Holst Sørensen, Amira R. Vitt, Horst Neve, Matteo Soverini, Stephen J. Ahern, Jochen Klumpp, Lone Brøndsted

2021Cell Reports27 citationsDOIOpen Access PDF

Abstract

Phase variation is a common mechanism for creating phenotypic heterogeneity of surface structures in bacteria important for niche adaptation. In Campylobacter, phase variation occurs by random variation in hypermutable homonucleotide 7-11 G (polyG) tracts. To elucidate how phages adapt to phase-variable hosts, we study Fletchervirus phages infecting Campylobacter dependent on a phase-variable receptor. Our data demonstrate that Fletcherviruses mimic their host and encode hypermutable polyG tracts, leading to phase-variable expression of two of four receptor-binding proteins. This creates phenotypically diverse phage populations, including a sub-population that infects the bacterial host when the phase-variable receptor is not expressed. Such population dynamics of both phage and host promote co-existence in a shared niche. Strikingly, we identify polyG tracts in more than 100 phage genera, infecting more than 70 bacterial species. Future experimental work may confirm phase variation as a widespread strategy for creating phenotypically diverse phage populations.

Topics & Concepts

BiologyPhenotypeMicrobiologyAntibiotic resistanceCampylobacterGeneticsDiversity (politics)Campylobacter jejuniMicrobial geneticsGeneComputational biologyBacteriaSociologyAnthropologyBacteriophages and microbial interactionsSalmonella and Campylobacter epidemiologyGenomics and Phylogenetic Studies
Campylobacter phages use hypermutable polyG tracts to create phenotypic diversity and evade bacterial resistance | Litcius