Litcius/Paper detail

Flexible genes establish widespread bacteriophage pan-genomes in cryoconite hole ecosystems

Christopher M. Bellas, Declan C. Schroeder, Arwyn Edwards, Gary Barker, Alexandre M. Anesio

2020Nature Communications76 citationsDOIOpen Access PDF

Abstract

Bacteriophage genomes rapidly evolve via mutation and horizontal gene transfer to counter evolving bacterial host defenses; such arms race dynamics should lead to divergence between phages from similar, geographically isolated ecosystems. However, near-identical phage genomes can reoccur over large geographical distances and several years apart, conversely suggesting many are stably maintained. Here, we show that phages with near-identical core genomes in distant, discrete aquatic ecosystems maintain diversity by possession of numerous flexible gene modules, where homologous genes present in the pan-genome interchange to create new phage variants. By repeatedly reconstructing the core and flexible regions of phage genomes from different metagenomes, we show a pool of homologous gene variants co-exist for each module in each location, however, the dominant variant shuffles independently in each module. These results suggest that in a natural community, recombination is the largest contributor to phage diversity, allowing a variety of host recognition receptors and genes to counter bacterial defenses to co-exist for each phage.

Topics & Concepts

GenomeBiologyHorizontal gene transferBacteriophageGeneGeneticsHomologous recombinationEvolutionary biologyHost (biology)Computational biologyEscherichia coliBacteriophages and microbial interactionsGenomics and Phylogenetic StudiesMicrobial infections and disease research