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Bacterial predator-prey coevolution accelerates genome evolution and selects on virulence-associated prey defences

Ramith R. Nair (), Marie Vasse (), Sébastien Wielgoss, Lei Sun, Yuen-Tsu N. Yu and Gregory J. Velicer
Additional contact information
Ramith R. Nair: Institute for Integrative Biology, ETH Zürich
Marie Vasse: Institute for Integrative Biology, ETH Zürich
Sébastien Wielgoss: Institute for Integrative Biology, ETH Zürich
Lei Sun: Institute for Integrative Biology, ETH Zürich
Yuen-Tsu N. Yu: Institute for Integrative Biology, ETH Zürich
Gregory J. Velicer: Institute for Integrative Biology, ETH Zürich

Nature Communications, 2019, vol. 10, issue 1, 1-10

Abstract: Abstract Generalist bacterial predators are likely to strongly shape many important ecological and evolutionary features of microbial communities, for example by altering the character and pace of molecular evolution, but investigations of such effects are scarce. Here we report how predator-prey interactions alter the evolution of fitness, genomes and phenotypic diversity in coevolving bacterial communities composed of Myxococcus xanthus as predator and Escherichia coli as prey, relative to single-species controls. We show evidence of reciprocal adaptation and demonstrate accelerated genomic evolution specific to coevolving communities, including the rapid appearance of mutator genotypes. Strong parallel evolution unique to the predator-prey communities occurs in both parties, with predators driving adaptation at two prey traits associated with virulence in bacterial pathogens—mucoidy and the outer-membrane protease OmpT. Our results suggest that generalist predatory bacteria are important determinants of how complex microbial communities and their interaction networks evolve in natural habitats.

Date: 2019
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Citations: View citations in EconPapers (2)

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DOI: 10.1038/s41467-019-12140-6

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