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Strong within-host selection in a maternally inherited obligate symbiont: <i>Buchnera</i> and aphids

Julie Perreau, Bo Zhang, Gerald P. Maeda, Mark Kirkpatrick, Nancy A. Moran

2021Proceedings of the National Academy of Sciences31 citationsDOIOpen Access PDF

Abstract

within hosts (i.e., the transmission bottleneck size) and the extent of within-host selection. The within-host effective population size was in the range of 10 to 20, indicating a strong potential for genetic drift and fixation of deleterious mutations. Remarkably, closely related haplotypes were subject to strong within-host selection, with selection coefficients as high as 0.5 per aphid generation. In one case, the direction of selection depended on the thermal environment and went in the same direction as between-host selection. In another, a new mutant haplotype had a strong within-host advantage under both environments but had no discernible effect on host-level fitness under laboratory conditions. Thus, within-host selection can be strong, resulting in a rapid fixation of mutations with little impact on host-level fitness. Together, these results show that within-host selection can drive evolution of an obligate symbiont, accelerating sequence evolution.

Topics & Concepts

BuchneraBiologyObligateHost (biology)Natural selectionGenetic driftGeneticsPopulationEvolutionary biologyPopulation bottleneckFixation (population genetics)Selection (genetic algorithm)Balancing selectionGenetic variationAlleleGenomeEcologyGeneMicrosatelliteDemographyComputer scienceSociologyArtificial intelligenceInsect symbiosis and bacterial influencesInsect-Plant Interactions and ControlPlant and animal studies
Strong within-host selection in a maternally inherited obligate symbiont: <i>Buchnera</i> and aphids | Litcius