Open access
Date
2022-12Type
- Journal Article
Abstract
The adaptive potential of nonheritable somatic mutations has received limited attention in traditional evolutionary theory because heritability is a fundamental pillar of Darwinian evolution. We hypothesized that the ability of a germline genotype to express a novel phenotype via nonheritable somatic mutations can be selectively advantageous and that this advantage will channel evolving populations toward germline genotypes that constitutively express the phenotype. We tested this hypothesis by simulating evolving populations of developing organisms with an impermeable germline-soma separation navigating a minimal fitness landscape. The simulations revealed the conditions under which nonheritable somatic mutations promote adaptation. Specifically, this can occur when the somatic mutation supply is high, when few cells with the advantageous somatic mutation are required to increase organismal fitness, and when the somatic mutation also confers a selective advantage at the cellular level. We therefore provide proof of principle that nonheritable somatic mutations can promote adaptive evolution via a process we call "somatic genotypic exploration." We discuss the biological plausibility of this phenomenon as well as its evolutionary implications. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000579348Publication status
publishedExternal links
Journal / series
The American NaturalistVolume
Pages / Article No.
Publisher
University of Chicago PressSubject
somatic mutations; Weissman; evolutionary theory; development; adaptive landscape; multilevel selectionOrganisational unit
09613 - Payne, Joshua (ehemalig) / Payne, Joshua (former)
Funding
170604 - Regulatory logic and the evolution of promoter complexity (SNF)
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