Mutation Accumulation in Populations of Varying Size: The Distribution of Mutational Effects for Fitness Correlates in Caenorhabditis elegans

doi:10.1534/genetics.166.3.1269

Mutation Accumulation in Populations of Varying Size: The Distribution of Mutational Effects for Fitness Correlates in Caenorhabditis elegans

Suzanne Estes^a, Patrick C. Phillips^a, Dee R. Denver^b, W. Kelley Thomas^c, and Michael Lynch^b
^a Center for Ecology and Evolutionary Biology, University of Oregon, Eugene, Oregon 97403,
^b Department of Biology, Indiana University, Bloomington, Indiana 47405
^c Hubbard Center for Genome Studies, University of New Hampshire, Durham, New Hampshire 03824

Corresponding author: Suzanne Estes, 3029 Cordley Hall, Oregon State University, Corvallis, OR 97331-2914., estessu{at}science.oregonstate.edu (E-mail)

Communicating editor: J. B. WALSH

The consequences of mutation for population-genetic and evolutionaryprocesses depend on the rate and, especially, the frequencydistribution of mutational effects on fitness. We sought toapproximate the form of the distribution of mutational effectsby conducting divergence experiments in which lines of a DNArepair-deficient strain of Caenorhabditis elegans, msh-2, weremaintained at a range of population sizes. Assays of these linesconducted in parallel with the ancestral control suggest thatthe mutational variance is dominated by contributions from highlydetrimental mutations. This was evidenced by the ability ofall but the smallest population-size treatments to maintainrelatively high levels of mean fitness even under the 100-foldincrease in mutational pressure caused by knocking out the msh-2gene. However, we show that the mean fitness decline experiencedby larger populations is actually greater than expected on thebasis of our estimates of mutational parameters, which couldbe consistent with the existence of a common class of mutationswith small individual effects. Further, comparison of the totalmutation rate estimated from direct sequencing of DNA to thatdetected from phenotypic analyses implies the existence of alarge class of evolutionarily relevant mutations with no measurableeffect on laboratory fitness.

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