Mutation Accumulation in Finite Populations

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The Journal of Heredity 1993:84(5):321-325
© 1993 The American Genetic Association 84:321-325

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Mutation Accumulation in Finite Populations

D. Charlesworth, M.T. Morgan, and B. Charlesworth

Department of Ecology and Evolution, University of Chicago 1101 E 57th St., Chicago, IL 60637

Abstract

Two different processes contribute to mutation accumulationin finite populations: fixation of mutant alleles and Muller'sratchet. In very small random-mating populations, and with tightlinkage, fixation of mutant alleles occurs at a high rate. Withvery restricted recombination, the number of low-frequency mutantalleles per genome in random-mating populations also increasesover time independently of fixation (Muller's ratchet). Increasedpopulation size affects the ratchet less than the fixation process,and the decline in population fitness is dominated by the ratchetin populations of size greater than about 100, especially withhigh mutation rates. Neither fixation nor the ratchet has seriouseffects unless recombination is severely restricted. The effectsof differences in the selection parameters (strength of selection,dominance coefficient) can be interpreted in terms of opposingeffects of selection, on individual loci and associations betweenloci. Stronger selection slows the accumulation of mutations,although a faster decline in mean fitness sometime results.Increasing the dominance coefficients of the mutant allelestends to act similarly. High inbreeding slows the ratchet, becausewith homozygosity there is a higher initial frequency of theleast loaded class, as the increased homozygous expression ofmutant alleles in inbred populations has effects similar tostronger selection. Fixation of mildly deleterious mutationsis accelerated in highly inbred populations, but fitness declinedue to mutation accumulation was rapid only in very small populationsand was always much slower than for asexual populations. Theeffects of breeding system and rate of recombination on therate of molecular evolution by the fixation of slightly deleteriousalleles are discussed.

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