Synergistic Fitness Interactions and a High Frequency of Beneficial Changes Among Mutations Accumulated Under Relaxed Selection in Saccharomyces cerevisiae

W. Joseph Dickinson¹

Department of Biology, University of Utah, Salt Lake City, Utah 84112

^¹ Address for correspondence: Department of Biology, University of Utah, 257 South 1400 East, Salt Lake City, UT 84112.
E-mail: joebiohorn{at}msn.com

Spontaneous mutations were accumulated for $~$ 4800 generationsin 48 lines of yeast protected from effective selection by frequentpassage through single-cell bottlenecks. Changes in fitnesswere evaluated by direct competition with matched parental stocksdiffering only at a selectively neutral marker locus. Averagefitness declined by $~$ 5% over the course of the experiment. Therate of change increased sharply in later generations, stronglysuggesting synergistic epistasis. Divergence among lines increasedrapidly relative to the change in average fitness and also atan accelerating pace. Both results are well matched by a modelassuming that fitness cost increases exponentially (approximatelysecond order) with the number of accumulated mutations. Thisresult is consistent with fitness loss due primarily to interactionsbetween specific pairs of gene products. I also estimate that $~$ 25% of the mutations with detectable fitness effects were beneficial.This result can be explained by the fact that the effects ofmost mutations are small relative to the distance from a localfitness optimum.

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ISSUE HIGHLIGHTS: Genetics 2008 178: NP. [Full Text]