Dependence of Epistasis on Environment and Mutation Severity as Revealed by in Silico Mutagenesis of Phage T7

Dependence of Epistasis on Environment and Mutation Severity as Revealed by in Silico Mutagenesis of Phage T7

Lingchong You^a and John Yin^a,b
^a Department of Chemical Engineering, University of Wisconsin, Madison, Wisconsin 53706
^b Program in Cellular and Molecular Biology, University of Wisconsin, Madison, Wisconsin 53706

Corresponding author: John Yin, University of Wisconsin, 1415 Engineering Dr., Madison, WI 53706., yin{at}engr.wisc.edu (E-mail)

Communicating editor: P. D. KEIGHTLEY

Understanding how interactions among deleterious mutations affectfitness may shed light on a variety of fundamental biologicalphenomena, including the evolution of sex, the buffering ofgenetic variations, and the topography of fitness landscapes.It remains an open question under what conditions and to whatextent such interactions may be synergistic or antagonistic.To address this question, we employed a computer model for theintracellular growth of bacteriophage T7. We created in silico90,000 mutants of phage T7, each carrying from 1 to 30 mutations,and evaluated the fitness of each by simulating its growth cycle.The simulations sought to account for the severity of singledeleterious mutations on T7 growth, as well as the effect ofthe resource environment on our fitness measures. We found thatmildly deleterious mutations interacted synergistically in poor-resourceenvironments but antagonistically in rich-resource environments.However, severely deleterious mutations always interacted antagonistically,irrespective of environment. These results suggest that synergisticepistasis may be difficult to experimentally distinguish fromnonepistasis because its effects appear to be most pronouncedwhen the effects of mutations on fitness are most challengingto measure. Our approach demonstrates how computer simulationsof developmental processes can be used to quantitatively studygenetic interactions at the population level.

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