THE EVOLUTION OF EPISTASIS AND THE ADVANTAGE OF RECOMBINATION IN POPULATIONS OF BACTERIOPHAGE T4

THE EVOLUTION OF EPISTASIS AND THE ADVANTAGE OF RECOMBINATION IN POPULATIONS OF BACTERIOPHAGE T4

Russell L. Malmberg ¹

¹ Laboratory of Genetics, University of Wisconsin-Madison, Madison, Wisconsin 53706

Experiments reported here test two hypotheses about the evolution ofrecombination: first, the Fisher-Muller concept that sexualorganisms respond to selection more rapidly than do asexualones, and second, that epistasis is more likely to evolve inthe absence of recombination. Populations of bacteriophage T4were selected by the drug proflavine in discrete generationsand the change in mean population fitness was monitored. Threeseparate selection series yielded results supporting the Fisher-Mullerhypothesis. The amount of epistasis evolved was measured bypartitioning the T4 map into regions and comparing the sum ofthe proflavine resistances of each region with the resistanceof the whole. Significantly more interactions were found inphage isolated from the populations with lower total recombinationthan in those from populations with higher recombination. Thedegree to which these experiments fit preconceived notions aboutnatural selection suggests that microorganisms may be advantageously usedin other population genetics experiments.

Submitted on December 23, 1976
Revised on March 2, 1977

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THE EVOLUTION OF EPISTASIS AND THE ADVANTAGE OF RECOMBINATION IN POPULATIONS OF BACTERIOPHAGE T4

Russell L. Malmberg 1

Russell L. Malmberg ¹