LIMITS TO THE RELATIONSHIP AMONG RECOMBINATION, DISEQUILIBRIUM AND EPISTASIS IN TWO-LOCUS MODELS

¹ Department of Mathematics and Division of Environmental Studies, University of California, Davis, California 95616

I determine limits to the equilibrium relationship among epistasis, recombination and disequilibrium in two-locus, two-allele models using linear programming techniques. I show that when allele frequencies are one-half at each locus, the symmetric model is the fitness pattern that generates the most disequilibrium for the smallest level of epistasis. When allele frequencies deviate from one-half, much larger levels of epistasis are required to generate similar levels of disequilibrium. I determine the level of epistasis required to generate observed significant levels of disequilibrium in natural populations. The overall implication is that disequilibrium will be large at equilibrium only between strongly interacting, closely linked loci.