Polygenic Variation Maintained by Balancing Selection: Pleiotropy, Sex-Dependent Allelic Effects and G x E Interactions

doi:10.1534/genetics.166.2.1053

Polygenic Variation Maintained by Balancing Selection: Pleiotropy, Sex-Dependent Allelic Effects and G x E Interactions

Michael Turelli^a and N. H. Barton^b
^a Section of Evolution and Ecology and Center for Population Biology, University of California, Davis, California 95616
^b Institute of Cell, Animal and Population Biology, University of Edinburgh, Edinburgh EH9 3JT, United Kingdom

Corresponding author: Michael Turelli, University of California, 1 Shields Ave., Davis, CA 95616., mturelli{at}ucdavis.edu (E-mail)

Communicating editor: W. STEPHAN

We investigate three alternative selection-based scenarios proposedto maintain polygenic variation: pleiotropic balancing selection,G x E interactions (with spatial or temporal variation in alleliceffects), and sex-dependent allelic effects. Each analysis assumesan additive polygenic trait with n diallelic loci under stabilizingselection. We allow loci to have different effects and considerequilibria at which the population mean departs from the stabilizing-selectionoptimum. Under weak selection, each model produces essentiallyidentical, approximate allele-frequency dynamics. Variationis maintained under pleiotropic balancing selection only atloci for which the strength of balancing selection exceeds theeffective strength of stabilizing selection. In addition, forall models, polymorphism requires that the population mean beclose enough to the optimum that directional selection doesnot overwhelm balancing selection. This balance allows manysimultaneously stable equilibria, and we explore their propertiesnumerically. Both spatial and temporal G x E can maintain variationat loci for which the coefficient of variation (across environments)of the effect of a substitution exceeds a critical value greaterthan one. The critical value depends on the correlation betweensubstitution effects at different loci. For large positive correlations(e.g., ${rho}$ ²_ij > 3/4), even extreme fluctuations in allelic effectscannot maintain variation. Surprisingly, this constraint oncorrelations implies that sex-dependent allelic effects cannotmaintain polygenic variation. We present numerical results thatsupport our analytical approximations and discuss our resultsin connection to relevant data and alternative variance-maintainingmechanisms.

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