The Effects of Multilocus Balancing Selection on Neutral Variability

The Effects of Multilocus Balancing Selection on Neutral Variability

Arcadio Navarro^a and Nick H. Barton^a
^a Institute of Cell, Animal and Population Biology, University of Edinburgh, Edinburgh EH9 3JT, United Kingdom

Corresponding author: Arcadio Navarro, Animal and Population Biology, University of Edinburgh, W. Mains Rd., Edinburgh EH9 3JT, Scotland., arcadi{at}holyrood.ed.ac.uk (E-mail)

Communicating editor: N. TAKAHATA

We studied the effect of multilocus balancing selection on neutralnucleotide variability at linked sites by simulating a modelwhere diallelic polymorphisms are maintained at an arbitrarynumber of selected loci by means of symmetric overdominance.Different combinations of alleles define different genetic backgroundsthat subdivide the population and strongly affect variability.Several multilocus fitness regimes with different degrees ofepistasis and gametic disequilibrium are allowed. Analyticalresults based on a multilocus extension of the structured coalescentpredict that the expected linked neutral diversity increasesexponentially with the number of selected loci and can becomeextremely large. Our simulation results show that although variabilityincreases with the number of genetic backgrounds that are maintainedin the population, it is reduced by random fluctuations in thefrequencies of those backgrounds and does not reach high levelseven in very large populations. We also show that previous resultson balancing selection in single-locus systems do not extendto the multilocus scenario in a straightforward way. Differentpatterns of linkage disequilibrium and of the frequency spectrumof neutral mutations are expected under different degrees ofepistasis. Interestingly, the power to detect balancing selectionusing deviations from a neutral distribution of allele frequenciesseems to be diminished under the fitness regime that leads tothe largest increase of variability over the neutral case. Thisand other results are discussed in the light of data from theMhc.

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