The role of pseudo-overdominance in maintaining inbreeding depression

Abstract

AbstractClassical models ignoring linkage predict that deleterious recessive mutations purge or fix within inbred populations, yet these often retain moderate to high segregating load. True overdominance generates balancing selection that sustains inbreeding depression even in inbred populations but is rare. In contrast, arrays of mildly deleterious recessives linked in repulsion may occur commonly enough to generate pseudo-overdominance and sustain segregating load. We used simulations to explore how long pseudo-overdominant regions (POD’s) persist following their creation via hybridization between populations fixed for alternative mutations at linked loci. Balancing haplotype loads, tight linkage, and moderate to strong cumulative selective effects serve to maintain POD’s, suggesting that POD’s may most often arise and persist in low recombination regions (e.g., inversions). Selection and drift unbalance the load, eventually eliminating POD’s, but this process is very slow when pseudo-overdominance is strong. Background selection across the genome accelerates the loss of weak POD’s but reinforces strong POD’s in inbred populations by disfavoring homozygotes. Further modeling and studies of POD dynamics within populations could help us understand how POD’s affect persistence of the load and how inbred mating systems evolve.