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Diversification or Collapse of Self-Incompatibility Haplotypes as a Rescue Process

Alexander Harkness, Emma E. Goldberg, Yaniv Brandvain

2020The American Naturalist14 citationsDOI

Abstract

AbstractIn angiosperm self-incompatibility systems, pollen with an allele matching the pollen recipient at the self-incompatibility locus is rejected. Extreme allelic polymorphism is maintained by frequency-dependent selection favoring rare alleles. However, two challenges result in a chicken-or-egg problem for the spread of a new allele (a tightly linked haplotype in this case) under the widespread "collaborative non-self-recognition" mechanism. A novel pollen function mutation alone would merely grant compatibility with a nonexistent style function allele: a neutral change at best. A novel pistil function mutation alone could be fertilized only by pollen with a nonexistent pollen function allele: a deleterious change that would reduce seed set to zero. However, a pistil function mutation complementary to a previously neutral pollen mutation may spread if it restores self-incompatibility to a self-compatible intermediate. We show that novel haplotypes can also drive elimination of existing ones with fewer siring opportunities. We calculate relative probabilities of increase and collapse in haplotype number given the initial collection of incompatibility haplotypes and the population gene conversion rate. Expansion in haplotype number is possible when population gene conversion rate is large, but large contractions are likely otherwise. A Markov chain model derived from these expansion and collapse probabilities generates a stable haplotype number distribution in the realistic range of 10-40 under plausible parameters. However, smaller populations might lose many haplotypes beyond those lost by chance during bottlenecks.

Topics & Concepts

HaplotypeBiologyAllelePollenGeneticsPopulationLocus (genetics)Mutation rateEvolutionary biologyGeneBotanyDemographySociologyPlant Reproductive BiologyPlant and animal studiesPlant Molecular Biology Research
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