PLoS ONE (Jan 2012)

Mutation accumulation in a selfing population: consequences of different mutation rates between selfers and outcrossers.

  • Shin-ichiro Nakayama,
  • Shoi Shi,
  • Masaki Tateno,
  • Masakazu Shimada,
  • K Ryo Takahasi

DOI
https://doi.org/10.1371/journal.pone.0033541
Journal volume & issue
Vol. 7, no. 3
p. e33541

Abstract

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Currently existing theories predict that because deleterious mutations accumulate at a higher rate, selfing populations suffer from more intense genetic degradation relative to outcrossing populations. This prediction may not always be true when we consider a potential difference in deleterious mutation rate between selfers and outcrossers. By analyzing the evolutionary stability of selfing and outcrossing in an infinite population, we found that the genome-wide deleterious mutation rate would be lower in selfing than in outcrossing organisms. When this difference in mutation rate was included in simulations, we found that in a small population, mutations accumulated more slowly under selfing rather than outcrossing. This result suggests that under frequent and intense bottlenecks, a selfing population may have a lower risk of genetic extinction than an outcrossing population.