Characterization of Deleterious Mutations in Outcrossing Populations

Characterization of Deleterious Mutations in Outcrossing Populations

Hong-Wen Deng^a
^a Osteoporosis Research Center and Department of Biological Sciences, Creighton University, Omaha, Nebraska 68131

Corresponding author: Hong-Wen Deng, Osteoporosis Research Center, Creighton University, 601 N. 30th St., Suite 6787, Omaha, NE 68131., deng{at}creighton.edu (E-mail).

Communicating editor: M. SLATKIN

Deng and Lynch recently proposed estimating the rate and effectsof deleterious genomic mutations from changes in the mean andgenetic variance of fitness upon selfing/outcrossing in outcrossing/highlyselfing populations. The utility of our original estimationapproach is limited in outcrossing populations, since selfingmay not always be feasible. Here we extend the approach to anyform of inbreeding in outcrossing populations. By simulations,the statistical properties of the estimation under a commonform of inbreeding (sib mating) are investigated under a rangeof biologically plausible situations. The efficiencies of differentdegrees of inbreeding and two different experimental designsof estimation are also investigated. We found that estimationusing the total genetic variation in the inbred generation isgenerally more efficient than employing the genetic variationamong the mean of inbred families, and that higher degree ofinbreeding employed in experiments yields higher power for estimation.The simulation results of the magnitude and direction of estimationbias under variable or epistatic mutation effects may providea basis for accurate inferences of deleterious mutations. Simulationsaccounting for environmental variance of fitness suggest that,under full-sib mating, our extension can achieve reasonablywell an estimation with sample sizes of only ~2000–3000.

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