Marker-Assisted Selection to Increase Effective Population Size by Reducing Mendelian Segregation Variance

Marker-Assisted Selection to Increase Effective Population Size by Reducing Mendelian Segregation Variance

Jinliang Wang^a and William G. Hill^a
^a Institute of Cell, Animal and Population Biology, University of Edinburgh, Edinburgh EH9 3JT, United Kingdom

Corresponding author: Jinliang Wang, Institute of Cell, Animal and Population Biology, Ashworth Lab, University of Edinburgh, W. Mains Rd., Edinburgh EH9 3JT, United Kingdom., jinliang.wang{at}ed.ac.uk (E-mail)

Communicating editor: A. H. D. BROWN

Using both the genetic drift and inbreeding approaches, we derivemore general equations for effective size (N_e) of a diploidspecies under random mating. These equations show explicitlythat inbreeding or genetic drift comes from two sources, thevariation in the number of offspring from each parent and thevariation in contribution between these parents' own paternallyand maternally derived genes to their offspring. The first sourcecan be easily and effectively controlled by choosing an equalnumber of offspring from each family, while the second can bemanipulated by using information on genetic markers to reducethe variance due to Mendelian segregation. Marker-assisted selection(MAS) methods to increase N_e for the whole genome with singleor multiple marker loci per chromosome, different numbers ofmales, and females are developed and implemented in stochasticsimulations. The analytical and simulation results show that,although in principle N_e can be increased indefinitely, theefficiency of MAS is restricted in practice by the amount ofmarker information, the genome size, and the number of marker-genotypedoffspring per family. The assumptions made in developing thetheory and methods and the applications of MAS in conservationare discussed.

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