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Estimation of additive and dominance variance components in finite polygenic models and complex pedigrees
Published online by Cambridge University Press: 01 October 1999
Abstract
Estimation of variance components with the finite polygenic model (FPM) was evaluated. Phenotypic data for a 6300-pedigree simulated under a wide range of additive genetic models were analysed with constant homozygote difference across loci using deterministic Maximum Likelihood (DML) and a Bayesian method implemented via Gibbs sampling (BGS). Results indicate that under no selection, both DML and BGS accurately estimated the variance components, with a FPM of 5 loci or more. When both analysis methods were applied to equivalent data sets on populations that had undergone selection, the DML method produced upward biased estimates of additive genetic variation and heritability due to its use of pedigree loop cutting, while BGS provided more accurate estimation. BGS was extended to non-additive FPMs with variable homozygote differences and dominance effect across loci. This method was used to analyse data simulated under two genetic models with positive, completely dominant gene action at all loci. Results indicate that the estimates of additive and dominance variances slowly increase as the number of loci in the FPM for analysis increases, while accuracy of predicting individual breeding values and dominance deviations remains unaffected. For the simulated pedigree structure, a FPM with 10 loci or slightly fewer appears to be appropriate for variance component estimation in the presence of dominance.
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- © 1999 Cambridge University Press
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