Abstract
Estimating genetic interaction effects in animal genomics would be one of the most challenging studies because the phenotypic variation for economically important traits might be largely explained by interaction effects among multiple nucleotide sequence variants under various environmental exposures. Genetic improvement of economic animals would be expected by understanding multi-locus genetic interaction effects associated with economic traits. Most analyses in animal breeding and genetics, however, have excluded the possibility of genetic interaction effects in their analytical models. This review discusses a historical estimation of the genetic interaction and difficulties in analyzing the interaction effects. Furthermore, two recently developed methods for assessing genetic interactions are introduced to animal genomics. One is the restricted partition method, as a nonparametric grouping-based approach, that iteratively utilizes grouping of genotypes with the smallest difference into a new group, and the other is the Bayesian method that draws inferences about the genetic interaction effects based on their marginal posterior distributions and attains the marginalization of the joint posterior distribution through Gibbs sampling as a Markov chain Monte Carlo. Further developing appropriate and efficient methods for assessing genetic interactions would be urgent to achieve accurate understanding of genetic architecture for complex traits of economic animals.
Highlights
Providing comprehensive maps of nucleotide sequence variants in various species has been a great concern for many geneticists
This simulation study suggested that BAGS might be superior in estimating genetic interaction effects to such nonparametric partitioning approach
The groupingbased methods should be used with caution in that the information loss due to grouping has negligible effect, and justifiable biological explanation for the grouping is available
Summary
Providing comprehensive maps of nucleotide sequence variants in various species has been a great concern for many geneticists. Many efforts have been made to find genetic factors susceptible to complex diseases in humans, and substantial advances have been achieved in understanding the genetic dissection of complex traits of biomedical importance (McCarthy et al, 2008). Geneticists expect that such findings in human genomes may apply to other animals their genome projects are still in the working. The genetic architecture of the economic traits is quite limitedly known because of the difficulty in estimating the influence of multiple genes on such complex traits. Discusses the historical estimation of genetic interaction and difficulties in analyzing the interaction effects and introduces recently developed methods for assessing genetic interaction to animal genomics
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