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Title
Association analysis of loci implied in "buffering" epistasis
Fields of Research (FoR) 2008:
Author(s)
Reverter, Antonio
Vitezica, Zulma G
Naval-Sánchez, Marina
Henshall, John
Raidan, Fernanda S S
Li, Yutao
Hudson, Nicholas J
Porto-Neto, Laercio R
Legarra, Andrés
Publication Date
2020-03
Socio-Economic Objective (SEO) 2008
Early Online Version
Abstract
The existence of buffering mechanisms is an emerging property of biological networks, and this results in the buildup of robustness through evolution. So far, there are no explicit methods to find loci implied in buffering mechanisms. However, buffering can be seen as interaction with genetic background. Here we develop this idea into a tractable model for quantitative genetics, in which the buffering effect of one locus with many other loci is condensed into a single statistical effect, multiplicative on the total additive genetic effect. This allows easier interpretation of the results and simplifies the problem of detecting epistasis from quadratic to linear in the number of loci. Using this formulation, we construct a linear model for genome-wide association studies that estimates and declares the significance of multiplicative epistatic effects at single loci. The model has the form of a variance components, norm reaction model and likelihood ratio tests are used for significance. This model is a generalization and explanation of previous ones. We test our model using bovine data: Brahman and Tropical Composite animals, phenotyped for body weight at yearling and genotyped at high density. After association analysis, we find a number of loci with buffering action in one, the other, or both breeds; these loci do not have a significant statistical additive effect. Most of these loci have been reported in previous studies, either with an additive effect or as footprints of selection. We identify buffering epistatic SNPs present in or near genes reported in the context of signatures of selection in multi-breed cattle population studies. Prominent among these genes are those associated with fertility (<i>INHBA, TSHR, ESRRG, PRLR,</i> and <i>PPARG</i>), growth (<i>MSTN, GHR</i>), coat characteristics (<i>KIT, MITF, PRLR</i>), and heat resistance (<i>HSPA6 and HSPA1A</i>). In these populations, we found loci that have a nonsignificant statistical additive effect but a significant epistatic effect. We argue that the discovery and study of loci associated with buffering effects allow attacking the difficult problems, among others, of the release of maintenance variance in artificial and natural selection, of quick adaptation to the environment, and of opposite signs of marker effects in different backgrounds. We conclude that our method and our results generate promising new perspectives for research in evolutionary and quantitative genetics based on the study of loci that buffer effect of other loci.
Publication Type
Journal Article
Source of Publication
Journal of Animal Science, 98(3), p. 1-11
Publisher
American Society of Animal Science
Socio-Economic Objective (SEO) 2020
2020-02-12
Place of Publication
United States of America
ISSN
1525-3163
0021-8812
Fields of Research (FoR) 2020
Socio-Economic Objective (SEO) 2020
Peer Reviewed
Yes
HERDC Category Description
Peer Reviewed
Yes
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