Genomic relationships reveal significant dominance effects for growth in hybrid Eucalyptus

•Genomic prediction study by considering additive and non-additive variance components.•Genomic-based relationship model more precisely separate additive and non-additive components.•Phenotypic prediction accuracies were increased by including dominance effects for growth traits. Non-additive geneti...

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Published in:Plant science (Limerick) 2018-02, Vol.267, p.84-93
Main Authors: Tan, Biyue, Grattapaglia, Dario, Wu, Harry X., Ingvarsson, Pär K.
Format: Article
Language:English
Subjects:
Breeding strategy
Dominance
Dominance Epistasis Predictive ability Breeding strategy Heritability
Epistasis
Forest Science
Genetics
genetik
Heritability
Predictive ability
Skogsvetenskap
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cited_by cdi_FETCH-LOGICAL-c492t-b44161467ac92c4cac2cd956d3b06a8a350a72509ac81af6db4e38808560f7d53
cites cdi_FETCH-LOGICAL-c492t-b44161467ac92c4cac2cd956d3b06a8a350a72509ac81af6db4e38808560f7d53
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container_title Plant science (Limerick)
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creator Tan, Biyue
Grattapaglia, Dario
Wu, Harry X.
Ingvarsson, Pär K.
description •Genomic prediction study by considering additive and non-additive variance components.•Genomic-based relationship model more precisely separate additive and non-additive components.•Phenotypic prediction accuracies were increased by including dominance effects for growth traits. Non-additive genetic effects can be effectively exploited in control-pollinated families with the availability of genome-wide markers. We used 41,304 SNP markers and compared pedigree vs. marker-based genetic models by analysing height, diameter, basic density and pulp yield for Eucalyptus urophylla × E.grandis control-pollinated families represented by 949 informative individuals. We evaluated models accounting for additive, dominance, and first-order epistatic interactions (additive by additive, dominance by dominance, and additive by dominance). We showed that the models can capture a large proportion of the genetic variance from dominance and epistasis for growth traits as those components are typically not independent. We also showed that we could partition genetic variances more precisely when using relationship matrices derived from markers compared to using only pedigree information. In addition, phenotypic prediction accuracies were only slightly increased by including dominance effects for growth traits since estimates of non-additive variances yielded rather high standard errors. This novel result improves our current understanding of the architecture of quantitative traits and recommends accounting for dominance variance when developing genomic selection strategies in hybrid Eucalyptus.
doi_str_mv 10.1016/j.plantsci.2017.11.011
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subjects Breeding strategy
Dominance
Dominance Epistasis Predictive ability Breeding strategy Heritability
Epistasis
Forest Science
Genetics
genetik
Heritability
Predictive ability
Skogsvetenskap
title Genomic relationships reveal significant dominance effects for growth in hybrid Eucalyptus
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