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https://hdl.handle.net/1959.11/27226
Title: | Accounting for dominance to improve genomic evaluations of dairy cows for fertility and milk production traits | Contributor(s): | Aliloo, Hassan (author) ; Pryce, Jennie E (author); Gonzalez-Recio, Oscar (author); Cocks, Benjamin G (author); Hayes, Ben J (author) | Publication Date: | 2016 | Early Online Version: | 2016-02-01 | Open Access: | Yes | DOI: | 10.1186/s12711-016-0186-0 | Handle Link: | https://hdl.handle.net/1959.11/27226 | Abstract: | Background: Dominance effects may contribute to genetic variation of complex traits in dairy cattle, especially for traits closely related to fitness such as fertility. However, traditional genetic evaluations generally ignore dominance effects and consider additive genetic effects only. Availability of dense single nucleotide polymorphisms (SNPs) panels provides the opportunity to investigate the role of dominance in quantitative variation of complex traits at both the SNP and animal levels. Including dominance effects in the genomic evaluation of animals could also help to increase the accuracy of prediction of future phenotypes. In this study, we estimated additive and dominance variance components for fertility and milk production traits of genotyped Holstein and Jersey cows in Australia. The predictive abilities of a model that accounts for additive effects only (additive), and a model that accounts for both additive and dominance effects (additive + dominance) were compared in a fivefold cross-validation. Results: Estimates of the proportion of dominance variation relative to phenotypic variation that is captured by SNPs, for production traits, were up to 3.8 and 7.1 % in Holstein and Jersey cows, respectively, whereas, for fertility, they were equal to 1.2 % in Holstein and very close to zero in Jersey cows. We found that including dominance in the model was not consistently advantageous. Based on maximum likelihood ratio tests, the additive + dominance model fitted the data better than the additive model, for milk, fat and protein yields in both breeds. However, regarding the prediction of phenotypes assessed with fivefold cross-validation, including dominance effects in the model improved accuracy only for fat yield in Holstein cows. Regression coefficients of phenotypes on genetic values and mean squared errors of predictions showed that the predictive ability of the additive + dominance model was superior to that of the additive model for some of the traits. Conclusions: In both breeds, dominance effects were significant (P < 0.01) for all milk production traits but not for fertility. Accuracy of prediction of phenotypes was slightly increased by including dominance effects in the genomic evaluation model. Thus, it can help to better identify highly performing individuals and be useful for culling decisions. | Publication Type: | Journal Article | Source of Publication: | Genetics Selection Evolution, v.48, p. 1-11 | Publisher: | BioMed Central Ltd | Place of Publication: | United Kingdom | ISSN: | 1297-9686 0999-193X |
Fields of Research (FoR) 2008: | 060408 Genomics 060412 Quantitative Genetics (incl. Disease and Trait Mapping Genetics) 070201 Animal Breeding |
Fields of Research (FoR) 2020: | 310509 Genomics 310506 Gene mapping 300305 Animal reproduction and breeding |
Socio-Economic Objective (SEO) 2008: | 839999 Animal Production and Animal Primary Products not elsewhere classified | Socio-Economic Objective (SEO) 2020: | 109999 Other animal production and animal primary products not elsewhere classified | Peer Reviewed: | Yes | HERDC Category Description: | C1 Refereed Article in a Scholarly Journal |
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Appears in Collections: | Journal Article School of Environmental and Rural Science |
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openpublished/AccountingAliloo2016JournalArticle.pdf | Published version | 1.25 MB | Adobe PDF Download Adobe | View/Open |
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