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Computation of deregressed proofs for genomic selection when own phenotypes exist with an application in French show-jumping horses.
Abstract: Genomic evaluations often use as pseudo-phenotypes corrected means of progeny performances, like daughter yield deviations (DYD) in dairy species. In horse breeding, own performances are also available and performances from other relatives (as half sibs) may play an important part in the EBV because the number of progeny remains low, even for stallions. The first step for genomic selection in horses is therefore to generate pseudo-phenotypes for genomic analysis when parental or own information is considered. This work presents an easy method to compute deregressed EBV from regular pedigree-based genetic evaluations (EBV, reliabilities) to be used in genomic evaluations. The proposed methodology builds deregressed proofs so that they combine own performances (from genotyped individuals) and performances of relatives (outside of the genotyped sample). An application to show jumping horse data is presented. A sample of 908 stallions specialized in show jumping [71% Selle Français (SF), 17% foreign sport horses (FH), 13% Anglo Arab (AA)] were genotyped. Genotyping was performed using the Illumina Equine SNP50 BeadChip, and after quality tests, 44,444 SNP were retained. Two methods were used for genomic evaluation: GBLUP and BayesCπ, and 6 validation data sets were compared, chosen according to breeds SF + FH + AA or SF + FH, family structure (more than 3 half sibs), reliability of sires (>0.97) or sons (>0.72). In spite of a favorable genetic structure [linkage disequilibrium equal to 0.24 at 50 kb pairs], results showed low advantage of genomic evaluation. On the validation sample SF + FH + AA, the correlation between deregressed proofs and GBLUP or BayesCπ predictions was 0.39, 0.37, 0.51 according to the different validation data sets, compared with 0.36, 0.33, 0.53 obtained with BLUP predictions. Correlations were much lower on the SF + FH sample. Research is pursued to understand this low advantage of genomic selection and to improve the methodology for genomic evaluation in this context, which is less favorable than dairy cattle breeding.
Publication Date: 2012-12-10 PubMed ID: 23230121DOI: 10.2527/jas.2012-5256Google Scholar: Lookup The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Journal Article
- Research Support
- Non-U.S. Gov't
- Validation Study
Summary
This research summary has been generated with artificial intelligence and may contain errors and omissions. Refer to the original study to confirm details provided. Submit correction.
This research presents a method for updating genetic evaluations for selective horse breeding by using both the horse’s own performances and those of its relatives. However, results show a low advantage of this genomic evaluation compared to the traditional method. The study seeks to understand these outcomes and improve the methodology for selective horse breeding, particularly in contexts less favorable than dairy cattle breeding.
Objective and Methodology
- The main goal of the research was to test the efficiency of genomic selection in the breeding of horses, specifically in the context of show jumping horses. Genomic selection, specifically, deregressed breeding values (EBV), were computed based on both the horse’s own performances and those of its relatives.
- The study used a sample of 908 stallions that had specialized in show-jumping. The stallions were genotyped using the Illumina Equine SNP50 BeadChip, a technology that helps in genetic analysis.
- Two statistical methods, GBLUP and BayesCπ, were utilized for the genomic evaluations.
- Six different validation data sets were compared, each chosen based on breed combination, family structure, and the reliability of sires and sons.
Findings
- The research noted a low advantage of genomic evaluation over the traditional evaluation method (BLUP predictions). Despite a favorable genetic structure, the correlation between the deregressed proofs and the genomic predictions was just slightly higher than that between the deregressed proofs and BLUP predictions on the same validation datasets.
- Particularly on the SF + FH sample, the correlations of genomic evaluation were much lower.
Implications
- The observed low advantage of genomic selection highlights the need for further research to understand the process better and possibly improve the methodology applied in horse breeding.
- The study points to the fact that the context for genomic selection in horse breeding may be less favourable compared to environments such as dairy cattle breeding.
Cite This Article
APA
Ricard A, Danvy S, Legarra A.
(2012).
Computation of deregressed proofs for genomic selection when own phenotypes exist with an application in French show-jumping horses.
J Anim Sci, 91(3), 1076-1085.
https://doi.org/10.2527/jas.2012-5256 Publication
Researcher Affiliations
- INRA, UMR 1313, 78352 Jouy-en-Josas, France. anne.ricard@toulouse.inra.fr
MeSH Terms
- Animals
- Bayes Theorem
- Breeding
- Female
- France
- Genomics / methods
- Genotype
- Horses / genetics
- Horses / physiology
- Male
- Oligonucleotide Array Sequence Analysis / veterinary
- Phenotype
- Polymorphism, Single Nucleotide
- Regression Analysis
- Reproducibility of Results
- Selection, Genetic
Citations
This article has been cited 10 times.- Adekale D, Liu Z, Evans R, Pabiou T, Reents R, Segelke D, Tetens J. The impact of deregressed foreign breeding values on national beef cattle single-step genomic evaluation. Genet Sel Evol 2025 Jul 14;57(1):37.
- Hong Y, He X, Wu D, Ye J, Zhang Y, Wu Z, Tan C. Genome Selection and Genome-Wide Association Analyses for Litter Size Traits in Large White Pigs. Animals (Basel) 2025 Jun 11;15(12).
- Ricard A, Crevier-Denoix N, Pourcelot P, Crichan H, Sabbagh M, Dumont-Saint-Priest B, Danvy S. Genetic analysis of geometric morphometric 3D visuals of French jumping horses. Genet Sel Evol 2023 Sep 18;55(1):63.
- Mancin E, Tuliozi B, Sartori C, Guzzo N, Mantovani R. Genomic Prediction in Local Breeds: The Rendena Cattle as a Case Study. Animals (Basel) 2021 Jun 18;11(6).
- Dugué M, Dumont Saint Priest B, Crichan H, Danvy S, Ricard A. Genomic Correlations Between the Gaits of Young Horses Measured by Accelerometry and Functional Longevity in Jumping Competition. Front Genet 2021;12:619947.
- Ricard A, Duluard A. Genomic analysis of gaits and racing performance of the French trotter. J Anim Breed Genet 2021 Mar;138(2):204-222.
- Yin H, Zhou C, Shi S, Fang L, Liu J, Sun D, Jiang L, Zhang S. Weighted Single-Step Genome-Wide Association Study of Semen Traits in Holstein Bulls of China. Front Genet 2019;10:1053.
- Aguilar I, Legarra A, Cardoso F, Masuda Y, Lourenco D, Misztal I. Frequentist p-values for large-scale-single step genome-wide association, with an application to birth weight in American Angus cattle. Genet Sel Evol 2019 Jun 20;51(1):28.
- Legarra A, Reverter A. Semi-parametric estimates of population accuracy and bias of predictions of breeding values and future phenotypes using the LR method. Genet Sel Evol 2018 Nov 6;50(1):53.
- Wang H, Misztal I, Aguilar I, Legarra A, Fernando RL, Vitezica Z, Okimoto R, Wing T, Hawken R, Muir WM. Genome-wide association mapping including phenotypes from relatives without genotypes in a single-step (ssGWAS) for 6-week body weight in broiler chickens. Front Genet 2014;5:134.
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