Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variants

Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variants

Abstract Background Increasing marker density was proposed to have potential to improve the accuracy of genomic prediction for quantitative traits; whole-sequence data is expected to give the best accuracy of prediction, since all causal mutations that underlie a trait are expected to be included. H...

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Main Authors: Chunyan Zhang, Robert Alan Kemp, Paul Stothard, Zhiquan Wang, Nicholas Boddicker, Kirill Krivushin, Jack Dekkers, Graham Plastow
Format: Article
Language:deu
Published: BMC 2018-04-01
Series:Genetics Selection Evolution
Online Access:http://link.springer.com/article/10.1186/s12711-018-0387-9
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spelling doaj-0d0a78a24e5341ebb74a356a78f703cb2020-11-24T23:56:09ZdeuBMCGenetics Selection Evolution1297-96862018-04-0150111310.1186/s12711-018-0387-9Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variantsChunyan Zhang0Robert Alan Kemp1Paul Stothard2Zhiquan Wang3Nicholas Boddicker4Kirill Krivushin5Jack Dekkers6Graham Plastow7Department of Agricultural, Food and Nutritional Science, University of AlbertaGenesus Inc.Department of Agricultural, Food and Nutritional Science, University of AlbertaDepartment of Agricultural, Food and Nutritional Science, University of AlbertaGenesus Inc.Department of Agricultural, Food and Nutritional Science, University of AlbertaDepartment of Animal Science, Iowa State UniversityDepartment of Agricultural, Food and Nutritional Science, University of AlbertaAbstract Background Increasing marker density was proposed to have potential to improve the accuracy of genomic prediction for quantitative traits; whole-sequence data is expected to give the best accuracy of prediction, since all causal mutations that underlie a trait are expected to be included. However, in cattle and chicken, this assumption is not supported by empirical studies. Our objective was to compare the accuracy of genomic prediction of feed efficiency component traits in Duroc pigs using single nucleotide polymorphism (SNP) panels of 80K, imputed 650K, and whole-genome sequence variants using GBLUP, BayesB and BayesRC methods, with the ultimate purpose to determine the optimal method to increase genetic gain for feed efficiency in pigs. Results Phenotypes of average daily feed intake (ADFI), average daily gain (ADG), ultrasound backfat depth (FAT), and loin muscle depth (LMD) were available for 1363 Duroc boars from a commercial breeding program. Genotype imputation accuracies reached 92.1% from 80K to 650K and 85.6% from 650K to whole-genome sequence variants. Average accuracies across methods and marker densities of genomic prediction of ADFI, FAT, LMD and ADG were 0.40, 0.65, 0.30 and 0.15, respectively. For ADFI and FAT, BayesB outperformed GBLUP, but increasing marker density had little advantage for genomic prediction. For ADG and LMD, GBLUP outperformed BayesB, while BayesRC based on whole-genome sequence data gave the best accuracies and reached up to 0.35 for LMD and 0.25 for ADG. Conclusions Use of genomic information was beneficial for prediction of ADFI and FAT but not for that of ADG and LMD compared to pedigree-based estimates. BayesB based on 80K SNPs gave the best genomic prediction accuracy for ADFI and FAT, while BayesRC based on whole-genome sequence data performed best for ADG and LMD. We suggest that these differences between traits in the effect of marker density and method on accuracy of genomic prediction are mainly due to the underlying genetic architecture of the traits.http://link.springer.com/article/10.1186/s12711-018-0387-9
collection DOAJ
language deu
format Article
sources DOAJ
author Chunyan Zhang
Robert Alan Kemp
Paul Stothard
Zhiquan Wang
Nicholas Boddicker
Kirill Krivushin
Jack Dekkers
Graham Plastow
spellingShingle Chunyan Zhang
Robert Alan Kemp
Paul Stothard
Zhiquan Wang
Nicholas Boddicker
Kirill Krivushin
Jack Dekkers
Graham Plastow
Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variants
Genetics Selection Evolution
author_facet Chunyan Zhang
Robert Alan Kemp
Paul Stothard
Zhiquan Wang
Nicholas Boddicker
Kirill Krivushin
Jack Dekkers
Graham Plastow
author_sort Chunyan Zhang
title Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variants
title_short Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variants
title_full Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variants
title_fullStr Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variants
title_full_unstemmed Genomic evaluation of feed efficiency component traits in Duroc pigs using 80K, 650K and whole-genome sequence variants
title_sort genomic evaluation of feed efficiency component traits in duroc pigs using 80k, 650k and whole-genome sequence variants
publisher BMC
series Genetics Selection Evolution
issn 1297-9686
publishDate 2018-04-01
description Abstract Background Increasing marker density was proposed to have potential to improve the accuracy of genomic prediction for quantitative traits; whole-sequence data is expected to give the best accuracy of prediction, since all causal mutations that underlie a trait are expected to be included. However, in cattle and chicken, this assumption is not supported by empirical studies. Our objective was to compare the accuracy of genomic prediction of feed efficiency component traits in Duroc pigs using single nucleotide polymorphism (SNP) panels of 80K, imputed 650K, and whole-genome sequence variants using GBLUP, BayesB and BayesRC methods, with the ultimate purpose to determine the optimal method to increase genetic gain for feed efficiency in pigs. Results Phenotypes of average daily feed intake (ADFI), average daily gain (ADG), ultrasound backfat depth (FAT), and loin muscle depth (LMD) were available for 1363 Duroc boars from a commercial breeding program. Genotype imputation accuracies reached 92.1% from 80K to 650K and 85.6% from 650K to whole-genome sequence variants. Average accuracies across methods and marker densities of genomic prediction of ADFI, FAT, LMD and ADG were 0.40, 0.65, 0.30 and 0.15, respectively. For ADFI and FAT, BayesB outperformed GBLUP, but increasing marker density had little advantage for genomic prediction. For ADG and LMD, GBLUP outperformed BayesB, while BayesRC based on whole-genome sequence data gave the best accuracies and reached up to 0.35 for LMD and 0.25 for ADG. Conclusions Use of genomic information was beneficial for prediction of ADFI and FAT but not for that of ADG and LMD compared to pedigree-based estimates. BayesB based on 80K SNPs gave the best genomic prediction accuracy for ADFI and FAT, while BayesRC based on whole-genome sequence data performed best for ADG and LMD. We suggest that these differences between traits in the effect of marker density and method on accuracy of genomic prediction are mainly due to the underlying genetic architecture of the traits.
url http://link.springer.com/article/10.1186/s12711-018-0387-9
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AT paulstothard genomicevaluationoffeedefficiencycomponenttraitsindurocpigsusing80k650kandwholegenomesequencevariants
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