Abstract
BackgroundSize of reference population is a crucial factor affecting the accuracy of prediction of the genomic estimated breeding value (GEBV). There are few studies in beef cattle that have compared accuracies achieved using real data to that achieved with simulated data and deterministic predictions. Thus, extent to which traits of interest affect accuracy of genomic prediction in Japanese Black cattle remains obscure. This study aimed to explore the size of reference population for expected accuracy of genomic prediction for simulated and carcass traits in Japanese Black cattle using a large amount of samples.ResultsA simulation analysis showed that heritability and size of reference population substantially impacted the accuracy of GEBV, whereas the number of quantitative trait loci did not. The estimated numbers of independent chromosome segments (Me) and the related weighting factor (w) derived from simulation results and a maximum likelihood (ML) approach were 1900–3900 and 1, respectively. The expected accuracy for trait with heritability of 0.1–0.5 fitted well with empirical values when the reference population comprised > 5000 animals. The heritability for carcass traits was estimated to be 0.29–0.41 and the accuracy of GEBVs was relatively consistent with simulation results. When the reference population comprised 7000–11,000 animals, the accuracy of GEBV for carcass traits can range 0.73–0.79, which is comparable to estimated breeding value obtained in the progeny test.ConclusionOur simulation analysis demonstrated that the expected accuracy of GEBV for a polygenic trait with low-to-moderate heritability could be practical in Japanese Black cattle population. For carcass traits, a total of 7000–11,000 animals can be a sufficient size of reference population for genomic prediction.
Highlights
Size of reference population is a crucial factor affecting the accuracy of prediction of the genomic estimated breeding value (GEBV)
The accuracy of genomic prediction of GEBVs depends on the extent of linkage disequilibrium (LD) between quantitative trait loci (QTLs) and single nucleotide polymorphism (SNP) on high-density SNP arrays in each breed [5], because the SNP arrays are designed to function for several breeds [6,7,8,9,10]
The simulation analysis based on a cross-validation design using real genotypes to account for the extent of LD in this breed revealed that higher heritability and a larger reference population led to improved prediction accuracy of GEBVs, whereas the number of QTLs did not affect accuracy
Summary
Size of reference population is a crucial factor affecting the accuracy of prediction of the genomic estimated breeding value (GEBV). Extent to which traits of interest affect accuracy of genomic prediction in Japanese Black cattle remains obscure. This study aimed to explore the size of reference population for expected accuracy of genomic prediction for simulated and carcass traits in Japanese Black cattle using a large amount of samples. Genomic evaluation in beef cattle breeds have been implemented worldwide using high-density single nucleotide polymorphism (SNP) arrays [1,2,3,4], and more accurate prediction of genomic estimated breeding values (GEBVs) can promote genetic improvement in these populations. From the perspective of Ne, the genetic structure of Japanese Black cattle is quite different from that of other beef cattle breeds; the extent of the LD between QTLs and SNPs in Japanese Black cattle might differ from that of other cattle breeds
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