An effective hyper-parameter can increase the prediction accuracy in a single-step genetic evaluation

Mehdi Neshat; Soohyun Lee; Md Moksedul Momin; Buu Truong; Julius H J van der Werf; S Hong Lee

doi:10.3389/fgene.2023.1104906

An effective hyper-parameter can increase the prediction accuracy in a single-step genetic evaluation

Front Genet. 2023 Jun 8:14:1104906. doi: 10.3389/fgene.2023.1104906. eCollection 2023.

Authors

Mehdi Neshat^{1

2

3}, Soohyun Lee⁴, Md Moksedul Momin^{1

2

3

5}, Buu Truong^{1

6

7

8}, Julius H J van der Werf⁹, S Hong Lee^{1

2

3}

Affiliations

¹ Australian Centre for Precision Health, University of South Australia, Adelaide, SA, Australia.
² UniSA Allied Health and Human Performance, University of South Australia, Adelaide, SA, Australia.
³ South Australian Health and Medical Research Institute (SAHMRI), Adelaide, SA, Australia.
⁴ Division of Animal Breeding and Genetics, National Institute of Animal Science (NIAS), Cheonan, Republic of Korea.
⁵ Department of Genetics and Animal Breeding, Faculty of Veterinary Medicine, Chattogram Veterinary and Animal Sciences University (CVASU), Chattogram, Bangladesh.
⁶ Cardiovascular Research Centre, Massachusetts General Hospital, Boston, MA, United States.
⁷ Center for Genomic Medicine, Massachusetts General Hospital, Boston, MA, United States.
⁸ Program in Medical and Population Genetics and the Cardiovascular Disease Initiative, Broad, Institute of Harvard and Massachusetts Institute of Technology (MIT), Cambridge, MA, United States.
⁹ School of Environmental and Rural Science, University of New England, Armidale, NSW, Australia.

Abstract

The H-matrix best linear unbiased prediction (HBLUP) method has been widely used in livestock breeding programs. It can integrate all information, including pedigree, genotypes, and phenotypes on both genotyped and non-genotyped individuals into one single evaluation that can provide reliable predictions of breeding values. The existing HBLUP method requires hyper-parameters that should be adequately optimised as otherwise the genomic prediction accuracy may decrease. In this study, we assess the performance of HBLUP using various hyper-parameters such as blending, tuning, and scale factor in simulated and real data on Hanwoo cattle. In both simulated and cattle data, we show that blending is not necessary, indicating that the prediction accuracy decreases when using a blending hyper-parameter <1. The tuning process (adjusting genomic relationships accounting for base allele frequencies) improves prediction accuracy in the simulated data, confirming previous studies, although the improvement is not statistically significant in the Hanwoo cattle data. We also demonstrate that a scale factor, $α$ , which determines the relationship between allele frequency and per-allele effect size, can improve the HBLUP accuracy in both simulated and real data. Our findings suggest that an optimal scale factor should be considered to increase prediction accuracy, in addition to blending and tuning processes, when using HBLUP.

Keywords: genomic prediction; harmonised matrix; hyper-parameters; scale factor; single-step genetic evaluation.

Grants and funding

We acknowledge the support of the Cooperative Research Program for Agriculture Science and Technology Development (PJ01609901) from the Rural Development Administration, Republic of Korea, in sharing the Hanwoo cattle dataset and technical details. This research is also supported by the Australian Research Council (DP190100766).