Abstract
Abstract
Background
Hoof structure and health are essential for the welfare and productivity of beef cattle. Therefore, we assessed the genetic and genomic background of foot score traits in American (US) and Australian (AU) Angus cattle and investigated the feasibility of performing genomic evaluations combining data for foot score traits recorded in US and AU Angus cattle. The traits evaluated were foot angle (FA) and claw set (CS). In total, 109,294 and ~ 1.12 million animals had phenotypic and genomic information, respectively. Four sets of analyses were performed: (1) genomic connectedness between US and AU Angus cattle populations and population structure, (2) estimation of genetic parameters, (3) single-step genomic prediction of breeding values, and (4) single-step genome-wide association studies for FA and CS.
Results
There was no clear genetic differentiation between US and AU Angus populations. Similar heritability estimates (FA: 0.22–0.24 and CS: 0.22–0.27) and moderate-to-high genetic correlations between US and AU foot scores (FA: 0.61 and CS: 0.76) were obtained. A joint-genomic prediction using data from both populations outperformed within-country genomic evaluations. A genomic prediction model considering US and AU datasets as a single population performed similarly to the scenario accounting for genotype-by-environment interactions (i.e., multiple-trait model considering US and AU records as different traits), even though the genetic correlations between countries were lower than 0.80. Common significant genomic regions were observed between US and AU for FA and CS. Significant single nucleotide polymorphisms were identified on the Bos taurus (BTA) chromosomes BTA1, BTA5, BTA11, BTA13, BTA19, BTA20, and BTA23. The candidate genes identified were primarily from growth factor gene families, including FGF12 and GDF5, which were previously associated with bone structure and repair.
Conclusions
This study presents comprehensive population structure and genetic and genomic analyses of foot scores in US and AU Angus cattle populations, which are essential for optimizing the implementation of genomic selection for improved foot scores in Angus cattle breeding programs. We have also identified candidate genes associated with foot scores in the largest Angus cattle populations in the world and made recommendations for genomic evaluations for improved foot score traits in the US and AU.
Publisher
Springer Science and Business Media LLC
Subject
Genetics,Animal Science and Zoology,General Medicine,Ecology, Evolution, Behavior and Systematics
Reference66 articles.
1. Suchocki T, Egger-Danner C, Schwarzenbacher H, Szyda J. Two-stage genome-wide association study for the identification of causal variants underlying hoof disorders in cattle. J Dairy Sci. 2020;103:4483–94.
2. Giess LK, Jensen BR, Bormann JM, Rolf MM, Weaber RL. Genetic parameter estimates for feet and leg traits in Red Angus cattle. J Anim Sci. 2021;99: kab256.
3. Oliveira HR, Brito LF, Miller SP, Schenkel FS. Using random regression models to genetically evaluate functional longevity traits in north American Angus cattle. Animals (Basel). 2020;10:2410.
4. Bell AM, Byrne AI, Duff CJ, Dominik S. A survey approach to explore industry priorities for novel traits in Australian Angus. In: Proceedings of the 23rd conference of the association for the advancement of animal breeding and genetics (AAABG): 27 October–1 November 2019; Armidale. 2019.
5. Santos B, Archer JA, Martin-Collado D, Quinton CD, Crowley J, Amer PR et al. Industry consultation survey for the American Angus $Value Indexes review. In: Proceedings of the 23rd conference of the association for the advancement of animal breeding and genetics (AAABG): 27 October–1 November 2019; Armidale. 2019.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献