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Dissecting loci that underpin the genetic correlations between production, fertility, and urea traits in Australian Holstein cattle

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journal contribution
posted on 2024-08-01, 00:41 authored by Babatunde S Olasege, Irene van den Berg, Mekonnen Haile-MariamMekonnen Haile-Mariam, Phuong N Ho, Zhen Yin Oh, Laercio R Porto‐Neto, Ben J Hayes, Jennie PryceJennie Pryce, Marina RS Fortes
Unfavorable genetic correlations between milk production, fertility, and urea traits have been reported. However, knowledge of the genomic regions associated with these unfavorable correlations is limited. Here, we used the correlation scan method to identify and investigate the regions driving or antagonizing the genetic correlations between production vs. fertility, urea vs. fertility, and urea vs. production traits. Driving regions produce an estimate of correlation that is in the same direction as the global correlation. Antagonizing regions produce an estimate in the opposite direction of the global estimates. Our dataset comprised 6567, 4700, and 12,658 Holstein cattle with records of production traits (milk yield, fat yield, and protein yield), fertility (calving interval) and urea traits (milk urea nitrogen and blood urea nitrogen predicted using milk-mid-infrared spectroscopy), respectively. Several regions across the genome drive the correlations between production, fertility, and urea traits. Antagonizing regions were confined to certain parts of the genome and the genes within these regions were mostly involved in preventing metabolic dysregulation, liver reprogramming, metabolism remodeling, and lipid homeostasis. The driving regions were enriched for QTL related to puberty, milk, and health-related traits. Antagonizing regions were mostly related to muscle development, metabolic body weight, and milk traits. In conclusion, we have identified genomic regions of potential importance for dairy cattle breeding. Future studies could investigate the antagonizing regions as potential genomic regions to break the unfavorable correlations and improve milk production as well as fertility and urea traits.

Funding

Meat and Livestock Australia (MLA), Grant/Award Number: L.GEN 1710

History

Publication Date

2024-08-01

Journal

Animal Genetics

Volume

55

Issue

4

Pagination

19p. (p. 540-558)

Publisher

Wiley

ISSN

0268-9146

Rights Statement

© 2024 The Author(s). Animal Genetics published by John Wiley & Sons Ltd on behalf of Stichting International Foundation for Animal Genetics. This is an open access article under the terms of the Creative Commons Attribution-NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.