Genetic mechanisms and population structure of growth and development in black Tibetan sheep revealed by genome-wide association study and whole-genome resequencing

Abstract

Background: The black Tibetan sheep is an important local livestock breed. Deciphering the genetic and molecular mechanisms governing their growth and development is crucial for breeding programs. However, research on their serum metabolome and population genetic structure remains limited.

Methods: We performed a genome-wide association study (GWAS) integrating phenotypic growth traits and the serum metabolome in a cohort of 210 black Tibetan sheep, using genomic data from single nucleotide polymorphism (SNP) chip genotyping. Additionally, population genetic structure was analyzed via whole-genome resequencing (WGR).

Results: In this study, metabolome genome-wide association study (mGWAS) at the genome-wide level yielded 3,886,784 SNPs and quantified 3267 metabolites. Among them, 56,366 SNPs and 1008 metabolites were identified as significant, and five candidate genes (ZBTB38, CDK6, ZFP36L1, PRSS53, and FHIT) related to the growth and development traits of black Tibetan sheep were screened out. Notably, two of these genes, ZFP36L1 and PRSS53, were simultaneously detected in both the GWAS of phenotypic traits and mGWAS. These genes are strongly linked to certain organic compounds, including L-leucine, L-tryptophan, and pantothenic acid. Furthermore, these genes are primarily enriched in pathways including the mTOR signaling pathway, protein digestion and absorption, regulation of fat cell differentiation, glucose metabolic process, and pantothenate and coenzyme A (CoA) biosynthesis. Concurrently, WGR-based analysis of population genetic structure revealed a close genetic relationship and low differentiation among black Tibetan sheep, white Tibetan sheep, and Euler sheep.

Conclusions: In conclusion, based on the above analysis, the genetic regions, candidate genes, and enriched pathways that may significantly affect the metabolites of black Tibetan sheep were identified. These findings bridge the gap between the genome and the phenotypic traits, as many of these metabolites are key intermediates or regulators involved in growth and development processes. Combined with the elucidated population genetic structure, this study provides a solid foundation for future research into the mechanisms driving growth and development traits in this breed.

Keywords: Black Tibetan sheep; Growth and development; Metabolome genome-wide association study; Population genetic structure; Whole-genome resequencing.