Abstract
Background/Objectives: Wool is an important product in sheep production, but the genetic mechanisms underpinning variation in wool growth are not fully understood. Identifying the genes and genomic variants that play a role in increasing fleece weight may allow for increased selection accuracy and improved economic return to producers. Methods: A genome-wide association study (GWAS) was conducted to investigate genetic associations with lifetime fleece weight, average fleece weight and average post-lambing ewe weight for Rambouillet, Polypay, Suffolk and Columbia ewes (N = 1125). Weir-Cockerham F(ST) and runs of homozygosity (ROH) analyses were conducted to improve detection of putative wool-related signatures. Results: Twenty-four SNPs were identified through GWAS for lifetime fleece weight, average fleece weight and average post-lambing ewe weight. Chromosomes 2 and 6 contained ROH islands in Rambouillet, and chromosomes 2, 3 and 10 contained ROH islands in Suffolk. The F(ST) analysis identified 18 SNPs in proximity to 37 genes of interest. Conclusions: Many of the SNPs and signatures of selection reported in this study are near or within current candidate genes for wool production and wool quality, including ADAR, KCNN3, NTN1, SETBP1, TP53 and TNFSF12. The significant SNPs implicated by GWAS may be used to predict ewes' potential for lifetime wool production and are suggested as candidates for further study to continue to elucidate the genetic mechanisms underlying wool production traits in United States sheep breeds.