Effects of polymorphism of the gene on milk quality traits and its relation to triglyceride metabolism in bovine mammary epithelial cells of dairy cattle.

Mitochondrial glycerol-3-phosphate acyltransferase () catalyses the initial and rate-regulated first-stage pathway of glycerol lipid synthesis and helps to allocate acyl-CoA (acyl-coenzyme A) to triglyceride (TG) synthesis and away from degradation pathways in animal lipometabolism-related pathways. In this study, RNA interference (RNAi) and gene overexpression were used to examine the correlation between the expression of and adipogenesis in bovine mammary epithelial cells (bMECs). Additionally, three novel polymorphisms were identified within the bovine key functional domain of with Sanger sequencing. The relationship between variants of the gene and milk quality traits of Chinese Holstein cows was then analysed using statistical methods. The results showed that knockdown of the gene significantly reduced the synthesis of triglycerides in the bMECs (    0.05), whereas the overexpression of the gene significantly increased the synthesis of TG (    0.05). In Chinese Holstein dairy cattle, the polymorphic locus of the gene E20-3386G   A was significantly correlated with fat, protein and somatic cell count (    0.05); I18-652A   G was significantly correlated with fat, total fat content, protein, dry matter and somatic cell count (    0.05); and I18-726A   G was significantly correlated with protein, milk yield, dry matter and somatic cell count (    0.05). Specifically, individuals with the AA genotype of the I18-652A   G and E20-3386G   A polymorphic loci had a higher milk fat percentage (    0.05). In summary, plays a pivotal role in the intracellular regulation of triglyceride, and its mutations could work as a competent molecular marker for selective breeding in dairy cattle.