Effects of milk protein variants on the protein composition of bovine milk (original) (raw)

2009, Journal of Dairy Science

The effects of β-lactoglobulin (β-LG), β-casein (β-CN), and κ-CN variants and β-κ-CN haplotypes on the relative concentrations of the major milk proteins α-lactalbumin (α-LA), β-LG, α S1 -CN, α S2 -CN, β-CN, and κ-CN and milk production traits were estimated in the milk of 1,912 Dutch Holstein-Friesian cows. We show that in the Dutch Holstein-Friesian population, the allele frequencies have changed in the past 16 years. In addition, genetic variants and casein haplotypes have a major impact on the protein composition of milk and explain a considerable part of the genetic variation in milk protein composition. The β-LG genotype was associated with the relative concentrations of β-LG (A ≫ B) and of α-LA, α S1 -CN, α S2 -CN, β-CN, and κ-CN (B > A) but not with any milk production trait. The β-CN genotype was associated with the relative concentrations of β-CN and α S2 -CN (A 2 > A 1 ) and of α S1 -CN and κ-CN (A 1 > A 2 ) and with protein yield (A 2 > A 1 ). The κ-CN genotype was associated with the relative concentrations of κ-CN (B > E > A), α S2 -CN (B > A), α-LA, and α S1 -CN (A > B) and with protein percentage (B > A). Comparing the effects of casein haplotypes with the effects of single casein variants can provide better insight into what really underlies the effect of a variant on protein composition. We conclude that selection for both the β-LG genotype B and the β-κ-CN haplotype A 2 B will result in cows that produce milk that is more suitable for cheese production.