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Effect of Protein Genotypes on Physicochemical Properties and Protein Functionality of Bovine Milk: A Review

Nan Gai, T. Uniacke‐Lowe, Jonathan O’Regan, Hope Faulkner, Alan L. Kelly

2021Foods70 citationsDOIOpen Access PDF

Abstract

Milk protein comprises caseins (CNs) and whey proteins, each of which has different genetic variants. Several studies have reported the frequencies of these genetic variants and the effects of variants on milk physicochemical properties and functionality. For example, the C variant and the BC haplotype of αS1-casein (αS1-CN), β-casein (β-CN) B and A1 variants, and κ-casein (κ-CN) B variant, are favourable for rennet coagulation, as well as the B variant of β-lactoglobulin (β-lg). κ-CN is reported to be the only protein influencing acid gel formation, with the AA variant contributing to a firmer acid curd. For heat stability, κ-CN B variant improves the heat resistance of milk at natural pH, and the order of heat stability between phenotypes is BB > AB > AA. The A2 variant of β-CN is more efficient in emulsion formation, but the emulsion stability is lower than the A1 and B variants. Foaming properties of milk with β-lg variant B are better than A, but the differences between β-CN A1 and A2 variants are controversial. Genetic variants of milk proteins also influence milk yield, composition, quality and processability; thus, study of such relationships offers guidance for the selection of targeted genetic variants.

Topics & Concepts

Genetic variantsRennetCaseinWhey proteinHeat stabilityChemistryFood scienceEmulsionMilk proteinGenotypeBeta-lactoglobulinHeat resistanceBiochemistryGeneMaterials scienceComposite materialMilk Quality and Mastitis in Dairy CowsProteins in Food SystemsDigestive system and related health