What is the impact of amino acid mutations in the primary structure of caseins on the composition and functionality of milk and dairy products?

The impact of amino acid mutations within the peptide structure of bovine milk protein is important to un-derstand as it can effect processability and subsequently effect its physiological properties. Genetic poly-morphisms of bovine caseins can influence the chemical, structural, and technological properties, including casein micelle morphology, calcium distribution, network creation upon gelation, and surface activity. The A1 and A2 genetic variants of beta-casein have recently acquired growing attention from both academia and industry, prompting new developments in the area. The difference between these two genetic variants is the inclusion of either proline in beta-casein A2 or histidine in beta-casein A1 at position 67 in the peptide chain. The aim of this review was to examine the extent to which milk and ingredient functionality is influenced by beta-casein phenotype. One of the main findings of this review was although beta-casein A1 was found to be the dominant variant in milks with superior acid gelation and rennet coagulation properties, milks comprised of beta-casein A2 possessed greater emulsion and foam formation capabilities. The difference in the casein micelle assembly, hydrophobicity, and chaperone activity of caseins may explain the contrast in the functionality of milks containing beta-casein from either A1 or A2 families. This review provides new insights into the subtle variations in the physicochemical properties of bovine milks, which could potentially support dairy producers in the development of new dairy products with different functional properties.

Automated summary

This article examines the impact of amino acid mutations on the peptide structure of bovine milk protein, which can affect its processability and physiological properties. Genetic polymorphisms of bovine caseins have been found to influence the chemical, structural, and technological properties of milk. The differences between A1 and A2 genetic variants of beta-casein have gained attention recently and have prompted new developments in the field. The review provides insights into the subtle variations in physicochemical properties of bovine milk, which can support the development of dairy products with different functional properties.