Gelation of casein-whey mixtures: effects of heating whey proteins alone or in the presence of casein micelles

CATHERINE SCHORSCH; DEBORAH K. WILKINS; MALCOLM G. JONES; IAN T. NORTON

doi:10.1017/S0022029901004915

Abstract

The aim of the present work was to investigate the role of whey protein denaturation on the acid induced gelation of casein. This was studied by determining the effect of whey protein denaturation both in the presence and absence of casein micelles. The study showed that milk gelation kinetics and gel properties are greatly influenced by the heat treatment sequence. When the whey proteins are denatured separately and subsequently added to casein micelles, acid-induced gelation occurs more rapidly and leads to gels with a more particulated microstructure than gels made from co-heated systems. The gels resulting from heat-treatment of a mixture of pre-denatured whey protein with casein micelles are heterogeneous in nature due to particulates formed from casein micelles which are complexed with denatured whey proteins and also from separate whey protein aggregates. Whey proteins thus offer an opportunity not only to control casein gelation but also to control the level of syneresis, which can occur.

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Gelation of casein-whey mixtures: effects of heating whey proteins alone or in the presence of casein micelles

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Gelation of casein-whey mixtures: effects of heating whey proteins alone or in the presence of casein micelles

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