Author:
Mohammad Kais S.,Fox Patrick F.
Abstract
SummaryHeating milk at 140 °C caused an initial increase in the percentage of total casein sedimented at 10000 g for 1 h and in the relative viscosity, but as heating continued both parameters decreased before increasing again just before the onset of visible coagulation. This suggests that heating milk at high temperatures caused an initial aggregation of casein micelles with a concomitant increase in particle size and weight, followed by dissociation of these aggregates with reaggregation just before coagulation. Chromatography of heated milk on controlled pore glass confirmed the above suggestion. Calcium appeared to play a major role in the initial association of casein micelles which was also influenced by the initial pH and total solids concentration but whey protein had no effect.
Publisher
Cambridge University Press (CUP)
Subject
Animal Science and Zoology,General Medicine,Food Science
Reference23 articles.
1. A heat-induced change in the ultrastructure of milk and its effect on gel formation in yoghurt
2. The effect of pH on protein aggregation in heated skim milk;Creamer;New Zealand Journal of Dairy Science and Technology,1978
3. Heat stability of milk: influence of colloidal calcium phosphate and β-lactoglobulin
4. Formation of soluble casein in whey protein-free milk heated at high temperature;Aoki;Milchwissenschaft,1974
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