Sodium caseinate-stabilized fat globules inhibition of the rennet-induced gelation of casein micelles studied by Diffusing Wave Spectroscopy

Sodium caseinate (NaCas)-stabilized oil-in-water emulsions were added to skim milk and the rennet-induced aggregation was observed in situ using light scattering and dynamic oscillatory rheology. The gelation of the recombined milk was greatly inhibited by the addition of the oil droplets, at volume fractions >0.025. The development of the turbidity parameter, 1/l*, and the apparent hydrodynamic radius during renneting were determined using diffusing wave spectroscopy. Although the recombined milk samples contained two scattering particles, namely, casein micelles and fat globules, the latter overwhelmingly contributed to the overall light-scattering signal. This made possible to follow the behaviour of NaCas-stabilized fat globules during the gelation process. The enzymatic reaction associated with the hydrolysis of micellar κ-casein was not significantly affected by the presence of the NaCas-stabilized fat globules. However, the emulsion droplets impeded the aggregation of rennet-altered casein micelles preventing the formation of a gel network. The inability of renneted casein micelles to develop a gel network can be attributed in part to an altered equilibrium between soluble and micellar calcium phosphate, caused by the association of soluble Ca2+ with casein molecules, but mostly can be attributed to the effect of non-adsorbed caseins on the surface of the casein micelles.