Structures and some properties of soluble protein complexes formed by the heating of reconstituted skim milk powder

Abstract

The effects of heat on reconstituted skim milk powder (RSMP) at a temperature of 90 °C have been determined, with respect to the formation of soluble protein complexes. Heating at the natural pH of the RSMP forms soluble complexes in the milk serum, which can be separated by size exclusion chromatography. The diameters of the particles were found to be up to 50 nm, as shown by light scattering and by scanning electron microscopy. The formation of the soluble complexes was strongly affected by the treatment of the RSMP before heating. Treatment of the milk with small amounts of glutaraldehyde, to fix the casein micellar structure, severely inhibited the formation of the soluble complexes. The pH at which the milk was heated (in the range 6.5–7.2) also had an effect on the amounts and the sizes of the complexes, as determined by size exclusion chromatography. The amount of soluble complex present in the RSMP affected the strength of the acid gels produced from the different milks, as was shown by exchanging the sera of milks treated differently with glutaraldehyde, and by following the gelation of milks heated at different pH values. Increased amounts of soluble complexes gave stronger acid gels. However, the relationship appeared to break down if milk was heated at pH 7.2, where the soluble material appeared to change and the acid gel was much weaker.