The effect of depletion of Ca2+ on the composition and size distribution of casein micelles in milk has been examined using chemical analysis, size exclusion chromatography, fast protein liquid chromatography, turbidimetry and photon correlation spectroscopy. Partial removal of Ca2 + by EDTA and subsequent dialysis resulted in disaggregation of some of the casein inicelles; as the EDTA concentration increased, the proportions of CaZ + and phosphate relative to protein in the micelles remaining intact decreased. However, the composition of the intact micelles, with respect to the different caseins, and the number-frequency size distribution were essentially unchanged.The caseins (asl, m2, / l and k--casein polypeptides) account for more than 80% of the protein in bovine milk [l]. They exist predominantly as large stable aggregates (20-600 nm diameter), which are known as casein micelles, in dynamic equilibrium with smaller aggregates and monomers [2, 31. These casein micelles contain appreciable deposits of calcium phosphate and calcium citrate (approximately 7% by mass) [2]. The calf absorbs milk calcium and phosphorus very efficiently [4] and it is likely that one important biological function of casein micelles is the transfer of calcium and phosphate to the calf in a compact but easily assimilable form. An efficient, natural, controlled release mechanism for calcium and phosphate seems to be operating in milk and it is of interest to understand the mechanism of action, which may be relevant to the devising of artificial controlled-release delivery systems for drugs and dietary supplements.While Ca2' is essential to the maintenance of casein micelle structure (the removal of Ca2+ ions from the aqueous environment results in disaggregation of the micelles [2]), it has been reported that some micellar depletion of Ca2 + is possible while retaining some structural integrity as indicated, for example, by measurement of average hydrodynamic diameter [5]. In an earlier paper [6] we described the estimation of the total refractive index of the casein micelles, which is compounded from contributions arising from the protein and inorganic constituents; this present work was begun with the intention of identifying these different contributions by selective removal of micellar calcium phosphate. However, we found that it was not possible to remove significant amounts of Ca2 + without some micellar disaggregation. The experiments described here were undertaken to examine whether, during the disaggregation, there was progressive loss of material from the micelles resulting in a decrease in micelle size.Correspondence to M. C . A. Griffin, AFRC Institute of Food Research, Reading Laboratory, Shinfield, Reading, RG2 9AT, England Abbreviations. PCS, photon correlation spectroscopy; CPG, controlled-pore glass.
MATERIALS AND METHODSRaw milk was obtained from a bulk storage tank; 16 1 was centrifuged in batches at 1600 x g,, for 20 min at 5 "C, and the cream was removed. NaN3 was added to the skim milk to A method similar to tha...
