BLBS102-c24 BLBS102-Simpson March 21, 2012 13:47 Trim: 276mm X 219mm Printer Name: Yet to Come
456 Part 4: Milk
(A)
(C)
(B)
Figure 24.3.Models of casein micelle structure: (A) the submicelle model of Walstra (1999); (B) the Holt model (from Fox and McSweeney
1998); (C) the dual binding model, showing interactions betweenαs1-,β- andκ-caseins (Horne 2003).
dissociation of the micelles (O’Connell et al. 2001a, b). Micelle-
like particles reform on cooling and form a gel at∼ 4 ◦C. It is
not known if the sub-particles formed by any of these treatments
correspond to casein sub-micelles.
The turbidity of skim milk increases on addition of SDS up
to 21mM, at which concentration a gel is formed; however, at
≥28 mM (∼0.8%, w/v) the micelles disperse (see Lefebvre-
Cases et al. 2001a, b).
There have been few studies on variations in micelle size
throughout lactation and these have failed to show consistent
trends. No studies on variability in the micro-structure of the
casein micelle have been published. We are not aware of studies
on the effect of the nutritional or health status of the animal on
the structure of the casein micelles, although their stability and
behaviour are strongly dependent on pH, milk salts and whey
proteins, all of which are affected by the health and nutritional
status of the cow.
The milk of all species that have been studied is white, pre-
sumably due to light scattering by the casein micelles. However,
the micelles of only a few species have been studied in detail;
electron microscopy indicates that the micelles of all species are
spherical and range in size from approximately 50 nm in human
milk to∼600 nm in equine milk. Some of the large micelles in
equine milk settle out under gravity or low centrifugal forces;
the large micelles reflect the low level ofκ-casein in equine
milk. The milk of most species is supersaturated with calcium
phosphate and the insoluble part (CCP) is present in the casein
micelles, in which it acts as a cementing material; the micelles
disintegrate when the CCP is removed. Human milk lacks CCP
and its micelles have a rather porous structure.