Abstract
The casein micelle system of bovine milk is unique in that protein aggregates of similar spherical shape but extreme variability of size are formed by the self-assembly of three major nonidentical subunits. The monomeric subunits appear to be approximately the same size and shape with similar amphiphilic natures, the chief difference in properties being in the carbohydrate-containing kappa-casein which acts to stabilize the system against precipitation by calcium ion. Micelle models with kappa-casein exclusively in the interior lack a stabilization mechanism and can be eliminated. Statistical considerations of a chain polymer model also lead to its rejection. Electron microscopy reveals spherical submicellar aggregates which at present can be accounted for by only three models. Of these three, the experimental data are predicted only by one in which, alphas 1-, beta-, and kappa-casein subunits are associated into spherical soap micelle-like particles with the kappa-casein segregated into one portion, giving these submicelles an amphiphilic nature. The alphas 1- and beta-caseins are hydrophobic while the kappa-casein portion of the submicelle surface is hydrophilic. Of particular interest is the ability of this micelle model to explain the formation of a minimum micelle which is larger than a submicellar particle.
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