Yeast glucan as normally prepared by various treatments of yeast (Saccharomyces cerevisiae) cell walls to remove mannan and glycogen is still heterogeneous. The major component (about 85%) is a branched beta-(1-->3)-glucan of high molecular weight (about 240000) containing 3% of beta-(1-->6)-glucosidic interchain linkages. The minor component is a branched beta-(1-->6)-glucan. A comparison of our results with those of other workers suggests that different glucan preparations may differ in the degree of heterogeneity and that the major beta-(1-->3)-glucan component may vary considerably in degree of branching.
By selective enzymolysis, or chemical fractionation, a minor polysaccharide component has been isolated from yeast (Saccharomyces cerevisiae) glucan. This minor component has a degree of polymerization of about 130-140, a highly branched structure, and a high proportion of beta-(1-->6)-glucosidic linkages. The molecules also contain a smaller proportion of beta-(1-->3)-glucosidic linkages that serve mainly as interchain linkages, but some may also be inter-residue linkages.
SUMMARYPrevious studies have shown that the insoluble glucan from the walls of baker's yeast (Saccharomyces cerevisiae) is heterogeneous. It consists of about 85 % of an insoluble branched /?-
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