Higher order structures of a bioactive, water-soluble (1→3)-β-d-glucan derived from Saccharomyces cerevisiae

This report describes a method for the solubilization of micro-particulate (1-->3)-beta-D-glucan. Insoluble glucan is dissolved in methyl sulfoxide and urea (8 M) and partially sulfated at 100 degrees. The resulting water-soluble product is called glucan sulfate. The conversion rate is 98%, and the

A (1 + 3)\_/3-Linked poly-D-glucose immune stimulant is isolated from the inner cell wall of Succ~aromyc~ cerevhiae [1,21 and belongs to the class of drugs known as biological response modifiers (BRMs). This polysaccharide exerts a beneficial effect on a variety of experimentally induced disease sta

Sodium salt of carboxymethyl-P-( 1 + 6 ) -D-gluco-P-( 1 --t 3) -D-glucan ( CMG-Na) was prepared from 0-D-glucan isolated from baker's yeast ( Saccharomyces cerevisiae) . Three samples, Fractions I, 11, and 111, were further separated from the crude CMG-Na derivative. For the physicochemical characte

This report describes a method for the solubilization of a micro-particulate beta-D-glucan. Insoluble glucan is dissolved in methyl sulfoxide and urea (8M) and partially phosphorylated at 100 degrees. The resulting water-soluble product is called glucan phosphate. The conversion rate is 70%, and the