THE MODE OF BINDING OF β-GLUCANS AND PENTOSANS IN BARLEY ENDOSPERM CELL WALLS

Abstract

β-Glucans in barley endosperm cell walls exist as polymers of very high molecular weight (about 4 × 10⁷ daltons) containing firmly linked peptide sequences. This peptidic material is an essential part of the structure of the β-glucan complex as it exists in the cell wall. Rupture of peptide bonds by hydrazinolysis or with the proteolytic enzyme thermolysin gives β-glucans similar in size to those from short-grown green malts (about 10⁶ daltons). This suggests that proteolysis is the first step in β-glucan degradation. Large β-glucans are not all precipitated in 30% (w/v) ammonium sulphate; only 34% of the β-glucan in a hot aqueous extract of cell walls is precipitated. The amount is increased to 63% if the cell walls have been previously dehydrated. Prolonged incubation of cell wall β-glucan at 40°C, mechanical stress, chromatography lasting 8–10 h at or above 65°C, or chromatography in M sodium chloride causes some disassociation of high molecular weight β-glucan to a size of about 10⁷ daltons. Heating a solution for 1 h at 100°C does not disassociate the β-glucan. Pentosans isolated from cell walls are not covalently linked to the β-glucans and can be separated from them by molecular sieve chromatography. They have a higher xylose/arabinose ratio than previously reported for barley pentosans. The pentosan molecules extracted by water are smaller (10⁶ daltons) than those extracted by alkali (5 × 10⁶ daltons). Little difference was observed in the chemical or physical properties of cell wall materials of barley cultivars of different malting qualities.