Enzymic hydrolysis of barley and other β-glucans by a β-(1→4)-glucan hydrolase

Abstract

1. A barley glucan with 68% of beta-(1-->4)-linkages and 32% of beta-(1-->3)-linkages was exhaustively hydrolysed with an Aspergillus niger beta-(1-->4)-glucan 4-glucanohydrolase (EC 3.2.1.4) (Clarke & Stone, 1965b). The hydrolysis products were separated and estimated. 2. The lower-molecular-weight products were identified as: glucose, 1.4%; cellobiose, 11.9%; 3(2)-O-beta-glucosylcellobiose, 45.0%; a tetrasaccharide(s), which was a substituted cellobiose, 16.4%. A series of unidentified higher-molecular-weight products (26.5%) were also found. 3. The identity of the products suggests that the A. niger beta-(1-->4)-glucan hydrolase hydrolyses beta-glucosidic linkages joining 4-O-substituted glucose residues. 4. When an enzyme fraction containing the beta-(1-->4)-glucan hydrolase and an exo-beta-(1-->3)-glucan hydrolase was used, the same products were found, but the higher-molecular-weight products were observed to have only a transient existence in the hydrolysate and were virtually absent after prolonged incubation. It is suggested that these oligosaccharides are resistant to attack by beta-(1-->4)-glucan hydrolase but are partially hydrolysed by the exo-beta-(1-->3)-glucan hydrolase and therefore possess one or more (1-->3)-linked glucose residues at their non-reducing end.