Enzymic analysis of cell wall structure in apple fruit cortical tissue

Abstract

Galactanase from Phytophthora infestans and an arabinosidase isoenzyme from Sclerotinia fructigena attacked the cortical cell walls of apple fruits liberating galactose and arabinose residues, respectively. Other arabinosidase isoenzymes from S. fructigena attacked cell walls very slowly. A S. fructigena polygalacturonase isoenzyme liberated half of the uronic acid residues with few associated neutral residues, while a second polygalacturonase isoenzyme released more uronic acid with a substantial proportion of arabinose and galactose and lesser amounts of xylose, rhamnose and glucose; reaction products of this enzyme could be further degraded by the first isoenzyme to give high MW fragments, rich in arabinose with most of the xylose, rhamnose and glucose, and low MW fragments rich in galactose and uronic acid. Endoglucanase from Trichoderma viride released a small proportion of the glucose residues from cell walls together with uronic acid, arabinose, xylose and galactose; more extensive degradation occurred if walls were pre-treated with the second polygalacturonase isoenzyme. Endoglucanase reaction products were separated into a high MW fraction, rich in arabinose, and lower MW fractions rich in galactose and glucose residues. The high MW polygalacturonase and endoglucanase products could be degraded with an arabinosidase isoenzyme to release about 75% of their arabinose. Cell walls from ripe fruit showed similar susceptibility to arabinosidase and galactanase to those from unripe apples. Cell walls from fruit, ripened detached from the tree were more susceptible to degradation by polygalacturonase than walls from unripe fruit or fruit ripened on the tree. Endoglucanase released less carbohydrate from ripe fruit cell walls than from unripe fruit cell walls.