Immunogold-cytochemical labelling of ?-glucosidase in the white-rot fungus Coriolus versicolor

Abstract

Immunogold cytochemical labelling of hyphal sections of Coriolus versicolor showed that β-glucosidase was localised in the extracellular mucilage, cell wall layers and cell interior in hyphae grown on glucose-rich malt extract medium whereas in hyphae grown with carboxymethylcellulose (CMC) as sole carbon source, most labelling was in the cell wall layers and cell interior. Little mucilage was visible around hyphae from these cultures. Hyphae from beechwood cultures showed gold labelling of β-glucosidase in mucilage and fungal cell walls with some intracellular labelling. Biochemical studies of enzyme activity showed that similar amounts of enzyme were detected in the growth medium when cultures were grown on CMC medium, in agitated liquid cultures or in stationary cultures. In agitated cultures grown on glucose-rich malt extract, the activity of β-glucosidase in the medium was 100 times less than that detected in stationary cultures on the same medium. However activity in the hyphae of stationary CMC-grown cultures was similar to that in hyphae from stationary glucose-rich cultures. These data confirm the patterns of gold labelling observed in hyphae from stationary cultures on glucose-rich malt extract when β-glucosidase was immobilised in the extracellular mucilage layer around the hyphae. In this paper we propose that a primary function of the extracellular mucilage produced by hyphae of C. versicolor in vivo is to serve as a matrix for immobilisation of β-glucosidase. Its substrate, cellobiose, which is released as a result of endo-and exoglucanase hydrolysis of cellulose, is absorbed and retained by the gel filtration properties of the mucilage, so encountering the immobilised β-glucosidase. Glucose produced by this reaction is retained within the mucilage matrix around the hyphae before intracellular absorption.