The Mechanism of Enzymatic Cellulose Degradation

Abstract

1. A low-molecular-weight and a high-molecular-weight 1,4beta-glucan glucanohydrolase (Cx enzyme) have been isolated from a commercial cellulase preparation derived from culture filtrates of the fungus Trichoderma viride. 2. The purification method for the isolation of the low-molecular-weight enzyme is a three-step procedure including chromatography on Bio-Gel P-10, chromatography on a dipolar adsorbent (arginine-Sepharose 6 B) and isoelectric focusing. 3. The starting material for the isolation of the high-molecular-weight enzyme was pre-fractionated by chromatography on Bio-Gel P-10, by DEAE-Sephadex chromatography and by SE-Sephadex chromatography as described previously by us. Further fractionation of this material was achieved by affinity chromatography and repeated isoelectric focusing. 4. Free zone electrophoresis of the low-molecular-weight enzyme indicated a homogeneous protein. The high-molecular-weight enzyme was homogenous in sedimentation equilibrium analysis. 5. The molecular weights of the enzymes were 12 500 and 50 000 +/- 2000 respectively. The former value was determined by chromatography on a calibrated column of Bio-Gel P-100 and the latter value by sedimentation equilibrium analysis. 6. The low-molecular-weight enzyme was isoelectric at pH 4.60 (10 degrees C) and contained 21% carbohydrate. The corresponding values for the high-molecular-weight enzyme were pH 3.39 and 12%. 7. Both enzymes were active in releasing free fibers from filter-paper. The low-molecular-weight enzyme was estimated to be about twice as effective as the high-molecular-weight enzyme in this regard.