Removal of the catalytic nucleophile Glu134 of the retaining 1,3-1,4-L L-glucanase from Bacillus licheniformis by mutation to alanine yields an enzyme with no glycosidase activity. The mutant is able to catalyze the regio-and stereospecific glycosylation of K K-laminaribiosyl fluoride with different glucoside acceptors through a single-step inverting mechanism. The main advantage of the mutant as glycosylation catalyst with respect to the kinetically controlled transglycosylation using the wild-type enzyme is that the reaction products cannot be hydrolyzed by the mutant enzyme, and glycosylation yields rise to 90%.z 1998 Federation of European Biochemical Societies.
The carbohydrate binding site of Bacillus licheniformis 1,3-1,4-beta-D-glucan 4-glucanohydrolase was probed with a series of synthetic 4-methylumbelliferyl beta-D-glucan oligosaccharides (1a-e). The title enzyme is a retaining endo-glycosidase that has an extended carbohydrate binding site composed of four glucopyranosyl binding subunits on the non-reducing end from the scissile glycosidic bond, plus two or three subsites on the reducing end. Subsites -II to -IV have a stabilizing effect on the enzyme-substrate transition state complex in the rate-determining step leading to a glycosyl-enzyme intermediate, with subsite -III having a larger effect (-3.5 kcal mol-1). Since KM values decrease from the mono- to the tetrasaccharide, part of the effect is due to ground stabilization of the Michaelis complex. On the other hand, the chromophoric trisaccharide 1c and the homologous nonchromogenic tetrasaccharide 2b, which locates a glucopyranosyl unit in subsite +I, have almost identical KM values, the difference in reactivity being a consequence of an 18-fold increase of kcat for 2b. Therefore, interactions between subsite +I and the substrate appear to be mainly used to lower the energy of the transition state in the glycosylation step, rather than in the stabilization of the Michaelis complex. Finally, the pH dependence of the kinetic parameters for the hydrolysis of 1c, and the pH-dependent enzyme inactivation by a water-soluble carbodiimide (EAC) suggest two essential groups with pKa values of 5.5 and 7.0 in the free enzyme. The latter value is shifted up to 1.5 pH units upon binding of substrate in the non-covalent enzyme-substrate complex.
The stereochemical course of the reaction catalysed by endo-1,3-1,4-beta-D-glucan 4-glucanohydrolase (EC 3.2.1.73) has been determined by 1H n.m.r. The enzyme-catalysed hydrolysis of barley beta-glucan proceeds with overall retention of the anomeric configuration, indicating that the enzyme operates through a double-displacement mechanism. The structures of the final oligosaccharide products, 3-beta-O-cellobiosyl D-glucopyranoside and 3-beta-O-cellotriosyl D-glucopyranoside, have been completely assigned by 1H- and 13C-n.m.r. spectroscopy.
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