Enhanced transglucosylation/hydrolysis ratio of mutants of Pyrococcus furiosus β-glucosidase:: Effects of donor concentration, water content, and temperature on activity and selectivity in hexanol

The transglucosylation reaction catalyzed by wild-type beta -glucosiclase CelB from hyperthermophilic Pyrococcus furiosus and active site mutants (M424K, F426Y, M424K/F426Y) was studied. The conversion of pentyl-beta -glucoside to hexyl-beta -glucoside in hexanol was used as a model transglucosylation reaction. Hydrolysis to glucose was a side reaction. The selectivity towards transglucosylation was quantified by the S value defined as follows: S = r(s) . a(w) / r(H) . a(hex) where r(S) and r(H) are the initial rates of transglucosylation and hydrolysis and a(w) and a(hex) are the thermodynamic activities of water and hexanol. The activity (rates of hydrolysis and transglucosylation) and the selectivity (S value) were measured as a function of pentyl-beta -glucoside concentration (5-240 mM), water content (1-100% v/v), and temperature (50-95 degreesC). All mutants had lower activity than the wild-type enzyme, but they had higher selectivity, which means that they provided a higher ratio of transglucosylation product to hydrolysis product. The largest increase in S-value (2.6 fold) was obtained by the F426Y mutant, which resulted in increased hexyl-beta -glucoside yield from 56% to 69%. In addition, the F426Y enzyme had higher selectivity over the wide range of temperatures tested. The activity of CelB wild-type and CelB F426Y increased as a function of water activity (a(w)), and complete activation by the water was obtained in a two-phase system with 20% water phase. In contrast to CelB wild-type, the F426Y mutant had transferase activity as low as a(w) = 0.29. Surprisingly, the S value increased with increasing water activity up to a(w) = 0.92. At still higher water content the S value decreased. (C) 2001 John Wiley & Sons, Inc.