The ability of ectoin, hydroxyectoin, glycoin (known as extremolytes), glutaraldehyde (GA) and methoxypoly(ethylene glycol) (MeOPEG) to produce formulations of alpha-chymotrypsin (α-CT) more active than the native enzyme in organic solvents, was tested. The activity in toluene of lyophilized α-CT when ectoin, MeOPEG (1:1, w/w) or GA (0.1%, w/v) were used was 10-, 46-, and 260-fold higher than in the absence of additives, respectively; furthermore, when using MeOPEG and GA together the activity increased 370-fold. GA increased the activity of α-CT in organic solvent, in spite of its inactivating effect in water. The activating effect of GA was dependent on the water activity (a w) at which α-CT + GA was equilibrated and on the reaction system. At a w 0.06 it was observed at all GA concentrations employed (0.025-0.25%, w/v, in the enzyme water solution before lyophilization), whereas at a w 0.96 it was found only at 0.025% GA. Infrared spectroscopic data indicated that prolonged exposure of α-CT films to GA in buffer causes changes to the enzyme secondary structure, favoring the hydration of the enzyme, which ultimately suggests a higher accessibility of the substrates to the enzyme.
Effects of stabilizing additives on the activity of alpha-chymotrypsin in organic solvent / F. Secundo, G.L. Barletta, G. Parini, G. Roda. - In: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC. - ISSN 1381-1177. - 84:special issue(2012), pp. 128-131. ((Intervento presentato al 10. convegno International Symposium on Biocatalysis and Biotransformations (BIOTRANS) tenutosi a Giardini Naxos nel 2011 [10.1016/j.molcatb.2012.04.008].
Effects of stabilizing additives on the activity of alpha-chymotrypsin in organic solvent
G. Roda
2012
Abstract
The ability of ectoin, hydroxyectoin, glycoin (known as extremolytes), glutaraldehyde (GA) and methoxypoly(ethylene glycol) (MeOPEG) to produce formulations of alpha-chymotrypsin (α-CT) more active than the native enzyme in organic solvents, was tested. The activity in toluene of lyophilized α-CT when ectoin, MeOPEG (1:1, w/w) or GA (0.1%, w/v) were used was 10-, 46-, and 260-fold higher than in the absence of additives, respectively; furthermore, when using MeOPEG and GA together the activity increased 370-fold. GA increased the activity of α-CT in organic solvent, in spite of its inactivating effect in water. The activating effect of GA was dependent on the water activity (a w) at which α-CT + GA was equilibrated and on the reaction system. At a w 0.06 it was observed at all GA concentrations employed (0.025-0.25%, w/v, in the enzyme water solution before lyophilization), whereas at a w 0.96 it was found only at 0.025% GA. Infrared spectroscopic data indicated that prolonged exposure of α-CT films to GA in buffer causes changes to the enzyme secondary structure, favoring the hydration of the enzyme, which ultimately suggests a higher accessibility of the substrates to the enzyme.
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