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Pre-steady-state kinetics for hydrolysis of insoluble cellulose by cellobiohydrolase Cel7A.

The Journal of biological chemistry (2012-04-12)
Nicolaj Cruys-Bagger, Jens Elmerdahl, Eigil Praestgaard, Hirosuke Tatsumi, Nikolaj Spodsberg, Kim Borch, Peter Westh
RESUMO

The transient kinetic behavior of enzyme reactions prior to the establishment of steady state is a major source of mechanistic information, yet this approach has not been utilized for cellulases acting on their natural substrate, insoluble cellulose. Here, we elucidate the pre-steady-state regime for the exo-acting cellulase Cel7A using amperometric biosensors and an explicit model for processive hydrolysis of cellulose. This analysis allows the identification of a pseudo-steady-state period and quantification of a processivity number as well as rate constants for the formation of a threaded enzyme complex, processive hydrolysis, and dissociation, respectively. These kinetic parameters elucidate limiting factors in the cellulolytic process. We concluded, for example, that Cel7A cleaves about four glycosidic bonds/s during processive hydrolysis. However, the results suggest that stalling the processive movement and low off-rates result in a specific activity at pseudo-steady state that is 10-25-fold lower. It follows that the dissociation of the enzyme-substrate complex (half-time of ~30 s) is rate-limiting for the investigated system. We suggest that this approach can be useful in attempts to unveil fundamental reasons for the distinctive variability in hydrolytic activity found in different cellulase-substrate systems.

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Sigma-Aldrich
Cellobiohydrolase I from Hypocrea jecorina, 0.13 U/mg, recombinant, expressed in corn