Yiu Wai Wong scite author profile

Yiu Wai Wong

4Publications

33Citation Statements Received

35Citation Statements Given

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Affiliations

Delft University of Technology, The University of Texas at Austin, The University of Texas Health Science Center at San Antonio

Publications

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Understanding the influence of temperature change and cosolvent addition on conversion rate of enzymatic suspension reactions based on regime analysis

Wolff

Zhu

Wong

et al. 1999

Biotechnol. Bioeng.

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It is a commonly held belief that enzymatic conversions of substrate in aqueous suspensions can be speeded up by raising the temperature or adding organic solvents to promote dissolution of the substrate. To quantify the impact of such changes, we studied the alpha-chymotrypsin-catalyzed hydrolysis of dimethyl benzylmethylmalonate as a model system. It was found that, upon addition of organic cosolvents, longer process times were actually required, even though the substrate solubility increased severalfold as expected. Upon raising the temperature from 25 degrees C to 37 degrees C, on the other hand, both the substrate solubility, the substrate dissolution rate, and the enzymatic reaction rate increased, leading to shorter process times. A dissolution-reaction model incorporating the kinetics of enzyme deactivation could be developed. A simple relation for the prediction of the overall process time was established by evaluating the time constants for the subprocesses: substrate dissolution; enzymatic conversion; and enzyme deactivation. Using regime analysis, rules of thumb for the optimization of an enzymatic suspension reaction were derived.

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Non-separating effects in a centrifugal partition chromatographic reactor for the enzymatic production of L-amino acids

Hollander

Wong

Luyben

et al. 1999

Chemical Engineering Science

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Analysis of warfarin and its metabolites by reversed-phase ion-pair liquid chromatography with fluorescence detection

Wong

Davis²

1989

Journal of Chromatography A

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Microbial Models of Mammalian Metabolism: Production of 3'-Hydroxywarfarin, a New Metabolite of Warfarin Using Cunninghamella elegans

Wong

Davis

1991

Journal of Pharmaceutical Sciences

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Yiu Wai Wong

Understanding the influence of temperature change and cosolvent addition on conversion rate of enzymatic suspension reactions based on regime analysis

Non-separating effects in a centrifugal partition chromatographic reactor for the enzymatic production of L-amino acids

Analysis of warfarin and its metabolites by reversed-phase ion-pair liquid chromatography with fluorescence detection

Microbial Models of Mammalian Metabolism: Production of 3'-Hydroxywarfarin, a New Metabolite of Warfarin Using Cunninghamella elegans

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