Ultrasonic assistance of lipase (Candida antarctica; Novozym® 435) catalyzed synthesis of 4'-acetoxyresveratrol from resveratrol and vinyl acetate was investigated. Response surface methodology and a three-level-three-factor Box-Behnken design were adopted to evaluate the effects of synthesis variables, including reaction time (4-12h), enzyme amount (2500-4500PLU), and ultrasonic power (90-150 W) on the percentage molar conversion of 4'-acetoxyresveratrol. Based on ridge max analysis, the optimum conditions for synthesis were: reaction time 10.78 h, enzyme amount 5492PLU, and ultrasonic power 147.8 W. With ultrasound assistance, not only the phenolic compound acetylation time decreased, but also a high yield (95.2%) was achieved. The reaction kinetic model agreed with Ping-Pong mechanism, and the apparent kinetic constant V(m)(')/K(2) ratio related to enzyme performance was 2.4 times higher in the ultrasound-assisted reaction than in the mechanical-mixing reaction. The apparent kinetic constant K(2) indicated that ultrasound enhanced the vinyl acetate affinity to the enzyme. The simplified Ping-Pong kinetic model was employed to simulate 4'-acetoxyresveratrol production in batch reaction. It was found that a good prediction existed between the fitting results and the experimental data.
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