Abstract

d-Tagatose is a rare sugar with low calories, and is extensively used in food, beverage, and drug additives. In this study, an in vitro multienzyme cascade route for d-tagatose synthesis from sucrose (MCTS) was designed, which contains five enzymes (sucrose phosphorylase, fructokinase, d-fructose 6-phosphate 4-epimerase, d-tagatose 6-phosphate phosphatase, and polyphosphate kinase). The whole MCTS route comprised a sucrose phosphorylation reaction, and a phosphorylation–dephosphorylation reaction coupled with an ATP regeneration system. After optimization, the conversion of d-tagatose from 10 mM sucrose reached 82.3%. At an elevated sucrose concentration of 50 mM, 72.4% of d-tagatose conversion and 0.27 g·L–1·h−1 of space–time yield were obtained. Furthermore, ADP consumption decreased to 1% of the sucrose concentration after introducing the ATP regeneration system. The MCTS strategy is an efficient and cost-effective approach for d-tagatose production.

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