Promoter engineering for efficient production of sucrose phosphorylase in Bacillus subtilis and its application in enzymatic synthesis of 2-O-α-D-glucopyranosyl-L-ascorbic acid

Abstract

2-O-α-D-glucopyranosyl-L-ascorbic acid (AA-2G), a stable glucoside derivative of L-ascorbic acid (L-AA), can be one-step synthesized by sucrose phosphorylase (SPase). In this study, we attempted to produce extracellular SPase in Bacillus subtilis WB800 for the food-grade production of AA-2G. The results showed that the secretion of SPases did not require signal peptide. Promoter and its compatibility to target SPase gene were proved to be the key factors for high-level secretion. The strong promoter P43 and synthetic SPase gene derived from Bifidobacterium longum (BloSPase) were selected due to generate a relatively high extracellular activity (0.94 U/mL) for L-AA glycosylation. A highly active dual-promoter system PsigH-100-P43 was further constructed, which produced the highest extracellular and intracellular activity were 5.53 U/mL and 6.85 U/mL in fed-batch fermentation, respectively. Up to 113.58 g/L of AA-2G could be achieved by the supernatant of fermentation broth and a higher yield of 146.42 g/L was obtained by whole-cells biotransformation. Therefore, the optimal dual-promoter system in B. subtilis is suitable for the food-grade scale-up production of AA-2G.