Enhancing soluble expression of sucrose phosphorylase in Escherichia coli by molecular chaperones.

ABSTRACT

Sucrose phosphorylase (SPase, EC 2.4.1.7) has a wide range of application in food, cosmetics, and pharmaceutical industries because of its broad substrate specificity. However, low SPase yields produced by wild-type strains cannot meet industrial requirements due to their complex metabolic regulation mechanisms. In this study, spase gene from Thermoanaerobacterium thermosaccharolyticum was cloned and expressed in Escherichia coli BL21 (DE3), leading to 7.05 U/mL (3.71 U/mg) of T. thermosaccharolyticum SPase (TtSPase) under optimum conditions. Co-expression of molecular chaperone teams pGro7 (GroES-GroEL), pG-KJE8 (DnaK-DnaJ-GrpE and GroES-GroEL), and pG-TF2 (GroES-GroEL-Tig) significantly enhanced the TtSPase activities to 18.5 U/mg (59.2 U/mL), 9.52 U/mg (28.6 U/mL), and 25.7 U/mg (64.5 U/mL), respectively. Results suggested that GroES-GroEL chaperone combination could regulate protein folding processes and protect misfolded proteins from aggregation. The enzymatic characterization results showed that TtSPase had an optimal temperature of 60 °C and optimal pH of 6.5. In particular, it had high thermostability of T5030 = 67 °C and half-life (t1/2 at 70 °C) of 19 min. Furthermore, purified TtSPase was used for hydroquinone transglycosylation and 21% of molar production yield of α-arbutin was obtained. This study provides a TtSPase with high thermostability for potential industrial applications, and develops an effective strategy for improving soluble TtSPase production in E. coli.