Abstract:Salidroside is a functional ingredient with wide applications in food and pharmaceutical fields. It is conventionally produced by extraction from plants, the application of which is limited by the scarcity of raw materials and cumbersome process. This study achieved the efficient production of salidroside by biosynthesis with tyrosol as the substrate. While utilizing glycosyltransferases for tyrosol glycosylation, we introduced sucrose synthase to construct the uridine diphosphate glucose (UDPG) recycling system. The glycosyltransferase UGT33 and sucrose synthase AtSUS were screened out by comparison, and the recombinant strain Escherichia coli BL21/pETDuet-AtSUS-UGT33 was constructed. The copy number of the gene was optimized and the optimal copy number ratio of glycosyltransferase to sucrose synthase was determined to be 3:1. The whole-cell transformation conditions (temperature, pH, inoculum amount, substrate concentration, and concentrations of metal ions) of the recombinant strain were optimized, and the highest yield of salidroside reached 8.17 g/L after fermentation under the optimal conditions in a 5 L fermenter for 24 h. This study provides a reference for the efficient production of salidroside by microorganisms.