Production of the Inaccessible Sesquiterpene (-)-5-Epieremophilene by Metabolically Engineered Escherichia coli.

Abstract

(-)-5-Epieremophilene, an epimer of the versatile sesquiterpene (+)-valencene, is an inaccessible natural product catalyzed by three sesquiterpene synthases (SmSTPSs1-3) of the Chinese medicinal herb Salvia miltiorrhiza, and its biological activity remains less explored. In this study, three metabolically engineered Escherichia coli strains were constructed for (-)-5-epieremophilene production with yields of 42.4-76.0 mg/L in shake-flask culture. Introducing an additional copy of farnesyl diphosphate synthase (FDPS) gene through fusion expression of SmSTPS1-FDPS or dividing the FDP synthetic pathway into two modules resulted in significantly improved production, and ultimately 250 mg of (-)-5-epieremophilene were achieved. Biological assay indicated that (-)-5-epieremophilene showed significant antifeedant activity against Helicoverpa armigera (EC50 =1.25 μg/cm2 ), a common pest of S. miltiorrhiza, implying its potential defensive role in the plant. The results provided an ideal material supply for studying other potential biological activities of (-)-5-epieremophilene, and also a strategy for manipulating terpene production in engineered E. coli using synthetic biology.