Activation of Naringenin and Kaempferol through Pathway Refactoring in the Endophyte Phomopsis Liquidambaris.

Abstract

Abundant gene clusters of natural products are observed in the endophytic fungus Phomopsis liquidambaris; however, most of them are silent. Herein, a plug-and-play DNA assembly tool has been applied for flavonoid synthesis in P. liquidambaris. A shuttle plasmid was constructed based on S. cerevisiae, E. coli, and P. liquidambaris with screening markers URA, Amp, and hygR, respectively. Each fragment or cassette was successively assembled by overlap extension PCR with at least 40-50 bp homologous arms in S. cerevisiae for generating a new vector. Seven native promoters were screened by the DNA assembly based on the fluorescence intensity of the mCherry reporter gene in P. liquidambaris, and two of them were new promoters. The key enzyme chalcone synthase was the limiting step of the pathway. The naringenin and kaempferol pathways were refactored and activated with the titers of naringenin and kaempferol of 121.53 mg/L and 75.38 mg/L in P. liquidambaris using fed-batch fermentation, respectively. This study will be efficient and helpful for the biosynthesis of secondary metabolites.