AIChE Journal, Vol.61, No.10, 3172-3179, 2015
Refactoring -amyrin synthesis in Saccharomyces cerevisiae
Triterpenoids are a highly diverse group of natural products and used particularly as medicine. Here, a strategy combining stepwise metabolic engineering and transcriptional control was developed to strengthen triterpenoid biosynthesis in Saccharomyces cerevisiae. Consequently, an efficient biosynthetic pathway for producing -amyrin, a commercially valuable compound and precursor of triterpenoids, was constructed through expressing a plant-derived -amyrin synthase. Introducing a heterologous squalene monooxygenase greatly dragged intermediate metabolite squalene toward -amyrin. Increasing squalene pool by overexpressing IPP isomerase, FPP, and squalene synthase further enhanced -amyrin synthesis of 49-folds. Through reconstructing the promoters with the binding site of transcription factor UPC2, directed transcriptional regulation on engineered pathway was availably achieved, resulting in -amyrin titer increased by 65-folds. Using ethanol fed-batch fermentation, -amyrin titer was finally improved up to 138.80 mg/L with a yield of 16.30 mg/g dry cell, almost 185 and 232 and folds of the initially engineered strain, respectively. (c) 2015 American Institute of Chemical Engineers AIChE J, 61: 3172-3179, 2015
Keywords:-amyrin;metabolic engineering;transcriptional regulation;triterpenoid;Saccharomyces cerevisiae