Engineering Saccharomyces cerevisiae for high yield production of α-amyrin via synergistic remodeling of α-amyrin synthase and expanding the storage pool

α-Amyrin is a plant-originated high-valued triterpene that is highly effective against several pathological ailments. α-Amyrin production by engineered Saccharomyces cerevisiae has been achieved by introducing α-amyrin synthase (αAS). However, the low yield of α-amyrin highly limits its industrial application; the low catalytic activity of αAS and the toxic effect of α-amyrin have been considered key elements. In this study, the highest yield of α-amyrin was obtained in engineered S. cerevisiae by remodeling α-amyrin synthase MdOSC1 and expanding the storage pool. The yield of α-amyrin was increased to 11-fold higher than that of the control by the triple mutant MdOSC1^{N11T/P250H/P373A} obtained based on the modeling analysis. Furthermore, key genes of MVA pathway were overexpressed to provide sufficient precursors, and DGA1 (Diacylglycerol acyltransferase) was overexpressed to expand the intracellular storage capacity. Finally, the as-constructed aAM12 strain produced 213.7 ± 12.4 mg/L α-amyrin in the shake flask and 1107.9 ± 76.8 mg/L in fed-batch fermentation; the fermentation yield was 106-fold higher than that of the original aAM1 strain under the same conditions, representing the highest α-amyrin yield in yeast reported to date. Microbial production of α-amyrin with over 1 g/L will be suitable for commercialization and can accelerate the industrial production of α-amyrin in yeast.