Utilization of microbial hosts to produce natural plant products is regarded as a promising and sustainable approach. However, achieving highly efficient production of terpenoids using microorganisms remains a significant challenge. Here, mevalonate, a building block of terpenoids, was used as a demo product to explore the potential metabolic constraints for terpenoid biosynthesis in Yarrowia lipolytica. First, by regulation of the expression of ERG12 and HMGR, the mevalonate titer was improved by 7660%. Subsequently, the native mevalonate pathway (MVA pathway) was enhanced, and the production of mevalonate increased to 4.16 g/L. To ensure a sufficient supply of acetyl-CoA, the citrate route and TCA cycle were simultaneously engineered, and the mevalonate titer was further improved to 5.25 g/L in shake flasks. Ultimately, the citrate overflow metabolism of Y. lipolytica was eliminated by deleting CEX1, resulting in the highest mevalonate titer of 101 g/L with a yield of 0.255 g/g of glucose in eukaryotes. These insights could be applied to the effective production of terpenoids and biochemicals derived from central carbon metabolic pathways.
Keywords: CEX1; Yarrowia lipolytica; citrate overflow; mevalonate; terpenoids.