Metabolic engineering of Escherichia coli for limonene and perillyl alcohol production

Limonene is a valuable monoterpene used in the production of several commodity chemicals and medicinal compounds. Among them, perillyl alcohol (POH) is a promising anti-cancer agent that can be produced by hydroxylation of limonene. We engineered E. coli with a heterologous mevalonate pathway and limonene synthase for production of limonene followed by coupling with a cytochrome P450, which specifically hydroxylates limonene to produce POH. A strain containing all mevalonate pathway genes in a single plasmid produced limonene at titers over 400mg/L from glucose, substantially higher than has been achieved in the past. Incorporation of a cytochrome P450 to hydroxylate limonene yielded approximately 100mg/L of POH. Further metabolic engineering of the pathway and in situ product recovery using anion exchange resins would make this engineered E. coli a potential production platform for any valuable limonene derivative. •We report limonene production in E. coli using a heterologous mevalonate pathway.•Perillyl alcohol was produced in E. coli from endogenously generated limonene.•Limonene and perillyl alcohol titers were highly improved by metabolic engineering.•An anion exchange resin was used to improve specific recovery of perillyl alcohol.