Forskolin is a unique structurally complex labdane-type diterpenoid used in the treatment of glaucoma and heart failure based on its activity as a cyclic AMP booster. Commercial production of forskolin relies exclusively on extraction from its only known natural source, the plant , in which forskolin accumulates in the root cork. Here, we report the discovery of five cytochrome P450s and two acetyltransferases which catalyze a cascade of reactions converting the forskolin precursor 13-manoyl oxide into forskolin and a diverse array of additional labdane-type diterpenoids. A minimal set of three P450s in combination with a single acetyl transferase was identified that catalyzes the conversion of 13-manoyl oxide into forskolin as demonstrated by transient expression in . The entire pathway for forskolin production from glucose encompassing expression of nine genes was stably integrated into and afforded forskolin titers of 40 mg/L.
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| http://dx.doi.org/10.7554/eLife.23001 | DOI Listing |
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