Carnosic acid biosynthesis elucidated by a synthetic biology platform

Author:

Ignea Codruta,Athanasakoglou Anastasia,Ioannou Efstathia,Georgantea Panagiota,Trikka Fotini A.,Loupassaki Sofia,Roussis Vassilios,Makris Antonios M.,Kampranis Sotirios C.ORCID

Abstract

Synthetic biology approaches achieving the reconstruction of specific plant natural product biosynthetic pathways in dedicated microbial “chassis” have provided access to important industrial compounds (e.g., artemisinin, resveratrol, vanillin). However, the potential of such production systems to facilitate elucidation of plant biosynthetic pathways has been underexplored. Here we report on the application of a modular terpene production platform in the characterization of the biosynthetic pathway leading to the potent antioxidant carnosic acid and related diterpenes in Salvia pomifera and Rosmarinus officinalis. Four cytochrome P450 enzymes are identified (CYP76AH24, CYP71BE52, CYP76AK6, and CYP76AK8), the combined activities of which account for all of the oxidation events leading to the biosynthesis of the major diterpenes produced in these plants. This approach develops yeast as an efficient tool to harness the biotechnological potential of the numerous sequencing datasets that are increasingly becoming available through transcriptomic or genomic studies.

Funder

European Commission

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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