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Engineering Plant Synthetic Pathways for the Biosynthesis of Novel Antifungals

Amy Calgaro-Kozina, Khanh M. Vuu, Jay D. Keasling, Dominique Loqué, Elizabeth S. Sattely, Patrick M. Shih

2020ACS Central Science34 citationsDOIOpen Access PDF

Abstract

Plants produce a wealth of biologically active compounds, many of which are used to defend themselves from various pests and pathogens. We explore the possibility of expanding upon the natural chemical diversity of plants and create molecules that have enhanced properties, by engineering metabolic pathways new to nature. We rationally broaden the set of primary metabolites that can be utilized by the core biosynthetic pathway of the natural biopesticide, brassinin, producing in planta a novel class of compounds that we call crucifalexins. Two of our new-to-nature crucifalexins are more potent antifungals than brassinin and, in some instances, comparable to commercially used fungicides. Our findings highlight the potential to push the boundaries of plant metabolism for the biosynthesis of new biopesticides.

Topics & Concepts

BiopesticideMetabolic engineeringBiosynthesisSynthetic biologySecondary metabolismComputational biologyFungicideMetabolic pathwayBiologyBiotechnologyPlant metabolismAntifungalBiochemical engineeringChemistryCombinatorial chemistryBiochemistryMetabolismBotanyPesticideEngineeringMicrobiologyGeneEcologyRNAPhytochemical compounds biological activitiesPlant-Microbe Interactions and ImmunityPlant tissue culture and regeneration