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 <i>in planta</i> 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.
Pablo Cruz‐Morales, Ana Calheiros de Carvalho, Naiara Hurtado-Lopez, Carolina Cano‐Prieto, Miriam von Bargen, Luis Caleb Damas-Ramos, Agustina Undabarrena, Daniela Rago, Ling Chen, Adrian Gadar-Lopez, Sidharth Jayachandran, Luisa M. Trejo-Alarcon, Xiaowei Li, Dushica Arsovska, Linda Ahonen, Vijayalakshmi Kandasamy, Line Sondt-Marcussenv, Mariana Arango-Saavedra, Iason Karyofyllis, Kealan Exley, Charissa de Bekker, Jay D Keasling
Jing Huang, Andrew F. G. Quest, Pablo Cruz‐Morales, Kai Deng, J.H. Pereira, Devon Van Cura, Ramu Kakumanu, Edward E. K. Baidoo, Qingyun Dan, Yan Chen, Christopher J. Petzold, Trent R. Northen, Paul D. Adams, Douglas S. Clark, Emily P. Balskus, John F Hartwig, Aindrila Mukhopadhyay, Jay D Keasling
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