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Engineering terpene synthases and their substrates for the biocatalytic production of terpene natural products and analogues

Luke A. Johnson, Rudolf K. Allemann

2024Chemical Communications11 citationsDOIOpen Access PDF

Abstract

reactive carbocation intermediates. Here we review recent research focused on engineering terpene synthases and modifying their substrates to rationally manipulate terpene catalyisis. Molecular dynamic simulations and solid state X-ray crystallography are powerful techniques to identify substrate binding modes, key active site residues for substrate folding, and the location of active site water. Variants in specific 'hotspots' of terpene synthases including the G1/2, K/H and Hα-1 helices have been targeted to modify active site water management and yield new products. We discuss the potential of exploiting substrate analogues to synthesise novel compounds and briefly outline biphasic flow systems for biocatalysis of terpenes. We forsee greater applications for terpenes as the field converges on effective methods for engineering of terpene synthases by new computational and high throughput experimental methods and for high-yield production. It is crucial when engineering terpene synthases that both product distribution and enzyme activity are simultaneously optimised.

Topics & Concepts

TerpeneChemistryOrganic chemistryPlant biochemistry and biosynthesisMicrobial Natural Products and BiosynthesisNatural product bioactivities and synthesis
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