AI Article Synopsis
- Structural biology research on terpene synthases (TSs) helps understand how they create diverse terpene products, but there are few solved structures compared to over 95,000 known terpenoids.
- The text outlines key aspects of TSs, including their catalytic logic, structural designs, and metal-binding features.
- It also details methods for studying TSs and explores future possibilities for engineering new terpene molecules that are hard to make through traditional chemical methods.
Article Abstract
Structural biology research of terpene synthases (TSs) has provided a useful basis to understand their catalytic mechanisms in producing diverse terpene products with polycyclic ring systems and multiple chiral centers. However, compared to the large numbers of>95,000 terpenoids discovered to date, few structures of TSs have been solved and the understanding of their catalytic mechanisms is lagging. We here (i) introduce the basic catalytic logic, the structural architectures, and the metal-binding conserved motifs of TSs; (ii) provide detailed experimental procedures, in gene cloning and plasmid construction, protein purification, crystallization, X-ray diffraction data collection and structural elucidation, for structural biology research of TSs; and (iii) discuss the prospects of structure-based engineering and de novo design of TSs in generating valuable terpene molecules, which cannot be easily achieved by chemical synthesis.
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| http://dx.doi.org/10.1016/bs.mie.2024.03.012 | DOI Listing |
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