Abstract
Terpene synthases are biotechnologically-relevant enzymes with a variety of applications. However, they are typically poor catalysts and have been difficult to engineer. Structurally, most terpene synthases share two conserved domains (α- and β-domains). Some also contain a third domain containing a second active site (γ-domain). Based on the three-domain architecture, we hypothesized that αβ terpene synthases could be engineered by insertion of a heterologous domain at the site of the γ-domain (an approach we term “Insertion-engineering terpene synthase”; Ie-TS). We demonstrate that by mimicking the domain architecture of αβγ terpene synthases, we can redesign isoprene synthase (ISPS), an αβ terpene synthase, while preserving enzymatic activity. Insertion of GFP or a SpyCatcher domain within ISPS introduced new functionality while maintaining or increasing catalytic turnover. This insertion-engineering approach establishes that the γ-domain position is accessible for incorporation of additional sequence features and enables the rational engineering of terpene synthases for biotechnology.
Highlights
Terpene synthases are a class of enzymes with potential use in the therapeutic and renewable chemical industries
Terpene synthases catalyse the condensation of isopentenyl diphosphate (IDP) with dimethylallyl diphosphate (DMADP) or other isoprenoid diphosphate, in a head-to-tail manner by ionizing the diphosphate ester bond to generate a carbocation of the latter substrate, followed by its coupling with the C31⁄4C4 double bond of IDP, and a nal deprotonation.[3,4]
We devised a strategy based on mimicry of the domain architecture of natural abg terpene synthases,[3] to design an insertengineered terpene synthase (Ie-TS) by inserting a heterologous protein domain internally in the primary structure of the model hemiterpene synthase, isoprene synthase (ISPS) (Ie-ISPS)
Summary
Terpene synthases are a class of enzymes with potential use in the therapeutic and renewable chemical industries.
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