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The importance of catalytic promiscuity for enzyme design and evolution

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The ability of one enzyme to catalyse multiple, mechanistically distinct transformations likely played a crucial role in organisms’ abilities to adapt to changing external stimuli in the past and can… Click to show full abstract

The ability of one enzyme to catalyse multiple, mechanistically distinct transformations likely played a crucial role in organisms’ abilities to adapt to changing external stimuli in the past and can still be observed in extant enzymes. Given the importance of catalytic promiscuity in nature, enzyme designers have recently begun to create catalytically promiscuous enzymes in order to expand the canon of transformations catalysed by proteins. This article aims to both critically review different strategies for the design of enzymes that display catalytic promiscuity for new-to-nature reactions and highlight the successes of subsequent directed-evolution efforts to fine-tune these novel reactivities. For the former, we put a particular emphasis on the creation, stabilization and repurposing of reaction intermediates, which are key for unlocking new activities in an existing or designed active site. For the directed evolution of the resulting catalysts, we contrast approaches for enzyme design that make use of components found in nature and those that achieve new reactivities by incorporating synthetic components. Following the critical analysis of selected examples that are now available, we close this Review by providing a set of considerations and design principles for enzyme engineers, which will guide the future generation of efficient artificial enzymes for synthetically useful, abiotic transformations. Enzyme designers can exploit catalytic promiscuity to unlock activities unknown to nature. This Review discusses how repurposing versatile reaction intermediates and creating new ones installs abiological activities into existing, designed and hybrid enzymes, and how directed-evolution strategies readily improve catalysts for these new-to-nature activities.

Keywords: importance catalytic; evolution; enzyme design; promiscuity; catalytic promiscuity

Journal Title: Nature Reviews Chemistry
Year Published: 2019

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