Nature-Inspired Enzymatic Cascades: Emerging Strategies for Sustainable Chemistry
Eliana Capecchi, Elisabetta Tomaino, Giulia Onnelli, Valentina Ubertini, Raffaele Saladino

TL;DR
This paper explores how enzyme-based chemical reactions inspired by natural processes can create sustainable and efficient methods for making chemicals.
Contribution
The paper introduces new strategies combining enzymatic cascades with advanced immobilization and hybrid catalytic systems for sustainable chemistry.
Findings
Enzymatic cascades reduce the need for intermediate isolation and improve reaction selectivity.
Immobilization on renewable supports enhances enzyme stability and recyclability.
Hybrid systems with enzymes and non-biological catalysts expand chemical synthesis possibilities.
Abstract
Enzymatic cascades, defined here as multi-enzymatic sequences operating on a shared reaction pathway and inspired by the spatial and temporal organization of metabolism, have emerged as powerful and versatile tools for sustainable organic synthesis. They minimize intermediate isolation, enhance atom economy and ensure outstanding chemo-, regio- and stereoselectivity, providing efficient alternatives to conventional multistep routes. Here, we highlight the conceptual role of substrate channeling, minimal cells, artificial metabolism and enzyme promiscuity in the translation of enzymatic cascades into synthetic strategies. Special attention is focused on advanced immobilization on functional and renewable supports, which enhance stability and recyclability and introduce new ways for thermodynamic and kinetic control. Hybrid systems integrating enzymes with photocatalysis, electrochemistry…
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Taxonomy
TopicsEnzyme Catalysis and Immobilization · Cyclopropane Reaction Mechanisms · Catalysis for Biomass Conversion
