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Design and directed evolution of noncanonical β-stereoselective metalloglycosidases

Chemistry

Design and directed evolution of noncanonical β-stereoselective metalloglycosidases

W. J. Jeong and W. J. Song

This groundbreaking research by Woo Jae Jeong and Woon Ju Song reveals the design of artificial metalloglycosidases—enzymes that harness metal ions for glycosidic bond hydrolysis, a rare trait in nature. Their work introduces Zn-dependent glycosidases with remarkable β-stereoselectivity and catalytic efficiency, redefining metalloenzyme design and paving the way for innovative whole-cell biocatalysts.... show more
Abstract
Metallohydrolases are ubiquitous in nearly all subclasses of hydrolases, utilizing metal elements to activate a water molecule and facilitate its subsequent dissociation of diverse chemical bonds. However, such a catalytic role of metal ions is rarely found with glycosidases that hydrolyze the glycosidic bonds in sugars. Herein, we design metalloglycosidases by constructing a hydrolytically active Zn-binding site within a barrel-shaped outer membrane protein OmpF. Structure- and mechanism-based redesign and directed evolution have led to the emergence of Zn-dependent glycosidases with catalytic proficiency of 2.8 × 10^3 and high β-stereoselectivity. Biochemical characterizations suggest that the Zn-binding site constitutes a key catalytic motif along with at least one adjacent acidic residue. This work demonstrates that unprecedented metalloenzymes can be tailor-made, expanding the scope of inorganic reactivities in proteinaceous environments, resetting the structural and functional diversity of metalloenzymes, and providing the potential molecular basis of unidentified metallohydrolases and novel whole-cell biocatalysts.
Publisher
Nature Communications
Published On
Nov 11, 2022
Authors
Woo Jae Jeong, Woon Ju Song
DOI
https://doi.org/10.1038/s41467-022-34713-8
Tags
metalloglycosidases
glycosidic bond hydrolysis
zinc-binding site
β-stereoselectivity
catalytic proficiency
metalloenzyme design
whole-cell biocatalysts

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