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Literature DB >> 31419756

An overview of activity-based probes for glycosidases.

Liang Wu¹, Zachary Armstrong¹, Sybrin P Schröder², Casper de Boer², Marta Artola², Johannes Mfg Aerts², Herman S Overkleeft³, Gideon J Davies⁴.

Abstract

As the scope of modern genomics technologies increases, so does the need for informative chemical tools to study functional biology. Activity-based probes (ABPs) provide a powerful suite of reagents to probe the biochemistry of living organisms. These probes, featuring a specificity motif, a reactive chemical group and a reporter tag, are opening-up large swathes of protein chemistry to investigation in vitro, as well as in cellular extracts, cells and living organisms in vivo. Glycoside hydrolases, by virtue of their prominent biological and applied roles, provide a broad canvas on which ABPs may illustrate their functions. Here we provide an overview of glycosidase ABP mechanisms, and review recent ABP work in the glycoside hydrolase field, encompassing their use in medical diagnosis, their application for generating chemical genetic disease models, their fine-tuning through conformational and reactivity insight, their use for high-throughput inhibitor discovery, and their deployment for enzyme discovery and dynamic characterization.

Entities: Disease Gene

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Year: 2019 PMID： 31419756 DOI： 10.1016/j.cbpa.2019.05.030

Source DB: PubMed Journal: Curr Opin Chem Biol ISSN： 1367-5931 Impact factor: 8.822

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Cited

24 in total

1. Glycosylated cyclophellitol-derived activity-based probes and inhibitors for cellulases.

Authors: Casper de Boer; Nicholas G S McGregor; Evert Peterse; Sybrin P Schröder; Bogdan I Florea; Jianbing Jiang; Jos Reijngoud; Arthur F J Ram; Gilles P van Wezel; Gijsbert A van der Marel; Jeroen D C Codée; Herman S Overkleeft; Gideon J Davies
Journal: RSC Chem Biol Date: 2020-07-28

2. GH47 and Other Glycoside Hydrolases Catalyze Glycosidic Bond Cleavage with the Assistance of Substrate Super-arming at the Transition State.

Authors: Jonathan C K Quirke; David Crich
Journal: ACS Catal Date: 2021-08-04 Impact factor: 13.700

3. Glycoside Hydrolases Restrict the Side Chain Conformation of Their Substrates To Gain Additional Transition State Stabilization.

Authors: Jonathan C K Quirke; David Crich
Journal: J Am Chem Soc Date: 2020-09-24 Impact factor: 15.419

4. A Chemical Proteomic Probe for the Mitochondrial Pyruvate Carrier Complex.

Authors: Yu Yamashita; Ekaterina V Vinogradova; Xiaoyu Zhang; Radu M Suciu; Benjamin F Cravatt
Journal: Angew Chem Int Ed Engl Date: 2020-02-11 Impact factor: 15.336

5. An Epoxide Intermediate in Glycosidase Catalysis.

Authors: Lukasz F Sobala; Gaetano Speciale; Sha Zhu; Lluís Raich; Natalia Sannikova; Andrew J Thompson; Zalihe Hakki; Dan Lu; Saeideh Shamsi Kazem Abadi; Andrew R Lewis; Víctor Rojas-Cervellera; Ganeko Bernardo-Seisdedos; Yongmin Zhang; Oscar Millet; Jesús Jiménez-Barbero; Andrew J Bennet; Matthieu Sollogoub; Carme Rovira; Gideon J Davies; Spencer J Williams
Journal: ACS Cent Sci Date: 2020-04-16 Impact factor: 14.553

Review 6. Plant Glycosides and Glycosidases: A Treasure-Trove for Therapeutics.

Authors: Kassiani Kytidou; Marta Artola; Herman S Overkleeft; Johannes M F G Aerts
Journal: Front Plant Sci Date: 2020-04-07 Impact factor: 5.753

7. Rational Design of Mechanism-Based Inhibitors and Activity-Based Probes for the Identification of Retaining α-l-Arabinofuranosidases.

Authors: Nicholas G S McGregor; Marta Artola; Alba Nin-Hill; Daniël Linzel; Mireille Haon; Jos Reijngoud; Arthur Ram; Marie-Noëlle Rosso; Gijsbert A van der Marel; Jeroen D C Codée; Gilles P van Wezel; Jean-Guy Berrin; Carme Rovira; Herman S Overkleeft; Gideon J Davies
Journal: J Am Chem Soc Date: 2020-02-26 Impact factor: 15.419