Fragment-derived modulators of an industrial β-glucosidase

A fragment screen of a library of 560 commercially available fragments using a kinetic assay identified a small molecule that increased the activity of the fungal glycoside hydrolase TrBgl2. An analogue by catalogue approach and detailed kinetic analysis identified improved compounds that behaved as...

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Veröffentlicht in:	Biochemical journal 2020-11, Vol.477 (22), p.4383-4395
Hauptverfasser:	Makraki, Eleni, Darby, John F, Carneiro, Marta G, Firth, James D, Heyam, Alex, Ab, Eiso, O'Brien, Peter, Siegal, Gregg, Hubbard, Roderick E
Format:	Artikel
Sprache:	eng
Schlagworte:	beta-Glucosidase - chemistry Biochemical Techniques & Resources Bioinformatics Biophysics Chemical Biology Enzyme Activators - chemistry Fungal Proteins - chemistry Hypocreales - chemistry Nuclear Magnetic Resonance, Biomolecular Structural Biology
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container_end_page	4395
container_issue	22
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container_title	Biochemical journal
container_volume	477
creator	Makraki, Eleni Darby, John F Carneiro, Marta G Firth, James D Heyam, Alex Ab, Eiso O'Brien, Peter Siegal, Gregg Hubbard, Roderick E
description	A fragment screen of a library of 560 commercially available fragments using a kinetic assay identified a small molecule that increased the activity of the fungal glycoside hydrolase TrBgl2. An analogue by catalogue approach and detailed kinetic analysis identified improved compounds that behaved as nonessential activators with up to a 2-fold increase in maximum activation. The compounds did not activate the related bacterial glycoside hydrolase CcBglA demonstrating specificity. Interestingly, an analogue of the initial fragment inhibits both TrBgl2 and CcBglA, apparently through a mixed-model mechanism. Although it was not possible to determine crystal structures of activator binding to 55 kDa TrBgl2, solution NMR experiments demonstrated a specific binding site for the activator. A partial assignment of the NMR spectrum gave the identity of the amino acids at this site, allowing a model for TrBgl2 activation to be built. The activator binds at the entrance of the substrate-binding site, generating a productive conformation for the enzyme-substrate complex.
doi_str_mv	10.1042/BCJ20200507
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source	MEDLINE; Portland Press Electronic Journals; EZB-FREE-00999 freely available EZB journals; PubMed Central
subjects	beta-Glucosidase - chemistry Biochemical Techniques & Resources Bioinformatics Biophysics Chemical Biology Enzyme Activators - chemistry Fungal Proteins - chemistry Hypocreales - chemistry Nuclear Magnetic Resonance, Biomolecular Structural Biology
title	Fragment-derived modulators of an industrial β-glucosidase
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