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Tytuł: Mechanistic details of the actinobacterial lyase-catalyzed degradation reaction of 2-hydroxyisobutyryl-CoA
Autorzy: Zahn, Michael
Konig, Gerhard
Cuong Pham, Huy Viet
Seroka, Barbara
Łaźny, Ryszard
Yang, Guangli
Ouerfelli, Ouathek
Łotowski, Zenon
Rohwerder, Thore
Data wydania: 2022
Data dodania: 5-cze-2024
Wydawca: Elsevier Inc on behalf of American Society for Biochemistry and Molecular Biology
Źródło: Journal of Biological Chemistry, Volume 298, Issue 1 (2022), p. 1-12
Abstrakt: Actinobacterial 2-hydroxyacyl-CoA lyase reversibly catalyzes the thiamine diphosphate-dependent cleavage of 2-hydroxyisobutyryl-CoA to formyl-CoA and acetone. This enzyme has great potential for use in synthetic one-carbon assimilation pathways for sustainable production of chemicals, but lacks details of substrate binding and reaction mechanism for biochemical reengineering. We determined crystal structures of the tetrameric enzyme in the closed conformation with bound substrate, covalent postcleavage intermediate, and products, shedding light on active site architecture and substrate interactions. Together with molecular dynamics simulations of the covalent precleavage complex, the complete catalytic cycle is structurally portrayed, revealing a proton transfer from the substrate acyl Cβ hydroxyl to residue E493 that returns it subsequently to the postcleavage Cα-carbanion intermediate. Kinetic parameters obtained for mutants E493A, E493Q, and E493K confirm the catalytic role of E493 in the WT enzyme. However, the 10- and 50-fold reduction in lyase activity in the E493A and E493Q mutants, respectively, compared with WT suggests that water molecules may contribute to proton transfer. The putative catalytic glutamate is located on a short α-helix close to the active site. This structural feature appears to be conserved in related lyases, such as human 2-hydroxyacylCoA lyase 2. Interestingly, a unique feature of the actinobacterial 2-hydroxyacyl-CoA lyase is a large C-terminal lid domain that, together with active site residues L127 and I492, restricts substrate size to ≤C5 2-hydroxyacyl residues. These details about the catalytic mechanism and determinants of substrate specificity pave the ground for designing tailored catalysts for acyloin condensations for one-carbon and shortchain substrates in biotechnological applications.
Afiliacja: Michael Zahn - Centre for Enzyme Innovation, School of Biological Sciences, Institute of Biological and Biomedical Sciences, University of Portsmouth, Portsmouth, United Kingdom
Gerhard König - Centre for Enzyme Innovation, School of Biological Sciences, Institute of Biological and Biomedical Sciences, University of Portsmouth, Portsmouth, United Kingdom
Huy Viet Cuong Pham - Department of Environmental Microbiology, Helmholtz Centre for Environmental Research - UFZ, Leipzig, Germany
Barbara Seroka - Faculty of Chemistry, University of Bialystok, Bialystok, Poland
Ryszard Łaźny - Faculty of Chemistry, University of Bialystok, Bialystok, Poland
Guangli Yang - Organic Synthesis Core Facility, Memorial Sloan Kettering Cancer Center (MSKCC), New York, New York, USA
Ouathek Ouerfelli - Organic Synthesis Core Facility, Memorial Sloan Kettering Cancer Center (MSKCC), New York, New York, USA
Zenon Łotowski - Faculty of Chemistry, University of Bialystok, Bialystok, Poland
Thore Rohwerder - Department of Environmental Microbiology, Helmholtz Centre for Environmental Research - UFZ, Leipzig, Germany
URI: http://hdl.handle.net/11320/16613
DOI: 10.1016/j.jbc.2021.101522
ISSN: 0021-9258
e-ISSN: 1083-351X
metadata.dc.identifier.orcid: 0000-0002-5709-8665
0000-0003-4898-2958
brakorcid
0000-0002-2157-4180
0000-0003-2358-0960
0000-0002-5097-5266
0000-0002-7038-0219
brakorcid
0000-0001-7877-8953
Typ Dokumentu: Article
metadata.dc.rights.uri: http://creativecommons.org/licenses/by/4.0/
Właściciel praw: © 2021 THE AUTHORS. Published by Elsevier Inc on behalf of American Society for Biochemistry and Molecular Biology. This is an open access article under the CC BY license.
Występuje w kolekcji(ach):Artykuły naukowe (WChem)

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