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Redox regulation and trapping sulfenic acid in the peroxide-sensitive human mitochondrial branched chain aminotransferase

Hutson, Susan M.; Poole, Leslie B.; Coles, Steven; Conway, Myra E.

Authors

Susan M. Hutson

Leslie B. Poole

Steven Coles

Myra Conway Myra.Conway@uwe.ac.uk
Occasional Associate Lecturer - CHSS - DAS



Contributors

John T. Hancock
Editor

Abstract

The human branched chain aminotransferase enzymes are key regulators of glutamate metabolism in the brain and are among a growing number of redox-sensitive proteins. Studies that use thiol-specific reagents and electrospray ionization mass spectrometry demonstrate that the mitochondrial BCAT enzyme has a redox-active CXXC center, which on oxidation forms a disulfide bond (RSSR), via a cysteine sulfenic acid intermediate. Mechanistic details of this redox regulation were revealed by the use of mass spectrometry and dimedone modification. We discovered that the thiol group at position C315 of the CXXC motif acts a redox sensor, whereas the thiol group at position C318 permits reversible regulation by forming an intrasubunit disulphide bond. Because of their roles in redox regulation and catalysis, there is a growing interest in cysteine sulphenic acids. Therefore, development of chemical tags/methods to trap these transient intermediates is of immense importance.

Publication Date Jan 1, 2009
Deposit Date Jun 17, 2010
Journal Redox-Mediated Signal Transduction
Print ISSN 1064-3745
Peer Reviewed Peer Reviewed
Volume 476
Pages 135-148
Series Title Methods in Molecular Biology
Series Number 476
Book Title Redox-Mediated Signal Transduction
ISBN 9781588298423
DOI https://doi.org/10.1007/978-1-59745-129-1_10
Keywords CXXC motif, oxidation, sulphenic acid, dimedone, mass spectrometry
Public URL https://uwe-repository.worktribe.com/output/1003334
Publisher URL http://dx.doi.org/10.1007/978-1-59745-129-1_10
Contract Date Jan 10, 2019



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