Literature DB >> 23312134

Redox regulation of mitochondrial ATP synthase.

Sheng-Bing Wang1, Christopher I Murray, Heaseung S Chung, Jennifer E Van Eyk.   

Abstract

Reversible cysteine oxidative post-translational modifications (Ox-PTMs) represent an important mechanism to regulate protein structure and function. In mitochondria, redox reactions can modulate components of the electron transport chain (ETC), the F(1)F(0)-ATP synthase complex, and other matrix proteins/enzymes. Emerging evidence has linked Ox-PTMs to mitochondrial dysfunction and heart failure, highlighting some potential therapeutic avenues. Ox-PTMs can modify a variety of amino acid residues, including cysteine, and have the potential to modulate the function of a large number of proteins. Among this group, there is a selected subset of amino acid residues that can function as redox switches. These unique sites are proposed to monitor the cell's oxidative balance through their response to the various Ox-PTMs. In this review, the role of Ox-PTMs in the regulation of the F(1)F(0)-ATP synthase complex is discussed in the context of heart failure and its possible clinical treatment.
Copyright © 2013 Elsevier Inc. All rights reserved.

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Year:  2013        PMID: 23312134      PMCID: PMC3936247          DOI: 10.1016/j.tcm.2012.08.005

Source DB:  PubMed          Journal:  Trends Cardiovasc Med        ISSN: 1050-1738            Impact factor:   6.677


  33 in total

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4.  Site-mapping of in vitro S-nitrosation in cardiac mitochondria: implications for cardioprotection.

Authors:  Christopher I Murray; Lesley A Kane; Helge Uhrigshardt; Sheng-Bing Wang; Jennifer E Van Eyk
Journal:  Mol Cell Proteomics       Date:  2010-10-29       Impact factor: 5.911

5.  Redox regulation of mitochondrial ATP synthase: implications for cardiac resynchronization therapy.

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  36 in total

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Review 5.  Mitochondrial remodeling: Rearranging, recycling, and reprogramming.

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6.  Mechanistic studies on ketamine-induced mitochondrial toxicity in zebrafish embryos.

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10.  Acute Maneb Exposure Significantly Alters Both Glycolysis and Mitochondrial Function in Neuroblastoma Cells.

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