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J Biol Chem. 2014 May 23;289(21):14692-706. doi: 10.1074/jbc.M114.556092. Epub 2014 Apr 4.

A pathway for repair of NAD(P)H in plants.

Author information

1
From the Department of Botany and Plant Biology, University of Geneva, 1211 Geneva, Switzerland.
2
From the Department of Botany and Plant Biology, University of Geneva, 1211 Geneva, Switzerland theresa.fitzpatrick@unige.ch.

Abstract

Unwanted enzyme side reactions and spontaneous decomposition of metabolites can lead to a build-up of compounds that compete with natural enzyme substrates and must be dealt with for efficient metabolism. It has recently been realized that there are enzymes that process such compounds, formulating the concept of metabolite repair. NADH and NADPH are vital cellular redox cofactors but can form non-functional hydrates (named NAD(P)HX) spontaneously or enzymatically that compete with enzymes dependent on NAD(P)H, impairing normal enzyme function. Here we report on the functional characterization of components of a potential NAD(P)H repair pathway in plants comprising a stereospecific dehydratase (NNRD) and an epimerase (NNRE), the latter being fused to a vitamin B6 salvage enzyme. Through the use of the recombinant proteins, we show that the ATP-dependent NNRD and NNRE act concomitantly to restore NAD(P)HX to NAD(P)H. NNRD behaves as a tetramer and NNRE as a dimer, but the proteins do not physically interact. In vivo fluorescence analysis demonstrates that the proteins are localized to mitochondria and/or plastids, implicating these as the key organelles where this repair is required. Expression analysis indicates that whereas NNRE is present ubiquitously, NNRD is restricted to seeds but appears to be dispensable during the normal Arabidopsis life cycle.

KEYWORDS:

Arabidopsis; Dehydratase; Enzyme Catalysis; Epimerase; Fluorescence; Metabolism; Metabolite Repair; Mitochondria; NAD(P)H; Protein Localization

PMID:
24706747
PMCID:
PMC4031525
DOI:
10.1074/jbc.M114.556092
[Indexed for MEDLINE]
Free PMC Article

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