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Fluorescence Resonance Energy Transfer Based on Interaction of PII and PipX Proteins Provides a Robust and Specific Biosensor for 2-Oxoglutarate, a Central Metabolite and a Signaling Molecule

2-Oxoglutarate is a central metabolite and a signalling molecule in both prokaryotes and eukaryotes. The cellular levels of 2-oxoglutarate vary rapidly in response to environmental changes, but an easy and reliable approach is lacking for the measurement of 2-oxoglutarate. Here we report a biosensor...

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Bibliographic Details
Published in:The FEBS journal 2013-12
Main Authors: Chen, Hai-Lin, Bernard, Christophe S, Hubert, Pierre, My, Laetitia, Zhang, Cheng-Cai
Format: Article
Language:English
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Summary:2-Oxoglutarate is a central metabolite and a signalling molecule in both prokaryotes and eukaryotes. The cellular levels of 2-oxoglutarate vary rapidly in response to environmental changes, but an easy and reliable approach is lacking for the measurement of 2-oxoglutarate. Here we report a biosensor of 2-oxoglutarate based on the 2-oxoglutarate-dependent dissociation of the PII-PipX protein complex from cyanobacteria. Fusions of PII and PipX to either CFP or YFP could form a complex and their interaction could be detected by FRET (Fluorescence Resonance Energy Transfer). Mutations in PII or PipX that affect their interaction strongly decrease the FRET signal. Furthermore, the FRET signal is negatively affected, in a specific and concentration-dependent manner, by the presence of 2-oxoglutarate. This 2-oxoglutarate biosensor responds specifically and rapidly to a large range of 2-oxoglutarate levels, and is highly robust under different conditions, including in bacterial cell extracts. We further used this biosensor to study the interaction between PII and its effectors, and our data indicate that excess in Mg ions is a key factor for PII to respond efficiently to an increase in 2-oxoglutarate levels. This study paves the way for probing the dynamics of 2-oxoglutarate in various organisms and provides a valuable tool for the understanding of the molecular mechanism in metabolic regulation. PipX binds to PII by fluorescent resonance energy transfer (1, 2, 3) This article is protected by copyright. All rights reserved.
ISSN:1742-4658
DOI:10.1111/j.1742-4658.2013.12702.x