Most eukaryotic cells depend on mitochondrial OXidative PHOSphorylation (OXPHOS) in their ATP supply. The cellular consequences of OXPHOS defects and the pathophysiological mechanisms in related disorders are incompletely understood. Using a quantitative proteomics approach we provide evidence that a genetic defect of complex-I of the OXPHOS system may associate with transcriptional derangements of mitochondrial biogenesis through stabilization of the master transcriptional regulator PPARγ co-activator 1α (PGC-1α) protein.
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