Relative quantification of proteins in wild-type vs NDUFS4 -/- in mouse kidney mitochondrial membranes
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ABSTRACT: Respiratory complex I (NADH:ubiquinone oxidoreductase) is essential for cellular energy production and NAD+ homeostasis. Complex I mutations cause neuromuscular, mitochondrial diseases, such as Leigh Syndrome, but their molecular-level consequences remain poorly understood. Here, we use a popular complex I-linked mitochondrial disease model, the ndufs4-/- mouse, to define the structural, biochemical and functional consequences of the absence of subunit NDUFS4. Cryo-EM analyses of mouse-heart ndufs4-/- complex I revealed a loose association of the NADH-dehydrogenase module, and discrete classes containing either assembly factor NDUFAF2 or subunit NDUFS6. Subunit NDUFA12 (that replaces its paralogue NDUFAF2 in mature complex I) is absent from all classes, compounding the deletion of NDUFS4 and preventing maturation of an NDUFS4-free but otherwise complete enzyme. We propose NDUFAF2 as the major recruiter of the NADH-dehydrogenase module during assembly of the complex. Our results provide new molecular-level understanding of the ndufs4-/- mouse model and complex I-linked mitochondrial disease.
INSTRUMENT(S): Q Exactive HF
ORGANISM(S): Mus Musculus (mouse)
TISSUE(S): Kidney
SUBMITTER: Hannah Bridges
LAB HEAD: Judy Hirst
PROVIDER: PXD044975 | Pride | 2024-01-02
REPOSITORIES: Pride
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