Bettina Rieger scite author profile

The assembly of respiratory complexes into macromolecular supercomplexes is currently a hot topic, especially in the context of newly available structural details. However, most work to date has been done with purified detergent-solubilized material and in situ confirmation is absent. We here set out to enable the recording of respiratory supercomplex formation in living cells. Fluorescent sensor proteins were placed at specific positions at cytochrome c oxidase suspected to either be at the surface of a CI1CIII2CIV1 supercomplex or buried within this supercomplex. In contrast to other loci, sensors at subunits CoxVIIIa and CoxVIIc reported a dense protein environment, as detected by significantly shortened fluorescence lifetimes. According to 3D modelling CoxVIIIa and CoxVIIc are buried in the CI1CIII2CIV1 supercomplex. Suppression of supercomplex scaffold proteins HIGD2A and CoxVIIa2l was accompanied by an increase in the lifetime of the CoxVIIIa-sensor in line with release of CIV from supercomplexes. Strikingly, our data provide strong evidence for defined stable supercomplex configuration in situ.

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The spatio-temporal organization of mitochondrial F1FO ATP synthase in cristae depends on its activity mode

Salewskij¹,

Rieger²,

Hager³

et al. 2020

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Inhibition of the mitochondrial ATPase function by IF1 changes the spatiotemporal organization of ATP synthase

Weissert

Rieger

Morris

et al. 2021

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Mitochondrial F ₁ F _O ATP synthase determines the local proton motive force at cristae rims

et al. 2021

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The classical view of oxidative phosphorylation is that a proton motive force (PMF) generated by the respiratory chain complexes fuels ATP synthesis via ATP synthase. Yet, under glycolytic conditions, ATP synthase in its reverse mode also can contribute to the PMF. Here, we dissected these two functions of ATP synthase and the role of its inhibitory factor 1 (IF1) under different metabolic conditions. pH profiles of mitochondrial sub-compartments were recorded with high spatial resolution in live mammalian cells by positioning a pH sensor directly at ATP synthase's F 1 and F O subunits, complex IV and in the matrix. Our results clearly show that ATP synthase activity substantially controls the PMF and that IF1 is essential under OXPHOS conditions to prevent reverse ATP synthase activity due to an almost negligible ΔpH. In addition, we show how this changes lateral, transmembrane, and radial pH gradients in glycolytic and respiratory cells.

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The first versatile human iPSC-based model of ectopic virus induction allows new insights in RNA-virus disease

Peischard

Piccini

et al. 2020

Sci Rep

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A detailed description of pathophysiological effects that viruses exert on their host is still challenging. For the first time, we report a highly controllable viral expression model based on an iPS-cell line from a healthy human donor. The established viral model system enables a dose-dependent and highly localized RNA-virus expression in a fully controllable environment, giving rise for new applications for the scientific community.

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Bettina Rieger

Lateral pH gradient between OXPHOS complex IV and F0F1 ATP-synthase in folded mitochondrial membranes

Lateral pH gradient between OXPHOS complex IV and FoF1 ATP-synthase in folded mitochondrial membranes

Plasma cell granuloma involving the brain and the lung

Lifetime imaging of GFP at CoxVIIIa reports respiratory supercomplex assembly in live cells

The spatio-temporal organization of mitochondrial F1FO ATP synthase in cristae depends on its activity mode

Inhibition of the mitochondrial ATPase function by IF1 changes the spatiotemporal organization of ATP synthase

Mitochondrial F ₁ F _O ATP synthase determines the local proton motive force at cristae rims

The first versatile human iPSC-based model of ectopic virus induction allows new insights in RNA-virus disease

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Bettina Rieger

Lateral pH gradient between OXPHOS complex IV and F0F1 ATP-synthase in folded mitochondrial membranes

Lateral pH gradient between OXPHOS complex IV and FoF1 ATP-synthase in folded mitochondrial membranes

Plasma cell granuloma involving the brain and the lung

Lifetime imaging of GFP at CoxVIIIa reports respiratory supercomplex assembly in live cells

The spatio-temporal organization of mitochondrial F1FO ATP synthase in cristae depends on its activity mode

Inhibition of the mitochondrial ATPase function by IF1 changes the spatiotemporal organization of ATP synthase

Mitochondrial F 1 F O ATP synthase determines the local proton motive force at cristae rims

The first versatile human iPSC-based model of ectopic virus induction allows new insights in RNA-virus disease

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Product

Resources

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Mitochondrial F ₁ F _O ATP synthase determines the local proton motive force at cristae rims