Anita Lunding scite author profile

We investigated the coupling between glycolytic and mitochondrial membrane potential oscillations in Saccharomyces cerevisiae under semianaerobic conditions. Glycolysis was measured as NADH autofluorescence, and mitochondrial membrane potential was measured using the fluorescent dye 3,3'-diethyloxacarbocyanine iodide. The responses of glycolytic and membrane potential oscillations to a number of inhibitors of glycolysis, mitochondrial electron flow, and mitochondrial and plasma membrane H(+)-ATPase were investigated. Furthermore, the glycolytic flux was determined as the rate of production of ethanol in a number of different situations (changing pH or the presence and absence of inhibitors). Finally, the intracellular pH was determined and shown to oscillate. The results support earlier work suggesting that the coupling between glycolysis and mitochondrial membrane potential is mediated by the ADP/ATP antiporter and the mitochondrial F(0)F(1)-ATPase. The results further suggest that ATP hydrolysis, through the action of the mitochondrial F(0)F(1)-ATPase and plasma membrane H(+)-ATPase, are important in regulating these oscillations. We conclude that it is glycolysis that drives the oscillations in mitochondrial membrane potential.

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Ergosterol is mainly located in the cytoplasmic leaflet of the yeast plasma membrane

Solanko

Sullivan

Sere

et al. 2018

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Transbilayer lipid asymmetry is a fundamental characteristic of the eukaryotic cell plasma membrane (PM). While PM phospholipid asymmetry is well documented, the transbilayer distribution of PM sterols such as mammalian cholesterol and yeast ergosterol is not reliably known. We now report that sterols are asymmetrically distributed across the yeast PM, with the majority (~80%) located in the cytoplasmic leaflet. By exploiting the sterol-auxotrophic hem1Δ yeast strain we obtained cells in which endogenous ergosterol was quantitatively replaced with dehydroergosterol (DHE), a closely related fluorescent sterol that functionally and accurately substitutes for ergosterol in vivo. Using fluorescence spectrophotometry and microscopy we found that <20% of DHE fluorescence was quenched when the DHE-containing cells were exposed to membrane-impermeant collisional quenchers (spin-labeled phosphatidylcholine and trinitrobenzene sulfonic acid). Efficient quenching was seen only after the cells were disrupted by glass-bead lysis or repeated freeze-thaw to allow quenchers access to the cell interior. The extent of quenching was unaffected by treatments that deplete cellular ATP levels, collapse the PM electrochemical gradient or affect the actin cytoskeleton. However, alterations in PM phospholipid asymmetry in cells lacking phospholipid flippases resulted in a more symmetric transbilayer distribution of sterol. Similarly, an increase in the quenchable pool of DHE was observed when PM sphingolipid levels were reduced by treating cells with myriocin. We deduce that sterols comprise up to ~45% of all inner leaflet lipids in the PM, a result that necessitates revision of current models of the architecture of the PM lipid bilayer.

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On the role of methylene blue in the oscillating peroxidase–oxidase reaction

Hauser

Lunding²,

Olsen³

2000

Phys. Chem. Chem. Phys.

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Melatonin Activates the Peroxidase–Oxidase Reaction and Promotes Oscillations

Olsen¹,

Lunding²,

Lauritsen³

et al. 2001

Biochemical and Biophysical Research Communications

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A Study of the Bioconversion Potential of the Fungus Bjerkandera Adusta with Respect to a Production of Chlorinated Aromatic Compounds

Lauritsen¹,

Lunding²

1998

Enzyme and Microbial Technology

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Anita Lunding

Regulation of Glycolytic Oscillations by Mitochondrial and Plasma Membrane H+-ATPases

Ergosterol is mainly located in the cytoplasmic leaflet of the yeast plasma membrane

On the role of methylene blue in the oscillating peroxidase–oxidase reaction

Melatonin Activates the Peroxidase–Oxidase Reaction and Promotes Oscillations

A Study of the Bioconversion Potential of the Fungus Bjerkandera Adusta with Respect to a Production of Chlorinated Aromatic Compounds

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