Ioana A. Dumitru scite author profile

The Ca2+‐dependent response to oxidative stress caused by H2O2 or tert‐butylhydroperoxide (tBOOH) was investigated in Saccharomyces cerevisiae cells expressing transgenic cytosolic aequorin, a Ca2+‐dependent photoprotein. Both H2O2 and tBOOH induced an immediate and short‐duration cytosolic Ca2+ increase that depended on the concentration of the stressors. Sublethal doses of H2O2 induced Ca2+ entry into the cytosol from both extracellular and vacuolar sources, whereas lethal H2O2 shock mobilized predominantly the vacuolar Ca2+. Sublethal and lethal tBOOH shocks induced mainly the influx of external Ca2+, accompanied by a more modest vacuolar contribution. Ca2+ transport across the plasma membrane did not necessarily involve the activity of the Cch1p/Mid1p channel, whereas the release of vacuolar Ca2+ into the cytosol required the vacuolar channel Yvc1p. In mutants lacking the Ca2+ transporters, H2O2 or tBOOH sensitivity correlated with cytosolic Ca2+ overload. Thus, it appears that under H2O2‐induced or tBOOH‐induced oxidative stress, Ca2+ mediates the cytotoxic effect of the stressors and not the adaptation process.

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Glycine Fluoromethylketones as SENP‐Specific Activity Based Probes

Dobrotă

Fasci

Hădade

et al. 2011

ChemBioChem

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We report here the synthesis and biochemical properties of a new peptidyl activity-based probe 1 for SUMO proteases, SENPs. The activity-based probe has at its C terminus a glycine-derived fluoromethylketone moiety as a reactive group designed to target the active-site cysteine of SENPs. Based on a study of the interactions between SENPs and SUMOs, we introduced further design elements that allow the activity-based probe to selectively target SENPs at low micromolar to high nanomolar concentrations. Moreover, 1 out-competes SUMO1 from the reversible SUMO1-SENP1 complex, thus suggesting that 1 and SUMO1 share a common binding site on SENP1.

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Convenient preparation of unsymmetrical 2,5-disubstituted 1,3,4-oxadiazoles promoted by Dess–Martin reagent

Dobrotă

Paraschivescu

Dumitru

et al. 2009

Tetrahedron Letters

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Overexpression of the PHO84 gene causes heavy metal accumulation and induces Ire1p-dependent unfolded protein response in Saccharomyces cerevisiae cells

Ofiteru

Ruţă

Rotaru

et al. 2011

Appl Microbiol Biotechnol

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Pho84p, the protein responsible for the highaffinity uptake and transport of inorganic phosphate across the plasma membrane, is also involved in the low-affinity uptake of heavy metals in the Saccharomyces cerevisiae cells. In the present study, the effect of PHO84 overexpression upon the heavy metal accumulation by yeast cells was investigated. As PHO84 overexpression triggered the Ire1p-dependent unfolded protein response, abundant plasma membrane Pho84p could be achieved only in ire1Δ cells. Under environmental surplus, PHO84 overexpression augmented the metal accumulation by the wild type, accumulation that was exacerbated by the IRE1 deletion. The pmr1Δ cells, lacking the gene that encodes the P-type ATPase ion pump that transports Ca 2+ and Mn 2+ into the Golgi, hyperaccumulated Mn 2+ even from normal medium when overexpressing PHO84, a phenotype which is rather restricted to metal-hyperaccumulating plants.

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Ioana A. Dumitru

Exogenous oxidative stress induces Ca²⁺ release in the yeast Saccharomyces cerevisiae

Glycine Fluoromethylketones as SENP‐Specific Activity Based Probes

Convenient preparation of unsymmetrical 2,5-disubstituted 1,3,4-oxadiazoles promoted by Dess–Martin reagent

Overexpression of the PHO84 gene causes heavy metal accumulation and induces Ire1p-dependent unfolded protein response in Saccharomyces cerevisiae cells

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Ioana A. Dumitru

Exogenous oxidative stress induces Ca2+ release in the yeast Saccharomyces cerevisiae

Glycine Fluoromethylketones as SENP‐Specific Activity Based Probes

Convenient preparation of unsymmetrical 2,5-disubstituted 1,3,4-oxadiazoles promoted by Dess–Martin reagent

Overexpression of the PHO84 gene causes heavy metal accumulation and induces Ire1p-dependent unfolded protein response in Saccharomyces cerevisiae cells

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Product

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Exogenous oxidative stress induces Ca²⁺ release in the yeast Saccharomyces cerevisiae