Ended grants
- Role of acute myeloid leukemia-associated nucleophosmin mutations in the NPM-p53-Mdm2 regulatory network (GACR)
- FluoTRAM: Fluorescence-detected Transient Absorption Microscopy (EU-MSCA)
- Role of nucleophosmin interactome in acute myeloid leukemia with mutated NPM (GACR)
- Nanobiophotonics for future health care (GB)
- Role of the 14-3-3 protein in the regulation of phosducin function (GACR)
- Study of function of membrane proteins (GAUK)
- Role of membrane potential in the lateral microdomain organization of the plasma membrane (GACR)
- The study of multidrug resistance of yeast Kluyveromyces lactis (GAUK)
- Study of the interaction between 14-3-3 protein and regulator of G protein signaling RGS3 (GAAV)
- Biophysical studies of functional characteristics of bacterial MntH protein (Proton-dependent Manganese Transporter) from SLC11 (SoLute Carrier 11) family and its selected transmembrane segments (GAUK)
- Biophysical method of monitoring the activity of multidrug resistance systems and membrane potential changes in yeast cells (GACR)
- Self-organization principles of non-membrane-bound organels in eukaryotic cells (GACR)
- Effect of exogenous chemical stress on precesses in yeast mambrane studied by means of fluorescent probes (GAUK)
- Biophysical study of MntH membrane transport proteins: structure-function relationship (GACR)
- Application of fluorescence methods to estimate the role of potassium transporters in the regulation of membrane potential and intracellular pH of yeast cells (GAAV)
- Molecular probes for studying the effect of chemical stressors on microbial membrane transport systems in situ (GAUK)
- Role of the phosphorylation and the 14-3-3 protein binding in the regulation of signaling complexes function (GACR)
- Study of transmembrane transport of divalent metal ions in bacteri (GAUK)
- Molecular mechanisms of cell interactions (GACR)
- MDR pumps in yeast: kinetics, inhibition and the role of various physiological conditions;Dis-C3(3) fluorescence assay (GACR)
- Functional Characterization of Bacterial Proton-Dependent Manganese Transporters (MntH) using Fluorescence Methods (MSMT)
- Role of adaptation in structure-function relations of microorganisms (NATO)
- DiS-C3(3) monitoring of the activity of transmembrane MDR transporters in yeast cells growing in liquid media; dependence on the energy source (FRVŠ)
- Fluorescence microscopy with time and spectral resolution (GAUK)
- Influence of microbial-surface-structures on the response of fluorescent probes: yeast cell wall as a model system (GACR)
- Vital role of plasma membrane in cell interaction with exogenous proteins: interaction of yeast plasma membrane with zymocines (GACR)
- Oxidatively damaged vital eukaryotic membrane proteins and their further fate: yeast plasma membrane H+-ATPase (GACR)
- Eukaryotic cell membrane as a target site for environmental stress factors (MSMT)
- Zellulare plasmamembran als angriffziel fur umweltstressfaktoren (BMBF)
- Role of electrochemical H+-gradient in maintaining eukaryotic cell membrane integrity under stress (NATO)
- Effect of oxidative stress on eukaryotic plasma membrane function (NATO)
- Role of selected cellular components on kinetics and redistribution of potential-sensitive fluorescent probes (GAUK)
- Protective mechanisms of microbial cells against stress factors (GACR)
- Impact of the physiological state and membrane energization of yeast cells on their interaction with yeast killer toxin K1: fluorescence study (GAUK)
- Mechanismen der direkten und radikalvermittelten schadigung eukaryotischer plasmamembranproteine durch oxidativen stress (Volkswagen)
- Interaction of exogenous proteins with cell surfaces:action of killer toxin K1 on the yeast plasma membrane (GACR)
- Effect of Stress Factors on Membrane Functions in Bacteria and Yeasts (GACR)