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Changes of intracellular pH in yeast cells under stress conditions
Divín, Radek ; Plášek, Jaromír (advisor) ; Krůšek, Jan (referee)
Title: Changes of intracellular pH in yeast cells under stress conditions Author: Radek Divín Department: Institute of Physics of Charles University Supervisor: prof. RNDr. Jaromír Plášek, CSc. Abstract: Specific values of intracellular pH (pHi) can affect all biochemical processes in a cell and this phenomenon is closely connected with the degree of importance of changes in the intracellular pH under the stress conditions. In the Master Thesis, the yeast cells Saccharomyces cerevisiae were used as a model of organism eukaryotic cells. Monitoring of intracellular pH of the cells was performed by the method of synchronous fluorescence scan technique of genetically encoded fluorescent probes pHluorin which was located in the cytosol of the cells. The cells were exposed to stress conditions due to the chemical changes in the environment. Consequently, their ability to maintain a stable value of the intracellular pH in various acidic environments was studied in more detail. The attention was also focused on the impact on optimizing of glucose cytosolic pH. The work was centered on the changes in intracellular pH under the influence of the presence of KCl in suspension. Furthermore, the decrease of cytosolic pH of monitored cells by protonophore CCCP was investigated. The effect of stress environment on the...
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Changes of intracellular pH in yeast cells under stress conditions
Divín, Radek ; Plášek, Jaromír (advisor) ; Krůšek, Jan (referee)
Title: Changes of intracellular pH in yeast cells under stress conditions Author: Radek Divín Department: Institute of Physics of Charles University Supervisor: prof. RNDr. Jaromír Plášek, CSc. Abstract: Specific values of intracellular pH (pHi) can affect all biochemical processes in a cell and this phenomenon is closely connected with the degree of importance of changes in the intracellular pH under the stress conditions. In the Master Thesis, the yeast cells Saccharomyces cerevisiae were used as a model of organism eukaryotic cells. Monitoring of intracellular pH of the cells was performed by the method of synchronous fluorescence scan technique of genetically encoded fluorescent probes pHluorin which was located in the cytosol of the cells. The cells were exposed to stress conditions due to the chemical changes in the environment. Consequently, their ability to maintain a stable value of the intracellular pH in various acidic environments was studied in more detail. The attention was also focused on the impact on optimizing of glucose cytosolic pH. The work was centered on the changes in intracellular pH under the influence of the presence of KCl in suspension. Furthermore, the decrease of cytosolic pH of monitored cells by protonophore CCCP was investigated. The effect of stress environment on the...
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Nanoclusters coatings for biomedical applications
Divín, Radek ; Kylián, Ondřej (advisor) ; Hanuš, Jan (referee)
Title: Nanoclusters coatings for biomedical applications Author: Radek Divín Department: Department of Macromolecular Physics (110. 32-KMF) Supervisor: RNDr. Ondřej Kylián, Ph.D. Abstract: The copper nanocluster films were prepared with the aid of the gas cluster aggregation source based on the principle of material sputtering from the magnetron target to the relatively high pressure of the working gas (Ar). The nanocluster films prepared in this way were subsequently overlapped with the layer of plasma polymer deposited by RF magnetron sputtering from the nylon polymer target in the atmosphere of the working gas (Ar, 2 Pa). A repetition of this procedure enabled to prepare nanocomposite layers having a multilayer character. These layers were subsequently investigated with regard to their morphology, chemical composition, surface wettability and optical properties. The chemical composition of the surface layer formed by nanocomposite films was determined by the X-ray photoelectron spectroscopy (XPS). It turned out that the chemical surface composition of prepared nanocomposites was not markedly influenced by the presence of the Cu nanoclusters. The morphology of prepared films was studied by the scanning electron microscopy (SEM) and the atomic force microscopy (AFM), which showed that the resulting...
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