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Effect of oxidative stress on the differentiation of mesenchymal stem cells.
Bura, Radek ; Tlapáková, Tereza (advisor) ; Pacherník, Jiří (referee)
Mesenchymal stem cells are capable of forming different types of tissue such as muscle, bone, fat or cartilage tissue, thanks to the ability to divide and transform into another cell type. Mesenchymal stem cells obtained from various tissues are used for cell therapy and regenerative medicine. Knowledge of the influence of various factors on the differentiation of these multipotent cells is important. Currently, little is known about the effect of reactive oxygen species (ROS) on the differentiation potential of mesenchymal stem cells. The aim of this bachelor's thesis is to summarize the knowledge of the effect of oxidative stress on the differentiation of mesenchymal stem cells and the affected signaling pathways.
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Study of isotopically labeled substances in living cells by means of Raman microscopy
Bura, Radek ; Mojzeš, Peter (advisor) ; Pilát, Zdeněk (referee)
Unicellular algae (microalgae) are able to produce a number of substances such as starches, oils, proteins, carotenoids, polyphosphates, or crystalline purines directly from inorganic sources by photosynthesis. Different species of microalgae can be used for the economic production of various biomolecules. Due to their autotrophic nature, microalgae are also unique as they can synthesize complex isotopically labeled biomolecules from simple isotopically labeled inorganic substances. Analysis of the chemical composition of microalgae by means of chemical-analytical methods is relatively complex, time-consuming, and laborious. Confocal Raman microscopy represents one of the optical methods by which the chemical composition of microalgae can be determined in situ, i.e. directly within intact cells. This technique combining confocal optical microscopy with Raman spectroscopy enables fast and non- destructive analysis of the chemical composition of substances in the investigated objects, including the effect of isotopic labeling. The chemical composition of the investigated objects is reflected by their Raman spectra, in the case of Raman mapping of microscopic objects by their chemical maps. In this work, a specific case of isotopic labeling was studied, namely the effect of heavy water (D2O) on the deuteration...
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Influence of the surface hydrophobicity and charge of the molecule for drop coating deposition Raman spectroscopy
Bura, Radek ; Kočišová, Eva (advisor) ; Procházka, Marek (referee)
Raman spectroscopy is an optical vibrational spectroscopic technique suited for a study of biomolecules and their interactions. In contrast to classical Raman spectroscopy, Drop-Coating Deposition Raman spectroscopy (DCDR) enables due to a preconcentration of the sample dried on a special hydrophobic surface to acquire a high-quality spectrum even in case of low concentrated samples. In collaboration with Department of Macromolecular Physics of the Faculty of Mathematics and Physics at Charles University, the three special surfaces - substrates - with different wettability (hydrophobicity) and roughness on the basis of silvers nanoparticles have been prepared. Solutions of methylene blue and glutamic acid at different concentrations and pH were dropped on these substrates. Nanoparticles size was determined. It was shown, that with increasing number of sputtered nanoparticles, the roughness of the substrates increased also. More roughened substrates show a higher static contact angle. The dynamics of droplet drying and the preconcentration of substances in the dried deposit were monitored. The preconcentration was assessed from the first subspectrum obtained from a factor analysis performed on series of measured Raman spectra from dried deposits. There was none among the substrates on which there would...
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