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Ferrous nanoparts localization in inner organelles
Solař, Jan ; Janoušek, Oto (referee) ; Čmiel, Vratislav (advisor)
This bachelor‘s thesis describes a behavior of iron nanoparticles in human mesenchymal stem cells. First section deals with methods of fluorescent labelling of organelles and nanoparticles and settings of confocal microscope for their detection. Next section describes the iron nanoparticles metabolism and accumulation in cells. Finally, there is a section about the developement of the software utility for the localization and for the quantitative analysis of the fluorescence organelles and nanoparticles inside the living cells.
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Studies on interactions between natural killer cell lectin receptors and their protein ligands.
Hernychová, Lucie ; Novák, Petr (advisor) ; Drbal, Karel (referee)
NK cells are innate lymphocytes which constitute the first line of organism's defence against infections through their receptor system. These cells represent an important part of antiviral and antitumor immunity, they also play a role in transplant immunity, autoimmunity and reproduction. This diploma thesis inquires into the structure of the transmembrane receptor NKR-P1B of mouse NK cells and the interaction with its ligand Clr-b. The aim was to prepare the expression vector coding the ligand-binding and whole extracellular region of the receptor NKR-P1B and to optimize its production and refolding in vitro. Purified protein samples were analyzed by size-exclusion chromatography, electrophoresis and mass spectrometry. Interaction between NKR-P1B and Clr-b proteins was tested using biophysical (size-exclusion chromatography and surface plasmon resonance) and biological methods (labelling of cellular sample with NKR-P1B proteins marked with fluorescent dye). In vitro binding experiments have not confirmed mutual interaction between NKR-P1B and Clr-b despite the prepared proteins binding to the bone marrow cells.
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Applications of flow cytometry in the study of microbial subpopulations.
Hřebíček, Ondřej ; Lichá, Irena (advisor) ; Sudzinová, Petra (referee)
This work reviews common flow cytometric methods and applications for the study of bacterial organisms. Flow cytometry is fluorescent method capable of both quantitative and qualitative analysis at the single cell level. It can offer insights about bacterial population dynamics, phenotypic heterogeneity and more. This work features a basic introduction to flow cytometry and presents some of the commonly measured variables, such as viability or membrane potential with an emphasis on the fluorescent probes used to visualize them. The difficulties of adapting flow cytometry to bacterial physiology are discussed, as well as the advantages and disadvantages of the particular probes and methods. Finally, this work seeks to demonstrate the flexibility as well as the shortcomings of flow cytometry using examples of practical applications in basic research, environmental microbiology, biotechnology, clinical practice. Keywords: flow cytometry, microbial subpopulations, fluorescent labelling, bacterial physiology, bacterial viability
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Development of a model system to study adhesion of Burkholderia cenocepacia to epithelial lung cells of patients with cystic fibrosis
Volejníková, Anna ; Bořek Dohalská, Lucie (advisor) ; Kubíčková, Božena (referee)
Cystic fibrosis (CF) is a common autosomal recessive disorder that primarily affects epithelial cells in respiratory system. As a consequence of lung damage the patients are chronically colonized by a number of pathogenic microorganisms such as Pseudomonas aeruginosa or Burkholderia cepacia komplex. Due to the seriousness of these bacterial infection and its primary resistance to commonly used antibiotics the suitable therapeutic alternatives are being sought. The passive immunization with yolk antibodies seems to be a suitable alternative. This thesis studied the bacterial adhesion of Burkholderia cepacia, the opportunistic human pathogen, to lung epithelial cells of healthy individuals and patients with CF, respectively. The aim of this study was to develop a model system suitable for this research. Two types of immortalised cell lines have been used for this purpose. CuFi-1 is the cell line derived from patient with CF caused by ∆F508 mutation , NuLi-1 is a healthy epithelial cell line. The strains of B. cenocepacia (ST28 a ST32) were fluorescently labeled with fluorescent cell linker PKH26. Furthermore, the way of fluorescent labeling of cell lines CuFi-1 and NuLi-1 using PKH67 dye was optimized. Using this model system, the adhesion of bacteria to cell line CuFi-1 was up to three times higher...
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Studies on interactions between natural killer cell lectin receptors and their protein ligands.
Hernychová, Lucie ; Novák, Petr (advisor) ; Drbal, Karel (referee)
NK cells are innate lymphocytes which constitute the first line of organism's defence against infections through their receptor system. These cells represent an important part of antiviral and antitumor immunity, they also play a role in transplant immunity, autoimmunity and reproduction. This diploma thesis inquires into the structure of the transmembrane receptor NKR-P1B of mouse NK cells and the interaction with its ligand Clr-b. The aim was to prepare the expression vector coding the ligand-binding and whole extracellular region of the receptor NKR-P1B and to optimize its production and refolding in vitro. Purified protein samples were analyzed by size-exclusion chromatography, electrophoresis and mass spectrometry. Interaction between NKR-P1B and Clr-b proteins was tested using biophysical (size-exclusion chromatography and surface plasmon resonance) and biological methods (labelling of cellular sample with NKR-P1B proteins marked with fluorescent dye). In vitro binding experiments have not confirmed mutual interaction between NKR-P1B and Clr-b despite the prepared proteins binding to the bone marrow cells.
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Ferrous nanoparts localization in inner organelles
Solař, Jan ; Janoušek, Oto (referee) ; Čmiel, Vratislav (advisor)
This bachelor‘s thesis describes a behavior of iron nanoparticles in human mesenchymal stem cells. First section deals with methods of fluorescent labelling of organelles and nanoparticles and settings of confocal microscope for their detection. Next section describes the iron nanoparticles metabolism and accumulation in cells. Finally, there is a section about the developement of the software utility for the localization and for the quantitative analysis of the fluorescence organelles and nanoparticles inside the living cells.
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