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Generation of synthetic modified mRNAs encoding cell cycle regulators
Petroušek, Filip ; Koblas, Tomáš (advisor) ; Vašková, Michaela (referee)
One of the modern therapeutic approaches is the application of in vitro transcribed mRNA into the target cells to produce the required target proteins. This method has prooved to be more effective than therapeutic application of proteins prepared in advance, because their insertion into the organism lead to denaturation. The main task of this work was to prepare mRNA in vitro and mRNA transfection into the cells and monitoring the expression of target proteins with the method of Western blotting. The target proteins were from families of cyclins and cyclin-dependent kinases, which play an important role in cell cycle regulation. The mRNAs for 8 types of molecules have been prepared, including non-mutated forms of cyclins D1, D2, and D3, and cyclin-dependent kinase 6, as well were synthesized mutated versions of cyclins D1 T286AT288A, D2 T280A, D3 T283A and cyclin-dependent kinase 4 R24C. As for cyclins, there was a substitution of aminoacid threonine for alanine. This substitution could cause slowdown degradation of proteins in comparision with those existing in natural form. Regarding the cyclin- dependent kinase 4 the exchange of aminoacid arginine for cysteine causes its bigger stability in vivo. The prepared mRNA which encodes mentioned regulators of cell cycle was transfected into isolated...
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Morfogenéza epidermálnych buniek listov Arabidopsis thaliana v odpovedi na chladový stres a zníženú dostupnosť svetla
Tekulová, Veronika
The bachelor thesis was focused on the physiological, cellular and transcriptomic characterization of Arabidopsis thaliana treated with cold under different light conditions. To determine the role of the cold stress in leaf ontogenesis, the analysis included leaves in the different developmental stages. It was found that 4 weeks old plants have almost completely developed 6th leaf and cold treatment has no impact on its cellular morphology. In contrast, younger leaf number 14 which initiates a transition from proliferation to expansion stage was strongly affected by cold treatment. It is shown that exposition to a low temperature significantly reduces its cell area and a number of epidermal cells. Propidium staining confirmed that young proliferating leaves are also more sensitive to stress conditions than older leaves. The higher sensitivity of young leaves to cold stress was accompanied with lower expression of CBF genes that play an important role in cold stress tolerance. Younger leaves also showed higher expression of cytokinin responsive genes and genes related to cell cycle corresponding to ongoing developmental processes.
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The role of Wnt signaling in interaction between circadian clock and cell cycle
Herrmannová, Terezie ; Sumová, Alena (advisor) ; Macůrková, Marie (referee)
The Wnt signaling represents a highly conserved signal transduction cascade that regulates stem cell proliferation and differentiation. It plays an irreplaceable role not only during embryonic development, but also in maintaining homeostasis of adult tissues. The cell division is also influenced by the circadian clock. The clock can interact with the cell cycle either directly within a single cell or regulate it intercellularly. In order to impact surrounding cells, it uses the Wnt signaling pathway that mediates signal transduction through the extracellular space. Both Wnt signaling and the circadian clock are essential for the physiological functioning of the mammalian organism, and their disruption can lead to the development of cancer. Keywords: circadian clock, clock genes, cell cycle, Wnt signaling, cell proliferation, cancer
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Genomics and cell biology of oxymonads
Treitli, Sebastian Cristian ; Hampl, Vladimír (advisor) ; Brune, Andreas (referee) ; Beneš, Vladimír (referee)
Oxymonads are a group of poorly studied protists living as intestinal endosymbionts in the gut of insects and vertebrates. In this thesis I focused on the study of phylogeny, genomics and cell biology of oxymonads. Using culture-based approaches, we uncovered the hidden diversity of small oxymonads and described one new genus and six new species. In Monocercomonoides exilis, the only oxymonad with a published genome, we investigated the genome organization using fluorescence in situ hybdridization (FISH) against the telomeric regions and single-copy genes. Our results show that the genome is most probably haploid being organized in 6-7 chromosomes. Annotation of the genome revealed that the DNA replication and repair mechanisms in M. exilis are canonical and they seem more complete than those of other metamonads whose genomes are available. Although M. exilis lacks in any traces of mitochondria, its genome annotation revealed that other cellular systems do not markedly differ from other eukaryotes. Our taxon-rich phylogenetic analyses suggested that the genus Monocercomonoides is closely related to the oxymonad Streblomastix strix, which is found exclusively in the gut of the termites. Streblomastix strix, as opposed to M. exilis, is highly adapted to harbour bacterial ectosymbionts. Since S. strix...
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Metabolic control of the cell cycle in bacteria
Valtová, Aneta ; Lichá, Irena (advisor) ; Fišer, Radovan (referee)
Metabolic control of cell cycle has been studied for a long time in bacteria, but it is not still fully elucitated. The mechanisms described for several decades have been described in more detail and find new connections between basic metabolism and the cell division process itself. Cell cycle regulation, depending on metabolism and nutritional conditions, takes place over all steps of the cycle. The most mechanisms are studied at the level of bacterial division formation. Nutritional deprivation induces stress responses that use low-molecular substances which are involved in signaling pathways and which regulate the cell cycle. One of the most studying is the molecule of guanosine (penta)tetraphosphate (p)ppGpp, which affects cell cycle at the level of genes expression, at the level of proteins involved in the process of creating divisome, even at the level of replication. Recent research revealed that some enzymes with their already known enzymatic function in major metabolic pathways (glycolysis and TCA), also have a function as sensors that transmit a signal about the nutritional change directly to the division apparatus of the cell. These enzymes regulate the formation of the Z ring through the protein FtsZ or its auxiliary proteins most often and have been found in Gram-positive (Bacillus...
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The cell cycle and differentiation of haematopoietic stem and progenitor cells.
Páral, Petr ; Šefc, Luděk (advisor) ; Horváthová, Monika (referee) ; Kokavec, Juraj (referee)
Haematopoietic stem and progenitor cells (HSPCs) are crucial for lifelong blood cell production. We analysed the cell cycle and cell production rate in HSPCs in murine haematopoiesis. The labelling of DNA-synthesizing cells by two thymidine analogues, optimized for in-vivo use, enabled the determination of the cell cycle flow rate into the G2-phase, the duration of the S-phase and the average cell cycle time in Sca-1+ and Sca-1- HSPCs. The determination of cells with 2n DNA content and labelled during the preceding S-phase was used to establish the cell flow rates in the G1-phase. Our measurements revealed a significant difference in how Sca-1+ and Sca-1- HSPCs self-renew and differentiate. The division of Sca-1+ progenitors led to the loss of the Sca-1 marker in about half of newly produced cells, corresponding to asymmetric cell division. In contrast both Sca-1- progenitors, arising from mitotic cell division, entered a new round of the cell cycle. This corresponds to symmetric self-renewing cell division. The novel data also enabled us to estimate the cell production rates in the Sca-1+ and in three subtypes of Sca-1- HSPCs. We focused on adult murine erythroid differentiation in the next part of our study. We introduced an original flow cytometry approach for identifying and studying erythroid...
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Study of the mechanism of gene expression regulation at the level of functional organization of chromatin domains.
Hornáček, Matúš ; Cmarko, Dušan (advisor) ; Kučera, Tomáš (referee) ; Stixová, Lenka (referee)
- 1 - ABSTRACT Nucleoli are formed on the basis of genes of ribosomal DNA (rDNA) clusters called Nucleolus Organizer Regions (NORs). The essential structural components of the nucleoli, Fibrillar Centers (FC) and Dense Fibrillar Components (DFC), together compose FC/DFC units. These units are centers of rDNA transcription by RNA polymerase I (pol I), as well as the early processing events, in which an essential role belongs to fibrillarin. Each FC/DFC unit probably corresponds to a single transcriptionally active gene. In our work we study changes of FC/DFC units in the course of cell cycle. Correlative light and electron microscopy analysis showed that the pol I and fibrillarin positive nucleolar beads correspond to individual FC/DFC units. In vivo observations showed that at early S phase, when transcriptionally active ribosomal genes were replicated, the number of the units in each cell increased by 60 to 80 %. During that period the units transiently lost pol I, but not fibrillarin. Then, until the end of interphase, number of the units did not change, and their duplication was completed only after the cell division, by mid G1 phase. This peculiar mode of reproduction suggests that a considerable subset of ribosomal genes remain transcriptionally silent from mid S phase to mitosis but become again active...
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Activation and regulation of cell death in senescent cancer cells.
Holíček, Peter ; Anděra, Ladislav (advisor) ; Drbal, Karel (referee)
Cellular senescence is a distinct cell state, characteristic by cessation of cell proliferation and it is accompanied by specific morphological and biochemical alterations. Increasing and persisting incidence of senescence cells has been shown to have detrimental effect on an organism largely contributing to its ageing. Senescent cells also positively support tumour growth and can even stimulate carcinogenic transformation of surrounding cells. Moreover, senescence can be induced even in tumour cells spontaneously or by chemotherapy. Regardless of an initial stimuli and type of cells, there are two main senescence inducing pathways p16/pRb and p53/p21. Both senescent cells as well as senescent cancer cells seems to have modified apoptotic signalling at the level of mitochondria and Bcl-2 family proteins. In this study, we aimed to analyse effect of senescent state as well as pre-senescent (growth arrested state) induced by p16/pRb and p53/p21 signalling pathways on the response of H28 mesothelioma cancer cells-derived clonal cultures to various cell death-inducing stimuli. By inducible expression of p16 and p21 proteins in doxycycline-dependent manner, we forced cells to acquire senescent-like phenotype, which we detailly characterised. Our results showed that senescent-like phenotype, manifests...
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Study of dysregulation of DLX1 protein in myeloid leukemia cells in in vitro and in vivo models
Jelínková, Alena ; Starková, Júlia (advisor) ; Čuřík, Nikola (referee)
The heterogeneous nature of acute myeloid leukemia (AML) worsens the results of patients treated with standard therapy. Understanding the processes of leukemogenesis can contribute to identification of more appropriate treatment. Family of DLX genes (Distal-less homeobox), belonging to the homeobox genes, are associated with haematological malignancies and solid tumors. In the analysis of expression data, the low level of the DLX1 gene was associated with a worse prognosis of patients with AML. In this work we studied phenotypic changes of cell lines with different expression of the DLX1 gene. We silenced the DLX1 gene in AML cell line (sh cells) and compared it to the parental line with higher expression of DLX1 (NSC cells). By cell cycle analysis and apoptosis assays in vitro and in vivo, we have observed the arrest of sh cells in the G0 phase and a lower number of apoptotic cells. Differences were found when measuring the absolute number of cells in time. In in vitro conditions there were less sh cells, in in vivo environment there was significantly higher number of sh cells engrafted in comparison to NSC cells. Further results have shown that sh cells have lower levels of pro-apoptotic proteins and exhibit a higher level of TGF-β targeting PAI-1 gene that activates replicative senescence. We...
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Metabolic control of bacterial division.
Valtová, Aneta ; Lichá, Irena (advisor) ; Fišer, Radovan (referee)
Metabolic control of cell cycle has been study for a long time, but it is not completely known. Mechanisms of metabolic control described for a several decade has been explained on molecular level with using a modern methods. Regulation of cell cycle in consideration of metabolism and nutritional status is going on at the several level of cell replication. The most known is about assembly of bacterial cell divisiome. Changes in nutrient availability induce stress response that use low-molecular substances in signaling pathways leading to changes in the cell cycle. One of the most studied is (p)ppGpp that participates in stringent response and affect sigma factors, directly inhibits the initiation of replication by binding to the DnaG primase and indirectly inhibits the elongation of replication. Current researches has revealed that some enzymes with already known enzymatic function in the major metabolic pathways (glycolysis or TCA) also has a function as sensors that transmit the nutritional change signal directly into the cell dividing process. These signals most often inhibits FtsZ protein or affect its helper proteins and subsequent ring formation. Analogues of these enzymes were found in gram-positive (Bacillus subtilis) and gram-negative bacteria (Escherichia coli, Caulobacter crescentus)....
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