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Significance of somatic mutations in chronic lymphocytic leukemia
Tauchmanová, Petra ; Savvulidi Vargová, Karina (advisor) ; Javorková, Eliška (referee)
Chronic lymphocytic leukemia (CLL) represents the most prevalent leukemia in Europe and USA. CLL affects predominatly elderly people (median age, 70y). This lymphoproliferative disorder is characterised by an accumulation of mature B-cells in the peripheral blood, bone marrow and lymph nodes. The lifespan of CLL cells is longer than normal healthy B-cells due to impaired cell cycle and apoptosis. CLL cells dysplay several chromosomal aberations and genetic abnormalities. The next generation sequencing revealed many somatic mutations in CLL cells. Analysis of these somatic mutations in CLL facilitates detail understanding at the disease molecular basis and opens new possibilities to the personalised therapy. The main aim of this thesis is brief description of CLL as disease and to summarise the recent knowledge in the field of next generation sequencing with attention to CLL.
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Production and analysis of cellular conditional inactivation models of the ISWI ATPase Smarca5
Tauchmanová, Petra ; Stopka, Tomáš (advisor) ; Burda, Pavel (referee)
The eukaryotic nuclear processes such as replication, DNA damage repair (DDR) and transcription are highly dependent on the regulation of chromatin structure. The dynamic changes in chromatin accessibility are controlled by a class of chromatin-remodeling factors which form multimeric complexes and use ATP as the source of their helicase activity. In this study we have established a mouse embryonic fibroblast in vitro model with conditional inactivation of chromatin remodeling ATPase Smarca5 and used this powerful tool to test the regulation of cell cycle, proliferation and DDR signaling in conditions with low Smarca5 activity. Our results show that decreased dosages lead to decreased proliferation apparent already within few days post induction of Smarca5 deletion that is accompanied with decrease of cells in S and M phases of cell cycle, increasing cell ploidy and accelerated cell senescence. Additionally, the Smarca5 depleted cells upregulated many protein markers associated with DNA damage and cellular stress. Our results thus indicate that Smarca5 has indispensable roles during cell proliferation including in the maintenance of genome integrity during S phase of cell cycle.
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Production and analysis of cellular conditional inactivation models of the ISWI ATPase Smarca5
Tauchmanová, Petra ; Stopka, Tomáš (advisor) ; Burda, Pavel (referee)
The eukaryotic nuclear processes such as replication, DNA damage repair (DDR) and transcription are highly dependent on the regulation of chromatin structure. The dynamic changes in chromatin accessibility are controlled by a class of chromatin-remodeling factors which form multimeric complexes and use ATP as the source of their helicase activity. In this study we have established a mouse embryonic fibroblast in vitro model with conditional inactivation of chromatin remodeling ATPase Smarca5 and used this powerful tool to test the regulation of cell cycle, proliferation and DDR signaling in conditions with low Smarca5 activity. Our results show that decreased dosages lead to decreased proliferation apparent already within few days post induction of Smarca5 deletion that is accompanied with decrease of cells in S and M phases of cell cycle, increasing cell ploidy and accelerated cell senescence. Additionally, the Smarca5 depleted cells upregulated many protein markers associated with DNA damage and cellular stress. Our results thus indicate that Smarca5 has indispensable roles during cell proliferation including in the maintenance of genome integrity during S phase of cell cycle.
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Significance of somatic mutations in chronic lymphocytic leukemia
Tauchmanová, Petra ; Savvulidi Vargová, Karina (advisor) ; Javorková, Eliška (referee)
Chronic lymphocytic leukemia (CLL) represents the most prevalent leukemia in Europe and USA. CLL affects predominatly elderly people (median age, 70y). This lymphoproliferative disorder is characterised by an accumulation of mature B-cells in the peripheral blood, bone marrow and lymph nodes. The lifespan of CLL cells is longer than normal healthy B-cells due to impaired cell cycle and apoptosis. CLL cells dysplay several chromosomal aberations and genetic abnormalities. The next generation sequencing revealed many somatic mutations in CLL cells. Analysis of these somatic mutations in CLL facilitates detail understanding at the disease molecular basis and opens new possibilities to the personalised therapy. The main aim of this thesis is brief description of CLL as disease and to summarise the recent knowledge in the field of next generation sequencing with attention to CLL.
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