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Regulation of transcription in mycobacteria.
Páleníková, Petra ; Krásný, Libor (advisor) ; Mrvová, Silvia (referee)
The bacterial cell has to be able to cope with environmental changes. Adaptation to these changes is achieved by changes in gene expression. Gene expression is regulated mostly at the level or transcription initiation. Transcription initiation depends on the sequence of promoters and is regulated by alternative sigma factors and many transcription factors acting either as activators or repressors. This work describes various ways of transcription regulation in the bacterial genus Mycobacterium that includes deathly pathogens such as M. tuberculosis and M. leprae. The typical characteristics of this genus are poorly conserved promoters, a high number of sigma and transcription factors, the presence of two-component systems and a lot of small RNAs that have not been characterized in detail so far.
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Characterization of the HelD protein from Bacillus subtilis
Sudzinová, Petra ; Krásný, Libor (advisor) ; Lichá, Irena (referee)
BACKGROUND: Bacterial RNA polymerase (RNAP) is an extensively studied enzyme required for gene expression. In our Laboratory we found a new protein named HelD. HelD copurifies with B. subtilis RNAP. HelD is a ~90 kDa protein from the UvrD/Rep helicase family, which contains protein with the 3'-5' DNA unwinding activity. The molecular role(s) HelD in cell are still unknown and its potential role in transcription has not been studied so far. OBJECTIVE: The main aim of this Diploma project was to describe HelD. APPROACHES: The characterization was carried out on three levels: (i) bioinformatics analysis in silico was used to identify HelD homologs in other bacteria; (ii) growth tests in vivo were used to determine the phenotype(s) of the HelD-null mutant strain compared to wt; and (iii) biochemical experiments in vitro were utilized to describe the effects of HelD on transcription, and to test whether HelD has DNA binding and DNA unwinding activities. RESULTS: The in silico analysis revealed that HelD is present in Firmicutes, an industrially and medicinally important group of G+ bacteria. The phenotypic experiments showed that HelD is required for rapid adaptations to nutritional changes in the environment. The biochemical experiments showed that HelD stimulates transcription despite the fact that it...
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Factors interacting with bacterial RNA polymerase
Sudzinová, Petra ; Krásný, Libor (advisor) ; Fišer, Radovan (referee)
The bacterial cell must be able to rapidly change its gene expression to survive unstable external conditions. Transcription is the key level that affects gene expression. The pivotal enzyme of transcription is RNA polymerase (RNAP). Activity of RNAP is tightly regulated by transcription factors (TFs). These factors affect RNAP in different ways. This work presents an overview of various proteins and others factors, description of their effects on transcription and also mechanisms of their actions. TFs could be divided according to various criteria. In this work, TFs are divided according to how they interact with RNAP: TFs interacting only with RNAP; TFs binding simultaneously DNA and RNAP; TFs interacting with RNA and RNAP. This work presents a comprehensive overview of various TFs that are involved in the bacterial cell's reprogramming of gene expression that is required to withstand the changes in the environment.
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The delta subunit of RNA polymerase from gram positive bacteria
Matějčková, Jitka ; Beranová, Jana (referee) ; Krásný, Libor (advisor)
1 Abstrakt Aby bakteriální buňka přežila neustále se měnící podmínky, musí se na ně adaptovat. Tato adaptace je podmíněna změnou genové exprese. Klíčovým krokem genové exprese je transkripce. Hlavním enzymem bakteriální transkripce je RNA polymerasa (RNAP), což je esenciální vícepodjednotkový enzym. RNAP je nejvíce prostudována u Escherichia coli, modelového organismu gram negativních bakterií. Porovnala jsem E. coli a Bacillus subtilis (zástupce gram pozitivních bakterií) a shrnula jsem rozdíly v RNAP a transkripci. Jejich RNA polymerasy se liší přítomností podjednotky δ u gram pozitivních bakterií. Tato podjednotka zvyšuje promotorovou selektivitu, recykluje jádro RNAP a celkově stimuluje syntézu RNA. Podjednotka δ ovlivňuje sporulaci a virulenci některých bakterií. V této práci jsem shromáždila současné poznatky o jednotlivých částech genové exprese, zejména o regulaci iniciace transkripce a o podjednotce δ RNAP.
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