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Bioorthogonal reactions on DNA for regulation of transcription
Chakrapani, Aswathi ; Hocek, Michal (advisor) ; Zimčík, Petr (referee) ; Vrábel, Milan (referee)
This PhD thesis describes the design and synthesis of photocaged or glucosylated derivatives of epigenetic 5-(hydroxymethyl)pyrimidine-modified nucleotides and DNA using chemical and enzymatic methods and the studies on their regulation of gene expression in bacterial (Escherichia coli RNA polymerase) in vitro transcription level. In the first part of the thesis, the design and syntheses of 5-(nitrobenzyloxymethyl)-2'-deoxyuridine (dUNB) and -cytidine (dCNB) phosphoramidites are described. These photocaged nucleoside phosphoramidite building blocks were used in the automated solid-phase synthesis of oligonucleotides (ONs) modified at specific positions. The ONs were used as forward primers in a polymerase chain reaction (PCR) to construct DNA templates modified at specific sites of the promoter region. The specific site photocaged DNA was then irradiated with light to result in the corresponding specific site 5-(hydroxymethyl)-modified DNA. Bacterial in vitro transcription studies of both the specific site photocaged and uncaged DNA were carried out. The incorporation of the photocaged epigenetic pyrimidine nucleotides at the -35 region of the promoter region of the template DNA inhibited transcription partially while the presence of the same outside the -35 region did not have any significant...
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Regulation of mycobacterial transcription
Kafka, Vojtěch ; Krásný, Libor (advisor) ; Dostálová, Hana (referee)
RNA polymerase (RNAP) is the enzyme that catalyzes synthesis of RNA. Mycobacterial RNAP significantly differs from RNAPs from other bacterial species. It requires special transcription factors such as RbpA or CarD. Another difference is the presence of a small RNA (sRNA), Ms1, that binds to mycobacterial RNAP. Ms1 regulates the amount of RNAP in the cell. In our laboratory we recently discovered MoaB2, a new binding partner of mycobacterial A (encoded by sigA), an RNAP subunit, which is essential for recognition of the initial promoter sequence and initiation of transcription. The function of MoaB2 in the regulation of transcription and gene expression is still unknown. The first aim of this Thesis is contribute to elucidation of the mechanism by which Ms1 affects the amount of RNAP. The experiments revealed that this regulation occurs at the level of transcription; Ms1 affects the activity of promoter(s) that drive the transcription of rpoB- rpoC that encode the two catalytic subunits of RNAP. The second aim of this Thesis is to characterize the interactions of MoaB2 with protein of the transcription apparatus. The results confirmed the interaction of MoaB2 with A and showed that neither RNAP nor transcription factors RbpA and CarD are required for this interaction. Finally, a role of the...
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The omega subunit of Bacillus subtilis RNA polymerase.
Mikesková, Klára ; Krásný, Libor (advisor) ; Nešvera, Jan (referee)
Transcription is catalysed by the enzyme RNA polymerase (RNAP). RNAP contains a core made up of two α subunits, one of each β, β'and ω. These subunits are conserved in all bacteria. The ω subunit is a small subunit with a molecular weight of 7.6 kDa that binds β'. ω is important for the folding and integrity of RNAP and promoter selection. This was shown by experiments performed with Gram-negative bacteria but the knowledge about in Gram-positive bacteria is minimal. In my Diploma Thesis, I characterized from the model Gram-positive bacterium from the phylum Firmicutes, Bacillus subtilis. First, I prepared various expression strains for isolation of Bacillus subtilis ω. Then, I successfully isolated the ω subunit, which was the main initial aim of this Diploma Thesis. Subsequently, I tested the influence of the ω subunit on in vitro transcription by RNAP associated with the primary σA factor and alternative σF and σE factors that regulate sporulation in Bacillus subtilis. I also evaluated the effect of , a small RNAP subunit found in Firmicutes, both alone and in combination with . The experiments revealed that ω stimulated transcription both from vegetative promoters and sporulation-related promoters. Moreover, this stimulation was synergistically amplified by the δ subunit. This nicely...
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The role of the AGO-hook domain of histone chaperone SPT6L in regulation of gene expression
Kašpar, Tomáš ; Čermák, Vojtěch (advisor) ; Převorovský, Martin (referee)
AGO-hook domains present in some eucaryotic proteins are crucial for a binding family of ARGONAUTE proteins (AGO). These AGO proteins are essential in many biological processes regulating gene expression by small RNA (sRNA), which is complementary to the gene that is supposed to be influenced. This thesis claims to find the function of the putative AGO-hook domain of the protein SPT6L. SPT6L is an elongation factor and histone chaperon of a complex of RNA polymerase II (Pol II) where it is acting in the epigenetic marking of histones. SPT6L of Arabidopsis thaliana is one of two paralogues of SPT6 proteins, that is characteristic of the presence of the AGO-hook domain. This is a plant specificity of this protein. What's more, the function of this domain remains unknown. Despite this, it could be assumed that this domain is necessary for binding of AGO proteins in the complex of Pol II, and by these interactions, it can enable guidance of regulation of chromatin modification, or it can co-transcriptionally influence nascent transcripts of Pol II by the sRNA. This thesis casts light on the function of the AGO-hook domain of SPT6L in A. thaliana in processes of gene regulation and protein interactions. It claims to confirm the interaction of the AGO-hook domain of SPT6L protein with AGO proteins and...
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Annotated translation: Old China (H. Bögeholz: Anders reisen: China, 1989)
Drašnarová, Kateřina ; Žárská, Monika (advisor) ; Drahotová, Markéta (referee)
The subject of this bachelor thesis is the annotated translation of the chapter Das alte China, which is a part of the German travel guide book Anders reisen: China. The translation was carried out on the basis of described translation analysis followed by establishment of the translation strategy. At the conclusion of the thesis the concrete translation difficulties and solutions in the area of grammar, stylistics and semantics are being discussed. A constitutive part is also a consideration of the translator's legitimacy of correcting errors in the source text.
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Factors important for Cajal body formation
Roithová, Adriana ; Staněk, David (advisor) ; Valentová, Anna (referee)
This research describes the structure and function of nuclear domains called Cajal bodies (CB). CB contain proteins and factors involved in assembly and modification of snRNPs. These bodies are found in vertebrates and invertebrates and even plants. Not all cell types contain CB. Their number and size depends on the transcription activity of cell and cell cycle phase. This paper discusses the factors that affect the CB formation. One of the most important factors is the level of snRNPs and transcription activity. Recently shows that an important role in CB formation has coilin and other components phosphorylation. Other works show the influence of the environment. There is also discussion regulation of CB biogenesis, witch is not yet fully understood. Key words: Cajal bodies, coilin, cell nucleus, snRNP, pre-mRNA splicing, transcription
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The delta subunit of RNA polymerase from gram positive bacteria
Matějčková, Jitka ; Krásný, Libor (advisor) ; Beranová, Jana (referee)
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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Factors interacting with bacterial RNA polymerase and their effect on the regulation of transcription initiation
Ramaniuk, Volha ; Krásný, Libor (advisor) ; Lichá, Irena (referee) ; Valášek, Leoš (referee)
(ENGLISH) The bacterial cell needs to regulate its gene expression in response to changing environmental conditions. RNA polymerase (RNAP) is the pivotal enzyme of this process and its activity is controlled by a number of auxiliary factors. Here I focus on RNAP-associating factors involved in regulation of transcription in G+ bacteria: factors, initiating nucleoside triphosphates (iNTPs), HelD, δ and small RNA Ms1. The main emphasis is on σ factors from Bacillus subtilis. σ factors allow RNAP to specifically recognize promoter DNA. In my first project I set up in vitro transcription systems with purified alternative σ factors, σB , σD , σH , σI from B. subtilis. Using these systems, I studied the effect of initiating NTP concentration ([iNTP]) on transcription initiation. I showed that promoters of alternative factors are often regulated by [iNTP]. In the next project I comprehensively characterized one of the least explored alternative factors from B. subtilis, I . I identified ~130 genes affected by I , though only 16 of them were directly affected. Moreover, I discovered that I is involved in iron metabolism. Finally, I showed that I binding requires not only the conserved -35 and -10 hexamers, but also extended -35 and -10 elements located in the spacer region. In collaboration with...
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Comparison of effectiveness of teaching using computers vs. 3D models
Andělová, Denisa ; Janštová, Vanda (advisor) ; Jáč, Martin (referee)
Currently, pupils' interest in science continues to decline, although this area of education is very important in every day life (medicine, environment, etc.) and there is high demand for science professions on the labor market. Molecular biology curriculum concerning DNA and the transfer of genetic information is abstract and difficult topic for pupils to imagine, and for teachers to explain. There are many ways to teach this topic. Very popular are iquiry and laboratory practise. But not all schools have their own laboratories, and can teach molecular practical effectivelly. Inquiry based teaching is time consuming to prepare, and not every topic is appropriate to be taught this way. Another possibilities how to visualize "invisible" molecules and processes are computer software and animations or 3D physical model. In my thesis, I examined the effect of using computers and animations to teach abou DNA compared to using a 3D physical model on students' knowledge. I laso tested the possible influence of gender and pupils' preferences on their achieved score on knowledge tests. The research was performed in five classes at three high schools in Prague. Students in year 12 were on different types of high school and some of them took special biology class, their age was between 15 and 18 years. The...
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Interactions of resveratrol derivatives with PXR receptor
Marešová, Veronika ; Pávek, Petr (advisor) ; Trejtnar, František (referee)
Charles University in Prague Department of Pharmacology & Toxicology Student: Supervisor: Prof Title of diploma thesis: Interactions of resveratrol derivatives with PXR receptor Derivatives of resveratrol belong between natural substances contained mainly in red wine and grapefruit. These compounds with stilbene-like structure show antioxidant activity. Pregnane X receptor (PXR) regulates expression of the most important biotransformation enzymes in human liver and intestine including cytochrome P450 3A4 (CYP3A4). Interaction of resveratrol and PXR have already been studied, but published data are contradictory. In my diploma thesis, I studied interaction of resveratrol and its derivatives with PXR. For this purpose, gene reporter assay with quantitative real-time polymerase chain reaction (qRT-PCR) was introduced. It was not possible to conduct experiments in standard way because both resveratrol and its derivatives inhibit lusiferase activities. I studied also effects of resveratrol and its derivatives on expression of CYP3A4 mRNA on differentiated HepaRG cell line. New method gene reporter method with qRT-PCR detection of luciferase was established on hepatoma cell line HepG2 transfected with CYP3A4 reporter construct. Concertation dependent effects of resveratrol and its derivatives were...
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