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5' end modification of bacterial RNA
Pinkas, Daniel ; Krásný, Libor (advisor) ; Schierová, Michaela (referee)
Regulation of gene expression is a key feature of all organisms and can occur at several levels ranging from transcription initiation to protein degradation. An important mechanism of this process is regulation of mRNA stability by various modifications. The best known modification is eukaryotic 7mG cap, which protects RNA from RNase degradation. Recently, several new prokaryotic modifications have been discovered thanks to advances in liquid chromatography and mass spectrometry methods. One such a modification is nicotinamide adenine dinucleotide at the 5' end of some RNA. Nicotinamide adenine dinucleotide is analogous to 7mG cap. This study describes this phenomenon in context of bacterial transcription. Powered by TCPDF (www.tcpdf.org)
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The role of translation initiation factor 3 (eIF3) in translation termination.
Beznosková, Petra ; Valášek, Leoš (advisor) ; Krásný, Libor (referee) ; Staněk, David (referee)
Protein synthesis is a tightly regulated process of gene expression. Each gene has its start and its stop, which is determined by one of the three stop codons. Many recent articles describe ribosomes that purposely bypass stops on specific mRNAs to extend the nascent polypeptide to alter its properties. It is called programmed stop codon readthrough. Since over 15% of human genetic diseases are caused by so called premature termination codons (PTC) that halt translation and produce truncated proteins, this mechanism has a great potential implication in medical research. Numerous labs search for non-toxic drugs specifically increasing readthrough at PTCs; however, the success of this effort requires identification and understanding of all factors that are involved in this process. Here, we present one such factor eukaryotic initiation factor 3 (eIF3) and describe its ability to induce readthrough on stop codons in termination non-favorable context during programmed readthrough and also the consequences of its action on translation regulation. We additionally analyzed which near-cognate (nc) tRNAs are incorporated at UGA stop codons depending on the nucleotide that immediately follows them (so called +4 base). This way we established new rules for stop codon decoding and identified so called...
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RNA polymerase: The "meeting point" of regulatory networks
Wiedermannová, Jana ; Krásný, Libor (advisor) ; Pospíšek, Martin (referee) ; Valášek, Leoš (referee)
Bacterial RNA polymerase (RNAP) is a multisubunit complex essential for transcription of DNA into RNA. As a key enzyme responsible for regulation of gene expression it interprets regulatory signals from the cell and based on these cues RNAP adjusts transcription level of particular genes. This process is affected both by the regular subunits of RNAP as well as other transcription factors (TFs) directly or indirectly interacting with RNAP. The general focus of this Thesis was to extend the knowledge about the complex transcriptional regulatory networks and about the connections between individual pathways. The main specific topic and the main publication of the thesis are focused on the HelD protein, a novel binding partner of RNAP in Bacillus subtilis. We showed that HelD binds between the secondary channel of RNAP and alpha subunits of the core form of the enzyme. We proved that HelD stimulates transcription in an ATP dependent manner by enhancing transcriptional cycling and elongation. We revealed a new connection in the transcription regulatory machinery when we demonstrated that the stimulatory effect of HelD can be amplified by delta, a small subunit of RNAP specific for gram positive (G+) bacteria. Two other publications of the thesis are dealing with the delta subunit. We solved the 3D...
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Transcription factors CSL and their role in the yeast Schizosaccharomyces pombe
Oravcová, Martina ; Převorovský, Martin (advisor) ; Heidingsfeld, Olga (referee) ; Krásný, Libor (referee)
Proteins of the CSL family (CBF1/RBP-Jκ/Suppressor of Hairless/LAG-1) act as effectors of the Notch signalling pathway in metazoan organisms. They function as repressors or activators of gene transcription in the framework of this pathway and influence many developmental processes. Metazoan CSL proteins can regulate gene expression Notch-independently as well. Notch-independent functions of CSL proteins might be evolutionarily ancestral and in cells and organisms may be important equally as Notch-dependent functions. Presence of CSL proteins was identified in several fungal species, organisms lacking the Notch signalling pathway components and most of known metazoan interacting partners of CSL proteins. CSL paralogs of the fission yeast Schizosaccharomyces pombe, cbf11 and cbf12, are non-essential genes encoding proteins localized in the nucleus of the cell. They exert antagonistic effects on regulation of processes like coordination of nuclear and cellular division and cell cycle progression, ploidy maintenance, cell adhesion and other. In this study, we have proved that both CSL paralogs are able to sequence-specifically bind the CSL-response element DNA in vitro and Cbf11 in vivo as well. Both proteins could activate gene expression in vivo and perform the function of transcription factors....
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Regulation of bacterial transcription by alternative sigma factors.
Benda, Martin ; Krásný, Libor (advisor) ; Roučová, Kristina (referee)
An important feature of bacteria is their ability to respond to various environmental conditions by regulation of transcription. This thesis is focused on regulation of transcription initiation by different sigma factors. Sigma factor is a specific subunit of RNA polymerase, which ensures correct recognition of promotor sequences. During exponential growth phase under ideal conditions, the cell transcribes most of the genes under the control of the so-called housekeeping sigma factor. In the transition to stationary phase, during sporulation or upon exposure to different stresses, many genes are activated and transcribed under the control of alternative sigma factors. This work presents a list of these alternative sigma factors of Bacillus subtilis, focusing on conditions under which the individual sigma factor is used, methods of activation and repression of these factors and on regulons controled by these sigma factors.
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Functional and biochemical characterization of elF3 and elF3j in Saccharomyces cerevisiae and human cell lines
Wagner, Susan ; Valášek, Leoš (advisor) ; Krásný, Libor (referee) ; Staněk, David (referee)
3 Abstract 3.1 english Translation is divided into initiation, elongation, termination and ribosome recycling. One of the largest eukaryotic initiation factors (eIF), eIF3, plays a role in nearly all steps of initiation and was recently also implicated in ribosomal recycling. Here we uncovered novel roles for eIF3 in translation termination in yeast, where the five core eIF3 subunits and their loosely associated eIF3j/HCR1 accessory factor control stop codon read-through in the opposite manner. In addition, we further characterized the function of eIF3j in initiation. Structural analysis revealed that the conserved tryptophan residue in the human eIF3j N-terminal acidic motif (NTA) is held in the hydrophobic pocket of the human eIF3b RNA recognition motif (RRM). This binding mode was shown to be conserved in yeast ensuring efficient 40S-binding by eIF3 and stringency of AUG recognition, where j/HCR1 seems to co-operate with eIF1A. We found that the N-terminal half of j/HCR1 in yeast is sufficient for fulfilling all functions of the full-length protein necessary for wild-type growth. Despite the logical dispensability of the j/HCR1 C- terminal half, it was shown that it bears a specific KERR motif that is evolutionary conserved and contained also within the HCR1-like domain of a/TIF32, through which it...
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Characterization of Ms1, a newly identified small RNA from Mycobacterium smegmatis
Pospíšil, Jiří ; Krásný, Libor (advisor) ; Lichá, Irena (referee)
Introduction: In recent years, there has been growing interest in regulation of gene expression by small non-coding RNA (sRNA). The first sRNA discovered in 1960s was 6S RNA from E. coli (length ~184 nt). It took ~ 30 years to obtain meaningful insights into its function. 6S RNA binds during stationary phase to RNA polymerase (RNAP) containing sigma factor 70 (primary sigma factor), thereby preventing transcription from σ70 - dependent promoters. In our laboratory we discovered a small RNA (length ~300 nt) in stationary phase of growht in Mycobacterium smegmatis. This sRNA was named Ms 1. The function of Ms 1 is uknown and preliminary experiments indicated that Ms 1may bind to RNAP that lacks σ factor (σA ). Goals: The aim of this Diploma project is to contribute to the characterization of Ms 1. Approaches: First, by molecular cloning, affinity chromatography and in vitro transcription I prepared the tools for subsequent experiments in vitro: RNAP, σA , Ms 1 and its mutated variants. Next, these tools were used for binding experiments on native gels and for transcription experiments. Results: RNAP, σA , Ms 1 and its variants were prepared. In vitro binding assays showed that wt Ms 1 but not a mutated variant of Ms 1 binds to RNAP. Using this assays were identified areas of Ms 1 that are important...
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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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Charakterizace dvou nejmensich podjednotek eIF3 a jejich úloh v translaci.
Cuchalová, Lucie ; Valášek, Leoš (advisor) ; Krásný, Libor (referee) ; Pospíšek, Martin (referee)
Protein synthesis or mRNA translation is a complex and highly conserved process. Translation consists of initiation, elongation, termination, and ribosome recycling stages. Since most regulation occurs during initiation, its mechanism is being studied intensively to elucidate the molecular basis of every potential control point. The initiation factor eIF3, which in yeast consists of five essential core subunits (eIF3a/TIF32, b/PRT1, c/NIP1, g/TIF35, and i/TIF34) and one transiently associated, non-essential subunit (j/HCR1), is undisputedly one of the key promoters of initiation. In addition, it has also been implicated in playing a critical role during ribosomal recycling, reinitiation, signal transduction, NMD etc. We have focused on determining the molecular mechanism of the roles of eIF3 and its associated eIFs not only in translation initiation but also in termination and in reinitiation. This included the biochemical and genetic mapping of yeast eIF3 binding site on the small ribosomal subunit, among others. We showed that the interaction between the residues 200-400 of a/TIF32-NTD and flexible C-terminal tail RPS0A significantly stimulates attachment of eIF3 and its associated eIFs to small ribosomal subunits in vivo, thus a/TIF32-NTD together with the recently published PCI (proteasome...
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Use of transcriptomics to study mechanism of the action of complex mixtures of organic compounds occurring in the ambient air focusing on polycyclic aromatic hydrocarbons
Líbalová, Helena ; Topinka, Jan (advisor) ; Krásný, Libor (referee) ; Postlerová, Pavla (referee)
Polycyclic aromatic hydrocarbons (PAH) represent a large group of organic compounds occuring as pollutants in ambient air. Besides their genotoxic effect, some of them are known to be complete carcinogens and act via nongenotoxic and tumor promoting mechanism. Although effects of many individual compounds are well-documented, human exposure to polycyclic aromatic hydrocarbons in ambient air occurs through complex mixtures and only few studies describe the behavior of PAH in real complex mixtures. The first part of the thesis is dealing with the global gene expression changes in human embryonic lung fibroblasts (HEL) as a consequence of the effect of complex mixtures containing PAH extracted from the respirable airborne particles PM2.5. These particles were collected in 4 localities in the Czech republic (Ostrava - Bartovice, Ostrava - Poruba, Karviná, Třeboň) differing in the level of the air pollution. Gene expression changes induced by three subtoxic concentrations of organic extracts (EOM - extractable organic matter) from each locality after 24 hour incubation were examined by microarray analysis. Pathway analysis using the Kyoto Encyclopedia of Genes and Genomes (KEGG) database was applied to interpret gene expression data. In each locality we identified several deregulated signaling pathways...
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