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The role of alternative sigma factors of RNA polymerase in regulation of gene expression in Corynebacterium glutamicum
Šilar, Radoslav ; Nešvera, Jan (advisor) ; Branny, Pavel (referee) ; Lichá, Irena (referee)
Abstract Regulation of transcription by extracytoplasmic-function (ECF) sigma factors of RNA polymerase is an efficient way of cell adaptation to diverse environmental stresses. Amino acid-producing gram-positive bacterium Corynebacterium glutamicum codes for seven sigma factors: the primary sigma factor SigA, the primary-like sigma factor SigB and five ECF stress- responsive sigma factors (SigC, SigD, SigE, SigH and SigM). The sigH gene encoding SigH sigma factor is located in a gene cluster together with the rshA gene, encoding the anti-sigma factor of SigH. Anti-sigma factors bind to their cognate sigma factors and inhibit their transcriptional activity. Under the stress conditions the binding is released allowing the sigma factors to bind to the RNAP core enzyme. In this thesis, regulation of expression of genes encoding the most important ECF sigma factor SigH and its anti-sigma factor RshA as well as genes belonging to the SigH-regulon were mainly studied. The transcriptional analysis of the sigH-rshA operon revealed four housekeeping promoters of the sigH gene and one SigH-dependent promoter of the rshA gene. For testing the role of the complex SigH-RshA in gene expression, the C. glutamicum ΔrshA strain was used for genome-wide transcription profiling with DNA Microarrays technique under...
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Inducible promoters and their use in yeast cell manipulation
Přibáňová, Gabriela ; Palková, Zdena (advisor) ; Vopálenský, Václav (referee)
Promoters which can be regulated by different chemical or physical factors are often used in cell manipulations. This thesis focuses predominantly on promoter systems which use light as an inductor. There are two main approaches to controlling a promoter by light. The first one uses so-called "caged molecules", chemical inducers whose inducing activity is "masked" by a photolabile protecting group. The second approach includes optogenetic systems, which can regulate transcription in cells. These systems are encoded in the DNA of the organism, and light is the only external regulatory stimulus. Photoreceptors that need a specific cofactor (chromophore) are the main components of optogenetic systems. There are several groups of photoreceptors classified by the type of chromophore and photoactivation mechanism. This thesis gives an overview of optogenetic systems used for transcription regulation and focuses on different photoreceptors and induction mechanism used. The systems using photocaged molecules are described as well. Furthermore, the thesis deals with light- systems in yeast as a model organism as well as organism used for biotechnological purposes. Finally, some limitations of light inducible promoters are discussed, including the chromophore type, the wavelength of the light, and the...
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Regulatory mechanisms of CD47 surface expression
Jakubec, Martin ; Drbal, Karel (advisor) ; Dibus, Michal (referee)
CD47 glycoprotein can be found on the surface of all healthy cells in our body. The interaction of CD47 with inhibitory receptor SIRPα on the macrophage leads to the inhibition of phagocytosis. This makes CD47 irreplaceable for the safe recognition of own cells and removal of aged or apoptotic cells. Apart from this, CD47 plays a major role in several essential signalling pathways, such as cell adhesion and motility or calcium homeostasis. The level of CD47 expression and its presence on the cell membrane depends not only on the type of tissue, but also on the age of a cell. An increased expression of CD47 protein has also been observed in the cells undergoing tumorigenic transformation, allowing them to escape from tumour immunosurveillance. Spontaneous regulation of the CD47 gene expression is achieved via regulatory transcription factors, such as NF-κB or HIF-1. Another mechanism of CD47 regulation includes the 3'UTR of CD47 mRNA, which serves as a binding site for either regulatory proteins, such as HuR, or miRNAs. CD47 expression can thus be regulated on both transcriptional, as well as translational level. However, appropriate topological CD47 localization within the cell and on the cell surface has also an important effect of its physiological function. Our in depth understanding of key regulatory...
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Epigenetic regulation of HLA class II genes and their role in autoimmune diseases.
Čepek, Pavel ; Kotrbová - Kozak, Anna Katarzyna (advisor) ; Horníková, Lenka (referee)
Abstract Background: Type 1 diabetes (T1D) is a multifactorial autoimmune disease. Its incidence in Europe is continuously rising. The highest T1D risk is associated with HLA (human leukocyte antigen) class II genes. HLA class II molecules play a key role in regulation of immune response. They contribute to the selection of T cell repertoire by presenting antigenic peptides to the CD4+ T lymphocytes. HLA class II expression is controlled by regulatory module that is situated 150 - 300 base pairs upstream of the transcription- initiation site in all HLA class II genes. Polymorphisms in this region are linked to some autoimmune diseases. There were identified several promoter alleles (named QAP) in the HLA DQA1 gene promoter region. Most of the polymorphisms appear to be conserved within haplotype. Individual QAP alleles may have a different promoter strength by which they influence expression of HLA DQA1 gene alleles. Promoter strength can be modulated by DNA methylation. Aims:Our aim was to define methylation profile of HLA DQA1 promoters and determine the mRNA expression of individual alleles of HLA DQA1 gene in T1D patients. The mRNA expression level of HLA DQA1 gene alleles was determined using quantitative PCR. Methods: 30 diabetic pacients (age range 21 to 76 years), were included in this pilot...
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Regulatory mechanisms of ornithin transcarbamylase and beta-glucocerebrosidase gene expression and their relevance to diagnostics
Lukšan, Ondřej ; Jirsa, Milan (advisor) ; Kožich, Viktor (referee) ; Kříž, Vítězslav (referee)
5 Abstract Definitive diagnosis of inherited metabolic disorders commonly depends on the measurement of enzyme activity (which is often complicated) and/or molecular genetic testing. Yet even the standard mutation analysis can bring false negative results in the case of gross chromosomal rearrangements or incorrect regulation of gene expression due to the mutations in regulatory regions. In the present study I focused on characterization of complex mutations affecting the gene encoding ornithin transcarbamylase (OTC) followed by studies of regulatory regions of OTC and GBA (the gene encoding β-glucocerebrosidase). In the first study we identified 14 novel mutations including three large deletions in a cohort of 37 patients with OTC deficiency (OTCD). Subsequently we evaluated clinical significance of all these mutations. We also found a heterozygote carrying a hypomorphic mutation and manifesting OTCD most likely due to unfavorable X-inactivation which was observed independently in three different peripheral tissues. In order to evaluate the clinical significance of a promoter variation c.-366A>G found in a family with mild OTCD we identified three alternative transcription start sites (TSSs) of human OTC and delimited the promoter. We also found a distal enhancer and performed functional analysis of both...
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Factors interacting with bacterial RNA polymerase and their effect on the regulation of transcription initiation
Ramaniuk, Volha
(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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Molecular genetic and biochemical studies of selected inherited metabolic disorders, development and applications of new methods
Mušálková, Dita ; Hřebíček, Martin (advisor) ; Adam, Tomáš (referee) ; Macek, Milan (referee)
Inherited metabolic disorders (IMD) form a diverse group of several hundred different diseases with a relatively high cumulative incidence (stated up to 1:600). They are associated with accumulation of the substrates and lack of the products in specific metabolic pathways, which is caused by deficiency of the enzyme or its activator, or dysfunction of the transport protein. However, the underlying cause is at the DNA level. The grounds for different phenotype manifestation in patients with the same genotype are often not known. During my work at the Institute of Inherited Metabolic Disorders, I designed several new methods for the research of IMD and applied them in the patients and their families. I created procedures for the isolation of lysosomal membranes that are used for the research of lysosomal storage disorders and general properties of lysosomes. Next, I introduced several novel assays for determination of the X-inactivation ratio, which led to a significant increase of informative women. Nowadays, we use these methods in heterozygous women with X-linked diseases in order to study the influence of X-inactivation on the manifestation of the diseases. The cases of a girl with mucopolysaccharidosis type II, a girl with OTC deficiency and a family with the mutation in HPRT1 gene are described...
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The role of alternative sigma factors of RNA polymerase in regulation of gene expression in Corynebacterium glutamicum
Šilar, Radoslav
Abstract Regulation of transcription by extracytoplasmic-function (ECF) sigma factors of RNA polymerase is an efficient way of cell adaptation to diverse environmental stresses. Amino acid- producing gram-positive bacterium Corynebacterium glutamicum codes for seven sigma factors: the primary sigma factor SigA, the primary-like sigma factor SigB and five ECF stress- responsive sigma factors (SigC, SigD, SigE, SigH and SigM). The sigH gene encoding SigH sigma factor is located in a gene cluster together with the rshA gene, encoding the anti-sigma factor of SigH. Anti-sigma factors bind to their cognate sigma factors and inhibit their transcriptional activity. Under the stress conditions the binding is released allowing the sigma factors to bind to the RNAP core enzyme. In this thesis, regulation of expression of genes encoding the most important ECF sigma factor SigH and its anti-sigma factor RshA as well as genes belonging to the SigH-regulon were mainly studied. The transcriptional analysis of the sigH-rshA operon revealed four housekeeping promoters of the sigH gene and one SigH-dependent promoter of the rshA gene. For testing the role of the complex SigH-RshA in gene expression, the C. glutamicum ΔrshA strain was used for genome-wide transcription profiling with DNA Microarrays technique under...
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Characterization of promoter regions of HGSNAT and GBA genes, and a contribution to the study of pathogenesis of MPS IIIC and Gaucher disease
Richtrová, Eva ; Hřebíček, Martin (advisor) ; Macek, Milan (referee) ; Adam, Tomáš (referee)
Pathogenesis of mucopolysaccharidosis type IIIC (MPS IIIC) and Gaucher disease has not been yet fully clarified, and the causes of phenotypical variability between the patients with the same genotype in Gaucher disease remain obscure. Because the variants in the regulatory regions of genes can cause phenotypical differences mentioned above, I have studied promoter regions of HGSNAT and GBA genes mutated in these lysosomal disorders. I have shown that there is an alternative promoter of GBA (P2). Additional studies were aimed to elucidate possible physiological functions of P2, and its possible role in the pathogenesis of Gaucher disease. I have found that P2 is not tissue specific, and that its variants do not influence the variability of phenotype in Gaucher patients with the same genotype. P2 is used differentially neither during the differentiation of monocytes to macrophages nor in macrophages from controls and Gaucher patients, in whom there is a prominent storage only in cells of macrophage origin. We have thus not found any changes that would suggest a role for P2 in the pathogenesis of Gaucher disease. I have characterized the promoter region of HGSNAT and shown that the binding of Sp1 transcription factor is important for its expression. Sequence variants found in HGSNAT promoter in...
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Overlaps of sigma factors regulons of RNA polymerase in Corynebacterium glutamicum
Zíková, Jaroslava ; Pátek, Miroslav (advisor) ; Sudzinová, Petra (referee)
Sigma factor (σ) is a part of the RNA polymerase enzyme complex. This complex (referred to as a holoenzyme) ensures the recognition of the consensus promoter sequences of the individual genes and the initiation of transcription. Seven sigma factors were found in Corynebacterium glutamicum. The genome of this bacterium encodes one primary factor σA and another six alternative sigma factors: σB , σC , σD , σE , σH a σM . These alternative sigma factors are expressed in response to changes in the internal and external environment and ensure the adaption of the bacterium to growth conditions. They are also one of many ways to regulate gene expression at the transcriptional level. In specific cases, the regulation of gene expression is caused by alternative sigma factors that recognize corresponding dual (recognized alternatively by two sigma factors) or overlapping promoters. Thus, the genes controlled by these promoters are classified into overlapping regulons. Key words: Corynebacterium glutamicum, sigma factor, RNA polymerase, transcription, promoter, regulons, RNA-seq, in vitro transcription, in vivo two-plasmid system
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