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Porovnání promotorů pro využití v klíštěcím (\kur{Ixodes}) expresním systému
MUSTACOVÁ, Johana
Gene manipulation can be a convenient tool for tick control, however functional procedure for gene manipulation of ticks was not determined yet. The creation of plasmid vectors with high ability of gene expression driven by functional promoters is crucial for genetically modified ticks. To investigate effective tools for tick genes manipulation within the scope of this master thesis, transfection procedures for various types of Ixodes tick cell lines were optimized. As well as expression vectors for use in tick cells were tested. For this purpose, expression plasmid vectors containing luciferase reporter genes driven by eukaryotic and viral promoters were used.
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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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Preparation of the constructs for analysis of expression of nuclear receptor nhr-97 by using transgenic techniques in the model system Caenorhabditis elegans
Boušová, Kristýna ; Stiborová, Marie (advisor) ; Hudeček, Jiří (referee)
The aim of this work was to prepare two constructs of the promoter of a gene coding for nuclear hormone receptor nhr-97 in C. elegans. Nuclear receptors belong to a large group of genes sharing homologous sequences in some vertebrate nuclear receptors. The first part of the work describes the structure of nuclear hormone receptors, their function and significance in the nematodes C. elegans. The model organism C. elegans, its anatomy, life cycle and genome were also described. The work also discusses the structure and use of green fluorescent protein (GFP), which serves to localize the expression of the nhr-97 gene in C. elegans. In the practical part of the work, the preparation of two constructs of the promoter is described. Isolation of genomic DNA of C. elegans, PCR amplification of the promoters and their subsequent cloning into vector pPD95.67 containing a gene coding for green fluorescent protein were performed. To verify the successful cloning of the promoter constructs, sequencing DNA was performed. Cloned promoters of nhr-97 will be used for microinjetions to C. elegans gonads and the expression of this gene regulated from particular promoters will be subsequently monitored using expression of green fluorescent protein in progeny.
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Cis and trans elements in plant response to drought (with a particular focus on photosynthetic genes)
Panchártek, Daniel ; Holá, Dana (advisor) ; Feketová, Zuzana (referee)
Abiotic stresses, such as drought, high salinity and cold can strongly affect plant development and growth. Cis and trans elements are one of the options how plants regulate their own metabolism in those cases. That's the way how the expression of many target genes is induced. The products of these genes function not only in stress tolerance but also in general stress response. Many transcription factors and regulatory proteins (trans elements) are involved in these adaptions; those often interact with specific sequences in gene promoters (cis elements). Recenly, a progress has been made in analyzing the signal paths and complex cascades of gene expression regulation, although a little is still known about this regulation during drought conditions. Some of these target genes code products participating in photosyntesis and the regulation of their expression can significantly affect this process. This essay briefly describes main cis and trans elements of plant response to drought (with a particular focus on the regulation of photosyntetic genes). Keywords: drought, gene expression, cis-element, transcription factor, abcisic acid, photosyntesis, promoter.
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Financial education mechanism of handicapped pupils at secondary schools
Filip, Josef ; Krutská, Dagmar (advisor) ; Svoboda, Petr (referee)
The thesis deals with problems of disabled pupils'education financing at secondary schools. Its aim is to create the integral survey about the disabled pupils'schooling, to compare and analyse normative financing of the most expanded educational specialization in accordance with regions. Theoretical part includes national educational concepts and programs directed at handicapped pupils. Besides detailed characterization of the health troubles'single types there are also described institutial schooling and normative financing of handicapped pupils. There are the analysed reports of MŠMT (Ministry of education and youth's psychical education) about handicapped pupils at the research part. Charts and graphs contain datas of pupils in the Czech republic according to health trouble's type, number of pupils at special classrooms and of integrated pupils during 2007-2012. The inseparable component of the research there is survey of pupils'schooling in accordance with the schools'promoters. Conclusion is devoted to detailed comparison of normative financing of the most expanded educational specialization 65-51-E/01 Stravovací a ubytovací služby (The board and accommodational service) in the first place for mental disabled pupils and pupils suffering with developmental disorders of learning and behaviour.
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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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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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