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Remodelace genomu během prvního buněčného dělení embryogeneze / Genome reprogramming during the first cell cycle of embryonic developmentBarnetová, Irena January 2011 (has links)
The sperm head contains highly compacted genome. This compaction is mediated by protamines. Sperm protamines are replaced by cytoplasmic histones after the sperm entry into the oocyte. Beside the proteins replacement, also some epigenetic remodeling occurs. One of the most studied epigenetic remodeling in early zygotes is DNA demethylation. This phenomenon was observed in some mammals (mouse, rat, monkey) but not in some other mammals (sheep) and what is more, in some of them quite inconsistent data were published (pig, human, goat, rabbit). In our work we were mostly concentrated on porcine zygotes and attempted to explain the reasons of inconsistency in observed data. Three factors were evaluated in our work - the technique of embryo production, sperm factors, and the oocyte quality. In the first part of the study (the technique of embryo production) we compared the zygotes produced by conventional in vitro fertilization and zygotes produced by intracytoplasmic sperm injection. The epigenetic remodeling was evaluated by immunolabeling. There were no differences between zygotes produced by the two mentioned techniques. The paternal genome was not demethylated in any of zygotes. The labeling with anti-H3/K9- me2 (anti dimethyl group on lysine 9 of histone 3) showed the positive labeling of both...
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Úloha SIRT1 během zrání oocytů v podmínkách in vitro / The role of SIRT1 during in vitro maturation of oocytesLandsmann, Lukáš January 2018 (has links)
SIRT1 histone deacetylase acts towards many epigenetic and non-epigenetic targets. The involvement of SIRT1 in oocyte maturation is assumed and the importance of ooplasmic SIRT1 pool for further destiny of matured oocyte is strongly suggested. We hypothesized that SIRT1 play role of the signal molecule in mature oocyte through selected epigenetic and non- epigenetic regulation. We observed SIRT1 re-localization in mature oocyte and the association with spindle microtubules. In matured oocyte, SIRT1 shows a spindle-like pattern and spindle- specific SIRT1 action is supported decreasing α-tubulin acetylation. Based on the observation of histone code in immature and matured oocytes, we suggest that SIRT1 is mostly predestined for epigenetic mode of action in germinal vesicle (GV) of immature oocyte. Accordingly, SIRT1- driven trimethylation of histone H3 on lysine K9 in matured oocyte is considered to be an inheritance of GV epigenetic transformation. Taken together, our observations point out the dual spatiotemporal SIRT1 action in oocyte capable to be switched from epigenetic to the non- epigenetic mode of action readily depending on meiosis progress. Keywords: oocyte, SIRT1, histone, developmental competence, tubuline, epigenetics
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Epigenetická regulace genů HLA asociovaných s celiakií / Epigenetic regulation of HLA genes asociated with celiac diseaseHudec, Michael January 2017 (has links)
Introduction: HLA class II system presents one of the most important mechanism in immune system, which is able to recognise pathogens and damaged cells. Some HLA class II alleles are associated with autoimmune diseases, for example celiac disease, which is typical by chronic inflammation of small intestine and other following symptoms. The risk HLA class II variants are DQ2 and DQ8. Epigenetic mechanisms that regulates gene expression, especially methylation of cytosine in promoter region of DQ2 and/or DQ8 alleles, could have influence on development of T lymphocytes in the thymus, where T-lymphocytes develop and pass a few stages in, and only the survival clones can be part of function immune system. Aim: The aim of this study is to compare methylation level of promoter regions of HLA DQ2 and DQ8 alleles between celiac patients and healthy controls. Another goal is to compare expression level of DQ2 and DQ8 variants between these two groups. Methods: DNA and RNA were isolated from full blood of two sets of donors. DNA was converted by bisulphite conversion and then amplified by Nested PCR. The PCR product was cloned to bacteria. Than positive colonies were selected. Subsequent methylation analysis was performed. RNA was converted to cDNA by Reverse transcription. Relative expression was analyzed...
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Distribuce míst integrace exprimovaných provirů / Integration site distribution of expressed provirusesMiklík, Dalibor January 2019 (has links)
To establish efficient expression of their genes, retroviruses integrate proviral copies into the genomes of the cells they have infected. Epigenetic events, however, silence expression of the integrated proviruses. This silencing protects host cells from harmful viral spread, but also creates a reservoir of latent proviruses that subsequently hinders the cure of retroviral (e.g., HIV-1) infections. Furthermore, the silencing of retrovirus-derived integrative vectors complicates their application in transgenesis and gene therapy. The goal of this thesis is to describe the interaction between retroviral expression and host (epi)genomic environment at the site of proviral integration. To pursue the goal, we sought to define the (epi)genomic environment of the proviruses, which expression is not affected by the epigenetic silencing. Diverse retroviral vectors derived from avian sarcoma and leukosis virus (ASLV), murine leukemia virus (MLV), and human immunodeficiency virus type 1 (HIV-1) were used as model retroviral systems, and expression stability of the vectors in human cell lines was examined. In order to identify the features unique to integration sites of the active proviruses, we sorted the cells positive for the proviral expression, identified their proviral integration sites, and compared them to...
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Analýza vlivu genové dávky myšího speciačního genu Prdm9 na fertilitu hybridů / Analysis of dosage effect of speciation gene Prdm9 on fertility of mouse hybridsFlachs, Petr January 2018 (has links)
(eng) The phenomenon of hybrid sterility represents one of the evolutionary mechanisms that enables speciation. Only a few speciation genes have been uncovered. The only one found in mammals is Prdm9 (PR-domain 9). Data in the literature on the involvement of Prdm9 in decreased fertility of various semifertile hybrid males of house mouse subspecies were scarce before the results of this thesis were completed, despite that such males are much more frequent in nature than the fully sterile ones. Utilizing a panel of genetic tools and a battery of phenotyping tests, this thesis shows a central role of Prdm9 in fecundity of hybrids, including many fertility disorders and age dependency. Both increasing and reducing the Prdm9 gene dosage significantly elevated fertility parameters. Surprisingly, even the allele that in one copy causes full hybrid sterility increased F1 hybrid fertility when present in multiple copies. The PRDM9 protein also plays a role in identifying the sites of meiotic recombination. This study also points out the principles of allelic competition in determination of the sites of preferred recombination (hotspots), which suggests a possible link between both previously described Prdm9 roles. This thesis summarizes a set of three logically interconnected publications with the ambition...
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Studium epigenetické regulace HLA genů II. třídy na úrovni histonových modifikací / The study of epigenetic regulation of HLA class II genes at the level of histone modificationČernoch, Marek January 2014 (has links)
Introduction: The epigenetic modifications can significantly affect and alter the gene activity by regulating their expression, having direct impact on various processes in human body. Epigenetic processes are involved in ethiopathogenesis of many diseases. From this point of view, MHC genes are very important as they were linked to many autoimmune disorders, for example type 1 diabetes mellitus. In general autoimmune diseases appear to be connected to certain MHC class II genes. Aims: The aim of this thesis is to determine the relationship between expression levels and histone modifications present in the promoter area of MHC class II gene, DQA1. Moreover, we also analyze and compare the DQA1 gene mRNA expression depending on the QAP promoter allele. Methods: We isolated both nucleic acids (DNA and RNA) and leukocytes from peripheral blood samples collected from voluntary donors. DNA was utilized for genotypization of individuals. RNA was subjected to reverse transcription and the quantitative PCR was performed in order to determine the level of expression. Leukocytes were used for chromatin immunoprecipitation, which was evaluated using quantitative PCR. Results: The expression level of QAP allele 3.1 was found to be higher than for the rest of the alleles Allele 4.1A showed, on the other hand,...
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Epigenetická regulace genů pro HLA II. třídy ve vztahu ke stárnutí organismu / Epigenetic regulation of HLA class II genes in relation to senescence of organismŘíhová, Adéla January 2015 (has links)
Introduction: Glycoproteins of the major histocompatibility complex (MHC) are an irreplaceable part of immune response regulation and immune homeostasis maintenance. The regulation of the expression plays an important role in adaptive immune response. Recently, DNA methylation in regulatory areas, crucial for DNA availability to transcription factors, is one of the most researched mechanisms of this type of regulation. The DNA methylation is, among others, related to the aging processes. Increased predisposition age-related immunosenescence in higher age could result from the changes in methylation status of regulatory areas of MHC class II genes. Aims: The aim of this thesis is to analyze the methylation status of regulatory areas of DQB1 gene and to compare the differences between generations and specific alleles. The differences in the levels of DQB1 gene mRNA transcription between generations and specific alleles is also compared. Methods: Both DNA and RNA were isolated from blood samples obtained from donors of three different age groups. DNA was genotypized and modified by bisulfite conversion. The regulatory areas of DQB1 genes were then amplified and subcloned into bacteria. The positive clones were selected and subjected to DNA methylation analysis. RNA was reverse transcribed into cDNA...
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Využití "omics" metod v molekulárně-epidemiologické studii novorozenců z různých lokalit České republiky / The use of "omics" methods in molecular-epidemiologic study in newborns from different localities of the Czech RepublicHoňková, Kateřina January 2021 (has links)
The "omics" is a concept of biological disciplines that globally characterizes and quantifies biomolecules involved in the key functions of an organism. The "omics" methods are used e.g. in molecular epidemiology, where they help to evaluate potential biomarkers that identify the impact of environmental factors for human health. In this thesis, the "omics" methods were applied in samples collected from newborns born in localities of the Czech Republic mostly differing by pollution levels from industrial sources. The principal aim was to determine whether environmental changes during prenatal development can affect gene expression and its regulation in newborns. The thesis further aimed to evaluate the level of air pollution at the time of biological samples collection. Using the whole genome approach, differentially expressed genes (DEGs) in newborns from districts Karvina and Ceske Budejovice (CB) were identified. In a pilot study of a small group of newborns from districts Most and CB, differentially methylated CpG sites in DNA were assessed. These sites attenuate gene activity and could be responsible for long-term changes at the genetic level. Finally, the aim was to find differentially expressed small non-coding RNA (DE miRNA) in newborns from Most and CB. Samples of umbilical cord blood from...
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Funkční analýza genomu pomocí mapování integračních míst podporujících expresi retrovirů v lidských buňkách / Functional genome analysis using the retroviral integration sites permissive for provirus expression in human cellsMiklík, Dalibor January 2013 (has links)
The expression of retroviral genes depends on the establishment of the provirus - the DNA copy of retroviral genome integrated into the host genome. The transcriptional state of provirus is then influenced by the environment at the site of integration. The phenomenon of proviral silencing is an obstacle to the usage of retroviral vectors and a barrier to the eradication of human immunodeficiency virus type 1 (HIV-1) from infected individuals. Taking advantage of single cell clones bearing one provirus, this diploma thesis investigates the distribution of (epi)genomic features at the sites occupied by stably expressed proviruses. In total, long-term expression profiles of 245 and 255 clones carrying avian sarcoma-leucosis virus (ASLV) and HIV-1, respectively, were obtained. The database-based analysis of 42 integration sites of ASLV and three integration sites of HIV-1 proviruses shows that proviral stable expression highly correlates with the transcriptional start sites (TSS) at the sites of integration. Histone marks characteristic for the proximity of active TSSs and regulatory elements at the sites of integration of stably expressed proviruses confirm this finding. The results presented in this thesis could inspire other analyses investigating the relationship between the integration site and the...
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Studium epigenetických regulací HLA genů II. třídy v rámci příbuzenských vztahů. / The study of epigenetic regulation of gene HLA II. Clas within family relationshipsChmel, Martin January 2015 (has links)
Introduction: At our post-genomic era the studies of epigenetic regulation constitutes one of the tools for understanding the function of genes. Epigenetic regulation can directly control the temporal and spatial gene activity or silencing. The molecular basis of these regulations are DNA bases modifications, chromatin remodeling and RNA interference. At the same time, these mechanisms have a special way of transferring genetic information to subsequent generations called epigenetic inheritance. It has been proven epigenetic deregulation of certain genes as cause for many disease. For this reason, the study of epigenome HLA genes seems particularly important because these genes play a fundamental role in regulating the immune system. Aims: The aim of this work is to create a description of epigenetic modifications within families. It is an analysis of histone modifications and DNA methylation in the promoter region of the gene HLA DQA1. The aim was also to compare the differences in epigenetic modifications between alleles and compared the differences in these modifications between generations. The results will be compared with the analysis of the level of expression of the gene HLA DQA1. Methods: From collected peripheral blood of donors were isolated DNA, RNA, and leukocytes. DNA was used for...
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