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Association of chromatin modifications with transgenerational abiotic stress memory of plants
Vyskočilová, Barbara ; Holá, Dana (advisor) ; Fischer, Lukáš (referee)
Plants are constantly exposed to various stressors which usually leads to changes in the expression of many different genes. This can be controlled at multiple levels, including modifications of chromatin structure. Some of these modifications may persist even after the period when the plant is exposed to stress and could possibly act as a kind of "stress memory". This work deals with so-called meiotic/transgeneration "stress memory" of plants caused by abiotic stressors. Compilation of studies dealing with this topic showed that they are still rather rare and usually originated from only a few laboratories. The majority of these studies was aimed only at the examination of DNA methylation and their design was not always optimal. In my opinion, true proofs of transgeneration "stress memory" of plants still remain to be presented; further, more properly designed studies are necessary. Powered by TCPDF (www.tcpdf.org)
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Epigenetic regulation of HLA class II genes in relation to senescence of organism
Říhová, Adéla ; Kotrbová - Kozak, Anna Katarzyna (advisor) ; Slavčev, Antonij (referee)
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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Nuclear magnetic resonance study of local changes in DNA double-helix stability induced by cytosine methylation
Socha, Ondřej ; Římal, Václav (advisor) ; Kouřilová, Hana (referee)
Cytosine methylation in CpG dinucleotides plays an important role in regulation of gene expression and cell differentiation. The structure of DNA double-helix is only weakly affected by cytosine methylation in CpG containing oligonucleotides, but a significant change of the duplex stability is caused. In this thesis, the melting preoperties of two self-complementary oligonucleotides CAAC GTTG and CAAm5C GTTG are studied using nuclear magnetic resonance spectroscopy. We measured 1H spectra at temperature range (276-350)K. The equilibrium and kinetic parameters of chemical exchange between duplexes and single strands were obtained by fitting the spectral lineshapes. Methylation of cytosine in the central CpG dinucleotide increases the melting temperature of each base pair. Thus, a high degree of cooperativity during chemical exchange is observed in our samples. Powered by TCPDF (www.tcpdf.org)
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Epigenetické regulace u autoimunitních onemocnění se zaměřením na revmatoidní artritidu
Horková, Veronika ; Daňková, Pavlína (advisor) ; Hušáková, Markéta (referee)
Exact cause of rheumatoid arthritis, as well as other autoimmune diseases has not been identified yet. In last twenty years, epigenetics showed a new face of immune system. DNA methylation, modification of histones - proteins around which DNA is wrapped, or interference of small RNA sequences - microRNAs, these all are heritable changes outside the DNA sequence that provide another component involved in autoimmunity. Presented epigenetic mechanisms alter gene expression and thus facilitate production of pro- inflammatory factors leading to autoimmune reactions. Moreover, genes regulating apoptosis are also frequently targeted by epigenetic modifications. Not only these mechanisms provide another level of immune defense, they also explain higher female susceptibility to autoimmune diseases and the influence of environment on pathogenesis of these diseases.
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Chromatin modifications in association with priming phenomenon in plants
Marková, Hana ; Holá, Dana (advisor) ; Fischer, Lukáš (referee)
Plants are exposed to many stressors to which they must be able to adapt. It has been found that plants can memorize the respective stress response and may respond to a subsequent stress exposure faster and to a greater extent. The mechanism of this so-called priming could be associated with the changes in the levels of chromatin modifications. Chromatin modifications are usually dynamically changing during the stress reaction. Some of these changes could persist for some time, thus the specific stress memory, mitotically and meiotically transmissible, could be established. Such a phenomenon was observed for stress caused by dehydration, salinity, mechanical damage, a combination of various stressors and a systemic resistance to pathogenic bacteria. So far, only a few studies on this topic exist; but even now it is clear that there are differences in the response of specific genes as well as the dependence on the length of the stress stimulus and the duration of the period between the first and second stress. A major disadvantage of existing studies is that they focus solely on histone modifications. Regarding the chromatin modifications studied so far, H3K4me3 could serve as the main mark for such priming. On the other hand, H3K27me3 modification is apparently not used as a memory tag. However, it is still...
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DNA methylation in haematological malignancies
Šeborová, Karolína ; Beličková, Monika (advisor) ; Vopálenský, Václav (referee)
DNA methylation is one of the most common epigenetics modifications, during which a methyl group from the donor molecule S-adenosyl-L-methionine is transferred to the 5'position of the cytosine ring to create 5-methylcytosine. This reaction is catalyzed by DNA methyltransferases. Epigenetics modification plays an important role in the regulation of the transcription, genomic imprinting, X-chromosome inactivation and the development of the organism. This role in the regulation of transcription is important for the cancer. Especially the aberrant forms, like hypermethylation, which leads to transcriptional silencing of the tumor suppressing genes leading to the tumor progression, or hypomethylation causing genomic instability. Key words: DNA methylation, demethylating drugs, haematological malignancies, methods of detection, myelodysplastic syndrome
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Role of the FTO gene in the genetic determination of common multifactorial diseases
Dlouhá, Dana
Obesity is a risk factor for development of cardiovascular disease, diabetes type 2 and some cancers. Newly detected genetic risk factor for body weight is the FTO gene ("fat mass and obesity associated"). The aim of this thesis was determine 1) whether the presence of risk alleles correlate with BMI in Czech population and to determine 2) whether there is an association between variants in the FTO gene and risk of myocardial infarction/ acute coronary syndrome (MI/ ACS), 3) renal failure (ESRD), or 4) incidence of colorectal cancer (CRC). We analyzed polymorphisms rs17817449 (first intron) and rs17818902 (3rd intron) using by PCR-RFLP and then also RT PCR. We found an association of the first intron variant (but not the 3rd one) and BMI in Czech control population. We have detected an association of 1st intron SNP and BMI changes during the intervention study in obese children, but not in obese females. We found a correlation between the risk allele and increased risk of ACS (OR 1.49) in patients with MI. In patients with ESRD was detected association between the risk allele and the risk of disease (OR 1.37). We didn't confirmed the association between rs17817449 and the development of CRC. Representative selected groups of the Czech populations "MONICA" and "HAPPIE" were used as controls. One...
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Epigenetic mechanisms in the regulation of the B7-H1 and IRF-1 expression in tumour cells.
Hrušková, Veronika ; Reiniš, Milan (advisor) ; Krulová, Magdaléna (referee)
Interferon γ is an important T-cell helper type 1 (Th1) cytokine involves in antimicrobial immunity. It is a part of the inflammatory immune response in the site of infection. However, for its proper function, the regulation of immunity is necessary to avoid injury of the tissue caused by long-term inflammation. While interferon γ triggers expression of proinflammatory genes, it also regulates genes which inactivate immune response. The B7-H1 molecule belongs among these inhibitory regulators. Furthermore, antitumour effect of interferon γ is well-known as well. After extensive experiments, interferon γ was tested as an immunotherapeutic drug against melanomas in clinical trials. However, the trials had to be terminated prematurely because of unsuccessful results. It started to be clear that interferon γ could have also a protumour effect. Interferon γ upregulates the expression of B7-H1 molecule which aids tumour in escape from immunity. The B7-H1 molecule possesses a binding site for interferon regulatory factor 1 (IRF-1) in its promoter region. This IRF-1 is induced by interferon γ - JAK/STAT signalling pathway. In our previous research, we observed interferon γ induced DNA demethylation of promoters in genes that are involved in antigen presenting machinery. Additionally, DNA methylation of...
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Epigenetics mechanisms
Šornová, Veronika ; Černá, Marie (advisor) ; Koc, Michal (referee)
Epigenetics is the study of heritable changes in gene activities that are not caused by changes in the DNA sequence. Epigenetic mechanisms can be employed at many levels, from transcription to translation. They include DNA methylation, histone modification, and with it connected chromatin modification, and RNA interference. The result is the change of chromatin conformation leading to decrease or increase of certain gene expression, X-chromosome inactivation or gene imprinting. Epigenetic regulation plays important role in etiopatogenesis of multifactorial diseases. Genetic predisposing factors (in autoimmune diseases there are genes of major histocompatibility complex) and environmental factors, which affect our genome just through epigenetic modifications, are involved in their manifestation. Key words: Epigenetic mechanisms, DNA methylation, histone modification, RNA interference, genomic imprinting, X-chromosome inactivation, multifactorial disease.
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