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Nucleotide density for finding CpG islands
Sikorová, Eva ; Provazník, Ivo (referee) ; Maděránková, Denisa (advisor)
This bachelor thesis deals with searching for CpG islands in the DNA sequences using the nucleotide density vectors. The first part includes view of the DNA structure, the genetic information expression, more detailed analysis of CpG islands and primarily their detection methods. In the practical part the algorithm for graphical representation of nucleotides on the basis of their densities and detections of CpG islands of artificially created and real DNA sequences was realized in the MATLAB program. The thesis includes the analysis of twenty sequences with the expected content of CpGIs and the comparison of results between the created program and two search engines.
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DNA Methylation Patterns in patients with Neurodevelopmental Disorders
Vítková, Magdalena ; Steiner Mrázová, Lenka (advisor) ; Krejčík, Zdeněk (referee)
Neurodevelopmental disorders (NDDs) are diseases characterized by abnormal development of the central nervous system and brain. Simultaneously, the NDDs may also be associated with specific changes in DNA methylation. The rapid development of sequencing techniques, particularly whole genome sequencing (WGS) and whole exome sequencing (WES), has helped to uncover a number of genes associated with NDDs. Determining the pathogenicity of the variants found remains a challenge in the diagnosis of patients with NDDs. Finding the DNA methylation patterns by microarray or methylation sequencing in patients with NDDs carrying a variant of uncertain significance (VUS) may provide valuable information to address this problem. This thesis demonstrates the feasibility of using these approaches to functionally classify found variants in the KDM5C, ARID1B, ATRX, and BRWD3 genes. The aim was to determine whether there are changes in the DNA methylation patterns of patients with NDDs compared to probands and healthy controls, which could be used to confirm the diagnosis. Key words: DNA methylation patterns, DNA methylation, histone modifications, NDDs, KDM5C, ARID1B, ATRX, BRWD3
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Role paternálního H4K12ac při utváření pronukleí a v časné embryogenezi u myší.
Dudková, Barbora ; Hortová, Kateřina (advisor) ; Stopka, Tomáš (referee)
During the process of spermatogenesis, histones are replaced by protamines, basic proteins enabling transmission of DNA to the oocyte during fertilization. In mouse sperm, there is only 1% of remaining histones whose N-terminal tails contain post-translationally modified residues. In this study, I was interested in contribution of paternal histone H4 acetylated on lysine K12 residues (H4K12ac) that is present in mature sperm head in remaining nucleosomes. Physiologically, H4K12ac has an important role in transcription factor accumulation and in regulation of gene expression. The presence and abundance of H4K12ac modification in various pronuclei stages of 1-cell embryo and parthenotes were assessed by imunnoflourescent detection with utilization of anti-H4K12ac antibody. Altogether, the paternal pronucleus exhibits a strong acetylation signal on H4K12 since its formation, while in the maternal one, there is a slow continual increase of H4K12ac getting on the same level as paternal pronucleus till the pronuclei fusion. Simultaneously DNA methylation status in both pronuclei was detected. In paternal pronucleus there is a continual decrease in the DNA methylation detectable as a decrease of 5mC and an increase of 5hmC signal. Meanwhile, the maternal pronucleus stays widely methylated. DNA...
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Methylation profile in malignancy
Stojčeva, Nina ; Vodička, Pavel (advisor) ; Vondrejs, Vladimír (referee)
Epigenetic changes represent chemical modifications of the DNA molecule and histone proteins by which gene expression is altered. Among them, DNA methylation is a known mechanism of silencing of tumor-suppressor and DNA repair genes, with an important role in carcinogenesis. Many studies have been done in order to identify the methylation signatures of these genes in different types of cancer. In our study, we investigated the methylation status of promoter regions of eight mismatch repair genes (MLH1, MSH2, MSH3, MLH3, PMS1, PMS2, MSH6 and EXO1) in 45 sporadic colorectal cancer cases and 12 head and neck cancer patients. Two out of eight genes, MLH1 and MLH3, exhibited promoter methylation. The results from both groups of patients were concordant. We summarize that the methylation profiles of MLH1 and MLH3 promoters could be potential candidates for epigenetic biomarkers in colorectal cancer, and eventually in head and neck cancer. Further investigations, which would confirm this theory, should be carried out.
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Epigenetic control of PU.1 gene transcription during development of 5-Azacytidine resistance in acute myeloid leukemia
Křtěnová, Petra ; Burda, Pavel (advisor) ; Čuřík, Nikola (referee)
Hematopoiesis is a highly orchestrated process, in which a single hematopoietic stem cell (HSC) gives a rise to all blood cellular components. For myeloid and lymphoid development precise controlled expression of the PU.1 transcription factor is needed. Deletion of PU.1 gene in mouse is lethal and its dysregulation during hematopoietic differentiation is associated with blood malignancies including acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS). MDS and AML are serious blood disorders characterized by expansion of immature blood cells and lack of differentiated functional cells. Not only genetic but also epigenetic aberrations represent a very important field for studying pathophysiology of leukemia genesis and dysregulation of the PU.1 gene represents intensively studied candidate mechanism. Modern therapy of selected MDS and subset of AML patients is based on treatment with DNA hypomethylating agent Azacytidine (AZA) interfering in PU.1 gene regulatory mechanism. However, poor response or resistance to this therapy often occurs. In this thesis we present data obtained from AZA-resistant clones of MDS/AML cell line OCI-M2. We analysed DNA methylation and DNA hydroxymethylation at the key regulatory element of the PU.1 gene (URE). We found that these epigenetic modifications at URE...
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Role paternálního H4K12ac při utváření pronukleí a v časné embryogenezi u myší.
Dudková, Barbora ; Hortová, Kateřina (advisor) ; Stopka, Tomáš (referee)
During the process of spermatogenesis, histones are replaced by protamines, basic proteins enabling transmission of DNA to the oocyte during fertilization. In mouse sperm, there is only 1% of remaining histones whose N-terminal tails contain post-translationally modified residues. In this study, I was interested in contribution of paternal histone H4 acetylated on lysine K12 residues (H4K12ac) that is present in mature sperm head in remaining nucleosomes. Physiologically, H4K12ac has an important role in transcription factor accumulation and in regulation of gene expression. The presence and abundance of H4K12ac modification in various pronuclei stages of 1-cell embryo and parthenotes were assessed by imunnoflourescent detection with utilization of anti-H4K12ac antibody. Altogether, the paternal pronucleus exhibits a strong acetylation signal on H4K12 since its formation, while in the maternal one, there is a slow continual increase of H4K12ac getting on the same level as paternal pronucleus till the pronuclei fusion. Simultaneously DNA methylation status in both pronuclei was detected. In paternal pronucleus there is a continual decrease in the DNA methylation detectable as a decrease of 5mC and an increase of 5hmC signal. Meanwhile, the maternal pronucleus stays widely methylated. DNA...
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Methylation profile in malignancy
Stojčeva, Nina ; Vodička, Pavel (advisor) ; Vondrejs, Vladimír (referee)
Epigenetic changes represent chemical modifications of the DNA molecule and histone proteins by which gene expression is altered. Among them, DNA methylation is a known mechanism of silencing of tumor-suppressor and DNA repair genes, with an important role in carcinogenesis. Many studies have been done in order to identify the methylation signatures of these genes in different types of cancer. In our study, we investigated the methylation status of promoter regions of eight mismatch repair genes (MLH1, MSH2, MSH3, MLH3, PMS1, PMS2, MSH6 and EXO1) in 45 sporadic colorectal cancer cases and 12 head and neck cancer patients. Two out of eight genes, MLH1 and MLH3, exhibited promoter methylation. The results from both groups of patients were concordant. We summarize that the methylation profiles of MLH1 and MLH3 promoters could be potential candidates for epigenetic biomarkers in colorectal cancer, and eventually in head and neck cancer. Further investigations, which would confirm this theory, should be carried out.
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Nucleotide density for finding CpG islands
Sikorová, Eva ; Provazník, Ivo (referee) ; Maděránková, Denisa (advisor)
This bachelor thesis deals with searching for CpG islands in the DNA sequences using the nucleotide density vectors. The first part includes view of the DNA structure, the genetic information expression, more detailed analysis of CpG islands and primarily their detection methods. In the practical part the algorithm for graphical representation of nucleotides on the basis of their densities and detections of CpG islands of artificially created and real DNA sequences was realized in the MATLAB program. The thesis includes the analysis of twenty sequences with the expected content of CpGIs and the comparison of results between the created program and two search engines.
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