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Prediction of type 1 diabetes mellitus by expression profile of peripheral leukocytes
Šornová, Veronika ; Kotrbová - Kozak, Anna Katarzyna (advisor) ; Daňková, Pavlína (referee)
Background: Type of 1 diabetes (T1D) is an autoimmune disease in which the cells of immune system attack the β-cells of pancreas. Consequently, destroyed β-cells do not produce insulin to reduce blood sugar levels. This disease is very complex, the pathogenesis is contributed by both genetic factors and environmental factors. In recent years, the number of individuals with T1D is increasing worldwide. Aims: The aim of this thesis was to investigate whether it is possible to predict T1D based on the expression profile of BACH2, CDC20, IGLL3P, EIF3A and TXNDC5 genes , which are involved in the development of immune system cells and insulin production. Another aim was to compare the expression of selected genes in children, in which the first detection of the disease may be done, and adults who suffer from prolonged T1D. The final goal was to compare the expression of individual selected genes in the HLA risk alleles DR04, DR03, DQA*05:01 a DQB*03:02. Methods: The DNA and RNA of patients with T1D and healthy individuals was isolated from blood. DNA was used to HLA genotyped. Isolated RNA was reverse transcribed into cDNA and then used in real-time PCR to determine the relative levels of gene expression. Conclusion: Significant results were obtained when the expression of BACH2, CDC20 and TXNDC5 genes...
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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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