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Analysis of NGS data for study of transposon activity in cancer cells
Hrazdilová, Ivana ; Čegan,, Radim (referee) ; Eduard, Kejnovský (advisor)
Theoretical part of this diploma thesis gives a brief characteristic of human mobile elements (transposons), which represents nearly 50% of human genome. It provides basic transposon clasification and describes types of transposons present in hunam genome, as well as mobilization, activation and regulation mechanisms. The work also deals with the domestication of transposons, describes the ways in which TE contribute to DNA damage and summarizes the diseases caused by mutagenic activity of transposons in the human genome. Conclusion of theoretical part describes next-generation sequencing technologies (NGS). As practical part, data from RNA-seq experimet were analyzed in order to compare differen transposon activity in normal and cancer cells from prostate and colorectal tissues. As like as publicly available sophisticated tools (TopHat), new scripts were created to analyze these data. The results show that cancer cells exhibit overexpression of transposons. This corresponds with the published results and suggests a connection of transposon activation with cancer development.
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Using PCR to study the DNA damage
Jansová, Adéla ; Jirkovská, Anna (advisor) ; Matoušková, Petra (referee)
Charles University Faculty of Pharmacy in Hradec Králové Department od Biochemical Sciences Candidate: Bc. Adéla Jansová Supervisor: PharmDr. Anna Jirkovská, Ph.D. Title of thesis: Using PCR to study the DNA damage Key words: functions of DNA, DNA damage, PCR, SINE elements The transmission of genetic information to future generations is possible thanks to DNA replication using enzymes, mainly DNA polymerase. The most important function of DNA is the biosynthesis of proteins that perform specific functions throughout the cell. The coding DNA sequences are the source for protein synthesis. These are produced by transcription of a DNA sequence using RNA polymerase and then translated into amino acids by translation. Non-coding sequences have mainly regulatory functions, they are functional DNA molecules (rRNA, tRNA, snRNA) and regulatory regions (promoters, enhancers and silencers) as well as transposons (SINE, LINE) and pseudogenes. DNA damage is caused by UV radiation, ionizing radiation, chemicals (cisplatin-based drugs, alkylating agents, etc.), reactive oxygen species, and DNA damage by base deamination. When damage occurs, repair processes are activated to remove mismatches, adducts and breaks. If the damage is not repaired by repair processes, the damage leads to mutation formation, senescence...
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Goniometry in Ptolemy's Almagest
Kušnír, Martin ; Halas, Zdeněk (advisor) ; Bečvář, Jindřich (referee)
The main focus of this bachelor thesis are the beginnings of goniometry in ancient Greece, mainly in the book Almagest from Claudius Ptolemy. We describe a predecessor of modern goniometric function - the length of a chord in a circle and it's similarity to the modern goniometric function sine. In the first part we focus on computing the table of chords. In the thesis the process of computing the table of chords is unchanged from the original in Almagest, it is only translated into a modern mathematical language. We present description of the Heron's algorithm for computing square roots and discuss the accuracy of the table of chords. In the second part we show the usage of the table of chords in astronomical calculations. Our work is based on how Ptolemy viewed the solar system and the movements of heavenly bodies. Keywords: goniometry, Ptolemy, Almagest, chord, sine
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Analysis of NGS data for study of transposon activity in cancer cells
Hrazdilová, Ivana ; Čegan,, Radim (referee) ; Eduard, Kejnovský (advisor)
Theoretical part of this diploma thesis gives a brief characteristic of human mobile elements (transposons), which represents nearly 50% of human genome. It provides basic transposon clasification and describes types of transposons present in hunam genome, as well as mobilization, activation and regulation mechanisms. The work also deals with the domestication of transposons, describes the ways in which TE contribute to DNA damage and summarizes the diseases caused by mutagenic activity of transposons in the human genome. Conclusion of theoretical part describes next-generation sequencing technologies (NGS). As practical part, data from RNA-seq experimet were analyzed in order to compare differen transposon activity in normal and cancer cells from prostate and colorectal tissues. As like as publicly available sophisticated tools (TopHat), new scripts were created to analyze these data. The results show that cancer cells exhibit overexpression of transposons. This corresponds with the published results and suggests a connection of transposon activation with cancer development.
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