|
|
Regulation of mTOR pathway in the oocyte meiosis
Schmidtová, Barbara ; Šušor, Andrej (advisor) ; Krylov, Vladimír (referee)
Mammalian Target of Rapamycin (mTOR) is serin-threonin kinase, which has become a major topic in many studies in the last decade, leading to new insights into how cell works. This kinase is involved in proteosynthesis, metabolism, cell cycle regulation, proliferation and responses to nutrients and growth factors. There are certain diseases caused by mutations in mTOR gene, which lead to abnormal function of this kinase. These diseases include cancer or fertility disorders. mTOR research is also beneficial due to the search for drugs that could rescue its function and thus provide treatment for these diseases. The best-known drug is inhibitor Rapamycin and its derivates. The aim of this bachelor thesis is to summarize the knowledge about how mTOR can be regulated, the role of its substrates in cell function and to define the role of mTOR in oocyte development, translation and human health. Keywords: Oocyte, mTOR, translation, 4E-BP1, MPF, meiosis, AKT
|
|
|
Identification of key regulators of gene expression in mammalian oocyte and embryo
Jansová, Denisa ; Šušor, Andrej (advisor) ; Gahurová, Lenka (referee) ; Lin, Chih-Jen Lance (referee)
Mammalian oocyte is a highly differentiated cell which gives rise to an embryo after fertilization. Importantly, fully-grown oocytes become transcriptionally inactive at the end of the growth phase. During following stages of development, i. e. meiotic maturation of the oocyte and early embryonic development, only transcripts previously synthesized and stored are used. The tight correlation between mRNA distribution and subsequent protein localization and function provides a mechanism of spatial and temporal regulation of gene expression used by various cell types. However, not much is known about mRNA localization and translation in the mammalian oocyte and early embryo. The aim of my thesis was to determine the localization of transcripts and components of translational machinery in the mammalian oocyte and embryo and to uncover the mechanisms of spatiotemporal regulation of translation as a prerequisite for correct oocyte and embryo development. We have shown that nuclei of both mouse and human oocytes contain RNA molecules and RNA binding proteins. Following the nuclear envelope breakdown (NEBD), translational hot-spots occur in the area surrounding the nuclear region. We suppose that mRNAs previously retained in the nucleus are released to the cytoplasm during NEBD and their subsequent...
|
guest ::
