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Sperm cell penetration and membrane fusion with oocyte during fertilization in mammals
Klimková, Veronika ; Krylov, Vladimír (advisor) ; Frolíková, Michaela (referee)
Fertilization is a process involving multiple steps, which are in continuity and complement each other. Spermatozoa become competent to fertilize after capacitation, hyperactivation and acrosome reaction. Oocytes are surrounded by a layer of cumulus cells and give a signals for spermatozoa to activation and orientation. This study focuses on the latest knowledges about a roles of cumulus cells, production of chemoattractants and the possibility that cumulus cells induce the acrosome reaction after binding a novel sperm protein NYD-SP8 to the cumulus. It seems that progesterone induce the acrosome reaction and also is the best chemoattractant secreted by cumulus cells. Next I am focus on gamete fusion including the role of surface proteins such as Juno and IZUMO1. Key words: membrane fusion, cumulus cells, acrosome reaction, chemotaxis sperm, oocyte, fertilization
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Membrane interactions studied by advanced fluorescent techniques: From ions to macromolecules
Pokorná, Šárka ; Hudeček, Jiří (advisor) ; Konopásek, Ivo (referee) ; Benda, Aleš (referee)
Advanced fluorescence techniques were used to explore tree distinct topics concerning biological membrane and their interactions. Following thesis is according to the topic divided into three parts: 1) Ionic effects were studied employing time dependent fluorescence shift experiments and molecular dynamic simulations. Combination of these two approaches are suitable to reveal characteristic like mobility and hydration of particular bilayer segment, lipid packing or ion binding sites. Halide anions were reported to adsorb to the cationic lipid bilayer specifically, altering membrane mobility and organization. Changes in observed parameters follows Hofmeister order. Their effect is mediated either by direct ionic interaction (soft, polarizable ions) as well as via alteration of water structure (hard, non-polarizable ions) in proximity of ion molecule. Further, divalent calcium was shown to bind strongly to neutral and negatively charged lipid bilayers. Several types of binding sites depending on calcium concentration were identified. 2) Two complementary lipopeptides, CPK and CPE, incorporated into distinct lipid bilayers serve as a minimal model inducing membrane fusion. Effectiveness of fusion event might be influenced by lipopeptide-membrane and lipopeptide-lipopeptide interaction. To reveal...
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