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The characterisation of sperm and seminal plasma glycoproteins: Their role within the tetraspanin network and male fertility
Páleníková, Veronika
Mgr. Veronika Páleníková only to describe the localization and heterodimerization of α3, α6, αV, β1, and β4 integrins in mentioned integrins. Importantly, we detected the presence of integrin β4 subunit in mouse sperm, and characterised that it forms functional heterodimer with α6 subunit. In tion, we described α6β1 and α3β1integrin pairs, which contribute to the integrity and complexity of sperm membranes. Moreover, we found that α6 integrin subunit interacts with proposed CD9 and CD81 as tetraspanin partners for αV integrin in tetraspanin web. Our goal
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The characterisation of sperm and seminal plasma glycoproteins: Their role within the tetraspanin network and male fertility
Páleníková, Veronika ; Postlerová, Pavla (advisor) ; Ryšlavá, Helena (referee) ; Pěknicová, Jana (referee)
Mgr. Veronika Páleníková only to describe the localization and heterodimerization of α3, α6, αV, β1, and β4 integrins in mentioned integrins. Importantly, we detected the presence of integrin β4 subunit in mouse sperm, and characterised that it forms functional heterodimer with α6 subunit. In tion, we described α6β1 and α3β1integrin pairs, which contribute to the integrity and complexity of sperm membranes. Moreover, we found that α6 integrin subunit interacts with proposed CD9 and CD81 as tetraspanin partners for αV integrin in tetraspanin web. Our goal
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Role of tetraspanin network during sperm-egg interaction and fusion
Černá, Pavlína ; Hortová, Kateřina (advisor) ; Petelák, Aleš (referee)
Fusion of sperm and egg is a crucial moment of the fertilization process which is fundamentally urged by tetraspanin superfamily proteins whose interactions allow mutual interaction of gamets and their subsequent fusion. Tetraspanins are 25-50 kD transmembrane proteins whose various kinds are found in most mammalian cells. Four transmembrane domains containing key amino acid residues indicating their function are their specificity. The essential feature of tetraspanins is their ability to form membranes lateral bonds which are reached thanks to large complexes with other proteins that form the so-called tetraspanin network. The interaction with other proteins and tetraspanins is important for a cell adhesion to the extracellular matrix, adhesion to the other cells, and it plays a role in signal transduction. This bachelor thesis describes and summarizes the role of tetraspanin networks during fusion of egg and sperm. A general introduction of tetraspanins, their structure and functions in cellular processes and interactions leading to the formation of tetraspanin networks which are the key point in fertilization, are given. A description of the fertilization process itself, the protein interactions and changes which precede it in included. The latest findings of the topic from the viewpoint of...
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