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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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Monitoring of protein network dynamics: the role of FcRL proteins during sperm-egg membrane interaction
Bašus, Kryštof ; Komrsková, Kateřina (advisor) ; Šušor, Andrej (referee)
Sperm--egg membrane interaction and fusion is mediated by various molecules of the different protein network that are located on both egg and sperm membrane. So far, many proteins have been selected to be fusion candidates, some of them (Izumo1, CD9, Juno) were proven to be essential, whereas others were discovered to play an unsuspected new active role (CD46, tetraspanins). After the adhesion of sperm to an egg, Juno located on the oolema associates with monomeric Izumo1 on sperm membrane, which is results in Izumo1 dimerization following quick removal of Juno from the egg surface as described in mouse. It implies that additional receptor on the egg membrane is required to play a role in sperm--egg fusion. To find a human fusogenic receptor for IZUMO1 protein we used one--bead--one--compound (OBOC) assay, a random screening approach. A bead, fulfilling all the requirements when interacting with the human sperm, carried a peptide sequence showing homology with the conserved Ig domain of the human specific Fc receptor--like protein 3 (FcRL3). In general, the ...
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Monitoring of protein network dynamics: the role of FcRL proteins during sperm-egg membrane interaction
Bašus, Kryštof ; Komrsková, Kateřina (advisor) ; Šušor, Andrej (referee)
Sperm--egg membrane interaction and fusion is mediated by various molecules of the different protein network that are located on both egg and sperm membrane. So far, many proteins have been selected to be fusion candidates, some of them (Izumo1, CD9, Juno) were proven to be essential, whereas others were discovered to play an unsuspected new active role (CD46, tetraspanins). After the adhesion of sperm to an egg, Juno located on the oolema associates with monomeric Izumo1 on sperm membrane, which is results in Izumo1 dimerization following quick removal of Juno from the egg surface as described in mouse. It implies that additional receptor on the egg membrane is required to play a role in sperm--egg fusion. To find a human fusogenic receptor for IZUMO1 protein we used one--bead--one--compound (OBOC) assay, a random screening approach. A bead, fulfilling all the requirements when interacting with the human sperm, carried a peptide sequence showing homology with the conserved Ig domain of the human specific Fc receptor--like protein 3 (FcRL3). In general, the ...
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The Molecular mechanisms of sperm-egg fusion in mouse
Klinovská, Karolína ; Hortová, Kateřina (advisor) ; Jonáková, Věra (referee)
The mechanism of gamete fusion remains largely unknown on molecular level despite its indisputable significance. A few molecules requisite for membrane interaction are known, among them IZUMO1 on sperm and tetraspanin CD9 on egg. A concept of a large multitprotein complex on both membranes forming a fusion machinery is recently emerging. CD9 is expected to play a role in organizing egg membrane order and to interact laterally with other factors. On the other hand, IZUMO1 contains one immunoglobulin (Ig) domain, which is known for its interaction with various molecules and thus is expected to have a binding partner on the egg membrane. Ig domains are known for their involvement in interactions with Fc receptors and Fc receptor-like molecules, which makes these a potential partner for sperm in gamete binding and fusion. Recent experiments identified Fc receptor-like 3 as a candidate binding partner for sperm by one-bead one-compound assay. The aim of presented study was to assess the localization of FCRL3 in mouse eggs, together with its potential co-localization with IZUMO1 on complexes of zona-free eggs with bound sperm. In this study, FCRL3 molecule has been found across the cytoplasm, possibly in the intracytoplasmic membrane compartments of the cell, as well as on the egg membrane. Its presence...
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