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Studies of properties of gene products of the Merkel cell carcinoma polyomavirus: Antibody preparation and expression vector construction.
Sauerová, Pavla ; Forstová, Jitka (advisor) ; Němečková, Šárka (referee)
Merkel cell polyomavirus (MCPyV) is a recently discovered human virus, having it's genome often integrated in a genome of Merkel carcinoma cells. Although this type of carcinoma is not so usual, it is very aggressive and it's incidence has been rising in last few years. It is not surprising that this virus is nowadays in the centre of scientific interest, as well as other pathogens and mechanisms affecting human life. Because the virus was discovered not so long ago, its research has been at the whole beginning. This diploma thesisaims to contribute to the study of this virus from the molecular-virology point of view. A neutralizing monoclonal antibody, type IgG2a, targeted against the main capsid protein of MCPyV, VP1, and recognizing its conformational epitote was prepared. This antibody was then used for a pilot study of VP1 VLPs MCPyV movement in mammalian cells. Results showed that the studied virus, at least particularly, utilizes caveolin-1-carrying vesicles for its movement in cells (colocalisation of VP1 VLPs and caveolin-1 was observedColocalisation with EEA1 marker of early endosomes, LamP2 marker of endolysosomal compartments or with BiP marker of endoplasmic reticulum was sporadic but significant. These preliminary results suggest that MCPyV might utilise an endocytic pathway leading...
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Major structural protein of Polyomaviruses: Interactions with host cell structures
Mrkáček, Michal ; Horníková, Lenka (advisor) ; Němečková, Šárka (referee)
The main structural protein VP1 is the product of late polyomaviral genes and it is the largest and the most abundant protein of the whole polyomaviral capsid. Because of the low coding capacity of the polyomaviral genomes, it is considered that in addition to its structural role the VP1 protein might have some additional functions in the late phase of the infectious cycle. This diploma thesis is exactly on these additional functions. In the case of the VP1 protein of mouse polyomavirus, it was observed that the protein is capable of binding to the structure of cellular microtubules. The first objective of this work was to test whether pentamers of the VP1 protein are able of this binding without the participation of other cellular (or viral) proteins. Based on an in vitro experiment, we showed that protein VP1 binds to the structure of microtubules very inefficiently. The second objective of this work was to prepare a detection system that would allow an identification of potential interaction partners of BK polyomavirus VP1 protein. Therefore, expression plasmids producing the N and C-terminally tagged VP1 protein were prepared. These tagged proteins had the property of being biotinylated whilst being produced in the transfected cells. By using affinity chromatography, the entire protein complexes...
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Studies of properties of gene products of the Merkel cell carcinoma polyomavirus: Antibody preparation and expression vector construction.
Sauerová, Pavla ; Forstová, Jitka (advisor) ; Němečková, Šárka (referee)
Merkel cell polyomavirus (MCPyV) is a recently discovered human virus, having it's genome often integrated in a genome of Merkel carcinoma cells. Although this type of carcinoma is not so usual, it is very aggressive and it's incidence has been rising in last few years. It is not surprising that this virus is nowadays in the centre of scientific interest, as well as other pathogens and mechanisms affecting human life. Because the virus was discovered not so long ago, its research has been at the whole beginning. This diploma thesisaims to contribute to the study of this virus from the molecular-virology point of view. A neutralizing monoclonal antibody, type IgG2a, targeted against the main capsid protein of MCPyV, VP1, and recognizing its conformational epitote was prepared. This antibody was then used for a pilot study of VP1 VLPs MCPyV movement in mammalian cells. Results showed that the studied virus, at least particularly, utilizes caveolin-1-carrying vesicles for its movement in cells (colocalisation of VP1 VLPs and caveolin-1 was observedColocalisation with EEA1 marker of early endosomes, LamP2 marker of endolysosomal compartments or with BiP marker of endoplasmic reticulum was sporadic but significant. These preliminary results suggest that MCPyV might utilise an endocytic pathway leading...
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