|
|
Major capsid protein of polyomaviruses and its interactions with nuclear lamins
Žáčková, Sandra ; Horníková, Lenka (advisor) ; Šroller, Vojtěch (referee)
In this study, we focused on interactions of structural proteins of mouse polyomavirus (MPyV) and BK virus (BKV) with the nuclear lamina. Our goal was to examine whether and how can the virus, hence viral structural proteins, interact with the nuclear lamina and how would these interactions affect its properties. We supposed, that the expression of viral proteins would induce disintegration of the structure of nuclear lamina, thus enabling nuclear egress of virions in the late phase of infection. Viral structural proteins were expressed transiently in cells transfected with an expression vector pMPyV LATE. In these cells, VP1 was localized in a likewise manner as it shows in infected cells - mostly in a perinuclear area. Concurrently, defects in staining of nuclear lamina were observed in these cells, similarly to infected cells. Also, another expression vector was used in our experiments, the pMPyV mut3 VP1 encoding for a mutated protein VP1. When transiently expressed in cells, the mutated VP1 protein showed mostly diffuse nuclear localization. However, we observed significant morphological deformations and defective staining of the nuclear lamina. These observations imply an important role of VP1 in mechanical and biochemical properties alterations of the nuclear lamina in transfected and...
|
|
|
Development of the experimental system based on Cre/loxP recombination for polyomavirus mutant production.
Hron, Tomáš ; Španielová, Hana (advisor) ; Šroller, Vojtěch (referee)
Murine polyomavirus is an important member of Polyomaviridae family offering potential applications in gene therapy and immunotherapy. Viral mutant analysis is crucial for study of the virus, however, commonly used methods of its production are laborious and give low yields. This thesis involves development of the new experimental system that can produce intact viral genome from recombinant plasmid in vivo using Cre/loxP-mediated recombination. One loxP site is unavoidably introduced into newly generated viral genome during recombination. Two variants of production plasmids generating wild type viral genome with incorporation of loxP between the poly(A) signal sites of early and late genes or into the intronic region of early genes were prepared. LoxP insertion between the poly(A) signal sites has a dramatic effect on viral gene expression and leads to complete loss of virus infectivity. Conversely, the infectious virus was obtained from the viral genome containing loxP site in the early intronic region. To ensure expression of Cre recombinase I also prepared stably transfected cell lines which can simplify the virus production. This thesis shows that newly designed system gives satisfactory yield of the virus, solves restrictions connected with commonly used methods and can be used for low infectious viral...
|
guest ::
