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Exploring novel strategies targeting HBV
Šmilauerová, Kristýna ; Grantz Šašková, Klára (advisor) ; Černý, Jan (referee)
An effective and safe vaccine against Hepatitis B virus already exists, yet morbidity and mortality of this illness are still high. The key to developing a reliable treatment is a deep knowledge of the virus' life cycle and functions of all its components. In the presented work we explored an interactome of the Core protein of the Hepatitis B virus. Using proximity-dependent biotin identification technique (BioID) coupled to mass spectrometry we have identified a list of potential candidates that are either significantly enriched (in total 105 proteins) or less abundant in the presence of the HBV Core protein in the cell (40 proteins). The list also includes known HBV Core interacting proteins SRPK1 and SRPK2, and p53 protein whose expression is known to be repressed due to the HBV Core interaction with the E2F1 transcription factor. Many of the newly identified possible HBV Core interacting proteins are involved in biological processes already known or are suspected to be influenced by the HBV such as translational and transporting processes or gene expression and macromolecule production. Overall, this work comprehensively characterizes the interaction landscape of the HBV Core protein in the live cells and might thus serve as a reliable start for in depth HBV-host interaction analysis. Key...
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Exploring novel strategies targeting HBV
Šmilauerová, Kristýna ; Grantz Šašková, Klára (advisor) ; Černý, Jan (referee)
An effective and safe vaccine against Hepatitis B virus already exists, yet morbidity and mortality of this illness are still high. The key to developing a reliable treatment is a deep knowledge of the virus' life cycle and functions of all its components. In the presented work we explored an interactome of the Core protein of the Hepatitis B virus. Using proximity-dependent biotin identification technique (BioID) coupled to mass spectrometry we have identified a list of potential candidates that are either significantly enriched (in total 105 proteins) or less abundant in the presence of the HBV Core protein in the cell (40 proteins). The list also includes known HBV Core interacting proteins SRPK1 and SRPK2, and p53 protein whose expression is known to be repressed due to the HBV Core interaction with the E2F1 transcription factor. Many of the newly identified possible HBV Core interacting proteins are involved in biological processes already known or are suspected to be influenced by the HBV such as translational and transporting processes or gene expression and macromolecule production. Overall, this work comprehensively characterizes the interaction landscape of the HBV Core protein in the live cells and might thus serve as a reliable start for in depth HBV-host interaction analysis. Key...
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Ddi1-like proteins: a novel family of retroviral-like aspartyl proteases
Šmilauerová, Kristýna ; Grantz Šašková, Klára (advisor) ; Šmahel, Michal (referee)
Ubiquitin-proteasome system is one of the key pathways which maintain cell homeostasis. Its purpose is to degrade damaged, misfolded or unnecessary proteins. It is also involved in multiple other processes such as DNA damage repair, cell cycle control or signaling. The entire system consists of multiple components, which are mutually strictly regulated. Important part of this system is group of so called proteasome adaptor proteins. Their role is to recognize and bind targeted substrates and transport them to the proteasome for degradation. Ddi1-like (abbrev. from DNA damage-inducible protein 1) protein family, a group of proteins with retroviral aspartyl protease-like domain, belongs to proteasome adaptor proteins. Global biological role of this protein family is only partially understood the most studied member is Ddi1 protein from Saccharomyces cerevisiae, and it is thus a subject of active research. This thesis summarizes published information about this protein family, describes its general characteristics and known functions, situates them in the context of cell processes and thereby might suggest the course of further study.
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