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Unravelling molecular mechanisms of the abasic crosslink DNA repair
Hušková, Andrea ; Šilhán, Jan (advisor) ; Bařinka, Cyril (referee) ; Pavlíček, Jiří (referee)
4 Abstract DNA as the primary carrier of genetic information guarantees organisms to live, grow, develop and reproduce. However, this most vital molecule in the cell is subject to various damages every moment. If it is not repaired, the cell and the organism will eventually succumb to inevitable destruction. One of the most serious damages is abasic site interstrand crosslink (Ap-ICL). Ap-ICL is formed spontaneously when an abasic site covalently pairs with an adenine on the opposite strand. The lack of information on repair mechanisms, the influence of the local sequence and its stability leads to questions about the fate, toxicity and occurrence of these lesions in cells. During evolution, several mechanisms have evolved to repair these and other damages to ensure the organism's survival. A recently discovered pathway known to repair Ap-ICL is named after the DNA glycosylase responsible for removing Ap-ICL. NEIL3 DNA glycosylase is recruited to Ap-ICL by ubiquitylation of DNA helicase, which is part of the DNA replication complex. NEIL3 glycosylase contains several zinc-finger domains, that bind to the damaged DNA and ensure its catalytic function. The molecular mechanism of the NEIL3 glycosylase repair process is currently not known. In order to answer the aforementioned unknowns, the rate of formation,...
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Design and Implementation of SAP CAR with Automatic Disaster Recovery Function
Svitálek, Petr ; Dierzé, Lukáš (referee) ; Luhan, Jan (advisor)
The main purpose of this master's thesis is to propose and implement a SAP CAR (customer activity repository) solution as an application into the current enterprise information system. Following the analysis of the existing system, there will be a solution created, which is fulfilling the customer demands and at the same time it is feasible under given conditions and in the current environment. This project is closely related with addressing the disaster recovery issue for making the system highly available. The final design is implemented, tested and then handed over to the customer.
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Design of Distributed Filesystem
Ďulík, Jan ; Michal, Bohumil (referee) ; Kašpárek, Tomáš (advisor)
Main goal of this work is to design and implement distributed file system for storing data of project. There can be more geographical separated work groups involved in the project. Big deal is done with analysing the situations, which can occur while using the distributed file system. The work is concerned with choosing suitable data replication politic while considering miscellaneous work models and drain. The last part describes implementation of distributed file system for Linux operating system with use of FUSE and rsync.
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Simulated Fault-Injection in Network Communication
Rozsíval, Michal ; Rogalewicz, Adam (referee) ; Smrčka, Aleš (advisor)
The development of network applications takes place under ideal conditions, as opposed to deploying them in a real-world environment that contains vulnerabilities such as loss, latency, or cyber-attacks. Ensuring resilience against these vulnerabilities is thus crucial. This thesis introduces the NetLoiter, which aims to enable the simulation of the required vulnerabilities and thus allow developers to treat them correctly. The NetLoiter can be used in transparent (proxy server), hidden (captures communication directly from the system kernel), or hardware versions suitable for testing embedded systems. NetLoiter supports dynamic reconfiguration using a public interface that can be used to automate the testing process. NetLoiter has been successfully integrated and used in real projects.
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Database replication problematics
KARLÍČEK, Pavel
The focus of this work is to map the current state of procedures for data replication in relational databases and to analyze the possibility of replication innovation in the existing business process. In a comprehensive overview of methods, it describes the forms of replication, what data replication enables and offers. It also shows in which different scenarios it can be used and for what different purposes it is used. In the practical part, the work focuses on how to use replication in practice. It represents the point of view of a service organization technician managing the replication of the enterprise information system database Helios Green. The work analyzes the possibilities of innovating the existing procedures. In the conclusion, the thesis evaluates the possibilities of a progress in practice and seeks a balance between enthusiasm for new technologies and the necessary administrative skepticism.
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Effect of ADAR1 enzyme on hepatitis C virus life cycle
Kubů, Martin ; Vopálenský, Václav (advisor) ; Fraiberk, Martin (referee)
Hepatitis C virus (HCV) is a virus of the family Flaviviridae whose genome consists of ,,+RNA" molecule. It causes the disease hepatitis Cepatitida typu C, which affects tens of millions of people worldwide. Although there is an effective treatment for this type of hepatitis, a preventive vaccine against the HCV virus has not yet been developed. Several ambigious works focused on the relationship between HCV and the enzyme adenosine deaminase acting on double-stranded RNA 1 (ADAR1) were published in the past. This dimeric double-stranded RNA binding enzyme is a part of innate immunity and causes catalytic conversion of adenosine to inosine, which is recognized by cellular mechanisms as guanine, which ultimately leads to mutations in the affected dsRNA molecule. The works published so far attribute an antiviral function to the ADAR1 enzyme in the context of HCV infection. However, vectors containing the entire HCV genome were not used in these works, and a cell line with deletion od the ADAR1 gene has never been used so far. The actual relationship between the ADAR1 enzyme and the HCV virus has not yet been reliably verified. The aim of this thesis was to gain a deeper understanding of the relationship between the HCV virus and the ADAR1 enzyme. For this task, HCV permissive Huh7.5 cell lines with...
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Structural and functional study of viral RNA polymerases
Dubánková, Anna ; Bouřa, Evžen (advisor) ; Bařinka, Cyril (referee) ; Plevka, Pavel (referee)
Viral RNA-dependent RNA polymerases (RdRps) are enzymes essential for viral multiplication. The general function of RdRp is universal for all RNA viruses: to recognise viral RNA, bind it and synthesize the complementary RNA strand. This series of steps is absolutely crucial for viral infection. It is important to mention that the non-infected cell is incapable of replicating any RNA. The host cell thus does not naturally express any RdRps. I chose RdRps for my research because these enzymes are key to viral replication and thus an excellent target for antivirals. This study characterises polymerases from Picornaviridae and Flaviviridae families, in depth. Picornaviral replication takes place in viral-induced membrane structures called Replication Organelles (ROs), where the polymerase is localised to the membrane. In this study, we investigated the recruitment of picornaviral polymerase membrane. Subsequently, we focused on the activation of picornaviral RdRp induced by the insertion of the very first residue into the protein core. Next, we focused on the flaviviral RdRps specifically from yellow fever virus (YFV) and Zika virus (ZIKV). This study reports the first structure of a full length YFV polymerase and a model of ZIKV polymerase in complex with RNA. The model of ZIKV RdRp in complex with...
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Regulation of cell cycle in Bacillus subtilis.
Zelenka, Tomáš ; Lichá, Irena (advisor) ; Harant, Karel (referee)
2 Abstract Relations between several events running in bacterial cell during cell cycle were the subject of many studies during last years. More advanced techniques showed, that bacterial cell life has much more variable factors, than we supposed before. Relatively recent researches managed to reveal function and in few events molecular principle of several mechanisms coordinating those events such as progression of replication and its initiation, segregation of newly replicated chromosomes and after all synchronization of complex cell division machinery. Furthermore it showed variability of those events during changing living conditions of the cell. Keywords: Cell cycle, regulation, initiation, replication, segregation of chromosome, cytokinesis, Bacillus subtilis
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Replication and transcription of nucleolar DNA
Flusser, Michal ; Smirnov, Evgeny (advisor) ; Staněk, David (referee)
The nucleolus is the most prominent compartment of the cell nucleus and is the place where ribosomal RNAs (rRNAs) are synthesized, processed and assembled with ribosomal proteins. Although the nucleolus has been studied for decades its structural and functional organization is still unclear. In particular, the role of various types of DNA participating in the formation of nucleoli along with ribosomal genes is not understood. The present thesis summarizes the current knowledge and views on the nucleolus, focusing on the two synthetic processes, replication and transcription, in mammalian cells. Specific features of these processes in the context of nucleolar ultrastructure remains an unsolved problem of the modern molecular biology.
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State Space Symmetry Reduction for TBP Analysis
Černý, Ondřej ; Šerý, Ondřej (advisor) ; Poch, Tomáš (referee)
Threaded Behavioral Protocols (TBP) is a specification language for modelling the behavior of software components. This thesis aims at an analysis of TBP specifications within environments which involve an unbounded replication of threads. Such a TBP specification - together with a model of the possible environments - induces infinite state space which contains a vast amount of symmetries caused by thread replication. A model checking technique addressing such a state space and reducing the symmetries by using symbolic counter abstraction is proposed. In order to utilize the symbolic counter abstraction, the properties of the TBP specifications (called provisions) are converted into thread state reachability properties. The proposed analysis is safe in the sense that it discovers all errors in the model. On the other hand, it may yield spurious errors, i.e., errors that do not correspond to any real error in the model. The spurious errors are well identified and further possibilities to reduce them are outlined. Beyond the scope of the specific specifications, this work may also present a small step towards supporting dynamic thread creation in TBP.
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