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A Tool for Easily Securing Computers with Linux
Barabas, Maroš ; Hanáček, Petr (referee) ; Vojnar, Tomáš (advisor)
The purpose of this thesis is to explain new approaches to scanning and locking vulnerabilities in computer security and to design a new system to improve security of computers running the Linux operating system. The purpose of this system is to analyze remote operating systems and detect and lock down vulnerabilities by existing security standards.
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Cytokinines and their role in plant cell division, with accent on G2/M transition
Prášilová, Jana ; Ševčíková, Hana (advisor) ; Bíšová, Kateřina (referee)
The eukaryotic cell cycle is well understood mainly in yeasts and animals. Basic regulatory mechanisms, with cyclin-dependent kinases (CDKs) playing crucial roles, are similar in all eukaryotes including plants. CDKs operate mainly at the key cell cycle checkpoints, G1/S and G2/M. Phosphorylation and dephosphorylation of CDKs by kinases and phosphatases have both negative and positive effect. Negative regulator at the G2/M transition is WEE1 kinase which phosphorylates conserved amino acid residues T14 and Y15 of CDK. Phosphatase CDC25 removes this inhibitory phosphate in yeasts and animals and forces cells into mitosis. Plant cell cycle exhibits remarkable differences. Importantly, it is controlled by phytohormones, and some key points of regulation remain obscure - a functional plant homologue of yeast CDC25 phosphatase has not been found in plants yet though Y15 inhibitory phosphorylation by WEE1 kinase blocks mitosis entry in plants as well. Thus, the regulatory mechanism of G2/M transition in plant cells is still to be found. Phytohormones play a key role, not only in the plant cell cycle, but in whole plant development. Interplay between the two groups of phytohormones: auxins and cytokinins, is crucial. Especially cytokinins significantly influence the regulation of G2/M checkpoint. It is...
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A Tool for Easily Securing Computers with Linux
Barabas, Maroš ; Hanáček, Petr (referee) ; Vojnar, Tomáš (advisor)
The purpose of this thesis is to explain new approaches to scanning and locking vulnerabilities in computer security and to design a new system to improve security of computers running the Linux operating system. The purpose of this system is to analyze remote operating systems and detect and lock down vulnerabilities by existing security standards.
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Cytokinines and their role in plant cell division, with accent on G2/M transition
Prášilová, Jana ; Ševčíková, Hana (advisor) ; Bíšová, Kateřina (referee)
The eukaryotic cell cycle is well understood mainly in yeasts and animals. Basic regulatory mechanisms, with cyclin-dependent kinases (CDKs) playing crucial roles, are similar in all eukaryotes including plants. CDKs operate mainly at the key cell cycle checkpoints, G1/S and G2/M. Phosphorylation and dephosphorylation of CDKs by kinases and phosphatases have both negative and positive effect. Negative regulator at the G2/M transition is WEE1 kinase which phosphorylates conserved amino acid residues T14 and Y15 of CDK. Phosphatase CDC25 removes this inhibitory phosphate in yeasts and animals and forces cells into mitosis. Plant cell cycle exhibits remarkable differences. Importantly, it is controlled by phytohormones, and some key points of regulation remain obscure - a functional plant homologue of yeast CDC25 phosphatase has not been found in plants yet though Y15 inhibitory phosphorylation by WEE1 kinase blocks mitosis entry in plants as well. Thus, the regulatory mechanism of G2/M transition in plant cells is still to be found. Phytohormones play a key role, not only in the plant cell cycle, but in whole plant development. Interplay between the two groups of phytohormones: auxins and cytokinins, is crucial. Especially cytokinins significantly influence the regulation of G2/M checkpoint. It is...
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Molecular mechanisms of G2/M checkpoint regulation
Kořínková, Klára ; Macůrek, Libor (advisor) ; Forman, Martin (referee)
Cell division is necessary for maintaining tissue homoeostasis, but at the same time its defects are closely related to the development of many diseases including cancer and premature ageing. Activation of oncogenes leads to replication stress and directly threatens genome stability. The right control of transition between interphase and mitosis is an important mechanism for the protection of genome integrity. Nuclear division is only possible with those cells in which flawless duplication of genetic information occurred. By contrast, cells with damaged DNA structure remain temporarily or permanently stopped at G2 phase of the cell cycle. The topic of this thesis is a detailed literature overview with the subject of molecular mechanisms of the G2/M transition regulation under unperturbed conditions and in the presence of damaged DNA.
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Communication Strategy of Komerční banka, a.s. with a Focus on the Youngsters
Bartůňková, Eva ; Postler, Milan (advisor) ; Jelínková, Jitka (referee)
Thesis explores communication strategy of Komerční banka, a.s. with a focus on the Youngsters. The aim of this thesis is an analysis of previous and current campaigns, corroborated by original research. The thesis comprises six chapters, the first two chapters dealing with theory, the rest dealing with empirical findings. The first chapter discusses the difference between marketing and commercial communication and kinds of commercial communication; the second chapter delves into the issue of communication strategy, its types and development. The third chapter consists of a presentation of Komerční banka, a.s. including an evaluation of the competition; the subsequent chapter discusses the characteristics of the G2 brand, its target group and includes an SWOT analysis. The content of the fifth chapter is a description of previous communication and of new communication campaign of the G2 brand. In the conclusion of the thesis, research results are assessed and future steps are recommended.
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