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Preparation and preliminary characterization of the eukaryotic initiation factor 2α and its heme regulated kinase
Ovad, Tomáš ; Martínková, Markéta (advisor) ; Stráňava, Martin (referee)
Heme sensor proteins perform a variety of important functions in both prokaryotic and eukaryotic organisms. Heme-regulated inhibitor (HRI) is an example of a eukaryotic heme-sensor protein, which catalyzes the phosphorylation of the α subunit of the eukaryotic initiation factor 2 (eIF2α). In this bachelor thesis, the pET-21c(+)/eIF2α plasmid was amplified and its authenticity for the eIF2α expression was verified with the use of two independent methods. Next, HRI and eIF2α were produced using the recombinant expression in E. coli BL-21(DE3) cells transformed with the pET- 21c(+)/eIF2α and pET-21c(+)/HRI plasmid, respectively. Both proteins were then isolated from the cells and purified with the use of affinity chromatography and gel permeation chromatography. eIF2α was obtained in sufficient yield (560 μg out of 1 l of TB medium) and purity (90%). A lower yield (25 μg out of 1 l of TB medium) and purity (20%) was reached in the case of HRI. On the other hand, the authenticity of the HRI product was confirmed using spectrophotometric characterization and its enzyme activity was verified as well. Pilot experiments showed that GTP may replace ATP in the process of eIF2α phosphorylation, while UTP and CTP may not.
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Heme sensor proteins sensing both heme and CO
Andrlová, Dominika ; Martínková, Markéta (advisor) ; Libus, Jiří (referee)
Heme, a protoporhyrin IX iron complex, is an important component of many proteins necessary for oxygen transfer, storage and activation, as well as for electron transfer. Another group of hemoproteins includes heme sensor proteins. They are either capable of detecting heme itself, which can regulate in turn the sensor function (heme-responsive sensors) or heme forms a binding site for small gas molecules (O2, CO and NO) and the heme-based gas sensors are regulated by these diatomic gases. However, in the case of some proteins their classification is not clear showing a properties of both heme sensor proteins families. Their functions are regulated by heme interaction and a further change in their function after binding of a gas molecule to heme was observed. This summary search is focused on specific representatives of heme-responsive sensors (which function is regulated by heme binding), in which the further influence of the CO molecule on their functions have recently been observed. It is discussed whether some heme-responsive sensors are also heme-based CO sensors aiming the most recent findings about the selected specific heme sensors representatives. Key words: heme, heme sensor proteins, heme-based gas sensors, CO sensors, heme-responsive sensors, heme redox sensors
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Structure and function relationships of model hemoproteins
Lengálová, Alžběta ; Martínková, Markéta (advisor) ; Hudeček, Jiří (referee) ; Muchová, Lucie (referee)
Heme is one of the most important and most studied cofactors that are essential for proper function of many proteins. Heme-containing proteins comprise of a large group of biologically important molecules that are involved in many physiological processes. The presented dissertation is focused on two groups of heme sensor proteins, namely prokaryotic heme-based gas sensors and eukaryotic heme-responsive sensors. Heme-based gas sensors play an important role in regulation of many bacterial processes and consist usually of two domains, a sensor domain and a functional domain. The dissertation thesis aims at the study of two model bacterial heme-based gas sensors, histidine kinase AfGcHK and diguanylate cyclase YddV, in order to elucidate their mechanism of interdomain signal transduction. Using X-ray crystallography and hydrogen-deuterium exchange coupled to mass spectrometry approaches, significant differences in the structure of the AfGcHK protein between the active and inactive forms were described. The signal detection by the AfGcHK sensor domain affects the structural properties of the protein, and these conformational changes then have indirect impact on the enzyme activity of the functional domain. Further, the dissertation pays more attention to the effect of a sensor domain dimerization...
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Biochemical characterization of a model heme sensor protein
Tajovská, Eva ; Martínková, Markéta (advisor) ; Jeřábek, Petr (referee)
Hemoproteins play a lot of important roles within the living organism. One of these being the sensor function - heme sensor proteins are able to detect the changing concentration of heme in organisms. Heme itself serves as a signalling molecule for these proteins. Heme-based gas sensor proteins use a biatomic gas molecule as a signalling molecule. Signal transduction begins once the gas molecule is bound to the heme molecule which is already tightly bound in the protein sensing domain. Both these types of signalling regulate a number of physiological processes in the prokaryotic and eukaryotic organisms. The theoretical part of the bachelor thesis summarizes recent scientific studies on heme sensor proteins, while the experimental part focuses on the properties of a specific model sensor hemoprotein. A direct oxygen sensor from E. coli (EcDOS) was selected as a model protein. Furthermore, the thesis deals with a truncated form of the EcDOS protein, an isolated sensor domain with a PAS structure (EcDOS-PAS). The experimental part aimed at expressing and isolating of both mentioned proteins from E. coli BL-21 (DE3) cells. Finally, both the EcDOS and EcDOS-PAS proteins were preliminarily characterised and their properties compared. The yield of the EcDOS-PAS was several times higher than the yield of...
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Chemical and biochemical transformation of bioactive compounds
Šimášková, Ema ; Sokolová, Romana (advisor) ; Martínková, Markéta (referee)
Xenobiotics, such as pharmaceuticals, food additives, environmental pollutants, and dietary bioactive compounds in organism are metabolized by various enzymes, resulting in their bioactivation or detoxification. Identification of structure of resulting metabolites is important for their detection in bodily fluids and tissues for diagnostic and forensic purposes. This thesis reviews known biochemical processes and enzymes involved in xenobiotic metabolism, including cytochromes 450 (CYP) and flavine monooxygenases (FMO). Given that biochemical reactions are to a major extent composed of electron-transfer reactions (i.e. oxidation and reduction), the thesis includes a section dealing with the practical approaches to determination of the oxidative or reductive mechanism of bioactive compounds.
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Case Study of Physiotherapy Treatment of a Patient after Th/L Junction Stabilization
Martinková, Markéta ; Maršáková, Kateřina (advisor) ; Hamouzová, Dita (referee)
Autor: Markéta Martinková Title: Case Study of Physiotherapy Treatment of a Patient after Th/L Junction Stabilization Objectives: The main aim of this thesis is to gain theoretical knowledge about anatomy, biomechanics, spine construction and injury mechanisms. This bachelor thesis is dedicated to a solution to spine injuries, whether it's surgical or conservative. Common physiotherapeutic procedures used in the treatment of spinal injuries will be mentioned. Special part of this thesis is dedicated to physiotherapy care of a patient after spinal injury and after following stabilization of Th/L junction stabilization. I was working on this special part during my professional experience in the field. Key words: spine, stabilization, physiotherapy, case report
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