|
|
Study of mechanism of signal transduction in case of two model heme-containing sensor proteins
Mihalčin, Peter ; Martínková, Markéta (advisor) ; Kavan, Daniel (referee)
Heme-based gas sensing proteins belong to a group of proteins that are present in signalling pathways of bacteria. A precise regulation of physiological functions, such as intercellular communication or biofilm production, is essential for the survival of these bacteria and their adaptation to the changing surrounding conditions. Heme-based gas sensors are able to detect the concentration of gas molecules in the local environment via their sensory domain (which contains a heme molecule as the intrinsic detection site) and transmit the signal to the functional domain helping to regulate the adaptation of many processes. These, often pathogenic, processes contribute to extended resistance of bacteria against antibiotics. Heme-based sensors are thus potentially a new therapeutic object of interest in antimicrobial treatment. In order to provide this type of treatment, it is crucial to understand the exact mechanism of intramolecular signal transduction facilitated by heme-based sensors. One of the approaches to unravel these mechanisms is further study of model sensory proteins. This thesis focuses on the analysis of a signal transduction performed by two model globin-coupled heme-based oxygen sensors.
|
|
|
Characterization of selected properties of model heme-containing sensor proteins
Fojtík, Lukáš ; Martínková, Markéta (advisor) ; Svášková, Dagmar (referee)
Heme sensor proteins are the fourth group of hemoproteins. In this group of hemoproteins heme plays an important role in signalization. Dissociation and/or association of heme detecting proteins serves as an important physiological function in regulation of enzyme activity or gene expression. In this bachelor thesis all the actual knowledge about selected forms of eukaryotic heme sensor proteins previously published in scientific articles are summarized. The experimental part of this bachelor thesis is focused on preparation of recombinant protein heme regulated inhibitor (HRI) and its substrate eukaryotic translation initiation factor 2 alpha (eIF2α). Firstly the preparation of the plasmids with genes HRI and eIF2α was conducted. In the next step these proteins were prepared in prokaryotic system formed by E. coli BL-21(DE3). The final sample of HRI (7,7 μM in total volume 400 µl and 60 % of homogenity) and the final sample of eIF2α (51,3 μM in total volume 400 µl and 80 % of homogenity) were obtained by the purification process. The study of thermal stability of these samples provided important informations on appropiate storage and manipulation with them in further experiments. Key words: heme-base sensors, heme, kinase, tranduction of signal, isolation of plasmids, prokaryotic expresion,...
|
|
|
Evolution of the Heme Biosynthetic Pathway in Eukaryotic Phototrophs
CIHLÁŘ, Jaromír
This thesis is devoted to the evolution of the heme biosynthetic pathway in eukaryotic phototrophs with particular emphasis on algae possessing secondary and tertiary red and green derived plastids. Based on molecular biology and bioinformatics approaches it explores the diversity and similarities in heme biosynthesis among different algae. The core study of this thesis describes the heme biosynthesis in Bigelowiella natans and Guillardia theta, algae containing a remnant endosymbiont nucleus within their plastids, in dinoflagellates containing tertiary endosymbionts derived from diatoms called dinotoms, and in Lepidodinium chlorophorum, a dinoflagellate containing a secondary green plastid. The thesis further focusses on new insights in the heme biosynthetic pathway and general origin of the genes in chromerids the group of free-living algae closely related to apicomplexan parasites.
|
|
|
Preparation of a plasmid, its expression and preliminary isolation of MafK protein - the interacting partner of heme sensor Bach1
Mihalčin, Peter ; Martínková, Markéta (advisor) ; Stráňava, Martin (referee)
Bakalárska práca Abstract Heme-sensing proteins are heme proteins to which heme serves as a signalling molecule. Association or dissociation of heme moiety and heme-sensing proteins influences various physiological functions, such as enzyme activity or gene expression regulated by these heme-sensing proteins. The main object of this thesis is heme-sensing protein Bach1 and its interaction partner, transcription factor MafK. Bach1 refers to the group of transcription factors involved in repression of gene expression. The target genes of Bach1 regulation are hemeoxygenase genes. Hemeoxygenase controls the excess free heme degradation. Due to the excess of free heme in the cell, Bach1-heme interaction inactivates Bach1 controlled repression of hemeoxygenase resulting in the free heme degradation. In the state of physiological free heme concentration, Bach1-heme interaction does not occur and activated Bach1 represses the hemeoxygenase expression via binding to the target gene enhancers. Bach1 is incapable of making efficient Bach1-DNA bonding by itself, therefore the transcription factor MafK is essential. Protein MafK modulates the Bach1-DNA binding by making the heterodimer formation Bach1-MafK, which binds to DNA. The first aim of this thesis is to summarize the recent knowledge about transcriptional...
|
|
|
The role of iron in the metabolism of the amoeba Naegleria gruberi
Ženíšková, Kateřina ; Konvalinka, Jan (advisor) ; Hlouchová, Klára (referee)
Iron is a biogenic trace element that is vital for all organisms on the planet Earth. This element occurs in biological systems in the form of Fe3+ and Fe2+. These two forms are often incorporated in heme structures or iron-sulfur clusters. Proteins containing iron ions have a wide range of functions in organisms. The main functions include the transport of electrons in the respiratory chain (Rieske's proteins, cytochromes), DNA synthesis (ribonucleotide reductase) and the participation in the Krebs' cycle (aconitase, succinate dehydrogenase). Naegleria gruberi is a nonpathogenic amoeba known for its pathogenic relative Naegleria fowleri. This organism causes the primary amoebic meningoencephalitis. An interesting fact about Naegleria gruberi genome is that it contains genes for both aerobic and anaerobic metabolisms. The purpose of my bachelor work was to investigate the effect of availability of iron ions on metabolism in Naegleria gruberi. Changes in the activities of enzymes from different metabolic pathways were studied including lactate dehydrogenase, isocitrate dehydrogenase, Fe- hydrogenase, aconitase and fumarase. The most significant changes were observed in the activities of alcohol dehydrogenase and Fe-hydrogenase. Key words: Iron, heme, iron-sulfur clusters, availability of iron ions,...
|
|
|
Iron and copper metabolism in marine microalgae of the genus Ostreococcus
Pilátová, Jana ; Šuťák, Róbert (advisor) ; Falteisek, Lukáš (referee)
The smallest free living eukaryote known as Ostreococcus tauri became along with some related species great experimental models for iron uptake research in marine picoplankton. The ecological context of such topic is very interesting considering the nature of adaptation to iron limitation and its connection to the copper metabolism. Our experiments has simulated iron and copper limiting conditions of the ocean, as a control we used iron and copper repleted cultivation media. The maximum cell counts were two- to threefold higher in iron-repleted medium compared to iron- depleted one. There was the only exception showing no difference in growth - O. lucimarinus coming from open ocean with high irradiance levels and very low iron concentrations, which all together made it the best adapted species. The reinoculation of cell cultures after a week cultivation into to the same iron/copper containing media led to unmasking the copper effect on growth, which was much weaker than encountered with iron (again except of O. lucimarinus). Iron sufficiency positively affects heme b and chlorophyll a and b content with no significant copper dependency. The circadian timing of heme b and chlorophyll a and b content shows the increasing trend during the day followed by decrease at night. This might be caused by...
|
|
|
Effect of sodium sulfide on the propreties of model globine-coupled heme-containing sensor proteins
Bartošová, Martina ; Martínková, Markéta (advisor) ; Man, Petr (referee)
Hydrogen sulfide mediates various physiological functions and along with carbon monoxide and nitric oxide it is an important gaseous signaling molecule. Cellular targets for H2S are proteins, enzymes, transcriptional factors or ion channels. In many cases, the effect of H2S on the regulatory protein is mediated by modifications of its cystein residues. In hemeproteins, the regulation of catalytic activity is induced by formation of the Fe(III)-SH complex or by reduction of the heme iron with subsequent formation of Fe(II)-O2 complex. The effect of Na2S on model sensor heme-containing proteins is presented in this thesis. Protein, isolated from bacterium Anaeromyxobacter sp. strain FW109-5, containing a globine coupled sensor domain and a histidine kinase domain is one of the studied proteins, the second one is protein isolated from bacterium Escherichie coli, containing a globine coupled sensor domain and a diguanylate cyclase domain. The effect of Na2S on both model proteins and their mutants was studied by UV-Vis spectral analysis. Spectra of YddV-HD Y43A were very unique, because thery confirmed formation of a homogenous complex Fe(III)-SH in this protein, whereas only mixtures of varous heme complexes were detected in other tested proteins. Additionally the effect of Na2S on functional domain...
|
|
|
Important roles of heme as a signal and a gas-sensing site: heme-sensing and gas-sensing proteins
Fojtíková, Veronika ; Martínková, Markéta (advisor) ; Hudeček, Jiří (referee)
Heme-containing sensor proteins are heme proteins, which are divided into two groups: heme-sensing and gas-sensing proteins. The function of heme-sensing proteins is affected by heme availability. Association (or dissociation) of heme moiety of heme-sensing protein regulates various physiological functions, including protein kinase activity, transcription and other important functions essential for cell survival. In gas-sensing proteins, heme acts as the sensing site for binding of gaseous molecules (including O2, NO and CO) and indirectly regulates physiological functions, including protein kinase activity, transcription and other important functions essential for cell survival. The recent studies on heme-containing senzor proteins published in scientific journals are summarized in this thesis. The experimental part of this thesis focused on the specific heme-containing sensor protein - a globin-coupled histidine kinase from Anaeromyxobacter sp. strain Fw 109-5 (AfGcHK). The aim of this thesis was to amplified and isolate plasmid carrying gen for AfGcHK. Consequently the protein was expressed in E.coli BL-21(DE3) and the protein was isolated. Based on the results, the isolation process was optimized. Moreover, the purified preparation of isolated AfGcHK was prepared in more than 99% of homogeneity....
|
|
|
Influence of dietary components and redox enzymes on intestinal microbiota proliferation in the tick \kur{Ixodes ricinus}
KUČERA, Matěj
In this work, we have analysed the temporal dynamics of gut-dwelling bacteria and Borrelia in the gut of the deer tick Ixodes ricinus. Using quantitative PCR, we have shown that levels of the tick intestinal microflora are profoundly decreased at later stages of feeding on whole blood but not on serum. Even though we noted that host complement system manages to interfere with Borrelia viability in vitro, we did not see any effect of host complement on Borrelia acquisition in adult ticks in vivo. However, we revealed that host hemoglobin is essential for Borrelia proliferation in the tick gut. All together, these data imply that, during feeding, levels of gut-dwelling bacteria and Borrelia are determined by the host. While hemoglobin seems to be detrimental for gut-dwelling bacteria, Borrelia require it in order to proliferate. During off-host stage, we showed that levels of gut-dwelling microflora are regulated by an intestinal transmembrane enzyme Dual oxidase. In conclusion, we aimed, and mostly succeeded, to perform pilot experiments describing the biology of a complex process of regulating gut microflora in the vector Ixodes ricinus and extend it by its impact on Borrelia acquisition
|
|
|
Formation of Fe-S clusters in the mitochondrion of Trypanosoma brucei
CHANGMAI, Piya
This thesis focuses on iron sulfur (Fe-S) cluster biogenesis by the ISC machinery in the mitochondrion of Trypanosoma brucei. Most of proteins in the pathway show conserved functions, while some features are distinct from their counterparts in other organisms. We also show here the essentiality of the ISC machinery in bloodstream stage despite the fact that the parasites contain the rudimentary mitochondrion in this stage. The key player for the ISC export machinery, which is indispensable in the maturation of extra-mitochondrial Fe-S proteins, shows some extraordinary phenomena which may imply the moonlighting function of the protein. I also show preliminary data of an ongoing project concerning a putative heme transporter. The results indicate role in heme uptake of the protein, but further study is required to confirm the function of the protein.
|
guest ::
