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Characterization of cofactor influence on protein structure using mass spectrometry
Rosůlek, Michal ; Novák, Petr (advisor) ; Vaněk, Ondřej (referee)
Bacterial protein WrbA from E. coli is the founding member of a new family of FMN-dependent NAD(P)H oxidoreductases, forming a functional and structural bridge between bacterial flavodoxin and certain mammalian NAD(P)H:quinone oxidoreductase. For these reasons, protein WrbA is recently intensively studied using various analytical and computing methods. Protein WrbA participates in the protection of cells against oxidative stress, but precise function of the protein WrbA in vivo is still unknown. Protein WrbA forms multimers in solutions. In μM concentrations and at low temperature (4 řC) the protein is in the form of a dimer, with increasing temperature becomes tetrameric. Available three-dimensional crystal structure contains the information about the tetrameric form of the protein, the dimeric form has not been structurally characterized. This thesis was focused on the study of the dynamic behavior of protein WrbA in solution using methods of hydrogen-deuterium exchange and chemical cross-linking followed by mass spectrometric analysis with high resolution (FT-ICR). Behavior of the protein was monitored according to the presence of cofactor FMN. Effect of temperature and protein concentration was also studied. Hydrogen-deuterium exchange provided information about solvent accessibility and...
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Production and secretion of virulence factors in Bordetella pertussis
Držmíšek, Jakub ; Večerek, Branislav (advisor) ; Petráčková, Denisa (referee)
Bordetella pertussis is a strictly human pathogen and causative agent of infectious respiratory disease called whooping cough. In order to establish successful infection and colonization of the host, B. pertussis uses a broad spectrum of virulence factors such as adhesins (filamentous hemagglutinin, pertactin, and fimbriae) and toxins (adenylate cyclase and pertussis toxins). In addition, the type 3 secretion system (T3SS) was also found in the genus Bordetella. In connection to our previous characterisation of B. pertussis strain lacking the gene encoding RNA chaperone Hfq (Δhfq), which proved that Hfq is required for T3SS functionality, the recombinant T3SS proteins BopB, BopD, BopC and BopN were purified to homogeneity. Next, the specific antibodies were obtained using purified recombinant proteins in order to study the production of the T3SS components in B. pertussis. Using refined anti- BopC antibodies it was for the first time shown that laboratory-adapted B. pertussis strain secretes BopC protein into medium. The recombinant translocators BopB and BopD were also used to examine their pore-forming activity using planar black lipid membranes. Based on the characterisation of hfq deletion mutant, having impaired production of membrane proteins when compared to the wild type, mass spectrometry...
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Characterization of cofactor influence on protein structure using mass spectrometry
Rosůlek, Michal ; Novák, Petr (advisor) ; Vaněk, Ondřej (referee)
Bacterial protein WrbA from E. coli is the founding member of a new family of FMN-dependent NAD(P)H oxidoreductases, forming a functional and structural bridge between bacterial flavodoxin and certain mammalian NAD(P)H:quinone oxidoreductase. For these reasons, protein WrbA is recently intensively studied using various analytical and computing methods. Protein WrbA participates in the protection of cells against oxidative stress, but precise function of the protein WrbA in vivo is still unknown. Protein WrbA forms multimers in solutions. In μM concentrations and at low temperature (4 řC) the protein is in the form of a dimer, with increasing temperature becomes tetrameric. Available three-dimensional crystal structure contains the information about the tetrameric form of the protein, the dimeric form has not been structurally characterized. This thesis was focused on the study of the dynamic behavior of protein WrbA in solution using methods of hydrogen-deuterium exchange and chemical cross-linking followed by mass spectrometric analysis with high resolution (FT-ICR). Behavior of the protein was monitored according to the presence of cofactor FMN. Effect of temperature and protein concentration was also studied. Hydrogen-deuterium exchange provided information about solvent accessibility and...
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Conformational changes of the membrane protein sensors
Sklenářová, Petra ; Konopásek, Ivo (advisor) ; Fraiberk, Martin (referee)
This work focuses on a structure and a function of prokaryotic signal systems. There are three types of signal systems in bacteria: one-component, two-component and three-component systems. These three systems differ with respect to their structure and number of protein components and domain. I have focused mainly on two-component systems in bacteria despite their occurrence has been confirmed also in lower eukaryotes. Prokaryotic two-component system are the main instruments which help bacteria to differentiate between different stimuli from the environment and to react to them. So far, there were described two types of two-component systems. The first one is the basic system and the second one is the phosphorelay system. Both types of two-component systems contain two indispensable proteins: histidine kinase and response regulator. They are different with respect to their domain structure of proteins and in a mechanism by which they transfer the signal. The signal transmission system consists of two or four steps in case of the basis or phosphorelay systems, respectively. The principle of the signal transmission is the same for both of them, a phosphate group from the histidine kinase is transferred to response regulator. In such manner, response regulator is activated by and is able to regulate the...
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