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Recombinant expression of RhoA protein with affinity tag.
Filipová, Barbora ; Novák, Petr (advisor) ; Šulc, Miroslav (referee)
The rate of intestinal infections associated with antibiotics has been rising steeply. Virulent toxins of C. difficile, Yersinia and many other bacteria target the RhoA protein. The protein is a GTPase involved in signalling pathways, its major function being the regulation of the actin cytoskeleton. The above mentioned toxins render this protein non- functional, which may lead up to a fatal destruction of the cell. The present diagnostic methods of these infections are insufficient. The use of protein chips and mass spectrometry to detect any RhoA protein modifications seems to provide a feasible method of determining these intestinal bacterial diseases. Therefore the purpose of this study is to use recombinant methods to prepare the desired RhoA protein with a bound affinity probe which will serve to its immobilisation on a biochip. The thus prepared protein will be subsequently used to diagnose the previously described diseases. In Czech.
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A study of the temperature sensitivity of the human TRPA1 channel
Barvíková, Kristýna ; Šulc, Miroslav (advisor) ; Černá, Věra (referee)
Transient receptor potential (TRP) ion channels play important physiological roles in the detection of environmental stimuli that occur primarily at the peripheral terminals of specialized sensory neurons. The recently resolved cryo-electron microscopy structures and molecular biological techniques have provided new tools that enable to study these channels in relation to their function, and thus to understand more deeply their pharmacology and physiology. The aim of this bachelor thesis is to give an overview of the current status of research on the ankyrin TRP channel subtype 1 (TRPA1), a channel activated by diverse irritant chemical stimuli but also by temperature changes. The experimental part is focused on the elucidation of the role of the sensor domain in thermal sensitivity of the TRPA1 channel. Using whole-cell patch-clamp electrophysiological technique, the presented results demonstrate that the sensor is an important determinant of voltage-dependent gating. Mutation of the conserved tyrosine in the center of the sensor resulted in channels with clearly different activation kinetics and increased chemical responses upon increasing the temperature from 25 řC to 35 řC. Key words: TRP ion channel, ankyrin receptor, nociception, structure-function, carvacrol
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Structure-functional study of electrotransport protein systems
Tuzhilkin, Roman ; Šulc, Miroslav (advisor) ; Kukačka, Zdeněk (referee)
Electron transport processes are an extremely important field of study in modern biochemistry and structural/functional proteomics. Azurin is one of the most utilised model systems for study of redox and electron transport processes in proteins. We have utilised photo-induced crosslinking (PIXL) to study oligomerization of azurin in solution and the effect of L-2-amino-5,5-azi-hexanoic acid (photo-Met) - a structural photoinducible analogue of canonical amino acid Met - on electron transport processes in azurin. The optimisation of expression conditions of recombinant azurin in auxotrophic E. coli B834 cells was done to maximise photo-Met incorporation percentage in azurin sequence (70% incorporation was measured via MALDI-TOF mass spectrometry). Through the optimisation of purification protocol (example: cell disintegration, acid precipitation of proteins, adding metallic ligand during cell sonication) we have increased the purity and yield of final product and reduced the purification time. Final preparations (wild-type azurin (WT) with Met, WT with photo-Met and "All-Phe" mutant (all Trp/Tyr replaced by Phe) with photo-Met) were exposed to intense UV-light (PIXL) and evaluated via UV-VIS spectroscopy and SDS-PAGE. During PIXL experiment some photo-Mets incorporated into azurin were able to: (i)...
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Analogues of IGF-1 for the study of interactions of the hormone with the receptors for IGF-1 and insulin
Macháčková, Kateřina ; Jiráček, Jiří (advisor) ; Obšilová, Veronika (referee) ; Šulc, Miroslav (referee)
Insulin/IGF system is a complex network of three similar hormones (insulin, IGF-1 and IGF-2) and their three similar receptors (IR-A, IR-B and IGF-1R,), which play important roles in maintaining basal energy homeostasis of the organism, in growth, development, life-span but also in development of diseases such as diabetes mellitus, cancer, acromegaly or Laron dwarfism. Despite structural similarities between family members, each member have its unique role in the system. Identification of structural determinants in insulin and IGFs that trigger their specific signalling pathways is important for rational drug design for safer treatment of diabetes or for more efficient combating of cancer or growth-related disorders. In this thesis, we focused on identification of such structural determinants in IGF-1. Comparison of our data with parallel studies with IGF-2 and insulin could give a more complex picture of the problem. First of all, we developed necessary methodologies for the preparation of IGF-1 analogues. We developed a new methodology for the total chemical synthesis of IGF-1 analogues based on the solid-phase synthesis of fragments and their ligation by a CuI -catalyzed cycloaddition of azides and alkynes. In parallel, we developed a procedure for a recombinant production of IGF- 1 and its...
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Study of structure and interaction of human lymphocyte receptors
Bláha, Jan ; Vaněk, Ondřej (advisor) ; Šulc, Miroslav (referee) ; Obšil, Tomáš (referee)
Natural killer (NK) cells are an essential part of immune system, providing self-surveillance of virally infected, stress transformed or cancerous cells. NKR-P1 receptors and their ligands from clec2 gene family represent an alternate missing-self recognition system of NK cells based on interaction of highly related C-type lectin-like receptors. Human NKR-P1 has been described more than twenty years ago but still remains the sole human orthologue of this receptor family, particularly numerous in rodents. On binding to its cognate ligand LLT1, NKR-P1 can relay inhibitory or co-stimulatory signals. Although being interesting targets for their potential role in tumor immune evasion and autoimmunity, nature of their interaction is still unclear. To elucidate the architecture of their interaction, we developed a generally applicable method for recombinant expression of human NKR-P1 and LLT1 and their homologues based on transfection of HEK293S GnTI- cells. Further, we described a stabilizing mutation His176Cys, that enables for expression of highly stable and soluble LLT1. Finally, we have crystallized LLT1 and human NKR-P1 in different glycosylation states both as individuals and in complex. While both structures of LLT1 and NKR-P1 follow the classical C-type lectin-like superfamily fold, contrary to...
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Study of protein-protein interaction in bacterial pathogenesis: PIXL (photo-induced cross-linking) methodology
Žídek, Radek ; Šulc, Miroslav (advisor) ; Ječmen, Tomáš (referee)
Gramnegativní bakterie druhu Bordetella pertussis jsou původci smrtelného lidského onemocnění označovaného jako pertuse, častěji jako černý kašel. Tyto bakterie produkují adenylátcyklázový toxin (ACT), který se váže na povrch makrofágů a umožňuje vpravit do cytosolu hostitelské buňky přes cytoplazmatickou membránu adenylátcyklázovou doménu (dAC). Abychom mohli studovat kovalentní interakce mezi proteiny pomocí fotochemického zesítění, byl náš studovaný protein exprimován s foto-methioninem (kyselinou L-2-amino-5,5- azi-hexanovou) v kultivačním médiu v bakteriálním kmenu Escherichia coli B834 (DE3). Foto- methionin je netoxickým analogem L-methioninu, takže je normálně inkorporován pomocí aminoacyl-tRNA syntház do struktury adenylátcyklázové domény. Maximální míry inkorporace foto-methioninu do struktury dAC bylo dosaženo po optimalizaci celého expresního protokolu. Celková míra inkorporace foto-methioninu do struktury proteinu po optimalizaci zjištěná hmotnostně-spektrometrickou analýzou byla až 80 %. Získaný protein s inkorporovaným foto- methioninem byl izolován. Byly provedeny síťovací experimenty s kalmodulinem a vláknitým hemaglutininem. Při těchto experimentech bylo provedeno jak fotochemické, tak i chemické zesítění. Vzniklé kovalentně zesítěné produkty byly rozděleny pomocí SDS-PAGE a...
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Proteomic analysis of soluble and transmembrane proteins in human lymphoma cells
Vít, Ondřej ; Petrák, Jiří (advisor) ; Šulc, Miroslav (referee) ; Lenčo, Juraj (referee)
In the works presented here, we studied molecular changes associated with drug resistance in human mantle cell lymphoma (MCL) cells using proteomics. Our analyses allowed us to identify causal and/or secondary changes in protein expression associated with the development of resistance to the experimental drug TRAIL and the clinically used antimetabolites cytarabine and fludarabine. Resistance of MCL cells to the recombinant proapoptotic cytokine TRAIL was associated with downregulation of key enzymes of purine metabolism. This pathway potentially represents a molecular "weakness", which could be used as a therapeutic target for selective elimination of such resistant cells. Resistance to the pyrimidine analog drug cytarabine was associated with cross-resistance to other antinucleosides. Proteomic and transcriptomic analyses showed pronounced downregulation of deoxycytidine kinase (dCK), which activates both purine and pyrimidine antinucleosides. This change explains the cross-resistance and is the causal mechanism of resistance to cytarabine. Our observations suggest that MCL patients, who do not respond to cytarabine-based therapy, should be treated with non-nucleoside drugs. MCL cells resistant to purine-derived antinucleoside fludarabine were cross-resistant to all tested antinucleosides and...
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Metabolism adaptation to excercise
Nencini, Ricky ; Šulc, Miroslav (advisor) ; Stiborová, Marie (referee)
Skeletal muscles are remodeled in response to chronic exercise training. Training induces adaptations, which can be reflected by changes in contractile protein functi- ons, mitochondrial amount and functions and also in specific enzyme activity. Due to extensive training muscle proteins and enzymes permeate through sarcoplasm and can be detected at blood plasma. Six male rowers, 19,6 ˘ 2,1 years old (trained), six sedentary men, 20,2 ˘ 1,8 years old (untrained) were included within this report. Except mentioned groups, two individual clinical cases: one male user of androsten, 28 years old, and one male user of erythropoetin (EPO), 32 years old, were also included at this theses. To report any species influence, the groups (five females per group) of two domestic animal species (cow, pig) with different treatment (housed, outdoor) were also included. Blood concentration of erythrocytes, blood plasma concentration of proteins, acti- vity of lactatedehydrogenase (LDH), malatedehydrogenase (MDH) and enoyl-CoA- hydratase were measured as well as quantitative pattern of LDH izoenzymes. The only one difference for man was observed: a significantly higher concentration of plasma protein for untrained group. On the other hand, the outdoors cows had a significantly higher concentration of erythrocytes and activity...
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