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Comparative study of Trichomonas vaginalis strains with various level of metronidazole resistance
Havelka, Michal ; Tachezy, Jan (advisor) ; Kopáček, Petr (referee)
Trichomonas vaginalis is an anaerobic protozoan that causes the human disease trichomoniasis. The most commonly used drug against trichomoniasis is metronidazole. Metronidazole is highly effective, yet in some cases T. vaginalis is resistant to this drug. In T. vaginalis, we distinguish resistance to metronidazole into two types based on the conditions in which it occurs, aerobic and anaerobic resistance. Both types of resistance are associated with changes in the physiology of the parasite. The aim of this study was to characterize the changes in hydrogenosome and cytosol associated with metronidazole resistance at the proteome level in aerobically resistant clinical isolates, the aerobically resistant line MR3 and the anaerobically resistant line MR100. A further aim of this work was to characterize the function of hybrid- cluster protein and to clarify its role in resistance to metronidazole since its production is more abundant in both aerobically and anaerobically resistant T. vaginalis. This work contributed to identification of several potential proteins that could play a role in the development of metronidazole resistance and established a foothold for further metabolomic and biochemical studies of metronidazole resistant T.vaginalis.
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Mycobacterium smegmatis biofilm formation om glass and zirkonia beads-proteomic study
Sitařová, Barbora ; Weiser, Jaroslav (advisor) ; Zikánová, Blanka (referee)
Biofilms represent universal strategy for bacterial survival. Living in form of biofilms, bacteria acquire wide range of advantages over planktonically growing cultures. It can be assumed that nearly 99% of world bacterial population is living in form of biofilms. There are benefits and drawbacks associated with bacterial biofilms for mankind. Life in biofilms makes pathogens more effective and persistent through higher antibiotic resistance and helps them to hide before immune system of the host. Mycobacteria, which are capable of forming biofilms on variety of surfaces, differ from most of other bacteria by unique composition of their cell wall. It provides them with high resistance against physical or chemical damage. This is one of the reasons for considering Mycobacterium tuberculosis as a highly potent pathogen. The studies of mycobacterial biofilms are motivated by effort to improve or find new therapeutic methods. This work is aimed at morphological and proteomic comparative analyses of biofilms obtained from Mycobacterium smegmatis grown on surface of glass and silica/zirconium beads, on liquid medium surface or grown submerged in shaken planktonic culture. We have developed technique for preparation of "floating" biofilm sample to be observed in SEM. We have shown that the growth of...
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Amastigotes of various origins: comparison of proteome and development in a natural vector.
Pacáková, Lenka ; Leštinová, Tereza (advisor) ; Paris, Zdeněk (referee)
Amastigotes are forms of Leishmania, naturally occurring in vertebrate hosts within phagocytic cells - especially the macrophages. The aim of this project was to compare three types of amastigotes of Leishmania that can be used for experiments under laboratory conditions - namely the axenic amastigotes, cultured extracellularly (without vertebrate phagocytic cells), amastigotes isolated from macrophages infected ex vivo, and "true" amatigotes isolated from lesions of the infected BALB/c mice. Amastigotes were compared with respect to the development in the natural vector and at the proteome level. L. mexicana, the causative agent of cutaneous leishmaniasis in the New World, was chosen for this comparison. In experiments comparing the development of Leishmania in the natural vector Lu. longipalpis we found significantly weaker infections in the sand flies infected with axenic amastigotes compared to other types of amastigotes. In addition to the intensity of infection, we compared the localization of promastigotes in the digestive tract of the phlebotomine sand flies. The following localizations were observed: the abdomen, the thorax, the cardia and the stomodeal valve, which is crucial for infectivity of the sand fly. There was no significant difference in localization in any of the groups of...
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Study of the interaction between fungus Pleurotus ostreatus and bacterial cultures on the abiotic surfaces - morphological, biochemical and proteomic analysis
Kozická, Barbora ; Petráčková, Denisa (advisor) ; Konopásek, Ivo (referee)
Ligninolytic fungi are well known for their ability to degrade a wide range of xenobiotics contaminating the environment, including synthetic industrial dyes. In this work Pleurotus ostreatus was used for decolorization of a synthetic textile dye Remazol Brilliant Blue R (RBBR). To set up a model fungal "fixed-bed" bioreactor the fungus was immobilized on a polyurethane foam and artificially contaminated with a model bacterium Rhodococcus erythropolis. The development of bacterial contamination can be expected during a real application of fungal bio filters in wastewater treatment. The main aim of the work was to study interspecies interactions in the model bioreactors during the dye decolorization. Ligninolytic enzyme activities were followed in the bioreactor cultures as markers of fungal biodegradation ability. In contrast to the controls, no bacterial growth was observed in the P. ostreatus bioreactor culture liquid. The results showed that fungal laccase, pH of the culture liquid, and glucose consumption by the fungus had no effect on the bacterial growth. However, 4*105 - 1,3*106 CFU/ml of R. erythropolis was detected to be associated with the fungal solid support. The presence of these bacteria had no effect on the decolorization performance of the bioreactors. Dye decolorization efficiency...
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Morphological, physiological and proteomic changes of cereals under abiotic stress
Kantová, Anežka ; Vítámvás, Pavel (advisor) ; Hnilička, František (referee)
Cereals are among the oldest crops that have been grown and used by humans as important component of their diet. It is an important source of livelihood for the human population and have a wide range of uses, mainly in the food industry. Cereals generally serve as a source of energy in the diet, due to the high starch content. The most commonly grown types of cereals are especially wheat, barley, rye, rice, corn, but there may be other species such as oats and millet. However, even cereals do not avoid the problems associated with the action of abiotic stress factors. Their effect on all plants is manifested by a decrease in vitality, but in crops - such as cereals - mainly by a decrease in yield. Due to the reduction in yield, breeding of resistant cereal genotypes is now in the primary interest of breeders. This work summarizes the basic principles of the action of abiotic stress on plants and explains the reactions of various types of cereals to abiotic stress factors. Key words: proteome, physiology, cereals, abiotic stress, yield
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Function of PsbO isoforms
Duchoslav, Miloš ; Fischer, Lukáš (advisor) ; Špunda, Vladimír (referee) ; Sobotka, Roman (referee)
(English version) Oxygenic photosynthesis is crucial for most forms of the life on the Earth. The splitting of water and evolution of oxygen is conducted by photosystem II (PSII), a multi-subunit pigment- protein complex embedded in the thylakoid membrane. PsbO is an indispensable subunit of PSII, bound to its transmembrane subunits from the luminal side. The main function of PsbO is to stabilise and protect Mn4CaO5 cluster where the water splitting occurs. However, it has probably also some auxiliary functions. These additional functions might be different for isoforms of PsbO proteins, as suggested for Arabidopsis thaliana, which expresses two genes encoding protein isoforms PsbO1 and PsbO2. This thesis studies auxiliary functions of PsbO with a focus on functional differences between PsbO isoforms. We found that besides Arabidopsis thaliana, also many other plant species express two psbO genes. Interestingly, the duplication of psbO gene occurred many times independently, generally at the roots of modern angiosperm families. In spite of this, the PsbO isoforms differ at similar sites in the protein structure, suggesting that similar subfunctionalisation of PsbO isoforms occurred parallelly in various lineages. Biochemical characterisation of PsbO from green alga Chlamydomonas reinhardtii and...
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Mechanisms of microbiota regulation during the estrous cycle of the house mouse.
Dodoková, Alica ; Stopková, Romana (advisor) ; Janotová, Kateřina (referee)
There is a very few papers to provide an overview of the characteristics of the estrous cycle, the relationship of the estrous cycle to physiological manifestations such as the pH of the vaginal environment, as well as the dynamics of the vaginal microbiota in wild mice. The aim of this thesis is to contribute to the understanding of the dynamic relationship between external influences and the physiology of the female reproductive system, to develop a reliable methodology for measuring the pH of the vaginal microenvironment in mice as well as to quantify the overall abundance of some bacterial taxons by comparing sequencing and qPCR methods. The results suggest that the physical presence of the male in the cage has the most significant effect on the prolongation of the estrus phase, in contrast to non-significant olfactory stimulation of the urine. Fluctuation in the pH of the vaginal environment have also been shown to be cyclic, and the qPCR method shows that the composition of the vaginal microbiota, during the estrus phase, differs significantly from other phases of the estrous cycle, as we confirmed by 16S rRNA sequencing. Thus, these results provide a comprehensive view of the variability of the estrous cycle with an emphasis on the variability of the vaginal microbiota and the change in the...
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Variability of the domestic chicken breeds in selected immunological traits of hen and egg
Bílková, Barbora ; Vinkler, Michal (advisor) ; Plachý, Jiří (referee) ; Trefil, Pavel (referee)
The avian immune system is a complex system of defence mechanisms that protect bird hosts against threats from ubiquitous pathogens. According to the co-evolutionary models, variability in immune traits of hosts is the key component providing ability to adapt and enhance their defence mechanisms in presence of constant selective pathogen pressure. Domestic chicken (Gallus gallus f. domestica) is used as a model organism in avian biology and also is one of the most important food-producing animals, not only for their meat but also for the egg production. Unfortunately, in research usually only inbred chicken lines are used and modern poultry husbandry is tight with unilateral breeding towards highly productive breeds. Those approaches decrease intra-population polymorphism in chickens. However, especially in case of farm animals, searching and extending the pool of immune variability and enhancing pathogen resistance is crucial for sustaining healthy and biologically secure populations and their products. Morphologically highly distinct traditional chicken breeds, which have evolved for hundreds years under different selective pressures, may represent this desirable immunological variability. In my thesis I described variability in chosen immunological traits, haematological parameters and proteomic...
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Analysis and identification of proteins in organ dysfunction using proteomic methods
Tůma, Zdeněk ; Matějovič, Martin (advisor) ; Lopot, František (referee) ; Hernychová, Lenka (referee)
Proteomics is the large-scale study of proteins, particularly their structures and functions. Proteomics has been utilized in medicine for investigation of disease mechanisms and biomarker discovery. Instrumental methods cover sample preparation, protein and peptide separation and mass spectrometry. At present, there is no proteomic method that can be used as universal for every sample. Analytical methods need to be adapted and optimized for certain samples. The aim of this work was to create methodic procedures and to interpret results of experimental and clinical research. The first part of the thesis includes experiments utilizing proteomics to study changes in the plasma proteome clinically relevant porcine model of sepsis-induced peritonitis. Proteomic analyzes were also starting methodological strategies in experiments aimed at kidney physiology and pathophysiology of acute kidney injury during sepsis. Renal biopsies were analyzed in order to study the time course of proteome changes caused by sepsis and surgery. The second part of the thesis contains experiments studying biocompatibility. A method for elution of proteins interacting with adsorbents used in extracorporeal liver support system and with hemodialyzer capillaries was prepared. Analysis of proteins adsorbed to polysulfone...
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The role of evolutionarily conserved proteins BIR-1/Survivin and SKP-1 in the regulation of gene expression
Kostrouch, David ; Kostrouch, Zdeněk (advisor) ; Dráber, Pavel (referee) ; Pacák, Karel (referee)
SKIP and BIR/Survivin are evolutionarily conserved proteins. SKIP is a known transcription and splicing cofactor while BIR-1/Survivin regulates cell division, gene expression and development. Loss of function of C. elegans SKIP (SKP-1) and BIR-1 induces overlapping developmental phenotypes. In order to uncover the possible interactions of SKP-1 and BIR-1 on the protein level, we screened the complete C. elegans mRNA library using the yeast two-hybrid system. These experiments identified partially overlapping categories of proteins as SKP-1 and BIR-1 interactors. The interacting proteins included ribosomal proteins, transcription factors, translation factors and cytoskeletal and motor proteins suggesting involvement of the two studied proteins in multiple protein complexes. To visualize the effect of BIR-1 on the proteome of C. elegans we induced a short time pulse BIR-1 overexpression in synchronized L1 larvae. This led to a dramatic alteration of the whole proteome pattern indicating that BIR-1 alone has the capacity to alter the chromatographic profile of many target proteins including proteins found to be interactors in yeast two hybrid screens. The results were validated for ribosomal proteins RPS-3, RPL-5, non-muscle myosin and TAC-1, a transcription cofactor and a centrosome associated...
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