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Organelle proteomics of parasitic protists
Jedelský, Petr ; Tachezy, Jan (advisor) ; Kolářová, Libuše (referee) ; Půta, František (referee)
Advances in DNA sequencing led to a technological breakthrough, that allowed analyzis of complete genomes including those of parasitic protists Trichomonas vaginalis and Giardia intestinalis . These organisms are studied not only for their clinical importance, but also from the evolutionary point of view for their adaptation to anaerobic environment. Genome sequencing and annotations of predicted proteins alone did not bring detail view into functioning of their mitochondrion related organelles in G. intestinalis mitosomes, notparticipating in energetic metabolism, in T. vaginalis hydrogenosomes, producing molecular hydrogen and ATP by means of substrate phosphorylation. Traditional methods based on a fractionation by ultracentrifuging in density gradient and subsequent biochemical and enzymological analyzes were extended by one and twodimensional electrophoresis with subsequent identification of proteins by mass spectrometry. Methods of multidimensional separation of peptides produced by specific proteolysis of a complex mixture...
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Pyruvate:ferredoxin oxidoreductase homologues from Trichomonas vaginalis hydrogenosomes
Zedníková, Věra ; Hrdý, Ivan (advisor) ; Doležal, Pavel (referee)
Oxidative decarboxylation of pyruvate is a fundamental reaction of living organisms in general, leading to energy conservation. In some anaerobic or microaerophilic eukaryotic or prokaryotic organisms pyruvate decarboxylation is carried out by a single enzyme, pyruvate:ferredoxin oxidoreductase (PFO). PFO contains Fe-S clusters and thiamin pyrophosphate cofactor (TPP). In the reaction catalyzed by PFO, from pyruvate and Co-A arise acetyl-CoA, CO2, and two electrons are released. Those electrons are accepted by low molecular carrier proteins. Most frequently these proteins are ferredoxins or flavodoxins such as in nitrogen fixating bacteria. PFO can perform a reversible reaction. Trichomonads are mostly parasitic or endosymbiotic organisms with mitochondria-like organelles, hydrogenosomes. These organelles possess PFO which is one of the key enzymes in the metabolism of Trichomonas vaginalis hydrogenosomes. PFO of T. vaginalis, a sexually transmitted pathogen of man, plays also a role in a term of medical importance. PFO is, by a universally accepted concept, one of the key proteins acting in the activation of antimicrobial drugs against trichomoniasis 5-nitroimidazoles, including metronidazole. In the genome of T. vaginalis seven PFO genes were identified. They were named PFO A, B1, B2, C, D, E and...
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Prokaryotic proteins of antioxidant defense in Trichomonas vaginalis hydrogenosomes
Smutná, Tamara
Parasitic protists with modified mitochondria represent important and exciting group of organisms, not only from the view of eukaryotic cell evolution but also because these parasites are causative agents of serious and widespread diseases. The study and understanding of their biology is thus necessary for the development of new antiparasitic drugs. These organisms reside in host body cavities with low concentrations of oxygen and while they lack typical mitochondria, they possess mitochondrion-related organelles which still integrate many physiologically important processes. Trichomonas vaginalis is an anaerobic flagellate inhabiting mucosal surface of vagina. Instead of canonical mitochondria, T. vaginalis possesses organelles termed hydrogenosomes. These organelles harbor pathways of ATP-generating metabolism via substrate-level phosphorylation, dependent on enzymes prone to oxidative damage, such as pyruvate:ferredoxin oxidoreductase and Fe-Fe hydrogenase. Because the environment of trichomonads is not fully anaerobic, the parasite had to develop complex strategies to cope with both oxygen and reactive oxygen species (ROS) generated by host immune system cells. Recent data from T. vaginalis proteomic and genomic analyses revealed the presence of bacterial-type proteins potentially participating...
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Prokaryotic proteins of antioxidant defense in Trichomonas vaginalis hydrogenosomes
Smutná, Tamara
Parasitic protists with modified mitochondria represent important and exciting group of organisms, not only from the view of eukaryotic cell evolution but also because these parasites are causative agents of serious and widespread diseases. The study and understanding of their biology is thus necessary for the development of new antiparasitic drugs. These organisms reside in host body cavities with low concentrations of oxygen and while they lack typical mitochondria, they possess mitochondrion-related organelles which still integrate many physiologically important processes. Trichomonas vaginalis is an anaerobic flagellate inhabiting mucosal surface of vagina. Instead of canonical mitochondria, T. vaginalis possesses organelles termed hydrogenosomes. These organelles harbor pathways of ATP-generating metabolism via substrate-level phosphorylation, dependent on enzymes prone to oxidative damage, such as pyruvate:ferredoxin oxidoreductase and Fe-Fe hydrogenase. Because the environment of trichomonads is not fully anaerobic, the parasite had to develop complex strategies to cope with both oxygen and reactive oxygen species (ROS) generated by host immune system cells. Recent data from T. vaginalis proteomic and genomic analyses revealed the presence of bacterial-type proteins potentially participating...
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Organelle proteomics of parasitic protists
Jedelský, Petr ; Tachezy, Jan (advisor) ; Kolářová, Libuše (referee) ; Půta, František (referee)
Advances in DNA sequencing led to a technological breakthrough, that allowed analyzis of complete genomes including those of parasitic protists Trichomonas vaginalis and Giardia intestinalis . These organisms are studied not only for their clinical importance, but also from the evolutionary point of view for their adaptation to anaerobic environment. Genome sequencing and annotations of predicted proteins alone did not bring detail view into functioning of their mitochondrion related organelles in G. intestinalis mitosomes, notparticipating in energetic metabolism, in T. vaginalis hydrogenosomes, producing molecular hydrogen and ATP by means of substrate phosphorylation. Traditional methods based on a fractionation by ultracentrifuging in density gradient and subsequent biochemical and enzymological analyzes were extended by one and twodimensional electrophoresis with subsequent identification of proteins by mass spectrometry. Methods of multidimensional separation of peptides produced by specific proteolysis of a complex mixture...
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Prokaryotic proteins of antioxidant defense in Trichomonas vaginalis hydrogenosomes
Smutná, Tamara ; Hrdý, Ivan (advisor) ; Horváth, Anton (referee) ; Kopáček, Petr (referee)
Parasitic protists with modified mitochondria represent important and exciting group of organisms, not only from the view of eukaryotic cell evolution but also because these parasites are causative agents of serious and widespread diseases. The study and understanding of their biology is thus necessary for the development of new antiparasitic drugs. These organisms reside in host body cavities with low concentrations of oxygen and while they lack typical mitochondria, they possess mitochondrion-related organelles which still integrate many physiologically important processes. Trichomonas vaginalis is an anaerobic flagellate inhabiting mucosal surface of vagina. Instead of canonical mitochondria, T. vaginalis possesses organelles termed hydrogenosomes. These organelles harbor pathways of ATP-generating metabolism via substrate-level phosphorylation, dependent on enzymes prone to oxidative damage, such as pyruvate:ferredoxin oxidoreductase and Fe-Fe hydrogenase. Because the environment of trichomonads is not fully anaerobic, the parasite had to develop complex strategies to cope with both oxygen and reactive oxygen species (ROS) generated by host immune system cells. Recent data from T. vaginalis proteomic and genomic analyses revealed the presence of bacterial-type proteins potentially participating...
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Cytosolic hydrogenase in Trichomonas vaginalis
Dohnálková, Alena ; Hrdý, Ivan (advisor) ; Kalous, Martin (referee)
Trichomonas vaginalis is a flagellated microaerophilic protozoan from the group Excavata that cause trichomoniasis, the most common nonviral sexually transmitted disease in the world. This thesis deals with the study of hydrogenases, enzymes catalyzing reversible conversion of protons and electrons to molecular hydrogen. In T. vaginalis, hydrogenases have been identified so far only in hydrogenosomes, modified anaerobic mitochondia that are involved in energy metabolism. We proved the presence of this enzyme also in the cytosol of T. vaginalis. Among several hydrogenase paralogues present in the genome, we selected an appropriate gene for the putative cytosolic hydrogenase (C-Hyd) and verified its cytosolic localization in the cells with overexpressed C-Hyd protein. Based on the determination of hydrogenase activities in different cell compartments and fractions obtained by affinity chromatography, we demonstrated the hydrogenase activity of C-Hyd protein, which means that C-Hyd is a functional hydrogenase. Identification of hydrogenase in T. vaginalis cytosol changes our understanding of trichomonad core metabolism and opens the door for the research of unexplored metabolic capabilities of this parasite.
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Mitochondria of anaerobic protists
Stoklasa, Michal ; Tachezy, Jan (advisor) ; Rada, Petr (referee)
Mitochondria are organelles of endosymbiotic origin, known as the energy center of every eukaryotic cell. Main function is the production of adenosin triphosphate (ATP), which is used as an energy source for most metabolic reactions occuring in the cell. Furthermore, mitochondria play significant role in apoptosis and we can find here a number of biochemical pathways such as β-oxidation of fatty acids, synthesis of iron- sulfur clusters, heme, steroids etc. Most of the mitochondrial metabolic functions have been lost during the adaptation to oxygen-poor environment in some of the parasitic (Giardia intestinalis, Entamoeba histolytica) or free-living protists (Sawyeria marylandensis, Mastigamoeba balamuthi). These organisms possess reduced mitochondrial organelles such as hydrogenosome or mitosome. The aim of this thesis is to summarize the information about these reduced mitochondrial organelles of anaerobic protists and to describe their specific metabolism. Key words: mitochondrion, hydrogenosome, mitosome
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Reductive Evolution of Mitochondria - Related Organelles in Anaerobic Protist
Rada, Petr ; Tachezy, Jan (advisor) ; Embley, Martin (referee) ; Eliáš, Marek (referee)
Charles University in Prague, Faculty of Science Department of Parasitology Ph.D. study program: Parasitology Abstract of the Ph.D. Thesis Reductive Evolution of Mitochondria - Related Organelles in Anaerobic Protist Petr Rada Supervisor: Prof. RNDr. Jan Tachezy,Ph.D. Advisor: Doc. RNDr. Ivan Hrdý, Ph.D. Praha, 2011 1 ABSTRACT Trichomonas vaginalis and Giardia intestinalis are parasitic protists of the Excavata group. Both contain anaerobic forms of mitochondria called hydrogenosomes (Trichomonas) and mitosomes (Giardia). Hydrogenosomes produce hydrogen and ATP by substarte level phosphorylation and mitosomes represent the highly-reduced form of mitochondria that do not participate in cellular energy metabolism and ATP generation. Both types of organelles lost the majority of mitochondrial pathways and their genomes during the mitochondrion to hydrogenosome transition. Consequently, hydrogenosomes and mitosomes facilitate translocation of nuclearly encoded proteins into the matrix of the organelle as well as exchange of metabolites and ions across their membranes. Little is known about the membrane machineries required for the biogenesis of the organelle and metabolite exchange and the limited knowledge of mitosomal proteomes has been mostly gained from genomic analysis and localization studies of a few...
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Pyruvate:ferredoxin oxidoreductase homologues from Trichomonas vaginalis hydrogenosomes
Zedníková, Věra ; Hrdý, Ivan (advisor) ; Doležal, Pavel (referee)
Oxidative decarboxylation of pyruvate is a fundamental reaction of living organisms in general, leading to energy conservation. In some anaerobic or microaerophilic eukaryotic or prokaryotic organisms pyruvate decarboxylation is carried out by a single enzyme, pyruvate:ferredoxin oxidoreductase (PFO). PFO contains Fe-S clusters and thiamin pyrophosphate cofactor (TPP). In the reaction catalyzed by PFO, from pyruvate and Co-A arise acetyl-CoA, CO2, and two electrons are released. Those electrons are accepted by low molecular carrier proteins. Most frequently these proteins are ferredoxins or flavodoxins such as in nitrogen fixating bacteria. PFO can perform a reversible reaction. Trichomonads are mostly parasitic or endosymbiotic organisms with mitochondria-like organelles, hydrogenosomes. These organelles possess PFO which is one of the key enzymes in the metabolism of Trichomonas vaginalis hydrogenosomes. PFO of T. vaginalis, a sexually transmitted pathogen of man, plays also a role in a term of medical importance. PFO is, by a universally accepted concept, one of the key proteins acting in the activation of antimicrobial drugs against trichomoniasis 5-nitroimidazoles, including metronidazole. In the genome of T. vaginalis seven PFO genes were identified. They were named PFO A, B1, B2, C, D, E and...
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