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Characterisation of novel mitochondrial proteins in \kur{Trypanosoma brucei}
RAŠKOVÁ, Vendula
This study analyses and characterises novel mitochondrial proteins in the parasitic protist Trypanosoma brucei. Applying phylogenetic analysis was described the evolutionary origin of ZapE protein in eukaryotes, using a newly developed proximity-dependent biotinylation approach (BioID2) we identified ZapE interaction partners like Oxa1. We also discovered a relationship when distribution of mitochondrial ZapE is restricted only to organisms with Oxa1, respiratory complexes, and a mitochondrial genome. TbPams were detected by phylogenetic analyses as orthologs of corresponding proteins in Opistokonts. We analyse the function of TbPam18 and TbPam16 in the replication of the mitochondrial DNA and determine, how the TMDs of TbPam18 and TbPam16 are essential for their functions. Finally, we evaluated a set of putative mitochondrial proteins of the heterolobosean N. gruberi defined by Localisation of Organelle Proteins by Isotope Tagging (LOPIT) and analyse the origin of mtFfh and mtFtsY.
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High-throughput analysis of uridine insertion and deletion RNA editing in \kur{Perkinsela}
DAVID, Vojtěch
This thesis is a follow-up of my Bachelor thesis about the mitochondrial genome of kinetoplastid protist Perkinsela sp. This work introduces a novel approach in high-throughput analysis method of uridine insertion and deletion RNA editing, describes its background and proposes its further development. Its effect on the interpretation of U-indel editing, both in Perkinsela and in general, is demonstrated via attached manuscript which also introduces other biologically relevant aspects of Perkinsela mitochondrion.
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Kinetoplastids biology, from the group phylogeny and evolution into the secrets of the mitochondrion of one representative: \kur{Trypanosoma brucei}, the model organism in which new roles of the evolutionary conserved genes can be explored
TÝČ, Jiří
This thesis is composed of two topics, for which trypanosomatids and evolution are common denominators. First part deals with phylogenetic relationships among monoxenous trypanosomatids, with emphasis on flagellates parasitizing dipteran hosts, analyzed mainly from biogeographical and evolutionary perspectives. Second part focuses on the trypanosomatid Trypanosoma brucei, causative agent of severe diseases, which serves as a model organism for functional studies of evolutionary conserved mitochondrial proteins, in particular those involved in replication, maintenance and expression of the mitochondrial genome, also termed the kinetoplast. This thesis identified the mtHsp70/mtHsp40 chaperone machinery as an essential component of replication and maintenance of the kinetoplast, and also identified numerous conditions under which mtHsp70 has a tendency to aggregate. Moreover, several conserved proteins, previously identified to be part of the mitochondrial ribosome, were shown to be important for translation of the mitochondrial transcripts.
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Assembly and annotation of a mitochondrial genome of kinetoplastid protist \kur{Perkinsela}.
DAVID, Vojtěch
This thesis is based on a collaborative project between Laboratory of Molecular Biology of Protists led by Prof. Julius Lukeš and the laboratory of John Archibald (Department of Biochemistry & Molecular Biology, Dalhousie University, Canada). My contribution to the project, as the name of the thesis suggests is to process DNA and RNA sequencing data from Neoparamoeba pemaquidensis isolate that correspond to the mitochondrion of Perkinsela, also called Ichthyobodo-related organism (IRO). The main aim is to characterize mitochondrial gene content and to attempt to understand the mechanism of U-insertion/deletion RNA editing in Perkinsela and its evolution.
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