Mitochondrial gene expression in trypanosomatids
Abstrakt
This thesis comprises of diverse projects all focused towards analysis of mitochondrial translation in unicellular parasites. As only two mitochondrially encoded genes are required during the life cycle stage when Trypanosoma brucei resides in the bloodstream of a mammalian host, this protist provides a simplified background in which to study mitochondrial translation termination phase. The leading project utilizes T. brucei to examine mitochondrial translation termination factor TbMrf1 by gene knockout. Subsequently, it is suggested that the peptidyl-tRNA hydrolase TbPth4 is able to abate the TbMrf1 knockout phenotype by its ability to rescue mitoribosomes that become stalled when TbMrf1 is absent. Additionally, modifying methyltransferase of TbMrf1, the TbMTQ1, was characterized. And finally, this work contributed to the development of the protein expression regulation method in Leishmania parasites, a protocol for measurement of proton pumping activity of FoF1 ATPase complex in native mitochondria, and optimization of purification protocol for hydrophobic recombinant proteins.
Kolekce
Související záznamy
Zobrazují se záznamy příbuzné na základě názvu, autora a předmětu.
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Unexpectedly Streamlined Mitochondrial Genome of the Euglenozoan Euglena gracilis
Dobáková, Eva; Flegontov, Pavel; Skalický, Tomáš; Lukeš, Julius (Oxford University Press, 2015)In this study, we describe the mitochondrial genome of the excavate flagellate Euglena gracilis. Its gene complement is reduced as compared with the well-studied sister groups Diplonemea and Kinetoplastea.We have identified ... -
The Diverged Trypanosome MICOS Complex as a Hub for Mitochondrial Cristae Shaping and Protein Import
Kaurov, Iosif; Vancová, Marie; Schimanski, Bernd; Cadena, Lawrence Rudy; Heller, Jiri; Bílý, Tomáš; Potesil, David; Eichenberger, Claudia; Bruce, Hannah; Oeljeklaus, Silke; Warscheid, Bettina; Zdrahal, Zbynek; Schneider, Andre; Lukeš, Julius; Hashimi, Mir Mohamod Hassan (Cell Press, 2018)The mitochondrial contact site and cristae organization system (MICOS) is a multiprotein complex responsible for cristae formation. Even though cristae are found in all mitochondria capable of oxidative phosphorylation, ... -
<i>Trypanosoma brucei</i> mitochondrial protein TbRGG1 is not essential for RNA editing <i>in vivo</i>
Hashimi, Mir Mohamod Hassan (Jihočeská univerzita, 2005)