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Biogenesis, structure and physiological functions of mitochondrial ATP synthase
Eliáš, Jan ; Mráček, Tomáš (advisor) ; Doležal, Pavel (referee)
Mammalian mitochondrial ATP synthase is an enzyme composed of 18 protein subunits, which is localised in the inner mitochondrial membrane. Its main function is to utilise proton gradient, produced by respiratory chain complexes (RCC), for the synthesis of ATP. Aside from the creation of ATP it is known that its dimers contribute to the correct mitochondrial morphology through the formation of cristae apexes. Furthermore, ATP synthase was proposed to have a role in the mitochondrial permeability transition phenomenon, which is important for regulation of programmed cell death. Over the recent years, our understanding of mammalian ATP synthase biogenesis has been tremendously improved. Its assembly process is now clarified, however the knowledge about assembly intermediates of its peripheral stalk and of subunit c are still not sufficient. We focused precisely on those unsolved questions in the fields of ATP synthase biogenesis and its secondary functions, by the production of a KO model of catalytic β subunit of mammalian ATP synthase F1 domain (βKO). This model was successfully prepared on the background of HEK293 cell line. Its characterisation revealed that disruption of the F1 structure resulted in the inability to assemble functional monomer and resulted in a decay of individual subunits. The only...
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Structure and physiological role of the mitochondrial permeability transition pore
Eliáš, Jan ; Mráček, Tomáš (advisor) ; Kalous, Martin (referee)
Mitochondrial permeability transition pore (mPTP) is Ca2+ dependent channel localised in the inner mitochondrial membrane. One of its defining characteristics is inhibition by nanomolar concentrations of immunosuppressant cyclosporine A (CsA). Together with additional interacting proteins, which regulate its opening, mPTP forms a permeability transition protein complex. Persistent opening of mPTP is accompanied by mitochondrial swelling and a subsequent collapse of organelle, which precedes release of proapoptotic proteins and programmed cell death. Channel forming unit of mPTP remains unknown, despite intense and long-lasting study. Numerous proteins were proposed to play a role of channel forming subunit of mPTP, including complex of ANT and VDAC, ANT alone, PiC or even ATP synthase. Despite the fact, that molecular structure remains elusive, mPTP seems to play a role in a range of pathophysiological processes or diseases associated with them. Among others this includes ischemia/reperfusion injury, neurological and muscle dystrophies, or tumorigenesis. Keywords: mitochondria, mitochondrial permeability transition pore, cyclosporine A, programmed cell death, ATP synthase, oxidative phosphorylation apparatus.
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