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Supercomplexes in the respiratory chain of mitochondria
Mikulová, Tereza ; Houštěk, Josef (advisor) ; Holzerová, Kristýna (referee)
Mitochondria are very important organelles of eukaryotic cell. In mitochondria, there are located many metabolic reactions including oxidative phosphorylation (OXPHOS). In this process, respiratory chain enzyme complexes couple the oxidation of NADH and FADH2 to vectorial proton transport across the inner mitochondrial membrane. ATP synthase then uses the resulting electrochemical potential to synthesize ATP from ADP and phosphate. Recent studies of the OXPHOS demonstrate higher structures of complexes so-called supercomplexes which facilitate substrate channeling. Formation of supercomplexes plays a role in the assembly and stability of the complexes, suggesting that the supercomplexes are the functional state of the respiratory chain.
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The content of components of ATP synthasome in different rat tissues and in patients with defects in ATP synthase
Mikulová, Tereza ; Houštěk, Josef (advisor) ; Kalous, Martin (referee)
The complexes of oxidative phosphorylation (OXPHOS) are situated in the inner mitochondrial membrane in higher structural and functional complexes, so-called supercomplexes, which facilitates substrate channeling. ATP synthase is also able to organize in higher structures. In mammalian mitochondria, ATP synthase is usually present in a dimeric form. There is evidence of its trimerization and even tetramerization. Furthermore, it seems that ATP synthase catalyzing the phosphorylation of ADP to ATP, adenine nucleotide translocator (ANT) ensuring the exchange of ADP for newly synthesized ATP across the inner mitochondrial membrane and phosphate carrier (PiC) allowing the import of inorganic phosphate (Pi) into the matrix of mitochondria are assembled in a supercomplex called ATP synthasome. This association among the components of phosphorylative apparatus seems to increase the efficiency of processes leading to the ATP synthesis. First, we studied amounts of the components of phosphorylative apparatus in connection with various ATP synthase contents among mitochondria isolated from nine rat tissues. Mitochondrial proteins were separated by denaturing electrophoresis (SDS-PAGE) and their content was analyzed using specific antibodies. In agreement with our expectations, the highest content of...
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The content of components of ATP synthasome in different rat tissues and in patients with defects in ATP synthase
Mikulová, Tereza ; Houštěk, Josef (advisor) ; Kalous, Martin (referee)
The complexes of oxidative phosphorylation (OXPHOS) are situated in the inner mitochondrial membrane in higher structural and functional complexes, so-called supercomplexes, which facilitates substrate channeling. ATP synthase is also able to organize in higher structures. In mammalian mitochondria, ATP synthase is usually present in a dimeric form. There is evidence of its trimerization and even tetramerization. Furthermore, it seems that ATP synthase catalyzing the phosphorylation of ADP to ATP, adenine nucleotide translocator (ANT) ensuring the exchange of ADP for newly synthesized ATP across the inner mitochondrial membrane and phosphate carrier (PiC) allowing the import of inorganic phosphate (Pi) into the matrix of mitochondria are assembled in a supercomplex called ATP synthasome. This association among the components of phosphorylative apparatus seems to increase the efficiency of processes leading to the ATP synthesis. First, we studied amounts of the components of phosphorylative apparatus in connection with various ATP synthase contents among mitochondria isolated from nine rat tissues. Mitochondrial proteins were separated by denaturing electrophoresis (SDS-PAGE) and their content was analyzed using specific antibodies. In agreement with our expectations, the highest content of...
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Supercomplexes in the respiratory chain of mitochondria
Mikulová, Tereza ; Holzerová, Kristýna (referee) ; Houštěk, Josef (advisor)
Mitochondria are very important organelles of eukaryotic cell. In mitochondria, there are located many metabolic reactions including oxidative phosphorylation (OXPHOS). In this process, respiratory chain enzyme complexes couple the oxidation of NADH and FADH2 to vectorial proton transport across the inner mitochondrial membrane. ATP synthase then uses the resulting electrochemical potential to synthesize ATP from ADP and phosphate. Recent studies of the OXPHOS demonstrate higher structures of complexes so-called supercomplexes which facilitate substrate channeling. Formation of supercomplexes plays a role in the assembly and stability of the complexes, suggesting that the supercomplexes are the functional state of the respiratory chain.
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