Mitochondria are complex small organelles of eukaryotic cells and build the cellular source of energy. Several morphological features of mitochondria such as the double membrane and the circular DNA structure… Click to show full abstract
Mitochondria are complex small organelles of eukaryotic cells and build the cellular source of energy. Several morphological features of mitochondria such as the double membrane and the circular DNA structure support the thesis that they originated from a prokaryotic eubacterial ancestor that has been taken up by the eukaryotic cell very early during the eukaryotic evolution. Since this "uptake-event" mitochondria were integrated into cellular processes and regulation which was realized by the transfer of mitochondrial genes into the host cell genome. 1 The mitochondrial genome reduced to for instance 13 encoded protein subunits of the oxidative phosphorylation system in human cells. Mitochondria offer energy for the cell by producing about 95% of cellular ATP.2 Nutrients, mainly pyruvate from the glycolysis enter the tricarboxylic acid cycle and undergo iterative oxidations whereas electrons are transferred to the reduction equivalents NADH and FADH2 . These redox equivalents transport electrons to the electron transport chain located on the inner mitochondrial membrane and protons are pumped into the perimembranal room. The F1 F0 -ATP synthase generates ATP driven by protons flowing down an electrochemical gradient during a process named oxidative phosphorylation. As a byproduct reactive oxygen species are generated. Mitochondria are more than simple batteries for the cell, they are furthermore involved in numerous vital cellular processes, among them are calcium homeostasis, cell death, fatty acid oxidation, reactive oxygen species (ROS) signaling, cholesterol synthesis and nucleotide synthesis, topics that are frequently published in Acta Physiologica.
               
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