2011
DOI: 10.1073/pnas.1101604108
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Evolution of the mitochondrial fusion–fission cycle and its role in aging

Abstract: Mitochondria are organelles of eukaryotic cells that contain their own genetic material and evolved from prokaryotic ancestors some 2 billion years ago. They are the main source of the cell's energy supply and are involved in such important processes as apoptosis, mitochondrial diseases, and aging. During recent years it also became apparent that mitochondria display a complex dynamical behavior of fission and fusion, the function of which is as yet unknown. In this paper we develop a concise theory that expla… Show more

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Cited by 120 publications
(117 citation statements)
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“…R. Soc. B 369: 20130442 [35]. In order to understand how this system might crumble and permit the accumulation of mutant mtDNA alleles, we first discuss if and under what conditions this system might actually work.…”
Section: Discussionmentioning
confidence: 99%
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“…R. Soc. B 369: 20130442 [35]. In order to understand how this system might crumble and permit the accumulation of mutant mtDNA alleles, we first discuss if and under what conditions this system might actually work.…”
Section: Discussionmentioning
confidence: 99%
“…The proton motive force, generated by the Figure 5. The organelle control theory predicts a 'leaky link' between genotype and phenotype [35]. The tight spatial organization of cristae combined with their microcompartment character leads automatically to such a connection, because the diffusion of mRNAs and proteins synthesized by different nucleoids, N, is impeded by these structures.…”
Section: Discussionmentioning
confidence: 99%
See 2 more Smart Citations
“…It might be instructive to list the other adaptations explained by enhanced endogenous ROS formation. The almost complete bacterial (mitochondrial) genome reduction as a result of migration of genes to the host genome can be understood as an 'escape' from the area flooded by ROS (the mitochondrial genome is attached to its internal membrane [49]) to a more distant area protected by the nuclear membrane. Thus, nuclear membrane formation itself could have come about under pressure of pre-mitochondrial ROS formation (but see also [50]).…”
Section: A 'Double Whammy': More Information To Protect Against More mentioning
confidence: 99%