AbstractMitochondria are essential organelles within the cell where most of the energy production occurs by the oxidative phosphorylation system (OXPHOS). Critical components of the OXPHOS are encoded by the mitochondrial DNA (mtDNA) and therefore, mutations involving this genome can be deleterious to the cell. Post-mitotic tissues, such as muscle and brain, are most sensitive to mtDNA changes, due to their high energy requirements and non-proliferative status. It has been proposed that mtDNA biological features and location make it vulnerable to mutations, which accumulate over time. However, although the role of mtDNA damage has been conclusively connected to neuronal impairment in mitochondrial diseases, its role in age-related neurodege...
Mitochondria are remarkably dynamic organelles that migrate, divide and fuse. Cycles of mitochondria...
The small mammalian mitochondrial DNA (mtDNA) is very gene dense and encodes factors critical for ox...
As mitochondria are vulnerable to oxidative damage and represent the main source of reactive oxygen ...
AbstractMitochondria are essential organelles within the cell where most of the energy production oc...
A decline in mitochondrial function has long been shown to exist in neurodegenerative disease. Wheth...
AbstractMitochondrial dysfunction is observed in both the aging brain, and as a core feature of seve...
Mitochondria are involved in ATP supply to cells through oxidative phosphorylation (OXPHOS), synthes...
Because of their high-energy metabolism, neurons are strictly dependent on mitochondria, which gener...
Mutations in mitochondrial DNA cause a number of neurological diseases with defined neuropathology; ...
Because of their high-energy metabolism, neurons are strictly dependent on mitochondria, which gener...
[[abstract]]Mitochondrial dysfunction underlies several human chronic pathologies, including cardiov...
AbstractMitochondrial DNA mutations are an important cause of neurological disease. The clinical pre...
Due to external and internal exposures, cells accumulate enormous amounts of damage to DNA every day...
Mitochondria are remarkably dynamic organelles that migrate, divide and fuse. Cycles of mitochondria...
Mitochondria are critical in providing energy for neuronal development. They provide the majority of...
Mitochondria are remarkably dynamic organelles that migrate, divide and fuse. Cycles of mitochondria...
The small mammalian mitochondrial DNA (mtDNA) is very gene dense and encodes factors critical for ox...
As mitochondria are vulnerable to oxidative damage and represent the main source of reactive oxygen ...
AbstractMitochondria are essential organelles within the cell where most of the energy production oc...
A decline in mitochondrial function has long been shown to exist in neurodegenerative disease. Wheth...
AbstractMitochondrial dysfunction is observed in both the aging brain, and as a core feature of seve...
Mitochondria are involved in ATP supply to cells through oxidative phosphorylation (OXPHOS), synthes...
Because of their high-energy metabolism, neurons are strictly dependent on mitochondria, which gener...
Mutations in mitochondrial DNA cause a number of neurological diseases with defined neuropathology; ...
Because of their high-energy metabolism, neurons are strictly dependent on mitochondria, which gener...
[[abstract]]Mitochondrial dysfunction underlies several human chronic pathologies, including cardiov...
AbstractMitochondrial DNA mutations are an important cause of neurological disease. The clinical pre...
Due to external and internal exposures, cells accumulate enormous amounts of damage to DNA every day...
Mitochondria are remarkably dynamic organelles that migrate, divide and fuse. Cycles of mitochondria...
Mitochondria are critical in providing energy for neuronal development. They provide the majority of...
Mitochondria are remarkably dynamic organelles that migrate, divide and fuse. Cycles of mitochondria...
The small mammalian mitochondrial DNA (mtDNA) is very gene dense and encodes factors critical for ox...
As mitochondria are vulnerable to oxidative damage and represent the main source of reactive oxygen ...