Mitochondrial dysfunction is associated with various chronic diseases and cancers, including neurodegenerative diseases and ...

Prof. Ciro Leonardo Pierri's expertise in structural biology, mitochondrial carrier modeling, and drug targeting—demonstrated ...

Scientists have discovered that boosting the COX7RP protein enhances cellular energy efficiency and significantly extends ...

New Review Integrates Human, Animal, and Cellular Evidence to Reframe AD as a Triad-Centered Disorder Alzheimer’s disease (AD ...

U.S. Patent No. 12,329,781 relates to Minovia’s proprietary mitochondrial augmentation technology for the treatment of renal diseases, including renal tubulopathy, kidney insufficiency, and chronic ...

A new study reveals that nerve cells receive periodic infusions of mitochondria from neighboring cells — and this may point ...

A team led by UT Southwestern Medical Center researchers has uncovered a molecular pathway that links obesity to widespread ...

For millions living with nerve pain, even a light touch can feel unbearable. Scientists have long suspected that damaged ...

Hijacking the energy-producing organelles from immune cells seems to help tumours in mice to infiltrate lymph nodes.

A National Taiwan University study reveals how intracellular bacteria co-opt mitochondrial transporters to evade immune ...

Management of mitochondrial-related heart disease relies on multidisciplinary care and symptom control, as targeted gene-editing therapies are limited.

Mitochondrial respiratory complexes (Complexes I–V) and their assembly into respiratory supercomplexes (SCs) are fundamental to liver bioenergetics, redox homeostasis, and metabolic adaptability.