This Collection supports and amplifies research related to SDG 3 and SDG 9. Mitochondrial dysfunction has been identified as a hallmark of aging, playing a central role in age-associated decline ...

Nearly every cell in your body depends on mitochondria to survive and function properly. Mitochondria provide 90% of our ...

Dr. Lerman's Renovascular Research Lab at Mayo Clinic studies ways to improve atherosclerotic renal artery stenosis, ...

New findings on enzyme dynamics could guide new therapies for mitochondrial diseases.

Aging, neurological diseases and our bodies' stress response are all linked to the tiny power plants inside each cell known ...

Mitochondrial dysfunctions are associated with a variety of pathologies, and the onset and progression of disease are accompanied by alterations in extracellular biochemical and mechanical signals.

Scientists have discovered how aging blood stem cells acquire mutations that give them a growth edge, creating fertile ground for the development of clonol hematopoiesis, a condition that dramatically ...

The brain requires continuously high energy production to maintain ion gradients and normal function. Mitochondria critically undergird brain energetics, and mitochondrial abnormalities feature ...

Researchers at the University of Jyväskylä have found that herpesvirus infection modifies the structure and normal function of the mitochondria in the host cell. The new information will help to ...

Brian Cunniff, an assistant professor of pathology and laboratory medicine at the University of Vermont, will discuss how the subcellular positioning of mitochondria regulates gene-expression patterns ...

As we age, blood stem cells, the essential source of new blood cells in the body, can accumulate genetic mutations. These mutations can give the cells a growth advantage, laying the foundation for ...