Our skeletal muscles, which link to bones and enable us to move, have a remarkable ability to regenerate after they've suffered an injury. Scientists have now developed a cutting edge microscopy tool ...

Skeletal muscle stem cells in hibernating Syrian hamsters preserve their ability to function by suppressing their activation ...

Muscles make up nearly 40% of the human body and power every move we make, from a child's first steps to recovery after ...

Skeletal muscle and cardiovascular diseases continue to pose significant challenges to public health, affecting a wide range ...

In work published in Nature Biotechnology, Rubin and his research group turned to 3D cell culture to take on the problem of generating sufficient satellite cells for regenerative therapies. 2 ...

Researchers at the Wellcome Sanger Institute and at Sun Yat-sen University have generated what they claim is the first comprehensive atlas of aging muscles in humans. The team applied single-cell ...

Explore the impact of OPA1 deletion in skeletal muscle on mitochondrial–endoplasmic reticulum (ER) tethering and the electron microscopy techniques used to investigate these mitochondrial–ER contact ...

Skeletal muscle stem cells in hibernating Syrian hamsters preserve their ability to function by suppressing their activation during the hibernation ...

Chemotherapeutic agents are often used to treat cancer. They combat tumor growth, but also have a number of undesirable side effects. One of these is severe muscle wasting, known as ...

New research shows hibernating mammals protect muscle stem cells by suppressing activation, inflammation, and regeneration during cold, inactive periods.