Researchers have resolved a 50-year-old scientific mystery by identifying the molecular mechanism that allows tissues to ...

Although often glossed over, the human liver is a pretty amazing organ. Not just because it’s pretty much the sole thing that prevents our food from killing us, but also because it’s the only organ in ...

Scientists show that neutralizing liver-derived ApoE protein reverses age-related delays in bone fracture healing ...

The contraction process involves interactions between actin and myosin filaments within the sarcomeres to generate force. Recent research has achieved significant advances in functional design, ...

A study opens new perspectives to better understand how the molecular mechanisms involved in regenerative medicine work. The study focuses on tumor necrosis factor- (TNF- ) and its receptors TNFR, ...

Axolotls, the permanently aquatic salamanders native to Mexico, can regrow limbs, spinal cords, and even parts of their hearts. But recent research has revealed something that caught scientists off ...

A team of researchers is delving deeper into the science behind how spiny mice can regenerate lost tissue and using what they learn to trigger regeneration in other types of mice -- advances which one ...

Researchers have successfully uncovered the molecular mechanisms by which bacterial cellulose patches stimulate the regeneration of plant wounds. The regeneration process requires the activation of ...

The golden apple snail can fully regrow its entire eye in just 30 days, revealing extraordinary regenerative abilities with potential implications for human vision and medical research.

Scars are often the unwanted and permanent result of wound healing, but University of California, Irvine and University of Pennsylvania researchers have discovered a natural regeneration process that ...