A team of researchers from the National University of Singapore (NUS) has developed a novel method to enhance the precision ...

New research reveals that sunburn’s acute effects, like inflammation and cell death, are triggered by RNA damage rather than ...

For decades, we’ve believed the bright redness of sunburn — along with its irritating sting and peeling skin — was the result ...

Science has revealed some of the secrets of the X chromosome, but many remain. In humans, female cells contain two X ...

A number of promising approaches involving molecules, stem cells, and inorganic chemistry are possible for the near future.

New research reveals that sunburn may be caused by RNA damage, not DNA, challenging long-held beliefs about UV exposure ...

In cells, they ensure the transfer of genetic information and regulate the activity of genes. Some even act as catalysts, ...

Mice injected with a microRNA molecule lived longer and had fewer markers of ageing, but it’s not yet known if the treatment ...

In this review of RNA therapies, we paint an overview of what’s going on in a field that is addressing a number of diseases.

The integration will enable Leica’s BOND staining systems to simultaneously detect RNA and protein targets on the same tissue ...

Sunburn has traditionally been attributed to UV-induced DNA damage. However, a new study reveals that RNA, another vital cellular molecule, plays a major role in triggering acute sunburn reactions.

Researchers have now uncovered the 3D structure of the RNA enzyme SAMURI. Their study provides insights into the development of ribozymes and the evolution of catalytically active RNA.