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

DNA-nanoparticle motors are exactly as they sound: tiny artificial motors that use the structures of DNA and RNA to propel ...

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

A recent study published in Cell reveals that the repeated DNA sequence that leads to Huntington’s disease (HD) expands ...

Researchers have discovered that DNA and RNA epigenetics form a complementary system that precisely regulates gene activity, ...

DNA-nanoparticle motors are exactly as they sound: tiny artificial motors that use the structures of DNA and RNA to propel ...

Researchers leverage their understanding of molecular motors to improve nanoscale artificial motors, aiming to bridge the ...

A team of researchers from NUS has developed a novel method to enhance the precision of cancer treatment using gold ...

This is where DNA and RNA epigenetics comes in: a series of mechanisms that act as "markers" on genes, to control their ...

Our genes contain all the instructions our body needs to function, but their expression must be finely regulated to guarantee ...

Researchers have optimized DNA-nanoparticle motors to achieve speeds of 30 nm/s, matching natural motor proteins. By ...

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.