A new study discovers how nitric oxide triggers a biochemical domino effect in the brain, leading to mTOR overactivation in ...

Researchers have uncovered a surprising molecular chain reaction in the brain that may play a role in some forms of autism.

A newly discovered biological chain reaction explains how high levels of a common brain chemical can lead to cellular ...

A newly published study in Genes & Diseases highlights the crucial role of the mammalian target of rapamycin (mTOR) pathway in the progression of diabetic nephropathy (DN) and explores its potential ...

Think of the brain as a city with traffic lights that keep signals flowing smoothly. In a new study, researchers followed a clue about nitric oxide, a common chemical messenger, and found that, in ...

A hidden molecular chain reaction in the brain may push key cellular systems into overdrive in autism—and scientists just found a way to switch it off.

Muscles age differently than you think. Discover the science behind the aging muscle paradox—and how exercise can help you ...