The human brain develops through an intricate balance of cellular growth, connectivity, and metabolism. A new study reveals ...

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

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 overdrive in autism spectrum disorder. By tracing how nitric oxide disables a ...

Network map of 29 authors with frequency greater than five. Nodes represent authors, and the larger the node, the higher the number of papers. The lines represent collaborations with other authors, ...

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 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 ...

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