Memory is a continually unfolding process. Initial details of an experience take shape in memory; the brain’s representation of that information then changes over time. With subsequent reactivations, ...

Editor’s Note: This is part of a series called Inside the Lab, which gives audiences a first-hand look at the research laboratories at the University of Chicago and the scholars who are tackling some ...

A recent brain-scan study sheds light on how people's brains divide continuous experiences into meaningful segments, like scenes in a movie. When you purchase through links on our site, we may earn an ...

It turns out your brain might not be the only part of your body that remembers. Scientists at NYU have found that cells outside the brain—like those from your kidneys—can actually "learn" and form ...

It’s common knowledge that our brains—and, specifically, our brain cells—store memories. But a team of scientists has discovered that cells from other parts of the body also perform a memory function, ...

Kidney cells can make memories too. At least, in a molecular sense. Neurons have historically been the cell most associated with memory. But far outside the brain, kidney cells can also store ...

The human brain is constantly flooded with sights, sounds and sensations, yet only a fraction of those experiences become lasting memories. Behind that quiet sorting process is a set of biological ...

A new review explores how episodic memories are formed, stored, and reshaped over time, revealing why our recollections of past events often change.

How a brain's anatomical structure relates to its function is one of the most important questions in neuroscience. It explores how physical components, such as neurons and their connections, give rise ...

What if the key to being a better manager isn’t found in a new productivity hack, a different feedback framework, or a time management app—but in understanding the three-pound organ inside your head ...