"Learning and memory are generally associated with brains and brain cells alone, but our study shows that other cells in the ...

Scientists discovered that memory formation isn’t limited to the brain. Non-brain cells can activate memory genes, responding ...

Investigators at Dana-Farber Cancer Institute are opening a new clinical trial to evaluate a novel type of immune cellular ...

New research reveals that cells outside the brain can store and process memories, challenging the view that memory is limited ...

“It shows that the ability to learn from spaced repetition isn't unique to brain cells, but, in fact, might be a fundamental property of all cells.” The researchers add that the findings not only ...

It's common knowledge that our brains—and, specifically, our brain cells—store memories. But a team of scientists has ...

And, once the cold has gone, some T-cells remain in the body as a memory bank, ready to mount a defence when they next encounter the virus. In September 2020, researchers studied 52 people who had ...

Spaced repetition isn't just a learning strategy for humans—it’s a process at the cellular level too! Cells exposed to spaced chemical pulses showed stronger memory gene activation.

Glioblastoma is the most common kind of malignant brain tumor in adults. So far, no treatment has been able to make this ...

Research reveals that kidney and nerve tissue cells can learn and form memories in ways similar to neurons. Our brains—and ...

Your brain is constantly forming new memories, based on experience and repetition. Scientists now know that cells in other ...

Cognitive functions such as memory, learning, and information processing, traditionally associated with the brain, can also ...