A team of researchers shows how proteins called 'chaperones' are vital in ensuring that neurons can transmit signals to one another. When this neurotransmission breaks down, devastating diseases such ...

Every day, people are constantly learning and forming new memories. When you pick up a new hobby, try a recipe a friend recommended or read the latest world news, your brain stores many of these ...

Researchers have created a protein that can detect the faint chemical signals neurons receive from other brain cells. By tracking glutamate in real time, scientists can finally see how neurons process ...

Scientists have engineered a protein able to record the incoming chemical signals of brain cells (as opposed to just their outgoing signals). These whisper-quiet incoming messages are the release of ...

New research has settled the debate between ‘kiss-and-run’ and ‘full-collapse’ fusion to explain how neurons transmit signals across synapses. Scientists from the University of Science and Technology ...

A team of researchers from the University of Massachusetts Amherst is the first to show how proteins called "chaperones" are vital in ensuring that neurons can transmit signals to one another. When ...

A small cluster of cells deep within our brains, called the locus coeruleus, affects how awake and attentive we are, how we respond to stress, how we cope with anxiety and fear, and how we create ...

Andrew Luskin conducted research on the brain's peri-locus coeruleus neurons while he was a UW Medicine neuroscience Ph.D. student. A small cluster of cells deep within our brains, called the locus ...

Group picture: from left to right: Neus Sanfeliu-Cerdán, Frederic Català-Castro, and Michael Krieg at their laboratory at ICFO. Credit: ICFO. How do embryos develop? Why does the cortex of the ...