In a study published in Science, researchers at Karolinska Institutet describe the neural processes behind how morphine relieves pain. This is valuable knowledge because the drug has such serious side ...

Intracellular transport is a vital process that allows cells to move proteins and other molecules to specific locations.

Researchers describe the neural processes behind how morphine relieves pain. This is valuable knowledge because the drug has such serious side effects. In a study published in Science, researchers at ...

Researchers developed tiny wearable devices for cells that can snugly enfold neurons and neuronal processes without damaging the cell. These thin-film wearables, made from a soft polymer, could enable ...

Until now, conventional 3D cell cultures have often been either too rigid or too unstable to realistically reproduce the complex interactions between brain cells. Researchers at Kiel University (CAU) ...

This valuable study presents a plastic recurrent spiking network model that spontaneously generates repeating neuronal sequences under unstructured inputs. The authors provide solid evidence that, ...

In a recent Communications Chemistry article, researchers presented a novel approach to interfacing with neuronal structures using light-responsive azobenzene polymer thin films. Image Credit: ...

A new study probing quantum phenomena in neurons as they transmit messages in the brain could provide fresh insight into how our brains function. Our brains process information via a vast network ...

Precise intracellular transport is essential for neuronal function, yet the exact mechanism of selective cargo delivery by ...