When we learn a new skill, the brain has to decide - cell by cell - what to change. New research from MIT suggests it can do that with surprising ...

After injury, the visual system can recover by growing new neural connections rather than replacing lost cells. Researchers found that surviving eye cells formed extra branches that restored ...

Watching a football game on a glitchy internet stream can be frustrating: The screen freezes during a scoring drive, and by the time the picture ...

With a four-year, $2.7M NIH grant, Hopkins researchers are developing an AI-powered imaging system that can capture brain activity 20 to 50 times faster than current tools ...

New neural network tools automate cell alignment and labeling in microscopy, achieving near-human accuracy and dramatically ...

BrainAlignNet, AutoCellLabeler, and CellDiscoveryNet—to automatically track and identify neurons in moving worms and jellyfish.

During the acquisition of correct rejection response, rankings of functional connection separated for cortical and subcortical regions, which is predictive of the peak timing of visual information ...

Neurons have a "hibernation mode." Scientists discover how brain cells use RNA tentacles to lock their protein factories together to survive when energy is low.

The comparison underscores a paradox at the heart of modern AI development: today’s neural networks are inspired by the brain, yet researchers still cannot fully decode the wiring of even a ...

Ribosomes, the cell's protein-making factories, consume large amounts of energy as they build the proteins that keep cells alive and functioning. When cells experience stress—such as lack of nutrients ...

Exercise does more than strengthen muscles; it also rewires the brain. In a study published in Neuron, researchers reveal that the lasting gain in endurance from repeated exercise—such as the ability ...