Generating a complete multimodal cell census and atlas of the mouse brain through collaborative data collection, tool development and analysis. This atlas combines single-cell transcriptomic, ...

A comprehensive map has been built of cell types in a mammalian brain using spatial and single-cell genomics. The atlas delineates several thousand cell populations across the entire mouse brain, ...

Our thoughts are specified by our knowledge and plans, yet our cognition can also be fast and flexible in handling new information. How does the well-controlled and yet highly nimble nature of ...

Research in mice illuminates the molecular mechanisms that underlie spatial mapping in the brain. Scientists found that a gene called Fos plays a key role in helping the brain use specialized ...

Navigation in mammals including humans and rodents depends on specialized neural networks that encode the animal's location and trajectory in the environment, serving essentially as a GPS, findings ...

Certain cells in the brain create a nurturing environment, enhancing the health and resilience of their neighbors, while others promote stress and damage. Using spatial transcriptomics and AI, ...

As we age, it becomes more difficult to remember where things are—whether it’s recalling where we left the keys or where we parked the car. This spatial memory deteriorates further with the onset of ...

Using a ChatGPT-like AI model, scientists have created a new map of the mouse brain that captures previously uncharted areas of the organ in unprecedented detail. The map, published Tuesday (Oct. 7) ...

The human brain, as the seat of mental life—from the most complicated intellectual processes down to routine and unconscious bodily control—is necessarily enormously complex. The largest part of the ...