Mathematical tools are transforming a deluge of data into deep understanding of the brain.
Mathematical tools are transforming a deluge of data into deep understanding of the brain.
New research reveals how bacteria reprogram innate immune cells to control tumor growth and improve the response to cancer immunotherapy.
When asked to classify odors, artificial neural networks adopt a structure that closely resembles that of the brain’s olfactory circuitry.
Dedicated circuits evaluate uncertainty in the brain, preventing it from using unreliable information to make decisions.
A computational tool predicts how immune cells’ molecular communications impact cancer, infection control, and inflammatory disease.
A fresh perspective reveals opportunities to address problems that we didn’t even know were there.
Study points toward a new strategy for reducing toxic protein aggregates in the brains of people with Parkinson’s disease.
The brain’s internal clock makes predictions based on past experience.
RNA-guided enzymes are more diverse and widespread than previously believed.