When asked to classify odors, artificial neural networks adopt a structure that closely resembles that of the brain’s olfactory circuitry.
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.
Studies of bacterial diversity uncover a programmable system for precisely modifying RNA.
New technology efficiently deploys the CRISPR gene-editing system into zebrafish so researchers can evaluate the function of hundreds of genes in a single experiment.