Neurons are famously fragile, yet some injured cells manage to hang on, stabilize, and even reconnect. That quiet resilience ...

A biologically grounded computational model built to mimic real neural circuits, not trained on animal data, learned a visual categorization task just as actual lab animals do, matching their accuracy ...

Researchers have engineered a next-generation glutamate sensor, iGluSnFR4, capable of detecting the faintest incoming ...

Neuroscientists have been trying to understand how the human brain supports numerous advanced capabilities for centuries. The ...

A new computational model of the brain based closely on its biology and physiology has not only learned a simple visual ...

Researchers from University of California San Diego School of Medicine have used single-cell RNA sequencing (scRNA-seq) to identify a pattern of gene expression that can be used to predict whether or ...

Researchers have created a protein that can detect the faint chemical signals neurons receive from other brain cells. By ...

Scientists can finally hear the brain’s quietest messages—unlocking the hidden code behind how neurons think, decide, and ...

A study published in Science on Feb. 1 reported a comprehensive database of single-neuron projectomes consisting of over 10,000 mouse hippocampal neurons, thus revealing the spatial connectivity ...

Synthetic neural circuits made from silicon can accurately mimic the electrical properties of nerve cells, researchers reported yesterday (December 3) in Nature Communications. The research aims to ...