CRISPR construct to genetically ablate the GABA transporter GAT3 in the mouse visual cortex, with effects on population-level neuronal activity. This work is important, as it sheds light on how GAT3 ...

The potential for these kinds of machines to reshape computer processing, increase energy efficiency, and revolutionize ...

Traditional animal models often fall short of predicting human outcomes. High costs and supply chain limitations (such as ...

To print microscopic structures, scientists need to inject a liquid material called a photoresist into the cell. This special ...

Scientists were able to 3D-print different microstructures inside live cells, including a delightfully tiny micro-elephant.

RNA bundled in lipid nanoparticles trains T cells in mice to eliminate cancer. Coupled with noninvasive imaging, researchers tracked the in situ CAR-T cells to assess their effectiveness and safety.

The cells helps the snakes absorb the bones of their prey — and might show up in other animals that chomp their meals whole.

Studying how cells work inside a living body is one of the most powerful ways to understand health and disease. However, looking deep inside live tissue is extremely challenging, especially when ...

After centuries of mapping the human body in ever-finer detail, scientists are still making discoveries. Here we are, in 2025 ...

This useful study employs optogenetics, genetically-encoded dopamine and serotonin sensors, and patch-clamp electrophysiology to investigate modulations of neurotransmitter release between striatal ...

Investigating conserved signaling pathways in different cell types shows that memory is not a unique property of neurons.