Scientists at Yale and the University of Connecticut have taken a major step in understanding how animal brains make decisions, revealing a crucial role for electrical synapses in “filtering” sensory ...

The laboratory of Ege Kavalali, professor and chair of the Department of Pharmacology, published a paper in Nature Communications that determined that liquid-liquid phase separation plays a key role ...

Loss of synapses and synapse function sit at the heart of a number of diseases, not just neurodegenerative examples such as dementia and Parkinson's disease but also conditions such as diabetes. We do ...

Researchers headed by a team at the University of Texas at Dallas’ Center for Advanced Pain Studies (CAPS) have made a fundamental discovery about a key mechanism that enables nervous system ...

Researchers from The University of Texas at Dallas’ Center for Advanced Pain Studies (TX, USA) and their colleagues have made a fundamental discovery about a key mechanism that enables nervous system ...

Whether picking up a small object like a pen or coordinating different body parts, the cerebellum in the brain performs essential functions for controlling our movement. Researchers investigated how a ...

Researchers at National Taiwan University have developed a new type of spintronic device that mimics how synapses work in the brain—offering a path to more energy-efficient and accurate artificial ...

New proteomics research is enabling scientists to decipher how neurotransmitter receptors behave and change as an organism develops. The new work could help scientists better understand the formation ...

Real neurons don't actually talk to each other with electrical spikes. For that, their synapses deploy vesicles filled with transmitters. Although there is clearly a relation between the spikes a ...

Synapse labeling strategies involve marking synaptic contact sites with different fluorescent proteins in the pre- and postsynaptic compartments. The interface between these contacts is also labeled, ...

Scientists have taken a major step in understanding how animal brains make decisions, revealing a crucial role for electrical synapses in 'filtering' sensory information. The new research demonstrates ...