Learning is something everyone does daily—mastering new skills at work, remembering song lyrics, or following directions to new places. But behind these everyday tasks lies a complex biological ...
This original animation illustrates that presynaptic neurons secrete VLK, which then phosphorylates the extracellular side of ephrin type-B receptor 2 (EphB2) extruding from the membranes of ...
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 ...
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How synapses stick together: Scientists discover brain protein gephyrin forms flexible filaments
A team of scientists from the University of Cologne's Institute of Biochemistry has made a decisive discovery about the molecular basis of synapse formation in the central nervous system. They studied ...
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 ...
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, ...
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MIT discovered 30% of the brain’s synapses are silent — dormant connections that sit waiting until the brain calls them in to learn something new
Your brain is carrying more spare wiring than anyone suspected. In a study that upended a long-standing assumption in ...
The brain’s rules seem simple: Fire together, wire together. When groups of neurons activate, they become interconnected. This networking is how we learn, reason, form memories, and adapt to our world ...
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