Neurons can rapidly rebalance their communication using a structural signal rather than electrical activity, overturning long-held assumptions about how synapses maintain stability.
News-Medical.Net on MSN
Scientists discover rapid synapse adaptation in neuronal communication
Every movement you make and every memory you form depends on precise communication between neurons. When that communication ...
A research team led by Dr. Àlex Bayés, Head of the Molecular Physiology of the Synapse Group at the Institut de Recerca Sant ...
Scientists can finally hear the brain’s quietest messages—unlocking the hidden code behind how neurons think, decide, and ...
Every movement you make and every memory you form depends on precise communication between neurons. When that communication is disrupted, the brain must rapidly rebalance its internal signaling to ...
Tech Xplore on MSN
Ultra-low power, fully biodegradable artificial synapse offers record-breaking memory
In Nature Communications, a research team affiliated with UNIST present a fully biodegradable, robust, and energy-efficient ...
New research from the USC Dornsife College of Letters, Arts and Sciences shows that neurons can stabilize their signaling using a fast, physical mechanism — not the electrical activity scientists long ...
Growing up in the 80s, mechanical keyboards that clickety-clack were a way of life. They were a highlight of visiting the ...
Interesting Engineering on MSN
Shells, beans, and plant fibers-made artificial synapse mimics the human brain
UNIST researchers from South Korea have developed the fully biodegradable artificial synapse made entirely from materials ...
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