A new model of memory — and a little-heralded type of brain cell — might explain why the human brain has such a huge storage capacity, researchers reported in the journal PNAS in May. The study looks ...

Specific brain cells known as layer 5 pyramidal neurons play a vital role in how our brains process information. Research by the team of Prof. Joris de Wit (VIB-KU Leuven) and colleagues highlights ...

How do we learn new things? Neurobiologists using cutting-edge visualization techniques have revealed how changes across our synapses and neurons unfold. The findings depict how information is ...

A growing body of research suggests astrocytes, star-shaped brain cells once dismissed as support players, may lead the way ...

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 ...

In the brain, highly specific connections called synapses link nerve cells and transmit electrical signals in a targeted manner. Despite decades of research, how synapses form during brain development ...

Cambridge researchers develop hafnium-oxide memristors to significantly reduce AI energy consumption by merging memory and ...

Scientists have discovered that the adolescent brain does more than prune old connections. During the teen years, it actively builds dense new clusters of synapses in specific parts of neurons. These ...

A team of physicists from Utrecht University in the Netherlands and Sogang University in South Korea have built an artificial synapse, the biological foundation of the human brain's ability to think ...