Eight years of work. A collaboration between the Laboratory of Neuroethology of Non-Human Primates of the Department of Medicine and Surgery of the University of Parma, led by Luca Bonini, and a team ...

In addition, the team found that when they activated inhibitory inputs from another brain region called the lateral ...

The journey of a thousand miles begins with a single step, but for developing neurons, this first step relies on ...

Researchers used proteomics to map synaptic proteins in two types of pyramidal neurons, IT and PT, highlighting differences ...

When we hear sounds, specialized cells in the cochlear nucleus are the first to process that information, enabling our brains ...

When something goes wrong in our bellies, we certainly feel it – and new research shows the processes through which harmful ...

Tohoku University scientists created lab-grown neural networks using microfluidic devices, mimicking natural brain activity ...

High-resolution of cellular heterogeneity from the molecular to circuit level reveals the molecular logic driving cellular ...

The study found that a brain region called the lateral parabrachial nucleus (LPBN) plays a key role in managing this heightened sensitivity.

A study published in Science reveals new mechanisms through which the brain controls natural actions. The results challenge ...

A new study reveals how electrical synapses help animals, including worms, filter sensory inputs and make context-appropriate ...

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 ...