Cognitive tasks, such as learning and memory, require rapid changes to proteins at synapses, such as protein synthesis, degradation, and trafficking. How protein post-translational modifications ...

As animals experience new things, the connections between neurons, called synapses, strengthen or weaken in response to events and the activity they cause in the brain. Neuroscientists believe that ...

Neurons that fire together, wire together” is not the full story. A novel mechanism explains how the brain can learn across ...

How do we learn something new? How do tasks at a new job, lyrics to the latest hit song or directions to a friend's house become encoded in our brains? The broad answer is that our brains undergo ...

New research on the hippocampus, a brain area essential for memory, suggests that new rules of synaptic plasticity best explain how brain activity continually reshapes the way memories are recorded in ...

Recent breakthroughs in neuroscience reveal how the brain can reconfigure networks within seconds, learn from a single experience, and interface with soft, blood-grown materials or long-lived ...

Neuroplasticity and development have traditionally focused on synaptic mechanisms as the primary substrates of circuit remodeling. However, recent advances ...

A study mapped genes linked to schizophrenia and uncovered a mechanism that disrupts synaptic plasticity in affected individuals. The researchers showed the role of three proteins in mediating the ...

Neurodevelopment involves the brain's formation of systems responsible for learning, memory, social skills, and overall function. Critical neurodevelopmental processes such as neurogenesis, synaptic ...

Functional gastrointestinal disorders (FGIDs), including irritable bowel syndrome, functional dyspepsia, and chronic visceral pain syndromes, affect a ...