How the brain generates rhythmic behavior
MIT neuroscientists have identified an oscillatory circuit that controls the rhythmic movement of mouse whiskers.
MIT neuroscientists have identified an oscillatory circuit that controls the rhythmic movement of mouse whiskers.
Separating densely packed molecules before imaging allows them to become visible for the first time.
MIT scientists have discovered a population of neurons that light up whenever we see images of food.
Prokaryotes can detect hallmark viral proteins and trigger cell death through a process seen across all domains of life.
Studying speakers of 45 languages, neuroscientists found similar patterns of brain activation and language selectivity.
A new computational model could explain differences in recognizing facial emotions.
Targeting these circuits could offer a new way to reverse motor dysfunction and depression in Parkinson’s patients.
MIT neuroscientists expand CRISPR toolkit with new, compact Cas7-11 enzyme.
K. Lisa Yang Brain-Body Center to investigate the brain’s complex relationship with other body systems.
Postbac Jessica Chomik-Morales hopes to inspire the next generation of Spanish-speaking scientists with her podcast, “Mi Ultima Neurona.”
MIT cell biologist and computational neuroscientist recognized for their innovative research contributions.
This circuit, which weakens with age, could offer a target to help prevent age-related decline in spatial memory.
With a comprehensive map of the wiring, researchers can now discern what information flows into the circuit to enable a key brain function.
Senior Keith Murray combines his interests in neuroscience, computation, and philosophy to better understand human behavior.
Natural language processing models capture rich knowledge of words’ meanings through statistics.