Stanford researchers discovered that dialing down an overactive enzyme, LRRK2, can regrow lost cellular “antennae” in key ...

Scientists have created the most detailed 3D map of a mouse brain ever produced, a milestone that could revolutionize ...

Inhibiting an overabundant enzyme saved a key component of a brain signaling pathway that is vital for motor control in a ...

Scientists have uncovered how a protein helps build and maintain vital brain connections, providing insights into the ...

Find out how groundbreaking research on bees is reshaping our understanding of learning and recognition in AI.

Inhibition of LKKR2 may rescue neurons that are dying due to a type of Parkinson’s disease that is caused by a single genetic mutation.

Young and his team first confirmed that the proteins play several key roles in ensuring that synaptic vesicles which contain ...

Cellular communication between neurons within our brain is complex and busy, much like a USPS mailroom.To keep things running ...

New research shows that low-intensity repetitive transcranial magnetic stimulation (rTMS) can restore key synaptic structures in mouse models of Alzheimer’s disease.

Alzheimer's disease (AD) is a debilitating neurodegenerative condition that affects a significant proportion of older people ...

Robotic systems have the potential to greatly enhance daily living for the over one billion individuals worldwide who ...

Large-scale microscopy combined with tissue clearing and expansion enables nanoscale imaging of centimeter scale specimens.