New research indicates that the long-term neurological impact of childhood trauma is not permanently etched onto the brain.

By growing miniature brain models from patient cells, researchers have identified distinct electrical activity patterns linked to various autism profiles. This approach offers a personalized way to ...

A tiny change at the boundary between two oxide layers may point to a less power-hungry future for artificial intelligence.

New research reveals a "hidden circuit" in the cerebellum that helps the brain learn from mistakes. Surprisingly, big fails and errors that are "doozies" facilitate mastery.

A newly published study in Protein and Cell identifies glutamine synthetase, an enzyme concentrated in brain support cells ...

Argireline, widely known in peptide science as Acetyl Hexapeptide-8, has occupied an unusual conceptual position at the intersection of neurochemical signaling, membrane dynamics, and molecular ...

A new drug, FLAV-27, targets epigenetic changes in Alzheimer’s. In preclinical studies, the drug reduced levels of pathological biomarkers and improved cognition, providing hope for a novel ...

A study published today in Neuroscience by researchers from the Russian Academy of Sciences finds that cannabinoid-based ...

Researchers developed FLAV-27, an epigenetic drug that inhibits G9a to restore gene expression in Alzheimer’s models. The treatment reduced amyloid and tau, improved cognition and synaptic function, ...

New Assay Expands INDIGO’s GPCR Portfolio and Supports Development of Next-Generation CNS-Related Therapeutics STATE ...

Explore neuroscience breakthroughs reshaping treatments for Alzheimer’s, Parkinson’s, PTSD, and other brain disorders.

Researchers identify the Munc13-1 protein as a crucial molecular pathway for working memory, linking calcium signaling to synaptic strengthening.