Building on more than two decades of research, a study by MIT neuroscientists at The Picower Institute for Learning and Memory reports a new way to treat pathology and symptoms of fragile X syndrome, ...

Building on more than two decades of research, a study by MIT neuroscientists at The Picower Institute for Learning and ...

MIT neuroscientists have made a breakthrough in treating fragile X syndrome by leveraging a novel neurotransmitter signaling ...

Learn more about the high-purity GMP-grade human activin A / INHBA protein, designed for therapeutic and research ...

In human cells, only a small proportion of the information written in genes is used to produce proteins. How does the cell ...

Endosomal recycling is a branch of intracellular membrane trafficking that retrieves endocytosed cargo proteins from early and late endosomes to prevent their degradatio ...

MIT researchers suggests a potential molecular strategy for treating fragile X syndrome by enhancing NMDA subunit function.

Human genes that encode proteins often contain non-coding segments known as introns. Removing introns is crucial for the proper expression of genetic information. Understanding how our cells ...

Cyanobacteria began contributing oxygen to Earth's mostly noxious atmosphere more than 2 billion years ago. The photosystem ...