Salk Institute researchers captured real-time interactions between Lis1 and dynein, showing how Lis1 activates dynein’s motor ...

A recent study reveals four previously unknown primordial open cluster groups in the Milky Way, challenging traditional ...

A new study published in Nature reveals how olfactory sensory neurons (OSNs) achieve extraordinary precision in selecting ...

Researchers at Ohio State University have unveiled DiffSMol, a generative AI model that rapidly creates realistic 3D drug ...

Researchers have captured a time-resolved video of a protein interaction essential to healthy brain development.

New tissue-derived organoid model: A next-generation organoid model, composed of three liver cell types – adult hepatocytes, cholangiocytes, and liver mesenchymal cells – reconstructs the liver ...

The innovative 3D micro-printed microlaser sensor demonstrates exceptional sensitivity, paving the way for advanced ...

In a major leap forward for genetic and biomedical research, scientists have developed a powerful new artificial intelligence tool that can predict the 3D shape of chromosomes inside individual cells ...

These fundamental findings offer a novel mechanism by which rubrerythrin tubules encapsulate encapsulin to prevent oxidative stress in Pyrococcus furiosus. However, there are a few reasonable concerns ...

Mutation of Lis1, a key dynein regulator, can lead to the rare mental developmental disorder lissencephaly, or “smooth brain, ...