Our cells rely on microscopic highways and specialized protein vehicles to move everything—from positioning organelles to ...

DiffSMol works by analyzing the shapes of known ligands – molecules that bind to protein targets – and using these shapes as conditions to generate novel 3D molecules that better ... 1 second to ...

More recently, an upgraded method called volumetric printing solidifies 3D structures ... a molecular concoction dubbed “sono-ink” that solidifies when blasted with a specific frequency of sound waves ...

Hoping to gain more insights into their biological functions, the research team decided to analyze the 3D structures ... strand of the molecule to be folded into a compact structure.

Using advanced artificial intelligence, researchers have developed a novel method to make drug development faster and more ...

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 ...

With AlphaFold and machine learning in the mix, we’re entering an era of precision exploration, where the next breakthrough ...