Every protein in the body is encased in a water shell that directs protein structure, provides vital stability and steers function.

Given the amino-acid sequence or 3D structure of a protein, how much can we predict about its function using just a desktop computer? The recent explosive growth in the volume of sequence data and ...

Ribosomes are tiny molecular machines inside all living cells that build proteins, and ribosome biogenesis is the complex, ...

A team of chemists has developed a new type of magnetic molecule that could be the key to storing vast amounts of data on ...

A collaborative study from the University of Cologne has uncovered how a key mitochondrial protein, AIFM1 (Apoptosis-Inducing ...

A new tool called PHOTON, developed by scientists at UT Southwestern Medical Center, can identify RNA molecules at their native locations within cells—providing valuable clues to where different RNA ...

The company has integrated the AI model into its internal discovery pipeline and aims to use it in collaborative drug ...

Sequence requirements of the ATP-binding site within the C-terminal nucleotide-binding domain (NBD2) of mouse P-glycoprotein were investigated by using two recombinantly expressed soluble proteins of ...

Partnership aims to develop first-in-class, small molecule therapeutics directed at a novel non-incretin GPCR target for cardiometabolic diseases ...

Notably, the distinctive electronic structure of SWs generates a pair of absorption signals with opposite Cotton effects, which can be captured by CD spectroscopy in a chiral molecular environment.