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 ...

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

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 ...

A research led by the IBB-UAB has managed to decypher the structure of the human protease SENP5, implicated in ...

To investigate the influence of donor molecule crystallinity on photovoltaic performance in all-small-molecule solar cells, two dithieno[2,3-d:2′,3′-d′]-benzo[1,2-b:4,5-b′]dithiophene (DTBDT)-based ...

We have studied the structure of (Ala)5, a model unfolded peptide, using a combination of 2D IR spectroscopy and molecular dynamics (MD) simulation. Two different isotopomers, each bis-labeled with ...