With the growing demand for resilient, efficient, and low carbon infrastructure, increasing attention has been directed toward novel materials and ...

Cryogenic electron microscopy (cryo-EM), X-ray crystallography, and nuclear magnetic resonance (NMR) contribute structural data that are interchangeable, cross-verifiable, and visualizable on common ...

The origins of modern structural biology date back to the 1910s, when the German physicist Max von Laue discovered that biological crystal samples irradiated with X-rays produced diffraction patterns ...

※ Affiliations and titles are as of the end of the research activity. This Research Area aims to integrate cutting-edge life science areas with structural biology for creating “structural life science ...

A new toolbox for structural biology that combines single-molecule fluorescence and molecular modeling is used to generate high-precision structures of protein ...

Advances in structural biology have allowed scientists to determine molecular structures with atomic-level detail, sometimes ...