X-Ray Crystallography The new knowledge of the atomic structure of matter uncovered over the past half-century by the X-ray-diffraction technique has led to a fundamental revision of ideas in many ...

X-ray crystallography is a technique that uses X-ray diffraction patterns to determine high-resolution, three-dimensional structures of molecules such as proteins, small organic molecules ...

Jon Mason and Miles Congreve from Heptares will describe what protein-ligand X-ray data can do for your medicinal chemistry project. How these data can be interpreted and used to influence both the ...

The Biomolecular X-ray Crystallography Core (BioX) within the Department of Biochemistry offers extensive resources for the crystallisation and structural determination of biological macromolecules ...

Imaging technologies like cryo-electron microscopy and X-ray crystallography help researchers visualize the shapes of proteins in unprecedented detail; however, these tools primarily produce ...

In a collaborative high-throughput effort to determine the three-dimensional structures of small proteins, two studies demonstrate that X-ray crystallography and nuclear magnetic resonance (NMR ...

This course provides grounding in the principles and practice of protein x-ray crystallography, with some applications in structural bioinformatics and drug discovery. This course is comprised of a ...

Our analytical XRD instrument utilises X-ray radiation to investigate the structure of crystallised biomolecular assemblies through X-ray diffraction (XRD). X-ray radiation is a type of ionising ...

The X-ray crystallography laboratory in the School of Mathematical and Physical Sciences is both a user and service facility. We are equipped with three single crystal and two powder diffractometers.

The X-ray Crystallography Center was fully renovated in November 2007 and houses a single-crystal X-ray diffraction system, a brand-new Bruker D8 VENTURE diffractometer, providing X-ray diffraction ...