X-ray crystallography is a powerful non-destructive technique for determining the molecular structure of a crystal. X-ray crystallography uses the principles of X-ray diffraction to analyze the sample ...

Thanks to an innovative nozzle, scientists can now analyse more types of proteins while using fewer of the hard-to-get protein crystals. The nozzle can reduce protein consumption eightfold in serial X ...

Francis Crick, who famously co-discovered the shape of DNA, once said: “If you want to understand function, study structure.” Many decades later, this remains a tenet of biology, chemistry, and ...

A newly developed experimental set-up allows the structure determination of biomolecules such as proteins with far smaller samples and shorter exposure times than before at synchrotron X-ray sources.

Single crystal X-ray diffraction remains the most powerful technique to determine the three-dimensional structure of biologically important macromolecules and their functional ligand complexes at or ...

X-ray crystallography, like mass spectroscopy and nuclear spectroscopy, is an extremely useful material characterization technique that is unfortunately hard for amateurs to perform. The physical ...

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 ...

UB crystallographers will continue their research at the nation’s premier X-ray synchrotron thanks to a $17.5 million grant from the National Science Foundation. The funding will support the NSF ...

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 ...

Researchers are responsible for making their own macromolecules in milligram quantities and in highly purified form. The core staff will assist with handling of macromolecules for structure analysis.