Duplicates of crystal structures are flooding databases, implicating repositories hosting organic, inorganic, and ...

Crystallography is the term applied to the field which studies crystalline structures. Many crystalline structures exist in nature, such as gemstones and rocks. In the field of life sciences, however, ...

The world of the nanomolecular is an enigmatic one. To understand the physical, chemical, and nuclear properties that shape the world, scientists have devised ever-more sophisticated methods over the ...

Knowledge of the three-dimensional structures of target proteins provides a starting point for structure-based approaches to drug design by defining the topographies of the complementary surfaces of ...

Researchers have captured real-time "molecular movies" showing how an enzyme changes shape during catalysis. The study was ...

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 ...

X-ray crystallography and nuclear magnetic resonance (NMR) spectroscopy are two techniques used to study atomic structures. The main difference between these tools is that X-ray crystallography uses X ...

Crystallography is the study of the atomic structures of crystals, where the diffraction or reflection of x-rays through the crystal is used to determine the crystal's internal structure. Crystal ...

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 ...