crystallography

Crystallography is the study of crystals and their structure.

X-ray crystallography is a powerful technique for determining the atomic and molecular structure of a crystal.

Crystallography plays a crucial role in various scientific fields such as chemistry, physics, and materials science.

Many advancements in technology and medicine have been made possible through crystallography.

Crystallography allows scientists to understand the arrangement of atoms in a crystal lattice.

The Nobel Prize in Chemistry has been awarded to scientists for their contributions to crystallography.

Crystallography techniques are used in drug discovery to determine the structure of biological molecules.

Crystallography data are often collected using X-ray diffraction methods.

Understanding crystallography is essential for designing new materials with specific properties.

Crystallography has revolutionized our understanding of the microscopic world.

One approach they use is x-ray crystallography, which shows how molecules fit together at an atomic level.

Without her pioneering work, DNA sequencing and  X-ray crystallography would not be possible.

AlphaFold 2 had an average score of 92.4—an accuracy that CASP's founder, John Moult, who is a biologist at the University of Maryland, says is roughly comparable with what can be obtained by techniques like X-ray crystallography.