Add to ORKGX-ray crystallography is essentially a form of very high resolution microscopy. It enables us to visualize protein structures at the atomic level and enhances our understanding of protein function. Specifically we can study how proteins interact with other molecules, how they undergo conformational changes, and how they perform catalysis in the case of enzymes. Armed with this information we can design novel drugs that target a particular protein, or rationally engineer an enzyme for a specific industrial process
Early on, crystallography was a domain of mineralogy and mathematics and dealt mostly with symmetry ...
International audienceMany proteins require metals for their physiological function. In combination ...
International audienceMany proteins require metals for their physiological function. In combination ...
Proteins are remarkable molecular machines that are essential for life. They can do many things rang...
X-ray crystallography has long been a key method in solving the three-dimensional structure of prote...
X-ray crystallography has long been a key method in solving the three-dimensional structure of prote...
Information derived from X-ray crystal structures of biological molecules allows us to explain their...
Crystallography is traditionally one of the monitoring methods used in pharmaceutical industry. X-ra...
Crystallography is traditionally one of the monitoring methods used in pharmaceutical industry. X-ra...
Over the past 60 years, the use of crystals to define structures of complexes using X-ray analysis h...
x Ray crystallography is currently the most favoured technique for structure determination of protei...
Since the pioneering diffraction experiments led by Max von Laue in 1912, X-ray crystallography has ...
Every major biopharmaceutical company incorporates a protein crystallography unit that is central to...
X-ray crystallography is the pre-eminent technique for visualizing the structures of macromolecules ...
Every major biopharmaceutical company incorporates a protein crystallography unit that is central to...
Early on, crystallography was a domain of mineralogy and mathematics and dealt mostly with symmetry ...
International audienceMany proteins require metals for their physiological function. In combination ...
International audienceMany proteins require metals for their physiological function. In combination ...
Proteins are remarkable molecular machines that are essential for life. They can do many things rang...
X-ray crystallography has long been a key method in solving the three-dimensional structure of prote...
X-ray crystallography has long been a key method in solving the three-dimensional structure of prote...
Information derived from X-ray crystal structures of biological molecules allows us to explain their...
Crystallography is traditionally one of the monitoring methods used in pharmaceutical industry. X-ra...
Crystallography is traditionally one of the monitoring methods used in pharmaceutical industry. X-ra...
Over the past 60 years, the use of crystals to define structures of complexes using X-ray analysis h...
x Ray crystallography is currently the most favoured technique for structure determination of protei...
Since the pioneering diffraction experiments led by Max von Laue in 1912, X-ray crystallography has ...
Every major biopharmaceutical company incorporates a protein crystallography unit that is central to...
X-ray crystallography is the pre-eminent technique for visualizing the structures of macromolecules ...
Every major biopharmaceutical company incorporates a protein crystallography unit that is central to...
Early on, crystallography was a domain of mineralogy and mathematics and dealt mostly with symmetry ...
International audienceMany proteins require metals for their physiological function. In combination ...
International audienceMany proteins require metals for their physiological function. In combination ...