Add to ORKGX-ray crystallography is experiencing a renaissance as a method for probing the protein conformational ensemble. The inherent limitations of Bragg analysis, however, which only reveals the mean structure, have given way to a surge in interest in diffuse scattering, which is caused by structure variations. Diffuse scattering is present in all macromolecular crystallography experiments. Recent studies are shedding light on the origins of diffuse scattering in protein crystallography, and provide clues for leveraging diffuse scattering to model protein motions with atomic detail
The origin of diffuse X-ray scattering from protein crystals has been the subject of debate over the...
X-ray crystallography, a popular and powerful technique for determining the atomic structures of pro...
Protein structure and dynamics can be probed using x-ray crystallography. Whereas the Bragg peaks ar...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
Problems in biology increasingly need models of protein flexibility to understand and control protei...
Identifying the intramolecular motions of proteins and nucleic acids is a major challenge in macromo...
Identifying the intramolecular motions of proteins and nucleic acids is a major challenge in macromo...
Understanding the physical basis of enzyme dynamics is a major challenge in biology. Although modeli...
Identifying the intramolecular motions of proteins and nucleic acids is a major challenge in macromo...
Conformational changes drive protein function, including catalysis, allostery and signaling. X-ray d...
X-ray diffraction has the potential to provide rich information about the structural dynamics of mac...
The origin of diffuse X-ray scattering from protein crystals has been the subject of debate over the...
X-ray crystallography, a popular and powerful technique for determining the atomic structures of pro...
Protein structure and dynamics can be probed using x-ray crystallography. Whereas the Bragg peaks ar...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
X-ray crystallography is experiencing a renaissance as a method for probing the protein conformation...
Problems in biology increasingly need models of protein flexibility to understand and control protei...
Identifying the intramolecular motions of proteins and nucleic acids is a major challenge in macromo...
Identifying the intramolecular motions of proteins and nucleic acids is a major challenge in macromo...
Understanding the physical basis of enzyme dynamics is a major challenge in biology. Although modeli...
Identifying the intramolecular motions of proteins and nucleic acids is a major challenge in macromo...
Conformational changes drive protein function, including catalysis, allostery and signaling. X-ray d...
X-ray diffraction has the potential to provide rich information about the structural dynamics of mac...
The origin of diffuse X-ray scattering from protein crystals has been the subject of debate over the...
X-ray crystallography, a popular and powerful technique for determining the atomic structures of pro...
Protein structure and dynamics can be probed using x-ray crystallography. Whereas the Bragg peaks ar...