Add to ORKGWe present improved methods for indexing diffraction patterns from macromolecular crystals. The novel procedures include a more robust way to verify the position of the incident X-ray beam on the detector, an algorithm to verify that the deduced lattice basis is consistent with the observations, and an alternative approach to identify the metric symmetry of the lattice. These methods help to correct failures commonly experienced during indexing, and increase the overall success rate of the process. Rapid indexing, without the need for visual inspection, will play an important role as beamlines at synchrotron sources prepare for high-throughput automation
An algorithm has been developed for the automatic interpretation of a given set of observed reciproc...
With the advances in structure refinement software that can automatically solve structures and the i...
Accurate indexing of electron diffraction patterns (DPs) is a critical and enabling step in the nano...
A crystallographic indexing algorithm, pinkIndexer, is presented for the analysis of snapshot diffra...
Serial crystallography records still diffraction patterns from single, randomly oriented crystals, t...
Serial crystallography data can be challenging to index, as each frame is processed individually, ra...
Structural genomics programs and drug discovery efforts that investigate large sets of crystalline s...
Still diffraction patterns from peptide nanocrystals with small unit cells are challenging to index ...
International audienceConsiderable effort is dedicated to evaluating macromolecular crystals at sync...
One of the key parts of the crystal structure solution process from powder diffraction data is the d...
The indexing methods currently used for serial femtosecond crystallography were originally developed...
Recent developments of two-color operation modes at X-ray free-electron laser facilities provide new...
A novel algorithm for indexing multiple crystals in snapshot X-ray diffraction images, especially su...
The indexing methods currently used for serial femtosecond crystallography were originally developed...
A method is described which assigns indices to a set of single-crystal reflections recorded by the r...
An algorithm has been developed for the automatic interpretation of a given set of observed reciproc...
With the advances in structure refinement software that can automatically solve structures and the i...
Accurate indexing of electron diffraction patterns (DPs) is a critical and enabling step in the nano...
A crystallographic indexing algorithm, pinkIndexer, is presented for the analysis of snapshot diffra...
Serial crystallography records still diffraction patterns from single, randomly oriented crystals, t...
Serial crystallography data can be challenging to index, as each frame is processed individually, ra...
Structural genomics programs and drug discovery efforts that investigate large sets of crystalline s...
Still diffraction patterns from peptide nanocrystals with small unit cells are challenging to index ...
International audienceConsiderable effort is dedicated to evaluating macromolecular crystals at sync...
One of the key parts of the crystal structure solution process from powder diffraction data is the d...
The indexing methods currently used for serial femtosecond crystallography were originally developed...
Recent developments of two-color operation modes at X-ray free-electron laser facilities provide new...
A novel algorithm for indexing multiple crystals in snapshot X-ray diffraction images, especially su...
The indexing methods currently used for serial femtosecond crystallography were originally developed...
A method is described which assigns indices to a set of single-crystal reflections recorded by the r...
An algorithm has been developed for the automatic interpretation of a given set of observed reciproc...
With the advances in structure refinement software that can automatically solve structures and the i...
Accurate indexing of electron diffraction patterns (DPs) is a critical and enabling step in the nano...