Add to ORKGWe describe a likelihood-based method for determining the substructure of anomalously scattering atoms in macromolecular crystals that allows successful structure determination by single-wavelength anomalous diffraction (SAD) X-ray analysis with weak anomalous signal. With the use of partial models and electron density maps in searches for anomalously scattering atoms, testing of alternative values of parameters and parallelized automated model-building, this method has the potential to extend the applicability of the SAD method in challenging cases
Currently, about two thirds of all new macromolecular structures are determined by molecular replace...
Although often presented as taking single `snapshots\u27 of the conformation of a protein, X-ray cry...
Currently, about two thirds of all new macromolecular structures are determined by molecular replace...
We describe a likelihood-based method for determining the substructure of anomalously scattering ato...
A fast Fourier transform (FFT) method is described for determining the substructure of anomalously s...
SAD phasing can be challenging when the signal-to-noise ratio is low. In such cases, having an accur...
SAD phasing can be challenging when the signal-to-noise ratio is low. In such cases, having an accur...
SAD phasing can be challenging when the signal-to-noise ratio is low. In such cases, having an accur...
We describe a data collection method that uses a single crystal to solve X-ray structures by native ...
SAD phasing can be challenging when the signal-to-noise ratio is low. In such cases, having an accur...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
SAD phasing can be challenging when the signal‐to‐noise ratio is low. In such cases, having an accur...
This article is a short overview of basic principles, methods and instrumentation of phasing methods...
Currently, about two thirds of all new macromolecular structures are determined by molecular replace...
Although often presented as taking single `snapshots\u27 of the conformation of a protein, X-ray cry...
Currently, about two thirds of all new macromolecular structures are determined by molecular replace...
We describe a likelihood-based method for determining the substructure of anomalously scattering ato...
A fast Fourier transform (FFT) method is described for determining the substructure of anomalously s...
SAD phasing can be challenging when the signal-to-noise ratio is low. In such cases, having an accur...
SAD phasing can be challenging when the signal-to-noise ratio is low. In such cases, having an accur...
SAD phasing can be challenging when the signal-to-noise ratio is low. In such cases, having an accur...
We describe a data collection method that uses a single crystal to solve X-ray structures by native ...
SAD phasing can be challenging when the signal-to-noise ratio is low. In such cases, having an accur...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
Examples of phasing macromolecular crystal structures based on single-wavelength anomalous dispersio...
SAD phasing can be challenging when the signal‐to‐noise ratio is low. In such cases, having an accur...
This article is a short overview of basic principles, methods and instrumentation of phasing methods...
Currently, about two thirds of all new macromolecular structures are determined by molecular replace...
Although often presented as taking single `snapshots\u27 of the conformation of a protein, X-ray cry...
Currently, about two thirds of all new macromolecular structures are determined by molecular replace...