SummaryThe derivation of molecular models from spatial density data generated by X-ray crystallography or electron microscopy is an active field of research. Here, we introduce and evaluate an approach relying on the equilibrium sampling of energy landscapes describing restraints to experimental input data. Our procedure combines density restraints with replica exchange methodologies in the parameter space of the restraints, and we demonstrate its applicability to both flexible polymers and the assembly of protein complexes from rigid components. For the most difficult system studied, we highlight the importance of advanced data analysis techniques in mining poorly converged data further. Successful and unbiased interpretation of input dens...
51 pages, 5 figuresInternational audienceEnhanced sampling algorithms have emerged as powerful metho...
Map interpretation remains a critical step in solving the structure of a macromolecule. Errors intro...
Cryo-electron microscopy (EM) requires molecular modeling to refine structural details from data. En...
The derivation of molecular models from spatial density data generated by X-ray crystallography or e...
The derivation of molecular models from spatial density data generated by X-ray crystallography or e...
SummaryThe derivation of molecular models from spatial density data generated by X-ray crystallograp...
We propose an approach for summarizing the output of long simulations of complex systems, affording ...
With recent advances in structural genomics, there has been considerable interest in the rapid deter...
Cryo-electron microscopy yields 3D density maps of macromolecules from single-particle images, tomog...
X-ray crystallography is extensively deployed to determine the structure of proteins, both unbound a...
The expected electron density for an atomic model is calculated directly from the coordinates in a r...
SummaryStructural studies of large proteins and protein assemblies are a difficult and pressing chal...
Density modification uses expectations about features of a map such as a flat solvent and expected d...
High-quality three-dimensional structural data is of great value for the functional interpretation o...
The expected electron density for an atomic model is calculated directly from the coordinates in a r...
51 pages, 5 figuresInternational audienceEnhanced sampling algorithms have emerged as powerful metho...
Map interpretation remains a critical step in solving the structure of a macromolecule. Errors intro...
Cryo-electron microscopy (EM) requires molecular modeling to refine structural details from data. En...
The derivation of molecular models from spatial density data generated by X-ray crystallography or e...
The derivation of molecular models from spatial density data generated by X-ray crystallography or e...
SummaryThe derivation of molecular models from spatial density data generated by X-ray crystallograp...
We propose an approach for summarizing the output of long simulations of complex systems, affording ...
With recent advances in structural genomics, there has been considerable interest in the rapid deter...
Cryo-electron microscopy yields 3D density maps of macromolecules from single-particle images, tomog...
X-ray crystallography is extensively deployed to determine the structure of proteins, both unbound a...
The expected electron density for an atomic model is calculated directly from the coordinates in a r...
SummaryStructural studies of large proteins and protein assemblies are a difficult and pressing chal...
Density modification uses expectations about features of a map such as a flat solvent and expected d...
High-quality three-dimensional structural data is of great value for the functional interpretation o...
The expected electron density for an atomic model is calculated directly from the coordinates in a r...
51 pages, 5 figuresInternational audienceEnhanced sampling algorithms have emerged as powerful metho...
Map interpretation remains a critical step in solving the structure of a macromolecule. Errors intro...
Cryo-electron microscopy (EM) requires molecular modeling to refine structural details from data. En...