We demonstrate the importance of properly accounting for London dispersion and basis-set-superposition error (BSSE) in quantum-chemical optimizations of protein structures, factors that are often still neglected in contemporary applications. We optimize a portion of an ensemble of conformationally flexible lysozyme structures obtained from highly accurate X-ray crystallography data that serve as a reliable benchmark. We not only analyze root-mean-square deviations from the experimental Cartesian coordinates, but also, for the first time, demonstrate how London dispersion and BSSE influence crystallographic <i>R</i> factors. Our conclusions parallel recent recommendations for the optimization of small gas-phase peptide structures made by som...
International audienceIn order to assess the ability of theory to describe properly the dispersive i...
Molecular crystals are ubiquitous in many areas of science and engineering, including biology and me...
It has been demonstrated that the fragmentation scheme of our adjustable density matrix assembler (A...
We demonstrate how quantum chemical Hartree–Fock (HF) or density functional theory (DFT) optimizatio...
We demonstrate how quantum chemical Hartree-Fock (HF) or density functional theory (DFT) optimizatio...
We have re-refined the X-ray structure of the heme site in cytochrome c553, supplementing the crysta...
ABSTRACT: Structural properties of over 55 small proteins have been determined using both density-ba...
A method is developed for the combination of quantum chemical geometry optimizations and crystallogr...
Unusual local arrangements of protein in Ramachandran space is not well represented by standard geom...
Fragment-based quantum chemical calculations are able to accurately calculate NMR chemical shifts ev...
The lack of dispersion in the B3LYP functional has been proposed to be the main origin of big errors...
Accurately computing the geometry and energy of host–guest and protein–ligand interactions requires ...
Computational methods that utilize chemical shifts to produce protein structures at atomic resolutio...
Conventional density functional theory (DFT) fails to describe accurately the London dispersion esse...
Accurately computing the geometry and energy of host–guest and protein–ligand interactions requires ...
International audienceIn order to assess the ability of theory to describe properly the dispersive i...
Molecular crystals are ubiquitous in many areas of science and engineering, including biology and me...
It has been demonstrated that the fragmentation scheme of our adjustable density matrix assembler (A...
We demonstrate how quantum chemical Hartree–Fock (HF) or density functional theory (DFT) optimizatio...
We demonstrate how quantum chemical Hartree-Fock (HF) or density functional theory (DFT) optimizatio...
We have re-refined the X-ray structure of the heme site in cytochrome c553, supplementing the crysta...
ABSTRACT: Structural properties of over 55 small proteins have been determined using both density-ba...
A method is developed for the combination of quantum chemical geometry optimizations and crystallogr...
Unusual local arrangements of protein in Ramachandran space is not well represented by standard geom...
Fragment-based quantum chemical calculations are able to accurately calculate NMR chemical shifts ev...
The lack of dispersion in the B3LYP functional has been proposed to be the main origin of big errors...
Accurately computing the geometry and energy of host–guest and protein–ligand interactions requires ...
Computational methods that utilize chemical shifts to produce protein structures at atomic resolutio...
Conventional density functional theory (DFT) fails to describe accurately the London dispersion esse...
Accurately computing the geometry and energy of host–guest and protein–ligand interactions requires ...
International audienceIn order to assess the ability of theory to describe properly the dispersive i...
Molecular crystals are ubiquitous in many areas of science and engineering, including biology and me...
It has been demonstrated that the fragmentation scheme of our adjustable density matrix assembler (A...