This work optimizes the link bond description of the quantum mechanical/molecular mechanical separation of deoxynucleosides. The nucleosides are separated at the CN bond between the nucleobase and the deoxyribose, with the former acting as the quantum mechanically described species. By using a flexible link atom-ansatz plus a harmonic potential to correct the energy deviation from a full quantum mechanical description, the potential energy well of the bonds stretching motion is mimicked with very high accuracy.(VLID)454131
Methodologies that combine quantum and classical mechanics (QM/MM) are now widely used to study chem...
International audienceWe investigated link atom approaches for treating the polar C–O bond with part...
The performance of different link atom based frontier treatments in QM/MM simulations was evaluated ...
Combined quantum mechanical and molecular mechanical (QM/MM) methods are the most powerful available...
The division of a system under study in a quantum mechanical (QM) and a classical system in QM/MM mo...
The division of a system under study in a quantum mechanical (QM) and a classical system in QM/MM mo...
In order to improve the accuracy of molecular dynamics simulations, classical forcefields are supple...
Connection atoms are proposed as an alternative to link atoms in semiempirical hybrid calculations t...
In order to improve the accuracy of molecular dynamics simulations, classical force fields are suppl...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Hybrid quantum mechanical/molecular mechanical (QM/MM) simulations fuel discoveries in many fields o...
AbstractWe combined atomistic molecular-dynamics simulations with quantum-mechanical calculations to...
Biological processes manipulating DNA test its physical properties. Atomistic molecular dynamics sim...
<p>Recent developments of dispersion-corrected density functional theory methods allow for the first...
Determining and predicting 3D structure and dynamics for RNA is challenging, but can reveal structur...
Methodologies that combine quantum and classical mechanics (QM/MM) are now widely used to study chem...
International audienceWe investigated link atom approaches for treating the polar C–O bond with part...
The performance of different link atom based frontier treatments in QM/MM simulations was evaluated ...
Combined quantum mechanical and molecular mechanical (QM/MM) methods are the most powerful available...
The division of a system under study in a quantum mechanical (QM) and a classical system in QM/MM mo...
The division of a system under study in a quantum mechanical (QM) and a classical system in QM/MM mo...
In order to improve the accuracy of molecular dynamics simulations, classical forcefields are supple...
Connection atoms are proposed as an alternative to link atoms in semiempirical hybrid calculations t...
In order to improve the accuracy of molecular dynamics simulations, classical force fields are suppl...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Hybrid quantum mechanical/molecular mechanical (QM/MM) simulations fuel discoveries in many fields o...
AbstractWe combined atomistic molecular-dynamics simulations with quantum-mechanical calculations to...
Biological processes manipulating DNA test its physical properties. Atomistic molecular dynamics sim...
<p>Recent developments of dispersion-corrected density functional theory methods allow for the first...
Determining and predicting 3D structure and dynamics for RNA is challenging, but can reveal structur...
Methodologies that combine quantum and classical mechanics (QM/MM) are now widely used to study chem...
International audienceWe investigated link atom approaches for treating the polar C–O bond with part...
The performance of different link atom based frontier treatments in QM/MM simulations was evaluated ...