The polarization of the environment can influence the results from hybrid quantum mechanical/molecular mechanical (QM/MM) simulations of enzymatic reactions. In this article, we address several technical aspects in the development of polarizable QM/MM embedding using the Drude Oscillator (DO) force field. We propose a stable and converging update of the DO polarization state for geometry optimizations and a suitable treatment of the QM/MM-DO boundary when the QM and MM regions are separated by cutting through a covalent bond. We assess the performance of our approach by computing binding energies and geometries of three selected complexes relevant to biomolecular modeling, namely the water trimer, the N-methylacetamide dimer, and the cation...
In this thesis, we present novel computational methods and frameworks to address the challenges asso...
We present a hybrid quantum mechanics/molecular mechanics/coarse-grained (QM/MM/CG) multiresolution ...
Enzymes are complex biomolecules capable of performing unique catalysis under physiological conditio...
The polarization of the environment can influence the results from hybrid quantum mechanical/molecul...
For accurate quantum mechanics/molecular mechanics (QM/MM) studies of enzymatic reactions, it is des...
For accurate quantum mechanics/molecular mechanics (QM/MM) studies of enzymatic reactions, it is des...
Compromising of computational cost and accuracy, combined quantum mechanical and molecular mechanica...
Hybrid quantum mechanics/molecular mechanics (QM/MM) calculations provide a mechanism for studying e...
Accurate quantum mechanical/molecular mechanical (QM/MM) treatments should account for MM polarizati...
QM/MM methods have been developed as a computationally feasible solution to QM simulation of chemica...
<p>We report a quantum mechanics/polarizable–molecular mechanics (QM/p–MM) potential based molecular...
ABSTRACT: In this Perspective, we summarize recent efforts to include the explicit treatment of indu...
We present a molecular simulation protocol to compute free energies of binding, which combines a QM/...
Computational chemists have successfully simulated many systems by applying the principles of quantu...
We present a hybrid quantum mechanics/molecular mechanics/coarse-grained (QM/MM/CG) multiresolution ...
In this thesis, we present novel computational methods and frameworks to address the challenges asso...
We present a hybrid quantum mechanics/molecular mechanics/coarse-grained (QM/MM/CG) multiresolution ...
Enzymes are complex biomolecules capable of performing unique catalysis under physiological conditio...
The polarization of the environment can influence the results from hybrid quantum mechanical/molecul...
For accurate quantum mechanics/molecular mechanics (QM/MM) studies of enzymatic reactions, it is des...
For accurate quantum mechanics/molecular mechanics (QM/MM) studies of enzymatic reactions, it is des...
Compromising of computational cost and accuracy, combined quantum mechanical and molecular mechanica...
Hybrid quantum mechanics/molecular mechanics (QM/MM) calculations provide a mechanism for studying e...
Accurate quantum mechanical/molecular mechanical (QM/MM) treatments should account for MM polarizati...
QM/MM methods have been developed as a computationally feasible solution to QM simulation of chemica...
<p>We report a quantum mechanics/polarizable–molecular mechanics (QM/p–MM) potential based molecular...
ABSTRACT: In this Perspective, we summarize recent efforts to include the explicit treatment of indu...
We present a molecular simulation protocol to compute free energies of binding, which combines a QM/...
Computational chemists have successfully simulated many systems by applying the principles of quantu...
We present a hybrid quantum mechanics/molecular mechanics/coarse-grained (QM/MM/CG) multiresolution ...
In this thesis, we present novel computational methods and frameworks to address the challenges asso...
We present a hybrid quantum mechanics/molecular mechanics/coarse-grained (QM/MM/CG) multiresolution ...
Enzymes are complex biomolecules capable of performing unique catalysis under physiological conditio...