The cationic dummy atom approach provides a powerful nonbonded description for a range of alkaline-earth and transition-metal centers, capturing both structural and electrostatic effects. In this work we refine existing literature parameters for octahedrally coordinated Mn2+, Zn2+, Mg2+, and Ca2+, as well as providing new parameters for Ni2+, Co2+, and Fe2+. In all the cases, we are able to reproduce both M2+-O distances and experimental solvation free energies, which has not been achieved to date for transition metals using any other model. The parameters have also been tested using two different water models and show consistent performance. Therefore, our parameters are easily transferable to any force field that describes nonbonded inter...
The calculation of association constants from computer simulations has historically been complicated...
[[abstract]]We have presented a strategy for deriving ion-water van der Waals (vdW) parameters that ...
ABSTRACT: Metal ions are both ubiquitous to and crucial in biology. In classical simulations, they a...
The cationic dummy atom approach provides a powerful nonbonded description for a range of alkaline-e...
The cationic dummy atom approach provides a powerful nonbonded description for a range of alkaline-e...
The cationic dummy atom approach provides a powerful nonbonded description for a range of alkaline-e...
Modeling metalloproteins often requires classical molecular dynamics (MD) simulations in order to ca...
A nonbonded dummy model for metal ions is highly imperative for the computation of complex biologica...
Metal cations are essential in many vital processes. In order to capture the role of different catio...
Metal ions exist in almost half of the proteins in the protein databank, and they serve as structura...
ABSTRACT: Highly charged metal ions act as catalytic centers and structural elements in a broad rang...
Highly charged metal ions act as catalytic centers and structural elements in a broad range of chemi...
We have critically examined and compared various ways to obtain standard harmonic molecular mechanic...
Metal ions play important roles in various biological systems. Molecular dynamics (MD) using classic...
Divalent metal cations are essential for many biological processes; however, accurately modeling div...
The calculation of association constants from computer simulations has historically been complicated...
[[abstract]]We have presented a strategy for deriving ion-water van der Waals (vdW) parameters that ...
ABSTRACT: Metal ions are both ubiquitous to and crucial in biology. In classical simulations, they a...
The cationic dummy atom approach provides a powerful nonbonded description for a range of alkaline-e...
The cationic dummy atom approach provides a powerful nonbonded description for a range of alkaline-e...
The cationic dummy atom approach provides a powerful nonbonded description for a range of alkaline-e...
Modeling metalloproteins often requires classical molecular dynamics (MD) simulations in order to ca...
A nonbonded dummy model for metal ions is highly imperative for the computation of complex biologica...
Metal cations are essential in many vital processes. In order to capture the role of different catio...
Metal ions exist in almost half of the proteins in the protein databank, and they serve as structura...
ABSTRACT: Highly charged metal ions act as catalytic centers and structural elements in a broad rang...
Highly charged metal ions act as catalytic centers and structural elements in a broad range of chemi...
We have critically examined and compared various ways to obtain standard harmonic molecular mechanic...
Metal ions play important roles in various biological systems. Molecular dynamics (MD) using classic...
Divalent metal cations are essential for many biological processes; however, accurately modeling div...
The calculation of association constants from computer simulations has historically been complicated...
[[abstract]]We have presented a strategy for deriving ion-water van der Waals (vdW) parameters that ...
ABSTRACT: Metal ions are both ubiquitous to and crucial in biology. In classical simulations, they a...