Magnesium is essential in many vital processes. To correctly describe Mg2+ in physiological processes by molecular dynamics simulations, accurate force fields are fundamental. Despite the importance, force fields based on the commonly used 12-6 Lennard-Jones potential showed significant shortcomings. Recently progress was made by an optimization procedure that implicitly accounts for polarizability. The resulting microMg and nanoMg force fields (J. Chem. Theory Comput. 2021, 17, 2530–2540) accurately reproduce a broad range of experimental solution properties and the binding affinity to nucleic acids in TIP3P water. Since countless simulation studies rely on available water models and ion force fields, we here extend the optimization and pr...
Molecular simulations are an important tool in the study of aqueous salt solutions. To predict the p...
We develop force field parameters for the divalent cations Mg2+, Ca2+, Sr2+, and Ba2+ for molecular ...
International audienceThe binding of divalent cations to the ubiquitous phosphate group is essential...
Magnesium plays a vital role in a large variety of biological processes. To model such processes by ...
Magnesium and calcium play an essential role in the folding and function of nucleic acids. To correc...
Magnesium ions have an important role in the structure and folding mechanism of ribonucleic systems....
Metal cations are essential in many vital processes. In order to capture the role of different catio...
This cumulative thesis discusses the development of optimized force field parameters for Magnesium a...
Une correction de l'article est publiée sur le site de l'éditeur : https://pubs.acs.org/doi/abs/10.1...
Water exchange between the first and second hydration shell is essential for the role of Mg2+ in bio...
Abstract: The hydration of Mg2+ and Zn2+ is examined using molecular dynamics simulations using thre...
The alkaline earth metals calcium and magnesium are critically involved in many biomolecular process...
The vital contribution of Mg2+ ions to RNA biology is challenging to dissect at the experimental lev...
Phosphate groups are essential components of nucleic acids and proteins, whose interactions with sol...
Divalent metal ions are of fundamental importance to the function and folding of nucleic acids. Diva...
Molecular simulations are an important tool in the study of aqueous salt solutions. To predict the p...
We develop force field parameters for the divalent cations Mg2+, Ca2+, Sr2+, and Ba2+ for molecular ...
International audienceThe binding of divalent cations to the ubiquitous phosphate group is essential...
Magnesium plays a vital role in a large variety of biological processes. To model such processes by ...
Magnesium and calcium play an essential role in the folding and function of nucleic acids. To correc...
Magnesium ions have an important role in the structure and folding mechanism of ribonucleic systems....
Metal cations are essential in many vital processes. In order to capture the role of different catio...
This cumulative thesis discusses the development of optimized force field parameters for Magnesium a...
Une correction de l'article est publiée sur le site de l'éditeur : https://pubs.acs.org/doi/abs/10.1...
Water exchange between the first and second hydration shell is essential for the role of Mg2+ in bio...
Abstract: The hydration of Mg2+ and Zn2+ is examined using molecular dynamics simulations using thre...
The alkaline earth metals calcium and magnesium are critically involved in many biomolecular process...
The vital contribution of Mg2+ ions to RNA biology is challenging to dissect at the experimental lev...
Phosphate groups are essential components of nucleic acids and proteins, whose interactions with sol...
Divalent metal ions are of fundamental importance to the function and folding of nucleic acids. Diva...
Molecular simulations are an important tool in the study of aqueous salt solutions. To predict the p...
We develop force field parameters for the divalent cations Mg2+, Ca2+, Sr2+, and Ba2+ for molecular ...
International audienceThe binding of divalent cations to the ubiquitous phosphate group is essential...