Building Force Fields: An Automatic, Systematic, and Reproducible Approach

Towards Improved Force-Field Accuracy for Calculation of Binding Thermodynamics

Kantonen, Sophie Michelle

January 2020

Molecular dynamics simulations have revolutionized chemistry by allowing cheap and fast in silico an...

Molecular dynamics simulation of liquid tetrahydrofuran: on the uniqueness of force fields

Girard, S.
Müller-Plathe, F.

January 2003

Molecular dynamics simulations of liquid tetrahydrofuran have been performed with different force fi...

Improving Force Fields by Identifying and Characterizing Small Molecules with Parameter Inconsistencies

Ehrman, Jordan N.
Bannan, Caitlin C.
Lim, Victoria T.
Thi, Nam
Kyu, Daisy Y.
Mobley, David L.

September 2019

Computer-aided drug design utilizes force fields to simulate chemical structures. Force fields are s...

Building Force Fields: An Automatic, Systematic, and Reproducible Approach

Wang, Lee-Ping
Martinez, Todd J
Pande, Vijay S

June 2014

The development of accurate molecular mechanics force fields is a significant challenge that must be...

Systematic Parametrization of Polarizable Force Fields from Quantum Chemistry Data

Lee-Ping Wang (1279797)
Jiahao Chen (194408)
Troy Van Voorhis (1279800)

January 2013

We introduce ForceBalance, a method and free software package for systematic force field optimizatio...

Fitting properties from density functional theory based molecular dynamics simulations to parameterize a rigid water force field

Sala Viñas, Jonàs
Guàrdia Manuel, Elvira
Martí Rabassa, Jordi
Spangberg, Daniel
Masia, Marco

February 2012

In the quest towards coarse-grained potentials and new water models, we present an extension of the ...

Bottled SAFT: a web app providing SAFT-γ Mie force field parameters for thousands of molecular fluids

Ervik, A
Mejia, A
Muller, EA

August 2016

Coarse-grained molecular simulation has become a popular tool for modelling simple and complex fluid...

Automated parametrization of biomolecular force fields from quantum mechanics/molecular mechanics (QM/MM) simulations through force matching

Maurer, P.
Laio, A.
Hugosson, H. W.
Colombo, M. C.
Rothlisberger, U.

January 2007

We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperatu...

Optimizing molecular models through force-field parameterization via the efficient combination of modular program packages

Hülsmann, Marco
Kirschner, Karl N.
Krämer, Andreas
Heinrich, Doron D.
Krämer-Fuhrmann, Ottmar
Reith, Dirk

January 2016

A central goal of molecular simulations is to predict physical or chemical properties such that cost...

Development of an Advanced Force Field for Water Using Variational Energy Decomposition Analysis.

Das, Akshaya K
Urban, Lars
Leven, Itai
Loipersberger, Matthias
Aldossary, Abdulrahman
Head-Gordon, Martin
Head-Gordon, Teresa

September 2019

Given the piecewise approach to modeling intermolecular interactions for force fields, they can be d...

Assimilating Radial Distribution Functions To Build Water Models with Improved Structural Properties.

Wade, Alexander
Wang, Lee-Ping
Huggins, David

September 2018

The structural properties of three- and four-site water models are improved by extending the ForceBa...

Machine Learning Directed Optimization of Classical Molecular Modeling Force Fields

Bridgette J. Befort (11284278)
Ryan S. DeFever (1624855)
Garrett M. Tow (3688768)
Alexander W. Dowling (5462699)
Edward J. Maginn (1268100)

August 2021

Accurate force fields are necessary for predictive molecular simulations. However, developing force ...

Building a More Predictive Protein Force Field: A Systematic and Reproducible Route to AMBER-FB15

Wang, Lee-Ping
McKiernan, Keri A
Gomes, Joseph
Beauchamp, Kyle A
Head-Gordon, Teresa
Rice, Julia E
Swope, William C
Martínez, Todd J
Pande, Vijay S

April 2017

The increasing availability of high-quality experimental data and first-principles calculations crea...

Automated Force Field Parameterization for Nonpolarizable and Polarizable Atomic Models Based on Ab Initio Target Data

Lei Huang (35191)
Benoît Roux (1275081)

August 2013

Classical molecular dynamics (MD) simulations based on atomistic models are increasingly used to stu...

Toward Learned Chemical Perception of Force Field Typing Rules

Camila Zanette (5138051)
Caitlin C. Bannan (5908607)
Christopher I. Bayly (1515103)
Josh Fass (4436236)
Michael K. Gilson (673405)
Michael R. Shirts (141621)
John D. Chodera (1323594)
David L. Mobley (1323615)

December 2018

Molecular mechanics force fields define how the energy and forces in a molecular system are computed...

Towards Improved Force-Field Accuracy for Calculation of Binding Thermodynamics

Kantonen, Sophie Michelle

January 2020

Molecular dynamics simulations have revolutionized chemistry by allowing cheap and fast in silico an...

Molecular dynamics simulation of liquid tetrahydrofuran: on the uniqueness of force fields

Girard, S.
Müller-Plathe, F.

January 2003

Molecular dynamics simulations of liquid tetrahydrofuran have been performed with different force fi...

Improving Force Fields by Identifying and Characterizing Small Molecules with Parameter Inconsistencies

Ehrman, Jordan N.
Bannan, Caitlin C.
Lim, Victoria T.
Thi, Nam
Kyu, Daisy Y.
Mobley, David L.

September 2019

Computer-aided drug design utilizes force fields to simulate chemical structures. Force fields are s...

Building Force Fields: An Automatic, Systematic, and Reproducible Approach

Wang, Lee-Ping
Martinez, Todd J
Pande, Vijay S

June 2014

The development of accurate molecular mechanics force fields is a significant challenge that must be...

Systematic Parametrization of Polarizable Force Fields from Quantum Chemistry Data

Lee-Ping Wang (1279797)
Jiahao Chen (194408)
Troy Van Voorhis (1279800)

January 2013

We introduce ForceBalance, a method and free software package for systematic force field optimizatio...

Fitting properties from density functional theory based molecular dynamics simulations to parameterize a rigid water force field

Sala Viñas, Jonàs
Guàrdia Manuel, Elvira
Martí Rabassa, Jordi
Spangberg, Daniel
Masia, Marco

February 2012

In the quest towards coarse-grained potentials and new water models, we present an extension of the ...

Bottled SAFT: a web app providing SAFT-γ Mie force field parameters for thousands of molecular fluids

Ervik, A
Mejia, A
Muller, EA

August 2016

Coarse-grained molecular simulation has become a popular tool for modelling simple and complex fluid...

Automated parametrization of biomolecular force fields from quantum mechanics/molecular mechanics (QM/MM) simulations through force matching

Maurer, P.
Laio, A.
Hugosson, H. W.
Colombo, M. C.
Rothlisberger, U.

January 2007

We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperatu...

Optimizing molecular models through force-field parameterization via the efficient combination of modular program packages

Hülsmann, Marco
Kirschner, Karl N.
Krämer, Andreas
Heinrich, Doron D.
Krämer-Fuhrmann, Ottmar
Reith, Dirk

January 2016

A central goal of molecular simulations is to predict physical or chemical properties such that cost...

Development of an Advanced Force Field for Water Using Variational Energy Decomposition Analysis.

Das, Akshaya K
Urban, Lars
Leven, Itai
Loipersberger, Matthias
Aldossary, Abdulrahman
Head-Gordon, Martin
Head-Gordon, Teresa

September 2019

Given the piecewise approach to modeling intermolecular interactions for force fields, they can be d...

Assimilating Radial Distribution Functions To Build Water Models with Improved Structural Properties.

Wade, Alexander
Wang, Lee-Ping
Huggins, David

September 2018

The structural properties of three- and four-site water models are improved by extending the ForceBa...

Machine Learning Directed Optimization of Classical Molecular Modeling Force Fields

Bridgette J. Befort (11284278)
Ryan S. DeFever (1624855)
Garrett M. Tow (3688768)
Alexander W. Dowling (5462699)
Edward J. Maginn (1268100)

August 2021

Accurate force fields are necessary for predictive molecular simulations. However, developing force ...

Building a More Predictive Protein Force Field: A Systematic and Reproducible Route to AMBER-FB15

Wang, Lee-Ping
McKiernan, Keri A
Gomes, Joseph
Beauchamp, Kyle A
Head-Gordon, Teresa
Rice, Julia E
Swope, William C
Martínez, Todd J
Pande, Vijay S

April 2017

The increasing availability of high-quality experimental data and first-principles calculations crea...

Automated Force Field Parameterization for Nonpolarizable and Polarizable Atomic Models Based on Ab Initio Target Data

Lei Huang (35191)
Benoît Roux (1275081)

August 2013

Classical molecular dynamics (MD) simulations based on atomistic models are increasingly used to stu...

Toward Learned Chemical Perception of Force Field Typing Rules

Camila Zanette (5138051)
Caitlin C. Bannan (5908607)
Christopher I. Bayly (1515103)
Josh Fass (4436236)
Michael K. Gilson (673405)
Michael R. Shirts (141621)
John D. Chodera (1323594)
David L. Mobley (1323615)

December 2018

Molecular mechanics force fields define how the energy and forces in a molecular system are computed...

Towards Improved Force-Field Accuracy for Calculation of Binding Thermodynamics

Kantonen, Sophie Michelle

January 2020

Molecular dynamics simulations have revolutionized chemistry by allowing cheap and fast in silico an...

Molecular dynamics simulation of liquid tetrahydrofuran: on the uniqueness of force fields

Girard, S.
Müller-Plathe, F.

January 2003

Molecular dynamics simulations of liquid tetrahydrofuran have been performed with different force fi...

Improving Force Fields by Identifying and Characterizing Small Molecules with Parameter Inconsistencies

Ehrman, Jordan N.
Bannan, Caitlin C.
Lim, Victoria T.
Thi, Nam
Kyu, Daisy Y.
Mobley, David L.

September 2019

Computer-aided drug design utilizes force fields to simulate chemical structures. Force fields are s...

Building Force Fields: An Automatic, Systematic, and Reproducible Approach

Abstract

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Building Force Fields: An Automatic, Systematic, and Reproducible Approach

Abstract

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