Optimizing Solute–Water van der Waals Interactions To Reproduce Solvation Free Energies

Local order, energy, and mobility of water molecules in the hydration shell of small peptides

Agarwal, Manish
Kushwaha, Hemant R.
Chakravarty, Charusita

January 2010

The extent to which the presence of a biomolecular solute modifies the local energetics of water mol...

Toward Optimized Potential Functions for Protein–Protein Interactions in Aqueous Solutions: Osmotic Second Virial Coefficient Calculations Using the MARTINI Coarse-Grained Force Field

Austin C. Stark (1914517)
Casey T. Andrews (1467976)
Adrian H. Elcock (252477)

September 2013

Coarse-grained (CG) simulation methods are now widely used to model the structure and dynamics of la...

Computational Modeling of (De)-Solvation Effects and Protein Flexibility in Protein-Ligand Binding Using Molecular Dynamics Simulations

Yang, Ying

January 2018

Water is a crucial participant in virtually all cellular functions. Evidently, water molecules in th...

Optimizing Solute–Water van der Waals Interactions To Reproduce Solvation Free Energies

Paul S. Nerenberg (1684843)
Brian Jo (2091550)
Clare So (1684849)
Ajay Tripathy (2091547)
Teresa Head-Gordon (212730)

April 2012

An accurate representation of solute–water interactions is necessary for molecular dynamics simulati...

Optimizing solute-water van der Waals interactions to reproduce solvation free energies.

Nerenberg, Paul S
Jo, Brian
So, Clare
Tripathy, Ajay
Head-Gordon, Teresa

April 2012

An accurate representation of solute-water interactions is necessary for molecular dynamics simulati...

Optimizing Protein-Solvent Force Fields to Reproduce Intrinsic Conformational Preferences of Model Peptides.

Nerenberg, Paul S
Head-Gordon, Teresa

April 2011

While most force field efforts in biomolecular simulation have focused on the parametrization of the...

Optimizing Protein−Solvent Force Fields to Reproduce Intrinsic Conformational Preferences of Model Peptides

Nerenberg, Paul S
Head-Gordon, Teresa

April 2011

While most force field efforts in biomolecular simulation have focused on the parametrization of the...

Variational Optimization of an All-Atom Implicit Solvent Force Field To Match Explicit Solvent Simulation Data

Sandro Bottaro (359903)
Kresten Lindorff-Larsen (317515)
Robert B. Best (90146)

December 2013

The development of accurate implicit solvation models with low computational cost is essential for a...

Molecular dynamics simulations of proteins: can the explicit water model be varied?

Nutt, David R.
Smith, Jeremy C.

August 2007

In molecular mechanics simulations of biological systems, the solvation water is typically represent...

CHARMM TIP3P Water Model Suppresses Peptide Folding by Solvating the Unfolded State

Boonstra, Sander
Onck, Patrick R.
van der Giessen, Erik

April 2016

The accuracy of molecular dynamics simulations depends on the underlying force field, defined by the...

CHARMM TIP3P Water Model Suppresses Peptide Folding by Solvating the Unfolded State

Boonstra, Sander
Onck, Patrick R.
van der Giessen, Erik

April 2016

The accuracy of molecular dynamics simulations depends on the underlying force field, defined by the...

CHARMM TIP3P Water Model Suppresses Peptide Folding by Solvating the Unfolded State

Boonstra, Sander
Onck, Patrick R.
van der Giessen, Erik

April 2016

The accuracy of molecular dynamics simulations depends on the underlying force field, defined by the...

CHARMM TIP3P Water Model Suppresses Peptide Folding by Solvating the Unfolded State

Boonstra, Sander
Onck, Patrick R.
van der Giessen, Erik

April 2016

The accuracy of molecular dynamics simulations depends on the underlying force field, defined by the...

Molecular simulations of Hofmeister ion pairing and solvation of protein building blocks in aqueous interfacial environments

Hajari, Timir

July 2015

In current days, computer simulation is a scientific tool to study material properties. Using comput...

Predicting Solvated Peptide Conformations via Global Minimization of Energetic Atom-to-Atom Interactions

J.L. Klepeis
I. P. Androulakis
M. G. Ierapetritou
C. A. Floudas

January 1997

A global optimization method is described for identifying the global minimum energy conformation, as...

Local order, energy, and mobility of water molecules in the hydration shell of small peptides

Agarwal, Manish
Kushwaha, Hemant R.
Chakravarty, Charusita

January 2010

The extent to which the presence of a biomolecular solute modifies the local energetics of water mol...

Toward Optimized Potential Functions for Protein–Protein Interactions in Aqueous Solutions: Osmotic Second Virial Coefficient Calculations Using the MARTINI Coarse-Grained Force Field

Austin C. Stark (1914517)
Casey T. Andrews (1467976)
Adrian H. Elcock (252477)

September 2013

Coarse-grained (CG) simulation methods are now widely used to model the structure and dynamics of la...

Computational Modeling of (De)-Solvation Effects and Protein Flexibility in Protein-Ligand Binding Using Molecular Dynamics Simulations

Yang, Ying

January 2018

Water is a crucial participant in virtually all cellular functions. Evidently, water molecules in th...

Optimizing Solute–Water van der Waals Interactions To Reproduce Solvation Free Energies

Paul S. Nerenberg (1684843)
Brian Jo (2091550)
Clare So (1684849)
Ajay Tripathy (2091547)
Teresa Head-Gordon (212730)

April 2012

An accurate representation of solute–water interactions is necessary for molecular dynamics simulati...

Optimizing solute-water van der Waals interactions to reproduce solvation free energies.

Nerenberg, Paul S
Jo, Brian
So, Clare
Tripathy, Ajay
Head-Gordon, Teresa

April 2012

An accurate representation of solute-water interactions is necessary for molecular dynamics simulati...

Optimizing Protein-Solvent Force Fields to Reproduce Intrinsic Conformational Preferences of Model Peptides.

Nerenberg, Paul S
Head-Gordon, Teresa

April 2011

While most force field efforts in biomolecular simulation have focused on the parametrization of the...

Optimizing Protein−Solvent Force Fields to Reproduce Intrinsic Conformational Preferences of Model Peptides

Nerenberg, Paul S
Head-Gordon, Teresa

April 2011

While most force field efforts in biomolecular simulation have focused on the parametrization of the...

Variational Optimization of an All-Atom Implicit Solvent Force Field To Match Explicit Solvent Simulation Data

Sandro Bottaro (359903)
Kresten Lindorff-Larsen (317515)
Robert B. Best (90146)

December 2013

The development of accurate implicit solvation models with low computational cost is essential for a...

Molecular dynamics simulations of proteins: can the explicit water model be varied?

Nutt, David R.
Smith, Jeremy C.

August 2007

In molecular mechanics simulations of biological systems, the solvation water is typically represent...

CHARMM TIP3P Water Model Suppresses Peptide Folding by Solvating the Unfolded State

Boonstra, Sander
Onck, Patrick R.
van der Giessen, Erik

April 2016

The accuracy of molecular dynamics simulations depends on the underlying force field, defined by the...

CHARMM TIP3P Water Model Suppresses Peptide Folding by Solvating the Unfolded State

Boonstra, Sander
Onck, Patrick R.
van der Giessen, Erik

April 2016

The accuracy of molecular dynamics simulations depends on the underlying force field, defined by the...

CHARMM TIP3P Water Model Suppresses Peptide Folding by Solvating the Unfolded State

Boonstra, Sander
Onck, Patrick R.
van der Giessen, Erik

April 2016

The accuracy of molecular dynamics simulations depends on the underlying force field, defined by the...

CHARMM TIP3P Water Model Suppresses Peptide Folding by Solvating the Unfolded State

Boonstra, Sander
Onck, Patrick R.
van der Giessen, Erik

April 2016

The accuracy of molecular dynamics simulations depends on the underlying force field, defined by the...

Molecular simulations of Hofmeister ion pairing and solvation of protein building blocks in aqueous interfacial environments

Hajari, Timir

July 2015

In current days, computer simulation is a scientific tool to study material properties. Using comput...

Predicting Solvated Peptide Conformations via Global Minimization of Energetic Atom-to-Atom Interactions

J.L. Klepeis
I. P. Androulakis
M. G. Ierapetritou
C. A. Floudas

January 1997

A global optimization method is described for identifying the global minimum energy conformation, as...

Local order, energy, and mobility of water molecules in the hydration shell of small peptides

Agarwal, Manish
Kushwaha, Hemant R.
Chakravarty, Charusita

January 2010

The extent to which the presence of a biomolecular solute modifies the local energetics of water mol...

Toward Optimized Potential Functions for Protein–Protein Interactions in Aqueous Solutions: Osmotic Second Virial Coefficient Calculations Using the MARTINI Coarse-Grained Force Field

Austin C. Stark (1914517)
Casey T. Andrews (1467976)
Adrian H. Elcock (252477)

September 2013

Coarse-grained (CG) simulation methods are now widely used to model the structure and dynamics of la...

Computational Modeling of (De)-Solvation Effects and Protein Flexibility in Protein-Ligand Binding Using Molecular Dynamics Simulations

Yang, Ying

January 2018

Water is a crucial participant in virtually all cellular functions. Evidently, water molecules in th...

Optimizing Solute–Water van der Waals Interactions To Reproduce Solvation Free Energies

Abstract

Extracted data

Optimizing Solute–Water van der Waals Interactions To Reproduce Solvation Free Energies

Abstract

Extracted data

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