CHARMM: The biomolecular simulation program

Structure/Function Studies of Proteins Using Linear Scaling Quantum Mechanical Methodologies

Merz, K. M.

July 2004

We developed a linear-scaling semiempirical quantum mechanical (QM) program (DivCon). Using DivCon w...

Interfacing Q-Chem and CHARMM to Perform QM/MM Reaction Path Calculations*

H. Lee
Woodcock Iii
Andrew T. B. Gilbert
Peter M. W. Gill
Henry F. Schaefer Iii
Bernard R. Brooks

January 2016

Abstract: A hybrid quantum mechanical/molecular mechanical (QM/MM) potential energy function with Ha...

CHARMM-GUI Martini Maker for Coarse-Grained Simulations with the Martini Force Field

Yifei Qi (551524)
Helgi I. Ingólfsson (1294428)
Xi Cheng (296756)
Jumin Lee (1372398)
Siewert J. Marrink (135518)
Wonpil Im (79057)

September 2015

Coarse-grained simulations are widely used to study large biological systems. Nonetheless, building ...

CHARMM: The biomolecular simulation program

Brooks B. R.
Brooks III C. L.
Mackerell Jr. A. D.
Nilsson L.
Petrella R. J.
Roux B.
Won Y.
Archontis G.
Bartels C.
Boresch S.
Caflisch A.
Caves L.
Cui Q.
Dinner A. R.
Feig M.
Fischer S.
Gao J.
Hodoscek M.
Im W.
Kuczera K.
Lazaridis T.
Ma J.
Ovchinnikov V.
Paci E.
Pastor R. W.
Post C. B.
Pu J. Z.
Schaefer M.
Tidor B.
Venable R. M.
Woodcock H. L.
Wu X.
Yang W.
York D. M.
Karplus M.

January 2009

CHARMM (Chemistry at HARvard Molecular Mechanics) is a highly versatile and widely used molecular si...

CHARMM: The Biomolecular Simulation Program

��

July 2009

CHARMM (Chemistry at HARvard Molecular Mechanics) is a highly versatile and widely used molecular si...

Biomolecular simulations: from dynamics and mechanisms to computational assays of biological activity

Huggins, David J.
Biggin, Philip C.
Dämgen, Marc A.
Essex, Jonathan W.
Harris, Sarah A.
Henchman, Richard H.
Khalid, Syma
Kuzmanic, Antonija
Laughton, Charles A.
Michel, Julien
Mulholland, Adrian J.
Rosta, Edina
Sansom, Mark S.P.
van der Kamp, Marc W.

Biomolecular simulation is increasingly central to understanding and designing biological molecules ...

BioExcel Webinar #58: CHARMM Force Field Development History, Features, and Implementation in GROMACS

Justin Lemkul

November 2021

The CHARMM force field is one of the most widely used atomistic force fields in biomolecular simulat...

Biomolecular simulations: From dynamics and mechanisms to computational assays of biological activity

Huggins, DJ
Biggin, PC
Dämgen, MA
Essex, JW
Harris, SA
Henchman, RH
Khalid, S
Kuzmanic, A
Laughton, CA
Michel, J
Mulholland, AJ
Rosta, E
Sansom, MSP
van der Kamp, MW

April 2019

Biomolecular simulation is increasingly central to understanding and designing biological molecules ...

CHARMM-GUI: A graphical user interface for the CHARMM users

Sunhwan Jo (437147)
Vidyashankara G. Iyer (549202)
Taehoon Kim (79056)
Wonpil Im (79057)

April 2014

<p>The CHARMM-GUI is a graphical user interface for molecular dynamics for biology scientists. Using...

The CHARMM–TURBOMOLE Interface for Efficient and Accurate QM/MM Molecular Dynamics, Free Energies, and Excited State Properties

Saleh Riahi
Christopher N. Rowley

January 2014

The QM/MM interface between CHARMM and TURBOMOLE is described. CHARMM provides an extensive set of s...

ARTICLE pubs.acs.org/JCTC Efficient Conformational Sampling in Explicit Solvent Using a Hybrid Replica Exchange Molecular Dynamics Method

Sidhartha Chaudhury

January 2011

bS Supporting Information ABSTRACT: Temperature-based replica-exchange molecular dynamics (REMD), in...

BioExcel Webinar #5 - QM/MM approaches in CPMD

Ippoliti, Emiliano

June 2016

The CPMD code is a highly efficient massively parallel first-principles (quantum) molecular dynamics...

Biomolecular modeling: Goals, problems, perspectives

van Gunsteren, W.F.
Bakowies, D.
Baron, R.
Chandrasekhar, I.
Christen, M.
Daura, X.
Gee, P.
Geerke, D.P.
Glattli, A.
Hunenberger, P.H.
Kastenholz, M.
Oostenbrink, C.
Schenk, M.
Trzesniak, D.
van der Vegt, N.F.A.
Yu, H.B.

January 2006

Computation based on molecular models is playing an increasingly important role in biology, biologic...

Topology and parameter data of thirteen non-natural amino acids for molecular simulations with CHARMM22

Olubiyi, Olujide O.
Strodel, Birgit

December 2016

AbstractIn this article we provide a data package containing the topology files and parameters compa...

The application of molecular dynamics simulation techniques and free energy

Pieffet, Gilles Paul,

January 2005

Proteins are the media through which genetic information is expressed. They are involved in most if ...

Structure/Function Studies of Proteins Using Linear Scaling Quantum Mechanical Methodologies

Merz, K. M.

July 2004

We developed a linear-scaling semiempirical quantum mechanical (QM) program (DivCon). Using DivCon w...

Interfacing Q-Chem and CHARMM to Perform QM/MM Reaction Path Calculations*

H. Lee
Woodcock Iii
Andrew T. B. Gilbert
Peter M. W. Gill
Henry F. Schaefer Iii
Bernard R. Brooks

January 2016

Abstract: A hybrid quantum mechanical/molecular mechanical (QM/MM) potential energy function with Ha...

CHARMM-GUI Martini Maker for Coarse-Grained Simulations with the Martini Force Field

Yifei Qi (551524)
Helgi I. Ingólfsson (1294428)
Xi Cheng (296756)
Jumin Lee (1372398)
Siewert J. Marrink (135518)
Wonpil Im (79057)

September 2015

Coarse-grained simulations are widely used to study large biological systems. Nonetheless, building ...

CHARMM: The biomolecular simulation program

Brooks B. R.
Brooks III C. L.
Mackerell Jr. A. D.
Nilsson L.
Petrella R. J.
Roux B.
Won Y.
Archontis G.
Bartels C.
Boresch S.
Caflisch A.
Caves L.
Cui Q.
Dinner A. R.
Feig M.
Fischer S.
Gao J.
Hodoscek M.
Im W.
Kuczera K.
Lazaridis T.
Ma J.
Ovchinnikov V.
Paci E.
Pastor R. W.
Post C. B.
Pu J. Z.
Schaefer M.
Tidor B.
Venable R. M.
Woodcock H. L.
Wu X.
Yang W.
York D. M.
Karplus M.

January 2009

CHARMM (Chemistry at HARvard Molecular Mechanics) is a highly versatile and widely used molecular si...

CHARMM: The Biomolecular Simulation Program

��

July 2009

CHARMM (Chemistry at HARvard Molecular Mechanics) is a highly versatile and widely used molecular si...

Biomolecular simulations: from dynamics and mechanisms to computational assays of biological activity

Huggins, David J.
Biggin, Philip C.
Dämgen, Marc A.
Essex, Jonathan W.
Harris, Sarah A.
Henchman, Richard H.
Khalid, Syma
Kuzmanic, Antonija
Laughton, Charles A.
Michel, Julien
Mulholland, Adrian J.
Rosta, Edina
Sansom, Mark S.P.
van der Kamp, Marc W.

Biomolecular simulation is increasingly central to understanding and designing biological molecules ...

BioExcel Webinar #58: CHARMM Force Field Development History, Features, and Implementation in GROMACS

Justin Lemkul

November 2021

The CHARMM force field is one of the most widely used atomistic force fields in biomolecular simulat...

Biomolecular simulations: From dynamics and mechanisms to computational assays of biological activity

Huggins, DJ
Biggin, PC
Dämgen, MA
Essex, JW
Harris, SA
Henchman, RH
Khalid, S
Kuzmanic, A
Laughton, CA
Michel, J
Mulholland, AJ
Rosta, E
Sansom, MSP
van der Kamp, MW

April 2019

Biomolecular simulation is increasingly central to understanding and designing biological molecules ...

CHARMM-GUI: A graphical user interface for the CHARMM users

Sunhwan Jo (437147)
Vidyashankara G. Iyer (549202)
Taehoon Kim (79056)
Wonpil Im (79057)

April 2014

<p>The CHARMM-GUI is a graphical user interface for molecular dynamics for biology scientists. Using...

The CHARMM–TURBOMOLE Interface for Efficient and Accurate QM/MM Molecular Dynamics, Free Energies, and Excited State Properties

Saleh Riahi
Christopher N. Rowley

January 2014

The QM/MM interface between CHARMM and TURBOMOLE is described. CHARMM provides an extensive set of s...

ARTICLE pubs.acs.org/JCTC Efficient Conformational Sampling in Explicit Solvent Using a Hybrid Replica Exchange Molecular Dynamics Method

Sidhartha Chaudhury

January 2011

bS Supporting Information ABSTRACT: Temperature-based replica-exchange molecular dynamics (REMD), in...

BioExcel Webinar #5 - QM/MM approaches in CPMD

Ippoliti, Emiliano

June 2016

The CPMD code is a highly efficient massively parallel first-principles (quantum) molecular dynamics...

Biomolecular modeling: Goals, problems, perspectives

van Gunsteren, W.F.
Bakowies, D.
Baron, R.
Chandrasekhar, I.
Christen, M.
Daura, X.
Gee, P.
Geerke, D.P.
Glattli, A.
Hunenberger, P.H.
Kastenholz, M.
Oostenbrink, C.
Schenk, M.
Trzesniak, D.
van der Vegt, N.F.A.
Yu, H.B.

January 2006

Computation based on molecular models is playing an increasingly important role in biology, biologic...

Topology and parameter data of thirteen non-natural amino acids for molecular simulations with CHARMM22

Olubiyi, Olujide O.
Strodel, Birgit

December 2016

AbstractIn this article we provide a data package containing the topology files and parameters compa...

The application of molecular dynamics simulation techniques and free energy

Pieffet, Gilles Paul,

January 2005

Proteins are the media through which genetic information is expressed. They are involved in most if ...

Structure/Function Studies of Proteins Using Linear Scaling Quantum Mechanical Methodologies

Merz, K. M.

July 2004

We developed a linear-scaling semiempirical quantum mechanical (QM) program (DivCon). Using DivCon w...

Interfacing Q-Chem and CHARMM to Perform QM/MM Reaction Path Calculations*

H. Lee
Woodcock Iii
Andrew T. B. Gilbert
Peter M. W. Gill
Henry F. Schaefer Iii
Bernard R. Brooks

January 2016

Abstract: A hybrid quantum mechanical/molecular mechanical (QM/MM) potential energy function with Ha...

CHARMM-GUI Martini Maker for Coarse-Grained Simulations with the Martini Force Field

Yifei Qi (551524)
Helgi I. Ingólfsson (1294428)
Xi Cheng (296756)
Jumin Lee (1372398)
Siewert J. Marrink (135518)
Wonpil Im (79057)

September 2015

Coarse-grained simulations are widely used to study large biological systems. Nonetheless, building ...

CHARMM: The biomolecular simulation program

Abstract

Extracted data

CHARMM: The biomolecular simulation program

Abstract

Extracted data

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