GTKDynamo: A PyMOL plug-in for QC/MM hybrid potential simulations

Hybrid quantum chemical/molecular mechanical (QCMM) potentials are very powerful tools for molecular simulation. They are especially useful for studying processes in condensed phase systems, such as chemical reactions that involve a relatively localized change in electronic structure and where the s...

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Veröffentlicht in:Journal of computational chemistry Jg. 34; H. 25; S. 2190 - 2196
Hauptverfasser: Bachega, José Fernando R., Timmers, Luís Fernando S. M., Assirati, Lucas, Bachega, Leonardo R., Field, Martin J., Wymore, Troy
Format: Journal Article
Sprache:Englisch
Veröffentlicht: United States Blackwell Publishing Ltd 30.09.2013
Wiley Subscription Services, Inc
Wiley
Schlagworte:
Biochemistry, Molecular Biology
Chemicals
graphical plug-in
hybrid quantum chemical/molecular mechanical potentials
Life Sciences
Molecular Dynamics Simulation
molecular simulation
Molecular structure
pDynamo molecular modeling package
PyMOL molecular visualization package
Python scripting language
Quantum Theory
Simulation
Software
Software - standards
Structural Biology
ISSN:0192-8651, 1096-987X, 1096-987X
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Abstract Hybrid quantum chemical/molecular mechanical (QCMM) potentials are very powerful tools for molecular simulation. They are especially useful for studying processes in condensed phase systems, such as chemical reactions that involve a relatively localized change in electronic structure and where the surrounding environment contributes to these changes but can be represented with more computationally efficient functional forms. Despite their utility, however, these potentials are not always straightforward to apply since the extent of significant electronic structure changes occurring in the condensed phase process may not be intuitively obvious. To facilitate their use, we have developed an open‐source graphical plug‐in, GTKDynamo that links the PyMOL visualization program and the pDynamo QC/MM simulation library. This article describes the implementation of GTKDynamo and its capabilities and illustrates its application to QC/MM simulations. © 2013 Wiley Periodicals, Inc. This article describes the implementation and the main capabilities of GTKDynamo, a general‐purpose, open‐source graphical interface that combines the molecular modeling program, pDynamo, with the molecular visualizer, PyMOL. The design of the interface places particular emphasis on facilitating the determination of reaction pathways in biological systems using hybrid quantum chemical/molecular mechanical (QC/MM) potentials.
AbstractList Hybrid quantum chemical (QC)/molecular mechanical (MM) potentials are very powerful tools for molecular simulation. They are especially useful for studying processes in condensed phase systems, such as chemical reactions, that involve a relatively localized change in electronic structure and where the surrounding environment contributes to these changes but can be represented with more computationally efficient functional forms. Despite their utility, however, these potentials are not always straightforward to apply since the extent of significant electronic structure changes occurring in the condensed phase process may not be intuitively obvious. To facilitate their use we have developed an open-source graphical plug-in, GTKDynamo, that links the PyMOL visualization program and the pDynamo QC/MM simulation library. This article describes the implementation of GTKDynamo and its capabilities and illustrates its application to QC/MM simulations.
Hybrid quantum chemical/molecular mechanical (QCMM) potentials are very powerful tools for molecular simulation. They are especially useful for studying processes in condensed phase systems, such as chemical reactions that involve a relatively localized change in electronic structure and where the surrounding environment contributes to these changes but can be represented with more computationally efficient functional forms. Despite their utility, however, these potentials are not always straightforward to apply since the extent of significant electronic structure changes occurring in the condensed phase process may not be intuitively obvious. To facilitate their use, we have developed an open-source graphical plug-in, GTKDynamo that links the PyMOL visualization program and the pDynamo QC/MM simulation library. This article describes the implementation of GTKDynamo and its capabilities and illustrates its application to QC/MM simulations. [PUBLICATION ABSTRACT]
Hybrid quantum chemical/molecular mechanical (QCMM) potentials are very powerful tools for molecular simulation. They are especially useful for studying processes in condensed phase systems, such as chemical reactions that involve a relatively localized change in electronic structure and where the surrounding environment contributes to these changes but can be represented with more computationally efficient functional forms. Despite their utility, however, these potentials are not always straightforward to apply since the extent of significant electronic structure changes occurring in the condensed phase process may not be intuitively obvious. To facilitate their use, we have developed an open-source graphical plug-in, GTKDynamo that links the PyMOL visualization program and the pDynamo QC/MM simulation library. This article describes the implementation of GTKDynamo and its capabilities and illustrates its application to QC/MM simulations.
Hybrid quantum chemical/molecular mechanical (QCMM) potentials are very powerful tools for molecular simulation. They are especially useful for studying processes in condensed phase systems, such as chemical reactions that involve a relatively localized change in electronic structure and where the surrounding environment contributes to these changes but can be represented with more computationally efficient functional forms. Despite their utility, however, these potentials are not always straightforward to apply since the extent of significant electronic structure changes occurring in the condensed phase process may not be intuitively obvious. To facilitate their use, we have developed an open-source graphical plug-in, GTKDynamo that links the PyMOL visualization program and the pDynamo QC/MM simulation library. This article describes the implementation of GTKDynamo and its capabilities and illustrates its application to QC/MM simulations.Hybrid quantum chemical/molecular mechanical (QCMM) potentials are very powerful tools for molecular simulation. They are especially useful for studying processes in condensed phase systems, such as chemical reactions that involve a relatively localized change in electronic structure and where the surrounding environment contributes to these changes but can be represented with more computationally efficient functional forms. Despite their utility, however, these potentials are not always straightforward to apply since the extent of significant electronic structure changes occurring in the condensed phase process may not be intuitively obvious. To facilitate their use, we have developed an open-source graphical plug-in, GTKDynamo that links the PyMOL visualization program and the pDynamo QC/MM simulation library. This article describes the implementation of GTKDynamo and its capabilities and illustrates its application to QC/MM simulations.
Hybrid quantum chemical/molecular mechanical (QCMM) potentials are very powerful tools for molecular simulation. They are especially useful for studying processes in condensed phase systems, such as chemical reactions that involve a relatively localized change in electronic structure and where the surrounding environment contributes to these changes but can be represented with more computationally efficient functional forms. Despite their utility, however, these potentials are not always straightforward to apply since the extent of significant electronic structure changes occurring in the condensed phase process may not be intuitively obvious. To facilitate their use, we have developed an open‐source graphical plug‐in, GTKDynamo that links the PyMOL visualization program and the pDynamo QC/MM simulation library. This article describes the implementation of GTKDynamo and its capabilities and illustrates its application to QC/MM simulations. © 2013 Wiley Periodicals, Inc. This article describes the implementation and the main capabilities of GTKDynamo, a general‐purpose, open‐source graphical interface that combines the molecular modeling program, pDynamo, with the molecular visualizer, PyMOL. The design of the interface places particular emphasis on facilitating the determination of reaction pathways in biological systems using hybrid quantum chemical/molecular mechanical (QC/MM) potentials.
Author Assirati, Lucas
Bachega, Leonardo R.
Bachega, José Fernando R.
Timmers, Luís Fernando S. M.
Wymore, Troy
Field, Martin J.
AuthorAffiliation b Laboratório de Bioinformática, Modelagem e Simulação de Biossistemas (LABIO) - Programa de Pós-Graduação em Biologia Celular e Molecular (PPGBCM) - Pontifícia Universidade Católica do Rio Grande do Sul (PUCRS), Porto Alegre - RS, Brazil
a Centro de Biotecnologia Molecular Estrutural, Instituto de Física de São Carlos, Universidade de São Paulo, São Carlos – SP, CEP 13566-590, Brazil
d DYNAMO/DYNAMOP, Institut de Biologie Structurale – Jean-Pierre Ebel, 41 rue Jules Horowitz, 38027 Grenoble Cedex 1, France (UMR 5075 – CEA/CNRS/UJF Grenoble I)
e Pittsburgh Supercomputing Center, Pittsburgh, USA
c School of Electrical and Computer Engineering, Purdue University, West Lafayette, IN 47907 USA
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  givenname: José Fernando R.
  surname: Bachega
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  givenname: Luís Fernando S. M.
  surname: Timmers
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  organization: Laboratório de Bioinformática, Modelagem e Simulação de Biossistemas (LABIO)-Programa de Pós-Graduação em Biologia Celular e Molecular (PPGBCM) - Pontifícia Universidade Católica do Rio Grande do Sul (PUCRS), Porto Alegre-RS, Brazil
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  givenname: Leonardo R.
  surname: Bachega
  fullname: Bachega, Leonardo R.
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  givenname: Martin J.
  surname: Field
  fullname: Field, Martin J.
  organization: DYNAMO/DYNAMOP, Institut de Biologie Structurale-Jean-Pierre Ebel, 41 rue Jules Horowitz, 38027 Grenoble Cedex 1, France (UMR 5075-CEA/CNRS/UJF Grenoble I)
– sequence: 6
  givenname: Troy
  surname: Wymore
  fullname: Wymore, Troy
  organization: Pittsburgh Supercomputing Center, National Resource for Biomedical Supercomputing Department, Pittsburgh
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Snippet Hybrid quantum chemical/molecular mechanical (QCMM) potentials are very powerful tools for molecular simulation. They are especially useful for studying...
Hybrid quantum chemical (QC)/molecular mechanical (MM) potentials are very powerful tools for molecular simulation. They are especially useful for studying...
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SubjectTerms Biochemistry, Molecular Biology
Chemicals
graphical plug-in
hybrid quantum chemical/molecular mechanical potentials
Life Sciences
Molecular Dynamics Simulation
molecular simulation
Molecular structure
pDynamo molecular modeling package
PyMOL molecular visualization package
Python scripting language
Quantum Theory
Simulation
Software
Software - standards
Structural Biology
Title GTKDynamo: A PyMOL plug-in for QC/MM hybrid potential simulations
URI https://api.istex.fr/ark:/67375/WNG-7C9F1DL2-W/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjcc.23346
https://www.ncbi.nlm.nih.gov/pubmed/24137667
https://www.proquest.com/docview/1428146212
https://www.proquest.com/docview/1443424777
https://hal.univ-grenoble-alpes.fr/hal-01662493
https://pubmed.ncbi.nlm.nih.gov/PMC4212890
Volume 34
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