GridMol2.0: Implementation and application of linear-scale quantum mechanics methods and molecular visualization

Baohua Zhang; Yingjin Ma; Xinsheng Jin; Ying Wang; Bingbing Suo; Xiao He; Zhong Jin

doi:10.1002/qua.26402

GridMol2.0: Implementation and application of linear-scale quantum mechanics methods and molecular visualization

Baohua Zhang
, Yingjin Ma
, Xinsheng Jin
, Ying Wang
, Bingbing Suo^*
, Xiao He^*
, Zhong Jin^*

^*Corresponding author for this work

School of Chemistry and Molecular Engineering

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

GridMol is a “one-stop” platform for molecular structure building, scientific computing, and molecular visualization aided by a high-performance computing environment. GridMol version 2.0 introduces two unique features: the first is fragment-based linear-scaling quantum chemistry methods, such as molecular fractionation with conjugate caps and fragment molecular orbital methods; the second is that GridMol enables users to visualize molecular geometries along a geometry optimization and an intrinsic reaction coordinate calculation. Compared with version 1.0, fragment-based linear-scaling quantum chemistry methods implemented in GridMol version 2.0 can be used as a useful tool for performing quantum calculations for large molecular systems to explore the mechanisms involved in protein-ligand or targeted drug interactions.

Original language	English
Article number	e26402
Journal	International Journal of Quantum Chemistry
Volume	120
Issue number	23
DOIs	https://doi.org/10.1002/qua.26402
State	Published - 5 Dec 2020

Keywords

FMO
LTDs
MFCC
linear scaling method
visualization analysis

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10.1002/qua.26402

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title = "GridMol2.0: Implementation and application of linear-scale quantum mechanics methods and molecular visualization",

abstract = "GridMol is a “one-stop” platform for molecular structure building, scientific computing, and molecular visualization aided by a high-performance computing environment. GridMol version 2.0 introduces two unique features: the first is fragment-based linear-scaling quantum chemistry methods, such as molecular fractionation with conjugate caps and fragment molecular orbital methods; the second is that GridMol enables users to visualize molecular geometries along a geometry optimization and an intrinsic reaction coordinate calculation. Compared with version 1.0, fragment-based linear-scaling quantum chemistry methods implemented in GridMol version 2.0 can be used as a useful tool for performing quantum calculations for large molecular systems to explore the mechanisms involved in protein-ligand or targeted drug interactions.",

keywords = "FMO, LTDs, MFCC, linear scaling method, visualization analysis",

author = "Baohua Zhang and Yingjin Ma and Xinsheng Jin and Ying Wang and Bingbing Suo and Xiao He and Zhong Jin",

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doi = "10.1002/qua.26402",

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AU - Zhang, Baohua

AU - Ma, Yingjin

AU - Jin, Xinsheng

AU - Wang, Ying

AU - Suo, Bingbing

AU - He, Xiao

AU - Jin, Zhong

PY - 2020/12/5

Y1 - 2020/12/5

N2 - GridMol is a “one-stop” platform for molecular structure building, scientific computing, and molecular visualization aided by a high-performance computing environment. GridMol version 2.0 introduces two unique features: the first is fragment-based linear-scaling quantum chemistry methods, such as molecular fractionation with conjugate caps and fragment molecular orbital methods; the second is that GridMol enables users to visualize molecular geometries along a geometry optimization and an intrinsic reaction coordinate calculation. Compared with version 1.0, fragment-based linear-scaling quantum chemistry methods implemented in GridMol version 2.0 can be used as a useful tool for performing quantum calculations for large molecular systems to explore the mechanisms involved in protein-ligand or targeted drug interactions.

AB - GridMol is a “one-stop” platform for molecular structure building, scientific computing, and molecular visualization aided by a high-performance computing environment. GridMol version 2.0 introduces two unique features: the first is fragment-based linear-scaling quantum chemistry methods, such as molecular fractionation with conjugate caps and fragment molecular orbital methods; the second is that GridMol enables users to visualize molecular geometries along a geometry optimization and an intrinsic reaction coordinate calculation. Compared with version 1.0, fragment-based linear-scaling quantum chemistry methods implemented in GridMol version 2.0 can be used as a useful tool for performing quantum calculations for large molecular systems to explore the mechanisms involved in protein-ligand or targeted drug interactions.

KW - FMO

KW - LTDs

KW - MFCC

KW - linear scaling method

KW - visualization analysis

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DO - 10.1002/qua.26402

M3 - 文章

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SN - 0020-7608

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JF - International Journal of Quantum Chemistry

IS - 23

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ER -

GridMol2.0: Implementation and application of linear-scale quantum mechanics methods and molecular visualization

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Keywords

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