Molecular docking method considering protein flexibility

Ling Kang; Hong Lin Li; Xi Cheng Wang

Molecular docking method considering protein flexibility

Ling Kang^*
, Hong Lin Li
, Xi Cheng Wang

^*Corresponding author for this work

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

1 Scopus citations

Abstract

Molecular structural optimization is an invaluable tool in computer-aided molecular design. A new flexible docking optimization model based on induced-fit interaction is proposed. In the model, a concept of residue groups is introduced to describe the protein movement approximately and the movement of ligand is described by the translation, votation and torsion motions. A new iteration scheme in conjunction with the k-means clustering algorithm and genetic algorithm is developed to solve the optimization model for the molecular docking. Multi-population genetic strategy and entropy-based searching technique with narrowing down space are employed in the method, making the efficiency of genetic evolution very high. A new docking program FlexGAsDock considering the protein flexibility has been developed. The docking results show that the method can be used in the drug molecular design efficiently.

Original language	English
Pages (from-to)	282-286
Number of pages	5
Journal	Dalian Ligong Daxue Xuebao/Journal of Dalian University of Technology
Volume	48
Issue number	2
State	Published - Mar 2008
Externally published	Yes

Keywords

Molecular docking
Optimization model
Protein flexibility
Residue groups

Cite this

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title = "Molecular docking method considering protein flexibility",

abstract = "Molecular structural optimization is an invaluable tool in computer-aided molecular design. A new flexible docking optimization model based on induced-fit interaction is proposed. In the model, a concept of residue groups is introduced to describe the protein movement approximately and the movement of ligand is described by the translation, votation and torsion motions. A new iteration scheme in conjunction with the k-means clustering algorithm and genetic algorithm is developed to solve the optimization model for the molecular docking. Multi-population genetic strategy and entropy-based searching technique with narrowing down space are employed in the method, making the efficiency of genetic evolution very high. A new docking program FlexGAsDock considering the protein flexibility has been developed. The docking results show that the method can be used in the drug molecular design efficiently.",

keywords = "Molecular docking, Optimization model, Protein flexibility, Residue groups",

author = "Ling Kang and Li, \{Hong Lin\} and Wang, \{Xi Cheng\}",

year = "2008",

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volume = "48",

pages = "282--286",

journal = "Dalian Ligong Daxue Xuebao/Journal of Dalian University of Technology",

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T1 - Molecular docking method considering protein flexibility

AU - Kang, Ling

AU - Li, Hong Lin

AU - Wang, Xi Cheng

PY - 2008/3

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N2 - Molecular structural optimization is an invaluable tool in computer-aided molecular design. A new flexible docking optimization model based on induced-fit interaction is proposed. In the model, a concept of residue groups is introduced to describe the protein movement approximately and the movement of ligand is described by the translation, votation and torsion motions. A new iteration scheme in conjunction with the k-means clustering algorithm and genetic algorithm is developed to solve the optimization model for the molecular docking. Multi-population genetic strategy and entropy-based searching technique with narrowing down space are employed in the method, making the efficiency of genetic evolution very high. A new docking program FlexGAsDock considering the protein flexibility has been developed. The docking results show that the method can be used in the drug molecular design efficiently.

AB - Molecular structural optimization is an invaluable tool in computer-aided molecular design. A new flexible docking optimization model based on induced-fit interaction is proposed. In the model, a concept of residue groups is introduced to describe the protein movement approximately and the movement of ligand is described by the translation, votation and torsion motions. A new iteration scheme in conjunction with the k-means clustering algorithm and genetic algorithm is developed to solve the optimization model for the molecular docking. Multi-population genetic strategy and entropy-based searching technique with narrowing down space are employed in the method, making the efficiency of genetic evolution very high. A new docking program FlexGAsDock considering the protein flexibility has been developed. The docking results show that the method can be used in the drug molecular design efficiently.

KW - Molecular docking

KW - Optimization model

KW - Protein flexibility

KW - Residue groups

UR - https://www.scopus.com/pages/publications/43249121442

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SN - 1000-8608

VL - 48

SP - 282

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JO - Dalian Ligong Daxue Xuebao/Journal of Dalian University of Technology

JF - Dalian Ligong Daxue Xuebao/Journal of Dalian University of Technology

IS - 2

ER -

Molecular docking method considering protein flexibility

Abstract

Keywords

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