Three dimensional homology modeling of cytochrome P450 2s1(CYP2sl) and docking study on CYP2s1-retinoid acid

Miao Sun; Ze Sheng Li; Yuan Zhang; Qing Chuan Zheng; Chia Chung Sun

Three dimensional homology modeling of cytochrome P450 2s1(CYP2sl) and docking study on CYP2s1-retinoid acid

Miao Sun, Ze Sheng Li^*, Yuan Zhang, Qing Chuan Zheng, Chia Chung Sun

^*Corresponding author for this work

Jilin University

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

3 Citations (Scopus)

Abstract

By means of homology modeling and molecular dynamics simulation, the three dimensional (3D) structure of CYP2sl was constructed on the basis of the crystal structure of CYP2c5 (PDB:1DT6). The components and conformation of CYP2sl binding site were proposed by using binding-site program and analyzing the binding site of the CYP family binding and catalysis characters. The ligand (retinoid acid) was docked to CYP2sl by using the affinity program, and five conformations with lower energies were collected. By analyzing the complex of CYP2s1-retinoid acid which has the lowest energy among the five collected conformations, we know that nonbonding interaction is the major interaction in the complex, and the residues Glu 411 and Ala 414 play an important role in the binding and catalysis for this enzyme.

Original language	English
Pages (from-to)	689-692
Number of pages	4
Journal	Kao Teng Hsueh Hsiao Hua Heush Hsueh Pao/ Chemical Journal of Chinese Universities
Volume	26
Issue number	4
Publication status	Published - Apr 2005
Externally published	Yes

Keywords

Cytochrome
Homology modeling
Molecular dynamics

Cite this

Sun, M., Li, Z. S., Zhang, Y., Zheng, Q. C., & Sun, C. C. (2005). Three dimensional homology modeling of cytochrome P450 2s1(CYP2sl) and docking study on CYP2s1-retinoid acid. Kao Teng Hsueh Hsiao Hua Heush Hsueh Pao/ Chemical Journal of Chinese Universities, 26(4), 689-692.

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abstract = "By means of homology modeling and molecular dynamics simulation, the three dimensional (3D) structure of CYP2sl was constructed on the basis of the crystal structure of CYP2c5 (PDB:1DT6). The components and conformation of CYP2sl binding site were proposed by using binding-site program and analyzing the binding site of the CYP family binding and catalysis characters. The ligand (retinoid acid) was docked to CYP2sl by using the affinity program, and five conformations with lower energies were collected. By analyzing the complex of CYP2s1-retinoid acid which has the lowest energy among the five collected conformations, we know that nonbonding interaction is the major interaction in the complex, and the residues Glu 411 and Ala 414 play an important role in the binding and catalysis for this enzyme.",

keywords = "Cytochrome, Homology modeling, Molecular dynamics",

author = "Miao Sun and Li, {Ze Sheng} and Yuan Zhang and Zheng, {Qing Chuan} and Sun, {Chia Chung}",

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AU - Sun, Miao

AU - Li, Ze Sheng

AU - Zhang, Yuan

AU - Zheng, Qing Chuan

AU - Sun, Chia Chung

PY - 2005/4

Y1 - 2005/4

N2 - By means of homology modeling and molecular dynamics simulation, the three dimensional (3D) structure of CYP2sl was constructed on the basis of the crystal structure of CYP2c5 (PDB:1DT6). The components and conformation of CYP2sl binding site were proposed by using binding-site program and analyzing the binding site of the CYP family binding and catalysis characters. The ligand (retinoid acid) was docked to CYP2sl by using the affinity program, and five conformations with lower energies were collected. By analyzing the complex of CYP2s1-retinoid acid which has the lowest energy among the five collected conformations, we know that nonbonding interaction is the major interaction in the complex, and the residues Glu 411 and Ala 414 play an important role in the binding and catalysis for this enzyme.

AB - By means of homology modeling and molecular dynamics simulation, the three dimensional (3D) structure of CYP2sl was constructed on the basis of the crystal structure of CYP2c5 (PDB:1DT6). The components and conformation of CYP2sl binding site were proposed by using binding-site program and analyzing the binding site of the CYP family binding and catalysis characters. The ligand (retinoid acid) was docked to CYP2sl by using the affinity program, and five conformations with lower energies were collected. By analyzing the complex of CYP2s1-retinoid acid which has the lowest energy among the five collected conformations, we know that nonbonding interaction is the major interaction in the complex, and the residues Glu 411 and Ala 414 play an important role in the binding and catalysis for this enzyme.

KW - Cytochrome

KW - Homology modeling

KW - Molecular dynamics

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AN - SCOPUS:17944366729

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JF - Kao Teng Hsueh Hsiao Hua Heush Hsueh Pao/ Chemical Journal of Chinese Universities

IS - 4

ER -

Three dimensional homology modeling of cytochrome P450 2s1(CYP2sl) and docking study on CYP2s1-retinoid acid

Abstract

Keywords

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