Homology modeling of three-dimension structure of hepatitis B surface antigen fragment and its ligand design

Yuan Zhang; Ze Sheng Li; Miao Sun; Jing Fa Xiao; Yu Bai Bai; Tie Jin Li; Chia Chung Sun

Homology modeling of three-dimension structure of hepatitis B surface antigen fragment and its ligand design

Yuan Zhang, Ze Sheng Li^*, Miao Sun, Jing Fa Xiao, Yu Bai Bai, Tie Jin Li, Chia Chung Sun

^*Corresponding author for this work

Jilin University

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

4 Citations (Scopus)

Abstract

By means of the homology modeling and docking methods, a theoretical study on hepatitis B surface antigen (HBsAg) fragment (44 -170) was performed. The three-dimension structure of HBsAg fragment (44-170) is built up based on the crystal structures of whey acidic protein (PDB code 1CJH) and ricin glycosidase (PDB code 2AAI). A new ligand is designed based on the structure of acceptor HBsAg (44-170) and the ligand is docking to HBsAg fragment. The result shows that Trpl63 and Trpl65 in the complex have strong van der Waals contacts with the ligand, and this result is in agreement with the experimental one in reference reported by Wang et al. The hydrogen bonding interactions between ligand and tryptophan residues as well as proline residue of HBsAg also play an important role in locating effects. The results obtained may be helpful for further studies of the structure-based ligand designing of new compounds.

Original language	English
Pages (from-to)	102-105
Number of pages	4
Journal	Kao Teng Hsueh Hsiao Hua Heush Hsueh Pao/ Chemical Journal of Chinese Universities
Volume	26
Issue number	1
Publication status	Published - Jan 2005
Externally published	Yes

Keywords

De novo ligand design
Docking
Homology modeling
Molecule design

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

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title = "Homology modeling of three-dimension structure of hepatitis B surface antigen fragment and its ligand design",

abstract = "By means of the homology modeling and docking methods, a theoretical study on hepatitis B surface antigen (HBsAg) fragment (44 -170) was performed. The three-dimension structure of HBsAg fragment (44-170) is built up based on the crystal structures of whey acidic protein (PDB code 1CJH) and ricin glycosidase (PDB code 2AAI). A new ligand is designed based on the structure of acceptor HBsAg (44-170) and the ligand is docking to HBsAg fragment. The result shows that Trpl63 and Trpl65 in the complex have strong van der Waals contacts with the ligand, and this result is in agreement with the experimental one in reference reported by Wang et al. The hydrogen bonding interactions between ligand and tryptophan residues as well as proline residue of HBsAg also play an important role in locating effects. The results obtained may be helpful for further studies of the structure-based ligand designing of new compounds.",

keywords = "De novo ligand design, Docking, Homology modeling, Molecule design",

author = "Yuan Zhang and Li, {Ze Sheng} and Miao Sun and Xiao, {Jing Fa} and Bai, {Yu Bai} and Li, {Tie Jin} and Sun, {Chia Chung}",

year = "2005",

month = jan,

language = "English",

volume = "26",

pages = "102--105",

journal = "Kao Teng Hsueh Hsiao Hua Heush Hsueh Pao/ Chemical Journal of Chinese Universities",

issn = "0251-0790",

publisher = "Higher Education Press Limited Company",

number = "1",

}

TY - JOUR

T1 - Homology modeling of three-dimension structure of hepatitis B surface antigen fragment and its ligand design

AU - Zhang, Yuan

AU - Li, Ze Sheng

AU - Sun, Miao

AU - Xiao, Jing Fa

AU - Bai, Yu Bai

AU - Li, Tie Jin

AU - Sun, Chia Chung

PY - 2005/1

Y1 - 2005/1

N2 - By means of the homology modeling and docking methods, a theoretical study on hepatitis B surface antigen (HBsAg) fragment (44 -170) was performed. The three-dimension structure of HBsAg fragment (44-170) is built up based on the crystal structures of whey acidic protein (PDB code 1CJH) and ricin glycosidase (PDB code 2AAI). A new ligand is designed based on the structure of acceptor HBsAg (44-170) and the ligand is docking to HBsAg fragment. The result shows that Trpl63 and Trpl65 in the complex have strong van der Waals contacts with the ligand, and this result is in agreement with the experimental one in reference reported by Wang et al. The hydrogen bonding interactions between ligand and tryptophan residues as well as proline residue of HBsAg also play an important role in locating effects. The results obtained may be helpful for further studies of the structure-based ligand designing of new compounds.

AB - By means of the homology modeling and docking methods, a theoretical study on hepatitis B surface antigen (HBsAg) fragment (44 -170) was performed. The three-dimension structure of HBsAg fragment (44-170) is built up based on the crystal structures of whey acidic protein (PDB code 1CJH) and ricin glycosidase (PDB code 2AAI). A new ligand is designed based on the structure of acceptor HBsAg (44-170) and the ligand is docking to HBsAg fragment. The result shows that Trpl63 and Trpl65 in the complex have strong van der Waals contacts with the ligand, and this result is in agreement with the experimental one in reference reported by Wang et al. The hydrogen bonding interactions between ligand and tryptophan residues as well as proline residue of HBsAg also play an important role in locating effects. The results obtained may be helpful for further studies of the structure-based ligand designing of new compounds.

KW - De novo ligand design

KW - Docking

KW - Homology modeling

KW - Molecule design

UR - http://www.scopus.com/inward/record.url?scp=18344382961&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:18344382961

SN - 0251-0790

VL - 26

SP - 102

EP - 105

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

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

IS - 1

ER -

Homology modeling of three-dimension structure of hepatitis B surface antigen fragment and its ligand design

Abstract

Keywords

UN SDGs

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