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Dr. Wang is also a long-term Developer of the Amber Software (www.ambermd.org). He and other collaborators developed a set of popular AMBER force fields, such as FF99, GAFF and polarizable FF based on Thole’s dipole-interaction models as well as the Antechamber module implemented in AMBER software packages.
Dr. Wang’s research interests fall into three directions. First, he is dedicated to develop high quality physical scoring functions to study protein-ligand interactions. Ongoing projects include the second generation of the general-AMBER force field (GAFF2), the third generation of the general-AMBER force field (GAFF3), polarizable force fields based on atomic dipole interaction, solvation models, efficient methods for calculating entropies, and toolkits that facilitate users to study protein-ligand interactions using both the endpoint and pathway methods.
A chief application of the developed molecular mechanics force fields and toolkits is to elucidate the molecular mechanisms of how small molecule inhibitors mediate protein and nucleic acid targets using molecular dynamics simulations, and then to rationally design high potent agonists or antagonists to enhance or eradicate the functions of the protein or nucleic acid targets. Dr. Wang’s research group is involved in many drug discovery projects, including Toll-like receptors, Cannabinoid receptors, Tachykinin receptor 1, Mechanosensitive channel of large conductance(MscL). During this procedure, his force field models and toolkits are rigorously scrutinized and critically assessed through direct comparisons with experiments.
The third research direction in Dr. Wang’s lab is on pharmacometrics and systems pharmacology (PSP). He is interested in studying drug-drug interactions from the perspectives of both pharmacokinetics and pharmacodynamics.
Dr. Wang’s research interests fall into three directions. First, he is dedicated to develop high quality physical scoring functions to study protein-ligand interactions. Ongoing projects include the second generation of the general-AMBER force field (GAFF2), the third generation of the general-AMBER force field (GAFF3), polarizable force fields based on atomic dipole interaction, solvation models, efficient methods for calculating entropies, and toolkits that facilitate users to study protein-ligand interactions using both the endpoint and pathway methods.
A chief application of the developed molecular mechanics force fields and toolkits is to elucidate the molecular mechanisms of how small molecule inhibitors mediate protein and nucleic acid targets using molecular dynamics simulations, and then to rationally design high potent agonists or antagonists to enhance or eradicate the functions of the protein or nucleic acid targets. Dr. Wang’s research group is involved in many drug discovery projects, including Toll-like receptors, Cannabinoid receptors, Tachykinin receptor 1, Mechanosensitive channel of large conductance(MscL). During this procedure, his force field models and toolkits are rigorously scrutinized and critically assessed through direct comparisons with experiments.
The third research direction in Dr. Wang’s lab is on pharmacometrics and systems pharmacology (PSP). He is interested in studying drug-drug interactions from the perspectives of both pharmacokinetics and pharmacodynamics.
研究兴趣
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FRONTIERS IN CHEMISTRY (2024): 1376617-1376617
CoRR (2024)
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Zhangyi Luo,Zhuoya Wan, Pengfei Ren, Bei Zhang,Yixian Huang,Raymond E West,Haozhe Huang,Yuang Chen,Thomas D Nolin,Wen Xie,Junmei Wang,Song Li,
Advanced science (Weinheim, Baden-Wurttemberg, Germany)pp.e2307940-e2307940, (2024)
ACS CHEMICAL NEUROSCIENCEno. 21 (2023): 3941-3958
Journal of chemical information and modelingno. 11 (2023): 3319-3327
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