J.Z.H. Zhang scite author profile

J.Z.H. Zhang

4Publications

66Citation Statements Received

31Citation Statements Given

How they've been cited

108

How they cite others

125

Affiliations

New York University Shanghai, New York University, Nanjing University

Publications

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Quantum study of mutational effect in binding of efavirenz to HIV‐1 RT

Xiang

et al. 2005

Proteins

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Full quantum mechanical computational study has been carried out to study binding of efavirenz (EFZ), a second generation FDA approved nonnucleoside inhibitor, to HIV-1 reverse transcriptase (RT) and its K103N and Y181C mutants using the MFCC (molecular fractionation with conjugate caps) method. The binding interaction energies between EFZ and each protein fragment are calculated using a combination of HF/3-21G, B3LYP/6-31G* and MP2/6-31G* ab initio levels. The present computation shows that Efavirenz binds to HIV-1 RT predominantly through strong electrostatic interaction with the Lys101 residue. The small loss of binding to K103N mutant by Efavirenz can be attributed to a slightly weakened attractive interaction between the drug and Lys101 due to a conformational change of mutation. The small loss of binding to Y181C mutant by efavirenz can be attributed to the Glu698 residue moving closer to EFZ due to conformational change, which results in an increase of repulsive energy relative to the wild type (WT). The binding of efavirenz-derived DPC961 to HIV-1 RT is enhanced by an additional attractive interaction to residue Hid235 and reduced repulsion to Glu698, resulting in an increase of binding energy by about 4 kcal/mol.

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Computational study of bindings of olive leaf extract (OLE) to HIV‐1 fusion protein gp41

Bao

Zhang

et al. 2007

FEBS Letters

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Recent experimental study found that OLE (olive leaf extract) has anti-HIV activity by blocking the HIV virus entry to host cells [Lee-Huang, S., Zhang, L., Huang, P.L., Chang, Y. and Huang, P.L. Commun. 354,[872][873][874][875][876][877][878][879][880][881][882][883][884]. As part of a joint experimental and theoretical effort, we report here computational study to help identify and characterize the binding complexes of several main compounds of OLE (olive leaf extract) to HIV-1 envelop protein gp41. A number of possible binding modes are found by docking oleuropein and its metabolites, aglycone, elenolic acid and hydroxytyrosol, onto the hydrophobic pocket on gp41. Detailed OLE-gp41 binding interactions and free energies of binding are obtained through molecular dynamics simulation and MM-PBSA calculation. Specific molecular interactions in our predicted OLE/gp41 complexes are identified and hydroxytyrosol is identified to be the main moiety for binding to gp41. This computational study complements the corresponding experimental investigation and helps establish a good starting point for further refinement of OLE-based gp41 inhibitors.

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Quantum wavepacket calculation for the ion molecule reaction N++H2→NH++H

Zhang¹,

Zhan²,

Zhang³

et al. 1999

Chemical Physics Letters

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Accurate Calculation of Electric Fields Inside Enzymes

Wang

Zhang

2016

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J.Z.H. Zhang

Quantum study of mutational effect in binding of efavirenz to HIV‐1 RT

Computational study of bindings of olive leaf extract (OLE) to HIV‐1 fusion protein gp41

Quantum wavepacket calculation for the ion molecule reaction N++H2→NH++H

Accurate Calculation of Electric Fields Inside Enzymes

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