Yu C. Li scite author profile

Yu C. Li

4Publications

31Citation Statements Received

102Citation Statements Given

How they've been cited

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128

101

Affiliations

Shandong Normal University, Uppsala University Hospital, Foundation for Medical Research

Publications

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A Green and Facile Approach for Synthesis of Nitro Heteroaromatics in Water

Zhao

Zhang

et al. 2014

Org. Process Res. Dev.

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A convenient and green method for the oxidation of nitrogen-rich heterocyclic amines to nitro-substituted heteroaromatics using potassium peroxymonosulfate (2KHSO 5 •KHSO 4 •K 2 SO 4 , Oxone) in water was developed. This method has several advantages over previous methods: operational simplicity, safety, inexpensive reagents, the use of H 2 O as the sole solvent, and mild conditions. The utility of the present oxidative system was demonstrated by the synthesis of the important energetic compounds 3,4,5-trinitro-1H-pyrazole (TNP) and 5-amino-3-nitro-1H-1,2,4-triazole (ANTA).

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Effect of polarization on HIV-1protease and fluoro-substituted inhibitors binding energies by large scale molecular dynamics simulations

Duan

Zhu

et al. 2017

Sci Rep

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Molecular dynamics simulations in explicit water are carried out to study the binding of six inhibitors to HIV-1 protease (PR) for up to 700 ns using the standard AMBER force field and polarized protein-specific charge (PPC). PPC is derived from quantum mechanical calculation for protein in solution and therefore it includes electronic polarization effect. Our results show that in all six systems, the bridging water W301 drifts away from the binding pocket in AMBER simulation. However, it is very stable in all six complexes systems using PPC. Especially, intra-protease, protease-inhibitor hydrogen bonds are dynamic stabilized in MD simulation. The computed binding free energies of six complexes have a significantly linear correlation with those experiment values and the correlation coefficient is found to be 0.91 in PPC simulation. However, the result from AMBER simulation shows a weaker correlation with the correlation coefficient of −0.51 due to the lack of polarization effect. Detailed binding interactions of W301, inhibitors with PR are further analyzed and discussed. The present study provides important information to quantitative understanding the interaction mechanism of PR-inhibitor and PR-W301 and these data also emphasizes the importance of both the electronic polarization and the bridging water molecule in predicting precisely binding affinities.

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Effects of alkaline buffers on cytoplasmic pH in lymphocytes

Bjerneroth¹,

Sammeli²,

Li³

et al. 1994

Critical Care Medicine

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Effects of alkaline buffers on cytoplasmic pH in lymphocytes

Bjerneroth

Sammeli

et al. 1994

Critical Care Medicine

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Yu C. Li

A Green and Facile Approach for Synthesis of Nitro Heteroaromatics in Water

Effect of polarization on HIV-1protease and fluoro-substituted inhibitors binding energies by large scale molecular dynamics simulations

Effects of alkaline buffers on cytoplasmic pH in lymphocytes

Effects of alkaline buffers on cytoplasmic pH in lymphocytes

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