一些新型噁二唑衍生物的分子性质预测、合成及抗菌活性。

Molecular properties prediction, synthesis and antimicrobial activity of some newer oxadiazole derivatives.

机构信息

Department of Pharmaceutical Chemistry, College of Pharmacy in Al-Kharj, King Saud University, P.O. Box 2457, Riyadh, Saudi Arabia.

出版信息

Eur J Med Chem. 2010 Dec;45(12):5862-9. doi: 10.1016/j.ejmech.2010.07.069. Epub 2010 Oct 1.

DOI:10.1016/j.ejmech.2010.07.069

PMID:20965619

Abstract

In present investigation a series of 28 oxadiazole analogues (AB1-AB28) were subjected to molecular properties prediction, drug-likeness by Molinspiration (Molinspiration, 2008) & MolSoft (MolSoft, 2007) softwares, lipophilicity and solubility parameters using ALOGPS 2.1 program. Out of 28 analogues only 16 were chosen on the basis of Lipinski "Rule of Five" (Ro5) for the synthesis and antimicrobial screening as oral bioavailable drugs/leads. Maximum drug-likeness model score (1.22) was found to be of compound AB13. Selected compounds (AB1-AB2), (AB5-AB9), (AB12-AB16), (AB18-AB21) were synthesized and characterized by IR, NMR and mass spectral analysis followed by antibacterial and antifungal screening. It was observed that compounds showed moderate to good antibacterial activity, but their antifungal activity was somewhat moderate. Compounds AB13 and AB20 showed pronounced activity against all bacterial and fungal strains. We had noticed that compounds (AB13, AB20) bearing OH group at one of the phenyl ring of oxadiazole exhibited good antimicrobial properties and their drug-likeness model score were also predicted maximum among the series.

摘要

在本次研究中，对一系列 28 种恶二唑类似物（AB1-AB28）进行了分子性质预测、Molinspiration（Molinspiration，2008）和 MolSoft（MolSoft，2007）软件的药物相似性评估、脂溶性和溶解度参数预测。在 28 种类似物中，只有 16 种根据 Lipinski“五规则”（Ro5）被选择用于合成和抗菌筛选，作为口服生物利用度药物/先导化合物。发现化合物 AB13 的最大药物相似性模型评分（1.22）。选择的化合物（AB1-AB2）、（AB5-AB9）、（AB12-AB16）、（AB18-AB21）通过红外光谱、核磁共振和质谱分析进行了合成和表征，随后进行了抗菌和抗真菌筛选。结果表明，化合物表现出中等至良好的抗菌活性，但抗真菌活性略差。化合物 AB13 和 AB20 对所有细菌和真菌菌株均表现出明显的活性。我们注意到，在恶二唑的一个苯环上带有 OH 基团的化合物（AB13、AB20）表现出良好的抗菌特性，并且它们的药物相似性模型评分也在该系列中预测为最高。

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一些新型噁二唑衍生物的分子性质预测、合成及抗菌活性。

Molecular properties prediction, synthesis and antimicrobial activity of some newer oxadiazole derivatives.

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