单羟基呋喃及其异构体与乙酰胆碱受体的结合亲和力评价

Sayoko Oba, Kouki Kirihara, Masaki Otsuchihashi, H. Takanashi, T. Nakajima, T. Ueda, J. Kadokawa, H. Ishikawa, N. Miyamoto
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摘要

有一些报道称,一种农药的转化产物存在的浓度高于其母体农药,或其药理活性与母体农药相当。因此,必须审查它们对水生生物的潜在影响;然而,很少有研究关注新烟碱类杀虫剂呋虫胺转化产物的杀虫活性。在本研究中,通过对氙灯照射后的呋喃水溶液进行LC-HRMS分析,探讨了呋喃的转化产物。这一探索导致了两种未知转化产物的发现。对这两种化合物的结构分析表明,它们分别具有28种和82种结构异构体和空间异构体。模拟了它们与淋巴细胞来源的乙酰胆碱结合蛋白的结合亲和力,以估计它们的杀虫活性。在28个候选物中,20个被认为具有显著的杀虫活性。可以得出结论,模拟物质的结合亲和力,即所谓的对接模拟,是在大量候选物质中排除无毒物质的一种很有前途的方法。
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Binding Affinity Evaluation of Monohydroxydinotefuran and Its Isomers to Acetylcholine Receptor
There are some reports that transformation products of a pesticide exist at higher concentrations than their parent pesticide, or their pharmacological activities are comparable to that of a parent pesticide. It is therefore of importance to examine their potential effects on aquatic organisms; however, few studies have focused on the insecticidal activities of a transformation product of dinotefuran, a neonicotinoid pesticide. In this study, dinotefuran’s transformation products were explored by LC-HRMS analyses of dinotefuran aqueous solutions that had been irradiated by a xenon lamp. This exploration resulted in the discovery of two unknown transformation products. Structural elucidations of these two compounds suggested 28 and 82 chemical structures in terms of structural isomers and steric isomers, respectively. Their binding affinities for a glia-derived acetylcholine-binding protein of Lymnaea stagnalis were simulated to estimate their insecticidal activities. Out of 28 candidates, 20 were judged to have significant insecticidal activities. It can be concluded that the simulation of a substance’s binding affinity, the so-called docking simulation, is a promising way to exclude nontoxic substances among a large number of candidate substances.
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