Y. O. Kustovskiy, A. Y. Buziashvili, S. P. Ozheredov, Y. B. Blume, A. I. Yemets
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引用次数: 0
摘要
分析了伊维菌素对禾谷镰刀菌(F-55644、F-55748)和氧孢镰刀菌(F-52897、F-55547)植物病原菌菌株的影响;结果确定了伊维菌素对特定菌株菌落生长有杀菌作用的浓度(2 和 3 mg/mL)。研究发现,一般来说,草孢霉菌株比禾本科菌株对伊维菌素更敏感。由于已知伊维菌素能与β-微管蛋白相互作用(导致微管稳定化),为了解释所获得的结果,我们建立了该化合物与镰刀菌β-微管蛋白复合物的三维模型,并确定了伊维菌素诱导的β-微管蛋白构象变化,尤其包括β-微管蛋白分子 M 环的稳定化和螺旋化。β-微管蛋白的这一结构元素在微管内相邻原丝的微管蛋白亚基之间的横向联系中起着重要作用。由于 M 环的稳定反映了微管稳定剂与 β-微管蛋白的类固醇位点结合的一个非常重要的特征,因此可以认为伊维菌素对镰刀菌微管也有同样的作用。根据研究结果,可以将伊维菌素或其衍生物视为具有杀菌活性的潜在化合物。
β-Tubulin of Fusarium as a Potential Target for Realization of Antifungal Activity of Ivermectin
The analysis of the effect of ivermectin on phytopathogenic strains of Fusarium graminearum (F‑55644, F-55748) and Fusarium oxysporum f. sp. lycopersici (F-52897, F-55547) was carried out; as a result, its concentrations were established at which a fungistatic effect on the growth of colonies of the specified strains was observed (2 and 3 mg/mL). It was found that F. oxysporum strains were more susceptible in general to ivermectin than F. graminearum strains. Since it is known that ivermectin is able to interact with β-tubulin (causing a stabilization of microtubules), to explain the obtained results, a 3-dimensional model of the complex of this compound with Fusarium β-tubulin was developed and ivermectin-induced changes in the conformation of β-tubulin were determined, including, particularly, the stabilization and spiralization of the M‑loop of the β-tubulin molecule. This structural element of β-tubulin plays an important role in the lateral contacts between tubulin subunits of adjacent protofilaments within the microtubule. Since the M-loop stabilization reflects a very important feature of microtubule stabilizing agents' binding to the taxane site of β-tubulin, it can be supposed, that ivermectin possesses the same effect on Fusarium microtubules. The results obtained allow for considering ivermectin or its derivatives as potential compounds with fungicidal activity.