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欧洲芸苔生球腔菌田间分离物中靶标抗性与 DMI 敏感性降低相关的证据。

Evidence for the association of target-site resistance in cyp51 with reduced DMI sensitivity in European Cercospora beticola field isolates.

机构信息

Institute of Sugar Beet Research, Göttingen, Germany.

BASF SE, Limburgerhof, Germany.

出版信息

Pest Manag Sci. 2021 Apr;77(4):1765-1774. doi: 10.1002/ps.6197. Epub 2020 Dec 14.

DOI:10.1002/ps.6197
PMID:33236506
Abstract

BACKGROUND

Cercospora leaf spot caused by Cercospora beticola is the most relevant foliar disease in sugar beet cultivation. In the last decade a decreasing sensitivity of C. beticola towards demethylation inhibitors (DMIs) occurred. Different mechanisms mediating a reduced sensitivity towards DMIs have been identified in different plant pathogens to date, such as target site mutations, over-expression or active excretion of the fungicide.

RESULTS

A sequencing of the cytochrome P450-dependent sterol 14α-demethylase gene sequence (cyp51) of diverse C. beticola isolates collected in different European countries with reduced DMI sensitivity was performed in order to find a possible correlation of mutations with higher EC values. The amino acid alterations Y464S, L144F and I309T combined with L144F were found to be associated with a reduced sensitivity. Furthermore, mutations I387M, M145W and M145W with E460Q were found uniquely. Additionally, constitutive and fungicide triggered expression of cyp51 was assayed by means of RT-qPCR. A very strong induction of cyp51 mRNA expression in sensitive isolates suggests that the fungal cells upregulate expression to maintain ergosterol biosynthesis in DMI presence. The less intensive cyp51 induction in isolates with higher EC values underlines the possible correlation of the found target-site mutations with reduced sensitivity.

CONCLUSION

This study provides new results about possible alterations in the target gene mediating reduced sensitivity of C. beticola towards DMIs and hypothesized a fungicide induced over-expression of the target enzyme CYP51 as natural reaction of the fungus to fungicide application. © 2020 Society of Chemical Industry.

摘要

背景

由 Cercospora beticola 引起的褐斑病是甜菜种植中最相关的叶部病害。在过去的十年中,C. beticola 对脱甲基抑制剂(DMIs)的敏感性降低。迄今为止,不同的植物病原体已经确定了不同的介导对 DMIs 敏感性降低的机制,例如靶标位点突变、杀菌剂的过度表达或主动排泄。

结果

对不同欧洲国家收集的具有降低 DMI 敏感性的多种 C. beticola 分离物的细胞色素 P450 依赖性甾醇 14α-脱甲基酶基因序列(cyp51)进行了测序,以寻找突变与更高 EC 值之间的可能相关性。发现氨基酸改变 Y464S、L144F 和 I309T 与 L144F 相结合与敏感性降低有关。此外,还发现了独特的 I387M、M145W 和 M145W 与 E460Q 突变。此外,还通过 RT-qPCR 测定了 cyp51 的组成型和杀菌剂触发表达。在敏感分离物中 cyp51 mRNA 表达的强烈诱导表明真菌细胞上调表达以维持 DMI 存在下的麦角固醇生物合成。在 EC 值较高的分离物中,cyp51 的诱导程度较低,这强调了发现的靶标位点突变与降低的敏感性之间可能存在相关性。

结论

本研究提供了关于介导 C. beticola 对 DMIs 降低敏感性的靶基因可能发生变化的新结果,并假设靶酶 CYP51 的杀菌剂诱导过度表达是真菌对杀菌剂应用的自然反应。 © 2020 化学工业协会。

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