柠檬青霉菌分泌的次级代谢产物能够增强结节状单孢菌对戊唑醇和嘧菌酯的敏感性。

IF 2.1 Q3 MYCOLOGY
Frontiers in fungal biology Pub Date : 2022-07-07 eCollection Date: 2022-01-01 DOI:10.3389/ffunb.2022.889547
Maksim Kartashov, Tatiana Voinova, Larisa Shcherbakova, Lenara Arslanova, Kseniya Chudakova, Vitaly Dzhavakhiya
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引用次数: 0

摘要

结瘤副单孢菌引起小麦颖片和叶斑病,这是一种严重损失粮食产量的有害疾病。在包括俄罗斯在内的许多国家,使用基于三唑和三唑与斯特罗比林组合的杀真菌制剂来控制这种真菌。然而,它们的长期应用可能会促进对杀菌剂抗性菌株的选择,导致杀菌效果显著减弱甚至丧失。用天然化合物对植物病原真菌进行化学致敏是减轻杀菌剂耐药性和其他杀菌剂负面影响的一种很有前途的策略。在这项工作中,我们使用6-去甲基甲维诺林(6-DMM),一种柠檬青霉的代谢产物,对对对戊唑醇或嘧菌酯不耐药或不耐药的结节假单胞菌菌株应用了化学增敏方法。抗性菌株是通过诱变和随后在琼脂培养基上培养获得的,琼脂培养基中加入了增加剂量的Folicur®EC 250(即戊唑醇)或Quadris®SC 250(即嘧菌酯)。分别选择对戊唑醇和嘧菌酯抗性最强的试验菌株m8-4和kd-18进行致敏实验。这些实验表明,将6-DMM与Folicur®结合使用,除了在体外降低结节假单胞菌对戊唑醇的耐药性外,还能增强体外和体内的杀菌效果。6-DMM还被发现,当应用于接种该菌株的分离小麦叶片时,可以增强Quadris®对kd-18的效力。在温室条件下对牛蒡增敏的实验包括用6-DMM和Folicur®对小麦幼苗进行预防性(在接种的同时施用试验化合物)或接种后喷洒,剂量率(DR)分别为推荐田间施用剂量率(RDR)的10%和20%。联合处理与单独使用相同DR的杀菌剂和敏化剂并行进行。当敏化剂与杀真菌剂以10%的RDR共同施用时,在预防和接种后处理中都观察到协同作用。在这种情况下,仅在RDR的10%或20%时,疾病减少显著超过Folicur®的保护作用,也超过了计算出的加性效应。总之,我们的研究结果表明,6-DMM有望成为三唑和斯特罗比林杀菌剂配方的假定成分。这种新配方将提高杀菌剂的功效,并可能降低植物病原体控制所需的杀菌剂的使用率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Secondary Metabolite Secreted by <i>Penicillium citrinum</i> Is Able to Enhance <i>Parastagonospora nodorum</i> Sensitivity to Tebuconazole and Azoxystrobin.

A Secondary Metabolite Secreted by <i>Penicillium citrinum</i> Is Able to Enhance <i>Parastagonospora nodorum</i> Sensitivity to Tebuconazole and Azoxystrobin.

A Secondary Metabolite Secreted by <i>Penicillium citrinum</i> Is Able to Enhance <i>Parastagonospora nodorum</i> Sensitivity to Tebuconazole and Azoxystrobin.

A Secondary Metabolite Secreted by Penicillium citrinum Is Able to Enhance Parastagonospora nodorum Sensitivity to Tebuconazole and Azoxystrobin.

Parastagonospora nodorum causes glume and leaf blotch of wheat, a harmful disease resulting in serious losses in grain yield. In many countries including Russia, fungicidal formulations based on triazoles and on triazoles combined with strobilurins are used to control this fungus. However, their prolonged application may promote the selection of fungicide-resistant strains of P. nodorum leading to significant attenuation or even loss of fungicidal effect. Chemosensitization of plant pathogenic fungi with natural compounds represents a promising strategy for mitigating fungicide resistance and other negative impacts of fungicides. In this work, we applied a chemosensitization approach towards P. nodorum strains non-resistant or resistant to tebuconazole or azoxystrobin using 6-demethylmevinolin (6-DMM), a metabolite of Penicillium citrinum. The resistant strains were obtained by the mutagenesis and subsequent culturing on agar media incorporated with increasing doses of Folicur® EC 250 (i.e., tebuconazole) or Quadris® SC 250 (i.e., azoxystrobin). Test strains m8-4 and kd-18, most resistant to tebuconazole and azoxystrobin, respectively, were selected for sensitization experiments. These experiments demonstrated that combining 6-DMM with Folicur® enhanced fungicidal effectiveness in vitro and in vivo in addition to attenuating the resistance of P. nodorum to tebuconazole in vitro. 6-DMM was also found to augment Quadris® efficacy towards kd-18 when applied on detached wheat leaves inoculated with this strain. Experiments on P. nodorum sensitization under greenhouse conditions included preventive (applying test compounds simultaneously with inoculation) or post-inoculation spraying of wheat seedlings with 6-DMM together with Folicur® at dose rates (DR) amounting to 10% and 20% of DR recommended for field application (RDR). Combined treatments were run in parallel with using the same DR of the fungicide and sensitizer, alone. A synergistic effect was observed in both preventive and post-inoculation treatments, when the sensitizer was co-applied with the fungicide at 10% of the RDR. In this case, disease reduction significantly exceeded the protective effect of Folicur® at 10% or 20% of the RDR, alone, and also a calculated additive effect. Collectively, our findings suggest that 6-DMM is promising as a putative component for formulations with triazole and strobilurin fungicides. Such new formulations would improve fungicide efficacy and, potentially, lower rates of fungicides needed for plant pathogen control.

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