I. Yaremenko, P. Radulov, Y. Belyakova, Dmitrii I. Fomenkov, V. Vil’, M. Kuznetsova, V. Demidova, Alexei P. Glinushkin, A. Terent’ev
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引用次数: 0
Abstract
The search for new classes of fungicides has long been important in plant protection due to the development of fungal resistance to currently used agrochemicals. Organic peroxides have long been regarded as exotic and unstable compounds. The discovery of the antimalarial activity of the peroxide natural product Artemisinin, an achievement that was recently recognized with the Nobel Prize, has brought organic peroxides into the medicinal and agrochemistry. In this paper, fungicidal activity of synthesized organic peroxides—geminal bishydroperoxide, bridged 1,2,4,5-tetraoxanes, and tricyclic monoperoxides—were tested in vitro against an important species of phytopathogenic fungi (F. culmorum, R. solani, A. solani, P. infestans, C. coccodes). We discovered that substituted bridged 1,2,4,5-tetraoxanes exhibit fungicidal activity comparable or superior to azoxystrobin and superior to geminal bishydroperoxide and tricyclic monoperoxides. The contact mode of action was demonstrated for the bridged 1,2,4,5-tetraoxane.
由于真菌对目前使用的农用化学品的抗性的发展,寻找新型杀菌剂在植物保护中一直很重要。有机过氧化物一直被认为是外来的、不稳定的化合物。发现过氧化物天然产物青蒿素具有抗疟疾活性,这一成就最近获得了诺贝尔奖,它将有机过氧化物带入了医药和农业化学领域。本文研究了合成的有机过氧化物(双双氧水、桥接1,2,4,5-四氧烷和三环单过氧化物)对一种重要植物病原真菌(F. culmorum, R. solani, A. solani, P. infestans, C. coccodes)的体外杀真菌活性。我们发现取代桥接1,2,4,5-四氧烷具有与偶氮嘧菌酯相当或更好的杀真菌活性,优于双双氧水和三环单过氧化物。证明了桥接1,2,4,5-四氧烷的接触模式。
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