殺菌剤プロシミドンの開発
スポンサーリンク
概要
- 論文の詳細を見る
Procymidone [N-(3, 5-dichlorophenyl)-1, 2-dimethylcyclopropane-1, 2-dicarboximide] is a new type of fungicide highly effective against Botrytis and Sclerotinia diseases on various crops. The antifungal activity of the leading compound, H-5009 [1-cyanoethyl-N-(3, 5-dichlorophenyl) carbamate] was found in 1966, and various derivatives were prepared to investigate the structure-activity relationships. As the results, 3, 5-dihalo substituents on the benzene ring and cyclic imide moiety turned out to be essential to high activity. The effect of the substituents on benzen and imide rings was analyzed by using Hansch-Fujita method to derive the following conclusion. The larger hydrophobicity of m-substituents on benzen ring and the substituents on imide ring, and the stronger electron withdrawal and the smaller steric dimension of the benzene ring substituents, contribute to the higher activity. Among the derivatives, procymidone has been selected and successfully developed as an agricultural fungicide for its high efficacy, low toxicity to non-target organisms, low impact to the environment. Procymidone was effective to control the diseases curatively as well as protectively. The fungicide exhibited residual activity on plant grown in a greenhouse and its activity persisted against rain. In addition, systemic activity was observed in plants. These properties result in good performance of procymidone in field. Hyphal tip growth of B. cinerea stopped immediately after the treatment of procymidone. Then hyphal cells swelled and finally bursted. Conidia also bursted, but hyphal protoplasts did not burst in the presence of procymidone and regenerated chains of yeast-like cells without any development of normal hypha. Wall-less mutant of Neurospora crassa was also less sensitive to procymidone than the wild strains. Effects of procymidone on respiration and synthetic metabolism of proteins, nucleic acids and lipids were examined by using the mycelia of B. cinerea, but remarkable inhibition was not observed. It is supposed that procymidone may act on cytoplasmic membrane and its action would be related to membrane function for cell wall synthesis.
- 日本農薬学会の論文
- 1983-05-20
著者
-
藤浪 曄
Pesticides Research Laboratory Sumitomo Chemical Co. Ltd.
-
久田 芳夫
住友化学工業株式会社農薬事業部
-
川瀬 保夫
住友化学工業株式会社農薬事業部
-
藤浪 曄
住友化学工業株式会社農薬事業部
-
久田 芳夫
住友化学工業株式会社
関連論文
- N-(3, 5-Dichlorophenyl)cyclopropanedicarboximides の抗菌活性に及ぼすシクロプロパン環上メチル基の効果
- 殺菌剤プロシミドンの開発
- 抗菌活性を有する 1-アシル-3-(3, 5-ジクロロフェニル)-2, 4-イミダゾリジンジオン類の定量的構造活性相関
- (229) 新殺菌剤S-1358による糸状菌のエルゴステロール生合成阻害 (昭和49年度日本植物病理学会大会講演要旨)
- N-3-ピリジルイミドジチオカーボネート誘導体の抗菌特性
- 浸透性殺菌剤 S-7131 のキュウリでの浸透移行性
- (162) 殺菌剤スミレックスの作用特性 (昭和51年度日本植物病理学会大会講演要旨)
- 圃場で発生したプロシミドン耐性灰色かび病菌の性質
- プロサイミドンの灰色かび病菌に対する作用機構
- プロサイミドンの灰色かび病菌への可逆的結合
- (169) 細胞壁存在の有無とプロサイミドンの抗菌性の差 (昭和55年度日本植物病理学会大会講演要旨)
- N-(3', 5'-dichlorophenyl)-1, 2-dimethylcyclopropane-1, 2-dicarboximide の灰色かび病菌に対する抗菌作用についての形態学的研究
- 植物病原菌の殺菌剤耐性
- 灰色かび病菌における室内と圃場条件下でのプロサイミドン耐性化の相違
- (31) スミレックス長期使用条件下におけるバラ灰色かび病菌の薬剤感受性の推移 (昭和53年度地域部会講演要旨(関西部会))
- タバコ・モザイク・ウイルス系統間の粒子再構成における反応特異性と再構成ウイルスの感染性