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Resistance assessment for SYP-14288 in Phytophthora capsici and changes in mitochondria electric potential-associated respiration and ATP production confers resistance.
Pest Management Science ( IF 3.8 ) Pub Date : 2020-02-20 , DOI: 10.1002/ps.5795 Zhiwen Wang 1 , Qin Peng 1 , Yanhua Hou 1 , Xiang Gao 1 , Shan Zhong 1 , Yuan Fang 1 , Changling Liu 2 , Xili Liu 3
Pest Management Science ( IF 3.8 ) Pub Date : 2020-02-20 , DOI: 10.1002/ps.5795 Zhiwen Wang 1 , Qin Peng 1 , Yanhua Hou 1 , Xiang Gao 1 , Shan Zhong 1 , Yuan Fang 1 , Changling Liu 2 , Xili Liu 3
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Phytophthora capsici is a destructive plant oomycete pathogen that could lead to devastating losses in food production. Fungicide application is the main way to control plant disease caused by P. capsici . SYP‐14288, a novel fungicide with a unique mode of action, could be used to control a broad range of plant diseases. Here, the potential for SYP‐14288 resistance in P. capsici and the resistance mechanism involved were evaluated.
中文翻译:
辣椒疫霉菌中SYP-14288的抗性评估以及线粒体电位相关呼吸和ATP产生的变化赋予了抗性。
辣椒疫霉是一种破坏性植物卵菌病原体,可能导致粮食生产的破坏性损失。杀菌剂的使用是控制辣椒引起的植物病害的主要途径。SYP-14288是一种具有独特作用方式的新型杀菌剂,可用于控制多种植物病害。这里,对于在SYP-14288电阻电位辣椒疫霉和所涉及的抗性机制进行了评价。
更新日期:2020-02-20
中文翻译:
辣椒疫霉菌中SYP-14288的抗性评估以及线粒体电位相关呼吸和ATP产生的变化赋予了抗性。
辣椒疫霉是一种破坏性植物卵菌病原体,可能导致粮食生产的破坏性损失。杀菌剂的使用是控制辣椒引起的植物病害的主要途径。SYP-14288是一种具有独特作用方式的新型杀菌剂,可用于控制多种植物病害。这里,对于在SYP-14288电阻电位辣椒疫霉和所涉及的抗性机制进行了评价。
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