干旱胁迫
抗旱性
生物
疾病
水分胁迫
植物抗病性
抗性(生态学)
耐旱性
医学
战斗或逃跑反应
农学
作者
Zhenzhen Lu,Xu Cao,Zhi-Cong Dai,Xin-Ping Wang,Jiaxin Yang,Nan Chao,Xiaohui Yao,Dong-Yang Zhang,Weiguo Zhao
标识
DOI:10.1021/acs.jafc.5c17584
摘要
and could eventually cause death of fungal cells by destroying the cell membrane. Additionally, PTE@ZIF-8@MgHCF exhibited excellent antioxidant activity. Under drought conditions, it effectively eliminated excess hydroxyl radicals, thereby protecting the photosynthetic process, which is crucial for starch production. Starch effectively maintains the osmotic pressure of cells and reduces water loss. Finally, PTE@ZIF-8@MgHCF did not exert toxic effects on wheat plants or earthworms. In conclusion, the nanoformulation is expected to greatly aid the effective control of mulberry sclerotinia disease and enhance drought resistance in mulberry.
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