Liu Yi, Xin Hui, Wang Yuhong, Zhou Qing, Tian Jiao, Hu Chunmei, Luo Xingping, Pu Haotao, Xue Wei
State Key Laboratory of Green Pesticide, Key Laboratory of Green Pesticide and Agricultural Bioengineering, Ministry of Education, Center for R&D of Fine Chemicals, Guizhou University, Guiyang, 550025, China.
Mol Divers. 2025 Jun;29(3):2193-2208. doi: 10.1007/s11030-024-10977-8. Epub 2024 Sep 3.
A series of flavonol derivatives containing piperazine and quinoxaline had been designed and synthesized. The biological activity test results showed that some of the target compounds had good antifungal activity against various fungi. N5 had the best antifungal activity against Phomopsis sp (P.s.) and Phytophthora capsica (P.c.). The half maximal effective concentration (EC) was 12.9 and 25.8 μg/mL against P.s. and P.c., respectively, which were better than azoxystrobin (Az, 25.4 and 71.1 μg/mL). In addition, the protective and curative activities of N5 against kiwifruit were 85.9 and 67.0% at 200 μg/mL in vivo, which were better than that of Az (65.9 and 57.0%). The protective and curative activities against chili leaves were 80.6 and 66.5% at 200 μg/mL, which were better than that of Az (77.6 and 60.0%). The scanning electron microscopy (SEM) experiment showed that the action of N5 caused the mycelium to bend and fold, changed its morphology and caused damaged to the mycelium. Through the measurement of relative conductivity, leakage of cytoplasmic contents and determination of malondialdehyde (MDA) content indicated that N5 could damage the integrity of pathogenic fungal cell membranes, change the permeability of cell membranes, and affect the normal growth of mycelium.
设计并合成了一系列含哌嗪和喹喔啉的黄酮醇衍生物。生物活性测试结果表明,部分目标化合物对多种真菌具有良好的抗真菌活性。N5对拟茎点霉(P.s.)和辣椒疫霉(P.c.)的抗真菌活性最佳。其对P.s.和P.c.的半数有效浓度(EC)分别为12.9和25.8μg/mL,优于嘧菌酯(Az,25.4和71.1μg/mL)。此外,N5在200μg/mL时对猕猴桃的保护和治疗活性在体内分别为85.9%和67.0%,优于嘧菌酯(65.9%和57.0%)。在200μg/mL时对辣椒叶片的保护和治疗活性分别为80.6%和66.5%,优于嘧菌酯(77.6%和60.0%)。扫描电子显微镜(SEM)实验表明,N5的作用导致菌丝体弯曲和折叠,改变其形态并对菌丝体造成损伤。通过相对电导率的测定、细胞质内容物的泄漏以及丙二醛(MDA)含量的测定表明,N5可破坏致病真菌细胞膜的完整性,改变细胞膜的通透性,并影响菌丝体的正常生长。
