交替链格孢
黑点
盐酸盐
化学
碘化丙啶
生物
活性氧
体外
细胞内
生物化学
盐酸环丙沙星
盐酸阿霉素
基因表达
分子生物学
作者
Shuaiqi Zhang,Wanqing Liu,Wen-Long Hu,Masao Ban,Jiahua Zhou,Liya Liang,Baogang Wang,Ranran Xu
标识
DOI:10.1016/j.lwt.2025.118405
摘要
Black spot rot in sweet cherries, caused by Alternaria alternata infection, severely restricts the marketing of sweet cherries. This study aimed to evaluate the inhibitory effects of 5-aminolevulinic acid hydrochloride (5-ALA hydrochloride) on A. alternata and its possible mechanism. The development of A. alternata in vitro was completely suppressed by 60 g L −1 of 5-ALA hydrochloride treatment. 5-ALA hydrochloride induced morphological alterations and cytoplasmic leakage, suggesting the disruption of the cell membrane, as verified through propidium iodide staining. Laser scanning confocal microscopy observations revealed that 5-ALA hydrochloride led to the formation of reactive oxygen species, indicating the occurrence of intracellular oxidative stress. While black spot symptoms were significantly reduced under 5-ALA hydrochloride treatment. Further research revealed that 5-ALA hydrochloride altered the transcript levels of A. alternata . The expression of cell wall disintegration-related genes was activated by 5-ALA hydrochloride treatment. Based on these results, we concluded that 5-ALA hydrochloride control of black spot rot can be carried out through multiple targets and that 5-ALA hydrochloride can be applied as an ideal fungicide. • 5-aminolevulinic acid hydrochloride inhibited A. alternata growth in vitro and vivo. • 5-ALA hydrochloride disrupted the membrane integrity of A. alternata. • 5-ALA hydrochloride inhibited MDA accumulation and ROS production of A. alternata. • 5-ALA hydrochloride changed the morphology and ultrastructure of A. alternata. • Transcriptional mechanism of 5-ALA hydrochloride against A. alternata was analyzed.
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