Antifungal activity and mechanism of chaetoglobosin D against Alternaria alternata in tomato postharvest storage

The postharvest decay of tomatoes, induced by the pathogen Alternaria alternata during storage, has led to significant economic losses in the tomato industry. This study aimed to explore the effect and underlying mechanism of the marine-derived fungus bioactive compound chaetoglobosin D (ChD) agains...

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Bibliographic Details
Published in:Postharvest biology and technology 2024-08, Vol.214, p.113014, Article 113014
Main Authors: Du, Hui-Fang, Sun, Tian-Tian, Tong, Xiao-Yi, Ren, Jia, Zhang, Ya-Hui, Shaw, Pang-Chui, Luo, Du-Qiang, Cao, Fei
Format: Article
Language:English
Subjects:
adenosinetriphosphatase
Alternaria alternata
Antifungal activity
Antifungal mechanism
antifungal properties
bioactive compounds
catalase
cell membranes
Chaetoglobosin D
electron microscopy
ergosterol
flavor
fluorescence
fruits
fungi
glycerophospholipids
hydrogen peroxide
malondialdehyde
metabolism
metabolome
mycelium
pathogens
pentose phosphate cycle
postharvest diseases
postharvest storage
superoxide dismutase
Tomato
tomatoes
transcriptome
tricarboxylic acid cycle
vegetable industry
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Summary:The postharvest decay of tomatoes, induced by the pathogen Alternaria alternata during storage, has led to significant economic losses in the tomato industry. This study aimed to explore the effect and underlying mechanism of the marine-derived fungus bioactive compound chaetoglobosin D (ChD) against postharvest black spot disease in tomato fruit. In both in vitro and in vivo experiments, ChD was found to effectively inhibit the growth of A. alternata and reduce the lesion area caused by this pathogen. Electron microscopy observations revealed that ChD induces mycelia morphological deformations, increases branching, and disrupts the integrity of cell membrane and certain organelle. Enrichment analysis of transcriptome revealed a notable enrichment of genes associated with oxidoreductase activity and ATPase activity. Similarly, analysis of metabolome showed significant changes in glycerophospholipid metabolism, the pentose phosphate pathway, and the citrate cycle. These findings were further supported by fluorescence staining, increased relative conductivity, ergosterol, malondialdehyde, and hydrogen peroxide content, as well as decreased catalase, superoxide dismutase, ATPase activity, and ATP content. These results suggested that ChD could impact the synthesis of cell membranes, leading to oxidative damage within the mycelia. The application of ChD in preserving fresh tomatoes effectively maintained the quality and flavor of the product, positioning it as a natural agent for mitigating postharvest decay in tomatoes. [Display omitted] •Chaetoglobosin D (ChD) exhibited inhibitory activity against Alternaria alternata.•ChD could damage the integrity of cell membranes and cause oxidative stress.•ChD could effectively preserve tomato quality and flavor in fresh tomatoes.•ChD has potential as a natural agent for mitigating postharvest decay in tomatoes.
ISSN:0925-5214
1873-2356
DOI:10.1016/j.postharvbio.2024.113014