采后香蕉果实冷害特性及木质化机制研究

Study on Characteristics and Lignification Mechanism of Postharvest Banana Fruit during Chilling Injury.

作者信息

Xiao Lu, Jiang Xunyuan, Deng Yicai, Xu Kaihang, Duan Xuewu, Wan Kai, Tang Xuemei

机构信息

Institute of Quality Standard and Monitoring Technology for Agro-Products of Guangdong Academy of Agricultural Sciences, Guangzhou 510640, China.

Key Laboratory of Testing and Evaluation for Agro-Product Safety and Quality, Ministry of Agriculture and Rural Affairs, Guangzhou 510640, China.

出版信息

Foods. 2023 Mar 4;12(5):1097. doi: 10.3390/foods12051097.

DOI:10.3390/foods12051097

PMID:36900614

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10000439/

Abstract

The banana is prone to chilling injury (CI) at low temperature and showing a series of chilling symptoms, such as peel browning, etc. Lignification is a response to abiotic stress and senescence, which is an important manifestation of fruits and vegetables during chilling exposure. However, little is known about the lignification of bananas during low-temperature storage. Our study explored the characteristics and lignification mechanism of banana fruits during low-temperature storage by analyzing the changes of chilling symptoms, oxidative stress, cell wall metabolism, microstructures, and gene expression related to lignification. The results showed that CI inhibited post-ripening by effecting the degradation of the cell wall and starch and accelerated senescence by increasing O and HO content. For lignification, () might start the phenylpropanoid pathway of lignin synthesis. (), (), and () were up-regulated to promote the lignin monomer's synthesis. () and () were up-regulated to promote the oxidative polymerization of lignin monomers. These results suggest that changes of the cell wall structure and cell wall metabolism, as well as lignification, are involved in the senescence and quality deterioration of the banana after chilling injury.

摘要

香蕉在低温下容易受到冷害（CI），并表现出一系列冷害症状，如果皮褐变等。木质化是对非生物胁迫和衰老的一种响应，是果蔬在低温处理期间的一个重要表现。然而，关于香蕉在低温贮藏期间的木质化情况知之甚少。我们的研究通过分析冷害症状、氧化应激、细胞壁代谢、微观结构以及与木质化相关的基因表达变化，探讨了香蕉果实低温贮藏期间的特征和木质化机制。结果表明，冷害通过影响细胞壁和淀粉的降解来抑制后熟，并通过增加O和HO含量加速衰老。对于木质化，（）可能启动木质素合成的苯丙烷途径。（）、（）和（）上调以促进木质素单体的合成。（）和（）上调以促进木质素单体的氧化聚合。这些结果表明，细胞壁结构和细胞壁代谢的变化以及木质化参与了香蕉冷害后的衰老和品质劣变。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6220/10000439/3e50bc240baa/foods-12-01097-g001.jpg

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采后香蕉果实冷害特性及木质化机制研究

Study on Characteristics and Lignification Mechanism of Postharvest Banana Fruit during Chilling Injury.

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