Signaling and scavenging: Unraveling the complex network of antioxidant enzyme regulation in plant cold adaptation

IF 6.8 Q1 PLANT SCIENCES Plant Stress Pub Date : 2025-03-31 DOI:10.1016/j.stress.2025.100833

Zhen Ying , Shuangbin Fu , Yanping Yang

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引用次数: 0

Abstract

Plants have evolved antioxidant defense mechanisms to respond to low - temperature stress. Low temperatures promote ROS accumulation via pathways like photosynthetic chain damage and membrane lipid peroxidation. Excessive ROS harms cellular structures and functions. The plant antioxidant enzyme system, including SOD, CAT, APX, among others, works to scavenge ROS and maintain redox balance. The ICE-CBF-COR signaling pathway, along with transcription factors such as bHLH, WRKY, NAC, and MYB, regulates the expression of antioxidant enzyme genes, thereby enhancing plant cold tolerance. Plant hormones including ABA, BR, JA, and SA also play roles by modulating antioxidant enzyme activity and ROS scavenging capacity. However, many issues remain unresolved, such as the precise regulation of the antioxidant enzyme system, the synergy between different antioxidant enzymes, crosstalk among plant hormones, and the role of non-coding RNAs. Future research should use technologies like yeast one-hybrid, multi-omics, gene editing, high-throughput sequencing, and single-cell sequencing to provide a theoretical basis and regulatory targets for breeding cold-resistant crop varieties.

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信号和清除：揭示植物冷适应中抗氧化酶调控的复杂网络

植物进化出抗氧化防御机制来应对低温胁迫。低温通过光合链损伤和膜脂过氧化等途径促进ROS积累。过量的活性氧会损害细胞结构和功能。植物抗氧化酶系统包括SOD、CAT、APX等，其作用是清除ROS并维持氧化还原平衡。ICE-CBF-COR信号通路与bHLH、WRKY、NAC、MYB等转录因子共同调控抗氧化酶基因的表达，从而增强植物的耐寒性。ABA、BR、JA和SA等植物激素也通过调节抗氧化酶活性和清除ROS能力发挥作用。然而，抗氧化酶系统的精确调控、不同抗氧化酶之间的协同作用、植物激素之间的串扰以及非编码rna的作用等问题仍未得到解决。今后的研究应利用酵母单杂交、多组学、基因编辑、高通量测序、单细胞测序等技术，为选育抗寒作物品种提供理论基础和调控靶点。

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来源期刊

Plant Stress PLANT SCIENCES-

CiteScore

5.20

自引率

8.00%

发文量

审稿时长

63 days

期刊介绍： The journal Plant Stress deals with plant (or other photoautotrophs, such as algae, cyanobacteria and lichens) responses to abiotic and biotic stress factors that can result in limited growth and productivity. Such responses can be analyzed and described at a physiological, biochemical and molecular level. Experimental approaches/technologies aiming to improve growth and productivity with a potential for downstream validation under stress conditions will also be considered. Both fundamental and applied research manuscripts are welcome, provided that clear mechanistic hypotheses are made and descriptive approaches are avoided. In addition, high-quality review articles will also be considered, provided they follow a critical approach and stimulate thought for future research avenues. Plant Stress welcomes high-quality manuscripts related (but not limited) to interactions between plants and: Lack of water (drought) and excess (flooding), Salinity stress, Elevated temperature and/or low temperature (chilling and freezing), Hypoxia and/or anoxia, Mineral nutrient excess and/or deficiency, Heavy metals and/or metalloids, Plant priming (chemical, biological, physiological, nanomaterial, biostimulant) approaches for improved stress protection, Viral, phytoplasma, bacterial and fungal plant-pathogen interactions. The journal welcomes basic and applied research articles, as well as review articles and short communications. All submitted manuscripts will be subject to a thorough peer-reviewing process.