Effect of abscisic acid on rice defense mechanism against Fusarium oxysporum

Q4 Agricultural and Biological Sciences

Journal of Phytology Pub Date : 2024-04-12 DOI:10.25081/jp.2024.v16.8774

Guo Peng, Yang Ming Xiu, Li Yun Peng, Haseeb Younis, Ni Zhe, Xu Xiao Feng, Liu Qing Ran, Xiong Tian Liang, Zhang Jun Hua

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Abstract

Fusarium oxysporum is one of the most destructive pathogens which causes rice seedling blight. ABA is part of a large signaling system that provides an effective system against microbial and environmental manipulations. The role of ABA in plant defense mechanisms is not clear. In this experiment, we prove the role of abscisic acid (ABA) in boosting rice plant resistance against F. oxysporum and optimizing ABA concentrations against F. oxysporum. This study is divided into two experiments. In the first experiment, we used various ABA concentrations of 0.0, 0.05, 0.1, 0.2, and 0.25 mmol/L under F. oxysporum stress. In the second experiment, we use Fluridone FLD as an ABA inhibitor with the following treatments, (F) is only applied with F. oxysporum (ABA+F), abscisic acid with F. oxysporum (ABAI+F), ABA inhibitor Fluridone with F. oxysporum (ABAI), where only ABA inhibitor Fluridone was applied and CK was used as a control. The results revealed that all the plants treated with ABA exhibit better performance against F. oxysporum, except those treated without ABA. ABA concentrations of 0.2 mmol/L effectively decreased the disease index and disease incidence rate as well as improved the quality of seedlings. ABA effectively increased the activity of defense-related enzymes like PPO, POD, PAL and SOD. ABA also lowers down the MDA content which proves its effectiveness against F. oxysporum. ABA resistance was also proved by plants treated with the abscisic acid inhibitor ABAI (Fluridone FLD). The ABA inhibitor reduced the rice resistance to F. oxysporum, by conforming the expression of defense-related genes PRB1-3, PRBI-2 and Xa39(t). These gene expressions indicate the involvement of ABA in plant defense system.

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脱落酸对水稻抗镰刀菌防御机制的影响

镰刀菌是导致水稻秧苗枯萎病的最具破坏性的病原体之一。ABA 是一个大型信号系统的一部分，它提供了一个有效的系统来对抗微生物和环境的操纵。ABA 在植物防御机制中的作用尚不清楚。在本实验中，我们证明了脱落酸（ABA）在增强水稻植株对牛孢子菌的抗性以及优化 ABA 浓度对牛孢子菌的作用。本研究分为两个实验。在第一个实验中，我们使用了不同浓度的 ABA（0.0、0.05、0.1、0.2 和 0.25 mmol/L）来应对 F. oxysporum 胁迫。在第二项实验中，我们使用氟啶酮 FLD 作为 ABA 抑制剂，并进行了以下处理：（F）只与 F. oxysporum（ABA+F）一起施用、脱落酸与 F. oxysporum（ABAI+F）一起施用、ABA 抑制剂氟啶酮与 F. oxysporum（ABAI）一起施用，其中只施用 ABA 抑制剂氟啶酮，CK 作为对照。结果表明，除未使用 ABA 的植物外，所有使用 ABA 的植物对 F. oxysporum 的抗性都更好。浓度为 0.2 mmol/L 的 ABA 能有效降低病害指数和病害发生率，并改善秧苗质量。ABA 能有效提高 PPO、POD、PAL 和 SOD 等防御相关酶的活性。ABA 还能降低 MDA 含量，这证明了它对 F. oxysporum 的有效性。用脱落酸抑制剂 ABAI（氟利酮 FLD）处理的植物也证明了 ABA 的抗性。ABA 抑制剂通过抑制防御相关基因 PRB1-3、PRBI-2 和 Xa39(t) 的表达，降低了水稻对 F. oxysporum 的抗性。这些基因的表达表明 ABA 参与了植物防御系统。

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来源期刊

Journal of Phytology Agricultural and Biological Sciences-Plant Science

CiteScore

1.40

自引率

0.00%

发文量