Alfalfa MsGAD2 induces γ-aminobutyric acid accumulation and enhances Cd resistance in transgenic tobacco

IF 4.5 2区生物学 Q2 ENVIRONMENTAL SCIENCES

Environmental and Experimental Botany Pub Date : 2025-01-01 DOI:10.1016/j.envexpbot.2024.106058

Bo Qin , Minglong Sun , Hongzhen Liu , Kexin Wang , Hongrui Zhang , Tie Li , Dongmei Li , Huihui Zhang

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引用次数: 0

Abstract

The present study compared two alfalfa varieties with different Cd-stress resistance levels: Medicago sativa ‘Zhaodong’ (ZD, resistant) and ‘Zhongmu No.1’ (ZM, sensitive). While the varieties showed no significant difference in Cd content under Cd stress, ZD exhibited greater adaptability, indicated by lower suppression of PSII activity, photosynthetic carbon assimilation, and reduced ROS damage. Weighted gene co-expression network analysis (WGCNA) based on RNA-seq data revealed that differentially expressed genes (DEGs) associated with physiological resistance indicators were significantly enriched in KEGG pathways related to proline (PRO) and γ-aminobutyric acid (GABA) synthesis, including alanine, aspartate and glutamate metabolism (map00250), arginine biosynthesis (map00220), and arginine and proline metabolism (map00330). Notably, the accumulation of proline and GABA was higher in the resistant alfalfa variety ZD. Furthermore, a key gene in the GABA synthesis pathway, MsGAD2, was identified as potentially playing a crucial role in the Cd-stress adaptation. To investigate its role in Cd stress resistance, alfalfa MsGAD2 was heterologously overexpressed in tobacco. MsGAD2 overexpression significantly enhanced GABA synthesis in tobacco leaves under both control and, especially, Cd stress conditions. MsGAD2 overexpression also effectively prevented the decline of chlorophyll in tobacco leaves under Cd stress. It achieved this by stabilizing the activities of PSII and PSI and optimizing energy distribution within the PSII reaction center, thereby alleviating photosynthetic inhibition. The accumulation of GABA further enhanced the activities of antioxidant enzymes, such as superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT) in tobacco leaves under Cd stress, thus promoting PRO accumulation and mitigating oxidative damage associated with Cd exposure. Thus, PRO and GABA accumulation likely contributed to ZD’s superior adaptability to Cd stress compared to ZM. Thus, MsGAD2 played a crucial role in enhancing Cd tolerance in transgenic tobacco. These findings not only elucidate the mechanisms by which GABA is involved in Cd-stress adaptation, but also provide valuable genetic resources for breeding Cd-resistant alfalfa.

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苜蓿MsGAD2诱导转基因烟草γ-氨基丁酸积累，增强烟草抗Cd能力

本研究比较了两个不同抗cd胁迫水平的苜蓿品种：紫花苜蓿‘昭东’（ZD，抗性）和‘中牧1号’（ZM，敏感）。不同品种在Cd胁迫下Cd含量差异不显著，而ZD表现出更强的适应性，表现在PSII活性抑制、光合碳同化抑制和ROS损伤降低。基于RNA-seq数据的加权基因共表达网络分析（WGCNA）显示，与脯氨酸（PRO）和γ-氨基丁酸（GABA）合成相关的KEGG通路中，与生理抗性指标相关的差异表达基因（DEGs）显著富集，包括丙氨酸、天冬氨酸和谷氨酸代谢（map00250）、精氨酸生物合成（map00220）、精氨酸和脯氨酸代谢（map00330）。值得注意的是，抗性苜蓿品种ZD的脯氨酸和GABA积累量较高。此外，GABA合成途径中的一个关键基因MsGAD2被鉴定为可能在cd胁迫适应中发挥关键作用。以苜蓿MsGAD2在烟草中异源过表达为研究材料，探讨其在Cd胁迫抗性中的作用。在对照和Cd胁迫条件下，MsGAD2过表达显著提高了烟草叶片GABA的合成。MsGAD2过表达也能有效阻止Cd胁迫下烟草叶片叶绿素的下降。通过稳定PSII和PSI的活性，优化PSII反应中心内的能量分布，从而减轻光合抑制。GABA的积累进一步提高了Cd胁迫下烟草叶片中超氧化物歧化酶（SOD）、过氧化物酶（POD）和过氧化氢酶（CAT）等抗氧化酶的活性，从而促进PRO的积累，减轻Cd胁迫引起的氧化损伤。因此，PRO和GABA的积累可能是ZD对Cd胁迫的适应性优于ZM的原因。因此，MsGAD2在提高转基因烟草的Cd耐受性方面发挥了至关重要的作用。这些发现不仅阐明了GABA参与cd胁迫适应的机制，也为培育抗cd的紫花苜蓿提供了宝贵的遗传资源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Environmental and Experimental Botany 环境科学-环境科学

CiteScore

9.30

自引率

5.30%

发文量

342

审稿时长

26 days

期刊介绍： Environmental and Experimental Botany (EEB) publishes research papers on the physical, chemical, biological, molecular mechanisms and processes involved in the responses of plants to their environment. In addition to research papers, the journal includes review articles. Submission is in agreement with the Editors-in-Chief. The Journal also publishes special issues which are built by invited guest editors and are related to the main themes of EEB. The areas covered by the Journal include: (1) Responses of plants to heavy metals and pollutants (2) Plant/water interactions (salinity, drought, flooding) (3) Responses of plants to radiations ranging from UV-B to infrared (4) Plant/atmosphere relations (ozone, CO2 , temperature) (5) Global change impacts on plant ecophysiology (6) Biotic interactions involving environmental factors.