综合生理和代谢组学反应揭示了红麻在镉胁迫下的耐镉和解毒机制。

Integrated physiological and metabolomic responses reveal mechanisms of Cd tolerance and detoxification in kenaf ( L.) under Cd stress.

作者信息

Saeed Wajid, Mubeen Samavia, Pan Jiao, Rehman Muzammal, Fang Wangqiang, Luo Dengjie, Liu Pingwu, Li Yun, Chen Peng

机构信息

Guangxi Key Laboratory of Agro-environment and Agric-products Safety, Key Laboratory of Plant Genetics and Breeding, College of Agriculture, Guangxi University, Nanning, China.

Sanya Nanfan Research Institute of Hainan University, Sanya, China.

出版信息

Front Plant Sci. 2024 Aug 8;15:1332426. doi: 10.3389/fpls.2024.1332426. eCollection 2024.

DOI:10.3389/fpls.2024.1332426

PMID:39175486

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11340530/

Abstract

INTRODUCTION

Cadmium (Cd) is a highly toxic trace element that occurs in large quantities in agricultural soils. The cultivation of industrial crops with high phytoremediation potential, such as kenaf, could effectively reduce soil Cd contamination, but the mechanisms of toxicity, tolerance, and detoxification remain unclear.

METHODS

In this study, the effects of different Cd concentrations (0, 100, 250, and 400 µM) on growth, biomass, Cd uptake, physiological parameters, metabolites and gene expression response of kenaf were investigated in a hydroponic experiment.

RESULTS AND DISCUSSION

The results showed that Cd stress significantly altered the ability of kenaf to accumulate and transport Cd; increased the activity of hydrogen peroxide (HO), superoxide anion (O ), and malondialdehyde (MDA); reduced the activities of superoxide dismutase SOD) and catalase (CAT); and decreased the content of photosynthetic pigments, resulting in significant changes in growth and biomass production. Exposure to Cd was found to have a detrimental effect on the ascorbate-glutathione (AsA-GSH) cycle in the roots, whereas it resulted in an elevation in AsA levels and a reduction in GSH levels in the leaves. The increased content of cell wall polysaccharides under Cd stress could contribute to Cd retention in roots and limited Cd transport to above-ground plant tissues. Metabolomic analyses revealed that alanine, aspartate, and glutamate metabolism, oxidative phosphorylation, ABC transporter, and carbon metabolism were the major metabolic pathways associated with Cd stress tolerance. Cd stress increased gene expression of and in roots, which resulted in kenaf roots accumulating high Cd concentrations. This study extends our knowledge of the factors regulating the response of kenaf to Cd stress. This work provided a physiological and metabolomic perspective on the mechanism controlling the response of kenaf to Cd stress.

摘要

引言

镉（Cd）是一种剧毒微量元素，在农业土壤中大量存在。种植具有高植物修复潜力的工业作物，如红麻，可有效降低土壤镉污染，但其毒性、耐受性和解毒机制尚不清楚。

方法

本研究通过水培实验，研究了不同镉浓度（0、100、250和400μM）对红麻生长、生物量、镉吸收、生理参数、代谢产物和基因表达反应的影响。

结果与讨论

结果表明，镉胁迫显著改变了红麻积累和运输镉的能力；增加了过氧化氢（HO）、超氧阴离子（O）和丙二醛（MDA）的活性；降低了超氧化物歧化酶（SOD）和过氧化氢酶（CAT）的活性；降低了光合色素含量，导致生长和生物量生产发生显著变化。发现镉暴露对根系中的抗坏血酸-谷胱甘肽（AsA-GSH）循环有不利影响，而导致叶片中AsA水平升高和GSH水平降低。镉胁迫下细胞壁多糖含量的增加可能有助于镉在根系中的保留，并限制镉向地上植物组织的运输。代谢组学分析表明，丙氨酸、天冬氨酸和谷氨酸代谢、氧化磷酸化、ABC转运蛋白和碳代谢是与镉胁迫耐受性相关的主要代谢途径。镉胁迫增加了根系中和的基因表达，导致红麻根系积累高浓度镉。本研究扩展了我们对调控红麻对镉胁迫反应的因素的认识。这项工作从生理和代谢组学角度提供了红麻对镉胁迫反应机制的研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e7e5/11340530/d5879c8d75c8/fpls-15-1332426-g001.jpg

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综合生理和代谢组学反应揭示了红麻在镉胁迫下的耐镉和解毒机制。

Integrated physiological and metabolomic responses reveal mechanisms of Cd tolerance and detoxification in kenaf ( L.) under Cd stress.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS AND DISCUSSION

引言

方法

结果与讨论

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