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转录组、蛋白质组和代谢组揭示了碎米荠对硒酸盐毒性的耐受机制。

Transcriptome, proteome, and metabolome reveal the mechanism of tolerance to selenate toxicity in Cardamine violifolia.

作者信息

Rao Shen, Yu Tian, Cong Xin, Lai Xiaozhuo, Xiang Jiqian, Cao Jie, Liao Xiaoli, Gou Yuanyuan, Chao Wei, Xue Hua, Cheng Shuiyuan, Xu Feng

机构信息

College of Horticulture and Gardening, Yangtze University, Jingzhou 434025, China; Engineering Research Center of Ecology and Agricultural Use of Wetland of Ministry of Education, Yangtze University, Jingzhou 434025, Hubei, China.

National R&D for Se-rich Agricultural Products Processing Technology, Wuhan Polytechnic University, Wuhan 430023, China; Enshi Se-Run Health Tech Development Co., Ltd., Enshi 445000, China.

出版信息

J Hazard Mater. 2021 Mar 15;406:124283. doi: 10.1016/j.jhazmat.2020.124283. Epub 2020 Oct 22.

Abstract

Cardamine violifolia was found here to accumulate selenium (Se) to over 9000 mg kg dry weight. To investigate the mechanism of Se accumulation and tolerance in C. violifolia, metabolome, transcriptome, and proteome technologies were applied to C. violifolia seedlings treated with selenate. Several sulfate transporter (Sultr) genes (Sultr1;1, Sultr1;2, and Sultr2;1) and sulfur assimilatory enzyme genes showed high expression levels in response to selenate. Many calcium protein and cysteine-rich kinase genes of C. violifolia were downregulated, whereas selenium-binding protein 1 (SBP1) and protein sulfur deficiency-induced 2 (SDI2) of C. violifolia were upregulated by selenate. The expression of genes involved in the ribosome and posttranslational modifications and chaperones in C. violifolia were also detected in response to selenate. Based on the results of this study and previous findings, we suggest that the downregulated expression of calcium proteins and cysteine-rich kinases, and the upregulated expression of SBP1 and SDI2, were important contributors to the Se tolerance of C. violifolia. The downregulation of cysteine-rich kinases and calcium proteins would enhance Se tolerance of C. violifolia is a novel proposition that has not been reported on other Se hyperaccumulators. This study provides us novel insights to understand Se accumulation and tolerance in plants.

摘要

在这里发现碎米荠能将硒(Se)积累至干重超过9000毫克/千克。为了探究碎米荠对硒的积累和耐受机制,对用硒酸盐处理的碎米荠幼苗应用了代谢组学、转录组学和蛋白质组学技术。几个硫酸盐转运蛋白(Sultr)基因(Sultr1;1、Sultr1;2和Sultr2;1)以及硫同化酶基因在响应硒酸盐时呈现高表达水平。碎米荠的许多钙蛋白和富含半胱氨酸的激酶基因表达下调,而碎米荠的硒结合蛋白1(SBP1)和蛋白质硫缺乏诱导蛋白2(SDI2)在硒酸盐处理下表达上调。还检测到碎米荠中参与核糖体、翻译后修饰和伴侣蛋白的基因在响应硒酸盐时的表达情况。基于本研究结果和先前的发现,我们认为钙蛋白和富含半胱氨酸的激酶的表达下调,以及SBP1和SDI2的表达上调,是碎米荠对硒耐受的重要因素。富含半胱氨酸的激酶和钙蛋白的下调会增强碎米荠对硒的耐受性,这是一个在其他硒超积累植物中尚未报道的新观点。本研究为我们理解植物中硒的积累和耐受性提供了新的见解。

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