Making Use of Plant uORFs to Control Transgene Translation in Response to Pathogen Attack.

Q2 Agricultural and Biological Sciences 生物设计研究(英文) Pub Date : 2022-02-03 eCollection Date: 2022-01-01 DOI:10.34133/2022/9820540
Gan Ai, Jin Liu, Xiaowei Fu, Tianli Li, Hai Zhu, Ying Zhai, Chuyan Xia, Weiye Pan, Jialu Li, Maofeng Jing, Danyu Shen, Ai Xia, Daolong Dou
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Abstract

Reducing crop loss to diseases is urgently needed to meet increasing food production challenges caused by the expanding world population and the negative impact of climate change on crop productivity. Disease-resistant crops can be created by expressing endogenous or exogenous genes of interest through transgenic technology. Nevertheless, enhanced resistance by overexpressing resistance-produced genes often results in adverse developmental affects. Upstream open reading frames (uORFs) are translational control elements located in the 5' untranslated region (UTR) of eukaryotic mRNAs and may repress the translation of downstream genes. To investigate the function of three uORFs from the 5'-UTR of ACCELERATED CELL 11 (uORFsACD11), we develop a fluorescent reporter system and find uORFsACD11 function in repressing downstream gene translation. Individual or simultaneous mutations of the three uORFsACD11 lead to repression of downstream translation efficiency at different levels. Importantly, uORFsACD11-mediated translational inhibition is impaired upon recognition of pathogen attack of plant leaves. When coupled with the PATHOGENESIS-RELATED GENE 1 (PR1) promoter, the uORFsACD11 cassettes can upregulate accumulation of Arabidopsis thaliana LECTIN RECEPTOR KINASE-VI.2 (AtLecRK-VI.2) during pathogen attack and enhance plant resistance to Phytophthora capsici. These findings indicate that the uORFsACD11 cassettes can be a useful toolkit that enables a high level of protein expression during pathogen attack, while for ensuring lower levels of protein expression at normal conditions.

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利用植物uORF控制转基因翻译以应对病原体攻击。
迫切需要减少因疾病造成的作物损失,以应对世界人口不断扩大和气候变化对作物生产力的负面影响所造成的日益严重的粮食生产挑战。抗病作物可以通过转基因技术表达感兴趣的内源或外源基因来创造。然而,通过过表达抗性产生的基因来增强抗性通常会导致不利的发育影响。上游开放阅读框(uORF)是位于真核信使核糖核酸5’非翻译区(UTR)的翻译控制元件,可能抑制下游基因的翻译。为了研究来自加速细胞11的5'-UTR的三个uORF(uORFsACD11)的功能,我们开发了一个荧光报告系统,并发现uORFssaCD11在抑制下游基因翻译中的功能。三个uORFsACD11的单独或同时突变导致不同水平的下游翻译效率的抑制。重要的是,uORFsACD11介导的翻译抑制在识别植物叶片的病原体攻击时受损。当与致病相关基因1(PR1)启动子偶联时,uORFsACD11盒可以在病原体攻击期间上调拟南芥凝集素受体激酶-VI.2(AtLecRK-VI.2)的积累,并增强植物对辣椒疫霉的抗性。这些发现表明,uORFsACD11盒可以是一个有用的工具包,它可以在病原体攻击期间实现高水平的蛋白质表达,同时确保在正常条件下降低蛋白质表达水平。
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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CiteScore
3.90
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0.00%
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审稿时长
12 weeks
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