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靶向miR2119在调控大豆对……抗性中的功能鉴定

Functional Identification of miR2119 Targeting in Modulating Soybean Resistance to .

作者信息

Zhang Xiaoyu, Zhu Xiaofeng, Chen Lijie, Fan Haiyan, Liu Xiaoyu, Yang Ning, Wang Yuanyuan, Duan Yuxi

机构信息

Nematology Institute of Northern China, Shenyang Agricultural University, Shenyang 110866, China.

College of Plant Protection, Shenyang Agricultural University, Shenyang 110866, China.

出版信息

J Agric Food Chem. 2024 Oct 2;72(39):21461-21474. doi: 10.1021/acs.jafc.4c05000. Epub 2024 Sep 23.

DOI:10.1021/acs.jafc.4c05000
PMID:39311099
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11450968/
Abstract

Soybean cyst nematode (SCN, ) is a sedentary endoparasite nematode that results in severe economic losses in soybean crops. miRNAs play crucial roles in plant responses to nematode. However, the role of miR2119 responding to SCN stress in soybean. Here, we demonstrated that the transcript levels of polycistronic precursors containing miR2119 and miR398a were significantly reduced in soybean upon nematode infection. Promoter of the miR2119-398a precursor analysis was conducted containing a reporter gene. GUS activity assays demonstrated a decrease in miR2119-398a promoter during SCN infection. Overexpression of polycistronic precursor miR2119-398a (OE-premiR2119-398a) and miR2119 precursor (OE-premiR2119) rendered soybean more susceptible to SCN. Conversely, silencing miR2119 (STTM2119) increased soybean resistance against SCN. Furthermore, RNA-seq analysis revealed that miR2119 is involved in many defense signaling pathways. reporter gene assays demonstrated that miR2119 targets and . Functional analysis indicated that act as a major role in responding to by modulating reactive oxygen species (ROS) levels. Together, the findings reveal a novel mechanism by which the polycistronic precursor miR2119-398a coordinately regulates in response to . Additionally, miR2119 becomes an essential element contributing to by modulating activity and ROS homeostasis in soybean.

摘要

大豆胞囊线虫(SCN)是一种定居型内寄生线虫,会给大豆作物造成严重的经济损失。微小RNA(miRNA)在植物对线虫的反应中起关键作用。然而,miR2119在大豆中对SCN胁迫的反应作用尚不清楚。在此,我们证明,线虫感染后,大豆中包含miR2119和miR398a的多顺反子前体的转录水平显著降低。对包含报告基因的miR2119 - 398a前体启动子进行了分析。GUS活性分析表明,SCN感染期间miR2119 - 398a启动子活性降低。多顺反子前体miR2119 - 398a(OE - premiR2119 - 398a)和miR2119前体(OE - premiR2119)的过表达使大豆对SCN更敏感。相反,沉默miR2119(STTM2119)可增强大豆对SCN的抗性。此外,RNA测序分析表明,miR2119参与许多防御信号通路。报告基因分析表明,miR2119靶向[具体基因1]和[具体基因2]。功能分析表明,[具体基因1]和[具体基因2]通过调节活性氧(ROS)水平在应对[具体胁迫]中起主要作用。总之,这些发现揭示了一种新机制,即多顺反子前体miR2119 - 398a如何协同调节以应对[具体胁迫]。此外,miR2119通过调节[具体基因]活性和ROS稳态,成为大豆应对[具体胁迫]的重要因素。

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