长链非编码RNA ALEX1赋予ARF3一种功能阶段状态，以增强水稻对细菌病原体的抗性。

The long noncoding RNA ALEX1 confers a functional phase state of ARF3 to enhance rice resistance to bacterial pathogens.

作者信息

Lei Meng-Qi, He Rui-Rui, Zhou Yan-Fei, Yang Lu, Zhang Zhen-Fei, Yuan Chao, Zhao Wen-Long, Cheng Yu, Lian Jian-Ping, Zhang Yu-Chan, Wang Wen-Tao, Yu Yang, Chen Yue-Qin

机构信息

Guangdong Provincial Key Laboratory of Plant Stress Biology, State Key Laboratory for Biocontrol, School of Life Sciences, Sun Yat-Sen University, Guangzhou 510275, P.R. China.

Plant Protection Research Institute, Guangdong Academy of Agricultural Sciences, Guangzhou 510640, P.R. China.

出版信息

Mol Plant. 2025 Jan 6;18(1):114-129. doi: 10.1016/j.molp.2024.12.005. Epub 2024 Dec 9.

DOI:10.1016/j.molp.2024.12.005

PMID:39659014

Abstract

Rice bacterial blight is a devastating disease worldwide, causing significant yield losses. Understanding how plants defend against microbial infection is critical for sustainable crop production. In this study, we show that ALEX1, a previously identified pathogen-induced long noncoding RNA, localizes to the nucleus and directly binds AUXIN RESPONSE FACTOR 3 (ARF3). We showed that ARF3 forms the condensates in the nucleus via its intrinsically disordered middle region (MR), and that these ARF3 condensates display solid-like properties. We further revealed that ALEX1 directly binds the MR of ARF3 to regulate ARF3 condensate dynamics and promote ARF3 homodimerization. The dispersed, dimeric form of ARF3, referred to as its functional phase state, enhances its ability to transcriptionally repress the expression of downstream target genes such as JAZ13, thereby modulating the jasmonic acid signaling pathway and enhancing pathogen resistance in rice. Collectively, this study reveals the role of a long noncoding RNA in regulating protein condensation and complex assembly, thus contributing to plant pathogen resistance.

摘要

水稻白叶枯病是一种在全球范围内具有毁灭性的病害，会导致严重的产量损失。了解植物如何抵御微生物感染对于可持续作物生产至关重要。在本研究中，我们发现，一种先前鉴定出的病原体诱导的长链非编码RNA——ALEX1定位于细胞核，并直接与生长素响应因子3（ARF3）结合。我们发现，ARF3通过其内在无序的中间区域（MR）在细胞核中形成凝聚物，并且这些ARF3凝聚物表现出类似固体的特性。我们进一步揭示，ALEX1直接结合ARF3的MR，以调节ARF3凝聚物的动态变化并促进ARF3同源二聚化。ARF3的分散二聚体形式，即其功能相态，增强了其转录抑制下游靶基因（如JAZ13）表达的能力，从而调节茉莉酸信号通路并增强水稻对病原体的抗性。总体而言，本研究揭示了一种长链非编码RNA在调节蛋白质凝聚和复合物组装中的作用，从而有助于植物抵御病原体。

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The long noncoding RNA ALEX1 confers a functional phase state of ARF3 to enhance rice resistance to bacterial pathogens.长链非编码RNA ALEX1赋予ARF3一种功能阶段状态，以增强水稻对细菌病原体的抗性。

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长链非编码RNA ALEX1赋予ARF3一种功能阶段状态，以增强水稻对细菌病原体的抗性。

The long noncoding RNA ALEX1 confers a functional phase state of ARF3 to enhance rice resistance to bacterial pathogens.

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