拟南芥AGO2 的精氨酸甲基化双重调控。

Dual regulation of Arabidopsis AGO2 by arginine methylation.

机构信息

Department of Microbiology & Plant Pathology, Center for Plant Cell Biology, Institute for Integrative Genome Biology, University of California, 900 University Avenue, Riverside, CA, 92521, USA.

Department of Plant Protection, Nanjing Agriculture University, Nanjing, 210095, China.

出版信息

Nat Commun. 2019 Feb 19;10(1):844. doi: 10.1038/s41467-019-08787-w.

DOI:10.1038/s41467-019-08787-w

PMID:30783097

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6381116/

Abstract

Argonaute (AGO) proteins are core components of RNA interference (RNAi) but the mechanisms of their regulation, especially at the post-translational level, remain unclear. Among the ten AGOs in Arabidopsis, only AGO2 is induced by bacterial infection and is known to positively regulate immunity. Here we show that the N-terminal domain of AGO2 is enriched with arginine-glycine RG/GR repeats, which are methylated by protein arginine methyltransferase5 (PRMT5). Arginine methylation has dual functions in AGO2 regulation. Methylated arginine residues can promote AGO2 protein degradation and are also bound by Tudor-domain proteins (TSNs), which can degrade AGO2-associated small RNAs (sRNAs). PRMT5 is down-regulated during infection and the prmt5 mutant is more resistant to bacteria. We speculate that reduced PRMT5 expression during infection may lead to reduced arginine methylation of AGO2, resulting in accumulation of both AGO2 and, via reduced interaction with TSNs, accumulation of AGO2-associated sRNAs, to promote plant immunity. These results reveal that both the arginine methylation writer (PRMT5) and readers (TSNs) can regulate AGO2-mediated RNAi.

摘要

Argonaute (AGO) 蛋白是 RNA 干扰 (RNAi) 的核心组成部分，但它们的调节机制，特别是在翻译后水平上，仍不清楚。在拟南芥的十个 AGO 中，只有 AGO2 被细菌感染诱导，并且已知其正向调节免疫。在这里，我们发现 AGO2 的 N 端结构域富含精氨酸-甘氨酸 RG/GR 重复序列，这些重复序列被蛋白质精氨酸甲基转移酶 5 (PRMT5) 甲基化。精氨酸甲基化在 AGO2 调节中具有双重功能。甲基化的精氨酸残基可以促进 AGO2 蛋白降解，也可以与含有 Tudor 结构域的蛋白（TSNs）结合，后者可以降解与 AGO2 相关的小 RNA（sRNAs）。在感染过程中，PRMT5 下调，prmt5 突变体对细菌的抗性更强。我们推测，感染过程中 PRMT5 表达的降低可能导致 AGO2 的精氨酸甲基化减少，导致 AGO2 和与 TSNs 相互作用减少的 AGO2 相关 sRNA 的积累，从而促进植物免疫。这些结果表明，精氨酸甲基化写入器 (PRMT5) 和读取器 (TSNs) 都可以调节 AGO2 介导的 RNAi。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/63ba/6381116/d30ef86b6389/41467_2019_8787_Fig1_HTML.jpg

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拟南芥AGO2 的精氨酸甲基化双重调控。

Dual regulation of Arabidopsis AGO2 by arginine methylation.

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