EBP1 核积累负反馈 FERONIA 介导的 RALF1 信号。

EBP1 nuclear accumulation negatively feeds back on FERONIA-mediated RALF1 signaling.

机构信息

State Key Laboratory of Chemo/Biosensing and Chemometrics, College of Biology, Hunan Province Key Laboratory of Plant Functional Genomics and Developmental Regulation, Hunan University, Changsha, People's Republic of China.

Department of Plant and Microbial Biology, University of California, Berkeley, California, United States of America.

出版信息

PLoS Biol. 2018 Oct 19;16(10):e2006340. doi: 10.1371/journal.pbio.2006340. eCollection 2018 Oct.

DOI:10.1371/journal.pbio.2006340

PMID:30339663

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6195255/

Abstract

FERONIA (FER), a plasma membrane receptor-like kinase, is a central regulator of cell growth that integrates environmental and endogenous signals. A peptide ligand rapid alkalinization factor 1 (RALF1) binds to FER and triggers a series of downstream events, including inhibition of Arabidopsis H+-ATPase 2 activity at the cell surface and regulation of gene expression in the nucleus. We report here that, upon RALF1 binding, FER first promotes ErbB3-binding protein 1 (EBP1) mRNA translation and then interacts with and phosphorylates the EBP1 protein, leading to EBP1 accumulation in the nucleus. There, EBP1 associates with the promoters of previously identified RALF1-regulated genes, such as CML38, and regulates gene transcription in response to RALF1 signaling. EBP1 appears to inhibit the RALF1 peptide response, thus forming a transcription-translation feedback loop (TTFL) similar to that found in circadian rhythm control. The plant RALF1-FER-EBP1 axis is reminiscent of animal epidermal growth factor receptor (EGFR) signaling, in which EGF peptide induces EGFR to interact with and phosphorylate EBP1, promoting EBP1 nuclear accumulation to control cell growth. Thus, we suggest that in response to peptide signals, plant FER and animal EGFR use the conserved key regulator EBP1 to control cell growth in the nucleus.

摘要

FERONIA (FER)，一种质膜受体样激酶，是整合环境和内源性信号的细胞生长的中央调节剂。一种肽配体快速碱化因子 1 (RALF1) 与 FER 结合并触发一系列下游事件，包括抑制拟南芥质膜 H+-ATPase 2 的活性和核内基因表达的调控。我们在这里报告，在 RALF1 结合后，FER 首先促进 ErbB3 结合蛋白 1 (EBP1) mRNA 的翻译，然后与 EBP1 蛋白相互作用并使其磷酸化，导致 EBP1 在核内积累。在那里，EBP1 与先前鉴定的 RALF1 调控基因的启动子如 CML38 结合，并响应 RALF1 信号调节基因转录。EBP1 似乎抑制 RALF1 肽的反应，从而形成类似于生物钟节律控制的转录-翻译反馈环 (TTFL)。植物 RALF1-FER-EBP1 轴类似于动物表皮生长因子受体 (EGFR) 信号，其中 EGF 肽诱导 EGFR 与 EBP1 相互作用并使其磷酸化，促进 EBP1 核内积累以控制细胞生长。因此，我们认为，植物 FER 和动物 EGFR 在响应肽信号时，使用保守的关键调节因子 EBP1 来控制核内细胞生长。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0151/6195255/8a49700f24c5/pbio.2006340.g001.jpg

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EBP1 核积累负反馈 FERONIA 介导的 RALF1 信号。

EBP1 nuclear accumulation negatively feeds back on FERONIA-mediated RALF1 signaling.

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