ETR1 将乙烯和细胞分裂素的反应整合到一个单一的多步骤磷酸传递途径中，以控制根的生长。

ETR1 Integrates Response to Ethylene and Cytokinins into a Single Multistep Phosphorelay Pathway to Control Root Growth.

机构信息

Functional Genomics and Proteomics of Plants, Central European Institute of Technology and National Centre for Biomolecular Research, Masaryk University, CETEC-MU, Kamenice 5/A2, 625 00 Brno, Czech Republic; Division of Biology and Biological Engineering 156-29, California Institute of Technology, 1200 East California Boulevard, Pasadena, CA 91125, USA.

出版信息

Mol Plant. 2019 Oct 7;12(10):1338-1352. doi: 10.1016/j.molp.2019.05.012. Epub 2019 Jun 7.

DOI:10.1016/j.molp.2019.05.012

PMID:31176773

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8040967/

Abstract

Cytokinins and ethylene control plant development via sensors from the histidine kinase (HK) family. However, downstream signaling pathways for the key phytohormones are distinct. Here we report that not only cytokinin but also ethylene is able to control root apical meristem (RAM) size through activation of the multistep phosphorelay (MSP) pathway. We found that both cytokinin and ethylene-dependent RAM shortening requires ethylene binding to ETR1 and the HK activity of ETR1. The receiver domain of ETR1 interacts with MSP signaling intermediates acting downstream of cytokinin receptors, further substantiating the role of ETR1 in MSP signaling. We revealed that both cytokinin and ethylene induce the MSP in similar and distinct cell types with ETR1-mediated ethylene signaling controlling MSP output specifically in the root transition zone. We identified members of the MSP pathway specific and common to both hormones and showed that ETR1-regulated ARR3 controls RAM size. ETR1-mediated MSP spatially differs from canonical CTR1/EIN2/EIN3 ethylene signaling and is independent of EIN2, indicating that both pathways can be spatially and functionally separated. Furthermore, we demonstrated that canonical ethylene signaling controls MSP responsiveness to cytokinin specifically in the root transition zone, presumably via regulation of ARR10, one of the positive regulators of MSP signaling in Arabidopsis.

摘要

细胞分裂素和乙烯通过组氨酸激酶 (HK) 家族的传感器控制植物发育。然而，关键植物激素的下游信号通路是不同的。在这里，我们报告说，不仅细胞分裂素，而且乙烯也能够通过激活多步磷酸接力 (MSP) 途径来控制根顶端分生组织 (RAM) 的大小。我们发现，无论是细胞分裂素还是乙烯依赖性的 RAM 缩短都需要乙烯与 ETR1 结合以及 ETR1 的 HK 活性。ETR1 的受体结构域与 MSP 信号转导中间产物相互作用，这些中间产物作用于细胞分裂素受体的下游，进一步证实了 ETR1 在 MSP 信号转导中的作用。我们揭示了细胞分裂素和乙烯在相似和不同的细胞类型中诱导 MSP，而 ETR1 介导的乙烯信号在根过渡区特异性地控制 MSP 输出。我们鉴定了激素特异性和共同的 MSP 途径成员，并表明 ETR1 调节的 ARR3 控制 RAM 的大小。ETR1 介导的 MSP 在空间上与典型的 CTR1/EIN2/EIN3 乙烯信号不同，并且独立于 EIN2，表明这两种途径可以在空间和功能上分离。此外，我们证明了典型的乙烯信号通过调节 MSP 信号转导的正调节剂之一 ARR10，特异性地控制根过渡区对细胞分裂素的 MSP 反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8d70/8040967/7c4444a7335a/nihms-1672688-f0001.jpg

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ETR1 将乙烯和细胞分裂素的反应整合到一个单一的多步骤磷酸传递途径中，以控制根的生长。

ETR1 Integrates Response to Ethylene and Cytokinins into a Single Multistep Phosphorelay Pathway to Control Root Growth.

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