幼苗利用COP1和乙烯感知覆盖土壤的深度和机械压力，以调节EBF1/EBF2实现出土。

Seedlings Transduce the Depth and Mechanical Pressure of Covering Soil Using COP1 and Ethylene to Regulate EBF1/EBF2 for Soil Emergence.

作者信息

Shi Hui, Liu Renlu, Xue Chang, Shen Xing, Wei Ning, Deng Xing Wang, Zhong Shangwei

机构信息

Peking-Yale Joint Center for Plant Molecular Genetics and Agro-biotechnology, State Key Laboratory of Protein and Plant Gene Research, The Peking-Tsinghua Center for Life Sciences, School of Advanced Agricultural Sciences and School of Life Sciences, Peking University, Beijing 100871, China.

Department of Molecular, Cellular, and Developmental Biology, Yale University, New Haven, CT 06520, USA.

出版信息

Curr Biol. 2016 Jan 25;26(2):139-149. doi: 10.1016/j.cub.2015.11.053. Epub 2015 Dec 31.

DOI:10.1016/j.cub.2015.11.053

PMID:26748855

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5108888/

Abstract

The survival of seed plants in natural environments requires the successful emergence from the soil. In this process, the ethylene signaling pathway is utilized by plants to sense and respond to the mechanical resistance of the soil. Here, we report that constitutive photomorphogenesis 1 (COP1), a central repressor of light signaling, is a key component required for seedlings to sense the depth of soil overlay. Mutation in COP1 causes severe defects in penetrating soil, due to decreased level of EIN3, a master transcription factor in ethylene pathway that mediates seedling emergence. We show that COP1 directly targets the F box proteins EBF1 and EBF2 for ubiquitination and degradation, thus stabilizing EIN3. As seedlings grow toward the surface, the depth of soil overlay decreases, resulting in a gradual increase of light fluences. COP1 channels the light signals, while ethylene transduces the information on soil mechanical conditions, which cooperatively control EIN3 protein levels to promote seedling emergence from the soil. The COP1-EBF1/2-EIN3 module reveals a mechanism by which plants sense the depth to surface and uncovers a novel regulatory paradigm of an ubiquitin E3 ligase cascade.

摘要

种子植物在自然环境中的存活需要成功从土壤中出土。在这个过程中，植物利用乙烯信号通路来感知并响应土壤的机械阻力。在此，我们报道，作为光信号的核心抑制因子，组成型光形态建成1（COP1）是幼苗感知土壤覆盖深度所需的关键组分。COP1发生突变会导致穿透土壤时出现严重缺陷，这是由于乙烯通路中的主要转录因子EIN3水平降低，而EIN3介导幼苗出土。我们发现，COP1直接靶向F盒蛋白EBF1和EBF2，使其发生泛素化并降解，从而稳定EIN3。随着幼苗向地表生长，土壤覆盖深度降低，导致光通量逐渐增加。COP1传递光信号，而乙烯转导土壤机械状况信息，二者协同控制EIN3蛋白水平，以促进幼苗从土壤中出土。COP1 - EBF1/2 - EIN3模块揭示了植物感知距地表深度的机制，并揭示了一种泛素E3连接酶级联反应的新型调控模式。

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