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ROP 交互伙伴 b 与 RACB 相互作用并支持真菌侵入大麦表皮细胞。

ROP INTERACTIVE PARTNER b Interacts with RACB and Supports Fungal Penetration into Barley Epidermal Cells.

机构信息

Phytopathology, School of Life Science Weihenstephan, Technical University of Munich, 85354 Freising, Germany.

Phytopathology, School of Life Science Weihenstephan, Technical University of Munich, 85354 Freising, Germany

出版信息

Plant Physiol. 2020 Oct;184(2):823-836. doi: 10.1104/pp.20.00742. Epub 2020 Jul 14.

DOI:10.1104/pp.20.00742
PMID:32665335
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7536699/
Abstract

Rho of Plants (ROP) G-proteins are key components of cell polarization processes in plant development. The barley () ROP protein RACB is a susceptibility factor in the interaction of barley with the barley powdery mildew fungus f. sp. (). RACB also drives polar cell development, and this function might be coopted during the formation of fungal haustoria in barley epidermal cells. To understand RACB signaling during the interaction of barley with , we searched for potential downstream interactors of RACB. Here, we show that ROP INTERACTIVE PARTNER b (RIPb; synonym: INTERACTOR OF CONSTITUTIVE ACTIVE ROP b) directly interacts with RACB in yeast and in planta. Overexpression of RIPb supports the susceptibility of barley to RIPb further interacts with itself at microtubules. However, the interaction with activated RACB largely takes place at the plasma membrane. Both RIPb and RACB are recruited to the site of fungal attack around the neck of developing haustoria, suggesting locally enhanced ROP activity. We further assigned different functions to different domains of the RIPb protein. The N-terminal coiled-coil CC1 domain is required for microtubule localization, while the C-terminal coiled-coil CC2 domain is sufficient to interact with RACB and to fulfill a function in susceptibility at the plasma membrane. Hence, RIPb appears to be localized at microtubules and is then recruited by activated RACB for a function at the plasma membrane during formation of the haustorial complex.

摘要

植物中的 Rho 蛋白(ROP)G 蛋白是植物发育过程中细胞极化过程的关键组成部分。大麦 () ROP 蛋白 RACB 是大麦与大麦白粉菌 f. sp. ()相互作用的易感性因素。RACB 还驱动极性细胞发育,并且该功能可能在大麦表皮细胞中真菌吸器的形成过程中被篡夺。为了了解大麦与 相互作用过程中的 RACB 信号转导,我们搜索了 RACB 的潜在下游相互作用因子。在这里,我们表明 ROP INTERACTIVE PARTNER b (RIPb; 同义词:INTERACTOR OF CONSTITUTIVE ACTIVE ROP b) 在酵母和植物体内直接与 RACB 相互作用。RIPb 的过表达支持大麦对 的易感性,RIPb 进一步在微管上与自身相互作用。然而,与激活的 RACB 的相互作用主要发生在质膜上。RIPb 和 RACB 都被招募到发育吸器颈部周围的真菌攻击部位,这表明局部 ROP 活性增强。我们进一步将 RIPb 蛋白的不同功能分配给不同的结构域。N 端卷曲螺旋 CC1 结构域是微管定位所必需的,而 C 端卷曲螺旋 CC2 结构域足以与 RACB 相互作用,并在质膜上发挥易感性功能。因此,RIPb 似乎定位于微管上,然后被激活的 RACB 招募,在吸器复合体形成过程中在质膜上发挥功能。

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