根系对盐度的定向反应需要细胞壁延展素的阿拉伯糖基化

Yutao Zou, Nora Gigli-Bisceglia, Eva van Zelm, Pinelopi Kokkinopoulou, Magdalena M Julkowska, Maarten Besten, Thu-Phuong Nguyen, Hongfei Li, Jasper Lamers, Thijs de Zeeuw, Joram A Dongus, Yuxiao Zeng, Yu Cheng, Iko T Koevoets, Bodil Jørgensen, Marcel Giesbers, Jelmer Vroom, Tijs Ketelaar, Bent Larsen Petersen, Timo Engelsdorf, Joris Sprakel, Yanxia Zhang, Christa Testerink
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引用次数: 0

摘要

土壤盐分是造成作物减产的主要原因。为了更好地了解根系对盐分的反应,我们开发并利用了一种实时盐分诱导倾斜试验。该试验跟踪了根系在重力和盐胁迫下的生长情况,发现根系在倾斜时的弯曲受 Na+ 离子的调节,而不受渗透胁迫的调节。接下来,我们在 345 个天然拟南芥(Arabidopsis thaliana)品种中测量了这种盐特异性反应,并发现了一个遗传位点,该位点编码的细胞壁修饰酶延长素阿拉伯糖缺失转运酶(ExAD)与 NaCl(以下简称盐)存在时的根弯曲有关。延展素是一类细胞壁结构糖蛋白,被称为富含羟脯氨酸(Hyp)的糖蛋白,通过O-糖基化进行翻译后修饰,主要涉及Hyp-阿拉伯糖基化。我们的研究表明,盐诱导的 ExAD 依赖性 Hyp-arabinosyl 作用会影响根弯曲反应和细胞壁厚度。缺乏延伸素 Hyp-阿拉伯糖基化的 exad1 突变体幼苗的根表皮细胞壁厚度增加,细胞壁孔隙率增大。它们还表现出在盐分条件下根系重力弯曲的改变和避盐反应的减弱。我们的研究结果表明,通过 Hyp-arabinosylation 对延展素进行修饰是一种独特的盐特异性细胞过程,暴露在盐分中的根的定向反应需要这种细胞过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Arabinosylation of cell wall extensin is required for the directional response to salinity in roots
Soil salinity is a major contributor to crop yield losses. To improve our understanding of root responses to salinity, we developed and exploited a real-time salt-induced tilting assay. This assay follows root growth upon both gravitropic and salt challenges, revealing that root bending upon tilting is modulated by Na+ ions, but not by osmotic stress. Next, we measured this salt-specific response in 345 natural Arabidopsis (Arabidopsis thaliana) accessions and discovered a genetic locus, encoding the cell wall–modifying enzyme EXTENSIN ARABINOSE DEFICIENT TRANSFERASE (ExAD) that is associated with root bending in the presence of NaCl (hereafter salt). Extensins are a class of structural cell wall glycoproteins known as hydroxyproline (Hyp)-rich glycoproteins, which are posttranslationally modified by O-glycosylation, mostly involving Hyp-arabinosylation. We show that salt-induced ExAD-dependent Hyp-arabinosylation influences root bending responses and cell wall thickness. Roots of exad1 mutant seedlings, which lack Hyp-arabinosylation of extensin, displayed increased thickness of root epidermal cell walls and greater cell wall porosity. They also showed altered gravitropic root bending in salt conditions and a reduced salt-avoidance response. Our results suggest that extensin modification via Hyp-arabinosylation is a unique salt-specific cellular process required for the directional response of roots exposed to salinity.
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