Pectin methylesterification state and cell wall mechanical properties contribute to neighbor proximity‐induced hypocotyl growth in Arabidopsis

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-21 DOI:10.1002/pld3.584
Fabien Sénéchal, Sarah Robinson, Evert Van Schaik, Martine Trévisan, Prashant Saxena, Didier Reinhardt, Christian Fankhauser
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Abstract

Plants growing with neighbors compete for light and consequently increase the growth of their vegetative organs to enhance access to sunlight. This response, called shade avoidance syndrome (SAS), involves photoreceptors such as phytochromes as well as phytochrome interacting factors (PIFs), which regulate the expression of growth‐mediating genes. Numerous cell wall‐related genes belong to the putative targets of PIFs, and the importance of cell wall modifications for enabling growth was extensively shown in developmental models such as dark‐grown hypocotyl. However, the contribution of the cell wall in the growth of de‐etiolated seedlings regulated by shade cues remains poorly established. Through analyses of mechanical and biochemical properties of the cell wall coupled with transcriptomic analysis of cell wall‐related genes from previously published data, we provide evidence suggesting that cell wall modifications are important for neighbor proximity‐induced elongation. Further analysis using loss‐of‐function mutants impaired in the synthesis and remodeling of the main cell wall polymers corroborated this. We focused on the cgr2cgr3 double mutant that is defective in methylesterification of homogalacturonan (HG)‐type pectins. By following hypocotyl growth kinetically and spatially and analyzing the mechanical and biochemical properties of cell walls, we found that methylesterification of HG‐type pectins was required to enable global cell wall modifications underlying neighbor proximity‐induced hypocotyl growth. Collectively, our work suggests that plant competition for light induces changes in the expression of numerous cell wall genes to enable modifications in biochemical and mechanical properties of cell walls that contribute to neighbor proximity‐induced growth.
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果胶甲基化状态和细胞壁机械特性有助于拟南芥邻近性诱导的下胚轴生长
与邻居一起生长的植物会争夺光照,因此会增加无性器官的生长,以增加获得阳光的机会。这种反应被称为 "避阴综合征"(SAS),涉及光感受器(如植物色素)和植物色素相互作用因子(PIFs),后者可调节生长介导基因的表达。许多与细胞壁相关的基因都属于 PIFs 的假定靶标,细胞壁修饰对生长的重要性已在暗生下胚轴等发育模型中得到广泛证明。然而,细胞壁对受遮荫线索调控的去叶柄幼苗生长的贡献仍未得到充分证实。通过对细胞壁的机械和生化特性的分析,以及对以前发表的数据中细胞壁相关基因的转录组分析,我们提供的证据表明细胞壁修饰对邻近性诱导的伸长很重要。利用主要细胞壁聚合物合成和重塑功能受损的功能缺失突变体进行的进一步分析证实了这一点。我们重点研究了 cgr2cgr3 双突变体,该突变体在均聚半乳糖醛酸(HG)型果胶的甲基酯化方面存在缺陷。通过对下胚轴生长进行动态和空间跟踪,并分析细胞壁的机械和生化特性,我们发现,HG 型果胶的甲基酯化是邻近性诱导下胚轴生长的全局细胞壁修饰所必需的。总之,我们的研究表明,植物对光的竞争会诱导许多细胞壁基因的表达发生变化,从而使细胞壁的生化和机械特性发生改变,这有助于邻近生长诱导的生长。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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