John Innes Centre, Norwich Research Park, NR4 7UH Norwich, UK.
Curr Biol. 2010 Apr 27;20(8):744-9. doi: 10.1016/j.cub.2010.02.057. Epub 2010 Apr 15.
Xylem tracheary elements (TEs) form hollow, sap-conducting tubes kept open by thickened ribs of secondary cell wall that provide the major structural element in wood. These ribs are enriched with cellulose and lignin, molecules that utilize more atmospheric CO(2) than any other biopolymer on Earth. The thickenings form characteristic patterns (e.g., spiral and pitted) that depend upon the bundling of underlying microtubules [1, 2]. To identify microtubule-associated proteins (MAPs) involved in patterning microtubules, we optimized an in vitro system for triggering single Arabidopsis cells to differentiate synchronously into TEs. From more than 200 microtubule-implicated proteins, AtMAP70-5 was the only MAP upregulated upon, and specific to, TE differentiation. It lines the borders of each microtubule bundle and forms C-shaped "spacers" between adjacent bundles. Manipulating levels of AtMAP70-5 and its binding partner AtMAP70-1 by overexpression or RNA interference (RNAi) silencing shifted the balance between the characteristic patterns. RNAi silencing produced stunted plants with disorganized vascular bundles. In culture, RNAi knockdown caused ribs of secondary cell wall, surrounded by microtubules, to invaginate and fall into the cytoplasm. These results suggest that AtMAP70-5 and AtMAP70-1 are essential for defining where secondary cell wall polymers are applied at the cell cortex in wood-forming cells.
木质部导管分子 (TEs) 形成中空的、输送汁液的管状结构,由次生细胞壁的加厚肋条保持开放,这些肋条富含纤维素和木质素,是木材中主要的结构元素。这些加厚肋条形成了特征性的图案(例如螺旋形和坑洼形),这取决于基础微管的捆绑[1,2]。为了鉴定参与微管模式形成的微管相关蛋白 (MAPs),我们优化了一种体外系统,以触发单个拟南芥细胞同步分化为 TEs。在超过 200 种涉及微管的蛋白质中,AtMAP70-5 是唯一在 TE 分化时上调且特异性上调的 MAP。它沿每个微管束的边界排列,并在相邻束之间形成 C 形“间隔物”。通过过表达或 RNA 干扰 (RNAi) 沉默来操纵 AtMAP70-5 及其结合伴侣 AtMAP70-1 的水平,改变了特征图案之间的平衡。RNAi 沉默导致植物矮小,血管束排列紊乱。在培养中,RNAi 敲低导致围绕微管的次生细胞壁的肋条向内凹陷并落入细胞质中。这些结果表明,AtMAP70-5 和 AtMAP70-1 对于定义木质部形成细胞中次生细胞壁聚合物在细胞皮层的应用位置是必不可少的。
