Institute of Biotechnology and Department of Biosciences, University of Helsinki, FIN-00014 Helsinki, Finland.
Curr Biol. 2011 Jun 7;21(11):917-26. doi: 10.1016/j.cub.2011.04.017. Epub 2011 May 27.
Whereas the majority of animals develop toward a predetermined body plan, plants show iterative growth and continually produce new organs and structures from actively dividing meristems. This raises an intriguing question: How are these newly developed organs patterned? In Arabidopsis embryos, radial symmetry is broken by the bisymmetric specification of the cotyledons in the apical domain. Subsequently, this bisymmetry is propagated to the root promeristem.
Here we present a mutually inhibitory feedback loop between auxin and cytokinin that sets distinct boundaries of hormonal output. Cytokinins promote the bisymmetric distribution of the PIN-FORMED (PIN) auxin efflux proteins, which channel auxin toward a central domain. High auxin promotes transcription of the cytokinin signaling inhibitor AHP6, which closes the interaction loop. This bisymmetric auxin response domain specifies the differentiation of protoxylem in a bisymmetric pattern. In embryonic roots, cytokinin is required to translate a bisymmetric auxin response in the cotyledons to a bisymmetric vascular pattern in the root promeristem.
Our results present an interactive feedback loop between hormonal signaling and transport by which small biases in hormonal input are propagated into distinct signaling domains to specify the vascular pattern in the root meristem. It is an intriguing possibility that such a mechanism could transform radial patterns and allow continuous vascular connections between other newly emerging organs.
虽然大多数动物的身体形态都是预先确定的,但植物具有迭代性的生长方式,能持续从活跃分裂的分生组织中产生新的器官和结构。这就引出了一个有趣的问题:这些新发育的器官是如何形成模式的?在拟南芥胚胎中,顶端域中双子叶的双对称特化打破了辐射对称。随后,这种双对称被传递到根原基。
在这里,我们提出了生长素和细胞分裂素之间的相互抑制反馈环,该反馈环设定了激素输出的不同边界。细胞分裂素促进 PIN 形成蛋白(PIN)生长素外排蛋白的双对称分布,这些蛋白将生长素导向中央区域。高浓度的生长素促进细胞分裂素信号抑制剂 AHP6 的转录,从而关闭相互作用环。这种双对称的生长素反应域将原木质部的分化指定为双对称模式。在胚胎根中,细胞分裂素对于将双子叶中的双对称生长素反应转化为根原基中的双对称血管模式是必需的。
我们的研究结果提出了激素信号和运输之间的交互反馈环,通过该反馈环,激素输入中的小偏差被传递到不同的信号域,以指定根分生组织中的血管模式。这是一个有趣的可能性,即这种机制可以改变辐射对称模式,并允许其他新出现的器官之间建立连续的血管连接。
