School of Life Sciences and Biotechnology, Korea University, Seoul, Korea.
Autophagy. 2010 Nov;6(8):1187-9. doi: 10.4161/auto.6.8.13429. Epub 2010 Nov 16.
The vascular system of plants consists of two conducting tissues, xylem and phloem, which differentiate from procambium cells. Xylem serves as a transporting system for water and signaling molecules and is formed by sequential developmental processes, including cell division/expansion, secondary cell wall deposition, vacuole collapse and programmed cell death (PCD). PCD during xylem differentiation is accomplished by degradation of cytoplasmic constituents, and it is required for the formation of hollow vessels, known as tracheary elements (TEs). Our recent study revealed that the small GTPase RabG3b acts as a regulator of TE differentiation through its autophagic activation. By using an Arabidopsis in vitro cell culture system, we showed that autophagy is activated during TE differentiation. Overexpression of a constitutively active RabG3b (RabG3bCA) significantly enhances both autophagy and TE differentiation, which are consistently suppressed in transgenic plants overexpressing a dominant negative form (RabG3bDN) or RabG3b RNAi (RabG3bRNAi), a brassinosteroid-insensitive mutant bri1-301 and an autophagy mutant atg5-1. On the basis of our results, we propose that RabG3b functions as a component of autophagy and regulates TE differentiation by activating the process of PCD.
植物的维管系统由两个导组织,木质部和韧皮部组成,它们由原形成层细胞分化而来。木质部作为水和信号分子的运输系统,通过顺序发育过程形成,包括细胞分裂/扩张、次生细胞壁沉积、液泡崩溃和程序性细胞死亡(PCD)。木质部分化过程中的 PCD 通过细胞质成分的降解来完成,这对于形成中空的导管,称为木质部元素(TEs)是必需的。我们最近的研究表明,小 GTPase RabG3b 通过自噬的激活来作为 TE 分化的调节因子。通过使用拟南芥体外细胞培养系统,我们表明在 TE 分化过程中自噬被激活。组成型激活形式(RabG3bCA)的过表达显著增强了自噬和 TE 分化,而在过表达显性负形式(RabG3bDN)或 RabG3b RNAi(RabG3bRNAi)、一种不敏感于油菜素内酯的突变体 bri1-301 和一种自噬突变体 atg5-1 的转基因植物中,这两种过程均受到抑制。基于我们的结果,我们提出 RabG3b 作为自噬的一个组成部分发挥作用,并通过激活 PCD 过程来调节 TE 分化。
