Michigan State University-DOE Plant Research Laboratory, Michigan State University, East Lansing, MI 48824, USA.
Traffic. 2011 Jan;12(1):9-11. doi: 10.1111/j.1600-0854.2010.01129.x. Epub 2010 Nov 3.
COPII proteins facilitate membrane transport from the endoplasmic reticulum (ER) to the Golgi. They are highly conserved, although there are variations in their subcellular localization across plant, animal and yeast cells. Such variations may be needed to suit the unique organization of the ER and Golgi in the different cell systems. Earlier bioinformatics analyses have indicated that the Arabidopsis nuclear genome may encode chloroplast isoforms of the cytosolic trafficking protein machineries, including COPI and COPII, for vesicular transport within chloroplasts. These analyses suggest the intriguing possibility that plants may have evolved or adapted COP-like proteins to suit membrane trafficking events within specialized organelles. Here, we discuss recent data on the distribution and activity of the product of the At5g18570 locus, which encodes a putative chloroplast isoform of Sar1, the GTPase that regulates COPII assembly on the surface of the ER. Evidence is accumulating that the protein is targeted to the chloroplasts, that it has GTPase activity and that it may have a role in thylakoid membrane development, supporting the possibility that COPII-like trafficking machinery may be active in chloroplasts.
COPII 蛋白有助于内质网 (ER) 到高尔基体的膜运输。它们高度保守,尽管在植物、动物和酵母细胞中它们的亚细胞定位存在差异。这种差异可能是为了适应不同细胞系统中 ER 和高尔基体的独特组织。早期的生物信息学分析表明,拟南芥核基因组可能编码质体胞质运输蛋白机器的叶绿体同工型,包括 COPI 和 COPII,用于叶绿体内部的小泡运输。这些分析表明,植物可能已经进化或适应了 COP 样蛋白,以适应特殊细胞器内的膜运输事件。在这里,我们讨论了最近关于 At5g18570 基因座产物分布和活性的研究数据,该基因座编码 Sar1 的叶绿体同工型,Sar1 是调节内质网表面 COPII 组装的 GTPase。越来越多的证据表明该蛋白被靶向到叶绿体,它具有 GTPase 活性,并且可能在类囊体膜发育中发挥作用,支持 COPII 样运输机制可能在叶绿体中活跃的可能性。
