THE PLASTID DIVISION MACHINE.

Annual review of plant physiology and plant molecular biology Pub Date : 2003-11-28 DOI:10.1146/ANNUREV.ARPLANT.52.1.315

K. Osteryoung, R. McAndrew

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引用次数: 136

Abstract

Plastid division is essential for the maintenance of plastid populations in cells undergoing division and for the accumulation of large chloroplast numbers in photosynthetic tissues. Although the mechanisms mediating plastid division are poorly understood, ultrastructural studies imply this process is accomplished by a dynamic macromolecular machine organized into ring structures at the plastid midpoint. A key component of the engine that powers this machine is the motor-like protein FtsZ, a cytoskeletal GTPase of endosymbiotic origin that forms a ring at the plastid division site, similar to the function of its prokaryotic relatives in bacterial cytokinesis. This review considers the phylogenetic distribution and structural properties of two recently identified plant FtsZ protein families in the context of their distinct roles in plastid division and describes current evidence regarding factors that govern their placement at the division site. Because of their evolutionary and mechanistic relationship, the process of bacterial cell division provides a valuable, though incomplete, paradigm for understanding plastid division in plants.

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质体分裂机。

质体分裂对于维持正在分裂的细胞中的质体群体和光合组织中大量叶绿体的积累是必不可少的。尽管介导质体分裂的机制尚不清楚，但超微结构研究表明，这一过程是由质体中点组织成环状结构的动态大分子机器完成的。驱动这台机器的发动机的一个关键组成部分是类似马达的蛋白质FtsZ，这是一种起源于内共生的细胞骨架GTPase，它在质体分裂位点形成一个环，类似于它在细菌细胞质分裂中的原核亲戚的功能。这篇综述考虑了最近发现的两个植物FtsZ蛋白家族在质体分裂中不同作用的系统发育分布和结构特性，并描述了目前关于控制它们在分裂位点位置的因素的证据。由于它们的进化和机制关系，细菌细胞分裂过程为理解植物质体分裂提供了一个有价值的，尽管不完整的范式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Annual review of plant physiology and plant molecular biology

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