The Arabidopsis cell division cycle.

The arabidopsis book Pub Date : 2009-01-01 Epub Date: 2009-03-20 DOI:10.1199/tab.0120
Crisanto Gutierrez
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引用次数: 160

Abstract

Plant cells have evolved a complex circuitry to regulate cell division. In many aspects, the plant cell cycle follows a basic strategy similar to other eukaryotes. However, several key issues are unique to plant cells. In this chapter, both the conserved and unique cellular and molecular properties of the plant cell cycle are reviewed. In addition to division of individual cells, the specific characteristic of plant organogenesis and development make that cell proliferation control is of primary importance during development. Therefore, special attention should be given to consider plant cell division control in a developmental context. Proper organogenesis depends on the formation of different cell types. In plants, many of the processes leading to cell differentiation rely on the occurrence of a different cycle, termed the endoreplication cycle, whereby cells undergo repeated full genome duplication events in the absence of mitosis and increase their ploidy. Recent findings are focusing on the relevance of changes in chromatin organization for a correct cell cycle progression and, conversely, in the relevance of a correct functioning of chromatin remodelling complexes to prevent alterations in both the cell cycle and the endocycle.

拟南芥细胞分裂周期。
植物细胞已经进化出一个复杂的电路来调节细胞分裂。在许多方面,植物细胞周期遵循与其他真核生物相似的基本策略。然而,有几个关键问题是植物细胞独有的。本章综述了植物细胞周期的保守和独特的细胞和分子特性。除了单个细胞的分裂外,植物器官发生和发育的特殊特征使得细胞增殖控制在发育过程中至关重要。因此,应特别注意在发育背景下考虑植物细胞分裂控制。正确的器官发生取决于不同细胞类型的形成。在植物中,许多导致细胞分化的过程依赖于一个不同周期的发生,称为内复制周期,即细胞在没有有丝分裂的情况下经历重复的全基因组复制事件,并增加其倍性。最近的研究结果集中在染色质组织变化与正确的细胞周期进展的相关性上,相反,染色质重塑复合物的正确功能与防止细胞周期和内循环改变的相关性上。
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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