The Arabidopsis nuclear pore and nuclear envelope.

The arabidopsis book Pub Date : 2010-01-01 Epub Date: 2010-10-07 DOI:10.1199/tab.0139
Iris Meier, Jelena Brkljacic
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引用次数: 29

Abstract

The nuclear envelope is a double membrane structure that separates the eukaryotic cytoplasm from the nucleoplasm. The nuclear pores embedded in the nuclear envelope are the sole gateways for macromolecular trafficking in and out of the nucleus. The nuclear pore complexes assembled at the nuclear pores are large protein conglomerates composed of multiple units of about 30 different nucleoporins. Proteins and RNAs traffic through the nuclear pore complexes, enabled by the interacting activities of nuclear transport receptors, nucleoporins, and elements of the Ran GTPase cycle. In addition to directional and possibly selective protein and RNA nuclear import and export, the nuclear pore gains increasing prominence as a spatial organizer of cellular processes, such as sumoylation and desumoylation. Individual nucleoporins and whole nuclear pore subcomplexes traffic to specific mitotic locations and have mitotic functions, for example at the kinetochores, in spindle assembly, and in conjunction with the checkpoints. Mutants of nucleoporin genes and genes of nuclear transport components lead to a wide array of defects from human diseases to compromised plant defense responses. The nuclear envelope acts as a repository of calcium, and its inner membrane is populated by functionally unique proteins connected to both chromatin and-through the nuclear envelope lumen-the cytoplasmic cytoskeleton. Plant nuclear pore and nuclear envelope research-predominantly focusing on Arabidopsis as a model-is discovering both similarities and surprisingly unique aspects compared to the more mature model systems. This chapter gives an overview of our current knowledge in the field and of exciting areas awaiting further exploration.

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拟南芥核孔和核膜。
核膜是一种双层膜结构,将真核细胞质与核质分开。嵌入核膜中的核孔是大分子进出细胞核的唯一通道。聚集在核孔处的核孔复合物是由约30种不同核孔蛋白组成的大型蛋白质聚集体。通过核转运受体、核孔蛋白和Ran GTPase循环元件的相互作用,蛋白质和rna通过核孔复合物进行转运。除了定向和可能选择性的蛋白质和RNA核输入和输出外,核孔作为细胞过程的空间组织者,如summoylation和dessummoylation,越来越突出。单个核孔蛋白和整个核孔亚复合物运输到特定的有丝分裂位置并具有有丝分裂功能,例如在着丝点,纺锤体组装中,以及与检查点结合。核孔蛋白基因和核转运组分基因的突变导致从人类疾病到植物防御反应受损的一系列广泛缺陷。核膜作为钙的储存库,其内膜由功能独特的蛋白质填充,这些蛋白质连接染色质和通过核膜管的细胞质骨架。植物核孔和核膜的研究——主要集中在拟南芥作为一个模型——与更成熟的模型系统相比,发现了相似之处和令人惊讶的独特之处。本章概述了我们目前在该领域的知识,以及有待进一步探索的令人兴奋的领域。
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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