Mechanisms of mitotic spindle assembly and function.

International Review of Cytology-A Survey of Cell Biology Pub Date : 2008-01-01 DOI:10.1016/S0074-7696(07)65003-7

Claire E Walczak, Rebecca Heald

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引用次数: 367

Abstract

The mitotic spindle is the macromolecular machine that segregates chromosomes to two daughter cells during mitosis. The major structural elements of the spindle are microtubule polymers, whose intrinsic polarity and dynamic properties are critical for bipolar spindle organization and function. In most cell types, spindle microtubule nucleation occurs primarily at two centrosomes, which define the spindle poles, but microtubules can also be generated by the chromosomes and within the spindle itself. Many associated factors help organize the spindle, including molecular motors and regulators of microtubule dynamics. The past decade has provided a wealth of information on the molecular players that are critical for spindle assembly as well as a high-resolution view of the intricate movements and dynamics of the spindle microtubules and the chromosomes. In this chapter we provide a historical account of the key observations leading to current models of spindle assembly, as well as an up-to-date status report on this exciting field.

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有丝分裂纺锤体组装和功能的机制。

有丝分裂纺锤体是在有丝分裂过程中将染色体分离成两个子细胞的大分子机器。双极电主轴的主要结构元素是微管聚合物，其固有极性和动态特性对双极电主轴的组织和功能至关重要。在大多数细胞类型中，纺锤体微管成核主要发生在定义纺锤体极点的两个中心体上，但微管也可以由染色体和纺锤体本身产生。许多相关因素有助于组织纺锤体，包括分子马达和微管动力学的调节器。过去的十年提供了丰富的信息，对纺锤体组装至关重要的分子参与者，以及纺锤体微管和染色体的复杂运动和动力学的高分辨率视图。在本章中，我们提供了导致主轴装配当前模型的关键观察的历史帐户，以及在这个令人兴奋的领域的最新状态报告。

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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来源期刊

International Review of Cytology-A Survey of Cell Biology 生物-细胞生物学

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>12 weeks