挥剑:微管如何寻找它们的目标。

Systems and Synthetic Biology Pub Date : 2014-09-01 Epub Date: 2014-02-16 DOI:10.1007/s11693-014-9134-x
Nenad Pavin, Iva M Tolić-Nørrelykke
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引用次数: 24

摘要

细胞内部是不断运动的,这在很大程度上是由渗透在细胞质中的微管、细长丝所决定的。为了移动大型物体,微管需要将它们连接到目的地。例如,在细胞分裂过程中,微管通过着丝点(染色体上的蛋白质复合体)将染色体与纺锤体极点连接起来。一个普遍的问题是,当微管被绑定到一个结构时,如何找到需要连接到这个结构的目标。在这里,我们回顾了微管如何搜索着丝点的机制,重点介绍了最近发现的微管特征,即通过绕主轴杆旋转来探索空间。除了加速寻找着丝点外,旋转还有助于微管寻找皮质锚点,以及自组织成平行阵列和瞄准细胞的特定区域。因此,微管旋转构成了一种在不同细胞环境中定位靶标的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Swinging a sword: how microtubules search for their targets.

Swinging a sword: how microtubules search for their targets.

Swinging a sword: how microtubules search for their targets.

The cell interior is in constant movement, which is to a large extent determined by microtubules, thin and long filaments that permeate the cytoplasm. To move large objects, microtubules need to connect them to the site of their destination. For example, during cell division, microtubules connect chromosomes with the spindle poles via kinetochores, protein complexes on the chromosomes. A general question is how microtubules, while being bound to one structure, find the target that needs to be connected to this structure. Here we review the mechanisms of how microtubules search for kinetochores, with emphasis on the recently discovered microtubule feature to explore space by pivoting around the spindle pole. In addition to accelerating the search for kinetochores, pivoting helps the microtubules to search for cortical anchors, as well as to self-organize into parallel arrays and asters to target specific regions of the cell. Thus, microtubule pivoting constitutes a mechanism by which they locate targets in different cellular contexts.

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