微管切断。

L M Quarmby, T A Lohret
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引用次数: 0

摘要

通过切断聚合物的长度来调节微管的稳定性是一种新的、潜在的重要的控制微管功能的机制。微管切断发生在活细胞中,但对这一事件的直接观察很少。直接观察的缺乏使微管切断在控制微管组织中的重要性受到质疑。然而,一些证据表明,微管切断是一个重要的细胞活动。首先,katanin的atp依赖性微管切断活性得到了充分的证明。卡他蛋白存在于大多数细胞类型中,在MTOCs富集。虽然卡他蛋白在体内可能不会切断微管,但这似乎不太可能。其次,一个生理事件,爆燃,已被证明依赖于微管切断。衣藻的爆裂系统为解决微管断裂问题提供了一种遗传学途径。FA基因对纤裂过程中轴突微管的调控切断至关重要,但这些基因是否定义新的切断蛋白或它们是否对katanin活性很重要仍有待确定。微管切断是一个相对较新的研究领域,仍然有很多问题比答案。可以预期,最近的克隆katanin和遗传模型系统的引入将很快导致这一问题的重大突破。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microtubule severing.

The regulation of microtubule stability by severing of the polymer along its length is a newly appreciated and potentially important mechanism for controlling microtubule function. Microtubule severing occurs in living cells, but direct observation of this event is infrequent. The paucity of direct observations leave open to question the significance of regulated microtubule severing in the control of microtubule organization. Nevertheless, several lines of evidence suggest that microtubule severing is an important cellular activity. First, the ATP-dependent microtubule-severing activity of katanin is well documented. Katanin is found in most cell types and is enriched at MTOCs. Although it is possible that katanin does not sever microtubules in vivo, this seems unlikely. Second, a physiological event, deflagellation, has been shown to depend on microtubule severing. The deflagellation system of Chlamydomonas has provided a genetic approach to the problem of microtubule severing. The FA genes are essential for the regulated severing of axonemal microtubules during deflagellation, but whether these genes define new severing proteins or whether they are important for katanin activity remains to be determined. Microtubule severing is a relatively new area of investigation and there are still many more questions than answers. It is anticipated that the recent cloning of katanin and the introduction of a genetic model system will soon lead to significant breakthroughs in this problem.

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