动力蛋白激活蛋白侧臂构象多样性及其亚基 p150 的结构域组织。

Conformational diversity of dynactin sidearm and domain organization of its subunit p150.

机构信息

Department of Life Sciences, Graduate School of Arts and Sciences, The University of Tokyo, Meguro-ku, Tokyo 153-8902, Japan.

Department of Cellular and Molecular Pharmacology, Juntendo University Graduate School of Medicine, Bunkyo-ku, Tokyo 113-8421, Japan.

出版信息

Mol Biol Cell. 2020 Jun 1;31(12):1218-1231. doi: 10.1091/mbc.E20-01-0031. Epub 2020 Apr 2.

DOI:10.1091/mbc.E20-01-0031

PMID:32238103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7353146/

Abstract

Dynactin is a principal regulator of the minus-end directed microtubule motor dynein. The sidearm of dynactin is essential for binding to microtubules and regulation of dynein activity. Although our understanding of the structure of the dynactin backbone (Arp1 rod) has greatly improved recently, structural details of the sidearm subcomplex remain elusive. Here, we report the flexible nature and diverse conformations of dynactin sidearm observed by electron microscopy. Using nanogold labeling and deletion mutant analysis, we determined the domain organization of the largest subunit p150 and discovered that its coiled-coil (CC1), dynein-binding domain, adopted either a folded or an extended form. Furthermore, the entire sidearm exhibited several characteristic forms, and the equilibrium among them depended on salt concentrations. These conformational diversities of the dynactin complex provide clues to understanding how it binds to microtubules and regulates dynein.

摘要

动力蛋白是微管负向导向的微管动力蛋白的主要调节剂。动力蛋白的侧臂对于与微管结合和调节动力蛋白活性是必不可少的。尽管我们最近对动力蛋白骨干（Arp1 杆）的结构有了更深入的了解，但侧臂亚基复合物的结构细节仍然难以捉摸。在这里，我们通过电子显微镜报告了动力蛋白侧臂的灵活性质和多种构象。通过纳米金标记和缺失突变分析，我们确定了最大亚基 p150 的结构域组织，并发现其卷曲螺旋（CC1）、动力蛋白结合域采用折叠或伸展形式。此外，整个侧臂表现出几种特征形式，它们之间的平衡取决于盐浓度。这些动力蛋白复合物的构象多样性为理解它如何与微管结合和调节动力蛋白提供了线索。

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动力蛋白激活蛋白侧臂构象多样性及其亚基 p150 的结构域组织。

Conformational diversity of dynactin sidearm and domain organization of its subunit p150.

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