通过簇运动分析揭示驱动蛋白-5 Cin8的阻力诱导方向性转换

Drag-induced directionality switching of kinesin-5 Cin8 revealed by cluster-motility analysis.

作者信息

Pandey Himanshu, Reithmann Emanuel, Goldstein-Levitin Alina, Al-Bassam Jawdat, Frey Erwin, Gheber Larisa

机构信息

Department of Chemistry and Ilse Katz Institute for Nanoscale Science and Technology, Ben-Gurion University of the Negev, P.O. Box 653, Beer-Sheva 84105, Israel.

Arnold-Sommerfeld-Center for Theoretical Physics and Center for NanoScience, Ludwig-Maximilians-Universität München, Theresienstraße 37, D-80333 Munich, Germany.

出版信息

Sci Adv. 2021 Feb 5;7(6). doi: 10.1126/sciadv.abc1687. Print 2021 Feb.

DOI:10.1126/sciadv.abc1687

PMID:33547070

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7864582/

Abstract

Directed active motion of motor proteins is a vital process in virtually all eukaryotic cells. Nearly a decade ago, the discovery of directionality switching of mitotic kinesin-5 motors challenged the long-standing paradigm that individual kinesin motors are characterized by an intrinsic directionality. The underlying mechanism, however, remains unexplained. Here, we studied clustering-induced directionality switching of the bidirectional kinesin-5 Cin8. Based on the characterization of single-molecule and cluster motility, we developed a model that predicts that directionality switching of Cin8 is caused by an asymmetric response of its active motion to opposing forces, referred to as drag. The model shows excellent quantitative agreement with experimental data obtained under high and low ionic strength conditions. Our analysis identifies a robust and general mechanism that explains why bidirectional motor proteins reverse direction in response to seemingly unrelated experimental factors including changes in motor density and molecular crowding, and in multimotor motility assays.

摘要

在几乎所有真核细胞中，运动蛋白的定向主动运动都是一个至关重要的过程。近十年前，有丝分裂驱动蛋白-5 马达方向性转换的发现挑战了长期以来的范式，即单个驱动蛋白马达具有内在方向性的特征。然而，其潜在机制仍未得到解释。在这里，我们研究了双向驱动蛋白-5 Cin8 的聚类诱导方向性转换。基于单分子和簇运动性的表征，我们开发了一个模型，该模型预测 Cin8 的方向性转换是由其主动运动对相反力（即阻力）的不对称响应引起的。该模型与在高离子强度和低离子强度条件下获得的实验数据显示出极好的定量一致性。我们的分析确定了一种强大而普遍的机制，该机制解释了为什么双向运动蛋白会响应看似无关的实验因素（包括运动蛋白密度变化和分子拥挤）以及在多马达运动分析中反向运动。

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通过簇运动分析揭示驱动蛋白-5 Cin8的阻力诱导方向性转换

Drag-induced directionality switching of kinesin-5 Cin8 revealed by cluster-motility analysis.

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