通过同时检测位置和方向研究肌球蛋白V的适应性。

Adaptability of myosin V studied by simultaneous detection of position and orientation.

作者信息

Syed Sheyum, Snyder Gregory E, Franzini-Armstrong Clara, Selvin Paul R, Goldman Yale E

机构信息

Department of Physics, University of Illinois, Urbana-Champaign, 61801, USA.

出版信息

EMBO J. 2006 May 3;25(9):1795-803. doi: 10.1038/sj.emboj.7601060. Epub 2006 Apr 6.

DOI:10.1038/sj.emboj.7601060

PMID:16601691

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1456946/

Abstract

We studied the structural dynamics of chicken myosin V by combining the localization power of fluorescent imaging with one nanometer accuracy (FIONA) with the ability to detect angular changes of a fluorescent probe. The myosin V was labeled with bifunctional rhodamine on one of its calmodulin light chains. For every 74 nm translocation, the probe exhibited two reorientational motions, associated with alternating smaller and larger translational steps. Molecules previously identified as stepping alternatively 74-0 nm were found to actually step 64-10 nm. Additional tilting often occurred without full steps, possibly indicating flexibility of the attached myosin heads or probing of their vicinity. Processive myosin V molecules sometimes shifted from the top to the side of actin, possibly to avoid an obstacle. The data indicate marked adaptability of this molecular motor to a nonuniform local environment and provide strong support for a straight-neck model of myosin V in which the lever arm of the leading head is tilted backwards at the prepowerstoke angle.

摘要

我们通过将具有一纳米精度的荧光成像定位能力（FIONA）与检测荧光探针角度变化的能力相结合，研究了鸡肌球蛋白V的结构动力学。肌球蛋白V在其钙调蛋白轻链之一上用双功能罗丹明标记。每进行74纳米的转运，探针就会表现出两种重新定向运动，这与交替出现的较小和较大的平移步长相关。之前被确定为交替迈出74 - 0纳米步长的分子，实际上迈出的步长为64 - 10纳米。额外的倾斜经常在没有完整步长的情况下发生，这可能表明附着的肌球蛋白头部具有灵活性或者是对其附近区域的探测。进行性的肌球蛋白V分子有时会从肌动蛋白的顶部转移到侧面，可能是为了避开障碍物。这些数据表明这种分子马达对非均匀局部环境具有显著的适应性，并为肌球蛋白V的直颈模型提供了有力支持，在该模型中，领先头部的杠杆臂以预动力冲程角度向后倾斜。

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