在含有不同肌球蛋白异构体和环1结构的细丝产生的肌动球蛋白相互作用中,用微制造悬臂梁测量的力。

Biochimica et biophysica acta Pub Date : 2013-03-01
Albert Kalganov, Nabil Shalabi, Nedjma Zitouni, Linda Hussein Kachmar, Anne-Marie Lauzon, Dilson E Rassier
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引用次数: 0

摘要

背景:有证据表明肌动蛋白激活的ATP动力学和肌球蛋白分子产生的机械功是由两个表面环调节的,它们位于ATP结合袋附近(环1)和与肌动蛋白交界的区域(环2)。这些环调节收缩的力和速度,并且主要在单分子中进行了研究。关于肌球蛋白分子在细丝中有序地协同工作所产生的工作,这是实际的肌肉环境,缺乏信息。方法:我们使用微制造悬臂来测量从软体动物肌肉、骨骼肌和平滑肌中分离的肌球蛋白丝产生的力,这些肌球蛋白丝含有环1结构的变化(强直性和阶段性肌球蛋白)。我们用体外实验来测量肌动蛋白的运动速度。结果:平滑肌肌球蛋白纤维产生的力大于骨骼和软体动物肌球蛋白纤维。骨骼肌肌凝蛋白以比平滑肌肌凝蛋白更高的滑动速度推动肌动蛋白丝。力和速度的值与先前使用肌球蛋白分子的研究一致,并且表明与肌球蛋白的异构体和表面环1的结构密切相关。一般意义:使用微制造悬臂来测量细丝的力的技术允许研究肌凝蛋白结构和收缩性之间的关系,允许用一系列不同的肌凝蛋白异构体进行实验。使用该技术,我们观察到肌球蛋白分子产生的工作是由氨基酸序列排列在特定的环调节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Forces measured with micro-fabricated cantilevers during actomyosin interactions produced by filaments containing different myosin isoforms and loop 1 structures.

Background: There is evidence that the actin-activated ATP kinetics and the mechanical work produced by muscle myosin molecules are regulated by two surface loops, located near the ATP binding pocket (loop 1), and in a region that interfaces with actin (loop 2). These loops regulate force and velocity of contraction, and have been investigated mostly in single molecules. There is a lack of information of the work produced by myosin molecules ordered in filaments and working cooperatively, which is the actual muscle environment.

Methods: We use micro-fabricated cantilevers to measure forces produced by myosin filaments isolated from mollusk muscles, skeletal muscles, and smooth muscles containing variations in the structure of loop 1 (tonic and phasic myosins). We complemented the experiments with in-vitro assays to measure the velocity of actin motility.

Results: Smooth muscle myosin filaments produced more force than skeletal and mollusk myosin filaments when normalized per filament overlap. Skeletal muscle myosin propelled actin filaments in a higher sliding velocity than smooth muscle myosin. The values for force and velocity were consistent with previous studies using myosin molecules, and suggest a close correlation with the myosin isoform and structure of surface loop 1.

General significance: The technique using micro-fabricated cantilevers to measure force of filaments allows for the investigation of the relation between myosin structure and contractility, allowing experiments to be conducted with an array of different myosin isoforms. Using the technique we observed that the work produced by myosin molecules is regulated by amino-acid sequences aligned in specific loops.

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