骨骼肌肌原纤维的力学特性

Mechanical characterization of skeletal muscle myofibrils.

作者信息

Friedman A L, Goldman Y E

机构信息

Department of Bioengineering, University of Pennsylvania, Philadelphia 19104, USA.

出版信息

Biophys J. 1996 Nov;71(5):2774-85. doi: 10.1016/S0006-3495(96)79470-5.

DOI:10.1016/S0006-3495(96)79470-5

PMID:8913614

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1233763/

Abstract

A new instrument, based on a technique described previously, is presented for studying mechanics of micron-scale preparations of two to three myofibrils or single myofibrils from muscle. Forces in the nanonewton to micronewton range are measurable with 0.5-ms time resolution. Programmed quick (200-microseconds) steps or ramp length changes are applied to contracting myofibrils to test their mechanical properties. Individual striations can be monitored during force production and shortening. The active isometric force, force-velocity relationship, and force transients after rapid length steps were obtained from bundles of two to three myofibrils from rabbit psoas muscle. Contrary to some earlier reports on myofibrillar mechanics, these properties are generally similar to expectations from studies on intact and skinned muscle fibers. Our experiments provide strong evidence that the mechanical properties of a fiber result from a simple summation of the myofibrillar force and shortening of independently contracting sarcomeres.

摘要

一种基于先前描述技术的新型仪器被展示用于研究从肌肉中提取的两到三根肌原纤维或单个肌原纤维的微米级制剂的力学特性。纳米牛顿到微牛顿范围内的力可在0.5毫秒的时间分辨率下进行测量。对收缩的肌原纤维施加编程的快速（200微秒）步长或斜坡长度变化，以测试其力学性能。在力产生和缩短过程中可以监测单个条纹。从兔腰大肌的两到三根肌原纤维束中获得了主动等长力、力-速度关系以及快速长度步长后的力瞬变。与一些早期关于肌原纤维力学的报道相反，这些特性通常与对完整和去皮肤肌肉纤维研究的预期相似。我们的实验提供了有力证据，表明纤维的力学特性是由肌原纤维力和独立收缩肌节缩短的简单总和产生的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/31be/1233763/168438df5f22/biophysj00041-0537-a.jpg

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骨骼肌肌原纤维的力学特性

Mechanical characterization of skeletal muscle myofibrils.

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