青蛙在张力瞬变和等速缩短过程中肌肉刚度随张力的变化。
Variation of muscle stiffness with tension during tension transients and constant velocity shortening in the frog.
作者信息
Julian F J, Morgan D L
出版信息
J Physiol. 1981;319:193-203. doi: 10.1113/jphysiol.1981.sp013901.
Abstract
- The length changes of a central segment of a frog muscle fibre were measured during and after a quick shortening was applied to the end of the fibre, by attaching two markers an using a spot follower apparatus. In this way it was shown that the stiffness of tetanized single frog fibres as mounted in our apparatus was located predominantly in the sarcomeres, and that the ends were comparatively stiff. 2. The stiffness of tetanized frog single fibres at 0 degrees was measured by applying a small 4 kHz sinusoidal length change, and measuring the resultant tension change. This was done during the first few milliseconds after a quick release, and while the fibre was shortening at constant velocity. 3. The stiffness during the fast tension transient after a quick release was always less than the stiffness before release, supporting the idea that the fast recovery is not due to attachment of extra cross-bridges. 4. The stiffness during the steady shortening was always less than when isometric. A line fitted to this stiffness-tension plot, when extended, intercepted the stiffness axis at less than half the isometric value. 5. The slope of the stiffness-force plot during the fast tension transient was consistently and significantly less than the slope of the stiffness-force plot during steady shortening, further supporting the conclusion that only a small part of the decrease seen during shortening could be due to non-linear end compliance. 6. Possible ways of reconciling these results with recent reports of X-ray diffraction suggesting little if any change in the position of myosin heads during steady shortening are discussed.
摘要
- 通过在青蛙肌肉纤维末端施加快速缩短,并使用光点跟踪装置连接两个标记,测量了纤维中央段的长度变化。通过这种方式表明,安装在我们仪器中的强直收缩单根青蛙纤维的刚度主要位于肌节中,并且纤维末端相对较硬。2. 通过施加一个小的4kHz正弦长度变化,并测量由此产生的张力变化,来测量0度时强直收缩青蛙单纤维的刚度。这是在快速释放后的最初几毫秒内,以及纤维以恒定速度缩短时进行的。3. 快速释放后快速张力瞬变期间的刚度总是小于释放前的刚度,这支持了快速恢复不是由于额外横桥附着的观点。4. 稳定缩短期间的刚度总是小于等长收缩时的刚度。拟合此刚度-张力图的一条线在延伸时,与刚度轴的截距小于等长收缩值的一半。5. 快速张力瞬变期间刚度-力图的斜率始终明显小于稳定缩短期间刚度-力图的斜率,进一步支持了这样的结论,即缩短期间观察到的下降只有一小部分可能是由于非线性末端顺应性。6. 讨论了将这些结果与最近的X射线衍射报告相协调的可能方法,这些报告表明在稳定缩短期间肌球蛋白头部的位置几乎没有变化。
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