在肌节长度低于最佳值时青蛙肌肉纤维的张力、僵硬度、无负荷缩短速度和增强作用。
Tension, stiffness, unloaded shortening speed and potentiation of frog muscle fibres at sarcomere lengths below optimum.
作者信息
Julian F J, Morgan D L
出版信息
J Physiol. 1981;319:205-17. doi: 10.1113/jphysiol.1981.sp013902.
Abstract
- Unloaded shortening velocity, stiffness, and the effects of potentiators were studied to understand the basis for the shallow ascending limb (1.65-2.0 micrometers sarcomere length) of the sarcomere length-tension diagram of from single fibres. 2. The velocity of externally unloaded shortening was found to be constant over most of the range. It is therefore unlikely that this part of the sarcomere length-tension diagram results from an internal force opposing shortening. 3. Stiffness was found not to vary in proportion with tension between sarcomere lengths 1.65 and 2.0 micrometers, nor to be constant between 2.0 and 2.2 micrometers, where tension is constant. By assuming a small filament compliance, the observations could be adequately modelled on the hypothesis that the variation in tension in the range of sarcomere lengths 1.65-20 micrometers was caused by variations in the number of attached cross-bridges. 4. The twitch potentiators Zn2+, tetraethylammonium (TEA), nitrate and caffeine were found not to change the shape of the sarcomere length-tension diagram. Potentiation in a tetanus was less than 3% in all experiments. 5. Contractures induced by raised [K+] in the bathing solution were found to produce more tension than a tetanus beyond optimum length, insignificantly different tension near optimum length, and less tension at sarcomere lengths near 1.7 micrometer. An explanation is proposed for these results in terms of inhomogeneous activation and internal motion. 6. It is concluded that there is no evidence from this work that a tetanized fibre is other than maximally activated over the range of sarcomere lengths spanned by the shallow ascending limb.
摘要
- 研究了无负荷缩短速度、刚度以及增强剂的作用,以了解单根肌纤维肌节长度-张力图浅上升支(肌节长度1.65 - 2.0微米)的基础。2. 发现外部无负荷缩短速度在大部分范围内是恒定的。因此,肌节长度-张力图的这一部分不太可能是由对抗缩短的内力导致的。3. 发现在肌节长度1.65和2.0微米之间,刚度与张力不成比例变化,在张力恒定的2.0和2.2微米之间也不是恒定的。通过假设细丝有小的顺应性,基于肌节长度1.65 - 2.0微米范围内张力变化是由附着横桥数量变化引起的假设,这些观察结果可以得到充分的模拟。4. 发现抽搐增强剂锌离子、四乙铵(TEA)、硝酸盐和咖啡因不会改变肌节长度-张力图的形状。在所有实验中,强直收缩时的增强作用小于3%。5. 发现在浴液中升高[K⁺]诱导的挛缩在超过最佳长度时产生的张力比强直收缩更多,在接近最佳长度时张力无显著差异,在肌节长度接近1.7微米时产生的张力更小。根据不均匀激活和内部运动对这些结果提出了解释。6. 得出结论,这项工作没有证据表明在浅上升支所跨越的肌节长度范围内,强直收缩的纤维不是最大程度激活的。
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