昆虫飞行肌三磷酸腺苷酶活性与张力及功率输出的关系。
The relationship of adenosine triphosphatase activity to tension and power output of insect flight muscle.
作者信息
Pybus J, Tregear R T
出版信息
J Physiol. 1975 May;247(1):71-89. doi: 10.1113/jphysiol.1975.sp010921.
Abstract
- On a simple model of actomyosin interaction, the tension cost (ATP hydrolysed/unit tension) and the frequency of low amplitude oscillation optimum for work production are both determined by the rate of detachment from the actin filament of the myosin crossbridge. To test this model, the two parameters were measured under different conditions using glycerol-extracted Lethocerus cordofanus dorsal longitudinal flight muscle fibres. 2. The ATPase activity of the static muscle rose by an amount approximately proportional to the rise in tension as the muscle was stretched. 3. When the muscle fibres were sinusoidally oscillated at 5-10 Hz by 2% of their resting length they produced a large amount of mechanical power and hydrolysed approximately twice as much ATP per unit mean tension as they did when static. The ATPase activity was linearly related to the mean tension during oscillation. 4. The experiments were repeated at temperatures between 12 and 30 degrees C and the tension cost and the optimal frequency of oscillation of the fibres were found to rise with temperature. 5. Removal of phosphate from the incubating medium reduced both the tension cost and the optimal working frequency. Addition of pyrophosphate or sulphate reduced both parameters still further. 6. From these results the tension cost of static muscle was shown to be proportional to its optimal working frequency. 7. ATPase activity rose monotonically with power production at work-producing frequencies and at moderate degrees of stretch. A high absolute efficiency was found under a wide range of conditions. 8. The proportionality between tension cost and optimal frequency is evidence for the proposed model of actomyosin interaction.
摘要
- 在肌动球蛋白相互作用的简单模型中,张力成本(每单位张力水解的ATP)以及产生功的最佳低幅振荡频率均由肌球蛋白横桥从肌动蛋白丝上脱离的速率决定。为了验证该模型,在不同条件下使用甘油抽提的非洲大螽斯背纵飞行肌纤维测量了这两个参数。2. 随着肌肉被拉伸,静态肌肉的ATP酶活性增加的量大致与张力的增加成正比。3. 当肌肉纤维以其静息长度的2%在5 - 10 Hz下进行正弦振荡时,它们产生大量机械功率,并且每单位平均张力水解的ATP大约是静态时的两倍。ATP酶活性与振荡期间的平均张力呈线性相关。4. 在12至30摄氏度之间的温度下重复实验,发现纤维的张力成本和最佳振荡频率随温度升高。5. 从孵育介质中去除磷酸盐会降低张力成本和最佳工作频率。添加焦磷酸盐或硫酸盐会使这两个参数进一步降低。6. 根据这些结果,表明静态肌肉的张力成本与其最佳工作频率成正比。7. 在产生功的频率和适度拉伸程度下,ATP酶活性随功率产生单调增加。在广泛的条件下发现了高绝对效率。8. 张力成本与最佳频率之间的比例关系为所提出的肌动球蛋白相互作用模型提供了证据。
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