A new efficient protocol for extraction and conservation of myosin II from frog skeletal muscle made it possible to preserve the myosin functionality for a week and apply single molecule techniques to the molecular motor that has been best characterized for its mechanical, structural and energetic parameters in situ. With the in vitro motility assay, we estimated the sliding velocity of actin on frog myosin II (V F) and its modulation by pH, myosin density, temperature (range 4-30°C) and substrate concentration. V F was 8.88 ± 0.26 μm s -1 at 30.6°C and decreased to 1.60 ± 0.09 μm s -1 at 4.5°C. The in vitro mechanical and kinetic parameters were integrated with the in situ parameters of frog muscle myosin working in arrays in each half-sarcomere. By comparing V F with the shortening velocities determined in intact frog muscle fibres under different loads and their dependence on temperature, we found that V F is 40-50% less than the fibre unloaded shortening velocity (V 0) at the same temperature and we determined the load that explains the reduced value of V F. With this integrated approach we could define fundamental kinetic steps of the acto-myosin ATPase cycle in situ and their relation with mechanical steps. In particular we found that at 5°C the rate of ADP release calculated using the step size estimated from in situ experiments accounts for the rate of detachment of motors during steady shortening under low loads.
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机译:一种从青蛙骨骼肌中提取和保存肌球蛋白II的有效新方案,可以将肌球蛋白的功能保留一周,并将单分子技术应用于以其机械,结构和高能参数为特征的最先进的分子马达。通过体外运动测定,我们估计了肌动蛋白在青蛙肌球蛋白II(V F)上的滑动速度,并通过pH,肌球蛋白密度,温度(范围4-30°C)和底物浓度对其进行了调节。 V F在30.6°C下为8.88±0.26μms -1,在4.5°C下降至1.60±0.09μms -1。体外力学和动力学参数与青蛙肌肉肌球蛋白的原位参数整合在一起,每个半肌节中都以阵列形式工作。通过比较VF与完整青蛙肌肉纤维在不同载荷下测定的缩短速度及其对温度的依赖性,我们发现VF比相同温度下纤维卸载的缩短速度(V 0)小40-50%,并且确定了通过这种整合的方法,我们可以原位定义肌动球蛋白ATPase循环的基本动力学步骤及其与机械步骤的关系。特别是,我们发现,在5°C下,使用从原位实验估算出的步长计算出的ADP释放速率说明了在低负载下稳定缩短过程中电机的脱离速率。
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