化学去皮小鼠肌肉收缩过程中的横向细丝间距
Lateral filamentary spacing in chemically skinned murine muscles during contraction.
作者信息
Matsubara I, Umazume Y, Yagi N
出版信息
J Physiol. 1985 Mar;360:135-48. doi: 10.1113/jphysiol.1985.sp015608.
Abstract
A mouse toe muscle was chemically skinned with saponin and the 1,0 spacing of the hexagonal myofilament lattice at a sarcomere length of 2.5 micron was measured with the X-ray-diffraction method. In the relaxed state, the 1,0 spacing was 40.8 nm. When the muscle was maximally activated at pCa 4.4, the spacing decreased to 38.4 nm. During contractions at lower calcium concentrations, the spacing decreased less. In rigor, the spacing decreased to almost the same extent as during maximum contraction, although the rigor tension was only 8% of the maximum tension. When the spacing in relaxed muscle had been adjusted osmotically to about 38 nm, activation caused no further decrease in the spacing. The results support the view that the force responsible for the lattice shrinkage during contraction is produced by cross-bridges displaced from their optimum lateral positions.
摘要
用皂角苷对小鼠趾肌进行化学去膜处理,并用X射线衍射法测量了肌节长度为2.5微米时六角形肌丝晶格的1,0间距。在松弛状态下,1,0间距为40.8纳米。当肌肉在pCa 4.4时最大激活时,间距降至38.4纳米。在较低钙浓度下收缩时,间距减小较少。在僵直状态下,间距减小的程度与最大收缩时几乎相同,尽管僵直张力仅为最大张力的8%。当松弛肌肉中的间距通过渗透调节至约38纳米时,激活不会导致间距进一步减小。结果支持这样一种观点,即收缩过程中导致晶格收缩的力是由从其最佳横向位置移位的横桥产生的。
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