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Time-resolved changes in equatorial x-ray diffraction and stiffness during rise of tetanic tension in intact length-clamped single muscle fibers.在完整的长度钳制单根肌纤维强直张力上升过程中,赤道X射线衍射和刚度的时间分辨变化。
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2
Time-resolved equatorial X-ray diffraction measurements in single intact muscle fibres.在单个完整肌纤维中进行的时间分辨赤道X射线衍射测量。
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Interfilament spacing is preserved during sarcomere length isometric contractions in rat cardiac trabeculae.在大鼠心脏小梁的肌节长度等长收缩过程中,肌丝间间距得以保持。
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本文引用的文献

1
Muscle structure and theories of contraction.肌肉结构与收缩理论。
Prog Biophys Biophys Chem. 1957;7:255-318.
2
The effect of internal and external potassium concentration on the membrane potential of frog muscle.细胞内外钾离子浓度对蛙肌膜电位的影响。
J Physiol. 1956 Sep 27;133(3):631-58. doi: 10.1113/jphysiol.1956.sp005615.
3
Changes in the cross-striations of muscle during contraction and stretch and their structural interpretation.肌肉收缩和伸展过程中横纹的变化及其结构解释。
Nature. 1954 May 22;173(4412):973-6. doi: 10.1038/173973a0.
4
Structural changes in muscle during contraction; interference microscopy of living muscle fibres.肌肉收缩时的结构变化;活肌纤维的干涉显微镜检查
Nature. 1954 May 22;173(4412):971-3. doi: 10.1038/173971a0.
5
Muscular contraction: kinetics of crossbridge attachment studied by high-frequency stiffness measurements.肌肉收缩:通过高频刚度测量研究横桥附着动力学。
Science. 1982 Jul 2;217(4554):70-2. doi: 10.1126/science.6979780.
6
Geometrical factors influencing muscle force development. II. Radial forces.影响肌肉力量发展的几何因素。II. 径向力。
Biophys J. 1980 Apr;30(1):69-77. doi: 10.1016/S0006-3495(80)85077-6.
7
Geometrical factors influencing muscle force development. I. The effect of filament spacing upon axial forces.影响肌肉力量发展的几何因素。I. 细丝间距对轴向力的影响。
Biophys J. 1980 Apr;30(1):51-67. doi: 10.1016/S0006-3495(80)85076-4.
8
Changes in the lateral filament spacing of skinned muscle fibres when cross-bridges attach.横桥附着时去膜肌纤维横向丝间距的变化。
J Mol Biol. 1984 Feb 15;173(1):15-33. doi: 10.1016/0022-2836(84)90401-7.
9
Calcium-sensitive binding of heavy meromyosin to regulated actin requires light chain 2 and the head-tail junction.重酶解肌球蛋白与调节型肌动蛋白的钙敏感结合需要轻链2和头-尾连接部。
Biochemistry. 1983 Mar 15;22(6):1334-42. doi: 10.1021/bi00275a003.
10
Modification of Lys-237 on actin by 2,4-pentanedione. Alteration of the interaction of actin with tropomyosin.2,4-戊二酮对肌动蛋白上赖氨酸-237的修饰。肌动蛋白与原肌球蛋白相互作用的改变。
J Biol Chem. 1984 Sep 10;259(17):11014-21.

在完整的长度钳制单根肌纤维强直张力上升过程中,赤道X射线衍射和刚度的时间分辨变化。

Time-resolved changes in equatorial x-ray diffraction and stiffness during rise of tetanic tension in intact length-clamped single muscle fibers.

作者信息

Cecchi G, Griffiths P J, Bagni M A, Ashley C C, Maeda Y

机构信息

European Molecular Biology Laboratory, Deutsches Elektronen-Synchrotron, Hamburg, Germany.

出版信息

Biophys J. 1991 Jun;59(6):1273-83. doi: 10.1016/S0006-3495(91)82342-6.

DOI:10.1016/S0006-3495(91)82342-6
PMID:1873464
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1281207/
Abstract

We report the first time-resolved x-ray diffraction studies on tetanized intact single muscle fibers of the frog. The 10, 11, 20, 21, 30, and Z equatorial reflections were clearly resolved in the relaxed fiber. The preparation readily withstood 100 1-s duration (0.4-s beam exposure) tetani at 4 degrees C (less than 4% decline of force and no deterioration in the 10, 11 equatorial intensity ratio at rest or during activation). Equatorial intensity changes (10 and 11) and fiber stiffness led tension (t1/2 lead 20 ms at 4 degrees C) during the tetanus rise and lagged during the isometric phase of relaxation. These findings support the existence of a low force cross-bridge state during the rise of tetanic tension and isometric relaxation that is not evident at the tetanus plateau. In "fixed end" tetani lattice expansion occurred with a time course similar to stiffness during the tetanus rise. During relaxation, lattice spacing increased slightly, while the sarcomere length remained isometric, but underwent large changes after the "shoulder" of tension. Under length clamp control, lattice expansion during the tetanus rise was reduced or abolished, and compression (2%) of the lattice was observed. A lattice compression is predicted by certain cross-bridge models of force generation (Schoenberg, M. 1980. Biophys. J. 30:51-68; Schoenberg, M. 1980. Biophys. J. 30:69-78).

摘要

我们报道了首次对青蛙完整的单根强直化肌肉纤维进行的时间分辨X射线衍射研究。在松弛的纤维中,清晰分辨出了10、11、20、21、30和Z赤道反射。该标本在4℃下能轻松承受100次持续1秒(0.4秒束流曝光)的强直刺激(静息或激活时,力下降小于4%,10、11赤道强度比无恶化)。在强直刺激上升过程中,赤道强度变化(10和11)和纤维刚度导致张力变化(4℃时t1/2提前20毫秒),而在等长松弛阶段则滞后。这些发现支持了在强直张力上升和等长松弛过程中存在一种低力横桥状态,而在强直平台期并不明显。在“固定端”强直刺激中,晶格扩张的时间进程与强直刺激上升过程中的刚度相似。在松弛过程中,晶格间距略有增加,而肌节长度保持等长,但在张力“肩部”之后发生了较大变化。在长度钳制控制下,强直刺激上升过程中的晶格扩张减少或消除,并且观察到晶格压缩(2%)。力产生的某些横桥模型预测会出现晶格压缩(舍恩伯格,M. 1980.《生物物理学杂志》30:51 - 68;舍恩伯格,M. 1980.《生物物理学杂志》30:69 - 78)。