斜纹肌。3. 蛔虫体肌的收缩机制。

Obliquely striated muscle. 3. Contraction mechanism of Ascaris body muscle.

作者信息

Rosenbluth J

出版信息

J Cell Biol. 1967 Jul;34(1):15-33. doi: 10.1083/jcb.34.1.15.

DOI:10.1083/jcb.34.1.15

PMID:6040534

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2107232/

Abstract

Segments of the obliquely striated body muscle of Ascaris were fixed at minimum body length after treatment with acetylcholine and at maximum body length after treatment with piperazine citrate and then studied by light and electron microscopy. Evidence was found for two mechanisms of length change: sliding of thin filaments with respect to thick filaments such as occurs in cross-striated muscle, and shearing of thick filaments with respect to each other such that the degree of their stagger increases with extension and decreases with shortening. The shearing mechanism could account for great extensibility in this muscle and in nonstriated muscles in general and could underlie other manifestations of "plasticity" as well. In addition, it is suggested that the contractile apparatus is attached to the endomysium in such a way that the sarcomeres can act either in series, as in cross-striated muscle, or individually. Since the sarcomeres are virtually longitudinal in orientation and are almost coextensive with the muscle fiber, it would, therefore, be possible for a single sarcomere contracting independently to develop tension effectively between widely separated points on the fiber surface, thus permitting very efficient maintenance of isometric tension.

摘要

用乙酰胆碱处理后，在蛔虫斜纹体肌最短体长时将其固定；用枸橼酸哌嗪处理后，在最长体长时将其固定，然后通过光学显微镜和电子显微镜进行研究。发现了两种长度变化机制的证据：细肌丝相对于粗肌丝的滑动，就像在横纹肌中发生的那样；以及粗肌丝彼此之间的剪切，使得它们的交错程度随着伸展而增加，随着缩短而减少。这种剪切机制可以解释这种肌肉以及一般非横纹肌的巨大伸展性，也可能是“可塑性”的其他表现的基础。此外，有人提出收缩装置以这样一种方式附着于肌内膜，即肌节既可以像横纹肌那样串联起作用，也可以单独起作用。由于肌节实际上是纵向排列的，并且几乎与肌纤维等长，因此，单个独立收缩的肌节有可能在纤维表面相距很远的点之间有效地产生张力，从而非常有效地维持等长张力。

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