蛙肌单皮纤维中弹性成分的选择性消化导致晶格肿胀。

Lattice swelling with the selective digestion of elastic components in single-skinned fibers of frog muscle.

作者信息

Higuchi H

出版信息

Biophys J. 1987 Jul;52(1):29-32. doi: 10.1016/S0006-3495(87)83185-5.

DOI:10.1016/S0006-3495(87)83185-5

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1329980/

Abstract

Changes in the 1.0 lattice spacing during trypsin (0.25 micrograms/ml) treatment in mechanically skinned single fibers of frog muscle was examined by an x-ray diffraction method at various sarcomere lengths. The resting tension of a relaxed fiber was decreased by trypsin treatment but the stiffness of a rigor fiber was not, suggesting that elastic components were selectively digested. With progression of the digestion, the lattice spacing increased remarkably at longer sarcomere lengths and finally became independent of the sarcomere length. The increase in the lattice spacing was proportional to the decrease in the resting tension. These results support our previous suggestion (Higuchi, H., and Y. Umazume, 1986, Biophys. J., 50:385-389) that the lattice spacing decreases at long lengths due to compressive force exerted by a lateral elastic component that connects thick filaments to an axial elastic component. Consequently, it is unlikely that the decrease in the lattice spacing is determined by a decrease in the repulsive force between thick and thin filaments with stretching a fiber.

摘要

采用X射线衍射法，在不同肌节长度下，研究了用胰蛋白酶（0.25微克/毫升）处理青蛙肌肉机械去膜单纤维时1.0晶格间距的变化。胰蛋白酶处理使松弛纤维的静息张力降低，但强直纤维的刚度未降低，这表明弹性成分被选择性消化。随着消化过程的进行，在较长肌节长度下晶格间距显著增加，最终与肌节长度无关。晶格间距的增加与静息张力的降低成正比。这些结果支持了我们之前的观点（Higuchi, H., and Y. Umazume, 1986, Biophys. J., 50:385 - 389），即在长长度时晶格间距减小是由于连接粗肌丝和轴向弹性成分的横向弹性成分施加的压缩力。因此，晶格间距的减小不太可能是由纤维拉伸时粗、细肌丝之间排斥力的降低所决定的。

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