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肌动蛋白 S1、肌原纤维和肌纤维 ATP 酶的相关性。

Correlation of ActoS1, myofibrillar, and muscle fiber ATPases.

作者信息

Herrmann C, Lionne C, Travers F, Barman T

机构信息

INSERM U128, CNRS, BP 5051, Montpellier, France.

出版信息

Biochemistry. 1994 Apr 12;33(14):4148-54. doi: 10.1021/bi00180a007.

DOI:10.1021/bi00180a007
PMID:8155632
Abstract

Our objective was to determine a good in vitro model for muscle fiber ATPase, and we compared the kinetics of Ca(2+)-activated myofibrils and cross-linked actoS1 in a buffer of physiological ionic strength. The myofibrils were cross-linked chemically to mimic the isometric condition of fibers or were un-cross-linked (the isotonic condition), and temperature perturbation was used to probe their ATPase mechanisms. At 4 degrees C, we have already shown that the kinetics of cross-linked actoS1 and myofibrils (cross-linked or not) are similar: there were large P(i) bursts and kcat values of about 1 s-1, close to that obtained with fibers [Herrmann, C., Sleep, J., Chaussepied, P., Travers, F. & Barman, T. (1993) Biochemistry 32, 7255-7263]. So, at 4 degrees C cross-linked actoS1 and myofibrils are equally good as models for fiber ATPase. At 20 degrees C, this similarity vanishes: progress curves with the myofibrils (cross-linked or not) had large P(i) bursts, but with cross-linked actoS1, bursts could not be discerned. This shows that at 20 degrees C the predominant steady-state intermediates are ATP complexes with actoS1 but are products complexes with the myofibrils, as with fibers [Ferenczi, M.A. (1986) Biophys. J. 50, 471-477]. Further, the kcat values were different: 15.5 s-1 with cross-linked actoS1, 8.3 s-1 for myofibrils, and 3.5 s-1 for cross-linked myofibrils. With fibers, kcat = 3.3 s-1. These results show that cross-linked myofibrillar ATPase is a good model for muscle fibers contracting isometrically.(ABSTRACT TRUNCATED AT 250 WORDS)

摘要

我们的目标是确定一种用于肌纤维ATP酶的良好体外模型,我们在生理离子强度的缓冲液中比较了Ca(2+)激活的肌原纤维和交联肌动蛋白S1的动力学。肌原纤维通过化学交联来模拟纤维的等长条件,或者不进行交联(等张条件),并利用温度扰动来探究它们的ATP酶机制。在4℃时,我们已经表明交联肌动蛋白S1和肌原纤维(交联或未交联)的动力学是相似的:存在较大的无机磷酸(Pi)爆发,催化常数(kcat)值约为1 s-1,接近在纤维中获得的值[赫尔曼,C.,斯利普,J.,肖塞皮耶,P.,特拉弗斯,F. & 巴曼,T.(1993年)《生物化学》32卷,7255 - 7263页]。所以,在4℃时,交联肌动蛋白S1和肌原纤维作为纤维ATP酶的模型同样良好。在20℃时,这种相似性消失:肌原纤维(交联或未交联)的进程曲线有较大的Pi爆发,但对于交联肌动蛋白S1,无法辨别出爆发。这表明在20℃时,主要的稳态中间体是与肌动蛋白S1形成的ATP复合物,但对于肌原纤维是产物复合物,与纤维情况相同[费伦齐,M.A.(1986年)《生物物理杂志》50卷,471 - 477页]。此外,kcat值不同:交联肌动蛋白S1为15.5 s-1,肌原纤维为8.3 s-1,交联肌原纤维为3.5 s-1。对于纤维,kcat = 3.3 s-1。这些结果表明交联肌原纤维ATP酶是等长收缩的肌肉纤维的良好模型。(摘要截取自250字)

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