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有证据表明,脂质侧向相分离会在肌浆网的Ca+2ATP酶中诱导功能上显著的结构变化。

Evidence that lipid lateral phase separation induces functionally significant structural changes in the Ca+2ATPase of the sarcoplasmic reticulum.

作者信息

Asturias F J, Pascolini D, Blasie J K

机构信息

Department of Chemistry, University of Pennsylvania, Philadelphia 19104.

出版信息

Biophys J. 1990 Jul;58(1):205-17. doi: 10.1016/S0006-3495(90)82366-3.

Abstract

We have studied lipid lateral phase separation (LPS) in the intact sarcoplasmic reticulum (SR) membrane and in bilayers of isolated SR membrane lipids as a function of temperature, [Mg+2], and degree of hydration. Lipid LPS was observed in both the intact membrane and in the bilayers of isolated SR lipids, and the LPS behavior of both systems was found to be qualitatively similar. Namely, lipid LPS occurs only at relatively low temperature and water content, independently of the [Mg+2], and the upper characteristic temperature (th) for lipid LPS for both the membrane and bilayers of its isolated lipids coincide to within a few degrees. However, at similar temperatures, isolated lipids show more LPS than the lipids in the intact membrane. Lipid LPS in the intact membrane and in bilayers of the isolated lipids is fully reversible, and more extensive for samples partially dehydrated at temperatures below th. Our previous x-ray diffraction studies established the existence of a temperature-induced transition in the profile structure of the sarcoplasmic reticulum Ca+2ATPase which occurs at a temperature corresponding to the [Mg+2]-dependent upper characteristic temperature for lipid LPS in the SR membrane. Furthermore, the functionality of the ATPase, and in particular the lifetime of the first phosphorylated enzyme conformation (E1 approximately P) in the Ca+2 transport cycle, were also found to be linked to the occurrence of this structural transition. The hysterisis observed in lipid LPS behavior as a function of temperature and water content provides a possible explanation for the more efficient transient trapping of the enzyme in the E1 approximately P conformation observed in SR membranes partially dehydrated at temperatures below th. The observation that LPS behavior for the intact SR membrane and bilayers of isolated SR lipids (no protein present) are qualitatively similar strongly suggests that the LPS behavior of the SR membrane lipids is responsible for the observed structural change in the Ca+2ATPase and the resulting significant increase in E1 approximately P lifetime for temperatures below th.

摘要

我们研究了完整肌浆网(SR)膜以及分离出的SR膜脂双层中脂质横向相分离(LPS)与温度、[Mg²⁺]和水合程度的关系。在完整膜和分离出的脂质双层中均观察到脂质LPS,并且发现这两个系统的LPS行为在性质上相似。具体而言,脂质LPS仅在相对较低的温度和含水量下发生,与[Mg²⁺]无关,并且其完整膜及其分离脂质双层的脂质LPS的上限特征温度(th)在几度范围内相符。然而,在相似温度下,分离出的脂质比完整膜中的脂质表现出更多的LPS。完整膜和分离脂质双层中的脂质LPS是完全可逆的,并且对于在低于th的温度下部分脱水的样品更为显著。我们之前的X射线衍射研究确定了肌浆网Ca²⁺ATP酶的轮廓结构中存在温度诱导的转变,该转变发生在与SR膜中脂质LPS的[Mg²⁺]依赖性上限特征温度相对应的温度。此外,还发现ATP酶的功能,特别是Ca²⁺转运循环中第一个磷酸化酶构象(E1≈P)的寿命,也与这种结构转变的发生有关。在脂质LPS行为中观察到的作为温度和含水量函数的滞后现象,为在低于th的温度下部分脱水的SR膜中观察到的酶在E1≈P构象中更有效的瞬时捕获提供了一种可能的解释。完整SR膜和分离出的SR脂质双层(无蛋白质)的LPS行为在性质上相似这一观察结果强烈表明,SR膜脂质的LPS行为是导致观察到的Ca²⁺ATP酶结构变化以及在低于th的温度下E1≈P寿命显著增加的原因。

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本文引用的文献

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