Hans Hebert , Elisabeth Skriver , Margareta Söderholm , Arvid B. Maunsbach
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引用次数: 17
Abstract
Electron microscopy and image processing were used to reconstruct a three-dimensional model of membrane-bound monomeric renal Na,K-ATPase from negatively stained two-dimensional crystals of the p1 type. Correlation methods were applied to obtain projection averages which were aligned by a phase difference minimization procedure. The self-consistency of the reconstruction process was high as determined by correlation between experimental projections and projections of the calculated model. The three-dimensional model of the Na,K-ATPase protomer in the p1 crystal form contains three characteristic domains, a protein dense ellipsoid, a small globular stain deficient domain, and a connecting low-contrast region. The latter is thought to correspond to the lipid-penetrating part of the Na,K-ATPase protomer. The location of this domain gives the protein an asymmetric distribution in the bilayer so that it is exposed primarily on one side proposed to correspond to the intracellular face.
利用电子显微镜和图像处理技术,从阴性染色的p1型二维晶体中重建了膜结合单体肾Na, k - atp酶的三维模型。采用相关法得到投影平均值,并采用相位差最小化方法对其进行对齐。从实验投影与计算模型投影的相关性可以看出,重建过程的自一致性较高。p1晶体形式的Na, k - atp酶原体的三维模型包含三个特征结构域,一个蛋白质密集椭球,一个小的球状染色缺陷结构域和一个连接的低对比度区域。后者被认为与Na, k - atp酶原体的脂质穿透部分相对应。这个结构域的位置使蛋白质在双分子层中的分布不对称,因此它主要暴露在与细胞内面相对应的一侧。
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