Structure and function of the calcium pump.

David L Stokes, N Michael Green
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引用次数: 87

Abstract

Active transport of cations is achieved by a large family of ATP-dependent ion pumps, known as P-type ATPases. Various members of this family have been targets of structural and functional investigations for over four decades. Recently, atomic structures have been determined for Ca2+-ATPase by X-ray crystallography, which not only reveal the architecture of these molecules but also offer the opportunity to understand the structural mechanisms by which the energy of ATP is coupled to calcium transport across the membrane. This energy coupling is accomplished by large-scale conformational changes. The transmembrane domain undergoes plastic deformations under the influence of calcium binding at the transport site. Cytoplasmic domains undergo dramatic rigid-body movements that deliver substrates to the catalytic site and that establish new domain interfaces. By comparing various structures and correlating functional data, we can now begin to associate the chemical changes constituting the reaction cycle with structural changes in these domains.

钙泵的结构和功能。
阳离子的主动转运是由一个大家族的atp依赖离子泵,称为p型atp酶实现的。四十多年来,这个家族的各种成员一直是结构和功能研究的目标。最近,通过x射线晶体学已经确定了Ca2+-ATP酶的原子结构,这不仅揭示了这些分子的结构,而且还提供了了解ATP能量耦合钙跨膜运输的结构机制的机会。这种能量耦合是通过大规模的构象变化来实现的。在运输部位钙结合的影响下,跨膜结构域发生塑性变形。细胞质结构域经历剧烈的刚体运动,将底物运送到催化位点并建立新的结构域界面。通过比较各种结构和关联功能数据,我们现在可以开始将构成反应循环的化学变化与这些结构域的结构变化联系起来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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