构象扩散:大型多蛋白复合物中变构状态的传播。

Dennis Bray, Thomas Duke
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引用次数: 193

摘要

变构现象通常被描述为小的对称寡聚蛋白,如血红蛋白。在这里,我们回顾了来自各种系统的实验证据,包括细菌趋化受体、肌肉良嘌呤受体和肌动蛋白丝,表明构象变化也可以通过扩展的蛋白质分子晶格传播。我们探索了变构蛋白的理想线性和二维阵列的统计力学,并表明,在类似的Ising模型中,紧密排列的单元阵列可以显示大规模的集成行为。我们还讨论了由ATP水解驱动的构象变化的蛋白质,并给出了这些变化通过线性分子链传播的例子。我们认为,构象扩散可以为活细胞中的固态“电路”提供基础,能够在数百个蛋白质分子中整合生化和生物物理事件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Conformational spread: the propagation of allosteric states in large multiprotein complexes.

The phenomenon of allostery is conventionally described for small symmetrical oligomeric proteins such as hemoglobin. Here we review experimental evidence from a variety of systems-including bacterial chemotaxis receptors, muscle ryanodine receptors, and actin filaments-showing that conformational changes can also propagate through extended lattices of protein molecules. We explore the statistical mechanics of idealized linear and two-dimensional arrays of allosteric proteins and show that, as in the analogous Ising models, arrays of closely packed units can show large-scale integrated behavior. We also discuss proteins that undergo conformational changes driven by the hydrolysis of ATP and give examples in which these changes propagate through linear chains of molecules. We suggest that conformational spread could provide the basis of a solid-state "circuitry" in a living cell, able to integrate biochemical and biophysical events over hundreds of protein molecules.

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