Physics of proteins.

Jayanth R Banavar, Amos Maritan
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引用次数: 141

Abstract

Globular proteins are a key component of the network of life. Over many decades much experimental data on proteins have been gathered, yet theoretical progress has been somewhat limited. We show that the results accumulated over the years inexorably lead to a unified framework for understanding proteins. The framework predicts the existence of a fixed menu of folds determined by geometry, clarifies the role of the amino acid sequence in selecting the native-state structure from this menu, and explains the propensity for amyloid formation. The experimental data and the new approach reveal an astonishing simplicity underlying the protein problem.

蛋白质物理学。
球状蛋白是生命网络的关键组成部分。几十年来,人们收集了大量关于蛋白质的实验数据,但理论进展却有些有限。我们表明,多年来积累的结果不可避免地导致了理解蛋白质的统一框架。该框架预测了由几何形状决定的固定折叠菜单的存在,阐明了氨基酸序列在从该菜单中选择天然状态结构时的作用,并解释了淀粉样蛋白形成的倾向。实验数据和新方法揭示了蛋白质问题背后惊人的简单性。
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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