基于计算机的新型蛋白质结构设计。

Glenn L Butterfoss, Brian Kuhlman
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引用次数: 129

摘要

在过去的10年里,计算蛋白质设计领域取得了巨大的成功。蛋白质设计软件已被用于稳定蛋白质、溶解膜蛋白、设计分子间相互作用和设计新的蛋白质结构。这些研究的一个关键动机是它们测试我们对蛋白质能量学和结构的理解。新结构的从头设计是一项特别严格的测试,因为除了氨基酸侧链之外,还必须设计蛋白质主链。先验地,它甚至不能保证目标主干是可设计的。为了解决这个问题,研究人员已经开发了多种方法来生成蛋白质样支架,并优化蛋白质骨架与氨基酸序列的结合。这些协议已被用于从头开始设计蛋白质,并探索自然发生的蛋白质折叠的序列空间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computer-based design of novel protein structures.

Over the past 10 years there has been tremendous success in the area of computational protein design. Protein design software has been used to stabilize proteins, solubilize membrane proteins, design intermolecular interactions, and design new protein structures. A key motivation for these studies is that they test our understanding of protein energetics and structure. De novo design of novel structures is a particularly rigorous test because the protein backbone must be designed in addition to the amino acid side chains. A priori it is not guaranteed that the target backbone is even designable. To address this issue, researchers have developed a variety of methods for generating protein-like scaffolds and for optimizing the protein backbone in conjunction with the amino acid sequence. These protocols have been used to design proteins from scratch and to explore sequence space for naturally occurring protein folds.

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