水溶性 α-螺旋桶的计算设计。

Computational design of water-soluble α-helical barrels.

机构信息

School of Chemistry, University of Bristol, Cantock's Close, Bristol, BS8 1TS, UK.

School of Chemistry, University of Bristol, Cantock's Close, Bristol, BS8 1TS, UK. School of Biochemistry, University of Bristol, Medical Sciences Building, University Walk, Bristol, BS8 1TD, UK.

出版信息

Science. 2014 Oct 24;346(6208):485-8. doi: 10.1126/science.1257452.

DOI:10.1126/science.1257452

PMID:25342807

Abstract

The design of protein sequences that fold into prescribed de novo structures is challenging. General solutions to this problem require geometric descriptions of protein folds and methods to fit sequences to these. The α-helical coiled coils present a promising class of protein for this and offer considerable scope for exploring hitherto unseen structures. For α-helical barrels, which have more than four helices and accessible central channels, many of the possible structures remain unobserved. Here, we combine geometrical considerations, knowledge-based scoring, and atomistic modeling to facilitate the design of new channel-containing α-helical barrels. X-ray crystal structures of the resulting designs match predicted in silico models. Furthermore, the observed channels are chemically defined and have diameters related to oligomer state, which present routes to design protein function.

摘要

设计能够折叠成特定从头结构的蛋白质序列具有挑战性。解决此问题的一般方法需要对蛋白质折叠进行几何描述，并找到将序列拟合到这些描述的方法。α-螺旋卷曲螺旋为解决这个问题提供了一个很有前途的蛋白质类别，并为探索迄今为止未见的结构提供了很大的空间。对于具有超过四个螺旋和可及中心通道的α-螺旋桶，许多可能的结构仍然未被观察到。在这里，我们结合几何考虑、基于知识的评分和原子建模来促进新的含通道α-螺旋桶的设计。所得设计的 X 射线晶体结构与预测的计算模型匹配。此外，观察到的通道具有化学定义，并且直径与寡聚状态有关，这为设计蛋白质功能提供了途径。

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水溶性 α-螺旋桶的计算设计。

Computational design of water-soluble α-helical barrels.

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