Multiple structural alignment for distantly related all beta structures using TOPS pattern discovery and simulated annealing.

Protein engineering Pub Date : 2003-12-01 DOI:10.1093/protein/gzg116

A Williams, D R Gilbert, D R Westhead

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引用次数: 9

Abstract

Topsalign is a method that will structurally align diverse protein structures, for example, structural alignment of protein superfolds. All proteins within a superfold share the same fold but often have very low sequence identity and different biological and biochemical functions. There is often significant structural diversity around the common scaffold of secondary structure elements of the fold. Topsalign uses topological descriptions of proteins. A pattern discovery algorithm identifies equivalent secondary structure elements between a set of proteins and these are used to produce an initial multiple structure alignment. Simulated annealing is used to optimize the alignment. The output of Topsalign is a multiple structure-based sequence alignment and a 3D superposition of the structures. This method has been tested on three superfolds: the beta jelly roll, TIM (alpha/beta) barrel and the OB fold. Topsalign outperforms established methods on very diverse structures. Despite the pattern discovery working only on beta strand secondary structure elements, Topsalign is shown to align TIM (alpha/beta) barrel superfamilies, which contain both alpha helices and beta strands.

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利用TOPS模式发现和模拟退火对远亲全β结构进行多重结构比对。

Topsalign是一种将不同蛋白质结构进行结构对齐的方法，例如蛋白质超折叠的结构对齐。一个超折叠中的所有蛋白质共享相同的折叠，但通常具有非常低的序列同一性和不同的生物学和生化功能。在褶皱的二级结构元素的共同支架周围往往存在显著的结构多样性。Topsalign使用蛋白质的拓扑描述。模式发现算法在一组蛋白质之间识别等效的二级结构元素，这些元素用于产生初始的多结构比对。采用模拟退火方法对其进行优化。Topsalign的输出是基于多个结构的序列比对和结构的三维叠加。这种方法已经在三个超级褶皱上进行了测试:果冻卷，TIM (α / β)桶和OB褶皱。Topsalign在非常多样化的结构上优于现有的方法。尽管模式发现只作用于β链二级结构元件，但Topsalign显示出了TIM (α / β)桶超家族的对齐，其中包含α螺旋和β链。

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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Protein engineering

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