成对天然半胱氨酸突变图谱：助力构建蛋白质三级结构模型

Paired natural cysteine mutation mapping: aid to constraining models of protein tertiary structure.

作者信息

Kreisberg R, Buchner V, Arad D

机构信息

Department of Molecular Microbiology and Biotechnology, George S. Wise Faculty of Life Sciences, Tel-Aviv University, Ramat Aviv, Israel.

出版信息

Protein Sci. 1995 Nov;4(11):2405-10. doi: 10.1002/pro.5560041119.

DOI:10.1002/pro.5560041119

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2143014/

Abstract

This paper discusses the benefit of mapping paired cysteine mutation patterns as a guide to identifying the positions of protein disulfide bonds. This information can facilitate the computer modeling of protein tertiary structure. First, a simple, paired natural-cysteine-mutation map is presented that identifies the positions of putative disulfide bonds in protein families. The method is based on the observation that if, during the process of evolution, a disulfide-bonded cysteine residue is not conserved, then it is likely that its counterpart will also be mutated. For each target protein, protein databases were searched for the primary amino acid sequences of all known members of distinct protein families. Primary sequence alignment was carried out using PileUp algorithms in the GCG package. To search for correlated mutations, we listed only the positions where cysteine residues were highly conserved and emphasized the mutated residues. In proteins of known three-dimensional structure, a striking pattern of paired cysteine mutations correlated with the positions of known disulfide bridges. For proteins of unknown architecture, the mutation maps showed several positions where disulfide bridging might occur.

摘要

本文讨论了绘制成对半胱氨酸突变模式作为确定蛋白质二硫键位置指南的益处。该信息有助于蛋白质三级结构的计算机建模。首先，提出了一种简单的成对天然半胱氨酸突变图谱，可识别蛋白质家族中假定二硫键的位置。该方法基于这样的观察结果：即在进化过程中，如果形成二硫键的半胱氨酸残基不保守，那么其对应残基也可能发生突变。对于每个目标蛋白质，在蛋白质数据库中搜索不同蛋白质家族所有已知成员的一级氨基酸序列。使用GCG软件包中的PileUp算法进行一级序列比对。为了搜索相关突变，我们只列出半胱氨酸残基高度保守的位置，并突出显示突变残基。在已知三维结构的蛋白质中，成对半胱氨酸突变的显著模式与已知二硫桥的位置相关。对于结构未知的蛋白质，突变图谱显示了几个可能发生二硫键桥接的位置。

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