膜蛋白二级结构预测方法的评估

Evaluation of methods for the prediction of membrane protein secondary structures.

作者信息

Wallace B A, Cascio M, Mielke D L

出版信息

Proc Natl Acad Sci U S A. 1986 Dec;83(24):9423-7. doi: 10.1073/pnas.83.24.9423.

DOI:10.1073/pnas.83.24.9423

PMID:3467313

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC387150/

Abstract

With the advent of molecular cloning methods, the amino acid sequences for a number of membrane proteins have been determined. The relative paucity of detailed three-dimensional structural information available for these molecules has led to attempts to predict the secondary structures of membrane proteins based on folding motifs found in soluble proteins of known three-dimensional structure and sequence. In this study, we evaluated the accuracy of several of these methods in predicting the conformation of 15 integral membrane proteins and membrane-spanning polypeptides for which both primary and secondary structural information are available. chi 2 analyses indicated a less than 0.5% correlation between the net predicted secondary structures and the experimental results. A more stringent test of the accuracy of the methods, the index of prediction, was calculated for individual residues in four of the polypeptides for which the crystal structures were known; this criterion also indicated that the predicted assignments for the secondary structures of the residues were inaccurate. Thus, prediction schemes using soluble protein bases appear to be inappropriate for the prediction of membrane protein folding.

摘要

随着分子克隆方法的出现，许多膜蛋白的氨基酸序列已被确定。由于可用于这些分子的详细三维结构信息相对较少，人们尝试基于在已知三维结构和序列的可溶性蛋白中发现的折叠基序来预测膜蛋白的二级结构。在本研究中，我们评估了其中几种方法在预测15种完整膜蛋白和跨膜多肽构象方面的准确性，这些膜蛋白和跨膜多肽的一级和二级结构信息均已获得。卡方分析表明，预测的二级结构净值与实验结果之间的相关性小于0.5%。对于四种已知晶体结构的多肽中的单个残基，计算了对这些方法准确性的更严格测试——预测指数；该标准也表明，对残基二级结构的预测分配不准确。因此，使用可溶性蛋白基础的预测方案似乎不适用于预测膜蛋白折叠。

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