Prediction of contact maps using support vector machines

Ying Zhao, G. Karypis
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引用次数: 57

Abstract

Contact map prediction is of great interest for its application in fold recognition and protein 3D structure determination. In this paper we present a contact-map prediction algorithm that employs Support Vector Machines as the machine learning tool and incorporates various features such as sequence profiles and their conservation, correlated mutation analysis based on various amino acid physicochemical properties, and secondary structure. In addition, we evaluated the effectiveness of the different features on contact map prediction for different fold classes. On average, our predictor achieved a prediction accuracy of 0.2238 with an improvement over a random predictor of a factor 11.7, which is better than reported studies. Our study showed that predicted secondary structure features play an important roles for the proteins containing beta structures. Models based on secondary structure features and CMA features produce different sets of predictions. Our study also suggests that models learned separately for different protein fold families may achieve better performance than a unified model.
使用支持向量机预测接触图
接触图预测在折叠识别和蛋白质三维结构确定中具有重要的应用价值。在本文中,我们提出了一种采用支持向量机作为机器学习工具的接触图预测算法,该算法结合了序列特征及其保守性、基于各种氨基酸理化性质的相关突变分析和二级结构等多种特征。此外,我们还评估了不同特征对不同褶皱类型接触图预测的有效性。平均而言,我们的预测器实现了0.2238的预测精度,比随机预测器提高了11.7个因子,这比报道的研究要好。我们的研究表明,预测的二级结构特征对含有β结构的蛋白质起着重要的作用。基于二级结构特征和CMA特征的模型产生不同的预测集。我们的研究还表明,对不同蛋白质折叠家族分别学习的模型可能比统一的模型获得更好的性能。
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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