fRMSDPred: predicting local RMSD between structural fragments using sequence information.

H. Rangwala, G. Karypis
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引用次数: 16

Abstract

The effectiveness of comparative modeling approaches for protein structure prediction can be substantially improved by incorporating predicted structural information in the initial sequence-structure alignment. Motivated by the approaches used to align protein structures, this paper focuses on developing machine learning approaches for estimating the RMSD value of a pair of protein fragments. These estimated fragment-level RMSD values can be used to construct the alignment, assess the quality of an alignment, and identify high-quality alignment segments. We present algorithms to solve this fragment-level RMSD prediction problem using a supervised learning framework based on support vector regression and classification that incorporates protein profiles, predicted secondary structure, effective information encoding schemes, and novel second-order pairwise exponential kernel functions. Our comprehensive empirical study shows superior results compared to the profile-to-profile scoring schemes.
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fRMSDPred:利用序列信息预测结构片段之间的局部RMSD。
通过在初始序列-结构比对中加入预测的结构信息,可以大大提高蛋白质结构预测的比较建模方法的有效性。受用于排列蛋白质结构的方法的启发,本文着重于开发用于估计一对蛋白质片段的RMSD值的机器学习方法。这些估计的片段级RMSD值可用于构建对齐,评估对齐的质量,并识别高质量的对齐片段。我们提出了一种算法来解决这个片段级RMSD预测问题,该算法使用基于支持向量回归和分类的监督学习框架,该框架结合了蛋白质谱、预测的二级结构、有效的信息编码方案和新的二阶成对指数核函数。我们的综合实证研究表明,与配置文件到配置文件的评分方案相比,效果更好。
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