Sparse Representation for Prediction of HIV-1 Protease Drug Resistance.

Xiaxia Yu, Irene T Weber, Robert W Harrison
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引用次数: 16

Abstract

HIV rapidly evolves drug resistance in response to antiviral drugs used in AIDS therapy. Estimating the specific resistance of a given strain of HIV to individual drugs from sequence data has important benefits for both the therapy of individual patients and the development of novel drugs. We have developed an accurate classification method based on the sparse representation theory, and demonstrate that this method is highly effective with HIV-1 protease. The protease structure is represented using our newly proposed encoding method based on Delaunay triangulation, and combined with the mutated amino acid sequences of known drug-resistant strains to train a machine-learning algorithm both for classification and regression of drug-resistant mutations. An overall cross-validated classification accuracy of 97% is obtained when trained on a publically available data base of approximately 1.5×104 known sequences (Stanford HIV database http://hivdb.stanford.edu/cgi-bin/GenoPhenoDS.cgi). Resistance to four FDA approved drugs is computed and comparisons with other algorithms demonstrate that our method shows significant improvements in classification accuracy.

预测HIV-1蛋白酶耐药性的稀疏表示。
艾滋病毒对艾滋病治疗中使用的抗病毒药物迅速产生耐药性。从序列数据中估计特定HIV毒株对单个药物的特异性耐药性对个体患者的治疗和新药的开发都有重要的好处。我们开发了一种基于稀疏表示理论的精确分类方法,并证明该方法对HIV-1蛋白酶非常有效。采用基于Delaunay三角划分的编码方法表示蛋白酶结构,并结合已知耐药菌株的突变氨基酸序列训练机器学习算法,用于耐药突变的分类和回归。当在大约1.5×104已知序列的公开数据库(斯坦福HIV数据库http://hivdb.stanford.edu/cgi-bin/GenoPhenoDS.cgi)上进行训练时,总体交叉验证的分类准确率为97%。对FDA批准的四种药物的耐药性进行了计算,并与其他算法进行了比较,表明我们的方法在分类准确性方面有显着提高。
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