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Hierarchical Classification of Protein Folds Using a Novel Ensemble Classifier

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  • Chen Lin
  • Ying Zou
  • Ji Qin
  • Xiangrong Liu
  • Yi Jiang
  • Caihuan Ke
  • Quan Zou

Abstract

The analysis of biological information from protein sequences is important for the study of cellular functions and interactions, and protein fold recognition plays a key role in the prediction of protein structures. Unfortunately, the prediction of protein fold patterns is challenging due to the existence of compound protein structures. Here, we processed the latest release of the Structural Classification of Proteins (SCOP, version 1.75) database and exploited novel techniques to impressively increase the accuracy of protein fold classification. The techniques proposed in this paper include ensemble classifying and a hierarchical framework, in the first layer of which similar or redundant sequences were deleted in two manners; a set of base classifiers, fused by various selection strategies, divides the input into seven classes; in the second layer of which, an analogous ensemble method is adopted to predict all protein folds. To our knowledge, it is the first time all protein folds can be intelligently detected hierarchically. Compared with prior studies, our experimental results demonstrated the efficiency and effectiveness of our proposed method, which achieved a success rate of 74.21%, which is much higher than results obtained with previous methods (ranging from 45.6% to 70.5%). When applied to the second layer of classification, the prediction accuracy was in the range between 23.13% and 46.05%. This value, which may not be remarkably high, is scientifically admirable and encouraging as compared to the relatively low counts of proteins from most fold recognition programs. The web server Hierarchical Protein Fold Prediction (HPFP) is available at http://datamining.xmu.edu.cn/software/hpfp.

Suggested Citation

  • Chen Lin & Ying Zou & Ji Qin & Xiangrong Liu & Yi Jiang & Caihuan Ke & Quan Zou, 2013. "Hierarchical Classification of Protein Folds Using a Novel Ensemble Classifier," PLOS ONE, Public Library of Science, vol. 8(2), pages 1-11, February.
  • Handle: RePEc:plo:pone00:0056499
    DOI: 10.1371/journal.pone.0056499
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    References listed on IDEAS

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    1. J. A. Hartigan & M. A. Wong, 1979. "A K‐Means Clustering Algorithm," Journal of the Royal Statistical Society Series C, Royal Statistical Society, vol. 28(1), pages 100-108, March.
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    1. Muhammad Naveed Iqbal Qureshi & Beomjun Min & Hang Joon Jo & Boreom Lee, 2016. "Multiclass Classification for the Differential Diagnosis on the ADHD Subtypes Using Recursive Feature Elimination and Hierarchical Extreme Learning Machine: Structural MRI Study," PLOS ONE, Public Library of Science, vol. 11(8), pages 1-20, August.
    2. Yuxin Che & Ying Ju & Ping Xuan & Ren Long & Fei Xing, 2016. "Identification of Multi-Functional Enzyme with Multi-Label Classifier," PLOS ONE, Public Library of Science, vol. 11(4), pages 1-13, April.
    3. Ying Hong Li & Jing Yu Xu & Lin Tao & Xiao Feng Li & Shuang Li & Xian Zeng & Shang Ying Chen & Peng Zhang & Chu Qin & Cheng Zhang & Zhe Chen & Feng Zhu & Yu Zong Chen, 2016. "SVM-Prot 2016: A Web-Server for Machine Learning Prediction of Protein Functional Families from Sequence Irrespective of Similarity," PLOS ONE, Public Library of Science, vol. 11(8), pages 1-14, August.
    4. Qiqige Wuyun & Wei Zheng & Yanping Zhang & Jishou Ruan & Gang Hu, 2016. "Improved Species-Specific Lysine Acetylation Site Prediction Based on a Large Variety of Features Set," PLOS ONE, Public Library of Science, vol. 11(5), pages 1-21, May.

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