Introduction

Protein quality assessment (QA) useful for ranking and selecting protein models has long been viewed as one of the major challenges for protein tertiary structure prediction. Especially, estimating the quality of a single protein model, which is important for selecting a few good models out of a large model pool consisting of mostly low-quality models, is still a largely unsolved problem.We introduce a novel single-model quality assessment method DeepQA based on deep belief network that utilizes a number of selected features describing the quality of a model from different perspectives, such as energy, physio-chemical characteristics, and structural information. The deep belief network is trained on several large datasets consisting of models from the Critical Assessment of Protein Structure Prediction (CASP) experiments, several publicly available datasets, and models generated by our in-house ab initio method. Our experiments demonstrate that deep belief network has better performance compared to Support Vector Machines and Neural Networks on the protein model quality assessment problem, and our method DeepQA achieves the state-of-the-art performance on CASP11 dataset. It also outperformed two well-established methods in selecting good outlier models from a large set of models of mostly low quality generated by ab initio modeling methods.DeepQA is a useful deep learning tool for protein single model quality assessment and protein structure prediction. The source code, executable, document and training/test datasets of DeepQA for Linux is freely available to non-commercial users at http://cactus.rnet.missouri.edu/DeepQA/ .

Publications

  1. DeepQA: improving the estimation of single protein model quality with deep belief networks.
    Cite this
    Cao R, Bhattacharya D, Hou J, Cheng J, 2016-12-01 - BMC bioinformatics

Credits

  1. Renzhi Cao
    Developer

    Department of Computer Science, Pacific Lutheran University, United States of America

  2. Debswapna Bhattacharya
    Developer

    Department of Electrical Engineering and Computer Science, Wichita State University, United States of America

  3. Jie Hou
    Developer

    Department of Computer Science, University of Missouri, United States of America

  4. Jianlin Cheng
    Investigator

    Informatics Institute, University of Missouri

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Summary
AccessionBT006550
Tool TypeApplication
Category
PlatformsLinux/Unix
TechnologiesPerl
User InterfaceTerminal Command Line
Download Count0
Submitted ByJianlin Cheng