United3D: A Protein Model Quality Assessment Program That Uses Two Consensus Based Methods
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概要
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In protein structure prediction, such as template-based modeling and free modeling (ab initio modeling), the step that assesses the quality of protein models is very important. We have developed a model quality assessment (QA) program United3D that uses an optimized clustering method and a simple Cα atom contact-based potential. United3D automatically estimates the quality scores (Qscore) of predicted protein models that are highly correlated with the actual quality (GDT_TS). The performance of United3D was tested in the ninth Critical Assessment of protein Structure Prediction (CASP9) experiment. In CASP9, United3D showed the lowest average loss of GDT_TS (5.3) among the QA methods participated in CASP9. This result indicates that the performance of United3D to identify the high quality models from the models predicted by CASP9 servers on 116 targets was best among the QA methods that were tested in CASP9. United3D also produced high average Pearson correlation coefficients (0.93) and acceptable Kendall rank correlation coefficients (0.68) between the Qscore and GDT_TS. This performance was competitive with the other top ranked QA methods that were tested in CASP9. These results indicate that United3D is a useful tool for selecting high quality models from many candidate model structures provided by various modeling methods. United3D will improve the accuracy of protein structure prediction.
- 公益社団法人 日本薬学会の論文
著者
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Kanou Kazuhiko
School of Pharmacy, Kitasato University
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Terashi Genki
School of Pharmacy, Kitasato University
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Takeda-Shitaka Mayuko
School of Pharmacy, Kitasato University
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Takeda-shitaka Mayuko
School Of Pharmaceutical Sciences Kitasato University
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Nakamura Yuuki
School Of Integrated Design Engineering Keio University
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Oosawa Makoto
School of Pharmacy, Kitasato University
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Nakamura Yuuki
School of Pharmacy, Kitasato University
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- United3D: A Protein Model Quality Assessment Program That Uses Two Consensus Based Methods