OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells
One key task in virtual screening is to accurately predict the binding affinity (△G) of protein-ligand complexes. Recently, deep learning (DL) has significantly increased the predicting accuracy of scoring functions due to the extraordinary ability of DL to extract useful features from raw data. Nev...
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sg-ntu-dr.10356-1540222023-02-28T17:11:05Z OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells Wang, Zechen Zheng, Liangzhen Liu, Yang Qu, Yuanyuan Li, Yong-Qiang Zhao, Mingwen Mu, Yuguang Li, Weifeng School of Biological Sciences Science::Biological sciences Protein-Ligand Binding Deep Learning One key task in virtual screening is to accurately predict the binding affinity (△G) of protein-ligand complexes. Recently, deep learning (DL) has significantly increased the predicting accuracy of scoring functions due to the extraordinary ability of DL to extract useful features from raw data. Nevertheless, more efforts still need to be paid in many aspects, for the aim of increasing prediction accuracy and decreasing computational cost. In this study, we proposed a simple scoring function (called OnionNet-2) based on convolutional neural network to predict △G. The protein-ligand interactions are characterized by the number of contacts between protein residues and ligand atoms in multiple distance shells. Compared to published models, the efficacy of OnionNet-2 is demonstrated to be the best for two widely used datasets CASF-2016 and CASF-2013 benchmarks. The OnionNet-2 model was further verified by non-experimental decoy structures from docking program and the CSAR NRC-HiQ data set (a high-quality data set provided by CSAR), which showed great success. Thus, our study provides a simple but efficient scoring function for predicting protein-ligand binding free energy. Ministry of Education (MOE) Published version This work is supported by the Natural Science Foundation of Shandong Province (ZR2020JQ04), National Natural Science Foundation of China (11874238) and Singapore MOE Tier 1 Grant RG146/17. This work is also supported by the Ministry of Education, Singapore, under its Academic Research Fund Tier 2, MOE-T2EP30120-0007. 2022-05-24T05:23:51Z 2022-05-24T05:23:51Z 2021 Journal Article Wang, Z., Zheng, L., Liu, Y., Qu, Y., Li, Y., Zhao, M., Mu, Y. & Li, W. (2021). OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells. Frontiers in Chemistry, 9, 753002-. https://dx.doi.org/10.3389/fchem.2021.753002 2296-2646 https://hdl.handle.net/10356/154022 10.3389/fchem.2021.753002 34778208 2-s2.0-85118984713 9 753002 en RG146/17 T2EP30120-0007 Frontiers in Chemistry © 2021 Wang, Zheng, Liu, Qu, Li, Zhao, Mu and Li . This is an openaccess article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. application/pdf |
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Science::Biological sciences Protein-Ligand Binding Deep Learning Wang, Zechen Zheng, Liangzhen Liu, Yang Qu, Yuanyuan Li, Yong-Qiang Zhao, Mingwen Mu, Yuguang Li, Weifeng OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells |
| description |
One key task in virtual screening is to accurately predict the binding affinity (△G) of protein-ligand complexes. Recently, deep learning (DL) has significantly increased the predicting accuracy of scoring functions due to the extraordinary ability of DL to extract useful features from raw data. Nevertheless, more efforts still need to be paid in many aspects, for the aim of increasing prediction accuracy and decreasing computational cost. In this study, we proposed a simple scoring function (called OnionNet-2) based on convolutional neural network to predict △G. The protein-ligand interactions are characterized by the number of contacts between protein residues and ligand atoms in multiple distance shells. Compared to published models, the efficacy of OnionNet-2 is demonstrated to be the best for two widely used datasets CASF-2016 and CASF-2013 benchmarks. The OnionNet-2 model was further verified by non-experimental decoy structures from docking program and the CSAR NRC-HiQ data set (a high-quality data set provided by CSAR), which showed great success. Thus, our study provides a simple but efficient scoring function for predicting protein-ligand binding free energy. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Wang, Zechen Zheng, Liangzhen Liu, Yang Qu, Yuanyuan Li, Yong-Qiang Zhao, Mingwen Mu, Yuguang Li, Weifeng |
| format |
Article |
| author |
Wang, Zechen Zheng, Liangzhen Liu, Yang Qu, Yuanyuan Li, Yong-Qiang Zhao, Mingwen Mu, Yuguang Li, Weifeng |
| author_sort |
Wang, Zechen |
| title |
OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells |
| title_short |
OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells |
| title_full |
OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells |
| title_fullStr |
OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells |
| title_full_unstemmed |
OnionNet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells |
| title_sort |
onionnet-2: a convolutional neural network model for predicting protein-ligand binding affinity based on residue-atom contacting shells |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/154022 |
| _version_ |
1759856438236151808 |