Title
BionoiNet: ligand-binding site classification with off-the-shelf deep neural network
Document Type
Article
Publication Date
5-1-2020
Abstract
MOTIVATION: Fast and accurate classification of ligand-binding sites in proteins with respect to the class of binding molecules is invaluable not only to the automatic functional annotation of large datasets of protein structures but also to projects in protein evolution, protein engineering and drug development. Deep learning techniques, which have already been successfully applied to address challenging problems across various fields, are inherently suitable to classify ligand-binding pockets. Our goal is to demonstrate that off-the-shelf deep learning models can be employed with minimum development effort to recognize nucleotide- and heme-binding sites with a comparable accuracy to highly specialized, voxel-based methods. RESULTS: We developed BionoiNet, a new deep learning-based framework implementing a popular ResNet model for image classification. BionoiNet first transforms the molecular structures of ligand-binding sites to 2D Voronoi diagrams, which are then used as the input to a pretrained convolutional neural network classifier. The ResNet model generalizes well to unseen data achieving the accuracy of 85.6% for nucleotide- and 91.3% for heme-binding pockets. BionoiNet also computes significance scores of pocket atoms, called BionoiScores, to provide meaningful insights into their interactions with ligand molecules. BionoiNet is a lightweight alternative to computationally expensive 3D architectures. AVAILABILITY AND IMPLEMENTATION: BionoiNet is implemented in Python with the source code freely available at: https://github.com/CSBG-LSU/BionoiNet. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.
Publication Source (Journal or Book title)
Bioinformatics (Oxford, England)
First Page
3077
Last Page
3083
Recommended Citation
Shi, W., Lemoine, J. M., Shawky, A. A., Singha, M., Pu, L., Yang, S., Ramanujam, J., & Brylinski, M. (2020). BionoiNet: ligand-binding site classification with off-the-shelf deep neural network. Bioinformatics (Oxford, England), 36 (10), 3077-3083. https://doi.org/10.1093/bioinformatics/btaa094