Laboratory for Structural Bioinformatics

Measures of similarity for chemical molecules have been developed since the dawn of chemoinformatics. Molecular similarity has been measured by a variety of methods including molecular descriptor based similarity, common molecular fragments, graph matching and 3D methods such as shape matching. Similarity measures are widespread in practice and have proven to be useful in drug discovery. Because of our interest in electrostatics and high throughput ligand-based virtual screening, we sought to exploit the information contained in atomic coordinates and partial charges of a molecule. We have developed a new molecular descriptor based on partial charges. It uses the autocorrelation function and linear binning to encode all atoms of a molecule into two rotation-translation invariant vectors. Combined with a scoring function, the descriptor allows to rank-order a database of compounds versus a query molecule. The proposed implementation is called ACPC (AutoCorrelation of Partial Charges) and released in open source (publication).
Extensive retrospective ligand-based virtual screening experiments were performed and other methods were compared with in order to validate our method and associated protocol. While it is a simple method, it performed remarkably well in experiments. At an average speed of 1649 molecules per second, it reached an average median area under the curve (AUC) of 0.81 on 40 different targets; hence validating the proposed protocol and implementation. A boxplot of the average AUC achieved by ACPC in comparison with several methods on the DUD dataset is shown below.