PLoS ONE (Jan 2016)

Predicting Ligand Binding Sites on Protein Surfaces by 3-Dimensional Probability Density Distributions of Interacting Atoms.

  • Jhih-Wei Jian,
  • Pavadai Elumalai,
  • Thejkiran Pitti,
  • Chih Yuan Wu,
  • Keng-Chang Tsai,
  • Jeng-Yih Chang,
  • Hung-Pin Peng,
  • An-Suei Yang

DOI
https://doi.org/10.1371/journal.pone.0160315
Journal volume & issue
Vol. 11, no. 8
p. e0160315

Abstract

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Predicting ligand binding sites (LBSs) on protein structures, which are obtained either from experimental or computational methods, is a useful first step in functional annotation or structure-based drug design for the protein structures. In this work, the structure-based machine learning algorithm ISMBLab-LIG was developed to predict LBSs on protein surfaces with input attributes derived from the three-dimensional probability density maps of interacting atoms, which were reconstructed on the query protein surfaces and were relatively insensitive to local conformational variations of the tentative ligand binding sites. The prediction accuracy of the ISMBLab-LIG predictors is comparable to that of the best LBS predictors benchmarked on several well-established testing datasets. More importantly, the ISMBLab-LIG algorithm has substantial tolerance to the prediction uncertainties of computationally derived protein structure models. As such, the method is particularly useful for predicting LBSs not only on experimental protein structures without known LBS templates in the database but also on computationally predicted model protein structures with structural uncertainties in the tentative ligand binding sites.