MolPAL: Software for Sample Efficient High-Throughput Virtual Screening

Abstract

Structure-based virtual screening (SBVS) of ultra-large chemical libraries has led to the discovery of novel inhibitors for challenging protein targets. However, screening campaigns of these magnitudes are expensive and thus impractical to employ in standard practice. As the broad goal of most SBVS workflows is the identification of the most potent compounds in the library, the task can be viewed as an optimization problem. Previous work has demonstrated the ability for Bayesian optimization to improve sample efficiency in SBVS using the MolPAL software. In this tutorial, we provide a broad algorithmic overview of the MolPAL software and a guide for its utilization in a prospective virtual screening task.

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Cite

Text

Graff and Coley. "MolPAL: Software for Sample Efficient High-Throughput Virtual Screening." NeurIPS 2022 Workshops: AI4Mat, 2022.

Markdown

[Graff and Coley. "MolPAL: Software for Sample Efficient High-Throughput Virtual Screening." NeurIPS 2022 Workshops: AI4Mat, 2022.](https://mlanthology.org/neuripsw/2022/graff2022neuripsw-molpal/)

BibTeX

@inproceedings{graff2022neuripsw-molpal,
  title     = {{MolPAL: Software for Sample Efficient High-Throughput Virtual Screening}},
  author    = {Graff, David E and Coley, Connor W.},
  booktitle = {NeurIPS 2022 Workshops: AI4Mat},
  year      = {2022},
  url       = {https://mlanthology.org/neuripsw/2022/graff2022neuripsw-molpal/}
}