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Evaluating and clustering retrosynthesis pathways with learned strategy

Yiming Mo, Yanfei Guan, Pritha Verma, Jiang Guo, Mike E. Fortunato, Zhaohong Lu, Connor W. Coley, Klavs F. Jensen

2020Chemical Science103 citationsDOIOpen Access PDF

Abstract

With recent advances in the computer-aided synthesis planning (CASP) powered by data science and machine learning, modern CASP programs can rapidly identify thousands of potential pathways for a given target molecule. However, the lack of a holistic pathway evaluation mechanism makes it challenging to systematically prioritize strategic pathways except for using some simple heuristics. Herein, we introduce a data-driven approach to evaluate the relative strategic levels of retrosynthesis pathways using a dynamic tree-structured long short-term memory (tree-LSTM) model. We first curated a retrosynthesis pathway database, containing 238k patent-extracted pathways along with ∼55 M artificial pathways generated from an open-source CASP program, ASKCOS. The tree-LSTM model was trained to differentiate patent-extracted and artificial pathways with the same target molecule in order to learn the strategic relationship among single-step reactions within the patent-extracted pathways. The model achieved a top-1 ranking accuracy of 79.1% to recognize patent-extracted pathways. In addition, the trained tree-LSTM model learned to encode pathway-level information into a representative latent vector, which can facilitate clustering similar pathways to help illustrate strategically diverse pathways generated from CASP programs.

Topics & Concepts

Retrosynthetic analysisCASPComputer scienceArtificial intelligenceHeuristicsCluster analysisMachine learningTree (set theory)Ranking (information retrieval)Data miningProtein structure predictionBiologyChemistryMathematical analysisBiochemistryTotal synthesisProtein structureMathematicsOrganic chemistryOperating systemComputational Drug Discovery MethodsMachine Learning in Materials ScienceMicrobial Natural Products and Biosynthesis
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