2022
DOI: 10.1021/acs.jcim.1c01074
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AI-Driven Synthetic Route Design Incorporated with Retrosynthesis Knowledge

Abstract: Computer-aided synthesis planning (CASP) aims to assist chemists in performing retrosynthetic analysis for which they utilize their experiments, intuition, and knowledge. Recent breakthroughs in machine learning (ML) techniques, including deep neural networks, have significantly improved data-driven synthetic route designs without human intervention. However, learning chemical knowledge by ML for practical synthesis planning has not yet been adequately achieved and remains a challenging problem. In this study,… Show more

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Cited by 29 publications
(19 citation statements)
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References 58 publications
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“…Ishida et al 87 proposed a promising research direction to integrate various portions of retrosynthesis knowledge into multi‐step retrosynthesis planning. On the basis of MCTS architecture proposed by Segler et al, 20 they made two major improvements: (1) replaced the highway network with a more advanced GCN‐based policy network to make better single‐step predictions; (2) defined a series of retrosynthesis scores to evaluate promising search directions, including a convergent disconnection score (CDScore), an available substances score (ASScore), a ring disconnection score (RDScore), and a selective transformation score (STScore).…”
Section: Multi‐step Retrosynthesis Methodsmentioning
confidence: 99%
“…Ishida et al 87 proposed a promising research direction to integrate various portions of retrosynthesis knowledge into multi‐step retrosynthesis planning. On the basis of MCTS architecture proposed by Segler et al, 20 they made two major improvements: (1) replaced the highway network with a more advanced GCN‐based policy network to make better single‐step predictions; (2) defined a series of retrosynthesis scores to evaluate promising search directions, including a convergent disconnection score (CDScore), an available substances score (ASScore), a ring disconnection score (RDScore), and a selective transformation score (STScore).…”
Section: Multi‐step Retrosynthesis Methodsmentioning
confidence: 99%
“…88 Another common strategy is to better estimate the value function for any node without the expensive rollout. Injection of chemical heuristics in selection can be as simple as using a combination of reaction likelihood and complexity assessment score like SCScore , 89 as was done in Schwaller et al 22 Similarly, ReTReK 90 defines four heuristic scores to guide MCTS towards convergent synthesis, ring-forming reactions, and reactants with fewer reaction centers, harkening back to the early days of formalizing retrosynthesis where “x-oriented” (starting material-, stereochemistry-, topology-, etc. ) strategies were proposed.…”
Section: Reaction Deployment Goalsmentioning
confidence: 99%
“…More specifically, by modifying the attention masks, they forced different attention heads in self-attention to pay attention to atom pairs at a different distance, and tried to make the cross-attention mask as close as possible to the atom-mapping mask. The first application of artificial intelligence to multi-step retrosynthesis Expert DFPN-E [74] Balance the number of AND and OR nodes Expert Monte Carlo Tree Search 3N-MCTS [24] Evaluate the pathway quality via double-blind AB tests Neuralsym AutoSyn [42] Combine MCTS with the template-free model Transformer Transformer ReTReK [75] Introduce retrosynthesis knowledge to guide the search direction GCN A* Search Retro* [76] Consider both the informed cost and estimated future value of nodes Neuralsym RetroGraph [77] Represent the search process as a directed graph rather than a search tree Neuralsym Others Self-Improved [78] A end-to-end framework for improve single-step solver Neuralsym Hyper-graph [79] Apply forward model to filter suggestions Transformer SimulatedExp [80] Apply reinforcement learning to find a optimal search policy Neuralsym…”
Section: Template-free Generationmentioning
confidence: 99%
“…Ishida et al [75] proposed a promising research direction to integrate various portions of retrosynthesis knowledge into multi-step retrosynthesis planning. On the basis of MCTS architecture proposed by Segler et al [24], they made two major improvements: 1) replaced the highway network with a more advanced GCN-based policy network to make better single-step predictions; 2) defined a series of retrosynthesis scores to evaluate promising search directions, including a convergent disconnection score (CDScore), an available substances score (ASScore), a ring disconnection score (RDScore), and a selective transformation score (STScore).…”
Section: Monte Carlo Tree Searchmentioning
confidence: 99%