Litcius/Paper detail

Exploring Chemical Reaction Space with Machine Learning Models: Representation and Feature Perspective

Yuheng Ding, Bo Qiang, Qixuan Chen, Yiqiao Liu, Liangren Zhang, Zhenming Liu

2024Journal of Chemical Information and Modeling25 citationsDOI

Abstract

Chemical reactions serve as foundational building blocks for organic chemistry and drug design. In the era of large AI models, data-driven approaches have emerged to innovate the design of novel reactions, optimize existing ones for higher yields, and discover new pathways for synthesizing chemical structures comprehensively. To effectively address these challenges with machine learning models, it is imperative to derive robust and informative representations or engage in feature engineering using extensive data sets of reactions. This work aims to provide a comprehensive review of established reaction featurization approaches, offering insights into the selection of representations and the design of features for a wide array of tasks. The advantages and limitations of employing SMILES, molecular fingerprints, molecular graphs, and physics-based properties are meticulously elaborated. Solutions to bridge the gap between different representations will also be critically evaluated. Additionally, we introduce a new frontier in chemical reaction pretraining, holding promise as an innovative yet unexplored avenue.

Topics & Concepts

Chemical spaceComputer sciencePerspective (graphical)Representation (politics)Feature (linguistics)Artificial intelligenceBridge (graph theory)Space (punctuation)Data scienceMachine learningBiochemical engineeringDrug discoveryChemistryEngineeringPoliticsMedicinePhilosophyLinguisticsInternal medicineLawBiochemistryPolitical scienceOperating systemMachine Learning in Materials ScienceComputational Drug Discovery MethodsChemical Synthesis and Analysis