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Molecular Generation with Reduced Labeling through Constraint Architecture.

Jike WangYundian ZengHuiyong SunJunmei WangXiaorui WangRuofan JinMingyang WangXujun ZhangDong-Sheng CaoXi ChenChang-Yu HsiehTing-Jun Hou
Published in: Journal of chemical information and modeling (2023)
In the past few years, a number of machine learning (ML)-based molecular generative models have been proposed for generating molecules with desirable properties, but they all require a large amount of label data of pharmacological and physicochemical properties. However, experimental determination of these labels, especially bioactivity labels, is very expensive. In this study, we analyze the dependence of various multi-property molecule generation models on biological activity label data and propose Frag-G/M, a fragment-based multi-constraint molecular generation framework based on conditional transformer, recurrent neural networks (RNNs), and reinforcement learning (RL). The experimental results illustrate that, using the same number of labels, Frag-G/M can generate more desired molecules than the baselines (several times more than the baselines). Moreover, compared with the known active compounds, the molecules generated by Frag-G/M exhibit higher scaffold diversity than those generated by the baselines, thus making it more promising to be used in real-world drug discovery scenarios.
Keyphrases
  • drug discovery
  • machine learning
  • neural network
  • big data
  • electronic health record
  • climate change
  • single molecule