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Computational Insights into Reproductive Toxicity: Clustering, Mechanism Analysis, and Predictive Models.

Huizi CuiQizheng HeWannan LiYuying DuanWeiwei Han
Published in: International journal of molecular sciences (2024)
Reproductive toxicity poses significant risks to fertility and progeny health, making its identification in pharmaceutical compounds crucial. In this study, we conducted a comprehensive in silico investigation of reproductive toxic molecules, identifying three distinct categories represented by Dimethylhydantoin, Phenol, and Dicyclohexyl phthalate. Our analysis included physicochemical properties, target prediction, and KEGG and GO pathway analyses, revealing diverse and complex mechanisms of toxicity. Given the complexity of these mechanisms, traditional molecule-target research approaches proved insufficient. Support Vector Machines (SVMs) combined with molecular descriptors achieved an accuracy of 0.85 in the test dataset, while our custom deep learning model, integrating molecular SMILES and graphs, achieved an accuracy of 0.88 in the test dataset. These models effectively predicted reproductive toxicity, highlighting the potential of computational methods in pharmaceutical safety evaluation. Our study provides a robust framework for utilizing computational methods to enhance the safety evaluation of potential pharmaceutical compounds.
Keyphrases
  • oxidative stress
  • deep learning
  • healthcare
  • public health
  • social media
  • single cell
  • artificial intelligence
  • molecular docking
  • rna seq
  • health information
  • data analysis