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Image2InChI: Automated Molecular Optical Image Recognition.

Da-Zhou Li1, Xin Xu1, Jia-Heng Pan1

  • 1College of Computer Science and Technology, Shenyang University of Chemical Technology, Shenyang 110000, China.

Journal of Chemical Information and Modeling
|February 15, 2024
PubMed
Summary
This summary is machine-generated.

This study introduces Image2InChI, an AI model that converts molecular images into machine-readable InChI formats with high accuracy. This advancement streamlines drug discovery by automating chemical structure recognition from images.

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Area of Science:

  • Artificial intelligence in drug discovery
  • Computational chemistry
  • Machine learning for chemical informatics

Background:

  • Accurate identification of chemical structures from molecular images is crucial for AI-driven drug discovery.
  • Efficient and automated conversion of molecular images into machine-readable formats is a significant challenge.

Purpose of the Study:

  • To propose an automated deep learning model, Image2InChI, for molecular optical image recognition.
  • To enhance the integration of image patch and InChI prediction through a novel feature fusion network with attention.

Main Methods:

  • Utilized an improved SwinTransformer as an encoder for image feature extraction.
  • Employed a Transformer Decoder with patch embedding for InChI prediction.
  • Implemented a novel feature fusion network with attention to combine image and InChI data.

Main Results:

  • Achieved 99.8% accuracy for InChI prediction (InChI acc).
  • Demonstrated high performance in Morgan fingerprint (94.1%), maximum common structures (94.8%), and longest common subsequence (96.2%) accuracy.
  • Validated the model's effectiveness in improving accuracy and efficiency of molecular image recognition.

Conclusions:

  • The Image2InChI model significantly enhances automated molecular image recognition.
  • Provides a valuable reference for optical chemical structure recognition for InChI generation.
  • Facilitates AI applications in drug discovery through efficient image-to-structure conversion.