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Uncertainty-Aware Learning of Multiple Conditions as a Framework for Streamlined Retention Time Prediction to

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We developed MC-Retention, a novel AI model that predicts liquid chromatography retention times across various conditions. This accelerates method development by reducing screening time and resources for analytical chemists.

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Area of Science:

  • Analytical Chemistry
  • Computational Chemistry
  • Artificial Intelligence in Science

Background:

  • Liquid chromatography (LC) is essential for analyzing complex mixtures.
  • Method screening and development in LC are time-consuming and resource-intensive.
  • Accurate prediction of retention times is crucial for efficient LC method optimization.

Purpose of the Study:

  • To introduce an uncertainty-aware graph-based neural network for predicting LC retention times.
  • To accelerate the process of LC method screening and development.
  • To reduce the time and resources required for optimizing LC separation conditions.

Main Methods:

  • Developed MC-Retention, a multiple condition retention time model using graph-based neural networks.
  • Incorporated explicit column and buffer descriptors into the model.
  • Trained the model on a new dataset of 480 analytes screened under eight LC conditions.

Main Results:

  • Achieved an aggregate R² of 0.86 and a mean absolute error (MAE) of 15.5 s during cross-validation.
  • Demonstrated a 50% error reduction (R²=0.95, MAE=8.2 s) for analytes selectively trained on a single column chemistry.
  • Successfully identified optimal conditions for separating amide bond-forming reaction components.

Conclusions:

  • MC-Retention significantly reduces time and resources for LC method screening and development.
  • The model provides calibrated uncertainty estimates for retention time predictions.
  • MC-Retention offers a powerful tool for accelerating analytical method optimization in chromatography.