Systematic feature and architecture evaluation reveals tokenized learned embeddings enhance siRNA efficacy prediction
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Abstract
Recent advances in machine learning have improved the prediction of siRNA efficacy, with graph neural networks and transformer-based encodings leading the way. However, existing models still face challenges, including potential inaccuracies in thermodynamic feature calculations (such as incorrect strand selection for siRNA-mRNA Gibbs free energy), limited effective utilization of available datasets, and a lack of systematic model refinement. In this study, I systematically evaluated the predictive power of individual features and neural network architectures to identify the most effective configurations. This process led to the development of RN.Ai-Predict, a model built upon a tokenized learned embedding for nucleotide sequences. This work demonstrates that a methodical approach to feature selection and hyperparameter tuning, particularly favoring learned embeddings, can yield a more accurate and reliable model for predicting siRNA efficacy, outperforming more complex architectures in generalizability.
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- last seen: 2026-05-20T01:45:00.602351+00:00