Fine-tuning Protein Language Models with Deep Mutational Scanning improves Variant Effect Prediction

Fine-tuning Protein Language Models with Deep Mutational Scanning improves Variant Effect Prediction

Protein Language Models (PLMs) have emerged as performant and scalable tools for predicting the functional impact and clinical significance of protein-coding variants, but they still lag experimental accuracy. Here, we present a novel fine-tuning approach to improve the performance of PLMs with expe...

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Hauptverfasser: Lafita, Aleix, Gonzalez, Ferran, Hossam, Mahmoud, Smyth, Paul, Deasy, Jacob, Allyn-Feuer, Ari, Seaton, Daniel, Young, Stephen
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Learning
Quantitative Biology - Genomics
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Zusammenfassung:Protein Language Models (PLMs) have emerged as performant and scalable tools for predicting the functional impact and clinical significance of protein-coding variants, but they still lag experimental accuracy. Here, we present a novel fine-tuning approach to improve the performance of PLMs with experimental maps of variant effects from Deep Mutational Scanning (DMS) assays using a Normalised Log-odds Ratio (NLR) head. We find consistent improvements in a held-out protein test set, and on independent DMS and clinical variant annotation benchmarks from ProteinGym and ClinVar. These findings demonstrate that DMS is a promising source of sequence diversity and supervised training data for improving the performance of PLMs for variant effect prediction.
DOI:10.48550/arxiv.2405.06729