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Transfer learning to leverage larger datasets for improved prediction of protein stability changes

Henry Dieckhaus, Michael Brocidiacono, Nicholas Z. Randolph, Brian Kuhlman

2024Proceedings of the National Academy of Sciences168 citationsDOIOpen Access PDF

Abstract

Amino acid mutations that lower a protein's thermodynamic stability are implicated in numerous diseases, and engineered proteins with enhanced stability can be important in research and medicine. Computational methods for predicting how mutations perturb protein stability are, therefore, of great interest. Despite recent advancements in protein design using deep learning, in silico prediction of stability changes has remained challenging, in part due to a lack of large, high-quality training datasets for model development. Here, we describe ThermoMPNN, a deep neural network trained to predict stability changes for protein point mutations given an initial structure. In doing so, we demonstrate the utility of a recently released megascale stability dataset for training a robust stability model. We also employ transfer learning to leverage a second, larger dataset by using learned features extracted from ProteinMPNN, a deep neural network trained to predict a protein's amino acid sequence given its three-dimensional structure. We show that our method achieves state-of-the-art performance on established benchmark datasets using a lightweight model architecture that allows for rapid, scalable predictions. Finally, we make ThermoMPNN readily available as a tool for stability prediction and design.

Topics & Concepts

Leverage (statistics)Artificial intelligenceStability (learning theory)Computer scienceIn silicoDeep learningMachine learningArtificial neural networkBenchmark (surveying)Protein structure predictionProtein stabilityScalabilityTransfer of learningTraining setProtein structureBiologyCell biologyGeneBiochemistryGeographyGeodesyDatabaseProtein Structure and DynamicsRNA and protein synthesis mechanismsEnzyme Structure and Function
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