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Protein multi-level structure feature-integrated deep learning method for mutational effect prediction. | LitMetric

Protein multi-level structure feature-integrated deep learning method for mutational effect prediction.

Biotechnol J

National and Local Joint Engineering Research Center for Biomanufacturing of Chiral Chemicals, Zhejiang University of Technology, Hangzhou, People's Republic of China.

Published: August 2024

AI Article Synopsis

  • MLSmut is a deep learning tool designed to identify optimal mutation sites in proteins to improve their biological functions through a process of mutation and selection.
  • It uses multi-level structural features, including protein co-evolution and geometric traits, to predict the effects of mutations more accurately than existing methods.
  • By employing a two-stage training strategy, MLSmut can learn effectively from both large datasets and specific experimental measurements, potentially reducing the need for extensive lab testing and enhancing our understanding of protein functionality.

Article Abstract

Through iterative rounds of mutation and selection, proteins can be engineered to enhance their desired biological functions. Nevertheless, identifying optimal mutation sites for directed evolution remains challenging due to the vastness of the protein sequence landscape and the epistatic mutational effects across residues. To address this challenge, we introduce MLSmut, a deep learning-based approach that leverages multi-level structural features of proteins. MLSmut extracts salient information from protein co-evolution, sequence semantics, and geometric features to predict the mutational effect. Extensive benchmark evaluations on 10 single-site and two multi-site deep mutation scanning datasets demonstrate that MLSmut surpasses existing methods in predicting mutational outcomes. To overcome the limited training data availability, we employ a two-stage training strategy: initial coarse-tuning on a large corpus of unlabeled protein data followed by fine-tuning on a curated dataset of 40-100 experimental measurements. This approach enables our model to achieve satisfactory performance on downstream protein prediction tasks. Importantly, our model holds the potential to predict the mutational effects of any protein sequence. Collectively, these findings suggest that our approach can substantially reduce the reliance on laborious wet lab experiments and deepen our understanding of the intricate relationships between mutations and protein function.

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Source
http://dx.doi.org/10.1002/biot.202400203DOI Listing

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