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A Systematic Study of Joint Representation Learning on Protein Sequences and Structures

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arxiv 2303.06275 v2 pith:RHXYNWLJ submitted 2023-03-11 q-bio.QM cs.LG

A Systematic Study of Joint Representation Learning on Protein Sequences and Structures

classification q-bio.QM cs.LG
keywords proteinlearningmethodsrepresentationtasksstructuresavailablefunction
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Learning effective protein representations is critical in a variety of tasks in biology such as predicting protein functions. Recent sequence representation learning methods based on Protein Language Models (PLMs) excel in sequence-based tasks, but their direct adaptation to tasks involving protein structures remains a challenge. In contrast, structure-based methods leverage 3D structural information with graph neural networks and geometric pre-training methods show potential in function prediction tasks, but still suffers from the limited number of available structures. To bridge this gap, our study undertakes a comprehensive exploration of joint protein representation learning by integrating a state-of-the-art PLM (ESM-2) with distinct structure encoders (GVP, GearNet, CDConv). We introduce three representation fusion strategies and explore different pre-training techniques. Our method achieves significant improvements over existing sequence- and structure-based methods, setting new state-of-the-art for function annotation. This study underscores several important design choices for fusing protein sequence and structure information. Our implementation is available at https://github.com/DeepGraphLearning/ESM-GearNet.

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Cited by 1 Pith paper

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  1. Enhancing Protein Representation Learning via Manifold Restore Mixing

    cs.LG 2026-06 unverdicted novelty 3.0

    MRM mixes hidden representations of original and DA-augmented proteins and uses a difficulty scheduler on the beta distribution to produce training samples that balance structural fidelity with diversity.