Go to NeurIPS 2025 Workshop AI4Science homepageFrom Static Structures to Ensembles: Studying and Harnessing Protein Structure Tokenization
Track: Track 1: Original Research/Position/Education/Attention Track
Keywords: Protein structure; structure tokenization; conformation ensemble
Abstract: Protein structure tokenization converts 3D structures into discrete or vectorized representations, enabling the integration of structural and sequence data. Despite many recent works on structure tokenization, the properties of the underlying discrete representations are not well understood. In this work, we first demonstrate that the successful utilization of structural tokens in a language model for structure prediction depends on using rich, pre-trained sequence embeddings to bridge the semantic gap between the sequence and structural "language''. The analysis of the structural vocabulary itself then reveals significant semantic redundancy, where multiple distinct tokens correspond to nearly identical local geometries, acting as "structural synonyms''. This redundancy, rather than being a flaw, can be exploited with a simple ``synonym swap'' strategy to generate diverse conformational ensembles by perturbing a predicted structure with its structural synonyms. This computationally lightweight method accurately recapitulates protein flexibility, performing competitively with state-of-the-art models. Our study provides fundamental insights into the nature of discrete protein structure representations and introduces a powerful, near-instantaneous method for modeling protein dynamics.
Submission Number: 247
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