Large language models generate functional protein sequences across diverse families.Nature biotechnology, 41(8):1099–1106

Ali Madani, Ben Krause, Eric R Greene, Subu Subramanian, Benjamin P Mohr, James M Holton, Jose Luis Olmos Jr, Caiming Xiong, Zachary Z Sun, Richard Socher, et al · 2023

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ProteinOPD: Towards Effective and Efficient Preference Alignment for Protein Design

cs.LG · 2026-05-11 · unverdicted · novelty 6.0

ProteinOPD uses token-level on-policy distillation from multiple preference-specific teacher models into a shared student to balance competing objectives in protein design, delivering gains on targets without losing designability and an 8x speedup over RL baselines.

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ProteinOPD: Towards Effective and Efficient Preference Alignment for Protein Design cs.LG · 2026-05-11 · unverdicted · none · ref 25
ProteinOPD uses token-level on-policy distillation from multiple preference-specific teacher models into a shared student to balance competing objectives in protein design, delivering gains on targets without losing designability and an 8x speedup over RL baselines.

Large language models generate functional protein sequences across diverse families.Nature biotechnology, 41(8):1099–1106

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