Poster Prize Awarded at ISMB 2024
09/03
At this year's Intelligent Systems for Molecular Biology (ISMB) conference, the RCSB PDB Poster Prize award went to Yehlin Cho.
Enhancing Protein Design Robustness through Noise-Informed Sequence Design
Yehlin Cho, Sergey Ovchinnikov, MIT
Recent advancements in protein design involve generating backbone structures first, followed by sequence design. Among these methods, one of the most popular is ProteinMPNN. A key limitation of ProteinMPNN is its inability to account for varying backbone quality at a per-position level, which is often problematic with structures containing both highly certain and relatively low-certainty regions. To address this, we propose introducing (1) a larger amount of Gaussian noise at a per-residue level and (2) labeling the amount of noise added to each residue as a new feature called a ``noise label" to inform the model about backbone uncertainty or resolution. This enhancement improves sequence design success rates, as measured by the TM-score between the desired and predicted structures from the sequence. For partially redesigned scaffolds (i.e., motif scaffolding for enzymes or functional proteins), we introduce noise labels to the redesigned scaffolds while maintaining a fixed noise label of 0 for motif residues. This results in higher success rates for motif scaffolding structures, with reduced motif RMSD and overall structure RMSD. Incorporating residue-level noise label improves the designability of input protein backbones, as measured by correct prediction of the desired structure by AlphaFold2, from single sequence input.
Many thanks to the judges and to ISMB for their continued support.
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