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Main Authors: Boom, John D, Greenig, Matthew, Sormanni, Pietro, Liò, Pietro
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2310.07051
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author Boom, John D
Greenig, Matthew
Sormanni, Pietro
Liò, Pietro
author_facet Boom, John D
Greenig, Matthew
Sormanni, Pietro
Liò, Pietro
contents Score-based generative models (SGMs) have proven to be powerful tools for designing new proteins. Designing proteins that bind a pre-specified target is highly relevant to a range of medical and industrial applications. Despite the flurry of new SGMs in the last year, there has been little systematic exploration of the impact of design choices in SGMs for protein design. Here we present LoopGen, a flexible SGM framework for the design of short binding peptide structures. We apply our framework to design antibody binding loop structures conditional on a target epitope and evaluate a variety of modelling choices in SGM-based protein design. We demonstrate that modelling residue orientations in addition to positions improves not only the quality of the output structures but also their diversity. Additionally, we identify variance schedules that result in significant performance improvements and observe patterns that may motivate the development of better schedules for protein design. Finally, we develop three novel tests to evaluate whether the model generates structures that are appropriately conditioned on an epitope, demonstrating that LoopGen's generated structures are dependent on the structure, sequence, and position of the epitope. Our findings will help guide future development and evaluation of generative models for binding proteins.
format Preprint
id arxiv_https___arxiv_org_abs_2310_07051
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Score-Based Generative Models for Designing Binding Peptide Backbones
Boom, John D
Greenig, Matthew
Sormanni, Pietro
Liò, Pietro
Biomolecules
Score-based generative models (SGMs) have proven to be powerful tools for designing new proteins. Designing proteins that bind a pre-specified target is highly relevant to a range of medical and industrial applications. Despite the flurry of new SGMs in the last year, there has been little systematic exploration of the impact of design choices in SGMs for protein design. Here we present LoopGen, a flexible SGM framework for the design of short binding peptide structures. We apply our framework to design antibody binding loop structures conditional on a target epitope and evaluate a variety of modelling choices in SGM-based protein design. We demonstrate that modelling residue orientations in addition to positions improves not only the quality of the output structures but also their diversity. Additionally, we identify variance schedules that result in significant performance improvements and observe patterns that may motivate the development of better schedules for protein design. Finally, we develop three novel tests to evaluate whether the model generates structures that are appropriately conditioned on an epitope, demonstrating that LoopGen's generated structures are dependent on the structure, sequence, and position of the epitope. Our findings will help guide future development and evaluation of generative models for binding proteins.
title Score-Based Generative Models for Designing Binding Peptide Backbones
topic Biomolecules
url https://arxiv.org/abs/2310.07051