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PANCS-Binders: a rapid, high-throughput binder discovery platform

Matthew J. Styles, Joshua A. Pixley, Tongyao Wei, Christopher Basile, Shannon S. Lu, Bryan C. Dickinson

2025Nature Methods10 citationsDOIOpen Access PDF

Abstract

Proteins that selectively bind to a target of interest are foundational in research, diagnostics and therapeutics. Current approaches for discovering binders are laborious and time-consuming, taking months or more, and have a high failure rate. Here we establish phage-assisted noncontinuous selection of protein binders (PANCS-Binders), an in vivo selection platform that links the life cycle of M13 phage to target protein binding through proximity-dependent split RNA polymerase biosensors, allowing for comprehensive screening of whether a variant binds a target with high fidelity. We showcase PANCS-Binders by screening multiple protein libraries each against a panel of 95 separate targets, thereby individually assessing more than 1011 protein–protein interaction pairs, in 2 days. These selections yielded large, high-quality datasets and hundreds of novel binders, which can be affinity matured or directly used in mammalian cells to inhibit or degrade targets. We believe that PANCS-Binders accelerates and simplifies the binder discovery process, which will help unlock new creative potential in proteome targeting with engineered binder-based biotechnologies. Phage-assisted noncontinuous selection of protein binders (PANCS-Binders) allows multiple high-diversity protein libraries to each be screened against a panel of dozens of targets for high-throughput protein binder discovery.

Topics & Concepts

ThroughputDrug discoveryHigh-throughput screeningComputational biologyComputer scienceNanotechnologyBiologyMaterials scienceBioinformaticsOperating systemWirelessMonoclonal and Polyclonal Antibodies ResearchBacteriophages and microbial interactionsRNA and protein synthesis mechanisms
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