Authors
Koch, J., Bhark, S.-J., Bader, V., Fiil, B. K., Lopez-Mendez, B., Rasthoej, J. B., Priesmann, D., Mejias-Gomez, O., Braghetto, M., Montoya, G., Gyrd-Hansen, M., Winklhofer, K. F., Goletz, S., Damgaard, R. B.
Abstract
Ubiquitin signalling is mediated by structurally distinct polyubiquitin chains that encode discrete cellular functions. Progress in deciphering this ubiquitin code, particularly for the less abundant atypical chain types, has been hindered by limited availability of versatile chain type-specific affinity reagents. Here, we demonstrate that human single-domain antibodies (sdAbs) provide a versatile scaffold for the generation of ubiquitin linkage-specific binders. Using phage display and synthetic human sdAb libraries, we identified 2A6, an sdAb that specifically recognises methionine-1 (M1)-linked ubiquitin chains. To our knowledge, 2A6 represents the first reported sdAb with specificity for a defined homotypic ubiquitin chain linkage. 2A6 bound M1-linked ubiquitin chains with nanomolar affinity and was specific for M1-linked chains at the level of both diubiquitin and long polyubiquitin chains. AlphaFold3 modelling, supported by saturation mutagenesis, predicted that 2A6 recognises the proximal and distal ubiquitin moieties together with the region near the M1 linkage. Functionally, 2A6 enabled specific detection and enrichment of M1-linked ubiquitin across multiple applications, including ELISA, immunoblotting, immunoprecipitation under semi-denaturing conditions, substrate ubiquitination analysis, and immunofluorescence microscopy. The sdAb can be readily produced in E. coli from a single expression plasmid, providing a tractable, cost-effective and versatile reagent for investigating M1-linked ubiquitin signalling. Our work establishes sdAbs as a versatile scaffold for ubiquitin linkage-specific affinity reagents, providing a framework for the development of analogous binders specifically targeting additional ubiquitin linkages or architectures.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 07 Jul 2026.
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