Authors
Harding, M. D., Jackson, M. A., Yap, K., Huda, P., Craik, D. J., Sainsbury, F., Lawrence, N.
Abstract
Protein cages provide useful scaffolds for nanoscale engineering due to their highly ordered structures and in vivo self-assembly. These scaffolds are amendable to late-stage conjugation, enabling expansion in functionality. However, many conjugation techniques either lack site-selectivity, require unnatural amino acid incorporation, or have bulky recognition motifs to facilitate ligation reactions. Here, an asparaginyl endopeptidase (AEP) enzyme with ligase activity is employed for the highly efficient functionalization of virus-like particles (VLPs) from Salmonella Typhimurium bacteriophage P22. The capacity of this enzyme to conjugate peptides and proteins onto assembled P22 VLPs under mild reaction conditions, via a minimal extension to the P22 coat protein C-terminus, is demonstrated. We extend the reaction efficiency to facilitate a one-pot dual-functionalization reaction whereby two therapeutically relevant receptor targeting domains are conjugated to P22 VLPs in a single step. Finally, we demonstrate the potential for AEP-mediated bioconjugation to bestow P22 VLPs with receptor-binding functionality in vitro. This work demonstrates the efficacy of AEP ligases as bioconjugation tools for site-selective functionalization of large molecular assemblies like VLPs.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 04 Jul 2026.
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