Probing the molecular interactions of viral-host protein complexes to understand pathogenicity is essential in modern virology to help the development of antiviral therapies. Common binding assays, such as co-immunoprecipitation or pull-downs, are helpful in investigating intricate viral-host proteins interactions. However, such assays may miss low-affinity and favour non-specific interactions. We have recently incorporated photoreactive amino acids at defined residues of a viral protein in vivo, by introducing amber stop codons (TAG) and using a suppressor tRNA. This is followed by UV-crosslinking, to identify interacting host proteins in live mammalian cells. The affinity-purified photo-crosslinked viral-host protein complexes are further characterized by mass spectrometry following extremely stringent washes. This combinatorial site-specific incorporation of a photoreactive amino acid and affinity purification-mass spectrometry strategy allows the definition of viral-host protein contacts at single residue resolution and greatly reduces non-specific interactors, to facilitate characterization of viral-host protein interactions. Graphic abstract: Schematic overview of the virus-host interaction assay based on an amber suppression approach. Mammalian cells grown in Bpa-supplemented medium are co-transfected with plasmids encoding viral sequences carrying a Flag tag, a (TAG) stop codon at the desired position, and an amber suppressor tRNA (tRNACUA)/aminoacyl tRNA synthetase (aaRS) orthogonal pair. Cells are then exposed to UV, to generate protein-protein crosslinks, followed by immunoprecipitation with anti-Flag magnetic beads. The affinity-purified crosslinks are probed by western blot using an anti-Flag antibody and the crosslinked host proteins are characterised by mass spectrometry.
Keywords: Amber stop codon; Aminoacyl tRNA synthetase; P-benzoylphenylalanine (Bpa); Photoactivated protein-protein crosslinking; Suppressor tRNA; Unnatural amino acid.
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