A phage nucleus-associated protein from the jumbophage Churi inhibits bacterial growth through protein translation interference.

Antibacterial proteins inhibiting Pseudomonas aeruginosa have been identified in various phages and explored as antibiotic alternatives. Here, we isolated a phiKZ-like phage, Churi, which encodes 364 open reading frames. We examined 15 early-expressed phage proteins for their ability to inhibit bacterial growth, and found that gp335, closely related to phiKZ-gp14, exhibits antibacterial activity. Similar to phiKZ-gp14, recently shown to form a complex with the P. aeruginosa ribosome, we predict experimentally that gp335 interacts with ribosomal proteins, suggesting its involvement in protein translation. GFP-tagged gp335 clusters around the phage nucleus as early as 15 minutes post-infection and remains associated with it throughout the infection, suggesting its role in protein expression in the cell cytoplasm. CRISPR-Cas13-mediated deletion of gp355 reveals that the mutant phage has a prolonged latent period. Altogether, we demonstrate that gp335 is an antibacterial protein of nucleus-forming phages that associates with the ribosomes at the phage nucleus.