Assembly of phiKZ bacteriophage Inner Body during infection.

The giant myovirus phiKZ is characterised by an Inner Body (IB) structure within its capsid, crucial for orderly DNA packaging. The IB is composed of six phiKZ-specific proteins. Notably, four of these IB proteins are co-injected with DNA into the host cell, where they potentially play a role in attacking the bacterial cell. The dynamics of IB assembling within the phiKZ capsid during infection remain poorly understood. In this study, we used fluorescent microscopy to track the localisation of IB proteins fused to fluorescent proteins within the cell throughout the infection process. Our findings reveal that the proteins Gp97 and Gp162 are incorporated into new virion heads during phage head maturation. In contrast, proteins Gp90, Gp93, and Gp95 are likely integrated into the virion shortly before the DNA packaging.

The Dynamics of Synthesis and Localization of Jumbo Phage RNA Polymerases inside Infected Cells.

A nucleus-like structure composed of phage-encoded proteins and containing replicating viral DNA is formed in Pseudomonas aeruginosa cells infected by jumbo bacteriophage phiKZ. The PhiKZ genes are transcribed independently from host RNA polymerase (RNAP) by two RNAPs encoded by the phage. The virion RNAP (vRNAP) transcribes early viral genes and must be injected into the cell with phage DNA. The non-virion RNAP (nvRNAP) is composed of early gene products and transcribes late viral genes. In this work, the dynamics of phage RNAPs localization during phage phiKZ infection were studied. We provide direct evidence of PhiKZ vRNAP injection in infected cells and show that it is excluded from the phage nucleus. The nvRNAP is synthesized shortly after the onset of infection and localizes in the nucleus. We propose that spatial separation of two phage RNAPs allows coordinated expression of phage genes belonging to different temporal classes.