A widespread phage-encoded kinase enables evasion of multiple host antiphage defence systems.

DNA degradation (Dnd) is a widespread bacterial antiphage defence system that relies on DNA phosphorothioate (PT) modification for self/non-self discrimination and subsequent degradation of unmodified DNA. Phages employ counterstrategies to evade host immunity, but anti-Dnd immunity has not been characterized. Here we report an immune evasion protein encoded by the Salmonella phage JSS1 that contributes to subverting Dnd and other defence systems. Using quantitative proteomic and phosphoproteomic analyses, we show that the protein JSS1_004 employs N-terminal Ser/Thr/Tyr protein kinase activity to catalyse the multisite phosphorylation of host DndFGH. Notably, JSS1_004 also phosphorylates other bacterial immune systems to varying degrees, including CRISPR‒Cas, QatABCD, SIR2+HerA and DUF4297+HerA. Given that JSS1_004 and its homologues are widespread in phylogenetically diverse phages, we suggest that this strategy constitutes a family of immune evasion proteins that increases the chances of phage proliferation even when a host deploys multiple defence systems.