Bacteriophages and PICIs spread bacterial defenses via lateral transduction, shaping microbial immunity and pathogen evolution.

A library of 400 phage protein-coding genes is used to find a trove of antiphage systems, revealing systems that target tail fibre and major capsid proteins.

Bacteria must distinguish phage attack from normal homeostatic processes, yet the danger signals that trigger many defence systems remain unknown. Here, we show that a PUA-Calcineurin-CE-HAD module from Escherichia coli ECOR28 confers broad anti-phage protection by binding Dam-methylated deoxyadenosine monophosphate (m6-dAMP) generated during phage-induced chromosome degradation. Ligand binding converts a preassembled PUA-Calcineurin-CE hexamer loaded with six HAD phosphatases into a polymerising filament. The filament acts as a high-flux dNTP sink through a two-enzyme cascade: HAD first dephosphorylates dATP to dADP, and Calcineurin-CE then converts dADP to dAMP. dNTP collapse halts phage replication and enforces abortive infection. Multiple mobile-element DNA mimic proteins block filament assembly, revealing a direct phage counter-defence. More broadly, our findings extend a conserved, cross-kingdom paradigm of immune filament assembly to nucleotide-depletion antiviral defence and suggest modified-nucleotide sensing by related PUA-Calcineurin-CE modules as a widespread, underappreciated bacterial strategy. ### Competing Interest Statement The authors have declared no competing interest. NIHR Southampton Biomedical Research Centre, https://ror.org/01qqpzg67, Postdoctoral Bridging Fellowship F.L.N. is supported by a Wessex Health Partners (WHP) and National Institute for Health and Care Research Wessex Experimental Medicine Network (NIHR WEMN), Seed fund National Institutes of Health, GM145888, U24 GM129539) Maloris Foundation Memorial Sloan Kettering Cancer Center, P30-CA008748 Simons Foundation, SF349247 New York State Assembly

Nature Microbiology, Published online: 16 January 2026; doi:10.1038/s41564-025-02239-6A library of 400 phage protein-coding genes is used to find a trove of antiphage systems, revealing systems that target tail fibre and major capsid proteins.

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