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Publication Abstract from PubMed

Prokaryotic organisms have evolved unique strategies to acquire immunity against the constant threat of bacteriophage (phage) and mobile genetic elements. Hna is a broadly distributed anti-phage immune system that confers resistance against diverse phage by eliciting an abortive infection response. Using a combination of biochemistry, cryo-electron microscopy, and single-molecule fluorescence imaging, we reveal that Hna functions as a 3'-5' single-stranded DNA exonuclease that forms an auto-inhibited dimer under physiological ATP concentrations. We observed that Hna autoinhibition can be overcome by incorporation of a phage-encoded single-stranded DNA binding protein (SSB), stimulating unregulated Hna nuclease activity. Furthermore, phage escape mutants encode SSB variants that evade Hna surveillance by adopting higher order stoichiometries with enhanced DNA binding affinity. Our work establishes the molecular basis of Hna-mediated anti-phage activity and provides novel insights into how phage-encoded proteins can directly stimulate a bacterial immune response.

Phage-encoded factor stimulates DNA degradation by the Hna anti-phage defense system.,Hooper MM, Hoover BT, Zhang H, Franco AS, Finkelstein IJ, Taylor DW bioRxiv [Preprint]. 2025 Nov 12:2025.11.12.688083. doi: , 10.1101/2025.11.12.688083. PMID:41292825^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.