The Gabija complex is a prokaryotic antiviral system consisting of the GajA and GajB proteins. GajA was identified as a DNA nicking endonuclease but the functions of GajB and the complex remain unknown. Here, we show that synergy between GajA-mediated DNA cleavage and nucleotide hydrolysis by GajB initiates efficient abortive infection defense against virulent bacteriophages. The antiviral activity of GajA requires GajB, which senses DNA termini produced by GajA to hydrolyze (d)A/(d)GTP, depleting essential nucleotides. This ATPase activity of Gabija complex is only activated upon DNA binding. GajA binds to GajB to form stable complexes in vivo and in vitro. However, a functional Gabija complex requires a molecular ratio between GajB and GajA below 1:1, indicating stoichiometric regulation of the DNA/nucleotide processing complex. Thus, the Gabija system exhibits distinct and efficient antiviral defense through sequential sensing and activation of nucleotide depletion and DNA cleavage, causing a cascade suicide effect.
Keywords: ATPase; DNA sensing; endonuclease; nucleotide sensing; prokaryotic immune systems.
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