ABSTRACT
Anti-phage systems of the BREX (BacteRiophage EXclusion) superfamily rely on epigenetic DNA methylation to discriminate between the host and invading DNA, but their mechanism of protection remains enigmatic. We demonstrate that in Type I BREX systems, both defense and methylation are based on site-specific DNA recognition by the BrxX (PglX) methyltransferase and require the S-adenosyl methionine cofactor. We present a 2.2-Å cryoEM structure of Escherichia coli BrxX bound to target dsDNA, which reveals the molecular details of DNA recognition by BREX and paves the way for rational engineering of BREX specificity. We show that BrxX alone does not support methylation, and BREX activity requires an assembly of a supramolecular BrxBCXZ immune complex. Finally, we present a cryoEM structure of BrxX bound to a phage-encoded inhibitor Ocr that sequesters an inactive dimeric form of BrxX. Together, these results allow us to propose a model of BREX-mediated DNA sensing and anti-phage defense.
Competing Interest Statement
The authors have declared no competing interest.