Structure and rational engineering of the PglX methyltransferase and specificity factor for BREX phage defence

Bacteria have evolved a broad range of systems that provide defence against their viral predators, bacteriophages. Bacteriophage Exclusion (BREX) systems recognize and methylate 6 bp non-palindromic motifs within the host genome, and prevent replication of non-methylated phage DNA that encodes these same motifs. How BREX recognizes cognate motifs has not been fully understood. We have characterised BREX from pathogenic Salmonella and generated the first X-ray crystallographic structures of the conserved BREX protein, PglX. The PglX N-terminal domain encodes the methyltransferase, whereas the C-terminal domain is for motif recognition. We also present the structure of PglX bound to the phage-derived DNA mimic, Ocr, an inhibitor of BREX activity. Our analyses propose modes for DNA-binding by PglX and indicate that larger BREX complexes are required for methyltransferase activity and defence. Through rational engineering of PglX, we broadened both the range of phages targeted, and the host motif sequences that are methylated by BREX. Our data demonstrate that PglX is the sole specificity factor for BREX activity, providing motif recognition for both phage defence and host methylation.