Molecular Medicine Israel

DdmDE eliminates plasmid invasion by DNA-guided DNA targeting

Highlights

Apo DdmD assembles as an autoinhibited dimer for plasmid nicking

DdmE is a DNA-guided, DNA-targeting Argonaute-like protein and prefers short guides

DdmE recruits DdmD dimer to target plasmids by DNA-guided DNA targeting

DdmD transitions from dimer to monomer upon DNA binding for translocation and cleavage

Summary

Horizontal gene transfer is a key driver of bacterial evolution, but it also presents severe risks to bacteria by introducing invasive mobile genetic elements. To counter these threats, bacteria have developed various defense systems, including prokaryotic Argonautes (pAgos) and the DNA defense module DdmDE system. Through biochemical analysis, structural determination, and in vivo plasmid clearance assays, we elucidate the assembly and activation mechanisms of DdmDE, which eliminates small, multicopy plasmids. We demonstrate that DdmE, a pAgo-like protein, acts as a catalytically inactive, DNA-guided, DNA-targeting defense module. In the presence of guide DNA, DdmE targets plasmids and recruits a dimeric DdmD, which contains nuclease and helicase domains. Upon binding to DNA substrates, DdmD transitions from an autoinhibited dimer to an active monomer, which then translocates along and cleaves the plasmids. Together, our findings reveal the intricate mechanisms underlying DdmDE-mediated plasmid clearance, offering fundamental insights into bacterial defense systems against plasmid invasions.

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