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| Title | Oligomer disassembly activates an HEPN-containing bacterial defense system. |
|---|---|
| Journal, issue, pages | Mol. Cell, Year 2026 |
| Publish date | Sep 25, 2025 |
Authors | Yiwen Tang / Ting Liu / Chao Xiong / Qiang Chen / Yamei Yu / ![]() |
| PubMed Abstract | The evolutionary arms race between bacteria and phages has driven the diversification of prokaryotic antiviral defense mechanisms, with nucleic acid degradation emerging as a central strategy. Here, ...The evolutionary arms race between bacteria and phages has driven the diversification of prokaryotic antiviral defense mechanisms, with nucleic acid degradation emerging as a central strategy. Here, we investigate a Higher Eukaryotes and Prokaryotes Nucleotide-binding (HEPN) domain-containing defense system from Escherichia coli that mediates RNase-dependent abortive infection. In contrast to canonical immune systems, where oligomerization triggers signaling, this system adopts a dodecameric autoinhibited architecture, with RNase activity unleashed upon oligomer dissociation. This activation mechanism is reminiscent of the dispersal of dandelion seeds, and we therefore term this defense system "Dandelion." We further identify the phage single-stranded DNA-binding (SSB) protein as a trigger for the Dandelion system, and phylogenetic analysis of SSB proteins uncovers the specificity underlying phage resistance. Our findings reveal a counterintuitive paradigm in bacterial immunity-oligomer disassembly as an activation switch, which challenges the long-standing dogma that protein oligomerization activates immune signaling. |
External links | Mol. Cell / PubMed:42349403 |
| Methods | EM (single particle) / X-ray diffraction |
| Resolution | 1.548 - 3.33 Å |
| Structure data | EMDB-66345, PDB-9wxf: ![]() PDB-9wwz: ![]() PDB-9wx2: |
| Chemicals | ![]() ChemComp-HOH: ![]() ChemComp-MG: |
| Source |
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Keywords | IMMUNE SYSTEM / Dandelion / dimer / dodecamer |
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