A family of endonucleases that block nanotube-mediated plasmid dissemination

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Abstract

Small non-conjugative plasmids constitute a substantial portion of the bacterial mobile genome, driving the dissemination of beneficial genes, with their transfer primarily attributed to transformation, transduction, or co-mobilization with conjugative elements 1–3 . Here we explore an understudied plasmid spread route among bacteria, mediated by intercellular membranous nanotube conduits 4 . We reveal that, unlike traditional donor-to-recipient delivery, N anotube-dependent P lasmid ex change (NPex) operates bidirectionally, enabling both plasmid donation and, to a lesser extent, plasmid acquisition. By identifying a Bacillus subtilis natural isolate deficient in NPex, we discovered a prophage-encoded factor, YokF, that blocks plasmid transmission, chiefly acting within the donor cell to inhibit plasmid donation. YokF is a nuclease that localizes to the membrane, where it interacts with a nanotube component to selectively impede plasmid transfer through degradation. Importantly, YokF homologs from various bacterial species were found to exhibit anti-NPex activity. Given their prevalence in Gram-positive bacteria, we propose that YokF homologs represent a conserved family of NPex gatekeepers that restrict plasmid flow within bacterial communities.
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Abstract Small non-conjugative plasmids constitute a substantial portion of the bacterial mobile genome, driving the dissemination of beneficial genes, with their transfer primarily attributed to transformation, transduction, or co-mobilization with conjugative elements1–3. Here we explore an understudied plasmid spread route among bacteria, mediated by intercellular membranous nanotube conduits4. We reveal that, unlike traditional donor-to-recipient delivery, Nanotube-dependent Plasmid exchange (NPex) operates bidirectionally, enabling both plasmid donation and, to a lesser extent, plasmid acquisition. By identifying a Bacillus subtilis natural isolate deficient in NPex, we discovered a prophage-encoded factor, YokF, that blocks plasmid transmission, chiefly acting within the donor cell to inhibit plasmid donation. YokF is a nuclease that localizes to the membrane, where it interacts with a nanotube component to selectively impede plasmid transfer through degradation. Importantly, YokF homologs from various bacterial species were found to exhibit anti-NPex activity. Given their prevalence in Gram-positive bacteria, we propose that YokF homologs represent a conserved family of NPex gatekeepers that restrict plasmid flow within bacterial communities. Competing Interest Statement The authors have declared no competing interest.

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License: CC-BY-NC-ND-4.0