Bacteria are relentlessly evolving resistance to our attacks with antibiotics and phages — but how? If we understood their tricks a little better, we might still have a chance of avoiding the lethal pandemics of antibiotic‑resistant organisms otherwise waiting in the wings. A new paper from researchers at the John Innes Centre[1] has now shed light on at least one way that whole populations of bacteria may be secretly defending themselves from our ministrations.
The team found that the bacterium Caulobacter crescentus has an extraordinary switch mechanism that can cause it to “explode” under certain conditions. When it does, it releases tiny virus‑like particles containing fragments of its own DNA. Pertinent to our quest, gentle reader, is that some of this DNA may include instructions on how to resist antibiotics — or perhaps even the bacteriophages we deploy against them. The researchers also identified the components of this switch, which go by the snappy names LypABC and CdxB. They don’t yet know exactly what flips the switch, but they have their suspicions.
All of this is good news for those of us following the antibiotic‑resistance story. We now have a clearer picture of how at least one type of bacterium spreads resistance among its own members. And if we know what these switches are, we have a fighting chance of intervening to turn them off. If, as the researchers suspect, the presence of a hostile phage is indeed one of the triggers, then this is a very great step forward indeed
[1]A bacterial CARD–NLR-like immune system controls the release of gene transfer agents
Emma J. Banks, Pavol Bárdy, Ngat T. Tran, Phuong M. Nguyen, Boris Stojilković, Kevin Gozzi, Abbas Maqbool & Tung B. K. Le Nature Microbiology (2026)C
[2]John Innes Centre | Excellence in plant science, genetics and microbiology
#antibiotic resistance #bacteria #dna #genes #virus #bacteriophage #health #medicine
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