Bacteria that mutate to resist the strongest known antibiotics. At this blog, it’s in our DNA, if you will pardon the flippant quip. But-get this-what if the bacterium in question starts eating the walls you are trying to contain it in? Sounds fantastic, like the plot of one of those old 1950s B movies. Read this piece called Hospital Superbug eats Medical Plastic from the admirable Nature Briefings
| Pseudomonas aeruginosa — a strain of bacterium that often causes antibiotic-resistant infections in hospitals — can produce an enzyme that can break down medical-grade plastic. Researchers found that the enzyme, dubbed Pap1, can break down a plastic called polycaprolactone that is commonly used in health care because of its biodegradable properties. The ability to break down plastic could explain why these microbes persist in hospital environments, says biomedical scientist and study co-author Ronan McCarthy.Nature | 4 min read Reference: Cell Reports paper |
We’ve put up the Cell Reports posting for you too here[1]in case the clicker above does not get you through
So is this it? The big one? A wave of highly infectious bacteria that not only eats us humans, but gleefully chomps its way through the very defensive systems we use use to contain it? Possibly, yes. But-let’s keep our Alans on, as they used to say in the old Guy Ritchie movies. For there are two good reasons to do so.
First, it’s only eating one type of plastic, so far. There are lots of others which could be deployed for special medical uses which will be less vulnerable.
Secondly, the fact that this plastic is indeed biodegradable, and that something has found a way to do it, offers great hope. Imagine a plastics ecosystem wherein every bottle, every carton, each piece of wrapping is open to attack by this Pap-1 enzyme. Potentially it opens the way to clean beaches, litter- free hedgerows and unblocked rivers and sewers. There is no reason that the genes to make the enzyme could not be spliced into a safer organism than Pseudomonas aeruginosa. It’s an ill wind that blows no one any good, we say.
[1]https://www.cell.com/cell-reports/fulltext/S2211-1247(25)00421-8
#plastics #antibiotics #microbial antibiotic resistance #science #ecology #pollution
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