Mcr-9 Apr 2026

The good news is that scientists are now developing rapid DNA tests (PCR) specifically to look for the presence of the mcr-9 gene, regardless of whether it is active yet. The bad news is that we currently have no new class of antibiotics to replace colistin when it fails.

If you follow infectious disease news, you’ve probably heard of the "nightmare bacteria" or the "panic germ." For years, scientists have been sounding the alarm about a specific gene called mcr-1 . Why? Because it makes bacteria resistant to colistin —the antibiotic we hold in reserve as the "last resort" for multi-drug resistant infections. The good news is that scientists are now

Stay vigilant. Wash your hands. And support antibiotic research. Wash your hands

Colistin works like a sledgehammer: it punches holes in the bacterial cell wall. The mcr-9 gene instructs the bacteria to add a chemical modification to their cell surface. This modification acts like a patch, making the surface less sticky to colistin. The result? The antibiotic bounces off. The scary headlines about mcr-1 were loud and clear. mcr-9, however, has been flying under the radar. Here is why that is dangerous: The gene might be present

But just when we started getting a handle on tracking mcr-1 , evolution threw us a curveball. Meet its stealthier, harder-to-detect cousin: . What is mcr-9? In the simplest terms, mcr-9 is a gene. It belongs to the mobilized colistin resistance (mcr) family. Like other members of this family (mcr-1 through mcr-8), its primary job is to protect bacteria from colistin.

Most resistance genes are loud. If you test a bacteria carrying mcr-1 in a standard lab, it will happily grow in a petri dish laced with colistin. But mcr-9 is often silent in standard tests. The gene might be present, but the bacteria doesn't always "turn it on" until it is under threat. This means a hospital lab could test a bacteria, find it "susceptible" to colistin, and prescribe the drug—only for the bacteria to activate mcr-9 mid-infection and suddenly become resistant.