Washington, Aug 5 (ANI): Certain bacteria, including Staphylococcus aureus, have the ability to deploy tiny darts, a new study has found.
This biological weapon kills the host cell by piercing the membrane.
Researchers at EPFL have dismantled, piece by piece, this intriguing little machine and found an assembly of proteins that, in unfolding at the right time, takes the form of a spur.
This discovery offers new insight into the fight against pathogens that are increasingly resistant to antibiotics.
To attack the host cell, the weapon must first attach.
On the surface of the aggressor is a mechanism composed of seven proteins that are folded over and assembled into a ring.
The researchers were able to show how, in time, these long molecules unfold to form a kind of spur.
The trigger is just another part of the machine - a peptide, or a small organic molecule.
When exposed to the enzymes of the host organism, it detaches.
The balance of the assembly adjusts: the proteins adopt a new form, spreading out in a circular motion to form a spur, which then pierces the membrane of the host cell.
No chemical reaction is involved in these biological weapons. This is a mechanical phenomenon, albeit on the molecular level.
Matteo Dal Peraro, co-author of this study, also uses the term "nanomachine" to refer to this tool of aggression.
The EPFL researchers have worked on strains of Aeromonas hydrophila - a bacterium well-known among travelers for the intestinal disorders it causes.
In Petri dishes the researchers could, at will, cause the formation of these darts, thereby exposing microorganisms to digestive enzymes.
They were able to model precisely how each protein dynamically rearranges, once the peptide is missing, to form the spur.
The study is published in the journal Nature Chemical Biology. (ANI)
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