Bacterial flagella are essential structures that enable motility in many bacteria, allowing them to navigate their environments effectively. The flagellar motor is a complex nanomachine that ...

Ernest Pharmaceuticals team of scientists has made “exciting,” patient-friendly advances in developing a non-toxic bacterial ...

Their study, published in Microbiological Research, reveals that bacteria can evolve by losing their flagella, the structures responsible for movement. The study was led by Prof. Wang Junfeng from ...

Early on in the research, the scientists discovered that it was the bacterial flagella -- part of the cell that aids in movement -- that enables the bacteria to invade cancer cells. So they ...

Namba Protonic NanoMachine Project studied the structure and function of the bacterial flagellum as a huge molecular system based on the organization and movement of the individual atoms that build it ...

1988). In addition to magnetosomes and magnetic nanoparticles, magnetotactic bacteria also have a flagellum, which they use for mobility. Magnetotactic bacteria are prokaryotic microorganisms ...

The effects Pulendran’s team found appeared to be mediated by Toll-like receptor 5 (TLR5), a molecule that mediates an immune reaction to flagellin, the protein which forms filamentous bacterial ...

Now, they would like to better understand why these enzymes may be advantageous to both bacteria and their plant hosts. One hypothesis is that chopping up the flagella of pathogens prevents them ...

The finding To better understand the role of the sheath, Edward Ruby of the University of Wisconsin–Madison and colleagues colonized squid with mutant bacteria that had either no flagellum or one that ...