To propel themselves in their living environments towards favourable conditions and away from unfavourable ones, bacteria have developed highly sophisticated machinery called the flagellum.

This means that the vast majority of the components needed to make a flagellum might already have been present in bacteria before this structure appeared. It has also been shown that some of the ...

Nagoya University. (2016, September 7). Elucidating structure of bacterial flagellar motor protein. ScienceDaily. Retrieved June 2, 2025 from www.sciencedaily.com / releases / 2016 / 09 ...

The bacterial flagellar filament is a helical propeller ... Here we report the 2.0 Å resolution crystal structure of a Salmonella flagellin fragment of relative molecular mass 41,300.

The rotor is a large rotating structure, anchored to the cell ... from Nagoya Institute of Technology analyzed the flagellar motor in the bacterial species Vibrio alginolyticus.

The proposed model may have a significant impact on research into bacterial infections: the flagellum shares many similarities to the injectisome, a needle-like structure used by infectious ...

Most bacteria have flagella; they are threadlike appendages extending from ... If the protein is forced in its 'narrower' geometrical structure, it is impossible for the flagella to grow outside the ...

The flagellum shares high similarity with another bacterial structure, the injectisome, which as the name implies is how some bacteria deliver their content to infect a host. A new study by ...

Among these, many bacterial species have tail-like structures ... The rotor is a large rotating structure, anchored to the cell membrane, that turns the flagellum. On the other hand, the stators are ...