The rotor is a large rotating structure, anchored to the cell membrane, that turns the flagellum. On the other hand, the stators are smaller structures that contain “ion pathways,” which can fit ...

The rotor is a large rotating structure, anchored to the cell membrane, that turns the flagellum. On the other hand, the stators are smaller structures that contain "ion pathways," which can fit ...

The rotor is a large rotating structure, anchored to the cell membrane, that turns the flagellum. On the other hand, the stators are smaller structures that contain "ion pathways," which can fit ...

We also characterize the structure and function of membrane proteins, such as those that make up the flagellum ‘motor’ complex that powers bacterial movement. After revealing this complex ...

The rotor is a large rotating structure, anchored to the cell membrane, that turns the flagellum. On the other hand, the stators are smaller structures that contain "ion pathways," which can fit ...

Gard, S., Arkiv för Kemi, 19, A, No. 21 (1944). Weibull, C., and Tiselius, A., Arkiv för Kemi, 20, B, No. 3 (1945).

The flagellar motor has two key components: the rotor and the stators. The rotor, a large rotating structure anchored to the cell membrane, drives flagellum movement. The stators, smaller structures ...

These propellers, called flagella, are hairlike structures made of a material called flagellin. It is flagellin, the researchers found, that is the key to why immune checkpoint therapy does not ...

Helicobacter pylori is a Gram-negative, microaerophilic bacterium that colonizes the gastric mucus overlying the epithelium of the stomach in more than 50% of the world’s population. This ...

Plants are very important living things. They have lots of jobs, such as providing animals with food and releasing oxygen into the air. To survive and carry out these jobs, they all need three ...