Space to play or pause, M to mute, left and right arrows to seek, up and down arrows for volume. Let's start with that motor. You know the eye, another complex body part, has evolved many times in the ...

The bacterial flagellar motor is an intricate, rotary nanomachine that underpins bacterial motility, enabling cells to navigate complex environments. This highly sophisticated system harnesses the ...

To function properly and propel the bacterium, the flagellum requires all of its components to fit together to exacting measurements. In a new study, researchers report the eludication of a mechanism ...

In a work published in Physical Review Letters, a research group led by Prof. YUAN Junhua and Prof. ZHANG Rongjing from the University of Science and Technology of China (USTC) of the Chinese Academy ...

Nagoya University scientists in Japan and colleagues at Yale University in the US have uncovered details of how the bacterial propeller, known as the flagellum, switches between counterclockwise and ...

Most motile bacteria move by the use of flagella. While the flagellar motor components have been identified, it remains unclear how they are assembled and activated. Researchers have now shown, ...

To try and understand how bacteria can move so quickly, scientists have synthesised the sound of a single bacterium swimming. Some bacteria swim using a tiny spinning propeller called a flagellum. Dr ...

When speaking of motors, most people think of those powering vehicles and human machinery. However, biological motors have existed for millions of years in microorganisms. Among these, many bacterial ...

The bacterial flagellar motor contains ∼13 different proteins and provides an ideal system to study functional molecular complexes. It is powered by transmembrane ion flux through a ring of stator ...

Proceedings of the National Academy of Sciences of the United States of America, Vol. 112, No. 32 (August 11, 2015), pp. E4381-E4389 (9 pages) The bacterial flagellar motor (BFM) is responsible for ...

Wyatt Technology Corporation has published a new application note highlighting a study on the complex interactions between proteins and how they modulate the rotational direction of bacteria flagella.