Scientists have uncovered a new explanation for how swimming bacteria change direction, providing fresh insight into one of ...

Scientists have uncovered a new explanation for how swimming bacteria change direction, providing fresh insight into one of ...

New studies from Arizona State University reveal surprising ways bacteria can move without their flagella - the slender, whip-like propellers that usually drive them forward. Movement lets bacteria ...

An illustration of a magnifying glass. An illustration of a magnifying glass.

The tail of a bacterial cell, known as a flagellum, allows the cell to propel itself through liquid. The flagellum is made of a hook, a basal body that acts as the motor, and a helical filament that ...

Bacteria is amazing. We've found bacteria we've never seen on the ISS, and even bacteria that can eat forever chemicals. But what do you get when you combine a Raspberry Pi, 12 motorized arms, and ...

An underwater robot can delicately propel itself in any direction with its 12 flexible arms, inspired by the flagella of bacteria. Its creators claim it can carry out underwater inspections without ...

This video presents a study in which, using cryo-electron microscopy, researchers determined the structure and mechanisms of a key component in the flagellar motor, which bacteria use to turn their ...

(Nanowerk News) 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, ...