Researchers have discovered how bacteria break through spaces barely larger than themselves, by wrapping their flagella around their bodies and moving forward. Using a microfluidic device that mimics ...

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 ...

How well bacteria move and sense their environment directly affects their success in surviving and spreading. About half of known bacteria species use a flagella to move — a rotating appendage that ...

Researchers have unseated a previous theory for the mechanism underlying bacterial flagella movement, changing our ...

Biological motors, which aid microorganism movement in fluids, are composed of two components -- the rotor and stators. Despite much research, the exact molecular mechanism underlying stator function ...

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

Scientists mapped the bacterial flagellum in atomic detail, revealing it as a target to disarm infections without killing bacteria or driving antibiotic resistance. (Nanowerk News) The ‘molecular ...

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. Subscribe to our newsletter ...

Recently, a research group led by Prof. WANG Junfeng from the Hefei Institute of Physical Science of the Chinese Academy of Sciences, along with Prof. HE Yongxing's research group from Lanzhou ...

Flagella are composed of over 20 unique proteins and represent a complex set of molecular machinery, working in unison to provide motility to many Gram-negative and positive species of bacteria, as ...