Eukaryotic flagella, whip-like organelles that elegantly propel microorganisms and pump fluid, seem to embody simplicity on the microscopic scale. But appearances can be deceptive: Flagella are ...

Professor Takayuki Nishizaka and Dr. Yoshiaki Kinosita from Gakushuin University, together with Dr. Yoshitomo Kikuchi (Senior Researcher) from AIST, have discovered an unforeseen form of ...

In a study published April 25 in Science Advances, researchers describe how components of a bacterial flagellum’s export ring are assembled. The export ring forms at the base of the flagellum and ...

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 ...

Cilia and flagella are evolutionarily conserved, microtubule-based, hair-like organelles that protrude from the cell surface. They are the fundamental units of motion in cellular biology, and also ...

A microscopic speck of green algae can trot like a horse. Or gallop. Biophysicist Kirsty Wan compares the gaits of creatures large and small. Moving diagonally opposite limbs, or flagella in this case ...

Bacteria such as Salmonella are propelled by stiff slender corkscrew-like structures called flagella, which are driven by rotary motors. These helical filaments are built from a single type of ...

Introduction. Campylobacter jejuni is a leading cause of bacterial gastroenteritis worldwide. At present the identity of host-pathogen interactions that promote successful bacterial colonisation ...

Many species of swimming bacteria have a rotary structure called a "flagellum," consisting of more than twenty different kinds of proteins. By rotating their flagellar filaments and gaining propulsion ...