A new study from the Faculty of Medicine at the Hebrew University of Jerusalem sheds light on how bacterial motion influences ...

Understanding how bacteria form communities on surfaces, including biofilms, has significant implications for both health and ...

A new bacteria-inspired robot uses 12 spinning arms to move around the same way bacteria does and scientists want to make it ...

In the microscopic battlefield of plant-microbe interactions, plants are constantly fighting off invading bacteria. New ...

An underwater drone with long, spinning arms like the flagella of bacteria could survey the seas without endangering marine life, its creators claim ...

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 ...

Luck, D. J. L. Genetic and biochemical dissection of the eukaryotic flagellum. Journal of Cell Biology 98, 989–994 (1984). Marshall, W. F. The cell biological basis of ciliary disease.

While questions remain about how common bacterial nanotubes are and what they do ... injectisomes that transfer virulence proteins, and flagella that power swimming in many microbes. Sruthi S.

1988). In addition to magnetosomes and magnetic nanoparticles, magnetotactic bacteria also have a flagellum, which they use for mobility. Magnetotactic bacteria are prokaryotic microorganisms ...