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 ...

Bacteria can effectively travel even without their propeller-like flagella — by “swashing” across moist surfaces using chemical currents, or by gliding along a built-in molecular conveyor belt. New ...

This collaboration, between a bacterial biochemist and a condensed-matter physicist, use light to control the movement and arrangement of cyanobacteria, forming two- and three-dimensional nematic ...

Researchershave discovered that E. coli bacteria can synchronize their movements, creating order in seemingly random biological systems. By trapping individual bacteria in micro-engineered circular ...

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 ...

An audience clapping in rhythm, fireflies flashing in unison, or flocks of starlings moving as one – synchronisation is a natural phenomenon observed across diverse systems and scales. First described ...

An audience clapping in rhythm, fireflies flashing in unison, or flocks of starlings moving as one – synchronisation is a natural phenomenon observed across diverse systems and scales. First described ...