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 ...

Northwestern Engineering researchers have developed a synthetic system that mimics how bacteria move and self-organize, paving the way for new research. For years, scientists and engineers have ...

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 ...

The ability to move is key for bacteria like some strains of salmonella and E. coli to efficiently spread infections. They can propel themselves forward using threads, known as flagella, powered by ...

Watch a type IV pilus, which powers some bacterial species' movement, in action. Will this year’s Nobel Prizes go to GLP-1 research, optogenetics, or something else? Researchers picked their favorites ...

A new study from the Faculty of Medicine at the Hebrew University of Jerusalem sheds light on how bacterial motion influences the spread of antibiotic resistance. Led by Professor Sigal Ben-Yehuda and ...

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 ...

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 ...