Bacteria are single-celled organisms, and while we know they can move around with filaments, the exact mechanisms behind how they do so has been unclear for many years. Researchers have now used ...

The bacterial flagellar motor is finally understood after 50 years. In its workings, columnist Natalie Wolchover finds the ...

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 ...

University of Virginia School of Medicine researchers and their collaborators have solved a decades-old mystery about how E. coli and other bacteria are able to move. Bacteria push themselves forward ...

Researchers used cryo-electron microscopy to reveal the structure of bacteria's 'propellers' in near atomic detail. University of Virginia School of Medicine researchers and their collaborators have ...

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 ...

Scientists have uncovered a new explanation for how swimming bacteria change direction, providing fresh insight into one of biology's most intensively studied molecular machines. Bacteria move through ...

New mechanistic insights into the protein complex that powers the bacterial flagellum may assist antibiotic development. A study led by researchers at the University of Copenhagen (Denmark) used ...

University of Virginia School of Medicine researchers and their collaborators have solved a decades-old mystery about how E. coli and other bacteria are able to move. Bacteria push themselves forward ...