In the classic “run-and-tumble” movement pattern, bacteria swim forward (“run”) in one direction and then stop to rotate and reorient themselves in a new direction (“tumble”). During experiments where ...

Scientists are studying how bacteria move across surfaces -- a process known as twitching motility. New findings led to the surprising discovery of the key role surface properties play in either ...

In the classic “run-and-tumble” movement pattern, bacteria swim forward (“run”) in one direction and then stop to rotate and reorient themselves in a new direction (“tumble”). During experiments where ...

These motility organs play important roles in DNA uptake to exchange genetic information between different bacteria, allowing what's so-called genomic plasticity. Therefore, bacterial motility organs ...

Bacteria are able to translocate by a variety of mechanisms, independently or in combination, utilizing flagella or filopodia to swim, by amoeboid movement, or by gliding, twitching, or swarming. They ...

Professor On Shun Pak has received a research grant from the National Science Foundation to combine fluid dynamics, microbiology, and robotics to investigate how bacteria swim and navigate complex ...

Investigators analyzed antibodies recovered from humans who survived cholera. Experiments showed that the antibodies block V. cholerae bacteria's motility. Findings from a team led by investigators at ...

A significant increase in agricultural production is needed to meet the demand for food to feed the expected ~10 billion people by 2050. This increased agricultural output will also require ...