An international collaboration between researchers at the Niels Bohr Institute, University of Copenhagen, Oxford University, and University of Sheffield has revealed that colonies of slow moving ...

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 ...

Microbes like viruses and bacteria have adapted to live virtually everywhere, including inside the gastrointestinal tracts of many animals and humans. But how do these microorganisms propogate their ...

A new case study from researchers at Oxford University has tracked, for the first time, the movement of antibiotic-resistant bacteria from a patient's gut microbiome to their lungs. The research ...

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 ...

An international collaboration between researchers at the Niels Bohr Institute, University of Copenhagen, Oxford University, and University of Sheffield has revealed that colonies of slow moving ...

If bacteria are in an environment that includes obstacles, which is often the case, they can easily become slowed or trapped. When a bacterium hits a roadblock, it can either slide along the surface ...

A research team studied how bacteria swim in complex fluids, providing insight into how the microorganisms move through different environments, such as their natural habitats or inside the human body.

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 ...