An innovative imaging technique developed at Carnegie Mellon University reveals single bacterial cells leaving their biofilm ...

Viruses are natural delivery systems for nucleic acids, but they have several significant drawbacks: They aren’t targeted to any one cell type, for instance, and they can’t be re-dosed—the ...

Time-lapse analyses of millions of antibiotic-stressed Escherichia coli characterize the diverse single-cell dynamics of persister cells that depend on antibiotics, culture conditions, and ...

An innovative imaging technique developed at Carnegie Mellon University reveals, for the first time, single bacterial cells leaving ... areas of biofilms become more fluid-like, enabling localized ...

Researchers uncover why the body may keep reacting to a hidden threat even long after the bacteria are gone. As many as 20 ...

This membraneless compartment, resembling a droplet-like structure inside cells, acts as a temporary control center, regulating when and how bacteria activate their disease-causing genes.

A joint research team from the Institute of Biophysics of the Chinese Academy of Sciences and the Beijing Institute of ...

Now, researchers have developed a building material made of mycelium—the tubular, branching filaments found in most fungi—and bacteria cells. As detailed in a study published last week in the ...

Despite numerous therapeutic research efforts, treatment of BV remains cumbersome and clinicians are currently rather poorly armed to treat BV properly in the long run. Moreover, appraisal of the ...