Researchers have created a novel imaging-technology combination that can capture gene activity in individual bacteria in ...

In a nutshell A year-long study of hospital sink drains found 67 different bacterial species living there, many resistant to ...

By combining MERFISH imaging with expansion microscopy, researchers have unlocked a new way to study bacteria at the ...

AIST researchers, in collaboration with JAMSTEC, Hokkaido University and Tohoku University, have succeeded in cultivating an ...

Clothes and fishing nets that are made of nylon often end up in landfill or dumped in oceans, but a new way to break down the ...

A new study, combining powerful genomic-scale microscopy with a technical innovation, captured which genes bacteria turn on ...

Nylon is a common plastic, but it is difficult to recycle. A genetically modified bacterium is supposed to make it possible.

Nanotube bridge networks grow between the most abundant photosynthetic bacteria in the oceans, suggesting that the world is ...

AIST researchers, in collaboration with JAMSTEC, Hokkaido University and Tohoku University, have succeeded in cultivating an ...

Scientists at Caltech and Princeton University have discovered that bacterial cells growing in a solution of polymers, such as mucus, form long cables that buckle and twist on each other ...