Engineers at Princeton showed that some types of soil bacteria can influence a plant’s balance of growth and defense. The ...

Scientists at Caltech and Princeton University have discovered that bacterial cells growing in a solution of polymers, such ...

Experiments and modeling reveal the unexpected structure that can be seen in bacteria grown in mucus samples and biofilms.

New nanostructured alumina surfaces offer unprecedented antibacterial resistance, fostering safer cell culture environments ...

Researchers from Tokyo Metropolitan University have created nanostructured alumina surfaces which are strongly antibacterial ...

The experiment involved growing the seedlings on plates with flagellin as well as with 165 different bacterial species isolated from the roots of soil-grown Arabidopsis. 68 of these isolates, or 41%, ...

Researchers conducted a high-throughput growth assay and machine learning to address the genetic and environmental interplay on bacterial growth. The findings indicated that the environmental ...

Researchers at University of Tsukuba conducted a high-throughput growth assay and machine learning to address the genetic and ...

The group of bacteria called Enterobacteriaceae, including Klebsiella pneumoniae, Shigella, E. coli and others, is present at ...

They photographed the shifting patterns of bacteria and showed the Crucible team ... It was exciting to experiment with this kind of natural growth, creating beautiful, unexpected forms, rather than ...

Additional contaminating bacteria will complicate the experiment and possibly confuse ... to allow quick growth and identification. By adding filter paper soaked in a variety of anti-microbial ...

Researchers from Tokyo Metropolitan University have created nanostructured alumina surfaces which are strongly antibacterial but can be used to culture cells. They found that anodic porous alumina ...