Bad bacteria can survive in extremely hostile environments — including inside the highly acidic human stomach — thanks to their ability to sequester toxins into tiny compartments. In a new study, ...

Scientists at Nara Institute of Science and Technology (NAIST) achieved shape-based separation of Escherichia coli (E. coli) bacteria using a viscoelastic fluid inside microfluidic channels. This "lab ...

Scientists have long known that bacteria come in many shapes and sizes, but understanding what those differences mean has remained a major challenge, especially for species that can't be grown in the ...

Scientists have found that a predatory bacterium, capable of invading and consuming harmful bugs such as E.coli and Salmonella, can sculpt its own shape to fit inside its prey. Scientists have shown ...

Bacteria come in all shapes and sizes -- some are straight as a rod, others twist like a corkscrew. Shape plays an important role in how bacteria infiltrate and attack cells in the body. The helical ...

Scientists have long known that bacteria come in many shapes and sizes, but understanding what those differences mean has remained a major challenge, especially for species that can’t be grown in the ...

Blow up a long balloon and two things happen: it gets longer and it gets wider. Now imagine a living cell that inflates itself under enormous pressure and yet only grows longer, never adding width.

Ikoma, Japan – Scientists at Nara Institute of Science and Technology (NAIST) achieved shape-based separation of Escherichia coli (E. coli) bacteria using a viscoelastic fluid inside microfluidic ...

Scientists have long known that bacteria come in many shapes and sizes, but understanding what those differences mean has remained a major challenge, especially for species that can't be grown in the ...