When snow blankets the landscape, it may seem like life slows down. But beneath the surface, an entire world of activity is ...

In the weightlessness of space, bacteria acquired mutations in genes involved in the microbe's stress response and nutrient ...

In tight spaces that trap most microbes, one bacterium keeps moving by reconfiguring how it swims, revealing a new biological ...

Scientists found that natural bacteria can eat methane, cut climate pollution, and turn waste gas into useful materials.

In mice, the oral bacteria F. nucleatum can travel to mammary tissue via the bloodstream, where it can damage healthy cells.

Viruses attack nearly every living organism on Earth. To do so, they rely on highly specialized proteins that recognize and ...

Some microbes can squeeze through tight spaces by wrapping themselves in their flagellum—the tail-like structure they use to ...

"Like any good animal, we sense the change of seasons through a hundred subtle clues. Leaves change and shed, becoming crispy ...

A research team from POSTECH and ImmunoBiome in Korea, led by Professor Sin-Hyeog Im, has uncovered a new mechanism showing how butyrate—a short-chain ...

The microbes living in sourdough starters don’t just appear by chance—they’re shaped by what bakers feed them. New research ...

Despite the fact that 68% of the world’s population has trouble digesting lactose, a naturally occurring milk sugar, global ...