In winter sports, lugers slide at more than 90 miles per hour, hockey players send the puck zipping across the ice at 100 mph ...

How physically magnifying objects using a key ingredient in diapers has opened an unprecedented view of the microbial world.

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

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

Global leaders have committed to halting and reversing the ongoing degradation of nature within the next few decades. But ...

Researchers have discovered how bacteria break through spaces barely larger than themselves, by wrapping their flagella ...

How can bacteria squeeze through spaces narrower than a human hair is thick? A research team in Japan led by Dr. Daisuke ...

The plant, now known as Eugenia venteri, was identified from specimens collected from the province's lowland forests.

Researchers successfully developed a robotic model that spontaneously generates tunable and accurate run-and-tumble dynamics, ...

Researchers have discovered how bacteria break through spaces barely larger than themselves, by wrapping their flagella around their bodies and moving forward. Using a microfluidic device that mimics ...

Gear-obsessed editors choose every product we review. We may earn commission if you buy from a link. Why Trust Us? Here’s what you’ll learn when you read this story: A new study says that the ...

Scientists have studied a new target for antibiotics in the greatest detail yet – in the fight against antibiotic resistance. The ‘molecular machine’ flagellum is essential for bacteria to cause ...