When speaking of motors, most people think of those powering vehicles and human machinery. However, biological motors have ...

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

"We've discovered that when many bacteria grow in fluids containing spaghetti-like molecules called polymers, such as mucus in the lungs, they form cable-like structures that intertwine like ...

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

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

Researchers use cryo-electron microscopy to reveal how sodium ions power bacterial flagellar motors, providing insights for ...

A Cornell University-led collaboration has uncovered the equipment that enables bacteria to survive exposure to antibiotics: a shuttling mechanism that helps a complex of proteins pump out a wide ...

Protein complex in bacterial cell membrane acts like a rotary motor to recruit DNA-degrading enzymes to defend against phage ...

Experiments and modeling reveal the unexpected structure that can be seen in bacteria grown in mucus samples and biofilms. Scientists at Caltech and Princeton University have discovered that ...