Scientists have uncovered the equipment that enables bacteria to survive exposure to antibiotics: a shuttling mechanism that helps a complex of proteins pump out a wide spectrum of antibiotics along ...

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

Breakthrough study in Nature Materials reveals DNA nanorafts reshape synthetic cells for controlled membrane dynamics and ...

Understanding the behavior of tiny droplets in our cells could aid the search for new treatments. A team of Leiden ...

Scientists uncover how the nucleolus, a tiny structure within cells, may control aging and lifespan, opening new ...

Researchers at the Center for Life Sciences at the Paul Scherrer Institute PSI have for the first time identified structural ...

By analyzing E. coli protein levels, scientists found a surplus of membrane shuttle proteins that may play a role in antibiotic resistance.

New research shows that a network of subcellular structures similar to those responsible for propagating molecular signals that make muscles contract are also responsible for transmitting signals in ...

Researchers at the Center for Life Sciences at the Paul Scherrer Institute PSI have for the first time identified structural changes in the botulinum ...

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 ...

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

Biological motors, which aid microorganism movement in fluids, are composed of two components—the rotor and stators. Despite ...