Electron microscopy images reveal crucial structures and mechanisms within the molecular machinery that certain bacteria use ...

Biological motors, which aid microorganism movement in fluids, are composed of two components -- the rotor and stators. Despite much research, the exact molecular mechanism underlying stator function ...

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

The CRISPR-Cas gene scissors offer a wide range of potential applications, from the treatment of genetic diseases to ...

A new Beyond the Horizon project seeks to provide the fundamental understanding of solid-state sodium-ion batteries to make ...

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

Collagen, the body’s most abundant protein, has long been viewed as a predictable structural component of tissues. However, a ...

The Cryo-Electron Microscope (cryo-EM) market has witnessed significant advancements in recent years, driven by the increasing demand for high-resolution imaging techniques across various industries.

King’s College London (KCL) is seeking a highly motivated cryo-electron microscopy (cryo-EM) expert to manage its newly established Cryo-EM Structural Discovery Facility. The new high-resolution ...

Viruses, like those that cause COVID-19 or HIV, are formidable opponents once they invade our bodies. Antiviral treatments ...

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