How do bacteria - harmless ones living in our bodies, or those that cause disease - organize their activities? A new study, combining powerful genomic-scale microscopy with a technical innovation, ...

A team led by UT Southwestern Medical Center researchers has identified a key mechanism responsible for endosomal recycling ...

A novel microscopy method has been created by researchers from the Tanenbaum group at the Hubrecht Institute to view the ...

Scanning transmission electron microscopy experiments have uncovered the structural changes a ruthenium catalyst undergoes ...

A new imaging technique reveals ribosomes work together when translating mRNA, preventing slowdowns in protein production. This discovery challenges prior beliefs and could revolutionize our ...

Light and electron microscopy have distinct limitations. Light microscopy makes it difficult to resolve smaller and smaller ...

Scientists have unlocked the secret world of dark excitons — tiny energy carriers crucial for the future of solar power and ...

A recent project conducted by in-house researchers at the UK’s national synchrotron facility on its Hard X-ray Nanoprobe beamline, looked at how microplastics waste may interact with zinc oxide ...

Understanding how tumors change their metabolism to resist treatments is a growing focus in cancer research. As cancer cells adapt to therapies, their ...

Current optical and electron microscopy imaging techniques are not suited for measuring the dynamic characteristics of living microorganisms at tiny scales due to complex sample preparation methods or ...

A research team has recently developed a novel algorithm in quantum physics known as 'entanglement microscopy' that enables visualization and mapping of this extraordinary phenomenon at a microscopic ...

Low-density lipoproteins (LDL)—commonly known as bad cholesterol—have long been on scientists' radar as a major contributor ...