Stanford researchers have combined two microscopy techniques to create a one-of-a-kind instrument that can show cell structures interacting in real time at an unprecedented 120-nanometer resolution—the highest achieved without the use of fluorescent labels. This new “label-free” technology, called Interferometric Image Scanning Microscopy, or iISM, will allow scientists to observe cellular structures in their wider context, including their responses to intrusions, such as pathogens or drugs.

The advance is detailed in Light: Science and Applications. “This new microscope provides a fantastic new view into the cell, where you can see the tiny structures and machines in the cell moving, changing, and interacting without having to add fluorescence to observe them,” said senior author W.E. Moerner, the Harry S. Mosher Professor of Chemistry in Stanford’s School of Humanities and Sciences.

“It’s a wonderful look into these complex little cellular boxes that drive our life.”