Scientists can now see how proteins organize and interact, thanks to the tech­nology that created this image of skin tissue. The technique reveals the structure of proteins and the relationships among them in unprece­dented detail, providing information that’s vital for understanding disease and cell functions. “When you see the proteins, you immediately also see … how they interact in an undisturbed environment,” says Achilleas Frangakis, the biologist who led the research at the European Molecular ­Biology Laboratory in ­Heidelberg, Germany. “At this resolution, the cell is essentially an uncharted terri­tory.”

The research group froze cells to -193 ºC by plunging them into liquid nitrogen, sliced them into 50-nanometer­-thick sections, and illuminated the slices with a beam of electrons. Software refined the resulting electron tomography images into virtual slices that were even thinner–as little as half a nanometer thick. Combinations of such slices enable 3-D viewing, too.

The imaging technique, called cryo-­electron tomography, had previously been used on smaller, simpler cells, such as bacteria. But coupled with the slicing technique, cryosectioning, it can work on almost any cell and is “truly a first,” says Grant Jensen, a biologist at Caltech who specializes in cryo-electron tomography.