What question did this study set out to answer?

To develop and demonstrate a cryo-correlative microscopy technique for enhanced intracellular imaging and elemental mapping.

February 16, 2026

Cryo-Correlative Light and X-ray Microscopies: Expanding the Intracellular Chemical Map

Key Points

To develop and demonstrate a cryo-correlative microscopy technique for enhanced intracellular imaging and elemental mapping.
Developed an integrated workflow combining cryo-optical fluorescence and synchrotron radiation X-ray fluorescence microscopy.
Achieved elemental mapping and nanoparticle tracking in 2D and 3D visualizations.
Utilized molecular probes containing heavy elements for multiplex imaging of organelles.
Demonstrated simultaneous elemental mapping and imaging of mitochondrial features.
Provided increased contrast of intracellular structures through elemental multiplex painting.
Maximized synchrotron beamtime and accelerated data acquisition by streamlining sample preparation.

Abstract

We introduce a powerful, integrated workflow that fuses cryo-optical fluorescence microscopy with cryogenic synchrotron radiation X-ray fluorescence nanoimaging to achieve nanoscale insights into cellular ultrastructure and composition. Our method delivers sharp 2D and 3D visualizations, enabling simultaneous elemental mapping, nanoparticle tracking, and imaging of mitochondrial features via a luminescent cyclometalated iridium complex. We further demonstrate that combining well-chosen molecular probes possessing different heavy elements (e.g., rhenium, iridium, bromine, and iodine) allows elemental multiplex "painting" of different organelles to provide X-ray fluorescent elemental contrast of some intracellular structures. By eliminating the need for separate sample preparations, this streamlined approach maximizes limited synchrotron beamtime and dramatically accelerates data acquisition, providing a practical reference workflow for advanced cryo-nanoscale imaging studies.

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