Structure of the ciliary axoneme at nanometer resolution reconstructed by TYGRESS

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Abstract

The resolution of subtomogram averages calculated from cryo-electron tomograms (cryo-ET) of crowded cellular environments is often limited due to signal loss in, and misalignment of the subtomograms. In contrast, single-particle cryo-electron microcopy (SP-cryo-EM) routinely reaches near-atomic resolution of isolated complexes. We developed a novel hybrid-method called “ T omograph Y - G uided 3D RE construction of S ubcellular S tructures” (TYGRESS) that combines cryo-ET with SP-cryo-EM to achieve close-to-nanometer resolution of complexes inside crowded environments. Using TYGRESS, we determined the native 3D structures of the intact ciliary axoneme with up to 12 Å resolution. These results reveal many structures and details that were not visible by cryo-ET. TYGRESS is generally applicable to cellular complexes that are amenable to subtomogram averaging, bringing us a step closer to (pseudo-)atomic models of cells. One Sentence Summary A hybrid cryo-electron microscopy method reveals subcellular structures at unprecedented resolution.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00