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The promise and the challenges of cryo‐electron tomography
Author(s) -
Turk Martin,
Baumeister Wolfgang
Publication year - 2020
Publication title -
febs letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.593
H-Index - 257
eISSN - 1873-3468
pISSN - 0014-5793
DOI - 10.1002/1873-3468.13948
Subject(s) - cryo electron tomography , supramolecular chemistry , computer science , workflow , nanotechnology , cellular architecture , molecular imaging , electron tomography , computational biology , cognitive science , chemistry , biology , tomography , physics , materials science , molecule , psychology , software , genetics , optics , in vivo , software architecture , programming language , reference architecture , transmission electron microscopy , scanning transmission electron microscopy , database , organic chemistry
Structural biologists have traditionally approached cellular complexity in a reductionist manner in which the cellular molecular components are fractionated and purified before being studied individually. This ‘divide and conquer’ approach has been highly successful. However, awareness has grown in recent years that biological functions can rarely be attributed to individual macromolecules. Most cellular functions arise from their concerted action, and there is thus a need for methods enabling structural studies performed in situ , ideally in unperturbed cellular environments. Cryo‐electron tomography (Cryo‐ET) combines the power of 3D molecular‐level imaging with the best structural preservation that is physically possible to achieve. Thus, it has a unique potential to reveal the supramolecular architecture or ‘molecular sociology’ of cells and to discover the unexpected. Here, we review state‐of‐the‐art Cryo‐ET workflows, provide examples of biological applications, and discuss what is needed to realize the full potential of Cryo‐ET.