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Literature DB >> 12391313

Identification of macromolecular complexes in cryoelectron tomograms of phantom cells.

Achilleas S Frangakis¹, Jochen Böhm, Friedrich Förster, Stephan Nickell, Daniela Nicastro, Dieter Typke, Reiner Hegerl, Wolfgang Baumeister.

Abstract

Electron tomograms of intact frozen-hydrated cells are essentially three-dimensional images of the entire proteome of the cell, and they depict the whole network of macromolecular interactions. However, this information is not easily accessible because of the poor signal-to-noise ratio of the tomograms and the crowded nature of the cytoplasm. Here, we describe a template matching algorithm that is capable of detecting and identifying macromolecules in tomographic volumes in a fully automated manner. The algorithm is based on nonlinear cross correlation and incorporates elements of multivariate statistical analysis. Phantom cells, i.e., lipid vesicles filled with macromolecules, provide a realistic experimental scenario for an assessment of the fidelity of this approach. At the current resolution of approximately 4 nm, macromolecules in the size range of 0.5-1 MDa can be identified with good fidelity.

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Year: 2002 PMID： 12391313 PMCID： PMC137853 DOI： 10.1073/pnas.172520299

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

13 in total

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2. Toward detecting and identifying macromolecules in a cellular context: template matching applied to electron tomograms.

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Review 3. Macromolecular crowding: obvious but underappreciated.

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7. Perspectives of molecular and cellular electron tomography.

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9. ATPase cycle of an archaeal chaperonin.

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10. Crystal structure of the 20S proteasome from the archaeon T. acidophilum at 3.4 A resolution.

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65 in total

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3. Evidence for short-range helical order in the 30-nm chromatin fibers of erythrocyte nuclei.

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5. A voyage to the inner space of cells.

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Review 6. Organization of interphase chromatin.

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7. Single particle cryoelectron tomography characterization of the structure and structural variability of poliovirus-receptor-membrane complex at 30 A resolution.

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