GroEL-GroES complex / chaperonin ATPase / mitochondrial unfolded protein response / protein import into mitochondrial intermembrane space / virion assembly / chaperone cofactor-dependent protein refolding / positive regulation of interferon-alpha production / isomerase activity / ATP-dependent protein folding chaperone / response to radiation ...GroEL-GroES complex / chaperonin ATPase / mitochondrial unfolded protein response / protein import into mitochondrial intermembrane space / virion assembly / chaperone cofactor-dependent protein refolding / positive regulation of interferon-alpha production / isomerase activity / ATP-dependent protein folding chaperone / response to radiation / positive regulation of interleukin-6 production / positive regulation of type II interferon production / unfolded protein binding / positive regulation of T cell activation / protein folding / protein-folding chaperone binding / response to heat / protein refolding / magnesium ion binding / ATP hydrolysis activity / ATP binding / identical protein binding / membrane / cytoplasm / cytosol Similarity search - Function
National Institutes of Health/National Institute of General Medical Sciences (NIH/NIGMS)
P41GM103832
United States
Citation
Journal: Proc Natl Acad Sci U S A / Year: 2017 Title: Subunit conformational variation within individual GroEL oligomers resolved by Cryo-EM. Authors: Soung-Hun Roh / Corey F Hryc / Hyun-Hwan Jeong / Xue Fei / Joanita Jakana / George H Lorimer / Wah Chiu / Abstract: Single-particle electron cryo-microscopy (cryo-EM) is an emerging tool for resolving structures of conformationally heterogeneous particles; however, each structure is derived from an average of many ...Single-particle electron cryo-microscopy (cryo-EM) is an emerging tool for resolving structures of conformationally heterogeneous particles; however, each structure is derived from an average of many particles with presumed identical conformations. We used a 3.5-Å cryo-EM reconstruction with imposed D7 symmetry to further analyze structural heterogeneity among chemically identical subunits in each GroEL oligomer. Focused classification of the 14 subunits in each oligomer revealed three dominant classes of subunit conformations. Each class resembled a distinct GroEL crystal structure in the Protein Data Bank. The conformational differences stem from the orientations of the apical domain. We mapped each conformation class to its subunit locations within each GroEL oligomer in our dataset. The spatial distributions of each conformation class differed among oligomers, and most oligomers contained 10-12 subunits of the three dominant conformation classes. Adjacent subunits were found to more likely assume the same conformation class, suggesting correlation among subunits in the oligomer. This study demonstrates the utility of cryo-EM in revealing structure dynamics within a single protein oligomer.
History
Deposition
May 31, 2017
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Header (metadata) release
Aug 9, 2017
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Map release
Aug 9, 2017
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Update
Mar 13, 2024
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Current status
Mar 13, 2024
Processing site: RCSB / Status: Released
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Structure visualization
Movie
Surface view with section colored by density value
Film or detector model: GATAN K2 SUMMIT (4k x 4k) / Average electron dose: 1.0 e/Å2
Electron beam
Acceleration voltage: 300 kV / Electron source: FIELD EMISSION GUN
Electron optics
Illumination mode: FLOOD BEAM / Imaging mode: BRIGHT FIELD
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Image processing
Startup model
Type of model: NONE
Final reconstruction
Applied symmetry - Point group: D7 (2x7 fold dihedral) / Resolution.type: BY AUTHOR / Resolution: 3.5 Å / Resolution method: FSC 0.143 CUT-OFF / Software - Name: RELION (ver. 1.4) / Number images used: 37367
Initial angle assignment
Type: COMMON LINE
Final angle assignment
Type: COMMON LINE
FSC plot (resolution estimation)
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Atomic model buiding 1
Details
Regarding negative occupancies: To assess fit-to-density, we derived cross-correlations at the amino acid level and by means of a map/model FSC. To perform this assessment, we generated a weighted map, derived solely from an atomic model that accounted for both ADP of all atoms and weak/negative density of all charged oxygen atoms, and compared it with the experimental map. The weighted map provides a better approximation of the experimental map by simulating map variability as opposed to treating all atoms equally. The correlations for both the FSC and the per-residue assessment showed improvements when properly weighted, further demonstrating that our model provides a good approximation of the experimental data
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