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4AB3

ATP-triggered molecular mechanics of the chaperonin GroEL

Summary for 4AB3
Entry DOI10.2210/pdb4ab3/pdb
Related1AON 1DK7 1DKD 1FY9 1FYA 1GR5 1GRL 1GRU 1J4Z 1JON 1KID 1KP8 1KPO 1LA1 1MNF 1OEL 1PCQ 1PF9 1SS8 1SVT 1SX3 1SX4 1XCK 2C7C 2C7D 2C7E 2CGT 2YEY 4AAQ 4AAR 4AAS 4AAU 4AB2
EMDB information2003
Descriptor60 KDA CHAPERONIN, PHOSPHATE ION, MAGNESIUM ION, ... (4 entities in total)
Functional Keywordschaperone
Biological sourceESCHERICHIA COLI
Cellular locationCytoplasm : P0A6F5
Total number of polymer chains14
Total formula weight811638.24
Authors
Clare, D.K.,Vasishtan, D.,Stagg, S.,Quispe, J.,Farr, G.W.,Topf, M.,Horwich, A.L.,Saibil, H.R. (deposition date: 2011-12-06, release date: 2012-12-12, Last modification date: 2024-05-08)
Primary citationClare, D.K.,Vasishtan, D.,Stagg, S.,Quispe, J.,Farr, G.W.,Topf, M.,Horwich, A.L.,Saibil, H.R.
ATP-Triggered Conformational Changes Delineate Substrate-Binding and -Folding Mechanics of the Groel Chaperonin.
Cell(Cambridge,Mass.), 149:113-, 2012
Cited by
PubMed Abstract: The chaperonin GroEL assists the folding of nascent or stress-denatured polypeptides by actions of binding and encapsulation. ATP binding initiates a series of conformational changes triggering the association of the cochaperonin GroES, followed by further large movements that eject the substrate polypeptide from hydrophobic binding sites into a GroES-capped, hydrophilic folding chamber. We used cryo-electron microscopy, statistical analysis, and flexible fitting to resolve a set of distinct GroEL-ATP conformations that can be ordered into a trajectory of domain rotation and elevation. The initial conformations are likely to be the ones that capture polypeptide substrate. Then the binding domains extend radially to separate from each other but maintain their binding surfaces facing the cavity, potentially exerting mechanical force upon kinetically trapped, misfolded substrates. The extended conformation also provides a potential docking site for GroES, to trigger the final, 100° domain rotation constituting the "power stroke" that ejects substrate into the folding chamber.
PubMed: 22445172
DOI: 10.1016/J.CELL.2012.02.047
PDB entries with the same primary citation
Experimental method
ELECTRON MICROSCOPY (8.5 Å)
Structure validation

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