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4CR4

Deep classification of a large cryo-EM dataset defines the conformational landscape of the 26S proteasome

Replaces:  4C0VReplaces:  4BGR
Summary for 4CR4
Entry DOI10.2210/pdb4cr4/pdb
Related4CR2 4CR3
EMDB information2596
DescriptorPROTEASOME COMPONENT PRE3, PROTEASOME COMPONENT Y13, PROTEASOME COMPONENT PRE6, ... (33 entities in total)
Functional Keywordshydrolase, aaa-atpase, atp-analog, classification
Biological sourceSACCHAROMYCES CEREVISIAE (BAKER'S YEAST)
More
Total number of polymer chains33
Total formula weight1309283.80
Authors
Unverdorben, P.,Beck, F.,Sledz, P.,Schweitzer, A.,Pfeifer, G.,Plitzko, J.M.,Baumeister, W.,Foerster, F. (deposition date: 2014-02-25, release date: 2014-04-02, Last modification date: 2024-05-08)
Primary citationUnverdorben, P.,Beck, F.,Sledz, P.,Schweitzer, A.,Pfeifer, G.,Plitzko, J.M.,Baumeister, W.,Forster, F.
Deep Classification of a Large Cryo-Em Dataset Defines the Conformational Landscape of the 26S Proteasome.
Proc.Natl.Acad.Sci.USA, 111:5544-, 2014
Cited by
PubMed Abstract: The 26S proteasome is a 2.5 MDa molecular machine that executes the degradation of substrates of the ubiquitin-proteasome pathway. The molecular architecture of the 26S proteasome was recently established by cryo-EM approaches. For a detailed understanding of the sequence of events from the initial binding of polyubiquitylated substrates to the translocation into the proteolytic core complex, it is necessary to move beyond static structures and characterize the conformational landscape of the 26S proteasome. To this end we have subjected a large cryo-EM dataset acquired in the presence of ATP and ATP-γS to a deep classification procedure, which deconvolutes coexisting conformational states. Highly variable regions, such as the density assigned to the largest subunit, Rpn1, are now well resolved and rendered interpretable. Our analysis reveals the existence of three major conformations: in addition to the previously described ATP-hydrolyzing (ATPh) and ATP-γS conformations, an intermediate state has been found. Its AAA-ATPase module adopts essentially the same topology that is observed in the ATPh conformation, whereas the lid is more similar to the ATP-γS bound state. Based on the conformational ensemble of the 26S proteasome in solution, we propose a mechanistic model for substrate recognition, commitment, deubiquitylation, and translocation into the core particle.
PubMed: 24706844
DOI: 10.1073/PNAS.1403409111
PDB entries with the same primary citation
Experimental method
ELECTRON MICROSCOPY (8.8 Å)
Structure validation

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