+Open data
-Basic information
Entry | Database: PDB / ID: 7y4w | |||||||||
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Title | The cryo-EM structure of human ERAD retro-translocation complex | |||||||||
Components |
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Keywords | MEMBRANE PROTEIN / ERAD | |||||||||
Function / homology | Function and homology information Derlin-1-VIMP complex / endoplasmic reticulum quality control compartment / signal recognition particle binding / positive regulation of Lys63-specific deubiquitinase activity / flavin adenine dinucleotide catabolic process / positive regulation of oxidative phosphorylation / VCP-NSFL1C complex / endosome to lysosome transport via multivesicular body sorting pathway / endoplasmic reticulum stress-induced pre-emptive quality control / cellular response to arsenite ion ...Derlin-1-VIMP complex / endoplasmic reticulum quality control compartment / signal recognition particle binding / positive regulation of Lys63-specific deubiquitinase activity / flavin adenine dinucleotide catabolic process / positive regulation of oxidative phosphorylation / VCP-NSFL1C complex / endosome to lysosome transport via multivesicular body sorting pathway / endoplasmic reticulum stress-induced pre-emptive quality control / cellular response to arsenite ion / Derlin-1 retrotranslocation complex / BAT3 complex binding / protein-DNA covalent cross-linking repair / positive regulation of protein K63-linked deubiquitination / deubiquitinase activator activity / mitotic spindle disassembly / aggresome assembly / VCP-NPL4-UFD1 AAA ATPase complex / regulation of protein localization to chromatin / ubiquitin-modified protein reader activity / vesicle-fusing ATPase / NADH metabolic process / cellular response to misfolded protein / stress granule disassembly / positive regulation of mitochondrial membrane potential / negative regulation of protein localization to chromatin / K48-linked polyubiquitin modification-dependent protein binding / retrograde protein transport, ER to cytosol / regulation of aerobic respiration / positive regulation of ATP biosynthetic process / regulation of synapse organization / ATPase complex / ubiquitin-specific protease binding / ubiquitin-like protein ligase binding / MHC class I protein binding / autophagosome maturation / RHOH GTPase cycle / response to unfolded protein / polyubiquitin modification-dependent protein binding / HSF1 activation / proteasomal protein catabolic process / endoplasmic reticulum to Golgi vesicle-mediated transport / translesion synthesis / Protein methylation / interstrand cross-link repair / ERAD pathway / ATP metabolic process / negative regulation of smoothened signaling pathway / endoplasmic reticulum unfolded protein response / Attachment and Entry / proteasome complex / viral genome replication / lipid droplet / Josephin domain DUBs / N-glycan trimming in the ER and Calnexin/Calreticulin cycle / positive regulation of protein ubiquitination / macroautophagy / Hh mutants are degraded by ERAD / Hedgehog ligand biogenesis / Defective CFTR causes cystic fibrosis / Translesion Synthesis by POLH / protein destabilization / positive regulation of protein-containing complex assembly / establishment of protein localization / positive regulation of non-canonical NF-kappaB signal transduction / ABC-family proteins mediated transport / activation of cysteine-type endopeptidase activity involved in apoptotic process / ADP binding / autophagy / Aggrephagy / cytoplasmic stress granule / positive regulation of canonical Wnt signaling pathway / positive regulation of protein catabolic process / azurophil granule lumen / KEAP1-NFE2L2 pathway / double-strand break repair / Ovarian tumor domain proteases / positive regulation of proteasomal ubiquitin-dependent protein catabolic process / late endosome / E3 ubiquitin ligases ubiquitinate target proteins / ATPase binding / signaling receptor activity / Neddylation / site of double-strand break / cellular response to heat / protein phosphatase binding / ubiquitin-dependent protein catabolic process / protease binding / proteasome-mediated ubiquitin-dependent protein catabolic process / secretory granule lumen / regulation of apoptotic process / ficolin-1-rich granule lumen / Attachment and Entry / early endosome / protein ubiquitination / protein domain specific binding / intracellular membrane-bounded organelle / DNA repair / DNA damage response / ubiquitin protein ligase binding Similarity search - Function | |||||||||
Biological species | Homo sapiens (human) | |||||||||
Method | ELECTRON MICROSCOPY / single particle reconstruction / cryo EM / Resolution: 3.67 Å | |||||||||
Authors | Cao, Y. / Rao, B. / Wang, Q. / Yao, D. / Xia, Y. / Li, W. / Li, S. / Shen, Y. | |||||||||
Funding support | China, 2items
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Citation | Journal: Sci Adv / Year: 2023 Title: The cryo-EM structure of the human ERAD retrotranslocation complex. Authors: Bing Rao / Qian Wang / Deqiang Yao / Ying Xia / Wenguo Li / Yuming Xie / Shaobai Li / Mi Cao / Yafeng Shen / An Qin / Jie Zhao / Yu Cao / Abstract: Endoplasmic reticulum-associated degradation (ERAD) maintains protein homeostasis by retrieving misfolded proteins from the endoplasmic reticulum (ER) lumen into the cytosol for degradation. The ...Endoplasmic reticulum-associated degradation (ERAD) maintains protein homeostasis by retrieving misfolded proteins from the endoplasmic reticulum (ER) lumen into the cytosol for degradation. The retrotranslocation of misfolded proteins across the ER membrane is an energy-consuming process, with the detailed transportation mechanism still needing clarification. We determined the cryo-EM structures of the hetero-decameric complex formed by the Derlin-1 tetramer and the p97 hexamer. It showed an intriguing asymmetric complex and a putative coordinated squeezing movement in Derlin-1 and p97 parts. With the conformational changes of p97 induced by its ATP hydrolysis activities, the Derlin-1 channel could be torn into a "U" shape with a large opening to the lipidic environment, thereby forming an entry for the substrates in the ER membrane. The EM analysis showed that p97 formed a functional protein complex with Derlin-1, revealing the coupling mechanism between the ERAD retrotranslocation and the ATP hydrolysis activities. | |||||||||
History |
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-Structure visualization
Structure viewer | Molecule: MolmilJmol/JSmol |
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-Downloads & links
-Download
PDBx/mmCIF format | 7y4w.cif.gz | 910.4 KB | Display | PDBx/mmCIF format |
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PDB format | pdb7y4w.ent.gz | 765.7 KB | Display | PDB format |
PDBx/mmJSON format | 7y4w.json.gz | Tree view | PDBx/mmJSON format | |
Others | Other downloads |
-Validation report
Arichive directory | https://data.pdbj.org/pub/pdb/validation_reports/y4/7y4w ftp://data.pdbj.org/pub/pdb/validation_reports/y4/7y4w | HTTPS FTP |
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-Related structure data
Related structure data | 33608MC 7y53C 7y59C M: map data used to model this data C: citing same article (ref.) |
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Similar structure data | Similarity search - Function & homologyF&H Search |
-Links
-Assembly
Deposited unit |
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1 |
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-Components
#1: Protein | Mass: 26478.100 Da / Num. of mol.: 4 Source method: isolated from a genetically manipulated source Source: (gene. exp.) Homo sapiens (human) / Gene: DERL1, DER1, UNQ243/PRO276 / Cell line (production host): Sf9 / Production host: Spodoptera frugiperda (fall armyworm) / References: UniProt: Q9BUN8 #2: Protein | Mass: 87546.711 Da / Num. of mol.: 6 Source method: isolated from a genetically manipulated source Source: (gene. exp.) Homo sapiens (human) / Gene: VCP / Cell line (production host): Sf9 / Production host: Spodoptera frugiperda (fall armyworm) / References: UniProt: P55072, vesicle-fusing ATPase #3: Chemical | ChemComp-ADP / Has ligand of interest | Y | |
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-Experimental details
-Experiment
Experiment | Method: ELECTRON MICROSCOPY |
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EM experiment | Aggregation state: PARTICLE / 3D reconstruction method: single particle reconstruction |
-Sample preparation
Component | Name: The cryo-EM structure of human ERAD retro-translocation complex Type: COMPLEX / Entity ID: #1-#2 / Source: RECOMBINANT |
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Molecular weight | Value: 0.65 MDa / Experimental value: NO |
Source (natural) | Organism: Homo sapiens (human) |
Source (recombinant) | Organism: Spodoptera frugiperda (fall armyworm) / Cell: Sf9 / Plasmid: pFastBacDual |
Buffer solution | pH: 7.5 |
Specimen | Conc.: 15 mg/ml / Embedding applied: NO / Shadowing applied: NO / Staining applied: NO / Vitrification applied: YES |
Specimen support | Grid material: GOLD / Grid mesh size: 300 divisions/in. / Grid type: Quantifoil R1.2/1.3 |
Vitrification | Instrument: FEI VITROBOT MARK IV / Cryogen name: ETHANE / Humidity: 100 % / Chamber temperature: 281.15 K |
-Electron microscopy imaging
Experimental equipment | Model: Titan Krios / Image courtesy: FEI Company |
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Microscopy | Model: FEI TITAN KRIOS |
Electron gun | Electron source: FIELD EMISSION GUN / Accelerating voltage: 300 kV / Illumination mode: FLOOD BEAM |
Electron lens | Mode: BRIGHT FIELD / Nominal magnification: 81000 X / Nominal defocus max: 2500 nm / Nominal defocus min: 1500 nm / Alignment procedure: COMA FREE |
Specimen holder | Cryogen: NITROGEN / Specimen holder model: FEI TITAN KRIOS AUTOGRID HOLDER |
Image recording | Average exposure time: 2.9 sec. / Electron dose: 50 e/Å2 / Film or detector model: GATAN K3 BIOQUANTUM (6k x 4k) |
EM imaging optics | Energyfilter name: GIF Bioquantum / Energyfilter slit width: 15 eV |
-Processing
EM software | Name: EPU / Category: image acquisition |
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CTF correction | Type: PHASE FLIPPING AND AMPLITUDE CORRECTION |
Symmetry | Point symmetry: C1 (asymmetric) |
3D reconstruction | Resolution: 3.67 Å / Resolution method: FSC 0.143 CUT-OFF / Num. of particles: 183316 / Algorithm: FOURIER SPACE / Symmetry type: POINT |