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Yorodumi- EMDB-22521: Map of human p97 in complex with ATPgammaS and Npl4/Ufd1 (masked ... -
+Open data
-Basic information
Entry | Database: EMDB / ID: EMD-22521 | |||||||||
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Title | Map of human p97 in complex with ATPgammaS and Npl4/Ufd1 (masked around p97 and C6 averaged) | |||||||||
Map data | ||||||||||
Sample |
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Keywords | AAA+ ATPase Chaperon Protein homeostasis / TRANSLOCASE | |||||||||
Function / homology | Function and homology information 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 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 / 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 / macroautophagy / Hh mutants are degraded by ERAD / Hedgehog ligand biogenesis / Defective CFTR causes cystic fibrosis / Translesion Synthesis by POLH / 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 / E3 ubiquitin ligases ubiquitinate target proteins / Neddylation / site of double-strand break / cellular response to heat / protein phosphatase binding / ubiquitin-dependent protein catabolic process / proteasome-mediated ubiquitin-dependent protein catabolic process / secretory granule lumen / regulation of apoptotic process / ficolin-1-rich granule lumen / Attachment and Entry / protein ubiquitination / protein domain specific binding / intracellular membrane-bounded organelle / DNA repair / DNA damage response / ubiquitin protein ligase binding / lipid binding / glutamatergic synapse / endoplasmic reticulum membrane / Neutrophil degranulation / perinuclear region of cytoplasm / endoplasmic reticulum / ATP hydrolysis activity / protein-containing complex / RNA binding / extracellular exosome / extracellular region Similarity search - Function | |||||||||
Biological species | Homo sapiens (human) | |||||||||
Method | single particle reconstruction / cryo EM / Resolution: 2.89 Å | |||||||||
Authors | Pan M / Yu Y | |||||||||
Citation | Journal: Nat Commun / Year: 2021 Title: Seesaw conformations of Npl4 in the human p97 complex and the inhibitory mechanism of a disulfiram derivative. Authors: Man Pan / Qingyun Zheng / Yuanyuan Yu / Huasong Ai / Yuan Xie / Xin Zeng / Chu Wang / Lei Liu / Minglei Zhao / Abstract: p97, also known as valosin-containing protein (VCP) or Cdc48, plays a central role in cellular protein homeostasis. Human p97 mutations are associated with several neurodegenerative diseases. ...p97, also known as valosin-containing protein (VCP) or Cdc48, plays a central role in cellular protein homeostasis. Human p97 mutations are associated with several neurodegenerative diseases. Targeting p97 and its cofactors is a strategy for cancer drug development. Despite significant structural insights into the fungal homolog Cdc48, little is known about how human p97 interacts with its cofactors. Recently, the anti-alcohol abuse drug disulfiram was found to target cancer through Npl4, a cofactor of p97, but the molecular mechanism remains elusive. Here, using single-particle cryo-electron microscopy (cryo-EM), we uncovered three Npl4 conformational states in complex with human p97 before ATP hydrolysis. The motion of Npl4 results from its zinc finger motifs interacting with the N domain of p97, which is essential for the unfolding activity of p97. In vitro and cell-based assays showed that the disulfiram derivative bis-(diethyldithiocarbamate)-copper (CuET) can bypass the copper transporter system and inhibit the function of p97 in the cytoplasm by releasing cupric ions under oxidative conditions, which disrupt the zinc finger motifs of Npl4, locking the essential conformational switch of the complex. | |||||||||
History |
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-Structure visualization
Movie |
Movie viewer |
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Structure viewer | EM map: SurfViewMolmilJmol/JSmol |
Supplemental images |
-Downloads & links
-EMDB archive
Map data | emd_22521.map.gz | 48.1 MB | EMDB map data format | |
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Header (meta data) | emd-22521-v30.xml emd-22521.xml | 17.7 KB 17.7 KB | Display Display | EMDB header |
FSC (resolution estimation) | emd_22521_fsc.xml | 9.1 KB | Display | FSC data file |
Images | emd_22521.png | 153.7 KB | ||
Masks | emd_22521_msk_1.map | 64 MB | Mask map | |
Filedesc metadata | emd-22521.cif.gz | 5.8 KB | ||
Others | emd_22521_additional_1.map.gz emd_22521_half_map_1.map.gz emd_22521_half_map_2.map.gz | 59.7 MB 48.3 MB 48.4 MB | ||
Archive directory | http://ftp.pdbj.org/pub/emdb/structures/EMD-22521 ftp://ftp.pdbj.org/pub/emdb/structures/EMD-22521 | HTTPS FTP |
-Validation report
Summary document | emd_22521_validation.pdf.gz | 790.2 KB | Display | EMDB validaton report |
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Full document | emd_22521_full_validation.pdf.gz | 789.7 KB | Display | |
Data in XML | emd_22521_validation.xml.gz | 15.6 KB | Display | |
Data in CIF | emd_22521_validation.cif.gz | 20.7 KB | Display | |
Arichive directory | https://ftp.pdbj.org/pub/emdb/validation_reports/EMD-22521 ftp://ftp.pdbj.org/pub/emdb/validation_reports/EMD-22521 | HTTPS FTP |
-Related structure data
Related structure data | 7jy5MC C: citing same article (ref.) M: atomic model generated by this map |
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Similar structure data |
-Links
EMDB pages | EMDB (EBI/PDBe) / EMDataResource |
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Related items in Molecule of the Month |
-Map
File | Download / File: emd_22521.map.gz / Format: CCP4 / Size: 64 MB / Type: IMAGE STORED AS FLOATING POINT NUMBER (4 BYTES) | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Voxel size | X=Y=Z: 1.32 Å | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Density |
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Symmetry | Space group: 1 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Details | EMDB XML:
CCP4 map header:
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-Supplemental data
-Mask #1
File | emd_22521_msk_1.map | ||||||||||||
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Projections & Slices |
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Density Histograms |
-Additional map: Sharpened map
File | emd_22521_additional_1.map | ||||||||||||
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Annotation | Sharpened map | ||||||||||||
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Density Histograms |
-Half map: #1
File | emd_22521_half_map_1.map | ||||||||||||
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Density Histograms |
-Half map: #2
File | emd_22521_half_map_2.map | ||||||||||||
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Projections & Slices |
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Density Histograms |
-Sample components
-Entire : Human p97 in complex with ATPgammaS and Npl4/Ufd1
Entire | Name: Human p97 in complex with ATPgammaS and Npl4/Ufd1 |
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Components |
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-Supramolecule #1: Human p97 in complex with ATPgammaS and Npl4/Ufd1
Supramolecule | Name: Human p97 in complex with ATPgammaS and Npl4/Ufd1 / type: complex / ID: 1 / Parent: 0 / Macromolecule list: #1 / Details: Mask around p97 |
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Source (natural) | Organism: Homo sapiens (human) |
-Macromolecule #1: Transitional endoplasmic reticulum ATPase
Macromolecule | Name: Transitional endoplasmic reticulum ATPase / type: protein_or_peptide / ID: 1 / Number of copies: 6 / Enantiomer: LEVO / EC number: vesicle-fusing ATPase |
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Source (natural) | Organism: Homo sapiens (human) |
Molecular weight | Theoretical: 89.43682 KDa |
Recombinant expression | Organism: Escherichia coli (E. coli) |
Sequence | String: MASGADSKGD DLSTAILKQK NRPNRLIVDE AINEDNSVVS LSQPKMDELQ LFRGDTVLLK GKKRREAVCI VLSDDTCSDE KIRMNRVVR NNLRVRLGDV ISIQPCPDVK YGKRIHVLPI DDTVEGITGN LFEVYLKPYF LEAYRPIRKG DIFLVRGGMR A VEFKVVET ...String: MASGADSKGD DLSTAILKQK NRPNRLIVDE AINEDNSVVS LSQPKMDELQ LFRGDTVLLK GKKRREAVCI VLSDDTCSDE KIRMNRVVR NNLRVRLGDV ISIQPCPDVK YGKRIHVLPI DDTVEGITGN LFEVYLKPYF LEAYRPIRKG DIFLVRGGMR A VEFKVVET DPSPYCIVAP DTVIHCEGEP IKREDEEESL NEVGYDDIGG CRKQLAQIKE MVELPLRHPA LFKAIGVKPP RG ILLYGPP GTGKTLIARA VANETGAFFF LINGPEIMSK LAGESESNLR KAFEEAEKNA PAIIFIDELD AIAPKREKTH GEV ERRIVS QLLTLMDGLK QRAHVIVMAA TNRPNSIDPA LRRFGRFDRE VDIGIPDATG RLEILQIHTK NMKLADDVDL EQVA NETHG HVGADLAALC SEAALQAIRK KMDLIDLEDE TIDAEVMNSL AVTMDDFRWA LSQSNPSALR ETVVEVPQVT WEDIG GLED VKRELQELVQ YPVEHPDKFL KFGMTPSKGV LFYGPPGCGK TLLAKAIANE CQANFISIKG PELLTMWFGE SEANVR EIF DKARQAAPCV LFFDELDSIA KARGGNIGDG GGAADRVINQ ILTEMDGMST KKNVFIIGAT NRPDIIDPAI LRPGRLD QL IYIPLPDEKS RVAILKANLR KSPVAKDVDL EFLAKMTNGF SGADLTEICQ RACKLAIRES IESEIRRERE RQTNPSAM E VEEDDPVPEI RRDHFEEAMR FARRSVSDND IRKYEMFAQT LQQSRGFGSF RFPSGNQGGA GPSQGSGGGT GGSVYTEDN DDDLYG UniProtKB: Transitional endoplasmic reticulum ATPase |
-Macromolecule #2: MAGNESIUM ION
Macromolecule | Name: MAGNESIUM ION / type: ligand / ID: 2 / Number of copies: 12 / Formula: MG |
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Molecular weight | Theoretical: 24.305 Da |
-Macromolecule #3: PHOSPHOTHIOPHOSPHORIC ACID-ADENYLATE ESTER
Macromolecule | Name: PHOSPHOTHIOPHOSPHORIC ACID-ADENYLATE ESTER / type: ligand / ID: 3 / Number of copies: 12 / Formula: AGS |
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Molecular weight | Theoretical: 523.247 Da |
Chemical component information | ChemComp-AGS: |
-Experimental details
-Structure determination
Method | cryo EM |
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Processing | single particle reconstruction |
Aggregation state | particle |
-Sample preparation
Buffer | pH: 7.5 |
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Vitrification | Cryogen name: ETHANE |
-Electron microscopy
Microscope | FEI TITAN KRIOS |
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Image recording | Film or detector model: GATAN K2 SUMMIT (4k x 4k) / Average electron dose: 56.0 e/Å2 |
Electron beam | Acceleration voltage: 300 kV / Electron source: FIELD EMISSION GUN |
Electron optics | Illumination mode: FLOOD BEAM / Imaging mode: BRIGHT FIELD |
Experimental equipment | Model: Titan Krios / Image courtesy: FEI Company |
+Image processing
-Atomic model buiding 1
Refinement | Space: REAL / Protocol: FLEXIBLE FIT |
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Output model | PDB-7jy5: |