+Open data
-Basic information
Entry | Database: EMDB / ID: EMD-26002 | |||||||||
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Title | V-ATPase from Saccharomyces cerevisiae, State 3 | |||||||||
Map data | V-ATPase State 3 | |||||||||
Sample |
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Keywords | V-ATPase / MEMBRANE PROTEIN | |||||||||
Function / homology | Function and homology information cell wall mannoprotein biosynthetic process / ATPase-coupled ion transmembrane transporter activity / protein localization to vacuolar membrane / cellular response to alkaline pH / proton-transporting V-type ATPase, V1 domain / polyphosphate metabolic process / Insulin receptor recycling / Transferrin endocytosis and recycling / ROS and RNS production in phagocytes / Amino acids regulate mTORC1 ...cell wall mannoprotein biosynthetic process / ATPase-coupled ion transmembrane transporter activity / protein localization to vacuolar membrane / cellular response to alkaline pH / proton-transporting V-type ATPase, V1 domain / polyphosphate metabolic process / Insulin receptor recycling / Transferrin endocytosis and recycling / ROS and RNS production in phagocytes / Amino acids regulate mTORC1 / Golgi lumen acidification / P-type proton-exporting transporter activity / proton-transporting two-sector ATPase complex, catalytic domain / vacuolar transport / vacuolar proton-transporting V-type ATPase, V0 domain / endosomal lumen acidification / vacuolar proton-transporting V-type ATPase, V1 domain / protein targeting to vacuole / vacuole organization / vacuolar proton-transporting V-type ATPase complex / proton-transporting V-type ATPase complex / fungal-type vacuole / vacuolar acidification / cellular hyperosmotic response / fungal-type vacuole membrane / phosphatidylinositol-3,5-bisphosphate binding / vacuolar membrane / proton transmembrane transporter activity / intracellular copper ion homeostasis / endomembrane system / ATP metabolic process / H+-transporting two-sector ATPase / Neutrophil degranulation / proton-transporting ATPase activity, rotational mechanism / RNA endonuclease activity / proton-transporting ATP synthase activity, rotational mechanism / proton transmembrane transport / cell periphery / transmembrane transport / endocytosis / ATPase binding / protein-containing complex assembly / intracellular iron ion homeostasis / membrane raft / Golgi membrane / endoplasmic reticulum membrane / ATP hydrolysis activity / ATP binding / membrane Similarity search - Function | |||||||||
Biological species | Saccharomyces cerevisiae (brewer's yeast) | |||||||||
Method | single particle reconstruction / cryo EM / Resolution: 3.8 Å | |||||||||
Authors | Vasanthakumar T / Keon KA / Bueler SA / Jaskolka MC / Rubinstein JL | |||||||||
Funding support | Canada, 1 items
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Citation | Journal: Nat Struct Mol Biol / Year: 2022 Title: Coordinated conformational changes in the V complex during V-ATPase reversible dissociation. Authors: Thamiya Vasanthakumar / Kristine A Keon / Stephanie A Bueler / Michael C Jaskolka / John L Rubinstein / Abstract: Vacuolar-type ATPases (V-ATPases) are rotary enzymes that acidify intracellular compartments in eukaryotic cells. These multi-subunit complexes consist of a cytoplasmic V region that hydrolyzes ATP ...Vacuolar-type ATPases (V-ATPases) are rotary enzymes that acidify intracellular compartments in eukaryotic cells. These multi-subunit complexes consist of a cytoplasmic V region that hydrolyzes ATP and a membrane-embedded V region that transports protons. V-ATPase activity is regulated by reversible dissociation of the two regions, with the isolated V and V complexes becoming autoinhibited on disassembly and subunit C subsequently detaching from V. In yeast, assembly of the V and V regions is mediated by the regulator of the ATPase of vacuoles and endosomes (RAVE) complex through an unknown mechanism. We used cryogenic-electron microscopy of yeast V-ATPase to determine structures of the intact enzyme, the dissociated but complete V complex and the V complex lacking subunit C. On separation, V undergoes a dramatic conformational rearrangement, with its rotational state becoming incompatible for reassembly with V. Loss of subunit C allows V to match the rotational state of V, suggesting how RAVE could reassemble V and V by recruiting subunit C. | |||||||||
History |
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-Structure visualization
Supplemental images |
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-Downloads & links
-EMDB archive
Map data | emd_26002.map.gz | 87.2 MB | EMDB map data format | |
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Header (meta data) | emd-26002-v30.xml emd-26002.xml | 26.8 KB 26.8 KB | Display Display | EMDB header |
Images | emd_26002.png | 102.3 KB | ||
Filedesc metadata | emd-26002.cif.gz | 8.7 KB | ||
Archive directory | http://ftp.pdbj.org/pub/emdb/structures/EMD-26002 ftp://ftp.pdbj.org/pub/emdb/structures/EMD-26002 | HTTPS FTP |
-Validation report
Summary document | emd_26002_validation.pdf.gz | 490.4 KB | Display | EMDB validaton report |
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Full document | emd_26002_full_validation.pdf.gz | 490 KB | Display | |
Data in XML | emd_26002_validation.xml.gz | 6.8 KB | Display | |
Data in CIF | emd_26002_validation.cif.gz | 7.7 KB | Display | |
Arichive directory | https://ftp.pdbj.org/pub/emdb/validation_reports/EMD-26002 ftp://ftp.pdbj.org/pub/emdb/validation_reports/EMD-26002 | HTTPS FTP |
-Related structure data
Related structure data | 7tmtMC 7tmmC 7tmoC 7tmpC 7tmqC 7tmrC 7tmsC M: atomic model generated by this map C: citing same article (ref.) |
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Similar structure data | Similarity search - Function & homologyF&H Search |
-Links
EMDB pages | EMDB (EBI/PDBe) / EMDataResource |
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Related items in Molecule of the Month |
-Map
File | Download / File: emd_26002.map.gz / Format: CCP4 / Size: 103 MB / Type: IMAGE STORED AS FLOATING POINT NUMBER (4 BYTES) | ||||||||||||||||||||||||||||||||||||
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Annotation | V-ATPase State 3 | ||||||||||||||||||||||||||||||||||||
Projections & slices | Image control
Images are generated by Spider. | ||||||||||||||||||||||||||||||||||||
Voxel size | X=Y=Z: 1.20167 Å | ||||||||||||||||||||||||||||||||||||
Density |
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Symmetry | Space group: 1 | ||||||||||||||||||||||||||||||||||||
Details | EMDB XML:
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-Supplemental data
-Sample components
+Entire : V-ATPase, State 3
+Supramolecule #1: V-ATPase, State 3
+Macromolecule #1: H(+)-transporting two-sector ATPase
+Macromolecule #2: Vacuolar proton pump subunit B
+Macromolecule #3: V-ATPase subunit E
+Macromolecule #4: V-type proton ATPase subunit G
+Macromolecule #5: V-type proton ATPase subunit D
+Macromolecule #6: V-type proton ATPase subunit F
+Macromolecule #7: V-type proton ATPase subunit C
+Macromolecule #8: V-type proton ATPase subunit H
+Macromolecule #9: V-type proton ATPase subunit a, vacuolar isoform
+Macromolecule #10: V0 assembly protein 1
+Macromolecule #11: V-type proton ATPase subunit c''
+Macromolecule #12: V-type proton ATPase subunit d
+Macromolecule #13: V-type proton ATPase subunit e
+Macromolecule #14: Yeast V-ATPase subunit f
+Macromolecule #15: V-type proton ATPase subunit c
+Macromolecule #16: V-type proton ATPase subunit c'
+Macromolecule #17: ADENOSINE-5'-DIPHOSPHATE
-Experimental details
-Structure determination
Method | cryo EM |
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Processing | single particle reconstruction |
Aggregation state | particle |
-Sample preparation
Buffer | pH: 7.4 |
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Vitrification | Cryogen name: ETHANE-PROPANE |
-Electron microscopy
Microscope | TFS KRIOS |
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Image recording | Film or detector model: FEI FALCON IV (4k x 4k) / Average electron dose: 43.0 e/Å2 |
Electron beam | Acceleration voltage: 300 kV / Electron source: FIELD EMISSION GUN |
Electron optics | Illumination mode: FLOOD BEAM / Imaging mode: BRIGHT FIELD / Nominal defocus max: 2.0 µm / Nominal defocus min: 0.3 µm |
Experimental equipment | Model: Titan Krios / Image courtesy: FEI Company |
-Image processing
Startup model | Type of model: NONE |
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Final reconstruction | Resolution.type: BY AUTHOR / Resolution: 3.8 Å / Resolution method: FSC 0.143 CUT-OFF / Number images used: 42558 |
Initial angle assignment | Type: MAXIMUM LIKELIHOOD |
Final angle assignment | Type: MAXIMUM LIKELIHOOD |