- EMDB-7067: Cryo-EM structure of dimeric F1FO yeast mitochondrial ATP synthas... -
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Basic information
Entry
Database: EMDB / ID: EMD-7067
Title
Cryo-EM structure of dimeric F1FO yeast mitochondrial ATP synthase with C2 symmetry
Map data
Sharpened map of the dimeric FO region of yeast mitochondrial ATP synthase
Sample
Complex: Yeast mitochondrial F1Fo ATP synthase dimer
Function / homology
Function and homology information
: / : / : / Mitochondrial protein degradation / mitochondrial proton-transporting ATP synthase complex assembly / : / : / : / : / mitochondrial nucleoid ...: / : / : / Mitochondrial protein degradation / mitochondrial proton-transporting ATP synthase complex assembly / : / : / : / : / mitochondrial nucleoid / : / proton motive force-driven ATP synthesis / proton transmembrane transporter activity / proton motive force-driven mitochondrial ATP synthesis / proton-transporting ATP synthase complex, catalytic core F(1) / H+-transporting two-sector ATPase / proton transmembrane transport / proton-transporting ATPase activity, rotational mechanism / proton-transporting ATP synthase activity, rotational mechanism / mitochondrial intermembrane space / ADP binding / protein-containing complex assembly / mitochondrial inner membrane / lipid binding / ATP hydrolysis activity / mitochondrion / ATP binding / identical protein binding / cytosol Similarity search - Function
ATP synthase subunit K / ATP synthase subunit K / ATP synthase, F0 complex, subunit J / ATP synthase protein 8, fungal type / ATP synthase, F0 complex, subunit F, mitochondria, fungi / ATP synthase j chain / Fungal ATP synthase protein 8 (A6L) / Mitochondrial F1-F0 ATP synthase subunit F of fungi / : / Fungal epsilon subunit of F1F0-ATP synthase C-terminal domain ...ATP synthase subunit K / ATP synthase subunit K / ATP synthase, F0 complex, subunit J / ATP synthase protein 8, fungal type / ATP synthase, F0 complex, subunit F, mitochondria, fungi / ATP synthase j chain / Fungal ATP synthase protein 8 (A6L) / Mitochondrial F1-F0 ATP synthase subunit F of fungi / : / Fungal epsilon subunit of F1F0-ATP synthase C-terminal domain / ATP synthase, F0 complex, subunit B/MI25 / ATP synthase, F0 complex, subunit B / Mitochondrial ATP synthase B chain precursor (ATP-synt_B) / ATP synthase, F0 complex, subunit D, mitochondrial / ATP synthase D chain, mitochondrial (ATP5H) / ATP synthase, F0 complex, subunit D superfamily, mitochondrial / ATP synthase, F0 complex, subunit A, bacterial/mitochondria / ATP synthase, F1 complex, epsilon subunit, mitochondrial / ATP synthase, F1 complex, epsilon subunit superfamily, mitochondrial / Mitochondrial ATP synthase epsilon chain / ATPase, OSCP/delta subunit, conserved site / ATP synthase delta (OSCP) subunit signature. / F1F0 ATP synthase OSCP/delta subunit, N-terminal domain superfamily / ATP synthase, F0 complex, subunit A / ATP synthase, F0 complex, subunit A, active site / ATP synthase, F0 complex, subunit A superfamily / ATP synthase A chain / ATP synthase a subunit signature. / ATPase, OSCP/delta subunit / ATP synthase delta (OSCP) subunit / ATP synthase, F1 complex, delta/epsilon subunit / ATP synthase, F1 complex, delta/epsilon subunit, N-terminal / F0F1 ATP synthase delta/epsilon subunit, N-terminal / ATP synthase, Delta/Epsilon chain, beta-sandwich domain / ATP synthase, F0 complex, subunit C / F1F0 ATP synthase subunit C superfamily / ATP synthase, F0 complex, subunit C, DCCD-binding site / ATP synthase c subunit signature. / ATP synthase, F1 complex, gamma subunit conserved site / ATP synthase gamma subunit signature. / ATP synthase, F1 complex, beta subunit / ATP synthase, alpha subunit, C-terminal domain superfamily / ATP synthase, F1 complex, gamma subunit / ATP synthase, F1 complex, gamma subunit superfamily / ATP synthase / ATP synthase, alpha subunit, C-terminal / ATP synthase, F1 complex, alpha subunit / ATP synthase, F1 complex, alpha subunit nucleotide-binding domain / ATP synthase alpha/beta chain, C terminal domain / V-ATPase proteolipid subunit C-like domain / F/V-ATP synthase subunit C superfamily / ATP synthase subunit C / ATPase, F1/V1 complex, beta/alpha subunit, C-terminal / ATP synthase subunit alpha, N-terminal domain-like superfamily / ATPase, F1/V1/A1 complex, alpha/beta subunit, N-terminal domain superfamily / ATPase, F1/V1/A1 complex, alpha/beta subunit, N-terminal domain / ATP synthase alpha/beta family, beta-barrel domain / ATPase, alpha/beta subunit, nucleotide-binding domain, active site / ATP synthase alpha and beta subunits signature. / ATPase, F1/V1/A1 complex, alpha/beta subunit, nucleotide-binding domain / ATP synthase alpha/beta family, nucleotide-binding domain / ATPases associated with a variety of cellular activities / AAA+ ATPase domain / P-loop containing nucleoside triphosphate hydrolase Similarity search - Domain/homology
ATP synthase catalytic sector F1 epsilon subunit / ATP synthase subunit beta, mitochondrial / ATP synthase subunit a / ATP synthase protein 8 / ATP synthase subunit 4, mitochondrial / ATP synthase subunit alpha, mitochondrial / ATP synthase subunit 5, mitochondrial / ATP synthase subunit d, mitochondrial / ATP synthase subunit gamma, mitochondrial / ATP synthase subunit 9, mitochondrial ...ATP synthase catalytic sector F1 epsilon subunit / ATP synthase subunit beta, mitochondrial / ATP synthase subunit a / ATP synthase protein 8 / ATP synthase subunit 4, mitochondrial / ATP synthase subunit alpha, mitochondrial / ATP synthase subunit 5, mitochondrial / ATP synthase subunit d, mitochondrial / ATP synthase subunit gamma, mitochondrial / ATP synthase subunit 9, mitochondrial / ATP synthase subunit J, mitochondrial / ATP synthase subunit K, mitochondrial / ATP synthase subunit f, mitochondrial / ATP synthase subunit delta, mitochondrial Similarity search - Component
Biological species
Saccharomyces cerevisiae (brewer's yeast)
Method
single particle reconstruction / cryo EM / Resolution: 7.4 Å
NIH National Institute of General Medical Sciences
GM103310
United States
Citation
Journal: Science / Year: 2017 Title: Atomic model for the dimeric F region of mitochondrial ATP synthase. Authors: Hui Guo / Stephanie A Bueler / John L Rubinstein / Abstract: Mitochondrial adenosine triphosphate (ATP) synthase produces the majority of ATP in eukaryotic cells, and its dimerization is necessary to create the inner membrane folds, or cristae, characteristic ...Mitochondrial adenosine triphosphate (ATP) synthase produces the majority of ATP in eukaryotic cells, and its dimerization is necessary to create the inner membrane folds, or cristae, characteristic of mitochondria. Proton translocation through the membrane-embedded F region turns the rotor that drives ATP synthesis in the soluble F region. Although crystal structures of the F region have illustrated how this rotation leads to ATP synthesis, understanding how proton translocation produces the rotation has been impeded by the lack of an experimental atomic model for the F region. Using cryo-electron microscopy, we determined the structure of the dimeric F complex from at a resolution of 3.6 angstroms. The structure clarifies how the protons travel through the complex, how the complex dimerizes, and how the dimers bend the membrane to produce cristae.
History
Deposition
Oct 7, 2017
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Header (metadata) release
Nov 8, 2017
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Map release
Nov 8, 2017
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Update
Nov 25, 2020
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Current status
Nov 25, 2020
Processing site: RCSB / Status: Released
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Structure visualization
Movie
Surface view with section colored by density value
Film or detector model: GATAN K2 QUANTUM (4k x 4k) / Detector mode: COUNTING / Digitization - Frames/image: 1-30 / Number real images: 626 / Average exposure time: 15.0 sec. / Average electron dose: 36.0 e/Å2
Electron beam
Acceleration voltage: 200 kV / Electron source: FIELD EMISSION GUN
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