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TitleStructure of the mitochondrial ATP synthase from determined by electron cryo-microscopy.
Journal, issue, pagesProc Natl Acad Sci U S A, Vol. 113, Issue 45, Page 12709-12714, Year 2016
Publish dateNov 8, 2016
AuthorsKutti R Vinothkumar / Martin G Montgomery / Sidong Liu / John E Walker /
PubMed AbstractThe structure of the intact monomeric ATP synthase from the fungus, , has been solved by electron cryo-microscopy. The structure provides insights into the mechanical coupling of the transmembrane ...The structure of the intact monomeric ATP synthase from the fungus, , has been solved by electron cryo-microscopy. The structure provides insights into the mechanical coupling of the transmembrane proton motive force across mitochondrial membranes in the synthesis of ATP. This mechanism requires a strong and integral stator, consisting of the catalytic αβ-domain, peripheral stalk, and, in the membrane domain, subunit a and associated supernumerary subunits, kept in contact with the rotor turning at speeds up to 350 Hz. The stator's integrity is ensured by robust attachment of both the oligomycin sensitivity conferral protein (OSCP) to the catalytic domain and the membrane domain of subunit b to subunit a. The ATP8 subunit provides an additional brace between the peripheral stalk and subunit a. At the junction between the OSCP and the apparently stiff, elongated α-helical b-subunit and associated d- and h-subunits, an elbow or joint allows the stator to bend to accommodate lateral movements during the activity of the catalytic domain. The stator may also apply lateral force to help keep the static a-subunit and rotating c-ring together. The interface between the c-ring and the a-subunit contains the transmembrane pathway for protons, and their passage across the membrane generates the turning of the rotor. The pathway has two half-channels containing conserved polar residues provided by a bundle of four α-helices inclined at ∼30° to the plane of the membrane, similar to those described in other species. The structure provides more insights into the workings of this amazing machine.
External linksProc Natl Acad Sci U S A / PubMed:27791192 / PubMed Central
MethodsEM (single particle)
Resolution7.0 - 7.9 Å
Structure data

EMDB-4100, PDB-5lqx:
Structure of F-ATPase from Pichia angusta, state3
Method: EM (single particle) / Resolution: 7.9 Å

EMDB-4101: Structure of F-ATPase from Pichia angusta, state2.
PDB-5lqy: Structure of F-ATPase from Pichia angusta, in state2
Method: EM (single particle) / Resolution: 7.8 Å

EMDB-4102, PDB-5lqz:
Structure of F-ATPase from Pichia angusta, state1
Method: EM (single particle) / Resolution: 7.0 Å

Chemicals

ChemComp-ATP:
ADENOSINE-5'-TRIPHOSPHATE / ATP, energy-carrying molecule*YM

ChemComp-MG:
Unknown entry

ChemComp-ADP:
ADENOSINE-5'-DIPHOSPHATE / ADP, energy-carrying molecule*YM

Source
  • ogataea angusta (fungus)
  • bos taurus (cattle)
KeywordsHYDROLASE / ATP synthase / ATP hydrolase / complex

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