Found 21 results
Filters: Keyword is Cryoelectron Microscopy  [Clear All Filters]
Agip A-NA, Blaza JN, Bridges HR, Viscomi C, Rawson S, Muench SP & Hirst J (2018) Cryo-EM structures of complex I from mouse heart mitochondria in two biochemically defined states. Nat Struct Mol Biol 25, 548-556
Srivastava AP, Luo M, Zhou W, Symersky J, Bai D, Chambers MG, Faraldo-Gómez JD, Liao M & Mueller DM (2018) High-resolution cryo-EM analysis of the yeast ATP synthase in a lipid membrane. Science 360
Hahn A, Vonck J, Mills DJ, Meier T & Kühlbrandt W (2018) Structure, mechanism, and regulation of the chloroplast ATP synthase. Science 360
Guo H, Bueler SA & Rubinstein JL (2017) Atomic model for the dimeric F region of mitochondrial ATP synthase. Science 358, 936-940
Letts JA, Fiedorczuk K & Sazanov LA (2016) The architecture of respiratory supercomplexes. Nature 537, 644-648
Fiedorczuk K, Letts JA, Degliesposti G, Kaszuba K, Skehel M & Sazanov LA (2016) Atomic structure of the entire mammalian mitochondrial complex I. Nature 538, 406-410
Zhu J, Vinothkumar KR & Hirst J (2016) Structure of mammalian respiratory complex I. Nature 536, 354-8
Allegretti M, Klusch N, Mills DJ, Vonck J, Kühlbrandt W & Davies KM (2015) Horizontal membrane-intrinsic α-helices in the stator a-subunit of an F-type ATP synthase. Nature 521, 237-40
Zhou A, Rohou A, Schep DG, Bason JV, Montgomery MG, Walker JE, Grigorieff N & Rubinstein JL (2015) Structure and conformational states of the bovine mitochondrial ATP synthase by cryo-EM. Elife 4, e10180
Zhu J, King MS, Yu M, Klipcan L, Leslie AGW & Hirst J (2015) Structure of subcomplex Iβ of mammalian respiratory complex I leads to new supernumerary subunit assignments. Proc Natl Acad Sci U S A 112, 12087-92
Vinothkumar KR, Zhu J & Hirst J (2014) Architecture of mammalian respiratory complex I. Nature 515, 80-84
Baker LA, Watt IN, Runswick MJ, Walker JE & Rubinstein JL (2012) Arrangement of subunits in intact mammalian mitochondrial ATP synthase determined by cryo-EM. Proc Natl Acad Sci U S A 109, 11675-80
Kunji ERS & Crichton PG (2010) Mitochondrial carriers function as monomers. Biochim Biophys Acta 1797, 817-31
Matthies D, Preiss L, Klyszejko AL, Müller DJ, Cook GM, Vonck J & Meier T (2009) The c13 ring from a thermoalkaliphilic ATP synthase reveals an extended diameter due to a special structural region. J Mol Biol 388, 611-8
Rubinstein JL, Walker JE & Henderson R (2003) Structure of the mitochondrial ATP synthase by electron cryomicroscopy. EMBO J 22, 6182-92
Kunji ER, Spudich EN, Grisshammer R, Henderson R & Spudich JL (2001) Electron crystallographic analysis of two-dimensional crystals of sensory rhodopsin II: a 6.9 A projection structure. J Mol Biol 308, 279-93
Tate CG, Kunji ER, Lebendiker M & Schuldiner S (2001) The projection structure of EmrE, a proton-linked multidrug transporter from Escherichia coli, at 7 A resolution. EMBO J 20, 77-81