Found 25 results
Filters: Keyword is Hydrolysis  [Clear All Filters]
Bason JV, Montgomery MG, Leslie AGW & Walker JE (2015) How release of phosphate from mammalian F1-ATPase generates a rotary substep. Proc Natl Acad Sci U S A 112, 6009-14
Runswick MJ, Bason JV, Montgomery MG, Robinson GC, Fearnley IM & Walker JE (2013) The affinity purification and characterization of ATP synthase complexes from mitochondria. Open Biol 3, 120160
Walker JE (2013) The ATP synthase: the understood, the uncertain and the unknown. Biochem Soc Trans 41, 1-16
Giorgio V, von Stockum S, Antoniel M, Fabbro A, Fogolari F, Forte M, Glick GD, Petronilli V, Zoratti M, Szabó I, Lippe G & Bernardi P (2013) Dimers of mitochondrial ATP synthase form the permeability transition pore. Proc Natl Acad Sci U S A 110, 5887-92
Robinson GC, Bason JV, Montgomery MG, Fearnley IM, Mueller DM, Leslie AGW & Walker JE (2013) The structure of F₁-ATPase from Saccharomyces cerevisiae inhibited by its regulatory protein IF₁. Open Biol 3, 120164
Rees DM, Montgomery MG, Leslie AGW & Walker JE (2012) Structural evidence of a new catalytic intermediate in the pathway of ATP hydrolysis by F1-ATPase from bovine heart mitochondria. Proc Natl Acad Sci U S A 109, 11139-43
Bason JV, Runswick MJ, Fearnley IM & Walker JE (2011) Binding of the inhibitor protein IF(1) to bovine F(1)-ATPase. J Mol Biol 406, 443-53
Murai M, Mashimo Y, Hirst J & Miyoshi H (2011) Exploring interactions between the 49 kDa and ND1 subunits in mitochondrial NADH-ubiquinone oxidoreductase (complex I) by photoaffinity labeling. Biochemistry 50, 6901-8
Yagi H, Konno H, Murakami-Fuse T, Isu A, Oroguchi T, Akutsu H, Ikeguchi M & Hisabori T (2009) Structural and functional analysis of the intrinsic inhibitor subunit epsilon of F1-ATPase from photosynthetic organisms. Biochem J 425, 85-94
Whitworth AJ, Lee JR, Ho VM-W, Flick R, Chowdhury R & G McQuibban A (2008) Rhomboid-7 and HtrA2/Omi act in a common pathway with the Parkinson's disease factors Pink1 and Parkin. Dis Model Mech 1, 168-74; discussion 173
Bowler MW, Montgomery MG, Leslie AGW & Walker JE (2007) Ground state structure of F1-ATPase from bovine heart mitochondria at 1.9 A resolution. J Biol Chem 282, 14238-42
Gledhill JR, Montgomery MG, Leslie AGW & Walker JE (2007) How the regulatory protein, IF(1), inhibits F(1)-ATPase from bovine mitochondria. Proc Natl Acad Sci U S A 104, 15671-6
Meyer B, Wittig I, Trifilieff E, Karas M & Schägger H (2007) Identification of two proteins associated with mammalian ATP synthase. Mol Cell Proteomics 6, 1690-9
Bowler MW, Montgomery MG, Leslie AGW & Walker JE (2006) How azide inhibits ATP hydrolysis by the F-ATPases. Proc Natl Acad Sci U S A 103, 8646-9
Kagawa R, Montgomery MG, Braig K, Leslie AGW & Walker JE (2004) The structure of bovine F1-ATPase inhibited by ADP and beryllium fluoride. EMBO J 23, 2734-44
Cabezon E, Montgomery MG, Leslie AGW & Walker JE (2003) The structure of bovine F1-ATPase in complex with its regulatory protein IF1. Nat Struct Biol 10, 744-50
Dziembowski A, Piwowarski J, Hoser R, Minczuk MA, Dmochowska A, Siep M, van der Spek H, Grivell L & Stepien PP (2003) The yeast mitochondrial degradosome. Its composition, interplay between RNA helicase and RNase activities and the role in mitochondrial RNA metabolism. J Biol Chem 278, 1603-11
Carelli V, Baracca A, Barogi S, Pallotti F, Valentino MLucia, Montagna P, Zeviani M, Pini A, Lenaz G, Baruzzi A & Solaini G (2002) Biochemical-clinical correlation in patients with different loads of the mitochondrial DNA T8993G mutation. Arch Neurol 59, 264-70
Kato-Yamada Y, Bald D, Koike M, Motohashi K, Hisabori T & Yoshida M (1999) Epsilon subunit, an endogenous inhibitor of bacterial F(1)-ATPase, also inhibits F(0)F(1)-ATPase. J Biol Chem 274, 33991-4
Mierau I, Kunji ERS, Venema G & Kok J (1997) Casein and peptide degradation in lactic acid bacteria. Biotechnol Genet Eng Rev 14, 279-301
Juillard V, Laan H, Kunji ERS, Jeronimus-Stratingh CM, Bruins AP & Konings WN (1995) The extracellular PI-type proteinase of Lactococcus lactis hydrolyzes beta-casein into more than one hundred different oligopeptides. J Bacteriol 177, 3472-8