Literature DB >> 15229653

The structure of bovine F1-ATPase inhibited by ADP and beryllium fluoride.

Reiko Kagawa1, Martin G Montgomery, Kerstin Braig, Andrew G W Leslie, John E Walker.   

Abstract

The structure of bovine F1-ATPase inhibited with ADP and beryllium fluoride at 2.0 angstroms resolution contains two ADP.BeF3- complexes mimicking ATP, bound in the catalytic sites of the beta(TP) and beta(DP) subunits. Except for a 1 angstrom shift in the guanidinium of alphaArg373, the conformations of catalytic side chains are very similar in both sites. However, the ordered water molecule that carries out nucleophilic attack on the gamma-phosphate of ATP during hydrolysis is 2.6 angstroms from the beryllium in the beta(DP) subunit and 3.8 angstroms away in the beta(TP) subunit, strongly indicating that the beta(DP) subunit is the catalytically active conformation. In the structure of F1-ATPase with five bound ADP molecules (three in alpha-subunits, one each in the beta(TP) and beta(DP) subunits), which has also been determined, the conformation of alphaArg373 suggests that it senses the presence (or absence) of the gamma-phosphate of ATP. Two catalytic schemes are discussed concerning the various structures of bovine F1-ATPase.

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Year:  2004        PMID: 15229653      PMCID: PMC514953          DOI: 10.1038/sj.emboj.7600293

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  38 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2000-01-18       Impact factor: 11.205

2.  The structure of the central stalk in bovine F(1)-ATPase at 2.4 A resolution.

Authors:  C Gibbons; M G Montgomery; A G Leslie; J E Walker
Journal:  Nat Struct Biol       Date:  2000-11

3.  Structure of bovine mitochondrial F(1)-ATPase with nucleotide bound to all three catalytic sites: implications for the mechanism of rotary catalysis.

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Journal:  Cell       Date:  2001-08-10       Impact factor: 41.582

Review 4.  Catalytic site occupancy during ATP synthase catalysis.

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Journal:  FEBS Lett       Date:  2002-02-13       Impact factor: 4.124

5.  Chemomechanical coupling in F1-ATPase revealed by simultaneous observation of nucleotide kinetics and rotation.

Authors:  Takayuki Nishizaka; Kazuhiro Oiwa; Hiroyuki Noji; Shigeki Kimura; Eiro Muneyuki; Masasuke Yoshida; Kazuhiko Kinosita
Journal:  Nat Struct Mol Biol       Date:  2004-01-18       Impact factor: 15.369

6.  The structure of bovine F1-ATPase in complex with its regulatory protein IF1.

Authors:  Elena Cabezón; Martin G Montgomery; Andrew G W Leslie; John E Walker
Journal:  Nat Struct Biol       Date:  2003-08-17

7.  The structure of bovine F1-ATPase complexed with the antibiotic inhibitor aurovertin B.

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Journal:  Proc Natl Acad Sci U S A       Date:  1996-07-09       Impact factor: 11.205

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Journal:  Biochemistry       Date:  1995-07-18       Impact factor: 3.162

10.  Fluoride complexes of aluminium or beryllium act on G-proteins as reversibly bound analogues of the gamma phosphate of GTP.

Authors:  J Bigay; P Deterre; C Pfister; M Chabre
Journal:  EMBO J       Date:  1987-10       Impact factor: 11.598
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  81 in total

1.  Principal role of the arginine finger in rotary catalysis of F1-ATPase.

Authors:  Yoshihito Komoriya; Takayuki Ariga; Ryota Iino; Hiromi Imamura; Daichi Okuno; Hiroyuki Noji
Journal:  J Biol Chem       Date:  2012-03-08       Impact factor: 5.157

2.  Crystal structure of yeast V-ATPase subunit C reveals its stator function.

Authors:  Omri Drory; Felix Frolow; Nathan Nelson
Journal:  EMBO Rep       Date:  2004-12       Impact factor: 8.807

3.  Mitochondrial F(0) F(1) -ATP synthase is a molecular target of 3-iodothyronamine, an endogenous metabolite of thyroid hormone.

Authors:  S Cumero; F Fogolari; R Domenis; R Zucchi; I Mavelli; S Contessi
Journal:  Br J Pharmacol       Date:  2012-08       Impact factor: 8.739

4.  Efficient molecular surface rendering by linear-time pseudo-Gaussian approximation to Lee-Richards surfaces (PGALRS).

Authors:  Herbert J Bernstein; Paul A Craig
Journal:  J Appl Crystallogr       Date:  2010-02-12       Impact factor: 3.304

5.  Tracking and visualizing the circadian ticking of the cyanobacterial clock protein KaiC in solution.

Authors:  Yoriko Murayama; Atsushi Mukaiyama; Keiko Imai; Yasuhiro Onoue; Akina Tsunoda; Atsushi Nohara; Tatsuro Ishida; Yuichiro Maéda; Kazuki Terauchi; Takao Kondo; Shuji Akiyama
Journal:  EMBO J       Date:  2010-11-26       Impact factor: 11.598

6.  Dephosphorylation of the core clock protein KaiC in the cyanobacterial KaiABC circadian oscillator proceeds via an ATP synthase mechanism.

Authors:  Martin Egli; Tetsuya Mori; Rekha Pattanayek; Yao Xu; Ximing Qin; Carl H Johnson
Journal:  Biochemistry       Date:  2012-02-13       Impact factor: 3.162

7.  Binding of Substrates to the Central Pore of the Vps4 ATPase Is Autoinhibited by the Microtubule Interacting and Trafficking (MIT) Domain and Activated by MIT Interacting Motifs (MIMs).

Authors:  Han Han; Nicole Monroe; Jörg Votteler; Binita Shakya; Wesley I Sundquist; Christopher P Hill
Journal:  J Biol Chem       Date:  2015-04-01       Impact factor: 5.157

8.  Inhibition sites in F1-ATPase from bovine heart mitochondria.

Authors:  Jonathan R Gledhill; John E Walker
Journal:  Biochem J       Date:  2005-03-15       Impact factor: 3.857

9.  Activation of pausing F1 motor by external force.

Authors:  Yoko Hirono-Hara; Koji Ishizuka; Kazuhiko Kinosita; Masasuke Yoshida; Hiroyuki Noji
Journal:  Proc Natl Acad Sci U S A       Date:  2005-03-09       Impact factor: 11.205

10.  Correlation between the conformational states of F1-ATPase as determined from its crystal structure and single-molecule rotation.

Authors:  Daichi Okuno; Ryo Fujisawa; Ryota Iino; Yoko Hirono-Hara; Hiromi Imamura; Hiroyuki Noji
Journal:  Proc Natl Acad Sci U S A       Date:  2008-12-15       Impact factor: 11.205
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