A bi-site mechanism for Escherichia coli F1-ATPase accounts for the observed positive catalytic cooperativity

Trapping of conformations of the Escherichia coli F1 ATPase by disulfide bond formation A state of the enzyme with all three catalytic sites of equal and low affinity for nucleotides

Aggeler, Robert
Grüber, Gerhard
Capaldi, Roderick A

April 1998

AbstractA mutant of Escherichia coli F1F0-ATPase, αS411C/βY331W/βE381C/γC87S, has been generated. Cu...

The missing link between thermodynamics and structure in F_1-ATPase

Yang, W.
Gao, Y. Q.
Cui, Q.
Ma, J.
Karplus, M.

February 2003

F_1F_o-ATP synthase is the enzyme responsible for most of the ATP synthesis in living systems. The c...

Synthase (H+ ATPase): coupling between catalysis, mechanical work, and proton translocation

Futai, Masamitsu
Omote, Hiroshi
Sambongi, Yoshihiro
Wada, Yoh

May 2000

AbstractCoupling with electrochemical proton gradient, ATP synthase (F0F1) synthesizes ATP from ADP ...

A bi-site mechanism for Escherichia coli F1-ATPase accounts for the observed positive catalytic cooperativity

Bulygin, Vladimir V.
Milgrom, Yakov M.

August 2009

AbstractNucleotide binding to nucleotide-depleted F1-ATPase from Escherichia coli (EcF1) during MgAT...

ATP binding and hydrolysis steps of the uni-site catalysis by the mitochondrial F1-ATPase are affected by inorganic phosphate

Milgrom, Yakov M.

October 2010

AbstractThe effect of inorganic phosphate (Pi) on uni-site ATP binding and hydrolysis by the nucleot...

The ‘non-exchangeable’ nucleotides of F1-F0)ATP synthase Cofactors in hydrolysis?

Harris, David A.

February 1993

AbstractThe F1-Fo ATP synthase bears 6 nucleotide binding sites, only 3 of which turn over during ca...

Chemo-Mechanical Coupling in F1-ATPase Revealed by Catalytic Site Occupancy during Catalysis

Shimo-Kon, Rieko
Muneyuki, Eiro
Sakai, Hiroshi
Adachi, Kengo
Yoshida, Masasuke
Kinosita, Kazuhiko

April 2010

AbstractF1-ATPase is a rotary molecular motor in which the central γ subunit rotates inside a cylind...

Uni-site catalysis by Escherichia coli F1-ATPase with different numbers of bound nucleotides

Hanada, Hironori
Noumi, Takato
Maeda, Masatomo
Futai, Masamitsu

November 1989

AbstractWe prepared two types of E. coli F1 by slightly different gel filtration procedures of the p...

Structural insight into the cooperativity between catalytic and noncatalytic sites of F1-ATPase

Falson, Pierre
Goffeau, André
Boutry, Marc
Jault, Jean-Michel

July 2004

AbstractF1-ATPase, the catalytic sector of Fo-F1 ATPases–ATPsynthases, displays an apparent negative...

One of the non-exchangeable nucleotides of the mitochondrial F1-ATPase is bound at a β-subunit: evidence for a non-rotatory two-site catalytic mechanism

Hartog, A.F.
Berden, J.A.

June 1999

AbstractIn active MF1, one of the two non-exchangeable tightly bound adenine nucleotides is an ATP, ...

Does F1-ATPase have a catalytic site that preferentially binds MgADP?

Mao, Hui Z.
Gray, Wesley D.
Weber, Joachim

July 2006

AbstractDuring ATP synthesis, ATP synthase has to bind MgADP in the presence of an excess of MgATP. ...

Making the Right Moves

Bianchet, Mario A.
Amzel, L. Mario

August 2007

The structure of the nucleotide-free F1-ATPase from a thermoalkaliphilic bacterium presented in this...

Rotational catalysis in proton pumping ATPases: From E. coli F-ATPase to mammalian V-ATPase

Futai, Masamitsu
Nakanishi-Matsui, Mayumi
Okamoto, Haruko
Sekiya, Mizuki
Nakamoto, Robert K.

October 2012

AbstractWe focus on the rotational catalysis of Escherichia coli F-ATPase (ATP synthase, FOF1). Usin...

On the Mechanism of ATP Hydrolysis in F1-ATPase

Dittrich, Markus
Hayashi, Shigehiko
Schulten, Klaus

October 2003

AbstractMost of the cellular ATP in living organisms is synthesized by the enzyme F1Fo-ATP synthase....

On the rate of F1-ATPase turnover during ATP hydrolysis by the single catalytic site Evidence that hydrolysis with a slow rate of product release does not occur at the alternating active site

Milgrom, Ya.M.
Murataliev, M.B.

September 1987

AbstractUnder conditions of molar excess of enzyme, isolated F1-ATPase from beef heart mitochondria ...

Trapping of conformations of the Escherichia coli F1 ATPase by disulfide bond formation A state of the enzyme with all three catalytic sites of equal and low affinity for nucleotides

Aggeler, Robert
Grüber, Gerhard
Capaldi, Roderick A

April 1998

AbstractA mutant of Escherichia coli F1F0-ATPase, αS411C/βY331W/βE381C/γC87S, has been generated. Cu...

The missing link between thermodynamics and structure in F_1-ATPase

Yang, W.
Gao, Y. Q.
Cui, Q.
Ma, J.
Karplus, M.

February 2003

F_1F_o-ATP synthase is the enzyme responsible for most of the ATP synthesis in living systems. The c...

Synthase (H+ ATPase): coupling between catalysis, mechanical work, and proton translocation

Futai, Masamitsu
Omote, Hiroshi
Sambongi, Yoshihiro
Wada, Yoh

May 2000

AbstractCoupling with electrochemical proton gradient, ATP synthase (F0F1) synthesizes ATP from ADP ...

A bi-site mechanism for Escherichia coli F1-ATPase accounts for the observed positive catalytic cooperativity

Bulygin, Vladimir V.
Milgrom, Yakov M.

August 2009

AbstractNucleotide binding to nucleotide-depleted F1-ATPase from Escherichia coli (EcF1) during MgAT...

ATP binding and hydrolysis steps of the uni-site catalysis by the mitochondrial F1-ATPase are affected by inorganic phosphate

Milgrom, Yakov M.

October 2010

AbstractThe effect of inorganic phosphate (Pi) on uni-site ATP binding and hydrolysis by the nucleot...

The ‘non-exchangeable’ nucleotides of F1-F0)ATP synthase Cofactors in hydrolysis?

Harris, David A.

February 1993

AbstractThe F1-Fo ATP synthase bears 6 nucleotide binding sites, only 3 of which turn over during ca...

Chemo-Mechanical Coupling in F1-ATPase Revealed by Catalytic Site Occupancy during Catalysis

Shimo-Kon, Rieko
Muneyuki, Eiro
Sakai, Hiroshi
Adachi, Kengo
Yoshida, Masasuke
Kinosita, Kazuhiko

April 2010

AbstractF1-ATPase is a rotary molecular motor in which the central γ subunit rotates inside a cylind...

Uni-site catalysis by Escherichia coli F1-ATPase with different numbers of bound nucleotides

Hanada, Hironori
Noumi, Takato
Maeda, Masatomo
Futai, Masamitsu

November 1989

AbstractWe prepared two types of E. coli F1 by slightly different gel filtration procedures of the p...

Structural insight into the cooperativity between catalytic and noncatalytic sites of F1-ATPase

Falson, Pierre
Goffeau, André
Boutry, Marc
Jault, Jean-Michel

July 2004

AbstractF1-ATPase, the catalytic sector of Fo-F1 ATPases–ATPsynthases, displays an apparent negative...

One of the non-exchangeable nucleotides of the mitochondrial F1-ATPase is bound at a β-subunit: evidence for a non-rotatory two-site catalytic mechanism

Hartog, A.F.
Berden, J.A.

June 1999

AbstractIn active MF1, one of the two non-exchangeable tightly bound adenine nucleotides is an ATP, ...

Does F1-ATPase have a catalytic site that preferentially binds MgADP?

Mao, Hui Z.
Gray, Wesley D.
Weber, Joachim

July 2006

AbstractDuring ATP synthesis, ATP synthase has to bind MgADP in the presence of an excess of MgATP. ...

Making the Right Moves

Bianchet, Mario A.
Amzel, L. Mario

August 2007

The structure of the nucleotide-free F1-ATPase from a thermoalkaliphilic bacterium presented in this...

Rotational catalysis in proton pumping ATPases: From E. coli F-ATPase to mammalian V-ATPase

Futai, Masamitsu
Nakanishi-Matsui, Mayumi
Okamoto, Haruko
Sekiya, Mizuki
Nakamoto, Robert K.

October 2012

AbstractWe focus on the rotational catalysis of Escherichia coli F-ATPase (ATP synthase, FOF1). Usin...

On the Mechanism of ATP Hydrolysis in F1-ATPase

Dittrich, Markus
Hayashi, Shigehiko
Schulten, Klaus

October 2003

AbstractMost of the cellular ATP in living organisms is synthesized by the enzyme F1Fo-ATP synthase....

On the rate of F1-ATPase turnover during ATP hydrolysis by the single catalytic site Evidence that hydrolysis with a slow rate of product release does not occur at the alternating active site

Milgrom, Ya.M.
Murataliev, M.B.

September 1987

AbstractUnder conditions of molar excess of enzyme, isolated F1-ATPase from beef heart mitochondria ...

Trapping of conformations of the Escherichia coli F1 ATPase by disulfide bond formation A state of the enzyme with all three catalytic sites of equal and low affinity for nucleotides

Aggeler, Robert
Grüber, Gerhard
Capaldi, Roderick A

April 1998

AbstractA mutant of Escherichia coli F1F0-ATPase, αS411C/βY331W/βE381C/γC87S, has been generated. Cu...

The missing link between thermodynamics and structure in F_1-ATPase

Yang, W.
Gao, Y. Q.
Cui, Q.
Ma, J.
Karplus, M.

February 2003

F_1F_o-ATP synthase is the enzyme responsible for most of the ATP synthesis in living systems. The c...

Synthase (H+ ATPase): coupling between catalysis, mechanical work, and proton translocation

Futai, Masamitsu
Omote, Hiroshi
Sambongi, Yoshihiro
Wada, Yoh

May 2000

AbstractCoupling with electrochemical proton gradient, ATP synthase (F0F1) synthesizes ATP from ADP ...

A bi-site mechanism for Escherichia coli F1-ATPase accounts for the observed positive catalytic cooperativity

Abstract

Extracted data

A bi-site mechanism for Escherichia coli F1-ATPase accounts for the observed positive catalytic cooperativity

Abstract

Extracted data

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