ATP synthases from archaea: The beauty of a molecular motor

The a subunit of the A1AO ATP synthase of Methanosarcina mazei Gö1 contains two conserved arginine residues that are crucial for ATP synthesis

Gloger, Carolin
Born, Anna-Katharina
Antosch, Martin
Müller, Volker

July 2015

AbstractLike the evolutionary related F1FO ATP synthases and V1VO ATPases, the A1AO ATP synthases fr...

Purification of a Crenarchaeal ATP Synthase in the Light of the Unique Bioenergetics of Ignicoccus Species

Kreuter, Lydia J.
Weinfurtner, Andrea
Ziegler, Alexander
Weigl, Julia
Hoffmann, Jan
Morgner, Nina
Müller, Volker
Huber, Harald
Metcalf, William W.

January 2019

In this study, the ATP synthase of Ignicoccus hospitalis was purified, characterized, and structural...

Structure and Subunit Arrangement of the A-type ATP Synthase Complex from the Archaeon Methanococcus jannaschii Visualized by Electron Microscopy*

January 2004

In Archaea, bacteria, and eukarya, ATP provides met-abolic energy for energy-dependent processes. It...

ATP synthases from archaea: The beauty of a molecular motor

Grüber, Gerhard
Manimekalai, Malathy Sony Subramanian
Mayer, Florian
Müller, Volker

June 2014

AbstractArchaea live under different environmental conditions, such as high salinity, extreme pHs an...

Bioenergetics of archaea: Ancient energy conserving mechanisms developed in the early history of life

Lewalter, Kim
Müller, Volker

June 2006

AbstractA key component in cellular bioenergetics is the ATP synthase. The enzyme from archaea repre...

Trail of nucleotides and the traits of ADP/ATP-binding inside the subunits A and B of the archaeal energy producer A1AO ATP synthase

Kumar, Anil

January 2009

Archaea are microorganisms which thrive under extreme environmental conditions. These organisms are ...

Crystallographic details of the nucleotide-binding pocket of subunit A and B of A-ATP synthases and insight into the nucleotide-binding subunit α of the Escherichia coli F-ATP synthases

Vikeramjeet Singh Tadwal

January 2011

Archaea are considered to be the most primitive organisms forming a separate evolutionary kingdom lo...

The stalks of the motor A1A0 ATP synthase come into the focus : structural insight into subunits E, F and H

Gayen, Shovanlal

January 2010

A1AO adenosine triphosphate (ATP) synthases from archaea represent the second class of ATP synthases...

A Na+ A1AO ATP synthase with a V-type c subunit in a mesophilic bacterium

Litty, Dennis
Müller, Volker

December 2019

A1AO ATP synthases with a V-type c subunit have only been found in hyperthermophilic archaea which m...

Promiscuous archaeal ATP synthase concurrently coupled to Na+ and H+ translocation

Schlegel, K.
Leone, V.
Faraldo-Gómez, J.
Müller, V.

January 2012

ATP synthases are the primary source of ATP in all living cells. To catalyze ATP synthesis, these me...

Unravelling structural and mechanistic elements of catalytic subunits A and coupling subunit F and structural and kinetic studies of the A3B3D and A3B3DF-subcomplexes of the Methanosarcina mazei Gö1 provide insights into the single molecule dynamics of this engine

Singh, Dhirendra

January 2017

ATP synthases and ATPases are membrane-bound enzymes that synthesize either ATP from ADP and phospha...

The coupling ion in themethanoarchaealATP synthases: H1 vs.Na1 in theA1AoATP synthase fromthearchaeonMethanosarcinamazei G˛1

Kim Y. Pisa
Claudia Weidner
Heiko Maischak
Holger Kavermann
Correspondence Volker Müller
Microbiology Bioenergetics
Holger Kavermann
Roche Diagnostics

January 2007

Archaea. To establish a system to analyze ATP synthesis by the archaeal A1Ao ATP synthase and to add...

Na+ Transport by the A1AO-ATP Synthase Purified from Thermococcus onnurineus and Reconstituted into Liposomes

Mayer, F.
Lim, J.
Langer, J.
Kang, S.
Müller, V.

March 2015

The ATP synthase of many archaea has the conserved sodium ion binding motif in its rotor subunit, im...

Analyzing conformational changes in single FRET-labeled A1 parts of archaeal A1AO-ATP synthase

Sielaff, Hendrik
Singh, Dhirendra
Grüber, Gerhard
Börsch, Michael

January 2018

ATP synthases utilize a proton motive force to synthesize ATP. In reverse, these membrane-embedded e...

The stator complex of the A1A0-ATP synthase--structural characterization of the E and H subunits.

Kish-Trier, Erik
Briere, Lee-Ann K
Dunn, Stanley D
Wilkens, Stephan

January 2008

Archaeal ATP synthase (A-ATPase) is the functional homolog to the ATP synthase found in bacteria, mi...

The a subunit of the A1AO ATP synthase of Methanosarcina mazei Gö1 contains two conserved arginine residues that are crucial for ATP synthesis

Gloger, Carolin
Born, Anna-Katharina
Antosch, Martin
Müller, Volker

July 2015

AbstractLike the evolutionary related F1FO ATP synthases and V1VO ATPases, the A1AO ATP synthases fr...

Purification of a Crenarchaeal ATP Synthase in the Light of the Unique Bioenergetics of Ignicoccus Species

Kreuter, Lydia J.
Weinfurtner, Andrea
Ziegler, Alexander
Weigl, Julia
Hoffmann, Jan
Morgner, Nina
Müller, Volker
Huber, Harald
Metcalf, William W.

January 2019

In this study, the ATP synthase of Ignicoccus hospitalis was purified, characterized, and structural...

Structure and Subunit Arrangement of the A-type ATP Synthase Complex from the Archaeon Methanococcus jannaschii Visualized by Electron Microscopy*

January 2004

In Archaea, bacteria, and eukarya, ATP provides met-abolic energy for energy-dependent processes. It...

ATP synthases from archaea: The beauty of a molecular motor

Grüber, Gerhard
Manimekalai, Malathy Sony Subramanian
Mayer, Florian
Müller, Volker

June 2014

AbstractArchaea live under different environmental conditions, such as high salinity, extreme pHs an...

Bioenergetics of archaea: Ancient energy conserving mechanisms developed in the early history of life

Lewalter, Kim
Müller, Volker

June 2006

AbstractA key component in cellular bioenergetics is the ATP synthase. The enzyme from archaea repre...

Trail of nucleotides and the traits of ADP/ATP-binding inside the subunits A and B of the archaeal energy producer A1AO ATP synthase

Kumar, Anil

January 2009

Archaea are microorganisms which thrive under extreme environmental conditions. These organisms are ...

Crystallographic details of the nucleotide-binding pocket of subunit A and B of A-ATP synthases and insight into the nucleotide-binding subunit α of the Escherichia coli F-ATP synthases

Vikeramjeet Singh Tadwal

January 2011

Archaea are considered to be the most primitive organisms forming a separate evolutionary kingdom lo...

The stalks of the motor A1A0 ATP synthase come into the focus : structural insight into subunits E, F and H

Gayen, Shovanlal

January 2010

A1AO adenosine triphosphate (ATP) synthases from archaea represent the second class of ATP synthases...

A Na+ A1AO ATP synthase with a V-type c subunit in a mesophilic bacterium

Litty, Dennis
Müller, Volker

December 2019

A1AO ATP synthases with a V-type c subunit have only been found in hyperthermophilic archaea which m...

Promiscuous archaeal ATP synthase concurrently coupled to Na+ and H+ translocation

Schlegel, K.
Leone, V.
Faraldo-Gómez, J.
Müller, V.

January 2012

ATP synthases are the primary source of ATP in all living cells. To catalyze ATP synthesis, these me...

Unravelling structural and mechanistic elements of catalytic subunits A and coupling subunit F and structural and kinetic studies of the A3B3D and A3B3DF-subcomplexes of the Methanosarcina mazei Gö1 provide insights into the single molecule dynamics of this engine

Singh, Dhirendra

January 2017

ATP synthases and ATPases are membrane-bound enzymes that synthesize either ATP from ADP and phospha...

The coupling ion in themethanoarchaealATP synthases: H1 vs.Na1 in theA1AoATP synthase fromthearchaeonMethanosarcinamazei G˛1

Kim Y. Pisa
Claudia Weidner
Heiko Maischak
Holger Kavermann
Correspondence Volker Müller
Microbiology Bioenergetics
Holger Kavermann
Roche Diagnostics

January 2007

Archaea. To establish a system to analyze ATP synthesis by the archaeal A1Ao ATP synthase and to add...

Na+ Transport by the A1AO-ATP Synthase Purified from Thermococcus onnurineus and Reconstituted into Liposomes

Mayer, F.
Lim, J.
Langer, J.
Kang, S.
Müller, V.

March 2015

The ATP synthase of many archaea has the conserved sodium ion binding motif in its rotor subunit, im...

Analyzing conformational changes in single FRET-labeled A1 parts of archaeal A1AO-ATP synthase

Sielaff, Hendrik
Singh, Dhirendra
Grüber, Gerhard
Börsch, Michael

January 2018

ATP synthases utilize a proton motive force to synthesize ATP. In reverse, these membrane-embedded e...

The stator complex of the A1A0-ATP synthase--structural characterization of the E and H subunits.

Kish-Trier, Erik
Briere, Lee-Ann K
Dunn, Stanley D
Wilkens, Stephan

January 2008

Archaeal ATP synthase (A-ATPase) is the functional homolog to the ATP synthase found in bacteria, mi...

The a subunit of the A1AO ATP synthase of Methanosarcina mazei Gö1 contains two conserved arginine residues that are crucial for ATP synthesis

Gloger, Carolin
Born, Anna-Katharina
Antosch, Martin
Müller, Volker

July 2015

AbstractLike the evolutionary related F1FO ATP synthases and V1VO ATPases, the A1AO ATP synthases fr...

Purification of a Crenarchaeal ATP Synthase in the Light of the Unique Bioenergetics of Ignicoccus Species

Kreuter, Lydia J.
Weinfurtner, Andrea
Ziegler, Alexander
Weigl, Julia
Hoffmann, Jan
Morgner, Nina
Müller, Volker
Huber, Harald
Metcalf, William W.

January 2019

In this study, the ATP synthase of Ignicoccus hospitalis was purified, characterized, and structural...

Structure and Subunit Arrangement of the A-type ATP Synthase Complex from the Archaeon Methanococcus jannaschii Visualized by Electron Microscopy*

January 2004

In Archaea, bacteria, and eukarya, ATP provides met-abolic energy for energy-dependent processes. It...

ATP synthases from archaea: The beauty of a molecular motor

Abstract

Extracted data

ATP synthases from archaea: The beauty of a molecular motor

Abstract

Extracted data

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