Chemomechanical coupling of human mitochondrial F1-ATPase motor

A single-molecule study of the dwell times and other features along the full rotation for the human mitochondrial F 1 -ATPase positions the catalytic events (ATP binding, P i release and ATP hydrolysis) and reveals differences from the bacterial system. The rotary motor enzyme F 1 -ATPase (F 1 ) is...

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Published in	Nature chemical biology Vol. 10; no. 11; pp. 930 - 936
Main Authors	Suzuki, Toshiharu, Tanaka, Kazumi, Wakabayashi, Chiaki, Saita, Ei-ichiro, Yoshida, Masasuke
Format	Journal Article
Language	English
Published	New York Nature Publishing Group US 01.11.2014 Nature Publishing Group
Subjects	631/45 631/57 631/57/2265 631/92/173 Adenosine diphosphate Adenosine Triphosphate - metabolism ATP Azides - pharmacology Biocatalysis - drug effects Biochemical Engineering Biochemistry Bioorganic Chemistry Cell Biology Cellular biology Chemistry Chemistry/Food Science Enzymes Humans Hydrolysis Hydrolysis - drug effects Mitochondria Mitochondria - enzymology Models, Molecular Proton-Translocating ATPases - antagonists & inhibitors Proton-Translocating ATPases - chemistry Proton-Translocating ATPases - metabolism Respiration Rotation
Online Access	Get full text
ISSN	1552-4450 1552-4469 1552-4469
DOI	10.1038/nchembio.1635

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Abstract	A single-molecule study of the dwell times and other features along the full rotation for the human mitochondrial F 1 -ATPase positions the catalytic events (ATP binding, P i release and ATP hydrolysis) and reveals differences from the bacterial system. The rotary motor enzyme F 1 -ATPase (F 1 ) is a catalytic subcomplex of F o F 1 -ATP synthase that produces most of the ATP in respiring cells. Chemomechanical coupling has been studied extensively for bacterial F 1 but very little for mitochondrial F 1 . Here we report ATP-driven rotation of human mitochondrial F 1 . A rotor-shaft γ-subunit in the stator α 3 β 3 ring rotates 120° per ATP with three catalytic steps: ATP binding to one β-subunit at 0°, inorganic phosphate (P i ) release from another β-subunit at 65° and ATP hydrolysis on the third β-subunit at 90°. Rotation is often interrupted at 90° by persistent ADP binding and is stalled at 65° by a specific inhibitor azide. A mitochondrial endogenous inhibitor for F o F 1 -ATP synthase, IF1, blocks rotation at 90°. These features differ from those of bacterial F 1 , in which both ATP hydrolysis and P i release occur at around 80°, demonstrating that chemomechanical coupling angles of the γ-subunit are tuned during evolution.
AbstractList	The rotary motor enzyme F1-ATPase (F1) is a catalytic subcomplex of FoF1-ATP synthase that produces most of the ATP in respiring cells. Chemomechanical coupling has been studied extensively for bacterial F1 but very little for mitochondrial F1. Here we report ATP-driven rotation of human mitochondrial F1. A rotor-shaft γ-subunit in the stator α3[beta]3 ring rotates 120° per ATP with three catalytic steps: ATP binding to one [beta]-subunit at 0°, inorganic phosphate (Pi) release from another [beta]-subunit at 65° and ATP hydrolysis on the third [beta]-subunit at 90°. Rotation is often interrupted at 90° by persistent ADP binding and is stalled at 65° by a specific inhibitor azide. A mitochondrial endogenous inhibitor for FoF1-ATP synthase, IF1, blocks rotation at 90°. These features differ from those of bacterial F1, in which both ATP hydrolysis and Pi release occur at around 80°, demonstrating that chemomechanical coupling angles of the γ-subunit are tuned during evolution. A single-molecule study of the dwell times and other features along the full rotation for the human mitochondrial F 1 -ATPase positions the catalytic events (ATP binding, P i release and ATP hydrolysis) and reveals differences from the bacterial system. The rotary motor enzyme F 1 -ATPase (F 1 ) is a catalytic subcomplex of F o F 1 -ATP synthase that produces most of the ATP in respiring cells. Chemomechanical coupling has been studied extensively for bacterial F 1 but very little for mitochondrial F 1 . Here we report ATP-driven rotation of human mitochondrial F 1 . A rotor-shaft γ-subunit in the stator α 3 β 3 ring rotates 120° per ATP with three catalytic steps: ATP binding to one β-subunit at 0°, inorganic phosphate (P i ) release from another β-subunit at 65° and ATP hydrolysis on the third β-subunit at 90°. Rotation is often interrupted at 90° by persistent ADP binding and is stalled at 65° by a specific inhibitor azide. A mitochondrial endogenous inhibitor for F o F 1 -ATP synthase, IF1, blocks rotation at 90°. These features differ from those of bacterial F 1 , in which both ATP hydrolysis and P i release occur at around 80°, demonstrating that chemomechanical coupling angles of the γ-subunit are tuned during evolution. The rotary motor enzyme F1-ATPase (F1) is a catalytic subcomplex of FoF1-ATP synthase that produces most of the ATP in respiring cells. Chemomechanical coupling has been studied extensively for bacterial F1 but very little for mitochondrial F1. Here we report ATP-driven rotation of human mitochondrial F1. A rotor-shaft γ-subunit in the stator α3β3 ring rotates 120° per ATP with three catalytic steps: ATP binding to one β-subunit at 0°, inorganic phosphate (Pi) release from another β-subunit at 65° and ATP hydrolysis on the third β-subunit at 90°. Rotation is often interrupted at 90° by persistent ADP binding and is stalled at 65° by a specific inhibitor azide. A mitochondrial endogenous inhibitor for FoF1-ATP synthase, IF1, blocks rotation at 90°. These features differ from those of bacterial F1, in which both ATP hydrolysis and Pi release occur at around 80°, demonstrating that chemomechanical coupling angles of the γ-subunit are tuned during evolution.The rotary motor enzyme F1-ATPase (F1) is a catalytic subcomplex of FoF1-ATP synthase that produces most of the ATP in respiring cells. Chemomechanical coupling has been studied extensively for bacterial F1 but very little for mitochondrial F1. Here we report ATP-driven rotation of human mitochondrial F1. A rotor-shaft γ-subunit in the stator α3β3 ring rotates 120° per ATP with three catalytic steps: ATP binding to one β-subunit at 0°, inorganic phosphate (Pi) release from another β-subunit at 65° and ATP hydrolysis on the third β-subunit at 90°. Rotation is often interrupted at 90° by persistent ADP binding and is stalled at 65° by a specific inhibitor azide. A mitochondrial endogenous inhibitor for FoF1-ATP synthase, IF1, blocks rotation at 90°. These features differ from those of bacterial F1, in which both ATP hydrolysis and Pi release occur at around 80°, demonstrating that chemomechanical coupling angles of the γ-subunit are tuned during evolution. The rotary motor enzyme F1-ATPase (F1) is a catalytic subcomplex of FoF1-ATP synthase that produces most of the ATP in respiring cells. Chemomechanical coupling has been studied extensively for bacterial F1 but very little for mitochondrial F1. Here we report ATP-driven rotation of human mitochondrial F1. A rotor-shaft γ-subunit in the stator α3β3 ring rotates 120° per ATP with three catalytic steps: ATP binding to one β-subunit at 0°, inorganic phosphate (Pi) release from another β-subunit at 65° and ATP hydrolysis on the third β-subunit at 90°. Rotation is often interrupted at 90° by persistent ADP binding and is stalled at 65° by a specific inhibitor azide. A mitochondrial endogenous inhibitor for FoF1-ATP synthase, IF1, blocks rotation at 90°. These features differ from those of bacterial F1, in which both ATP hydrolysis and Pi release occur at around 80°, demonstrating that chemomechanical coupling angles of the γ-subunit are tuned during evolution.
Author	Tanaka, Kazumi Saita, Ei-ichiro Suzuki, Toshiharu Wakabayashi, Chiaki Yoshida, Masasuke
Author_xml	– sequence: 1 givenname: Toshiharu surname: Suzuki fullname: Suzuki, Toshiharu email: toshisuz@aoni.waseda.jp organization: Faculty of Science and Engineering, Waseda University, Shinjuku-ku, ATP Synthesis Regulation Project, International Research Project (ICORP), Japan Science and Technology Corporation (JST), Miraikan, Koto-ku, Chemical Resources Laboratory, Tokyo Institute of Technology, Nagatsuta – sequence: 2 givenname: Kazumi surname: Tanaka fullname: Tanaka, Kazumi organization: ATP Synthesis Regulation Project, International Research Project (ICORP), Japan Science and Technology Corporation (JST), Miraikan, Koto-ku, Department of Molecular Bioscience, Kyoto-Sangyo University, Kamigamomotoyama – sequence: 3 givenname: Chiaki surname: Wakabayashi fullname: Wakabayashi, Chiaki organization: ATP Synthesis Regulation Project, International Research Project (ICORP), Japan Science and Technology Corporation (JST), Miraikan, Koto-ku – sequence: 4 givenname: Ei-ichiro surname: Saita fullname: Saita, Ei-ichiro organization: ATP Synthesis Regulation Project, International Research Project (ICORP), Japan Science and Technology Corporation (JST), Miraikan, Koto-ku, Department of Molecular Bioscience, Kyoto-Sangyo University, Kamigamomotoyama – sequence: 5 givenname: Masasuke surname: Yoshida fullname: Yoshida, Masasuke email: masasuke.yoshida@cc.kyoto-su.ac.jp organization: Faculty of Science and Engineering, Waseda University, Shinjuku-ku, ATP Synthesis Regulation Project, International Research Project (ICORP), Japan Science and Technology Corporation (JST), Miraikan, Koto-ku, Department of Molecular Bioscience, Kyoto-Sangyo University, Kamigamomotoyama
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Snippet	A single-molecule study of the dwell times and other features along the full rotation for the human mitochondrial F 1 -ATPase positions the catalytic events... The rotary motor enzyme F1-ATPase (F1) is a catalytic subcomplex of FoF1-ATP synthase that produces most of the ATP in respiring cells. Chemomechanical...
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SubjectTerms	631/45 631/57 631/57/2265 631/92/173 Adenosine diphosphate Adenosine Triphosphate - metabolism ATP Azides - pharmacology Biocatalysis - drug effects Biochemical Engineering Biochemistry Bioorganic Chemistry Cell Biology Cellular biology Chemistry Chemistry/Food Science Enzymes Humans Hydrolysis Hydrolysis - drug effects Mitochondria Mitochondria - enzymology Models, Molecular Proton-Translocating ATPases - antagonists & inhibitors Proton-Translocating ATPases - chemistry Proton-Translocating ATPases - metabolism Respiration Rotation
Title	Chemomechanical coupling of human mitochondrial F1-ATPase motor
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