Protonmotive force produced by the electron transport chain is harnessed by the rotary molecular nanomotor ATP synthase to generate ATP. In this issue of Cell, Adachi et al. (2007), in a dazzling display of technical sophistication, now disentangle the coupling between the mechanical force generated by rotation of the ATP synthase subunits and the chemical reactions that occur simultaneously at the enzyme's three catalytic sites
AbstractTopical questions in ATP synthase research are: (1) how do protons cause subunit rotation an...
this article, we focus on these three motors. There are other protein motors that are thought to be ...
AbstractF1-ATPase (F1), a rotary motor protein driven by ATP hydrolysis, is unique with respect to i...
Protonmotive force produced by the electron transport chain is harnessed by the rotary molecular nan...
ATP, the main biological energy currency, is synthesized from ADP and inorganic phosphate by ATP syn...
F<sub>1</sub>-ATPase is a highly efficient molecular motor that can synthesize ATP driven by a mecha...
AbstractProton translocating ATPase (ATP synthase), a chemiosmotic enzyme, synthesizes ATP from ADP ...
AbstractATP synthase comprises two rotary motors in one. The F1 motor can generate a mechanical torq...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
ABSTRACT F1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell...
FO-ATP synthase (FO) is a rotary motor that converts potential energy from ions, usually protons, mo...
dem 1 J line alytic synthesis of ATP from ADP and phosphate uses cial force [4]. But direct observat...
We present a chemomechanical network model of the rotary molecular motor F1-ATPase which quantitativ...
ATP synthase contains two rotary motors coupled back-to-back: the protonmotive force-driven motor F0...
Despite exhaustive chemical and crystal structure studies, the mechanistic details of how F o F 1 -A...
AbstractTopical questions in ATP synthase research are: (1) how do protons cause subunit rotation an...
this article, we focus on these three motors. There are other protein motors that are thought to be ...
AbstractF1-ATPase (F1), a rotary motor protein driven by ATP hydrolysis, is unique with respect to i...
Protonmotive force produced by the electron transport chain is harnessed by the rotary molecular nan...
ATP, the main biological energy currency, is synthesized from ADP and inorganic phosphate by ATP syn...
F<sub>1</sub>-ATPase is a highly efficient molecular motor that can synthesize ATP driven by a mecha...
AbstractProton translocating ATPase (ATP synthase), a chemiosmotic enzyme, synthesizes ATP from ADP ...
AbstractATP synthase comprises two rotary motors in one. The F1 motor can generate a mechanical torq...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
ABSTRACT F1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell...
FO-ATP synthase (FO) is a rotary motor that converts potential energy from ions, usually protons, mo...
dem 1 J line alytic synthesis of ATP from ADP and phosphate uses cial force [4]. But direct observat...
We present a chemomechanical network model of the rotary molecular motor F1-ATPase which quantitativ...
ATP synthase contains two rotary motors coupled back-to-back: the protonmotive force-driven motor F0...
Despite exhaustive chemical and crystal structure studies, the mechanistic details of how F o F 1 -A...
AbstractTopical questions in ATP synthase research are: (1) how do protons cause subunit rotation an...
this article, we focus on these three motors. There are other protein motors that are thought to be ...
AbstractF1-ATPase (F1), a rotary motor protein driven by ATP hydrolysis, is unique with respect to i...
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