AbstractFoF1 ATPase is the universal protein responsible for ATP synthesis. The enzyme comprises two reversible rotary motors: Fo is either an ion ‘turbine’ or an ion pump, and F1 is either a hydrolysis motor or an ATP synthesizer. Recent biophysical and biochemical studies have helped to elucidate the operating principles for both motors
Protonmotive force produced by the electron transport chain is harnessed by the rotary molecular nan...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
AbstractA single molecule of F1-ATPase, a portion of ATP synthase, is by itself a rotary motor in wh...
AbstractFoF1 ATPase is the universal protein responsible for ATP synthesis. The enzyme comprises two...
AbstractATP synthase comprises two rotary motors in one. The F1 motor can generate a mechanical torq...
Many essential functions of living cells are performed by nanoscale protein motors. The best charact...
AbstractThe F0F1 ATP synthase functions as a rotary motor where subunit rotation driven by a current...
We summarize the different types of single molecule experiments on the F₁ component of F₀F₁-ATP Synt...
AbstractATP synthase (F-ATPase) produces ATP at the expense of ion-motive force or vice versa. It is...
AbstractProton translocating ATPase (ATP synthase), a chemiosmotic enzyme, synthesizes ATP from ADP ...
AbstractATP, the universal carrier of cell energy is manufactured from ADP and phosphate by the enzy...
AbstractATP synthase comprises two rotary motors in one. The F1 motor can generate a mechanical torq...
AbstractATP synthase uses a rotary mechanism to carry out its cellular function of manufacturing ATP...
AbstractCoupling with electrochemical proton gradient, ATP synthase (F0F1) synthesizes ATP from ADP ...
AbstractMost of the cellular ATP in living organisms is synthesized by the enzyme F1Fo-ATP synthase....
Protonmotive force produced by the electron transport chain is harnessed by the rotary molecular nan...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
AbstractA single molecule of F1-ATPase, a portion of ATP synthase, is by itself a rotary motor in wh...
AbstractFoF1 ATPase is the universal protein responsible for ATP synthesis. The enzyme comprises two...
AbstractATP synthase comprises two rotary motors in one. The F1 motor can generate a mechanical torq...
Many essential functions of living cells are performed by nanoscale protein motors. The best charact...
AbstractThe F0F1 ATP synthase functions as a rotary motor where subunit rotation driven by a current...
We summarize the different types of single molecule experiments on the F₁ component of F₀F₁-ATP Synt...
AbstractATP synthase (F-ATPase) produces ATP at the expense of ion-motive force or vice versa. It is...
AbstractProton translocating ATPase (ATP synthase), a chemiosmotic enzyme, synthesizes ATP from ADP ...
AbstractATP, the universal carrier of cell energy is manufactured from ADP and phosphate by the enzy...
AbstractATP synthase comprises two rotary motors in one. The F1 motor can generate a mechanical torq...
AbstractATP synthase uses a rotary mechanism to carry out its cellular function of manufacturing ATP...
AbstractCoupling with electrochemical proton gradient, ATP synthase (F0F1) synthesizes ATP from ADP ...
AbstractMost of the cellular ATP in living organisms is synthesized by the enzyme F1Fo-ATP synthase....
Protonmotive force produced by the electron transport chain is harnessed by the rotary molecular nan...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
AbstractA single molecule of F1-ATPase, a portion of ATP synthase, is by itself a rotary motor in wh...
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