Add to ORKGATP synthases are rotary engines which use the energy stored in a transmembrane electrochemical gradient of protons or sodium ions to catalyze the formation of ATP by ADP and inorganic phosphate. Current models predict that protonation/deprotonation of specific amino acids of the rotating c-ring, extracting protons from one side and delivering them to the other side of the membrane, are at the core of the proton translocation mechanism of these enzymes. In this minireview, an alternative proton binding mechanism is presented, considering hydronium ion coordination as proposed earlier. Biochemical data and structural considerations provide evidence for two different proton binding modes in the c-ring of H+-translocating ATP synthases. Recent...
AbstractATP, the universal carrier of cell energy is manufactured from ADP and phosphate by the enzy...
AbstractH+-transporting, F1Fo-type ATP synthases utilize a transmembrane H+ potential to drive ATP f...
Adenosine triphosphate (ATP) is the molecular currency of intracellular energy transfer in living or...
AbstractIn recent years, structural information on the F1 sector of the ATP synthase has provided an...
AbstractH+-transporting, F1Fo-type ATP synthases utilize a transmembrane H+ potential to drive ATP f...
All rotary ATPases catalyse the interconversion of ATP and ADP-Pi through a mechanism that is couple...
We solved the crystal structure of a novel type of c-ring isolated from Bacillus pseudofirmus OF4 at...
AbstractA recently determined atomic structure of an H+-coupled ATP-synthase membrane rotor has revi...
AbstractH+-transporting F1Fo ATP synthase catalyzes the synthesis of ATP via coupled rotary motors w...
AbstractCoupling with electrochemical proton gradient, ATP synthase (F0F1) synthesizes ATP from ADP ...
A recently determined atomic structure of an H(+)-coupled ATP-synthase membrane rotor has revived th...
AbstractThe functional mechanism of the F1Fo ATP synthase, like many membrane transporters and pumps...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
AbstractTopical questions in ATP synthase research are: (1) how do protons cause subunit rotation an...
The functional mechanism of the F1Fo ATP synthase, like many membrane transporters and pumps, entail...
AbstractATP, the universal carrier of cell energy is manufactured from ADP and phosphate by the enzy...
AbstractH+-transporting, F1Fo-type ATP synthases utilize a transmembrane H+ potential to drive ATP f...
Adenosine triphosphate (ATP) is the molecular currency of intracellular energy transfer in living or...
AbstractIn recent years, structural information on the F1 sector of the ATP synthase has provided an...
AbstractH+-transporting, F1Fo-type ATP synthases utilize a transmembrane H+ potential to drive ATP f...
All rotary ATPases catalyse the interconversion of ATP and ADP-Pi through a mechanism that is couple...
We solved the crystal structure of a novel type of c-ring isolated from Bacillus pseudofirmus OF4 at...
AbstractA recently determined atomic structure of an H+-coupled ATP-synthase membrane rotor has revi...
AbstractH+-transporting F1Fo ATP synthase catalyzes the synthesis of ATP via coupled rotary motors w...
AbstractCoupling with electrochemical proton gradient, ATP synthase (F0F1) synthesizes ATP from ADP ...
A recently determined atomic structure of an H(+)-coupled ATP-synthase membrane rotor has revived th...
AbstractThe functional mechanism of the F1Fo ATP synthase, like many membrane transporters and pumps...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
AbstractTopical questions in ATP synthase research are: (1) how do protons cause subunit rotation an...
The functional mechanism of the F1Fo ATP synthase, like many membrane transporters and pumps, entail...
AbstractATP, the universal carrier of cell energy is manufactured from ADP and phosphate by the enzy...
AbstractH+-transporting, F1Fo-type ATP synthases utilize a transmembrane H+ potential to drive ATP f...
Adenosine triphosphate (ATP) is the molecular currency of intracellular energy transfer in living or...