Add to ORKGA molecular model that provides a framework for interpreting the wealth of functional information obtained on the E. coli F-ATP synthase has been generated using cryo-electron microscopy. Three different states that relate to rotation of the enzyme were observed, with the central stalk’s ε subunit in an extended autoinhibitory conformation in all three states. The Fo motor comprises of seven transmembrane helices and a decameric c-ring and invaginations on either side of the membrane indicate the entry and exit channels for protons. The proton translocating subunit contains near parallel helices inclined by ~30° to the membrane, a feature now synonymous with rotary ATPases. For the first time in this rotary ATPase subtype, the peripheral st...
ABSTRACT F1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
AbstractH+-transporting, F1Fo-type ATP synthases utilize a transmembrane H+ potential to drive ATP f...
A molecular model that provides a framework for interpreting the wealth of functional information ob...
A molecular model that provides a framework for interpreting the wealth of functional information ob...
F1Fo ATP synthase functions as a biological rotary generator that makes a major contribution to cell...
F1 Fo ATP synthases produce most of the ATP in the cell. F-type ATP synthases have been investigated...
Adenosine triphosphate (ATP) is the molecular currency of intracellular energy transfer in living or...
Adenosine triphosphate (ATP), the chemical energy currency of biology, is synthesized in eukaryotic ...
AbstractF1F0 ATP synthases are known to synthesize ATP by rotary catalysis in the F1 sector of the e...
Adenosine triphosphate (ATP), the energy currency of cellular biology, is synthesized by the mitocho...
F-ATP synthases use proton flow through the FO domain to synthesize ATP in the F1 domain. In Escheri...
F1-Fo-adenosine triphosphate (ATP) synthases make the energy of the proton-motive force available fo...
Recent work has provided the detailed overall architecture and subunit composition of three subtypes...
AbstractThe structure of monodisperse ATP synthase from Escherichia coli (ECF1F0) has been examined ...
ABSTRACT F1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
AbstractH+-transporting, F1Fo-type ATP synthases utilize a transmembrane H+ potential to drive ATP f...
A molecular model that provides a framework for interpreting the wealth of functional information ob...
A molecular model that provides a framework for interpreting the wealth of functional information ob...
F1Fo ATP synthase functions as a biological rotary generator that makes a major contribution to cell...
F1 Fo ATP synthases produce most of the ATP in the cell. F-type ATP synthases have been investigated...
Adenosine triphosphate (ATP) is the molecular currency of intracellular energy transfer in living or...
Adenosine triphosphate (ATP), the chemical energy currency of biology, is synthesized in eukaryotic ...
AbstractF1F0 ATP synthases are known to synthesize ATP by rotary catalysis in the F1 sector of the e...
Adenosine triphosphate (ATP), the energy currency of cellular biology, is synthesized by the mitocho...
F-ATP synthases use proton flow through the FO domain to synthesize ATP in the F1 domain. In Escheri...
F1-Fo-adenosine triphosphate (ATP) synthases make the energy of the proton-motive force available fo...
Recent work has provided the detailed overall architecture and subunit composition of three subtypes...
AbstractThe structure of monodisperse ATP synthase from Escherichia coli (ECF1F0) has been examined ...
ABSTRACT F1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell...
AbstractF1Fo-ATP synthase is a ubiquitous membrane protein complex that efficiently converts a cell'...
AbstractH+-transporting, F1Fo-type ATP synthases utilize a transmembrane H+ potential to drive ATP f...