In chloroplasts, synthesis of ATP is energetically coupled with the utilization of a proton gradient formed by photosynthetic electron transport. The involved enzyme, the chloroplast ATP synthase, can potentially hydrolyze ATP when the magnitude of the transmembrane electrochemical potential difference of protons (Δμ
F0F1-ATP synthases use the free energy derived from a transmembrane proton transport to synthesize A...
INTRODUCTION: Green plant chloroplasts convert light into chemical energy, and adenosine triphosphat...
F0F1-ATP synthases use the free energy derived from a transmembrane proton transport to synthesize A...
AbstractIn chloroplasts, synthesis of ATP is energetically coupled with the utilization of a proton ...
AbstractIn chloroplasts, synthesis of ATP is energetically coupled with the utilization of a proton ...
ATP synthase is the universal enzyme that manufac-tures cellular ATP using the energy stored in a tr...
AbstractElectron transport, the proton gradient and ATP synthesis were determined in thylakoids that...
The H+-translocating ATPase (“ATP-synthase”) from chloroplasts is a membrane-bound enzyme which can ...
AbstractChloroplast ATP synthase synthesizes ATP by utilizing a proton gradient as an energy supply,...
Biological processes in all living cells are powered by ATP, a nearly universal molecule of energy t...
AbstractIn this paper the authors emphasise that the proton translocating ATP synthase from thiol-mo...
AbstractElectron transport, the proton gradient and ATP synthesis were determined in thylakoids that...
In plants, photosynthesis converts light energy into organic carbon through the transient production...
ATP synthases convert an electrochemical proton gradient into rotational movement to produce the ubi...
ABSTRACT: Using a new method of delayed luminescence digital imaging, mutants of Chlorella sorokinia...
F0F1-ATP synthases use the free energy derived from a transmembrane proton transport to synthesize A...
INTRODUCTION: Green plant chloroplasts convert light into chemical energy, and adenosine triphosphat...
F0F1-ATP synthases use the free energy derived from a transmembrane proton transport to synthesize A...
AbstractIn chloroplasts, synthesis of ATP is energetically coupled with the utilization of a proton ...
AbstractIn chloroplasts, synthesis of ATP is energetically coupled with the utilization of a proton ...
ATP synthase is the universal enzyme that manufac-tures cellular ATP using the energy stored in a tr...
AbstractElectron transport, the proton gradient and ATP synthesis were determined in thylakoids that...
The H+-translocating ATPase (“ATP-synthase”) from chloroplasts is a membrane-bound enzyme which can ...
AbstractChloroplast ATP synthase synthesizes ATP by utilizing a proton gradient as an energy supply,...
Biological processes in all living cells are powered by ATP, a nearly universal molecule of energy t...
AbstractIn this paper the authors emphasise that the proton translocating ATP synthase from thiol-mo...
AbstractElectron transport, the proton gradient and ATP synthesis were determined in thylakoids that...
In plants, photosynthesis converts light energy into organic carbon through the transient production...
ATP synthases convert an electrochemical proton gradient into rotational movement to produce the ubi...
ABSTRACT: Using a new method of delayed luminescence digital imaging, mutants of Chlorella sorokinia...
F0F1-ATP synthases use the free energy derived from a transmembrane proton transport to synthesize A...
INTRODUCTION: Green plant chloroplasts convert light into chemical energy, and adenosine triphosphat...
F0F1-ATP synthases use the free energy derived from a transmembrane proton transport to synthesize A...
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