ATP synthase activity boosts membrane proton acceptance and lateral diffusion
Hendrik Flegel, Ambili Ramanthrikkovil Variyam, Nadav Amdursky, Claudia Steinem

TL;DR
This study shows that ATP synthase activity enhances proton transfer and diffusion in membranes, helping explain how ATP is made even when proton motive force seems low.
Contribution
The paper provides direct evidence for localized proton coupling between proton pumps and ATP synthase via membrane-mediated proton transfer.
Findings
ATP synthase activity boosts ultrafast proton transfer and lateral diffusion in the membrane.
Protons consumed by ATP synthase do not equilibrate with the bulk aqueous phase but move along the membrane interface.
Membrane itself acts as an active participant in proton translocation during ATP synthesis.
Abstract
The proton motive force (pmf) drives adenosine triphosphate (ATP) synthesis in living organisms. However, there are instances where the pmf appears to be insufficient to fuel ATP production. Indirect studies have suggested that lateral proton coupling between proton pumps (pmf generators) and ATP synthase (the proton consumer) may help overcome this challenge, but direct proof has been lacking. To address this knowledge gap, we co-reconstituted a membrane-anchored photoacid with an active FOF1 ATP synthase in unilamellar vesicles. If the synthase produced ATP, we observed ultrafast proton transfer from the photoacid and membrane-confined proton diffusion. This finding suggests that protons are locally coupled between the proton sources and consumers and may explain why an apparently insufficient pmf still drives ATP-synthesis. In most organisms, ATP synthesis is powered by the proton…
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Taxonomy
TopicsATP Synthase and ATPases Research · Photosynthetic Processes and Mechanisms · Photoreceptor and optogenetics research
