Article Synopsis
- Bacterial proton pumps called proteorhodopsins (PRs) are unique light-driven membrane proteins found in marine bacteria, differing significantly from similar proteins in archaea and eukaryotes.
- To better understand how PRs transfer protons and how they compare to nonbacterial pumps, high-resolution structures of these proteins in their functional states are essential.
- This study presents atomic-resolution structures of a marine PR, MAR, especially in the complex late O intermediate state, revealing critical features for light-driven proton pumping, such as long hydrogen-bonded pathways, short hydrogen bonds for proton storage, and the role of the retinal Schiff base as the main proton donor and acceptor.
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Article Abstract
Bacterial proton pumps, proteorhodopsins (PRs), are a major group of light-driven membrane proteins found in marine bacteria. They are functionally and structurally distinct from archaeal and eukaryotic proton pumps. To elucidate the proton transfer mechanism by PRs and understand the differences to nonbacterial pumps on a molecular level, high-resolution structures of PRs' functional states are needed. In this work, we have determined atomic-resolution structures of MAR, a PR from marine actinobacteria, in various functional states, notably the challenging late O intermediate state. These data and information from recent atomic-resolution structures on an archaeal outward proton pump bacteriorhodopsin and bacterial inward proton pump xenorhodopsin allow for deducing key universal elements for light-driven proton pumping. First, long hydrogen-bonded chains characterize proton pathways. Second, short hydrogen bonds allow proton storage and inhibit their backflow. Last, the retinal Schiff base is the active proton donor and acceptor to and from hydrogen-bonded chains.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12002130 | PMC |
| http://dx.doi.org/10.1126/sciadv.adu5303 | DOI Listing |
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