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author Bukhdruker, Sergey
Gushchin, Ivan
Shevchenko, Vitaly
Kovalev, Kirill
Polovinkin, Vitaly
Tsybrov, Fedor
Astashkin, Roman
Alekseev, Alexey
Mikhaylov, Anatoly
Bukhalovich, Siarhei
Bratanov, Dmitry
Ryzhykau, Yury
Kuklina, Daria
Caramello, Nicolas
Rokitskaya, Tatyana
Antonenko, Yuri
Rulev, Maksim
Stoev, Chavdar
Zabelskii, Dmitrii
Round, Ekaterina
Rogachev, Andrey
Borshchevskiy, Valentin
Ghai, Rohit
Bourenkov, Gleb
Zeghouf, Mahel
Cherfils, Jacqueline
Engelhard, Martin
Chizhov, Igor
Rodriguez-Valera, Francisco
Bamberg, Ernst
Gordeliy, Valentin
author_facet Bukhdruker, Sergey
Gushchin, Ivan
Shevchenko, Vitaly
Kovalev, Kirill
Polovinkin, Vitaly
Tsybrov, Fedor
Astashkin, Roman
Alekseev, Alexey
Mikhaylov, Anatoly
Bukhalovich, Siarhei
Bratanov, Dmitry
Ryzhykau, Yury
Kuklina, Daria
Caramello, Nicolas
Rokitskaya, Tatyana
Antonenko, Yuri
Rulev, Maksim
Stoev, Chavdar
Zabelskii, Dmitrii
Round, Ekaterina
Rogachev, Andrey
Borshchevskiy, Valentin
Ghai, Rohit
Bourenkov, Gleb
Zeghouf, Mahel
Cherfils, Jacqueline
Engelhard, Martin
Chizhov, Igor
Rodriguez-Valera, Francisco
Bamberg, Ernst
Gordeliy, Valentin
Bukhdruker, Sergey
Gushchin, Ivan
Shevchenko, Vitaly
Kovalev, Kirill
Polovinkin, Vitaly
Tsybrov, Fedor
Astashkin, Roman
Alekseev, Alexey
Mikhaylov, Anatoly
Bukhalovich, Siarhei
Bratanov, Dmitry
Ryzhykau, Yury
Kuklina, Daria
Caramello, Nicolas
Rokitskaya, Tatyana
Antonenko, Yuri
Rulev, Maksim
Stoev, Chavdar
Zabelskii, Dmitrii
Round, Ekaterina
Rogachev, Andrey
Borshchevskiy, Valentin
Ghai, Rohit
Bourenkov, Gleb
Zeghouf, Mahel
Cherfils, Jacqueline
Engelhard, Martin
Chizhov, Igor
Rodriguez-Valera, Francisco
Bamberg, Ernst
Gordeliy, Valentin
collection PubMed - marine biology
contents Proteorhodopsin insights into the molecular mechanism of vectorial proton transport. Bukhdruker, Sergey Gushchin, Ivan Shevchenko, Vitaly Kovalev, Kirill Polovinkin, Vitaly Tsybrov, Fedor Astashkin, Roman Alekseev, Alexey Mikhaylov, Anatoly Bukhalovich, Siarhei Bratanov, Dmitry Ryzhykau, Yury Kuklina, Daria Caramello, Nicolas Rokitskaya, Tatyana Antonenko, Yuri Rulev, Maksim Stoev, Chavdar Zabelskii, Dmitrii Round, Ekaterina Rogachev, Andrey Borshchevskiy, Valentin Ghai, Rohit Bourenkov, Gleb Zeghouf, Mahel Cherfils, Jacqueline Engelhard, Martin Chizhov, Igor Rodriguez-Valera, Francisco Bamberg, Ernst Gordeliy, Valentin Protons Rhodopsins, Microbial Hydrogen Bonding Models, Molecular Proton Pumps Protein Conformation 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.
format Artículo científico
id pubmed_40238873
institution PubMed
language en
publishDate 2025
publisher Science advances
record_format pubmed
spellingShingle Proteorhodopsin insights into the molecular mechanism of vectorial proton transport.
Bukhdruker, Sergey
Gushchin, Ivan
Shevchenko, Vitaly
Kovalev, Kirill
Polovinkin, Vitaly
Tsybrov, Fedor
Astashkin, Roman
Alekseev, Alexey
Mikhaylov, Anatoly
Bukhalovich, Siarhei
Bratanov, Dmitry
Ryzhykau, Yury
Kuklina, Daria
Caramello, Nicolas
Rokitskaya, Tatyana
Antonenko, Yuri
Rulev, Maksim
Stoev, Chavdar
Zabelskii, Dmitrii
Round, Ekaterina
Rogachev, Andrey
Borshchevskiy, Valentin
Ghai, Rohit
Bourenkov, Gleb
Zeghouf, Mahel
Cherfils, Jacqueline
Engelhard, Martin
Chizhov, Igor
Rodriguez-Valera, Francisco
Bamberg, Ernst
Gordeliy, Valentin
Protons
Rhodopsins, Microbial
Hydrogen Bonding
Models, Molecular
Proton Pumps
Protein Conformation
Proteorhodopsin insights into the molecular mechanism of vectorial proton transport. Bukhdruker, Sergey Gushchin, Ivan Shevchenko, Vitaly Kovalev, Kirill Polovinkin, Vitaly Tsybrov, Fedor Astashkin, Roman Alekseev, Alexey Mikhaylov, Anatoly Bukhalovich, Siarhei Bratanov, Dmitry Ryzhykau, Yury Kuklina, Daria Caramello, Nicolas Rokitskaya, Tatyana Antonenko, Yuri Rulev, Maksim Stoev, Chavdar Zabelskii, Dmitrii Round, Ekaterina Rogachev, Andrey Borshchevskiy, Valentin Ghai, Rohit Bourenkov, Gleb Zeghouf, Mahel Cherfils, Jacqueline Engelhard, Martin Chizhov, Igor Rodriguez-Valera, Francisco Bamberg, Ernst Gordeliy, Valentin Protons Rhodopsins, Microbial Hydrogen Bonding Models, Molecular Proton Pumps Protein Conformation 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.
title Proteorhodopsin insights into the molecular mechanism of vectorial proton transport.
topic Protons
Rhodopsins, Microbial
Hydrogen Bonding
Models, Molecular
Proton Pumps
Protein Conformation
url https://pubmed.ncbi.nlm.nih.gov/40238873/