Functional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterization

Functional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterization

Abstract Microbial rhodopsins are photoswitchable seven-transmembrane proteins that are widely distributed in three domains of life, archaea, bacteria and eukarya. Rhodopsins allow the transport of protons outwardly across the membrane and are indispensable for light-energy conversion in microorgani...

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Main Authors: Masuzu Kikuchi, Keiichi Kojima, Shin Nakao, Susumu Yoshizawa, Shiho Kawanishi, Atsushi Shibukawa, Takashi Kikukawa, Yuki Sudo
Format: Article
Language:English
Published: Nature Publishing Group 2021-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-94181-w
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spelling doaj-364fd69ca7db4c9e8dd68a338b8bba712021-07-25T11:25:42ZengNature Publishing GroupScientific Reports2045-23222021-07-0111111310.1038/s41598-021-94181-wFunctional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterizationMasuzu Kikuchi0Keiichi Kojima1Shin Nakao2Susumu Yoshizawa3Shiho Kawanishi4Atsushi Shibukawa5Takashi Kikukawa6Yuki Sudo7Division of Pharmaceutical Sciences, Okayama UniversityDivision of Pharmaceutical Sciences, Okayama UniversityDivision of Pharmaceutical Sciences, Okayama UniversityAtmosphere and Ocean Research Institute, The University of TokyoGraduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama UniversityGraduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama UniversityFaculty of Advanced Life Science, Hokkaido UniversityDivision of Pharmaceutical Sciences, Okayama UniversityAbstract Microbial rhodopsins are photoswitchable seven-transmembrane proteins that are widely distributed in three domains of life, archaea, bacteria and eukarya. Rhodopsins allow the transport of protons outwardly across the membrane and are indispensable for light-energy conversion in microorganisms. Archaeal and bacterial proton pump rhodopsins have been characterized using an Escherichia coli expression system because that enables the rapid production of large amounts of recombinant proteins, whereas no success has been reported for eukaryotic rhodopsins. Here, we report a phylogenetically distinct eukaryotic rhodopsin from the dinoflagellate Oxyrrhis marina (O. marina rhodopsin-2, OmR2) that can be expressed in E. coli cells. E. coli cells harboring the OmR2 gene showed an outward proton-pumping activity, indicating its functional expression. Spectroscopic characterization of the purified OmR2 protein revealed several features as follows: (1) an absorption maximum at 533 nm with all-trans retinal chromophore, (2) the possession of the deprotonated counterion (pK a = 3.0) of the protonated Schiff base and (3) a rapid photocycle through several distinct photointermediates. Those features are similar to those of known eukaryotic proton pump rhodopsins. Our successful characterization of OmR2 expressed in E. coli cells could build a basis for understanding and utilizing eukaryotic rhodopsins.https://doi.org/10.1038/s41598-021-94181-w
collection DOAJ
language English
format Article
sources DOAJ
author Masuzu Kikuchi
Keiichi Kojima
Shin Nakao
Susumu Yoshizawa
Shiho Kawanishi
Atsushi Shibukawa
Takashi Kikukawa
Yuki Sudo
spellingShingle Masuzu Kikuchi
Keiichi Kojima
Shin Nakao
Susumu Yoshizawa
Shiho Kawanishi
Atsushi Shibukawa
Takashi Kikukawa
Yuki Sudo
Functional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterization
Scientific Reports
author_facet Masuzu Kikuchi
Keiichi Kojima
Shin Nakao
Susumu Yoshizawa
Shiho Kawanishi
Atsushi Shibukawa
Takashi Kikukawa
Yuki Sudo
author_sort Masuzu Kikuchi
title Functional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterization
title_short Functional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterization
title_full Functional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterization
title_fullStr Functional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterization
title_full_unstemmed Functional expression of the eukaryotic proton pump rhodopsin OmR2 in Escherichia coli and its photochemical characterization
title_sort functional expression of the eukaryotic proton pump rhodopsin omr2 in escherichia coli and its photochemical characterization
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-07-01
description Abstract Microbial rhodopsins are photoswitchable seven-transmembrane proteins that are widely distributed in three domains of life, archaea, bacteria and eukarya. Rhodopsins allow the transport of protons outwardly across the membrane and are indispensable for light-energy conversion in microorganisms. Archaeal and bacterial proton pump rhodopsins have been characterized using an Escherichia coli expression system because that enables the rapid production of large amounts of recombinant proteins, whereas no success has been reported for eukaryotic rhodopsins. Here, we report a phylogenetically distinct eukaryotic rhodopsin from the dinoflagellate Oxyrrhis marina (O. marina rhodopsin-2, OmR2) that can be expressed in E. coli cells. E. coli cells harboring the OmR2 gene showed an outward proton-pumping activity, indicating its functional expression. Spectroscopic characterization of the purified OmR2 protein revealed several features as follows: (1) an absorption maximum at 533 nm with all-trans retinal chromophore, (2) the possession of the deprotonated counterion (pK a = 3.0) of the protonated Schiff base and (3) a rapid photocycle through several distinct photointermediates. Those features are similar to those of known eukaryotic proton pump rhodopsins. Our successful characterization of OmR2 expressed in E. coli cells could build a basis for understanding and utilizing eukaryotic rhodopsins.
url https://doi.org/10.1038/s41598-021-94181-w
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