Light-driven Proton Pumps as a Potential Regulator for Carbon Fixation in Marine Diatoms

Diatoms are a major phytoplankton group responsible for approximately 20% of carbon fixation on Earth. They perform photosynthesis using light-harvesting chlo­rophylls located in plastids, an organelle obtained through eukaryote-eukaryote endosymbiosis. Microbial rhodopsin, a photoreceptor distinct...

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Autores principales: Yoshizawa, Susumu, Azuma, Tomonori, Kojima, Keiichi, Inomura, Keisuke, Hasegawa, Masumi, Nishimura, Yosuke, Kikuchi, Masuzu, Armin, Gabrielle, Tsukamoto, Yuya, Miyashita, Hideaki, Ifuku, Kentaro, Yamano, Takashi, Marchetti, Adrian, Fukuzawa, Hideya, Sudo, Yuki, Kamikawa, Ryoma
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Japanese Society of Microbial Ecology / Japanese Society of Soil Microbiology / Taiwan Society of Microbial Ecology / Japanese Society of Plant Microbe Interactions / Japanese Society for Extremophiles 2023
Materias:
Regular Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10308239/
https://www.ncbi.nlm.nih.gov/pubmed/37344444
http://dx.doi.org/10.1264/jsme2.ME23015
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author Yoshizawa, Susumu
Azuma, Tomonori
Kojima, Keiichi
Inomura, Keisuke
Hasegawa, Masumi
Nishimura, Yosuke
Kikuchi, Masuzu
Armin, Gabrielle
Tsukamoto, Yuya
Miyashita, Hideaki
Ifuku, Kentaro
Yamano, Takashi
Marchetti, Adrian
Fukuzawa, Hideya
Sudo, Yuki
Kamikawa, Ryoma
author_facet Yoshizawa, Susumu
Azuma, Tomonori
Kojima, Keiichi
Inomura, Keisuke
Hasegawa, Masumi
Nishimura, Yosuke
Kikuchi, Masuzu
Armin, Gabrielle
Tsukamoto, Yuya
Miyashita, Hideaki
Ifuku, Kentaro
Yamano, Takashi
Marchetti, Adrian
Fukuzawa, Hideya
Sudo, Yuki
Kamikawa, Ryoma
author_sort Yoshizawa, Susumu
collection PubMed
description Diatoms are a major phytoplankton group responsible for approximately 20% of carbon fixation on Earth. They perform photosynthesis using light-harvesting chlo­rophylls located in plastids, an organelle obtained through eukaryote-eukaryote endosymbiosis. Microbial rhodopsin, a photoreceptor distinct from chlo­rophyll-based photosystems, was recently identified in some diatoms. However, the physiological function of diatom rhodopsin remains unclear. Heterologous expression techniques were herein used to investigate the protein function and subcellular localization of diatom rhodopsin. We demonstrated that diatom rhodopsin acts as a light-driven proton pump and localizes primarily to the outermost membrane of four membrane-bound complex plastids. Using model simulations, we also examined the effects of pH changes inside the plastid due to rhodopsin-mediated proton transport on photosynthesis. The results obtained suggested the involvement of rhodopsin-mediated local pH changes in a photosynthetic CO(2)-concentrating mechanism in rhodopsin-possessing diatoms.
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spelling pubmed-103082392023-06-30 Light-driven Proton Pumps as a Potential Regulator for Carbon Fixation in Marine Diatoms Yoshizawa, Susumu Azuma, Tomonori Kojima, Keiichi Inomura, Keisuke Hasegawa, Masumi Nishimura, Yosuke Kikuchi, Masuzu Armin, Gabrielle Tsukamoto, Yuya Miyashita, Hideaki Ifuku, Kentaro Yamano, Takashi Marchetti, Adrian Fukuzawa, Hideya Sudo, Yuki Kamikawa, Ryoma Microbes Environ Regular Paper Diatoms are a major phytoplankton group responsible for approximately 20% of carbon fixation on Earth. They perform photosynthesis using light-harvesting chlo­rophylls located in plastids, an organelle obtained through eukaryote-eukaryote endosymbiosis. Microbial rhodopsin, a photoreceptor distinct from chlo­rophyll-based photosystems, was recently identified in some diatoms. However, the physiological function of diatom rhodopsin remains unclear. Heterologous expression techniques were herein used to investigate the protein function and subcellular localization of diatom rhodopsin. We demonstrated that diatom rhodopsin acts as a light-driven proton pump and localizes primarily to the outermost membrane of four membrane-bound complex plastids. Using model simulations, we also examined the effects of pH changes inside the plastid due to rhodopsin-mediated proton transport on photosynthesis. The results obtained suggested the involvement of rhodopsin-mediated local pH changes in a photosynthetic CO(2)-concentrating mechanism in rhodopsin-possessing diatoms. Japanese Society of Microbial Ecology / Japanese Society of Soil Microbiology / Taiwan Society of Microbial Ecology / Japanese Society of Plant Microbe Interactions / Japanese Society for Extremophiles 2023 2023-06-20 /pmc/articles/PMC10308239/ /pubmed/37344444 http://dx.doi.org/10.1264/jsme2.ME23015 Text en 2023 by Japanese Society of Microbial Ecology / Japanese Society of Soil Microbiology / Taiwan Society of Microbial Ecology / Japanese Society of Plant Microbe Interactions / Japanese Society for Extremophiles. https://creativecommons.org/licenses/by/3.0/This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Regular Paper
Yoshizawa, Susumu
Azuma, Tomonori
Kojima, Keiichi
Inomura, Keisuke
Hasegawa, Masumi
Nishimura, Yosuke
Kikuchi, Masuzu
Armin, Gabrielle
Tsukamoto, Yuya
Miyashita, Hideaki
Ifuku, Kentaro
Yamano, Takashi
Marchetti, Adrian
Fukuzawa, Hideya
Sudo, Yuki
Kamikawa, Ryoma
Light-driven Proton Pumps as a Potential Regulator for Carbon Fixation in Marine Diatoms
title Light-driven Proton Pumps as a Potential Regulator for Carbon Fixation in Marine Diatoms
title_full Light-driven Proton Pumps as a Potential Regulator for Carbon Fixation in Marine Diatoms
title_fullStr Light-driven Proton Pumps as a Potential Regulator for Carbon Fixation in Marine Diatoms
title_full_unstemmed Light-driven Proton Pumps as a Potential Regulator for Carbon Fixation in Marine Diatoms
title_short Light-driven Proton Pumps as a Potential Regulator for Carbon Fixation in Marine Diatoms
title_sort light-driven proton pumps as a potential regulator for carbon fixation in marine diatoms
topic Regular Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10308239/
https://www.ncbi.nlm.nih.gov/pubmed/37344444
http://dx.doi.org/10.1264/jsme2.ME23015
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