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Auteurs principaux: Bale, Nicole J, Fujimura, Hayato, Pjevac, Petra, Koenen, Michel, Ikeda, Hikaru, Itagaki, Satohiro, Yamamoto, Yojiro, Palmetzhofer, Johanna, Sedlacek, Christopher J, Palabikyan, Hayk, Sinninghe Damsté, Jaap S, Wagner, Michael, Shiigi, Hiroshi, Daims, Holger
Format: Artículo científico
Langue:en
Publié: Environmental microbiology reports 2025
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Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/40763994/
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author Bale, Nicole J
Fujimura, Hayato
Pjevac, Petra
Koenen, Michel
Ikeda, Hikaru
Itagaki, Satohiro
Yamamoto, Yojiro
Palmetzhofer, Johanna
Sedlacek, Christopher J
Palabikyan, Hayk
Sinninghe Damsté, Jaap S
Wagner, Michael
Shiigi, Hiroshi
Daims, Holger
author_facet Bale, Nicole J
Fujimura, Hayato
Pjevac, Petra
Koenen, Michel
Ikeda, Hikaru
Itagaki, Satohiro
Yamamoto, Yojiro
Palmetzhofer, Johanna
Sedlacek, Christopher J
Palabikyan, Hayk
Sinninghe Damsté, Jaap S
Wagner, Michael
Shiigi, Hiroshi
Daims, Holger
Bale, Nicole J
Fujimura, Hayato
Pjevac, Petra
Koenen, Michel
Ikeda, Hikaru
Itagaki, Satohiro
Yamamoto, Yojiro
Palmetzhofer, Johanna
Sedlacek, Christopher J
Palabikyan, Hayk
Sinninghe Damsté, Jaap S
Wagner, Michael
Shiigi, Hiroshi
Daims, Holger
collection PubMed - marine biology
contents Unusual Plastoquinones in Non-Phototrophic Nitrifying Bacteria. Bale, Nicole J Fujimura, Hayato Pjevac, Petra Koenen, Michel Ikeda, Hikaru Itagaki, Satohiro Yamamoto, Yojiro Palmetzhofer, Johanna Sedlacek, Christopher J Palabikyan, Hayk Sinninghe Damsté, Jaap S Wagner, Michael Shiigi, Hiroshi Daims, Holger Plastoquinone Bacteria Nitrification Oxidation-Reduction Isoprenoid quinones are important compounds in most organisms. They are essential in electron and proton transport in respiratory and photosynthetic electron transport chains, and additional functions include oxidative stress defence. The biologically most relevant quinones are naphthoquinones including menaquinone and benzoquinones including ubiquinone and plastoquinone. They differ in their polar headgroup structures, physicochemical properties, and distribution among organisms. Menaquinone is the most widespread quinone in prokaryotes, ubiquinone occurs only in bacteria of the phylum Pseudomonadota and eukaryotes, and plastoquinone exists in phototrophic Cyanobacteria and plants. We found that chemolithoautotrophic nitrifying bacteria of the genus Nitrospira (phylum Nitrospirota) exclusively possess unusual methyl-plastoquinones with a standard redox potential below that of canonical plastoquinone and ubiquinone but above menaquinone, suggesting functional roles in reverse electron transport, ammonia oxidation, alternative energy metabolisms, and oxidative stress mitigation. This extends the known diversity of quinones and suggests that plastoquinone derivatives are essential in ecologically important, non-phototrophic bacteria.
format Artículo científico
id pubmed_40763994
institution PubMed
language en
publishDate 2025
publisher Environmental microbiology reports
record_format pubmed
spellingShingle Unusual Plastoquinones in Non-Phototrophic Nitrifying Bacteria.
Bale, Nicole J
Fujimura, Hayato
Pjevac, Petra
Koenen, Michel
Ikeda, Hikaru
Itagaki, Satohiro
Yamamoto, Yojiro
Palmetzhofer, Johanna
Sedlacek, Christopher J
Palabikyan, Hayk
Sinninghe Damsté, Jaap S
Wagner, Michael
Shiigi, Hiroshi
Daims, Holger
Plastoquinone
Bacteria
Nitrification
Oxidation-Reduction
Unusual Plastoquinones in Non-Phototrophic Nitrifying Bacteria. Bale, Nicole J Fujimura, Hayato Pjevac, Petra Koenen, Michel Ikeda, Hikaru Itagaki, Satohiro Yamamoto, Yojiro Palmetzhofer, Johanna Sedlacek, Christopher J Palabikyan, Hayk Sinninghe Damsté, Jaap S Wagner, Michael Shiigi, Hiroshi Daims, Holger Plastoquinone Bacteria Nitrification Oxidation-Reduction Isoprenoid quinones are important compounds in most organisms. They are essential in electron and proton transport in respiratory and photosynthetic electron transport chains, and additional functions include oxidative stress defence. The biologically most relevant quinones are naphthoquinones including menaquinone and benzoquinones including ubiquinone and plastoquinone. They differ in their polar headgroup structures, physicochemical properties, and distribution among organisms. Menaquinone is the most widespread quinone in prokaryotes, ubiquinone occurs only in bacteria of the phylum Pseudomonadota and eukaryotes, and plastoquinone exists in phototrophic Cyanobacteria and plants. We found that chemolithoautotrophic nitrifying bacteria of the genus Nitrospira (phylum Nitrospirota) exclusively possess unusual methyl-plastoquinones with a standard redox potential below that of canonical plastoquinone and ubiquinone but above menaquinone, suggesting functional roles in reverse electron transport, ammonia oxidation, alternative energy metabolisms, and oxidative stress mitigation. This extends the known diversity of quinones and suggests that plastoquinone derivatives are essential in ecologically important, non-phototrophic bacteria.
title Unusual Plastoquinones in Non-Phototrophic Nitrifying Bacteria.
topic Plastoquinone
Bacteria
Nitrification
Oxidation-Reduction
url https://pubmed.ncbi.nlm.nih.gov/40763994/