Oxygen Generation via Water Splitting by a Novel Biogenic Metal Ion-Binding Compound

The discovery that MB will couple the oxidation of H2O to metal ion reduction and the release of O2suggests that methanotrophs expressing MB may be able to maintain their activity under hypoxic/anoxic conditions through the “self-generation” of dioxygen required for the initial oxidation of methane...

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Veröffentlicht in:	Applied and environmental microbiology 2021-06, Vol.87 (14)
Hauptverfasser:	Dershwitz, Philip, Bandow, Nathan L., Yang, Junwon, Semrau, Jeremy D., McEllistrem, Marcus T., Heinze, Rafael A., Fonseca, Matheus, Ledesma, Joshua C., Jennett, Jacob R., DiSpirito, Ana M., Athwal, Navjot S., Hargrove, Mark S., Bobik, Thomas A., Zischka, Hans, DiSpirito, Alan A., Parales, Rebecca E.
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Sprache:	eng
Schlagworte:	Biotechnology & Applied Microbiology Microbiology
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container_title	Applied and environmental microbiology
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creator	Dershwitz, Philip Bandow, Nathan L. Yang, Junwon Semrau, Jeremy D. McEllistrem, Marcus T. Heinze, Rafael A. Fonseca, Matheus Ledesma, Joshua C. Jennett, Jacob R. DiSpirito, Ana M. Athwal, Navjot S. Hargrove, Mark S. Bobik, Thomas A. Zischka, Hans DiSpirito, Alan A. Parales, Rebecca E.
description	The discovery that MB will couple the oxidation of H2O to metal ion reduction and the release of O2suggests that methanotrophs expressing MB may be able to maintain their activity under hypoxic/anoxic conditions through the “self-generation” of dioxygen required for the initial oxidation of methane to methanol. Such an ability may be an important factor in enabling methanotrophs to not only colonize the oxic-anoxic interface where methane concentrations are highest but also tolerate significant temporal fluctuations of this interface.
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subjects	Biotechnology & Applied Microbiology Microbiology
title	Oxygen Generation via Water Splitting by a Novel Biogenic Metal Ion-Binding Compound
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