A novel Methylomirabilota methanotroph potentially couples methane oxidation to iodate reduction

Zhu, Baoli; Karwautz, Clemens; Andrei, Adrian-Stefan; Klingl, Andreas; Pernthaler, Jakob; Lueders, Tillmann

doi:10.5167/uzh-231035

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Zhu, B., Karwautz, C., Andrei, A.-S., Klingl, A., Pernthaler, J., & Lueders, T. (2022). A novel Methylomirabilota methanotroph potentially couples methane oxidation to iodate reduction. MLife, 1, 323–328. https://doi.org/10.1002/mlf2.12033

Abstract

Impact statement: Methane oxidizing microbes play a key role in reducing the emission of this potent greenhouse gas to the atmosphere. The known versatility of the recently discovered anaerobic Methylomirabilota methanotrophs is limited. Here, we report a novel uncultured Methylomirabilis species, Candidatus Methylomirabilis iodofontis, with the genetic potential of iodate respiration from biofilm in iodine‐rich cavern spring water. Star‐like cells resembling Methylomirabilis oxyfera were directly observed from the biofilm and a high‐

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28 in Web of Science Acq. date: 2025-07-27

25 in Scopus Acq. date: 2025-03-23

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Creators (Authors)

Zhu, Baoli
Karwautz, Clemens
Andrei, Adrian-Stefan
Klingl, Andreas
Pernthaler, Jakob
Lueders, Tillmann

Journal/Series Title

mLife

Volume

1

Number

3

Page range/Item number

323

Page end

328

Item Type

Journal Article

In collections

Publications of Department of Plant and Microbial Biology
Publications of Zurich-Basel Plant Science Center

Dewey Decimal Classifikation

580 Plants

Language

English

Publication date

2022-09-01

Date available

2023-02-20

Publisher

Wiley-Blackwell Publishing, Inc.

ISSN or e-ISSN

2770-100X

OA Status

Gold

Free Access at

DOI

Publisher DOI

https://doi.org/10.1002/mlf2.12033

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Funder name

Grant ID

Project Website

POLLOX - ANAEROBIC POLLUTANT DEGRADATION WITH OXYGEN

FP7

616644

Gold Open Access

Permanent URL

https://doi.org/10.5167/uzh-231035

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Publication: A novel Methylomirabilota methanotroph potentially couples methane oxidation to iodate reduction

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Publication:
A novel Methylomirabilota methanotroph potentially couples methane oxidation to iodate reduction