Anaerobic growth of halophilic archaeobacteria by reduction of dimethysulfoxide and trimethylamine N-oxide

Aharon Oren; Hans G. Trüper

doi:10.1016/0378-1097(90)90098-B

Anaerobic growth of halophilic archaeobacteria by reduction of dimethysulfoxide and trimethylamine N-oxide

Aharon Oren^*, Hans G. Trüper

^*Corresponding author for this work

Alexander Silberman Institute of Life Sciences

Research output: Contribution to journal › Article › peer-review

70 Scopus citations

Abstract

Most representatives of the halophilic arachaeobacterial genera Halobacterium, Haloarcula and Haloferax tested were able to reduce dimethylsulfoxide (DMSO) to dimethylsulfide (DMS) and trimethylamine N-oxide (TMAO) to trimethylamine (TMA) under (semi)anaerobic conditions. In most cases the reduction of DMSO and TMAO was accompanied by an increase in cell yield. The ability to reduce DMSO or TMAO was not correlated to reduced DMSO or TMAO was not correlated with the ability to reduce nitrate to nitrite. Anaerobic respiration with DMSO and TMAO as electron acceptor supplies the halophilic archeobacteria with an additional mode of energy generation in the absence of molecular oxygen.

Original language	English
Pages (from-to)	33-36
Number of pages	4
Journal	FEMS Microbiology Letters
Volume	70
Issue number	1
DOIs	https://doi.org/10.1016/0378-1097(90)90098-B
State	Published - 15 Jun 1990

Keywords

Anaerobic growth
ARcheobacteria
Dimethylsulfoxide
Haloarcula
Halobacterium
Haloferax
Trimethylamine N-oxide

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10.1016/0378-1097(90)90098-B

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title = "Anaerobic growth of halophilic archaeobacteria by reduction of dimethysulfoxide and trimethylamine N-oxide",

abstract = "Most representatives of the halophilic arachaeobacterial genera Halobacterium, Haloarcula and Haloferax tested were able to reduce dimethylsulfoxide (DMSO) to dimethylsulfide (DMS) and trimethylamine N-oxide (TMAO) to trimethylamine (TMA) under (semi)anaerobic conditions. In most cases the reduction of DMSO and TMAO was accompanied by an increase in cell yield. The ability to reduce DMSO or TMAO was not correlated to reduced DMSO or TMAO was not correlated with the ability to reduce nitrate to nitrite. Anaerobic respiration with DMSO and TMAO as electron acceptor supplies the halophilic archeobacteria with an additional mode of energy generation in the absence of molecular oxygen.",

keywords = "Anaerobic growth, ARcheobacteria, Dimethylsulfoxide, Haloarcula, Halobacterium, Haloferax, Trimethylamine N-oxide",

author = "Aharon Oren and Tr{\"u}per, \{Hans G.\}",

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doi = "10.1016/0378-1097(90)90098-B",

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T1 - Anaerobic growth of halophilic archaeobacteria by reduction of dimethysulfoxide and trimethylamine N-oxide

AU - Oren, Aharon

AU - Trüper, Hans G.

PY - 1990/6/15

Y1 - 1990/6/15

N2 - Most representatives of the halophilic arachaeobacterial genera Halobacterium, Haloarcula and Haloferax tested were able to reduce dimethylsulfoxide (DMSO) to dimethylsulfide (DMS) and trimethylamine N-oxide (TMAO) to trimethylamine (TMA) under (semi)anaerobic conditions. In most cases the reduction of DMSO and TMAO was accompanied by an increase in cell yield. The ability to reduce DMSO or TMAO was not correlated to reduced DMSO or TMAO was not correlated with the ability to reduce nitrate to nitrite. Anaerobic respiration with DMSO and TMAO as electron acceptor supplies the halophilic archeobacteria with an additional mode of energy generation in the absence of molecular oxygen.

AB - Most representatives of the halophilic arachaeobacterial genera Halobacterium, Haloarcula and Haloferax tested were able to reduce dimethylsulfoxide (DMSO) to dimethylsulfide (DMS) and trimethylamine N-oxide (TMAO) to trimethylamine (TMA) under (semi)anaerobic conditions. In most cases the reduction of DMSO and TMAO was accompanied by an increase in cell yield. The ability to reduce DMSO or TMAO was not correlated to reduced DMSO or TMAO was not correlated with the ability to reduce nitrate to nitrite. Anaerobic respiration with DMSO and TMAO as electron acceptor supplies the halophilic archeobacteria with an additional mode of energy generation in the absence of molecular oxygen.

KW - Anaerobic growth

KW - ARcheobacteria

KW - Dimethylsulfoxide

KW - Haloarcula

KW - Halobacterium

KW - Haloferax

KW - Trimethylamine N-oxide

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Anaerobic growth of halophilic archaeobacteria by reduction of dimethysulfoxide and trimethylamine N-oxide

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