Regulation of methane oxidation in the facultative methanotroph Methylocella silvestris BL2
Regulation of methane oxidation in the facultative methanotroph Methylocella silvestris BL2
The molecular regulation of methane oxidation in the first fully authenticated facultative methanotroph Methylocella silvestris BL2 was assessed during growth on methane and acetate. Problems of poor growth of Methylocella spp. in small-scale batch culture were overcome by growth in fermentor culture. The genes encoding soluble methane monooxygenase were cloned and sequenced, which revealed that the structural genes for soluble methane monooxygenase, mmoXYBZDC, were adjacent to two genes, mmoR and mmoG, encoding a sigma54 transcriptional activator and a putative GroEL-like chaperone, located downstream (3') of mmoC. Transcriptional analysis revealed that the genes were all cotranscribed from a sigma54-dependent promoter located upstream (5') of mmo X. The transcriptional start site was mapped. Transcriptional analysis of soluble methane monooxygenase genes and expression studies on fermentor grown cultures showed that acetate repressed transcription of sMMO in M. silvestris BL2. The possibility of the presence of a particulate, membrane-bound methane monooxygenase enzyme in M. silvestris BL2 and the copper-mediated regulation of soluble methane monooxygenase was investigated. Both were shown to be absent. A promoter probe vector was constructed and used to assay transcription of the promoter of the soluble methane monoxygenase genes of M. silvestris BL2 grown under various conditions and with different substrates. These data represent the first insights into the molecular physiology of a facultative methanotroph.
682-692
Theisen, Andreas R.
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Ali, M. Hanif
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Radajewski, Stefan
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Dumont, Marc
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Dunfield, Peter F.
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McDonald, Ian R.
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Dedysh, Svetlana N.
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Miguez, Carlos B.
669c0079-d3e3-4473-a987-f4f5293e73a9
Murrell, J. Colin
244a92ff-dbe1-41cf-9e65-baacbc4a90cf
November 2005
Theisen, Andreas R.
b98d418e-2b1b-4d3a-926a-15e231371e5f
Ali, M. Hanif
346b54fe-e68d-4b98-8c94-22fb88159b92
Radajewski, Stefan
7b004805-0cf8-409b-9951-a76319b7d733
Dumont, Marc
afd9f08f-bdbb-4cee-b792-1a7f000ee511
Dunfield, Peter F.
8df08053-d7c8-4b7e-a08f-725bbfd505d9
McDonald, Ian R.
7a0278c5-e2dd-440a-9a2a-f3b820dd65ca
Dedysh, Svetlana N.
5bec82e8-aeae-4cf4-ade5-0937bdd3d12c
Miguez, Carlos B.
669c0079-d3e3-4473-a987-f4f5293e73a9
Murrell, J. Colin
244a92ff-dbe1-41cf-9e65-baacbc4a90cf
Theisen, Andreas R., Ali, M. Hanif, Radajewski, Stefan, Dumont, Marc, Dunfield, Peter F., McDonald, Ian R., Dedysh, Svetlana N., Miguez, Carlos B. and Murrell, J. Colin
(2005)
Regulation of methane oxidation in the facultative methanotroph Methylocella silvestris BL2.
Molecular Microbiology, 58 (3), .
(doi:10.1111/j.1365-2958.2005.04861.x).
(PMID:16238619)
Abstract
The molecular regulation of methane oxidation in the first fully authenticated facultative methanotroph Methylocella silvestris BL2 was assessed during growth on methane and acetate. Problems of poor growth of Methylocella spp. in small-scale batch culture were overcome by growth in fermentor culture. The genes encoding soluble methane monooxygenase were cloned and sequenced, which revealed that the structural genes for soluble methane monooxygenase, mmoXYBZDC, were adjacent to two genes, mmoR and mmoG, encoding a sigma54 transcriptional activator and a putative GroEL-like chaperone, located downstream (3') of mmoC. Transcriptional analysis revealed that the genes were all cotranscribed from a sigma54-dependent promoter located upstream (5') of mmo X. The transcriptional start site was mapped. Transcriptional analysis of soluble methane monooxygenase genes and expression studies on fermentor grown cultures showed that acetate repressed transcription of sMMO in M. silvestris BL2. The possibility of the presence of a particulate, membrane-bound methane monooxygenase enzyme in M. silvestris BL2 and the copper-mediated regulation of soluble methane monooxygenase was investigated. Both were shown to be absent. A promoter probe vector was constructed and used to assay transcription of the promoter of the soluble methane monoxygenase genes of M. silvestris BL2 grown under various conditions and with different substrates. These data represent the first insights into the molecular physiology of a facultative methanotroph.
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Accepted/In Press date: 12 August 2005
e-pub ahead of print date: 21 September 2005
Published date: November 2005
Organisations:
Environmental
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Local EPrints ID: 387953
URI: http://eprints.soton.ac.uk/id/eprint/387953
ISSN: 0950-382X
PURE UUID: c8b96d85-a922-4327-87c5-1ccf516cc64e
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Date deposited: 13 Jul 2016 15:56
Last modified: 15 Mar 2024 03:53
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Author:
Andreas R. Theisen
Author:
M. Hanif Ali
Author:
Stefan Radajewski
Author:
Peter F. Dunfield
Author:
Ian R. McDonald
Author:
Svetlana N. Dedysh
Author:
Carlos B. Miguez
Author:
J. Colin Murrell
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