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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The methanotrophic bacterium Methylosinus trichosporium OB3b converts methane to methanol using two distinct forms of
methane monooxygenase
(MMO) enzyme: a cytoplasmic soluble form (sMMO) and a membrane-bound form (pMMO). The transcription of these two operons is known to proceed in a reciprocal fashion with sMMO expressed at low copper-to-biomass ratios and pMMO at high copper-to-biomass ratios. Transcription of the smmo operon is initiated from a sigma(N) promoter 5' of mmoX. In this study the genes encoding sigma(N) (rpoN) and a typical sigma(N)-dependent
transcriptional activator
(mmoR) were cloned and sequenced. mmoR, a regulatory gene, and mmoG, a gene encoding a GroEL homologue, lie 5' of the structural genes for the sMMO enzyme. Subsequent mutation of rpoN and mmoR by marker-exchange mutagenesis resulted in strains Gm1 and JS1, which were unable to express functional sMMO or initiate transcription of mmoX. An rpoN mutant was also unable to fix nitrogen or use nitrate as sole nitrogen source, indicating that sigma(N) plays a role in both nitrogen and carbon metabolism in Ms. trichosporium OB3b. The data also indicate that mmoG is transcribed in a sigma(N)- and MmoR-independent manner. Marker-exchange mutagenesis of mmoG revealed that MmoG is necessary for smmo gene transcription and activity and may be an MmoR-specific chaperone required for functional assembly of transcriptionally competent MmoR in vivo. The data presented allow the proposal of a more complete model for copper-mediated regulation of smmo gene expression.
...
PMID:rpoN, mmoR and mmoG, genes involved in regulating the expression of soluble methane monooxygenase in Methylosinus trichosporium OB3b. 1285 29
The key enzyme in methane metabolism is
methane monooxygenase
(MMO), which catalyses the oxidation of methane to methanol. Some methanotrophs, including Methylococcus capsulatus (Bath), possess two distinct MMOs. The level of copper in the environment regulates the biosynthesis of the MMO enzymes in these methanotrophs. Under low-copper conditions, soluble MMO (sMMO) is expressed and regulation takes place at the level of transcription. The structural genes of sMMO were previously identified as mmoXYBZ, mmoD and mmoC. Putative transcriptional start sites, containing a sigma(70)- and a sigma(N)-dependent motif, were identified in the 5' region of mmoX. The promoter region of mmoX was mapped using truncated 5' end regions fused to a promoterless green fluorescent protein gene. A 9.5 kb region, adjacent to the sMMO structural gene cluster, was analysed. Downstream (3') from the last gene of the operon, mmoC, four ORFs were found, mmoG, mmoQ, mmoS and mmoR. mmoG shows significant identity to the large subunit of the bacterial chaperonin gene, groEL. In the opposite orientation, two genes, mmoQ and mmoS, showed significant identity to two-component sensor-regulator system genes. Next to mmoS, a gene encoding a putative sigma(N)-dependent
transcriptional activator
, mmoR was identified. The mmoG and mmoR genes were mutated by marker-exchange mutagenesis and the effects of these mutations on the expression of sMMO was investigated. sMMO transcription was impaired in both mutants. These results indicate that mmoG and mmoR are essential for the expression of sMMO in Mc. capsulatus (Bath).
...
PMID:Genes involved in the copper-dependent regulation of soluble methane monooxygenase of Methylococcus capsulatus (Bath): cloning, sequencing and mutational analysis. 1285 30
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.
...
PMID:Regulation of methane oxidation in the facultative methanotroph Methylocella silvestris BL2. 1623 19
Methanotrophs oxidize methane to methanol using the enzyme
methane monooxygenase
. Methylosinus trichosporium OB3b has two such enzymes: a membrane-bound particulate
methane monooxygenase
(pMMO) and a soluble, cytoplasmic
methane monooxygenase
(sMMO). In methanotrophs possessing both enzymes, the expression of the genes encoding sMMO and pMMO is regulated by copper ions, with sMMO expressed solely when copper is limiting. Virtually nothing is known about the specific machinery involved in the copper-regulated transcription of mmo genes except the identification of two proteins necessary for the expression: a sigma(54)-dependent
transcriptional activator
, MmoR, and a putative GroEL-like chaperone, MmoG. Genes encoding mmoR and mmoG are located immediately upstream of those encoding sMMO in the genome of M. trichosporium OB3b. Here, we use a green fluorescent protein promoter probe vector to show that nearly the complete intergenic DNA sequence between mmoG and mmoX is absolutely required for transcriptional activation. Furthermore, we used gel-shift assays to demonstrate that both MmoR and MmoG were required for protein binding to this region of DNA.
...
PMID:Involvement of MmoR and MmoG in the transcriptional activation of soluble methane monooxygenase genes in Methylosinus trichosporium OB3b. 1987 24
