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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The products of a minimum of 15 genes are required for the synthesis of an active formate-hydrogenlyase (FHL) system in Escherichia coli. All are co-ordinately regulated in response to variations in the oxygen and nitrate concentration and the pH of the culture medium.
Formate
is obligately required for transcriptional activation of these genes. Analysis of the transcription of one of these genes, hycB linked to the lacZ reporter gene, revealed that oxygen and nitrate repression of transcription could be relieved completely, or partially in the case of nitrate, either by the addition of formate to the medium or by increasing the copy number of the gene encoding the
transcriptional activator
(fhlA) of this regulon. These studies uncovered a further level of regulation in which the transcription of hycB was reduced in cells grown on glucose. This effect was most clearly seen in aerobically grown cells when formate was added externally. Addition of cAMP overcame this glucose repression, which could be shown to be mediated by the cAMP receptor protein. These results would be consistent with the transport of formate being regulated by catabolite repression. Moreover, the repression of transcription through high pH also could be partially overcome by addition of increasing concentrations of formate to the medium, again being consistent with regulation at the level of formate import and export. Taken together, all these observations indicate that it is the intracellular level of formate that determines the transcription of the genes of the formate regulon by FhlA. This represents a novel positive feedback mechanism in which the activator of a regulon induces its own synthesis in response to increases in the concentration of the catabolic substrate, and this in turn is governed by the relative affinities of FhlA and the three formate dehydrogenase isoenzymes for formate.
...
PMID:Mechanism of regulation of the formate-hydrogenlyase pathway by oxygen, nitrate, and pH: definition of the formate regulon. 177 67
A new gene whose product is required for the production of formate hydrogenlyase (FHL) has been identified in Escherichia coli. This gene, termed fhlB, maps between the frdA (94.4 min) and argI (96.6 min) genes on the E. coli chromosome and is transcribed in a clockwise direction toward argI. Biochemical analysis of an FhlB- mutant, strain SE-2011 [phi(fhlB-lacZ+)], revealed that the mutant lacks formate dehydrogenase activity associated with FHL (FDH-H) and hydrogenase activity. As a result of these defects, fermentative hydrogen production and hydrogen uptake reactions were undetectable in strain SE-2011. Fumarate reductase activity of this mutant was also reduced to about 15% of the levels of the parent (strain MC4100), and strain SE-2011 did not produce succinate as a fermentation end product. Regulation of expression of the fhlB gene, studied as production of beta-galactosidase activity by strain SE-2011, revealed that the operon is expressed at low levels under aerobic conditions. Under anaerobic growth conditions, this activity increased by two- to threefold. Addition of formate enhanced the differential rate of synthesis of the fhlB gene product to as high as 130 U of beta-galactosidase specific activity per microgram of cell protein, but only under anaerobic conditions.
Formate
-dependent expression of phi(fhlB-lacZ+) required the sigma 54 subunit of RNA polymerase and the fhlA gene product. The concentration of formate required for maximum expression of the fhlB gene was about 15 mM; this value decreased to about 3 mM in the presence of plasmid pSE-133, which carries the fhlA gene in a multicopy plasmid. DNA sequence analysis of the fhlA gene showed that the FhlA protein is 686 amino acids long and has an anhydrous molecular weight of 78,086. On the basis of sequence homology with other transcriptional activators such as NtrC, HydG, and Klebsiella pneumoniae NifA proteins, the FhlA protein was deduced to be a
transcriptional activator
controlling the production of FHL. It is proposed that formate interacts with the FhlA protein and that this active complex initiates transcription of the fhlB gene. The FhlA and FhlB proteins act as a cascade in regulating the production of FDH-H and the FHL-linked hydrogenase and ultimately the production of FHL and fermentative hydrogen.
...
PMID:Genetic regulation of formate hydrogenlyase of Escherichia coli: role of the fhlA gene product as a transcriptional activator for a new regulatory gene, fhlB. 211 3
FHLA is the
transcriptional activator
for the expression of the genes coding for components of the formate hydrogenlyase system of Escherichia coli. The cloned fhlA gene was overexpressed under selected growth conditions, and a purification protocol for the FHLA protein was developed. Purified FHLA in the native state is a homotetramer. It binds to the upstream regulatory sequences of the fdhF gene and of the intergenic region between the divergently transcribed hyc and hyp operons. An additional binding site of FHLA located between the hycA and hycB genes was identified. While binding to the hypA-hycA intergenic region is responsible for activation of expression of the hyc operon, the newly identified site is required for the activation of the sigma 54-dependent promoter located upstream of the hyp operon.
Formate
seems to have no effect on the DNA-binding properties of FHLA. The binding sites of FHLA were characterized by DNase I footprinting; sequence motifs putatively involved in the interaction with FHLA are described.
...
PMID:Purification and DNA-binding properties of FHLA, the transcriptional activator of the formate hydrogenlyase system from Escherichia coli. 803 27
The transcriptional regulator gene fdsR was identified 150 bp upstream of the divergently oriented fdsGBACD operon encoding the soluble, NAD+-linked formate dehydrogenase in the chemoautotrophic bacterium Ralstonia eutropha H16. Its deduced product, FdsR, displays a basal sequence similarity to the regulatory proteins of the LysR family. The carboxy-terminal domain of FdsR contains a short region that is conserved in formate dehydrogenases. Deletion of fdsR revealed a dual regulatory effect of FdsR on the fds operon by acting as
transcriptional activator
in the presence of formate or as repressor in the absence of formate. Studies with fdsR transcriptional fusions also suggested a negative autoregulation of the gene. A promoter structure resembling sigma70-dependent promoters from Escherichia coli was identified upstream of the fdsR transcriptional start site. FdsR purified to homogeneity after overexpression of fdsR in E. coli is a 130 kDa homotetramer binding to the fds control region located between the fdsR and fdsG genes.
Formate
significantly increased the binding affinity of FdsR for this region. Two FdsR binding sites characterized by the inverted-repeat structure ATANG-N10-CNTAT were identified. The regulatory pattern found in R. eutropha was also observed in the heterologous host E. coli and results from a novel mode of control of formate dehydrogenase genes.
...
PMID:Dual control by regulatory gene fdsR of the fds operon encoding the NAD+-linked formate dehydrogenase of Ralstonia eutropha. 1056 79
