UNIPROT:P51532 - FACTA Search

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Query: UNIPROT:P51532 (transcriptional activator)
6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The purple nonsulfur phototrophic bacterium Rhodopseudomonas palustris converts structurally diverse aromatic carboxylic acids, including lignin monomers, to benzoate and 4-hydroxybenzoate under anaerobic conditions. These compounds are then further degraded via aromatic ring-fission pathways. A gene termed aadR, for anaerobic aromatic degradation regulator, was identified by complementation of mutants unable to grow anaerobically on 4-hydroxybenzoate. The deduced amino acid sequence of the aadR product is similar to a family of transcriptional regulators which includes Escherichia coli Fnr and Crp, Pseudomonas aeruginosa Anr, and rhizobial FixK and FixK-like proteins. A mutant with a deletion in aadR failed to grow on 4-hydroxybenzoate under anaerobic conditions and grew very slowly on benzoate. It also did not express aromatic acid-coenzyme A ligase II, an enzyme that catalyzes the first step of 4-hydroxybenzoate degradation, and it was defective in 4-hydroxybenzoate-induced expression of benzoate-coenzyme A ligase. The aadR deletion mutant was unaffected in other aspects of anaerobic growth. It grew normally on nonaromatic carbon sources and also under nitrogen-fixing conditions. In addition, aerobic growth on 4-hydroxybenzoate was indistinguishable from that of the wild type. These results indicate that AadR functions as a transcriptional activator of anaerobic aromatic acid degradation.
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PMID:Anaerobic growth of Rhodopseudomonas palustris on 4-hydroxybenzoate is dependent on AadR, a member of the cyclic AMP receptor protein family of transcriptional regulators. 152 59

Exoenzyme S is an ADP-ribosyltransferase enzyme distinct from exotoxin A that is synthesized and secreted by Pseudomonas aeruginosa. Yields of exoenzyme S are variable and depend on strain and growth conditions. Since certain medium additives are required for exoenzyme S production, its regulation may be influenced by environmental stimuli. In this study, we have cloned a region that complements the exoenzyme S-deficient phenotype of strain 388 exs1::Tn1, a chromosomal Tn1 insertional mutation. A large clone (28 kb) was shown to restore both synthesis and secretory functions to the mutant strain. Subcloning and Tn501 mutagenesis experiments localized the region required for exoenzyme S synthesis to a 3.2-kb fragment. Nucleotide sequence analysis demonstrated several open reading frames. Comparison of the N-terminal amino acid sequence of purified exoenzyme S with predicted amino acid sequences of all open reading frames indicated that the structural gene was not encoded within the sequenced region. Homology studies suggested that the region encoded three regulatory genes, exsC, exsB, and exsA. ExsA was homologous to the AraC family of transcriptional activator proteins, with extensive homology being found with one member of this family, VirF of Yersinia enterocolitica. VirF and ExsA both contain carboxy-terminal domains with the helix-turn-helix motif of DNA-binding proteins. The ExsA gene product appeared to be required for induction of exoenzyme S synthesis above a low basal level. Expression of ExsA was demonstrated by cloning the region under the control of the T7 promoter. Gene replacement experiments suggested that the expression of ExsC affects the final yield of exoenzyme S.
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PMID:Cloning and sequence analysis of a trans-regulatory locus required for exoenzyme S synthesis in Pseudomonas aeruginosa. 165 13

An iron-regulated promoter was cloned on a 2.1 kb Bg/II fragment from Pseudomonas sp. strain M114 and fused to the lacZ reporter gene. Iron-regulated lacZ expression from the resulting construct (pSP1) in strain M114 was mediated via the Fur-like repressor which also regulates siderophore production in this strain. A 390 bp StuI-PstI internal fragment contained the necessary information for iron-regulated promoter expression. This fragment was sequenced and the initiation point for transcription was determined by primer extension analysis. The region directly upstream of the transcription start point contained no significant homology to known promoter consensus sequences. However the -16 to -25 bp region contained homology to four other iron-regulated pseudomonad promoters. Deletion of bases downstream from the transcriptional start did not affect the iron-regulated expression of the promoter. The -37 and -43 bp regions exhibited some homology to the 19 bp Escherichia coli Fur-binding consensus sequence. When expressed in E. coli (via a cloned transacting factor from strain M114) lacZ expression from pSP1 was found to be regulated by iron. A region of greater than 77 bases but less than 131 upstream from the transcriptional start was found to be necessary for promoter activity, further suggesting that a transcriptional activator may be required for expression.
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PMID:Regulation of iron assimilation: nucleotide sequence analysis of an iron-regulated promoter from a fluorescent pseudomonad. 167 22

The full elastolytic phenotype of Pseudomonas aeruginosa requires lasB, the structural gene for elastase, its transcriptional activator lasR, and lasA. The lasB gene was insertionally inactivated with the omega fragment and this mutated gene introduced into the P. aeruginosa chromosome. Replacement of the wild-type gene with the inactivated gene was verified by Southern analysis and confirmed by lack of elastase antigen on Western blots and lack of activity in liquid assays. The mutant did, however, retain elastolytic activity on elastin plates. This residual activity was abolished by inactivation of lasB in PAO-E64, a lasA-deficient mutant, demonstrating that it was due to the lasA gene product. Northern analysis demonstrated that, like lasB, lasA is transcriptionally controlled by the lasR gene product.
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PMID:Pseudomonas aeruginosa LasA: a second elastase under the transcriptional control of lasR. 176 76

Plasmid pP51 of Pseudomonas sp. strain P51 contains two gene clusters encoding the degradation of chlorinated benzenes, tcbAB and tcbCDEF. A regulatory gene, tcbR, was located upstream and divergently transcribed from the chlorocatechol oxidative gene cluster tcbCDEF. The tcbR gene was characterized by DNA sequencing and expression studies with Escherichia coli and pET8c and appeared to encode a 32-kDa protein. The activity of the tcbR gene product was analyzed in Pseudomonas putida KT2442, in which it appeared to function as a positive regulator of tcbC expression. Protein extracts of both E. coli overproducing TcbR and Pseudomonas sp. strain P51 showed specific DNA binding to the 150-bp region that is located between the tcbR and tcbC genes. Primer extension mapping demonstrated that the transcription start sites of tcbR and tcbC are located in this region and that the divergent promoter sequences of both genes overlap. Amino acid sequence comparisons indicated that TcbR is a member of the LysR family of transcriptional activator proteins and shares a high degree of homology with other activator proteins involved in regulating the metabolism of aromatic compounds.
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PMID:Characterization of the Pseudomonas sp. strain P51 gene tcbR, a LysR-type transcriptional activator of the tcbCDEF chlorocatechol oxidative operon, and analysis of the regulatory region. 205 Jun 30

A series of Tn917lac insertions define the comG region of the Bacillus subtilis chromosome. comG mutants are deficient in competence and specifically in the binding of exogenous DNA. The genes included in the comG region are first expressed during the transition from the exponential to the stationary growth phase. From nucleotide sequence information, it was concluded that the comG locus contains seven open reading frames (ORFs), several of which overlap at their termini. High-resolution S1 nuclease mapping and primer extension were used to identify the 5' terminus of the comG mRNA. The sequence upstream from the comG start site closely resembled the consensus recognition sequence for the major B. subtilis vegetative RNA polymerase holoenzyme. Complementation analysis confirmed that the comG ORF1 protein is required for the ability of competent cultures to resolve into two populations with different cell densities on Renografin (E. R. Squibb & Sons, Princeton, N.J.) gradients, as well as for full expression of comE, another late competence locus. The predicted comG ORF1 protein showed significant similarity to the virB ORF11 protein from Agrobacterium tumefaciens, which is probably involved in T-DNA transfer. The N-terminal sequences of comG ORF3 and, to a lesser extent, the comG ORF4 and ORF5 proteins were similar to a class of pilin proteins from members of the genera Bacteroides, Pseudomonas, Neisseria, and Moraxella. All of the comG proteins except comG ORF1 possessed hydrophobic domains that were potentially capable of spanning the bacterial membrane. It is likely that these proteins are membrane associated, and they may comprise part of the DNA transport machinery. When present in multiple copies, a DNA fragment carrying the comG promoter was capable of inhibiting the development of competence as well as the expression of several late com genes, suggesting a role for a transcriptional activator in the expression of those genes.
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PMID:Nucleotide sequence and genetic organization of the Bacillus subtilis comG operon. 250 24

The nahR gene of the 83-kilobase naphthalene degradation plasmid NAH7 of Pseudomonas putida encodes a 34-kilodalton polypeptide which binds to the nah and sal promoters to activate transcription of the degradation genes in response to the inducer salicylate. The DNA sequence of the nahR gene was determined, and a derived amino acid sequence of the NahR protein was obtained. A computer search for homologous proteins showed that within the first 124 amino-terminal residues, NahR has approximately 35% identity with the transcriptional activator proteins encoded by the nodD genes of Rhizobium species. Allowing for ultraconservative amino acid substitutions, greater than 47% overall similarity was found between NahR and NodD, while 32% similarity was found between NahR and another transcription activator, LysR of Escherichia coli. The region of greatest similarity among all three proteins contained a probable helix-turn-helix DNA-binding motif as suggested by homology with the proposed consensus sequence for Cro-like DNA-binding domains. The high level of amino acid identity between NahR and NodD, in conjunction with the observations that nahR and nodD are 45% homologous in DNA sequence, are divergently transcribed from homologous promoters near the structural genes they control, and have similar DNA-binding sites, strongly suggests that these two genes evolved from a common ancestor.
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PMID:Evidence that the transcription activator encoded by the Pseudomonas putida nahR gene is evolutionarily related to the transcription activators encoded by the Rhizobium nodD genes. 270 65

We have determined the nucleotide sequence of the xylR gene for a transcriptional activator for the degradative pathway of aromatic hydrocarbons on the TOL plasmid from Pseudomonas putida. The 1698-bp sequence for a 566-amino acid (aa) protein (Mr 63741) was identified as the XylR-encoding sequence. Three regions in XylR show homology to Klebsiella pneumoniae NtrC and NifA, both of which are transcriptional activators for the ntr and nif genes involved in the nitrogen metabolism. The central region of XylR (aa 234-473) corresponds to the region that was proposed to interact with RNA polymerase having a sigma factor, NtrA [Drummond et al., EMBO J. 5 (1986) 441-447]. The C-terminal region (aa 515-558) has a putative DNA-binding structure. A short segment proximal to the central region (aa 211-229) is thought to be an interdomain linker. No amino acid homology was found in the N-terminal regions among these proteins. These findings suggest the interaction of XylR with an NtrA in the transcriptional activation of the degradative pathway.
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PMID:Nucleotide sequence of the regulatory gene xylR of the TOL plasmid from Pseudomonas putida. 316 74

In recent years it has become clear that the production of N-acyl homoserine lactones (N-AHLs) is widespread in Gram-negative bacteria. These molecules act as diffusible chemical communication signals (bacterial pheromones) which regulate diverse physiological processes including bioluminescence, antibiotic production, plasmid conjugal transfer and synthesis of exoenzyme virulence factors in plant and animal pathogens. The paradigm for N-AHL production is in the bioluminescence (lux) phenotype of Photobacterium fischeri (formerly classified as Vibrio fischeri) where the signalling molecule N-(3-oxohexanoyl)-L-homoserine lactone (OHHL) is synthesized by the action of the LuxI protein. OHHL is thought to bind to the LuxR protein, allowing it to act as a positive transcriptional activator in an autoinduction process that physiologically couples cell density (and growth phase) to the expression of the bioluminescence genes. Based on the growing information on LuxI and LuxR homologues in other N-AHL-producing bacterial species such as Erwinia carotovora, Pseudomonas aeruginosa, Yersinia enterocolitica, Agrobacterium tumefaciens and Rhizobium leguminosarum, it seems that analogues of the P. fischeri lux autoinducer sensing system are widely distributed in bacteria. The general physiological function of these simple chemical signalling systems appears to be the modulation of discrete and diverse metabolic processes in concert with cell density. In an evolutionary sense, the elaboration and action of these bacterial pheromones can be viewed as an example of multicellularity in prokaryotic populations.
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PMID:The bacterial 'enigma': cracking the code of cell-cell communication. 747 57

In Pseudomonas aeruginosa PAO1, expression of elastase is dependent upon an interaction between the positive transcriptional activator LasR and the auto-inducer molecule N-(3-oxododecanoyl)-L-homoserine lactone (OdDHL), the synthesis of which is directed by LasI. Previously we have shown that in PAN067, an elastase-negative mutant of PAO1, elastase production can be restored to some extent by addition of exogenous N-(3-oxohexanoyl)-L-homoserine lactone (OHHL). Here we report that PAN067 is also defective in the production of alkaline protease, haemolysin, cyanide, pyocyanin and autoinducer(s). As neither addition of exogenous OdDHL nor introduction of lasR restored PAN067 to the parental phenotype, we sought to complement PAN067 with PAO1 DNA. From a cosmid library, a 2 kb DNA fragment was identified which re-established production of autoinducer(s) and exoproducts in PAN067. From the nucleotide sequence of this fragment, two genes termed rhIR and rhII were identified. RhII is responsible for autoinducer synthesis and shares 31% homology with LasI; RhIR has been previously identified in P. aeruginosa strain DSM2659 as a regulator of rhamnolipid biosynthesis and shares 28% identity with LasR. These data provide clear evidence that multiple families of quorum-sensing modulons interactively regulate gene expression in P. aeruginosa.
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PMID:Multiple homologues of LuxR and LuxI control expression of virulence determinants and secondary metabolites through quorum sensing in Pseudomonas aeruginosa PAO1. 749 82

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