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)

HAP1 is a yeast transcriptional activator that binds with equal affinity to the dissimilar upstream activation sequences UAS1 and UAS(CYC7), but activates transcription differentially when bound to each site. HAP1-18 harbors an amino acid change in the DNA binding domain. While binding UAS1 poorly, HAP1-18 binds UAS(CYC7) with wild-type properties and activates transcription at elevated levels relative to HAP1. We have determined the structure of HAP1-18-UAS(CYC7) and have compared it to HAP1-UAS(CYC7). Unexpectedly, the single amino acid substitution in HAP1-18 nucleates a significantly altered hydrogen bond interface between the protein and DNA resulting in DNA conformational changes and an ordering of one N-terminal arm of the protein dimer along the DNA minor groove. These observations, together with a large subset of transcriptionally defective mutations in the HAP1 DNA-binding domain that map to the HAP1-DNA interface, suggest that protein-DNA interactions may have direct allosteric effects on transcriptional activation.
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PMID:Structure of HAP1-18-DNA implicates direct allosteric effect of protein-DNA interactions on transcriptional activation. 988 87

CooA from Rhodospirillum rubrum is a heme-based CO-sensing transcriptional activator, in which CO acts as a physiological effector. In this study, we examined the mechanism of site-specific recognition and transcriptional activation by CooA by elucidating the transcriptional activator activity of the mutant CooA proteins and the chimeric proteins derived from CRP and CooA and the promoter activity of the mutant promoters. Site-directed mutagenesis has revealed that Arg(177), Gln(178), and Ser(181) on the recognition helix of the helix-turn-helix motif in CooA are responsible for the site-specific recognition. The side chains of these amino acid residues at positions 177, 178, and 181 are believed to be hydrogen bonding to the G:A, T:A, and C:G pairs at positions 2/15, 3/14, and 4/13 in the CooA-dependent promoters to recognize the DNA site for CooA. The properties of the CRP/CooA chimeric proteins constructed in this work suggest that CooA activates transcription by a similar mechanism to that of CRP at Class II CRP-dependent promoters.
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PMID:Recognition of target DNA and transcription activation by the CO-sensing transcriptional activator CooA. 1042 77

The OxyR protein is a transcriptional activator for a subset of peroxide stress-inducible genes, most of which are involved in defense systems against oxidative stress. Recently, it was demonstrated that purified OxyR has one intramolecular disulfide bond, which led to the proposal that the reversible disulfide bond formation regulates the activity of OxyR as a transcription factor in response to peroxide stress. In this study, I demonstrated by SDS-PAGE under non-reducing conditions that an intramolecular disulfide bond is formed in OxyR upon exposure of the cells to hydrogen peroxide in vivo. Experiments using strains expressing mutant OxyR proteins with Cys to Ser single amino acids substitutions confirmed that the disulfide bond is formed between the Cys-199 and -208. Kinetic analyses indicated that the formation of the disulfide bond is rapid and transient, oxidized within 30 s and re-reduced within 5 min after the addition of hydrogen peroxide in the wild-type strain. These results provide evidence for the regulatory role of the reversible oxidation of dithiol to disulfide in sensing peroxide stress in vivo and signal transduction to the transcription apparatus by OxyR.
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PMID:In vivo oxidation-reduction kinetics of OxyR, the transcriptional activator for an oxidative stress-inducible regulon in Escherichia coli. 1048 70

Expression of the catalase-peroxidase of Caulobacter crescentus, a gram-negative member of the alpha subdivision of the Proteobacteria, is 50-fold higher in stationary-phase cultures than in exponential cultures. To identify regulators of the starvation response, Tn5 insertion mutants were isolated with reduced expression of a katG::lacZ fusion on glucose starvation. One insertion interrupted an open reading frame encoding a protein with significant amino acid sequence identity to TipA, a helix-turn-helix transcriptional activator in the response of Streptomyces lividans to the peptide antibiotic thiostrepton, and lesser sequence similarity to other helix-turn-helix regulators in the MerR family. The C. crescentus orthologue of tipA was named skgA (stationary-phase regulation of katG). Stationary-phase expression of katG was reduced by 70% in the skgA::Tn5 mutant, and stationary-phase resistance to hydrogen peroxide decreased by a factor of 10. Like the wild type, the skgA mutant exhibited starvation-induced cross-resistance to heat and acid shock, entered into the helical morphology that occurs after 9 to 12 days in stationary phase, and during exponential growth induced katG in response to hydrogen peroxide challenge. Expression of skgA increased 5- to 10-fold in late exponential phase. skgA is the first regulator of a starvation-induced stress response identified in C. crescentus. SkgA is not a global regulator of the stationary-phase stress response; its action encompasses the oxidative stress-hydrogen peroxide response but not acid or heat responses. Moreover, SkgA is not an alternative sigma factor, like RpoS, which controls multiple aspects of starvation-induced cross-resistance to stress in enteric bacteria. These observations raise the possibility that regulation of stationary-phase gene expression in this member of the alpha subdivision of the Proteobacteria is different from that in Escherichia coli and other members of the gamma subdivision.
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PMID:Identification of a regulator that controls stationary-phase expression of catalase-peroxidase in Caulobacter crescentus. 1049 30

Saccharomyces cerevisiae has seven genes encoding proteins with a high degree (>85%) of amino-acid sequence identity to the aryl-alcohol dehydrogenase of the lignin-degrading, filamentous fungus, Phanerochaete chrysosporium. All but one member of this gene set are telomere associated. Moreover, all contain a sequence similar to the DNA-binding site of the Yap1p transcriptional activator either upstream of or within their coding sequences. The expression of the AAD genes was found to be induced by chemicals, such as diamide and diethyl maleic acid ester (DEME), that cause an oxidative shock by inactivating the glutathione (GSH) reservoir of the cells. In contrast, the oxidizing agent hydrogen peroxide has no effect on the expression of these genes. We found that the response to anti-GSH agents was Yap1p dependent. The very high level of nucleotide sequence similarity between the AAD genes makes it difficult to determine if they are all involved in the oxidative-stress response. The use of single and multiple aad deletants demonstrated that only AAD4 (YDL243c) and AAD6 (YFL056/57c) respond to the oxidative stress. Of these two genes, only AAD4 is likely to be functional since the YFL056/57c open reading frame is interrupted by a stop codon. Thus, in terms of the function in response to oxidative stress, the sevenfold redundancy of the AAD gene set is more apparent than real.
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PMID:Analysis of the seven-member AAD gene set demonstrates that genetic redundancy in yeast may be more apparent than real. 1058 Dec 69

Quorum sensing (QS) governs the production of virulence factors and the architecture and sodium dodecyl sulphate (SDS) resistance of biofilm-grown Pseudomonas aeruginosa. P. aeruginosa QS requires two transcriptional activator proteins known as LasR and RhlR and their cognate autoinducers PAI-1 (N-(3-oxododecanoyl)-L-homoserine lactone) and PAI-2 (N-butyryl-L-homoserine lactone) respectively. This study provides evidence of QS control of genes essential for relieving oxidative stress. Mutants devoid of one or both autoinducers were more sensitive to hydrogen peroxide and phenazine methosulphate, and some PAI mutant strains also demonstrated decreased expression of two superoxide dismutases (SODs), Mn-SOD and Fe-SOD, and the major catalase, KatA. The expression of sodA (encoding Mn-SOD) was particularly dependent on PAI-1, whereas the influence of autoinducers on Fe-SOD and KatA levels was also apparent but not to the degree observed with Mn-SOD. beta-Galactosidase reporter fusion results were in agreement with these findings. Also, the addition of both PAIs to suspensions of the PAI-1/2-deficient double mutant partially restored KatA activity, while the addition of PAI-1 only was sufficient for full restoration of Mn-SOD activity. In biofilm studies, catalase activity in wild-type bacteria was significantly reduced relative to planktonic bacteria; catalase activity in the PAI mutants was reduced even further and consistent with relative differences observed between each strain grown planktonically. While wild-type and mutant biofilms contained less catalase activity, they were more resistant to hydrogen peroxide treatment than their respective planktonic counterparts. Also, while catalase was implicated as an important factor in biofilm resistance to hydrogen peroxide insult, other unknown factors seemed potentially important, as PAI mutant biofilm sensitivity appeared not to be incrementally correlated to catalase levels.
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PMID:Quorum sensing in Pseudomonas aeruginosa controls expression of catalase and superoxide dismutase genes and mediates biofilm susceptibility to hydrogen peroxide. 1059 32

Two genes encoding thioredoxin are found on the Escherichia coli genome. Both of them are capable of reducing protein disulfide bonds in vivo and in vitro. The catalytic site contains a Cys-X(1)-X(2)-Cys motif in a so-called thioredoxin fold. Thioredoxin 2 has two additional pairs of cysteines in a non-conserved N-terminal domain. This domain does not appear to be important for the function of thioredoxin 2 in donating electrons to ribonucleotide reductase, 3'-phosphoadenylsulfate-reductase, or the periplasmic disulfide isomerase DsbC. Our results suggests that the two thioredoxins are equivalent for most of the in vivo functions that were tested. On the other hand, transcriptional regulation is different. The expression of trxC is regulated by the transcriptional activator OxyR in response to oxidative stress. Oxidized OxyR binds directly to the trxC promoter and induces its expression in response to elevated hydrogen peroxide levels or the disruption of one or several of the cytoplasmic redox pathways. Mutants lacking thioredoxins 1 and 2 are more resistant to high levels of hydrogen peroxide, whereas they are more sensitive to diamide, a disulfide bond-inducing agent.
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PMID:Thioredoxin 2 is involved in the oxidative stress response in Escherichia coli. 1064 6

FhlA is the transcriptional activator of the genes coding for the formate hydrogen lyase system in Escherichia coli. It is activated by the binding of formate and induces transcription by sigma54 RNA polymerase after binding to specific upstream activating sequences (UAS). Sequence comparison had shown that FhlA exhibits a structure composed of three domains, which is typical for sigma54-dependent regulators. By analyzing the N-terminal domain of FhlA of E. coli (amino acids 1-378; FhlA-N) and the rest of the protein (amino acids 379-693; FhlA-C) as separate proteins in vivo and in vitro the functions of the different domains of FhlA were elucidated. The FhlA-C domain is active in ATP hydrolysis and activation of transcription and its activity is neither influenced by the presence of formate nor of the antiactivator HycA. However, it is stimulated in the presence of the FhlA-specific UAS, indicating that this region of FhlA is responsible for DNA binding. FhlA-N is not active itself but able to reduce the activity of full-length FhlA in trans, probably by formation of nonfunctional heterooligomers. The DNA binding site of FhlA was analyzed by hydroxyradical footprinting. Each UAS consists of two binding sites of 16 bp separated by a spacer region. A consensus sequence could be deduced and a model is presented and supported by in vivo data in which a FhlA tetramer binds to the UAS on one side of the DNA helix. Performing an extensive screening we could show that the FhlA regulatory system is conserved in different species of the family Enterobacteriaceae. The analysis of orthologs of FhlA revealed that they are able to functionally replace the E. coli enzyme.
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PMID:Analysis of the domain structure and the DNA binding site of the transcriptional activator FhlA. 1084 85

The MarA transcriptional activator binds to a 20 bp asymmetric degenerate sequence (marbox) located at different positions and orientations within the promoters of the genes of the Escherichia coli mar regulon. Solution of the MarA-marbox X-ray crystallographic structure suggested the presence of base-specific and non-specific interactions between the marbox and two helix-turn-helix (HTH) motifs on the monomeric MarA. Here, we use alanine-scanning mutagenesis and DNA retardation analysis to: (i) evaluate the contacts between MarA and the marboxes of five differently configured mar regulon promoters; (ii) assess the role of conserved hydrophobic amino acid residues for MarA activity; and (iii) identify residues required for RNA polymerase activation. These analyses revealed that the phosphate-backbone contacts and hydrogen bonds with the bases of the marbox are more significant for DNA binding than are the van der Waals interactions. While both N and C-terminal HTH motifs make essential contributions to binding site affinity, MarA is more sensitive to alterations in the N-terminal HTH. In a similar way, the activity of MarA is more sensitive to alterations in the hydrophobic core of this HTH. Solvent-exposed amino acid residues located at many positions on the MarA surface are important for activity. Some of these residues affect activity on all promoters and thus, are implicated in maintaining MarA structure whereas several solvent-exposed amino acids not involved in DNA binding were important for MarA activity on specific promoters. The pattern of activation defects defined a class II promoter-specific activating region. However, a localized class I activating region was not apparent. These results suggest that MarA activates transcription by at least two distinct mechanisms. Furthermore, the important role of phosphate contacts in marbox affinity suggests that indirect readout contributes to binding site recognition by MarA.
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PMID:Probing the Escherichia coli transcriptional activator MarA using alanine-scanning mutagenesis: residues important for DNA binding and activation. 1087 49

The peroxide response-inducible genes ahpCF, dps, and katB in the obligate anaerobe Bacteroides fragilis are controlled by the redox-sensitive transcriptional activator OxyR. This is the first functional oxidative stress regulator identified and characterized in anaerobic bacteria. oxyR and dps were found to be divergently transcribed, with an overlap in their respective promoter regulatory regions. B. fragilis OxyR and Dps proteins showed high identity to homologues from a closely related anaerobe, Porphyromonas gingivalis. Northern blot analysis revealed that oxyR was expressed as a monocistronic 1-kb mRNA and that dps mRNA was approximately 500 bases in length. dps mRNA was induced over 500-fold by oxidative stress in the parent strain and was constitutively induced in the peroxide-resistant mutant IB263. The constitutive peroxide response in strain IB263 was shown to have resulted from a missense mutation at codon 202 (GAT to GGT) of the oxyR gene [oxyR(Con)] with a predicted D202G substitution in the OxyR protein. Transcriptional fusion analysis revealed that deletion of oxyR abolished the induction of ahpC and katB following treatment with hydrogen peroxide or oxygen exposure. However, dps expression was induced approximately fourfold by oxygen exposure in DeltaoxyR strains but not by hydrogen peroxide. This indicates that dps expression is also under the control of an oxygen-dependent OxyR-independent mechanism. Complementation of DeltaoxyR mutant strains with wild-type oxyR and oxyR(Con) restored the inducible peroxide response and the constitutive response of the ahpCF, katB, and dps genes, respectively. However, overexpression of OxyR abolished the catalase activity but not katB expression, suggesting that higher levels of intracellular OxyR may be involved in other physiological processes. Analysis of oxyR expression in the parents and in DeltaoxyR and overexpressing oxyR strains by Northern blotting and oxyR'::xylB fusions revealed that B. fragilis OxyR does not control its own expression.
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PMID:The redox-sensitive transcriptional activator OxyR regulates the peroxide response regulon in the obligate anaerobe Bacteroides fragilis. 1096 88

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