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)

Multiple copy tandem repeats polymers of an authentic 30-bp region of the human interferon-beta (IFN-beta) promoter between positions-91 to -62 relative to the cap site or the hexanucleotide GAAAGT derived from this region, both acted as strong constitutive regulatory elements in transfected HeLa cells. Such polymers were unresponsive to treatment with IFN-alpha despite their considerable homology with the IFN-responsive elements of other genes but were highly responsive to treatment of HeLa cells with IFN-gamma. Virus induction of HeLa cells transfected with polymers of the 30-bp region linked to a CAT gene increased the activity of the reporter gene 500- to 2,000-fold over baseline levels. Treatment with IFN-alpha prior to virus induction did not increase further CAT activity. Cotransfection of HeLa cells with the CAT gene under the control of a 12-element tandem repeat polymer of the human IFN-beta promoter and an expression vector for the IRF-1 transcriptional activator markedly increased CAT activity while cotransfection of HeLa cells with the IFN-beta construct together with an expression vector for the transcriptional regulator IRF-2 markedly decreased CAT activity relative to cells transfected with the IFN-beta polymer alone.
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PMID:Tandem repeat polymers of a critical region of the human interferon-beta promoter exhibit a marked constitutive activity and enhanced responsiveness to transcriptional regulators in transfected HeLa cells. 143 17

AmpR, the transcriptional regulator for the Citrobacter freundii ampC beta-lactamase gene, was purified. The purified AmpR had DNA-binding activity, the same molecular mass (32 kDa) on sodium dodecyl sulphate/polyacrylamide gel electrophoresis as previously described, and N-terminal sequencing of the first 15 amino acids was in agreement with that predicted from the nucleotide sequence. Two mutants were isolated that abolish DNA-binding and beta-lactamase induction and which map in the amino- and carboxyl-terminal ends of AmpR, respectively. The mutation in the amino terminus (S35F) was located in a helix-turn-helix region showing high homology to other members of the LysR regulator family. Therefore this mutation may directly abolish the contact between AmpR and its operator sequence. It is suggested that the C-terminal mutation (Y264N) affects subunit interactions in AmpR. One constitutive mutant was isolated which mapped in the centre of the ampR gene. This G102E mutant leads to constitutive beta-lactamase expression in the absence of both beta-lactam inducer and ampG, a gene essential for induction in wild-type enterobacteria. Another mutant protein, D135Y, showed wild-type properties in an ampG+ and an ampG::kan background, but could, unlike wild-type AmpR, activate the ampC gene in an ampG1 mutant background. It is thought that ampG1 is a missense mutant. These two types of ampR mutants suggest that activation of ampC transcription is dependent on the conversion of AmpR into a transcriptional activator and that this activation may normally involve interactions with AmpG.
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PMID:Purification and mutant analysis of Citrobacter freundii AmpR, the regulator for chromosomal AmpC beta-lactamase. 194 5

Gene expression of human T-cell leukemia virus type 1 (HTLV-1) is regulated by two trans-acting factors encoded by the pX region, p40tax and p27tax.p40tax is a transcriptional activator and p27rex is a post-transcriptional regulator. Using full-length viral DNA, we studied the regulatory effects of rex on HTLV-1 gene expression. p27rex is required for expression of both gag and env proteins, increasing the level of their mRNAs. The effect was dependent on the dose of p27rex expression plasmid. In parallel, increased doses of p27rex suppressed the expression of fully spliced pX mRNA, which encodes the regulatory proteins. These two effects of p27rex operated at the post-transcriptional level and were independent of transcriptional regulation. Lowering the level of pX mRNA down-regulates transcription of the proviral genome. These observations demonstrate that rex is a positive post-transcriptional regulator for gag, pol and env protein expression, and acts at the same time as an indirect negative regulator of viral transcription.
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PMID:Post-transcriptional regulator (rex) of HTLV-1 initiates expression of viral structural proteins but suppresses expression of regulatory proteins. 283 30

Specific cysteine residues at possible methyl acceptor sites of the Ada protein of Escherichia coli were converted to other amino acids by site-directed mutagenesis of the cloned ada gene of E. coli. Ada protein with the cysteine residue at 321 replaced by alanine was capable of accepting the methyl group from the methylphosphotriester but not from O6-methylguanine or O4-methylthymine of alkylated DNA, whereas the protein with alanine at position 69 accepted the methyl group from the methylated bases but not from the methylphosphotriester. These two mutants were used to elucidate the biological significance of repair of the two types of alkylation lesions. Introduction of the ada gene with the Ala69 mutation into an ada- cell rendered the cell more resistant to alkylating agents with respect to both killing and induction of mutations, but the gene with the Ala321 mutation exhibited no such activity. Replacement of the cysteine residue at position 69, but not at position 321, abolished the ability of Ada protein to promote transcription of both ada and alkA genes in vitro. These results are compatible with the idea that methylation of the cysteine residue at position 69 renders Ada protein active as a transcriptional regulator, whilst the cysteine residue at position 321 is responsible for repair of pre-mutagenic and lethal lesions in DNA. The actions of mutant Ada proteins on the ada and alkA promoters in vivo were investigated using an artificially composed gene expression system. When the ada gene with the Ala69 mutation was introduced into the cell, there was little induction of expression of either the ada or the alkA genes, even after treatment with an alkylating agent, in agreement with the data obtained from studies in vitro. With the Ala321 mutation, however, a considerable degree of ada gene expression occurred without adaptive treatment. The latter finding suggests that the cysteine residue at position 321, which is located near the C terminus of the Ada protein, is involved in regulating activity, as the transcriptional activator.
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PMID:Functional sites of the Ada regulatory protein of Escherichia coli. Analysis by amino acid substitutions. 304

Heat shock factor 2 (HSF2) functions as a transcriptional regulator of heat shock protein gene expression in mammalian cells undergoing processes of differentiation and development. Our previous studies demonstrated high regulated expression and unusual constitutive DNA-binding activity of the HSF2 protein in mouse testes, suggesting that HSF2 functions to regulate heat shock protein gene expression in spermatogenic cells. The purpose of this study was to test whether HSF2 regulation in testes is associated with alterations in the HSF2 polypeptide expressed in testes relative to other mouse tissues. Our results show that mouse cells express not one but two distinct HSF2 proteins and that the levels of these HSF2 isoforms are regulated in a tissue-dependent manner. The testes express predominantly the 71-kDa HSF2-alpha isoform, while the heart and brain express primarily the 69-kDa HSF2-beta isoform. These isoforms are generated by alternative splicing of HSF2 pre-mRNA, which results in the inclusion of an 18-amino-acid coding sequence in the HSF2-alpha mRNA that is skipped in the HSF2-beta mRNA. HSF2 alternative splicing is also developmentally regulated, as our results reveal a switch in expression from the HSF2-beta mRNA isoform to the HSF2-alpha isoform during testis postnatal developmental. Transfection analysis shows that the HSF2-alpha protein, the predominant isoform expressed in testis cells, is a more potent transcriptional activator than the HSF2-beta isoform. These results reveal a new mechanism for the control of HSF2 function in mammalian cells, in which regulated alternative splicing is used to modulate HSF2 transcriptional activity in a tissue-dependent manner.
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PMID:Tissue-dependent expression of heat shock factor 2 isoforms with distinct transcriptional activities. 756 77

Deregulated expression of v-abl and BCR/abl genes has been associated with myeloproliferative syndromes and myelodysplasia, both of which can progress to acute leukemia. These studies identify the localization of the oncogenic form of the abl gene product encoded by the Abelson murine leukemia virus in the nuclei of myeloid cells and the association of the v-Abl protein with the transcriptional regulator cyclic AMP response element-binding protein (CREB). We have mapped the specific domains within each of the proteins responsible for this interaction. We have shown that complex formation is a prerequisite for transcriptional potentiation of CREB. Transient overexpression of the homologous cellular protein c-Abl also results in the activation of promoters containing an intact CRE. These observations identify a novel function for v-Abl, that of a transcriptional activator that physically interacts with a transcription factor.
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PMID:Nuclear localization of v-Abl leads to complex formation with cyclic AMP response element (CRE)-binding protein and transactivation through CRE motifs. 756 61

In the yeast cell cycle 'start' requires sets of the Cdc10/ SWI family of transcriptional factors which activate the MCB cis elements contained in genes essential for S phase progression. Fission yeast possess two such overlapping systems, Res1-Cdc10 and Res2-Cdc10, both of which act to start the mitotic and meiotic cycles. We have recently isolated rep2+ as a multicopy suppressor of a temperature-sensitive cdc10 mutant which encodes a zinc finger protein. Here we show that the Rep2 zinc finger protein is an essential component of the active Res2-Cdc10 transcriptional regulator complex and likely to play a role in the control of cell cycle 'start'. Our data suggest that Rep2 is a transcriptional activator subunit which interacts with the MCB binding subunit complex formed by Res2 and Cdc10.
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PMID:Fission yeast Rep2 is a putative transcriptional activator subunit for the cell cycle 'start' function of Res2-Cdc10. 758 9

N-Acylhomoserine lactone (acyl-HSL)-mediated gene expression, also called autoinduction, is conserved among diverse gram-negative bacteria. In the paradigm Vibrio fischeri system, bioluminescence is autoinducible, and the lux operon requires the transcriptional activator LuxR and the acyl-HSL autoinducer for expression. The production of the acyl-HSL signal molecule is conferred by the luxI gene, and luxR encodes the transcriptional regulator. We show here that Erwinia stewartii, the etiological agent of Stewart's wilt of sweet corn, synthesizes an acyl-HSL. Mass spectral analysis identified the signal molecule as N-(-3-oxohexanoyl)-L-homoserine lactone, which is identical to the V. fischeri autoinducer. We have cloned and sequenced the gene that confers acyl-HSL biosynthesis, called esaI, and the linked gene, esaR, that encodes a gene regulator. The two genes are convergently transcribed and show an unusual overlap of 31 bp at their 3' ends. Sequence analysis indicates that EsaI and EsaR are homologs of LuxI and LuxR, respectively. EsaR can repress its own expression but seems not to regulate the expression of esaI. The untranslated 5' region of esaR contains an inverted repeat with similarity to the lux box-like elements located in the promoter regions of other gene systems regulated by autoinduction. However, unlike the other systems, in which the inverted repeats are located upstream of the -35 promoter elements, the esaR-associated repeat overlaps a putative -10 element. We mutagenized the esaI gene in E. stewartii by gene replacement. The mutant no longer produced detectable levels of the acyl-HSL signal, leading to a concomitant loss of extracellular polysaccharide capsule production and pathogenicity. Both phenotypes were restored by complementation with esal or by exogenous addition of the acyl-HSL.
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PMID:Capsular polysaccharide biosynthesis and pathogenicity in Erwinia stewartii require induction by an N-acylhomoserine lactone autoinducer. 766 77

Rev-ErbA alpha (Rev-Erb) is a nuclear hormone receptor-related transcriptional activator that is encoded on the noncoding strand of the alpha-thyroid hormone receptor (TR) gene. The similarities between Rev-Erb and receptors for differentiating agents, as well as the abundance of Rev-Erb mRNA in fat, led us to study Rev-Erb gene expression during adipogenesis. Remarkably, Rev-Erb mRNA levels increased dramatically during the differentiation of 3T3-L1 cells into adipocytes. Rev-Erb was similarly induced in the related 3T3-F442A cell line but not in nondifferentiating 3T3-C2 cells. The time course of Rev-Erb induction was similar to that of C/EBP alpha, an important transcriptional regulator in adipocytes, and Rev-Erb mRNA was superinduced by cycloheximide. Nuclear run-on assays indicated that an increased rate of Rev-Erb mRNA synthesis accounted for the increased steady state mRNA levels; the half-life of Rev-Erb mRNA was indistinguishable in preadipocytes and adipocytes. Treatment of preadipocytes with retinoic acid inhibited adipocyte differentiation and also prevented Rev-Erb induction. Thus, there is a correlation between Rev-Erb gene expression and differentiation, and transcriptional regulation by Rev-Erb could play an important role in the generation and/or maintenance of the adipocyte phenotype. Interestingly, and possibly related to the overlap between the Rev-Erb gene and the exon specific for TR alpha 2, the induction of Rev-Erb was also associated with a 3-fold increase in the ratio of TR alpha 1 to TR alpha 2 mRNA levels, indicating that Rev-Erb expression has the potential to modulate adipocyte gene expression by multiple mechanisms.
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PMID:Induction of Rev-ErbA alpha, an orphan receptor encoded on the opposite strand of the alpha-thyroid hormone receptor gene, during adipocyte differentiation. 834 13

A ribulose 1,5-bisphosphate carboxylase-oxygenase (RubisCO) deletion strain of Rhodospirillum rubrum that was incapable of photolithoautotrophic growth was constructed. Photoheterotrophic growth, however, was possible for the R. rubrum RubisCO deletion strain when oxidized carbon compounds such as malate were supplied. The R. rubrum RubisCO-deficient strain was not complemented to photolithoautotrophic growth by various R. rubrum DNA fragments that contain the gene encoding RubisCO, cbbM. When the R. rubrum cbbM deletion strain harbored plasmids containing R. rubrum DNA inserts with at least 2.0 kb preceding the translational start site of the cbbM gene, RubisCO activity and RubisCO antigen were detected. Lack of RubisCO expression was therefore not the cause for the failure to complement the cbbM mutant strain. Interestingly, DNA fragments encoding either of two complete Calvin-Benson-Bassham CO2- fixation (cbb) gene operons from Rhodobacter sphaeroides were able to complement the R. rubrum RubisCO deletion strain to photolithoautotrophic growth. The same R. rubrum DNA fragments that failed to complement the R. rubrum cbbM deletion strain successfully complemented the RubisCO deletion strain of R. sphaeroides, pointing to distinct differences in the regulation of metabolism and the genetics of photolithoautotrophic growth in these two organisms. A number of cbb genes were identified by nucleotide sequence analysis of the region upstream of cbbM. Included among these was an open reading frame encoding a cbbR gene showing a high degree of sequence similarity to known lysR-type CO2 fixation transcriptional activator genes. The placement and orientation of the cbbR transcriptional regulator gene in R. rubrum are unique.
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PMID:Complementation analysis and regulation of CO2 fixation gene expression in a ribulose 1,5-bisphosphate carboxylase-oxygenase deletion strain of Rhodospirillum rubrum. 834 47

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