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)

Varicella-zoster (VZV) gene 62 encodes a protein with a predicted Mr of 140,000 (140K) which has considerable amino acid identity with the major immediate early (IE) protein Vmw175 (ICP4) of herpes simplex virus type I (HSV-1). Vmw175 is an essential virus polypeptide with a pivotal role in the activation of early and late viral gene expression and also in the repression of IE gene expression. The VZV 140K protein has been shown to function as a strong transcriptional activator in transfection assays and largely complements for the loss of Vmw175 function in HSV-1. We report the results of cotransfection experiments which demonstrate that the 140K protein strongly represses expression from its own promoter, that of gene 62, thus establishing further functional similarity between it and Vmw175. However, whereas Vmw175 can substitute for the 140K protein in repression of the gene 62 promoter, the 140K protein does not repress the HSV-1 IE3 promoter in the reciprocal experiment. The integrity of a domain of Vmw175 (designated region 2), previously shown to be crucial for repression of the HSV-1 IE3 promoter, is also required for repression of the gene 62 promoter. Moreover, a similar requirement for the highly similar region 2 of the 140K protein for repression is demonstrated, suggesting that VZV 140K protein and HSV-1 Vmw175 autoregulate IE gene expression by a related mechanism.
J Gen Virol 1990 Dec
PMID:The product of varicella-zoster virus gene 62 autoregulates its own promoter. 217 91

Both the neutral protease gene (nprS) and its transcriptional activator gene (nprA) from Bacillus stearothermophilus TELNE were cloned in Bacillus subtilis by using pTB53 as a vector plasmid. The presence of the nprA gene enhanced protease synthesis by about fivefold. The nucleotide sequences of nprS and its flanking regions were determined. nprS was composed of 1,653 base pairs and 551 amino acid residues. A Shine-Dalgarno (SD) sequence was found 9 bases upstream from the translation start site (ATG). The deduced amino acid sequence was very similar to that of another thermostable neutral protease gene, nprM (M. Kubo and T. Imanaka, J. Gen. Microbiol. 134:1883-1892, 1988). the amino acid sequence of the extracellular neutral protease NprS was completely identical to that of NprM. By deletion analysis and substitution of the original promoter with a foreign promoter, it was found that the nprA gene existed upstream of nprS. It was also found that a possible target region (palindromic sequence) of the gene product of nprA existed near the promoter sequence of nprS. The nucleotide sequences of nprA and its flanking regions were determined. The DNA sequence revealed only one large open reading frame, composed of 1,218 base pairs (406 amino acids; molecular weight, 49,097). The SD sequence was found 4 bases upstream from the translation start site (GTG). A possible promoter sequence (TTGAAG for the -35 region and AATTTT for the -10 region) was also found about 20 bases upstream of the SD sequence. The nprA gene was separated from nprS by a typical terminator sequence. By constructing an in-frame fusion between the lacZ gene and the 5' region of the nprA gene, it was demonstrated that the coding region of nprA was indeed translated in vivo. Three palindromic sequences, which were highly homologous with a possible target region by NprA, were also found in the 5' region of the nprA gene. This suggests that eh expression of nprA is autoregulated. From the time course of the production of NprA-LacZ fusion protein, it was indicated that nprA was expressed in late log phase, whereas nprS was expressed in the stationary phase. The NprA protein had consensus regions homologous to the DNA recognition domains of DNA-binding proteins but showed no sequence homology with any other regulatory proteins for protease production. It is inferred that NprA protein binds to the upstream region of nprS promoter and activates transcription of nprS. A new regulatory mechanism by the nprA-nprS genes is discussed.
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PMID:Cloning and nucleotide sequences of the Bacillus stearothermophilus neutral protease gene and its transcriptional activator gene. 220 33

The gene ARO7 encodes the monofunctional enzyme chorismate mutase, a branch point enzyme in the aromatic amino acid biosynthetic pathway in Saccharomyces cerevisiae. We investigated the transcription of the ARO7 gene. Three 5' ends at positions -36, -56 and -73 and the 3' end of the transcripts 146 bp downstream of the translational stop codon were mapped. As in the promoters of other aromatic amino acid biosynthetic genes, a recognition element for the GCN4 transcriptional activator of amino acid biosynthesis is located 425 base pairs (bp) upstream of the first transcriptional start point. This element binds GCN4 specifically in vitro. Northern analysis and determination of the specific enzyme activity reveals however, that the element is not sufficient to mediate transcriptional regulation by GCN4 in vivo. We thus suggest that in addition to a consensus sequence capable of binding the GCN4 protein other factors like, for example, chromatin structure, determine whether a recognition site for a transcription factor functions as an upstream activation sequence.
Mol Gen Genet 1990 Oct
PMID:A GCN4 protein recognition element is not sufficient for GCN4-dependent regulation of transcription in the ARO7 promoter of Saccharomyces cerevisiae. 227 32

In Saccharomyces cerevisiae starvation for a single amino acid activates the transcription of a set of genes belonging to different amino acid biosynthetic pathways (General Control, GC). We show that mutants affected in GC regulation are also affected in their response to thermal stress. Moreover, growth conditions that are known to induce heat shock proteins induce the GC response. However, unlike heat shock proteins, the transcriptional activator of GC, GCN4, is not induced after a short exposure to heat, and in gcn mutant strains induction of heat resistance is normal.
Mol Gen Genet 1990 Nov
PMID:Induction of "General Control" and thermotolerance in cdc mutants of Saccharomyces cerevisiae. 227 43

The nifA gene of Klebsiella pneumoniae, which encodes the transcriptional activator of nif gene expression, was cloned into a number of plasmid vectors to obtain high-level synthesis of nifA product (NifA). When over-produced, NifA was very insoluble and it precipitated with the cell debris after cell lysis. Localization of beta-galactosidase activity from a nifA-lacZ translational fusion confirmed the insoluble nature of NifA. Analysis of two translational fusions in which the last six C-terminal amino acids of NifA were deleted suggests that these residues are required for activity.
J Gen Microbiol 1988 Feb
PMID:Over-production and characterization of the nifA gene product of Klebsiella pneumoniae--the transcriptional activator of nif gene expression. 284 61

The fnr gene of Escherichia coli encodes a transcriptional activator (FNR) which is required for the expression of a number of genes involved in anaerobic respiratory pathways. From the study of a translational fusion of fnr to the gene for beta-galactosidase (lacZ) it has been concluded that the fnr gene is expressed under both aerobic and anaerobic conditions and is subject to autoregulation and repression by glucose, particularly during anaerobic growth. These findings imply that during anaerobiosis the FNR protein adopts an active conformation, in which it functions both as a repressor of the fnr gene and as an activator of fnr-dependent genes. Sequences in the 5' non-coding region of fnr which could be involved in autoregulation are discussed. The fnr coding region was cloned into an expression vector which has allowed an amplification of FNR synthesis such that it accounts for about 2% of total cell protein. The ability to over-produce FNR in this way should be very useful for future biochemical studies.
J Gen Microbiol 1987 Dec
PMID:Regulation and over-expression of the fnr gene of Escherichia coli. 284 47

The dosage of the transcriptional activator ADR1 was varied in order to study the regulation of the glucose-repressible alcohol dehydrogenase (ADH II) from Saccharomyces cerevisiae. ADH II activity during glucose growth conditions was shown to increase linearly with increasing ADR1 gene dosage. In contrast, under derepressed growth conditions a 100-fold increase in ADR1 copy number resulted in only a 4-fold increase in ADH II expression. Saturation of ADH II gene expression by ADR1 under derepressed conditions was shown not to result from decreased ADR1 transcription. Increases in ADH2 gene dosage in conjunction with high ADR1 gene dosages resulted in increased ADH II activity, indicating that ADH2 was the limiting factor during derepression. Under glucose-repressed conditions the activator CCR1 was not required for ADR1 activity. During derepression increasing ADR1 dosage could partially compensate for a CCR1 defect. Increasing CCR1 gene dosage, however, had no effect on ADH2 expression regardless of the ADR1 allele present. These results suggest that CCR1 acts through ADR1 in controlling ADH2 expression. It was also observed that high numbers of ADR1, or a few copies of ADR1-5c, substantially increased the cell doubling time under ethanol growth conditions, indicating that increased ADR1 activity is toxic.
Mol Gen Genet 1987 Jun
PMID:The effects of ADR1 and CCR1 gene dosage on the regulation of the glucose-repressible alcohol dehydrogenase from Saccharomyces cerevisiae. 330 3

The Saccharomyces cerevisiae transcriptional activator ADR1, which controls ADH2 gene expression, was shown to be involved in the regulation of peroxisome proliferation. To study the mode of action of ADR1, we compared strains carrying the adr1-1 mutation, high or low copy numbers of the ADR1 gene, the constitutive allele ADR1-5c, and 3'-deletions of ADR1. High ADR1 gene dosage increased the transcription of genes encoding peroxisomal proteins as compared to one copy of the ADR1 gene. Furthermore, overexpression of ADR1 under ethanol growth conditions induced the proliferation of peroxisomal structures. The organelles were observed to be localized in clusters, a typical feature of peroxisomes induced by oleic acid. In contrast, the ADR1-5c allele, which induces ADH2 expression to a level comparable to that of high ADR1 gene dosage was found to have only a small effect. An analysis of functional domains of the ADR1 protein revealed that the N-terminal 220 amino acids of ADR1 were sufficient for wild-type levels of transcription of the FOX2, FOX3, and PAS1 genes, but the entire ADR1 protein was required for complete induction of the CTA1 gene and for growth oleic acid medium. Our data suggest that a functional domain of the ADR1 protein localized between residues 643 and 1323 is required for the induction of peroxisomal structures and for the utilization of oleic acid.
Mol Gen Genet 1995 Nov 27
PMID:A C-terminal region of the Saccharomyces cerevisiae transcription factor ADR1 plays an important role in the regulation of peroxisome proliferation by fatty acids. 750 Sep 53

A novel gene, brd1, has been cloned from the fission yeast Schizosaccharomyces pombe. The predicted brd1 product contains two copies of an imperfect repeat of 96 amino acid residues in its N-terminal half. These each include a region with high homology to the bromodomains found in transcriptional activator proteins from a diversity of eukaryotes. An in vivo deletion of the complete brd1 open reading frame is not lethal but cells exhibit thermosensitivity, with reductions in both cell growth and stationary phase survival at 36 degrees C. brd1 maps adjacent to the gene suc1, but is expressed separately to give a low abundance 2.1 kb mRNA.
Mol Gen Genet 1995 Aug 30
PMID:A fission yeast gene mapping close to suc1 encodes a protein containing two bromodomains. 756 14

The Epstein-Barr virus (EBV) nuclear antigen 2 (EBNA2) is one of the first EBV-encoded gene products expressed after infection of primary B lymphocytes. EBNA2 is essential for the growth-transforming potential of the virus and it functions as a transcriptional activator of a set of viral and cellular genes. Sequence-specific DNA-binding by EBNA2 has not been demonstrated but the molecule is targeted to specific DNA regions by a cellular protein, RBP-J kappa, which recognizes the GTGGGAA sequence present in the regulatory region of all EBNA2-responsive promoters defined so far. We have determined the contribution of a RBP-J kappa recognition sequence, an adjacent interferon-stimulated response element (ISRE) motif and a PU.1-binding site in the LMP1 regulatory sequence (LRS) to EBNA2-induced transactivation of the promoter by site-directed mutagenesis of LRS-carrying reporter plasmids. EBNA2 responsiveness was reduced by approximately twofold when either or both of the RBP-J kappa-binding and ISRE sequences were mutated. ISRE seemed to function as an EBNA2-independent positive element. On the other hand, mutation of the PU box resulted in a drastic reduction of EBNA2 responsiveness, irrespective of whether the RBP-J kappa site or the ISRE motif was present. A comparative study by deletion mutation identified regions of EBV B95-8 EBNA2 involved in the transactivation of the LMP1 and the EBNA Cp promoters. Two domains of EBNA2 defined by deletion of amino acids 247-337 and 437-476 were found to be important for the activation of both promoters, while two different domains corresponding to residues 4-18 and 118-198 were required solely for the LMP1 promoter. Thus, EBNA2 must activate the LMP1 and Cp promoters by different mechanisms. All deletions involved in transcriptional activation of the two promoters contained regions that are conserved in EBNA2 of B95-8 EBV (type 1), AG876 EBV (type 2) and herpesvirus papio origin.
J Gen Virol 1995 Nov
PMID:Domains of the Epstein-Barr virus nuclear antigen 2 (EBNA2) involved in the transactivation of the latent membrane protein 1 and the EBNA Cp promoters. 759 74

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