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

The mechanism by which transcription factors stimulate DNA replication in eukaryotes is unknown. Bovine papillomavirus DNA synthesis requires the products of the viral E1 gene and the transcriptional activator protein encoded by the E2 gene. Experimental data showed that the 68-kilodalton (kD) E1 protein formed a complex with the 48-kD E2 transcription factor. This complex bound specifically to the viral origin of replication, which contains multiple binding sites for E2. Repressor proteins encoded by the E2 open reading frame failed to complex with E1 suggesting that the 162-amino acid region of E2 that participates in transactivation contained critical determinants for interaction with E1. The physical association between a replication protein and a transcription factor suggests that transcriptional activator proteins may function in targeting replication initiator proteins to their respective origins of replication.
Science 1990 Dec 21
PMID:Targeting the E1 replication protein to the papillomavirus origin of replication by complex formation with the E2 transactivator. 217 44

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

We developed a simple and accurate method to define the sequence recognition properties of DNA-binding proteins. The method employs polymerase chain reaction (PCR) amplification of sequences selected from a mixture of random oligonucleotides by the gel mobility-shift assay. We used this method to define the sequence requirement of the binding domain of the yeast transcriptional activator GCN4. Using a total of 200 ng of purified protein and four cycles of binding and subsequent amplification, we identified the TGA-(C/G)TCA sequence as the binding consensus of GCN4, which is consistent with the previously reported recognition sequence. In addition, our data indicate that GCN4 can bind with lower affinity to sequences that differ from the optimal sequence in one or even two positions. The most common variation was the C to A at position +2. The majority of the substitutions that still allowed binding were 3' to the central C residue indicating that the two sides of the palindromic recognition sequence are not equivalent.
DNA Cell Biol 1990 Dec
PMID:Defining target sequences of DNA-binding proteins by random selection and PCR: determination of the GCN4 binding sequence repertoire. 226 32

Complete 1H NMR resonance assignments are presented for the cysteine rich region of the DNA binding domain of the yeast transcriptional activator GAL4. The protein contains short helical regions between Asp-12 and Leu-19 and between Lys-30 and Trp-36. It is clearly distinct from the C2H2 class of zinc finger protein typified by the Xenopus laevis transcription factor (TF)IIIA. We also find that the first SP(X)(X) sequence, a recently proposed DNA binding motif (residues 41 to 44), appears to be tightly packed against the metal binding domain.
FEBS Lett 1990 Dec 10
PMID:Complete assignment of the 1H NMR spectrum and secondary structure of the DNA binding domain of GAL4. 226 11

The Tax protein of human T-cell leukemia virus is a potent transcriptional activator of viral and cellular genes, including the genes for interleukin 2 and interleukin 2 receptor alpha chain (IL2R alpha). The NF-kappa B protein has been implicated in Tax-mediated activation of IL2R alpha gene expression. We show that activation of NF-kappa B by Tax is an indirect process that requires prior activation of a preexistent factor that is present in lymphoid cells. Deletion mutagenesis revealed that the carboxyl-terminal acidic region of Tax is required for activation of IL2R alpha-directed gene expression but dispensable for activation of the long terminal repeat (LTR). Our findings suggest that activation of viral and cellular gene expression by Tax is achieved through a cascade of events that involves multiple protein-protein associations and that the specificity of these associations is conferred through different domains of the Tax protein.
New Biol 1989 Dec
PMID:Activation of NF-kappa B by the HTLV-I trans-activator protein Tax requires an additional factor present in lymphoid cells. 248 94

Can a transcriptional activator known to bend DNA be functionally replaced by a sequence-directed bend in Escherichia coli? To investigate this question, a partially truncated promoter was used, deleted of its -35 region and of its CRP binding site, leaving only two Pribnow boxes as functional elements. Synthetic and naturally occurring curved DNA sequences introduced upstream from these elements could restore transcription at either one of the two natural starts. Some of these hybrid promoters turned out to be more efficient than the CRP activated wild-type gal promoter in vivo. Control experiments performed with very similar sequences devoid of any curvature produced weak promoters only. Minimal changes in the location of the centre of curvature or perturbation in the amount of curvature strongly affected the level of expression. No significant stimulation of transcription could be detected in vitro. Furthermore, both gal P1 and P2 starts could be activated in vivo but also in vitro via a properly positioned CRP binding site. This partial analogy suggests that bending induced by the cAMP-CRP complex upon binding to its site may be biologically relevant to the mechanism of transcriptional activation.
EMBO J 1989 Dec 20
PMID:Synthetic curved DNA sequences can act as transcriptional activators in Escherichia coli. 251 22

PhoB protein is the transcriptional activator for genes in the phosphate regulon of Escherichia coli, such as phoA and pstS, that are induced by phosphate deprivation. PhoR protein activates PhoB when phosphate is limiting and inactivates it when phosphate is in excess. We constructed a plasmid with a mutant phoR gene (phoR1084), which encoded a PhoR protein (PhoR1084) lacking the amino-terminal hydrophobic region of the intact protein. The cells carrying the plasmid overproduced PhoR1084, which was recovered in the soluble fraction of the cell lysate. We purified the Phor1084 protein and showed that it was autophosphorylated in the presence of ATP, and the phosphate group on the protein was rapidly transferred to PhoB. The phosphorylation of PhoB protein occurred concurrently with the acquisition of the ability to activate transcription from the pstS promoter. On the basis of these findings, we propose that phosphorylated PhoB protein activates transcription from the promoters of the phosphate regulon, and that the role of PhoR is to catalyze the formation and breakdown of phosphorylated PhoB in response to phosphate concentrations in the medium.
J Mol Biol 1989 Dec 05
PMID:Signal transduction in the phosphate regulon of Escherichia coli involves phosphotransfer between PhoR and PhoB proteins. 269 38

OmpR and EnvZ, the protein products of the ompB locus, are regulatory components required for osmoexpression of outer membrane porin proteins, OmpF and OmpC, in Escherichia coli. EnvZ is considered to be an osmosensor which transmits signals across the membrane to OmpR, a transcriptional activator for ompF and ompC. We inserted the envZ gene into a high expression vector, pIN-III. Following cellular fractionation, EnvZ was found to be localized in the inner membrane. Sequence analysis revealed that the signal peptide-like N-terminal sequence was not removed from the purified EnvZ. A genetic approach using EnvZ/beta-lactamase fusion proteins was taken to determine the topology of EnvZ in the inner membrane. When beta-lactamase was fused after the N-terminal signal peptide-like sequence, ampicillin resistance, conferred by the beta-lactamase moiety of the fusion protein, was expressed. However, when beta-lactamase was fused after the second downstream apolar sequence, the cells showed very poor ampicillin resistance indicating that the enzyme was localized on the cytoplasmic side of the inner membrane. The results of this approach reveal that the hydrophilic region of EnvZ between the two apolar sequences is periplasmically localized and that the hydrophilic region downstream of the second apolar sequence is cytoplasmically directed. These results were confirmed by partial proteolysis of the fusion proteins in intact cells.
J Biol Chem 1987 Dec 05
PMID:Localization and membrane topology of EnvZ, a protein involved in osmoregulation of OmpF and OmpC in Escherichia coli. 282 92

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

Primer-extension analysis of the Klebsiella pneumoniae nifH promoter was used to determine changes in the accessibility of the promoter DNA to methylation after exposure of growing cells to dimethyl sulfate. Four guanine residues present in the nifH upstream activator sequence (UAS), the proposed NifA binding site, were protected from methylation and two guanine residues were hypermethylated when the transcriptional activator protein NifA was present in the cells. The interaction detected at the nifH UAS was independent of the alternative sigma factor NtrA required for transcription of the nifH and other nif promoters. Mutations within the nifH UAS that diminish NifA-dependent transcriptional activation reduced the interaction at the UAS. It seems likely that the pattern of methylation protection observed in the nifH UAS is the result of NifA binding.
Proc Natl Acad Sci U S A 1988 Dec
PMID:NifA-dependent in vivo protection demonstrates that the upstream activator sequence of nif promoters is a protein binding site. 284 2


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