Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

We have cloned and characterized a mouse cDNA coding for LFB3, a DNA binding protein containing an extra-large homeodomain. The first 315 amino acids of LFB3 are highly homologous to the DNA binding domain of LFB1, a regulatory protein involved in the expression of several liver-specific genes. LFB3 is a transcriptional activator which binds to DNA as a dimer and forms heterodimers with LFB1 both in vitro and in vivo. However, LFB3 expression seems not to be directly correlated with the liver-specific phenotype, since it is detected in dedifferentiated hepatoma cell lines which express neither LFB1 nor several liver-specific genes. LFB3 expression starts before that of LFB1 during mouse and rat development, and is strongly increased upon retinoic acid induced differentiation of F9 embryonic carcinoma cells. LFB3 and LFB1 are expressed in the epithelial component of many organs of endodermal and mesodermal origin, suggesting that they may play a more general role associated with the differentiation of specialized epithelia.
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PMID:LFB3, a heterodimer-forming homeoprotein of the LFB1 family, is expressed in specialized epithelia. 167 25

The levels of transcripts for Neurospora crassa genes concerned with cellular and metabolic functions changed dramatically at different stages of asexual development. Transcripts for some conidiation-related (con) genes were present at high levels in conidiating cultures and in dormant conidia, but were absent or reduced during mycelial growth. Levels of some con transcripts increased transiently during conidial germination, while others disappeared. Transcripts for amino acid biosynthetic enzymes, ribosomal proteins, cytochrome oxidase subunits, histones, and other polypeptides important for cell growth were detected in newly formed conidia and were present at reduced levels in dormant conidia. Levels of these transcripts increased upon germination of wild-type conidia in minimal medium, reaching their highest levels during this stage or during the early phase of exponential growth. The increased transcription of amino acid biosynthetic genes observed during germination in minimal medium was not dependent on a functional cpc-1 gene. However, cpc-1, which encodes a DNA binding protein presumed to function as a transcriptional activator, was essential for increased expression of amino acid biosynthetic genes when amino acid starvation was imposed during germination or at any subsequent stage of mycelial growth.
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PMID:Developmental expression of genes involved in conidiation and amino acid biosynthesis in Neurospora crassa. 183 95

We have isolated a cDNA clone, PU.1, that codes for a new tissue-specific DNA binding protein. Analysis of the binding site by methylation interference and DNAase 1 protection revealed that the PU.1 protein recognized a purine-rich sequence, 5'-GAGGAA-3' (PU box). The PU.1 protein was shown to be a transcriptional activator that is expressed in macrophages and B cells. cDNA constructions used to generate proteins lacking portions of either the amino- or carboxy-terminal ends of the PU.1 protein placed the DNA binding domain in the highly basic carboxy-terminal domain of the protein. The amino acid sequence in the binding domain of PU.1 has considerable identity with proteins belonging to the ets oncogene family.
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PMID:The macrophage and B cell-specific transcription factor PU.1 is related to the ets oncogene. 236 26

The bacteriophage lambda transcriptional activator protein, cII, coordinately regulates transcription from two phage promoters that control lysogenic development. We demonstrate that cII is a DNA binding protein that selectively interacts with a repeat sequence in the -35 region of the promoter. Furthermore, cII is shown to bind mainly one face of the DNA helix and to make its contacts primarily in the major groove of the DNA. RNA polymerase sees this same region from the opposite side and sandwiches the DNA helix between itself and cII.
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PMID:Bacteriophage lambda protein cII binds promoters on the opposite face of the DNA helix from RNA polymerase. 622 25

Epstein-Barr virus (EBV) nuclear antigen 2 (EBNA2) is a transcriptional activator that is essential for EBV-driven B cell immortalization. EBNA2 is targeted to responsive promoters through interaction with a cellular DNA binding protein, C promoter binding factor 1 (CBF1). A transcriptional repression domain has been identified within CBF1. This domain also interacts with EBNA2, and repression is masked by EBNA2 binding. Thus, EBNA2 acts by countering transcriptional repression. Mutation at amino acid 233 of CBF1 abolishes repression and correlates with a loss-of-function mutation in the Drosophila homolog Su(H).
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PMID:Masking of the CBF1/RBPJ kappa transcriptional repression domain by Epstein-Barr virus EBNA2. 772 2

Previously, we purified a DNA binding protein from a nuclear extract of the fat body of Sarcophaga peregrina larvae that binds to the ACCACAACA motif in the 5'-upstream region of the arylphorin gene, and suggested that this protein is a transcriptional activator of the arylphorin gene. In this study, we detected and purified the same protein (ABP-1) from an embryonic cell line of Sarcophaga that does not express the arylphorin gene. Unlike the fat body, which synthesizes arylphorin actively, the embryonic cells were found to contain an additional DNA binding protein (ABP-2) that bound to the same DNA probe as ABP-1, suggesting a novel mechanism of regulation of the arylphorin gene.
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PMID:Purification and characterization of the arylphorin gene specific binding protein from an embryonic cell line of Sarcophaga peregrina (flesh fly). 840 77

The Epstein-Barr virus nuclear antigen EBNA-2 is essential for Epstein-Barr virus-induced immortalization of B cells. EBNA-2 is a transcriptional activator capable of modifying the expression of specific viral and cellular genes. However, the mechanism of EBNA-2 transactivation has been an enigma. We used a fractionated extract of CA46 lymphoblastoid cells and bacterially expressed EBNA-2 polypeptides to demonstrate that EBNA-2 is targeted to the Epstein-Barr virus latency C promoter (Cp) through interaction with a cellular DNA binding protein designated Cp binding factor 1 (CBF1). A glutathione S-transferase-EBNA-2 fusion protein containing aa 252-425 of EBNA-2 interacted with CBF1 to yield a slowly migrating complex in an electrophoretic mobility shift assay. Mutation of EBNA-2 aa 323 and 324, which lie within a highly conserved amino acid motif, abolished the interaction with CBF1. This same mutation also abolished the ability of EBNA-2 to activate the Cp in a cotransfection assay. The binding site for CBF1 was localized to residues -359 to -388 of the Cp by using an electrophoretic mobility shift assay and DNase I footprinting. Introduction of multiple copies of the CBF1 binding site upstream of a minimal heterologous promoter conferred EBNA-2 responsiveness on that promoter. Mutation of a core sequence CNGTGGGAA abolished CBF1 binding, and the mutated sequence was unable to mediate EBNA-2 transactivation. The CBF1 core sequence also occurs in other EBNA-2-responsive promoters suggesting that CBF1 may mediate EBNA-2 transactivation of both cellular and viral targets.
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PMID:The Epstein-Barr virus immortalizing protein EBNA-2 is targeted to DNA by a cellular enhancer-binding protein. 841 84

GT-2 is a novel DNA binding protein that interacts with a triplet functionally defined, positively acting GT-box motifs (GT1-bx, GT2-bx, and GT3-bx) in the rice phytochrome A gene (PHYA) promoter. Data from a transient transfection assay used here show that recombinant GT-2 enhanced transcription from both homologous and heterologous GT-box-containing promoters, thereby indicating that this protein can function as a transcriptional activator in vivo. Previously, we have shown that GT-2 contains separate DNA binding determinants in its N- and C-terminal halves, with binding site preferences for the GT3-bx and GT2-bx promoter motifs, respectively. Here, we demonstrate that the minimal DNA binding domains reside within dual 90-amino acid polypeptide segments encompassing duplicated sequences, termed trihelix regions, in each half of the molecule, plus 15 additional immediately adjacent amino acids downstream. These minimal binding domains retained considerable target sequence selectivity for the different GT-box motifs, but this selectivity was enhanced by a separate polypeptide segment farther downstream on the C-terminal side of each trihelix region. Therefore, the data indicate that the twin DNA binding domains of GT-2 each consist of a general GT-box recognition core with intrinsic differential binding activity toward closely related target motifs and a modified sequence conferring higher resolution reciprocal selectivity between these motifs.
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PMID:GT-2: in vivo transcriptional activation activity and definition of novel twin DNA binding domains with reciprocal target sequence selectivity. 867 90

The C2-H2 zinc-finger is a widely occurring DNA binding motif, usually present as tandem repeats. The majority of C2-H2 zinc-finger proteins that have been studied are derived from animals. Here, we characterize a member of a distinct class of plant C2-H2 zinc-finger proteins in detail. A cDNA clone encoding a DNA binding protein from Arabidopsis was isolated by SouthWestern screening. The protein, termed ZAP1 (Zinc-dependent Activator Protein-1), is encoded by a single copy gene, which is expressed to similar levels in root and flower, to a somewhat lower level in stem and to low levels in leaf and siliques. The optimal binding site was determined by random binding site selection, and the consensus sequence found is CGTTGACCGAG. The homology between ZAP1 and other DNA binding proteins is restricted to a repeated region of a stretch of 24 highly conserved amino acids followed by a zinc-finger motif (C-X4-C-X22-23-H-X1-H). The C-terminal zinc-finger region is essential for DNA binding, whereas deletion of the N-terminal one resulted in 2.5-fold reduced binding affinity. Binding of ZAP1 to DNA was abolished by metal-chelating agents. The activation domain as determined in yeast is adjacent to and possibly overlapping with the DNA binding domain. Particle bombardment experiments with plant cells showed that ZAP1 increases expression of a gusA reporter gene that is under control of ZAP1 binding sites. We conclude that ZAP1 is a plant transcriptional activator with a C2-H2 zinc-finger DNA binding domain.
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PMID:Characterization of a zinc-dependent transcriptional activator from Arabidopsis. 897 46

The bacteriophage Mu C gene encodes a 16.5 kDa site-specific DNA binding protein that is a transcriptional activator of the four "late" promoters, Pmom, Plys, PI and PP. A symmetrical consensus C recognition sequence, TTAT[N5-6]ATAA, containing an inverted tetrad repeat separated by a spacer of five to six G+C-rich nucleotides, has been proposed. To investigate this, we used oligonucleotide mutagenesis to introduce random substitutions within and flanking the proposed C-target region; each variant site was tested for C recognition by an in vivo functional transactivation assay. We observed that all single mutations, in either tetrad, reduced C activation. Although two out of ten substitutions within the spacer reduced activation, the spacer region does not appear to make specific contact with C. We also used in vitro chemical-protection and -interference to study C contacts with Pmom. The results indicate that C contacts Pmom DNA on only one face of the helix through interactions within two adjacent major grooves; this conclusion was supported by gel shift analyses using synthetic oligonucleotide duplexes containing I.C or other base-pair substitutions. Evidence is also presented that C-Pmom contacts are asymmetrical, and that they extend two nucleotides 3' to the promoter-proximal tetrad. We also show that C binding induces a deformation, possibly a bend, in Pmom DNA.
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PMID:Interaction of the bacteriophage Mu transcriptional activator protein, C, with its target site in the mom promoter. 936 69


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