Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the role of the two AP-1 sites, located at approximately -150 and -180 bp relative to the transcription start site, in induction of the IL-2 promoter through the TCR/CD3 complex. We show that only the proximal (-150 bp) AP-1 site is functional in vitro, as judged by its ability to bind nuclear proteins from T cells stimulated with Ag or anti-CD3 epsilon. The inducible nuclear proteins binding to this site have the characteristics of AP-1, as judged by their kinetics of induction, the ability to compete and be competed efficiently by a metallothionein AP-1 site oligonucleotide, and their reaction with antibodies to Fos and Jun proteins. Mutations in the proximal AP-1 site greatly diminish or abrogate induction of the IL-2 promoter, indicating that the site is also functional in vivo. Although the distal (-180 bp) AP-1 site is incapable of direct binding to nuclear proteins from activated T cells, a mutation in this site diminishes IL-2 promoter induction, suggesting that this site may also be functional in vivo. Cotransfection of a 5' IL-2-chloramphenicol acetyltransferase plasmid with c-Fos and/or c-Jun enhances the induction of IL-2-chloramphenicol acetyltransferase activity, confirming that the IL-2 promoter contains a functional AP-1 site. Both AP-1 sites may be targets for c-Fos action, as inferred from the results of experiments in which c-Fos was cotransfected with internal deletion mutants of the IL-2 promoter lacking either AP-1 site. Northern analysis indicates that mRNAs for at least six members of the Fos/Jun family (c-fos, fosB, fra-1, c-jun, junB, and junD) are expressed in activated Ar-5 cells; thus the AP-1 sites of the IL-2 promoter may bind different dimeric Fos/Jun complexes at different times after T cell activation, perhaps mediating both positive and negative regulation of the IL-2 promoter.
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PMID:Analysis of the AP-1 sites in the IL-2 promoter. 173 37

Act-2 is a cytokine that belongs to a superfamily of structurally related proteins. Act-2 expression is rapidly induced in T cells, B cells, and monocytes upon mitogenic stimulation. The Act-2 genomic locus is on chromosome 17q. The exons and exon/intron splice junctions have been sequenced, as have the sequences upstream of exon 1. A classical TATA box is located immediately upstream of the transcription initiation site. The upstream sequences possess promoter activity and can be functionally activated after treatment of Jurkat T cells with phythohemagglutinin plus phorbol myristrate acetate. In addition, Act-2 promoter chloramphenicol acetyltransferase constructs are expressed in human T cell lymphotropic virus type I (HTLV-I)-infected MT-2 cells and in Jurkat cells which can be induced to express the transactivator gene (tax) product of HTLV-I.
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PMID:The gene encoding the Act-2 cytokine. Genomic structure, HTLV-I/Tax responsiveness of 5' upstream sequences, and chromosomal localization. 189 35

Polycistronic mRNAs containing an upstream beta-glucuronidase (GUS) and a downstream chloramphenicol acetyltransferase (CAT) reporter open reading frame (ORF) were expressed in transfected plant protoplasts. CAT expression could be strongly induced by coexpression of the cauliflower mosaic virus encoded translation transactivator. Transactivation was abolished when an upstream ORF overlapped the CAT ORF for a long distance. No specific sequence elements were required for transactivation but the presence of a short ORF upstream of the GUS ORF strongly enhanced the process. The inhibitory effect of additional presumed stem structures inserted into various regions of the reporter mRNAs indicates that both ORFs are translated by ribosomes that associate with the RNA at the 5' end and reach the ORFs by a linear migration mechanism.
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PMID:Translation of a polycistronic mRNA in the presence of the cauliflower mosaic virus transactivator protein. 193 8

It is hypothesized that the immediate-early (IE) gene products of human cytomegalovirus (CMV) and the transactivator (TAT) of human immunodeficiency virus type 1 (HIV-1) regulate HIV-1 gene expression through mechanisms involving host cell factors. By using transient transfection assays with the gene for chloramphenicol acetyltransferase (CAT) under the transcriptional control of the HIV-1 long terminal repeat (LTR), we examined transactivation of the LTR by plasmids that express either the HIV-1 gene for TAT or human CMV IE. The ratio of the level of transactivation by CMV IE to the level of transactivation by TAT varied up to 1,000-fold between cell types. The difference in the activities of these transactivators in various cell types was not a consequence of differential expression of the transactivator gene. Analysis of RNA species initiated in the HIV-1 LTR supports the conclusion that cellular factors regulate the level of elongation of the transcription complex on the LTR. Furthermore, evidence that in some cell types the predominant mechanism of transactivation by HIV-1 TAT involves posttranscriptional processes is presented.
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PMID:Cellular factors regulate transactivation of human immunodeficiency virus type 1. 199 49

The human IL-3 gene, located on chromosome 5, contains several cis-acting DNA sequences, i.e. CLE (conserved lymphokine element) and a GC-rich region, similar to the GM-CSF gene. To investigate the role of these elements, the 5' flanking region of the IL-3 gene was attached to a bacterial chloramphenicol acetyltransferase (CAT) gene. The fusion plasmids were analyzed by an in vitro transcription system using Jurkat cell nuclear extract prepared from cells stimulated with phorbol-12-myristate-13-acetate and calcium ionophore (PMA/A23187), introduced into Jurkat cells, expressed transiently, and stimulated by co-transfection of human T cell leukemia virus type I (HTLV-I) encoded transactivator, p40tax. The GC-rich region enhanced TATA-dependent transcription in the in vitro transcription system and also strongly responded to p40tax stimulation in the in vivo cotransfection assay. Using this GC-rich region as a probe, we identified a constitutive DNA-protein complex, alpha, whose binding specificity correlates with transcription activity. However, this element is not sufficient for the expression of the IL-3 gene in response to T cell activation signals (PMA/A23187) and no sequence was found within the IL-3 gene which mediates the response to PMA/A23187. The enhancer sequence which responds to T cell activation signals may be located outside the IL-3 gene and may be shared by other lymphokines, possibly by GM-CSF. We propose that the GM-CSF enhancer (CLE2/GC box) which mediates the response to T cell activation signals may stimulate the expression of the IL-3 gene.
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PMID:Definition of a GC-rich motif as regulatory sequence of the human IL-3 gene: coordinate regulation of the IL-3 gene by CLE2/GC box of the GM-CSF gene in T cell activation. 204 40

Biological interactions between human cytomegalovirus (HCMV) and the human immunodeficiency virus type 1 (HIV-1) were analysed in transfection and infection experiments, carried out in a human osteogenic sarcoma cell line (HOS) and in the same cell line chronically infected with HCMV (E155). When HOS and E155 cells were transfected with recombinant plasmids containing the HIV long terminal repeat (LTR) linked to the bacterial chloramphenicol acetyltransferase (CAT) gene, LTR-directed CAT expression was 20 times higher in E155 cells than in HOS cells. HOS cells co-infected with HCMV and HIV-1 showed enhanced production of the HIV-1 p24 antigen. In reciprocal experiments, an increase in HCMV immediate early gene expression was observed when HCMV-infected HOS cells and E155 cells were either transfected with a recombinant plasmid containing the HIV transactivator gene (pTAT), or when infected with HIV-1. DNA hybridization analysis of E155 and HCMV-infected HOS cells revealed higher levels of HCMV DNA in cells transfected with pTAT than in cells transfected with other non-specific recombinant plasmids. E155 cells transfected with pTAT also produced higher titres of infectious HCMV than control cultures of E155 cells transfected with other recombinant plasmids, including pMTAT carrying a mutant tat gene. The functional reciprocity in vitro between HCMV and HIV is discussed with respect to its possible implications for the clinical development of AIDS.
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PMID:Reciprocal enhancement of gene expression and viral replication between human cytomegalovirus and human immunodeficiency virus type 1. 215 40

Epstein-Barr virus (EBV) latent-infection membrane protein (LMP) gene cis-acting regulatory sequences were assayed in human B lymphocytes by using chloramphenicol acetyltransferase (cat) gene expression as a reporter. The activities of progressively longer upstream elements from bases -55 to -2350 were compared. At least two positive cis-activating regulatory components (-155 to -147 and -234 to -205) upstream of the LMP promoter were defined. LMP promoter cat gene constructs were more active in a Burkitt's lymphoma cell line latently infected with the B95 EBV strain than in the same cells latently infected with the P3HR1 EBV strain. Since the P3HR1- and B95-infected cells differ in EBNA-2 and EBNA-LP expression, EBNA-2 or EBNA-LP is a likely transactivator of the LMP promoter. Probable cognate sequences for known transcription factors in the LMP promoter are discussed.
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PMID:cis-acting regulatory elements near the Epstein-Barr virus latent-infection membrane protein transcriptional start site. 215 69

Proteins encoded by a variety of DNA viruses activate gene expression from the promoter within the long terminal repeat (LTR) of the human immunodeficiency virus type 1 (HIV-1). The mechanism by which immediate-early (IE) gene products of human cytomegalovirus (CMV) activate expression from the HIV-1 LTR was examined in transient expression assays in cultures of human cells by using plasmids containing the LTR linked to the bacterial chloramphenicol acetyltransferase (CAT) gene and a plasmid expressing the CMV IE gene. Analysis of clustered site mutations within the HIV-1 LTR revealed that sequences from nucleotides -6 to +20 (relative to the start site of transcription) are critical for responsiveness to transactivation by CMV IE gene products. This region partially overlaps the trans-acting response element (+19 to +42) required for function of the HIV-1 transactivator. The CMV IE gene was shown to increase the steady-state levels of both prematurely terminated and full-length transcripts initiated within the LTR. These results support a model in which CMV IE gene products act through a specific regulatory element in the HIV-1 LTR to increase viral transcription.
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PMID:Cytomegalovirus activates transcription directed by the long terminal repeat of human immunodeficiency virus type 1. 215 54

The bovine papillomavirus type 1 long control region (LCR) contains DNA sequence elements involved in the regulation of viral transcription and replication. Differences in the levels of transcription have previously been noted between bovine papillomavirus type 1-infected rodent cell lines and bovine cells. To investigate these differences, fragments of the LCR were cloned into an enhancer-deleted chloramphenicol acetyltransferase expression vector and assayed for enhancer activity. A strong constitutive enhancer was found in the 5' portion of the LCR that was most active in primary bovine fibroblasts and had little activity in other cell types. Deletion mapping localized most of the activity to a 113-bp fragment from nucleotides (nt) 7162 to 7275, a region of the viral sequence that also contains the P7185 promoter and an E2-binding site at nt 7203. The enhancer activity of this element could be positively modulated by the full-length E2 transactivator or negatively modulated by the E2 repressor. Site-directed mutagenesis defined two cis elements, CE1 and CE2, which were both necessary for enhancer activity. The CE1 element was required for P7185 activity, whereas the CE2 element was dispensable for P7185 activity. The CE1 and CE2 elements both overlap the E2-binding site at nt 7203. In vitro DNA-binding studies revealed (i) a specific gel retardation complex associated with cellular factor binding at the CE1 element, (ii) a correlation between enhancer activity and the binding of factors to the CE1 element, and (iii) competitive binding between the E2 repressor and the cellular factor at the CE1 element.
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PMID:A bovine papillomavirus constitutive enhancer is negatively regulated by the E2 repressor through competitive binding for a cellular factor. 217 Jun 79

Several Epstein-Barr virus (EBV) early promoters respond to a new EBV transactivator encoded by BRLF1, designated R. Transactivation was measured in chloramphenicol acetyltransferase assays on Raji, BHK, and Vero cells that were cotransfected with the transactivator and target promoters linked to the cat gene. The divergent promoter of BamHI-H was particularly responsive to R transactivation. This large promoter region consists of a leftward TATA box for the NotI repeat gene (BHLF1) and a probable rightward TATA box for the EA-R gene (BHRF1) separated by 940 base pairs of unusual sequence complexity. Sequences within this divergent promoter region appear to confer inducibility by EBV transactivators R and Z (BZLF1). The Z transactivator stimulated expression in both the leftward and rightward directions, and R stimulated expression primarily in the rightward direction, but the MS transactivator (BMLF1) had no activity in either direction. The adenovirus E3 promoter also responded to the R transactivator, but several other herpesvirus and human promoters were nonresponsive. When the divergent promoter was linked to the EA-R gene as it is in the EBV genome, the R and Z transactivators also induced the expression of EA-R in cotransfected cells. This cytoplasmic early antigen is encoded by BHRF1 and may be anchored in intracellular membranes by a carboxy-terminal transmembrane region.
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PMID:A new Epstein-Barr virus transactivator, R, induces expression of a cytoplasmic early antigen. 283 11


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