EC:2.3.1.28 - FACTA Search

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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)

The long terminal repeat (LTR) of a retrovirus contains sequence elements that constitute a promoter for controlling viral gene expression in infected cells. We have examined regulation of LTR-directed gene expression in feline immunodeficiency virus (FIV), a T-lymphocytopathic lentivirus associated with a fatal AIDS-like disease in domestic cats. Two independent virus isolates, designated FIV-Petaluma and FIV-PPR, have been molecularly cloned and show greater than 85% sequence homology. Both clones (termed pF34 and pPPR) produce infectious virus after transfection of permissive feline cells. Basal promoter activity of the LTRs was measured in various cell lines in transient expression assays using plasmids containing the viral LTR linked to the bacterial chloramphenicol acetyltransferase gene. Both LTRs were strong promoters in several cell lines, although in some cell lines the pF34 LTR had four- to fivefold higher basal activity than the pPPR LTR. FIV LTR mutations affecting the first AP4 site, AP1 site, ATF site, or NF-kappa B site resulted in decreased basal activity of the FIV promoter. Mutational analysis also revealed a negative regulatory element. In cotransfection experiments, both pF34 proviral DNA and pPPR proviral DNA appeared to transactivate either the pF34 LTR or the pPPR LTR; however, levels of transactivation were very low. Cotransfection of both LTRs with FIV subgenomic clones containing various viral open reading frames resulted in low level or no transactivation. The LTRs of both FIV clones responded to cell activation signals in human T-lymphoid cells (Jurkat) treated with phytohemagglutinin and phorbol-12-myristate-13-acetate. Promoter function of both FIV LTRs was also enhanced in cells treated with either forskolin, an inducer of intracellular cyclic-AMP (c-AMP), or dibutyryl c-AMP. Analysis of site-specific mutants showed that a potential AP1 site in the U3 domain of the LTR was required for T-cell activation responses mediated by protein kinase C, whereas a putative ATF site was the target for c-AMP-induced responses mediated by protein kinase A. These studies revealed that cellular transcription factors play a significant role in regulation of FIV gene expression.
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PMID:Regulation of gene expression directed by the long terminal repeat of the feline immunodeficiency virus. 131 May 54

A plasmid carrying the 5'-flanking region (-1584 to +47 with respect to the transcription initiation site) of the mouse proliferating cell nuclear antigen (PCNA) gene was fused with the chloramphenicol acetyltransferase (CAT) gene, and then cotransfected into mouse N18TG2 cells with expression plasmids for the adenovirus type 12 E1 genes. Expression of E1A gene products elevated the CAT expression by 5- to 9-fold, but expression of the E1B gene product did not. RNase protection analysis revealed that the activation of the PCNA gene promoter by E1A was at the transcription step. Both the 13S E1A and the 12S E1A activated the PCNA gene promoter, indicating that the activation domain of E1A resides in a common region(s) of 13S and 12S E1A products. The major target region of E1A was mapped within the 68 base-pair region (-21 to +47) of the PCNA gene, which includes consensus sequences for transcription factors PEA3 and E2F, although the upstream region (-83 to -21) including ATF(CREB)-binding consensus had an additional effect in the transactivation.
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PMID:Activation of the mouse proliferating cell nuclear antigen gene promoter by adenovirus type 12 E1A proteins. 135 54

Transforming growth factor TGF-beta 2 is encoded by multiple mRNA transcripts of 5.8, 5.1, 4.0, 3.8, and 2.8 kilobase pairs (kb) that are expressed in various human and monkey cells. Northern blot analysis using genomic fragments of DNA was used to demonstrate that some of this size heterogeneity is due to differences in the length of the 5'-untranslated region. Probes that were colinear with the first 600 nucleotides of the 5'-untranslated region detected only the 5.8-, 4.0-, and 3.8-kb transcripts. In order to identify DNA elements that regulate the transcription of these mRNA transcripts, deletion constructs of 5'-flanking DNA were ligated to the coding region for chloramphenicol acetyltransferase (CAT) and analyzed for promoter activity in several cell lines. Sequences responsible for putative enhancer and silencer regions were identified between -778 and -40 relative to the transcription initiation site. Addition of a cyclic AMP-responsive element/activating transcription factor-like element at -74 resulted in a 5-10-fold increase in CAT activity over that expressed with a construct that contained only the TATA box. This increase in CAT activity was suppressed by the addition of DNA sequences between -257 and -187, whereas sequences between -778 and -257 stimulated CAT activity. Point mutations within the ATF binding site at -74 resulted in a marked decrease in CAT expression. Cotransfection with ATF-1 or ATF-2 expression plasmids resulted in both dose-dependent stimulatory and inhibitory activities that were cell type-dependent. These studies identify multiple transcription initiation sites for TGF-beta 2 and demonstrate that transcription from one of these promoters is dependent upon an ATF binding site located 5' of the TATA box.
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PMID:Identification of an activating transcription factor (ATF) binding site in the human transforming growth factor-beta 2 promoter. 140 Mar 10

Previous studies have shown that EC cells do not express detectable levels of TGF-beta 2 or its mRNA until they differentiate. This suggested that differentiation influences the transcription of the TGF-beta 2 gene in this model system. To address this possibility, we have examined the activity of the TGF-beta 2 promoter in EC cells and their differentiated cells using gene constructs containing various portions of the TGF-beta 2 promoter inserted upstream of the reporter gene, chloramphenicol acetyltransferase (CAT). We determined that the level of CAT increases approximately ninefold when EC cells were induced to differentiate. Our studies also indicate that the TGF-beta 2 promoter contains at least two positive regulatory elements that are separated by a negative regulatory element. Finally, we have identified a CRE/ATF-like site that appears to be responsible for a positive regulatory element located between -77 and -40.
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PMID:Differential regulation of the transforming growth factor type-beta 2 gene promoter in embryonal carcinoma cells and their differentiated cells. 151 48

A plasmid carrying the 5'-flanking region (-1852 to +33 with respect to the transcription initiation site) of the mouse DNA polymerase beta gene fused with the chloramphenicol acetyltransferase (CAT) gene was cotransfected into mouse N18TG2 cells with adenovirus type 12 E1 genes-expressing plasmids. Expression of E1A gene products resulted in the elevation of the CAT expression by 3 to 7 folds, but that of E1B gene product was much less effective. RNase protection analysis revealed that the activation by E1A was at the transcription process. Both the 13S E1A and the 12S E1A activated the DNA polymerase beta gene promoter, indicating that the activation domain of E1A is in a common region(s) of 13S and 12S E1A products. The major target sequence of E1A was mapped within the 10 base pair-region (-30 to -20) of the DNA polymerase beta gene promoter, which overlapped with the palindromic sequence known as the ATF(CREB)/E4F-binding consensus. The results suggest that the palindromic sequence is essential for E1A-induced transcriptional activation of the mouse DNA polymerase beta gene.
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PMID:Activation of the mouse DNA polymerase beta gene promoter by adenovirus type 12 E1A proteins. 153 5

The stimulatory effects of the 13S adenovirus E1A gene product on the human cytomegalovirus (HCMV) major immediate early (IE) enhancer were examined. Chimeric plasmids containing cloned portions of the HCMV major IE enhancer-promoter positioned upstream of the chloramphenicol acetyltransferase gene (cat) were cotransfected into HeLa cells with the plasmid p13S-wt which contained a cDNA encoding the adenovirus 13S E1A gene product. CAT expression from chimeric plasmids containing at least one copy of the HCMV 19 base pair (bp) repetitive motif was stimulated 10-fold in the presence of p13S-wt. The 19-bp motif contains a potential binding site for the cellular transcription factor ATF/CREB. Deletion analysis indicated that the ATF/CREB site was crucial for E1A-mediated stimulation. Insertion of a synthetic oligonucleotide homologous to a 19-bp motif and containing an ATF/CREB binding site into an HCMV chimera lacking ATF/CREB motifs conferred E1A responsivity on HCMV promoter-mediated CAT expression whereas insertion of a similar oligonucleotide containing a change of two bases in the sequence of the ATF/CREB site did not. Measurement of CAT-specific RNA verified the results of the CAT enzyme experiments. The ATF/CREB motif may be a target for stimulation of HCMV gene expression through either viral or cellular transcription factors.
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PMID:The human cytomegalovirus immediate early enhancer-promoter is responsive to activation by the adenovirus-5 13S E1A gene. 214 16

The adenovirus early region 3 (E3) promoter is an early viral promoter which is strongly induced by the adenovirus transactivator protein E1A. DNase I footprinting with HeLa cell extracts has identified four factor-binding domains which appear to be involved in basal and E1A-induced transcriptional regulation. These binding domains may bind TATA region-binding factors (site I), the CREB/ATF protein (site II), the AP-1 protein (site III), and nuclear factor I/CTF (site IV). Recently, it has been shown that the DNA-binding domain of transcription factor AP-1 has homology with the yeast transcription factor GCN4 and that the yeast transactivator protein GAL4 is able to stimulate transcription in HeLa cells from promoters containing GAL4-binding sites. These results suggest an evolutionary conservation of both transcription factors and the mechanisms responsible for transcriptional activation in Saccharomyces cerevisiae and higher eucaryotic organisms. To determine whether similar patterns of transcriptional regulation were seen with the E3 promoter in HeLa and yeast cells, the E3 promoter fused to the chloramphenicol acetyltransferase (cat) gene was cloned into a high-copy-number plasmid and stably introduced into yeast cells. S1 analysis revealed that similar E3 promoter mRNA start sites were found in yeast and HeLa cells. DNase I footprinting with partially purified yeast extracts revealed that four regions of the E3 promoter were protected. Several of these regions were similar to binding sites determined by using HeLa cell extracts. Oligonucleotide mutagenesis of these binding domains indicated their importance in the transcriptional regulation of the E3 promoter in yeast cells. These results suggest that similar cellular transcription factor-binding sites may be involved in the regulation of promoters in both yeast and mammalian cells.
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PMID:Adenovirus transcriptional regulatory regions are conserved in mammalian cells and Saccharomyces cerevisiae. 297 53

We have determined by deletion analysis that the most proximal region of the Pdha-2 promoter between nucleotide position -187 to +22 harbors a transcriptionally active core. This "core" promoter directs high levels of CAT (chloramphenicol acetyltransferase) reporter gene transcription in HeLa cells. DNase I footprinting of the proximal promoter revealed four regions of protection. One of these contains the consensus sequence for the Sp1 binding site and another the ATF/CREB binding site. The cis-sequences of the remaining two protected regions (designated MEP-2 and MEP-3; Mouse E1 alpha Promoter site) show no apparent consensus homology with cis-elements of other known transcription factors. Results of electrophoretic mobility shift assays confirm that the ATF/CREB and MEP binding sites interact in a characteristic and specific manner with factors present in nuclei of both testis and somatic tissue. The factor which recognizes the MEP-3 motif appears to be ubiquitous, whereas the MEP-2-protein complexes were tissue-specific. Interestingly, formation of a complex involving MEP-2 and a putative testis-specific binding factor (tau-MEP-2BF) is first observed in the testis of 2-week-old mice, this correlates with the expression of Pdha-2. In contrast, the formation of complexes between the MEP-2 binding site and a somatic variant of MEP-2BF (sigma-MEP-2BF) decreases in the testis as spermatogenesis proceeds. Our results suggest that 1) the MEP-2 binding factors are temporally regulated during spermatogenesis, and 2) interactions involving these factors with the MEP-2 cis-element may be important for modulating Pdha-2 expression.
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PMID:Temporal and tissue-specific interactions involving novel transcription factors and the proximal promoter of the mouse Pdha-2 gene. 769 72

Transcriptional activation of the mouse c-fos gene by the adenovirus 243-amino-acid E1A protein requires a binding site for transcription factor YY1 located at -54 of the c-fos promoter. YY1 normally represses transcription of c-fos, and this repression depends on the presence of a cyclic AMP (cAMP) response element located immediately upstream of the -54 YY1 DNA-binding site. This finding suggested that the mechanism of transcriptional repression by YY1 might involve a direct interaction with members of the ATF/CREB family of transcription factors. In vitro and in vivo binding assays were used to demonstrate that YY1 can interact with ATF/CREB proteins, including CREB, ATF-2, ATFa1, ATFa2, and ATFa3. Structure-function analyses of YY1 and ATFa2 revealed that the C-terminal zinc finger domain of YY1 is necessary and sufficient for binding to ATFa2 and that the basic-leucine zipper region of ATFa2 is necessary and sufficient for binding to YY1. Overexpression of YY1 in HeLa cells resulted in repression of a mutant c-fos chloramphenicol acetyltransferase reporter that lacked binding sites for YY1, suggesting that repression can be triggered through protein-protein interactions with ATF/CREB family members. Consistent with this finding, repression was relieved upon removal of the upstream cAMP response element. These data support a model in which YY1 binds simultaneously to its own DNA-binding site in the c-fos promoter and also to adjacent DNA-bound ATF/CREB proteins in order to effect repression. They further suggest that the ATF/CREB-YY1 complex serves as a target for the adenovirus 243-amino-acid E1A protein.
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PMID:Transcriptional repression of the c-fos gene by YY1 is mediated by a direct interaction with ATF/CREB. 776 93

Inosine-5'-monophosphate dehydrogenase (IMPDH) activity and mRNA levels are induced up to 15-fold upon mitogenic or antigenic stimulation of human peripheral blood T lymphocytes. This increase in IMPDH activity is required for cellular proliferation and has been associated with malignant transformation. We have cloned the human IMPDH type II gene and show that it contains 14 exons and is approximately 5.8 kilobases in length. Exons vary in size from 49 to 207 base pairs and introns from 73 to 1065 base pairs. The transcription start site was mapped to a position 50 nucleotides upstream of the translation initiation site. The 5'-flanking region consisting of 463 base pairs upstream of the translation initiation site confers induced transcription and differential regulation upon a chloramphenicol acetyltransferase reporter gene when transfected into Jurkat T cells and human peripheral blood T lymphocytes, respectively. DNase I footprinting analysis using Jurkat T cell nuclear extract identified four protected regions in the promoter which coincide with consensus transcription factor binding sites for the nuclear factors AP2, ATF, CREB, Egr-1, Nm23, and Sp1. These findings suggest that several of these nuclear factors may play a critical role in the regulation of IMPDH type II gene expression during T lymphocyte activation.
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PMID:Characterization of the human inosine-5'-monophosphate dehydrogenase type II gene. 789 27

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