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

We have used a competition assay to investigate the influence of erythroid-specific cellular factors on transcription from the human epsilon-globin major cap site promoter and the minor promoter located 200 base pairs (bp) upstream from the epsilon-globin cap site. In the human erythroid cell line K562, competition of the epsilon-globin major cap site promoter linked to the chloramphenicol acetyltransferase (CAT) gene (epsilon P-CAT) with the same promoter fragment linked to a neomycin resistance gene (epsilon P-NEO) leads to a reduction in CAT activity. This indicates the specific presence of K562 cells of factor(s) which interact with the 200-bp promoter fragment (isolated from the gene body or flanking sequences) to activate transcription from the epsilon-globin major cap site. Competition of the epsilon-globin major promoter (as epsilon P-CAT) with the upstream minor epsilon-globin promoter (as epsilon P2-NEO) also leads to a reduction in CAT activity, indicating that both promoters share erythroid-specific trans-acting factors. The reverse competition (epsilon P2-CAT with epsilon P-NEO) leads to an increase in CAT activity, suggesting that the existence of erythroid-specific factor(s) which repress transcription from the 200-bp-upstream epsilon-globin promoter.
 ...
PMID:Interaction of epsilon-globin cis-acting control elements with erythroid-specific regulatory macromolecules. 223 25

We have studied the effect of the SV40 T antigen on expression from human globin promoters fused to the bacterial chloramphenicol acetyltransferase (CAT) gene and compared its effect with the SV40 enhancer and the adenovirus E1A protein. We have observed that expression of p epsilon GLCAT and p beta GLCAT (the epsilon-globin or beta-globin promoter linked to the CAT gene) was significantly stimulated when cotransfected with a cloned T antigen plasmid into CV-1 cells, indicating that trans-activation of the globin promoters was mediated by SV40 T antigen. Transfection of the p beta GLCAT-SV (p beta GLCAT containing the SV40 enhancer element) into CV-1 cells resulted in a 50-60-fold increase in CAT activity as compared to p beta GLCAT (no enhancer). However, cotransfection of the p beta GLCAT-SV with the cloned T antigen resulted in an additional increase of CAT expression, which suggests that T antigen and the SV40 enhancer activate globin gene expression independently. We found that T antigen but not E1A could further stimulate the expression of an enhancer-containing plasmid in CV-1 cells; whereas E1A but not T antigen could further stimulate p epsilon GLCAT expression in COS-1 cells which constitutively express the SV40 T antigen. These results suggest that T antigen and E1A also act independently. Deletion analysis showed that the minimum sequence required for a detectable level of stimulation of the epsilon-globin promoter by T antigen is 177 bp 5' to the cap site, suggesting that the target sequences for response to T antigen do not reside in the canonical 100 bp promoter region, but rather reside in sequences further upstream, and therefore the cellular factors interacting with T antigen are not the TATA or CAT box binding proteins, but the proteins interacting with upstream regulatory sequences.
 ...
PMID:Activation of the human epsilon- and beta-globin promoters by SV40 T antigen. 252 24

We have studied the 5'-flanking sequences required for the transcriptional regulation of human epsilon-globin gene expression. A series of deletion mutants of the human epsilon-globin gene 5'-flanking sequences were constructed and linked to the bacterial chloramphenicol acetyltransferase gene. Expression of these constructs was tested in HeLa cells and the human erythroleukemia K-562 cells. By measuring chloramphenicol acetyltransferase activities and mRNA levels we found that the sequence between -177 and -392 base pairs (bp) relative to the mRNA initiation site exerts a negative effect on epsilon-globin promoter activity. This effect is more pronounced in HeLa cells compared with K-562 cells. To further characterize the negative control region we cloned the DNA sequence between -177 and -392 bp either 5' or 3' of the epsilon-globin promoter and in either orientation. Our data indicate that this negative control region inhibits the epsilon-globin promoter activity in a position- and orientation-independent manner, thus suggesting that it is a silencer. In addition, the silencer also inhibits the expression from the Herpesvirus thymidine kinase promoter. Sequence comparison reveals that there are three short regions within the silencer that share extensive homology with those found in other negative control DNA elements. Our results therefore indicate that an upstream silencer element is present in the epsilon-globin gene and that it may play an important role in the control of epsilon-globin gene expression during development.
 ...
PMID:Identification of a transcriptional silencer in the 5'-flanking region of the human epsilon-globin gene. 274 86

We have employed a short-term transfection assay system in which we monitored the transient expression of the chloramphenicol acetyltransferase (CAT) gene linked to the promoter region of the normal and mutant T24 H-ras1 gene or the human epsilon-globin gene in Chinese hamster lung (CHL) cells or cells derived from them which carry and express one or the other of the polyoma virus early genes. Our findings can be summarized as follows: (i) The mutant T24 H-ras1 promoter region behaves as a stronger promoter than the H-ras1 gene in all these types of cells as well as in rat 208F fibroblast cells. (ii) In CHL cells expressing the polyoma large T antigen the normal and mutant T24 Ha-ras1 promoters are not trans-activated in these cells and only a 2.5-fold activation of the epsilon-globin promoter is observed. (iii) In cells expressing the polyoma middle T antigen both the normal and mutant H-ras1 are trans-activated whereas transcription from the epsilon-globin promoter is not affected when compared to the normal CHL cells. (iv) In cells expressing the polyoma small T antigen the normal and mutant H-ras1 as well as the epsilon-globin promoters are trans-activated. We suggest from these data that a tissue-specific element exists in the promoter region of the H-ras1 gene and that the polyoma middle and small T antigens trigger the expression of proteins that trans-activate these promoters.
 ...
PMID:Differential potency and trans-activation of normal and mutant T24 human H-ras1 gene promoters. 328 99

An enhancer specific to erythroid cells was identified previously in the 3' flanking sequence of the chicken adult beta-globin gene and shown to act on the beta-globin promoter. This enhancer lies between the adult beta-globin gene and the embryonic epsilon-globin gene, about equidistant from the two promoters. To determine whether this enhancer acts also on the epsilon-globin promoter, we constructed plasmids containing the enhancer and either the beta- or the epsilon-globin promoter fused to the bacterial chloramphenicol acetyltransferase gene. Primary chicken erythrocytes of both primitive and definitive lineages were transfected with these plasmids. We show that the enhancer is able to stimulate expression from the epsilon-globin promoter as well as the beta-globin promoter. Levels of expression change with the developmental stage of the cell in a way that is partially consistent with the observed developmental regulation of the beta- and epsilon-globin genes in vivo. There appear to be no other enhancer elements either 5' of the epsilon-globin gene or within 6 kilobase pairs of its 3' end. Thus, the enhancer between the beta- and epsilon-globin genes apparently serves to regulate both genes.
 ...
PMID:Bidirectional control of the chicken beta- and epsilon-globin genes by a shared enhancer. 335 80

Expression of fetal gamma-globin genes in individuals with the deletion forms of hereditary persistence of fetal hemoglobin (HPFH) has been attributed either to enhancement by 3' regulatory elements juxtaposed to gamma-globin genes or to deletion of gamma-gene silencers normally residing within the beta-globin gene cluster. In the present study, we tested the hypothesis of imported enhancers downstream of beta-globin gene using the HPFH-3 deletion as a model. The abnormal bridging fragment of 13.6 kilobases (kb) containing the A gamma-gene with its flanking sequences and 6.2 kb of the juxtaposed region was microinjected into fertilized mouse eggs. Twelve transgenic mice positive for the fragment were generated. Samples from 11.5-day yolk sacs, 16-day fetal liver, and adult blood were analyzed for A gamma-mRNA using RNase protection assays. Three mice lacked A gamma expression in the yolk sac indicating non-optimal integration site. Four expressed A gamma-mRNA at the embryonic stage only, while two expressed A gamma-mRNA in both embryonic and fetal liver erythroid cells. Since the A gamma-gene with its normal flanking sequences and in the absence of the locus control region is expressed only in embryonic cells of transgenic mice, these data suggest that the juxtaposed sequences have altered the developmental specificity of the fetal gamma-globin gene. These sequences were further tested for the presence of an enhancer element, by their ability to activate a fusion reporter gene consisting of the CAT gene linked to the gamma-globin gene promoter, in erythroid (K562) and non-erythroid (HeLa) cells. A 0.7-kb region located immediately 3' to the breakpoint, enhanced chloramphenicol acetyltransferase activity by 3-fold in erythroid cells. The enhancer also activated the embryonic epsilon-globin gene promoter by 2-fold but not the adult beta- or delta-globin gene promoters. The enhancer represents a region of previously known complex tandem repeats; in this study we have completed the sequencing of the region encompassing the 0.7-kb enhancer element. Multiple areas of the enhancer region exhibit homology to the core element of the simian virus 40 enhancer and to the sequences of the human 3' A gamma- and the chicken 3' beta-globin enhancers. A consensus binding site for the erythroid specific GATA-1 transcription factor and seven consensus sites for the ubiquitous CP1 transcription factor are also included within the enhancer. These data suggest that these sequences located immediately 3' to the breakpoint of the HPFH-3 deletion, exhibit both the structure and the function of an enhancer, and can modify the developmental specificity of the fetal gamma-globin genes, resulting in their continued expression during adult life.
 ...
PMID:Sequences located 3' to the breakpoint of the hereditary persistence of fetal hemoglobin-3 deletion exhibit enhancer activity and can modify the developmental expression of the human fetal A gamma-globin gene in transgenic mice. 753 67

A 40-bp DNA, consisting of seven tandem GATA repeats, is located near the HS5 site in the 5' boundary area of the locus control region (LCR) of human beta-globin gene. This (GATA)(7) motif, named 5a, exhibits silencer activity in erythroid cells. In transfected, recombinant plasmids containing the chloramphenicol acetyltransferase (CAT) reporter gene, 5a repressed the activity of the cis-linked housekeeping phosphoglycerate kinase (pgk) promoter; 5a also repressed the activity of the cis-linked HS2 enhancer regardless of whether the CAT gene was driven by the pgk or the epsilon-globin promoter. Repression by 5a was most severe when 5a was spliced upstream of HS2 at a distance of less than 200 bases from the HS2 enhancer core. The silencer activity of 5a was independent of whether the component GATA motifs were in head to tail orientation as in the wild type 5a or in head to head or tail to tail orientation as in a mutant 5a. Band shift experiments show that the GATA-1 protein binds to both 5a and the mutant 5a and forms a large protein complex. Together, the results suggest that GATA-1 bound at 5a is a strong, proximal repressor of HS2 enhancer activity.
 ...
PMID:A (GATA)(7) motif located in the 5' boundary area of the human beta-globin locus control region exhibits silencer activity in erythroid cells. 1093 58