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)

We have isolated a 17 kilobase pair (kb) genomic clone containing the 5' portion of the human alpha 2(V) collagen gene. Nucleotide sequence was determined for 1671 base pairs (bp) comprising the promoter region, first exon and 334 bp of the first intron, and the major transcriptional start site determined by primer extension and S1 nuclease analysis. Sequence comparison revealed the alpha 2(V) promoter to be similar in structure to the promoter of the alpha 1(III) collagen gene. This is the first instance of such similarities between promoter regions of genes encoding different fibrillar collagen chains. Homology, in 5' flanking sequences, extends upstream to about nucleotide -120 in each gene and is particularly striking near the TATTTA sequence (TATA box) present in each promoter. Some homology also surrounds the two transcription start sites. The 5' untranslated regions of the two genes also show strong homology. Chimeric chloramphenicol acetyltransferase (CAT) constructs were prepared with various fragments from the 5' portion of the alpha 2(V) gene. Transient expression assays, in human fibroblasts, localized the functional alpha 2(V) promoter to the region of 5' flanking sequence conserved between the alpha 2(V) and alpha 1(III) genes. Expression assays also identified negatively acting elements, in intron and 5' flanking sequences, which inhibit transcription from the alpha 2(V) promoter.
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PMID:Homology between alpha 2(V) and alpha 1(III) collagen promoters and evidence for negatively acting elements in the alpha 2(V) first intron and 5' flanking sequences. 182 Feb 5

O6-methylguanine-DNA methyltransferase (MGMT) is a ubiquitous protein responsible for repair of O6-alkylguanine, a mutagenic, carcinogenic and toxic lesion. To characterize the elements responsible for the regulation of the MGMT gene, a 2.6 kb Sstl fragment isolated from a genomic clone, was shown to contain 5' flanking sequences of the gene. The promoter activity of this fragment as well as various subfragments were tested in NIH 3T3 mouse fibroblasts by transient expression of the bacterial chloramphenicol acetyltransferase (CAT) gene linked to these fragments. Maximal promoter activity was observed in a 1.2 kb 3' terminal fragment, which contains the first untranslated exon. The transcription initiation site was identified in this fragment by primer extension and S1 mapping. Sequence analysis of this fragment showed the absence of TATA and CAAT boxes but an abundance of extremely GC-rich sequences, including ten GC hexanucleotide motifs 5'CCGCCC. Reduced CAT expression with the minimal promoter sequence suggests the presence of multiple regulatory elements.
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PMID:Characterization of the promoter region of the human O6-methylguanine-DNA methyltransferase gene. 195 75

A 14-kb genomic clone containing the entire gene of human lysosomal arylsulfatase A was isolated. The arylsulfatase A gene is about 3.2 kb long and has eight exons (103-320 nucleotides in size). All intron-exon splice junctions conformed to the GT/AG consensus sequence. S1 nuclease mapping shows multiple transcription initiation sites between nucleotides -367 and -387. A fragment encompassing 360 nucleotides of the flanking sequence upstream of the transcription initiation site shows promoter activity when it was transiently expressed in COS cells using the gene for bacterial chloramphenicol acetyltransferase as a reporter gene. This putative promoter region shows four potential Sp1 binding sites but lacks typical TATA and CAAT box sequences. Three different mRNA species of 2.1, 3.7 and 4.8 kb are transcribed from the gene and arise probably from the use of different polyadenylation signals.
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PMID:Structure of the arylsulfatase A gene. 197 41

Disease resistance response genes (DRRG) of peas are expressed as the tissue is expressing race-specific or nonhost resistance. A pea genomic clone DRRG49-c encompassing one DRRG structural gene, the expression of which is correlated with the expression of disease resistance, was sequenced and characterized. The 2.3-kb genomic segment sequenced encompassed 986 bp 5' to the major transcriptional initiation site, a 474-bp open-reading frame interrupted by one 88-bp AT-rich intron and an additional 574-bp segment 3' from the stop codon. Southern blot analysis indicated that the DRRG structural gene is one of a multigenic family, and an estimated five copies exist within the pea genome. Primer extension analysis of the 5' terminus of the corresponding RNA suggested the presence of one major transcript with possibly two minor transcripts. The major transcript, located 65 bp from the translational initiation site, was expressed when challenged with Fusarium solani f. sp. phaseoli but not with water. The structural gene sequence corresponding to the genomic clone DRRG49-c is not identical with the structural gene of the cDNA clone DRRG49-a used as a probe for northern blot analysis, and thus, a possibility remains that it is not expressed in peas; however, the DRRG49-c promoter was able to express the chloramphenicol acetyltransferase reporter gene in tobacco protoplasts. Western blot analysis using antiserum prepared from a beta-galactosidase-DRRG49-a fusion protein identified the DRRG49 gene product as a major protein accumulating during the host-pathogen interactions.
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PMID:Cloning and characterization of a disease resistance response gene in pea inducible by Fusarium solani. 213 27

Fast skeletal muscle troponin C (sTnC) is the calcium-binding subunit of the myofibrillar thin filament that regulates excitation-contraction coupling. Utilizing a polymerase chain reaction cloning strategy, we have isolated cDNA clones encoding murine sTnC. The 160-amino acid sTnC protein shares 70% amino acid sequence identity with the slow/cardiac isoform of troponin C (cTnC). However, three areas of significant sequence divergence were identified. Southern blot analyses demonstrated that murine sTnC is encoded by a single copy gene that is distinct from that which encodes cTnC. Northern blot analyses showed that the sTnC gene is expressed exclusively in skeletal muscle (extensor digitorum and anterior tibialis) and not in neonatal or adult heart, brain, kidney, liver, lung, or testes. Studies of the murine C2C12 myoblast cell line demonstrated that sTnC gene expression is developmentally regulated during the differentiation of these myoblasts into myotubes. A full-length murine sTnC genomic clone was isolated and characterized by DNA sequence, primer extension, and S1 nuclease protection analyses. The sTnC gene is composed of six exons spanning 2.6 kilobase pairs of genomic DNA. Although the introns do not divide the gene into functional domains, the intron-exon borders are nearly identical to those of the other members of the troponin C multigene family. Transient transfection assays using chloramphenicol acetyltransferase reporter plasmids demonstrated that the sTnC promoter alone is relatively inactive in muscle cells and that high level sTnC gene expression in these cells is controlled by a potent transcriptional enhancer element located within the first intron of the gene. In additional transfection experiments, the sTnC enhancer was shown to display three important biological activities. (i) It was required for high level transcription from the sTnC promoter in muscle cells; (ii) its activity was muscle cell specific; and (iii) its activity was developmentally regulated during the differentiation of C2C12 myoblasts to myotubes. Taken together, these data define the sTnC gene as an excellent model system for studies of developmentally regulated gene expression in skeletal muscle.
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PMID:The structure and regulation of expression of the murine fast skeletal troponin C gene. Identification of a developmentally regulated, muscle-specific transcriptional enhancer. 239 55

The expression of a wheat genomic clone containing the entire coding sequence of the high molecular weight glutenin subunit 12 gene flanked by 2.6 kilobases of 5' and 1.5 kilobases of 3' sequences has been studied after introduction into tobacco. Seeds of different tobacco plants containing the full-length wheat genomic clone accumulated different amounts of intact high molecular weight glutenin subunit mRNA and of a polypeptide displaying the solubility, molecular weight, and antigenic properties of the high molecular weight glutenin subunit 12. The wheat protein accumulated without obvious degradation products and constituted up to approximately 0.1% of the total tobacco endosperm protein. Restriction fragments corresponding to 2.6 kilobases, 1.4 kilobases, and 433 base pairs of high molecular weight glutenin 5' upstream sequence were fused to the coding sequence of the chloramphenicol acetyltransferase (CAT) gene in the vector polyCATter and transferred into tobacco. Chloramphenicol acetyltransferase enzyme activity was detected only in the seed endosperm tissue of the transformed plants. It was detected in tobacco seeds 8 days after anthesis and persisted until seed maturity. It is concluded that 433 base pairs of high molecular weight glutenin upstream sequence are sufficient to confer endosperm-specific expression of this monocot gene in the dicot tobacco.
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PMID:Tissue-specific expression of a wheat high molecular weight glutenin gene in transgenic tobacco. 253 10

To understand the basis of osteonectin (SPARC) transcriptional regulation, we have isolated a bovine genomic clone (lambda Og15) encoding exon 1 and 15 kilobase pairs (kb) of flanking DNA. Direct RNA sequencing of the 5' end of the osteonectin message showed it contained a sequence identical to that of a 2.4-kb EcoRI-BamHI fragment located midway in the clone lambda Og15. The results indicate exon 1 is located 10 kb away from exon 2 in the bovine genome. The DNA sequence unit CCTG is repeated five times in exon 1 which is composed exclusively of untranslated sequence. Sequence analysis of the 5'-flanking DNA revealed the presence of many regulatory motifs including a "GC" box with four overlapping SP1 consensus sequences. Immediately downstream from the GC box is a 72-base pair purine-rich stretch composed primarily of direct repeats of the sequence motifs GGGGA and GGA (GAGA box). Digestion of the flanking DNA in vitro with S1 endonuclease showed a site for the enzyme at position -55 which is just 3' to the GAGA box. Chimeric chloramphenicol acetyltransferase constructs were prepared containing the S1-sensitive site and showed substantial transcriptional activity in UMR-106 and fetal and adult human bone cells which are known to be high producers of the protein. The results indicate a potential regulatory activity of the S1 site in osteonectin gene activation.
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PMID:Osteonectin promoter. DNA sequence analysis and S1 endonuclease site potentially associated with transcriptional control in bone cells. 253 44

Thrombospondin (TSP) is an extracellular matrix glycoprotein whose synthesis and secretion by mesenchymal cells is regulated at the level of gene transcription by platelet-derived growth factor. To examine the transcriptional regulation of the TSP gene at the molecular level, a genomic clone containing the human TSP promoter and flanking sequence was isolated and characterized. A 3.8-kilobase pair (kb) DNA fragment containing the first three exons, the first two introns, and 2.2 kb of 5'-flanking region was sequenced, and the site of transcription initiation was determined by both primer extension and S1 nuclease mapping. Consensus sequences for several potential regulatory elements were found in the 5'-flanking sequence, including a TATA box consensus sequence, TTTAAAA, located 24 base pairs upstream from the transcription start site. A chimeric gene was constructed containing the first intron, the first exon, and 2.0 kb of 5'-flanking sequence of the TSP gene fused to the promoterless gene for chloramphenicol acetyltransferase. When transfected into COS-1 or NIH3T3 cells this gene construct was transcribed, indicating the presence of a functional promoter in the TSP sequence. Transient transfection studies using deletion mutants of this TSP-chloramphenicol acetyltransferase construct were performed to locate cis-acting regulatory sequences. The deletion of flanking sequence 5' to position -234 had little or no effect on transcriptional activity, whereas deletion of 5'-flanking sequence extending further in the 3' direction resulted in the gradual loss of transcriptional activity. The removal of the first intron resulted in a 4-fold decrease in transcript levels, indicating the presence of a cis-acting positive element(s) in the first intron of the human TSP gene. This element(s) was further localized to the region between position +576 and position +727.
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PMID:Characterization of the promoter region of the human thrombospondin gene. DNA sequences within the first intron increase transcription. 254 87

Stromelysin is a member of a gene family of metalloproteinases involved in extracellular matrix remodeling in normal and diseased processes. Primary cultures of rheumatoid synovial cells produce large amounts of metalloproteinase mRNA and proteins. We cloned a cDNA for human stromelysin from a rheumatoid synovial cell cDNA library, and we used the cDNA to isolate the gene for human stromelysin and a related gene, stromelysin 2. We sequenced parts of the genes and found that both are contained on approximately 14 kilobase pairs of DNA. Using an exon-containing fragment of the stromelysin 2 genomic clone as a specific probe in Northern blot analysis, we demonstrate the differential expression of stromelysin and stromelysin 2 in rheumatoid synovial cells, human foreskin fibroblasts, and rabbit synovial fibroblasts. In addition, using chimeric constructs of the stromelysin promoter linked to the bacterial gene chloramphenicol acetyltransferase (CAT), we show that the elements required for the tumor promoter phorbol myristate acetate (PMA), epidermal growth factor (EGF), and interleukin 1 beta (IL-1 beta) induction are contained on a 307 base pair fragment which includes approximately 270 base pairs (bp) of 5'-flanking DNA. The cloning of the human stromelysin and stromelysin 2 genes, the documentation of their differential expression, and the identification of transcriptional regulatory regions in the stromelysin gene will facilitate the study of metalloproteinase gene expression in normal processes and in diseases such as rheumatoid arthritis.
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PMID:Cloning of the genes for human stromelysin and stromelysin 2: differential expression in rheumatoid synovial fibroblasts. 260 16

We have isolated a 12-kb genomic clone, which encodes human lysosomal acid phosphatase (LAP), a lysosomal membrane glycoprotein. The human LAP gene has a size of about 9 kb and contains 11 exons (83-947 bp in size). The signal sequence and the first eight amino acids of the LAP protein are encoded by exon 1, the remaining luminal domain by exons 2-10 and the transmembrane and cytoplasmic domains, as well as the 3'-untranslated region, by exon 11. The sequence of the LAP gene confirmed the sequence deduced from the cDNA clone except for nucleotide 1917 in the 3'-untranslated region, where T is changed to C. The 5'-flanking sequence shows promoter activity, as analysed by coupling to bacterial chloramphenicol acetyltransferase. S1-nuclease-protection and primer-extension analysis demonstrate transcription initiation at multiple sites clustering within 23 bp upstream of the translation-initiation codon. Sequences characteristic for promoter regions like TATA-box and CAAT-box sequences could not be identified at typical positions. The absence of these sequences, the high GC content (63.5%), two GC boxes and a region complying with the properties of a CpG island, indicate that LAP is a housekeeping gene.
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PMID:Structure of the human lysosomal acid phosphatase gene. 277 54

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