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Two metal response elements, flanking an antioxidant response element, were identified in regions upstream (-3730 bp) to copper metallothionein (CuMT) gene of Neurospora crassa. Presence of copper in culture media, but not of pro-oxidants like H2O2 or menadione, induced CuMT gene expression that could not be completely abolished by antioxidants such as N-acetyl cysteine and ascorbic acid. Gel shift assays revealed the ability of nuclear extracts from copper induced cultures to bind PCR-amplified metal response or antioxidant response elements. Similar observations could not be made with cultures exposed either to pro-oxidants or antioxidants. These results differentiate between CuMT gene induction by copper from antioxidant functions associated with the identified upstream elements.  相似文献   

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A protein binding to the autoregulatory element (ARE) upstream of the regulatory ccaR gene of Streptomyces clavuligerus was isolated previously by DNA affinity binding. The areB gene, encoding this protein, is located upstream and in opposite orientation to the leuCD operon of S. clavuligerus; it encodes a 239-amino-acid protein of the IclR family with a helix-turn-helix motif at the N-terminal region. An areB-deleted mutant, S. clavuligerusDeltaareB, has been constructed by gene replacement. This strain requires leucine for optimal growth in defined media. Expression of the leuCD operon is retarded in S. clavuligerusDeltaareB, because AreB binds the areB-leuCD intergenic region acting as a positive modulator. Clavulanic acid and cephamycin C production are improved in the DeltaareB mutant although no drastic difference in ccaR expression was observed. Pure recombinant AreB protein does not bind the ARE(ccaR) sequence (as shown by EMSA) unless filtered extracts from S. clavuligerus ATCC 27064-containing molecules of Mr lower than 10 kDa are added to the binding reaction. Restoration of binding to the ARE(ccaR) sequence is not observed when filtered extracts are obtained from the DeltaareB mutant, suggesting that biosynthesis of the small-molecular-weight effector is also controlled by AreB.  相似文献   

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The mouse amylase gene Amy-2.2 is expressed at high levels specifically in the acinar cells of the pancreas. The region between -172 and -110 of this gene includes sequence elements common to pancreas-specific genes. Nuclear proteins with specific affinity for this region were partially purified from rat pancreas. The consensus element of another pancreas-specific gene, elastase 1, competes for protein binding to the amylase sequences. Binding was localized by DNase I protection to the sequence -156 to -122. Site-directed mutagenesis of this sequence resulted in concomitant loss of protein binding and enhancer activity. Photo-affinity labelling of pancreatic nuclear extracts identified one predominant binding protein with a molecular weight of approximately 75 kDa. The data indicate that binding of this nuclear protein is essential for the enhancer activity of this pancreas-specific element.  相似文献   

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C Alexander  N Faber    P Klaff 《Nucleic acids research》1998,26(10):2265-2272
RNA-binding proteins play a major role in regulating mRNA metabolism in chloroplasts. In this work we characterized two proteins, of 43 and 47 kDa, which bind to the spinach psbA mRNA 5' untranslated region (psbA encoding the D1 protein of photosystem II). The 43 kDa protein, which is present in the stroma and in membranes, co-sediments with a complex of 68S. It was purified, and the N-terminal sequence was determined. Upon homology search it was identified as the chloroplast homologue of the Escherichia coli ribosomal protein S1. The 47 kDa protein, which, in contrast with the 43 kDa protein, sediments with a small sedimentation coefficient, is only detected in the stromal fraction. It is soluble in an uncomplexed form. By deletion analysis, an element within the psbA mRNA 5' untranslated region was identified that is necessary but not sufficient for binding of stromal proteins. The 'central protein binding element' ranges from nucleotide -49 to -9 of the psbA mRNA 5' untranslated region. It comprises the Shine-Dalgarno-like GGAG motif and, 7 nucleotides upstream, an endonucleolytic cleavage site involved in psbA mRNA degradation in vitro . The mechanistic impacts of this region in relation to RNA-binding proteins are discussed.  相似文献   

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The adenovirus (Ad) early gene product 13S transactivates the tumor necrosis factor (TNF)-alpha promoter in inflammatory cells. We examined both the subdomains of E1A and the upstream TNF promoter elements involved. In both Jurkat and U-937 cells, zinc finger or carboxyl region mutation of Ad E1A 13S conserved region 3 resulted in a significant loss of transactivation of the TNF promoter (> or =69%). For both cell types there was a TNF-negative regulatory element in the -242 to -199 region and a positive regulatory element between -199 and -118. In contrast, an upstream positive regulatory element was detected in different regions in both cell types. In U-937 cells the positive regulatory unit was between -600 and -576, whereas in Jurkat cells it was between -576 and -242. The U-937 upstream element was dependent on a site previously designated epsilon in cooperation with an adjacent nuclear factor-kappaB-2a site. Therefore, transactivation of the TNF promoter by Ad 13S in lymphocyte and monocyte cell types involves similar subdomains of the E1A protein, but cell-specific TNF promoter elements.  相似文献   

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The gene for the whey acidic protein (WAP) is expressed specifically in the lactating mammary glands of rodents. We present evidence that nuclear proteins from mammary epithelial cells form a multiple nucleoprotein complex with the WAP gene promoter/upstream region. As monitored by mobility shifts, nuclear proteins from lactating mammary glands and from the mammary cell line MCF-7 form four high affinity complexes with a fragment spanning the region between nucleotides -175 and -88. Nuclear proteins from liver and HeLa cells generate only three high affinity complexes. DNAaseI and ExonucleaseIII protection confirmed the binding of mammary nuclear proteins to specific sequences in the WAP gene upstream region. This is the first report to describe the interaction of nuclear proteins from lactating mammary glands with cognate binding sites in the promoter/upstream region of a milk protein gene. The possibility of the binding sites being candidates for cis-acting regulatory elements governing the regulated expression of the WAP gene is discussed.  相似文献   

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In the mammalian liver the expression of the enzyme glutamine synthetase (GS) is restricted to a small population of hepatocytes. In cells expressing the enzyme up to 3.5% of total cellular protein is GS. In order to identify enhancer elements contributing to this extraordinarily high level of expression we focused on a region roughly 2.5 kbp upstream of the GS promoter. Gel mobility shift assays revealed binding of an unknown protein within the most distal part of this region and reportergene assays demonstrated that roughly 60 bp downstream from position -2503 are indispensable for protein binding and the full effect of the enhancer. In UV cross-link analysis a 38 kDa nuclear protein that binds to the sequence was identified in rat hepatocytes. This nuclear protein, designated as upstream binding factor of the GS gene (UFGS) seems to play an important role in high-level expression of GS in liver.  相似文献   

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A cAMP regulatory element (CRE) at nucleotide position -170 of the fibronectin gene was characterized previously (Dean, D. C., Blakeley, M. S., Newby, R. F., Ghazal, P., Hennighausen, L., and Bourgeois, S. (1989) Mol. Cell. Biol. 9, 1498-1506). Here we identify two additional low affinity CREs at nucleotide positions -260 and -415 which differ in sequence by 1 base pair. Interestingly, these CREs did not compete for binding of nuclear proteins in gel retardation assays and partial tryptic digestion of protein-DNA complexes produced a different pattern with each CRE, indicating that they bind different proteins. CRE (-170) competed for binding of proteins to both CREs, suggesting that it may represent a composite of the two elements. CRE (-415) competed effectively for binding of nuclear proteins to the somatostatin gene CRE, suggesting that, like the somatostatin CRE, it binds the nuclear protein CREB. On the other hand, CRE (-260) appears to bind the nuclear protein PEA-2, which also binds a site in the polyoma virus enhancer. In summary, disruption of dyad symmetry in the 3' region of the CRE, as occurs with CRE (-260) and CRE (-415), results in a lower affinity site and may also change the specificity for different nuclear proteins.  相似文献   

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