Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two lines of transgenic mice carrying a normal 40-kb Kpn I beta-globin cluster transgene lacking the locus control region (LCR) were analyzed for the expression of human gamma- and beta-globin genes during mouse development. After RNase protection assays, the ratios of human G gamma-, A gamma-, or beta-mRNAs relative to endogenous mouse zeta + alpha mRNAs were obtained for each stage of development. The two gamma transgenes were expressed in day-11.5 blood (embryonic stage) and day-13.5 blood (early fetal stage), but their expression was markedly decreased by day 16.5 of fetal life. Expression of the beta transgene was essentially absent at day 13.5, appeared at a low level by day 16.5, and was maximal by day 18.5, reaching a level similar to that observed in adult mice. Therefore, developmentally regulated expression of the human gamma- and beta-globin transgenes was obtained in the absence of the LCR. The relative expression of human gamma- and beta-globin genes was also examined in mice carrying 40-kb Kpn I beta-cluster transgenes with two different base substitutions associated with nondeletion forms of hereditary persistence of fetal hemoglobin (HPFH), -202 C-->G G gamma HPFH and -117 G-->A A gamma HPFH. The ratio of G gamma- to beta-globin transcripts was markedly increased in red blood cells of adult mice from three different lines carrying the transgene with the -202 G gamma HPFH mutation. This result confirms our previous preliminary results (Tanaka et al: Ann NY Acad Sci, 612:167, 1990) indicating that the -202 G gamma HPFH phenotype was reproduced in transgenic mice. The relatively low levels of G gamma-mRNA expression in adult mice carrying the non-HPFH transgene excludes a major influence of the 3' beta-globin enhancer, present upstream of the G gamma gene because of the tandem repeat insertion, as a factor in the persistent G gamma gene expression observed in blood of adult mice carrying the -202 G gamma HPFH transgene. This conclusion is also supported by the fact that, in mice carrying the -117 A gamma HPFH transgene, G gamma-globin mRNA was detected in blood of adult animals only at low levels similar to that observed in the non-HPFH lines. However, the A gamma-HPFH phenotype was not reproduced in the transgenic lines carrying the -117A gamma HPFH mice.
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PMID:Developmental regulation of human gamma- and beta-globin genes in the absence of the locus control region. 752 Jul 81

Hereditary persistence of fetal hemoglobin (HPFH) has typically been ascribed to mutations in the beta-globin gene cluster. Pharmacologic agents, including the short-chain fatty acid butyrate, have been shown to upregulate fetal and embryonic globin gene expression. In this report we investigate the possibility that metabolic derangements characterized by an inability to metabolize another short-chain fatty acid, propionate, could be associated with a persistence of fetal hemoglobin unrelated to alterations in the beta-globin cluster. Embryonic globin gene upregulation in a murine adult erythroid cell culture was shown by RNase protection after induction with three short-chain fatty acids (C2-C5). Chart reviews and measurement of fetal hemoglobin in five patients with abnormalities in propionate (C3) metabolism were undertaken; SSCP/dideoxy fingerprint analysis of the gamma-globin gene promoters was done in three of these five patients. Twelve patients with other metabolic derangements served as controls. Only the four patients with clinically severe abnormalities in propionate metabolism (ages 2 to 11), but without anemia, showed a sustained elevation in fetal hemoglobin (3% to 10%). The level of elevation of fetal hemoglobin in these patients, who lack erythropoietic stress, suggests that propionic acid and/or its metabolites are potent stimulators of fetal hemoglobin expression. Study of this group of patients should allow unique insights into the long-term effects of sustained exposure to elevations of short-chain fatty acid levels.
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PMID:Metabolic persistence of fetal hemoglobin. 753 84

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.
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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

Transgenic mice were generated using a purified 248-kb yeast artificial chromosome (YAC) bearing an intact 82-kb human beta-globin locus and 148 kb of flanking sequence. Seventeen of 148 F0 pups were transgenic. RNase protection analysis of RNA isolated from the blood of 13 gamma- and beta-globin-positive founders showed that only the human beta-globin gene was expressed in the adult founders. Studies of F1 and F2 fetuses demonstrated that the genes of the beta-locus YAC displayed the proper developmental switches in beta-like globin gene expression. Expression of epsilon- and gamma-globin, but not beta-globin, was observed in the yolk sac, there was only minor gamma and mostly beta expression in the 14-day liver, and only beta mRNA in the blood of the adult animals. Structural data showed that the locus was intact. These results indicate that it is now possible to dissect regulatory mechanisms within the context of an entire locus in vivo by using the ability to perform mutagenesis efficiently in yeast via homologous recombination, followed by purification of the altered YAC and its introduction into mice.
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PMID:Transgenic mice containing a 248-kb yeast artificial chromosome carrying the human beta-globin locus display proper developmental control of human globin genes. 835 61

Interleukin 2 (IL2) mRNA has a short half-life in the cytoplasm of T lymphocytes, relative to most mRNA. We have discovered a candidate ribonuclease to account for the rapid turnover of IL2 mRNA in the cytosol of the human T lymphocyte cell line Jurkat. In partially purified form, this RNase is about 7 times as active on IL2 as on beta-globin mRNA. Pancreatic RNase, by contrast, does not show a significant preference for IL2 mRNA. Neither 5' capping, nor polyadenylation of the substrate mRNAs affects their degradation by the IL2-selective mRNase, whose activity is optimal in 0.5 mM Mg++ and 100 mM potassium acetate. The mRNase behaves like a protein of molecular weight 60-70,000 on gel chromatography, and is unusual in that it is insensitive to placental RNase inhibitor (RNasin). The mRNase cleaves IL2 mRNA at a small number of sites in the coding region, and IL2 mRNA containing only the coding region and 36 nucleotides of the 3'-noncoding region competes efficiently with full-length IL2 mRNA for the mRNase, whereas beta-globin mRNA does not.
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PMID:An RNasin-resistant ribonuclease selective for interleukin 2 mRNA. 844 10

The enzyme fructose-1,6-bisphosphate aldolase consists of three isozymes that are expressed in a tissue-specific manner. Using antibodies against aldolase B and C, it is shown that aldolase C is expressed in virtually all neuronal cell lines derived from the central and peripheral nervous system. Recently, experiments with transgenic mice indicated that a (G+C)-rich region of the aldolase C promoter might function as a neuron-specific control element of the rat aldolase C gene [Thomas, M., Makeh, I., Briand, P., Kahn, A. & Skala, H. (1993) Eur. J. Biochem. 218, 143-151). To functionally analyse this element, a plasmid consisting of four copies of this (G+C)-rich sequence, a TATA box, and the rabbit beta-globin gene as reporter was constructed. This plasmid was transfected into neuronal and nonneuronal cell lines and transcription was monitored by RNase protection mapping of the beta-globin mRNA. It is shown that the (G+C)-rich element of the aldolase C promoter directs transcription in neuronal as well as in nonneuronal cells. In contrast, the synapsin I promoter, used as a control for neuron-specific gene expression, directed transcription only in neuronal cells. In gel-retardation assays, two major DNA-protein complexes were detected with the (G+C)-rich element of the aldolase C promoter used as a DNA probe and nuclear extracts from brain and liver as a source for DNA-binding proteins. These DNA-proteins interactions could be impaired by a DNA probe that contained an Sp1-binding site, indicating that Sp1 or an Sp1-related factor binds to the aldolase C promoter (G+C)-rich element. This was confirmed by supershift analysis with antibodies specific for Sp1. The zinc finger transcription factor zif268/egr-1, also known to recognize a (G+C)-rich consensus site, did not, however, bind to the (G+C)-rich motif of the aldolase C promoter, nor could it stimulate transcription in transactivation assays from this control region. From these data, we conclude that the (G+C)-rich element of the aldolase C promoter functions as a constitutive transcriptional response element mediated by Sp1 and Sp1-related transcription factors.
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PMID:A (G+C)-rich motif in the aldolase C promoter functions as a constitutive transcriptional enhancer element. 862 Aug 89

Recombinant adeno-associated virus 2 (AAV) virions were constructed that contained the genomic copy of a normal human beta-globin gene marked with a 4-bp Clal linker, and the herpesvirus thymidine kinase (TK) promoter-driven bacterial gene for resistance to neomycin (v beta m-globin), as well as those containing the DNase l-hypersensitive site 2 (HS-2) from the locus control region (LCR) of the human beta-globin gene cluster (vHS2-beta m-globin). These recombinant virions were used to infect a human erythroleukemia cell line which normally does not express the beta-globin gene (K562), or a human nasopharyngeal carcinoma cell line (KB). Cell populations resistant to G418, a neomycin analogue, were obtained following infections with the recombinant virions, indicating high-efficiency transduction of the chimeric gene as well as functional activity of the transduced neo gene in both cell types. Southern blot analysis using a human beta-globin DNA probe substantiated stable integration of the exogenous beta-globin allele in these cells. There was no expression of the transduced beta-globin gene in K562 or KB cells infected with the v beta m-globin virus. High-level expression of the transduced beta-globin gene occurred only in the vHS2-beta m-globin virus-infected K562 cells, but not in KB cells, as determined by Northern blot as well as RNase protection analyses. Expression of the human beta-globin protein could also be detected in approximately 10-20% of the vHS2-beta m-globin virus-infected K562 cells. These studies suggest that the AAV-based vector system may prove useful for high-efficiency globin gene transfer in human hematopoietic cells.
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PMID:Adeno-associated virus 2-mediated transduction and erythroid cell-specific expression of a human beta-globin gene. 864 53

The beta-globin locus control region (LCR) confers high levels of position-independent, copy number-dependent expression onto globin transgenes. Here > 40 independent transgenic mouse lines and founders that carried the LCR in cis with the beta-globin gene promoter driving a lacZ reporter gene were studied. Expression of the lacZ transgene was assayed by measuring beta-galactosidase enzyme activity in fetal liver extracts, the levels of which correlated with the quantity of lacZ mRNA determined using RNase protection assays. Unexpectedly, expression of the lacZ transgene was found to show strong position effects, varying as much as 700-fold per transgene copy. These position effects occurred even if the whole beta-globin gene was incorporated as part of the lacZ reporter gene. Moreover, DNase I-hypersensitive sites appeared in the transgene LCR in high expressing but not in low expressing lines, suggesting that the LCR itself was position dependent. In contrast, MEL cell clones, in which transcriptionally active integration sites were selected for, gave < 13-fold variation in expression per copy of an LCR-lacZ construct. These results show that the lacZ reporter affects the ability of the LCR to activate chromatin in mice and that culture cells are not an adequate model for position-independent gene expression studies.
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PMID:The beta-globin locus control region enhances transcription of but does not confer position-independent expression onto the lacZ gene in transgenic mice. 867 Aug 75

Our previous works have verified that the beta-globin gene carrying large fragments of erythroid enhancer transferred by retrovirus vector caused the unstable provirus integration and low virus titer in infected cells, but the 36bp enhancer had not this negative effect. In order to circumvent this problem, we inserted the intact beta-globin gene (beta) or partially IVS II deleted beta-globin gene (delta beta) and truncated erythroid enhancer (36bp, 292bp and 341bp) into the N2A retrovirus vector. Recombinants were transfected into psi-2 ecotropic pachaging cells first, then the produced virus were used to infect PA317 amphotropic packaging cells. Virus supernatent from PA317 clonies with high virus titer and intact provirus integration was used to infect MEL cells. RNase protection assay was used to detect the expression of beta-globin gene. Results showed that not only the stable provirus integration and high virus titer of the transferred genes, but also the high levels expression of beta-globin gene carrying 292bp or 341bp erythroid enhancer were got.
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PMID:[Effect of erythroid enhancer on the expression of beta-globin gene in mice erythroleukemia (MEL) cells]. 869 94

We have investigated the endonuclease activity of the influenza A virus RNA polymerase in an in vitro assay with an artificial influenza-like mRNA containing a cap structure at its 5' terminus, followed by a 10 nt beta-globin mRNA sequence, and the 5' and 3' conserved termini of a truncated nucleoprotein (NP) cRNA influenza sequence. Results showed that partially purified virion ribonucleoprotein complexes (RNPs) and micrococcal nuclease treated RNPs cleaved the artificial influenza-like mRNA substrate specifically at positions near the 5' terminus to generate capped 14 and 15 nucleotide long RNA fragments which subsequently served as primers to initiate transcription. The endonuclease activity was completely blocked by addition of cap analog and competitively inhibited by added globin mRNA. Furthermore, an in vitro reconstituted influenza RNA transcription reaction containing a truncated NP vRNA as template, micrococcal nuclease treated RNPs and globin mRNA as primer, synthesized capped and uncapped full length (+) sense products. Enzyme kinetics showed that capped RNA was made earlier in the reaction; it reached a peak at 120 min and then declined. However, uncapped cRNA synthesis appeared later and remained as the dominant product later in the reaction. The nature of these products was confirmed by ribonuclease protection assays and by primer extension.
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PMID:Influenza A virus RNA-dependent RNA polymerase cleaves influenza mRNA in vitro. 880 82


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