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1.
beta-Thalassemia due to a deletion of the nucleotide which is substituted in the beta S-globin gene. 总被引:4,自引:3,他引:1 下载免费PDF全文
H H Kazazian Jr S H Orkin C D Boehm J P Sexton S E Antonarakis 《American journal of human genetics》1983,35(5):1028-1033
Sickle-cell anemia results from an A leads to T transversion in the second nucleotide of codon 6 of the beta-globin gene. We now report an uncommon beta-thalassemia gene that contains a deletion of this nucleotide. Thus, one mutation (GAG leads to GTG) produces sickle-cell anemia, while the other (GAG leads to GG) eliminates beta-globin production. These data establish that different alterations affecting one specific nucleotide can produce either an abnormal hemoglobin or beta-thalassemia. Moreover, the nucleotide sequence comprising codons 6-8 of the beta-globin gene appears to be particularly susceptible to mutations affecting nucleotide number. 相似文献
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Dependence of globin gene expression in mouse erythroleukemia cells on the NF-E2 heterodimer. 总被引:18,自引:6,他引:12 下载免费PDF全文
High-level, tissue-specific expression of the beta-globin genes requires the presence of an upstream locus control region (LCR). The overall enhancer activity of the beta-globin complex LCR (beta-LCR) is dependent on the integrity of the tandem NF-E2 sites of HS-2. The NF-E2 protein which binds these sites is a heterodimeric basic leucine zipper protein composed of a tissue-specific subunit, p45 NF-E2, and a smaller subunit, p18 NF-E2, that is widely expressed. In these studies, we sought to investigate the role of NF-E2 in globin expression. We show that expression of a dominant-negative mutant p18 greatly reduces the amount of functional NF-E2 complex in the cell. Reduced levels of both alpha- and beta-globin were associated with the lower levels of NF-E2 activity in this cell line. Globin expression was fully restored upon the introduction of a tethered p45-p18 heterodimer. We also examined CB3 cells, a mouse erythroleukemia (MEL) cell line that does not express endogenous p45 NF-E2, and demonstrated that the restoration of globin gene expression was dependent upon the levels of expressed tethered NF-E2 heterodimer. Results of DNase I hypersensitivity mapping and in vivo footprinting assays showed no detectable chromatin alterations in beta-LCR HS-2 due to loss of NF-E2. Finally, we examined the specificity of NF-E2 for globin gene expression in MEL cells. These experiments indicate a critical role for the amino-terminal domain of p45 NF-E2 and show that a related protein, LCRF1, is unable to restore globin gene expression in p45 NF-E2-deficient cells. From these results, we conclude that NF-E2 is specifically required for high level goblin gene expression in MEL cells. 相似文献
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S H Orkin 《The Journal of biological chemistry》1978,253(1):12-15
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Cultured chick embryo fibroblasts derived from skin and skeletal muscle exhibit hyaluronidase activity both associated with the cell layer and secreted into the medium. Although both forms of the enzyme have a number of similar characteristics (R.W. Orkin and B.P. Toole, 1980, J. Biol. CHem. 255), they differ in thermal stability at neutral pH and in behavior on ion-exchange chromatography. Both forms of the enzyme are equally stable at acidic pH for long intervals, but the cell-associated hyaluronidase is significantly less stable than the secreted froms at neutral pH and at temperatures more than or equal to 30 degrees C. Neither the presence of proteases nor inhibitors of hyaluronidase appear to be involved in the cell-asspcoated enzyme. Chromatography of the two forms of hyaluronidase on carboxymethyl cellulose reveals that most (60-90 percent) of the secreted form of the enzyme elutes at a lower ionic strength than the cell- associated enzyme. Treatment of the secreted form of hyaluronidase with neuraminidase shifts its elution profile on carboxymethyl cellulose toward that of the cell-associated form, and also decreases its thermal stability at neutral pH. In contrast, treatment of the secreted form of hyaluronidase with alkaline phosphatase has no detectable effect. These data suggest that the secreted hyaluronidase differs from the cellular form in possessing additional sialic acid residues which endow the former with increased stability in the extracellular milieu. 相似文献
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Hyaluronidase activity and hyaluronate content were measured in the developing chick heart from embryonic day 3 through posthatching stages. High levels of both enzyme and substrate were found during the earliest stages examined. Hyaluronidase activity gradually declined to 63% of the initial (day 3) level by embryonic day 16. Enzyme activity decreased more sharply during the next 4 days to 30% of the initial level and remained constant through 2 weeks after hatching. Low levels of enzyme activity (about 10% initial levels) were still detectable in 10-week-old chicken hearts. The heart hyaluronidase is an endoglycosidase with an estimated molecular weight of 62,000, which degrades hyaluronate and, to a lesser extent, chondroitin sulfate at an acid pH optimum. Hyaluronate constituted approximately 50% of the total glycosaminoglycan content at embryonic day 5. Between embryonic days 5 and 12, the concentration of hyaluronate decreased to 25–30% of the initial level and remained constant thereafter. The level of other glycosaminoglycans decreased more gradually than hyaluronate and did not reach a constant level until hatching. This pattern of hyaluronidase activity and hyaluronate concentration presumably reflects the extensive tissue remodeling which transforms the developing heart from a thin-walled tube containing extensive regions of extracellular matrix to a compact, thick-walled myocardium having a limited extracellular compartment. 相似文献
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Homozygous brachymorphic () mice have a disproportionately short stature, similar to human achondroplasia. We previously showed that each zone of growth in young epiphyseal cartilages is smaller than normal and that the extracellular matrix appears to contain normal collagen fibrils, but smaller and reduced numbers of proteoglycan matrix granules. Our studies reported here indicate that mutant, like normal cartilage, synthesizes type II collagen and contains normal quantities of glycosaminoglycans as judged by uronic acid content. However, the glycosaminoglycans from the mutant differ from the normal in their chromatographic and electrophoretic properties. Further studies established that glycosaminoglycans from cartilages of brachymorphic animals were undersulfated. Whereas chondroitinase digests of glycosaminoglycans from cartilage of normal 5-day-old mice contained predominantly disaccharides sulfated in the 4-position, that of the mutant contained appreciable unsulfated disaccharides as well. 相似文献
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FOG-2, a cofactor for GATA transcription factors, is essential for heart morphogenesis and development of coronary vessels from epicardium 总被引:20,自引:0,他引:20
Tevosian SG Deconinck AE Tanaka M Schinke M Litovsky SH Izumo S Fujiwara Y Orkin SH 《Cell》2000,101(7):729-739
We disrupted the FOG-2 gene in mice to define its requirement in vivo. FOG-2(-/-) embryos die at midgestation with a cardiac defect characterized by a thin ventricular myocardium, common atrioventricular canal, and the tetralogy of Fallot malformation. Remarkably, coronary vasculature is absent in FOG-2(-/-) hearts. Despite formation of an intact epicardial layer and expression of epicardium-specific genes, markers of cardiac vessel development (ICAM-2 and FLK-1) are not detected, indicative of failure to activate their expression and/or to initiate the epithelial to mesenchymal transformation of epicardial cells. Transgenic reexpression of FOG-2 in cardiomyocytes rescues the FOG-2(-/-) vascular phenotype, demonstrating that FOG-2 function in myocardium is required and sufficient for coronary vessel development. Our findings provide the molecular inroad into the induction of coronary vasculature by myocardium in the developing heart. 相似文献