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: DrugBank:BIOD00001 (DNase I)
8,324 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Differential expression of the closely linked gamma, beta(A) (or beta(B)), and beta(C) globin genes in sheep results in the production of fetal hemoglobin (Hb F, alpha(2)gamma(2)) during gestation and the adult hemoglobins (Hb A, alpha(2)beta(2) (A), and Hb B, alpha(2)beta(2) (B)) after birth. Erythropoietic stress in certain animals leads to production of Hb C (alpha(2)beta(2) (C)). The molecular mechanism of differential expression of these genes in nuclei of fetal and adult erythroid cells has been investigated by analysis of their susceptibility to digestion by DNase I (genes that are in the conformation associated with active transcription are sensitive to this nuclease). The concentration of globin gene sequences in DNA from control and DNase I-digested nuclei was determined by annealing to synthetic DNAs and analogous cDNA probes derived from recombinant plasmids containing one of the sheep globin genes. In nuclei from sheep fetal liver erythroid cells, the gamma genes but not the beta genes were digested by DNase I; the gamma locus was open but the beta(A) or beta(C) loci was closed, consistent with synthesis of only Hb F by these cells. DNase I digestion of nuclei from bone marrow of anemic sheep making only Hb C or Hb B resulted in equivalent digestion of the beta and gamma gene sequences, although gamma mRNA was not detected in these cells. Digestion by DNase I did not decrease the globin gene sequence concentration in residual DNA of spleen nuclei. As a further control, DNA from digested bone marrow and spleen nuclei were shown to anneal equally well to a cDNA prepared from liver polysomal mRNA. Differential expression of the gamma and beta globin genes in sheep fetal erythroid cell appears to be based on differences in chromatin structure. The gamma globin gene remains in the active conformation in adult erythroid cells; failure of gamma mRNA to accumulate in these cells probably reflects transcriptional or post-transcriptional regulation.
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PMID:Hemoglobin switching in sheep: only the gamma gene is in the active conformation in fetal liver but all the beta and gamma genes are in the active conformation in bone marrow. 28 9

The beta-globin locus control region (LCR) is characterized by erythroid-specific DNase I hypersensitive sites and is involved in the chromatin organization, transcriptional potentiation, developmental regulation, and replication timing of the entire beta-globin gene cluster. When and how the LCR is first activated during erythropoiesis is not known. Here we analyze the chromatin structure of the LCR during early hematopoietic differentiation using nontransformed, multipotential, growth factor-dependent, murine hematopoietic progenitor cells. We show that LCR hypersensitive sites characteristic of erythroid cells are present in three independent multilineage progenitors [FDCP (factor-dependent cell, Paterson)-mix A4, B6SUtA, and LyD9] under conditions of self-renewal. Induction of differentiation down a nonerythroid pathway causes a progressive loss of hypersensitivity in the LCR. These results show that the beta-globin LCR is in an active chromatin configuration prior to erythroid commitment and indicate a significant role for selective gene repression in lineage specification.
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PMID:Activation of the beta-globin locus control region precedes commitment to the erythroid lineage. 143 57

The human beta-globin LCR plays a key role in the transcriptional regulation of the beta-globin locus and comprises four erythroid specific DNase I hypersensitive sites, designated 5'HS1-4. We have now isolated genomic clones containing 5'HS3 and 5'HS4 of the mouse beta-globin LCR. 5'HS3 and 5'HS4 are located 15 kb and 22 kb upstream of the mouse epsilon y-globin gene, respectively. Sequence analysis of murine 5'HS3 and 5'HS4 reveals a significant degree of sequence conservation with their human homologues, including the presence of recognition sites for functionally relevant transcription factors. 5'HS3 and 5'HS4 regions were found to form hypersensitive sites in nuclei from murine erythroid cells, but not in nuclei from a variety of nonerythroid haematopoietic cell lines. Analysis of different mouse strains revealed the existence of a polymorphism that alters the spacing between 5'HS3 and 5'HS4. Taken together, our results emphasize the extent of evolutionary conservation and complexity of mammalian beta-globin LCRs. Finally, the cloning of mouse 5'HS3 and 5'HS4 will facilitate the molecular analysis of LCR function in the mouse model.
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PMID:The mouse beta-globin locus control region: hypersensitive sites 3 and 4. 145 40

The chicken erythroid proteins binding to the histone H5 5' promoter and 3' erythroid-specific enhancer regions were identified. In DNase I footprinting and gel mobility shift experiments with immature adult erythrocyte nuclear extracts, we have demonstrated the binding of proteins to the GC-box, a high affinity Sp1 binding site, and to the upstream promoter element. We have previously demonstrated that a multisubunit complex containing the transcription factor GATA-1 was associated with the enhancer. Here, we show that the enhancer region also has four Sp1 binding sites (one medium and three weak affinity, one of which may also bind the CACCC factor), a potential NF-E4 binding site, and a binding site for a NF1-like factor. The results of gel mobility-shift and competition experiments provide evidence that the Sp1 binding sites are associated with a high molecular mass (greater than 450 kDa), Sp1 containing protein complex. We propose that Sp1 multimers bound at the promoter and enhancer interact to mediate the juxta-positioning of the enhancer and promoter elements, bringing the GATA-1 multisubunit complex next to the initiation site. The GATA-1 complex may contribute to the protein-protein interactions between the enhancer and promoter.
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PMID:Analysis of erythroid nuclear proteins binding to the promoter and enhancer elements of the chicken histone H5 gene. 147

The locus control region of the human beta-globin cluster consists of four major DNase I hypersensitive sites (HS). When linked to globin genes, the locus control region confers a high level of erythroid-specific expression of these genes in transgenic mice or transfected erythroid cell lines. We have examined the effect of one of these sites, HS2, on human beta-globin gene expression in a murine erythroleukemia cell line (MEL) after retrovirus-mediated gene transfer. We incorporated a 732- or 412-base-pair (bp) segment of HS2 in the retroviral construct carrying the human beta-globin gene. These fragments rendered the viruses unstable as the human beta-globin gene was rearranged or deleted in all the packaging cell lines examined. On the other hand, when a 36-bp fragment containing the NFE-2/AP-1 binding consensus in this region was inserted into the retroviral construct, we recovered 6 stable packaging cell lines of 12 examined, similar in percentage to the construct with the beta-globin gene alone. The virus titers of the packaging cell lines from these two constructs were similar. We infected MEL cells with viruses produced from three packaging cell lines of each of the two constructs and measured the ratio of human beta-globin to mouse alpha-globin mRNA after hexamethylenebisacetamide induction. The overall level of expression increased 2-fold from 6.0% to 12.7% with the addition of this 36-bp enhancer.
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PMID:A 36-base-pair core sequence of locus control region enhances retrovirally transferred human beta-globin gene expression. 155 19

The beta-globin locus control region (LCR) consists of four erythroid-specific DNase I-hypersensitive sites, which are necessary for high-level expression of the beta-like globin genes in erythroid tissues. One of these sites, designated 5'HS-2, functions as an erythroid-specific enhancer element in transfection and transgenic mouse experiments. Recent transfection experiments and studies of DNA-protein interactions have localized the 5'HS-2 enhancer to 18 nucleotides that contain a binding site for both the erythroid-specific factor nuclear factor erythroid 2 (NFE-2) and for activator protein 1 (AP-1). To define the sequences necessary for in vivo enhancer activity, several deletion mutants of 5'HS-2 were linked to the human beta-globin gene and their activity was tested in transgenic mice. Three upstream fragments of 5'HS-2 [341, 374, and 412 base pairs (bp)], each of which contained the NFE-2/AP-1 sequences, resulted in beta-globin expression at levels equivalent to or higher than those observed with the entire 732-bp 5'HS-2 fragment. In contrast, a 358-bp downstream portion of 5'HS-2, which lacked the NFE-2/AP-1 sequences, resulted in beta-globin expression at the low levels seen with the beta-globin gene alone. Removal of the NFE-2/AP-1 sequences by a 67-bp internal deletion resulted in similar low levels of beta-globin expression. A 100-bp 5' fragment that contained the NFE-2/AP-1 sequences resulted in beta-globin expression that was higher than the beta-globin gene alone but lower than the entire 5'HS-2 fragment or the three larger upstream fragments. These studies demonstrate that the NFE-2/AP-1 sequences are essential for enhancer activity of 5'HS-2 but that other sequences are required for full activity in vivo.
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PMID:Dissection of the enhancer activity of beta-globin 5' DNase I-hypersensitive site 2 in transgenic mice. 157 Mar 10

The human beta-globin locus control region (LCR) is a complex regulatory element that controls the erythroid-specific expression of all cis-linked globin genes. The LCR is composed of five DNase I hypersensitive sites (HS) spanning 16 kb and located greater than 50 kb upstream of the beta-globin gene on chromosome 11. Constructs containing all or some of these HS have been shown to produce high-level erythroid-specific expression of linked genes in transgenic mice and transfected cells. In all transgenic and transfection experiments reported to date, however, the spatial relationships between the LCR and globin genes have been disrupted. We have used homologous recombination (HR) as an approach to gain insights into the potential interactions between the LCR and globin genes in their native locations. A hygromycin B resistance (hygro(R)) gene was inserted into the human beta-globin LCR on chromosome 11 in a mouse/human hybrid erythroid cell line that expresses the human beta-globin gene after the induction of differentiation. As a consequence of this targeted insertion, the beta-globin gene is transcriptionally inactive and not inducible. In contrast, the hygro(R) gene within the LCR is inducible, whereas randomly integrated hygro(R) genes are not inducible in these cells. The chromatin structure of the targeted locus is also altered. A new DNase I HS is present in the enhancer/promoter of the hygro(R) gene inserted into the LCR, whereas a HS normally present in the LCR 3' to the insertion is lost and the beta-globin gene promoter HS is not detectable. These results are consistent with the promoter/enhancer competition model for LCR function and globin gene switching.
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PMID:Inactivation of the human beta-globin gene by targeted insertion into the beta-globin locus control region. 159 62

The expression of beta-globin genes in developing erythroid cells is dependent on distant, upstream regulatory sequences, known as the locus control region (LCR), which are marked in chromatin by DNase I hypersensitive sites (HS-1 to HS-4). Linkage of the beta-globin gene complex LCR or fragments surrounding core regions of 200-300 base pairs to the human beta-globin gene permits consistent, high-level expression of the transgene in mice. To define the array of nuclear factors interacting with beta-LCR HS-3, we have performed in vivo dimethyl sulfate footprinting of the active HS-3 core in erythroid cells by a modified procedure that permits assessment of protein-DNA contacts at adenine, as well as guanine, residues. In vivo protein occupancy differs considerably from that predicted from previous in vitro binding analyses. In vivo footprinting detects protein binding at four sites recognized by the erythroid transcription factor GATA-1, at two CACC/GT motifs, and at a single AP-1/NF-E2 site. The regulatory elements occupied in vivo in HS-3 appear similar to those described previously in globin gene promoters and 3' enhancers. These findings suggest that the distinctive properties of the HS-3 region may be attributable to the organization of these occupied motifs and the consequent protein interactions, rather than to the binding of unique LCR regulatory factors.
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PMID:In vivo protein-DNA interactions at hypersensitive site 3 of the human beta-globin locus control region. 163 Oct 62

Erythropoietin is a cytokine which specifically regulates the proliferation and differentiation of erythroid progenitor cells. The expression of erythropoietin receptor on the cell membrane of the progenitor cells is a critical event during the erythroid differentiation process. In order to clarify the tissue-specific and differentiation stage-specific expression of the erythropoietin receptor gene, its transcriptional regulation was examined by transient expression assay, gel mobility shift assay and DNase I footprinting. The results clearly showed that GATA-1 transactivates the gene expression through a single GATA motif located around -200 bp upstream from the ATG codon in a dose dependent manner. Furthermore, Northern blot analysis revealed that erythropoietin receptor-mediated signals strongly enhanced GATA-1 gene expression in accordance with the appearance of hemoglobin-positive cells. Taken together with other observations, these results suggested the following scheme of erythroid differentiation: 1)GATA-1 is expressed in the early stage of blood cell development; 2) GATA-1 transactivates the erythropoietin receptor gene; 3) erythropoietin binds its receptor and the receptor-mediated signals enhance GATA-1 gene expression in erythroid progenitor cells; and 4) GATA-1 finally transactivates hemoglobin synthesis-related genes and globin genes in relatively matured erythroid cells.
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PMID:GATA-1 transactivates erythropoietin receptor gene, and erythropoietin receptor-mediated signals enhance GATA-1 gene expression. 165 Apr 52

Hereditary persistence of fetal hemoglobin (HPFH) can involve large deletions which eliminate the 3' end of the beta-like globin gene cluster and more than 70 kilobases (kb) of flanking DNA. Blot hybridization revealed a DNase I-hypersensitive site extending from 1.1 to 1.4 kb downstream of the HPFH-1 3' deletion endpoint. The site was found in normal fetal and adult nucleated erythroid cells and in two erythroleukemia cell lines but not in nonerythroid cells and tissues. Simian virus 40 core enhancer-like sequences were found nonrandomly distributed within the boundaries of the site, which is contained in a fragment of known enhancer activity (E. A. Feingold and B. G. Forget, Blood, in press). A second hypersensitive site was found 0.5 kb upstream of the HPFH-1 3' deletion endpoint but was not erythroid specific. A third site, most prominent in fetal liver-derived erythroid cells, was found 1 kb upstream of the HPFH-2 deletion endpoint. As predicted by the locations of the deletion endpoints, the first two sites were translocated to within 12 kb of the A gamma gene in erythroid colonies derived from an HPFH-2 heterozygote and in hybrid mouse-human erythroid cells carrying the HPFH-2 deletion chromosome. Further analysis of this region showed that it was DNase I sensitive in erythroid and myeloid cells, indicating that it resides in an open chromatin domain. These observations suggest that alterations of chromatin structure flanking the fetal globin genes may contribute to abnormal gene regulation in deletion-type HPFH.
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PMID:Translocation of an erythroid-specific hypersensitive site in deletion-type hereditary persistence of fetal hemoglobin. 169 Aug 39


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