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Genomes are nonrandomly organized within the three-dimensional space of the cell nucleus. Here, we have identified several genes whose nuclear positions are altered in human invasive breast cancer compared with normal breast tissue. The changes in positioning are gene specific and are not a reflection of genomic instability within the cancer tissue. Repositioning events are specific to cancer and do not generally occur in noncancerous breast disease. Moreover, we show that the spatial positions of genes are highly consistent between individuals. Our data indicate that cancer cells have disease-specific gene distributions. These interphase gene positioning patterns may be used to identify cancer tissues.  相似文献   

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When the topoisomerase II inhibitor, novobiocin, is administered to embryonic chicken red blood cells, it induces the in vivo release of an endogenous nuclease which cleaves specifically within internucleosomal spacer DNA and within nuclease-hypersensitive sites in the active chromatin of intact cells. This in vivo released nuclease activity is induced by novobiocin only in metabolically active immature red blood cells. Little induction occurs in mature erythrocytes and no induction occurs in cells previously treated with 2,4-dinitrophenol. Although novobiocin is required to induce release and/or activation of the nuclease, the activity of the nuclease, once activated, is independent of novobiocin. Analysis of the cleaved DNA in drug-treated immature cells demonstrates that the novobiocin-induced nuclease has an unusual blunt-ended double-stranded mode of cleavage. Because of its special properties and apparent chromatin related function in vivo, the novobiocin-induced nuclease activity offers a novel and useful in vivo and in vitro probe of chromatin structure.  相似文献   

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To examine the relationship between gene conversion and reciprocal exchange at an endogenous chromosomal locus, we developed a reversion assay in a thymidine kinase deficient mutant, TX545, derived from the human lymphoblastoid cell line TK6. Selectable revertants of TX545 can be generated through interchromosomal gene conversion at the site of inactivating mutations on each tk allele or by reciprocal exchange that alters the linkage relationships of inactivating polymorphisms within the tk locus. Analysis of loss of heterozygosity (LOH) at intragenic polymorphisms and flanking microsatellite markers was used to initially evaluate allelotypes in TK(+) revertants for patterns associated with either gene conversion or crossing over. The linkage pattern in a subset of convertants was then unambiguously established, even in the event of prereplicative recombinational exchanges, by haplotype analysis of flanking microsatellite loci in tk(-/-) LOH mutants collected from the tk(+/-) parental convertant. Some (7/38; 18%) revertants were attributable to easily discriminated nonrecombinational mechanisms, including suppressor mutations within the tk coding sequence. However, all revertants classified as a recombinational event (28/38; 74%) were attributed to localized gene conversion, representing a highly significant preference (P < 0.0001) over gene conversion with associated reciprocal exchange, which was never observed.  相似文献   

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ABR, an active BCR-related gene.   总被引:5,自引:2,他引:5       下载免费PDF全文
The human BCR gene on chromosome 22 is specifically involved in the Philadelphia translocation, t(9;22), a chromosomal rearrangement present in the leukemic cells of patients with chronic myeloid leukemia or acute lymphoblastic leukemia. In most cases, the breakpoints on chromosome 22 are found within a 5.8 kb region of DNA designated the major breakpoint cluster region (Mbcr) of the BCR gene. Hybridization experiments have indicated that the human genome contains BCR gene-related sequences. Here we report the molecular cloning of one of these loci, for which we propose the name ABR. In contrast with the other BCR-related genes studied to date, ABR represents a functionally active gene and contains exons very similar to those found within the Mbcr. Unlike the BCR gene, the ABR gene exhibits great genomic variability caused by two different variable tandem repeat regions located in two introns. All other BCR gene-related sequences isolated so far and the BCR gene itself are located on chromosome 22. In contrast, the ABR gene is located on chromosome 17p.  相似文献   

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Retrovirus-mediated gene transfer of the human beta-globin gene into hematopoietic stem cells is an attractive approach to the therapy of human beta-globin gene disorders. However, expression of the transduced beta-globin gene linked to its proximal cis-acting sequences (-0.8 to +0.3 kb from the cap site) is considerably below the level required for a significant therapeutic effect. The discovery of the beta-locus control region (beta-LCR), organized in four major DNase I hypersensitive sites far upstream of the human beta-like globin gene cluster, provided a potential means to achieve a high level of expression of a linked human beta-globin gene, but initial attempts to incorporate beta-LCR derivatives in retroviral vectors resulted in the production of low-titer viruses with multiple rearrangements of the transmitted proviral structures. We now describe how extensive mutagenesis of the transduced beta-globin gene, eliminating a 372 bp intronic segment and multiple reverse polyadenylation and splicing signals, increases viral titer significantly and restores stability of proviral transmission upon infection of cell lines and bone marrow-repopulating cells. These optimized vectors have enabled us to analyze the expression properties of various retrovirally transduced beta-LCR derivatives in dimethylsulfoxide-induced murine erythroleukemia cells and to achieve ratios of human beta-globin/murine beta maj-globin mRNA, on a per gene basis, as high as 80%.  相似文献   

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Recent evidence suggests that, after binding insulin, insulin receptors (IR) interact with specialized, cholesterol-containing, membrane microdomains and components of the actin cytoskeleton. Using single particle tracking techniques, we examined how binding of insulin, depletion of membrane cholesterol and disruption of actin filaments affect the lateral diffusion of individual quantum dot-labeled native IR on live rat basophilic leukemia 2H3 cells. We also examined the effects of similar treatments on IR clustering and multivalent insulin binding on these cells using both photon counting histogram analysis and polarization-based fluorescence resonance energy homo-transfer imaging. Our analyses indicate that binding of insulin to IR on these cells is multivalent, involving at least two insulin molecules per IR as labeling concentrations approach 1μM. Insulin binding also reduces lateral diffusion of IR and the size of membrane compartments accessed by IR. For IR that have not bound insulin, lateral diffusion of IR and the size of membrane compartments accessed by IR increase after disrupting actin filaments or depleting membrane cholesterol. However, clustering of insulin-occupied IR is reduced only by disrupting actin filaments or by fixing cells with paraformaldehyde prior to exposure to insulin, but not by depleting membrane cholesterol. Thus, it appears that, although restriction of IR lateral diffusion on these cells is sensitive to both actin filament dynamics and membrane cholesterol content, clustering of insulin-occupied IR primarily involves an actin-dependent mechanism.  相似文献   

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Intranuclear inclusions of three basic types are described in various parts of the rabbit adenohypophysis in vivo and in organ and cell cultures. These inclusions are mostly found in the postnatal tissue but occur in both glandular and non-glandular cells. A comparison is made with similar structures encountered elsewhere. Their significance is not known.  相似文献   

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