27 research outputs found
HIV-1 Pre-Integration Complexes Selectively Target Decondensed Chromatin in the Nuclear Periphery
Integration of the double-stranded DNA copy of the HIV-1 genome into host chromosomal DNA is a requirement for efficient viral replication. Integration preferentially occurs within active transcription units, however chromosomal site specificity does not correlate with any strong primary sequence. To investigate whether the nuclear architecture may affect viral integration we have developed an experimental system where HIV-1 viral particles can be visualized within the nuclear compartment. Fluorescently labeled HIV-1 virions were engineered by fusing integrase, the viral protein that catalyzes the integration reaction, to fluorescent proteins. Viral tests demonstrate that the infectivity of fluorescent virions, including the integration step, is not altered as compared to wild-type virus. 3-D confocal microscopy allowed a detailed analysis of the spatial and temporal distribution of the pre-integration complexes (PICs) within the nucleus at different moments following infection; the fluorescently labeled PICs preferentially distribute in decondensed areas of the chromatin with a striking positioning in the nuclear periphery, while heterochromatin regions are largely disfavored. These observations provide a first indication of how the nuclear architecture may initially orient the selection of retroviral integration sites
The gene for the POU domain transcription factor Oct-6 maps to the distal end of mouse chromosome 4.
Specific and ubiquitous expression of different Zn finger protein genes in the mouse.
Zinc finger proteins (Zfp) are members of a multigene family encoding Zn mediated nucleic acid binding proteins. They have been isolated from various organisms including yeast, Drosophila, Xenopus mouse and human. All Zfp share the 28-30 amino acid long finger repeats containing conserved residues at specific positions. Some of these proteins have been identified as transcriptional regulatory factors. In this paper, we describe the isolation, DNA sequence determination and the expression pattern in developing embryos and adult tissues of 3 new members of the mouse Zfp. All of them are expressed as multiple transcripts. Unaltered level of mkr5 expression could be detected in 10-15 day whole embryo RNAs but its level started to decrease from day 16. In the adult animal, predominant expression was detected only in the ovary. In contrast, mkr3 and 4 were expressed at a constant level in all embryos and tissues tested. These data suggest the presence of both tissue specific and ubiquitious Zfp in the mouse
Retrovirus integration and chromatin structure: Moloney murine leukemia proviral integration sites map near DNase I-hypersensitive sites.
The chromatin conformation of mouse genome regions containing Moloney murine leukemia proviral intergration sites in two Mov mouse strains and randomly selected integration sites in virus-infected mouse 3T3 fibroblasts was analyzed. All integrations have occurred into chromosomal regions containing several DNase-hypersensitive sites, and invariably the proviral integration sites map within a few hundred base pairs of a DNase-hypersensitive site. The probability that this close association between proviral integration sites and DNase-hypersensitive sites was due to chance was calculated to be extremely low (2 X 10(-4]. Because the proviral integrations analyzed were not selected for an altered phenotype, our results suggest that DNase-hypersensitive regions are preferred targets for retrovirus integration
Oct-6: a POU transcription factor expressed in embryonal stem cells and in the developing brain.
A family of octamer binding proteins is expressed during mouse development. Oct-4 and Oct-6 have been identified as two octamer binding proteins present in embryonal stem cells. Here we report the complementary DNA cloning and characterization of the mouse Oct-6 gene. The protein of 448 amino acids contains a glycine/alanine-rich amino terminal region, a histidine-rich sequence with homology to a region of kininogen associated with clotting, a POU domain and a short proline/histidine-rich carboxy terminal region. Expression of Oct-6 in HeLa cells is sufficient for transcriptional activation from the octamer motif, identifying Oct-6 as a transcription factor. The Oct-6 expression is downregulated upon embryonic stem cell differentiation increasing again during brain development. Expression in brain is present in certain areas of telencephalon, mesencephalon and brain stem with abundant expression in the cortex anlagen and in the developing colliculi. Thus Oct-6 is a new octamer binding transcription factor specifically regulated during mouse development
Oct-4: a germline-specific transcription factor mapping to the mouse t-complex.
Oct-4 is a maternally expressed octamer-binding protein encoded by the murine Oct-4 gene. It is present in unfertilized oocytes, but also in the inner cell mass and in primordial germ cells. Here we show that the ectopic expression of Oct-4 in HeLa cells is sufficient for transcriptional activation from the octamer motif, indicating that Oct-4 is a transcription factor. Therefore, Oct-4 is the first transcription factor described that is specific for the early stages of mouse development. The spatial and temporal expression patterns were further determined using in situ hybridization. With this technique Oct-4 expression is detected in the oocyte, in the blastocyst and before gastrulation in the embryonic ectoderm. After day 8 Oct-4 expression decreases and is restricted to primordial germ cells from about day 8.5 onwards. Therefore Oct-4 is a transcription factor that is specifically expressed in cells participating in the generation of the germline lineage. Linkage analysis using B X D recombinant inbred mouse strains demonstrates that Oct-4 maps to chromosome 17 in or near the major histocompatibility complex. Several mouse mutants in the distal region of the mouse t-complex affecting blastocyst and embryonic ectoderm formation also map to this region