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Query: UNIPROT:Q9NRP7 (fused)
58,367 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Simian virus 40 (SV40)-transformed human cells (LN-SV) were fused with BALB/c peritoneal macrophages (BALB/c X LN-SV) and with C57BL peritoneal macrophages (C57BL X LN-SV) and hybrid clones, all of which had segregated human chromosomes and contained the entire complement of mouse chromosomes, were isolated. All 15 BALB/c X LN-SV hybrid clones were producing varying titers (10 to 10(6) plaque-forming units/ml) of B-tropic murine leukemia virus, whereas none of the nine C57BL X LN-SV hybrid clones was producing detectable ecotropic murine leukemia virus.
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PMID:Production of B-tropic murine leukemia virus by somatic cell hybrids between mouse peritoneal macrophages and simian virus 40-transformed human cells. 17 20

The chromosomal integration site of the structural gene of Moloney murine leukemia virus (M-MuLV) in the genome of BALB/Mo mice was mapped genetically. These mice transmit the exogenous M-MuLV as an endogenous virus at a single Mendelian locus. Two independent experimental approaches were used: (i) Non-virus-producing fibroblasts prepared from homozygous BALB/Mo embryos were fused to Chinese hamster Wg3-h-o cells. In an analysis of 30 independent mouse-Chinese hamster cell hybrid clones, the segregation of the viral genome measured by molecular hybridization and enzymes assigned to 16 different mouse chromosomes were compared. We found a highly concordant segregation of M-MuLV sequences and the mouse enzyme triosephosphate isomerase (TPI, EC 5.3.1.1), whose gene has been assigned to chromosome 6. A further karyotype analysis of 9 clones, in which the chromosomes were identified cytochemically, supported this result. (ii) The segregation of the viral genome was studied in backcrosses of BALB/Mo with ABP/J mice. In the backcross ABP/Jx(ABP/JxBALB/Mo) a linkage of the M-MuLV genome to the morphological marker wa-1 on mouse chromosome 6 was found. This confirmed the conclusion that the M-MuLV genome is integrated in mouse chromosome 6. These experiments define the genetic locus Mov-1, denoting the genetically transmitted structural gene of M-MuLV in BALB/Mo mice.
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PMID:Germ line integration of Moloney leukemia virus: identification of the chromosomal integration site. 28 34

Mice genetically transmitting the exogenous Moloney leukemia virus (Balb/Mo) have been previously derived. These animals carried one copy of Moloney virus DNA (M-MuLV) in their germ line and transmitted the virus as a single Mendelian gene to the next generation. Homozygous BALB/Mo mice were used to genetically map the M-MuLV locus. Embryo fibroblasts were fused to established Chinese hamster cells and somatic cell hybrids were selected. Segregation of mouse chromosomal markers in the hybrids was correlated to the loss of M-MuLV-specific sequences as detected by molecular hybridization. Of 15 isozymes located on different mouse chromosomes only triosephosphate isomerase segregated syntenic with the M-MuLV gene, suggesting that the virus was integrated on chromosome No. 6. This was confirmed by sexual genetic experiments analyzing segregation of Moloney viremia and two markers on chromosome 6 and 15, respectively. The results show that M-MuLV expression is linked to wa-1 on chromosome 6 at a distance of about 30 map units. These data define a new genetic locus, Mov-1, representing the structural gene of M-MuLV in BALB/Mo mice.
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PMID:Genetic transmission of Moloney leukemia virus: mapping of the chromosomal integration site. 54 67

fu-1 cells, a line of rat myoblasts defective in differentiation, can be fused into multinucleate syncytia by Moloney murine leukemia virus. The effects of treating the virus with specific antibody, UV irradiation, and elevated temperature and the requirements for cellular RNA and protein synthesis have been studied as they relate to this virus-induced fusion. The results indicate that intact, but not necessarily infectious, virions are required to promote fusion of fu-1 cells. Neither actinomycin D nor cycloheximide altered the formation of syncytia; thus, neither viral nor cellular RNA or protein synthesis is required for fusion. fu-1 cells infected with the ts3 temperature-sensitive mutant of Moloney murine leukemia virus accumlate large amounts of budding virus on their cell membrane; however, this membrane-associated virus failed to induce syncytia. Upon release of the virus at the permissive temperature, fusion did occur. We conclude that contact or attachment of the immature virus to the cell membrane is not sufficient to promote murine leukemia virus-induced cell fusion; complete virions are required. From these data, we propose that adsorption and penetration of the virus may induce a change in the cell membrane that subsequently promotes the fusion of susceptible cells.
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PMID:Mechanism of murine leukemia virus-induced fusion in rat myoblasts defective in differentiation. 56 Nov 94

Developing eosinophils from the bone marrow of a patient with acute "eosinophilic" leukemia were characterized by electron microscopy. It was suggested that the first sequential step in granule formation occurred at the level of the endoplasmic reticulum without actual participation of the Golgi complex. Progressive densification of the former profiles, presumably mediated by Golgi vesicles, resulted in the formation of dense immature granules. Ultrastructural observations of the "leukemic" eosinophils which were generally arrested at an intermediate stage of maturation revealed also large vacuoles containing sequestered immature granules, without any indication of phagocytic activity. Morphological evidence that has been accumulated indicates that the membrane of these vacuoles fused with the cell membrane, thus being in contact with the extracellular space. These profiles strongly suggested that granules and/or granule-associated material were secreted by developing bone marrow eosinophils.
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PMID:Ultrastructural characteristics of developing eosinophil leukocytes in human bone marrow during acute leukemia: evidence for extracellular granule release from human eosinophils. 61 97

The examination of the presence of Ph chromosome and of the fused gene BCR-ABL in patients with chronic myeloid leukemia (CML) is significant for the precise diagnosis and in some cases for the prognosis of the disease. We examined peripheral blood for the presence of BCR-ABL fused gene by polymerase chain reaction (PCR) in eight patients with CML consecutively cytogenetically studied before and after the bone marrow transplantation and in two patients treated with interferon. Southern blot analysis was performed before BMT in two patients and the molecular rearrangement of Ph chromosome was found. In all cases our results have proved that cytogenetic and recombinant DNA evaluations confirm each other. Due to the high sensitivity of PCR technique the minimal residual leukemia can be detected.
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PMID:[Use of cytogenetic and molecular biology in the detection of chronic myeloid leukemia]. 128 73

Epstein-Barr-virus- (EBV-) positive lymphoblastoid cell lines (LCLs) spontaneously arising in vitro were obtained from the peripheral blood of six HIV-seropositive patients and from the peripheral blood and the bone marrow of one patient (LAM) with AIDS and lymphoma. The LCLs from HIV-seropositive patients had phenotypic, cytogenetic, and biological characteristics indistinguishable from those of normal LCLs obtained by infecting B cells with EBV in vitro. The LCLs from LAM patient comprised composite cell populations. Cloning analysis and cell fractionation procedures showed that, beside normal EBV-infected cells, these lines contained a malignant subset population characterized by c-myc rearrangement, abnormal karyotype, and a surface phenotype similar to that of Burkitt's lymphoma cells. Analyses of Ig heavy chain and c-myc oncogene loci showed that these malignant cells were the progeny of a single precursor. Nevertheless, these cells had heterogeneous EBV-fused termini, a finding which indicates that EBV infection followed c-myc rearrangement.
Leukemia 1992
PMID:Characterization of EBV-positive lymphoblastoid cell lines obtained from HIV seropositive patients with or without lymphomas. 131 63

The genome of the avian leukemia virus E26 is a unique example of association between two transcription factors which appear as a fused composite nuclear oncoprotein, P135gag-myb-ets. Previous studies with E26 have shown that v-myb and v-ets must cooperate to fully transform both erythrocytic and myelomonocytic precursor cells in vivo and in vitro. To analyse further the contribution of the individual domains involved in the transformation of various hematopoietic lineages, we have constructed several mutant viruses expressing a fusion protein with deletions in either v-myb or v-ets. We show here that integrity of the v-ets oncogene is necessary for transformation of the erythrocytic cells but that neither the DNA-binding domain nor the trans-activating domain of v-myb is required for this transformation. The DNA-binding domain of v-ets is necessary to transform myelomonocytic cells. Furthermore, we show that E26 onco-protein also transforms granulocytic cells. The v-ets DNA-binding domain is not necessary to transform them, whereas deleting the v-myb DNA-binding domain strongly reduces transformation of these cells. These data show that the v-myb and v-ets DNA-binding domains provide quite different contributions to the transformation of various hematopoietic lineages by E26.
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PMID:The various domains of v-myb and v-ets oncogenes of E26 retrovirus contribute differently, but cooperatively, in transformation of hematopoietic lineages. 133 35

APL (FAB M3) is a unique type of myeloid leukaemia characterized by specific clinical, morphological, cytogenetic and molecular features. An early and accurate diagnosis is necessary to initiate therapy and treat the life-threatening coagulopathy caused by release of procoagulants from the abundant promyelocytic granules. Cytogenetically the disease is characterized by a reciprocal translocation between the long arms of chromosomes 15 and 17, t(15;17)(q21;q22), which is seen in almost every patient with APL but in no other form of malignancy. The presence of this translocation, often as the only karyotypic change, suggests that potentially leukaemogenic sequences are located at the breakpoints and are activated by rearrangement. The recent cloning of the breakpoints by three groups has demonstrated that the retinoic acid receptor alpha gene (RARA) on chromosome 17 is fused to a previously undescribed transcription factor gene, PML, on chromosome 15. The DNA-binding motifs of both the RARA and PML proteins, together with the ligand-binding domain of RARA, are combined in a single fusion protein which may dysregulate either retinoic acid or PML-sensitive pathways. Identification of these dysregulated target genes has become the next molecular goal for research on APL. Intriguingly, some APLs not only express the PML-RARA fusion protein but also the reciprocal RARA-PML fusion protein, although the contribution of this product is unclear. The PML-RARA chimaeric protein is presumably the target during the striking differentiation therapy achieved with all-trans retinoic acid. This therapy induces the malignant promyelocytes to mature and die, rather than continue proliferating. Moreover, it represents the first direct connection between a genetic defect and clinical treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular analysis of the t(15;17) translocation in acute promyelocytic leukaemia. 133 90

We devised an indicator gene for retrotransposition, nlsLacZRT, which contains the Escherichia coli lacZ gene fused to a nuclear location signal (nlsLacZ), engineered in such a way that the gene is expressed only if the structure in which it has been inserted transposes itself through an RNA intermediate. A cloned murine leukemia retrovirus with an ecotropic host range (Moloney murine leukemia virus), rendered defective by a large deletion encompassing the three viral gag, pol, and env open reading frames, was marked with this indicator gene and introduced by transfection into heterologous feline cells. No beta-galactosidase activity could be detected among the clonal cell population, unless the defective provirus was complemented in trans by the gag-pol gene products. Under these conditions, cell variants which disclosed an easily detectable nuclear blue coloration upon in situ 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside staining were observed. Fluorescence-activated cell sorting of the beta-galactosidase-positive cells, followed by Southern blot analysis, demonstrated an unambiguous correlation between nlsLacZRT activation and retrotransposition of the marked provirus. Transposition occurs at a high frequency (up to 10(-4) events per cell per generation), which is dependent on the level of expression of the gag-pol gene and is concomitant with the release of noninfectious retroviruslike particles which are the hallmarks, but not the intermediates, of the intracellular transposition process.
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PMID:High-frequency intracellular transposition of a defective mammalian provirus detected by an in situ colorimetric assay. 137 Nov 67

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