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

Injection of RF virus (RFV), a papovavirus isolated from human urine, into newborn Syrian hamsters induced subcutaneous sarcomas in 50% of the recipients with 18- to 48-week latent periods. Transplantation of 2 X 10(6) primary RFV-induced tumor cells into weaning hamsters caused tumors in 100% of the recipients within 1-2 weeks. Continuous tissue culture cell lines were established from two primary tumors; one of these was transplantable. An in vitro-transformed continuous cell line (RF-194) obtained by infection of primary hamster embryo fibroblasts with RFV was transplantable in weaning hamsters. Neither infectious RFV nor virion antigens were detected in transformed cells. No RFV was recovered when transformed cells were fused with permissive, human embryo kidney cells by means of inactivated Sendai virus. Immunoperoxidase staining was used to show that all three RFV-transformed cell lines contained an intranuclear T-antigen closely similar to that of simian virus 40(SV40)-infected cells. Most hamsters (84%) with primary or transplanted RFV tumors responded with antibodies that reacted with RFV T-antigen and the T-antigen of SV40-infected cells. Likewise, hamster antisera against SV40 T-antigen cross-reacted with RFV T-antigen. Adsorption of RFV T-antisera with an excess of lyophilized SV40-transformed cells removed all detectable activity against SV40 T-antigen but left significant activity against RFV T-antigen. The reciprocal adsorption produced an antiserum spedicic for SV40 T-antigen. Thus human and simian papovavirus T-antigens were related but immunologically separable.
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PMID:Induction of tumors in Syrian hamsters by a human renal papovavirus, RF strain. 6 61

Mouse fibroblasts resistant to the drug rutamycin were isolated by selectively introducing BrdUrd into the mitochondrial genome of a line of mouse fibroblasts (clone 1 D) lacking a cytoplasmic thymidine kinase enzyme. The ATPase (ATP phosphohydrolase; EC 3.6.1.3) activity of mitochondria isolated from these cells was resistant to rutamycin. The rutamycin-resistant mutants were enucleated with cytochalasin B and fused with mouse A 9 cells resistant to 8-azaguanine and sensitive to rutamycin. Cytoplasmic hybrids, or cybrids, were selected as cells resistant to rutamycin and 8-azaguanine, and appeared at a high frequency. Other fusions between rutamycin-resistant nucleated cells and A 9 produced colonies at a much lower frequency. Finally, fusions between enucleated clone 1 D cells and A 9 cells produced no rutamycin-resistant colonies. These results indicate that rutamycin resistance is a cytoplasmically inherited characteristic in this cell line.
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PMID:Cytoplasmic inheritance of rutamycin resistance in mouse fibroblasts. 14 79

Plasma membranes were purified from purely cholinergic nerve endings (synaptosomes) isolated from the electric organ of Torpedo marmorata. Synaptosomes were lysed, membranes recovered and further separated by density gradient centrifugation. A fraction was obtained enriched in 5'-nucleotidase, Na+, K+-activated ATPase and acetylcholine esterase. Morphological examination showed abundant membrane fragments of the size range of synaptosomes and few of vesicle size. The fraction has a characteristic protein composition upon gel electrophoresis. Five reproducible major bands with apparent Mr of 100000, 75000, 52000, 42000 and 35000--33000 are found. A gel-electrophoretic comparison with proteins from synaptic vesicles from the same source (major bands Mr 160000, 147000, 34000 and 25000) was made. Comigration of major bands was detected in one-dimensional gel electrophoresis with the 42000-Mr, 35000--33000-Mr and 34000-Mr components. Upon two-dimensional gel electrophoresis the 42000-Mr component comigrates with a similar component in vesicles, recently characterized as actin; the other components are different. The presence of tubulin-like polypeptides is unlikely. Beside actin, all major vesicle proteins are often detected in small amounts in the plasma membrane preparation. It cannot be decided if they result from fused or contaminating vesicle membranes, but since they are essentially absent in some preparations, it seems that the plasma membrane does not contain vesicle proteins.
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PMID:Isolation of synaptosomal plasma membranes from cholinergic nerve terminals and a comparison of their proteins with those of synaptic vesicles. 51 Mar 2

Rabbit sarcoplasmic reticulum vesicles were fused into giant proteoliposomes in a medium of 0.1 M KCl, 10 mM Tris-maleate, pH 7.0, 10 micrograms ml-1 antipain, 10 micrograms ml-1 leupeptin, 25 IU per ml Trasylol, 3 mM NaN3, 3.75% PEG 1500 and 3% DMSO by brief exposure to 37 degrees C, followed by incubation for 4 h at 25 degrees C. Approximately 5-10% of the sarcoplasmic reticulum elements underwent fusion, forming single-walled spherical vesicles of 1-25 microns diameter, in which the polarity of the native membrane was preserved. The Ca(2+)-stimulated ATPase activity remained essentially unchanged after fusion. On exposure to decavanadate in a Ca(2+)-free medium the spherical vesicles assumed a corrugated appearance with the formation of long ridges separated by deep furrows that eventually pinched off longitudinally and separated into numerous long crystalline tubules of uniform (approximately 0.1 microns) diameter. The vanadate-induced transformation of giant vesicles into tubules implies that the geometry of the sarcoplasmic reticulum membrane is determined by the conformation of the Ca(2+)-ATPase.
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PMID:Giant sarcoplasmic reticulum vesicles: a study of membrane morphogenesis. 128 Nov 63

Resistance to toxic oxyanions of arsenic and antimony in Escherichia coli is conferred by the conjugative R-factor R773, which encodes an ATP-driven anion extrusion pump. The ars operon is composed of three structural genes, arsA, arsB, and arsC. Although transcribed as a single unit, the three genes are differentially expressed as a result of translational differences, such that the ArsA and ArsC proteins are produced in high amounts relative to the amount of ArsB protein made. Consequently, biochemical characterization of the ArsB protein, which is an integral membrane protein containing the anion-conducting pathway, has been limited, precluding studies of the mechanism of this oxyanion pump. To overexpress the arsB gene, a series of changes were made. First, the second codon, an infrequently used leucine codon, was changed to a more frequently utilized codon. Second, a GC-rich stem-loop (delta G = -17 kcal/mol) between the third and twelfth codons was destabilized by changing several of the bases of the base-paired region. Third, the re-engineered arsB gene was fused 3' in frame to the first 1458 base pairs of the arsA gene to encode a 914-residue chimeric protein (486 residues of the ArsA protein plus 428 residues of the mutated ArsB protein) containing the entire re-engineered ArsB sequence except for the initiating methionine. The ArsA-ArsB chimera has been overexpressed at approximately 15-20% of the total membrane proteins. Cells producing the chimeric ArsA-ArsB protein with an arsA gene in trans excluded 73AsO2- from cells, demonstrating that the chimera can function as a component of the oxyanion-translocating ATPase.
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PMID:Construction of a chimeric ArsA-ArsB protein for overexpression of the oxyanion-translocating ATPase. 128 74

The formation of sarcoballs on the surface of skinned fibres from semitendinosus muscles of Xenopus laevis, and the sarcoplasmic reticulum content of the structures, have been studied using conventional electron microscopic techniques and immunoelectron microscopy. Examination of the fibres showed many membrane-bound blebs projecting from the surface in areas where vesicles of internal membranes (including sarcoplasmic reticulum, T-tubules and mitochondria) were clustered in interfilament spaces. The blebs varied in size from 1 micron to 150 microns and those with diameters > 10 microns are referred to as sarcoballs. Small blebs were often seen in close association with each other and might have fused during sarcoball formation. The interior of the sarcoball was filled with foam-like material made up of vesicles with diameters of 100 nm to 1.0 microns. The sarcoplasmic reticulum membrane content of the sarcoballs was evaluated using two monoclonal antibodies, one to the Ca2+ ATPase of the sarcoplasmic reticulum and the second to ryanodine receptor calcium release channels in the junctional-face membrane. The antibodies bound to some components of the surface and interior of the sarcoball, but not to mitochondrial-like structures and tubular vesicles. The results show that a large component of the sarcoball and its surface is derived from sarcoplasmic reticulum and suggest that mitochondria and T-tubules might also contribute membranes to the structures. Our hypothesis is that (a) blebs bud out from the surface of the skinned fibre following fusion of internal vesicles that are extruded along interfilament channels during unrestrained contractures, (b) blebs grow into sarcoballs by additional fusion of internal membrane vesicles and fusion of adjacent blebs, and (c) the sarcoball is a foam-like structure composed of bathing medium and membrane lipid (containing membrane proteins).
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PMID:Ultrastructure of sarcoballs on the surface of skinned amphibian skeletal muscle fibres. 128 95

Using polyethylene glycol-mediated fusion of ATP-ase-enriched (native) microsomes with red blood cells, we have delivered sarcoplasmic reticulum (SR) Ca-ATPase and kidney Na,K-ATPase into the mammalian erythrocyte membrane. Experiments involving delivery of the SR Ca-ATPase into human red cells were first carried out to assess the feasibility of the fusion protocol. Whereas there was little detectable 45Ca2+ uptake into control cells in either the absence or presence of extracellular ATP, a marked time-dependent uptake of 45Ca2+ was observed in the presence of ATP in cells fused with SR Ca-ATPase. Comparison of the kinetics of uptake into microsome-fused cells versus native SR vesicles supports the conclusion of true delivery of pumps into the red cell membrane. Thus, the time to reach steady state was more than two orders of magnitude longer in the (large) cells versus the native SR vesicles. Na,K-ATPase from dog and rat kidney microsomes were fused with red cells of humans, sheep, and dogs. Using dog kidney microsomes fused with dog red cells which are practically devoid of Na,K-ATPase, functional incorporation of sodium pumps was evidenced in ouabain-sensitive Rb+ uptake and Na+ efflux energized by intracellular ATP, as well as in ATP-stimulated Na+ influx and Rb+ efflux from inside-out membrane vesicles prepared from the fusion-treated cells. From analysis of the biphasic kinetics of ouabain-sensitive Na+ efflux under conditions of limited intracellular Na+ concentration, it is concluded that the kidney pumps are incorporated into a relatively small fraction (approximately 15%) of the red cells. This system provides a uniquely useful system for studying the behavior of native sodium pumps in a compartment (red cell) of small surface/volume ratio. The newly incorporated native kidney pumps, while of the same isoform as the endogenous red cell pump, behave differently from the endogenous red cell sodium pump with respect to their very low "uncoupled" Na+/O flux activity.
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PMID:Delivery of ion pumps from exogenous membrane-rich sources into mammalian red blood cells. 131 86

Transgenic mice for the promoter sequence of bovine arginine vasopressin (AVP) gene fused to large SV40 T-antigen coding sequence develop pituitary tumors and insulin-producing pancreatic tumors. In order to establish the cellular composition of the pituitary tumors, histological, immunocytochemical, in situ hybridization, and electron microscopic technics were applied. Pituitary anterior lobe tumors were identified in 10 out of 14 glands examined. In 2 of these cases, intermediate lobe tumors were also found. The anterior lobe tumors contained a variable number of GH immunoreactive cells. In situ hybridization performed in 7 cases revealed a diffuse distribution of GH messenger RNA over all tumor cells. Ultrastructurally, the tumors contained undifferentiated cells with very small secretory granules and rare cells showing some resemblance to somatotrophs. The results indicate that these pituitary tumors are composed of undifferentiated somatotrophs. The presence of a few PRL immunoreactive cells in four tumors and scattered TSH immunoreactive cells in two tumors supports the view that somatotrophs have the potential to produce PRL and TSH. The intermediate lobe tumors were immunoreactive for ACTH and intensely positive for POMC mRNA. In the nontumorous adenohypophyses, no hyperplasia of any cell type was noted. Several GH immunoreactive cells exhibited pleomorphic, giant nuclei and mitoses. In conclusion, the majority of transgenic mice for AVP/large T-antigen develop pituitary tumors originating in and composed of somatotrophs. Less frequently, intermediary lobe tumors were present as well. AVP/SV40 transgenic mice provide a unique experimental model for somatotroph tumors that are neither preceded by, nor associated with somatotroph hyperplasia.
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PMID:Morphology of adenohypophysial tumors in mice transgenic for vasopressin-SV40 hybrid oncogene. 131 26

Type 18 human papillomavirus (HPV18) is a genital virus closely associated with cervical carcinoma. To analyze the transcriptional activities of the long control region (LCR) of the HPV18 genome, we have produced 12 transgenic mice harboring the HPV18/LCR sequence fused to a promoterless SV40 T-antigen (TAg) gene. The mice were small in body size, generally very weak, and none lived longer than 110 days. Three mice with the longest life span (58-110 days) developed hyperplastic thymus and/or lymph node and were further analyzed. In these mice, Northern hybridization failed to detect TAg transcripts in any of the 25 organs studied. However, spliced TAg RNA was detected by polymerase chain reaction in the hyperplastic thymus and lymph node and in the normal submaxillary gland, stomach, large intestine, urinary bladder, and the cerebrum, indicating the presence of very low cellular levels of TAg RNA in these organs. When immunostaining was performed on the hyperplastic thymus, TAg protein was detected only in the ductal epithelial cells. Our results appear to indicate that the HPV18/LCR sequence was able to express only unregulated and basal levels of transcriptional activity in transgenic mice. Such a mode of transcription has become a major hindrance in the use of transgenic mouse system for the studies of the biology of the human papillomavirus.
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PMID:Unregulated and basal transcriptional activities of the regulatory sequence of the type 18 human papillomavirus genome in transgenic mice. 131 63

The highly purified yeast mRNA capping enzyme is composed of two separate chains of 52 (alpha) and 80 kDa (beta), responsible for the activities of mRNA guanylyltransferase and RNA 5'-triphosphatase, respectively (Itoh, N., Yamada, H., Kaziro, Y., and Mizumoto, K. (1987) J. Biol. Chem. 262, 1989-1995). The gene encoding the mRNA guanylyltransferase subunit (alpha subunit), CEG1, has been isolated by immunological screening of a yeast genomic expression library in lambda gt11 with polyclonal antibodies directed against purified yeast capping enzyme. The identity of CEG1 was confirmed by epitope selection and by expressing the gene in Escherichia coli to give a catalytically active mRNA guanylyltransferase. The gene is present in one copy per haploid genome, and encodes a polypeptide of 459 amino acid residues. From its primary structure as well as its mRNA size, it was concluded that the alpha and the beta subunits of yeast mRNA capping enzyme are encoded by two separate genes, not as a fused protein. CEG1 is located on the chromosome VII by a pulse-field gel electrophoresis. Gene disruption experiment indicated that CEG1 is essential for the growth of yeast. We have also found another open reading frame (ORF2) which lies in close proximity to CEG1 in our clones and encodes a 450 amino acid-polypeptide of yet unknown function.
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PMID:mRNA capping enzyme. Isolation and characterization of the gene encoding mRNA guanylytransferase subunit from Saccharomyces cerevisiae. 131 57


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