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: UMLS:C1261473 (sarcoma)
25,952 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have developed a one-step purification procedure for proteins containing the N-terminal portion of the gag protein of avian sarcoma and leukemia viruses. In this procedure, a resin with a covalently attached monoclonal antibody to the gag protein p19 is used to bind gag-containing proteins from crude extracts. After washing of the resin, the bound proteins are eluted with 2 M MgCl2. For the transforming protein kinase encoded by Fujinami sarcoma virus p130gag-fps, this procedure gave an enrichment of several thousand-fold, a yield of over 10%, a final purity of over 20%, and no significant loss of protein kinase activity. Similar purifications were obtained with three other gag-containing proteins. The immunoaffinity purification described may be of general utility as a first step in purification of the several other avian retroviral transforming proteins that are synthesized from fusions of an oncogene with the viral gag gene.
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PMID:A simple method for immunoaffinity purification of nondenatured avian sarcoma and leukemia virus gag-containing proteins. 282 89

A cis-acting regulatory element within the gag gene of avian retroviruses has been localized by deletion analysis, and sites of protein interaction have been studied by DNase I footprinting. Unidirectional deletions were made from both the 5' and 3' ends of a 656-base-pair fragment of the gag gene of Fujinami sarcoma virus. These deletion mutants were tested for enhancer activity in a chloramphenicol acetyltransferase transient expression assay. A sharp 5' boundary for enhancer activity was observed between 776 and 786 nucleotides downstream from the transcription initiation site. In contrast, deletion from the 3' side resulted in a gradual loss of enhancer activity, reaching a near basal level of activity by nucleotide 868. Internal deletion of 76 nucleotides just downstream of the 5' boundary abolished enhancement. Mutagenesis of a consensus enhancer core sequence (GTGGTTTG) showed that this sequence was not necessary for enhancer activity in our transient assays. DNase I footprinting with both a highly purified enhancer-binding protein from rat liver (EBP20) and a partially purified chicken liver nuclear extract showed specific protection of nucleotides 813 to 872 within the localized enhancer region. Footprinting of unidirectional deletion mutants that had lost activity indicated that this binding was not sufficient to confer enhancement.
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PMID:Localization and footprinting of an enhancer within the avian sarcoma virus gag gene. 283 11

Murine sarcoma virus ts110 (MuSVts110) is a conditionally transformation-defective MuSV mutant lacking 1,487 bases found in its wild-type parent, MuSV-349 (MuSV-124). Expression of the MuSVts110 v-mos gene product, P85gag-mos, requires splicing of the viral transcript to align the gag and mos genes in frame. However, this splice event is restricted to growth temperatures of 33 degrees C or lower. No splicing of the viral RNA, no production of P85gag-mos, and, hence, no cell transformation is observed at growth temperatures above 33 degrees C. To determine whether thermosensitive splicing is an intrinsic property of To determine whether thermosensitive splicing is an intrinsic property of MuSVts110 RNA specified by the 1,487-base deletion or a result of a cellular defect, we examined an "equivalent" or MuSVts110 DNA (designated ts32 DNA) constructed by combining wild-type MuSV-124 DNA fragments with a synthetic oligonucleotide to yield an otherwise wild-type viral DNA containing the same 1,487-base deletion as authentic MuSVts110. As observed in control cells (6m2 cells) infected with the authentic MuSVts110 virus, NIH 3T3 cells transfected with ts32 DNA appeared morphologically transformed when grown at 33 degrees C, but were converted to a more normal, flattened shape within a few hours of a shift to 39 degrees C. In concert with these morphological changes, both the processing of the ts32 RNA transcripts and the production of ts32 p85gag-mos kinase were found to be optimal at growth temperatures from 28 to 33 degrees C, but dramatically reduced at 37 to 41 degrees C. Like authentic P85gag-mos, the ts32 P85gag-mos kinase activity was rapidly inactivated by brief exposure to 39 degrees C. These results suggested that the MuSVts110 equivalent is functionally indistinguishable from authentic MuSVts110 and that the novel temperature-sensitive splicing of MuSVts110 transcripts is specified by an intrinsic property of the viral RNA.
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PMID:Activation of thermosensitive RNA splicing and production of a heat-labile P85gag-mos kinase by the introduction of a specific deletion in murine sarcoma virus-124 DNA. 283 96

NRK cells transformed by the McDonough strain of feline sarcoma virus (SM-FeSV) were mutagenized by the use of 5'-azacytidine. Four cell lines expressing different transformation-defective phenotypes were isolated. Superinfection of these cell lines with simian sarcoma-associated virus (SSAV) led in three instances to the recovery of transforming virus particles carrying an intact fms gene. A nonconditional transformation-defective virus, designated td26-SM-FeSV (SSAV), was isolated from one of the cell lines. NRK cells infected with this mutant contained actin cables and fibronectin networks and exhibited normal cell morphology. Such cells formed only small colonies in soft agar and exhibited a mitogenic activity similar to that of noninfected cells. Cells infected with td26-SM-FeSV (SSAV) synthesized a gag-fms fusion glycoprotein (gp180gag-fms). This polypeptide was processed in the normal manner into the intracellular gp120v-fms and a transformation-defective gp140td-v-fms which was expressed at the surface of infected cells. This species had an increased electrophoretic mobility on polyacrylamide gels compared with the molecule from wild-type virus.gp140td-v-fms had endo-beta-N-acetylglucosaminidase H-resistant carbohydrate side chains. No tyrosine kinase activity was detectable in vivo in td26-SM-FeSV (SSAV)-infected cells even when the cells were treated with sodium orthovanadate. In vitro, fms molecules from td26-SM-FeSV (SSAV)-infected cells exhibited tyrosine kinase activity as determined by autophosphorylation and phosphorylation of exogenous (poly)Glu-Tyr. At low ATP concentrations (less than 5 microM) this in vitro tyrosine kinase activity was significantly reduced compared with that of the wild-type counterpart.
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PMID:Isolation of a transformation-defective mutant of the McDonough strain of feline sarcoma virus exhibiting tyrosine kinase activity in vitro but not in vivo. 283 15

In vitro proteolytic cleavage of the Gazdar murine sarcoma virus (Gz-MuSV) p65gag polypeptide (Gz-p65gag) was facilitated by detergent-disrupted Moloney murine leukaemia virus (Mo-MuLV). Incubation of radioactively labelled Gz-p65gag in the presence of unlabelled Mo-MuLV under optimal conditions resulted in the cleavage of Gz-p65gag to proteins of 40000 (P40) and 25000 (P25) Mr. P40 and P25 appeared to be similar in both mobility and antigenicity to Mo-MuLV intermediates, Pr40gag and Pr25gag, previously found in infected cells. Additional proteins of 30000 (Gz-p30), 15000 (Gz-p12), 12000 (Gz-p15) and 10000 (Gzp10) Mr were also generated upon cleavage of Gz-p65gag and contained antigenic determinants of Mo-MuLV structural proteins p30, pp12, p15 and p10, respectively. Both detergent-disrupted Mo-MuLV and Rauscher murine leukaemia virus produced similar cleavage profiles. Trypsin and detergent-disrupted mouse mammary tumour virus generated cleavage patterns very different from that produced by Mo-MuLV. Both visual and quantitative time studies of the reaction indicated that P40 gave rise to Gz-p30 and Gz-p10. Tryptic peptide mapping of Gz-p65gag and its cleavage products supported the results obtained from both immunoprecipitation studies with anti-gag sera and the kinetics of cleavage of Gz-p65gag. Both Mo-MuLV Pr65gag and Gz-p65gag were found to be very similar in primary sequence as judged by peptide mapping. P40 produced tryptic peptides that co-migrated with Mo-MuLV p30 peptides; P25 contained tryptic peptides that were also found in Mo-MuLV p15. Gz-p30 and Gz-p15 contained the tryptic peptides of Mo-MuLV p30 and p15, respectively, that were found in P40 and P25. The Gz-p10 fraction contained a tryptic peptide that was also found in P40, but not p30. These results provide good evidence that the protease packaged within Mo-MuLV can cleave, in vitro, the gag-related polyprotein of Gz-MuSV in a manner very similar to the processing of Mo-MuLV Pr65gag in infected cell culture systems.
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PMID:Further characterization of the in vitro products generated by proteolytic cleavage of Gazdar murine sarcoma virus p65gag. 298 63

We examined the mos-specific intracellular RNA species in 6m2 cells, an NRK cell line nonproductively infected with the ts110 mutant of Moloney murine sarcoma virus. These cells present a normal phenotype at 39 degrees C and a transformed phenotype at 28 or 33 degrees C, expressing two viral proteins, termed P85gag-mos and P58gag, at 28 to 33 degrees C, whereas only P58gag is expressed at 39 degrees C. It has been previously shown that 6m2 cells contain two virus-specific RNA species, a 4.0-kilobase (kb) RNA coding for P58gag and a 3.5-kb RNA coding for P85gag-mos. Using both Northern blot and S1 nuclease analyses, we show here that the 3.5-kb RNA is the predominant viral RNA species in 6m2 cells grown at 28 degrees C, whereas only the 4.0-kb RNA is detected at 39 degrees C. During temperature shift experiments, the 3.5-kb RNA species disappears after a shift from 28 to 39 degrees C and is detected again after a shift back from 39 to 28 degrees C. By Southern blot analysis, we have detected only one ts110 proviral DNA in the 6m2 genome. This observation, as well as previously published heteroduplex and S1 nuclease analyses which showed that the 3.5-kb RNA species lacks about 430 bases found at the gag gene-mos gene junction in the 4.0-kb RNA, suggests that the 3.5-kb RNA is a splicing product of the 4.0-kb RNA. The absence of the 3.5-kb RNA when 6m2 cells are grown at 39 degrees C indicates that the splicing reaction is thermosensitive. The splicing defect of the ts110 Moloney murine sarcoma virus viral RNA in 6m2 cells cannot be complemented by acute Moloney murine leukemia virus superinfection, since no 3.5-kb ts110 RNA was detected in acutely superinfected 6m2 cells maintained at 39 degrees C. The spliced Moloney murine leukemia virus env mRNA, however, is found in acutely infected cells maintained at 39 degrees C, suggesting that the lack of ts110 viral RNA splicing at 39 degrees C is not due to an obvious host defect. In sharp contrast, however, 6m2 cells chronically superinfected with Moloney murine leukemia virus produce a 3.5-kb RNA species at 39 degrees C as well as at 28 degrees C and contain proviral DNAs corresponding to the two viral RNA species.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Temperature-sensitive viral RNA expression in Moloney murine sarcoma virus ts110-infected cells. 298 39

Our previous studies have argued persuasively that in murine sarcoma virus ts110 (MuSVts110) the gag and mos genes are fused out of frame due to a approximately 1.5-kilobase (kb) deletion of wild-type murine sarcoma virus 349 (MuSV-349) viral information. As a consequence of this deletion, infected cells grown at 39 degrees C appear morphologically normal, producing a 4-kb viral RNA and a truncated gag gene product, P58gag. At 33 degrees C, however, MuSVts110-infected cells appear transformed, producing two viral RNAs, about 4 and 3.5 kb in length, and two viral proteins, P58gag and P85gag-mos. Recent S1 nuclease analyses (Nash et al., J. Virol. 50:478-488, 1984) suggested strongly that at 33 degrees C about 430 bases surrounding the out-of-frame gag-mos junction and bounded by consensus splice donor and acceptor sites are excised from the 4-kb RNA to form the 3.5-kb RNA. As a result of this apparent splicing event, the gag and mos genes seemed to be fused in frame and allowed the translation of P85gag-mos. In the present study, DNA primers hybridizing to the MuSVts110 4- and 3.5-kb RNAs just downstream of the gag-mos junction points were used to sequence these junctions by the primer extension method. We observed that, relative to wild-type MuSV-349 5.2-kb RNA, the MuSVts110 4-kb RNA had suffered a 1,488-base deletion as a result of the fusion of wild-type gag gene nucleotide 2404 to wild-type mos gene nucleotide 3892. This gag-mos junction is out of frame, containing both TAG and TGA termination codons in the reading frame 42 and 50 bases downstream of the gag-mos junction, respectively. Thus, the MuSVts110 4-kb RNA can only be translated into a truncated gag precursor containing an additional C-terminal 14 amino acid residues derived from an alternate mos gene reading frame. Similar analyses of the MuSVts110 3.5-kb RNA showed a further loss of both gag and mos sequences over those deleted in the original 1,488-base deletion. In the MuSVts110 3.5-kb RNA, we found that gag nucleotide 2017 was fused to mos nucleotide 3936 (nucleotide 2449 in the MuSVts110 4-kb genome). This 431-base excised fragment is bounded exactly by in-frame consensus splice donor and acceptor sequences. As a consequence of this splice event, the TAG codon is excised and the restoration of the original mos gene reading frame allows the TGA codon to be bypassed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Murine sarcoma virus ts110 RNA transcripts: origin from a single proviral DNA and sequence of the gag-mos junctions in both the precursor and spliced viral RNAs. 298 40

Five gag-gene-encoded structural proteins, designated p12, pp18, pp20, p30, and p10 were purified from replication-competent avian reticuloendotheliosis-associated virus (REV-A) by high-performance liquid chromatography complemented with chloroform-methanol extraction and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Based on amino acid composition and NH2- and COOH-terminal sequence analysis p12, pp18, p30, and p10 are distinct from one another, whereas pp20 is likely identical to pp18 in primary structure. The p12 was resistant to Edman degradation and was found to be myristylated at the NH2-terminal amino group. Sequence comparisons among the retrovirus family show that pp18/pp20 and p10 are, respectively, homologs of phospho-proteins and nucleic acid-binding proteins. A comparison of terminal sequences with the nucleotide sequence of spleen necrosis virus (SNV) revealed that the gag genes of SNV and REV-A are highly conserved; together with the identification of REV-A gag-precursor polyprotein, Pr60gag in immunoprecipitates of radiolabeled cell lysates, this comparison also led to the establishment of the organization of Pr60gag, viz., NH2-p12-pp18-p30-p10-OH. Sequence comparisons show that REV-A/SNV is related to mammalian type C viruses: the pp18-p30 region is most homologous to the macaque/colobus group and least to simian sarcoma virus (SSV), whereas both the 5'- and 3'-gag regions (i.e., p12 and p10) are clostest to SSV. Immunological studies using monospecific antisera and Western-blot analysis showed that antigenic determinants of REV-A p30 are conserved in most of mammalian type C and type D viruses, but those of REV-A p12 are shared only with simian sarcoma-associated virus (SSAV) and endogenous viruses of macaques.
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PMID:Purification and chemical and immunological characterization of avian reticuloendotheliosis virus gag-gene-encoded structural proteins. 298 36

The 5.2-kilobase (kb) RNA genome of avian carcinoma virus MH2 has the genetic structure 5' - delta gag (0.2 kb)-mht (1.2 kb)-myc (1.4 kb)-c(0.4 kb)-poly (A) (0.2 kb)-3'. delta gag is a partial retroviral core protein, mht and myc are cell-derived MH2-specific sequences, and c is the 3'-terminal retroviral vector sequence. the following results were obtained from the complete nucleotide sequences of the mht and myc genes in MH2. (i) delta gag-mht forms a hybrid gene with a contiguous reading frame of 2682 nucleotides that terminates with a stop codon near the 3' end of the mht gene. The 3' 969 nucleotides of mht up to the stop codon are 80% sequence related to the onc-specific raf sequence of murine sarcoma virus 3611 (MSV 3611) (94% homologous at the deduced amino acid level). (ii) The myc coding region in MH2 is preceded by 181 nucleotides derived from the intron immediately upstream from the second exon of the chicken cellular proto-myc gene, followed by an RNA splice acceptor site shared with the proto-myc gene, followed by an RNA splice acceptor site shared with the proto-myc, beyond which it is colinear up to a 3'-termination codon and 40 noncoding nucleotides with the myc sequences of avian retrovirus MC29 and chicken proto-myc. Thus, myc forms, together with a 5' retroviral exon, a second MH2-specific gene. It is concluded that MH2 contains two genes with oncogenic potential, the delta gag-mht gene, which is closely related to the delta gag-raf transforming gene of MSV 3611, and the myc gene, which is related to the transforming gene of MC29. Furthermore, it may be concluded that the cellular proto-onc genes, which on sequence transduction become viral onc genes, are a small group because among the 19 known onc sequences, 5 are shared by different taxonomic groups of viruses of which the mht/raf homology is the closest so far.
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PMID:Two oncogenes in avian carcinoma virus MH2: myc and mht. 298 22

A method is proposed for computing the rates of nucleotide substitution for an oncogene of a retrovirus (v-onc), its cellular homologue (c-onc), and the retrovirus genome simultaneously. The method has been applied to DNA sequences of the v-mos gene of Moloney murine sarcoma virus (Mo-MuSV) and the c-mos and gag genes of Mo-MuSV and Moloney murine leukemia virus (Mo-MuLV). The rates of nucleotide substitution for c-mos, the gag gene, and v-mos are estimated to be 1.71 X 10(-9), 6.3 X 10(-4), and 1.31 X 10(-3) per site per year, respectively. The rate of evolution of c-mos is comparable to that of many functional genes in DNA genomes, suggesting some important biological function played by cellular oncogenes. The rates of nucleotide substitution in the v-mos and gag genes are very high and are similar to those of RNA viral genes such as the hemagglutinin and neuraminidase genes in the influenza A virus. Thus, oncogenes seem to exemplify a general feature of genome evolution: the rate of evolution of RNA genomes can be more than a million times greater than that of DNA genomes because of a high mutation rate in the RNA genome.
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PMID:Rates of evolution of the retroviral oncogene of Moloney murine sarcoma virus and of its cellular homologues. 298 67


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