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

---

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

Mammalian cells transformed with either Prague strain Rous sarcoma virus of subgroup C (XC cells) or Schmidt-Ruppin strain Rous sarcoma virus of subgroup D (RSCH cells) yielded virus upon fusion with chick cells. Virus was also rescued by transfection of DNA from these cells on to chick cells. However, virus rescue did not occur upon transfection of duck cells, and fusion with duck cells led to virus rescue only from RSCH and not from XC cells. To investigate this restriction on the duck cells the non-defective Prague strain of Rous sarcoma virus of subgroup C (PR-RSV-C) was adapted for efficient replication in duck embryo cells (daPR-RSV-C) by long-term passage in vitro. However, a second PR-RSV-C isolate, rescued from the rat XC sarcoma line (XC DNA 940 virus), failed to adapt to growth in duck cells. When transformed with daPR-RSV-C, which replicates in duck cells as well as in brown leghorn embryo (BLEF) cells, duck cells yielded DNA which transfects fresh duck cells, in contrast to DNA isolated from chicken or duck cells transformed with parental PR-RSV-C.
...
PMID:The influence of host adaptation of Rous sarcoma virus on the transfecting activity of its DNA provirus. 23 Mar

When an avian sarcoma virus (ASV), subgroup C Bratislava 77 (B77-C) was inoculated into duck embryo fibroblast cultures (DEF) at a m.o.i. of 0.02, its replication was retarded by about 3 days compared with that in chick embryo fibroblast cultures (CEF). A transformation-defective (td) mutant was isolated during this period of retardation. Unlike the sarcoma virus, this td mutant replicated in both DEF and CEF with no retardation, even at a low m.o.i. The subgroup C Prague strain of Rous sarcoma virus (PR-C), which can infect DEF, also replicated in DEF slower than its td mutant, tdPR-C, at a m.o.i. of 0.02.
...
PMID:Selective replication of transformation-defective avian sarcoma virus mutants in duck embryo fibroblasts. 23 Mar 12

The RNA species of the defective avian acute leukemia virus MC29 and of the defective avian carcinoma virus MH2 and of their helper viruses were analyzed using gel electrophoresis, fingerprinting of RNase T1-resistant oligonucleotides, RNA-cDNA hybridization and in vitro translation. A28S RNA species, of 5700 nucleotides, was identified as MC29- or MH2-specific. MC29 RNA shared 4 out of about 17 and MH2 RNA at least 1 out of 16 T1-oligonucleotides with several other avain tumor virus RNAs. In addition MC29 and MH2 RNAs shared 2 oligonucleotides which were not found in any other viral RNA tested. 60% of each 28S RNA could be hybridized by DNA complementary to other avian tumor virus RNAs (group-specific) but 40% could only be hybridized by homologous cDNA (specific). Src gene-related sequences of Rous sarcoma virus were not found in MC29 or MH2 RNA. The specific and group-specific sequences of MC29, defined in terms of their T1-oligonucleotides, were located on a map of all T1-oligonucleotides of viral RNA. Specific sequences mapped between 0,4 and 0,7 map units from the 3'poly(A) end and group-specific sequences mapped between 0 and 0,4 and 0,7 and 1 map units. The MC29-specific RNA segment was represented by 6 oligonucleotides, two of which were those shared only by MC29 and MH2 RNAs. In vitro translation of MC29 RNA generated a major 120 000 dalton protein and minor 56 000 and 37 000 dalton proteins. The 120 000 dalton protein shared sequences with the proteins of the avian tumor viral gag gene, which maps at the 5' end of independently replicating viruses. Since a gag gene-related oligonucleotide was also found near the 5' end of MC29 RNA, we propose that the 120 000 MC29 protein was translated from the 5' 60% of MC29 RNA. It would then include sequences of the defective gag gene as well as MC29-specific sequences. Since both MC29 and MH2 lack the src (sarcoma) gene of Rous sarcoma virusk it is concluded that they contain a distinct class of transforming (onc) genes. We propose that the specific sequences of MC29 and MH2 represent all, or part of, their onc genes because the onc genes of MC29 and MH2 are specific and represent the only known genetic function of these viruses. If this proposal is correct, the onc genes of MC29 and MH2 would be related, because the specific RNA sequence of MC29 shares 2 of 6 oligonucleotides with MH2. It would also follow that the 120 000 dalton MC29 protein is a probable onc gene product, because it is translated from MC29-specific (and group-specific) sequences and because both MC29- and MH2-transformed cells contain specific 120 000 and 100 000 dalton proteins, respectively.
...
PMID:Anatomy of the RNA and gene products of MC29 and MH2, two defective avian tumor viruses causing acute leukemia and carcinoma: evidence for a new class of transforming genes. 23 56

Low concentrations of Vitamin A stimulated plasminogen activator synthesis (PA) in chick embryo fibroblasts (CEF). It caused a dose dependent and reversible increase in PA synthesis in both normal CEF and CEF infected with a temperature sensitive mutant of Rous Sarcoma virus (RSV-Ts68). Both induction and deinduction of PA could be inhibited by Actinomycin D. Vitamin A also accentuated the morphological changes associated with transformation in the Rous Sarcoma virus infected cells. The effects of Vitamin A on PA synthesis were essentially similar to those of the known tumour promoter, phorbol myristate acetate (PMA). Both Vitamin A and PMA were found to act synergistically with sarcoma gene expression as far as PA synthesis was concerned.
...
PMID:Effect of vitamin A on plasminogen activator synthesis by chick embryo fibroblasts. 23 60

The nature and distribution of sequences related to the murine erythroleukemia virus, Friend spleen focus-forming virus (SFFV), have been analyzed by using a radioactive cDNA probe specific for the SFFV genome (cDNA(sff)). From the proportion of high molecular weight viral [(32)P]RNA which hybridized to cDNA(sff), it was estimated that these sequences represent about 50% of the SFFV genome, indicating a genetic complexity of about 3300 nucleotides. cDNA(sff) hybridized extensively (80-95%) to SFFV virion RNA and to cellular RNA from murine and rat cells productively or nonproductively infected with SFFV. Only background homology was detected between cDNA(sff) and viral RNA from a number of murine [Friend murine leukemia virus (MuLV), Moloney-MuLV, and Kirsten sarcoma virus] and nonmurine (Rous sarcoma virus, feline leukemia virus, baboon endogenous virus, and Mason-Pfizer mammary tumor virus) retroviruses. Limited homology was also detected to a number of murine xenotropic and mink cell focus-inducing viruses (20-35%) as well as Rauscher leukemia virus (50%). Nucleotide sequences homologous to cDNA(sff) were also detected in the DNA of normal cells of several mouse strains as single or a few copies per cell. Thermal denaturation analysis indicated that duplexes formed between cDNA(sff) and normal DBA/2J cellular DNA have a reduction in melting temperature of 2 degrees C when compared with the dissociation of hybrids between cDNA(sff) and homologous sequences in SFFV-infected mouse spleen cell DNA. Examination of cellular RNA from uninfected mouse cells indicated that SFFV-related RNA sequences were also expressed in varying degrees in different tissues of adult DBA/2J mice. The highest amounts were observed in cells from bone marrow and spleen, whereas considerably lower amounts were found in cells from the thymus and kidney. No SFFV-related sequences could be detected in RNA extracted from liver, muscle, or fibroblasts. The presence of these SFFV-related sequences in normal, uninfected mouse cell DNA and their differential expression in hematopoietic tissues suggest that these sequences may be an integral part of the program of both normal and leukemic hematopoietic cell differentiation.
...
PMID:Presence and expression of Friend erythroleukemia virus-related sequences in normal and leukemic mouse tissues. 29 76

The genome of the defective, murine spleen focus-forming Friend virus (SFFV) was identified as a 50S RNA complex consisting of 32S RNA monomers. Electrophoretic mobility and the molecular weights of unique RNase T1-resistant oligonucleotides (T1-oligonucleotides) indicated that the 32S RNA had a complexity of about 7.4 kilobases. Hybridization with DNA complementary to Friend murine leukemia virus (Fr-MLV) has distinguished two sets of nucleotide sequences in 32S SFFV RNA, 74% which were Fr-MLV related and 26% which were SFFV specific. By the same method, SFFV RNA was 48% related to Moloney MLV. We have resolved 23 large T1-oligonucleotides of SFFV RNA and 43 of Fr-MLV RNA. On the basis of the relationship between SFFV and Fr-MLV RNAs, the 23 SFFV oligonucleotides fell into four classes: (i) seven which had homologous equivalents in Fr-MLV RNA; (ii) six more which could be isolated from SFFV RNA-Fr-MLV cDNA hybrids treated with RNases A and T1; (iii) eight more which were isolated from hybrids treated with RNases A and T1; and (iv) two which did not have Fr-MLV-related counterparts. Surprisingly, the two class iv oligonucleotides had homologous counterparts in the RNA of six amphotropic MLV's including mink cell focus-forming and HIX-MLVs analyzed previously. The map locations of the 23 SFFV T1-oligonucleotides relative to the 3' polyadenylic acid coordinate of SFFV RNA were deduced from the size of the smallest polyadenylic acid-tagged RNA fragment from which a given oligonucleotide was isolated. The resulting oligonucleotide map could be divided roughly into three segments: two terminal segments which are mosaics of oligonucleotides of classes i, ii, and iii and an internal segment between 2 and 2.5 kilobases from the 3' end containing the two oligonucleotides shared with amphotropic MLVs. Since SFFV RNA consists predominantly of sequence elements related to ecotropic and amphotropic helper-independent MLVs, it would appear that the transforming gene of SFFV is not a major specific sequence unrelated to genes of helper viruses, as is the case with Rous sarcoma and probably withe other defective sarcoma and acute leukemia viruses.
...
PMID:Spleen focus-forming Friend virus: identification of genomic RNA and its relationship to helper virus RNA. 50 95

To determine the sequences of the oncogenes src (encoded by Rous sarcoma virus [RSV]) and ros (encoded by UR2) that are responsible for causing different transformation phenotypes and to correlate those sequences with differences in substrate recognition, we constructed recombinants of the two transforming protein tyrosine kinases (PTKs) and studied their biological and biochemical properties. A recombinant with a 5' end from src and a 3' end from ros, called SRC x ROS, transformed chicken embryo fibroblasts (CEF) to a spindle shape morphology, mimicking that of UR2. Neither of the two reverse constructs, ROS x SRC I and ROS x SRC II, could transform CEF. However, a transforming variant of ROS x SRC II appeared during passages of the transfected cells and was called ROS x SRC (R). ROS x SRC (R) contains a 16-amino-acid deletion that includes the 3' half of the transmembrane domain of ros. Unlike RSV, ROS x SRC (R) also transformed CEF to an elongated shape similar to that of UR2. We conclude that distinct phenotypic changes of RSV- and UR2-infected cells do not depend solely on the kinase domains of their oncogenes. We next examined cellular proteins phosphorylated by the tyrosine kinases of UR2, RSV, and their recombinants as well as a number of other avian sarcoma viruses including Fujinami sarcoma virus Y73, and some ros-derived variants. Our results indicate that the UR2-encoded receptorlike PTK P68gag-ros and its derivatives have a very restricted substrate specificity in comparison with the nonreceptor PTKs encoded by the rest of the avian sarcoma viruses. Data from ros and src recombinants indicate that sequences both inside and outside the catalytic domains of ros and src exert a significant effect on the substrate specificity of the two recombinant proteins. Phosphorylation of most of the proteins in the 100- to 200-kDa range correlated with the presence of the 5' src domain, including the SH2 region, but not with the kinase domain in the recombinants. This corroborates the conclusion given above that the kinase domain of src or ros per se is not sufficient to dictate the transforming morphology of these two oncogenes. High-level tyrosyl phosphorylation of most of the prominent substrates of src is not sufficient to cause a round-shape transformation morphology.
...
PMID:Transforming properties and substrate specificities of the protein tyrosine kinase oncogenes ros and src and their recombinants. 132 Dec 77

The Schmidt-Ruppin or the B77 strain of Rous sarcoma virus (RSV) was inoculated into limb buds of 4.5-days-old avian embryos. No sarcoma but blister formation was observed in those RSV-inoculated embryos. Protein kinase activity of pp60v-src in RSV-inoculated embryos, even in the site of virus inoculation, was the same as that in mock-infected embryos. This indicated that the expression of the v-src gene did not attain superiority over that of the c-src gene in RSV-inoculated embryos. The v-src gene was detected in every DNA from tissues of RSV-inoculated embryos but not in DNAs from tissues of RSV-inoculated chicken except for the DNA from Rous sarcoma. Those results confirmed that the lack of sarcoma induction in early avian embryos by RSV was due to the lack of the expression of the v-src gene which was present in the target cells.
...
PMID:Rous sarcoma virus does not induce sarcoma in early chick embryos by lack of the v-src gene expression. 133 25

We have developed sets of degenerate oligonucleotides designed to detect pol gene sequences from any member of the lentivirus subfamily when used as primers in amplification techniques such as the polymerase chain reaction (PCR). This pan-lentivirus-specific primer set (PLSPS) consists of primers, LV1, LV2, and LV3, based on conserved regions common to lentiviruses only. Our protocol is based on primary amplification with LV1 and LV2 followed by secondary amplification with a nested primer set based on the YM/VDD motif found in all reverse transcriptases (or "DDMY," in the opposite direction), and LV3, a block of lentivirus homology nested just downstream of LV1. PLSPS-PCR analysis of DNA from cells infected with HIV-1, HIV-2, SIVmac239, BIV, visna, EIAV, CAEV, OPPV, or FIV resulted in the amplification of appropriately sized products. Sequence analysis of the LV1/2 products, cloned into pBluescript (pBS), indicated that at least 20% (most often, > 80%) contained the predicted lentivirus pol sequence. Greater than 95% of the LV3/DDMY products contained the expected lentiviral sequences. Using the PLSPS, lentivirus pol sequences could typically be detected at levels of one copy in 2 x 10(6) cells after secondary amplification. No specific lentiviral PCR products were detected in DNA from uninfected human or mouse monocytes, feline or bovine leukocytes, mouse, rat or human fibroblast cell lines, chicken embryo fibroblasts, Tahr lung cells, or cell lines infected with the following retroviruses which are not lentiviruses: Rous sarcoma virus, Moloney leukemia virus or Kirsten sarcoma virus, mouse mammary tumor virus, human T-cell lymphotropic virus I, and feline leukemia virus.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Identification and evaluation of new primer sets for the detection of lentivirus proviral DNA. 133 58

Erbstatin and methyl 2,5-dihydroxycinnamate, related tyrosine kinase inhibitors, induced a morphological change in temperature-sensitive Rous sarcoma virus-transformed rat kidney (RSVts-NRK) that brought the cells close to the morphology of their normal counterpart. Erbstatin did not change the morphology of normal or Kirsten sarcoma virus-transformed rat kidney cells. Erbstatin also inhibited morphological transformation of RSVts-NRK cells induced by a shifting in temperature. Actin stress fibres were observed only in normal cells and not in transformed cells. Erbstatin induced stress fibre organization in transformed cells. Erbstatin and methyl 2,5-dihydroxycinnamate increased fibronectin gene expression in RSV-transformed cells. Thus, tyrosine kinase inhibitors induced normal phenotypes specifically in v-src-expressing cells.
...
PMID:Induction of morphological change by tyrosine kinase inhibitors in Rous sarcoma virus-transformed rat kidney cells. 170 55


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---