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:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the endogenous reverse transcriptase reaction, equine infectious anemia virus is able to synthesize complementary DNA (cDNA) of 8,000 nucleotides in high yield. After 2 h in 50 muM dNTP, about 2.8 mug of cDNA per mg of protein is produced, almost 30% of which is long cDNA. The system thus compares favorably with the other two well-characterized endogenous reaction systems, Moloney murine leukemia virus and avian sarcoma virus. Elongation rates of 100 to 150 nucleotides per min have been observed; these rates are comparable to those seen with purified avian myeloblastosis virus reverse transcriptase and significantly higher than those observed in vivo. In the absence of actinomycin D, equine infectious anemia virus does not require high dNTP levels for either optimal incorporation or long cDNA synthesis. The amount of long cDNA synthesized is maximal at 2 h in 50 muM dNTP; neither longer time nor higher dNTP levels (through 1.8 mM) increased this yield. Half-maximum yield in 2 h was achieved at about 15 muM dNTP, which is very similar to the published K(M)'s for isolated avian and murine reverse transcriptases. Total incorporation, on the other hand, continues to rise slowly through 1 mM dNTP; the half-maximum was 30 to 50 muM dNTP. In the presence of 100 mug of actinomycin D per ml, however, higher dNTP levels are required for long cDNA synthesis. We conclude that equine infectious anemia virus is exceptionally well-suited to studies of the physical organization of the retrovirus genome and to investigations of the mechanism of synthesis of the double-standard cDNA endogenous reaction product.
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PMID:Synthesis of long complementary DNA in the endogenous reaction by equine infectious anemia virus. 8 22

Pseudotypes of vesicular stomatitis virus were prepared with avian sarcoma viruses and avian leukemia viruses representing five different subgroups. These pseudotypes display a host range restricted to that of the avian tumor virus when assayed on avian cells and are neutralized by subgroup-specific antisera. The efficiency of penetration of mammalian cells was assayed by using these vesicular stomatitis virus pseudotypes. Pseudotypes of avian tumor viruses belonging to subgroup D and of B77 virus were able to plate on mammalian cells with a high efficiency, whereas pseudotypes of other strains were not. The efficiency of penetration of the vesicular stomatitis virus pseudotypes was 10-2-to 10-3-fold higher than the efficiency of transformation of the corresponding avian tumor virus strain assayed on mammalian cells, suggesting that there are postpenetration blocks to the expression of transformation in these cells.
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PMID:Virus envelope markers in mammalian tropism of avian RNA tumor viruses. 16 37

Using the immunofluorescent procedure and cross adsorption tests it was established that the common membrane cellular antigen coded for by avian sarcoma-leukemia virus genome could be found not only in Rous tumours of different animal classes but also in normal chick embryo cells after their propagation in vitro. The nature and function of the discovered antigen are discussed.
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PMID:[Nature of membrane cellular antigens induced by avian leukosis-sarcoma viruses]. 17 18

Specific rabbit antisera to the major glycoproteins of Friend leukemia virus (gp71) and the mouse mammary tumor virus (gp52) were utilized to study the surfaces of C3H-, DBA-, BALB/c-, and C57BL-transformed and normal cells by immunoelectron microscopy. Antiserum to gp71 showed reactivity with all of the mouse cells tested regardless of strain, virus production, or state of transformation. In cells producing murine leukemia virus, budding viruses and other areas of the cell surface were consistently labeled with gp71 antiserum. A gp52-like antigen was likewise detected on both cell surfaces and virions of C3H and DBA cells producing the mammary tumor virus. Budding virions with surface spikes but with crescent-shaped nucleoids in C3H/HeJ cells were labeled specifically with gp52 antiserum. The antigen localized with anti-gp52 serum was detected in low concentration on the surface of nonvirus-producing cultures of a C57BL/6 sarcoma induced by the Schmidt-Ruppin D strain of Rous avian sarcoma virus (SRD-2), a BALB/c bone marrow culture (JLS-V9), and a normal BALB/c fibroblast culture (BALB/cF). Other cell cultures transformed by either C-type virus or methylcholanthrene failed to demonstrate gp52 antigen. Both gp52- and gp71-like antigens were found to be expressed simultaneously in C3H/HeJ, C3H-MT, DBA-MT, SRD-2 (transformed) and BALB/cF, JLS-V9, and C3H-1 (normal) cultures. Expression of gp52 antigen in the absence of gp71 was not detected in any of the cultures examined. These findings demonstrate the ubiquitous expression of gp71 in a wide variety of normal and transformed mouse cells while gp52 tends to be expressed predominantly in cells from mice with high mammary tumor incidence (C3H) and DBA), but only to a minor extent in cells from low mammary tumor incidence strains (BALB/c and C57BL).
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PMID:Detection of the major glycoproteins of Friend leukemia virus (gp71) and the murine mammary tumor virus (gp52) on the surface of mouse cells. 18 44

Complementary DNA (cDNA) synthesized by Moloney murine sarcoma virus (M-MSV) was separated into two parts, the first, termed MSV-specific cDNA, composed of nucleotide sequences found only in M-MSV viral RNA, and the second, termed MSV-MuLV common cDNA, composed of nucleotide sequences that were found in both M-MSV and murine leukemia virus (MuLV) VIRAL RNAs. RNA complementary to the MSV-specific cDNA was not found in several other MSV isolates, nor in ecotropic MuLV, mouse mammary tumor virus, or several murine xenotropic oncoviruses. Cellular DNA of several species was examined for the presence of nucleotide sequences complementary to MSV-specific cDNA. Cells transformed by M-MSV did contain MSV-specific cDNA in their DNA. Normal mouse cell DNA apparently contained the majority of MSV-specific nucleotide sequences. Cellular DNA of related species contained proportionally less MSV-specific cDNA. Hybrids of MSV-spedivic cDNA and cellular DNA of related species melted at lower temperatures than hybrids of MSV-specific cDNA and mouse cellular DNA. RNA from normal mouse adult or embryonic cells did not contain detectable nucleotide sequences complementary to MSV-specific cDNA. Transformation of cells with M-msv resulted in transcription of RNA hybridizing with MSV-specific cDNA. Methylcholanthrene-induced mouse sarcomas and cell lines derived from them did not contain RNA complementary to MSV-specific cDNA. Mouse cell lines transformed with avian sarcoma virus or Kirsten MSV-specific cDNA. RNA homologous to MSV-specific nucleotide sequences is measurably present only in cells transformed by M-MSV and not in cells transformed by other biological or chemical agents that also cause sarcomas.
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PMID:Nucleotide sequences in mouse DNA and RNA specific for Moloney sarcoma virus. 18 23

A survey of human sera from healthy individuals revealed the presence of naturally occurring antibodies that react in radioimmunoprecipitation assays with proteins of mammalian type-C viruses. Of 39 sera tested, 100% showed reactivity against baboon endogenous virus, whereas only 49% showed reactivity against simian sarcoma-associated virus. Polyacrylamide gel electrophoresis of immune precipitates revealed one to three bands that comigrate with the virus structural proteins. There were low, but detectable, levels of antibody to the major internal protein of murine leukemia virus, but no activity against the structural proteins of avian sarcoma virus.
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PMID:Natural human antibodies reactive with primate type-C viral antigens. 19 33

The major structural polypeptides, p30 of reticuloendotheliosis virus (REV) (strain T) and p27 of avian sarcoma virus B77, have been compared with regard to amino acid composition. NH2-terminal amino acid sequence, and immunological crossreactions. The amino acid composition of the two polypeptides is distinct, and a comparison of the first 30 NH2-terminal amino acids of REV p30 with that for the first 25 of B77 p27 yields only three homologous residues. In competition radioimmunoassays the polypeptides show no crossreactivity. A comparison of the amino acid composition and NH2-terminal amino acid sequence of REV p30 with those reported for several mammalian retrovirus p30s shows remarkable similarities. Both REV and mammalian p30s contain a large number of polar residues in their amino acid composition and show approximately 40% homology in the first 30 NH2-terminal amino acids. No crossreactivity could be observed, however, in competition radioimmunoassays between Rauscher murine leukemia virus p30 and that of REV. The observations reported here suggest a close evolutionary relationship between REV and the mammalian retroviruses.
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PMID:Amino-terminal amino acid sequence of the major structural polypeptides of avian retroviruses: sequence homology between reticuloendotheliosis virus p30 and p30s of mammalian retroviruses. 20 72

Cell clones nonproductively transformed by the replication-defective Abelson strain of murine leukemia virus (AbLV) were analyzed for type C viral antigen expression by competition immunoassay. AbLV-transformed mink non-producer lines were found to express a 110,000- to 130,000-molecular weight polyprotein containing murine leukemia virus gag proteins p15 and p12 covalently linked to nonstructural AbLV-coded component(s) of around 80,000-100,000 molecular weight. This polyprotein lacked detectable antigenic cross-reactivity with other virion-coded gag gene proteins such as p30, p10, the viral reverse transcriptase (RNA-dependent DNA polymerase), or the major viral envelope glycoprotein, gp70. By analogy to earlier data on feline and avian sarcoma viruses, these results suggest that a portion of this polyprotein might represent the AbLV src gene product and that in translation it is initially linked in precursor form to gag structural proteins. Superinfection of mink cells nonproductively transformed by AbLV--with either a wild mouse amphotropic type C virus isolate, 4070-A, or with the endogenous cat virus, RD114--led to production of pseudotype virus containing high concentrations of the AbLV-coded precursor polyprotein.
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PMID:Cells nonproductively transformed by Abelson murine leukemia virus express a high molecular weight polyprotein containing structural and nonstructural components. 21 10

The reticuloendotheliosis viruses (REV) are a family of highly related retroviruses isolated from gallinaceous birds. On the basis of sequence comparison and overall genome organization, these viruses are more similar to the mammalian type C retroviruses than to the avian sarcoma/leukemia viruses. The envelope of a member of the REV family, spleen necrosis virus (SNV), is about 50% identical in amino acid sequence to the envelope of the type D simian retroviruses. Although SNV does not productively infect primate or murine cells, the receptor for SNV is present on a variety of human and murine cells. Moreover, interference assays show that the receptor for SNV is the same as the receptor for the type D simian retroviruses. We propose that adaptation of a mammalian type C virus to an avian host provided the REV progenitor.
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PMID:Spleen necrosis virus, an avian immunosuppressive retrovirus, shares a receptor with the type D simian retroviruses. 131 15

The retroviral genome consists of two identical RNA molecules associated at their 5' ends by a stable structure called the dimer linkage structure. The dimer linkage structure, while maintaining the dimer state of the retroviral genome, might also be involved in packaging and reverse transcription, as well as recombination during proviral DNA synthesis. To study the dimer structure of the retroviral genome and the mechanism of dimerization, we analyzed features of the dimeric genome of reticuloendotheliosis virus (REV) type A and identified elements required for its dimerization. Here we report that the REV dimeric genome extracted from virions and infected cells, as well as that synthesized in vitro, is more resistant to heat denaturation than avian sarcoma and leukemia virus, murine leukemia virus, or human immunodeficiency virus type 1 dimeric RNA. The minimal domain required to form a stable REV RNA dimer in vitro was found to map between positions 268 and 452 (KpnI and SalI sites), thus corresponding to the E encapsidation sequence (J. E. Embretson and H. M. Temin, J. Virol. 61:2675-2683, 1987). In addition, both the 5' and 3' halves of E are necessary in cis for RNA dimerization and the extent of RNA dimerization is influenced by viral sequences flanking E. Rapid and efficient dimerization of REV RNA containing gag sequences in addition to the E sequences and annealing of replication primer tRNA(Pro) to the primer-binding site necessitate the nucleocapsid protein.
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PMID:Analytical study of avian reticuloendotheliosis virus dimeric RNA generated in vivo and in vitro. 133 19


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