B M Benjers scite author profile

A nonconditional mutant of B-tropic murine leukemia virus (MuLV), defective in polymerase, has been isolated by cloning chronically infected cells. The cell clone containing the mutant produced virus particles which were noninfectious. However, superinfection of the cells by replication-competent XC-negative viruses resulted in the rescue of virus capable of forming plaques in a modified XC test, termed the "complementation plaque assay" (A. Rein and R. H. Bassin, J. Virol. 28:656-660, 1978). Analysis of the noninfectious virions produced without superinfection demonstrated that they contained only 2 to 5% of the wild-type level of reverse transcriptase activity. Purification of this activity indicated that it was associated with a smaller molecule than that produced by wild-type virus. Cells producing the mutant virions did not contain the gag-pol precursor, Pr1809"'-1°'; however the cells contained proteins of 147K and 114K daltons precipitable with anti-pol serum. All of the normal structural proteins as well as 70S genomic RNA could be detected in the mutant particles. An interference test indicated that a functional ecotropic glycoprotein was synthesized by the mutant. These results indicate that the mutant has a unique defect in the pol gene.

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Isolation of a replication-defective murine leukaemia virus from cultured AKR leukaemia cells

Rein

Athan

Benjers

et al. 1979

Nature

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Mice of the AKR strain are characterised by a high incidence of spontaneous thymic lymphomas. AKR chromosomes contain the genomes of ecotropic murine leukaemia virus (MuLV) at two loci, termed Akv-1 and Akv-2 (refs 2-6). Shortly after birth, the normal tissues of AKR mice begin to produce high levels of this XC-positive MuLV (ref. 7) (that is, one that forms XC plaques). A second class of MuLV, termed mink cell focus-inducing virus (MCF), is produced specifically by preleukaemic and leukaemic AKR thymocytes. Nowinski et al. have established a series of tissue culture lines from AKR leukaemias and reported that the resulting cell lines produce virus particles, but that these particles, surprisingly, do not give rise to XC plaques. We have analysed the virus particles produced by one of these cell lines, termed AKRSL2. We show here that, unlike most or all of the nonmalignant tissues in the AKR mouse, these cultured lymphoma cells produce very little non-defective ecotropic MuLV; however, they do produce replication-defective ecotropic MuLV.

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Mechanism of restriction of murine leukemia viruses varies between different strains of Fv‐1ⁿ mice

Benjers

Bassin

Rein

et al. 1979

Intl Journal of Cancer

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The mechanism of Fv-1 restriction in DBA/Z ( F v -l n ) mouse cells was investigated by quantitative infectious center assays employing a newly isolated continuous cell line. Titration of B-tropic murine leukemia virus (MuLV) i n DBAjZ cells showed twohit kinetics and, at sufficient multiplicities of infection (MOls), the entire cell population could be productively infected with the restricted virus.

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Rescue and Transmission of a Replication-Defective Variant of Moloney Murine Leukemia Virus

Rein

Benjers

Gerwin

et al. 1979

J Virol

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We have described a clone of mouse cells, termed "8A," which appears to be infected with a replication-defective variant of Moloney murine leukemia virus (MuLV) (Rein et al., J. Virol. 25:146-156, 1978). Clone 8A cells release virus particles which do not form plaques in the standard XC test. However, approximately 102 particles per ml of clone 8A supernatant do form plaques in a modified XC test (the "complementation plaque assay"), in which the assay cells are coinfected with the XC-negative, nondefective amphotropic MuLV as well as the test virus. Superinfection of clone 8A cells themselves with amphotropic MuLV results in the production of-105, rather than _102, particles per ml which register

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Macromolecular requirements for abrogation of Fv-1 restriction by murine leukemia viruses

Bassin¹,

Gerwin²,

Levin³

et al. 1980

J Virol

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The molecular basis of abrogation of Fv-1 restriction in mouse cells by murine leukemia virus was investigated. Two different lines of experimentation indicated that high-molecular-weight viral RNA is required for abrogation. First, the decay of abrogating ability of virus stocks heated at 43 degrees C was quantitatively correlated with a loss of intact virion 35S RNA. Second, Act D virions, which lack such RNA although they contain normal structural proteins, failed to abrogate. These findings imply that abrogation does not result from the mere entry of virion structural proteins into a cell. Additional data indicate that the role of viral RNA in abrogation is not that of a template for DNA synthesis. Virus particles lacking reverse transcriptase activity as a result of either mutation or heat inactivation exhibit abrogating activity even though they do not synthesize detectable viral DNA. In addition, abrogation was shown to take place in the presence of cytosine arabinoside, an inhibitor of DNA synthesis. Thus, abrogation does not depend on viral or cellular DNA synthesis, and the role of viral RNA in this process must involve some other function. The nature of this viral function and its occurrence in Fv-1 permissive cells are discussed.

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B M Benjers

Mutant of B-tropic murine leukemia virus synthesizing an altered polymerase molecule

Isolation of a replication-defective murine leukaemia virus from cultured AKR leukaemia cells

Mechanism of restriction of murine leukemia viruses varies between different strains of Fv‐1ⁿ mice

Rescue and Transmission of a Replication-Defective Variant of Moloney Murine Leukemia Virus

Macromolecular requirements for abrogation of Fv-1 restriction by murine leukemia viruses

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About

B M Benjers

Mutant of B-tropic murine leukemia virus synthesizing an altered polymerase molecule

Isolation of a replication-defective murine leukaemia virus from cultured AKR leukaemia cells

Mechanism of restriction of murine leukemia viruses varies between different strains of Fv‐1n mice

Rescue and Transmission of a Replication-Defective Variant of Moloney Murine Leukemia Virus

Macromolecular requirements for abrogation of Fv-1 restriction by murine leukemia viruses

Contact Info

Product

Resources

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Mechanism of restriction of murine leukemia viruses varies between different strains of Fv‐1ⁿ mice