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1.
We have identified five reiteration mutants from serially-propagated, defective stocks of Simian Virus 40 and DAR virus (an SV403 variant of human origin). The genomes of these mutants contain tandem repeats of specific segments of the SV40 genome. In order to propagate individual reiteration mutants, the monomer DNA segments from the mutant genomes are separated from wild-type SV40 DNA after cleavage by certain bacterial restriction endonucleases which produce short cohesive termini at their cleavage sites. These monomer segments, which are one-third, one-fourth, or one-fifth the size of wild-type SV40 DNA, are then circularized in vitro using bacteriophage T4 polynucleotide ligase and used to infect African green monkey kidney cells in the presence of wild-type or temperature-sensitive mutant DNAs as helpers. While wild-type SV40 and late temperature-sensitive mutants can serve as helpers in the replication and amplification of these minicircular DNAs, early temperature-sensitive mutant genomes are unable to do so at the nonpermissive temperature. The minicircular DNAs are amplified in vivo through an arithmetic series of oligomers. Encapsidation of reiterated molecules between 70 and 100% the size of wild-type SV40 DNA is observed, although reiterated viral DNA molecules much larger than unit size are formed in vivo.  相似文献   

2.
Apurinic sites cause mutations in simian virus 40   总被引:7,自引:0,他引:7  
SV40 has been used as a molecular probe to study the mutagenicity of apurinic sites (Ap) in mammalian cells. Untreated or UV-irradiated monkey kidney cells were transfected with depurinated DNA from the temperature-sensitive tsB201 SV40 late mutant which grows normally at the permissive temperature of 33 degrees C but which is unable to grow at 41 degrees C. Phenotypic revertants were screened at 41 degrees C for their ability to grow at the restrictive temperature and the mutation frequency was calculated in the viral progeny. Ap sites were introduced into DNA by heating at 70 degrees C under acid conditions (pH 4.8). This treatment induces one Ap site per SV40 genome per 15 min of heating as measured by alkaline denaturation or by treatment with the T4-encoded UV-specific endonuclease which possesses Ap-endonuclease activity. The experiments reported here show that Ap sites strongly decrease virus survival with a lethal hit corresponding roughly to 3 Ap lesions per SV40 genome, and indicate for the first time that apurinic sites produced by heating are highly mutagenic in animal cells. UV irradiation of the host cells 24 h prior to transfection with depurinated DNA did not modify the mutation frequency in the virus progeny.  相似文献   

3.
In mouse cells transformed by a temperature-sensitive polyoma virus (Py) genome, the integrated viral genome recombines with adjacent chromosomal DNA to yield a small cyclic molecule (RmI) with defined viral and cellular components. We have cloned the cellular component (Ins), determined its sequence, and examined its distribution in normal mouse DNA. The sequence of Ins displays several homologies with that surrounding the replication origin (ori) of Py or SV40 DNA.  相似文献   

4.
5.
The experiments described in this paper were part of an attempt to determine the mechanisms involved in the isomerization of the pseudorabies virus genome. To this end, [(14)C]thymidine-labeled parental virus DNA that was transferred to progeny virions produced by cells incubated in medium containing bromodeoxy-uridine was analyzed in neutral and alkaline CsCl density gradients. The buoyant density of the (14)C-labeled DNA indicated that the parental DNA strands had retained their integrity and had not undergone breakage and reunion with progeny DNA strands; neither massive intermolecular nor intramolecular recombination had occurred after replication of the DNA. Whereas breakage and reunion between parental and progeny virus DNA strands were not detectable, these processes were observed between differentially density-labeled parental DNAs. Furthermore, the frequency of recombination between progeny DNAs accumulating in the cells was low. These results indicate that in pseudorabies virus-infected rabbit kidney cells recombination occurs mainly between parental genomes and precedes DNA replication. An analysis of the kinetics of appearance of recombinants between pairwise combinations of temperature-sensitive mutants also indicated that recombination is an early event. The ratio between the number of recombinant virions and the number of temperature-sensitive mutant virions produced by the cells remained the same throughout infection. Since the relative amounts of viral DNAs synthesized early and late during the infective process that were integrated into virions were approximately the same, it appears that late viral DNA did not experience an increased number of recombinational events compared with early viral DNA. These results, which reinforce the conclusion reached from the results of the analysis of the behavior of the parental DNA molecules in density shift experiments, indicate that recombination is an early event.  相似文献   

6.
The formation of oligomers of simian virus 40 (SV40) large T antigen in SV40-infected and -transformed monkey cells was analyzed by sucrose density gradient centrifugation. The overall distribution of total T antigen during lytic infection showed mainly low-molecular-weight forms (monomers and dimers) in the early phase (10 h postinfection) and an increase in the number of oligomers in the late phase of the lytic cycle (36 h postinfection), indicating an accumulation of these final products. In contrast, studying the conversion of newly synthesized T antigen into oligomers by appropriate pulse-chase radiolabeling of infected cells revealed that this processing decelerates considerably during the late phase of infection. This mechanism can be reaccelerated by blocking DNA replication with aphidicolin. Since none of these results could be obtained by using synchronized SV40-transformed monkey cells (COS-1), these observations are compatible with the idea that the process of T antigen oligomerization may be involved in viral, but not in cellular, DNA synthesis.  相似文献   

7.
A new class of linear duplex DNA structures that contain simian virus 40 (SV40) DNA sequences and that are replicated during productive infection of cells with SV40 is described. These structures comprise up to 35% of the radioactively labeled DNA molecules that can be isolated by selective extraction. These molecules represent a unique size class corresponding to the length of an open SV40 DNA molecule (FO III), and they contain a heterogeneous population of DNA sequences either of host or of viral origin, as shown by restriction endonuclease analysis and nucleic acid hybridization. Part of the FO III DNA molecules contain viral-host DNA sequences covalently linked with each other. They start to replicate with the onset of SV40 superhelix replication 1 day after infection. Their rate of synthesis is most pronounced 3 days after infection when superhelix replication is already declining. Furthermore, they cannot be chased into other structures. At least a fraction of these molecules is infectious when administered together with DEAE-dextran to permissive cells. After intracellular circularization, superhelical DNA FO I with an aberrant cleavage pattern accumulates. In addition, tumor and viral capsid antigen are induced, and infectious viral progeny is obtained. Infection of cells with purified SV40 FO I DNA does not result in FO III DNA molecules in the infected cells or in the viral progeny. It is suggested, therefore, that these FO III DNA molecules are perpetuated within SV40 virus pools by encapsidation into pseudovirions.  相似文献   

8.
Protein blotting: principles and applications   总被引:70,自引:0,他引:70  
Extensive studies on the DNA tumor virus Simian Virus 40 (SV40) have provided a wealth of information regarding the genome organization, regulation of viral gene expression, and the mechanism of DNA replication. SV40 can grow lytically in permissive monkey cells or the viral DNA can integrate into the host genome of nonpermissive rodent cells causing morphological transformation. The viral DNA exists as a minichromosome within the nuclei of lytically infected cells and, as a consequence of DNA replication, there is a significant amplification of the viral genome during infection. These properties suggested that SV40 could be developed as a transducing vector to introduce exogenous DNA into mammalian cells and to express this foreign DNA during the SV40 infectious cycle. In this article the properties of SV40 virus vectors and SV40 hybrid plasmid vectors are described and contrasted.  相似文献   

9.
Late after infection of permissive monkey cells by simian virus 40 (SV40), large amounts of SV40 DNA (30,000 to 220,000 viral genome equivalents per cell) can be isolated with the high-molecular-weight fraction of cellular DNA. Hirai and Defendi (J. Virol.9:705-707, 1972) and H?lzel and Sokol (J. Mol. Biol. 84:423-444, 1974) suggested that this SV40 DNA is covalently integrated into the cellular DNA. However, our data indicate that the high-molecular-weight viral DNA is composed of tandem, "head-to-tail" repeats of SV40 DNA and that very little, if any, of this viral DNA is covalently joined to the cellular DNA. This was deduced from the following experimental findings. The size of the SV40 DNA associated with the high-molecular-weight cellular DNA fraction is greater than 45 kilobases, based on its electrophoretic mobility in agarose gels. In this form the SV40 DNA did not produce heteroduplex structures with a marker viral DNA (an SV40 genome with a characteristic deletion and duplication). After the high-molecular-weight DNA was digested with EcoRI or HpaII endonucleases, enzymes which cleave SV40 DNA once, more than 95% of the SV40 DNA migrated as unit-length linear molecules and, after hybridization with the marker viral DNA, the expected heteroduplex structures were easily detected. Digestion of the high-molecular-weight DNA fraction with restriction endonucleases that cleave cellular, but not SV40. DNA did not alter the electrophoretic mobility of the polymeric SV40 DNA, nor did it give rise to molecules that form heteroduplex structures with the marker viral DNA. Polymeric SV40 DNA molecules produced after coinfection by two physically distinguishable SV40 genomes contain only a single type of genome, suggesting that they arise by replication rather than by recombination. The polymeric form of SV40 DNA is highly infectious for CV-1P monolayers (6.5 X 10(4) PFU per microgram of SV40 DNA), yielding virtually exclusively normal, covalently closed circular, monomer-length DNA. Quite clearly these cells have an efficient mechanism for generating monomeric viral DNA from the SV40 DNA polymers.  相似文献   

10.
Irradiation of simian virus 40 (SV40)-infected cells with low fluences of UV light (20 to 60 J/m2, inducing one to three pyrimidine dimers per SV40 genome) causes a dramatic inhibition of viral DNA replication. However, treatment of cells with UV radiation (20 J/m2) before infection with SV40 virus enhances the replication of UV-damaged viral DNA. To investigate the mechanism of this enhancement of replication, we analyzed the kinetics of synthesis and interconversion of viral replicative intermediates synthesized after UV irradiation of SV40-infected cells that had been pretreated with UV radiation. This enhancement did not appear to be due to an expansion of the size of the pool of replicative intermediates after irradiation of pretreated infected cells; the kinetics of incorporation of labeled thymidine into replicative intermediates were very similar after irradiation of infected control and pretreated cells. The major products of replication of SV40 DNA after UV irradiation at the low UV fluences used here were form II molecules with single-stranded gaps (relaxed circular intermediates). There did not appear to be a change in the proportion of these molecules synthesized when cells were pretreated with UV radiation. Thus, it is unlikely that a substantial amount of DNA synthesis occurs past pyrimidine dimers without leaving gaps. This conclusion is supported by the observation that the proportion of newly synthesized SV40 form I molecules that contain pyrimidine dimers was not increased in pretreated cells. Pulse-chase experiments suggested that there is a more efficient conversion of replicative intermediates into form I molecules in pretreated cells. This could be due to more efficient gap filling in relaxed circular intermediate molecules or to the release of blocked replication forks. Alternatively, the enhanced replication observed here may be due to an increase in the excision repair capacity of the pretreated cells.  相似文献   

11.
Reassortment of Simian Virus 40 DNA During Serial Undiluted Passage   总被引:4,自引:4,他引:0       下载免费PDF全文
Alterations occur in the supercoiled form of viral DNA after the serial undiluted passaging of simian virus (SV) 40. We have identified a portion of the viral genome which is amplified during this process. These SV40 DNA sequences represent about 30% of the viral genetic information and are present in a reiterated form in twisted circular molecules prepared from purified virions. In addition, reiterated and unique green monkey DNA sequences are incorporated into supercoiled viral DNA. The cellular DNA appears to be inserted at numerous locations in the DNA I molecules.  相似文献   

12.
When African green monkey kidney cell lines, infected with simian virus 40, were exposed to benzo[a]pyrene-7,8-dihydrodiol or anti-benzo[a]pyrene-7,8-dihydrodiol-9,10-epoxide, inhibition of progeny virus formation was observed. Alkylation of SV40 DNA with anti-BPDE inhibits the infectivity of this viral DNA; however, the inactivation does not follow a single-hit mechanism. Studies on [3H]thymidine incorporation indicate that SV40 DNA synthesis is markedly impaired for the first 12 hours following BPDE treatment; 24 to 36 hours later, however, SV40 DNA synthesis is almost normal. These data suggest that the inhibition of SV40 DNA synthesis by BP derivatives is reversible and that the observed reduction in viral titer requires some other explanation.  相似文献   

13.
Although the mechanism of simian virus 40 (SV40) DNA replication has been extensively investigated with cell extracts, viral DNA replication in productively infected cells utilizes additional viral and host functions whose interplay remains poorly understood. We show here that in SV40-infected primate cells, the activated ataxia telangiectasia-mutated (ATM) damage-signaling kinase, gamma-H2AX, and Mre11-Rad50-Nbs1 (MRN) assemble with T antigen and other viral DNA replication proteins in large nuclear foci. During infection, steady-state levels of MRN subunits decline, although the corresponding mRNA levels remain unchanged. A proteasome inhibitor stabilizes the MRN complex, suggesting that MRN may undergo proteasome-dependent degradation. Analysis of mutant T antigens with disrupted binding to the ubiquitin ligase CUL7 revealed that MRN subunits are stable in cells infected with mutant virus or transfected with mutant viral DNA, implicating CUL7 association with T antigen in MRN proteolysis. The mutant genomes produce fewer virus progeny than the wild type, suggesting that T antigen-CUL7-directed proteolysis facilitates virus propagation. Use of a specific ATM kinase inhibitor showed that ATM kinase signaling is a prerequisite for proteasome-dependent degradation of MRN subunits as well as for the localization of T antigen and damage-signaling proteins to viral replication foci and optimal viral DNA replication. Taken together, the results indicate that SV40 infection manipulates host DNA damage-signaling to reprogram the cell for viral replication, perhaps through mechanisms related to host recovery from DNA damage.  相似文献   

14.
The relationship between replication of simian virus 40 (SV40) DNA and the various periods of the host-cell cycle was investigated in synchronized CV(1) cells. Cells synchronized through a double excess thymidine procedure were infected with SV40 at the beginning or the middle of S, or in G(2). The first viral progeny DNA molecules were in all instances detected approximately 20 h after release from the thymidine block, independent of the time of infection. The length of the early, prereplicative phase of the virus growth cycle therefore depended upon the period of the cell cycle at which the cells were infected. Infection with SV40 was also performed on cells obtained in early G(1) through selective detachment of cells in metaphase. As long as the cells were in G(1) at the time of infection, the first viral progeny DNA molecules were detected during the S period immediately following, whereas if infection took place once the cells had entered S, no progeny DNA molecule could be detected until the S period of the next cell cycle. These results suggest that the infected cell has to pass through a critical stage situated in late G(1) or early S before SV40 DNA replication can eventually be initiated.  相似文献   

15.
Three plaque isolates of SV40 strain 777 and 1 plaque isolate of strain 776 were grown to high-titer stocks and serially passaged, undiluted, in monkey BS-C-1 cells. In each case, the serial passaging procedure resulted in the accumulation of closed-circular SV40 DNA molecules containing covalently linked sequences homologous to reiterated host cell DNA (called substituted virus DNA). The relative yields, at a given passage level, of SV40 DNA with measurable homology to host DNA varied in different sets of serial passages, including passages of the same virus clone. More reproducible yields of substituted viral DNA progeny were obtained when the serial passaging procedure was initiated from earlier passages rather than from the original plaque-purified stock. Fractionation of closed-circular SV40 DNA molecules on alkaline sucrose gadients indicated that the majority of substituted virus DNA molecules are not plaque producers and are slightly smaller in size than plaque-forming DNA molecules which display no detectable homology to host DNA. Evidence that substituted SV40 DNA molecules replicate during serial undiluted passage was obtained from experiments which demonstrated (i) the presence of host sequences in replicative forms of the viral DNA and (ii) the incorporation of (3)H-thymidine into host sequences isolated from the mature substituted virus DNA molecule.  相似文献   

16.
Survival and mutagenesis of UV-irradiated, temperature-sensitive simian virus 40 mutants (SV40) have been studied after infection of human fibroblasts. Survival of the viral progeny obtained after 6,8 or 10 days at permissive temperature decrease as a function of the UV-dose delivered to the virus. In cels which have been pretreated with 10 Jm-2 of UV 24 hours before infection, progeny survival was increased as compared to survival in control cells. The reactivation factor varies from one to ten, depending on the number of lytic cycles carried out at permissive temperature. The level of mutation frequency, as measured by the reversion from a temperature sensitive growth phenotype towards a wild type phenotype, increases with the dose of UV-irradiation given to the virus. Moreover, the mutation frequency is increased in the viral progeny produced in UV-irradiated human cells. Similar experiments carried out with SV40-transformed human fibroblasts, which constitutively express SV40 T antigen, gave comparable results. These experiments show that, as in monkey cells, a new error-prone recovery pathway can be induced by pretreating human cells with UV-light before infection.  相似文献   

17.
18.
We have isolated a new type of temperature-sensitive mutant of simian virus 40 (SV40) that is capable of productive infection in permissive cells but not of maintenance of viral DNA integration in transformed cells at the conditional temperature. Virus development is induced when cells transformed by this mutant are shifted to temperatures above 39 degrees C, but is not induced below this temperature. The plaque-purified, temperature-sensitive mutant virus confers heat inducibility to new host cells, indicating that the conditional function is a property of the viral genome. Unlike previously described temperature-sensitive SV40 mutants, in (ts)-1501 is capable of productive infection in permissive cells at the conditional temperature. The morphology, growth, and oncogenicity of in (ts)-1501-transformed cells at 37 degrees C are similar to those of cell lines transformed by wild-type SV40. HK10-c2(in(ts)-1501), a cloned cell line, transformed at 37 degrees C by the mutant virus, exhibits a transient increase in DNA synthesis before cell death at the conditional temperature. Many properties of in(ts)-1501 are analogous to those of the heat-inducible mutants of bacteriophages in which a heat-inactivated protein is responsible for the stable integration of the prophage in the bacterial chromosome.  相似文献   

19.
20.
Treatment of monkey kidney cells with mitomycin C (MMC) 24 h prior to infection with UV-irradiated simian virus 40 (SV40) enhanced both virus survival and virus mutagenesis. The use of SV40 as a biological probe has been taken as an easy method to analyse SOS response of mammalian cells to the stress caused by DNA damage or inhibition of DNA replication. The mutation assay we used was based on the reversion from a temperature-sensitive phenotype (tsA58 mutant) to a wild-type phenotype. The optimal conditions for producing enhanced survival and mutagenesis in the virus progeny were determined with regard to the multiplicity of infection (MOI). Results showed that the level of enhanced mutagenesis observed for UV-irradiated virus grown in MMC-treated cells was an inverse function of the MOI, while enhanced survival was observed at nearly the same level regardless of the MOI. For the unirradiated virus, almost no increase in the mutation of virus progeny issued from MMC-treated cells was observed, while a small amount of enhanced virus survival was obtained. These results show that enhanced virus mutagenesis and enhanced virus survival can be dissociated under some experimental conditions. Enhanced virus mutagenesis, analogous to the error-prone replication of phages in SOS-induced bacteria, was observed, at least for SV40, only when DNA of both virus and host cells was damaged and when infection occurred with a small number of viral particles. We therefore hypothesize that an error-prone replication mode of UV-damaged templates is observed in induced monkey kidney cells.  相似文献   

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