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Effect of Phleomycin on Polyoma Virus Synthesis in Mouse Embryo Cells

Division of Biology, Subdivision of Molecular Biology and Genetics, Kansas State University, Manhattan, Kansas 66502

ABSTRACT

The addition of phleomycin (25 µg) to primary mouse embryo cells infected with polyoma virus was found to cause 96% inhibition of the synthesis of infectious virus. When ribonucleic acid and protein synthesis was investigated in these cells by use of isotope incorporation, it was found that neither was inhibited drastically. Immunofluorescent staining studies with the use of antibody directed to the viral structural proteins showed that proteins were synthesized in the presence of the antibiotic. However, when deoxyribonucleic acid (DNA) synthesis was investigated, it was found that DNA synthesis in uninfected cells was completely inhibited within the initial 10 hr of phleomycin addition, whereas DNA synthesis in infected cells proceeded at a reduced rate. Selective DNA extraction (Hirt method) of phleomycin-treated infected cells demonstrated that synthesized viral DNA was salt-extractable, similar to that in infected control cells lacking phleomycin. This extracted DNA was further fractionated by ethidium bromide-cesium chloride density gradient equilibrium centrifugation. The phleomycin-treated preparations revealed twice as much component II (circular nicked and linear) as component I (supercoiled) DNA, whereas the DNA from normally infected control cells showed the reverse picture. It was also demonstrated that viral particles synthesized in the presence of phleomycin did not contain component I DNA. This packaged DNA was found to consist of fragments of both the host and viral types. Cells that were prelabeled with ³H-thymidine and then treated with phleomycin demonstrated host DNA degradation. However, fragments formed from prelabeled host DNA were not encapsidated into viral particles.