Abstract
The effect of rifampin on the replication of vaccinia DNA was studied in mouse L cells by a cytochemical techinque and by alkaline sucrose sedimentation analysis of newly synthesized viral DNA molecules. By the use of a fluorescent DNA-binding compound (Hoechst 33258), the sequential appearance, size, and location of the viral "factories" in rifampin-treated, virus-infected cells were found to be indistinguishable from those observed in untreated, infected cells. Sedimentation analysis in alkaline scurose gradients of the viral DNA molecules labeled in pulse-chase experiments showed that formation of small fragments, elongation into "intermediate"-sized molecules, and maturation into full-length viral DNA and, finally, into cross-linked viral DNA molecules occurred in the absence or presence of rifampin. The results support the view that the primary effect of the drug is related to assembly or morphogenesis.
Publisher
American Society for Microbiology
Subject
Virology,Insect Science,Immunology,Microbiology
Reference3 articles.
1. Ben-Ishai Z. E. Heller N. Goidblum and Y. Becker.
2. Glycoprotein synthesis in cells infected with vaccinia virus. I. Non virion glycoproteins;Moss B.;Virology,1971
3. Moss B. E. N. Rosenblum and P. M. Grimley. 1971. 232.
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