Inhibition of cellular DNA synthesis in cells infected with infectious pancreatic necrosis virus.

In asynchronous RTG-2 cell cultures infected with infectious pancreatic necrosis (IPN) virus, inhibition of cellular DNA synthesis, but not protein synthesis, was detected 5 to 6 h postinfection and was 80 to 90% complete by 7 to 8 h. Inhibition of DNA synthesis was largely abolished by UV irradiation of the virus. Sedimentation analyses of phenol-extracted DNA indicated that native cellular DNA was not degraded during infection. Sedimentation on alkaline sucrose gradients of DNA from cells pulsed with radioactive thymidine for varying periods indicated that elongation of nascent DNA chains proceeded normally in infected cells. These and previous results suggest that IPN virus infection results in a reduction of the number of chromosomal sites active in DNA synthesis but does not affect the rate of polymerization at active sites. Cells synchronized with excess thymidine and hydroxyurea and infected with virus at the time of release from the block demonstrated an inhibition of DNA synthesis 3 h postinfection. Cells infected 4 h prior to release continued to synthesize normal amounts of DNA for 1 to 2 h after release. These results indicated that DNA synthesis in early synthetic phase is relatively insensitive to inhibition by IPN virus.