Properties of ts Cl mouse L cells which exhibit temperature-sensitive DNA synthesis

Abstract

ts Cl mouse L cells are temperature-sensitive ( ts) in DNA synthesis. The protein involved undergoes inactivation at 38.5 °C, with an apparent half-life of 3–4 h. A variety of experimental approaches yield data indicating that the ts Cl gene product acts directly during the DNA-synthesis period, probably late during the duplication of chromosomal DNA. The specificity of the ts lesion is reflected in the fact that replication of mitochondrial DNA is unaffected for many hours after nuclear DNA synthesis is almost totally inhibited. Temperature inactivation is not due to degradation or to loss of template capacity of preformed DNA. ts Cl cells are able to enter a DNA-synthesis phase at the higher temperature, as indicated by radioautographic experiments and by studies in which cells, blocked at the permissive temperature (34 °C) in a pre-DNA synthesis phase by isoleucine deprivation, are subsequently incubated at 38.5 °C. Cells arrested early in DNA synthesis by hydroxyurea treatment at 34 °C continue such synthesis for a short interval after up-shift to 38.5 °C. However, they are then unable to complete the S phase in progress nor can they proceed into cell division. The kinetics of DNA synthesis in cells incubated at 38.5 °C and back-shifted to 34 °C are compatible with the model that the ts Cl locus encodes an S phase function.