Regulation of thymidine kinase synthesis during the cell cycle of Physarum polycephalum by the heat-sensitive system which triggers mitosis and S phase

Abstract

Temperature shifts from 22 to 32 °C perturb one of the systems responsible for mitosis triggering in the plasmodia of Physarum (Myxomycetes). In order to determine if the same regulatory mechanism could also be involved in some other cell cycle events, the effects of temperature shifts on the peak of thymidine kinase (EC 2.7.1.21, ATP : thymidine 5′-phosphotransferase) synthesis have been studied. At 22 °C, the increase in thymidine kinase (tdk) activity begins shortly before mitosis and is thus always associated with the end of the G2 phase, the mitosis and the beginning of the S phase. The consequences of temperature shifts depend upon their position in the cell cycle. In all cases, a peak of tdk occurs concomitantly with the 32 °C mitosis. But, when the temperature shift is applied 90-15 min before the control metaphase at 22 °C, another peak of tdk is observed at 32 °C in absence of mitosis, but at the same time as the control mitosis at 22 °C. These results indicate that the increase in the synthesis of tdk is controlled by the heat-sensitive regulatory system which plays a role in the onset of mitosis and S phase. We further suggest that the increase in the synthesis of tdk and the triggering of mitosis are both controlled by the amount of a heat-sensitive effector. But the former takes place when the amount of the effector reaches a critical value lower than the value necessary to trigger mitosis.