Induction of Heat-Shock Proteins at Permissive Growth Temperatures in the Plasmodium of the Myxomycete Physarum polycephalum

Abstract

When synchronous plasmodia of the myxomycete P. polycephalum were submitted to temperature shifts from 22.degree. to 32.degree. C, the highest physiological temperature, protein synthesis was increased during at least 10 h. During 2 h, 4 proteins (69, 74, 82 and 105 kDa [kilodaltons]) showed a transient increase of their synthesis, independently of the period of the temperature shift during the cell cycle. The stability of these proteins and the susceptibility of their synthesis to actinomycin suggested that they corresponded to 4 different proteins. Temperature shifts from 22.degree. or 29.degree. to 37.degree. C, a nonphysiological temperature, demonstrated that the 69-, 74-, 82- and 105-kDa proteins were identical to the 4 heat-shock proteins detected in Physarum. Although the physiological significance of these heat-shock proteins remained unclear, comparison between the extent of their synthesis and the length of the mitotic delays induced by various temperature shifts ruled out a direct relationship between mitotic delays and synthesis of the 74-, 82- and 105-kDa proteins.