Summary
Physarum synchronous plasmodia were submitted to temperature shifts during the cell cycle and the onset of mitosis was followed at both temperatures. After 22 to 31 or 32° shifts, delays in mitosis onset, dependent upon protein synthesis, were observed at 32° and found to increase as the time separating the shift from the control mitosis decreases. The modification of a general metabolic process or the inactivation of a catalytic heat sensitive substance cannot account for such a result. The proposed model postulates a substance acting in a stoichiometric way, which can occur under three structural forms: two active forms synthesized at low and high temperatures respectively and an inactive one which comes from the transformation of the low temperature active form placed at high temperature. The constant delays observed after some shifts (29 to 32°) suggest that this substance is acting through a polymeric structure which would be necessary for the mitotic process and the initiation of the following DNA synthesis.
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Communicated by F. Kaudewitz
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Wright, M., Tollon, Y. Heat sensitive factor necessary for mitosis onset in Physarum polycephalum (temperature shift/heat shock/cycloheximide/ts mutant). Molec. Gen. Genet. 163, 91–99 (1978). https://doi.org/10.1007/BF00268968
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DOI: https://doi.org/10.1007/BF00268968