| Abstract: | SYNOPSIS. Heat-synchronized cultures of Tetrahymena pyriformis strain GL subjected to pulses of high hydrostatic pressure (10,000 psi for 2 min) had increasing division delays during the 1st 40 min after the last heat shock (40 min after heat treatment). Pressure treatment during the subsequent 10-min interval disrupted cell synchrony. Comparable pressures applied to the cells at later stages, before the 1st synchronous division, caused negligible division delay. Continuous exposure to 10% (v/v) heavy water hardly affected division; higher concentrations delayed or blocked division. Ten-min pulses with heavy water (40%, 50%, 70%) resulted in increasing division delays depending on the stage of the cell cycle during which the heavy water was applied. Amelioration of the division-delaying effects of pressure was observed in cells treated simultaneously with pressure (3,000 psi for 30 min), and 30% D2O. The results are consistent with the hypothesis that some of the pressure and D2O effects could be attributed to changes in the sol-gel state of the cytoplasm. |
