Abstract
Ionic mechanisms were examined with reference to modification of swimming velocity and cell elongation in Triton-extracted cell models of Blepharisma. The extracted cells swam forward at Ca(2+) concentrations below 10(-6) M. The forward swimming velocity of the cell models increased with a decreased Ca(2+) concentration in the surrounding medium. At Ca(2+) concentrations above 10(-6) M, the models swam backward or rotated. The elongation of the models occurred at Ca(2+) concentrations below 10(-7) M. Results suggest that swimming velocity, cell elongation and contraction of intact cells may be regulated by intracellular Ca(2+) concentration.
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