The Influence of Ca2+ and K+ on H14CO3-Influx in Internodal Cells of Chara corallina

The influences of Ca²⁺-free solutions and increasing K⁺ concentrationson the H¹⁴CO^–₃ influx capacity of Chara corallina wereinvestigated. It was found that contact with Ca^2–freesolutions resulted in a gradual reduction in the H¹⁴CO^–₃influx capacity of these cells. Recovery of this influx capacity,following the return of Ca²⁺ to the experimental solution, followeda ‘mirror-image’ of the time course of decay. Potassium concentrations above a certain critical value (2 mM)induced a rapid reduction in H¹⁴CO^–₃ influx capacity.Normal activity was recovered within 60–90 min followingthe return to 0.2 mMK⁺ solutions. It was also shown that 10mM K⁺ can be used to determine the relative contribution of¹⁴C supplied by diffusion of ¹⁴CO₂ and transport of H¹⁴CO^–₃.The Ca²⁺ and K⁺ results are discussed in relation to the effectsof these treatments on the electrical properties of the plasmalemma.