Loss of ionic and osmotic regulation in Chara internodal cells in concentrated KCl solutions

Intact internodal cells of Chara are known to maintain their osmotic pressures at constant levels in artificial pond water at room temperature. Cell fragments with osmotic pressures higher and those cell fragments with osmotic pressures lower than the original, both of which are prepared from intact internodal cells using transcellular osmosis and ligation with threads, can also return their osmotic pressures to the original level within a week in artificial pond water. These regulatory phenomena are realized mainly by extrusion of K⁺ and Cl⁻ in the cytoplasm and/or vacuole or by absorption of K⁺ and Cl⁻ from the external solution. According to the electrochemical potential difference calculated for K⁺ between the vacuole and the external solution, the cells should be able to maintain these regulatory functions even in 50–100 m M KCl+ 1 m M CaCl₂ solutions. However, novel phenomena were observed when they were immersed in such concentrated KCl solutions. To maintain electroneutrality, their osmotic pressures increased up to ca l MPa in 2 days due to absorption of K⁺ and Cl⁻ and many gradually died over time. Ionic and osmotic reguratory functions of Chara cells were lost when they were immersed in 50–100 m M K-salt solutions containing 1 m M Ca²⁺.