Abstract

Activities of ion pumps and H+-conducting channels in the plasmalemma of illuminated characean algae are distributed inhomogeneously along the internode, which accounts for the shifts of surface pH up to 3.5 units between various cells regions. Spatial variations in cytoplasmic properties provide the basis for uneven distribution of photosynthetic activity along the cell length and might affect the operation of H+-transporting systems at the tonoplast. In order to visualize the longitudinal distribution of the vacuolar pH in Chara corallina internodal cells, the pH microelectrode was inserted into the vacuole and the cell sap was gradually displaced along the cell during intracellular perfusion with an artificial medium. Fluorescein was added to the perfusion medium as a fluorescent marker to detect the arrival of the replacing medium into the area of pH and fluorescence measurements. In light-adapted cells, nonuniform longitudinal pH profiles were observed, with pH shifts as large as 2–2.5 units. In dark-adapted cells, the pH shifts in longitudinal profiles did not exceed 0.5 pH units. The occurrence of large pH changes within the vacuole of individual internodes indicates the possibility of nonuniform distribution of the tonoplast H+-transporting systems in different regions of the illuminated cell.

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