Abstract

Abstract The electrical properties of the tonoplast from a large variety of plant materials such as mesophyll cells, storage cells, tumor cells, suspension cultured cells, guard cells, coleoptile cells, and liverwort cells have been investigated using the patch‐clamp technique. Whole‐vacuole recordings were employed to study the dynamics of an ATP‐dependent proton pump by directly measuring the electrogenic currents. The addition of Mg‐ATP induced an inwardly directed current which depolarized the tonoplast (the vacuole becoming positive inside). Furthermore, voltage‐dependent passive ion fluxes were analyzed using whole vacuoles and isolated membrane patches. Whole‐vacuolar currents and single‐channel currents were induced at hyperpolarizing potentials, whereas currents decreased at positive trans‐tonoplast potentials. The electrical properties of the tonoplast of vacuoles from various plant tissues were similar and it was concluded that ion fluxes across the tonoplast follow the same general mechanisms.