Abstract

The tonoplast of isolated vacuoles from photoautotrophic suspension cells of Chenopodium rubrum L. was studied by means of the patch-clamp technique. In a symmetrical K(+) concentration of 46 mM, similar to in vivo conditions, the tonoplast displayed a membrane potential near zero and a linear current-voltage relationship with a mean slope of 1.0 S/m(2). ATP at 2 mM hyperpolarized the tonoplast (vacuole positive) by 15-20 mV and, in a parallel experiment, acidified the vacuole (outside pH 7.0) to pH 5.0, as monitored by accumulation of acridine orange. Analysis of the voltage-clamp current indicates a 2-fold, ATP-dependent increase of the membrane capacitance, from 4 to 8 mF/m(2), and an ATP-independent, unidentified ion channel having a mean opening time of about 5 msec and a conductivity of 0.5-1.0 pS.