Potassium currents across the plasma membrane of protoplasts derived from rye roots: a patch-clamp study

Epidermal-cell protoplasts from rye (Secale cereale L.) rootswere voltage-clamped in both the whole-cell and outside-outmembrane-patch modes. Time-dependent inwardly-rectified (IR)and outwardly-rectified (OR) K⁺-currents were recorded, as wellas a ubiquitous, timeindependent (instantaneous) K⁺-current. The IR current activated at voltages more negative than —100mVwith two exponentially rising components. The time-constantof the shorter component was voltage-independent, whereas thetime-constant of the longer component was voltage-dependent,increasing as the activating voltage became more negative. TheIR current showed no inactivation. The IR current deactivatedwith a single exponential timecourse. The steady-state IR currentcould be fitted to a Boltzmann function with —135 mV asthe voltage at which the current was half-maximal and a minimalgating charge of 1.93. These parameters were insensitive tochanges in E_K. One component of the IR current was K ⁺ , butother ions were also permeable. The IR current was inhibitedby extracellular Ca²⁺ , Ba²⁺ , Cs⁺, and TEA⁺, but was insensitiveto quinine. Single channels with unitary conductances of 56pS and 110 pS (in c.100 mM K⁺) were recorded at negative voltages. Two OR currents were observed. One had sigmoidal activationkinetics and activated at low positive voltages. The other activatedmore rapidly, with apparently exponential kinetics, at voltages50–100 mV more positive than the first. Neither currentshowed inactivation and deactivation of OR currents followeda double exponential time-course. Unitary-conductances of thechannels mediating these OR currents were 24 pS and 57 pS (inc.100 mM K⁺), respectively. Only the first type of OR currentwas studied in detail. This current activated with a sigmoidaltime-course, which could be described using a Hodgkin-Huxleyfunction with the activation variable raised to the second power.Its voltage-dependence was modulated in response to changesin E^K and analysis of single-channel recordings indicated thatthe channel was K⁺-selective. The current was inhibited by Ba²⁺and TEA+, but not Ca²⁺, Cs⁺ or quinine. The instantaneous current was selective for monovalent cationsand K⁺ , Na⁺ and Cs⁺ were all permeant. It was inhibited byextracellular quinine and the instantaneous inward K⁺-currentwas reduced by extracellular Ca²⁺, Ba²⁺ and TEA⁺, as well asby competing permeant monovalent cations. The kinetics and pharmacology of these currents are comparedwith K⁺-currents across the plasma membrane of protoplasts fromother root-derived cells and with K⁺ channels in the plasmamembrane of rye roots studied following incorporation into artificial,planar lipid bilayers. Key words: Ionic currents, patch-clamp, pharmacology, potassium, K⁺, rye, Secale cereale L