Interaction of the Depolarization-Activated K Channel of Samanea saman with Inorganic Ions: A Patch-Clamp Study

A depolarization-activated K⁺ channel capable of carrying the large K⁺ currents that flow from shrinking cells during movements of Samanea saman leaflets has been described in the plasmalemma of Samanea motor cell protoplasts (N Moran et al 1988] Plant Physiol 88:643-648). We now characterize this channel in greater detail. It is selective for K⁺ over other monovalent ions, with the following order of relative permeability: K⁺ > Rb⁺ > Na⁺ Cs⁺ Li⁺. It is blocked by Cs⁺ and by Ba²⁺ in a voltage dependent manner, exhibiting a `long-pore' behavior, similarly to various types of K⁺ channels in animal systems. Cadmium, known for its blockage of Ca²⁺ channels in animal systems, and Gd³⁺, closely related to La³⁺, which also blocks Ca²⁺ channels in animal cells, both block K⁺ currents in Samanea in a voltage-independent manner, and without interfering with the kinetics of the currents. The suggested mechanism of block is either (a) by a direct interaction with the K⁺ channel, but external to its lumen, or, alternatively, (b) by blocking putative Ca²⁺ channels, and preventing the influx of Ca²⁺, on which the activation of the K⁺ channels may be dependent.