Differential proton secretion in the apical elongation zone caused by gravistimulation is induced by a signal from the root cap

Abstract

The extracellular proton activity along primary roots of Phelcum pratense L. was measured using proton‐selective microelectrodes. Removal of the root cap caused a reduction of the proton influx in the transitional region between the meristem and the apical elongation zone of the vertical root and inhibited the development of pH differences between the physically upper and lower flanks of the gravis‐stimulated root. Disruption of the actin filament system of the root with 5 mmol m⁻³ cytochalasin D did not result in an altered proton flux and pH pattern compared with untreated vertical control roots, but inhibited the gravity‐induced development of pH differences between the physically upper and lower root flanks as well as gravitropic curvature. These results provide evidence that pH changes following gravistimulation are induced by a signal transmitted from the root cap and that the actin filament system is involved in the gravity perception/transduction mechanism.