The Geoelectric Effect in Plant Shoots:: IV. INTER-RELATIONSHIP BETWEEN GROWTH, AUXIN CONCENTRATION AND ELECTRICAL POTENTIALS IN ZEA COLEOPTILES

Incubation of Zea coleoptiles in 0.5 M mannitol totally inhibitsgrowth and geotropic curvature, but does not affect the developmentof the geoelectric effect. This pre-treatment also inhibitsthe curvature induced by the asymmetrical application of IAAto the apical end of decapitated vertical coleoptiles, but itdoes not prevent the IAA from giving rise to an electropotentialdifference between the two sides of the coleoptile. Neitherthe normal geoelectric effect, nor the auxin-induced potentialdifference in vertical coleoptiles, can therefore arise as theresult of the different rates of cell extension in the two halvesof the organ. They must be the result of the change of IAA concentrationaffecting some other aspect of the cell's physiology or metabolism. The abolition of the electrical responses in coleoptiles whichhave been plasmolysed in 1.0 M mannitol strongly suggests thatboth longitudinal and lateral transport of IAA are severelydepressed by this degree of plasmolysis. Asymmetrical application of 10^-5 M mersalyl and several othersubstances to the apical end of a decapitated vertical coleoptilegave rise to a marked electropotential difference between thetwo sides of the coleoptile, the side beneath the donor beingpositively charged with respect to the other side. Mersalyldoes not promote the growth of Zea coleoptiles. These resultsprovide additional evidence that the electropotentials do notarise from differential growth, and suggest that such substances,especially the diuretics used in clinical medicine, may provideuseful tools in the further study of the induction of surfaceelectropotentials in plant tissues at the cellular level.