Stimulation of Weak Acid Uptake and Increase in Cell Sap pH as Evidence for Fusicoccin- and K-Induced Cytosol Alkalinization.

In maize root segments fusicoccin induced a consistent increase in cell sap pH (taken as representative of vacuolar pH). This effect was markedly enhanced by the presence of K(+) in the medium, whereas in the absence of fusicoccin K(+) did not significantly influence cell sap pH. Treatment with a weak acid at 2 mm concentration inhibited the uptake of a different ((14)C-labeled) weak acid fed at a lower concentration, thus suggesting that acidification of the cytoplasm inhibits weak acid uptake. Fusicoccin and K(+) increased the rate of uptake of 5,5-dimethyloxazolidine-2,4-dione, butyric acid, or isobutyric acid slightly when fed separately, strongly when fed in combination. The synergism between fusicoccin and K(+) in stimulating weak acid uptake was parallel to that observed for the stimulation of H(+) extrusion. Application of the weak acid distribution method to a condition of ;quasi-equilibrium' indicated that fusicoccin induces a cytosolic pH increase of about 0.14 unit. These results are interpreted as providing circumstantial evidence that fusicoccin- and K(+)- induced stimulation of H(+) extrusion led to an alkalinization of the cytosol, and that other early metabolic responses, such as an increase in malate level, are a consequence of the increase in cytosolic pH.

H extrusion and potassium uptake associated with potential hyperpolarization in maize and wheat root segments treated with permeant weak acids.

The rapid uptake of weak acids permeant in the uncharged form is accompanied in maize and wheat root segments by a hyperpolarization of the transmembrane electrical potential and an increase in K(+) uptake, suggesting a stimulation of the plasmalemma H(+) pump. The evaluation of weak acid-induced H(+) extrusion must take into account the alkalinization of the medium due to the rapid uptake of the uncharged form of the acid, partially masking the proton pump-mediated extrusion of H(+). The data corrected for this interference show that the lipophilic butyric acid and trimethyl acetic acid induce in maize and in wheat root segments a significant increase in ;real' H(+) extrusion, roughly matching the increase in net K(+) uptake. The presence of K(+) significantly increases the rate of uptake of the weak acid, possibly as a consequence of an alkalinization of the cytosol associated with K(+) absorption. In maize root segments, the effects of fusicoccin and those of butyric acid on both K(+) uptake and H(+) extrusion are clearly synergistic, thus suggesting distinct modes of action. These results support the view that the activity of the plasmalemma H(+) pump is regulated by the value of cytosolic pH.

[Synthesis of analogues of acetohydroxam lacetic acid with phytotoxic activity]. / Sintesi di analoghi dell'acido acetidrossamoilacetico e loro attivitá fitotossica

Syntheses, spectroscopic data and phytotoxic activities of some N-acyl-O-alkylhydroxylamines, similar in structure to the natural compoud, methyl acetohydroxamyl acetate, are reported. Many of synthesized compounds show strong growth-inhibiting activity on both roots and coleoptiles of Triticum vulgare seedlings.