Vacuolar release of 1-(malonylamino)cyclopropane-1-carboxylic acid, the conjugated form of the ethylene precursor

Abstract

The mechanisms underlying the vacuolar retention or release of 1-(malonylamino)cyclopropane-1-carboxylic acid (MACC), the conjugated form of the ethylene precursor, has been studied in grape (Vitis vinifera) cells grown in vitro using the technique of compartmental analysis of radioisotope elution. Following its accumulation in the vacuole, M[2,3-14C]ACC could be released from cells when the vacuolar pH was artificially lowered by external buffers from its initial value of 6.2 to below the critical pH of 5.5. Successive release and retention of vacuolar MACC could be achieved by switching the vacuolar pH from values lower and higher than 5.5. The rate constant of efflux was highly correlated with the vacuolar pH. In plant tissues having low vacuolar pH under natural conditions, e.g. apple fruits (pH 4.2) and mung bean hypocotyls (pH 5.3), an efflux of M[2,3-14C]ACC also occurred. Its rate constant closely corresponded to the theorical values derived from the correlation established for grape cells. Evidence is presented that the efflux proceeded by passive lipophilic membrane diffusion only when MACC was in the protonated form. In contrast to other organic anions like malic acid, the mono and diionic species could not permeate the tonoplast, thus indicating the strict dependence of MACC retention upon the ionic status of the molecule and the absence of carrier-mediated efflux.