Sugar uptake by the dermal transfer cells of developing cotyledons of Vicia faba L. : Mechanism of energy coupling.

The mechanism of carrier-mediated sucrose uptake by the dermal transfer cells of developing Vicia faba L. cotyledons was studied using excised cotyledons and isolated transfer cell protoplasts. Addition of sucrose resulted in a transitory alkalinization of the bathing solution whereas additions of glucose, fructose or raffinose had no effect. Dissipating the proton motive force by exposing cotyledons and isolated transfer cell protoplasts to an alkaline pH, carbonylcyanide m-chlorophenylhydrazone, weak acids (propionic acid and 5,5'-dimethyl-oxazolidine-2,4-dione) or tetraphenylphos-phonium ion resulted in a significant reduction of sucrose uptake. The ATPase inhibitors, erythrosin B (EB), diethylstilbestrol (DES) and N,N'-dicyclohexylcarbodiimide (DCCD) were found to abolish the sucrose-induced medium alkanization as well as reduce sucrose uptake. Cytochemical localization of the ATPase, based on lead precipitation, demonstrated that the highest activity was present in the plasma membranes located in wall ingrowth regions of the dermal transfer cells. The presence of a transplasma-membrane redox system was detected by the extracellular reduction of the electron acceptor, hexacyanoferrate III. The reduction of the ferric ion was coupled to a release of protons. The redox-induced proton extrusion was abolished by the ATPase inhibitors EB, DES and DCCD suggesting that proton extrusion was solely through the H+-ATPase. Based on these findings, it is postulated that cotyledonary dermal transfer cells take up sucrose by a proton symport mechanism with the proton motive force being generated by a H + -ATPase. Sucrose uptake by the storage parenchyma and inner epidermal cells of the cotyledons did not exhibit characteristics consistent with sucrose-proton symport.