Abstract
Several lines of evidence with intact tissues suggest amino acid transport is mediated by a proton-amino acid symport (L Rheinhold, A Kaplan 1984 Annu Rev Plant Physiol 35: 45-83). However, biochemical studies of proton-coupled amino acid transport in isolated membrane vesicles have not been reported. In the experiments presented here, amino acid transport was studied in membrane vesicles isolated from zucchini (Cucurbita pepo L. cv Black Beauty) hypocotyls. An imposed pH gradient (basic interior) was used to energize isolated membrane vesicles and drive amino acid transport. Proton-coupled amino acid accumulation was demonstrated for alanine, glutamate, glutamine, leucine, and tabtoxinine-β-lactam. Alanine transport into the isolated membrane vesicles was studied in detail. Alanine transport was protonophore sensitive and accumulation ratios exceeding 10 times that predicted by diffusion alone were observed. ΔpH-Dependent alanine transport exhibited saturation kinetics, suggesting translocation was mediated via a carrier transport system. In support of that conclusion, 50 micromolar N,N′-dicyclohexylcarbodiimide, a hydrophobic modifier of protein carboxyls, completely inhibited proton-coupled alanine accumulation. Transport activity, equilibrated on a linear sucrose gradient, peaked at 1.16 grams per cubic centimeter and co-migrated with a plasmalemma marker (vanadate-sensitive K+-Mg2+-ATPase). These results provide direct evidence in support of a proton-amino acid symport in the plasmalemma of higher plants.
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