Glucose transport in membrane vesicles from Azotobacter vinelandii, : Properties of the glucose carrier in situ

Abstract

The active transport of d-glucose by membrane vesicles prepared from Azotobactervinelandii strain O is coupled to the oxidation of l-malate. The glucose carrier, but not the energy coupling system of the vesicles, is induced by growth of the cells on d-glucose medium. Vesicles isolated from A. vinelandii grown in the presence of sucrose or acetate accumulate glucose at less than 7% of the rate observed for vesicles from glucose-grown cells. Nevertheless, vesicles from sucrose- or acetate-grown cells transport sucrose or calcium, respectively, in the presence of malate. The transport system expressed in vesicles from glucose-cultured cells is highly specific for d-glucose. Studies of glucose analog uptake and of the competitive effect of analogs reveal that: (i) The glucose carrier is stereospecific. (ii) The affinity of hexoses for the transport system is inversely related to the bulk of substituents on the pyranose ring, especially at the C-1 and C-2 positions, (iii) The most effective competitors, 6-deoxyglucose and 2-deoxyglucose, exhibit affinities only 10–20% that of d-glucose for the transport system, (iv) Phloretin, but not phlorizin, is a competitive inhibitor of glucose transport, having an apparent K i of 9 μ m at pH 7.0. These latter findings suggest a similarity of the glucose transport system of fxA. vinelandii and those of eukaryotes with regard to the glucose carrier.