The hexose transporters at the plasma membrane and the tonoplast of transformed plant cells: kinetic characterization of two distinct carriers.
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The plasma membrane hexose transporter and the tonoplast hexose transporter from heterotrophically grown transformed Nicotiana tabacum cells have been studied in vitro using membrane vesicles for trans-zero transport studies. In highly purified phase-partitioned outside-out plasma membrane vesicles (PMV) the hexose transporter showed an apparent Km value of 230 microM (substrate: 3-O-methyl-D-glucose (3-OMG); pHi 7.2/pHo 7.2), which was reduced to 120 microM when a pH gradient was imposed (pHo 5.7/pHi 7.2). However, the Vmax value was not affected indicating that no stable pH gradient was formed. Uptake experiments with 14C-labelled acetate supported this interpretation. Transport was insensitive to N-ethylmaleimide (NEM; up to 1 mM concentration) and p-chloromercuribenzene sulfonate (PCMBS; up to 500 microM), whereas the tonoplast hexose transporter (in mixed inside / out and outside / out vesicles) was inhibited by NEM in a substrate-protectable manner, and PCMBS was also inhibitory. Kinetically two components with apparent Km values of 6 and 20 mM could be distinguished for the tonoplast hexose transporter. Substrate specificities of both transporters were similar except for D-galactose and D-fructose. The results indicate structural differences between the tonoplast and plasma membrane hexose transporters in plants.