The hexose transporters at the plasma membrane and the tonoplast of transformed plant cells: kinetic characterization of two distinct carriers.

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.