Sugar transport in leaf discs of Phaseolus coccinius

Kinetic profiles for sucrose, glucose and 3‐OMG glucose were determined in leaf discs of Phaseolus coccinius L. (cv. Scarlet). All three sugars exhibited identical uptake kinetics. At sugar concentrations below 25 m M , transport was due to an active, carrier‐mediated transport system. A linear component was the dominant mode of uptake at sugar concentrations above 25 m M . Sucrose and glucose carriers were specific for these sugars, since no uptake inhibition was observed from competing sugars. Sucrose was not hydrolyzed by leaf tissue because the label in asymetrically labeled sucrose was not randomized. Furthermore, no label was present in hexose fractions when tissue was incubated with [ 84 C]‐sucrose. Therefore, [ 14 C]‐sucrose uptake did not reflect hexose uptake. Both saturable and linear components of uptake contribute significantly to total uptake rates. The former, however, is more important when apoplastic sugar concentrations are low. The molecular nature of the linear component is not well understood but accounts for most of the uptake at high sugar concentrations.