Uptake and phosphorylation of glucose and fructose in Daucus carota cell suspensions are differently regulated

Cell suspensions of Daucus carota L. were grown in batch culture on 50 mM sucrose, 100 mM glucose or 100 mM fructose. Sucrose was rapidly converted extra-cellularly into equimolar amounts of glucose and fructose, and glucose was then taken up preferentially. This impaired uptake of fructose could partially be explained by the eight-fold longer affinity of the hexose carrier in the plasmamembrane for fructose compared to glucose. However, cells grown on fructose as the sole carbon source showed a shorter lag phase and showed more biomass production compared to glucose-grown cells, indicating that conversion of glucose and fructose were also differently regulated. Ninety-five % of the glucose phosphorylating activity was membrane-associated and most probably confined to mitochondria; therefore, it might be present in a respiratory 'compartment' making glucose a better substrate for respiration than fructose. The soluble fraction contained the majority of the fructokinase activity. This activity was hypothesized to be more or less randomly distributed through the cytosol; in this soluble 'compartment' a pool of fructose-6-phosphate is formed. Concomitantly, via glucose-6-phosphate (G-6-P) and glucose-1-phosphate (G-1-P), it is converted into UDPG-glucose, resulting in structural cell components. The observed transient obstruction of the conversion of G-1-P into UDP-glucose in fructose-grown cells, leading to G-1-P accumulation, might be a result of both an altered equilibrium maintained by phosphoglucomutase, interconverting G-6-P and G-1-P and low levels of nucleotide triphosphates. Low nucleotide triphosphate production, connected with a low initial respiration rate, might be caused by the ten-fold longer affinity of the membrane-associated phosphorylating enzymes for fructose compared to glucose. Our results were taken to indicate that two separate pools of glycolytic intermediates exist in D. carota cells: one distributed throughout the cytosol and one surrounding the mitochondria