Abstract
Under aerobic conditions 2-deoxy- d-glucose was accumulated in Kluyveromyces marxianus mainly in a phosphorylated form. During sugar uptake both ATP, polyphosphate and orthophosphate levels decreased. Under anaerobic conditions considerably less sugar was taken up. The intracellular free sugar concentration did not exceed the medium concentration, whereas sugar phosphorylation leveled off at about 3 μmol/g yeast. In response to anaerobic 2-deoxy- d-glucose uptake only ATP and polyphosphate appeared to decrease. Within the experimental error sugar phosphorylation was counterbalanced by the polyphosphate decrease. Pulse labeling experiments revealed transport-associated phosphorylation under these anaerobic conditions, Further, kinetic studies on permeabilized cells showed that cytoplasmic ATP could not be the phosphoryl donor in this transport-associated phosphorylation. These results confirm and extend previous observations, indicating that polyphosphate plays a crucial role in 2-deoxy- d-glucose transport in Kluyveromyces marxianus.
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