NON-PTS UPTAKE AND SUBSEQUENT METABOLISM OF GLUCOSE IN PEDIOCOCCUS-HALOPHILUS AS DEMONSTRATED WITH A DOUBLE MUTANT DEFECTIVE IN PHOSPHOENOLPYRUVATE - MANNOSE PHOSPHOTRANSFERASE SYSTEM AND IN PHOSPHOFRUCTOKINASE

Pediococcus halophilus possesses phosphoenolpyruvate:mannose phosphotransferase system (man:PTS) as a main glucose transporter. A man:PTS defective (man:PTSd) strain X-160 could, however, utilize glucose. A possible glucose-transport mechanism other than PTS was studied with the strain X-160 and its derivative, man:PTSd phosphofructokinase defective (PFK-) strain M-13. Glucose uptake by X-160 at pH 5.5 was inhibited by any of carbonylcyanide m-chlorophenylhydrazone, nigericin, N,N′-dicyclohexylcarbodiimide, or iodoacetic acid. The double mutant M-13 could still transport glucose and accumulated intracellularly a large amount of hexose-phosphates (ca. 8 mM glucose 6-phosphate and ca. 2 mM fructose 6-phosphate). Protonophores also inhibited the glucose transport at pH 5.5, as determined by the amounts of accumulated hexose-phosphates (< 4 mM). These showed involvement of proton motive force (ΔP) in the non-PTS glucose transport. It was concluded that the non-PTS glucose transporter operated in concert with hexokinase or glucokinase for the metabolism of glucose in the man:PTSd strain. © 1990 Springer-Verlag.