Abstract
Glucose-dehydrogenase-deficient (Gcd−) strains ofPseudomonas cepacia 249 compensated for loss of operation of the direct oxidative pathway by expanding the phosphorylative pathway. When grown on glucose, they had between two- and fourfold higher than normal levels of glucokinase and NAD-linked glucose-6-phosphate dehydrogenase activity and a comparable increase in capacity to transport glucose. Similar expansion of the phosphorylative pathway was noted when the wild type was grown on cellobiose or trehalose. Gcd− strains grew normally on cellobiose and trehalose, but not if also deficient in glucokinase; this indicates that the disaccharides were converted to glucose and metabolized via the phosphorylative pathway. The expansion of the phosphorylative pathway during growth of the wild type on disaccharides or of Gcd− mutants on glucose was a consequence of hyperinduction of pathway enzymes. Other compounds that promoted such hyperinduction included aromatic conjugates of glucose such as arbutin and salicin, and mannose. Under conditions leading to expansion of the phosphorylative pathway, enzymes related to the direct oxidative pathway, such as gluconate dehydrogenase and the 6-phosphogluconate dehydrogenase active with NAD, were not formed. The results indicate that intracellular glucose and extracellular glucose are metabolized to 6-phosphogluconate via different routes.
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