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  • Title: Properties of a Tn5 insertion mutant defective in the structural gene (fruA) of the fructose-specific phosphotransferase system of Rhodobacter capsulatus and cloning of the fru regulon.
    Author: Daniels GA, Drews G, Saier MH.
    Journal: J Bacteriol; 1988 Apr; 170(4):1698-703. PubMed ID: 2832374.
    Abstract:
    In photosynthetic bacteria such as members of the genera Rhodospirillum, Rhodopseudomonas, and Rhodobacter a single sugar, fructose, is transported by the phosphotransferase system-catalyzed group translocation mechanism. Previous studies indicated that syntheses of the three fructose catabolic enzymes, the integral membrane enzyme II, the peripheral membrane enzyme I, and the soluble fructose-1-phosphate kinase, are coordinately induced. To characterize the genetic apparatus encoding these enzymes, a Tn5 insertion mutation specifically resulting in a fructose-negative, glucose-positive phenotype was isolated in Rhodobacter capsulatus. The mutant was totally lacking in fructose fermentation, fructose uptake in vivo, phosphoenolpyruvate-dependent fructose phosphorylation in vitro, and fructose 1-phosphate-dependent fructose transphosphorylation in vitro. Extraction of the membrane fraction of wild-type cells with butanol and urea resulted in the preparation of active enzyme II free of contaminating enzyme I activity. This preparation was used to show that the activity of enzyme I was entirely membrane associated in the parent but largely soluble in the mutant, suggesting the presence of an enzyme I-enzyme II complex in the membranes of wild-type cells. The uninduced mutant exhibited measurable activities of both enzyme I and fructose-1-phosphate kinase, which were increased threefold when it was grown in the presence of fructose. Both activities were about 100-fold inducible in the parental strain. Although the Tn5 insertion mutation was polar on enzyme I expression, fructose-1-phosphate kinase activity was enhanced, relative to the parental strain. ATP-dependent fructokinase activity was low, but twofold inducible and comparable in the two strains. A second fru::Tn5 mutant and a chemically induced mutant selected on the basis of xylitol resistance showed pleiotropic loss of enzyme I, enzyme II, and fructose-1-phosphate kinase. These mutants were used to clone the fru regulon by complementing the negative phenotype with a wild-type cosmid bank.
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