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  • Title: Mechanism of synthesis of D-glucans by D-glucosyltransferases from Streptococcus mutans 6715.
    Author: Robyt JF, Martin PJ.
    Journal: Carbohydr Res; 1983 Mar 01; 113(2):301-15. PubMed ID: 6220802.
    Abstract:
    Two glucosyltransferases from Streptococcus mutans 6715 were purified and separated. One of the glucosyltransferases synthesized an insoluble glucan, and the other, a soluble glucan. The enzymes were immobilized on Bio-Gel P-2 beads, and the mechanism of glucan synthesis was studied by pulse and chase techniques with 14C-sucrose. Label was associated with the immobilized enzymes. The label could be quantitatively released by heating at pH 2. Analysis of the labeled products from the pulse experiment showed labeled glucose and labeled glucan; the chase experiment showed labeled glucan and a significant decrease in labeled glucose. The glucans from the pulse and the chase experiments were separated from glucose by chromatography on Bio-Gel P-6. They were reduced with sodium borohydride, and the products hydrolyzed with acid. Analysis of the labeled products from the reduced and hydrolyzed, pulsed glucans showed labeled glucose and labeled glucitol; label in the glucitol was greatly decreased in the chase experiment. These experiments showed that glucose and glucan were covalently attached to the active site of the enzymes during synthesis, and that the glucose was being transferred to the reducing end of the glucan chain. A mechanism for the synthesis of the glucans is proposed in which there are two catalytic groups on each enzyme that holds glucosyl and glucanosyl units. During synthesis, the glucosyl and glucanosyl units alternate between the two sites, giving elongation of the glucans from the reducing end. The addition of increasing amounts of B-512F dextran to the insoluble-glucan-forming glucosyltransferase produced a decrease in the proportion of insoluble glucan formed and a concomitant increase in a soluble glucan. The total amount of glucan synthesized (soluble plus insoluble) was increased 1.6 times over the amount of insoluble glucan formed when no exogenous dextran was added. It is shown that the addition of B-512F dextran affects the solubility of the synthesized alpha-(1 to 3)-glucan by accepting alpha-(1-3)-glucan chains at various positions along the dextran chain, to give a soluble, graft polymer.
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