Characterization of glucosyltransferase-deficient, plasmid-containing mutants of Streptococcus mutans LM-7.

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RESUMO

The possibility that glucosyltransferase (GT)-mediated insoluble-glucan synthesis from sucrose is controlled by the 3-megadalton plasmid pAM7 in Streptococcus mutans LM-7 has been examined. A low-sucrose agar medium was developed to readily detect and quantitate presumptive GT-negative mutants. Such mutants were isolated from Todd-Hewitt broth cultures grown either with or without sodium dodecyl sulfate (10 microgram/ml) or acriflavine (0.5 microgram/ml) at frequencies ranging from about 0.01 to 1%. Independently isolated mutants had the following characteristics: (i) cells were virtually devoid of cell-associated GT and did not aggregate upon addition of sucrose; (ii) cell-free culture fluids synthesized 10X less insoluble glucan than those of the parent; and (iii) cultures grown with sucrose did not form adherent deposits on the wall of the culture tube, as is typical of S. mutans. Both parent and mutants formed relatively little soluble glucan in 1-h assays. Three independently isolated mutants and the parent were found to contain similar amounts of plasmid DNA. Analysis by sucrose density gradient centrifugation and agarose gel electrophoresis did not reveal a size difference between the plasmids from parent and mutants. These results show that (i) S. mutans LM-7 generates GT-deficient mutants at relatively high frequency that still contain a 3-megadalton plasmid; (ii) both cell-associated and extracellular GT levels are depressed in the mutants, which suggests that these activities are directly or indirectly controlled by the same gene or by genes that segregate as a unit.

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