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Streptococcus salivarius urease: genetic and biochemical characterization and expression in a dental plaque streptococcus.


ABSTRACT: The hydrolysis of urea by urease enzyme of oral bacteria is believed to have a major impact on oral microbial ecology and to be intimately involved in oral health and diseases. To begin to understand the biochemistry and genetics of oral ureolysis, a study of the urease of Streptococcus salivarius, a highly ureolytic organism which is present in large numbers on the soft tissues of the oral cavity, has been initiated. By using as a probe a 0.6-kpb internal fragment of the S. salivarius 57.I ureC gene, two clones from subgenomic libraries of S. salivarius 57.I in an Escherichia coli plasmid vector were identified. Nucleotide sequence analysis revealed the presence of one partial and six complete open reading frames which were most homologous to ureIAB-CEFGD of other ureolytic bacteria. Plasmid clones were generated to construct a complete gene cluster and used to transform E. coli and Streptococcus gordonii DL1, a nonureolytic, dental plaque microorganism. The recombinant organisms expressed high levels of urease activity when the growth medium was supplemented with NiCl2. The urease enzyme was purified from E. coli, and its biochemical properties were compared with those of the urease produced by S. salivarius and those of the urease produced by S. gordonii carrying the plasmid-borne ure genes. In all cases, the enzyme had a Km of 3.5 to 4.1 mM, a pH optimum near 7.0, and a temperature optimum near 60 degrees C. S. gordonii carrying the urease genes was then demonstrated to have a significant capacity to temper glycolytic acidification in vitro in the presence of concentrations of urea commonly found in the oral cavity. The ability to genetically engineer plaque bacteria that can modulate environmental pH through ureolysis will open the way to using recombinant ureolytic organisms to test hypotheses regarding the role of oral ureolysis in dental caries, calculus formation, and periodontal diseases. Such recombinant organisms may eventually prove useful for controlling dental caries by replacement therapy.

SUBMITTER: Chen YY 

PROVIDER: S-EPMC173805 | biostudies-other | 1996 Feb

REPOSITORIES: biostudies-other

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Streptococcus salivarius urease: genetic and biochemical characterization and expression in a dental plaque streptococcus.

Chen Y Y YY   Clancy K A KA   Burne R A RA  

Infection and immunity 19960201 2


The hydrolysis of urea by urease enzyme of oral bacteria is believed to have a major impact on oral microbial ecology and to be intimately involved in oral health and diseases. To begin to understand the biochemistry and genetics of oral ureolysis, a study of the urease of Streptococcus salivarius, a highly ureolytic organism which is present in large numbers on the soft tissues of the oral cavity, has been initiated. By using as a probe a 0.6-kpb internal fragment of the S. salivarius 57.I ureC  ...[more]

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