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Lookup NU author(s): Lesley Old, Emeritus Professor Roy Russell
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The genome of Streptococcus mutans UA159 contains two phospho-β- glucosidase genes, bglA and celA, which occur in operon-like arrangements along with genes for components of phosphotransferase transport systems and a third phospho-β-glucosidase encoded by the arb gene, which does not have its own associated transport system but relies on uptake by the bgl or cel systems. Targeted inactivation of each of the phospho-β-glucosidase genes revealed that bglA is involved in aesculin hydrolysis, celA is essential for utilisation of cellobiose, amygdalin, gentobiose and salicin, and arb is required for utilisation of arbutin. Inactivation of genes for the phosphotransferase systems revealed an overlap of specificity for transport of β-glucosides and also indicated that further, unidentified transport systems exist. The cel and arb genes are subject to catabolite repression by glucose, but the regM gene is not essential for catabolite repression. Screening a collection of isolates of S. mutans revealed strains with deletions affecting the msm, bgl and/or cel operons. The phenotypes of these strains could largely be explained on the basis of the results obtained from the knockout mutants of S. mutans UA159 but also indicated the existence of other pathways apparently absent from UA159. The extensive genetic and phenotypic variation found in β-glucoside metabolism indicates that there may be extensive heterogeneity in the species. © 2006 Blackwell Munksgaard.
Author(s): Old LA, Lowes S, Russell RRB
Publication type: Article
Publication status: Published
Journal: Oral Microbiology and Immunology
Year: 2006
Volume: 21
Issue: 1
Pages: 21-27
ISSN (print): 0902-0055
ISSN (electronic): 2041-1014
Publisher: Wiley-Blackwell
URL: http://dx.doi.org/10.1111/j.1399-302X.2005.00246.x
DOI: 10.1111/j.1399-302X.2005.00246.x
PubMed id: 16390337
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