According to these authors, the salivarius group is composed of t

According to these authors, the salivarius group is composed of three species: (1) S. salivarius, a pioneer colonizer of the human oral mucosa that is isolated mainly from the dorsum of the tongue, the cheeks, and the palate [3],

(2) S. vestibularis, a mutualistic bacterium that is present on the vestibulum of the human oral mucosa [4], and (3) S. thermophilus, a thermophilic species [5] that is part of starter cultures used in the production of yogurt and Swiss- or Italian-type cooked cheeses. Unlike S. salivarius and S. vestibularis, S. thermophilus is not a natural inhabitant of the human oral mucosa and is commonly found on the mammary mucosa of bovines, its natural ecosystem, as inferred from its presence and that of thermophilus-specific bacteriophages selleck screening library in raw milk isolates [6–8]. The common www.selleckchem.com/products/ly3039478.html ecosystem is not the only feature shared by S. salivarius and S. vestibularis. Biochemical

investigations of functional metabolic pathways have VX-689 cost revealed that these two species share a high level of physiological resemblance. For example, S. salivarius and S. vestibularis are capable of hydrolyzing esculin and generating acidic compounds from maltose and N-acetyl-glucosamine, while S. thermophilus is not ([9] and references therein). Both S. salivarius and S. vestibularis are also opportunistic pathogens that can cause mild to severe infective endocarditis [10–12], whereas S. thermophilus has never been implicated in such infections. Given the home environments of the organisms, the high level of metabolic similarity between S. salivarius and S. vestibularis, and the more restricted

spectrum of Endonuclease carbon sources that can be used by S. thermophilus [13], one would assume that S. salivarius and S. vestibularis would be more related to each other than to S. thermophilus. However the few phylogenetic trees published so far that include all three species, as inferred from 16S rRNA-encoding gene sequences [2] and the housekeeping gene sodA that encodes the manganese-dependent superoxide dismutase [14], suggest that a schism generated S. vestibularis and S. thermophilus subsequent to the early divergence of S. salivarius. However, since these two phylogenetic studies [2, 14] were limited to only one taxon for each species, the inferred relationships between these three species might be inaccurate. To investigate the evolutionary relationships between the three species making up the salivarius group, we performed phylogenetic inferences based on the 16S rRNA-encoding, secA and secY housekeeping genes and the important yet non-essential recA gene using an identical distribution of streptococcal strains among the various markers to facilitate direct comparisons and allow the concatenation of the individual sequences into a single matrix. These four ubiquitous genes are widely distributed and have homologues in all three kingdoms, i.e., Bacteria, Archaea, and Eukarya (for reviews see [15–17]).

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