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SAL_20358 details
Primary information
SALIDSAL_20358
Biomarker nameAggregatibacter paraphrophilus
Biomarker TypeNA
Sampling MethodAge 18-22, male and female
Collection MethodTwo milliliters of saliva were collected from each human-host individual into a tube containing an equal volume of lysis buffer
Analysis MethodPyrosequencing on 454 Life Sciences Genome Sequencer FLX Titanium
Collection SiteWhole Saliva
Disease CategoryHealthy
Disease/ConditionHealthy
Disease SubtypeNA
Fold Change/ ConcentrationNA
Up/DownregulatedNA
ExosomalNA
OrganismHomo sapiens
PMID21716312
Year of Publication2012
Biomarker ID416916
Biomarker CategoryMicrobe
SequenceNZ_CP085091.1
Title of studySaliva microbiomes distinguish caries-active from healthy human populations
Abstract of studyThe etiology of dental caries remains elusive because of our limited understanding of the complex oral microbiomes. The current methodologies have been limited by insufficient depth and breadth of microbial sampling, paucity of data for diseased hosts particularly at the population level, inconsistency of sampled sites and the inability to distinguish the underlying microbial factors. By cross-validating 16S rRNA gene amplicon-based and whole-genome-based deep-sequencing technologies, we report the most in-depth, comprehensive and collaborated view to date of the adult saliva microbiomes in pilot populations of 19 caries-active and 26 healthy human hosts. We found that: first, saliva microbiomes in human population were featured by a vast phylogenetic diversity yet a minimal organismal core; second, caries microbiomes were significantly more variable in community structure whereas the healthy ones were relatively conserved; third, abundance changes of certain taxa such as overabundance of Prevotella Genus distinguished caries microbiota from healthy ones, and furthermore, caries-active and normal individuals carried different arrays of Prevotella species; and finally, no 'caries-specific' operational taxonomic units (OTUs) were detected, yet 147 OTUs were 'caries associated', that is, differentially distributed yet present in both healthy and caries-active populations. These findings underscored the necessity of species- and strain-level resolution for caries prognosis, and were consistent with the ecological hypothesis where the shifts in community structure, instead of the presence or absence of particular groups of microbes, underlie the cariogenesis.