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Comparison of Bacterial Composition between Human Saliva and Dental Unit Water System  

Jeon, Eun-Hyoung (Department of Microbiology and Institute of Basic Sciences, Dankook University)
Han, Ji-Hye (Department of Microbiology and Institute of Basic Sciences, Dankook University)
Ahn, Tae-Young (Department of Microbiology and Institute of Basic Sciences, Dankook University)
Publication Information
Journal of Microbiology / v.45, no.1, 2007 , pp. 1-5 More about this Journal
Abstract
The bacterial compositions between the dental unit water system and human saliva were characterized and compared by direct sequence analysis of 16S rDNA clone libraries. Based on the species richness estimation, bacterial diversity in the dental unit water system (DUW) was more diverse than that of the human saliva (HS). The Chaol estimates of species richness in HS and DUW samples were 12.0 and 72.4, respectively. The total numbers of OTUs observed in the combined libraries accounted for 83% (HS) and 59% (DUW) of the Chaol diversity estimate as defined at the 80% similarity threshold. Based on the sequence analysis, the phylum Proteobacteria was the major group in both clone libraries at phylum level. DUW clone library contained 80.0% Proteobacteria, 8.0% Bacteroides, 4.0% Nitrospira, 4.0% Firmicutes, 2.0% Planctomycetes and 2.0% Acidobacteria. On the other hand, human saliva (HS) clone library contained 55.5% Proteobacteria, 36.1% Firmicutes and 8.4% Bacteroides. The majority of bacteria identified belonged to phylum Proteobacteria in both samples. In dental unit water system (DUW), Alphaproteobacteria was detected as the major group. There was no evidence of the bacterial contamination due to a dental treatment. Most sequences were related to microorganisms derived from biofilm in oligotrophic environments.
Keywords
human saliva; dental unit water; 16S rDNA clone; species richness;
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1 Cole, J.R., B. Chai, R.J. Farris, Q. Wang, S.A. Kulam, D.M. McGarrell, G.M. Garrity, and J.M. Tiedje. 2005. The ribosomal database project (RDP-II): Sequences and tools for high-throughput rRNA analysis. Nucleic Acids Res. 33, D294-D296   DOI   ScienceOn
2 Singh, R., O.C. Stine, D.L. Smith, J.K. Spitznagel, M.E. Labib, and H.N. Williams. 2003. Microbial diversity of biofilms in dental unit water systems. Appl. Environ. Microbiol. 69, 3412-3420   DOI
3 Walker, J.T., D.J. Bradshaw, A.M. Bennett, M.R. Fulford, M.V. Martin, and P.D. Marsh. 2000. Microbial biofilm formation and contamination of dental-unit water systems in general dental practice. Appl. Environ. Microbiol. 66, 3363-3367   DOI
4 Williams, M.M., J.W.S. Domingo, M.C. Meckes, C.A. Kelty, and H.S. Rochon. 2004. Phylogenetic diversity of drinking water bacteria in a distribution system simulator. J. Appl. Microbiol. 96, 954-964   DOI   ScienceOn
5 United States Environmental Protection Agency. 1992. Control of biofilm growth in drinking water distribution systems, p. 55. Office of Research and Development, Washington D.C., USA
6 Martin, M.V. 1987. The significance of the bacterial-contamination of dental unit water-systems. Brit. Dent. J. 163, 152-154   DOI   ScienceOn
7 Lane, D.J. 1991. 16s/23s rRNA sequencing, p. xxix, 329. In E. Stackebrandt and M. Goodfellow (eds.), Nucleic acid techniques in bacterial systematics, Wiley, Chichester ; New York, USA
8 Bradshaw, D.J. and P.D. Marsh. 1998. Analysis of pH-driven disruption of oral microbial communities in vitro. Caries Res. 32, 456-462   DOI   ScienceOn
9 Pankhurst, C.L., N.W. Johnson, and R.G. Woods. 1998. Microbial contamination of dental unit waterlines: The scientific argument. Int. Dent. J. 48, 359-368   DOI   PUBMED   ScienceOn
10 Hughes, J.B., J.J. Hellmann, T.H. Ricketts, and B.J. Bohannan. 2001. Counting the uncountable: Statistical approaches to estimating microbial diversity. Appl. Environ. Microbiol. 67, 4399-4406   DOI
11 Chun, J., K.S. Bae, E.Y. Moon, S.O. Jung, H.K. Lee, and S.J. Kim. 2000. Nocardiopsis kunsanensis sp nov., a moderately halophilic actinomycete isolated from a saltern. Int. J. Syst. Evol. Microbiol. 50, 1909-1913   DOI   PUBMED
12 Colwell, R.K. 2005. EstimateS: Statistical estimation of species richness and shared species from samples. Version 7.5. User's Guide and application published at: http://purl.oclc.org/estimates
13 Doel, J.J., N. Benjamin, M.P. Hector, M. Rogers, and R.P. Allaker. 2005. Evaluation of bacterial nitrate reduction in the human oral cavity. Eur. J. Oral Sci. 113, 14-19   DOI   ScienceOn
14 Molinari, J.A. 2003. Infection control-its evolution to the current standard precautions. J. Am. Dent. Assoc. 134, 569-574   DOI
15 Williams, H.N., C. PaszkoKolva, M. Shahamat, C. Palmer, C. Pettis, and J. Kelley. 1996. Molecular techniques reveal high prevalence of legionella in dental units. J. Am. Dent. Assoc. 127, 1188-1193   DOI