Literature DB >> 21850474

The distribution and frequency of oral veillonella spp. in the tongue biofilm of healthy young adults.

Izumi Mashima1, Arihide Kamaguchi, Futoshi Nakazawa.   

Abstract

Five species of oral Veillonella, V. atypica, V. denticariosi, V. dispar, V. parvula, and V. rogosae, have been suggested to be early colonizers of dental biofilm and causes of opportunistic infections and oral malodor. However, the pathogenicity and the distribution of oral Veillonella spp. have not been clarified. Previously, oral Veillonella spp. were identified by using 16S rDNA sequence analysis. In addition, recently, Veillonella isolates from human tongue biofilm were identified by rpoB gene sequences, but these procedures are time-consuming and complex. To overcome this problem, Igarashi et al. have designed species-specific primer sets for oral Veillonella spp. by using a highly variable region in the rpoB gene. In the present study, the distribution and frequency of oral Veillonella spp. in the tongue biofilm of healthy adults in their 20s were examined by using these species-specific primer sets. Tongue biofilms of these subjects were found to be divided into two groups based on the distribution and frequency of oral Veillonella spp. In one group, V. rogosae was the predominant species; the other group consisted of mainly V. dispar and V. atypica. Multiple factors may influence these differences in distribution and frequency of oral Veillonella spp. in tongue biofilm. This is the first report also demonstrating the availability of the species-specific primer sets for PCR to determine the distribution and frequency of oral Veillonella spp. in the tongue biofilm of healthy adults in their 20s.

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Year:  2011        PMID: 21850474     DOI: 10.1007/s00284-011-9993-2

Source DB:  PubMed          Journal:  Curr Microbiol        ISSN: 0343-8651            Impact factor:   2.188


  29 in total

1.  Identification of bacteria in acute endodontic infections and their antimicrobial susceptibility.

Authors:  Saengusa Khemaleelakul; J Craig Baumgartner; Sumalee Pruksakorn
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2.  Microbiota of the dorsum of the tongue after plaque accumulation: an experimental study in humans.

Authors:  Marcelo Faveri; Magda Feres; Jamil Awad Shibli; Roberto F Hayacibara; Mitsue M Hayacibara; Luciene Cristina de Figueiredo
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Authors:  T Sato; J Matsuyama; M Sato; E Hoshino
Journal:  Oral Microbiol Immunol       Date:  1997-12

Review 4.  The veillonellae: gram-negative cocci with a unique physiology.

Authors:  E A Delwiche; J J Pestka; M L Tortorello
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8.  Veillonella parvula bacteremia without an underlying source.

Authors:  R G Fisher; M R Denison
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