Chlorhexidine Substantivity on Salivary Flora and Plaque-Like Biofilm: An In Situ Model

This work was supported by project FIS PI11/01383 from Carlos III Institute of Health (Ministry of Economy and Competitiveness, Madrid, Spain

Antiplaque Effect of Essential Oils and 0.2% Chlorhexidine on an In Situ Model of Oral Biofilm Growth: A Randomised Clinical Trial

This work was supported by project PI11/ 01383 from Carlos III Institute of Health (General Division of Evaluation and Research Promotion, Madrid, Spain), which is integrated in National Plan of Research, Development and Innovation (PN I+D+I 2008-2011). This project was cofinanced by European Regional Development Fund (ERDF 2007- 2013

Oral Biofilm Architecture on Natural Teeth

Periodontitis and caries are infectious diseases of the oral cavity in which oral biofilms play a causative role. Moreover, oral biofilms are widely studied as model systems for bacterial adhesion, biofilm development, and biofilm resistance to antibiotics, due to their widespread presence and accessibility. Despite descriptions of initial plaque formation on the tooth surface, studies on mature plaque and plaque structure below the gum are limited to landmark studies from the 1970s, without appreciating the breadth of microbial diversity in the plaque. We used fluorescent in situ hybridization to localize in vivo the most abundant species from different phyla and species associated with periodontitis on seven embedded teeth obtained from four different subjects. The data showed convincingly the dominance of Actinomyces sp., Tannerella forsythia, Fusobacterium nucleatum, Spirochaetes, and Synergistetes in subgingival plaque. The latter proved to be new with a possibly important role in host-pathogen interaction due to its localization in close proximity to immune cells. The present study identified for the first time in vivo that Lactobacillus sp. are the central cells of bacterial aggregates in subgingival plaque, and that Streptococcus sp. and the yeast Candida albicans form corncob structures in supragingival plaque. Finally, periodontal pathogens colonize already formed biofilms and form microcolonies therein. These in vivo observations on oral biofilms provide a clear vision on biofilm architecture and the spatial distribution of predominant species

Antibody-mediated polysome precipitation as a method for the size determination of viral mRNA species: viral envelope glycoprotein mRNA of avian sarcoma viruses

A method was developed that allows the in situ isolation of viral mRNA, i.e. from polysomes of infected cells. This was achieved by precipitating intact polysomes via their nascent virus polypeptides using virus-specific antibodies. As a model, antibodies to the major envelope glycoprotein (gp85) of avian sarcoma viruses were employed to precipitate those polysomes from infected cells which synthesized the corresponding p70 virus glycoprotein precursor. Normal immunoglobulin and polysomes from uninfected chicken embryo fibroblasts served as controls. The radioactivity labelled mRNA from antibody-precipitated polysomes could subsequently be extracted and characterized for size. It was found that avian sarcoma virus gp85 envelope glycoprotein is predominantly synthesized by a 22--28 s viral mRNA. In addition, minor amounts of gp85-specific mRNAs of 16--21 s and 28--35 s could be demonstrated. The data indicate the presence in polysomes of viral mRNA species coding for i) gp85 only (16--21 s RNA), ii) gp85 and pp60src protein from the adjacent src-gene (22--28 s RNA), and iii) a large viral precursor protein (28--35 s RNA)

Klinische und bakteriologische Befunde unter Anwendung einer 0,2% Chl.-Spülung. Eine zusammenfassende Dalstellung

Item does not contain fulltex