(a and c): Identical microscopic fields show detection of F aloc

(a and c): Identical microscopic fields show detection of F. Pictilisib alocis by both EUB 338 (a) and FIAL (c) whereas detection of F. villosus by EUB 338 only (b) and not FIAL (d) proves specificity of the FISH experiment. In the carrier-grown selleck kinase inhibitor biofilms, the organism could be visualized in those areas that had grown in the depth of the pocket, but rarely in areas corresponding

to the cervical part of the pocket and rarely on the very tip of the carrier. In most cases, Filifactor colonized the side of the carrier facing the soft tissue (Figure 4c) and could only be found in few numbers or not at all on the carrier side facing the root (Figure 4b). Many parts of the biofilm showed F. alocis as a short rod of 1-2 μm length, whereas at some sites the organism appeared longer, extending to 7-8 μm (Figure 5a). While in some areas Filifactor cells seemed to be scattered within the biofilm without any recognizable pattern, numerous sites clearly showed a higher degree of organisation.

Repeatedly, F. alocis could be found in densely packed groups (Figure 4c), arranged in concentrical structures (Figure 5d) or grouped in “”test-tube brush”" formations [43] around signal selleck chemical free channels (Figure 5c). Figure 5b shows the radial orientation of F. alocis towards the surface of a mushroom-like protuberance of the biofilm. Figure 4 Carrier grown biofilm visualized by FISH. Hybridization was performed with the probes EUB 338-Cy5 (magenta) and FIAL-Cy3 (bright orange) along with DAPI staining (blue) on a carrier after 7 days of attachment to the mesial aspect of tooth 16 in a GAP patient. (a): Collage of several microscopic fields in low magnification. The overlay of Cy3, Cy5 and DAPI filter sets shows the bacterial biofilm that grew in the depth of the pocket. EUB 338 visualizes large parts of the Selleck Neratinib bacterial community, while FIAL detects only F. alocis. DAPI stains both host cell nuclei and bacteria. The carrier tip (1) and the carrier side facing the tooth (2) show little or no presence of F. alocis. The bright orange signal on the carrier side facing the pocket epithelium

(3) reveals a strong presence of Filifactor in the part of the biofilm indicated by the arrow. Arrowheads on the tooth side (2) point to artifacts caused by upfolding of the embedded carriers. (b and c): Higher magnifications of the inserts. (b) shows the biofilm on the tooth side of the carrier without F. alocis among the bacteria. (c) shows F. alocis in densely packed groups among the organisms on the epithelium side and host cell nuclei (blue). Figure 5 Formations of F. alocis in carrier-borne biofilms. FISH on different carriers with GAP biofilms using the probes EUB 338-Cy5 (magenta) and FIAL-Cy3 (bright orange) along with DAPI staining (blue). EUB 338 detects the whole bacterial population while FIAL visualizes F. alocis specifically. DAPI stains both bacteria and host cell nuclei. High magnifications show F.

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