Virginia Tech
Browse
.TIF
76067 PDMS Stack1_2.tif (621.3 MB)
.TIF
76067 1uM Stack1.tif (621.3 MB)
.TIF
SC5314 8uM Stack1_1.tif (621.3 MB)
.TIF
76067 8uM Stack1_3.tif (621.3 MB)
.TIF
76067 PDMS Stack1.tif (621.3 MB)
.TIF
SC5314 8uM 1_3.tif (621.3 MB)
.TIF
76067 8uM Stack1_2.tif (621.3 MB)
.TIF
SC5314 4uM Stack 1_3.tif (621.3 MB)
.TIF
76067 4uM Stack1_2.tif (621.3 MB)
.TIF
76067 2uM Stack1_2.tif (621.3 MB)
.TIF
SC5314 PDMS Stack1.tif (621.3 MB)
.TIF
SC5314 8uM 1_2.tif (621.3 MB)
.TIF
SC5314 1uM Stack1_2.tif (621.3 MB)
.TIF
SC5314 1uM Stack1.tif (621.3 MB)
.TIF
76067 4uM Stack1.tif (621.3 MB)
.TIF
76067 0.5uM Stack1_2.tif (621.3 MB)
.TIF
76067 2uM Stack1.tif (621.3 MB)
.TIF
76067 0.5uM Stack1_3.tif (621.3 MB)
.TIF
SC5314 4uM Stack1_1.tif (621.3 MB)
.TIF
76067 1uM Stack1_2.tif (621.3 MB)
1/0
36 files

Impact of surface topography on biofilm formation by Candida albicans

dataset
posted on 2021-02-24, 13:28 authored by Katherine Lagree, Aaron Mitchell, William Ducker, Htwe Mon
Candida albicans is a fungal pathogen that causes serious biofilm-based infections. Here we have asked whether surface topography may affect C. albicans biofilm formation. We tested biofilm growth of the prototypical wild-type strain SC5314 on a series of polydimethylsiloxane (PDMS) solids. The surfaces were prepared with monolayer coatings of monodisperse spherical silica particles that were fused together into a film using silica menisci. The surface topography was varied by varying the diameter of the silica particles that were used to form the film. Biofilm formation was observed to be a strong function of particle size. In the particle size range 4.0–8.0 µm, there was much more biofilm than in the size range 0.5–2.0 µm. The behavior of a clinical isolate from a clade separate from SC5314, strain p76067, showed results similar to that of SC5314. Our results suggest that topographic coatings may be a promising approach to reduce C. albicans biofilm infections. The data set contains the image files obtained using confocal microscopy.

History

Publisher

University Libraries, Virginia Tech

Usage metrics

    Virginia Polytechnic Institute and State University

    Categories

    No categories selected

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC