AI Article Synopsis
- Biofilm formation by Listeria monocytogenes is crucial for its colonization in food-processing environments, creating multicellular layers on various surfaces.
- The presence of an extracellular polymeric matrix, rich in carbohydrates, was confirmed through specific labeling techniques, indicating the formation of biofilms.
- A comparison of proteomes from biofilm-grown and planktonic cells revealed 19 proteins with elevated expression in biofilms, associated with cellular stress response, biosynthesis, and regulatory functions.
Article Abstract
Biofilm formation may be important in the colonization of the food-processing environment by the food-borne pathogen Listeria monocytogenes. Listeria monocytogenes 568 formed adherent multicellular layers on a variety of test surfaces following growth at 37 degrees C with multiple transfers of the test surface into fresh medium. Microscopic examination of these adherent layers suggest that the cells were surrounded by extracellular material. The presence of a carbohydrate containing extracellular polymeric matrix was confirmed by labelling hydrated adherent layers with fluorescein-conjugated concanavalin A, indicating that these adherent layers are biofilms. To gain insight into the physiological state of cells in these biofilms, the proteomes from biofilm- and planktonic-grown cells from the same cultures were compared using 2-dimensional polyacrylamide gel electrophoresis. Nineteen proteins, which exhibited higher levels of expression in biofilm-grown cells, were successfully identified from the 2-D gels using a combination of MALDI-TOF and MS/MS. Proteins that were found to be more highly expressed in biofilm-grown cells were involved in stress response, envelope and protein synthesis, biosynthesis, energy generation, and regulatory functions. In biofilm-grown cells, many proteins in the pH range 4-6 ran as multiple spots arranged horizontally across the 2-D gels.
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| http://dx.doi.org/10.1139/w04-129 | DOI Listing |
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