AI Article Synopsis
- Rapid fluorescence techniques were tested for identifying bacterial contamination in papermaking chemicals like starch and resin-based sizes.
- Fluorescent probes, especially LIVE/DEAD and SYBR Green, proved most effective in distinguishing viable from non-viable bacterial cells under microscopy and flow cytometry.
- While fluorescence microscopy gave bacterial counts similar to traditional plate counts, flow cytometry often showed lower counts, with detection limits varying between the two methods.
Article Abstract
Rapid fluorescence techniques were evaluated for the detection of bacterial contaminants in papermaking chemicals including starch and the resin-based sizes and starch slurries used in the paper industry. Viable and non-viable bacterial cells were visualised by fluorescent probes and detected by epifluorescence microscopy and flow cytometry. The best discrimination ability was obtained with the fluorescent probes LIVE/DEAD and SYBR Green, based on the staining of cellular nucleic acid, and ChemChrome V3, which demonstrated cellular enzymatic activity. The process samples had to be diluted and filtered before fluorescence staining and analysis because they were viscous and contained solid particles. Fluorescence microscopic counts of bacteria in highly contaminated process samples were similar to plate counts, but flow cytometric enumeration of bacterial cells in process samples yielded 2- to 10-fold lower counts compared with plate counts, depending on the consistency of the sample. The detection limits in flow cytometric analysis and in epifluorescence microscopy were 10(3)-10(6) cells ml(-1) and 10(5)-10(6) cells ml(-1), respectively. Intrinsic bacterial contamination was detectable with fluorescence techniques and highly contaminated process samples could be analysed with fluorescence methods.
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| http://dx.doi.org/10.1007/s10295-003-0046-0 | DOI Listing |
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