2012
DOI: 10.1021/ac2031332
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Detection and Quantification of Bacterial Autofluorescence at the Single-Cell Level by a Laboratory-Built High-Sensitivity Flow Cytometer

Abstract: Cellular autofluorescence can affect the sensitivity of fluorescence microscopic or flow cytometric assays by interfering with or even precluding the detection of low-level specific fluorescence. Here we developed a method to detect and quantify bacterial autofluorescence in the green region of the spectrum at the single-cell level using a laboratory-built high-sensitivity flow cytometer (HSFCM). The detection of the very weak bacterial autofluorescence was confirmed by analyzing polystyrene beads of comparabl… Show more

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Cited by 52 publications
(46 citation statements)
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“…Their contribution to eukaryotic cellular autofluorescence started long ago to be addressed [16] and different methods to separate their fluorescence from exogenous GFP reporters are currently explored [17], [13]. In prokaryotes the focus has been mainly on internal flavin driven autofluorescence, for example for bacterial cell counting with microfluidic diagnostic devices [18] or for autofluorescence quantification with dedicated flow-cytometers [19].…”
Section: Discussionmentioning
confidence: 99%
“…Their contribution to eukaryotic cellular autofluorescence started long ago to be addressed [16] and different methods to separate their fluorescence from exogenous GFP reporters are currently explored [17], [13]. In prokaryotes the focus has been mainly on internal flavin driven autofluorescence, for example for bacterial cell counting with microfluidic diagnostic devices [18] or for autofluorescence quantification with dedicated flow-cytometers [19].…”
Section: Discussionmentioning
confidence: 99%
“…As the results, the microbial intensity was found to be similar to the autofluorescence intensity of some kinds of PSMs Fig. 2 as producing background noise in high-sensitivity analysis using fluorescence dye Yang et al, 2012 . We have added information about artificial particles as comparable reference particles with regard to microbial autofluorescence intensity.…”
mentioning
confidence: 54%
“…As recently demonstrated (Apothéloz-Perret-Gentil et al, 2013), at least one species of foraminifera is able to emit green autofluorescence (GAF) of unknown origin. On the other hand, GAF is widely distributed among microalgae, including diatoms (Tang & Dobbs, 2007) and bacteria (Rost, 1995;Yang et al, 2012). Consequently, we do not exclude the possibility that green autofluorescent bodies in P. niveum are derived from its food.…”
Section: Functional Morphologymentioning
confidence: 94%