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Detection and Quantification of Bacterial Autofluorescence at the Single-Cell Level by a Laboratory-Built High-Sensitivity Flow Cytometer.

Authors :
Lingling Yang
Yingxing Zhou
Shaobin Zhu
Tianxun Huang
Lina Wu
Xiaomei Yan
Source :
Analytical Chemistry. 2/7/2012, Vol. 84 Issue 3, p1526-1532. 7p.
Publication Year :
2012

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 comparable and larger size than bacteria in parallel. Dithionite reduction and air re-exposure experiments verified that the green autofluorescence mainly originates from endogenous flavins. Bacterial autofluorescence was quantified by calibrating the fluorescence intensity of nanospheres with known FITC equivalents, and autofluorescence distribution was generated by analyzing thousands of bacterial cells in 1 min. Among the eight bacterial strains tested, it was found that bacterial autofluorescence can vary from 80 to 1400 FITC equivalents per cell, depending on the bacterial species, and a relatively large cell-to-cell variation in autofluorescence intensity was observed. Quantitative measurements of bacterial autofluorescence provide a reference for the background signals that can be expected with bacteria, which is important in guiding studies of low-level gene expression and for the detection of low-abundance biological molecules in individual bacterial cells. This paper presents the first quantification of bacterial autofluorescence in FITC equivalents. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00032700
Volume :
84
Issue :
3
Database :
Academic Search Index
Journal :
Analytical Chemistry
Publication Type :
Academic Journal
Accession number :
71849998
Full Text :
https://doi.org/10.1021/ac2031332