Use of a fluorescent redox probe for direct visualization of actively respiring bacteria.

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Appl Environ Microbiol. 1992 June; 58(6): 1801-1808

Use of a fluorescent redox probe for direct visualization of actively respiring bacteria.

G G Rodriguez, D Phipps, K Ishiguro and H F Ridgway

Biotechnology Research Department, Orange County Water District, Fountain Valley, California 92728-8300.

ABSTRACT

The redox dye 5-cyano-2,3-ditolyl tetrazolium chloride (CTC)was employed for direct epifluorescent microscopic enumerationof respiring bacteria in environmental samples. Oxidized CTCis nearly colorless and is nonfluorescent; however, the compoundis readily reduced via electron transport activity to fluorescent,insoluble CTC-formazan, which accumulates intracellularly. Bacteriacontaining CTC-formazan were visualized by epifluorescence microscopyin wet-mount preparations, on polycarbonate membrane filtersurfaces, or in biofilms associated with optically opaque surfaces.Counterstaining of CTC-treated samples with the DNA-specificfluorochrome 4',6-diamidino-2-phenylindole allowed enumerationof active and total bacterial subpopulations within the samepreparation. Municipal wastewater, groundwater, and seawatersamples supplied with exogenous nutrients yielded CTC countsthat were generally lower than total 4',6-diamidino-2-phenylindolecounts but typically equal to or greater than standard heterotrophic(aerobic) plate counts. In unsupplemented water samples, CTCcounts were typically lower than those obtained with the heterotrophicplate count method. Reduction of CTC by planktonic or biofilm-associatedbacteria was suppressed by formaldehyde, presumably becauseof inhibition of electron transport activity and other metabolicprocesses. Because of their bright red fluorescence (emissionmaximum, 602 nm), actively respiring bacteria were readily distinguishablefrom abiotic particles and other background substances, whichtypically fluoresced at shorter wavelengths. The use of CTCgreatly facilitated microscopic detection and enumeration ofmetabolically active (i.e., respiring) bacteria in environmentalsamples.

Appl Environ Microbiol. 1992 June; 58(6): 1801-1808

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