Frequency-domain flow cytometry: fluorescence-lifetime-based sensing technology for analyzing cells and chromosomes labeled with fluorescent probes

John A. Steinkamp; Harry A. Crissman; Bruce E. Lehnert; Nancy M. Lehnert; Chiranjit Deka

doi:10.1117/12.273538

7 May 1997 Frequency-domain flow cytometry: fluorescence-lifetime-based sensing technology for analyzing cells and chromosomes labeled with fluorescent probes

John A. Steinkamp, Harry A. Crissman, Bruce E. Lehnert, Nancy M. Lehnert, Chiranjit Deka

Author Affiliations +

Proceedings Volume 2980, Advances in Fluorescence Sensing Technology III; (1997) https://doi.org/10.1117/12.273538
Event: BiOS '97, Part of Photonics West, 1997, San Jose, CA, United States

Abstract

A flow cytometer has been developed that combines flow cytometry (FCM) and fluorescence lifetime spectroscopy measurement principles to provide unique capabilities for making frequency-domain, excited-state lifetime measurements on cells/chromosomes labeled with fluorescent probes, while preserving conventional FCM capabilities. Cells are analyzed as they intersect a high-frequency, intensity-modulated (sine-wave) laser excitation beam. Fluorescence signals are processed by (1) low-pass filtering to obtain conventional FCM dc-excited signals and (2) phase-sensitive detection electronics to resolve heterogeneous fluorescence based on differences in lifetimes expressed as phase-shifts and to quantify fluorescence lifetimes in real time. Processed signals are displayed as frequency distribution histograms and bivariate contour diagrams. Recent examples of biological applications include: (1) lifetime histograms recorded on autofluorescent human lung fibroblasts, murine thymus cells labeled with antibodies conjugated to fluorophores for studying fluorescence quenching as a function of antibody dilution and F/P ratio, and on cultured cells, nuclei, and chromosomes stained with DNA-binding fluorochromes and (2) phase-resolved, fluorescence signal- intensity histograms recorded on autofluorescent HLFs labeled with immunofluorescence markers and on murine thymus cells labeled with Red 613-antiThy 1.2 and propidium iodide (PI positive `dead' cells) to demonstrate the resolution of signals from highly overlapping emission spectra. This technology will increase the number of fluorescent markers usable in multilabeling studies and lifetimes can be used as spectroscopic probes to study the interaction of markers with their targets, each other, and the surrounding microenvironment.

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John A. Steinkamp, Harry A. Crissman, Bruce E. Lehnert, Nancy M. Lehnert, and Chiranjit Deka "Frequency-domain flow cytometry: fluorescence-lifetime-based sensing technology for analyzing cells and chromosomes labeled with fluorescent probes", Proc. SPIE 2980, Advances in Fluorescence Sensing Technology III, (7 May 1997); https://doi.org/10.1117/12.273538

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