Simultaneous analysis of the cyan, yellow and green fluorescent proteins by flow cytometry using single-laser excitation at 458 nm

Abstract

Background: Development of spectrally distinct green fluorescent protein (GFP) variants has allowed for simultaneous flow cytometric detection of two different colored mutants expressed in a single cell. However, the dual-laser methods employed in such experiments are not widely applicable since they require a specific, expensive laser, and single-laser analysis at 488 nm exhibits considerable spectral overlap. The purpose of this work was to evaluate detection of enhanced cyan fluorescent protein (ECFP) in combination with the enhanced green (EGFP) and enhanced yellow (EYFP) fluorescent proteins by flow cytometry. Methods: Cells transfected with expression constructs for EGFP, EYFP, or ECFP were analyzed by flow cytometry using excitation wavelengths at 458, 488, or 514 nm. Fluorescence signals were separated with a custom optical filter configuration: 525 nm shortpass and 500 nm long-pass dichroics; 480/30 (ECFP), 510/20 (EGFP) and 550/30 (EYFP) bandpasses; 458 nm laser blocking filters. Results: All three fluorescent proteins when expressed individually or in combination in living cells were excited by the 458 nm laser line and their corresponding signals could be electronically compensated in real time. Conclusions: This method demonstrates the detection of three fluorescent proteins expressed simultaneously in living cells using single laser excitation and is applicable for use on flow cytometers equipped with a tunable argon ion laser.