Fluorescence resonance energy transfer imaging via fluorescence polarization measurement.

Fluorescence resonance energy transfer (FRET) has become a widely used spectroscopic tool for detecting molecular interactions and molecular proximity in solution, as well as in membranes. On the other hand, fluorescence polarization (FP) is a convenient measure: ratiometric and simple to execute. This work presents a novel methodology for determining energy transfer efficiency (E) via FP measurement.

Energy transfer efficiency on lymphocytes of leukemia patients measured by fluorescence polarization.

Measurements of fluorescence resonance energy transfer efficiency (E), via fluorescence polarization, have been applied to distinguish between chronic lymphocytic leukemia (CLL) patients and healthy persons. Capping of Concanavalin-A receptors is more pronounced in normal lymphocytes than in those of CLL patients. Membrane capping decreases the distance between donor and acceptor molecules embedded in the membrane (r), and thus increases the monitored energy transfer efficiency (E approximately 1/r6).

Ratiometric fluorescence polarization as a cytometric functional parameter: theory and practice.

The use of ratiometric fluorescence polarization (RFP) as a functional parameter in monitoring cellular activation is suggested, based on the physical phenomenon of fluorescence polarization dependency on emission wavelengths in multiple (at least binary) solutions. The theoretical basis of this dependency is thoroughly discussed and examined via simulation. For simulation, aimed to imitate a fluorophore-stained cell, real values of the fluorescence spectrum and polarization of different single fluorophore solutions were used.

Fluorescence resonance energy transfers measurements on cell surfaces via fluorescence polarization.

A method has been developed for the determination of the efficiency of fluorescence resonance energy transfer efficiency between moieties located on cell surfaces by performing individual cell fluorescence polarization (FP) measurements. The absolute value of energy transfer efficiency (E) is calculated on an individual cell basis. The examination of this methodology was carried out using model experiments on human T lymphocyte cells.

Carboxyfluorescein as a fluorescent probe for cytoplasmic effects of lymphocyte stimulation.

The application of carboxyfluorescein (CF), as an impermeable fluorescent probe for lymphocyte stimulation with phytohaemagglutinin (PHA), is investigated by following a decrease in the degree of fluorescence polarization. Since CF does not enter the mitochondria, the present results indicate that the measured effect of stimulation occurs in the cytoplasm. The results also reveal that the fluorescence yield of intracellular CF is smaller than that of extracellular CF.