Novel lipophilic tracking dyes for monitoring cell proliferation.

The advent of contemporary digital instrumentation has enhanced both the potential and the complexity of flow cytometric experiments, allowing for the detailed dissection of immune cell subsets and their functions. The use of cell tracking labels such as PKH26 and CFSE has been important in observing such cellular functions, but their visible emission characteristics have limited the design of such analyses. As the demand for multiparametric flow cytometry intensifies, it will become increasingly important to utilize a broader range of cell tracking reagents to optimize the measurement of fluorescence signals and to provide flexibility in the use of commercially available fluorochrome - antibody combinations.

Long-distance three-color neuronal tracing in fixed tissue using NeuroVue dyes.

Dissecting development of neuronal connections is critical for understanding neuronal function in both normal and diseased states. Charting the development of the multitude of connections is a monumental task, since a given neuron typically receives hundreds of convergent inputs from other neurons and provides divergent outputs for hundreds of other neurons. Although progress is being made utilizing various mutants and/or genetic constructs expressing fluorescent proteins like GFP, substantial work remains before a database documenting the development and final location of the neuronal pathways in an adult animal is completed.

CellVue Claret, a new far-red dye, facilitates polychromatic assessment of immune cell proliferation.

Flow cytometric analyses of immune cell proliferation, differentiation, and function are limited by the number of different fluorochromes that can be resolved simultaneously. Additional colors to expand functional analytic capability will facilitate higher dimensional analyses of heterogeneous cell populations by basic and clinical scientists. Our aim in these studies was to evaluate CellVue Claret, a fluorescent, far-red emitting, membrane intercalating dye (excitation maximum: 655 nm, emission maximum 677 nm), as an alternative and/or complementary probe to PKH26 and CFSE(1) for polychromatic studies of immune cell proliferation and function.