Abstract
Fluorescent dyes and probes are key components in multiphoton based fluorescence microscopy imaging of biological samples. While many commercially available fluorescent dyes have sufficed, most exhibit relatively low two-photon absorption (2PA) cross-section values in the tunability range of Ti:sapphire lasers commonly used in multiphoton microscopy imaging. Furthermore, available fluorophores may be plagued with either low fluorescence quantum yields and/or the additional problem of rapid photobleaching upon exposure to the high peak powers provided by fs laser sources. In order to address the demand for better performing dyes for two-photon based imaging, we have prepared a new series of reactive fluorophores tailored for multiphoton imaging. These fluorophores are based upon the fluorene ring system, known to exhibit high fluorescence quantum yields, typically > 0.7, and possess high photostability. They have been functionalized with moieties to act, e.g., as efficient amine-reactive fluorescent probes for the covalent attachment onto, e.g., proteins and antibodies. The synthesis and the single-photon spectral characteristics, as well as measured two-photon absorption cross sections of the reactive fluorophores in solution will be presented. Spectral characterizations of bovine serum albumin (BSA) conjugated with the new reactive probe will also be presented.
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