A straightforward method to enhance water solubility of fluorescent organic dyes (cyanines and rhodamines) by a postsynthetic chemical derivatization of their carboxylic acid functionality with an original disulfonated heterobifunctional linker is described. Significant water solubility enhancement is achieved without compromising either the photophysical properties (especially large molar extinction coefficients and high quantum yields) or bioconjugation efficiency of the parent non-water-soluble fluorophores. The results both demonstrate the strong potential of these new compounds as fluorescent labels for a broad range of biotechnology and biomedical applications and illustrate the utility of such an easy-to-handle water-solubizing group.
The synthesis and photo-physical properties of an original bis-pyridinylpyrazine chromophore efficiently sensitising europium(III) and samarium(III) are described. The corresponding lanthanide(III) complexes display in aqueous solutions a maximum excitation wavelength which is significantly red-shifted compared to the usual terpyridine-based chelates, and a valuable luminescence brightness above 2,000 dm(3) mol(-1) cm(-1) at 345 nm was obtained with a europium(III) derivative. Further functionalisation with three different bioconjugatable handles was also investigated and their ability to efficiently label a model hexapeptide was evaluated and compared. Finally, the best bioconjugatable europium(III) chelate was used in representative labelling experiments involving monoclonal antibodies and the luminescence features of the corresponding bioconjugates remained satisfactory.
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