ABSTRACT
The application of probes for optical imaging is becoming popular as they have high safety and good biocompatibility. We prepared two kinds of glycosyl-modified diporphyrins, and their potentials as fluorescent probes were tested for the first time. After preparation of the glycosyl-modified porphyrin monomers, Ag-promoted coupling of the monomers was used to obtain glucose-modified porphyrin dimer (GPD) and lactose-modified porphyrin dimer (LPD). The strong interaction between the two porphyrin rings achieves red-shifted emission, and thus circumvents autofluorescence and light-scattering in biological samples. Although the glycosylation improves solubility, it also yielded selective attachment to cell membranes, and to chorions of early developmental-stage zebrafish. Patch-clamp experiments revealed the biocompatibility and low toxicity of GPD and LPD. Moreover, an in vivo imaging experiment provided direct evidence that zebrafish chorion contains sugar-binding proteins. The modification and derivatization make porphyrins potential bioimaging probes for specific optical imaging.