Abstract
A novel fluorescent molecular probe possessing styryl, sulfonyl, and cyanopyranyl moieties that was termed compound 1 was designed and synthesized to detect proteins through noncovalent bonding. Compound 1 did not produce fluorescence emission in the absence of proteins. However, its fluorescence spectrum showed a dramatic increase in the fluorescence intensity and strong orange emission after the addition of BSA. These changes were caused by intramolecular charge transfer (ICT). The fluorescence intensities of compound 1 were plotted as a function of the protein concentrations. A good linear relationship was observed up to a protein concentration of 325 mug/mL, and the detection limit was 70 ng/mL under the given assay conditions; this detection limit was higher than that of previously reported compounds. To demonstrate the application of compound 1, proteins in an SDS-PAGE gel were stained with compound 1 and were successfully imaged with a higher sensitivity and shorter staining operation time as compared to those of the silver staining method and SYPRO Ruby staining method. Thus, easy and high-sensitivity protein detection can be performed with the fluorescent probe, and this probe is ideally suited to proteomic applications.
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