Abstract

Small molecular weight fluorescent probes capable of binding to RNAs have been powerful tools for understanding the intracellular behaviors of RNAs. In this chapter, we describe the fluorescence imaging of nucleolar RNA in living cells using deep-red emissive probes with benzo[c,d]indole-quinoline (BIQ) monomethine cyanine scaffolds. These probes feature a significant fluorescence "off-on" ability upon binding to RNAs (>100-fold) in the deep-red spectral region (λem>650nm). In addition, they have many advantages for fluorescence sensing of RNAs and nucleolar RNA imaging, such as longer emission wavelength, higher photostability, and better counterstaining compatibility for live cell imaging, compared to a commercially available RNA-binding probe, SYTO RNA select.

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