NIR-emissive carbon nanodots as a tool to mark ribosomal RNA and nucleolus components using super-resolution microscopy.

Abstract

Ribosomal RNA (rRNA) plays a key role in protein synthesis and ribosomal biogenesis. The exclusively used commercial dye for RNA staining is SYTO RNASelect, which works in fixed cells only. To overcome this constraint, we synthesized NIR-emissive, highly photostable, and biocompatible carbon nanodots (CNDs) as a fluorescent biomarker for rRNA. The synthesized CNDs could stain rRNA in both live and fixed cells. We were able to visualize rRNA at different sites in eukaryotic cells using super-resolution microscopy (SRM). The CNDs localized rRNA in the dense fibrillar components (DFCs) of the nucleolus, nuclear membrane, and rough endoplasmic reticulum (RER). The super-resolved hollow ring-structured DFC with an FWHM of 140 nm, nuclear membrane with an FWHM of 120 nm, and ER with an FWHM of 115 nm were observed. We further found a marked contrast between the pre-RNA synthesized in cancer cells and normal cells. We believe that these CNDs have great potential in rRNA imaging and comprehending the complex relationships between rRNA dynamics and basic biological processes, disease development, or drug interactions.