ABSTRACT
Cationic oligopeptides with amino groups were found to function as synthetic nucleolar localization signals for directing various fluorophores to the nucleolus with high selectivity in the cells with a view toward the development of nucleolus-staining probes.
ABSTRACT
Small molecular weight probes that can show a fluorescence signaling response upon binding to RNAs are promising for RNA imaging in living cells. Live-cell RNA imaging probes that can achieve a large light-up ability (>100-fold) and high Φbound value for RNA (>0.50) have been rarely reported to date. Here, benzo[c,d]indole-oxazolopyridine (BIOP), an unsymmetrical monomethine cyanine analogue, was newly developed as a bright and large light-up probe for imaging of nucleolar RNA in living cells. BIOP served as a yellow-emissive probe (λem = 570 nm) and exhibited a significant light-up response upon RNA binding (770-fold) with a high Φbound value (0.52). We demonstrated the advantages of BIOP over a commercially available RNA-staining probe, SYTO RNA select, for robust and sensitive RNA sensing by a systematic comparison of fluorescent properties for RNA. In addition, BIOP was found to possess high membrane permeability and low cytotoxicity in living cells. The examination of live-cell imaging revealed that BIOP exhibited emission in the nucleolus upon binding to nucleolar RNA much stronger than that of SYTO RNA select. Furthermore, BIOP facilitated the highly sensitive imaging of nucleolar RNA, in which 50 nM BIOP can stain nucleolar RNA in living cells with a 20 min incubation.
