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  • Title: DNA Stains as Surrogate Nucleobases in Fluorogenic Hybridization Probes.
    Author: Hövelmann F, Seitz O.
    Journal: Acc Chem Res; 2016 Apr 19; 49(4):714-23. PubMed ID: 26963493.
    Abstract:
    The increasing importance assigned to RNA dynamics in cells and tissues calls for probe molecules that enable fluorescence microscopy imaging in live cells. To achieve this goal, fluorescence dyes are conjugated with oligonucleotides so as to provide strong emission upon hybridization with the target molecule. The impressive 10(3)-fold fluorescence intensification observed when DNA stains such as thiazole orange (TO) interact with double-stranded DNA is intriguing and prompted the exploration of oligonucleotide conjugates. However, nonspecific interactions of DNA stains with polynucleotides tend to increase background, which would affect the contrast achievable in live-cell imaging. This Account describes the development of DNA-stain-labeled hybridization probes that provide high signal-to-background. We focus on our contributions in context with related advances from other laboratories. The emphasis will be on the requirements of RNA imaging in live cells. To reduce background, intercalator dyes such as TO were appended to peptide nucleic acid (PNA), which is less avidly recognized by DNA stains than DNA/RNA. Constraining the TO dye as a nucleobase surrogate in "forced intercalation (FIT) probes" improved the target specificity, presumably by helping to prevent unspecific interactions. The enforcement of TO intercalation between predetermined base pairs upon formation of the probe-target duplex provided for high brightness and enabled match/mismatch selectivity beyond stringency of hybridization. We show examples that highlight the use of PNA FIT probes in the imaging of mRNA, miRNA, and lncRNA in living cells. The "FIT approach" was recently extended to DNA probes. Signal brightness can become limiting when low-abundance targets ought to be visualized over cellular autofluorescence. We discuss strategies that further the brightness of signaling by FIT probes. Multilabeling with identical dyes does not solve the brightness issue. To avoid self-quenching, we combined two different yet spectrally overlapping fluorescent base surrogates. A hybridization-sensitive dye serves as a light collector that transfers energy to a brightly emissive acceptor dye. To improve the brilliance of single-dye probes, the "TO-nucleotide" was accompanied by an adjacent locked nucleic acid (LNA) unit. The LNA-constrained FIT probes are responsive and bright, enabling the tracking of mRNA transport in living tissue. We also show that the color repertoire of FIT probes is not restricted to the green-emissive TO but can be expanded to cyan and red. A new base surrogate (4,4-linked bisquinoline) provided up to 195-fold enhancement of the fluorescence.
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