Jan Nygren scite author profile

The interaction of the fluorescent dye thiazole orange (TO) with nucleic acids is characterized. It is found that TO binds with highest affinity to double-stranded (ds) DNA [log (K) approximately 5.5 at 100 mM salt], about 5-10 times weaker to single-stranded polypurines, and further 10-1000 times weaker to single-stranded polypyrimidines. TO binds as a monomer to dsDNAs and poly(dA), both as a monomer and as a dimer to poly(dG) and mainly as a dimer to poly(dC) and poly(dT). The fluorescence quantum yield of TO free in solution is about 2 x 10(-4), and it increases to about 0.1 when bound to dsDNA or to poly(dA), and to about 0.4 when bound to poly(dG). Estimated quantum yields of TO bound to poly(dC) and poly(dT) are about 0.06 and 0.01, respectively. The quantum yield of bound TO depends on temperature and decreases about threefold between 5 and 50 degrees C.

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UV–Vis spectroscopic and chemometric study on the aggregation of ionic dyes in water

Antonov

et al. 1999

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The interactions between the fluorescent dye thiazole orange and DNA

1998

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Free-Probe Fluorescence of Light-up Probes

et al. 2001

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The fluorescence enhancement of light-up probes (thiazole orange (TO) conjugated peptide nucleic acids (PNAs)) upon hybridization to target nucleic acid depends on the probe sequence, mainly due to large variations in free-probe fluorescence. Here we study three probes where the fluorescence in free state varies more than 50-fold. We find that this variation is due to a fraction that has TO intramolecularly "back-bound" to the PNA bases. The intramolecular affinity constant for this unimolecular interaction was determined by temperature titrations using absorption spectroscopy, and the fluorescence quantum yields of the probes in back-bound conformation were calculated. The molar ratio of probes in back-bound conformation was 0.70-0.96 at 30 degrees C and 0.40-0.73 at 60 degrees C, and the fluorescence quantum yield in back-bound conformation varied between 0.0020 and 0.077 at 30 degrees C, and 0.00065-0.029 at 60 degrees C. These data show that the variation in free-probe fluorescence depends mainly on the fluorescence quantum yield of the probe in back-bound conformation and to a much lesser extent on the tendency of the probe to adopt the back-bound conformation. With increasing temperature the free-probe fluorescence decreases owing to both reduced degree of back-binding and a decrease of the fluorescence quantum yield in back-bound conformation.

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Jan Nygren

Absorption and fluorescence properties of fluorescein

The interactions between the fluorescent dye thiazole orange and DNA

UV–Vis spectroscopic and chemometric study on the aggregation of ionic dyes in water

The interactions between the fluorescent dye thiazole orange and DNA

Free-Probe Fluorescence of Light-up Probes

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