Variation of photostability of DNA-sensitive styrylcyanine dyes caused by N-alkyl functionalization

Aim. Synthesis and characterization of benzothiazole-based styrylcyanines functionalized by different N-alkyl tail groups as potential photostable probes for nucleic acids (NA) detection. Methods. Chemical synthesis, absorption and fluorescence spectroscopy, irradiation with a visible light source,...

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Bibliographic Details
Published in:Biopolimery i kletka 2020, Vol.36 (2), p.146-160
Main Authors: Snihirova, Y. V., Losytskyy, M. Yu, Kryvorotenko, D. V., Kuperman, M. V., Moshynets, O. V., Yarmoluk, S. M., Mokhir, A., Kovalska, V. B.
Format: Article
Language:English
Subjects:
Benzothiazole
Confocal microscopy
Cytoplasm
Deoxyribonucleic acid
DNA
DNA probes
Dyes
Fluorescence spectroscopy
Mesenchyme
Microscopy
Nucleic acids
Nucleoli
Ribonucleic acid
RNA
Stem cells
Tails
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Summary:Aim. Synthesis and characterization of benzothiazole-based styrylcyanines functionalized by different N-alkyl tail groups as potential photostable probes for nucleic acids (NA) detection. Methods. Chemical synthesis, absorption and fluorescence spectroscopy, irradiation with a visible light source, confocal microscopy. Results. Styrylcyanines are weakly fluorescent when free, but in the presence of NAthey showemission intensity increase of up to 83 times; the most pronounced emission increase was observed for the dyes Sbt1 and Sbt3 bearing positively charged N-alkyl tail group. Photostability of the dyes Sbt1 and Sbt3 when non-bound to NA is low while binding to DNA results in a strong increase in their photostability. Dyes with uncharged and negatively charged N-alkyl groups are more photostable when free, and DNA slightly affects their photostability. This is also due to low binding of dyes with negatively charged tail groups to DNA. Sbt1 brightly stains cytoplasm and nuclearcomponents (probably nucleoli)of mesenchymal stem cells; therefore this dye may be used to visualize cytoplasmic RNA and nuclear RNAclusters. Conclusions. Variation of chemical nature of N-alkyl tail group allows to design styryl cyanines of different photostability. Functionalized styrylcyanine dyes may be used for detection of nucleic acids insolution and visualization of RNA-containing components in microscopy.
ISSN:0233-7657
1993-6842
DOI:10.7124/bc.000A28