Preparation of fluorescent nucleic acids generating unique emission by primer extension reaction using pyrene-labeled deoxyuridine triphosphate derivatives

ABSTRACT : Fluorescent nucleic acids were prepared utilizing the polymerase extension (PEX) reaction to incorporate fluorescent molecules. 2’-Deoxyuridine triphosphate (dUTP) derivatives possessing pyrene molecules as fluorophores were synthesized using the aqueous-phase Sonogashira coupling between 5-Iodo-dUTP and acetylene-linked pyrene molecules. The incorporation of the pyrene (Py)-labeled deoxyuridine triphosphates (PyU) into DNA. into DNA by polymerase was evaluated by polyacrylamide gel electrophoresis, demonstrating that the PyU can work as a good substrate for the PEX reaction. The fluorescent properties of the functionalized DNA prepared by the PEX reaction were characterized by steady-state fluorescence measurements. The Py-conjugated DNA showed typical emission spectra of the pyrene, and the DNA with two pyrene molecules connected to each other by a diethylene glycol linker exhibited a presence of the functional group at this position. broadened emission attributed to the electronic interaction between the Py molecules. Nucleic acids modified with functional groups/molecules are of significant interest as potential applications in chemical biology, diagnostic tools 1or nanotechnology and material science.

[1]  M. Hollenstein Nucleoside Triphosphates — Building Blocks for the Modification of Nucleic Acids , 2012, Molecules.

[2]  P. Orság,et al.  GFP-like fluorophores as DNA labels for studying DNA-protein interactions. , 2012, The Journal of organic chemistry.

[3]  E. Kool,et al.  DNA-multichromophore systems. , 2012, Chemical reviews.

[4]  R. Pohl,et al.  Synthesis and photophysical properties of biaryl-substituted nucleos(t)ides. Polymerase synthesis of DNA probes bearing solvatochromic and pH-sensitive dual fluorescent and 19F NMR labels. , 2012, The Journal of organic chemistry.

[5]  P. Hrdlicka,et al.  Pyrene-functionalized oligonucleotides and locked nucleic acids (LNAs): tools for fundamental research, diagnostics, and nanotechnology. , 2011, Chemical Society reviews.

[6]  M. Fojta,et al.  Nucleobase modification as redox DNA labelling for electrochemical detection. , 2011, Chemical Society reviews.

[7]  Y. Tor,et al.  Fluorescent analogs of biomolecular building blocks: design, properties, and applications. , 2010, Chemical reviews.

[8]  R. Häner,et al.  Photophysical characterization of oligopyrene modules for DNA-based nanosystems , 2009, Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology.

[9]  M. Fojta,et al.  Cross-coupling reactions of nucleoside triphosphates followed by polymerase incorporation. Construction and applications of base-functionalized nucleic acids. , 2008, Organic & biomolecular chemistry.

[10]  M. Fojta,et al.  Ferrocenylethynyl derivatives of nucleoside triphosphates: synthesis, incorporation, electrochemistry, and bioanalytical applications. , 2007, Chemistry.

[11]  Michael Famulok,et al.  Functional aptamers and aptazymes in biotechnology, diagnostics, and therapy. , 2007, Chemical reviews.

[12]  Chih-Chieh Chen,et al.  (PS)2: protein structure prediction server , 2006, Nucleic Acids Res..

[13]  H. Wagenknecht,et al.  Structure-sensitive and self-assembled helical pyrene array based on DNA architecture. , 2006, Angewandte Chemie.

[14]  S. Silverman,et al.  Fluorescence of covalently attached pyrene as a general RNA folding probe , 2006, Nucleic acids research.

[15]  Michael Famulok,et al.  A versatile toolbox for variable DNA functionalization at high density. , 2005, Journal of the American Chemical Society.

[16]  A. Okamoto,et al.  Pyrene-labeled base-discriminating fluorescent DNA probes for homogeneous SNP typing. , 2004, Journal of the American Chemical Society.

[17]  M. Famulok,et al.  Functionalized DNA: A New Replicable Biopolymer. , 2001, Angewandte Chemie.

[18]  B. Angerer,et al.  Progress towards single-molecule sequencing: enzymatic synthesis of nucleotide-specifically labeled DNA. , 2001, Journal of biotechnology.

[19]  J. Ludwig,et al.  Rapid and efficient synthesis of nucleoside 5'-0-(1-thiotriphosphates), 5'-triphosphates and 2',3'-cyclophosphorothioates using 2-chloro-4H-1,3,2-benzodioxaphosphorin-4-one , 1989 .

[20]  K. Yamana,et al.  2'-Pyrene modified oligonucleotide provides a highly sensitive fluorescent probe of RNA. , 1999, Nucleic acids research.