论文信息 - Cytosine Detection by a Fluorescein‐Labeled Probe Containing Base‐Discriminating Fluorescent Nucleobase

Cytosine Detection by a Fluorescein‐Labeled Probe Containing Base‐Discriminating Fluorescent Nucleobase

We report on a new method for the detection of a base at a specific site in a DNA sequence by monitoring the fluorescence emission of fluorescein. To achieve this goal, we developed a new base‐discriminating fluorescent (BDF) nucleobase, naphthodeazaadenine (NDA). The fluorescence spectrum of the duplex possessing a cytosine base as a complementary base of NDA showed a fluorescence peak at 383 nm when using an excitation wavelength of 350 nm. When the complementary base of NDA was one of the other bases, the fluorescence intensity was very low. The fluorescence emission spectrum of NDA overlapped with the fluorescence excitation spectrum of fluorescein in the wavelength range of 400–500 nm. Thus, we designed FRET‐BDF probes containing NDA as the FRET donor and fluorescein as the acceptor. The interaction of these two fluorophores, which are separated by defined base pairs, allowed an efficient energy transfer that resulted in a dominant fluorescence emission of fluorescein at 520 nm when using an excitation wavelength of 350 nm. Fluorescence emission from FRET‐BDF probes was observed only when the complementary base of NDA is C, thus achieving a clear distinction of a C base on the complementary DNA strand. However, the general utility of our method is limited due to the quenching of the NDA fluorescence by a G/C base pair flanking NDA.

[1] Akimitsu Okamoto,et al. Design of base-discriminating fluorescent nucleoside and its application to t/c SNP typing. , 2003, Journal of the American Chemical Society.

[2] I. Nazarenko,et al. Effect of primary and secondary structure of oligodeoxyribonucleotides on the fluorescent properties of conjugated dyes. , 2002, Nucleic acids research.

[3] R. Mathies,et al. Energy-transfer fluorescent reagents for DNA analyses. , 1997, Current opinion in biotechnology.

[4] Fred Russell Kramer,et al. Efficiencies of fluorescence resonance energy transfer and contact-mediated quenching in oligonucleotide probes. , 2002, Nucleic acids research.

[5] Akimitsu Okamoto,et al. Clear distinction of purine bases on the complementary strand by a fluorescence change of a novel fluorescent nucleoside. , 2003, Journal of the American Chemical Society.

[6] D. Millar,et al. Fluorescence studies of DNA and RNA structure and dynamics. , 1996, Current opinion in structural biology.

[7] Yusuke Nakamura,et al. Gene-based SNP discovery as part of the Japanese Millennium Genome Project: identification of 190 562 genetic variations in the human genome , 2002, Journal of Human Genetics.

[8] Kazuki Tainaka,et al. Detection of A/G Single Nucleotide Alteration in RNA Using Base-discriminating Fluorescent Oligodeoxynucleotides , 2003 .

[9] Akimitsu Okamoto,et al. Synthesis and properties of a novel fluorescent nucleobase, naphthopyridopyrimidine , 2003 .