Templated Chemistry for Sequence‐Specific Fluorogenic Detection of Duplex DNA |
| |
Authors: | Hao Li Raphael M. Franzini Christopher Bruner Prof. Dr. Eric T. Kool |
| |
Affiliation: | Department of Chemistry, Stanford University, Stanford, CA 94305‐5080 (USA), Fax: (+1)?650‐725‐0259 |
| |
Abstract: | We describe the development of templated fluorogenic chemistry for detection of specific sequences of duplex DNA in solution. In this approach, two modified homopyrimidine oligodeoxynucleotide probes are designed to bind by triple‐helix formation at adjacent positions on a specific purine‐rich target sequence of duplex DNA. One fluorescein‐labeled probe contains an α‐azidoether linker to a fluorescence quencher; the second (trigger) probe carries a triarylphosphine group that is designed to reduce the azide and cleave the linker. The data showed that at pH 5.6 these probes yielded a strong fluorescence signal within minutes on addition to a complementary homopurine duplex DNA target. The signal increased by a factor of about 60, and was completely dependent on the presence of the target DNA. Replacement of cytosine in the probes with pseudoisocytosine allowed the templated chemistry to proceed readily at pH 7. Single nucleotide mismatches in the target oligonucleotide slowed the templated reaction considerably; this demonstrated high sequence selectivity. The use of templated fluorogenic chemistry for detection of duplex DNAs has not been previously reported and could allow detection of double‐stranded DNA, at least for homopurine–homopyrimidine target sites, under native and nondenaturing conditions. |
| |
Keywords: | DNA recognition fluorescent probes nucleic acids templated chemistry triplexes |
|
|