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Conditionally fluorescent molecular probes for detecting single base changes in double-stranded DNA

2013; Nature Portfolio; Volume: 5; Issue: 9 Linguagem: Inglês

10.1038/nchem.1713

1755-4349

Sherry Xi Chen, David Y. Zhang, Georg Seelig,

DNA and Nucleic Acid Chemistry

Small variations in nucleic acid sequences can have far-reaching phenotypic consequences. Reliably distinguishing closely related sequences is therefore important for research and clinical applications. Here, we demonstrate that conditionally fluorescent DNA probes are capable of distinguishing variations of a single base in a stretch of target DNA. These probes use a novel programmable mechanism in which each single nucleotide polymorphism generates two thermodynamically destabilizing mismatch bubbles rather than the single mismatch formed during typical hybridization-based assays. Up to a 12,000-fold excess of a target that contains a single nucleotide polymorphism is required to generate the same fluorescence as one equivalent of the intended target, and detection works reliably over a wide range of conditions. Using these probes we detected point mutations in a 198 base-pair subsequence of the Escherichia coli rpoB gene. That our probes are constructed from multiple oligonucleotides circumvents synthesis limitations and enables long continuous DNA sequences to be probed. A molecular probe has been designed that distinguishes double-stranded DNA with single base-pair specificity. In this approach, two destabilizing bubbles, in which the base pairs are mismatched, are generated for each point mutation in the target DNA.